diff --git a/go.mod b/go.mod index edc1fe8..089de19 100644 --- a/go.mod +++ b/go.mod @@ -8,22 +8,34 @@ require ( github.com/go-chi/chi/v5 v5.0.5 ) -require github.com/unrolled/render v1.4.0 +require ( + github.com/go-chi/jwtauth/v5 v5.0.2 + github.com/unrolled/render v1.4.0 +) require ( + github.com/decred/dcrd/dcrec/secp256k1/v4 v4.0.0-20210816181553-5444fa50b93d // indirect github.com/fsnotify/fsnotify v1.4.9 // indirect github.com/gin-contrib/sse v0.1.0 // indirect github.com/go-playground/locales v0.13.0 // indirect github.com/go-playground/universal-translator v0.17.0 // indirect github.com/go-playground/validator/v10 v10.4.1 // indirect + github.com/goccy/go-json v0.7.6 // indirect github.com/golang/protobuf v1.3.3 // indirect github.com/json-iterator/go v1.1.9 // indirect github.com/leodido/go-urn v1.2.0 // indirect + github.com/lestrrat-go/backoff/v2 v2.0.8 // indirect + github.com/lestrrat-go/blackmagic v1.0.0 // indirect + github.com/lestrrat-go/httpcc v1.0.0 // indirect + github.com/lestrrat-go/iter v1.0.1 // indirect + github.com/lestrrat-go/jwx v1.2.6 // indirect + github.com/lestrrat-go/option v1.0.0 // indirect github.com/mattn/go-isatty v0.0.12 // indirect github.com/modern-go/concurrent v0.0.0-20180228061459-e0a39a4cb421 // indirect github.com/modern-go/reflect2 v0.0.0-20180701023420-4b7aa43c6742 // indirect + github.com/pkg/errors v0.9.1 // indirect github.com/ugorji/go/codec v1.1.7 // indirect - golang.org/x/crypto v0.0.0-20200622213623-75b288015ac9 // indirect + golang.org/x/crypto v0.0.0-20201217014255-9d1352758620 // indirect golang.org/x/sys v0.0.0-20210525143221-35b2ab0089ea // indirect gopkg.in/yaml.v2 v2.2.8 // indirect ) diff --git a/go.sum b/go.sum index 44f514b..1a4f658 100644 --- a/go.sum +++ b/go.sum @@ -1,6 +1,9 @@ github.com/davecgh/go-spew v1.1.0/go.mod h1:J7Y8YcW2NihsgmVo/mv3lAwl/skON4iLHjSsI+c5H38= github.com/davecgh/go-spew v1.1.1 h1:vj9j/u1bqnvCEfJOwUhtlOARqs3+rkHYY13jYWTU97c= github.com/davecgh/go-spew v1.1.1/go.mod h1:J7Y8YcW2NihsgmVo/mv3lAwl/skON4iLHjSsI+c5H38= +github.com/decred/dcrd/crypto/blake256 v1.0.0/go.mod h1:sQl2p6Y26YV+ZOcSTP6thNdn47hh8kt6rqSlvmrXFAc= +github.com/decred/dcrd/dcrec/secp256k1/v4 v4.0.0-20210816181553-5444fa50b93d h1:1iy2qD6JEhHKKhUOA9IWs7mjco7lnw2qx8FsRI2wirE= +github.com/decred/dcrd/dcrec/secp256k1/v4 v4.0.0-20210816181553-5444fa50b93d/go.mod h1:tmAIfUFEirG/Y8jhZ9M+h36obRZAk/1fcSpXwAVlfqE= github.com/fsnotify/fsnotify v1.4.9 h1:hsms1Qyu0jgnwNXIxa+/V/PDsU6CfLf6CNO8H7IWoS4= github.com/fsnotify/fsnotify v1.4.9/go.mod h1:znqG4EE+3YCdAaPaxE2ZRY/06pZUdp0tY4IgpuI1SZQ= github.com/gin-contrib/sse v0.1.0 h1:Y/yl/+YNO8GZSjAhjMsSuLt29uWRFHdHYUb5lYOV9qE= @@ -9,8 +12,11 @@ github.com/gin-gonic/gin v1.7.4 h1:QmUZXrvJ9qZ3GfWvQ+2wnW/1ePrTEJqPKMYEU3lD/DM= github.com/gin-gonic/gin v1.7.4/go.mod h1:jD2toBW3GZUr5UMcdrwQA10I7RuaFOl/SGeDjXkfUtY= github.com/go-chi/chi v1.5.4 h1:QHdzF2szwjqVV4wmByUnTcsbIg7UGaQ0tPF2t5GcAIs= github.com/go-chi/chi v1.5.4/go.mod h1:uaf8YgoFazUOkPBG7fxPftUylNumIev9awIWOENIuEg= +github.com/go-chi/chi/v5 v5.0.4/go.mod h1:DslCQbL2OYiznFReuXYUmQ2hGd1aDpCnlMNITLSKoi8= github.com/go-chi/chi/v5 v5.0.5 h1:l3RJ8T8TAqLsXFfah+RA6N4pydMbPwSdvNM+AFWvLUM= github.com/go-chi/chi/v5 v5.0.5/go.mod h1:DslCQbL2OYiznFReuXYUmQ2hGd1aDpCnlMNITLSKoi8= +github.com/go-chi/jwtauth/v5 v5.0.2 h1:CSKtr+b6Jnfy5T27sMaiBPxaVE/bjnjS3ramFQ0526w= +github.com/go-chi/jwtauth/v5 v5.0.2/go.mod h1:TeA7vmPe3uYThvHw8O8W13HOOpOd4MTgToxL41gZyjs= github.com/go-playground/assert/v2 v2.0.1 h1:MsBgLAaY856+nPRTKrp3/OZK38U/wa0CcBYNjji3q3A= github.com/go-playground/assert/v2 v2.0.1/go.mod h1:VDjEfimB/XKnb+ZQfWdccd7VUvScMdVu0Titje2rxJ4= github.com/go-playground/locales v0.13.0 h1:HyWk6mgj5qFqCT5fjGBuRArbVDfE4hi8+e8ceBS/t7Q= @@ -19,6 +25,8 @@ github.com/go-playground/universal-translator v0.17.0 h1:icxd5fm+REJzpZx7ZfpaD87 github.com/go-playground/universal-translator v0.17.0/go.mod h1:UkSxE5sNxxRwHyU+Scu5vgOQjsIJAF8j9muTVoKLVtA= github.com/go-playground/validator/v10 v10.4.1 h1:pH2c5ADXtd66mxoE0Zm9SUhxE20r7aM3F26W0hOn+GE= github.com/go-playground/validator/v10 v10.4.1/go.mod h1:nlOn6nFhuKACm19sB/8EGNn9GlaMV7XkbRSipzJ0Ii4= +github.com/goccy/go-json v0.7.6 h1:H0wq4jppBQ+9222sk5+hPLL25abZQiRuQ6YPnjO9c+A= +github.com/goccy/go-json v0.7.6/go.mod h1:6MelG93GURQebXPDq3khkgXZkazVtN9CRI+MGFi0w8I= github.com/golang/protobuf v1.3.3 h1:gyjaxf+svBWX08ZjK86iN9geUJF0H6gp2IRKX6Nf6/I= github.com/golang/protobuf v1.3.3/go.mod h1:vzj43D7+SQXF/4pzW/hwtAqwc6iTitCiVSaWz5lYuqw= github.com/google/gofuzz v1.0.0/go.mod h1:dBl0BpW6vV/+mYPU4Po3pmUjxk6FQPldtuIdl/M65Eg= @@ -26,40 +34,82 @@ github.com/json-iterator/go v1.1.9 h1:9yzud/Ht36ygwatGx56VwCZtlI/2AD15T1X2sjSuGn github.com/json-iterator/go v1.1.9/go.mod h1:KdQUCv79m/52Kvf8AW2vK1V8akMuk1QjK/uOdHXbAo4= github.com/leodido/go-urn v1.2.0 h1:hpXL4XnriNwQ/ABnpepYM/1vCLWNDfUNts8dX3xTG6Y= github.com/leodido/go-urn v1.2.0/go.mod h1:+8+nEpDfqqsY+g338gtMEUOtuK+4dEMhiQEgxpxOKII= +github.com/lestrrat-go/backoff/v2 v2.0.8 h1:oNb5E5isby2kiro9AgdHLv5N5tint1AnDVVf2E2un5A= +github.com/lestrrat-go/backoff/v2 v2.0.8/go.mod h1:rHP/q/r9aT27n24JQLa7JhSQZCKBBOiM/uP402WwN8Y= +github.com/lestrrat-go/blackmagic v1.0.0 h1:XzdxDbuQTz0RZZEmdU7cnQxUtFUzgCSPq8RCz4BxIi4= +github.com/lestrrat-go/blackmagic v1.0.0/go.mod h1:TNgH//0vYSs8VXDCfkZLgIrVTTXQELZffUV0tz3MtdQ= +github.com/lestrrat-go/codegen v1.0.1/go.mod h1:JhJw6OQAuPEfVKUCLItpaVLumDGWQznd1VaXrBk9TdM= +github.com/lestrrat-go/httpcc v1.0.0 h1:FszVC6cKfDvBKcJv646+lkh4GydQg2Z29scgUfkOpYc= +github.com/lestrrat-go/httpcc v1.0.0/go.mod h1:tGS/u00Vh5N6FHNkExqGGNId8e0Big+++0Gf8MBnAvE= +github.com/lestrrat-go/iter v1.0.1 h1:q8faalr2dY6o8bV45uwrxq12bRa1ezKrB6oM9FUgN4A= +github.com/lestrrat-go/iter v1.0.1/go.mod h1:zIdgO1mRKhn8l9vrZJZz9TUMMFbQbLeTsbqPDrJ/OJc= +github.com/lestrrat-go/jwx v1.2.6 h1:XAgfuHaOB7fDZ/6WhVgl8K89af768dU+3Nx4DlTbLIk= +github.com/lestrrat-go/jwx v1.2.6/go.mod h1:tJuGuAI3LC71IicTx82Mz1n3w9woAs2bYJZpkjJQ5aU= +github.com/lestrrat-go/option v1.0.0 h1:WqAWL8kh8VcSoD6xjSH34/1m8yxluXQbDeKNfvFeEO4= +github.com/lestrrat-go/option v1.0.0/go.mod h1:5ZHFbivi4xwXxhxY9XHDe2FHo6/Z7WWmtT7T5nBBp3I= github.com/mattn/go-isatty v0.0.12 h1:wuysRhFDzyxgEmMf5xjvJ2M9dZoWAXNNr5LSBS7uHXY= github.com/mattn/go-isatty v0.0.12/go.mod h1:cbi8OIDigv2wuxKPP5vlRcQ1OAZbq2CE4Kysco4FUpU= github.com/modern-go/concurrent v0.0.0-20180228061459-e0a39a4cb421 h1:ZqeYNhU3OHLH3mGKHDcjJRFFRrJa6eAM5H+CtDdOsPc= github.com/modern-go/concurrent v0.0.0-20180228061459-e0a39a4cb421/go.mod h1:6dJC0mAP4ikYIbvyc7fijjWJddQyLn8Ig3JB5CqoB9Q= github.com/modern-go/reflect2 v0.0.0-20180701023420-4b7aa43c6742 h1:Esafd1046DLDQ0W1YjYsBW+p8U2u7vzgW2SQVmlNazg= github.com/modern-go/reflect2 v0.0.0-20180701023420-4b7aa43c6742/go.mod h1:bx2lNnkwVCuqBIxFjflWJWanXIb3RllmbCylyMrvgv0= +github.com/pkg/errors v0.9.1 h1:FEBLx1zS214owpjy7qsBeixbURkuhQAwrK5UwLGTwt4= +github.com/pkg/errors v0.9.1/go.mod h1:bwawxfHBFNV+L2hUp1rHADufV3IMtnDRdf1r5NINEl0= github.com/pmezard/go-difflib v1.0.0 h1:4DBwDE0NGyQoBHbLQYPwSUPoCMWR5BEzIk/f1lZbAQM= github.com/pmezard/go-difflib v1.0.0/go.mod h1:iKH77koFhYxTK1pcRnkKkqfTogsbg7gZNVY4sRDYZ/4= github.com/stretchr/objx v0.1.0/go.mod h1:HFkY916IF+rwdDfMAkV7OtwuqBVzrE8GR6GFx+wExME= github.com/stretchr/testify v1.3.0/go.mod h1:M5WIy9Dh21IEIfnGCwXGc5bZfKNJtfHm1UVUgZn+9EI= github.com/stretchr/testify v1.4.0 h1:2E4SXV/wtOkTonXsotYi4li6zVWxYlZuYNCXe9XRJyk= github.com/stretchr/testify v1.4.0/go.mod h1:j7eGeouHqKxXV5pUuKE4zz7dFj8WfuZ+81PSLYec5m4= +github.com/stretchr/testify v1.5.1/go.mod h1:5W2xD1RspED5o8YsWQXVCued0rvSQ+mT+I5cxcmMvtA= +github.com/stretchr/testify v1.6.1/go.mod h1:6Fq8oRcR53rry900zMqJjRRixrwX3KX962/h/Wwjteg= +github.com/stretchr/testify v1.7.0/go.mod h1:6Fq8oRcR53rry900zMqJjRRixrwX3KX962/h/Wwjteg= github.com/ugorji/go v1.1.7 h1:/68gy2h+1mWMrwZFeD1kQialdSzAb432dtpeJ42ovdo= github.com/ugorji/go v1.1.7/go.mod h1:kZn38zHttfInRq0xu/PH0az30d+z6vm202qpg1oXVMw= github.com/ugorji/go/codec v1.1.7 h1:2SvQaVZ1ouYrrKKwoSk2pzd4A9evlKJb9oTL+OaLUSs= github.com/ugorji/go/codec v1.1.7/go.mod h1:Ax+UKWsSmolVDwsd+7N3ZtXu+yMGCf907BLYF3GoBXY= github.com/unrolled/render v1.4.0 h1:p73obhpsXuE3paXOtcuXTBKgBJpLCfmABnsUiO35x+Q= github.com/unrolled/render v1.4.0/go.mod h1:cK4RSTTVdND5j9EYEc0LAMOvdG11JeiKjyjfyZRvV2w= +github.com/yuin/goldmark v1.2.1/go.mod h1:3hX8gzYuyVAZsxl0MRgGTJEmQBFcNTphYh9decYSb74= golang.org/x/crypto v0.0.0-20190308221718-c2843e01d9a2/go.mod h1:djNgcEr1/C05ACkg1iLfiJU5Ep61QUkGW8qpdssI0+w= +golang.org/x/crypto v0.0.0-20191011191535-87dc89f01550/go.mod h1:yigFU9vqHzYiE8UmvKecakEJjdnWj3jj499lnFckfCI= golang.org/x/crypto v0.0.0-20200622213623-75b288015ac9 h1:psW17arqaxU48Z5kZ0CQnkZWQJsqcURM6tKiBApRjXI= golang.org/x/crypto v0.0.0-20200622213623-75b288015ac9/go.mod h1:LzIPMQfyMNhhGPhUkYOs5KpL4U8rLKemX1yGLhDgUto= +golang.org/x/crypto v0.0.0-20201217014255-9d1352758620 h1:3wPMTskHO3+O6jqTEXyFcsnuxMQOqYSaHsDxcbUXpqA= +golang.org/x/crypto v0.0.0-20201217014255-9d1352758620/go.mod h1:jdWPYTVW3xRLrWPugEBEK3UY2ZEsg3UU495nc5E+M+I= +golang.org/x/mod v0.3.0/go.mod h1:s0Qsj1ACt9ePp/hMypM3fl4fZqREWJwdYDEqhRiZZUA= +golang.org/x/mod v0.4.1/go.mod h1:s0Qsj1ACt9ePp/hMypM3fl4fZqREWJwdYDEqhRiZZUA= golang.org/x/net v0.0.0-20190404232315-eb5bcb51f2a3/go.mod h1:t9HGtf8HONx5eT2rtn7q6eTqICYqUVnKs3thJo3Qplg= +golang.org/x/net v0.0.0-20190620200207-3b0461eec859/go.mod h1:z5CRVTTTmAJ677TzLLGU+0bjPO0LkuOLi4/5GtJWs/s= +golang.org/x/net v0.0.0-20200822124328-c89045814202/go.mod h1:/O7V0waA8r7cgGh81Ro3o1hOxt32SMVPicZroKQ2sZA= +golang.org/x/net v0.0.0-20201021035429-f5854403a974/go.mod h1:sp8m0HH+o8qH0wwXwYZr8TS3Oi6o0r6Gce1SSxlDquU= +golang.org/x/sync v0.0.0-20190423024810-112230192c58/go.mod h1:RxMgew5VJxzue5/jJTE5uejpjVlOe/izrB70Jof72aM= +golang.org/x/sync v0.0.0-20200625203802-6e8e738ad208/go.mod h1:RxMgew5VJxzue5/jJTE5uejpjVlOe/izrB70Jof72aM= +golang.org/x/sync v0.0.0-20201020160332-67f06af15bc9/go.mod h1:RxMgew5VJxzue5/jJTE5uejpjVlOe/izrB70Jof72aM= golang.org/x/sys v0.0.0-20190215142949-d0b11bdaac8a/go.mod h1:STP8DvDyc/dI5b8T5hshtkjS+E42TnysNCUPdjciGhY= golang.org/x/sys v0.0.0-20190412213103-97732733099d/go.mod h1:h1NjWce9XRLGQEsW7wpKNCjG9DtNlClVuFLEZdDNbEs= golang.org/x/sys v0.0.0-20191005200804-aed5e4c7ecf9/go.mod h1:h1NjWce9XRLGQEsW7wpKNCjG9DtNlClVuFLEZdDNbEs= +golang.org/x/sys v0.0.0-20191026070338-33540a1f6037/go.mod h1:h1NjWce9XRLGQEsW7wpKNCjG9DtNlClVuFLEZdDNbEs= golang.org/x/sys v0.0.0-20200116001909-b77594299b42 h1:vEOn+mP2zCOVzKckCZy6YsCtDblrpj/w7B9nxGNELpg= golang.org/x/sys v0.0.0-20200116001909-b77594299b42/go.mod h1:h1NjWce9XRLGQEsW7wpKNCjG9DtNlClVuFLEZdDNbEs= +golang.org/x/sys v0.0.0-20200323222414-85ca7c5b95cd/go.mod h1:h1NjWce9XRLGQEsW7wpKNCjG9DtNlClVuFLEZdDNbEs= +golang.org/x/sys v0.0.0-20200930185726-fdedc70b468f/go.mod h1:h1NjWce9XRLGQEsW7wpKNCjG9DtNlClVuFLEZdDNbEs= golang.org/x/sys v0.0.0-20210525143221-35b2ab0089ea h1:+WiDlPBBaO+h9vPNZi8uJ3k4BkKQB7Iow3aqwHVA5hI= golang.org/x/sys v0.0.0-20210525143221-35b2ab0089ea/go.mod h1:oPkhp1MJrh7nUepCBck5+mAzfO9JrbApNNgaTdGDITg= +golang.org/x/term v0.0.0-20201117132131-f5c789dd3221/go.mod h1:Nr5EML6q2oocZ2LXRh80K7BxOlk5/8JxuGnuhpl+muw= golang.org/x/text v0.3.0/go.mod h1:NqM8EUOU14njkJ3fqMW+pc6Ldnwhi/IjpwHt7yyuwOQ= golang.org/x/text v0.3.2/go.mod h1:bEr9sfX3Q8Zfm5fL9x+3itogRgK3+ptLWKqgva+5dAk= +golang.org/x/text v0.3.3/go.mod h1:5Zoc/QRtKVWzQhOtBMvqHzDpF6irO9z98xDceosuGiQ= golang.org/x/tools v0.0.0-20180917221912-90fa682c2a6e/go.mod h1:n7NCudcB/nEzxVGmLbDWY5pfWTLqBcC2KZ6jyYvM4mQ= +golang.org/x/tools v0.0.0-20191119224855-298f0cb1881e/go.mod h1:b+2E5dAYhXwXZwtnZ6UAqBI28+e2cm9otk0dWdXHAEo= +golang.org/x/tools v0.0.0-20200918232735-d647fc253266/go.mod h1:z6u4i615ZeAfBE4XtMziQW1fSVJXACjjbWkB/mvPzlU= +golang.org/x/tools v0.0.0-20210114065538-d78b04bdf963/go.mod h1:emZCQorbCU4vsT4fOWvOPXz4eW1wZW4PmDk9uLelYpA= +golang.org/x/xerrors v0.0.0-20190717185122-a985d3407aa7/go.mod h1:I/5z698sn9Ka8TeJc9MKroUUfqBBauWjQqLJ2OPfmY0= +golang.org/x/xerrors v0.0.0-20191011141410-1b5146add898/go.mod h1:I/5z698sn9Ka8TeJc9MKroUUfqBBauWjQqLJ2OPfmY0= +golang.org/x/xerrors v0.0.0-20200804184101-5ec99f83aff1/go.mod h1:I/5z698sn9Ka8TeJc9MKroUUfqBBauWjQqLJ2OPfmY0= gopkg.in/check.v1 v0.0.0-20161208181325-20d25e280405 h1:yhCVgyC4o1eVCa2tZl7eS0r+SDo693bJlVdllGtEeKM= gopkg.in/check.v1 v0.0.0-20161208181325-20d25e280405/go.mod h1:Co6ibVJAznAaIkqp8huTwlJQCZ016jof/cbN4VW5Yz0= gopkg.in/yaml.v2 v2.2.2/go.mod h1:hI93XBmqTisBFMUTm0b8Fm+jr3Dg1NNxqwp+5A1VGuI= gopkg.in/yaml.v2 v2.2.8 h1:obN1ZagJSUGI0Ek/LBmuj4SNLPfIny3KsKFopxRdj10= gopkg.in/yaml.v2 v2.2.8/go.mod h1:hI93XBmqTisBFMUTm0b8Fm+jr3Dg1NNxqwp+5A1VGuI= +gopkg.in/yaml.v3 v3.0.0-20200313102051-9f266ea9e77c/go.mod h1:K4uyk7z7BCEPqu6E+C64Yfv1cQ7kz7rIZviUmN+EgEM= diff --git a/main.go b/main.go index f8c5044..7a8e64d 100644 --- a/main.go +++ b/main.go @@ -3,10 +3,12 @@ package main import ( "embed" "gin-test/pkg/sample" + "gin-test/pkg/user" "net/http" "github.com/go-chi/chi/v5" "github.com/go-chi/chi/v5/middleware" + "github.com/unrolled/render" ) @@ -31,6 +33,7 @@ func main() { render.HTML(w, http.StatusOK, "index", map[string]string {"title": "Soeren"}) }) sample.Register(r) + user.Register(r) }) diff --git a/pkg/user/templates/login.tmpl b/pkg/user/templates/login.tmpl new file mode 100644 index 0000000..34bce45 --- /dev/null +++ b/pkg/user/templates/login.tmpl @@ -0,0 +1,7 @@ +
+ + + + + +
\ No newline at end of file diff --git a/pkg/user/user.go b/pkg/user/user.go new file mode 100644 index 0000000..1d54dd1 --- /dev/null +++ b/pkg/user/user.go @@ -0,0 +1,129 @@ +package user + +import ( + "embed" + "errors" + "fmt" + "github.com/go-chi/chi/v5" + "github.com/go-chi/jwtauth/v5" + "github.com/unrolled/render" + "net/http" + "time" +) + +// content holds our static web server content. +//go:embed templates/* +var webserver embed.FS + +var ren *render.Render + + +var tokenAuth *jwtauth.JWTAuth + +func Register(router chi.Router) { + ren = render.New(render.Options{ + //Layout: "layout", + FileSystem: &render.EmbedFileSystem{ + FS: webserver, + }, + }) + + router.Get("/login", loginForm) + router.Post("/login", login) + router.Get("/register", loginForm) + router.Post("/register", register) + + tokenAuth = jwtauth.New("HS256", []byte("secret"), nil) + + router.Group(func(r chi.Router) { + r.Use(jwtauth.Verifier(tokenAuth)) + r.Get("/me", func(w http.ResponseWriter, r *http.Request) { + _, claims, _ := jwtauth.FromContext(r.Context()) + if val, ok := claims["username"]; ok { + w.Write([]byte(fmt.Sprintf("hi %v", val))) + } else { + w.Write([]byte("Du bist nicht eingeloggt")) + } + + }) + }) + + +} + +func loginForm(w http.ResponseWriter, r *http.Request) { + ren.HTML(w, http.StatusOK, "login", nil) +} + +func login(w http.ResponseWriter, r *http.Request) { + r.ParseForm() + + + uc := GetUserClient() + res, _ := uc.login(r.FormValue("username"), r.FormValue("password")) + if res { + + _, tokenstring, err := tokenAuth.Encode(map[string]interface{}{"username": r.FormValue("username")}) + if err != nil { + panic(err) + } + expiration := time.Now().Add(365 * 24 * time.Hour) + cookie := http.Cookie{Name: "jwt",Value:tokenstring,Expires:expiration} + http.SetCookie(w, &cookie) + w.Write([]byte("Login ok")) + } else { + w.Write([]byte("Login failed")) + } +} + +func register(w http.ResponseWriter, r *http.Request) { + r.ParseForm() + + + uc := GetUserClient() + res, _ := uc.register(r.FormValue("username"), r.FormValue("password")) + if res { + w.Write([]byte("Register ok")) + } else { + w.Write([]byte("Register failed")) + } +} + +type UserClient struct { + users map[string]string +} + +var u *UserClient + +func GetUserClient() *UserClient { + if u == nil { + uc := UserClient{} + uc.users = make(map[string]string) + uc.users["admin"]="password" + u = &uc + } + + return u +} + +func (uc *UserClient) register(username, password string) (bool, error) { + if _, ok := uc.users[username]; ok { + return false, errors.New("Username already used") + } + + uc.users[username] = password + return true, nil +} + +func (uc UserClient) login(username, password string) (bool, error) { + if val, ok := uc.users[username]; ok { + fmt.Println("Login for valide user") + if val == password { + return true, nil + } + } else { + fmt.Printf("User %v not found", username) + } + + return false, nil +} \ No newline at end of file diff --git a/templates/layout.tmpl b/templates/layout.tmpl index aa00fc6..6de5a51 100644 --- a/templates/layout.tmpl +++ b/templates/layout.tmpl @@ -10,7 +10,11 @@
- NAV +
{{ yield }}
diff --git a/vendor/github.com/decred/dcrd/dcrec/secp256k1/v4/LICENSE b/vendor/github.com/decred/dcrd/dcrec/secp256k1/v4/LICENSE new file mode 100644 index 0000000..d2d1dd9 --- /dev/null +++ b/vendor/github.com/decred/dcrd/dcrec/secp256k1/v4/LICENSE @@ -0,0 +1,17 @@ +ISC License + +Copyright (c) 2013-2017 The btcsuite developers +Copyright (c) 2015-2020 The Decred developers +Copyright (c) 2017 The Lightning Network Developers + +Permission to use, copy, modify, and distribute this software for any +purpose with or without fee is hereby granted, provided that the above +copyright notice and this permission notice appear in all copies. + +THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES +WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF +MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR +ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES +WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN +ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF +OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. diff --git a/vendor/github.com/decred/dcrd/dcrec/secp256k1/v4/README.md b/vendor/github.com/decred/dcrd/dcrec/secp256k1/v4/README.md new file mode 100644 index 0000000..4ae25db --- /dev/null +++ b/vendor/github.com/decred/dcrd/dcrec/secp256k1/v4/README.md @@ -0,0 +1,72 @@ +secp256k1 +========= + +[![Build Status](https://github.com/decred/dcrd/workflows/Build%20and%20Test/badge.svg)](https://github.com/decred/dcrd/actions) +[![ISC License](https://img.shields.io/badge/license-ISC-blue.svg)](http://copyfree.org) +[![Doc](https://img.shields.io/badge/doc-reference-blue.svg)](https://pkg.go.dev/github.com/decred/dcrd/dcrec/secp256k1/v4) + +Package secp256k1 implements optimized secp256k1 elliptic curve operations. + +This package provides an optimized pure Go implementation of elliptic curve +cryptography operations over the secp256k1 curve as well as data structures and +functions for working with public and private secp256k1 keys. See +https://www.secg.org/sec2-v2.pdf for details on the standard. + +In addition, sub packages are provided to produce, verify, parse, and serialize +ECDSA signatures and EC-Schnorr-DCRv0 (a custom Schnorr-based signature scheme +specific to Decred) signatures. See the README.md files in the relevant sub +packages for more details about those aspects. + +An overview of the features provided by this package are as follows: + +- Private key generation, serialization, and parsing +- Public key generation, serialization and parsing per ANSI X9.62-1998 + - Parses uncompressed, compressed, and hybrid public keys + - Serializes uncompressed and compressed public keys +- Specialized types for performing optimized and constant time field operations + - `FieldVal` type for working modulo the secp256k1 field prime + - `ModNScalar` type for working modulo the secp256k1 group order +- Elliptic curve operations in Jacobian projective coordinates + - Point addition + - Point doubling + - Scalar multiplication with an arbitrary point + - Scalar multiplication with the base point (group generator) +- Point decompression from a given x coordinate +- Nonce generation via RFC6979 with support for extra data and version + information that can be used to prevent nonce reuse between signing algorithms + +It also provides an implementation of the Go standard library `crypto/elliptic` +`Curve` interface via the `S256` function so that it may be used with other +packages in the standard library such as `crypto/tls`, `crypto/x509`, and +`crypto/ecdsa`. However, in the case of ECDSA, it is highly recommended to use +the `ecdsa` sub package of this package instead since it is optimized +specifically for secp256k1 and is significantly faster as a result. + +Although this package was primarily written for dcrd, it has intentionally been +designed so it can be used as a standalone package for any projects needing to +use optimized secp256k1 elliptic curve cryptography. + +Finally, a comprehensive suite of tests is provided to provide a high level of +quality assurance. + +## secp256k1 use in Decred + +At the time of this writing, the primary public key cryptography in widespread +use on the Decred network used to secure coins is based on elliptic curves +defined by the secp256k1 domain parameters. + +## Installation and Updating + +This package is part of the `github.com/decred/dcrd/dcrec/secp256k1/v3` module. +Use the standard go tooling for working with modules to incorporate it. + +## Examples + +* [Encryption](https://pkg.go.dev/github.com/decred/dcrd/dcrec/secp256k1/v4#example-package-EncryptDecryptMessage) + Demonstrates encrypting and decrypting a message using a shared key derived + through ECDHE. + +## License + +Package secp256k1 is licensed under the [copyfree](http://copyfree.org) ISC +License. diff --git a/vendor/github.com/decred/dcrd/dcrec/secp256k1/v4/compressedbytepoints.go b/vendor/github.com/decred/dcrd/dcrec/secp256k1/v4/compressedbytepoints.go new file mode 100644 index 0000000..ca4be12 --- /dev/null +++ b/vendor/github.com/decred/dcrd/dcrec/secp256k1/v4/compressedbytepoints.go @@ -0,0 +1,11 @@ +// Copyright (c) 2015 The btcsuite developers +// Copyright (c) 2015-2021 The Decred developers +// Use of this source code is governed by an ISC +// license that can be found in the LICENSE file. + +package secp256k1 + +// Auto-generated file (see genprecomps.go) +// DO NOT EDIT + +var compressedBytePoints = "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" diff --git a/vendor/github.com/decred/dcrd/dcrec/secp256k1/v4/curve.go b/vendor/github.com/decred/dcrd/dcrec/secp256k1/v4/curve.go new file mode 100644 index 0000000..e862060 --- /dev/null +++ b/vendor/github.com/decred/dcrd/dcrec/secp256k1/v4/curve.go @@ -0,0 +1,943 @@ +// Copyright (c) 2015-2021 The Decred developers +// Copyright 2013-2014 The btcsuite developers +// Use of this source code is governed by an ISC +// license that can be found in the LICENSE file. + +package secp256k1 + +import ( + "encoding/hex" + "math/big" +) + +// References: +// [SECG]: Recommended Elliptic Curve Domain Parameters +// https://www.secg.org/sec2-v2.pdf +// +// [GECC]: Guide to Elliptic Curve Cryptography (Hankerson, Menezes, Vanstone) +// +// [BRID]: On Binary Representations of Integers with Digits -1, 0, 1 +// (Prodinger, Helmut) + +// All group operations are performed using Jacobian coordinates. For a given +// (x, y) position on the curve, the Jacobian coordinates are (x1, y1, z1) +// where x = x1/z1^2 and y = y1/z1^3. + +// hexToFieldVal converts the passed hex string into a FieldVal and will panic +// if there is an error. This is only provided for the hard-coded constants so +// errors in the source code can be detected. It will only (and must only) be +// called with hard-coded values. +func hexToFieldVal(s string) *FieldVal { + b, err := hex.DecodeString(s) + if err != nil { + panic("invalid hex in source file: " + s) + } + var f FieldVal + if overflow := f.SetByteSlice(b); overflow { + panic("hex in source file overflows mod P: " + s) + } + return &f +} + +var ( + // Next 6 constants are from Hal Finney's bitcointalk.org post: + // https://bitcointalk.org/index.php?topic=3238.msg45565#msg45565 + // May he rest in peace. + // + // They have also been independently derived from the code in the + // EndomorphismVectors function in genstatics.go. + endomorphismLambda = fromHex("5363ad4cc05c30e0a5261c028812645a122e22ea20816678df02967c1b23bd72") + endomorphismBeta = hexToFieldVal("7ae96a2b657c07106e64479eac3434e99cf0497512f58995c1396c28719501ee") + endomorphismA1 = fromHex("3086d221a7d46bcde86c90e49284eb15") + endomorphismB1 = fromHex("-e4437ed6010e88286f547fa90abfe4c3") + endomorphismA2 = fromHex("114ca50f7a8e2f3f657c1108d9d44cfd8") + endomorphismB2 = fromHex("3086d221a7d46bcde86c90e49284eb15") + + // Alternatively, the following parameters are valid as well, however, they + // seem to be about 8% slower in practice. + // + // endomorphismLambda = fromHex("AC9C52B33FA3CF1F5AD9E3FD77ED9BA4A880B9FC8EC739C2E0CFC810B51283CE") + // endomorphismBeta = hexToFieldVal("851695D49A83F8EF919BB86153CBCB16630FB68AED0A766A3EC693D68E6AFA40") + // endomorphismA1 = fromHex("E4437ED6010E88286F547FA90ABFE4C3") + // endomorphismB1 = fromHex("-3086D221A7D46BCDE86C90E49284EB15") + // endomorphismA2 = fromHex("3086D221A7D46BCDE86C90E49284EB15") + // endomorphismB2 = fromHex("114CA50F7A8E2F3F657C1108D9D44CFD8") +) + +// JacobianPoint is an element of the group formed by the secp256k1 curve in +// Jacobian projective coordinates and thus represents a point on the curve. +type JacobianPoint struct { + // The X coordinate in Jacobian projective coordinates. The affine point is + // X/z^2. + X FieldVal + + // The Y coordinate in Jacobian projective coordinates. The affine point is + // Y/z^3. + Y FieldVal + + // The Z coordinate in Jacobian projective coordinates. + Z FieldVal +} + +// MakeJacobianPoint returns a Jacobian point with the provided X, Y, and Z +// coordinates. +func MakeJacobianPoint(x, y, z *FieldVal) JacobianPoint { + var p JacobianPoint + p.X.Set(x) + p.Y.Set(y) + p.Z.Set(z) + return p +} + +// Set sets the Jacobian point to the provided point. +func (p *JacobianPoint) Set(other *JacobianPoint) { + p.X.Set(&other.X) + p.Y.Set(&other.Y) + p.Z.Set(&other.Z) +} + +// ToAffine reduces the Z value of the existing point to 1 effectively +// making it an affine coordinate in constant time. The point will be +// normalized. +func (p *JacobianPoint) ToAffine() { + // Inversions are expensive and both point addition and point doubling + // are faster when working with points that have a z value of one. So, + // if the point needs to be converted to affine, go ahead and normalize + // the point itself at the same time as the calculation is the same. + var zInv, tempZ FieldVal + zInv.Set(&p.Z).Inverse() // zInv = Z^-1 + tempZ.SquareVal(&zInv) // tempZ = Z^-2 + p.X.Mul(&tempZ) // X = X/Z^2 (mag: 1) + p.Y.Mul(tempZ.Mul(&zInv)) // Y = Y/Z^3 (mag: 1) + p.Z.SetInt(1) // Z = 1 (mag: 1) + + // Normalize the x and y values. + p.X.Normalize() + p.Y.Normalize() +} + +// addZ1AndZ2EqualsOne adds two Jacobian points that are already known to have +// z values of 1 and stores the result in the provided result param. That is to +// say result = p1 + p2. It performs faster addition than the generic add +// routine since less arithmetic is needed due to the ability to avoid the z +// value multiplications. +// +// NOTE: The points must be normalized for this function to return the correct +// result. The resulting point will be normalized. +func addZ1AndZ2EqualsOne(p1, p2, result *JacobianPoint) { + // To compute the point addition efficiently, this implementation splits + // the equation into intermediate elements which are used to minimize + // the number of field multiplications using the method shown at: + // https://hyperelliptic.org/EFD/g1p/auto-shortw-jacobian-0.html#addition-mmadd-2007-bl + // + // In particular it performs the calculations using the following: + // H = X2-X1, HH = H^2, I = 4*HH, J = H*I, r = 2*(Y2-Y1), V = X1*I + // X3 = r^2-J-2*V, Y3 = r*(V-X3)-2*Y1*J, Z3 = 2*H + // + // This results in a cost of 4 field multiplications, 2 field squarings, + // 6 field additions, and 5 integer multiplications. + x1, y1 := &p1.X, &p1.Y + x2, y2 := &p2.X, &p2.Y + x3, y3, z3 := &result.X, &result.Y, &result.Z + + // When the x coordinates are the same for two points on the curve, the + // y coordinates either must be the same, in which case it is point + // doubling, or they are opposite and the result is the point at + // infinity per the group law for elliptic curve cryptography. + if x1.Equals(x2) { + if y1.Equals(y2) { + // Since x1 == x2 and y1 == y2, point doubling must be + // done, otherwise the addition would end up dividing + // by zero. + DoubleNonConst(p1, result) + return + } + + // Since x1 == x2 and y1 == -y2, the sum is the point at + // infinity per the group law. + x3.SetInt(0) + y3.SetInt(0) + z3.SetInt(0) + return + } + + // Calculate X3, Y3, and Z3 according to the intermediate elements + // breakdown above. + var h, i, j, r, v FieldVal + var negJ, neg2V, negX3 FieldVal + h.Set(x1).Negate(1).Add(x2) // H = X2-X1 (mag: 3) + i.SquareVal(&h).MulInt(4) // I = 4*H^2 (mag: 4) + j.Mul2(&h, &i) // J = H*I (mag: 1) + r.Set(y1).Negate(1).Add(y2).MulInt(2) // r = 2*(Y2-Y1) (mag: 6) + v.Mul2(x1, &i) // V = X1*I (mag: 1) + negJ.Set(&j).Negate(1) // negJ = -J (mag: 2) + neg2V.Set(&v).MulInt(2).Negate(2) // neg2V = -(2*V) (mag: 3) + x3.Set(&r).Square().Add(&negJ).Add(&neg2V) // X3 = r^2-J-2*V (mag: 6) + negX3.Set(x3).Negate(6) // negX3 = -X3 (mag: 7) + j.Mul(y1).MulInt(2).Negate(2) // J = -(2*Y1*J) (mag: 3) + y3.Set(&v).Add(&negX3).Mul(&r).Add(&j) // Y3 = r*(V-X3)-2*Y1*J (mag: 4) + z3.Set(&h).MulInt(2) // Z3 = 2*H (mag: 6) + + // Normalize the resulting field values to a magnitude of 1 as needed. + x3.Normalize() + y3.Normalize() + z3.Normalize() +} + +// addZ1EqualsZ2 adds two Jacobian points that are already known to have the +// same z value and stores the result in the provided result param. That is to +// say result = p1 + p2. It performs faster addition than the generic add +// routine since less arithmetic is needed due to the known equivalence. +// +// NOTE: The points must be normalized for this function to return the correct +// result. The resulting point will be normalized. +func addZ1EqualsZ2(p1, p2, result *JacobianPoint) { + // To compute the point addition efficiently, this implementation splits + // the equation into intermediate elements which are used to minimize + // the number of field multiplications using a slightly modified version + // of the method shown at: + // https://hyperelliptic.org/EFD/g1p/auto-shortw-jacobian-0.html#addition-mmadd-2007-bl + // + // In particular it performs the calculations using the following: + // A = X2-X1, B = A^2, C=Y2-Y1, D = C^2, E = X1*B, F = X2*B + // X3 = D-E-F, Y3 = C*(E-X3)-Y1*(F-E), Z3 = Z1*A + // + // This results in a cost of 5 field multiplications, 2 field squarings, + // 9 field additions, and 0 integer multiplications. + x1, y1, z1 := &p1.X, &p1.Y, &p1.Z + x2, y2 := &p2.X, &p2.Y + x3, y3, z3 := &result.X, &result.Y, &result.Z + + // When the x coordinates are the same for two points on the curve, the + // y coordinates either must be the same, in which case it is point + // doubling, or they are opposite and the result is the point at + // infinity per the group law for elliptic curve cryptography. + if x1.Equals(x2) { + if y1.Equals(y2) { + // Since x1 == x2 and y1 == y2, point doubling must be + // done, otherwise the addition would end up dividing + // by zero. + DoubleNonConst(p1, result) + return + } + + // Since x1 == x2 and y1 == -y2, the sum is the point at + // infinity per the group law. + x3.SetInt(0) + y3.SetInt(0) + z3.SetInt(0) + return + } + + // Calculate X3, Y3, and Z3 according to the intermediate elements + // breakdown above. + var a, b, c, d, e, f FieldVal + var negX1, negY1, negE, negX3 FieldVal + negX1.Set(x1).Negate(1) // negX1 = -X1 (mag: 2) + negY1.Set(y1).Negate(1) // negY1 = -Y1 (mag: 2) + a.Set(&negX1).Add(x2) // A = X2-X1 (mag: 3) + b.SquareVal(&a) // B = A^2 (mag: 1) + c.Set(&negY1).Add(y2) // C = Y2-Y1 (mag: 3) + d.SquareVal(&c) // D = C^2 (mag: 1) + e.Mul2(x1, &b) // E = X1*B (mag: 1) + negE.Set(&e).Negate(1) // negE = -E (mag: 2) + f.Mul2(x2, &b) // F = X2*B (mag: 1) + x3.Add2(&e, &f).Negate(3).Add(&d) // X3 = D-E-F (mag: 5) + negX3.Set(x3).Negate(5).Normalize() // negX3 = -X3 (mag: 1) + y3.Set(y1).Mul(f.Add(&negE)).Negate(3) // Y3 = -(Y1*(F-E)) (mag: 4) + y3.Add(e.Add(&negX3).Mul(&c)) // Y3 = C*(E-X3)+Y3 (mag: 5) + z3.Mul2(z1, &a) // Z3 = Z1*A (mag: 1) + + // Normalize the resulting field values to a magnitude of 1 as needed. + x3.Normalize() + y3.Normalize() + z3.Normalize() +} + +// addZ2EqualsOne adds two Jacobian points when the second point is already +// known to have a z value of 1 (and the z value for the first point is not 1) +// and stores the result in the provided result param. That is to say result = +// p1 + p2. It performs faster addition than the generic add routine since +// less arithmetic is needed due to the ability to avoid multiplications by the +// second point's z value. +// +// NOTE: The points must be normalized for this function to return the correct +// result. The resulting point will be normalized. +func addZ2EqualsOne(p1, p2, result *JacobianPoint) { + // To compute the point addition efficiently, this implementation splits + // the equation into intermediate elements which are used to minimize + // the number of field multiplications using the method shown at: + // https://hyperelliptic.org/EFD/g1p/auto-shortw-jacobian-0.html#addition-madd-2007-bl + // + // In particular it performs the calculations using the following: + // Z1Z1 = Z1^2, U2 = X2*Z1Z1, S2 = Y2*Z1*Z1Z1, H = U2-X1, HH = H^2, + // I = 4*HH, J = H*I, r = 2*(S2-Y1), V = X1*I + // X3 = r^2-J-2*V, Y3 = r*(V-X3)-2*Y1*J, Z3 = (Z1+H)^2-Z1Z1-HH + // + // This results in a cost of 7 field multiplications, 4 field squarings, + // 9 field additions, and 4 integer multiplications. + x1, y1, z1 := &p1.X, &p1.Y, &p1.Z + x2, y2 := &p2.X, &p2.Y + x3, y3, z3 := &result.X, &result.Y, &result.Z + + // When the x coordinates are the same for two points on the curve, the + // y coordinates either must be the same, in which case it is point + // doubling, or they are opposite and the result is the point at + // infinity per the group law for elliptic curve cryptography. Since + // any number of Jacobian coordinates can represent the same affine + // point, the x and y values need to be converted to like terms. Due to + // the assumption made for this function that the second point has a z + // value of 1 (z2=1), the first point is already "converted". + var z1z1, u2, s2 FieldVal + z1z1.SquareVal(z1) // Z1Z1 = Z1^2 (mag: 1) + u2.Set(x2).Mul(&z1z1).Normalize() // U2 = X2*Z1Z1 (mag: 1) + s2.Set(y2).Mul(&z1z1).Mul(z1).Normalize() // S2 = Y2*Z1*Z1Z1 (mag: 1) + if x1.Equals(&u2) { + if y1.Equals(&s2) { + // Since x1 == x2 and y1 == y2, point doubling must be + // done, otherwise the addition would end up dividing + // by zero. + DoubleNonConst(p1, result) + return + } + + // Since x1 == x2 and y1 == -y2, the sum is the point at + // infinity per the group law. + x3.SetInt(0) + y3.SetInt(0) + z3.SetInt(0) + return + } + + // Calculate X3, Y3, and Z3 according to the intermediate elements + // breakdown above. + var h, hh, i, j, r, rr, v FieldVal + var negX1, negY1, negX3 FieldVal + negX1.Set(x1).Negate(1) // negX1 = -X1 (mag: 2) + h.Add2(&u2, &negX1) // H = U2-X1 (mag: 3) + hh.SquareVal(&h) // HH = H^2 (mag: 1) + i.Set(&hh).MulInt(4) // I = 4 * HH (mag: 4) + j.Mul2(&h, &i) // J = H*I (mag: 1) + negY1.Set(y1).Negate(1) // negY1 = -Y1 (mag: 2) + r.Set(&s2).Add(&negY1).MulInt(2) // r = 2*(S2-Y1) (mag: 6) + rr.SquareVal(&r) // rr = r^2 (mag: 1) + v.Mul2(x1, &i) // V = X1*I (mag: 1) + x3.Set(&v).MulInt(2).Add(&j).Negate(3) // X3 = -(J+2*V) (mag: 4) + x3.Add(&rr) // X3 = r^2+X3 (mag: 5) + negX3.Set(x3).Negate(5) // negX3 = -X3 (mag: 6) + y3.Set(y1).Mul(&j).MulInt(2).Negate(2) // Y3 = -(2*Y1*J) (mag: 3) + y3.Add(v.Add(&negX3).Mul(&r)) // Y3 = r*(V-X3)+Y3 (mag: 4) + z3.Add2(z1, &h).Square() // Z3 = (Z1+H)^2 (mag: 1) + z3.Add(z1z1.Add(&hh).Negate(2)) // Z3 = Z3-(Z1Z1+HH) (mag: 4) + + // Normalize the resulting field values to a magnitude of 1 as needed. + x3.Normalize() + y3.Normalize() + z3.Normalize() +} + +// addGeneric adds two Jacobian points without any assumptions about the z +// values of the two points and stores the result in the provided result param. +// That is to say result = p1 + p2. It is the slowest of the add routines due +// to requiring the most arithmetic. +// +// NOTE: The points must be normalized for this function to return the correct +// result. The resulting point will be normalized. +func addGeneric(p1, p2, result *JacobianPoint) { + // To compute the point addition efficiently, this implementation splits + // the equation into intermediate elements which are used to minimize + // the number of field multiplications using the method shown at: + // https://hyperelliptic.org/EFD/g1p/auto-shortw-jacobian-0.html#addition-add-2007-bl + // + // In particular it performs the calculations using the following: + // Z1Z1 = Z1^2, Z2Z2 = Z2^2, U1 = X1*Z2Z2, U2 = X2*Z1Z1, S1 = Y1*Z2*Z2Z2 + // S2 = Y2*Z1*Z1Z1, H = U2-U1, I = (2*H)^2, J = H*I, r = 2*(S2-S1) + // V = U1*I + // X3 = r^2-J-2*V, Y3 = r*(V-X3)-2*S1*J, Z3 = ((Z1+Z2)^2-Z1Z1-Z2Z2)*H + // + // This results in a cost of 11 field multiplications, 5 field squarings, + // 9 field additions, and 4 integer multiplications. + x1, y1, z1 := &p1.X, &p1.Y, &p1.Z + x2, y2, z2 := &p2.X, &p2.Y, &p2.Z + x3, y3, z3 := &result.X, &result.Y, &result.Z + + // When the x coordinates are the same for two points on the curve, the + // y coordinates either must be the same, in which case it is point + // doubling, or they are opposite and the result is the point at + // infinity. Since any number of Jacobian coordinates can represent the + // same affine point, the x and y values need to be converted to like + // terms. + var z1z1, z2z2, u1, u2, s1, s2 FieldVal + z1z1.SquareVal(z1) // Z1Z1 = Z1^2 (mag: 1) + z2z2.SquareVal(z2) // Z2Z2 = Z2^2 (mag: 1) + u1.Set(x1).Mul(&z2z2).Normalize() // U1 = X1*Z2Z2 (mag: 1) + u2.Set(x2).Mul(&z1z1).Normalize() // U2 = X2*Z1Z1 (mag: 1) + s1.Set(y1).Mul(&z2z2).Mul(z2).Normalize() // S1 = Y1*Z2*Z2Z2 (mag: 1) + s2.Set(y2).Mul(&z1z1).Mul(z1).Normalize() // S2 = Y2*Z1*Z1Z1 (mag: 1) + if u1.Equals(&u2) { + if s1.Equals(&s2) { + // Since x1 == x2 and y1 == y2, point doubling must be + // done, otherwise the addition would end up dividing + // by zero. + DoubleNonConst(p1, result) + return + } + + // Since x1 == x2 and y1 == -y2, the sum is the point at + // infinity per the group law. + x3.SetInt(0) + y3.SetInt(0) + z3.SetInt(0) + return + } + + // Calculate X3, Y3, and Z3 according to the intermediate elements + // breakdown above. + var h, i, j, r, rr, v FieldVal + var negU1, negS1, negX3 FieldVal + negU1.Set(&u1).Negate(1) // negU1 = -U1 (mag: 2) + h.Add2(&u2, &negU1) // H = U2-U1 (mag: 3) + i.Set(&h).MulInt(2).Square() // I = (2*H)^2 (mag: 2) + j.Mul2(&h, &i) // J = H*I (mag: 1) + negS1.Set(&s1).Negate(1) // negS1 = -S1 (mag: 2) + r.Set(&s2).Add(&negS1).MulInt(2) // r = 2*(S2-S1) (mag: 6) + rr.SquareVal(&r) // rr = r^2 (mag: 1) + v.Mul2(&u1, &i) // V = U1*I (mag: 1) + x3.Set(&v).MulInt(2).Add(&j).Negate(3) // X3 = -(J+2*V) (mag: 4) + x3.Add(&rr) // X3 = r^2+X3 (mag: 5) + negX3.Set(x3).Negate(5) // negX3 = -X3 (mag: 6) + y3.Mul2(&s1, &j).MulInt(2).Negate(2) // Y3 = -(2*S1*J) (mag: 3) + y3.Add(v.Add(&negX3).Mul(&r)) // Y3 = r*(V-X3)+Y3 (mag: 4) + z3.Add2(z1, z2).Square() // Z3 = (Z1+Z2)^2 (mag: 1) + z3.Add(z1z1.Add(&z2z2).Negate(2)) // Z3 = Z3-(Z1Z1+Z2Z2) (mag: 4) + z3.Mul(&h) // Z3 = Z3*H (mag: 1) + + // Normalize the resulting field values to a magnitude of 1 as needed. + x3.Normalize() + y3.Normalize() + z3.Normalize() +} + +// AddNonConst adds the passed Jacobian points together and stores the result in +// the provided result param in *non-constant* time. +// +// NOTE: The points must be normalized for this function to return the correct +// result. The resulting point will be normalized. +func AddNonConst(p1, p2, result *JacobianPoint) { + // A point at infinity is the identity according to the group law for + // elliptic curve cryptography. Thus, ∞ + P = P and P + ∞ = P. + if (p1.X.IsZero() && p1.Y.IsZero()) || p1.Z.IsZero() { + result.Set(p2) + return + } + if (p2.X.IsZero() && p2.Y.IsZero()) || p2.Z.IsZero() { + result.Set(p1) + return + } + + // Faster point addition can be achieved when certain assumptions are + // met. For example, when both points have the same z value, arithmetic + // on the z values can be avoided. This section thus checks for these + // conditions and calls an appropriate add function which is accelerated + // by using those assumptions. + isZ1One := p1.Z.IsOne() + isZ2One := p2.Z.IsOne() + switch { + case isZ1One && isZ2One: + addZ1AndZ2EqualsOne(p1, p2, result) + return + case p1.Z.Equals(&p2.Z): + addZ1EqualsZ2(p1, p2, result) + return + case isZ2One: + addZ2EqualsOne(p1, p2, result) + return + } + + // None of the above assumptions are true, so fall back to generic + // point addition. + addGeneric(p1, p2, result) +} + +// doubleZ1EqualsOne performs point doubling on the passed Jacobian point when +// the point is already known to have a z value of 1 and stores the result in +// the provided result param. That is to say result = 2*p. It performs faster +// point doubling than the generic routine since less arithmetic is needed due +// to the ability to avoid multiplication by the z value. +// +// NOTE: The resulting point will be normalized. +func doubleZ1EqualsOne(p, result *JacobianPoint) { + // This function uses the assumptions that z1 is 1, thus the point + // doubling formulas reduce to: + // + // X3 = (3*X1^2)^2 - 8*X1*Y1^2 + // Y3 = (3*X1^2)*(4*X1*Y1^2 - X3) - 8*Y1^4 + // Z3 = 2*Y1 + // + // To compute the above efficiently, this implementation splits the + // equation into intermediate elements which are used to minimize the + // number of field multiplications in favor of field squarings which + // are roughly 35% faster than field multiplications with the current + // implementation at the time this was written. + // + // This uses a slightly modified version of the method shown at: + // https://hyperelliptic.org/EFD/g1p/auto-shortw-jacobian-0.html#doubling-mdbl-2007-bl + // + // In particular it performs the calculations using the following: + // A = X1^2, B = Y1^2, C = B^2, D = 2*((X1+B)^2-A-C) + // E = 3*A, F = E^2, X3 = F-2*D, Y3 = E*(D-X3)-8*C + // Z3 = 2*Y1 + // + // This results in a cost of 1 field multiplication, 5 field squarings, + // 6 field additions, and 5 integer multiplications. + x1, y1 := &p.X, &p.Y + x3, y3, z3 := &result.X, &result.Y, &result.Z + var a, b, c, d, e, f FieldVal + z3.Set(y1).MulInt(2) // Z3 = 2*Y1 (mag: 2) + a.SquareVal(x1) // A = X1^2 (mag: 1) + b.SquareVal(y1) // B = Y1^2 (mag: 1) + c.SquareVal(&b) // C = B^2 (mag: 1) + b.Add(x1).Square() // B = (X1+B)^2 (mag: 1) + d.Set(&a).Add(&c).Negate(2) // D = -(A+C) (mag: 3) + d.Add(&b).MulInt(2) // D = 2*(B+D)(mag: 8) + e.Set(&a).MulInt(3) // E = 3*A (mag: 3) + f.SquareVal(&e) // F = E^2 (mag: 1) + x3.Set(&d).MulInt(2).Negate(16) // X3 = -(2*D) (mag: 17) + x3.Add(&f) // X3 = F+X3 (mag: 18) + f.Set(x3).Negate(18).Add(&d).Normalize() // F = D-X3 (mag: 1) + y3.Set(&c).MulInt(8).Negate(8) // Y3 = -(8*C) (mag: 9) + y3.Add(f.Mul(&e)) // Y3 = E*F+Y3 (mag: 10) + + // Normalize the field values back to a magnitude of 1. + x3.Normalize() + y3.Normalize() + z3.Normalize() +} + +// doubleGeneric performs point doubling on the passed Jacobian point without +// any assumptions about the z value and stores the result in the provided +// result param. That is to say result = 2*p. It is the slowest of the point +// doubling routines due to requiring the most arithmetic. +// +// NOTE: The resulting point will be normalized. +func doubleGeneric(p, result *JacobianPoint) { + // Point doubling formula for Jacobian coordinates for the secp256k1 + // curve: + // + // X3 = (3*X1^2)^2 - 8*X1*Y1^2 + // Y3 = (3*X1^2)*(4*X1*Y1^2 - X3) - 8*Y1^4 + // Z3 = 2*Y1*Z1 + // + // To compute the above efficiently, this implementation splits the + // equation into intermediate elements which are used to minimize the + // number of field multiplications in favor of field squarings which + // are roughly 35% faster than field multiplications with the current + // implementation at the time this was written. + // + // This uses a slightly modified version of the method shown at: + // https://hyperelliptic.org/EFD/g1p/auto-shortw-jacobian-0.html#doubling-dbl-2009-l + // + // In particular it performs the calculations using the following: + // A = X1^2, B = Y1^2, C = B^2, D = 2*((X1+B)^2-A-C) + // E = 3*A, F = E^2, X3 = F-2*D, Y3 = E*(D-X3)-8*C + // Z3 = 2*Y1*Z1 + // + // This results in a cost of 1 field multiplication, 5 field squarings, + // 6 field additions, and 5 integer multiplications. + x1, y1, z1 := &p.X, &p.Y, &p.Z + x3, y3, z3 := &result.X, &result.Y, &result.Z + var a, b, c, d, e, f FieldVal + z3.Mul2(y1, z1).MulInt(2) // Z3 = 2*Y1*Z1 (mag: 2) + a.SquareVal(x1) // A = X1^2 (mag: 1) + b.SquareVal(y1) // B = Y1^2 (mag: 1) + c.SquareVal(&b) // C = B^2 (mag: 1) + b.Add(x1).Square() // B = (X1+B)^2 (mag: 1) + d.Set(&a).Add(&c).Negate(2) // D = -(A+C) (mag: 3) + d.Add(&b).MulInt(2) // D = 2*(B+D)(mag: 8) + e.Set(&a).MulInt(3) // E = 3*A (mag: 3) + f.SquareVal(&e) // F = E^2 (mag: 1) + x3.Set(&d).MulInt(2).Negate(16) // X3 = -(2*D) (mag: 17) + x3.Add(&f) // X3 = F+X3 (mag: 18) + f.Set(x3).Negate(18).Add(&d).Normalize() // F = D-X3 (mag: 1) + y3.Set(&c).MulInt(8).Negate(8) // Y3 = -(8*C) (mag: 9) + y3.Add(f.Mul(&e)) // Y3 = E*F+Y3 (mag: 10) + + // Normalize the field values back to a magnitude of 1. + x3.Normalize() + y3.Normalize() + z3.Normalize() +} + +// DoubleNonConst doubles the passed Jacobian point and stores the result in the +// provided result parameter in *non-constant* time. +// +// NOTE: The point must be normalized for this function to return the correct +// result. The resulting point will be normalized. +func DoubleNonConst(p, result *JacobianPoint) { + // Doubling a point at infinity is still infinity. + if p.Y.IsZero() || p.Z.IsZero() { + result.X.SetInt(0) + result.Y.SetInt(0) + result.Z.SetInt(0) + return + } + + // Slightly faster point doubling can be achieved when the z value is 1 + // by avoiding the multiplication on the z value. This section calls + // a point doubling function which is accelerated by using that + // assumption when possible. + if p.Z.IsOne() { + doubleZ1EqualsOne(p, result) + return + } + + // Fall back to generic point doubling which works with arbitrary z + // values. + doubleGeneric(p, result) +} + +// splitK returns a balanced length-two representation of k and their signs. +// This is algorithm 3.74 from [GECC]. +// +// One thing of note about this algorithm is that no matter what c1 and c2 are, +// the final equation of k = k1 + k2 * lambda (mod n) will hold. This is +// provable mathematically due to how a1/b1/a2/b2 are computed. +// +// c1 and c2 are chosen to minimize the max(k1,k2). +func splitK(k []byte) ([]byte, []byte, int, int) { + // All math here is done with big.Int, which is slow. + // At some point, it might be useful to write something similar to + // FieldVal but for N instead of P as the prime field if this ends up + // being a bottleneck. + bigIntK := new(big.Int) + c1, c2 := new(big.Int), new(big.Int) + tmp1, tmp2 := new(big.Int), new(big.Int) + k1, k2 := new(big.Int), new(big.Int) + + bigIntK.SetBytes(k) + // c1 = round(b2 * k / n) from step 4. + // Rounding isn't really necessary and costs too much, hence skipped + c1.Mul(endomorphismB2, bigIntK) + c1.Div(c1, curveParams.N) + // c2 = round(b1 * k / n) from step 4 (sign reversed to optimize one step) + // Rounding isn't really necessary and costs too much, hence skipped + c2.Mul(endomorphismB1, bigIntK) + c2.Div(c2, curveParams.N) + // k1 = k - c1 * a1 - c2 * a2 from step 5 (note c2's sign is reversed) + tmp1.Mul(c1, endomorphismA1) + tmp2.Mul(c2, endomorphismA2) + k1.Sub(bigIntK, tmp1) + k1.Add(k1, tmp2) + // k2 = - c1 * b1 - c2 * b2 from step 5 (note c2's sign is reversed) + tmp1.Mul(c1, endomorphismB1) + tmp2.Mul(c2, endomorphismB2) + k2.Sub(tmp2, tmp1) + + // Note Bytes() throws out the sign of k1 and k2. This matters + // since k1 and/or k2 can be negative. Hence, we pass that + // back separately. + return k1.Bytes(), k2.Bytes(), k1.Sign(), k2.Sign() +} + +// nafScalar represents a positive integer up to a maximum value of 2^256 - 1 +// encoded in non-adjacent form. +// +// NAF is a signed-digit representation where each digit can be +1, 0, or -1. +// +// In order to efficiently encode that information, this type uses two arrays, a +// "positive" array where set bits represent the +1 signed digits and a +// "negative" array where set bits represent the -1 signed digits. 0 is +// represented by neither array having a bit set in that position. +// +// The Pos and Neg methods return the aforementioned positive and negative +// arrays, respectively. +type nafScalar struct { + // pos houses the positive portion of the representation. An additional + // byte is required for the positive portion because the NAF encoding can be + // up to 1 bit longer than the normal binary encoding of the value. + // + // neg houses the negative portion of the representation. Even though the + // additional byte is not required for the negative portion, since it can + // never exceed the length of the normal binary encoding of the value, + // keeping the same length for positive and negative portions simplifies + // working with the representation and allows extra conditional branches to + // be avoided. + // + // start and end specify the starting and ending index to use within the pos + // and neg arrays, respectively. This allows fixed size arrays to be used + // versus needing to dynamically allocate space on the heap. + // + // NOTE: The fields are defined in the order that they are to minimize the + // padding on 32-bit and 64-bit platforms. + pos [33]byte + start, end uint8 + neg [33]byte +} + +// Pos returns the bytes of the encoded value with bits set in the positions +// that represent a signed digit of +1. +func (s *nafScalar) Pos() []byte { + return s.pos[s.start:s.end] +} + +// Neg returns the bytes of the encoded value with bits set in the positions +// that represent a signed digit of -1. +func (s *nafScalar) Neg() []byte { + return s.neg[s.start:s.end] +} + +// naf takes a positive integer up to a maximum value of 2^256 - 1 and returns +// its non-adjacent form (NAF), which is a unique signed-digit representation +// such that no two consecutive digits are nonzero. See the documentation for +// the returned type for details on how the representation is encoded +// efficiently and how to interpret it +// +// NAF is useful in that it has the fewest nonzero digits of any signed digit +// representation, only 1/3rd of its digits are nonzero on average, and at least +// half of the digits will be 0. +// +// The aforementioned properties are particularly beneficial for optimizing +// elliptic curve point multiplication because they effectively minimize the +// number of required point additions in exchange for needing to perform a mix +// of fewer point additions and subtractions and possibly one additional point +// doubling. This is an excellent tradeoff because subtraction of points has +// the same computational complexity as addition of points and point doubling is +// faster than both. +func naf(k []byte) nafScalar { + // Strip leading zero bytes. + for len(k) > 0 && k[0] == 0x00 { + k = k[1:] + } + + // The non-adjacent form (NAF) of a positive integer k is an expression + // k = ∑_(i=0, l-1) k_i * 2^i where k_i ∈ {0,±1}, k_(l-1) != 0, and no two + // consecutive digits k_i are nonzero. + // + // The traditional method of computing the NAF of a positive integer is + // given by algorithm 3.30 in [GECC]. It consists of repeatedly dividing k + // by 2 and choosing the remainder so that the quotient (k−r)/2 is even + // which ensures the next NAF digit is 0. This requires log_2(k) steps. + // + // However, in [BRID], Prodinger notes that a closed form expression for the + // NAF representation is the bitwise difference 3k/2 - k/2. This is more + // efficient as it can be computed in O(1) versus the O(log(n)) of the + // traditional approach. + // + // The following code makes use of that formula to compute the NAF more + // efficiently. + // + // To understand the logic here, observe that the only way the NAF has a + // nonzero digit at a given bit is when either 3k/2 or k/2 has a bit set in + // that position, but not both. In other words, the result of a bitwise + // xor. This can be seen simply by considering that when the bits are the + // same, the subtraction is either 0-0 or 1-1, both of which are 0. + // + // Further, observe that the "+1" digits in the result are contributed by + // 3k/2 while the "-1" digits are from k/2. So, they can be determined by + // taking the bitwise and of each respective value with the result of the + // xor which identifies which bits are nonzero. + // + // Using that information, this loops backwards from the least significant + // byte to the most significant byte while performing the aforementioned + // calculations by propagating the potential carry and high order bit from + // the next word during the right shift. + kLen := len(k) + var result nafScalar + var carry uint8 + for byteNum := kLen - 1; byteNum >= 0; byteNum-- { + // Calculate k/2. Notice the carry from the previous word is added and + // the low order bit from the next word is shifted in accordingly. + kc := uint16(k[byteNum]) + uint16(carry) + var nextWord uint8 + if byteNum > 0 { + nextWord = k[byteNum-1] + } + halfK := kc>>1 | uint16(nextWord<<7) + + // Calculate 3k/2 and determine the non-zero digits in the result. + threeHalfK := kc + halfK + nonZeroResultDigits := threeHalfK ^ halfK + + // Determine the signed digits {0, ±1}. + result.pos[byteNum+1] = uint8(threeHalfK & nonZeroResultDigits) + result.neg[byteNum+1] = uint8(halfK & nonZeroResultDigits) + + // Propagate the potential carry from the 3k/2 calculation. + carry = uint8(threeHalfK >> 8) + } + result.pos[0] = carry + + // Set the starting and ending positions within the fixed size arrays to + // identify the bytes that are actually used. This is important since the + // encoding is big endian and thus trailing zero bytes changes its value. + result.start = 1 - carry + result.end = uint8(kLen + 1) + return result +} + +// ScalarMultNonConst multiplies k*P where k is a big endian integer modulo the +// curve order and P is a point in Jacobian projective coordinates and stores +// the result in the provided Jacobian point. +// +// NOTE: The point must be normalized for this function to return the correct +// result. The resulting point will be normalized. +func ScalarMultNonConst(k *ModNScalar, point, result *JacobianPoint) { + // Decompose K into k1 and k2 in order to halve the number of EC ops. + // See Algorithm 3.74 in [GECC]. + kBytes := k.Bytes() + k1, k2, signK1, signK2 := splitK(kBytes[:]) + zeroArray32(&kBytes) + + // The main equation here to remember is: + // k * P = k1 * P + k2 * ϕ(P) + // + // P1 below is P in the equation, P2 below is ϕ(P) in the equation + p1, p1Neg := new(JacobianPoint), new(JacobianPoint) + p1.Set(point) + p1Neg.Set(p1) + p1Neg.Y.Negate(1).Normalize() + + // NOTE: ϕ(x,y) = (βx,y). The Jacobian z coordinates are the same, so this + // math goes through. + p2, p2Neg := new(JacobianPoint), new(JacobianPoint) + p2.Set(p1) + p2.X.Mul(endomorphismBeta).Normalize() + p2Neg.Set(p2) + p2Neg.Y.Negate(1).Normalize() + + // Flip the positive and negative values of the points as needed + // depending on the signs of k1 and k2. As mentioned in the equation + // above, each of k1 and k2 are multiplied by the respective point. + // Since -k * P is the same thing as k * -P, and the group law for + // elliptic curves states that P(x, y) = -P(x, -y), it's faster and + // simplifies the code to just make the point negative. + if signK1 == -1 { + p1, p1Neg = p1Neg, p1 + } + if signK2 == -1 { + p2, p2Neg = p2Neg, p2 + } + + // NAF versions of k1 and k2 should have a lot more zeros. + // + // The Pos version of the bytes contain the +1s and the Neg versions + // contain the -1s. + k1NAF, k2NAF := naf(k1), naf(k2) + k1PosNAF, k1NegNAF := k1NAF.Pos(), k1NAF.Neg() + k2PosNAF, k2NegNAF := k2NAF.Pos(), k2NAF.Neg() + k1Len, k2Len := len(k1PosNAF), len(k2PosNAF) + + m := k1Len + if m < k2Len { + m = k2Len + } + + // Point Q = ∞ (point at infinity). + var q JacobianPoint + + // Add left-to-right using the NAF optimization. See algorithm 3.77 + // from [GECC]. This should be faster overall since there will be a lot + // more instances of 0, hence reducing the number of Jacobian additions + // at the cost of 1 possible extra doubling. + for i := 0; i < m; i++ { + // Since k1 and k2 are potentially different lengths and the calculation + // is being done left to right, pad the front of the shorter one with + // 0s. + var k1BytePos, k1ByteNeg, k2BytePos, k2ByteNeg byte + if i >= m-k1Len { + k1BytePos, k1ByteNeg = k1PosNAF[i-(m-k1Len)], k1NegNAF[i-(m-k1Len)] + } + if i >= m-k2Len { + k2BytePos, k2ByteNeg = k2PosNAF[i-(m-k2Len)], k2NegNAF[i-(m-k2Len)] + } + for bit, mask := 7, uint8(1<<7); bit >= 0; bit, mask = bit-1, mask>>1 { + // Q = 2 * Q + DoubleNonConst(&q, &q) + + // Add or subtract the first point based on the signed digit of the + // NAF representation of k1 at this bit position. + // + // +1: Q = Q + p1 + // -1: Q = Q - p1 + // 0: Q = Q (no change) + if k1BytePos&mask == mask { + AddNonConst(&q, p1, &q) + } else if k1ByteNeg&mask == mask { + AddNonConst(&q, p1Neg, &q) + } + + // Add or subtract the second point based on the signed digit of the + // NAF representation of k2 at this bit position. + // + // +1: Q = Q + p2 + // -1: Q = Q - p2 + // 0: Q = Q (no change) + if k2BytePos&mask == mask { + AddNonConst(&q, p2, &q) + } else if k2ByteNeg&mask == mask { + AddNonConst(&q, p2Neg, &q) + } + } + } + + result.Set(&q) +} + +// ScalarBaseMultNonConst multiplies k*G where G is the base point of the group +// and k is a big endian integer. The result is stored in Jacobian coordinates +// (x1, y1, z1). +// +// NOTE: The resulting point will be normalized. +func ScalarBaseMultNonConst(k *ModNScalar, result *JacobianPoint) { + bytePoints := s256BytePoints() + + // Point Q = ∞ (point at infinity). + var q JacobianPoint + + // curve.bytePoints has all 256 byte points for each 8-bit window. The + // strategy is to add up the byte points. This is best understood by + // expressing k in base-256 which it already sort of is. Each "digit" in + // the 8-bit window can be looked up using bytePoints and added together. + var pt JacobianPoint + for i, byteVal := range k.Bytes() { + p := bytePoints[i][byteVal] + pt.X.Set(&p[0]) + pt.Y.Set(&p[1]) + pt.Z.SetInt(1) + AddNonConst(&q, &pt, &q) + } + + result.Set(&q) +} + +// isOnCurve returns whether or not the affine point (x,y) is on the curve. +func isOnCurve(fx, fy *FieldVal) bool { + // Elliptic curve equation for secp256k1 is: y^2 = x^3 + 7 + y2 := new(FieldVal).SquareVal(fy).Normalize() + result := new(FieldVal).SquareVal(fx).Mul(fx).AddInt(7).Normalize() + return y2.Equals(result) +} + +// DecompressY attempts to calculate the Y coordinate for the given X coordinate +// such that the result pair is a point on the secp256k1 curve. It adjusts Y +// based on the desired oddness and returns whether or not it was successful +// since not all X coordinates are valid. +// +// The magnitude of the provided X coordinate field val must be a max of 8 for a +// correct result. The resulting Y field val will have a max magnitude of 2. +func DecompressY(x *FieldVal, odd bool, resultY *FieldVal) bool { + // The curve equation for secp256k1 is: y^2 = x^3 + 7. Thus + // y = +-sqrt(x^3 + 7). + // + // The x coordinate must be invalid if there is no square root for the + // calculated rhs because it means the X coordinate is not for a point on + // the curve. + x3PlusB := new(FieldVal).SquareVal(x).Mul(x).AddInt(7) + if hasSqrt := resultY.SquareRootVal(x3PlusB); !hasSqrt { + return false + } + if resultY.Normalize().IsOdd() != odd { + resultY.Negate(1) + } + return true +} diff --git a/vendor/github.com/decred/dcrd/dcrec/secp256k1/v4/doc.go b/vendor/github.com/decred/dcrd/dcrec/secp256k1/v4/doc.go new file mode 100644 index 0000000..91a670e --- /dev/null +++ b/vendor/github.com/decred/dcrd/dcrec/secp256k1/v4/doc.go @@ -0,0 +1,58 @@ +// Copyright (c) 2013-2014 The btcsuite developers +// Copyright (c) 2015-2019 The Decred developers +// Use of this source code is governed by an ISC +// license that can be found in the LICENSE file. + +/* +Package secp256k1 implements optimized secp256k1 elliptic curve operations. + +This package provides an optimized pure Go implementation of elliptic curve +cryptography operations over the secp256k1 curve as well as data structures and +functions for working with public and private secp256k1 keys. See +https://www.secg.org/sec2-v2.pdf for details on the standard. + +In addition, sub packages are provided to produce, verify, parse, and serialize +ECDSA signatures and EC-Schnorr-DCRv0 (a custom Schnorr-based signature scheme +specific to Decred) signatures. See the README.md files in the relevant sub +packages for more details about those aspects. + +An overview of the features provided by this package are as follows: + + - Private key generation, serialization, and parsing + - Public key generation, serialization and parsing per ANSI X9.62-1998 + - Parses uncompressed, compressed, and hybrid public keys + - Serializes uncompressed and compressed public keys + - Specialized types for performing optimized and constant time field operations + - FieldVal type for working modulo the secp256k1 field prime + - ModNScalar type for working modulo the secp256k1 group order + - Elliptic curve operations in Jacobian projective coordinates + - Point addition + - Point doubling + - Scalar multiplication with an arbitrary point + - Scalar multiplication with the base point (group generator) + - Point decompression from a given x coordinate + - Nonce generation via RFC6979 with support for extra data and version + information that can be used to prevent nonce reuse between signing + algorithms + +It also provides an implementation of the Go standard library crypto/elliptic +Curve interface via the S256 function so that it may be used with other packages +in the standard library such as crypto/tls, crypto/x509, and crypto/ecdsa. +However, in the case of ECDSA, it is highly recommended to use the ecdsa sub +package of this package instead since it is optimized specifically for secp256k1 +and is significantly faster as a result. + +Although this package was primarily written for dcrd, it has intentionally been +designed so it can be used as a standalone package for any projects needing to +use optimized secp256k1 elliptic curve cryptography. + +Finally, a comprehensive suite of tests is provided to provide a high level of +quality assurance. + +Use of secp256k1 in Decred + +At the time of this writing, the primary public key cryptography in widespread +use on the Decred network used to secure coins is based on elliptic curves +defined by the secp256k1 domain parameters. +*/ +package secp256k1 diff --git a/vendor/github.com/decred/dcrd/dcrec/secp256k1/v4/ecdh.go b/vendor/github.com/decred/dcrd/dcrec/secp256k1/v4/ecdh.go new file mode 100644 index 0000000..ebbdfc5 --- /dev/null +++ b/vendor/github.com/decred/dcrd/dcrec/secp256k1/v4/ecdh.go @@ -0,0 +1,21 @@ +// Copyright (c) 2015 The btcsuite developers +// Copyright (c) 2015-2016 The Decred developers +// Use of this source code is governed by an ISC +// license that can be found in the LICENSE file. + +package secp256k1 + +// GenerateSharedSecret generates a shared secret based on a private key and a +// public key using Diffie-Hellman key exchange (ECDH) (RFC 5903). +// RFC5903 Section 9 states we should only return x. +// +// It is recommended to securily hash the result before using as a cryptographic +// key. +func GenerateSharedSecret(privkey *PrivateKey, pubkey *PublicKey) []byte { + var point, result JacobianPoint + pubkey.AsJacobian(&point) + ScalarMultNonConst(&privkey.Key, &point, &result) + result.ToAffine() + xBytes := result.X.Bytes() + return xBytes[:] +} diff --git a/vendor/github.com/decred/dcrd/dcrec/secp256k1/v4/ellipticadaptor.go b/vendor/github.com/decred/dcrd/dcrec/secp256k1/v4/ellipticadaptor.go new file mode 100644 index 0000000..a271ff6 --- /dev/null +++ b/vendor/github.com/decred/dcrd/dcrec/secp256k1/v4/ellipticadaptor.go @@ -0,0 +1,255 @@ +// Copyright 2020-2021 The Decred developers +// Use of this source code is governed by an ISC +// license that can be found in the LICENSE file. + +package secp256k1 + +// References: +// [SECG]: Recommended Elliptic Curve Domain Parameters +// https://www.secg.org/sec2-v2.pdf +// +// [GECC]: Guide to Elliptic Curve Cryptography (Hankerson, Menezes, Vanstone) + +import ( + "crypto/ecdsa" + "crypto/elliptic" + "math/big" +) + +// CurveParams contains the parameters for the secp256k1 curve. +type CurveParams struct { + // P is the prime used in the secp256k1 field. + P *big.Int + + // N is the order of the secp256k1 curve group generated by the base point. + N *big.Int + + // Gx and Gy are the x and y coordinate of the base point, respectively. + Gx, Gy *big.Int + + // BitSize is the size of the underlying secp256k1 field in bits. + BitSize int + + // H is the cofactor of the secp256k1 curve. + H int + + // ByteSize is simply the bit size / 8 and is provided for convenience + // since it is calculated repeatedly. + ByteSize int +} + +// Curve parameters taken from [SECG] section 2.4.1. +var curveParams = CurveParams{ + P: fromHex("fffffffffffffffffffffffffffffffffffffffffffffffffffffffefffffc2f"), + N: fromHex("fffffffffffffffffffffffffffffffebaaedce6af48a03bbfd25e8cd0364141"), + Gx: fromHex("79be667ef9dcbbac55a06295ce870b07029bfcdb2dce28d959f2815b16f81798"), + Gy: fromHex("483ada7726a3c4655da4fbfc0e1108a8fd17b448a68554199c47d08ffb10d4b8"), + BitSize: 256, + H: 1, + ByteSize: 256 / 8, +} + +// Params returns the secp256k1 curve parameters for convenience. +func Params() *CurveParams { + return &curveParams +} + +// KoblitzCurve provides an implementation for secp256k1 that fits the ECC Curve +// interface from crypto/elliptic. +type KoblitzCurve struct { + *elliptic.CurveParams +} + +// bigAffineToJacobian takes an affine point (x, y) as big integers and converts +// it to Jacobian point with Z=1. +func bigAffineToJacobian(x, y *big.Int, result *JacobianPoint) { + result.X.SetByteSlice(x.Bytes()) + result.Y.SetByteSlice(y.Bytes()) + result.Z.SetInt(1) +} + +// jacobianToBigAffine takes a Jacobian point (x, y, z) as field values and +// converts it to an affine point as big integers. +func jacobianToBigAffine(point *JacobianPoint) (*big.Int, *big.Int) { + point.ToAffine() + + // Convert the field values for the now affine point to big.Ints. + x3, y3 := new(big.Int), new(big.Int) + x3.SetBytes(point.X.Bytes()[:]) + y3.SetBytes(point.Y.Bytes()[:]) + return x3, y3 +} + +// Params returns the parameters for the curve. +// +// This is part of the elliptic.Curve interface implementation. +func (curve *KoblitzCurve) Params() *elliptic.CurveParams { + return curve.CurveParams +} + +// IsOnCurve returns whether or not the affine point (x,y) is on the curve. +// +// This is part of the elliptic.Curve interface implementation. This function +// differs from the crypto/elliptic algorithm since a = 0 not -3. +func (curve *KoblitzCurve) IsOnCurve(x, y *big.Int) bool { + // Convert big ints to a Jacobian point for faster arithmetic. + var point JacobianPoint + bigAffineToJacobian(x, y, &point) + return isOnCurve(&point.X, &point.Y) +} + +// Add returns the sum of (x1,y1) and (x2,y2). +// +// This is part of the elliptic.Curve interface implementation. +func (curve *KoblitzCurve) Add(x1, y1, x2, y2 *big.Int) (*big.Int, *big.Int) { + // A point at infinity is the identity according to the group law for + // elliptic curve cryptography. Thus, ∞ + P = P and P + ∞ = P. + if x1.Sign() == 0 && y1.Sign() == 0 { + return x2, y2 + } + if x2.Sign() == 0 && y2.Sign() == 0 { + return x1, y1 + } + + // Convert the affine coordinates from big integers to Jacobian points, + // do the point addition in Jacobian projective space, and convert the + // Jacobian point back to affine big.Ints. + var p1, p2, result JacobianPoint + bigAffineToJacobian(x1, y1, &p1) + bigAffineToJacobian(x2, y2, &p2) + AddNonConst(&p1, &p2, &result) + return jacobianToBigAffine(&result) +} + +// Double returns 2*(x1,y1). +// +// This is part of the elliptic.Curve interface implementation. +func (curve *KoblitzCurve) Double(x1, y1 *big.Int) (*big.Int, *big.Int) { + if y1.Sign() == 0 { + return new(big.Int), new(big.Int) + } + + // Convert the affine coordinates from big integers to Jacobian points, + // do the point doubling in Jacobian projective space, and convert the + // Jacobian point back to affine big.Ints. + var point, result JacobianPoint + bigAffineToJacobian(x1, y1, &point) + DoubleNonConst(&point, &result) + return jacobianToBigAffine(&result) +} + +// moduloReduce reduces k from more than 32 bytes to 32 bytes and under. This +// is done by doing a simple modulo curve.N. We can do this since G^N = 1 and +// thus any other valid point on the elliptic curve has the same order. +func moduloReduce(k []byte) []byte { + // Since the order of G is curve.N, we can use a much smaller number by + // doing modulo curve.N + if len(k) > curveParams.ByteSize { + tmpK := new(big.Int).SetBytes(k) + tmpK.Mod(tmpK, curveParams.N) + return tmpK.Bytes() + } + + return k +} + +// ScalarMult returns k*(Bx, By) where k is a big endian integer. +// +// This is part of the elliptic.Curve interface implementation. +func (curve *KoblitzCurve) ScalarMult(Bx, By *big.Int, k []byte) (*big.Int, *big.Int) { + // Convert the affine coordinates from big integers to Jacobian points, + // do the multiplication in Jacobian projective space, and convert the + // Jacobian point back to affine big.Ints. + var kModN ModNScalar + kModN.SetByteSlice(moduloReduce(k)) + var point, result JacobianPoint + bigAffineToJacobian(Bx, By, &point) + ScalarMultNonConst(&kModN, &point, &result) + return jacobianToBigAffine(&result) +} + +// ScalarBaseMult returns k*G where G is the base point of the group and k is a +// big endian integer. +// +// This is part of the elliptic.Curve interface implementation. +func (curve *KoblitzCurve) ScalarBaseMult(k []byte) (*big.Int, *big.Int) { + // Perform the multiplication and convert the Jacobian point back to affine + // big.Ints. + var kModN ModNScalar + kModN.SetByteSlice(moduloReduce(k)) + var result JacobianPoint + ScalarBaseMultNonConst(&kModN, &result) + return jacobianToBigAffine(&result) +} + +// X returns the x coordinate of the public key. +func (p *PublicKey) X() *big.Int { + return new(big.Int).SetBytes(p.x.Bytes()[:]) +} + +// Y returns the y coordinate of the public key. +func (p *PublicKey) Y() *big.Int { + return new(big.Int).SetBytes(p.y.Bytes()[:]) +} + +// ToECDSA returns the public key as a *ecdsa.PublicKey. +func (p *PublicKey) ToECDSA() *ecdsa.PublicKey { + return &ecdsa.PublicKey{ + Curve: S256(), + X: p.X(), + Y: p.Y(), + } +} + +// ToECDSA returns the private key as a *ecdsa.PrivateKey. +func (p *PrivateKey) ToECDSA() *ecdsa.PrivateKey { + var privKeyBytes [PrivKeyBytesLen]byte + p.Key.PutBytes(&privKeyBytes) + var result JacobianPoint + ScalarBaseMultNonConst(&p.Key, &result) + x, y := jacobianToBigAffine(&result) + newPrivKey := &ecdsa.PrivateKey{ + PublicKey: ecdsa.PublicKey{ + Curve: S256(), + X: x, + Y: y, + }, + D: new(big.Int).SetBytes(privKeyBytes[:]), + } + zeroArray32(&privKeyBytes) + return newPrivKey +} + +// fromHex converts the passed hex string into a big integer pointer and will +// panic is there is an error. This is only provided for the hard-coded +// constants so errors in the source code can bet detected. It will only (and +// must only) be called for initialization purposes. +func fromHex(s string) *big.Int { + if s == "" { + return big.NewInt(0) + } + r, ok := new(big.Int).SetString(s, 16) + if !ok { + panic("invalid hex in source file: " + s) + } + return r +} + +// secp256k1 is a global instance of the KoblitzCurve implementation which in +// turn embeds and implements elliptic.CurveParams. +var secp256k1 = &KoblitzCurve{ + CurveParams: &elliptic.CurveParams{ + P: curveParams.P, + N: curveParams.N, + B: fromHex("0000000000000000000000000000000000000000000000000000000000000007"), + Gx: curveParams.Gx, + Gy: curveParams.Gy, + BitSize: curveParams.BitSize, + Name: "secp256k1", + }, +} + +// S256 returns a Curve which implements secp256k1. +func S256() *KoblitzCurve { + return secp256k1 +} diff --git a/vendor/github.com/decred/dcrd/dcrec/secp256k1/v4/error.go b/vendor/github.com/decred/dcrd/dcrec/secp256k1/v4/error.go new file mode 100644 index 0000000..ac8c451 --- /dev/null +++ b/vendor/github.com/decred/dcrd/dcrec/secp256k1/v4/error.go @@ -0,0 +1,67 @@ +// Copyright (c) 2020 The Decred developers +// Use of this source code is governed by an ISC +// license that can be found in the LICENSE file. + +package secp256k1 + +// ErrorKind identifies a kind of error. It has full support for errors.Is and +// errors.As, so the caller can directly check against an error kind when +// determining the reason for an error. +type ErrorKind string + +// These constants are used to identify a specific RuleError. +const ( + // ErrPubKeyInvalidLen indicates that the length of a serialized public + // key is not one of the allowed lengths. + ErrPubKeyInvalidLen = ErrorKind("ErrPubKeyInvalidLen") + + // ErrPubKeyInvalidFormat indicates an attempt was made to parse a public + // key that does not specify one of the supported formats. + ErrPubKeyInvalidFormat = ErrorKind("ErrPubKeyInvalidFormat") + + // ErrPubKeyXTooBig indicates that the x coordinate for a public key + // is greater than or equal to the prime of the field underlying the group. + ErrPubKeyXTooBig = ErrorKind("ErrPubKeyXTooBig") + + // ErrPubKeyYTooBig indicates that the y coordinate for a public key is + // greater than or equal to the prime of the field underlying the group. + ErrPubKeyYTooBig = ErrorKind("ErrPubKeyYTooBig") + + // ErrPubKeyNotOnCurve indicates that a public key is not a point on the + // secp256k1 curve. + ErrPubKeyNotOnCurve = ErrorKind("ErrPubKeyNotOnCurve") + + // ErrPubKeyMismatchedOddness indicates that a hybrid public key specified + // an oddness of the y coordinate that does not match the actual oddness of + // the provided y coordinate. + ErrPubKeyMismatchedOddness = ErrorKind("ErrPubKeyMismatchedOddness") +) + +// Error satisfies the error interface and prints human-readable errors. +func (e ErrorKind) Error() string { + return string(e) +} + +// Error identifies an error related to public key cryptography using a +// sec256k1 curve. It has full support for errors.Is and errors.As, so the +// caller can ascertain the specific reason for the error by checking +// the underlying error. +type Error struct { + Err error + Description string +} + +// Error satisfies the error interface and prints human-readable errors. +func (e Error) Error() string { + return e.Description +} + +// Unwrap returns the underlying wrapped error. +func (e Error) Unwrap() error { + return e.Err +} + +// makeError creates an Error given a set of arguments. +func makeError(kind ErrorKind, desc string) Error { + return Error{Err: kind, Description: desc} +} diff --git a/vendor/github.com/decred/dcrd/dcrec/secp256k1/v4/field.go b/vendor/github.com/decred/dcrd/dcrec/secp256k1/v4/field.go new file mode 100644 index 0000000..959a9a1 --- /dev/null +++ b/vendor/github.com/decred/dcrd/dcrec/secp256k1/v4/field.go @@ -0,0 +1,1680 @@ +// Copyright (c) 2013-2014 The btcsuite developers +// Copyright (c) 2015-2020 The Decred developers +// Copyright (c) 2013-2020 Dave Collins +// Use of this source code is governed by an ISC +// license that can be found in the LICENSE file. + +package secp256k1 + +// References: +// [HAC]: Handbook of Applied Cryptography Menezes, van Oorschot, Vanstone. +// http://cacr.uwaterloo.ca/hac/ + +// All elliptic curve operations for secp256k1 are done in a finite field +// characterized by a 256-bit prime. Given this precision is larger than the +// biggest available native type, obviously some form of bignum math is needed. +// This package implements specialized fixed-precision field arithmetic rather +// than relying on an arbitrary-precision arithmetic package such as math/big +// for dealing with the field math since the size is known. As a result, rather +// large performance gains are achieved by taking advantage of many +// optimizations not available to arbitrary-precision arithmetic and generic +// modular arithmetic algorithms. +// +// There are various ways to internally represent each finite field element. +// For example, the most obvious representation would be to use an array of 4 +// uint64s (64 bits * 4 = 256 bits). However, that representation suffers from +// a couple of issues. First, there is no native Go type large enough to handle +// the intermediate results while adding or multiplying two 64-bit numbers, and +// second there is no space left for overflows when performing the intermediate +// arithmetic between each array element which would lead to expensive carry +// propagation. +// +// Given the above, this implementation represents the field elements as +// 10 uint32s with each word (array entry) treated as base 2^26. This was +// chosen for the following reasons: +// 1) Most systems at the current time are 64-bit (or at least have 64-bit +// registers available for specialized purposes such as MMX) so the +// intermediate results can typically be done using a native register (and +// using uint64s to avoid the need for additional half-word arithmetic) +// 2) In order to allow addition of the internal words without having to +// propagate the carry, the max normalized value for each register must +// be less than the number of bits available in the register +// 3) Since we're dealing with 32-bit values, 64-bits of overflow is a +// reasonable choice for #2 +// 4) Given the need for 256-bits of precision and the properties stated in #1, +// #2, and #3, the representation which best accommodates this is 10 uint32s +// with base 2^26 (26 bits * 10 = 260 bits, so the final word only needs 22 +// bits) which leaves the desired 64 bits (32 * 10 = 320, 320 - 256 = 64) for +// overflow +// +// Since it is so important that the field arithmetic is extremely fast for high +// performance crypto, this type does not perform any validation where it +// ordinarily would. See the documentation for FieldVal for more details. + +import ( + "encoding/hex" +) + +// Constants used to make the code more readable. +const ( + twoBitsMask = 0x3 + fourBitsMask = 0xf + sixBitsMask = 0x3f + eightBitsMask = 0xff +) + +// Constants related to the field representation. +const ( + // fieldWords is the number of words used to internally represent the + // 256-bit value. + fieldWords = 10 + + // fieldBase is the exponent used to form the numeric base of each word. + // 2^(fieldBase*i) where i is the word position. + fieldBase = 26 + + // fieldBaseMask is the mask for the bits in each word needed to + // represent the numeric base of each word (except the most significant + // word). + fieldBaseMask = (1 << fieldBase) - 1 + + // fieldMSBBits is the number of bits in the most significant word used + // to represent the value. + fieldMSBBits = 256 - (fieldBase * (fieldWords - 1)) + + // fieldMSBMask is the mask for the bits in the most significant word + // needed to represent the value. + fieldMSBMask = (1 << fieldMSBBits) - 1 + + // These fields provide convenient access to each of the words of the + // secp256k1 prime in the internal field representation to improve code + // readability. + fieldPrimeWordZero = 0x03fffc2f + fieldPrimeWordOne = 0x03ffffbf + fieldPrimeWordTwo = 0x03ffffff + fieldPrimeWordThree = 0x03ffffff + fieldPrimeWordFour = 0x03ffffff + fieldPrimeWordFive = 0x03ffffff + fieldPrimeWordSix = 0x03ffffff + fieldPrimeWordSeven = 0x03ffffff + fieldPrimeWordEight = 0x03ffffff + fieldPrimeWordNine = 0x003fffff +) + +// FieldVal implements optimized fixed-precision arithmetic over the +// secp256k1 finite field. This means all arithmetic is performed modulo +// 0xfffffffffffffffffffffffffffffffffffffffffffffffffffffffefffffc2f. +// +// WARNING: Since it is so important for the field arithmetic to be extremely +// fast for high performance crypto, this type does not perform any validation +// of documented preconditions where it ordinarily would. As a result, it is +// IMPERATIVE for callers to understand some key concepts that are described +// below and ensure the methods are called with the necessary preconditions that +// each method is documented with. For example, some methods only give the +// correct result if the field value is normalized and others require the field +// values involved to have a maximum magnitude and THERE ARE NO EXPLICIT CHECKS +// TO ENSURE THOSE PRECONDITIONS ARE SATISFIED. This does, unfortunately, make +// the type more difficult to use correctly and while I typically prefer to +// ensure all state and input is valid for most code, this is a bit of an +// exception because those extra checks really add up in what ends up being +// critical hot paths. +// +// The first key concept when working with this type is normalization. In order +// to avoid the need to propagate a ton of carries, the internal representation +// provides additional overflow bits for each word of the overall 256-bit value. +// This means that there are multiple internal representations for the same +// value and, as a result, any methods that rely on comparison of the value, +// such as equality and oddness determination, require the caller to provide a +// normalized value. +// +// The second key concept when working with this type is magnitude. As +// previously mentioned, the internal representation provides additional +// overflow bits which means that the more math operations that are performed on +// the field value between normalizations, the more those overflow bits +// accumulate. The magnitude is effectively that maximum possible number of +// those overflow bits that could possibly be required as a result of a given +// operation. Since there are only a limited number of overflow bits available, +// this implies that the max possible magnitude MUST be tracked by the caller +// and the caller MUST normalize the field value if a given operation would +// cause the magnitude of the result to exceed the max allowed value. +// +// IMPORTANT: The max allowed magnitude of a field value is 64. +type FieldVal struct { + // Each 256-bit value is represented as 10 32-bit integers in base 2^26. + // This provides 6 bits of overflow in each word (10 bits in the most + // significant word) for a total of 64 bits of overflow (9*6 + 10 = 64). It + // only implements the arithmetic needed for elliptic curve operations. + // + // The following depicts the internal representation: + // ----------------------------------------------------------------- + // | n[9] | n[8] | ... | n[0] | + // | 32 bits available | 32 bits available | ... | 32 bits available | + // | 22 bits for value | 26 bits for value | ... | 26 bits for value | + // | 10 bits overflow | 6 bits overflow | ... | 6 bits overflow | + // | Mult: 2^(26*9) | Mult: 2^(26*8) | ... | Mult: 2^(26*0) | + // ----------------------------------------------------------------- + // + // For example, consider the number 2^49 + 1. It would be represented as: + // n[0] = 1 + // n[1] = 2^23 + // n[2..9] = 0 + // + // The full 256-bit value is then calculated by looping i from 9..0 and + // doing sum(n[i] * 2^(26i)) like so: + // n[9] * 2^(26*9) = 0 * 2^234 = 0 + // n[8] * 2^(26*8) = 0 * 2^208 = 0 + // ... + // n[1] * 2^(26*1) = 2^23 * 2^26 = 2^49 + // n[0] * 2^(26*0) = 1 * 2^0 = 1 + // Sum: 0 + 0 + ... + 2^49 + 1 = 2^49 + 1 + n [10]uint32 +} + +// String returns the field value as a normalized human-readable hex string. +// +// Preconditions: None +// Output Normalized: Field is not modified -- same as input value +// Output Max Magnitude: Field is not modified -- same as input value +func (f FieldVal) String() string { + // f is a copy, so it's safe to normalize it without mutating the original. + f.Normalize() + return hex.EncodeToString(f.Bytes()[:]) +} + +// Zero sets the field value to zero in constant time. A newly created field +// value is already set to zero. This function can be useful to clear an +// existing field value for reuse. +// +// Preconditions: None +// Output Normalized: Yes +// Output Max Magnitude: 1 +func (f *FieldVal) Zero() { + f.n[0] = 0 + f.n[1] = 0 + f.n[2] = 0 + f.n[3] = 0 + f.n[4] = 0 + f.n[5] = 0 + f.n[6] = 0 + f.n[7] = 0 + f.n[8] = 0 + f.n[9] = 0 +} + +// Set sets the field value equal to the passed value in constant time. The +// normalization and magnitude of the two fields will be identical. +// +// The field value is returned to support chaining. This enables syntax like: +// f := new(FieldVal).Set(f2).Add(1) so that f = f2 + 1 where f2 is not +// modified. +// +// Preconditions: None +// Output Normalized: Same as input value +// Output Max Magnitude: Same as input value +func (f *FieldVal) Set(val *FieldVal) *FieldVal { + *f = *val + return f +} + +// SetInt sets the field value to the passed integer in constant time. This is +// a convenience function since it is fairly common to perform some arithmetic +// with small native integers. +// +// The field value is returned to support chaining. This enables syntax such +// as f := new(FieldVal).SetInt(2).Mul(f2) so that f = 2 * f2. +// +// Preconditions: None +// Output Normalized: Yes +// Output Max Magnitude: 1 +func (f *FieldVal) SetInt(ui uint16) *FieldVal { + f.Zero() + f.n[0] = uint32(ui) + return f +} + +// SetBytes packs the passed 32-byte big-endian value into the internal field +// value representation in constant time. SetBytes interprets the provided +// array as a 256-bit big-endian unsigned integer, packs it into the internal +// field value representation, and returns either 1 if it is greater than or +// equal to the field prime (aka it overflowed) or 0 otherwise in constant time. +// +// Note that a bool is not used here because it is not possible in Go to convert +// from a bool to numeric value in constant time and many constant-time +// operations require a numeric value. +// +// Preconditions: None +// Output Normalized: Yes if no overflow, no otherwise +// Output Max Magnitude: 1 +func (f *FieldVal) SetBytes(b *[32]byte) uint32 { + // Pack the 256 total bits across the 10 uint32 words with a max of + // 26-bits per word. This could be done with a couple of for loops, + // but this unrolled version is significantly faster. Benchmarks show + // this is about 34 times faster than the variant which uses loops. + f.n[0] = uint32(b[31]) | uint32(b[30])<<8 | uint32(b[29])<<16 | + (uint32(b[28])&twoBitsMask)<<24 + f.n[1] = uint32(b[28])>>2 | uint32(b[27])<<6 | uint32(b[26])<<14 | + (uint32(b[25])&fourBitsMask)<<22 + f.n[2] = uint32(b[25])>>4 | uint32(b[24])<<4 | uint32(b[23])<<12 | + (uint32(b[22])&sixBitsMask)<<20 + f.n[3] = uint32(b[22])>>6 | uint32(b[21])<<2 | uint32(b[20])<<10 | + uint32(b[19])<<18 + f.n[4] = uint32(b[18]) | uint32(b[17])<<8 | uint32(b[16])<<16 | + (uint32(b[15])&twoBitsMask)<<24 + f.n[5] = uint32(b[15])>>2 | uint32(b[14])<<6 | uint32(b[13])<<14 | + (uint32(b[12])&fourBitsMask)<<22 + f.n[6] = uint32(b[12])>>4 | uint32(b[11])<<4 | uint32(b[10])<<12 | + (uint32(b[9])&sixBitsMask)<<20 + f.n[7] = uint32(b[9])>>6 | uint32(b[8])<<2 | uint32(b[7])<<10 | + uint32(b[6])<<18 + f.n[8] = uint32(b[5]) | uint32(b[4])<<8 | uint32(b[3])<<16 | + (uint32(b[2])&twoBitsMask)<<24 + f.n[9] = uint32(b[2])>>2 | uint32(b[1])<<6 | uint32(b[0])<<14 + + // The intuition here is that the field value is greater than the prime if + // one of the higher individual words is greater than corresponding word of + // the prime and all higher words in the field value are equal to their + // corresponding word of the prime. Since this type is modulo the prime, + // being equal is also an overflow back to 0. + // + // Note that because the input is 32 bytes and it was just packed into the + // field representation, the only words that can possibly be greater are + // zero and one, because ceil(log_2(2^256 - 1 - P)) = 33 bits max and the + // internal field representation encodes 26 bits with each word. + // + // Thus, there is no need to test if the upper words of the field value + // exceeds them, hence, only equality is checked for them. + highWordsEq := constantTimeEq(f.n[9], fieldPrimeWordNine) + highWordsEq &= constantTimeEq(f.n[8], fieldPrimeWordEight) + highWordsEq &= constantTimeEq(f.n[7], fieldPrimeWordSeven) + highWordsEq &= constantTimeEq(f.n[6], fieldPrimeWordSix) + highWordsEq &= constantTimeEq(f.n[5], fieldPrimeWordFive) + highWordsEq &= constantTimeEq(f.n[4], fieldPrimeWordFour) + highWordsEq &= constantTimeEq(f.n[3], fieldPrimeWordThree) + highWordsEq &= constantTimeEq(f.n[2], fieldPrimeWordTwo) + overflow := highWordsEq & constantTimeGreater(f.n[1], fieldPrimeWordOne) + highWordsEq &= constantTimeEq(f.n[1], fieldPrimeWordOne) + overflow |= highWordsEq & constantTimeGreaterOrEq(f.n[0], fieldPrimeWordZero) + + return overflow +} + +// SetByteSlice interprets the provided slice as a 256-bit big-endian unsigned +// integer (meaning it is truncated to the first 32 bytes), packs it into the +// internal field value representation, and returns whether or not the resulting +// truncated 256-bit integer is greater than or equal to the field prime (aka it +// overflowed) in constant time. +// +// Note that since passing a slice with more than 32 bytes is truncated, it is +// possible that the truncated value is less than the field prime and hence it +// will not be reported as having overflowed in that case. It is up to the +// caller to decide whether it needs to provide numbers of the appropriate size +// or it if is acceptable to use this function with the described truncation and +// overflow behavior. +// +// Preconditions: None +// Output Normalized: Yes if no overflow, no otherwise +// Output Max Magnitude: 1 +func (f *FieldVal) SetByteSlice(b []byte) bool { + var b32 [32]byte + b = b[:constantTimeMin(uint32(len(b)), 32)] + copy(b32[:], b32[:32-len(b)]) + copy(b32[32-len(b):], b) + result := f.SetBytes(&b32) + zeroArray32(&b32) + return result != 0 +} + +// Normalize normalizes the internal field words into the desired range and +// performs fast modular reduction over the secp256k1 prime by making use of the +// special form of the prime in constant time. +// +// Preconditions: None +// Output Normalized: Yes +// Output Max Magnitude: 1 +func (f *FieldVal) Normalize() *FieldVal { + // The field representation leaves 6 bits of overflow in each word so + // intermediate calculations can be performed without needing to + // propagate the carry to each higher word during the calculations. In + // order to normalize, we need to "compact" the full 256-bit value to + // the right while propagating any carries through to the high order + // word. + // + // Since this field is doing arithmetic modulo the secp256k1 prime, we + // also need to perform modular reduction over the prime. + // + // Per [HAC] section 14.3.4: Reduction method of moduli of special form, + // when the modulus is of the special form m = b^t - c, highly efficient + // reduction can be achieved. + // + // The secp256k1 prime is equivalent to 2^256 - 4294968273, so it fits + // this criteria. + // + // 4294968273 in field representation (base 2^26) is: + // n[0] = 977 + // n[1] = 64 + // That is to say (2^26 * 64) + 977 = 4294968273 + // + // The algorithm presented in the referenced section typically repeats + // until the quotient is zero. However, due to our field representation + // we already know to within one reduction how many times we would need + // to repeat as it's the uppermost bits of the high order word. Thus we + // can simply multiply the magnitude by the field representation of the + // prime and do a single iteration. After this step there might be an + // additional carry to bit 256 (bit 22 of the high order word). + t9 := f.n[9] + m := t9 >> fieldMSBBits + t9 = t9 & fieldMSBMask + t0 := f.n[0] + m*977 + t1 := (t0 >> fieldBase) + f.n[1] + (m << 6) + t0 = t0 & fieldBaseMask + t2 := (t1 >> fieldBase) + f.n[2] + t1 = t1 & fieldBaseMask + t3 := (t2 >> fieldBase) + f.n[3] + t2 = t2 & fieldBaseMask + t4 := (t3 >> fieldBase) + f.n[4] + t3 = t3 & fieldBaseMask + t5 := (t4 >> fieldBase) + f.n[5] + t4 = t4 & fieldBaseMask + t6 := (t5 >> fieldBase) + f.n[6] + t5 = t5 & fieldBaseMask + t7 := (t6 >> fieldBase) + f.n[7] + t6 = t6 & fieldBaseMask + t8 := (t7 >> fieldBase) + f.n[8] + t7 = t7 & fieldBaseMask + t9 = (t8 >> fieldBase) + t9 + t8 = t8 & fieldBaseMask + + // At this point, the magnitude is guaranteed to be one, however, the + // value could still be greater than the prime if there was either a + // carry through to bit 256 (bit 22 of the higher order word) or the + // value is greater than or equal to the field characteristic. The + // following determines if either or these conditions are true and does + // the final reduction in constant time. + // + // Also note that 'm' will be zero when neither of the aforementioned + // conditions are true and the value will not be changed when 'm' is zero. + m = constantTimeEq(t9, fieldMSBMask) + m &= constantTimeEq(t8&t7&t6&t5&t4&t3&t2, fieldBaseMask) + m &= constantTimeGreater(t1+64+((t0+977)>>fieldBase), fieldBaseMask) + m |= t9 >> fieldMSBBits + t0 = t0 + m*977 + t1 = (t0 >> fieldBase) + t1 + (m << 6) + t0 = t0 & fieldBaseMask + t2 = (t1 >> fieldBase) + t2 + t1 = t1 & fieldBaseMask + t3 = (t2 >> fieldBase) + t3 + t2 = t2 & fieldBaseMask + t4 = (t3 >> fieldBase) + t4 + t3 = t3 & fieldBaseMask + t5 = (t4 >> fieldBase) + t5 + t4 = t4 & fieldBaseMask + t6 = (t5 >> fieldBase) + t6 + t5 = t5 & fieldBaseMask + t7 = (t6 >> fieldBase) + t7 + t6 = t6 & fieldBaseMask + t8 = (t7 >> fieldBase) + t8 + t7 = t7 & fieldBaseMask + t9 = (t8 >> fieldBase) + t9 + t8 = t8 & fieldBaseMask + t9 = t9 & fieldMSBMask // Remove potential multiple of 2^256. + + // Finally, set the normalized and reduced words. + f.n[0] = t0 + f.n[1] = t1 + f.n[2] = t2 + f.n[3] = t3 + f.n[4] = t4 + f.n[5] = t5 + f.n[6] = t6 + f.n[7] = t7 + f.n[8] = t8 + f.n[9] = t9 + return f +} + +// PutBytesUnchecked unpacks the field value to a 32-byte big-endian value +// directly into the passed byte slice in constant time. The target slice must +// must have at least 32 bytes available or it will panic. +// +// There is a similar function, PutBytes, which unpacks the field value into a +// 32-byte array directly. This version is provided since it can be useful +// to write directly into part of a larger buffer without needing a separate +// allocation. +// +// Preconditions: +// - The field value MUST be normalized +// - The target slice MUST have at least 32 bytes available +func (f *FieldVal) PutBytesUnchecked(b []byte) { + // Unpack the 256 total bits from the 10 uint32 words with a max of + // 26-bits per word. This could be done with a couple of for loops, + // but this unrolled version is a bit faster. Benchmarks show this is + // about 10 times faster than the variant which uses loops. + b[31] = byte(f.n[0] & eightBitsMask) + b[30] = byte((f.n[0] >> 8) & eightBitsMask) + b[29] = byte((f.n[0] >> 16) & eightBitsMask) + b[28] = byte((f.n[0]>>24)&twoBitsMask | (f.n[1]&sixBitsMask)<<2) + b[27] = byte((f.n[1] >> 6) & eightBitsMask) + b[26] = byte((f.n[1] >> 14) & eightBitsMask) + b[25] = byte((f.n[1]>>22)&fourBitsMask | (f.n[2]&fourBitsMask)<<4) + b[24] = byte((f.n[2] >> 4) & eightBitsMask) + b[23] = byte((f.n[2] >> 12) & eightBitsMask) + b[22] = byte((f.n[2]>>20)&sixBitsMask | (f.n[3]&twoBitsMask)<<6) + b[21] = byte((f.n[3] >> 2) & eightBitsMask) + b[20] = byte((f.n[3] >> 10) & eightBitsMask) + b[19] = byte((f.n[3] >> 18) & eightBitsMask) + b[18] = byte(f.n[4] & eightBitsMask) + b[17] = byte((f.n[4] >> 8) & eightBitsMask) + b[16] = byte((f.n[4] >> 16) & eightBitsMask) + b[15] = byte((f.n[4]>>24)&twoBitsMask | (f.n[5]&sixBitsMask)<<2) + b[14] = byte((f.n[5] >> 6) & eightBitsMask) + b[13] = byte((f.n[5] >> 14) & eightBitsMask) + b[12] = byte((f.n[5]>>22)&fourBitsMask | (f.n[6]&fourBitsMask)<<4) + b[11] = byte((f.n[6] >> 4) & eightBitsMask) + b[10] = byte((f.n[6] >> 12) & eightBitsMask) + b[9] = byte((f.n[6]>>20)&sixBitsMask | (f.n[7]&twoBitsMask)<<6) + b[8] = byte((f.n[7] >> 2) & eightBitsMask) + b[7] = byte((f.n[7] >> 10) & eightBitsMask) + b[6] = byte((f.n[7] >> 18) & eightBitsMask) + b[5] = byte(f.n[8] & eightBitsMask) + b[4] = byte((f.n[8] >> 8) & eightBitsMask) + b[3] = byte((f.n[8] >> 16) & eightBitsMask) + b[2] = byte((f.n[8]>>24)&twoBitsMask | (f.n[9]&sixBitsMask)<<2) + b[1] = byte((f.n[9] >> 6) & eightBitsMask) + b[0] = byte((f.n[9] >> 14) & eightBitsMask) +} + +// PutBytes unpacks the field value to a 32-byte big-endian value using the +// passed byte array in constant time. +// +// There is a similar function, PutBytesUnchecked, which unpacks the field value +// into a slice that must have at least 32 bytes available. This version is +// provided since it can be useful to write directly into an array that is type +// checked. +// +// Alternatively, there is also Bytes, which unpacks the field value into a new +// array and returns that which can sometimes be more ergonomic in applications +// that aren't concerned about an additional copy. +// +// Preconditions: +// - The field value MUST be normalized +func (f *FieldVal) PutBytes(b *[32]byte) { + f.PutBytesUnchecked(b[:]) +} + +// Bytes unpacks the field value to a 32-byte big-endian value in constant time. +// +// See PutBytes and PutBytesUnchecked for variants that allow an array or slice +// to be passed which can be useful to cut down on the number of allocations by +// allowing the caller to reuse a buffer or write directly into part of a larger +// buffer. +// +// Preconditions: +// - The field value MUST be normalized +func (f *FieldVal) Bytes() *[32]byte { + b := new([32]byte) + f.PutBytesUnchecked(b[:]) + return b +} + +// IsZeroBit returns 1 when the field value is equal to zero or 0 otherwise in +// constant time. +// +// Note that a bool is not used here because it is not possible in Go to convert +// from a bool to numeric value in constant time and many constant-time +// operations require a numeric value. See IsZero for the version that returns +// a bool. +// +// Preconditions: +// - The field value MUST be normalized +func (f *FieldVal) IsZeroBit() uint32 { + // The value can only be zero if no bits are set in any of the words. + // This is a constant time implementation. + bits := f.n[0] | f.n[1] | f.n[2] | f.n[3] | f.n[4] | + f.n[5] | f.n[6] | f.n[7] | f.n[8] | f.n[9] + + return constantTimeEq(bits, 0) +} + +// IsZero returns whether or not the field value is equal to zero in constant +// time. +// +// Preconditions: +// - The field value MUST be normalized +func (f *FieldVal) IsZero() bool { + // The value can only be zero if no bits are set in any of the words. + // This is a constant time implementation. + bits := f.n[0] | f.n[1] | f.n[2] | f.n[3] | f.n[4] | + f.n[5] | f.n[6] | f.n[7] | f.n[8] | f.n[9] + + return bits == 0 +} + +// IsOneBit returns 1 when the field value is equal to one or 0 otherwise in +// constant time. +// +// Note that a bool is not used here because it is not possible in Go to convert +// from a bool to numeric value in constant time and many constant-time +// operations require a numeric value. See IsOne for the version that returns a +// bool. +// +// Preconditions: +// - The field value MUST be normalized +func (f *FieldVal) IsOneBit() uint32 { + // The value can only be one if the single lowest significant bit is set in + // the first word and no other bits are set in any of the other words. + // This is a constant time implementation. + bits := (f.n[0] ^ 1) | f.n[1] | f.n[2] | f.n[3] | f.n[4] | f.n[5] | + f.n[6] | f.n[7] | f.n[8] | f.n[9] + + return constantTimeEq(bits, 0) +} + +// IsOne returns whether or not the field value is equal to one in constant +// time. +// +// Preconditions: +// - The field value MUST be normalized +func (f *FieldVal) IsOne() bool { + // The value can only be one if the single lowest significant bit is set in + // the first word and no other bits are set in any of the other words. + // This is a constant time implementation. + bits := (f.n[0] ^ 1) | f.n[1] | f.n[2] | f.n[3] | f.n[4] | f.n[5] | + f.n[6] | f.n[7] | f.n[8] | f.n[9] + + return bits == 0 +} + +// IsOddBit returns 1 when the field value is an odd number or 0 otherwise in +// constant time. +// +// Note that a bool is not used here because it is not possible in Go to convert +// from a bool to numeric value in constant time and many constant-time +// operations require a numeric value. See IsOdd for the version that returns a +// bool. +// +// Preconditions: +// - The field value MUST be normalized +func (f *FieldVal) IsOddBit() uint32 { + // Only odd numbers have the bottom bit set. + return f.n[0] & 1 +} + +// IsOdd returns whether or not the field value is an odd number in constant +// time. +// +// Preconditions: +// - The field value MUST be normalized +func (f *FieldVal) IsOdd() bool { + // Only odd numbers have the bottom bit set. + return f.n[0]&1 == 1 +} + +// Equals returns whether or not the two field values are the same in constant +// time. +// +// Preconditions: +// - Both field values being compared MUST be normalized +func (f *FieldVal) Equals(val *FieldVal) bool { + // Xor only sets bits when they are different, so the two field values + // can only be the same if no bits are set after xoring each word. + // This is a constant time implementation. + bits := (f.n[0] ^ val.n[0]) | (f.n[1] ^ val.n[1]) | (f.n[2] ^ val.n[2]) | + (f.n[3] ^ val.n[3]) | (f.n[4] ^ val.n[4]) | (f.n[5] ^ val.n[5]) | + (f.n[6] ^ val.n[6]) | (f.n[7] ^ val.n[7]) | (f.n[8] ^ val.n[8]) | + (f.n[9] ^ val.n[9]) + + return bits == 0 +} + +// NegateVal negates the passed value and stores the result in f in constant +// time. The caller must provide the magnitude of the passed value for a +// correct result. +// +// The field value is returned to support chaining. This enables syntax like: +// f.NegateVal(f2).AddInt(1) so that f = -f2 + 1. +// +// Preconditions: +// - The max magnitude MUST be 63 +// Output Normalized: No +// Output Max Magnitude: Input magnitude + 1 +func (f *FieldVal) NegateVal(val *FieldVal, magnitude uint32) *FieldVal { + // Negation in the field is just the prime minus the value. However, + // in order to allow negation against a field value without having to + // normalize/reduce it first, multiply by the magnitude (that is how + // "far" away it is from the normalized value) to adjust. Also, since + // negating a value pushes it one more order of magnitude away from the + // normalized range, add 1 to compensate. + // + // For some intuition here, imagine you're performing mod 12 arithmetic + // (picture a clock) and you are negating the number 7. So you start at + // 12 (which is of course 0 under mod 12) and count backwards (left on + // the clock) 7 times to arrive at 5. Notice this is just 12-7 = 5. + // Now, assume you're starting with 19, which is a number that is + // already larger than the modulus and congruent to 7 (mod 12). When a + // value is already in the desired range, its magnitude is 1. Since 19 + // is an additional "step", its magnitude (mod 12) is 2. Since any + // multiple of the modulus is congruent to zero (mod m), the answer can + // be shortcut by simply multiplying the magnitude by the modulus and + // subtracting. Keeping with the example, this would be (2*12)-19 = 5. + f.n[0] = (magnitude+1)*fieldPrimeWordZero - val.n[0] + f.n[1] = (magnitude+1)*fieldPrimeWordOne - val.n[1] + f.n[2] = (magnitude+1)*fieldBaseMask - val.n[2] + f.n[3] = (magnitude+1)*fieldBaseMask - val.n[3] + f.n[4] = (magnitude+1)*fieldBaseMask - val.n[4] + f.n[5] = (magnitude+1)*fieldBaseMask - val.n[5] + f.n[6] = (magnitude+1)*fieldBaseMask - val.n[6] + f.n[7] = (magnitude+1)*fieldBaseMask - val.n[7] + f.n[8] = (magnitude+1)*fieldBaseMask - val.n[8] + f.n[9] = (magnitude+1)*fieldMSBMask - val.n[9] + + return f +} + +// Negate negates the field value in constant time. The existing field value is +// modified. The caller must provide the magnitude of the field value for a +// correct result. +// +// The field value is returned to support chaining. This enables syntax like: +// f.Negate().AddInt(1) so that f = -f + 1. +// +// Preconditions: +// - The max magnitude MUST be 63 +// Output Normalized: No +// Output Max Magnitude: Input magnitude + 1 +func (f *FieldVal) Negate(magnitude uint32) *FieldVal { + return f.NegateVal(f, magnitude) +} + +// AddInt adds the passed integer to the existing field value and stores the +// result in f in constant time. This is a convenience function since it is +// fairly common to perform some arithmetic with small native integers. +// +// The field value is returned to support chaining. This enables syntax like: +// f.AddInt(1).Add(f2) so that f = f + 1 + f2. +// +// Preconditions: +// - The field value MUST have a max magnitude of 63 +// Output Normalized: No +// Output Max Magnitude: Existing field magnitude + 1 +func (f *FieldVal) AddInt(ui uint16) *FieldVal { + // Since the field representation intentionally provides overflow bits, + // it's ok to use carryless addition as the carry bit is safely part of + // the word and will be normalized out. + f.n[0] += uint32(ui) + + return f +} + +// Add adds the passed value to the existing field value and stores the result +// in f in constant time. +// +// The field value is returned to support chaining. This enables syntax like: +// f.Add(f2).AddInt(1) so that f = f + f2 + 1. +// +// Preconditions: +// - The sum of the magnitudes of the two field values MUST be a max of 64 +// Output Normalized: No +// Output Max Magnitude: Sum of the magnitude of the two individual field values +func (f *FieldVal) Add(val *FieldVal) *FieldVal { + // Since the field representation intentionally provides overflow bits, + // it's ok to use carryless addition as the carry bit is safely part of + // each word and will be normalized out. This could obviously be done + // in a loop, but the unrolled version is faster. + f.n[0] += val.n[0] + f.n[1] += val.n[1] + f.n[2] += val.n[2] + f.n[3] += val.n[3] + f.n[4] += val.n[4] + f.n[5] += val.n[5] + f.n[6] += val.n[6] + f.n[7] += val.n[7] + f.n[8] += val.n[8] + f.n[9] += val.n[9] + + return f +} + +// Add2 adds the passed two field values together and stores the result in f in +// constant time. +// +// The field value is returned to support chaining. This enables syntax like: +// f3.Add2(f, f2).AddInt(1) so that f3 = f + f2 + 1. +// +// Preconditions: +// - The sum of the magnitudes of the two field values MUST be a max of 64 +// Output Normalized: No +// Output Max Magnitude: Sum of the magnitude of the two field values +func (f *FieldVal) Add2(val *FieldVal, val2 *FieldVal) *FieldVal { + // Since the field representation intentionally provides overflow bits, + // it's ok to use carryless addition as the carry bit is safely part of + // each word and will be normalized out. This could obviously be done + // in a loop, but the unrolled version is faster. + f.n[0] = val.n[0] + val2.n[0] + f.n[1] = val.n[1] + val2.n[1] + f.n[2] = val.n[2] + val2.n[2] + f.n[3] = val.n[3] + val2.n[3] + f.n[4] = val.n[4] + val2.n[4] + f.n[5] = val.n[5] + val2.n[5] + f.n[6] = val.n[6] + val2.n[6] + f.n[7] = val.n[7] + val2.n[7] + f.n[8] = val.n[8] + val2.n[8] + f.n[9] = val.n[9] + val2.n[9] + + return f +} + +// MulInt multiplies the field value by the passed int and stores the result in +// f in constant time. Note that this function can overflow if multiplying the +// value by any of the individual words exceeds a max uint32. Therefore it is +// important that the caller ensures no overflows will occur before using this +// function. +// +// The field value is returned to support chaining. This enables syntax like: +// f.MulInt(2).Add(f2) so that f = 2 * f + f2. +// +// Preconditions: +// - The field value magnitude multiplied by given val MUST be a max of 64 +// Output Normalized: No +// Output Max Magnitude: Existing field magnitude times the provided integer val +func (f *FieldVal) MulInt(val uint8) *FieldVal { + // Since each word of the field representation can hold up to + // 32 - fieldBase extra bits which will be normalized out, it's safe + // to multiply each word without using a larger type or carry + // propagation so long as the values won't overflow a uint32. This + // could obviously be done in a loop, but the unrolled version is + // faster. + ui := uint32(val) + f.n[0] *= ui + f.n[1] *= ui + f.n[2] *= ui + f.n[3] *= ui + f.n[4] *= ui + f.n[5] *= ui + f.n[6] *= ui + f.n[7] *= ui + f.n[8] *= ui + f.n[9] *= ui + + return f +} + +// Mul multiplies the passed value to the existing field value and stores the +// result in f in constant time. Note that this function can overflow if +// multiplying any of the individual words exceeds a max uint32. In practice, +// this means the magnitude of either value involved in the multiplication must +// be a max of 8. +// +// The field value is returned to support chaining. This enables syntax like: +// f.Mul(f2).AddInt(1) so that f = (f * f2) + 1. +// +// Preconditions: +// - Both field values MUST have a max magnitude of 8 +// Output Normalized: No +// Output Max Magnitude: 1 +func (f *FieldVal) Mul(val *FieldVal) *FieldVal { + return f.Mul2(f, val) +} + +// Mul2 multiplies the passed two field values together and stores the result +// result in f in constant time. Note that this function can overflow if +// multiplying any of the individual words exceeds a max uint32. In practice, +// this means the magnitude of either value involved in the multiplication must +// be a max of 8. +// +// The field value is returned to support chaining. This enables syntax like: +// f3.Mul2(f, f2).AddInt(1) so that f3 = (f * f2) + 1. +// +// Preconditions: +// - Both input field values MUST have a max magnitude of 8 +// Output Normalized: No +// Output Max Magnitude: 1 +func (f *FieldVal) Mul2(val *FieldVal, val2 *FieldVal) *FieldVal { + // This could be done with a couple of for loops and an array to store + // the intermediate terms, but this unrolled version is significantly + // faster. + + // Terms for 2^(fieldBase*0). + m := uint64(val.n[0]) * uint64(val2.n[0]) + t0 := m & fieldBaseMask + + // Terms for 2^(fieldBase*1). + m = (m >> fieldBase) + + uint64(val.n[0])*uint64(val2.n[1]) + + uint64(val.n[1])*uint64(val2.n[0]) + t1 := m & fieldBaseMask + + // Terms for 2^(fieldBase*2). + m = (m >> fieldBase) + + uint64(val.n[0])*uint64(val2.n[2]) + + uint64(val.n[1])*uint64(val2.n[1]) + + uint64(val.n[2])*uint64(val2.n[0]) + t2 := m & fieldBaseMask + + // Terms for 2^(fieldBase*3). + m = (m >> fieldBase) + + uint64(val.n[0])*uint64(val2.n[3]) + + uint64(val.n[1])*uint64(val2.n[2]) + + uint64(val.n[2])*uint64(val2.n[1]) + + uint64(val.n[3])*uint64(val2.n[0]) + t3 := m & fieldBaseMask + + // Terms for 2^(fieldBase*4). + m = (m >> fieldBase) + + uint64(val.n[0])*uint64(val2.n[4]) + + uint64(val.n[1])*uint64(val2.n[3]) + + uint64(val.n[2])*uint64(val2.n[2]) + + uint64(val.n[3])*uint64(val2.n[1]) + + uint64(val.n[4])*uint64(val2.n[0]) + t4 := m & fieldBaseMask + + // Terms for 2^(fieldBase*5). + m = (m >> fieldBase) + + uint64(val.n[0])*uint64(val2.n[5]) + + uint64(val.n[1])*uint64(val2.n[4]) + + uint64(val.n[2])*uint64(val2.n[3]) + + uint64(val.n[3])*uint64(val2.n[2]) + + uint64(val.n[4])*uint64(val2.n[1]) + + uint64(val.n[5])*uint64(val2.n[0]) + t5 := m & fieldBaseMask + + // Terms for 2^(fieldBase*6). + m = (m >> fieldBase) + + uint64(val.n[0])*uint64(val2.n[6]) + + uint64(val.n[1])*uint64(val2.n[5]) + + uint64(val.n[2])*uint64(val2.n[4]) + + uint64(val.n[3])*uint64(val2.n[3]) + + uint64(val.n[4])*uint64(val2.n[2]) + + uint64(val.n[5])*uint64(val2.n[1]) + + uint64(val.n[6])*uint64(val2.n[0]) + t6 := m & fieldBaseMask + + // Terms for 2^(fieldBase*7). + m = (m >> fieldBase) + + uint64(val.n[0])*uint64(val2.n[7]) + + uint64(val.n[1])*uint64(val2.n[6]) + + uint64(val.n[2])*uint64(val2.n[5]) + + uint64(val.n[3])*uint64(val2.n[4]) + + uint64(val.n[4])*uint64(val2.n[3]) + + uint64(val.n[5])*uint64(val2.n[2]) + + uint64(val.n[6])*uint64(val2.n[1]) + + uint64(val.n[7])*uint64(val2.n[0]) + t7 := m & fieldBaseMask + + // Terms for 2^(fieldBase*8). + m = (m >> fieldBase) + + uint64(val.n[0])*uint64(val2.n[8]) + + uint64(val.n[1])*uint64(val2.n[7]) + + uint64(val.n[2])*uint64(val2.n[6]) + + uint64(val.n[3])*uint64(val2.n[5]) + + uint64(val.n[4])*uint64(val2.n[4]) + + uint64(val.n[5])*uint64(val2.n[3]) + + uint64(val.n[6])*uint64(val2.n[2]) + + uint64(val.n[7])*uint64(val2.n[1]) + + uint64(val.n[8])*uint64(val2.n[0]) + t8 := m & fieldBaseMask + + // Terms for 2^(fieldBase*9). + m = (m >> fieldBase) + + uint64(val.n[0])*uint64(val2.n[9]) + + uint64(val.n[1])*uint64(val2.n[8]) + + uint64(val.n[2])*uint64(val2.n[7]) + + uint64(val.n[3])*uint64(val2.n[6]) + + uint64(val.n[4])*uint64(val2.n[5]) + + uint64(val.n[5])*uint64(val2.n[4]) + + uint64(val.n[6])*uint64(val2.n[3]) + + uint64(val.n[7])*uint64(val2.n[2]) + + uint64(val.n[8])*uint64(val2.n[1]) + + uint64(val.n[9])*uint64(val2.n[0]) + t9 := m & fieldBaseMask + + // Terms for 2^(fieldBase*10). + m = (m >> fieldBase) + + uint64(val.n[1])*uint64(val2.n[9]) + + uint64(val.n[2])*uint64(val2.n[8]) + + uint64(val.n[3])*uint64(val2.n[7]) + + uint64(val.n[4])*uint64(val2.n[6]) + + uint64(val.n[5])*uint64(val2.n[5]) + + uint64(val.n[6])*uint64(val2.n[4]) + + uint64(val.n[7])*uint64(val2.n[3]) + + uint64(val.n[8])*uint64(val2.n[2]) + + uint64(val.n[9])*uint64(val2.n[1]) + t10 := m & fieldBaseMask + + // Terms for 2^(fieldBase*11). + m = (m >> fieldBase) + + uint64(val.n[2])*uint64(val2.n[9]) + + uint64(val.n[3])*uint64(val2.n[8]) + + uint64(val.n[4])*uint64(val2.n[7]) + + uint64(val.n[5])*uint64(val2.n[6]) + + uint64(val.n[6])*uint64(val2.n[5]) + + uint64(val.n[7])*uint64(val2.n[4]) + + uint64(val.n[8])*uint64(val2.n[3]) + + uint64(val.n[9])*uint64(val2.n[2]) + t11 := m & fieldBaseMask + + // Terms for 2^(fieldBase*12). + m = (m >> fieldBase) + + uint64(val.n[3])*uint64(val2.n[9]) + + uint64(val.n[4])*uint64(val2.n[8]) + + uint64(val.n[5])*uint64(val2.n[7]) + + uint64(val.n[6])*uint64(val2.n[6]) + + uint64(val.n[7])*uint64(val2.n[5]) + + uint64(val.n[8])*uint64(val2.n[4]) + + uint64(val.n[9])*uint64(val2.n[3]) + t12 := m & fieldBaseMask + + // Terms for 2^(fieldBase*13). + m = (m >> fieldBase) + + uint64(val.n[4])*uint64(val2.n[9]) + + uint64(val.n[5])*uint64(val2.n[8]) + + uint64(val.n[6])*uint64(val2.n[7]) + + uint64(val.n[7])*uint64(val2.n[6]) + + uint64(val.n[8])*uint64(val2.n[5]) + + uint64(val.n[9])*uint64(val2.n[4]) + t13 := m & fieldBaseMask + + // Terms for 2^(fieldBase*14). + m = (m >> fieldBase) + + uint64(val.n[5])*uint64(val2.n[9]) + + uint64(val.n[6])*uint64(val2.n[8]) + + uint64(val.n[7])*uint64(val2.n[7]) + + uint64(val.n[8])*uint64(val2.n[6]) + + uint64(val.n[9])*uint64(val2.n[5]) + t14 := m & fieldBaseMask + + // Terms for 2^(fieldBase*15). + m = (m >> fieldBase) + + uint64(val.n[6])*uint64(val2.n[9]) + + uint64(val.n[7])*uint64(val2.n[8]) + + uint64(val.n[8])*uint64(val2.n[7]) + + uint64(val.n[9])*uint64(val2.n[6]) + t15 := m & fieldBaseMask + + // Terms for 2^(fieldBase*16). + m = (m >> fieldBase) + + uint64(val.n[7])*uint64(val2.n[9]) + + uint64(val.n[8])*uint64(val2.n[8]) + + uint64(val.n[9])*uint64(val2.n[7]) + t16 := m & fieldBaseMask + + // Terms for 2^(fieldBase*17). + m = (m >> fieldBase) + + uint64(val.n[8])*uint64(val2.n[9]) + + uint64(val.n[9])*uint64(val2.n[8]) + t17 := m & fieldBaseMask + + // Terms for 2^(fieldBase*18). + m = (m >> fieldBase) + uint64(val.n[9])*uint64(val2.n[9]) + t18 := m & fieldBaseMask + + // What's left is for 2^(fieldBase*19). + t19 := m >> fieldBase + + // At this point, all of the terms are grouped into their respective + // base. + // + // Per [HAC] section 14.3.4: Reduction method of moduli of special form, + // when the modulus is of the special form m = b^t - c, highly efficient + // reduction can be achieved per the provided algorithm. + // + // The secp256k1 prime is equivalent to 2^256 - 4294968273, so it fits + // this criteria. + // + // 4294968273 in field representation (base 2^26) is: + // n[0] = 977 + // n[1] = 64 + // That is to say (2^26 * 64) + 977 = 4294968273 + // + // Since each word is in base 26, the upper terms (t10 and up) start + // at 260 bits (versus the final desired range of 256 bits), so the + // field representation of 'c' from above needs to be adjusted for the + // extra 4 bits by multiplying it by 2^4 = 16. 4294968273 * 16 = + // 68719492368. Thus, the adjusted field representation of 'c' is: + // n[0] = 977 * 16 = 15632 + // n[1] = 64 * 16 = 1024 + // That is to say (2^26 * 1024) + 15632 = 68719492368 + // + // To reduce the final term, t19, the entire 'c' value is needed instead + // of only n[0] because there are no more terms left to handle n[1]. + // This means there might be some magnitude left in the upper bits that + // is handled below. + m = t0 + t10*15632 + t0 = m & fieldBaseMask + m = (m >> fieldBase) + t1 + t10*1024 + t11*15632 + t1 = m & fieldBaseMask + m = (m >> fieldBase) + t2 + t11*1024 + t12*15632 + t2 = m & fieldBaseMask + m = (m >> fieldBase) + t3 + t12*1024 + t13*15632 + t3 = m & fieldBaseMask + m = (m >> fieldBase) + t4 + t13*1024 + t14*15632 + t4 = m & fieldBaseMask + m = (m >> fieldBase) + t5 + t14*1024 + t15*15632 + t5 = m & fieldBaseMask + m = (m >> fieldBase) + t6 + t15*1024 + t16*15632 + t6 = m & fieldBaseMask + m = (m >> fieldBase) + t7 + t16*1024 + t17*15632 + t7 = m & fieldBaseMask + m = (m >> fieldBase) + t8 + t17*1024 + t18*15632 + t8 = m & fieldBaseMask + m = (m >> fieldBase) + t9 + t18*1024 + t19*68719492368 + t9 = m & fieldMSBMask + m = m >> fieldMSBBits + + // At this point, if the magnitude is greater than 0, the overall value + // is greater than the max possible 256-bit value. In particular, it is + // "how many times larger" than the max value it is. + // + // The algorithm presented in [HAC] section 14.3.4 repeats until the + // quotient is zero. However, due to the above, we already know at + // least how many times we would need to repeat as it's the value + // currently in m. Thus we can simply multiply the magnitude by the + // field representation of the prime and do a single iteration. Notice + // that nothing will be changed when the magnitude is zero, so we could + // skip this in that case, however always running regardless allows it + // to run in constant time. The final result will be in the range + // 0 <= result <= prime + (2^64 - c), so it is guaranteed to have a + // magnitude of 1, but it is denormalized. + d := t0 + m*977 + f.n[0] = uint32(d & fieldBaseMask) + d = (d >> fieldBase) + t1 + m*64 + f.n[1] = uint32(d & fieldBaseMask) + f.n[2] = uint32((d >> fieldBase) + t2) + f.n[3] = uint32(t3) + f.n[4] = uint32(t4) + f.n[5] = uint32(t5) + f.n[6] = uint32(t6) + f.n[7] = uint32(t7) + f.n[8] = uint32(t8) + f.n[9] = uint32(t9) + + return f +} + +// SquareRootVal either calculates the square root of the passed value when it +// exists or the square root of the negation of the value when it does not exist +// and stores the result in f in constant time. The return flag is true when +// the calculated square root is for the passed value itself and false when it +// is for its negation. +// +// Note that this function can overflow if multiplying any of the individual +// words exceeds a max uint32. In practice, this means the magnitude of the +// field must be a max of 8 to prevent overflow. The magnitude of the result +// will be 1. +// +// Preconditions: +// - The input field value MUST have a max magnitude of 8 +// Output Normalized: No +// Output Max Magnitude: 1 +func (f *FieldVal) SquareRootVal(val *FieldVal) bool { + // This uses the Tonelli-Shanks method for calculating the square root of + // the value when it exists. The key principles of the method follow. + // + // Fermat's little theorem states that for a nonzero number 'a' and prime + // 'p', a^(p-1) ≡ 1 (mod p). + // + // Further, Euler's criterion states that an integer 'a' has a square root + // (aka is a quadratic residue) modulo a prime if a^((p-1)/2) ≡ 1 (mod p) + // and, conversely, when it does NOT have a square root (aka 'a' is a + // non-residue) a^((p-1)/2) ≡ -1 (mod p). + // + // This can be seen by considering that Fermat's little theorem can be + // written as (a^((p-1)/2) - 1)(a^((p-1)/2) + 1) ≡ 0 (mod p). Therefore, + // one of the two factors must be 0. Then, when a ≡ x^2 (aka 'a' is a + // quadratic residue), (x^2)^((p-1)/2) ≡ x^(p-1) ≡ 1 (mod p) which implies + // the first factor must be zero. Finally, per Lagrange's theorem, the + // non-residues are the only remaining possible solutions and thus must make + // the second factor zero to satisfy Fermat's little theorem implying that + // a^((p-1)/2) ≡ -1 (mod p) for that case. + // + // The Tonelli-Shanks method uses these facts along with factoring out + // powers of two to solve a congruence that results in either the solution + // when the square root exists or the square root of the negation of the + // value when it does not. In the case of primes that are ≡ 3 (mod 4), the + // possible solutions are r = ±a^((p+1)/4) (mod p). Therefore, either r^2 ≡ + // a (mod p) is true in which case ±r are the two solutions, or r^2 ≡ -a + // (mod p) in which case 'a' is a non-residue and there are no solutions. + // + // The secp256k1 prime is ≡ 3 (mod 4), so this result applies. + // + // In other words, calculate a^((p+1)/4) and then square it and check it + // against the original value to determine if it is actually the square + // root. + // + // In order to efficiently compute a^((p+1)/4), (p+1)/4 needs to be split + // into a sequence of squares and multiplications that minimizes the number + // of multiplications needed (since they are more costly than squarings). + // + // The secp256k1 prime + 1 / 4 is 2^254 - 2^30 - 244. In binary, that is: + // + // 00111111 11111111 11111111 11111111 + // 11111111 11111111 11111111 11111111 + // 11111111 11111111 11111111 11111111 + // 11111111 11111111 11111111 11111111 + // 11111111 11111111 11111111 11111111 + // 11111111 11111111 11111111 11111111 + // 11111111 11111111 11111111 11111111 + // 10111111 11111111 11111111 00001100 + // + // Notice that can be broken up into three windows of consecutive 1s (in + // order of least to most signifcant) as: + // + // 6-bit window with two bits set (bits 4, 5, 6, 7 unset) + // 23-bit window with 22 bits set (bit 30 unset) + // 223-bit window with all 223 bits set + // + // Thus, the groups of 1 bits in each window forms the set: + // S = {2, 22, 223}. + // + // The strategy is to calculate a^(2^n - 1) for each grouping via an + // addition chain with a sliding window. + // + // The addition chain used is (credits to Peter Dettman): + // (0,0),(1,0),(2,2),(3,2),(4,1),(5,5),(6,6),(7,7),(8,8),(9,7),(10,2) + // => 2^1 2^[2] 2^3 2^6 2^9 2^11 2^[22] 2^44 2^88 2^176 2^220 2^[223] + // + // This has a cost of 254 field squarings and 13 field multiplications. + var a, a2, a3, a6, a9, a11, a22, a44, a88, a176, a220, a223 FieldVal + a.Set(val) + a2.SquareVal(&a).Mul(&a) // a2 = a^(2^2 - 1) + a3.SquareVal(&a2).Mul(&a) // a3 = a^(2^3 - 1) + a6.SquareVal(&a3).Square().Square() // a6 = a^(2^6 - 2^3) + a6.Mul(&a3) // a6 = a^(2^6 - 1) + a9.SquareVal(&a6).Square().Square() // a9 = a^(2^9 - 2^3) + a9.Mul(&a3) // a9 = a^(2^9 - 1) + a11.SquareVal(&a9).Square() // a11 = a^(2^11 - 2^2) + a11.Mul(&a2) // a11 = a^(2^11 - 1) + a22.SquareVal(&a11).Square().Square().Square().Square() // a22 = a^(2^16 - 2^5) + a22.Square().Square().Square().Square().Square() // a22 = a^(2^21 - 2^10) + a22.Square() // a22 = a^(2^22 - 2^11) + a22.Mul(&a11) // a22 = a^(2^22 - 1) + a44.SquareVal(&a22).Square().Square().Square().Square() // a44 = a^(2^27 - 2^5) + a44.Square().Square().Square().Square().Square() // a44 = a^(2^32 - 2^10) + a44.Square().Square().Square().Square().Square() // a44 = a^(2^37 - 2^15) + a44.Square().Square().Square().Square().Square() // a44 = a^(2^42 - 2^20) + a44.Square().Square() // a44 = a^(2^44 - 2^22) + a44.Mul(&a22) // a44 = a^(2^44 - 1) + a88.SquareVal(&a44).Square().Square().Square().Square() // a88 = a^(2^49 - 2^5) + a88.Square().Square().Square().Square().Square() // a88 = a^(2^54 - 2^10) + a88.Square().Square().Square().Square().Square() // a88 = a^(2^59 - 2^15) + a88.Square().Square().Square().Square().Square() // a88 = a^(2^64 - 2^20) + a88.Square().Square().Square().Square().Square() // a88 = a^(2^69 - 2^25) + a88.Square().Square().Square().Square().Square() // a88 = a^(2^74 - 2^30) + a88.Square().Square().Square().Square().Square() // a88 = a^(2^79 - 2^35) + a88.Square().Square().Square().Square().Square() // a88 = a^(2^84 - 2^40) + a88.Square().Square().Square().Square() // a88 = a^(2^88 - 2^44) + a88.Mul(&a44) // a88 = a^(2^88 - 1) + a176.SquareVal(&a88).Square().Square().Square().Square() // a176 = a^(2^93 - 2^5) + a176.Square().Square().Square().Square().Square() // a176 = a^(2^98 - 2^10) + a176.Square().Square().Square().Square().Square() // a176 = a^(2^103 - 2^15) + a176.Square().Square().Square().Square().Square() // a176 = a^(2^108 - 2^20) + a176.Square().Square().Square().Square().Square() // a176 = a^(2^113 - 2^25) + a176.Square().Square().Square().Square().Square() // a176 = a^(2^118 - 2^30) + a176.Square().Square().Square().Square().Square() // a176 = a^(2^123 - 2^35) + a176.Square().Square().Square().Square().Square() // a176 = a^(2^128 - 2^40) + a176.Square().Square().Square().Square().Square() // a176 = a^(2^133 - 2^45) + a176.Square().Square().Square().Square().Square() // a176 = a^(2^138 - 2^50) + a176.Square().Square().Square().Square().Square() // a176 = a^(2^143 - 2^55) + a176.Square().Square().Square().Square().Square() // a176 = a^(2^148 - 2^60) + a176.Square().Square().Square().Square().Square() // a176 = a^(2^153 - 2^65) + a176.Square().Square().Square().Square().Square() // a176 = a^(2^158 - 2^70) + a176.Square().Square().Square().Square().Square() // a176 = a^(2^163 - 2^75) + a176.Square().Square().Square().Square().Square() // a176 = a^(2^168 - 2^80) + a176.Square().Square().Square().Square().Square() // a176 = a^(2^173 - 2^85) + a176.Square().Square().Square() // a176 = a^(2^176 - 2^88) + a176.Mul(&a88) // a176 = a^(2^176 - 1) + a220.SquareVal(&a176).Square().Square().Square().Square() // a220 = a^(2^181 - 2^5) + a220.Square().Square().Square().Square().Square() // a220 = a^(2^186 - 2^10) + a220.Square().Square().Square().Square().Square() // a220 = a^(2^191 - 2^15) + a220.Square().Square().Square().Square().Square() // a220 = a^(2^196 - 2^20) + a220.Square().Square().Square().Square().Square() // a220 = a^(2^201 - 2^25) + a220.Square().Square().Square().Square().Square() // a220 = a^(2^206 - 2^30) + a220.Square().Square().Square().Square().Square() // a220 = a^(2^211 - 2^35) + a220.Square().Square().Square().Square().Square() // a220 = a^(2^216 - 2^40) + a220.Square().Square().Square().Square() // a220 = a^(2^220 - 2^44) + a220.Mul(&a44) // a220 = a^(2^220 - 1) + a223.SquareVal(&a220).Square().Square() // a223 = a^(2^223 - 2^3) + a223.Mul(&a3) // a223 = a^(2^223 - 1) + + f.SquareVal(&a223).Square().Square().Square().Square() // f = a^(2^228 - 2^5) + f.Square().Square().Square().Square().Square() // f = a^(2^233 - 2^10) + f.Square().Square().Square().Square().Square() // f = a^(2^238 - 2^15) + f.Square().Square().Square().Square().Square() // f = a^(2^243 - 2^20) + f.Square().Square().Square() // f = a^(2^246 - 2^23) + f.Mul(&a22) // f = a^(2^246 - 2^22 - 1) + f.Square().Square().Square().Square().Square() // f = a^(2^251 - 2^27 - 2^5) + f.Square() // f = a^(2^252 - 2^28 - 2^6) + f.Mul(&a2) // f = a^(2^252 - 2^28 - 2^6 - 2^1 - 1) + f.Square().Square() // f = a^(2^254 - 2^30 - 2^8 - 2^3 - 2^2) + // // = a^(2^254 - 2^30 - 244) + // // = a^((p+1)/4) + + // Ensure the calculated result is actually the square root by squaring it + // and checking against the original value. + var sqr FieldVal + return sqr.SquareVal(f).Normalize().Equals(val.Normalize()) +} + +// Square squares the field value in constant time. The existing field value is +// modified. Note that this function can overflow if multiplying any of the +// individual words exceeds a max uint32. In practice, this means the magnitude +// of the field must be a max of 8 to prevent overflow. +// +// The field value is returned to support chaining. This enables syntax like: +// f.Square().Mul(f2) so that f = f^2 * f2. +// +// Preconditions: +// - The field value MUST have a max magnitude of 8 +// Output Normalized: No +// Output Max Magnitude: 1 +func (f *FieldVal) Square() *FieldVal { + return f.SquareVal(f) +} + +// SquareVal squares the passed value and stores the result in f in constant +// time. Note that this function can overflow if multiplying any of the +// individual words exceeds a max uint32. In practice, this means the magnitude +// of the field being squared must be a max of 8 to prevent overflow. +// +// The field value is returned to support chaining. This enables syntax like: +// f3.SquareVal(f).Mul(f) so that f3 = f^2 * f = f^3. +// +// Preconditions: +// - The input field value MUST have a max magnitude of 8 +// Output Normalized: No +// Output Max Magnitude: 1 +func (f *FieldVal) SquareVal(val *FieldVal) *FieldVal { + // This could be done with a couple of for loops and an array to store + // the intermediate terms, but this unrolled version is significantly + // faster. + + // Terms for 2^(fieldBase*0). + m := uint64(val.n[0]) * uint64(val.n[0]) + t0 := m & fieldBaseMask + + // Terms for 2^(fieldBase*1). + m = (m >> fieldBase) + 2*uint64(val.n[0])*uint64(val.n[1]) + t1 := m & fieldBaseMask + + // Terms for 2^(fieldBase*2). + m = (m >> fieldBase) + + 2*uint64(val.n[0])*uint64(val.n[2]) + + uint64(val.n[1])*uint64(val.n[1]) + t2 := m & fieldBaseMask + + // Terms for 2^(fieldBase*3). + m = (m >> fieldBase) + + 2*uint64(val.n[0])*uint64(val.n[3]) + + 2*uint64(val.n[1])*uint64(val.n[2]) + t3 := m & fieldBaseMask + + // Terms for 2^(fieldBase*4). + m = (m >> fieldBase) + + 2*uint64(val.n[0])*uint64(val.n[4]) + + 2*uint64(val.n[1])*uint64(val.n[3]) + + uint64(val.n[2])*uint64(val.n[2]) + t4 := m & fieldBaseMask + + // Terms for 2^(fieldBase*5). + m = (m >> fieldBase) + + 2*uint64(val.n[0])*uint64(val.n[5]) + + 2*uint64(val.n[1])*uint64(val.n[4]) + + 2*uint64(val.n[2])*uint64(val.n[3]) + t5 := m & fieldBaseMask + + // Terms for 2^(fieldBase*6). + m = (m >> fieldBase) + + 2*uint64(val.n[0])*uint64(val.n[6]) + + 2*uint64(val.n[1])*uint64(val.n[5]) + + 2*uint64(val.n[2])*uint64(val.n[4]) + + uint64(val.n[3])*uint64(val.n[3]) + t6 := m & fieldBaseMask + + // Terms for 2^(fieldBase*7). + m = (m >> fieldBase) + + 2*uint64(val.n[0])*uint64(val.n[7]) + + 2*uint64(val.n[1])*uint64(val.n[6]) + + 2*uint64(val.n[2])*uint64(val.n[5]) + + 2*uint64(val.n[3])*uint64(val.n[4]) + t7 := m & fieldBaseMask + + // Terms for 2^(fieldBase*8). + m = (m >> fieldBase) + + 2*uint64(val.n[0])*uint64(val.n[8]) + + 2*uint64(val.n[1])*uint64(val.n[7]) + + 2*uint64(val.n[2])*uint64(val.n[6]) + + 2*uint64(val.n[3])*uint64(val.n[5]) + + uint64(val.n[4])*uint64(val.n[4]) + t8 := m & fieldBaseMask + + // Terms for 2^(fieldBase*9). + m = (m >> fieldBase) + + 2*uint64(val.n[0])*uint64(val.n[9]) + + 2*uint64(val.n[1])*uint64(val.n[8]) + + 2*uint64(val.n[2])*uint64(val.n[7]) + + 2*uint64(val.n[3])*uint64(val.n[6]) + + 2*uint64(val.n[4])*uint64(val.n[5]) + t9 := m & fieldBaseMask + + // Terms for 2^(fieldBase*10). + m = (m >> fieldBase) + + 2*uint64(val.n[1])*uint64(val.n[9]) + + 2*uint64(val.n[2])*uint64(val.n[8]) + + 2*uint64(val.n[3])*uint64(val.n[7]) + + 2*uint64(val.n[4])*uint64(val.n[6]) + + uint64(val.n[5])*uint64(val.n[5]) + t10 := m & fieldBaseMask + + // Terms for 2^(fieldBase*11). + m = (m >> fieldBase) + + 2*uint64(val.n[2])*uint64(val.n[9]) + + 2*uint64(val.n[3])*uint64(val.n[8]) + + 2*uint64(val.n[4])*uint64(val.n[7]) + + 2*uint64(val.n[5])*uint64(val.n[6]) + t11 := m & fieldBaseMask + + // Terms for 2^(fieldBase*12). + m = (m >> fieldBase) + + 2*uint64(val.n[3])*uint64(val.n[9]) + + 2*uint64(val.n[4])*uint64(val.n[8]) + + 2*uint64(val.n[5])*uint64(val.n[7]) + + uint64(val.n[6])*uint64(val.n[6]) + t12 := m & fieldBaseMask + + // Terms for 2^(fieldBase*13). + m = (m >> fieldBase) + + 2*uint64(val.n[4])*uint64(val.n[9]) + + 2*uint64(val.n[5])*uint64(val.n[8]) + + 2*uint64(val.n[6])*uint64(val.n[7]) + t13 := m & fieldBaseMask + + // Terms for 2^(fieldBase*14). + m = (m >> fieldBase) + + 2*uint64(val.n[5])*uint64(val.n[9]) + + 2*uint64(val.n[6])*uint64(val.n[8]) + + uint64(val.n[7])*uint64(val.n[7]) + t14 := m & fieldBaseMask + + // Terms for 2^(fieldBase*15). + m = (m >> fieldBase) + + 2*uint64(val.n[6])*uint64(val.n[9]) + + 2*uint64(val.n[7])*uint64(val.n[8]) + t15 := m & fieldBaseMask + + // Terms for 2^(fieldBase*16). + m = (m >> fieldBase) + + 2*uint64(val.n[7])*uint64(val.n[9]) + + uint64(val.n[8])*uint64(val.n[8]) + t16 := m & fieldBaseMask + + // Terms for 2^(fieldBase*17). + m = (m >> fieldBase) + 2*uint64(val.n[8])*uint64(val.n[9]) + t17 := m & fieldBaseMask + + // Terms for 2^(fieldBase*18). + m = (m >> fieldBase) + uint64(val.n[9])*uint64(val.n[9]) + t18 := m & fieldBaseMask + + // What's left is for 2^(fieldBase*19). + t19 := m >> fieldBase + + // At this point, all of the terms are grouped into their respective + // base. + // + // Per [HAC] section 14.3.4: Reduction method of moduli of special form, + // when the modulus is of the special form m = b^t - c, highly efficient + // reduction can be achieved per the provided algorithm. + // + // The secp256k1 prime is equivalent to 2^256 - 4294968273, so it fits + // this criteria. + // + // 4294968273 in field representation (base 2^26) is: + // n[0] = 977 + // n[1] = 64 + // That is to say (2^26 * 64) + 977 = 4294968273 + // + // Since each word is in base 26, the upper terms (t10 and up) start + // at 260 bits (versus the final desired range of 256 bits), so the + // field representation of 'c' from above needs to be adjusted for the + // extra 4 bits by multiplying it by 2^4 = 16. 4294968273 * 16 = + // 68719492368. Thus, the adjusted field representation of 'c' is: + // n[0] = 977 * 16 = 15632 + // n[1] = 64 * 16 = 1024 + // That is to say (2^26 * 1024) + 15632 = 68719492368 + // + // To reduce the final term, t19, the entire 'c' value is needed instead + // of only n[0] because there are no more terms left to handle n[1]. + // This means there might be some magnitude left in the upper bits that + // is handled below. + m = t0 + t10*15632 + t0 = m & fieldBaseMask + m = (m >> fieldBase) + t1 + t10*1024 + t11*15632 + t1 = m & fieldBaseMask + m = (m >> fieldBase) + t2 + t11*1024 + t12*15632 + t2 = m & fieldBaseMask + m = (m >> fieldBase) + t3 + t12*1024 + t13*15632 + t3 = m & fieldBaseMask + m = (m >> fieldBase) + t4 + t13*1024 + t14*15632 + t4 = m & fieldBaseMask + m = (m >> fieldBase) + t5 + t14*1024 + t15*15632 + t5 = m & fieldBaseMask + m = (m >> fieldBase) + t6 + t15*1024 + t16*15632 + t6 = m & fieldBaseMask + m = (m >> fieldBase) + t7 + t16*1024 + t17*15632 + t7 = m & fieldBaseMask + m = (m >> fieldBase) + t8 + t17*1024 + t18*15632 + t8 = m & fieldBaseMask + m = (m >> fieldBase) + t9 + t18*1024 + t19*68719492368 + t9 = m & fieldMSBMask + m = m >> fieldMSBBits + + // At this point, if the magnitude is greater than 0, the overall value + // is greater than the max possible 256-bit value. In particular, it is + // "how many times larger" than the max value it is. + // + // The algorithm presented in [HAC] section 14.3.4 repeats until the + // quotient is zero. However, due to the above, we already know at + // least how many times we would need to repeat as it's the value + // currently in m. Thus we can simply multiply the magnitude by the + // field representation of the prime and do a single iteration. Notice + // that nothing will be changed when the magnitude is zero, so we could + // skip this in that case, however always running regardless allows it + // to run in constant time. The final result will be in the range + // 0 <= result <= prime + (2^64 - c), so it is guaranteed to have a + // magnitude of 1, but it is denormalized. + n := t0 + m*977 + f.n[0] = uint32(n & fieldBaseMask) + n = (n >> fieldBase) + t1 + m*64 + f.n[1] = uint32(n & fieldBaseMask) + f.n[2] = uint32((n >> fieldBase) + t2) + f.n[3] = uint32(t3) + f.n[4] = uint32(t4) + f.n[5] = uint32(t5) + f.n[6] = uint32(t6) + f.n[7] = uint32(t7) + f.n[8] = uint32(t8) + f.n[9] = uint32(t9) + + return f +} + +// Inverse finds the modular multiplicative inverse of the field value in +// constant time. The existing field value is modified. +// +// The field value is returned to support chaining. This enables syntax like: +// f.Inverse().Mul(f2) so that f = f^-1 * f2. +// +// Preconditions: +// - The field value MUST have a max magnitude of 8 +// Output Normalized: No +// Output Max Magnitude: 1 +func (f *FieldVal) Inverse() *FieldVal { + // Fermat's little theorem states that for a nonzero number a and prime + // prime p, a^(p-1) = 1 (mod p). Since the multiplicative inverse is + // a*b = 1 (mod p), it follows that b = a*a^(p-2) = a^(p-1) = 1 (mod p). + // Thus, a^(p-2) is the multiplicative inverse. + // + // In order to efficiently compute a^(p-2), p-2 needs to be split into + // a sequence of squares and multiplications that minimizes the number + // of multiplications needed (since they are more costly than + // squarings). Intermediate results are saved and reused as well. + // + // The secp256k1 prime - 2 is 2^256 - 4294968275. + // + // This has a cost of 258 field squarings and 33 field multiplications. + var a2, a3, a4, a10, a11, a21, a42, a45, a63, a1019, a1023 FieldVal + a2.SquareVal(f) + a3.Mul2(&a2, f) + a4.SquareVal(&a2) + a10.SquareVal(&a4).Mul(&a2) + a11.Mul2(&a10, f) + a21.Mul2(&a10, &a11) + a42.SquareVal(&a21) + a45.Mul2(&a42, &a3) + a63.Mul2(&a42, &a21) + a1019.SquareVal(&a63).Square().Square().Square().Mul(&a11) + a1023.Mul2(&a1019, &a4) + f.Set(&a63) // f = a^(2^6 - 1) + f.Square().Square().Square().Square().Square() // f = a^(2^11 - 32) + f.Square().Square().Square().Square().Square() // f = a^(2^16 - 1024) + f.Mul(&a1023) // f = a^(2^16 - 1) + f.Square().Square().Square().Square().Square() // f = a^(2^21 - 32) + f.Square().Square().Square().Square().Square() // f = a^(2^26 - 1024) + f.Mul(&a1023) // f = a^(2^26 - 1) + f.Square().Square().Square().Square().Square() // f = a^(2^31 - 32) + f.Square().Square().Square().Square().Square() // f = a^(2^36 - 1024) + f.Mul(&a1023) // f = a^(2^36 - 1) + f.Square().Square().Square().Square().Square() // f = a^(2^41 - 32) + f.Square().Square().Square().Square().Square() // f = a^(2^46 - 1024) + f.Mul(&a1023) // f = a^(2^46 - 1) + f.Square().Square().Square().Square().Square() // f = a^(2^51 - 32) + f.Square().Square().Square().Square().Square() // f = a^(2^56 - 1024) + f.Mul(&a1023) // f = a^(2^56 - 1) + f.Square().Square().Square().Square().Square() // f = a^(2^61 - 32) + f.Square().Square().Square().Square().Square() // f = a^(2^66 - 1024) + f.Mul(&a1023) // f = a^(2^66 - 1) + f.Square().Square().Square().Square().Square() // f = a^(2^71 - 32) + f.Square().Square().Square().Square().Square() // f = a^(2^76 - 1024) + f.Mul(&a1023) // f = a^(2^76 - 1) + f.Square().Square().Square().Square().Square() // f = a^(2^81 - 32) + f.Square().Square().Square().Square().Square() // f = a^(2^86 - 1024) + f.Mul(&a1023) // f = a^(2^86 - 1) + f.Square().Square().Square().Square().Square() // f = a^(2^91 - 32) + f.Square().Square().Square().Square().Square() // f = a^(2^96 - 1024) + f.Mul(&a1023) // f = a^(2^96 - 1) + f.Square().Square().Square().Square().Square() // f = a^(2^101 - 32) + f.Square().Square().Square().Square().Square() // f = a^(2^106 - 1024) + f.Mul(&a1023) // f = a^(2^106 - 1) + f.Square().Square().Square().Square().Square() // f = a^(2^111 - 32) + f.Square().Square().Square().Square().Square() // f = a^(2^116 - 1024) + f.Mul(&a1023) // f = a^(2^116 - 1) + f.Square().Square().Square().Square().Square() // f = a^(2^121 - 32) + f.Square().Square().Square().Square().Square() // f = a^(2^126 - 1024) + f.Mul(&a1023) // f = a^(2^126 - 1) + f.Square().Square().Square().Square().Square() // f = a^(2^131 - 32) + f.Square().Square().Square().Square().Square() // f = a^(2^136 - 1024) + f.Mul(&a1023) // f = a^(2^136 - 1) + f.Square().Square().Square().Square().Square() // f = a^(2^141 - 32) + f.Square().Square().Square().Square().Square() // f = a^(2^146 - 1024) + f.Mul(&a1023) // f = a^(2^146 - 1) + f.Square().Square().Square().Square().Square() // f = a^(2^151 - 32) + f.Square().Square().Square().Square().Square() // f = a^(2^156 - 1024) + f.Mul(&a1023) // f = a^(2^156 - 1) + f.Square().Square().Square().Square().Square() // f = a^(2^161 - 32) + f.Square().Square().Square().Square().Square() // f = a^(2^166 - 1024) + f.Mul(&a1023) // f = a^(2^166 - 1) + f.Square().Square().Square().Square().Square() // f = a^(2^171 - 32) + f.Square().Square().Square().Square().Square() // f = a^(2^176 - 1024) + f.Mul(&a1023) // f = a^(2^176 - 1) + f.Square().Square().Square().Square().Square() // f = a^(2^181 - 32) + f.Square().Square().Square().Square().Square() // f = a^(2^186 - 1024) + f.Mul(&a1023) // f = a^(2^186 - 1) + f.Square().Square().Square().Square().Square() // f = a^(2^191 - 32) + f.Square().Square().Square().Square().Square() // f = a^(2^196 - 1024) + f.Mul(&a1023) // f = a^(2^196 - 1) + f.Square().Square().Square().Square().Square() // f = a^(2^201 - 32) + f.Square().Square().Square().Square().Square() // f = a^(2^206 - 1024) + f.Mul(&a1023) // f = a^(2^206 - 1) + f.Square().Square().Square().Square().Square() // f = a^(2^211 - 32) + f.Square().Square().Square().Square().Square() // f = a^(2^216 - 1024) + f.Mul(&a1023) // f = a^(2^216 - 1) + f.Square().Square().Square().Square().Square() // f = a^(2^221 - 32) + f.Square().Square().Square().Square().Square() // f = a^(2^226 - 1024) + f.Mul(&a1019) // f = a^(2^226 - 5) + f.Square().Square().Square().Square().Square() // f = a^(2^231 - 160) + f.Square().Square().Square().Square().Square() // f = a^(2^236 - 5120) + f.Mul(&a1023) // f = a^(2^236 - 4097) + f.Square().Square().Square().Square().Square() // f = a^(2^241 - 131104) + f.Square().Square().Square().Square().Square() // f = a^(2^246 - 4195328) + f.Mul(&a1023) // f = a^(2^246 - 4194305) + f.Square().Square().Square().Square().Square() // f = a^(2^251 - 134217760) + f.Square().Square().Square().Square().Square() // f = a^(2^256 - 4294968320) + return f.Mul(&a45) // f = a^(2^256 - 4294968275) = a^(p-2) +} + +// IsGtOrEqPrimeMinusOrder returns whether or not the field value exceeds the +// group order divided by 2 in constant time. +// +// Preconditions: +// - The field value MUST be normalized +func (f *FieldVal) IsGtOrEqPrimeMinusOrder() bool { + // The secp256k1 prime is equivalent to 2^256 - 4294968273 and the group + // order is 2^256 - 432420386565659656852420866394968145599. Thus, + // the prime minus the group order is: + // 432420386565659656852420866390673177326 + // + // In hex that is: + // 0x00000000 00000000 00000000 00000001 45512319 50b75fc4 402da172 2fc9baee + // + // Converting that to field representation (base 2^26) is: + // + // n[0] = 0x03c9baee + // n[1] = 0x03685c8b + // n[2] = 0x01fc4402 + // n[3] = 0x006542dd + // n[4] = 0x01455123 + // + // This can be verified with the following test code: + // pMinusN := new(big.Int).Sub(curveParams.P, curveParams.N) + // var fv FieldVal + // fv.SetByteSlice(pMinusN.Bytes()) + // t.Logf("%x", fv.n) + // + // Outputs: [3c9baee 3685c8b 1fc4402 6542dd 1455123 0 0 0 0 0] + const ( + pMinusNWordZero = 0x03c9baee + pMinusNWordOne = 0x03685c8b + pMinusNWordTwo = 0x01fc4402 + pMinusNWordThree = 0x006542dd + pMinusNWordFour = 0x01455123 + pMinusNWordFive = 0x00000000 + pMinusNWordSix = 0x00000000 + pMinusNWordSeven = 0x00000000 + pMinusNWordEight = 0x00000000 + pMinusNWordNine = 0x00000000 + ) + + // The intuition here is that the value is greater than field prime minus + // the group order if one of the higher individual words is greater than the + // corresponding word and all higher words in the value are equal. + result := constantTimeGreater(f.n[9], pMinusNWordNine) + highWordsEqual := constantTimeEq(f.n[9], pMinusNWordNine) + result |= highWordsEqual & constantTimeGreater(f.n[8], pMinusNWordEight) + highWordsEqual &= constantTimeEq(f.n[8], pMinusNWordEight) + result |= highWordsEqual & constantTimeGreater(f.n[7], pMinusNWordSeven) + highWordsEqual &= constantTimeEq(f.n[7], pMinusNWordSeven) + result |= highWordsEqual & constantTimeGreater(f.n[6], pMinusNWordSix) + highWordsEqual &= constantTimeEq(f.n[6], pMinusNWordSix) + result |= highWordsEqual & constantTimeGreater(f.n[5], pMinusNWordFive) + highWordsEqual &= constantTimeEq(f.n[5], pMinusNWordFive) + result |= highWordsEqual & constantTimeGreater(f.n[4], pMinusNWordFour) + highWordsEqual &= constantTimeEq(f.n[4], pMinusNWordFour) + result |= highWordsEqual & constantTimeGreater(f.n[3], pMinusNWordThree) + highWordsEqual &= constantTimeEq(f.n[3], pMinusNWordThree) + result |= highWordsEqual & constantTimeGreater(f.n[2], pMinusNWordTwo) + highWordsEqual &= constantTimeEq(f.n[2], pMinusNWordTwo) + result |= highWordsEqual & constantTimeGreater(f.n[1], pMinusNWordOne) + highWordsEqual &= constantTimeEq(f.n[1], pMinusNWordOne) + result |= highWordsEqual & constantTimeGreaterOrEq(f.n[0], pMinusNWordZero) + + return result != 0 +} diff --git a/vendor/github.com/decred/dcrd/dcrec/secp256k1/v4/genstatics.go b/vendor/github.com/decred/dcrd/dcrec/secp256k1/v4/genstatics.go new file mode 100644 index 0000000..00534c5 --- /dev/null +++ b/vendor/github.com/decred/dcrd/dcrec/secp256k1/v4/genstatics.go @@ -0,0 +1,195 @@ +// Copyright (c) 2014-2015 The btcsuite developers +// Copyright (c) 2015-2021 The Decred developers +// Use of this source code is governed by an ISC +// license that can be found in the LICENSE file. + +// This file is ignored during the regular build due to the following build tag. +// This build tag is set during go generate. +// +build gensecp256k1 + +package secp256k1 + +// References: +// [GECC]: Guide to Elliptic Curve Cryptography (Hankerson, Menezes, Vanstone) + +import ( + "encoding/binary" + "math/big" +) + +// compressedBytePoints are dummy points used so the code which generates the +// real values can compile. +var compressedBytePoints = "" + +// SerializedBytePoints returns a serialized byte slice which contains all of +// the possible points per 8-bit window. This is used to when generating +// compressedbytepoints.go. +func SerializedBytePoints() []byte { + // Calculate G^(2^i) for i in 0..255. These are used to avoid recomputing + // them for each digit of the 8-bit windows. + doublingPoints := make([]JacobianPoint, curveParams.BitSize) + var q JacobianPoint + bigAffineToJacobian(curveParams.Gx, curveParams.Gy, &q) + for i := 0; i < curveParams.BitSize; i++ { + // Q = 2*Q. + doublingPoints[i] = q + DoubleNonConst(&q, &q) + } + + // Separate the bits into byte-sized windows. + curveByteSize := curveParams.BitSize / 8 + serialized := make([]byte, curveByteSize*256*2*10*4) + offset := 0 + for byteNum := 0; byteNum < curveByteSize; byteNum++ { + // Grab the 8 bits that make up this byte from doubling points. + startingBit := 8 * (curveByteSize - byteNum - 1) + windowPoints := doublingPoints[startingBit : startingBit+8] + + // Compute all points in this window, convert them to affine, and + // serialize them. + for i := 0; i < 256; i++ { + var point JacobianPoint + for bit := 0; bit < 8; bit++ { + if i>>uint(bit)&1 == 1 { + AddNonConst(&point, &windowPoints[bit], &point) + } + } + point.ToAffine() + + for i := 0; i < len(point.X.n); i++ { + binary.LittleEndian.PutUint32(serialized[offset:], point.X.n[i]) + offset += 4 + } + for i := 0; i < len(point.Y.n); i++ { + binary.LittleEndian.PutUint32(serialized[offset:], point.Y.n[i]) + offset += 4 + } + } + } + + return serialized +} + +// sqrt returns the square root of the provided big integer using Newton's +// method. It's only compiled and used during generation of pre-computed +// values, so speed is not a huge concern. +func sqrt(n *big.Int) *big.Int { + // Initial guess = 2^(log_2(n)/2) + guess := big.NewInt(2) + guess.Exp(guess, big.NewInt(int64(n.BitLen()/2)), nil) + + // Now refine using Newton's method. + big2 := big.NewInt(2) + prevGuess := big.NewInt(0) + for { + prevGuess.Set(guess) + guess.Add(guess, new(big.Int).Div(n, guess)) + guess.Div(guess, big2) + if guess.Cmp(prevGuess) == 0 { + break + } + } + return guess +} + +// EndomorphismVectors runs the first 3 steps of algorithm 3.74 from [GECC] to +// generate the linearly independent vectors needed to generate a balanced +// length-two representation of a multiplier such that k = k1 + k2λ (mod N) and +// returns them. Since the values will always be the same given the fact that N +// and λ are fixed, the final results can be accelerated by storing the +// precomputed values. +func EndomorphismVectors() (a1, b1, a2, b2 *big.Int) { + bigMinus1 := big.NewInt(-1) + + // This section uses an extended Euclidean algorithm to generate a + // sequence of equations: + // s[i] * N + t[i] * λ = r[i] + + nSqrt := sqrt(curveParams.N) + u, v := new(big.Int).Set(curveParams.N), new(big.Int).Set(endomorphismLambda) + x1, y1 := big.NewInt(1), big.NewInt(0) + x2, y2 := big.NewInt(0), big.NewInt(1) + q, r := new(big.Int), new(big.Int) + qu, qx1, qy1 := new(big.Int), new(big.Int), new(big.Int) + s, t := new(big.Int), new(big.Int) + ri, ti := new(big.Int), new(big.Int) + a1, b1, a2, b2 = new(big.Int), new(big.Int), new(big.Int), new(big.Int) + found, oneMore := false, false + for u.Sign() != 0 { + // q = v/u + q.Div(v, u) + + // r = v - q*u + qu.Mul(q, u) + r.Sub(v, qu) + + // s = x2 - q*x1 + qx1.Mul(q, x1) + s.Sub(x2, qx1) + + // t = y2 - q*y1 + qy1.Mul(q, y1) + t.Sub(y2, qy1) + + // v = u, u = r, x2 = x1, x1 = s, y2 = y1, y1 = t + v.Set(u) + u.Set(r) + x2.Set(x1) + x1.Set(s) + y2.Set(y1) + y1.Set(t) + + // As soon as the remainder is less than the sqrt of n, the + // values of a1 and b1 are known. + if !found && r.Cmp(nSqrt) < 0 { + // When this condition executes ri and ti represent the + // r[i] and t[i] values such that i is the greatest + // index for which r >= sqrt(n). Meanwhile, the current + // r and t values are r[i+1] and t[i+1], respectively. + + // a1 = r[i+1], b1 = -t[i+1] + a1.Set(r) + b1.Mul(t, bigMinus1) + found = true + oneMore = true + + // Skip to the next iteration so ri and ti are not + // modified. + continue + + } else if oneMore { + // When this condition executes ri and ti still + // represent the r[i] and t[i] values while the current + // r and t are r[i+2] and t[i+2], respectively. + + // sum1 = r[i]^2 + t[i]^2 + rSquared := new(big.Int).Mul(ri, ri) + tSquared := new(big.Int).Mul(ti, ti) + sum1 := new(big.Int).Add(rSquared, tSquared) + + // sum2 = r[i+2]^2 + t[i+2]^2 + r2Squared := new(big.Int).Mul(r, r) + t2Squared := new(big.Int).Mul(t, t) + sum2 := new(big.Int).Add(r2Squared, t2Squared) + + // if (r[i]^2 + t[i]^2) <= (r[i+2]^2 + t[i+2]^2) + if sum1.Cmp(sum2) <= 0 { + // a2 = r[i], b2 = -t[i] + a2.Set(ri) + b2.Mul(ti, bigMinus1) + } else { + // a2 = r[i+2], b2 = -t[i+2] + a2.Set(r) + b2.Mul(t, bigMinus1) + } + + // All done. + break + } + + ri.Set(r) + ti.Set(t) + } + + return a1, b1, a2, b2 +} diff --git a/vendor/github.com/decred/dcrd/dcrec/secp256k1/v4/loadprecomputed.go b/vendor/github.com/decred/dcrd/dcrec/secp256k1/v4/loadprecomputed.go new file mode 100644 index 0000000..d7d014a --- /dev/null +++ b/vendor/github.com/decred/dcrd/dcrec/secp256k1/v4/loadprecomputed.go @@ -0,0 +1,91 @@ +// Copyright 2015 The btcsuite developers +// Copyright (c) 2015-2021 The Decred developers +// Use of this source code is governed by an ISC +// license that can be found in the LICENSE file. + +package secp256k1 + +import ( + "compress/zlib" + "encoding/base64" + "encoding/binary" + "io/ioutil" + "strings" + "sync" +) + +//go:generate go run -tags gensecp256k1 genprecomps.go + +// bytePointTable describes a table used to house pre-computed values for +// accelerating scalar base multiplication. +type bytePointTable [32][256][2]FieldVal + +// s256BytePoints houses pre-computed values used to accelerate scalar base +// multiplication such that they are only loaded on first use. +var s256BytePoints = func() func() *bytePointTable { + // mustLoadBytePoints decompresses and deserializes the pre-computed byte + // points used to accelerate scalar base multiplication for the secp256k1 + // curve. + // + // This approach is used since it allows the compile to use significantly + // less ram and be performed much faster than it is with hard-coding the + // final in-memory data structure. At the same time, it is quite fast to + // generate the in-memory data structure on first use with this approach + // versus computing the table. + // + // It will panic on any errors because the data is hard coded and thus any + // errors means something is wrong in the source code. + var data *bytePointTable + mustLoadBytePoints := func() { + // There will be no byte points to load when generating them. + bp := compressedBytePoints + if len(bp) == 0 { + return + } + + // Decompress the pre-computed table used to accelerate scalar base + // multiplication. + decoder := base64.NewDecoder(base64.StdEncoding, strings.NewReader(bp)) + r, err := zlib.NewReader(decoder) + if err != nil { + panic(err) + } + serialized, err := ioutil.ReadAll(r) + if err != nil { + panic(err) + } + + // Deserialize the precomputed byte points and set the memory table to + // them. + offset := 0 + var bytePoints bytePointTable + for byteNum := 0; byteNum < len(bytePoints); byteNum++ { + // All points in this window. + for i := 0; i < len(bytePoints[byteNum]); i++ { + px := &bytePoints[byteNum][i][0] + py := &bytePoints[byteNum][i][1] + for i := 0; i < len(px.n); i++ { + px.n[i] = binary.LittleEndian.Uint32(serialized[offset:]) + offset += 4 + } + for i := 0; i < len(py.n); i++ { + py.n[i] = binary.LittleEndian.Uint32(serialized[offset:]) + offset += 4 + } + } + } + data = &bytePoints + } + + // Return a closure that initializes the data on first access. This is done + // because the table takes a non-trivial amount of memory and initializing + // it unconditionally would cause anything that imports the package, either + // directly, or indirectly via transitive deps, to use that memory even if + // the caller never accesses any parts of the package that actually needs + // access to it. + var loadBytePointsOnce sync.Once + return func() *bytePointTable { + loadBytePointsOnce.Do(mustLoadBytePoints) + return data + } +}() diff --git a/vendor/github.com/decred/dcrd/dcrec/secp256k1/v4/modnscalar.go b/vendor/github.com/decred/dcrd/dcrec/secp256k1/v4/modnscalar.go new file mode 100644 index 0000000..581b904 --- /dev/null +++ b/vendor/github.com/decred/dcrd/dcrec/secp256k1/v4/modnscalar.go @@ -0,0 +1,1088 @@ +// Copyright (c) 2020 The Decred developers +// Use of this source code is governed by an ISC +// license that can be found in the LICENSE file. + +package secp256k1 + +import ( + "encoding/hex" + "math/big" +) + +// References: +// [SECG]: Recommended Elliptic Curve Domain Parameters +// https://www.secg.org/sec2-v2.pdf +// +// [HAC]: Handbook of Applied Cryptography Menezes, van Oorschot, Vanstone. +// http://cacr.uwaterloo.ca/hac/ + +// Many elliptic curve operations require working with scalars in a finite field +// characterized by the order of the group underlying the secp256k1 curve. +// Given this precision is larger than the biggest available native type, +// obviously some form of bignum math is needed. This code implements +// specialized fixed-precision field arithmetic rather than relying on an +// arbitrary-precision arithmetic package such as math/big for dealing with the +// math modulo the group order since the size is known. As a result, rather +// large performance gains are achieved by taking advantage of many +// optimizations not available to arbitrary-precision arithmetic and generic +// modular arithmetic algorithms. +// +// There are various ways to internally represent each element. For example, +// the most obvious representation would be to use an array of 4 uint64s (64 +// bits * 4 = 256 bits). However, that representation suffers from the fact +// that there is no native Go type large enough to handle the intermediate +// results while adding or multiplying two 64-bit numbers. +// +// Given the above, this implementation represents the field elements as 8 +// uint32s with each word (array entry) treated as base 2^32. This was chosen +// because most systems at the current time are 64-bit (or at least have 64-bit +// registers available for specialized purposes such as MMX) so the intermediate +// results can typically be done using a native register (and using uint64s to +// avoid the need for additional half-word arithmetic) + +const ( + // These fields provide convenient access to each of the words of the + // secp256k1 curve group order N to improve code readability. + // + // The group order of the curve per [SECG] is: + // 0xffffffff ffffffff ffffffff fffffffe baaedce6 af48a03b bfd25e8c d0364141 + orderWordZero uint32 = 0xd0364141 + orderWordOne uint32 = 0xbfd25e8c + orderWordTwo uint32 = 0xaf48a03b + orderWordThree uint32 = 0xbaaedce6 + orderWordFour uint32 = 0xfffffffe + orderWordFive uint32 = 0xffffffff + orderWordSix uint32 = 0xffffffff + orderWordSeven uint32 = 0xffffffff + + // These fields provide convenient access to each of the words of the two's + // complement of the secp256k1 curve group order N to improve code + // readability. + // + // The two's complement of the group order is: + // 0x00000000 00000000 00000000 00000001 45512319 50b75fc4 402da173 2fc9bebf + orderComplementWordZero uint32 = (^orderWordZero) + 1 + orderComplementWordOne uint32 = ^orderWordOne + orderComplementWordTwo uint32 = ^orderWordTwo + orderComplementWordThree uint32 = ^orderWordThree + //orderComplementWordFour uint32 = ^orderWordFour // unused + //orderComplementWordFive uint32 = ^orderWordFive // unused + //orderComplementWordSix uint32 = ^orderWordSix // unused + //orderComplementWordSeven uint32 = ^orderWordSeven // unused + + // These fields provide convenient access to each of the words of the + // secp256k1 curve group order N / 2 to improve code readability and avoid + // the need to recalculate them. + // + // The half order of the secp256k1 curve group is: + // 0x7fffffff ffffffff ffffffff ffffffff 5d576e73 57a4501d dfe92f46 681b20a0 + halfOrderWordZero uint32 = 0x681b20a0 + halfOrderWordOne uint32 = 0xdfe92f46 + halfOrderWordTwo uint32 = 0x57a4501d + halfOrderWordThree uint32 = 0x5d576e73 + halfOrderWordFour uint32 = 0xffffffff + halfOrderWordFive uint32 = 0xffffffff + halfOrderWordSix uint32 = 0xffffffff + halfOrderWordSeven uint32 = 0x7fffffff + + // uint32Mask is simply a mask with all bits set for a uint32 and is used to + // improve the readability of the code. + uint32Mask = 0xffffffff +) + +var ( + // zero32 is an array of 32 bytes used for the purposes of zeroing and is + // defined here to avoid extra allocations. + zero32 = [32]byte{} +) + +// ModNScalar implements optimized 256-bit constant-time fixed-precision +// arithmetic over the secp256k1 group order. This means all arithmetic is +// performed modulo: +// +// 0xfffffffffffffffffffffffffffffffebaaedce6af48a03bbfd25e8cd0364141 +// +// It only implements the arithmetic needed for elliptic curve operations, +// however, the operations that are not implemented can typically be worked +// around if absolutely needed. For example, subtraction can be performed by +// adding the negation. +// +// Should it be absolutely necessary, conversion to the standard library +// math/big.Int can be accomplished by using the Bytes method, slicing the +// resulting fixed-size array, and feeding it to big.Int.SetBytes. However, +// that should typically be avoided when possible as conversion to big.Ints +// requires allocations, is not constant time, and is slower when working modulo +// the group order. +type ModNScalar struct { + // The scalar is represented as 8 32-bit integers in base 2^32. + // + // The following depicts the internal representation: + // --------------------------------------------------------- + // | n[7] | n[6] | ... | n[0] | + // | 32 bits | 32 bits | ... | 32 bits | + // | Mult: 2^(32*7) | Mult: 2^(32*6) | ... | Mult: 2^(32*0) | + // --------------------------------------------------------- + // + // For example, consider the number 2^87 + 2^42 + 1. It would be + // represented as: + // n[0] = 1 + // n[1] = 2^10 + // n[2] = 2^23 + // n[3..7] = 0 + // + // The full 256-bit value is then calculated by looping i from 7..0 and + // doing sum(n[i] * 2^(32i)) like so: + // n[7] * 2^(32*7) = 0 * 2^224 = 0 + // n[6] * 2^(32*6) = 0 * 2^192 = 0 + // ... + // n[2] * 2^(32*2) = 2^23 * 2^64 = 2^87 + // n[1] * 2^(32*1) = 2^10 * 2^32 = 2^42 + // n[0] * 2^(32*0) = 1 * 2^0 = 1 + // Sum: 0 + 0 + ... + 2^87 + 2^42 + 1 = 2^87 + 2^42 + 1 + n [8]uint32 +} + +// String returns the scalar as a human-readable hex string. +// +// This is NOT constant time. +func (s ModNScalar) String() string { + b := s.Bytes() + return hex.EncodeToString(b[:]) +} + +// Set sets the scalar equal to a copy of the passed one in constant time. +// +// The scalar is returned to support chaining. This enables syntax like: +// s := new(ModNScalar).Set(s2).Add(1) so that s = s2 + 1 where s2 is not +// modified. +func (s *ModNScalar) Set(val *ModNScalar) *ModNScalar { + *s = *val + return s +} + +// Zero sets the scalar to zero in constant time. A newly created scalar is +// already set to zero. This function can be useful to clear an existing scalar +// for reuse. +func (s *ModNScalar) Zero() { + s.n[0] = 0 + s.n[1] = 0 + s.n[2] = 0 + s.n[3] = 0 + s.n[4] = 0 + s.n[5] = 0 + s.n[6] = 0 + s.n[7] = 0 +} + +// IsZero returns whether or not the scalar is equal to zero in constant time. +func (s *ModNScalar) IsZero() bool { + // The scalar can only be zero if no bits are set in any of the words. + bits := s.n[0] | s.n[1] | s.n[2] | s.n[3] | s.n[4] | s.n[5] | s.n[6] | s.n[7] + return bits == 0 +} + +// SetInt sets the scalar to the passed integer in constant time. This is a +// convenience function since it is fairly common to perform some arithmetic +// with small native integers. +// +// The scalar is returned to support chaining. This enables syntax like: +// s := new(ModNScalar).SetInt(2).Mul(s2) so that s = 2 * s2. +func (s *ModNScalar) SetInt(ui uint32) *ModNScalar { + s.Zero() + s.n[0] = ui + return s +} + +// constantTimeEq returns 1 if a == b or 0 otherwise in constant time. +func constantTimeEq(a, b uint32) uint32 { + return uint32((uint64(a^b) - 1) >> 63) +} + +// constantTimeNotEq returns 1 if a != b or 0 otherwise in constant time. +func constantTimeNotEq(a, b uint32) uint32 { + return ^uint32((uint64(a^b)-1)>>63) & 1 +} + +// constantTimeLess returns 1 if a < b or 0 otherwise in constant time. +func constantTimeLess(a, b uint32) uint32 { + return uint32((uint64(a) - uint64(b)) >> 63) +} + +// constantTimeLessOrEq returns 1 if a <= b or 0 otherwise in constant time. +func constantTimeLessOrEq(a, b uint32) uint32 { + return uint32((uint64(a) - uint64(b) - 1) >> 63) +} + +// constantTimeGreater returns 1 if a > b or 0 otherwise in constant time. +func constantTimeGreater(a, b uint32) uint32 { + return constantTimeLess(b, a) +} + +// constantTimeGreaterOrEq returns 1 if a >= b or 0 otherwise in constant time. +func constantTimeGreaterOrEq(a, b uint32) uint32 { + return constantTimeLessOrEq(b, a) +} + +// constantTimeMin returns min(a,b) in constant time. +func constantTimeMin(a, b uint32) uint32 { + return b ^ ((a ^ b) & -constantTimeLess(a, b)) +} + +// overflows determines if the current scalar is greater than or equal to the +// group order in constant time and returns 1 if it is or 0 otherwise. +func (s *ModNScalar) overflows() uint32 { + // The intuition here is that the scalar is greater than the group order if + // one of the higher individual words is greater than corresponding word of + // the group order and all higher words in the scalar are equal to their + // corresponding word of the group order. Since this type is modulo the + // group order, being equal is also an overflow back to 0. + // + // Note that the words 5, 6, and 7 are all the max uint32 value, so there is + // no need to test if those individual words of the scalar exceeds them, + // hence, only equality is checked for them. + highWordsEqual := constantTimeEq(s.n[7], orderWordSeven) + highWordsEqual &= constantTimeEq(s.n[6], orderWordSix) + highWordsEqual &= constantTimeEq(s.n[5], orderWordFive) + overflow := highWordsEqual & constantTimeGreater(s.n[4], orderWordFour) + highWordsEqual &= constantTimeEq(s.n[4], orderWordFour) + overflow |= highWordsEqual & constantTimeGreater(s.n[3], orderWordThree) + highWordsEqual &= constantTimeEq(s.n[3], orderWordThree) + overflow |= highWordsEqual & constantTimeGreater(s.n[2], orderWordTwo) + highWordsEqual &= constantTimeEq(s.n[2], orderWordTwo) + overflow |= highWordsEqual & constantTimeGreater(s.n[1], orderWordOne) + highWordsEqual &= constantTimeEq(s.n[1], orderWordOne) + overflow |= highWordsEqual & constantTimeGreaterOrEq(s.n[0], orderWordZero) + + return overflow +} + +// reduce256 reduces the current scalar modulo the group order in accordance +// with the overflows parameter in constant time. The overflows parameter +// specifies whether or not the scalar is known to be greater than the group +// order and MUST either be 1 in the case it is or 0 in the case it is not for a +// correct result. +func (s *ModNScalar) reduce256(overflows uint32) { + // Notice that since s < 2^256 < 2N (where N is the group order), the max + // possible number of reductions required is one. Therefore, in the case a + // reduction is needed, it can be performed with a single subtraction of N. + // Also, recall that subtraction is equivalent to addition by the two's + // complement while ignoring the carry. + // + // When s >= N, the overflows parameter will be 1. Conversely, it will be 0 + // when s < N. Thus multiplying by the overflows parameter will either + // result in 0 or the multiplicand itself. + // + // Combining the above along with the fact that s + 0 = s, the following is + // a constant time implementation that works by either adding 0 or the two's + // complement of N as needed. + // + // The final result will be in the range 0 <= s < N as expected. + overflows64 := uint64(overflows) + c := uint64(s.n[0]) + overflows64*uint64(orderComplementWordZero) + s.n[0] = uint32(c & uint32Mask) + c = (c >> 32) + uint64(s.n[1]) + overflows64*uint64(orderComplementWordOne) + s.n[1] = uint32(c & uint32Mask) + c = (c >> 32) + uint64(s.n[2]) + overflows64*uint64(orderComplementWordTwo) + s.n[2] = uint32(c & uint32Mask) + c = (c >> 32) + uint64(s.n[3]) + overflows64*uint64(orderComplementWordThree) + s.n[3] = uint32(c & uint32Mask) + c = (c >> 32) + uint64(s.n[4]) + overflows64 // * 1 + s.n[4] = uint32(c & uint32Mask) + c = (c >> 32) + uint64(s.n[5]) // + overflows64 * 0 + s.n[5] = uint32(c & uint32Mask) + c = (c >> 32) + uint64(s.n[6]) // + overflows64 * 0 + s.n[6] = uint32(c & uint32Mask) + c = (c >> 32) + uint64(s.n[7]) // + overflows64 * 0 + s.n[7] = uint32(c & uint32Mask) +} + +// SetBytes interprets the provided array as a 256-bit big-endian unsigned +// integer, reduces it modulo the group order, sets the scalar to the result, +// and returns either 1 if it was reduced (aka it overflowed) or 0 otherwise in +// constant time. +// +// Note that a bool is not used here because it is not possible in Go to convert +// from a bool to numeric value in constant time and many constant-time +// operations require a numeric value. +func (s *ModNScalar) SetBytes(b *[32]byte) uint32 { + // Pack the 256 total bits across the 8 uint32 words. This could be done + // with a for loop, but benchmarks show this unrolled version is about 2 + // times faster than the variant that uses a loop. + s.n[0] = uint32(b[31]) | uint32(b[30])<<8 | uint32(b[29])<<16 | uint32(b[28])<<24 + s.n[1] = uint32(b[27]) | uint32(b[26])<<8 | uint32(b[25])<<16 | uint32(b[24])<<24 + s.n[2] = uint32(b[23]) | uint32(b[22])<<8 | uint32(b[21])<<16 | uint32(b[20])<<24 + s.n[3] = uint32(b[19]) | uint32(b[18])<<8 | uint32(b[17])<<16 | uint32(b[16])<<24 + s.n[4] = uint32(b[15]) | uint32(b[14])<<8 | uint32(b[13])<<16 | uint32(b[12])<<24 + s.n[5] = uint32(b[11]) | uint32(b[10])<<8 | uint32(b[9])<<16 | uint32(b[8])<<24 + s.n[6] = uint32(b[7]) | uint32(b[6])<<8 | uint32(b[5])<<16 | uint32(b[4])<<24 + s.n[7] = uint32(b[3]) | uint32(b[2])<<8 | uint32(b[1])<<16 | uint32(b[0])<<24 + + // The value might be >= N, so reduce it as required and return whether or + // not it was reduced. + needsReduce := s.overflows() + s.reduce256(needsReduce) + return needsReduce +} + +// zeroArray32 zeroes the provided 32-byte buffer. +func zeroArray32(b *[32]byte) { + copy(b[:], zero32[:]) +} + +// SetByteSlice interprets the provided slice as a 256-bit big-endian unsigned +// integer (meaning it is truncated to the first 32 bytes), reduces it modulo +// the group order, sets the scalar to the result, and returns whether or not +// the resulting truncated 256-bit integer overflowed in constant time. +// +// Note that since passing a slice with more than 32 bytes is truncated, it is +// possible that the truncated value is less than the order of the curve and +// hence it will not be reported as having overflowed in that case. It is up to +// the caller to decide whether it needs to provide numbers of the appropriate +// size or it is acceptable to use this function with the described truncation +// and overflow behavior. +func (s *ModNScalar) SetByteSlice(b []byte) bool { + var b32 [32]byte + b = b[:constantTimeMin(uint32(len(b)), 32)] + copy(b32[:], b32[:32-len(b)]) + copy(b32[32-len(b):], b) + result := s.SetBytes(&b32) + zeroArray32(&b32) + return result != 0 +} + +// PutBytesUnchecked unpacks the scalar to a 32-byte big-endian value directly +// into the passed byte slice in constant time. The target slice must must have +// at least 32 bytes available or it will panic. +// +// There is a similar function, PutBytes, which unpacks the scalar into a +// 32-byte array directly. This version is provided since it can be useful to +// write directly into part of a larger buffer without needing a separate +// allocation. +// +// Preconditions: +// - The target slice MUST have at least 32 bytes available +func (s *ModNScalar) PutBytesUnchecked(b []byte) { + // Unpack the 256 total bits from the 8 uint32 words. This could be done + // with a for loop, but benchmarks show this unrolled version is about 2 + // times faster than the variant which uses a loop. + b[31] = byte(s.n[0]) + b[30] = byte(s.n[0] >> 8) + b[29] = byte(s.n[0] >> 16) + b[28] = byte(s.n[0] >> 24) + b[27] = byte(s.n[1]) + b[26] = byte(s.n[1] >> 8) + b[25] = byte(s.n[1] >> 16) + b[24] = byte(s.n[1] >> 24) + b[23] = byte(s.n[2]) + b[22] = byte(s.n[2] >> 8) + b[21] = byte(s.n[2] >> 16) + b[20] = byte(s.n[2] >> 24) + b[19] = byte(s.n[3]) + b[18] = byte(s.n[3] >> 8) + b[17] = byte(s.n[3] >> 16) + b[16] = byte(s.n[3] >> 24) + b[15] = byte(s.n[4]) + b[14] = byte(s.n[4] >> 8) + b[13] = byte(s.n[4] >> 16) + b[12] = byte(s.n[4] >> 24) + b[11] = byte(s.n[5]) + b[10] = byte(s.n[5] >> 8) + b[9] = byte(s.n[5] >> 16) + b[8] = byte(s.n[5] >> 24) + b[7] = byte(s.n[6]) + b[6] = byte(s.n[6] >> 8) + b[5] = byte(s.n[6] >> 16) + b[4] = byte(s.n[6] >> 24) + b[3] = byte(s.n[7]) + b[2] = byte(s.n[7] >> 8) + b[1] = byte(s.n[7] >> 16) + b[0] = byte(s.n[7] >> 24) +} + +// PutBytes unpacks the scalar to a 32-byte big-endian value using the passed +// byte array in constant time. +// +// There is a similar function, PutBytesUnchecked, which unpacks the scalar into +// a slice that must have at least 32 bytes available. This version is provided +// since it can be useful to write directly into an array that is type checked. +// +// Alternatively, there is also Bytes, which unpacks the scalar into a new array +// and returns that which can sometimes be more ergonomic in applications that +// aren't concerned about an additional copy. +func (s *ModNScalar) PutBytes(b *[32]byte) { + s.PutBytesUnchecked(b[:]) +} + +// Bytes unpacks the scalar to a 32-byte big-endian value in constant time. +// +// See PutBytes and PutBytesUnchecked for variants that allow an array or slice +// to be passed which can be useful to cut down on the number of allocations +// by allowing the caller to reuse a buffer or write directly into part of a +// larger buffer. +func (s *ModNScalar) Bytes() [32]byte { + var b [32]byte + s.PutBytesUnchecked(b[:]) + return b +} + +// IsOdd returns whether or not the scalar is an odd number in constant time. +func (s *ModNScalar) IsOdd() bool { + // Only odd numbers have the bottom bit set. + return s.n[0]&1 == 1 +} + +// Equals returns whether or not the two scalars are the same in constant time. +func (s *ModNScalar) Equals(val *ModNScalar) bool { + // Xor only sets bits when they are different, so the two scalars can only + // be the same if no bits are set after xoring each word. + bits := (s.n[0] ^ val.n[0]) | (s.n[1] ^ val.n[1]) | (s.n[2] ^ val.n[2]) | + (s.n[3] ^ val.n[3]) | (s.n[4] ^ val.n[4]) | (s.n[5] ^ val.n[5]) | + (s.n[6] ^ val.n[6]) | (s.n[7] ^ val.n[7]) + + return bits == 0 +} + +// Add2 adds the passed two scalars together modulo the group order in constant +// time and stores the result in s. +// +// The scalar is returned to support chaining. This enables syntax like: +// s3.Add2(s, s2).AddInt(1) so that s3 = s + s2 + 1. +func (s *ModNScalar) Add2(val1, val2 *ModNScalar) *ModNScalar { + c := uint64(val1.n[0]) + uint64(val2.n[0]) + s.n[0] = uint32(c & uint32Mask) + c = (c >> 32) + uint64(val1.n[1]) + uint64(val2.n[1]) + s.n[1] = uint32(c & uint32Mask) + c = (c >> 32) + uint64(val1.n[2]) + uint64(val2.n[2]) + s.n[2] = uint32(c & uint32Mask) + c = (c >> 32) + uint64(val1.n[3]) + uint64(val2.n[3]) + s.n[3] = uint32(c & uint32Mask) + c = (c >> 32) + uint64(val1.n[4]) + uint64(val2.n[4]) + s.n[4] = uint32(c & uint32Mask) + c = (c >> 32) + uint64(val1.n[5]) + uint64(val2.n[5]) + s.n[5] = uint32(c & uint32Mask) + c = (c >> 32) + uint64(val1.n[6]) + uint64(val2.n[6]) + s.n[6] = uint32(c & uint32Mask) + c = (c >> 32) + uint64(val1.n[7]) + uint64(val2.n[7]) + s.n[7] = uint32(c & uint32Mask) + + // The result is now 256 bits, but it might still be >= N, so use the + // existing normal reduce method for 256-bit values. + s.reduce256(uint32(c>>32) + s.overflows()) + return s +} + +// Add adds the passed scalar to the existing one modulo the group order in +// constant time and stores the result in s. +// +// The scalar is returned to support chaining. This enables syntax like: +// s.Add(s2).AddInt(1) so that s = s + s2 + 1. +func (s *ModNScalar) Add(val *ModNScalar) *ModNScalar { + return s.Add2(s, val) +} + +// accumulator96 provides a 96-bit accumulator for use in the intermediate +// calculations requiring more than 64-bits. +type accumulator96 struct { + n [3]uint32 +} + +// Add adds the passed unsigned 64-bit value to the accumulator. +func (a *accumulator96) Add(v uint64) { + low := uint32(v & uint32Mask) + hi := uint32(v >> 32) + a.n[0] += low + a.n[1] += constantTimeLess(a.n[0], low) // Carry if overflow in n[0]. + a.n[1] += hi + a.n[2] += constantTimeLess(a.n[1], hi) // Carry if overflow in n[1]. +} + +// Rsh32 right shifts the accumulator by 32 bits. +func (a *accumulator96) Rsh32() { + a.n[0] = a.n[1] + a.n[1] = a.n[2] + a.n[2] = 0 +} + +// reduce385 reduces the 385-bit intermediate result in the passed terms modulo +// the group order in constant time and stores the result in s. +func (s *ModNScalar) reduce385(t0, t1, t2, t3, t4, t5, t6, t7, t8, t9, t10, t11, t12 uint64) { + // At this point, the intermediate result in the passed terms has been + // reduced to fit within 385 bits, so reduce it again using the same method + // described in reduce512. As before, the intermediate result will end up + // being reduced by another 127 bits to 258 bits, thus 9 32-bit terms are + // needed for this iteration. The reduced terms are assigned back to t0 + // through t8. + // + // Note that several of the intermediate calculations require adding 64-bit + // products together which would overflow a uint64, so a 96-bit accumulator + // is used instead until the value is reduced enough to use native uint64s. + + // Terms for 2^(32*0). + var acc accumulator96 + acc.n[0] = uint32(t0) // == acc.Add(t0) because acc is guaranteed to be 0. + acc.Add(t8 * uint64(orderComplementWordZero)) + t0 = uint64(acc.n[0]) + acc.Rsh32() + + // Terms for 2^(32*1). + acc.Add(t1) + acc.Add(t8 * uint64(orderComplementWordOne)) + acc.Add(t9 * uint64(orderComplementWordZero)) + t1 = uint64(acc.n[0]) + acc.Rsh32() + + // Terms for 2^(32*2). + acc.Add(t2) + acc.Add(t8 * uint64(orderComplementWordTwo)) + acc.Add(t9 * uint64(orderComplementWordOne)) + acc.Add(t10 * uint64(orderComplementWordZero)) + t2 = uint64(acc.n[0]) + acc.Rsh32() + + // Terms for 2^(32*3). + acc.Add(t3) + acc.Add(t8 * uint64(orderComplementWordThree)) + acc.Add(t9 * uint64(orderComplementWordTwo)) + acc.Add(t10 * uint64(orderComplementWordOne)) + acc.Add(t11 * uint64(orderComplementWordZero)) + t3 = uint64(acc.n[0]) + acc.Rsh32() + + // Terms for 2^(32*4). + acc.Add(t4) + acc.Add(t8) // * uint64(orderComplementWordFour) // * 1 + acc.Add(t9 * uint64(orderComplementWordThree)) + acc.Add(t10 * uint64(orderComplementWordTwo)) + acc.Add(t11 * uint64(orderComplementWordOne)) + acc.Add(t12 * uint64(orderComplementWordZero)) + t4 = uint64(acc.n[0]) + acc.Rsh32() + + // Terms for 2^(32*5). + acc.Add(t5) + // acc.Add(t8 * uint64(orderComplementWordFive)) // 0 + acc.Add(t9) // * uint64(orderComplementWordFour) // * 1 + acc.Add(t10 * uint64(orderComplementWordThree)) + acc.Add(t11 * uint64(orderComplementWordTwo)) + acc.Add(t12 * uint64(orderComplementWordOne)) + t5 = uint64(acc.n[0]) + acc.Rsh32() + + // Terms for 2^(32*6). + acc.Add(t6) + // acc.Add(t8 * uint64(orderComplementWordSix)) // 0 + // acc.Add(t9 * uint64(orderComplementWordFive)) // 0 + acc.Add(t10) // * uint64(orderComplementWordFour) // * 1 + acc.Add(t11 * uint64(orderComplementWordThree)) + acc.Add(t12 * uint64(orderComplementWordTwo)) + t6 = uint64(acc.n[0]) + acc.Rsh32() + + // Terms for 2^(32*7). + acc.Add(t7) + // acc.Add(t8 * uint64(orderComplementWordSeven)) // 0 + // acc.Add(t9 * uint64(orderComplementWordSix)) // 0 + // acc.Add(t10 * uint64(orderComplementWordFive)) // 0 + acc.Add(t11) // * uint64(orderComplementWordFour) // * 1 + acc.Add(t12 * uint64(orderComplementWordThree)) + t7 = uint64(acc.n[0]) + acc.Rsh32() + + // Terms for 2^(32*8). + // acc.Add(t9 * uint64(orderComplementWordSeven)) // 0 + // acc.Add(t10 * uint64(orderComplementWordSix)) // 0 + // acc.Add(t11 * uint64(orderComplementWordFive)) // 0 + acc.Add(t12) // * uint64(orderComplementWordFour) // * 1 + t8 = uint64(acc.n[0]) + // acc.Rsh32() // No need since not used after this. Guaranteed to be 0. + + // NOTE: All of the remaining multiplications for this iteration result in 0 + // as they all involve multiplying by combinations of the fifth, sixth, and + // seventh words of the two's complement of N, which are 0, so skip them. + + // At this point, the result is reduced to fit within 258 bits, so reduce it + // again using a slightly modified version of the same method. The maximum + // value in t8 is 2 at this point and therefore multiplying it by each word + // of the two's complement of N and adding it to a 32-bit term will result + // in a maximum requirement of 33 bits, so it is safe to use native uint64s + // here for the intermediate term carry propagation. + // + // Also, since the maximum value in t8 is 2, this ends up reducing by + // another 2 bits to 256 bits. + c := t0 + t8*uint64(orderComplementWordZero) + s.n[0] = uint32(c & uint32Mask) + c = (c >> 32) + t1 + t8*uint64(orderComplementWordOne) + s.n[1] = uint32(c & uint32Mask) + c = (c >> 32) + t2 + t8*uint64(orderComplementWordTwo) + s.n[2] = uint32(c & uint32Mask) + c = (c >> 32) + t3 + t8*uint64(orderComplementWordThree) + s.n[3] = uint32(c & uint32Mask) + c = (c >> 32) + t4 + t8 // * uint64(orderComplementWordFour) == * 1 + s.n[4] = uint32(c & uint32Mask) + c = (c >> 32) + t5 // + t8*uint64(orderComplementWordFive) == 0 + s.n[5] = uint32(c & uint32Mask) + c = (c >> 32) + t6 // + t8*uint64(orderComplementWordSix) == 0 + s.n[6] = uint32(c & uint32Mask) + c = (c >> 32) + t7 // + t8*uint64(orderComplementWordSeven) == 0 + s.n[7] = uint32(c & uint32Mask) + + // The result is now 256 bits, but it might still be >= N, so use the + // existing normal reduce method for 256-bit values. + s.reduce256(uint32(c>>32) + s.overflows()) +} + +// reduce512 reduces the 512-bit intermediate result in the passed terms modulo +// the group order down to 385 bits in constant time and stores the result in s. +func (s *ModNScalar) reduce512(t0, t1, t2, t3, t4, t5, t6, t7, t8, t9, t10, t11, t12, t13, t14, t15 uint64) { + // At this point, the intermediate result in the passed terms is grouped + // into the respective bases. + // + // Per [HAC] section 14.3.4: Reduction method of moduli of special form, + // when the modulus is of the special form m = b^t - c, where log_2(c) < t, + // highly efficient reduction can be achieved per the provided algorithm. + // + // The secp256k1 group order fits this criteria since it is: + // 2^256 - 432420386565659656852420866394968145599 + // + // Technically the max possible value here is (N-1)^2 since the two scalars + // being multiplied are always mod N. Nevertheless, it is safer to consider + // it to be (2^256-1)^2 = 2^512 - 2^256 + 1 since it is the product of two + // 256-bit values. + // + // The algorithm is to reduce the result modulo the prime by subtracting + // multiples of the group order N. However, in order simplify carry + // propagation, this adds with the two's complement of N to achieve the same + // result. + // + // Since the two's complement of N has 127 leading zero bits, this will end + // up reducing the intermediate result from 512 bits to 385 bits, resulting + // in 13 32-bit terms. The reduced terms are assigned back to t0 through + // t12. + // + // Note that several of the intermediate calculations require adding 64-bit + // products together which would overflow a uint64, so a 96-bit accumulator + // is used instead. + + // Terms for 2^(32*0). + var acc accumulator96 + acc.n[0] = uint32(t0) // == acc.Add(t0) because acc is guaranteed to be 0. + acc.Add(t8 * uint64(orderComplementWordZero)) + t0 = uint64(acc.n[0]) + acc.Rsh32() + + // Terms for 2^(32*1). + acc.Add(t1) + acc.Add(t8 * uint64(orderComplementWordOne)) + acc.Add(t9 * uint64(orderComplementWordZero)) + t1 = uint64(acc.n[0]) + acc.Rsh32() + + // Terms for 2^(32*2). + acc.Add(t2) + acc.Add(t8 * uint64(orderComplementWordTwo)) + acc.Add(t9 * uint64(orderComplementWordOne)) + acc.Add(t10 * uint64(orderComplementWordZero)) + t2 = uint64(acc.n[0]) + acc.Rsh32() + + // Terms for 2^(32*3). + acc.Add(t3) + acc.Add(t8 * uint64(orderComplementWordThree)) + acc.Add(t9 * uint64(orderComplementWordTwo)) + acc.Add(t10 * uint64(orderComplementWordOne)) + acc.Add(t11 * uint64(orderComplementWordZero)) + t3 = uint64(acc.n[0]) + acc.Rsh32() + + // Terms for 2^(32*4). + acc.Add(t4) + acc.Add(t8) // * uint64(orderComplementWordFour) // * 1 + acc.Add(t9 * uint64(orderComplementWordThree)) + acc.Add(t10 * uint64(orderComplementWordTwo)) + acc.Add(t11 * uint64(orderComplementWordOne)) + acc.Add(t12 * uint64(orderComplementWordZero)) + t4 = uint64(acc.n[0]) + acc.Rsh32() + + // Terms for 2^(32*5). + acc.Add(t5) + // acc.Add(t8 * uint64(orderComplementWordFive)) // 0 + acc.Add(t9) // * uint64(orderComplementWordFour) // * 1 + acc.Add(t10 * uint64(orderComplementWordThree)) + acc.Add(t11 * uint64(orderComplementWordTwo)) + acc.Add(t12 * uint64(orderComplementWordOne)) + acc.Add(t13 * uint64(orderComplementWordZero)) + t5 = uint64(acc.n[0]) + acc.Rsh32() + + // Terms for 2^(32*6). + acc.Add(t6) + // acc.Add(t8 * uint64(orderComplementWordSix)) // 0 + // acc.Add(t9 * uint64(orderComplementWordFive)) // 0 + acc.Add(t10) // * uint64(orderComplementWordFour)) // * 1 + acc.Add(t11 * uint64(orderComplementWordThree)) + acc.Add(t12 * uint64(orderComplementWordTwo)) + acc.Add(t13 * uint64(orderComplementWordOne)) + acc.Add(t14 * uint64(orderComplementWordZero)) + t6 = uint64(acc.n[0]) + acc.Rsh32() + + // Terms for 2^(32*7). + acc.Add(t7) + // acc.Add(t8 * uint64(orderComplementWordSeven)) // 0 + // acc.Add(t9 * uint64(orderComplementWordSix)) // 0 + // acc.Add(t10 * uint64(orderComplementWordFive)) // 0 + acc.Add(t11) // * uint64(orderComplementWordFour) // * 1 + acc.Add(t12 * uint64(orderComplementWordThree)) + acc.Add(t13 * uint64(orderComplementWordTwo)) + acc.Add(t14 * uint64(orderComplementWordOne)) + acc.Add(t15 * uint64(orderComplementWordZero)) + t7 = uint64(acc.n[0]) + acc.Rsh32() + + // Terms for 2^(32*8). + // acc.Add(t9 * uint64(orderComplementWordSeven)) // 0 + // acc.Add(t10 * uint64(orderComplementWordSix)) // 0 + // acc.Add(t11 * uint64(orderComplementWordFive)) // 0 + acc.Add(t12) // * uint64(orderComplementWordFour) // * 1 + acc.Add(t13 * uint64(orderComplementWordThree)) + acc.Add(t14 * uint64(orderComplementWordTwo)) + acc.Add(t15 * uint64(orderComplementWordOne)) + t8 = uint64(acc.n[0]) + acc.Rsh32() + + // Terms for 2^(32*9). + // acc.Add(t10 * uint64(orderComplementWordSeven)) // 0 + // acc.Add(t11 * uint64(orderComplementWordSix)) // 0 + // acc.Add(t12 * uint64(orderComplementWordFive)) // 0 + acc.Add(t13) // * uint64(orderComplementWordFour) // * 1 + acc.Add(t14 * uint64(orderComplementWordThree)) + acc.Add(t15 * uint64(orderComplementWordTwo)) + t9 = uint64(acc.n[0]) + acc.Rsh32() + + // Terms for 2^(32*10). + // acc.Add(t11 * uint64(orderComplementWordSeven)) // 0 + // acc.Add(t12 * uint64(orderComplementWordSix)) // 0 + // acc.Add(t13 * uint64(orderComplementWordFive)) // 0 + acc.Add(t14) // * uint64(orderComplementWordFour) // * 1 + acc.Add(t15 * uint64(orderComplementWordThree)) + t10 = uint64(acc.n[0]) + acc.Rsh32() + + // Terms for 2^(32*11). + // acc.Add(t12 * uint64(orderComplementWordSeven)) // 0 + // acc.Add(t13 * uint64(orderComplementWordSix)) // 0 + // acc.Add(t14 * uint64(orderComplementWordFive)) // 0 + acc.Add(t15) // * uint64(orderComplementWordFour) // * 1 + t11 = uint64(acc.n[0]) + acc.Rsh32() + + // NOTE: All of the remaining multiplications for this iteration result in 0 + // as they all involve multiplying by combinations of the fifth, sixth, and + // seventh words of the two's complement of N, which are 0, so skip them. + + // Terms for 2^(32*12). + t12 = uint64(acc.n[0]) + // acc.Rsh32() // No need since not used after this. Guaranteed to be 0. + + // At this point, the result is reduced to fit within 385 bits, so reduce it + // again using the same method accordingly. + s.reduce385(t0, t1, t2, t3, t4, t5, t6, t7, t8, t9, t10, t11, t12) +} + +// Mul2 multiplies the passed two scalars together modulo the group order in +// constant time and stores the result in s. +// +// The scalar is returned to support chaining. This enables syntax like: +// s3.Mul2(s, s2).AddInt(1) so that s3 = (s * s2) + 1. +func (s *ModNScalar) Mul2(val, val2 *ModNScalar) *ModNScalar { + // This could be done with for loops and an array to store the intermediate + // terms, but this unrolled version is significantly faster. + + // The overall strategy employed here is: + // 1) Calculate the 512-bit product of the two scalars using the standard + // pencil-and-paper method. + // 2) Reduce the result modulo the prime by effectively subtracting + // multiples of the group order N (actually performed by adding multiples + // of the two's complement of N to avoid implementing subtraction). + // 3) Repeat step 2 noting that each iteration reduces the required number + // of bits by 127 because the two's complement of N has 127 leading zero + // bits. + // 4) Once reduced to 256 bits, call the existing reduce method to perform + // a final reduction as needed. + // + // Note that several of the intermediate calculations require adding 64-bit + // products together which would overflow a uint64, so a 96-bit accumulator + // is used instead. + + // Terms for 2^(32*0). + var acc accumulator96 + acc.Add(uint64(val.n[0]) * uint64(val2.n[0])) + t0 := uint64(acc.n[0]) + acc.Rsh32() + + // Terms for 2^(32*1). + acc.Add(uint64(val.n[0]) * uint64(val2.n[1])) + acc.Add(uint64(val.n[1]) * uint64(val2.n[0])) + t1 := uint64(acc.n[0]) + acc.Rsh32() + + // Terms for 2^(32*2). + acc.Add(uint64(val.n[0]) * uint64(val2.n[2])) + acc.Add(uint64(val.n[1]) * uint64(val2.n[1])) + acc.Add(uint64(val.n[2]) * uint64(val2.n[0])) + t2 := uint64(acc.n[0]) + acc.Rsh32() + + // Terms for 2^(32*3). + acc.Add(uint64(val.n[0]) * uint64(val2.n[3])) + acc.Add(uint64(val.n[1]) * uint64(val2.n[2])) + acc.Add(uint64(val.n[2]) * uint64(val2.n[1])) + acc.Add(uint64(val.n[3]) * uint64(val2.n[0])) + t3 := uint64(acc.n[0]) + acc.Rsh32() + + // Terms for 2^(32*4). + acc.Add(uint64(val.n[0]) * uint64(val2.n[4])) + acc.Add(uint64(val.n[1]) * uint64(val2.n[3])) + acc.Add(uint64(val.n[2]) * uint64(val2.n[2])) + acc.Add(uint64(val.n[3]) * uint64(val2.n[1])) + acc.Add(uint64(val.n[4]) * uint64(val2.n[0])) + t4 := uint64(acc.n[0]) + acc.Rsh32() + + // Terms for 2^(32*5). + acc.Add(uint64(val.n[0]) * uint64(val2.n[5])) + acc.Add(uint64(val.n[1]) * uint64(val2.n[4])) + acc.Add(uint64(val.n[2]) * uint64(val2.n[3])) + acc.Add(uint64(val.n[3]) * uint64(val2.n[2])) + acc.Add(uint64(val.n[4]) * uint64(val2.n[1])) + acc.Add(uint64(val.n[5]) * uint64(val2.n[0])) + t5 := uint64(acc.n[0]) + acc.Rsh32() + + // Terms for 2^(32*6). + acc.Add(uint64(val.n[0]) * uint64(val2.n[6])) + acc.Add(uint64(val.n[1]) * uint64(val2.n[5])) + acc.Add(uint64(val.n[2]) * uint64(val2.n[4])) + acc.Add(uint64(val.n[3]) * uint64(val2.n[3])) + acc.Add(uint64(val.n[4]) * uint64(val2.n[2])) + acc.Add(uint64(val.n[5]) * uint64(val2.n[1])) + acc.Add(uint64(val.n[6]) * uint64(val2.n[0])) + t6 := uint64(acc.n[0]) + acc.Rsh32() + + // Terms for 2^(32*7). + acc.Add(uint64(val.n[0]) * uint64(val2.n[7])) + acc.Add(uint64(val.n[1]) * uint64(val2.n[6])) + acc.Add(uint64(val.n[2]) * uint64(val2.n[5])) + acc.Add(uint64(val.n[3]) * uint64(val2.n[4])) + acc.Add(uint64(val.n[4]) * uint64(val2.n[3])) + acc.Add(uint64(val.n[5]) * uint64(val2.n[2])) + acc.Add(uint64(val.n[6]) * uint64(val2.n[1])) + acc.Add(uint64(val.n[7]) * uint64(val2.n[0])) + t7 := uint64(acc.n[0]) + acc.Rsh32() + + // Terms for 2^(32*8). + acc.Add(uint64(val.n[1]) * uint64(val2.n[7])) + acc.Add(uint64(val.n[2]) * uint64(val2.n[6])) + acc.Add(uint64(val.n[3]) * uint64(val2.n[5])) + acc.Add(uint64(val.n[4]) * uint64(val2.n[4])) + acc.Add(uint64(val.n[5]) * uint64(val2.n[3])) + acc.Add(uint64(val.n[6]) * uint64(val2.n[2])) + acc.Add(uint64(val.n[7]) * uint64(val2.n[1])) + t8 := uint64(acc.n[0]) + acc.Rsh32() + + // Terms for 2^(32*9). + acc.Add(uint64(val.n[2]) * uint64(val2.n[7])) + acc.Add(uint64(val.n[3]) * uint64(val2.n[6])) + acc.Add(uint64(val.n[4]) * uint64(val2.n[5])) + acc.Add(uint64(val.n[5]) * uint64(val2.n[4])) + acc.Add(uint64(val.n[6]) * uint64(val2.n[3])) + acc.Add(uint64(val.n[7]) * uint64(val2.n[2])) + t9 := uint64(acc.n[0]) + acc.Rsh32() + + // Terms for 2^(32*10). + acc.Add(uint64(val.n[3]) * uint64(val2.n[7])) + acc.Add(uint64(val.n[4]) * uint64(val2.n[6])) + acc.Add(uint64(val.n[5]) * uint64(val2.n[5])) + acc.Add(uint64(val.n[6]) * uint64(val2.n[4])) + acc.Add(uint64(val.n[7]) * uint64(val2.n[3])) + t10 := uint64(acc.n[0]) + acc.Rsh32() + + // Terms for 2^(32*11). + acc.Add(uint64(val.n[4]) * uint64(val2.n[7])) + acc.Add(uint64(val.n[5]) * uint64(val2.n[6])) + acc.Add(uint64(val.n[6]) * uint64(val2.n[5])) + acc.Add(uint64(val.n[7]) * uint64(val2.n[4])) + t11 := uint64(acc.n[0]) + acc.Rsh32() + + // Terms for 2^(32*12). + acc.Add(uint64(val.n[5]) * uint64(val2.n[7])) + acc.Add(uint64(val.n[6]) * uint64(val2.n[6])) + acc.Add(uint64(val.n[7]) * uint64(val2.n[5])) + t12 := uint64(acc.n[0]) + acc.Rsh32() + + // Terms for 2^(32*13). + acc.Add(uint64(val.n[6]) * uint64(val2.n[7])) + acc.Add(uint64(val.n[7]) * uint64(val2.n[6])) + t13 := uint64(acc.n[0]) + acc.Rsh32() + + // Terms for 2^(32*14). + acc.Add(uint64(val.n[7]) * uint64(val2.n[7])) + t14 := uint64(acc.n[0]) + acc.Rsh32() + + // What's left is for 2^(32*15). + t15 := uint64(acc.n[0]) + // acc.Rsh32() // No need since not used after this. Guaranteed to be 0. + + // At this point, all of the terms are grouped into their respective base + // and occupy up to 512 bits. Reduce the result accordingly. + s.reduce512(t0, t1, t2, t3, t4, t5, t6, t7, t8, t9, t10, t11, t12, t13, t14, + t15) + return s +} + +// Mul multiplies the passed scalar with the existing one modulo the group order +// in constant time and stores the result in s. +// +// The scalar is returned to support chaining. This enables syntax like: +// s.Mul(s2).AddInt(1) so that s = (s * s2) + 1. +func (s *ModNScalar) Mul(val *ModNScalar) *ModNScalar { + return s.Mul2(s, val) +} + +// SquareVal squares the passed scalar modulo the group order in constant time +// and stores the result in s. +// +// The scalar is returned to support chaining. This enables syntax like: +// s3.SquareVal(s).Mul(s) so that s3 = s^2 * s = s^3. +func (s *ModNScalar) SquareVal(val *ModNScalar) *ModNScalar { + // This could technically be optimized slightly to take advantage of the + // fact that many of the intermediate calculations in squaring are just + // doubling, however, benchmarking has shown that due to the need to use a + // 96-bit accumulator, any savings are essentially offset by that and + // consequently there is no real difference in performance over just + // multiplying the value by itself to justify the extra code for now. This + // can be revisited in the future if it becomes a bottleneck in practice. + + return s.Mul2(val, val) +} + +// Square squares the scalar modulo the group order in constant time. The +// existing scalar is modified. +// +// The scalar is returned to support chaining. This enables syntax like: +// s.Square().Mul(s2) so that s = s^2 * s2. +func (s *ModNScalar) Square() *ModNScalar { + return s.SquareVal(s) +} + +// NegateVal negates the passed scalar modulo the group order and stores the +// result in s in constant time. +// +// The scalar is returned to support chaining. This enables syntax like: +// s.NegateVal(s2).AddInt(1) so that s = -s2 + 1. +func (s *ModNScalar) NegateVal(val *ModNScalar) *ModNScalar { + // Since the scalar is already in the range 0 <= val < N, where N is the + // group order, negation modulo the group order is just the group order + // minus the value. This implies that the result will always be in the + // desired range with the sole exception of 0 because N - 0 = N itself. + // + // Therefore, in order to avoid the need to reduce the result for every + // other case in order to achieve constant time, this creates a mask that is + // all 0s in the case of the scalar being negated is 0 and all 1s otherwise + // and bitwise ands that mask with each word. + // + // Finally, to simplify the carry propagation, this adds the two's + // complement of the scalar to N in order to achieve the same result. + bits := val.n[0] | val.n[1] | val.n[2] | val.n[3] | val.n[4] | val.n[5] | + val.n[6] | val.n[7] + mask := uint64(uint32Mask * constantTimeNotEq(bits, 0)) + c := uint64(orderWordZero) + (uint64(^val.n[0]) + 1) + s.n[0] = uint32(c & mask) + c = (c >> 32) + uint64(orderWordOne) + uint64(^val.n[1]) + s.n[1] = uint32(c & mask) + c = (c >> 32) + uint64(orderWordTwo) + uint64(^val.n[2]) + s.n[2] = uint32(c & mask) + c = (c >> 32) + uint64(orderWordThree) + uint64(^val.n[3]) + s.n[3] = uint32(c & mask) + c = (c >> 32) + uint64(orderWordFour) + uint64(^val.n[4]) + s.n[4] = uint32(c & mask) + c = (c >> 32) + uint64(orderWordFive) + uint64(^val.n[5]) + s.n[5] = uint32(c & mask) + c = (c >> 32) + uint64(orderWordSix) + uint64(^val.n[6]) + s.n[6] = uint32(c & mask) + c = (c >> 32) + uint64(orderWordSeven) + uint64(^val.n[7]) + s.n[7] = uint32(c & mask) + return s +} + +// Negate negates the scalar modulo the group order in constant time. The +// existing scalar is modified. +// +// The scalar is returned to support chaining. This enables syntax like: +// s.Negate().AddInt(1) so that s = -s + 1. +func (s *ModNScalar) Negate() *ModNScalar { + return s.NegateVal(s) +} + +// InverseValNonConst finds the modular multiplicative inverse of the passed +// scalar and stores result in s in *non-constant* time. +// +// The scalar is returned to support chaining. This enables syntax like: +// s3.InverseVal(s1).Mul(s2) so that s3 = s1^-1 * s2. +func (s *ModNScalar) InverseValNonConst(val *ModNScalar) *ModNScalar { + // This is making use of big integers for now. Ideally it will be replaced + // with an implementation that does not depend on big integers. + valBytes := val.Bytes() + bigVal := new(big.Int).SetBytes(valBytes[:]) + bigVal.ModInverse(bigVal, curveParams.N) + s.SetByteSlice(bigVal.Bytes()) + return s +} + +// InverseNonConst finds the modular multiplicative inverse of the scalar in +// *non-constant* time. The existing scalar is modified. +// +// The scalar is returned to support chaining. This enables syntax like: +// s.Inverse().Mul(s2) so that s = s^-1 * s2. +func (s *ModNScalar) InverseNonConst() *ModNScalar { + return s.InverseValNonConst(s) +} + +// IsOverHalfOrder returns whether or not the scalar exceeds the group order +// divided by 2 in constant time. +func (s *ModNScalar) IsOverHalfOrder() bool { + // The intuition here is that the scalar is greater than half of the group + // order if one of the higher individual words is greater than the + // corresponding word of the half group order and all higher words in the + // scalar are equal to their corresponding word of the half group order. + // + // Note that the words 4, 5, and 6 are all the max uint32 value, so there is + // no need to test if those individual words of the scalar exceeds them, + // hence, only equality is checked for them. + result := constantTimeGreater(s.n[7], halfOrderWordSeven) + highWordsEqual := constantTimeEq(s.n[7], halfOrderWordSeven) + highWordsEqual &= constantTimeEq(s.n[6], halfOrderWordSix) + highWordsEqual &= constantTimeEq(s.n[5], halfOrderWordFive) + highWordsEqual &= constantTimeEq(s.n[4], halfOrderWordFour) + result |= highWordsEqual & constantTimeGreater(s.n[3], halfOrderWordThree) + highWordsEqual &= constantTimeEq(s.n[3], halfOrderWordThree) + result |= highWordsEqual & constantTimeGreater(s.n[2], halfOrderWordTwo) + highWordsEqual &= constantTimeEq(s.n[2], halfOrderWordTwo) + result |= highWordsEqual & constantTimeGreater(s.n[1], halfOrderWordOne) + highWordsEqual &= constantTimeEq(s.n[1], halfOrderWordOne) + result |= highWordsEqual & constantTimeGreater(s.n[0], halfOrderWordZero) + + return result != 0 +} diff --git a/vendor/github.com/decred/dcrd/dcrec/secp256k1/v4/nonce.go b/vendor/github.com/decred/dcrd/dcrec/secp256k1/v4/nonce.go new file mode 100644 index 0000000..81b205d --- /dev/null +++ b/vendor/github.com/decred/dcrd/dcrec/secp256k1/v4/nonce.go @@ -0,0 +1,263 @@ +// Copyright (c) 2013-2014 The btcsuite developers +// Copyright (c) 2015-2020 The Decred developers +// Use of this source code is governed by an ISC +// license that can be found in the LICENSE file. + +package secp256k1 + +import ( + "bytes" + "crypto/sha256" + "hash" +) + +// References: +// [GECC]: Guide to Elliptic Curve Cryptography (Hankerson, Menezes, Vanstone) +// +// [ISO/IEC 8825-1]: Information technology — ASN.1 encoding rules: +// Specification of Basic Encoding Rules (BER), Canonical Encoding Rules +// (CER) and Distinguished Encoding Rules (DER) +// +// [SEC1]: Elliptic Curve Cryptography (May 31, 2009, Version 2.0) +// https://www.secg.org/sec1-v2.pdf + +var ( + // singleZero is used during RFC6979 nonce generation. It is provided + // here to avoid the need to create it multiple times. + singleZero = []byte{0x00} + + // zeroInitializer is used during RFC6979 nonce generation. It is provided + // here to avoid the need to create it multiple times. + zeroInitializer = bytes.Repeat([]byte{0x00}, sha256.BlockSize) + + // singleOne is used during RFC6979 nonce generation. It is provided + // here to avoid the need to create it multiple times. + singleOne = []byte{0x01} + + // oneInitializer is used during RFC6979 nonce generation. It is provided + // here to avoid the need to create it multiple times. + oneInitializer = bytes.Repeat([]byte{0x01}, sha256.Size) +) + +// hmacsha256 implements a resettable version of HMAC-SHA256. +type hmacsha256 struct { + inner, outer hash.Hash + ipad, opad [sha256.BlockSize]byte +} + +// Write adds data to the running hash. +func (h *hmacsha256) Write(p []byte) { + h.inner.Write(p) +} + +// initKey initializes the HMAC-SHA256 instance to the provided key. +func (h *hmacsha256) initKey(key []byte) { + // Hash the key if it is too large. + if len(key) > sha256.BlockSize { + h.outer.Write(key) + key = h.outer.Sum(nil) + } + copy(h.ipad[:], key) + copy(h.opad[:], key) + for i := range h.ipad { + h.ipad[i] ^= 0x36 + } + for i := range h.opad { + h.opad[i] ^= 0x5c + } + h.inner.Write(h.ipad[:]) +} + +// ResetKey resets the HMAC-SHA256 to its initial state and then initializes it +// with the provided key. It is equivalent to creating a new instance with the +// provided key without allocating more memory. +func (h *hmacsha256) ResetKey(key []byte) { + h.inner.Reset() + h.outer.Reset() + copy(h.ipad[:], zeroInitializer) + copy(h.opad[:], zeroInitializer) + h.initKey(key) +} + +// Resets the HMAC-SHA256 to its initial state using the current key. +func (h *hmacsha256) Reset() { + h.inner.Reset() + h.inner.Write(h.ipad[:]) +} + +// Sum returns the hash of the written data. +func (h *hmacsha256) Sum() []byte { + h.outer.Reset() + h.outer.Write(h.opad[:]) + h.outer.Write(h.inner.Sum(nil)) + return h.outer.Sum(nil) +} + +// newHMACSHA256 returns a new HMAC-SHA256 hasher using the provided key. +func newHMACSHA256(key []byte) *hmacsha256 { + h := new(hmacsha256) + h.inner = sha256.New() + h.outer = sha256.New() + h.initKey(key) + return h +} + +// NonceRFC6979 generates a nonce deterministically according to RFC 6979 using +// HMAC-SHA256 for the hashing function. It takes a 32-byte hash as an input +// and returns a 32-byte nonce to be used for deterministic signing. The extra +// and version arguments are optional, but allow additional data to be added to +// the input of the HMAC. When provided, the extra data must be 32-bytes and +// version must be 16 bytes or they will be ignored. +// +// Finally, the extraIterations parameter provides a method to produce a stream +// of deterministic nonces to ensure the signing code is able to produce a nonce +// that results in a valid signature in the extremely unlikely event the +// original nonce produced results in an invalid signature (e.g. R == 0). +// Signing code should start with 0 and increment it if necessary. +func NonceRFC6979(privKey []byte, hash []byte, extra []byte, version []byte, extraIterations uint32) *ModNScalar { + // Input to HMAC is the 32-byte private key and the 32-byte hash. In + // addition, it may include the optional 32-byte extra data and 16-byte + // version. Create a fixed-size array to avoid extra allocs and slice it + // properly. + const ( + privKeyLen = 32 + hashLen = 32 + extraLen = 32 + versionLen = 16 + ) + var keyBuf [privKeyLen + hashLen + extraLen + versionLen]byte + + // Truncate rightmost bytes of private key and hash if they are too long and + // leave left padding of zeros when they're too short. + if len(privKey) > privKeyLen { + privKey = privKey[:privKeyLen] + } + if len(hash) > hashLen { + hash = hash[:hashLen] + } + offset := privKeyLen - len(privKey) // Zero left padding if needed. + offset += copy(keyBuf[offset:], privKey) + offset += hashLen - len(hash) // Zero left padding if needed. + offset += copy(keyBuf[offset:], hash) + if len(extra) == extraLen { + offset += copy(keyBuf[offset:], extra) + if len(version) == versionLen { + offset += copy(keyBuf[offset:], version) + } + } else if len(version) == versionLen { + // When the version was specified, but not the extra data, leave the + // extra data portion all zero. + offset += privKeyLen + offset += copy(keyBuf[offset:], version) + } + key := keyBuf[:offset] + + // Step B. + // + // V = 0x01 0x01 0x01 ... 0x01 such that the length of V, in bits, is + // equal to 8*ceil(hashLen/8). + // + // Note that since the hash length is a multiple of 8 for the chosen hash + // function in this optimized implementation, the result is just the hash + // length, so avoid the extra calculations. Also, since it isn't modified, + // start with a global value. + v := oneInitializer + + // Step C (Go zeroes all allocated memory). + // + // K = 0x00 0x00 0x00 ... 0x00 such that the length of K, in bits, is + // equal to 8*ceil(hashLen/8). + // + // As above, since the hash length is a multiple of 8 for the chosen hash + // function in this optimized implementation, the result is just the hash + // length, so avoid the extra calculations. + k := zeroInitializer[:hashLen] + + // Step D. + // + // K = HMAC_K(V || 0x00 || int2octets(x) || bits2octets(h1)) + // + // Note that key is the "int2octets(x) || bits2octets(h1)" portion along + // with potential additional data as described by section 3.6 of the RFC. + hasher := newHMACSHA256(k) + hasher.Write(oneInitializer) + hasher.Write(singleZero[:]) + hasher.Write(key) + k = hasher.Sum() + + // Step E. + // + // V = HMAC_K(V) + hasher.ResetKey(k) + hasher.Write(v) + v = hasher.Sum() + + // Step F. + // + // K = HMAC_K(V || 0x01 || int2octets(x) || bits2octets(h1)) + // + // Note that key is the "int2octets(x) || bits2octets(h1)" portion along + // with potential additional data as described by section 3.6 of the RFC. + hasher.Reset() + hasher.Write(v) + hasher.Write(singleOne[:]) + hasher.Write(key[:]) + k = hasher.Sum() + + // Step G. + // + // V = HMAC_K(V) + hasher.ResetKey(k) + hasher.Write(v) + v = hasher.Sum() + + // Step H. + // + // Repeat until the value is nonzero and less than the curve order. + var generated uint32 + for { + // Step H1 and H2. + // + // Set T to the empty sequence. The length of T (in bits) is denoted + // tlen; thus, at that point, tlen = 0. + // + // While tlen < qlen, do the following: + // V = HMAC_K(V) + // T = T || V + // + // Note that because the hash function output is the same length as the + // private key in this optimized implementation, there is no need to + // loop or create an intermediate T. + hasher.Reset() + hasher.Write(v) + v = hasher.Sum() + + // Step H3. + // + // k = bits2int(T) + // If k is within the range [1,q-1], return it. + // + // Otherwise, compute: + // K = HMAC_K(V || 0x00) + // V = HMAC_K(V) + var secret ModNScalar + overflow := secret.SetByteSlice(v) + if !overflow && !secret.IsZero() { + generated++ + if generated > extraIterations { + return &secret + } + } + + // K = HMAC_K(V || 0x00) + hasher.Reset() + hasher.Write(v) + hasher.Write(singleZero[:]) + k = hasher.Sum() + + // V = HMAC_K(V) + hasher.ResetKey(k) + hasher.Write(v) + v = hasher.Sum() + } +} diff --git a/vendor/github.com/decred/dcrd/dcrec/secp256k1/v4/privkey.go b/vendor/github.com/decred/dcrd/dcrec/secp256k1/v4/privkey.go new file mode 100644 index 0000000..3590346 --- /dev/null +++ b/vendor/github.com/decred/dcrd/dcrec/secp256k1/v4/privkey.go @@ -0,0 +1,77 @@ +// Copyright (c) 2013-2014 The btcsuite developers +// Copyright (c) 2015-2020 The Decred developers +// Use of this source code is governed by an ISC +// license that can be found in the LICENSE file. + +package secp256k1 + +import ( + "crypto/ecdsa" + "crypto/rand" +) + +// PrivateKey provides facilities for working with secp256k1 private keys within +// this package and includes functionality such as serializing and parsing them +// as well as computing their associated public key. +type PrivateKey struct { + Key ModNScalar +} + +// NewPrivateKey instantiates a new private key from a scalar encoded as a +// big integer. +func NewPrivateKey(key *ModNScalar) *PrivateKey { + return &PrivateKey{Key: *key} +} + +// PrivKeyFromBytes returns a private based on the provided byte slice which is +// interpreted as an unsigned 256-bit big-endian integer in the range [0, N-1], +// where N is the order of the curve. +// +// Note that this means passing a slice with more than 32 bytes is truncated and +// that truncated value is reduced modulo N. It is up to the caller to either +// provide a value in the appropriate range or choose to accept the described +// behavior. +// +// Typically callers should simply make use of GeneratePrivateKey when creating +// private keys which properly handles generation of appropriate values. +func PrivKeyFromBytes(privKeyBytes []byte) *PrivateKey { + var privKey PrivateKey + privKey.Key.SetByteSlice(privKeyBytes) + return &privKey +} + +// GeneratePrivateKey returns a private key that is suitable for use with +// secp256k1. +func GeneratePrivateKey() (*PrivateKey, error) { + key, err := ecdsa.GenerateKey(S256(), rand.Reader) + if err != nil { + return nil, err + } + return PrivKeyFromBytes(key.D.Bytes()), nil +} + +// PubKey computes and returns the public key corresponding to this private key. +func (p *PrivateKey) PubKey() *PublicKey { + var result JacobianPoint + ScalarBaseMultNonConst(&p.Key, &result) + result.ToAffine() + return NewPublicKey(&result.X, &result.Y) +} + +// Zero manually clears the memory associated with the private key. This can be +// used to explicitly clear key material from memory for enhanced security +// against memory scraping. +func (p *PrivateKey) Zero() { + p.Key.Zero() +} + +// PrivKeyBytesLen defines the length in bytes of a serialized private key. +const PrivKeyBytesLen = 32 + +// Serialize returns the private key as a 256-bit big-endian binary-encoded +// number, padded to a length of 32 bytes. +func (p PrivateKey) Serialize() []byte { + var privKeyBytes [PrivKeyBytesLen]byte + p.Key.PutBytes(&privKeyBytes) + return privKeyBytes[:] +} diff --git a/vendor/github.com/decred/dcrd/dcrec/secp256k1/v4/pubkey.go b/vendor/github.com/decred/dcrd/dcrec/secp256k1/v4/pubkey.go new file mode 100644 index 0000000..6716583 --- /dev/null +++ b/vendor/github.com/decred/dcrd/dcrec/secp256k1/v4/pubkey.go @@ -0,0 +1,232 @@ +// Copyright (c) 2013-2014 The btcsuite developers +// Copyright (c) 2015-2021 The Decred developers +// Use of this source code is governed by an ISC +// license that can be found in the LICENSE file. + +package secp256k1 + +// References: +// [SEC1] Elliptic Curve Cryptography +// https://www.secg.org/sec1-v2.pdf +// +// [SEC2] Recommended Elliptic Curve Domain Parameters +// https://www.secg.org/sec2-v2.pdf +// +// [ANSI X9.62-1998] Public Key Cryptography For The Financial Services +// Industry: The Elliptic Curve Digital Signature Algorithm (ECDSA) + +import ( + "fmt" +) + +const ( + // PubKeyBytesLenCompressed is the number of bytes of a serialized + // compressed public key. + PubKeyBytesLenCompressed = 33 + + // PubKeyBytesLenUncompressed is the number of bytes of a serialized + // uncompressed public key. + PubKeyBytesLenUncompressed = 65 + + // PubKeyFormatCompressedEven is the identifier prefix byte for a public key + // whose Y coordinate is even when serialized in the compressed format per + // section 2.3.4 of [SEC1](https://secg.org/sec1-v2.pdf#subsubsection.2.3.4). + PubKeyFormatCompressedEven byte = 0x02 + + // PubKeyFormatCompressedOdd is the identifier prefix byte for a public key + // whose Y coordinate is odd when serialized in the compressed format per + // section 2.3.4 of [SEC1](https://secg.org/sec1-v2.pdf#subsubsection.2.3.4). + PubKeyFormatCompressedOdd byte = 0x03 + + // PubKeyFormatUncompressed is the identifier prefix byte for a public key + // when serialized according in the uncompressed format per section 2.3.3 of + // [SEC1](https://secg.org/sec1-v2.pdf#subsubsection.2.3.3). + PubKeyFormatUncompressed byte = 0x04 + + // PubKeyFormatHybridEven is the identifier prefix byte for a public key + // whose Y coordinate is even when serialized according to the hybrid format + // per section 4.3.6 of [ANSI X9.62-1998]. + // + // NOTE: This format makes little sense in practice an therefore this + // package will not produce public keys serialized in this format. However, + // it will parse them since they exist in the wild. + PubKeyFormatHybridEven byte = 0x06 + + // PubKeyFormatHybridOdd is the identifier prefix byte for a public key + // whose Y coordingate is odd when serialized according to the hybrid format + // per section 4.3.6 of [ANSI X9.62-1998]. + // + // NOTE: This format makes little sense in practice an therefore this + // package will not produce public keys serialized in this format. However, + // it will parse them since they exist in the wild. + PubKeyFormatHybridOdd byte = 0x07 +) + +// PublicKey provides facilities for efficiently working with secp256k1 public +// keys within this package and includes functions to serialize in both +// uncompressed and compressed SEC (Standards for Efficient Cryptography) +// formats. +type PublicKey struct { + x FieldVal + y FieldVal +} + +// NewPublicKey instantiates a new public key with the given x and y +// coordinates. +// +// It should be noted that, unlike ParsePubKey, since this accepts arbitrary x +// and y coordinates, it allows creation of public keys that are not valid +// points on the secp256k1 curve. The IsOnCurve method of the returned instance +// can be used to determine validity. +func NewPublicKey(x, y *FieldVal) *PublicKey { + var pubKey PublicKey + pubKey.x.Set(x) + pubKey.y.Set(y) + return &pubKey +} + +// ParsePubKey parses a secp256k1 public key encoded according to the format +// specified by ANSI X9.62-1998, which means it is also compatible with the +// SEC (Standards for Efficient Cryptography) specification which is a subset of +// the former. In other words, it supports the uncompressed, compressed, and +// hybrid formats as follows: +// +// Compressed: +// <32-byte X coordinate> +// Uncompressed: +// <32-byte X coordinate><32-byte Y coordinate> +// Hybrid: +// <32-byte X coordinate><32-byte Y coordinate> +// +// NOTE: The hybrid format makes little sense in practice an therefore this +// package will not produce public keys serialized in this format. However, +// this function will properly parse them since they exist in the wild. +func ParsePubKey(serialized []byte) (key *PublicKey, err error) { + var x, y FieldVal + switch len(serialized) { + case PubKeyBytesLenUncompressed: + // Reject unsupported public key formats for the given length. + format := serialized[0] + switch format { + case PubKeyFormatUncompressed: + case PubKeyFormatHybridEven, PubKeyFormatHybridOdd: + default: + str := fmt.Sprintf("invalid public key: unsupported format: %x", + format) + return nil, makeError(ErrPubKeyInvalidFormat, str) + } + + // Parse the x and y coordinates while ensuring that they are in the + // allowed range. + if overflow := x.SetByteSlice(serialized[1:33]); overflow { + str := "invalid public key: x >= field prime" + return nil, makeError(ErrPubKeyXTooBig, str) + } + if overflow := y.SetByteSlice(serialized[33:]); overflow { + str := "invalid public key: y >= field prime" + return nil, makeError(ErrPubKeyYTooBig, str) + } + + // Ensure the oddness of the y coordinate matches the specified format + // for hybrid public keys. + if format == PubKeyFormatHybridEven || format == PubKeyFormatHybridOdd { + wantOddY := format == PubKeyFormatHybridOdd + if y.IsOdd() != wantOddY { + str := fmt.Sprintf("invalid public key: y oddness does not "+ + "match specified value of %v", wantOddY) + return nil, makeError(ErrPubKeyMismatchedOddness, str) + } + } + + // Reject public keys that are not on the secp256k1 curve. + if !isOnCurve(&x, &y) { + str := fmt.Sprintf("invalid public key: [%v,%v] not on secp256k1 "+ + "curve", x, y) + return nil, makeError(ErrPubKeyNotOnCurve, str) + } + + case PubKeyBytesLenCompressed: + // Reject unsupported public key formats for the given length. + format := serialized[0] + switch format { + case PubKeyFormatCompressedEven, PubKeyFormatCompressedOdd: + default: + str := fmt.Sprintf("invalid public key: unsupported format: %x", + format) + return nil, makeError(ErrPubKeyInvalidFormat, str) + } + + // Parse the x coordinate while ensuring that it is in the allowed + // range. + if overflow := x.SetByteSlice(serialized[1:33]); overflow { + str := "invalid public key: x >= field prime" + return nil, makeError(ErrPubKeyXTooBig, str) + } + + // Attempt to calculate the y coordinate for the given x coordinate such + // that the result pair is a point on the secp256k1 curve and the + // solution with desired oddness is chosen. + wantOddY := format == PubKeyFormatCompressedOdd + if !DecompressY(&x, wantOddY, &y) { + str := fmt.Sprintf("invalid public key: x coordinate %v is not on "+ + "the secp256k1 curve", x) + return nil, makeError(ErrPubKeyNotOnCurve, str) + } + y.Normalize() + + default: + str := fmt.Sprintf("malformed public key: invalid length: %d", + len(serialized)) + return nil, makeError(ErrPubKeyInvalidLen, str) + } + + return NewPublicKey(&x, &y), nil +} + +// SerializeUncompressed serializes a public key in the 65-byte uncompressed +// format. +func (p PublicKey) SerializeUncompressed() []byte { + // 0x04 || 32-byte x coordinate || 32-byte y coordinate + var b [PubKeyBytesLenUncompressed]byte + b[0] = PubKeyFormatUncompressed + p.x.PutBytesUnchecked(b[1:33]) + p.y.PutBytesUnchecked(b[33:65]) + return b[:] +} + +// SerializeCompressed serializes a public key in the 33-byte compressed format. +func (p PublicKey) SerializeCompressed() []byte { + // Choose the format byte depending on the oddness of the Y coordinate. + format := PubKeyFormatCompressedEven + if p.y.IsOdd() { + format = PubKeyFormatCompressedOdd + } + + // 0x02 or 0x03 || 32-byte x coordinate + var b [PubKeyBytesLenCompressed]byte + b[0] = format + p.x.PutBytesUnchecked(b[1:33]) + return b[:] +} + +// IsEqual compares this PublicKey instance to the one passed, returning true if +// both PublicKeys are equivalent. A PublicKey is equivalent to another, if they +// both have the same X and Y coordinate. +func (p *PublicKey) IsEqual(otherPubKey *PublicKey) bool { + return p.x.Equals(&otherPubKey.x) && p.y.Equals(&otherPubKey.y) +} + +// AsJacobian converts the public key into a Jacobian point with Z=1 and stores +// the result in the provided result param. This allows the public key to be +// treated a Jacobian point in the secp256k1 group in calculations. +func (p *PublicKey) AsJacobian(result *JacobianPoint) { + result.X.Set(&p.x) + result.Y.Set(&p.y) + result.Z.SetInt(1) +} + +// IsOnCurve returns whether or not the public key represents a point on the +// secp256k1 curve. +func (p *PublicKey) IsOnCurve() bool { + return isOnCurve(&p.x, &p.y) +} diff --git a/vendor/github.com/go-chi/jwtauth/v5/.gitignore b/vendor/github.com/go-chi/jwtauth/v5/.gitignore new file mode 100644 index 0000000..498781e --- /dev/null +++ b/vendor/github.com/go-chi/jwtauth/v5/.gitignore @@ -0,0 +1,3 @@ +vendor/ +Gopkg.lock +.idea/ \ No newline at end of file diff --git a/vendor/github.com/go-chi/jwtauth/v5/LICENSE b/vendor/github.com/go-chi/jwtauth/v5/LICENSE new file mode 100644 index 0000000..767cb9d --- /dev/null +++ b/vendor/github.com/go-chi/jwtauth/v5/LICENSE @@ -0,0 +1,20 @@ +Copyright (c) 2015-Present https://github.com/go-chi authors + +MIT License + +Permission is hereby granted, free of charge, to any person obtaining a copy of +this software and associated documentation files (the "Software"), to deal in +the Software without restriction, including without limitation the rights to +use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of +the Software, and to permit persons to whom the Software is furnished to do so, +subject to the following conditions: + +The above copyright notice and this permission notice shall be included in all +copies or substantial portions of the Software. + +THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR +IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS +FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR +COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER +IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN +CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. diff --git a/vendor/github.com/go-chi/jwtauth/v5/README.md b/vendor/github.com/go-chi/jwtauth/v5/README.md new file mode 100644 index 0000000..6ece66e --- /dev/null +++ b/vendor/github.com/go-chi/jwtauth/v5/README.md @@ -0,0 +1,111 @@ +# jwtauth - JWT authentication middleware for HTTP services + +[![GoDoc Widget]][godoc] + +The `jwtauth` http middleware package provides a simple way to verify a JWT token +from a http request and send the result down the request context (`context.Context`). + +Please note, `jwtauth` works with any Go http router, but resides under the go-chi group +for maintenance and organization - its only 3rd party dependency is the underlying jwt library +"github.com/lestrrat-go/jwx". + +In a complete JWT-authentication flow, you'll first capture the token from a http +request, decode it, verify it and then validate that its correctly signed and hasn't +expired - the `jwtauth.Verifier` middleware handler takes care of all of that. The +`jwtauth.Verifier` will set the context values on keys `jwtauth.TokenCtxKey` and +`jwtauth.ErrorCtxKey`. + +Next, it's up to an authentication handler to respond or continue processing after the +`jwtauth.Verifier`. The `jwtauth.Authenticator` middleware responds with a 401 Unauthorized +plain-text payload for all unverified tokens and passes the good ones through. You can +also copy the Authenticator and customize it to handle invalid tokens to better fit +your flow (ie. with a JSON error response body). + +By default, the `Verifier` will search for a JWT token in a http request, in the order: + +1. 'Authorization: BEARER T' request header +2. 'jwt' Cookie value + +The first JWT string that is found as an authorization header +or cookie header is then decoded by the `lestrrat-go/jwx` library and a jwt.Token +object is set on the request context. In the case of a signature decoding error +the Verifier will also set the error on the request context. + +The Verifier always calls the next http handler in sequence, which can either +be the generic `jwtauth.Authenticator` middleware or your own custom handler +which checks the request context jwt token and error to prepare a custom +http response. + +Note: jwtauth supports custom verification sequences for finding a token +from a request by using the `Verify` middleware instantiator directly. The default +`Verifier` is instantiated by calling `Verify(ja, TokenFromHeader, TokenFromCookie)`. + +# Usage + +See the full [example](https://github.com/go-chi/jwtauth/blob/master/_example/main.go). + +```go +package main + +import ( + "fmt" + "net/http" + + "github.com/go-chi/chi/v5" + "github.com/go-chi/jwtauth/v5" +) + +var tokenAuth *jwtauth.JWTAuth + +func init() { + tokenAuth = jwtauth.New("HS256", []byte("secret"), nil) + + // For debugging/example purposes, we generate and print + // a sample jwt token with claims `user_id:123` here: + _, tokenString, _ := tokenAuth.Encode(map[string]interface{}{"user_id": 123}) + fmt.Printf("DEBUG: a sample jwt is %s\n\n", tokenString) +} + +func main() { + addr := ":3333" + fmt.Printf("Starting server on %v\n", addr) + http.ListenAndServe(addr, router()) +} + +func router() http.Handler { + r := chi.NewRouter() + + // Protected routes + r.Group(func(r chi.Router) { + // Seek, verify and validate JWT tokens + r.Use(jwtauth.Verifier(tokenAuth)) + + // Handle valid / invalid tokens. In this example, we use + // the provided authenticator middleware, but you can write your + // own very easily, look at the Authenticator method in jwtauth.go + // and tweak it, its not scary. + r.Use(jwtauth.Authenticator) + + r.Get("/admin", func(w http.ResponseWriter, r *http.Request) { + _, claims, _ := jwtauth.FromContext(r.Context()) + w.Write([]byte(fmt.Sprintf("protected area. hi %v", claims["user_id"]))) + }) + }) + + // Public routes + r.Group(func(r chi.Router) { + r.Get("/", func(w http.ResponseWriter, r *http.Request) { + w.Write([]byte("welcome anonymous")) + }) + }) + + return r +} +``` + +# LICENSE + +[MIT](/LICENSE) + +[godoc]: https://godoc.org/github.com/go-chi/jwtauth +[godoc widget]: https://godoc.org/github.com/go-chi/jwtauth?status.svg diff --git a/vendor/github.com/go-chi/jwtauth/v5/jwtauth.go b/vendor/github.com/go-chi/jwtauth/v5/jwtauth.go new file mode 100644 index 0000000..38104fe --- /dev/null +++ b/vendor/github.com/go-chi/jwtauth/v5/jwtauth.go @@ -0,0 +1,288 @@ +package jwtauth + +import ( + "context" + "errors" + "net/http" + "strings" + "time" + + "github.com/lestrrat-go/jwx/jwa" + "github.com/lestrrat-go/jwx/jwt" +) + +type JWTAuth struct { + alg jwa.SignatureAlgorithm + signKey interface{} // private-key + verifyKey interface{} // public-key, only used by RSA and ECDSA algorithms + verifier jwt.ParseOption +} + +var ( + TokenCtxKey = &contextKey{"Token"} + ErrorCtxKey = &contextKey{"Error"} +) + +var ( + ErrUnauthorized = errors.New("token is unauthorized") + ErrExpired = errors.New("token is expired") + ErrNBFInvalid = errors.New("token nbf validation failed") + ErrIATInvalid = errors.New("token iat validation failed") + ErrNoTokenFound = errors.New("no token found") + ErrAlgoInvalid = errors.New("algorithm mismatch") +) + +func New(alg string, signKey interface{}, verifyKey interface{}) *JWTAuth { + ja := &JWTAuth{alg: jwa.SignatureAlgorithm(alg), signKey: signKey, verifyKey: verifyKey} + + if ja.verifyKey != nil { + ja.verifier = jwt.WithVerify(ja.alg, ja.verifyKey) + } else { + ja.verifier = jwt.WithVerify(ja.alg, ja.signKey) + } + + return ja +} + +// Verifier http middleware handler will verify a JWT string from a http request. +// +// Verifier will search for a JWT token in a http request, in the order: +// 1. 'jwt' URI query parameter +// 2. 'Authorization: BEARER T' request header +// 3. Cookie 'jwt' value +// +// The first JWT string that is found as a query parameter, authorization header +// or cookie header is then decoded by the `jwt-go` library and a *jwt.Token +// object is set on the request context. In the case of a signature decoding error +// the Verifier will also set the error on the request context. +// +// The Verifier always calls the next http handler in sequence, which can either +// be the generic `jwtauth.Authenticator` middleware or your own custom handler +// which checks the request context jwt token and error to prepare a custom +// http response. +func Verifier(ja *JWTAuth) func(http.Handler) http.Handler { + return func(next http.Handler) http.Handler { + return Verify(ja, TokenFromHeader, TokenFromCookie)(next) + } +} + +func Verify(ja *JWTAuth, findTokenFns ...func(r *http.Request) string) func(http.Handler) http.Handler { + return func(next http.Handler) http.Handler { + hfn := func(w http.ResponseWriter, r *http.Request) { + ctx := r.Context() + token, err := VerifyRequest(ja, r, findTokenFns...) + ctx = NewContext(ctx, token, err) + next.ServeHTTP(w, r.WithContext(ctx)) + } + return http.HandlerFunc(hfn) + } +} + +func VerifyRequest(ja *JWTAuth, r *http.Request, findTokenFns ...func(r *http.Request) string) (jwt.Token, error) { + var tokenString string + + // Extract token string from the request by calling token find functions in + // the order they where provided. Further extraction stops if a function + // returns a non-empty string. + for _, fn := range findTokenFns { + tokenString = fn(r) + if tokenString != "" { + break + } + } + if tokenString == "" { + return nil, ErrNoTokenFound + } + + return VerifyToken(ja, tokenString) +} + +func VerifyToken(ja *JWTAuth, tokenString string) (jwt.Token, error) { + // Decode & verify the token + token, err := ja.Decode(tokenString) + if err != nil { + return token, ErrorReason(err) + } + + if token == nil { + return nil, ErrUnauthorized + } + + if err := jwt.Validate(token); err != nil { + return token, ErrorReason(err) + } + + // Valid! + return token, nil +} + +func (ja *JWTAuth) Encode(claims map[string]interface{}) (t jwt.Token, tokenString string, err error) { + t = jwt.New() + for k, v := range claims { + t.Set(k, v) + } + payload, err := ja.sign(t) + if err != nil { + return nil, "", err + } + tokenString = string(payload) + return +} + +func (ja *JWTAuth) Decode(tokenString string) (jwt.Token, error) { + return ja.parse([]byte(tokenString)) +} + +func (ja *JWTAuth) sign(token jwt.Token) ([]byte, error) { + return jwt.Sign(token, ja.alg, ja.signKey) +} + +func (ja *JWTAuth) parse(payload []byte) (jwt.Token, error) { + return jwt.Parse(payload, ja.verifier) +} + +// ErrorReason will normalize the error message from the underlining +// jwt library +func ErrorReason(err error) error { + switch err.Error() { + case "exp not satisfied", ErrExpired.Error(): + return ErrExpired + case "iat not satisfied", ErrIATInvalid.Error(): + return ErrIATInvalid + case "nbf not satisfied", ErrNBFInvalid.Error(): + return ErrNBFInvalid + default: + return ErrUnauthorized + } +} + +// Authenticator is a default authentication middleware to enforce access from the +// Verifier middleware request context values. The Authenticator sends a 401 Unauthorized +// response for any unverified tokens and passes the good ones through. It's just fine +// until you decide to write something similar and customize your client response. +func Authenticator(next http.Handler) http.Handler { + return http.HandlerFunc(func(w http.ResponseWriter, r *http.Request) { + token, _, err := FromContext(r.Context()) + + if err != nil { + http.Error(w, err.Error(), 401) + return + } + + if token == nil || jwt.Validate(token) != nil { + http.Error(w, http.StatusText(401), 401) + return + } + + // Token is authenticated, pass it through + next.ServeHTTP(w, r) + }) +} + +func NewContext(ctx context.Context, t jwt.Token, err error) context.Context { + ctx = context.WithValue(ctx, TokenCtxKey, t) + ctx = context.WithValue(ctx, ErrorCtxKey, err) + return ctx +} + +func FromContext(ctx context.Context) (jwt.Token, map[string]interface{}, error) { + token, _ := ctx.Value(TokenCtxKey).(jwt.Token) + + var err error + var claims map[string]interface{} + + if token != nil { + claims, err = token.AsMap(context.Background()) + if err != nil { + return token, nil, err + } + } else { + claims = map[string]interface{}{} + } + + err, _ = ctx.Value(ErrorCtxKey).(error) + + return token, claims, err +} + +// UnixTime returns the given time in UTC milliseconds +func UnixTime(tm time.Time) int64 { + return tm.UTC().Unix() +} + +// EpochNow is a helper function that returns the NumericDate time value used by the spec +func EpochNow() int64 { + return time.Now().UTC().Unix() +} + +// ExpireIn is a helper function to return calculated time in the future for "exp" claim +func ExpireIn(tm time.Duration) int64 { + return EpochNow() + int64(tm.Seconds()) +} + +// Set issued at ("iat") to specified time in the claims +func SetIssuedAt(claims map[string]interface{}, tm time.Time) { + claims["iat"] = tm.UTC().Unix() +} + +// Set issued at ("iat") to present time in the claims +func SetIssuedNow(claims map[string]interface{}) { + claims["iat"] = EpochNow() +} + +// Set expiry ("exp") in the claims +func SetExpiry(claims map[string]interface{}, tm time.Time) { + claims["exp"] = tm.UTC().Unix() +} + +// Set expiry ("exp") in the claims to some duration from the present time +func SetExpiryIn(claims map[string]interface{}, tm time.Duration) { + claims["exp"] = ExpireIn(tm) +} + +// TokenFromCookie tries to retreive the token string from a cookie named +// "jwt". +func TokenFromCookie(r *http.Request) string { + cookie, err := r.Cookie("jwt") + if err != nil { + return "" + } + return cookie.Value +} + +// TokenFromHeader tries to retreive the token string from the +// "Authorization" reqeust header: "Authorization: BEARER T". +func TokenFromHeader(r *http.Request) string { + // Get token from authorization header. + bearer := r.Header.Get("Authorization") + if len(bearer) > 7 && strings.ToUpper(bearer[0:6]) == "BEARER" { + return bearer[7:] + } + return "" +} + +// TokenFromQuery tries to retreive the token string from the "jwt" URI +// query parameter. +// +// To use it, build our own middleware handler, such as: +// +// func Verifier(ja *JWTAuth) func(http.Handler) http.Handler { +// return func(next http.Handler) http.Handler { +// return Verify(ja, TokenFromQuery, TokenFromHeader, TokenFromCookie)(next) +// } +// } +func TokenFromQuery(r *http.Request) string { + // Get token from query param named "jwt". + return r.URL.Query().Get("jwt") +} + +// contextKey is a value for use with context.WithValue. It's used as +// a pointer so it fits in an interface{} without allocation. This technique +// for defining context keys was copied from Go 1.7's new use of context in net/http. +type contextKey struct { + name string +} + +func (k *contextKey) String() string { + return "jwtauth context value " + k.name +} diff --git a/vendor/github.com/goccy/go-json/.codecov.yml b/vendor/github.com/goccy/go-json/.codecov.yml new file mode 100644 index 0000000..e981345 --- /dev/null +++ b/vendor/github.com/goccy/go-json/.codecov.yml @@ -0,0 +1,32 @@ +codecov: + require_ci_to_pass: yes + +coverage: + precision: 2 + round: down + range: "70...100" + + status: + project: + default: + target: 70% + threshold: 2% + patch: off + changes: no + +parsers: + gcov: + branch_detection: + conditional: yes + loop: yes + method: no + macro: no + +comment: + layout: "header,diff" + behavior: default + require_changes: no + +ignore: + - internal/encoder/vm_color + - internal/encoder/vm_color_indent diff --git a/vendor/github.com/goccy/go-json/.gitignore b/vendor/github.com/goccy/go-json/.gitignore new file mode 100644 index 0000000..3782838 --- /dev/null +++ b/vendor/github.com/goccy/go-json/.gitignore @@ -0,0 +1,2 @@ +cover.html +cover.out diff --git a/vendor/github.com/goccy/go-json/.golangci.yml b/vendor/github.com/goccy/go-json/.golangci.yml new file mode 100644 index 0000000..44ae40f --- /dev/null +++ b/vendor/github.com/goccy/go-json/.golangci.yml @@ -0,0 +1,75 @@ +run: + skip-files: + - encode_optype.go + - ".*_test\\.go$" + +linters-settings: + govet: + enable-all: true + disable: + - shadow + +linters: + enable-all: true + disable: + - dogsled + - dupl + - exhaustive + - exhaustivestruct + - errorlint + - forbidigo + - funlen + - gci + - gochecknoglobals + - gochecknoinits + - gocognit + - gocritic + - gocyclo + - godot + - godox + - goerr113 + - gofumpt + - gomnd + - gosec + - ifshort + - lll + - makezero + - nakedret + - nestif + - nlreturn + - paralleltest + - testpackage + - thelper + - wrapcheck + - interfacer + - lll + - nakedret + - nestif + - nlreturn + - testpackage + - wsl + +issues: + exclude-rules: + # not needed + - path: /*.go + text: "ST1003: should not use underscores in package names" + linters: + - stylecheck + - path: /*.go + text: "don't use an underscore in package name" + linters: + - golint + - path: rtype.go + linters: + - golint + - stylecheck + - path: error.go + linters: + - staticcheck + + # Maximum issues count per one linter. Set to 0 to disable. Default is 50. + max-issues-per-linter: 0 + + # Maximum count of issues with the same text. Set to 0 to disable. Default is 3. + max-same-issues: 0 diff --git a/vendor/github.com/goccy/go-json/CHANGELOG.md b/vendor/github.com/goccy/go-json/CHANGELOG.md new file mode 100644 index 0000000..d26766e --- /dev/null +++ b/vendor/github.com/goccy/go-json/CHANGELOG.md @@ -0,0 +1,247 @@ +# v0.7.6 - 2021/08/13 + +* Fix nil slice assignment ( #276 ) +* Improve error message ( #277 ) + +# v0.7.5 - 2021/08/12 + +* Fix encoding of embedded struct with tags ( #265 ) +* Fix encoding of embedded struct that isn't first field ( #272 ) +* Fix decoding of binary type with escaped char ( #273 ) + +# v0.7.4 - 2021/07/06 + +* Fix encoding of indirect layout structure ( #264 ) + +# v0.7.3 - 2021/06/29 + +* Fix encoding of pointer type in empty interface ( #262 ) + +# v0.7.2 - 2021/06/26 + +### Fix decoder + +* Add decoder for func type to fix decoding of nil function value ( #257 ) +* Fix stream decoding of []byte type ( #258 ) + +### Performance + +* Improve decoding performance of map[string]interface{} type ( use `mapassign_faststr` ) ( #256 ) +* Improve encoding performance of empty interface type ( remove recursive calling of `vm.Run` ) ( #259 ) + +### Benchmark + +* Add bytedance/sonic as benchmark target ( #254 ) + +# v0.7.1 - 2021/06/18 + +### Fix decoder + +* Fix error when unmarshal empty array ( #253 ) + +# v0.7.0 - 2021/06/12 + +### Support context for MarshalJSON and UnmarshalJSON ( #248 ) + +* json.MarshalContext(context.Context, interface{}, ...json.EncodeOption) ([]byte, error) +* json.NewEncoder(io.Writer).EncodeContext(context.Context, interface{}, ...json.EncodeOption) error +* json.UnmarshalContext(context.Context, []byte, interface{}, ...json.DecodeOption) error +* json.NewDecoder(io.Reader).DecodeContext(context.Context, interface{}) error + +```go +type MarshalerContext interface { + MarshalJSON(context.Context) ([]byte, error) +} + +type UnmarshalerContext interface { + UnmarshalJSON(context.Context, []byte) error +} +``` + +### Add DecodeFieldPriorityFirstWin option ( #242 ) + +In the default behavior, go-json, like encoding/json, will reflect the result of the last evaluation when a field with the same name exists. I've added new options to allow you to change this behavior. `json.DecodeFieldPriorityFirstWin` option reflects the result of the first evaluation if a field with the same name exists. This behavior has a performance advantage as it allows the subsequent strings to be skipped if all fields have been evaluated. + +### Fix encoder + +* Fix indent number contains recursive type ( #249 ) +* Fix encoding of using empty interface as map key ( #244 ) + +### Fix decoder + +* Fix decoding fields containing escaped characters ( #237 ) + +### Refactor + +* Move some tests to subdirectory ( #243 ) +* Refactor package layout for decoder ( #238 ) + +# v0.6.1 - 2021/06/02 + +### Fix encoder + +* Fix value of totalLength for encoding ( #236 ) + +# v0.6.0 - 2021/06/01 + +### Support Colorize option for encoding (#233) + +```go +b, err := json.MarshalWithOption(v, json.Colorize(json.DefaultColorScheme)) +if err != nil { + ... +} +fmt.Println(string(b)) // print colored json +``` + +### Refactor + +* Fix opcode layout - Adjust memory layout of the opcode to 128 bytes in a 64-bit environment ( #230 ) +* Refactor encode option ( #231 ) +* Refactor escape string ( #232 ) + +# v0.5.1 - 2021/5/20 + +### Optimization + +* Add type addrShift to enable bigger encoder/decoder cache ( #213 ) + +### Fix decoder + +* Keep original reference of slice element ( #229 ) + +### Refactor + +* Refactor Debug mode for encoding ( #226 ) +* Generate VM sources for encoding ( #227 ) +* Refactor validator for null/true/false for decoding ( #221 ) + +# v0.5.0 - 2021/5/9 + +### Supports using omitempty and string tags at the same time ( #216 ) + +### Fix decoder + +* Fix stream decoder for unicode char ( #215 ) +* Fix decoding of slice element ( #219 ) +* Fix calculating of buffer length for stream decoder ( #220 ) + +### Refactor + +* replace skipWhiteSpace goto by loop ( #212 ) + +# v0.4.14 - 2021/5/4 + +### Benchmark + +* Add valyala/fastjson to benchmark ( #193 ) +* Add benchmark task for CI ( #211 ) + +### Fix decoder + +* Fix decoding of slice with unmarshal json type ( #198 ) +* Fix decoding of null value for interface type that does not implement Unmarshaler ( #205 ) +* Fix decoding of null value to []byte by json.Unmarshal ( #206 ) +* Fix decoding of backslash char at the end of string ( #207 ) +* Fix stream decoder for null/true/false value ( #208 ) +* Fix stream decoder for slow reader ( #211 ) + +### Performance + +* If cap of slice is enough, reuse slice data for compatibility with encoding/json ( #200 ) + +# v0.4.13 - 2021/4/20 + +### Fix json.Compact and json.Indent + +* Support validation the input buffer for json.Compact and json.Indent ( #189 ) +* Optimize json.Compact and json.Indent ( improve memory footprint ) ( #190 ) + +# v0.4.12 - 2021/4/15 + +### Fix encoder + +* Fix unnecessary indent for empty slice type ( #181 ) +* Fix encoding of omitempty feature for the slice or interface type ( #183 ) +* Fix encoding custom types zero values with omitempty when marshaller exists ( #187 ) + +### Fix decoder + +* Fix decoder for invalid top level value ( #184 ) +* Fix decoder for invalid number value ( #185 ) + +# v0.4.11 - 2021/4/3 + +* Improve decoder performance for interface type + +# v0.4.10 - 2021/4/2 + +### Fix encoder + +* Fixed a bug when encoding slice and map containing recursive structures +* Fixed a logic to determine if indirect reference + +# v0.4.9 - 2021/3/29 + +### Add debug mode + +If you use `json.MarshalWithOption(v, json.Debug())` and `panic` occurred in `go-json`, produces debug information to console. + +### Support a new feature to compatible with encoding/json + +- invalid UTF-8 is coerced to valid UTF-8 ( without performance down ) + +### Fix encoder + +- Fixed handling of MarshalJSON of function type + +### Fix decoding of slice of pointer type + +If there is a pointer value, go-json will use it. (This behavior is necessary to achieve the ability to prioritize pre-filled values). However, since slices are reused internally, there was a bug that referred to the previous pointer value. Therefore, it is not necessary to refer to the pointer value in advance for the slice element, so we explicitly initialize slice element by `nil`. + +# v0.4.8 - 2021/3/21 + +### Reduce memory usage at compile time + +* go-json have used about 2GB of memory at compile time, but now it can compile with about less than 550MB. + +### Fix any encoder's bug + +* Add many test cases for encoder +* Fix composite type ( slice/array/map ) +* Fix pointer types +* Fix encoding of MarshalJSON or MarshalText or json.Number type + +### Refactor encoder + +* Change package layout for reducing memory usage at compile +* Remove anonymous and only operation +* Remove root property from encodeCompileContext and opcode + +### Fix CI + +* Add Go 1.16 +* Remove Go 1.13 +* Fix `make cover` task + +### Number/Delim/Token/RawMessage use the types defined in encoding/json by type alias + +# v0.4.7 - 2021/02/22 + +### Fix decoder + +* Fix decoding of deep recursive structure +* Fix decoding of embedded unexported pointer field +* Fix invalid test case +* Fix decoding of invalid value +* Fix decoding of prefilled value +* Fix not being able to return UnmarshalTypeError when it should be returned +* Fix decoding of null value +* Fix decoding of type of null string +* Use pre allocated pointer if exists it at decoding + +### Reduce memory usage at compile + +* Integrate int/int8/int16/int32/int64 and uint/uint8/uint16/uint32/uint64 operation to reduce memory usage at compile + +### Remove unnecessary optype diff --git a/vendor/github.com/goccy/go-json/LICENSE b/vendor/github.com/goccy/go-json/LICENSE new file mode 100644 index 0000000..6449c8b --- /dev/null +++ b/vendor/github.com/goccy/go-json/LICENSE @@ -0,0 +1,21 @@ +MIT License + +Copyright (c) 2020 Masaaki Goshima + +Permission is hereby granted, free of charge, to any person obtaining a copy +of this software and associated documentation files (the "Software"), to deal +in the Software without restriction, including without limitation the rights +to use, copy, modify, merge, publish, distribute, sublicense, and/or sell +copies of the Software, and to permit persons to whom the Software is +furnished to do so, subject to the following conditions: + +The above copyright notice and this permission notice shall be included in all +copies or substantial portions of the Software. + +THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR +IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, +FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE +AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER +LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, +OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE +SOFTWARE. diff --git a/vendor/github.com/goccy/go-json/Makefile b/vendor/github.com/goccy/go-json/Makefile new file mode 100644 index 0000000..363563a --- /dev/null +++ b/vendor/github.com/goccy/go-json/Makefile @@ -0,0 +1,39 @@ +PKG := github.com/goccy/go-json + +BIN_DIR := $(CURDIR)/bin +PKGS := $(shell go list ./... | grep -v internal/cmd|grep -v test) +COVER_PKGS := $(foreach pkg,$(PKGS),$(subst $(PKG),.,$(pkg))) + +COMMA := , +EMPTY := +SPACE := $(EMPTY) $(EMPTY) +COVERPKG_OPT := $(subst $(SPACE),$(COMMA),$(COVER_PKGS)) + +$(BIN_DIR): + @mkdir -p $(BIN_DIR) + +.PHONY: cover +cover: + go test -coverpkg=$(COVERPKG_OPT) -coverprofile=cover.out ./... + +.PHONY: cover-html +cover-html: cover + go tool cover -html=cover.out + +.PHONY: lint +lint: golangci-lint + golangci-lint run + +golangci-lint: | $(BIN_DIR) + @{ \ + set -e; \ + GOLANGCI_LINT_TMP_DIR=$$(mktemp -d); \ + cd $$GOLANGCI_LINT_TMP_DIR; \ + go mod init tmp; \ + GOBIN=$(BIN_DIR) go get github.com/golangci/golangci-lint/cmd/golangci-lint@v1.36.0; \ + rm -rf $$GOLANGCI_LINT_TMP_DIR; \ + } + +.PHONY: generate +generate: + go generate ./internal/... diff --git a/vendor/github.com/goccy/go-json/README.md b/vendor/github.com/goccy/go-json/README.md new file mode 100644 index 0000000..418854e --- /dev/null +++ b/vendor/github.com/goccy/go-json/README.md @@ -0,0 +1,529 @@ +# go-json + +![Go](https://github.com/goccy/go-json/workflows/Go/badge.svg) +[![GoDoc](https://godoc.org/github.com/goccy/go-json?status.svg)](https://pkg.go.dev/github.com/goccy/go-json?tab=doc) +[![codecov](https://codecov.io/gh/goccy/go-json/branch/master/graph/badge.svg)](https://codecov.io/gh/goccy/go-json) + +Fast JSON encoder/decoder compatible with encoding/json for Go + + + +# Roadmap + +``` +* version ( expected release date ) + +* v0.7.0 + | + | while maintaining compatibility with encoding/json, we will add convenient APIs + | + v +* v1.0.0 +``` + +We are accepting requests for features that will be implemented between v0.7.0 and v.1.0.0. +If you have the API you need, please submit your issue [here](https://github.com/goccy/go-json/issues). +For example, I'm thinking of supporting `context.Context` of `json.Marshaler` and decoding using JSON Path. + +# Features + +- Drop-in replacement of `encoding/json` +- Fast ( See [Benchmark section](https://github.com/goccy/go-json#benchmarks) ) +- Flexible customization with options +- Coloring the encoded string +- Can propagate context.Context to `MarshalJSON` or `UnmarshalJSON` + +# Installation + +``` +go get github.com/goccy/go-json +``` + +# How to use + +Replace import statement from `encoding/json` to `github.com/goccy/go-json` + +``` +-import "encoding/json" ++import "github.com/goccy/go-json" +``` + +# JSON library comparison + +| name | encoder | decoder | compatible with `encoding/json` | +| :----: | :------: | :-----: | :-----------------------------: | +| encoding/json | yes | yes | N/A | +| [json-iterator/go](https://github.com/json-iterator/go) | yes | yes | partial | +| [easyjson](https://github.com/mailru/easyjson) | yes | yes | no | +| [gojay](https://github.com/francoispqt/gojay) | yes | yes | no | +| [segmentio/encoding/json](https://github.com/segmentio/encoding/tree/master/json) | yes | yes | partial | +| [jettison](https://github.com/wI2L/jettison) | yes | no | no | +| [simdjson-go](https://github.com/minio/simdjson-go) | no | yes | no | +| goccy/go-json | yes | yes | yes | + +- `json-iterator/go` isn't compatible with `encoding/json` in many ways (e.g. https://github.com/json-iterator/go/issues/229 ), but it hasn't been supported for a long time. +- `segmentio/encoding/json` is well supported for encoders, but some are not supported for decoder APIs such as `Token` ( streaming decode ) + +## Other libraries + +- [jingo](https://github.com/bet365/jingo) + +I tried the benchmark but it didn't work. +Also, it seems to panic when it receives an unexpected value because there is no error handling... + +- [ffjson](https://github.com/pquerna/ffjson) + +Benchmarking gave very slow results. +It seems that it is assumed that the user will use the buffer pool properly. +Also, development seems to have already stopped + +# Benchmarks + +``` +$ cd benchmarks +$ go test -bench . +``` + +## Encode + + + + +## Decode + + + + + + +# Fuzzing + +[go-json-fuzz](https://github.com/goccy/go-json-fuzz) is the repository for fuzzing tests. +If you run the test in this repository and find a bug, please commit to corpus to go-json-fuzz and report the issue to [go-json](https://github.com/goccy/go-json/issues). + +# How it works + +`go-json` is very fast in both encoding and decoding compared to other libraries. +It's easier to implement by using automatic code generation for performance or by using a dedicated interface, but `go-json` dares to stick to compatibility with `encoding/json` and is the simple interface. Despite this, we are developing with the aim of being the fastest library. + +Here, we explain the various speed-up techniques implemented by `go-json`. + +## Basic technique + +The techniques listed here are the ones used by most of the libraries listed above. + +### Buffer reuse + +Since the only value required for the result of `json.Marshal(interface{}) ([]byte, error)` is `[]byte`, the only value that must be allocated during encoding is the return value `[]byte` . + +Also, as the number of allocations increases, the performance will be affected, so the number of allocations should be kept as low as possible when creating `[]byte`. + +Therefore, there is a technique to reduce the number of times a new buffer must be allocated by reusing the buffer used for the previous encoding by using `sync.Pool`. + +Finally, you allocate a buffer that is as long as the resulting buffer and copy the contents into it, you only need to allocate the buffer once in theory. + +```go +type buffer struct { + data []byte +} + +var bufPool = sync.Pool{ + New: func() interface{} { + return &buffer{data: make([]byte, 0, 1024)} + }, +} + +buf := bufPool.Get().(*buffer) +data := encode(buf.data) // reuse buf.data + +newBuf := make([]byte, len(data)) +copy(newBuf, buf) + +buf.data = data +bufPool.Put(buf) +``` + +### Elimination of reflection + +As you know, the reflection operation is very slow. + +Therefore, using the fact that the address position where the type information is stored is fixed for each binary ( we call this `typeptr` ), +we can use the address in the type information to call a pre-built optimized process. + +For example, you can get the address to the type information from `interface{}` as follows and you can use that information to call a process that does not have reflection. + +To process without reflection, pass a pointer (`unsafe.Pointer`) to the value is stored. + +```go + +type emptyInterface struct { + typ unsafe.Pointer + ptr unsafe.Pointer +} + +var typeToEncoder = map[uintptr]func(unsafe.Pointer)([]byte, error){} + +func Marshal(v interface{}) ([]byte, error) { + iface := (*emptyInterface)(unsafe.Pointer(&v) + typeptr := uintptr(iface.typ) + if enc, exists := typeToEncoder[typeptr]; exists { + return enc(iface.ptr) + } + ... +} +``` + +※ In reality, `typeToEncoder` can be referenced by multiple goroutines, so exclusive control is required. + +## Unique speed-up technique + +## Encoder + +### Do not escape arguments of `Marshal` + +`json.Marshal` and `json.Unmarshal` receive `interface{}` value and they perform type determination dynamically to process. +In normal case, you need to use the `reflect` library to determine the type dynamically, but since `reflect.Type` is defined as `interface`, when you call the method of `reflect.Type`, The reflect's argument is escaped. + +Therefore, the arguments for `Marshal` and `Unmarshal` are always escape to the heap. +However, `go-json` can use the feature of `reflect.Type` while avoiding escaping. + +`reflect.Type` is defined as `interface`, but in reality `reflect.Type` is implemented only by the structure `rtype` defined in the `reflect` package. +For this reason, to date `reflect.Type` is the same as `*reflect.rtype`. + +Therefore, by directly handling `*reflect.rtype`, which is an implementation of `reflect.Type`, it is possible to avoid escaping because it changes from `interface` to using `struct`. + +The technique for working with `*reflect.rtype` directly from `go-json` is implemented at [rtype.go](https://github.com/goccy/go-json/blob/master/internal/runtime/rtype.go) + +Also, the same technique is cut out as a library ( https://github.com/goccy/go-reflect ) + +Initially this feature was the default behavior of `go-json`. +But after careful testing, I found that I passed a large value to `json.Marshal()` and if the argument could not be assigned to the stack, it could not be properly escaped to the heap (a bug in the Go compiler). + +Therefore, this feature will be provided as an **optional** until this issue is resolved. + +To use it, add `NoEscape` like `MarshalNoEscape()` + +### Encoding using opcode sequence + +I explained that you can use `typeptr` to call a pre-built process from type information. + +In other libraries, this dedicated process is processed by making it an function calling like anonymous function, but function calls are inherently slow processes and should be avoided as much as possible. + +Therefore, `go-json` adopted the Instruction-based execution processing system, which is also used to implement virtual machines for programming language. + +If it is the first type to encode, create the opcode ( instruction ) sequence required for encoding. +From the second time onward, use `typeptr` to get the cached pre-built opcode sequence and encode it based on it. An example of the opcode sequence is shown below. + +```go +json.Marshal(struct{ + X int `json:"x"` + Y string `json:"y"` +}{X: 1, Y: "hello"}) +``` + +When encoding a structure like the one above, create a sequence of opcodes like this: + +``` +- opStructFieldHead ( `{` ) +- opStructFieldInt ( `"x": 1,` ) +- opStructFieldString ( `"y": "hello"` ) +- opStructEnd ( `}` ) +- opEnd +``` + +※ When processing each operation, write the letters on the right. + +In addition, each opcode is managed by the following structure ( +Pseudo code ). + +```go +type opType int +const ( + opStructFieldHead opType = iota + opStructFieldInt + opStructFieldStirng + opStructEnd + opEnd +) +type opcode struct { + op opType + key []byte + next *opcode +} +``` + +The process of encoding using the opcode sequence is roughly implemented as follows. + +```go +func encode(code *opcode, b []byte, p unsafe.Pointer) ([]byte, error) { + for { + switch code.op { + case opStructFieldHead: + b = append(b, '{') + code = code.next + case opStructFieldInt: + b = append(b, code.key...) + b = appendInt((*int)(unsafe.Pointer(uintptr(p)+code.offset))) + code = code.next + case opStructFieldString: + b = append(b, code.key...) + b = appendString((*string)(unsafe.Pointer(uintptr(p)+code.offset))) + code = code.next + case opStructEnd: + b = append(b, '}') + code = code.next + case opEnd: + goto END + } + } +END: + return b, nil +} +``` + +In this way, the huge `switch-case` is used to encode by manipulating the linked list opcodes to avoid unnecessary function calls. + +### Opcode sequence optimization + +One of the advantages of encoding using the opcode sequence is the ease of optimization. +The opcode sequence mentioned above is actually converted into the following optimized operations and used. + +``` +- opStructFieldHeadInt ( `{"x": 1,` ) +- opStructEndString ( `"y": "hello"}` ) +- opEnd +``` + +It has been reduced from 5 opcodes to 3 opcodes ! +Reducing the number of opcodees means reducing the number of branches with `switch-case`. +In other words, the closer the number of operations is to 1, the faster the processing can be performed. + +In `go-json`, optimization to reduce the number of opcodes itself like the above and it speeds up by preparing opcodes with optimized paths. + +### Change recursive call from CALL to JMP + +Recursive processing is required during encoding if the type is defined recursively as follows: + +```go +type T struct { + X int + U *U +} + +type U struct { + T *T +} + +b, err := json.Marshal(&T{ + X: 1, + U: &U{ + T: &T{ + X: 2, + }, + }, +}) +fmt.Println(string(b)) // {"X":1,"U":{"T":{"X":2,"U":null}}} +``` + +In `go-json`, recursive processing is processed by the operation type of ` opStructFieldRecursive`. + +In this operation, after acquiring the opcode sequence used for recursive processing, the function is **not** called recursively as it is, but the necessary values ​​are saved by itself and implemented by moving to the next operation. + +The technique of implementing recursive processing with the `JMP` operation while avoiding the `CALL` operation is a famous technique for implementing a high-speed virtual machine. + +For more details, please refer to [the article](https://engineering.mercari.com/blog/entry/1599563768-081104c850) ( but Japanese only ). + +### Dispatch by typeptr from map to slice + +When retrieving the data cached from the type information by `typeptr`, we usually use map. +Map requires exclusive control, so use `sync.Map` for a naive implementation. + +However, this is slow, so it's a good idea to use the `atomic` package for exclusive control as implemented by `segmentio/encoding/json` ( https://github.com/segmentio/encoding/blob/master/json/codec.go#L41-L55 ). + +This implementation slows down the set instead of speeding up the get, but it works well because of the nature of the library, it encodes much more for the same type. + +However, as a result of profiling, I noticed that `runtime.mapaccess2` accounts for a significant percentage of the execution time. So I thought if I could change the lookup from map to slice. + +There is an API named `typelinks` defined in the `runtime` package that the `reflect` package uses internally. +This allows you to get all the type information defined in the binary at runtime. + +The fact that all type information can be acquired means that by constructing slices in advance with the acquired total number of type information, it is possible to look up with the value of `typeptr` without worrying about out-of-range access. + +However, if there is too much type information, it will use a lot of memory, so by default we will only use this optimization if the slice size fits within **2Mib** . + +If this approach is not available, it will fall back to the `atomic` based process described above. + +If you want to know more, please refer to the implementation [here](https://github.com/goccy/go-json/blob/master/internal/runtime/type.go#L36-L100) + +## Decoder + +### Dispatch by typeptr from map to slice + +Like the encoder, the decoder also uses typeptr to call the dedicated process. + +### Faster termination character inspection using NUL character + +In order to decode, you have to traverse the input buffer character by position. +At that time, if you check whether the buffer has reached the end, it will be very slow. + +`buf` : `[]byte` type variable. holds the string passed to the decoder +`cursor` : `int64` type variable. holds the current read position + +```go +buflen := len(buf) +for ; cursor < buflen; cursor++ { // compare cursor and buflen at all times, it is so slow. + switch buf[cursor] { + case ' ', '\n', '\r', '\t': + } +} +``` + +Therefore, by adding the `NUL` (`\000`) character to the end of the read buffer as shown below, it is possible to check the termination character at the same time as other characters. + +```go +for { + switch buf[cursor] { + case ' ', '\n', '\r', '\t': + case '\000': + return nil + } + cursor++ +} +``` + +### Use Boundary Check Elimination + +Due to the `NUL` character optimization, the Go compiler does a boundary check every time, even though `buf[cursor]` does not cause out-of-range access. + +Therefore, `go-json` eliminates boundary check by fetching characters for hotspot by pointer operation. For example, the following code. + +```go +func char(ptr unsafe.Pointer, offset int64) byte { + return *(*byte)(unsafe.Pointer(uintptr(ptr) + uintptr(offset))) +} + +p := (*sliceHeader)(&unsafe.Pointer(buf)).data +for { + switch char(p, cursor) { + case ' ', '\n', '\r', '\t': + case '\000': + return nil + } + cursor++ +} +``` + +### Checking the existence of fields of struct using Bitmaps + +I found by the profiling result, in the struct decode, lookup process for field was taking a long time. + +For example, consider decoding a string like `{"a":1,"b":2,"c":3}` into the following structure: + +```go +type T struct { + A int `json:"a"` + B int `json:"b"` + C int `json:"c"` +} +``` + +At this time, it was found that it takes a lot of time to acquire the decoding process corresponding to the field from the field name as shown below during the decoding process. + +```go +fieldName := decodeKey(buf, cursor) // "a" or "b" or "c" +decoder, exists := fieldToDecoderMap[fieldName] // so slow +if exists { + decoder(buf, cursor) +} else { + skipValue(buf, cursor) +} +``` + +To improve this process, `json-iterator/go` is optimized so that it can be branched by switch-case when the number of fields in the structure is 10 or less (switch-case is faster than map). However, there is a risk of hash collision because the value hashed by the FNV algorithm is used for conditional branching. Also, `gojay` processes this part at high speed by letting the library user yourself write `switch-case`. + + +`go-json` considers and implements a new approach that is different from these. I call this **bitmap field optimization**. + +The range of values ​​per character can be represented by `[256]byte`. Also, if the number of fields in the structure is 8 or less, `int8` type can represent the state of each field. +In other words, it has the following structure. + +- Base ( 8bit ): `00000000` +- Key "a": `00000001` ( assign key "a" to the first bit ) +- Key "b": `00000010` ( assign key "b" to the second bit ) +- Key "c": `00000100` ( assign key "c" to the third bit ) + +Bitmap structure is the following + +``` + | key index(0) | +------------------------ + 0 | 00000000 | + 1 | 00000000 | +~~ | | +97 (a) | 00000001 | +98 (b) | 00000010 | +99 (c) | 00000100 | +~~ | | +255 | 00000000 | +``` + +You can think of this as a Bitmap with a height of `256` and a width of the maximum string length in the field name. +In other words, it can be represented by the following type . + +```go +[maxFieldKeyLength][256]int8 +``` + +When decoding a field character, check whether the corresponding character exists by referring to the pre-built bitmap like the following. + +```go +var curBit int8 = math.MaxInt8 // 11111111 + +c := char(buf, cursor) +bit := bitmap[keyIdx][c] +curBit &= bit +if curBit == 0 { + // not found field +} +``` + +If `curBit` is not `0` until the end of the field string, then the string is +You may have hit one of the fields. +But the possibility is that if the decoded string is shorter than the field string, you will get a false hit. + +- input: `{"a":1}` +```go +type T struct { + X int `json:"abc"` +} +``` +※ Since `a` is shorter than `abc`, it can decode to the end of the field character without `curBit` being 0. + +Rest assured. In this case, it doesn't matter because you can tell if you hit by comparing the string length of `a` with the string length of `abc`. + +Finally, calculate the position of the bit where `1` is set and get the corresponding value, and you're done. + +Using this technique, field lookups are possible with only bitwise operations and access to slices. + +`go-json` uses a similar technique for fields with 9 or more and 16 or less fields. At this time, Bitmap is constructed as `[maxKeyLen][256]int16` type. + +Currently, this optimization is not performed when the maximum length of the field name is long (specifically, 64 bytes or more) in addition to the limitation of the number of fields from the viewpoint of saving memory usage. + +### Others + +I have done a lot of other optimizations. I will find time to write about them. If you have any questions about what's written here or other optimizations, please visit the `#go-json` channel on `gophers.slack.com` . + +## Reference + +Regarding the story of go-json, there are the following articles in Japanese only. + +- https://speakerdeck.com/goccy/zui-su-falsejsonraiburariwoqiu-mete +- https://engineering.mercari.com/blog/entry/1599563768-081104c850/ + +# Looking for Sponsors + +I'm looking for sponsors this library. This library is being developed as a personal project in my spare time. If you want a quick response or problem resolution when using this library in your project, please register as a [sponsor](https://github.com/sponsors/goccy). I will cooperate as much as possible. Of course, this library is developed as an MIT license, so you can use it freely for free. + +# License + +MIT diff --git a/vendor/github.com/goccy/go-json/color.go b/vendor/github.com/goccy/go-json/color.go new file mode 100644 index 0000000..e80b22b --- /dev/null +++ b/vendor/github.com/goccy/go-json/color.go @@ -0,0 +1,68 @@ +package json + +import ( + "fmt" + + "github.com/goccy/go-json/internal/encoder" +) + +type ( + ColorFormat = encoder.ColorFormat + ColorScheme = encoder.ColorScheme +) + +const escape = "\x1b" + +type colorAttr int + +//nolint:deadcode,varcheck +const ( + fgBlackColor colorAttr = iota + 30 + fgRedColor + fgGreenColor + fgYellowColor + fgBlueColor + fgMagentaColor + fgCyanColor + fgWhiteColor +) + +//nolint:deadcode,varcheck +const ( + fgHiBlackColor colorAttr = iota + 90 + fgHiRedColor + fgHiGreenColor + fgHiYellowColor + fgHiBlueColor + fgHiMagentaColor + fgHiCyanColor + fgHiWhiteColor +) + +func createColorFormat(attr colorAttr) ColorFormat { + return ColorFormat{ + Header: wrapColor(attr), + Footer: resetColor(), + } +} + +func wrapColor(attr colorAttr) string { + return fmt.Sprintf("%s[%dm", escape, attr) +} + +func resetColor() string { + return wrapColor(colorAttr(0)) +} + +var ( + DefaultColorScheme = &ColorScheme{ + Int: createColorFormat(fgHiMagentaColor), + Uint: createColorFormat(fgHiMagentaColor), + Float: createColorFormat(fgHiMagentaColor), + Bool: createColorFormat(fgHiYellowColor), + String: createColorFormat(fgHiGreenColor), + Binary: createColorFormat(fgHiRedColor), + ObjectKey: createColorFormat(fgHiCyanColor), + Null: createColorFormat(fgBlueColor), + } +) diff --git a/vendor/github.com/goccy/go-json/decode.go b/vendor/github.com/goccy/go-json/decode.go new file mode 100644 index 0000000..d99749d --- /dev/null +++ b/vendor/github.com/goccy/go-json/decode.go @@ -0,0 +1,232 @@ +package json + +import ( + "context" + "fmt" + "io" + "reflect" + "unsafe" + + "github.com/goccy/go-json/internal/decoder" + "github.com/goccy/go-json/internal/errors" + "github.com/goccy/go-json/internal/runtime" +) + +type Decoder struct { + s *decoder.Stream +} + +const ( + nul = '\000' +) + +type emptyInterface struct { + typ *runtime.Type + ptr unsafe.Pointer +} + +func unmarshal(data []byte, v interface{}, optFuncs ...DecodeOptionFunc) error { + src := make([]byte, len(data)+1) // append nul byte to the end + copy(src, data) + + header := (*emptyInterface)(unsafe.Pointer(&v)) + + if err := validateType(header.typ, uintptr(header.ptr)); err != nil { + return err + } + dec, err := decoder.CompileToGetDecoder(header.typ) + if err != nil { + return err + } + ctx := decoder.TakeRuntimeContext() + ctx.Buf = src + ctx.Option.Flags = 0 + for _, optFunc := range optFuncs { + optFunc(ctx.Option) + } + cursor, err := dec.Decode(ctx, 0, 0, header.ptr) + if err != nil { + decoder.ReleaseRuntimeContext(ctx) + return err + } + decoder.ReleaseRuntimeContext(ctx) + return validateEndBuf(src, cursor) +} + +func unmarshalContext(ctx context.Context, data []byte, v interface{}, optFuncs ...DecodeOptionFunc) error { + src := make([]byte, len(data)+1) // append nul byte to the end + copy(src, data) + + header := (*emptyInterface)(unsafe.Pointer(&v)) + + if err := validateType(header.typ, uintptr(header.ptr)); err != nil { + return err + } + dec, err := decoder.CompileToGetDecoder(header.typ) + if err != nil { + return err + } + rctx := decoder.TakeRuntimeContext() + rctx.Buf = src + rctx.Option.Flags = 0 + rctx.Option.Flags |= decoder.ContextOption + rctx.Option.Context = ctx + for _, optFunc := range optFuncs { + optFunc(rctx.Option) + } + cursor, err := dec.Decode(rctx, 0, 0, header.ptr) + if err != nil { + decoder.ReleaseRuntimeContext(rctx) + return err + } + decoder.ReleaseRuntimeContext(rctx) + return validateEndBuf(src, cursor) +} + +func unmarshalNoEscape(data []byte, v interface{}, optFuncs ...DecodeOptionFunc) error { + src := make([]byte, len(data)+1) // append nul byte to the end + copy(src, data) + + header := (*emptyInterface)(unsafe.Pointer(&v)) + + if err := validateType(header.typ, uintptr(header.ptr)); err != nil { + return err + } + dec, err := decoder.CompileToGetDecoder(header.typ) + if err != nil { + return err + } + + ctx := decoder.TakeRuntimeContext() + ctx.Buf = src + ctx.Option.Flags = 0 + for _, optFunc := range optFuncs { + optFunc(ctx.Option) + } + cursor, err := dec.Decode(ctx, 0, 0, noescape(header.ptr)) + if err != nil { + decoder.ReleaseRuntimeContext(ctx) + return err + } + decoder.ReleaseRuntimeContext(ctx) + return validateEndBuf(src, cursor) +} + +func validateEndBuf(src []byte, cursor int64) error { + for { + switch src[cursor] { + case ' ', '\t', '\n', '\r': + cursor++ + continue + case nul: + return nil + } + return errors.ErrSyntax( + fmt.Sprintf("invalid character '%c' after top-level value", src[cursor]), + cursor+1, + ) + } +} + +//nolint:staticcheck +//go:nosplit +func noescape(p unsafe.Pointer) unsafe.Pointer { + x := uintptr(p) + return unsafe.Pointer(x ^ 0) +} + +func validateType(typ *runtime.Type, p uintptr) error { + if typ == nil || typ.Kind() != reflect.Ptr || p == 0 { + return &InvalidUnmarshalError{Type: runtime.RType2Type(typ)} + } + return nil +} + +// NewDecoder returns a new decoder that reads from r. +// +// The decoder introduces its own buffering and may +// read data from r beyond the JSON values requested. +func NewDecoder(r io.Reader) *Decoder { + s := decoder.NewStream(r) + return &Decoder{ + s: s, + } +} + +// Buffered returns a reader of the data remaining in the Decoder's +// buffer. The reader is valid until the next call to Decode. +func (d *Decoder) Buffered() io.Reader { + return d.s.Buffered() +} + +// Decode reads the next JSON-encoded value from its +// input and stores it in the value pointed to by v. +// +// See the documentation for Unmarshal for details about +// the conversion of JSON into a Go value. +func (d *Decoder) Decode(v interface{}) error { + return d.DecodeWithOption(v) +} + +// DecodeContext reads the next JSON-encoded value from its +// input and stores it in the value pointed to by v with context.Context. +func (d *Decoder) DecodeContext(ctx context.Context, v interface{}) error { + d.s.Option.Flags |= decoder.ContextOption + d.s.Option.Context = ctx + return d.DecodeWithOption(v) +} + +func (d *Decoder) DecodeWithOption(v interface{}, optFuncs ...DecodeOptionFunc) error { + header := (*emptyInterface)(unsafe.Pointer(&v)) + typ := header.typ + ptr := uintptr(header.ptr) + typeptr := uintptr(unsafe.Pointer(typ)) + // noescape trick for header.typ ( reflect.*rtype ) + copiedType := *(**runtime.Type)(unsafe.Pointer(&typeptr)) + + if err := validateType(copiedType, ptr); err != nil { + return err + } + + dec, err := decoder.CompileToGetDecoder(typ) + if err != nil { + return err + } + if err := d.s.PrepareForDecode(); err != nil { + return err + } + s := d.s + for _, optFunc := range optFuncs { + optFunc(s.Option) + } + if err := dec.DecodeStream(s, 0, header.ptr); err != nil { + return err + } + s.Reset() + return nil +} + +func (d *Decoder) More() bool { + return d.s.More() +} + +func (d *Decoder) Token() (Token, error) { + return d.s.Token() +} + +// DisallowUnknownFields causes the Decoder to return an error when the destination +// is a struct and the input contains object keys which do not match any +// non-ignored, exported fields in the destination. +func (d *Decoder) DisallowUnknownFields() { + d.s.DisallowUnknownFields = true +} + +func (d *Decoder) InputOffset() int64 { + return d.s.TotalOffset() +} + +// UseNumber causes the Decoder to unmarshal a number into an interface{} as a +// Number instead of as a float64. +func (d *Decoder) UseNumber() { + d.s.UseNumber = true +} diff --git a/vendor/github.com/goccy/go-json/docker-compose.yml b/vendor/github.com/goccy/go-json/docker-compose.yml new file mode 100644 index 0000000..e510666 --- /dev/null +++ b/vendor/github.com/goccy/go-json/docker-compose.yml @@ -0,0 +1,13 @@ +version: '2' +services: + go-json: + image: golang:1.16 + volumes: + - '.:/go/src/go-json' + deploy: + resources: + limits: + memory: 620M + working_dir: /go/src/go-json + command: | + sh -c "go test -c . && ls go-json.test" diff --git a/vendor/github.com/goccy/go-json/encode.go b/vendor/github.com/goccy/go-json/encode.go new file mode 100644 index 0000000..7f198bd --- /dev/null +++ b/vendor/github.com/goccy/go-json/encode.go @@ -0,0 +1,323 @@ +package json + +import ( + "context" + "io" + "unsafe" + + "github.com/goccy/go-json/internal/encoder" + "github.com/goccy/go-json/internal/encoder/vm" + "github.com/goccy/go-json/internal/encoder/vm_color" + "github.com/goccy/go-json/internal/encoder/vm_color_indent" + "github.com/goccy/go-json/internal/encoder/vm_indent" +) + +// An Encoder writes JSON values to an output stream. +type Encoder struct { + w io.Writer + enabledIndent bool + enabledHTMLEscape bool + prefix string + indentStr string +} + +// NewEncoder returns a new encoder that writes to w. +func NewEncoder(w io.Writer) *Encoder { + return &Encoder{w: w, enabledHTMLEscape: true} +} + +// Encode writes the JSON encoding of v to the stream, followed by a newline character. +// +// See the documentation for Marshal for details about the conversion of Go values to JSON. +func (e *Encoder) Encode(v interface{}) error { + return e.EncodeWithOption(v) +} + +// EncodeWithOption call Encode with EncodeOption. +func (e *Encoder) EncodeWithOption(v interface{}, optFuncs ...EncodeOptionFunc) error { + ctx := encoder.TakeRuntimeContext() + ctx.Option.Flag = 0 + + err := e.encodeWithOption(ctx, v, optFuncs...) + + encoder.ReleaseRuntimeContext(ctx) + return err +} + +// EncodeContext call Encode with context.Context and EncodeOption. +func (e *Encoder) EncodeContext(ctx context.Context, v interface{}, optFuncs ...EncodeOptionFunc) error { + rctx := encoder.TakeRuntimeContext() + rctx.Option.Flag = 0 + rctx.Option.Flag |= encoder.ContextOption + rctx.Option.Context = ctx + + err := e.encodeWithOption(rctx, v, optFuncs...) + + encoder.ReleaseRuntimeContext(rctx) + return err +} + +func (e *Encoder) encodeWithOption(ctx *encoder.RuntimeContext, v interface{}, optFuncs ...EncodeOptionFunc) error { + if e.enabledHTMLEscape { + ctx.Option.Flag |= encoder.HTMLEscapeOption + } + for _, optFunc := range optFuncs { + optFunc(ctx.Option) + } + var ( + buf []byte + err error + ) + if e.enabledIndent { + buf, err = encodeIndent(ctx, v, e.prefix, e.indentStr) + } else { + buf, err = encode(ctx, v) + } + if err != nil { + return err + } + if e.enabledIndent { + buf = buf[:len(buf)-2] + } else { + buf = buf[:len(buf)-1] + } + buf = append(buf, '\n') + if _, err := e.w.Write(buf); err != nil { + return err + } + return nil +} + +// SetEscapeHTML specifies whether problematic HTML characters should be escaped inside JSON quoted strings. +// The default behavior is to escape &, <, and > to \u0026, \u003c, and \u003e to avoid certain safety problems that can arise when embedding JSON in HTML. +// +// In non-HTML settings where the escaping interferes with the readability of the output, SetEscapeHTML(false) disables this behavior. +func (e *Encoder) SetEscapeHTML(on bool) { + e.enabledHTMLEscape = on +} + +// SetIndent instructs the encoder to format each subsequent encoded value as if indented by the package-level function Indent(dst, src, prefix, indent). +// Calling SetIndent("", "") disables indentation. +func (e *Encoder) SetIndent(prefix, indent string) { + if prefix == "" && indent == "" { + e.enabledIndent = false + return + } + e.prefix = prefix + e.indentStr = indent + e.enabledIndent = true +} + +func marshalContext(ctx context.Context, v interface{}, optFuncs ...EncodeOptionFunc) ([]byte, error) { + rctx := encoder.TakeRuntimeContext() + rctx.Option.Flag = 0 + rctx.Option.Flag = encoder.HTMLEscapeOption | encoder.ContextOption + rctx.Option.Context = ctx + for _, optFunc := range optFuncs { + optFunc(rctx.Option) + } + + buf, err := encode(rctx, v) + if err != nil { + encoder.ReleaseRuntimeContext(rctx) + return nil, err + } + + // this line exists to escape call of `runtime.makeslicecopy` . + // if use `make([]byte, len(buf)-1)` and `copy(copied, buf)`, + // dst buffer size and src buffer size are differrent. + // in this case, compiler uses `runtime.makeslicecopy`, but it is slow. + buf = buf[:len(buf)-1] + copied := make([]byte, len(buf)) + copy(copied, buf) + + encoder.ReleaseRuntimeContext(rctx) + return copied, nil +} + +func marshal(v interface{}, optFuncs ...EncodeOptionFunc) ([]byte, error) { + ctx := encoder.TakeRuntimeContext() + + ctx.Option.Flag = 0 + ctx.Option.Flag |= encoder.HTMLEscapeOption + for _, optFunc := range optFuncs { + optFunc(ctx.Option) + } + + buf, err := encode(ctx, v) + if err != nil { + encoder.ReleaseRuntimeContext(ctx) + return nil, err + } + + // this line exists to escape call of `runtime.makeslicecopy` . + // if use `make([]byte, len(buf)-1)` and `copy(copied, buf)`, + // dst buffer size and src buffer size are differrent. + // in this case, compiler uses `runtime.makeslicecopy`, but it is slow. + buf = buf[:len(buf)-1] + copied := make([]byte, len(buf)) + copy(copied, buf) + + encoder.ReleaseRuntimeContext(ctx) + return copied, nil +} + +func marshalNoEscape(v interface{}) ([]byte, error) { + ctx := encoder.TakeRuntimeContext() + + ctx.Option.Flag = 0 + ctx.Option.Flag |= encoder.HTMLEscapeOption + + buf, err := encodeNoEscape(ctx, v) + if err != nil { + encoder.ReleaseRuntimeContext(ctx) + return nil, err + } + + // this line exists to escape call of `runtime.makeslicecopy` . + // if use `make([]byte, len(buf)-1)` and `copy(copied, buf)`, + // dst buffer size and src buffer size are differrent. + // in this case, compiler uses `runtime.makeslicecopy`, but it is slow. + buf = buf[:len(buf)-1] + copied := make([]byte, len(buf)) + copy(copied, buf) + + encoder.ReleaseRuntimeContext(ctx) + return copied, nil +} + +func marshalIndent(v interface{}, prefix, indent string, optFuncs ...EncodeOptionFunc) ([]byte, error) { + ctx := encoder.TakeRuntimeContext() + + ctx.Option.Flag = 0 + ctx.Option.Flag |= (encoder.HTMLEscapeOption | encoder.IndentOption) + for _, optFunc := range optFuncs { + optFunc(ctx.Option) + } + + buf, err := encodeIndent(ctx, v, prefix, indent) + if err != nil { + encoder.ReleaseRuntimeContext(ctx) + return nil, err + } + + buf = buf[:len(buf)-2] + copied := make([]byte, len(buf)) + copy(copied, buf) + + encoder.ReleaseRuntimeContext(ctx) + return copied, nil +} + +func encode(ctx *encoder.RuntimeContext, v interface{}) ([]byte, error) { + b := ctx.Buf[:0] + if v == nil { + b = encoder.AppendNull(ctx, b) + b = encoder.AppendComma(ctx, b) + return b, nil + } + header := (*emptyInterface)(unsafe.Pointer(&v)) + typ := header.typ + + typeptr := uintptr(unsafe.Pointer(typ)) + codeSet, err := encoder.CompileToGetCodeSet(typeptr) + if err != nil { + return nil, err + } + + p := uintptr(header.ptr) + ctx.Init(p, codeSet.CodeLength) + ctx.KeepRefs = append(ctx.KeepRefs, header.ptr) + + buf, err := encodeRunCode(ctx, b, codeSet) + if err != nil { + return nil, err + } + ctx.Buf = buf + return buf, nil +} + +func encodeNoEscape(ctx *encoder.RuntimeContext, v interface{}) ([]byte, error) { + b := ctx.Buf[:0] + if v == nil { + b = encoder.AppendNull(ctx, b) + b = encoder.AppendComma(ctx, b) + return b, nil + } + header := (*emptyInterface)(unsafe.Pointer(&v)) + typ := header.typ + + typeptr := uintptr(unsafe.Pointer(typ)) + codeSet, err := encoder.CompileToGetCodeSet(typeptr) + if err != nil { + return nil, err + } + + p := uintptr(header.ptr) + ctx.Init(p, codeSet.CodeLength) + buf, err := encodeRunCode(ctx, b, codeSet) + if err != nil { + return nil, err + } + + ctx.Buf = buf + return buf, nil +} + +func encodeIndent(ctx *encoder.RuntimeContext, v interface{}, prefix, indent string) ([]byte, error) { + b := ctx.Buf[:0] + if v == nil { + b = encoder.AppendNull(ctx, b) + b = encoder.AppendCommaIndent(ctx, b) + return b, nil + } + header := (*emptyInterface)(unsafe.Pointer(&v)) + typ := header.typ + + typeptr := uintptr(unsafe.Pointer(typ)) + codeSet, err := encoder.CompileToGetCodeSet(typeptr) + if err != nil { + return nil, err + } + + p := uintptr(header.ptr) + ctx.Init(p, codeSet.CodeLength) + buf, err := encodeRunIndentCode(ctx, b, codeSet, prefix, indent) + + ctx.KeepRefs = append(ctx.KeepRefs, header.ptr) + + if err != nil { + return nil, err + } + + ctx.Buf = buf + return buf, nil +} + +func encodeRunCode(ctx *encoder.RuntimeContext, b []byte, codeSet *encoder.OpcodeSet) ([]byte, error) { + if (ctx.Option.Flag & encoder.DebugOption) != 0 { + if (ctx.Option.Flag & encoder.ColorizeOption) != 0 { + return vm_color.DebugRun(ctx, b, codeSet) + } + return vm.DebugRun(ctx, b, codeSet) + } + if (ctx.Option.Flag & encoder.ColorizeOption) != 0 { + return vm_color.Run(ctx, b, codeSet) + } + return vm.Run(ctx, b, codeSet) +} + +func encodeRunIndentCode(ctx *encoder.RuntimeContext, b []byte, codeSet *encoder.OpcodeSet, prefix, indent string) ([]byte, error) { + ctx.Prefix = []byte(prefix) + ctx.IndentStr = []byte(indent) + if (ctx.Option.Flag & encoder.DebugOption) != 0 { + if (ctx.Option.Flag & encoder.ColorizeOption) != 0 { + return vm_color_indent.DebugRun(ctx, b, codeSet) + } + return vm_indent.DebugRun(ctx, b, codeSet) + } + if (ctx.Option.Flag & encoder.ColorizeOption) != 0 { + return vm_color_indent.Run(ctx, b, codeSet) + } + return vm_indent.Run(ctx, b, codeSet) +} diff --git a/vendor/github.com/goccy/go-json/error.go b/vendor/github.com/goccy/go-json/error.go new file mode 100644 index 0000000..94c1339 --- /dev/null +++ b/vendor/github.com/goccy/go-json/error.go @@ -0,0 +1,39 @@ +package json + +import ( + "github.com/goccy/go-json/internal/errors" +) + +// Before Go 1.2, an InvalidUTF8Error was returned by Marshal when +// attempting to encode a string value with invalid UTF-8 sequences. +// As of Go 1.2, Marshal instead coerces the string to valid UTF-8 by +// replacing invalid bytes with the Unicode replacement rune U+FFFD. +// +// Deprecated: No longer used; kept for compatibility. +type InvalidUTF8Error = errors.InvalidUTF8Error + +// An InvalidUnmarshalError describes an invalid argument passed to Unmarshal. +// (The argument to Unmarshal must be a non-nil pointer.) +type InvalidUnmarshalError = errors.InvalidUnmarshalError + +// A MarshalerError represents an error from calling a MarshalJSON or MarshalText method. +type MarshalerError = errors.MarshalerError + +// A SyntaxError is a description of a JSON syntax error. +type SyntaxError = errors.SyntaxError + +// An UnmarshalFieldError describes a JSON object key that +// led to an unexported (and therefore unwritable) struct field. +// +// Deprecated: No longer used; kept for compatibility. +type UnmarshalFieldError = errors.UnmarshalFieldError + +// An UnmarshalTypeError describes a JSON value that was +// not appropriate for a value of a specific Go type. +type UnmarshalTypeError = errors.UnmarshalTypeError + +// An UnsupportedTypeError is returned by Marshal when attempting +// to encode an unsupported value type. +type UnsupportedTypeError = errors.UnsupportedTypeError + +type UnsupportedValueError = errors.UnsupportedValueError diff --git a/vendor/github.com/goccy/go-json/internal/decoder/anonymous_field.go b/vendor/github.com/goccy/go-json/internal/decoder/anonymous_field.go new file mode 100644 index 0000000..030cb7a --- /dev/null +++ b/vendor/github.com/goccy/go-json/internal/decoder/anonymous_field.go @@ -0,0 +1,37 @@ +package decoder + +import ( + "unsafe" + + "github.com/goccy/go-json/internal/runtime" +) + +type anonymousFieldDecoder struct { + structType *runtime.Type + offset uintptr + dec Decoder +} + +func newAnonymousFieldDecoder(structType *runtime.Type, offset uintptr, dec Decoder) *anonymousFieldDecoder { + return &anonymousFieldDecoder{ + structType: structType, + offset: offset, + dec: dec, + } +} + +func (d *anonymousFieldDecoder) DecodeStream(s *Stream, depth int64, p unsafe.Pointer) error { + if *(*unsafe.Pointer)(p) == nil { + *(*unsafe.Pointer)(p) = unsafe_New(d.structType) + } + p = *(*unsafe.Pointer)(p) + return d.dec.DecodeStream(s, depth, unsafe.Pointer(uintptr(p)+d.offset)) +} + +func (d *anonymousFieldDecoder) Decode(ctx *RuntimeContext, cursor, depth int64, p unsafe.Pointer) (int64, error) { + if *(*unsafe.Pointer)(p) == nil { + *(*unsafe.Pointer)(p) = unsafe_New(d.structType) + } + p = *(*unsafe.Pointer)(p) + return d.dec.Decode(ctx, cursor, depth, unsafe.Pointer(uintptr(p)+d.offset)) +} diff --git a/vendor/github.com/goccy/go-json/internal/decoder/array.go b/vendor/github.com/goccy/go-json/internal/decoder/array.go new file mode 100644 index 0000000..21f1fd5 --- /dev/null +++ b/vendor/github.com/goccy/go-json/internal/decoder/array.go @@ -0,0 +1,169 @@ +package decoder + +import ( + "unsafe" + + "github.com/goccy/go-json/internal/errors" + "github.com/goccy/go-json/internal/runtime" +) + +type arrayDecoder struct { + elemType *runtime.Type + size uintptr + valueDecoder Decoder + alen int + structName string + fieldName string + zeroValue unsafe.Pointer +} + +func newArrayDecoder(dec Decoder, elemType *runtime.Type, alen int, structName, fieldName string) *arrayDecoder { + zeroValue := *(*unsafe.Pointer)(unsafe_New(elemType)) + return &arrayDecoder{ + valueDecoder: dec, + elemType: elemType, + size: elemType.Size(), + alen: alen, + structName: structName, + fieldName: fieldName, + zeroValue: zeroValue, + } +} + +func (d *arrayDecoder) DecodeStream(s *Stream, depth int64, p unsafe.Pointer) error { + depth++ + if depth > maxDecodeNestingDepth { + return errors.ErrExceededMaxDepth(s.char(), s.cursor) + } + + for { + switch s.char() { + case ' ', '\n', '\t', '\r': + case 'n': + if err := nullBytes(s); err != nil { + return err + } + return nil + case '[': + idx := 0 + s.cursor++ + if s.skipWhiteSpace() == ']' { + for idx < d.alen { + *(*unsafe.Pointer)(unsafe.Pointer(uintptr(p) + uintptr(idx)*d.size)) = d.zeroValue + idx++ + } + s.cursor++ + return nil + } + for { + if idx < d.alen { + if err := d.valueDecoder.DecodeStream(s, depth, unsafe.Pointer(uintptr(p)+uintptr(idx)*d.size)); err != nil { + return err + } + } else { + if err := s.skipValue(depth); err != nil { + return err + } + } + idx++ + switch s.skipWhiteSpace() { + case ']': + for idx < d.alen { + *(*unsafe.Pointer)(unsafe.Pointer(uintptr(p) + uintptr(idx)*d.size)) = d.zeroValue + idx++ + } + s.cursor++ + return nil + case ',': + s.cursor++ + continue + case nul: + if s.read() { + s.cursor++ + continue + } + goto ERROR + default: + goto ERROR + } + } + case nul: + if s.read() { + continue + } + goto ERROR + default: + goto ERROR + } + s.cursor++ + } +ERROR: + return errors.ErrUnexpectedEndOfJSON("array", s.totalOffset()) +} + +func (d *arrayDecoder) Decode(ctx *RuntimeContext, cursor, depth int64, p unsafe.Pointer) (int64, error) { + buf := ctx.Buf + depth++ + if depth > maxDecodeNestingDepth { + return 0, errors.ErrExceededMaxDepth(buf[cursor], cursor) + } + + for { + switch buf[cursor] { + case ' ', '\n', '\t', '\r': + cursor++ + continue + case 'n': + if err := validateNull(buf, cursor); err != nil { + return 0, err + } + cursor += 4 + return cursor, nil + case '[': + idx := 0 + cursor++ + cursor = skipWhiteSpace(buf, cursor) + if buf[cursor] == ']' { + for idx < d.alen { + *(*unsafe.Pointer)(unsafe.Pointer(uintptr(p) + uintptr(idx)*d.size)) = d.zeroValue + idx++ + } + cursor++ + return cursor, nil + } + for { + if idx < d.alen { + c, err := d.valueDecoder.Decode(ctx, cursor, depth, unsafe.Pointer(uintptr(p)+uintptr(idx)*d.size)) + if err != nil { + return 0, err + } + cursor = c + } else { + c, err := skipValue(buf, cursor, depth) + if err != nil { + return 0, err + } + cursor = c + } + idx++ + cursor = skipWhiteSpace(buf, cursor) + switch buf[cursor] { + case ']': + for idx < d.alen { + *(*unsafe.Pointer)(unsafe.Pointer(uintptr(p) + uintptr(idx)*d.size)) = d.zeroValue + idx++ + } + cursor++ + return cursor, nil + case ',': + cursor++ + continue + default: + return 0, errors.ErrInvalidCharacter(buf[cursor], "array", cursor) + } + } + default: + return 0, errors.ErrUnexpectedEndOfJSON("array", cursor) + } + } +} diff --git a/vendor/github.com/goccy/go-json/internal/decoder/bool.go b/vendor/github.com/goccy/go-json/internal/decoder/bool.go new file mode 100644 index 0000000..455042a --- /dev/null +++ b/vendor/github.com/goccy/go-json/internal/decoder/bool.go @@ -0,0 +1,78 @@ +package decoder + +import ( + "unsafe" + + "github.com/goccy/go-json/internal/errors" +) + +type boolDecoder struct { + structName string + fieldName string +} + +func newBoolDecoder(structName, fieldName string) *boolDecoder { + return &boolDecoder{structName: structName, fieldName: fieldName} +} + +func (d *boolDecoder) DecodeStream(s *Stream, depth int64, p unsafe.Pointer) error { + c := s.skipWhiteSpace() + for { + switch c { + case 't': + if err := trueBytes(s); err != nil { + return err + } + **(**bool)(unsafe.Pointer(&p)) = true + return nil + case 'f': + if err := falseBytes(s); err != nil { + return err + } + **(**bool)(unsafe.Pointer(&p)) = false + return nil + case 'n': + if err := nullBytes(s); err != nil { + return err + } + return nil + case nul: + if s.read() { + c = s.char() + continue + } + goto ERROR + } + break + } +ERROR: + return errors.ErrUnexpectedEndOfJSON("bool", s.totalOffset()) +} + +func (d *boolDecoder) Decode(ctx *RuntimeContext, cursor, depth int64, p unsafe.Pointer) (int64, error) { + buf := ctx.Buf + cursor = skipWhiteSpace(buf, cursor) + switch buf[cursor] { + case 't': + if err := validateTrue(buf, cursor); err != nil { + return 0, err + } + cursor += 4 + **(**bool)(unsafe.Pointer(&p)) = true + return cursor, nil + case 'f': + if err := validateFalse(buf, cursor); err != nil { + return 0, err + } + cursor += 5 + **(**bool)(unsafe.Pointer(&p)) = false + return cursor, nil + case 'n': + if err := validateNull(buf, cursor); err != nil { + return 0, err + } + cursor += 4 + return cursor, nil + } + return 0, errors.ErrUnexpectedEndOfJSON("bool", cursor) +} diff --git a/vendor/github.com/goccy/go-json/internal/decoder/bytes.go b/vendor/github.com/goccy/go-json/internal/decoder/bytes.go new file mode 100644 index 0000000..01a37fe --- /dev/null +++ b/vendor/github.com/goccy/go-json/internal/decoder/bytes.go @@ -0,0 +1,114 @@ +package decoder + +import ( + "encoding/base64" + "unsafe" + + "github.com/goccy/go-json/internal/errors" + "github.com/goccy/go-json/internal/runtime" +) + +type bytesDecoder struct { + typ *runtime.Type + sliceDecoder Decoder + stringDecoder *stringDecoder + structName string + fieldName string +} + +func byteUnmarshalerSliceDecoder(typ *runtime.Type, structName string, fieldName string) Decoder { + var unmarshalDecoder Decoder + switch { + case runtime.PtrTo(typ).Implements(unmarshalJSONType): + unmarshalDecoder = newUnmarshalJSONDecoder(runtime.PtrTo(typ), structName, fieldName) + case runtime.PtrTo(typ).Implements(unmarshalTextType): + unmarshalDecoder = newUnmarshalTextDecoder(runtime.PtrTo(typ), structName, fieldName) + } + if unmarshalDecoder == nil { + return nil + } + return newSliceDecoder(unmarshalDecoder, typ, 1, structName, fieldName) +} + +func newBytesDecoder(typ *runtime.Type, structName string, fieldName string) *bytesDecoder { + return &bytesDecoder{ + typ: typ, + sliceDecoder: byteUnmarshalerSliceDecoder(typ, structName, fieldName), + stringDecoder: newStringDecoder(structName, fieldName), + structName: structName, + fieldName: fieldName, + } +} + +func (d *bytesDecoder) DecodeStream(s *Stream, depth int64, p unsafe.Pointer) error { + bytes, err := d.decodeStreamBinary(s, depth, p) + if err != nil { + return err + } + if bytes == nil { + s.reset() + return nil + } + decodedLen := base64.StdEncoding.DecodedLen(len(bytes)) + buf := make([]byte, decodedLen) + n, err := base64.StdEncoding.Decode(buf, bytes) + if err != nil { + return err + } + *(*[]byte)(p) = buf[:n] + s.reset() + return nil +} + +func (d *bytesDecoder) Decode(ctx *RuntimeContext, cursor, depth int64, p unsafe.Pointer) (int64, error) { + bytes, c, err := d.decodeBinary(ctx, cursor, depth, p) + if err != nil { + return 0, err + } + if bytes == nil { + return c, nil + } + cursor = c + decodedLen := base64.StdEncoding.DecodedLen(len(bytes)) + b := make([]byte, decodedLen) + n, err := base64.StdEncoding.Decode(b, bytes) + if err != nil { + return 0, err + } + *(*[]byte)(p) = b[:n] + return cursor, nil +} + +func (d *bytesDecoder) decodeStreamBinary(s *Stream, depth int64, p unsafe.Pointer) ([]byte, error) { + c := s.skipWhiteSpace() + if c == '[' { + if d.sliceDecoder == nil { + return nil, &errors.UnmarshalTypeError{ + Type: runtime.RType2Type(d.typ), + Offset: s.totalOffset(), + } + } + err := d.sliceDecoder.DecodeStream(s, depth, p) + return nil, err + } + return d.stringDecoder.decodeStreamByte(s) +} + +func (d *bytesDecoder) decodeBinary(ctx *RuntimeContext, cursor, depth int64, p unsafe.Pointer) ([]byte, int64, error) { + buf := ctx.Buf + cursor = skipWhiteSpace(buf, cursor) + if buf[cursor] == '[' { + if d.sliceDecoder == nil { + return nil, 0, &errors.UnmarshalTypeError{ + Type: runtime.RType2Type(d.typ), + Offset: cursor, + } + } + c, err := d.sliceDecoder.Decode(ctx, cursor, depth, p) + if err != nil { + return nil, 0, err + } + return nil, c, nil + } + return d.stringDecoder.decodeByte(buf, cursor) +} diff --git a/vendor/github.com/goccy/go-json/internal/decoder/compile.go b/vendor/github.com/goccy/go-json/internal/decoder/compile.go new file mode 100644 index 0000000..08dd044 --- /dev/null +++ b/vendor/github.com/goccy/go-json/internal/decoder/compile.go @@ -0,0 +1,510 @@ +package decoder + +import ( + "encoding/json" + "fmt" + "reflect" + "strings" + "sync/atomic" + "unicode" + "unsafe" + + "github.com/goccy/go-json/internal/errors" + "github.com/goccy/go-json/internal/runtime" +) + +var ( + jsonNumberType = reflect.TypeOf(json.Number("")) + typeAddr *runtime.TypeAddr + cachedDecoderMap unsafe.Pointer // map[uintptr]decoder + cachedDecoder []Decoder +) + +func init() { + typeAddr = runtime.AnalyzeTypeAddr() + if typeAddr == nil { + typeAddr = &runtime.TypeAddr{} + } + cachedDecoder = make([]Decoder, typeAddr.AddrRange>>typeAddr.AddrShift) +} + +func loadDecoderMap() map[uintptr]Decoder { + p := atomic.LoadPointer(&cachedDecoderMap) + return *(*map[uintptr]Decoder)(unsafe.Pointer(&p)) +} + +func storeDecoder(typ uintptr, dec Decoder, m map[uintptr]Decoder) { + newDecoderMap := make(map[uintptr]Decoder, len(m)+1) + newDecoderMap[typ] = dec + + for k, v := range m { + newDecoderMap[k] = v + } + + atomic.StorePointer(&cachedDecoderMap, *(*unsafe.Pointer)(unsafe.Pointer(&newDecoderMap))) +} + +func compileToGetDecoderSlowPath(typeptr uintptr, typ *runtime.Type) (Decoder, error) { + decoderMap := loadDecoderMap() + if dec, exists := decoderMap[typeptr]; exists { + return dec, nil + } + + dec, err := compileHead(typ, map[uintptr]Decoder{}) + if err != nil { + return nil, err + } + storeDecoder(typeptr, dec, decoderMap) + return dec, nil +} + +func compileHead(typ *runtime.Type, structTypeToDecoder map[uintptr]Decoder) (Decoder, error) { + switch { + case implementsUnmarshalJSONType(runtime.PtrTo(typ)): + return newUnmarshalJSONDecoder(runtime.PtrTo(typ), "", ""), nil + case runtime.PtrTo(typ).Implements(unmarshalTextType): + return newUnmarshalTextDecoder(runtime.PtrTo(typ), "", ""), nil + } + return compile(typ.Elem(), "", "", structTypeToDecoder) +} + +func compile(typ *runtime.Type, structName, fieldName string, structTypeToDecoder map[uintptr]Decoder) (Decoder, error) { + switch { + case implementsUnmarshalJSONType(runtime.PtrTo(typ)): + return newUnmarshalJSONDecoder(runtime.PtrTo(typ), structName, fieldName), nil + case runtime.PtrTo(typ).Implements(unmarshalTextType): + return newUnmarshalTextDecoder(runtime.PtrTo(typ), structName, fieldName), nil + } + + switch typ.Kind() { + case reflect.Ptr: + return compilePtr(typ, structName, fieldName, structTypeToDecoder) + case reflect.Struct: + return compileStruct(typ, structName, fieldName, structTypeToDecoder) + case reflect.Slice: + elem := typ.Elem() + if elem.Kind() == reflect.Uint8 { + return compileBytes(elem, structName, fieldName) + } + return compileSlice(typ, structName, fieldName, structTypeToDecoder) + case reflect.Array: + return compileArray(typ, structName, fieldName, structTypeToDecoder) + case reflect.Map: + return compileMap(typ, structName, fieldName, structTypeToDecoder) + case reflect.Interface: + return compileInterface(typ, structName, fieldName) + case reflect.Uintptr: + return compileUint(typ, structName, fieldName) + case reflect.Int: + return compileInt(typ, structName, fieldName) + case reflect.Int8: + return compileInt8(typ, structName, fieldName) + case reflect.Int16: + return compileInt16(typ, structName, fieldName) + case reflect.Int32: + return compileInt32(typ, structName, fieldName) + case reflect.Int64: + return compileInt64(typ, structName, fieldName) + case reflect.Uint: + return compileUint(typ, structName, fieldName) + case reflect.Uint8: + return compileUint8(typ, structName, fieldName) + case reflect.Uint16: + return compileUint16(typ, structName, fieldName) + case reflect.Uint32: + return compileUint32(typ, structName, fieldName) + case reflect.Uint64: + return compileUint64(typ, structName, fieldName) + case reflect.String: + return compileString(typ, structName, fieldName) + case reflect.Bool: + return compileBool(structName, fieldName) + case reflect.Float32: + return compileFloat32(structName, fieldName) + case reflect.Float64: + return compileFloat64(structName, fieldName) + case reflect.Func: + return compileFunc(typ, structName, fieldName) + } + return nil, &errors.UnmarshalTypeError{ + Value: "object", + Type: runtime.RType2Type(typ), + Offset: 0, + Struct: structName, + Field: fieldName, + } +} + +func isStringTagSupportedType(typ *runtime.Type) bool { + switch { + case implementsUnmarshalJSONType(runtime.PtrTo(typ)): + return false + case runtime.PtrTo(typ).Implements(unmarshalTextType): + return false + } + switch typ.Kind() { + case reflect.Map: + return false + case reflect.Slice: + return false + case reflect.Array: + return false + case reflect.Struct: + return false + case reflect.Interface: + return false + } + return true +} + +func compileMapKey(typ *runtime.Type, structName, fieldName string, structTypeToDecoder map[uintptr]Decoder) (Decoder, error) { + if runtime.PtrTo(typ).Implements(unmarshalTextType) { + return newUnmarshalTextDecoder(runtime.PtrTo(typ), structName, fieldName), nil + } + dec, err := compile(typ, structName, fieldName, structTypeToDecoder) + if err != nil { + return nil, err + } + for { + switch t := dec.(type) { + case *stringDecoder, *interfaceDecoder: + return dec, nil + case *boolDecoder, *intDecoder, *uintDecoder, *numberDecoder: + return newWrappedStringDecoder(typ, dec, structName, fieldName), nil + case *ptrDecoder: + dec = t.dec + default: + goto ERROR + } + } +ERROR: + return nil, &errors.UnmarshalTypeError{ + Value: "object", + Type: runtime.RType2Type(typ), + Offset: 0, + Struct: structName, + Field: fieldName, + } +} + +func compilePtr(typ *runtime.Type, structName, fieldName string, structTypeToDecoder map[uintptr]Decoder) (Decoder, error) { + dec, err := compile(typ.Elem(), structName, fieldName, structTypeToDecoder) + if err != nil { + return nil, err + } + return newPtrDecoder(dec, typ.Elem(), structName, fieldName), nil +} + +func compileInt(typ *runtime.Type, structName, fieldName string) (Decoder, error) { + return newIntDecoder(typ, structName, fieldName, func(p unsafe.Pointer, v int64) { + *(*int)(p) = int(v) + }), nil +} + +func compileInt8(typ *runtime.Type, structName, fieldName string) (Decoder, error) { + return newIntDecoder(typ, structName, fieldName, func(p unsafe.Pointer, v int64) { + *(*int8)(p) = int8(v) + }), nil +} + +func compileInt16(typ *runtime.Type, structName, fieldName string) (Decoder, error) { + return newIntDecoder(typ, structName, fieldName, func(p unsafe.Pointer, v int64) { + *(*int16)(p) = int16(v) + }), nil +} + +func compileInt32(typ *runtime.Type, structName, fieldName string) (Decoder, error) { + return newIntDecoder(typ, structName, fieldName, func(p unsafe.Pointer, v int64) { + *(*int32)(p) = int32(v) + }), nil +} + +func compileInt64(typ *runtime.Type, structName, fieldName string) (Decoder, error) { + return newIntDecoder(typ, structName, fieldName, func(p unsafe.Pointer, v int64) { + *(*int64)(p) = v + }), nil +} + +func compileUint(typ *runtime.Type, structName, fieldName string) (Decoder, error) { + return newUintDecoder(typ, structName, fieldName, func(p unsafe.Pointer, v uint64) { + *(*uint)(p) = uint(v) + }), nil +} + +func compileUint8(typ *runtime.Type, structName, fieldName string) (Decoder, error) { + return newUintDecoder(typ, structName, fieldName, func(p unsafe.Pointer, v uint64) { + *(*uint8)(p) = uint8(v) + }), nil +} + +func compileUint16(typ *runtime.Type, structName, fieldName string) (Decoder, error) { + return newUintDecoder(typ, structName, fieldName, func(p unsafe.Pointer, v uint64) { + *(*uint16)(p) = uint16(v) + }), nil +} + +func compileUint32(typ *runtime.Type, structName, fieldName string) (Decoder, error) { + return newUintDecoder(typ, structName, fieldName, func(p unsafe.Pointer, v uint64) { + *(*uint32)(p) = uint32(v) + }), nil +} + +func compileUint64(typ *runtime.Type, structName, fieldName string) (Decoder, error) { + return newUintDecoder(typ, structName, fieldName, func(p unsafe.Pointer, v uint64) { + *(*uint64)(p) = v + }), nil +} + +func compileFloat32(structName, fieldName string) (Decoder, error) { + return newFloatDecoder(structName, fieldName, func(p unsafe.Pointer, v float64) { + *(*float32)(p) = float32(v) + }), nil +} + +func compileFloat64(structName, fieldName string) (Decoder, error) { + return newFloatDecoder(structName, fieldName, func(p unsafe.Pointer, v float64) { + *(*float64)(p) = v + }), nil +} + +func compileString(typ *runtime.Type, structName, fieldName string) (Decoder, error) { + if typ == runtime.Type2RType(jsonNumberType) { + return newNumberDecoder(structName, fieldName, func(p unsafe.Pointer, v json.Number) { + *(*json.Number)(p) = v + }), nil + } + return newStringDecoder(structName, fieldName), nil +} + +func compileBool(structName, fieldName string) (Decoder, error) { + return newBoolDecoder(structName, fieldName), nil +} + +func compileBytes(typ *runtime.Type, structName, fieldName string) (Decoder, error) { + return newBytesDecoder(typ, structName, fieldName), nil +} + +func compileSlice(typ *runtime.Type, structName, fieldName string, structTypeToDecoder map[uintptr]Decoder) (Decoder, error) { + elem := typ.Elem() + decoder, err := compile(elem, structName, fieldName, structTypeToDecoder) + if err != nil { + return nil, err + } + return newSliceDecoder(decoder, elem, elem.Size(), structName, fieldName), nil +} + +func compileArray(typ *runtime.Type, structName, fieldName string, structTypeToDecoder map[uintptr]Decoder) (Decoder, error) { + elem := typ.Elem() + decoder, err := compile(elem, structName, fieldName, structTypeToDecoder) + if err != nil { + return nil, err + } + return newArrayDecoder(decoder, elem, typ.Len(), structName, fieldName), nil +} + +func compileMap(typ *runtime.Type, structName, fieldName string, structTypeToDecoder map[uintptr]Decoder) (Decoder, error) { + keyDec, err := compileMapKey(typ.Key(), structName, fieldName, structTypeToDecoder) + if err != nil { + return nil, err + } + valueDec, err := compile(typ.Elem(), structName, fieldName, structTypeToDecoder) + if err != nil { + return nil, err + } + return newMapDecoder(typ, typ.Key(), keyDec, typ.Elem(), valueDec, structName, fieldName), nil +} + +func compileInterface(typ *runtime.Type, structName, fieldName string) (Decoder, error) { + return newInterfaceDecoder(typ, structName, fieldName), nil +} + +func compileFunc(typ *runtime.Type, strutName, fieldName string) (Decoder, error) { + return newFuncDecoder(typ, strutName, fieldName), nil +} + +func removeConflictFields(fieldMap map[string]*structFieldSet, conflictedMap map[string]struct{}, dec *structDecoder, field reflect.StructField) { + for k, v := range dec.fieldMap { + if _, exists := conflictedMap[k]; exists { + // already conflicted key + continue + } + set, exists := fieldMap[k] + if !exists { + fieldSet := &structFieldSet{ + dec: v.dec, + offset: field.Offset + v.offset, + isTaggedKey: v.isTaggedKey, + key: k, + keyLen: int64(len(k)), + } + fieldMap[k] = fieldSet + lower := strings.ToLower(k) + if _, exists := fieldMap[lower]; !exists { + fieldMap[lower] = fieldSet + } + continue + } + if set.isTaggedKey { + if v.isTaggedKey { + // conflict tag key + delete(fieldMap, k) + delete(fieldMap, strings.ToLower(k)) + conflictedMap[k] = struct{}{} + conflictedMap[strings.ToLower(k)] = struct{}{} + } + } else { + if v.isTaggedKey { + fieldSet := &structFieldSet{ + dec: v.dec, + offset: field.Offset + v.offset, + isTaggedKey: v.isTaggedKey, + key: k, + keyLen: int64(len(k)), + } + fieldMap[k] = fieldSet + lower := strings.ToLower(k) + if _, exists := fieldMap[lower]; !exists { + fieldMap[lower] = fieldSet + } + } else { + // conflict tag key + delete(fieldMap, k) + delete(fieldMap, strings.ToLower(k)) + conflictedMap[k] = struct{}{} + conflictedMap[strings.ToLower(k)] = struct{}{} + } + } + } +} + +func compileStruct(typ *runtime.Type, structName, fieldName string, structTypeToDecoder map[uintptr]Decoder) (Decoder, error) { + fieldNum := typ.NumField() + conflictedMap := map[string]struct{}{} + fieldMap := map[string]*structFieldSet{} + typeptr := uintptr(unsafe.Pointer(typ)) + if dec, exists := structTypeToDecoder[typeptr]; exists { + return dec, nil + } + structDec := newStructDecoder(structName, fieldName, fieldMap) + structTypeToDecoder[typeptr] = structDec + structName = typ.Name() + for i := 0; i < fieldNum; i++ { + field := typ.Field(i) + if runtime.IsIgnoredStructField(field) { + continue + } + isUnexportedField := unicode.IsLower([]rune(field.Name)[0]) + tag := runtime.StructTagFromField(field) + dec, err := compile(runtime.Type2RType(field.Type), structName, field.Name, structTypeToDecoder) + if err != nil { + return nil, err + } + if field.Anonymous && !tag.IsTaggedKey { + if stDec, ok := dec.(*structDecoder); ok { + if runtime.Type2RType(field.Type) == typ { + // recursive definition + continue + } + removeConflictFields(fieldMap, conflictedMap, stDec, field) + } else if pdec, ok := dec.(*ptrDecoder); ok { + contentDec := pdec.contentDecoder() + if pdec.typ == typ { + // recursive definition + continue + } + var fieldSetErr error + if isUnexportedField { + fieldSetErr = fmt.Errorf( + "json: cannot set embedded pointer to unexported struct: %v", + field.Type.Elem(), + ) + } + if dec, ok := contentDec.(*structDecoder); ok { + for k, v := range dec.fieldMap { + if _, exists := conflictedMap[k]; exists { + // already conflicted key + continue + } + set, exists := fieldMap[k] + if !exists { + fieldSet := &structFieldSet{ + dec: newAnonymousFieldDecoder(pdec.typ, v.offset, v.dec), + offset: field.Offset, + isTaggedKey: v.isTaggedKey, + key: k, + keyLen: int64(len(k)), + err: fieldSetErr, + } + fieldMap[k] = fieldSet + lower := strings.ToLower(k) + if _, exists := fieldMap[lower]; !exists { + fieldMap[lower] = fieldSet + } + continue + } + if set.isTaggedKey { + if v.isTaggedKey { + // conflict tag key + delete(fieldMap, k) + delete(fieldMap, strings.ToLower(k)) + conflictedMap[k] = struct{}{} + conflictedMap[strings.ToLower(k)] = struct{}{} + } + } else { + if v.isTaggedKey { + fieldSet := &structFieldSet{ + dec: newAnonymousFieldDecoder(pdec.typ, v.offset, v.dec), + offset: field.Offset, + isTaggedKey: v.isTaggedKey, + key: k, + keyLen: int64(len(k)), + err: fieldSetErr, + } + fieldMap[k] = fieldSet + lower := strings.ToLower(k) + if _, exists := fieldMap[lower]; !exists { + fieldMap[lower] = fieldSet + } + } else { + // conflict tag key + delete(fieldMap, k) + delete(fieldMap, strings.ToLower(k)) + conflictedMap[k] = struct{}{} + conflictedMap[strings.ToLower(k)] = struct{}{} + } + } + } + } + } + } else { + if tag.IsString && isStringTagSupportedType(runtime.Type2RType(field.Type)) { + dec = newWrappedStringDecoder(runtime.Type2RType(field.Type), dec, structName, field.Name) + } + var key string + if tag.Key != "" { + key = tag.Key + } else { + key = field.Name + } + fieldSet := &structFieldSet{ + dec: dec, + offset: field.Offset, + isTaggedKey: tag.IsTaggedKey, + key: key, + keyLen: int64(len(key)), + } + fieldMap[key] = fieldSet + lower := strings.ToLower(key) + if _, exists := fieldMap[lower]; !exists { + fieldMap[lower] = fieldSet + } + } + } + delete(structTypeToDecoder, typeptr) + structDec.tryOptimize() + return structDec, nil +} + +func implementsUnmarshalJSONType(typ *runtime.Type) bool { + return typ.Implements(unmarshalJSONType) || typ.Implements(unmarshalJSONContextType) +} diff --git a/vendor/github.com/goccy/go-json/internal/decoder/compile_norace.go b/vendor/github.com/goccy/go-json/internal/decoder/compile_norace.go new file mode 100644 index 0000000..592f637 --- /dev/null +++ b/vendor/github.com/goccy/go-json/internal/decoder/compile_norace.go @@ -0,0 +1,28 @@ +// +build !race + +package decoder + +import ( + "unsafe" + + "github.com/goccy/go-json/internal/runtime" +) + +func CompileToGetDecoder(typ *runtime.Type) (Decoder, error) { + typeptr := uintptr(unsafe.Pointer(typ)) + if typeptr > typeAddr.MaxTypeAddr { + return compileToGetDecoderSlowPath(typeptr, typ) + } + + index := (typeptr - typeAddr.BaseTypeAddr) >> typeAddr.AddrShift + if dec := cachedDecoder[index]; dec != nil { + return dec, nil + } + + dec, err := compileHead(typ, map[uintptr]Decoder{}) + if err != nil { + return nil, err + } + cachedDecoder[index] = dec + return dec, nil +} diff --git a/vendor/github.com/goccy/go-json/internal/decoder/compile_race.go b/vendor/github.com/goccy/go-json/internal/decoder/compile_race.go new file mode 100644 index 0000000..b691bc9 --- /dev/null +++ b/vendor/github.com/goccy/go-json/internal/decoder/compile_race.go @@ -0,0 +1,36 @@ +// +build race + +package decoder + +import ( + "sync" + "unsafe" + + "github.com/goccy/go-json/internal/runtime" +) + +var decMu sync.RWMutex + +func CompileToGetDecoder(typ *runtime.Type) (Decoder, error) { + typeptr := uintptr(unsafe.Pointer(typ)) + if typeptr > typeAddr.MaxTypeAddr { + return compileToGetDecoderSlowPath(typeptr, typ) + } + + index := (typeptr - typeAddr.BaseTypeAddr) >> typeAddr.AddrShift + decMu.RLock() + if dec := cachedDecoder[index]; dec != nil { + decMu.RUnlock() + return dec, nil + } + decMu.RUnlock() + + dec, err := compileHead(typ, map[uintptr]Decoder{}) + if err != nil { + return nil, err + } + decMu.Lock() + cachedDecoder[index] = dec + decMu.Unlock() + return dec, nil +} diff --git a/vendor/github.com/goccy/go-json/internal/decoder/context.go b/vendor/github.com/goccy/go-json/internal/decoder/context.go new file mode 100644 index 0000000..cb2ffda --- /dev/null +++ b/vendor/github.com/goccy/go-json/internal/decoder/context.go @@ -0,0 +1,254 @@ +package decoder + +import ( + "sync" + "unsafe" + + "github.com/goccy/go-json/internal/errors" +) + +type RuntimeContext struct { + Buf []byte + Option *Option +} + +var ( + runtimeContextPool = sync.Pool{ + New: func() interface{} { + return &RuntimeContext{ + Option: &Option{}, + } + }, + } +) + +func TakeRuntimeContext() *RuntimeContext { + return runtimeContextPool.Get().(*RuntimeContext) +} + +func ReleaseRuntimeContext(ctx *RuntimeContext) { + runtimeContextPool.Put(ctx) +} + +var ( + isWhiteSpace = [256]bool{} +) + +func init() { + isWhiteSpace[' '] = true + isWhiteSpace['\n'] = true + isWhiteSpace['\t'] = true + isWhiteSpace['\r'] = true +} + +func char(ptr unsafe.Pointer, offset int64) byte { + return *(*byte)(unsafe.Pointer(uintptr(ptr) + uintptr(offset))) +} + +func skipWhiteSpace(buf []byte, cursor int64) int64 { + for isWhiteSpace[buf[cursor]] { + cursor++ + } + return cursor +} + +func skipObject(buf []byte, cursor, depth int64) (int64, error) { + braceCount := 1 + for { + switch buf[cursor] { + case '{': + braceCount++ + depth++ + if depth > maxDecodeNestingDepth { + return 0, errors.ErrExceededMaxDepth(buf[cursor], cursor) + } + case '}': + depth-- + braceCount-- + if braceCount == 0 { + return cursor + 1, nil + } + case '[': + depth++ + if depth > maxDecodeNestingDepth { + return 0, errors.ErrExceededMaxDepth(buf[cursor], cursor) + } + case ']': + depth-- + case '"': + for { + cursor++ + switch buf[cursor] { + case '\\': + cursor++ + if buf[cursor] == nul { + return 0, errors.ErrUnexpectedEndOfJSON("string of object", cursor) + } + case '"': + goto SWITCH_OUT + case nul: + return 0, errors.ErrUnexpectedEndOfJSON("string of object", cursor) + } + } + case nul: + return 0, errors.ErrUnexpectedEndOfJSON("object of object", cursor) + } + SWITCH_OUT: + cursor++ + } +} + +func skipArray(buf []byte, cursor, depth int64) (int64, error) { + bracketCount := 1 + for { + switch buf[cursor] { + case '[': + bracketCount++ + depth++ + if depth > maxDecodeNestingDepth { + return 0, errors.ErrExceededMaxDepth(buf[cursor], cursor) + } + case ']': + bracketCount-- + depth-- + if bracketCount == 0 { + return cursor + 1, nil + } + case '{': + depth++ + if depth > maxDecodeNestingDepth { + return 0, errors.ErrExceededMaxDepth(buf[cursor], cursor) + } + case '}': + depth-- + case '"': + for { + cursor++ + switch buf[cursor] { + case '\\': + cursor++ + if buf[cursor] == nul { + return 0, errors.ErrUnexpectedEndOfJSON("string of object", cursor) + } + case '"': + goto SWITCH_OUT + case nul: + return 0, errors.ErrUnexpectedEndOfJSON("string of object", cursor) + } + } + case nul: + return 0, errors.ErrUnexpectedEndOfJSON("array of object", cursor) + } + SWITCH_OUT: + cursor++ + } +} + +func skipValue(buf []byte, cursor, depth int64) (int64, error) { + for { + switch buf[cursor] { + case ' ', '\t', '\n', '\r': + cursor++ + continue + case '{': + return skipObject(buf, cursor+1, depth+1) + case '[': + return skipArray(buf, cursor+1, depth+1) + case '"': + for { + cursor++ + switch buf[cursor] { + case '\\': + cursor++ + if buf[cursor] == nul { + return 0, errors.ErrUnexpectedEndOfJSON("string of object", cursor) + } + case '"': + return cursor + 1, nil + case nul: + return 0, errors.ErrUnexpectedEndOfJSON("string of object", cursor) + } + } + case '-', '0', '1', '2', '3', '4', '5', '6', '7', '8', '9': + for { + cursor++ + if floatTable[buf[cursor]] { + continue + } + break + } + return cursor, nil + case 't': + if err := validateTrue(buf, cursor); err != nil { + return 0, err + } + cursor += 4 + return cursor, nil + case 'f': + if err := validateFalse(buf, cursor); err != nil { + return 0, err + } + cursor += 5 + return cursor, nil + case 'n': + if err := validateNull(buf, cursor); err != nil { + return 0, err + } + cursor += 4 + return cursor, nil + default: + return cursor, errors.ErrUnexpectedEndOfJSON("null", cursor) + } + } +} + +func validateTrue(buf []byte, cursor int64) error { + if cursor+3 >= int64(len(buf)) { + return errors.ErrUnexpectedEndOfJSON("true", cursor) + } + if buf[cursor+1] != 'r' { + return errors.ErrInvalidCharacter(buf[cursor+1], "true", cursor) + } + if buf[cursor+2] != 'u' { + return errors.ErrInvalidCharacter(buf[cursor+2], "true", cursor) + } + if buf[cursor+3] != 'e' { + return errors.ErrInvalidCharacter(buf[cursor+3], "true", cursor) + } + return nil +} + +func validateFalse(buf []byte, cursor int64) error { + if cursor+4 >= int64(len(buf)) { + return errors.ErrUnexpectedEndOfJSON("false", cursor) + } + if buf[cursor+1] != 'a' { + return errors.ErrInvalidCharacter(buf[cursor+1], "false", cursor) + } + if buf[cursor+2] != 'l' { + return errors.ErrInvalidCharacter(buf[cursor+2], "false", cursor) + } + if buf[cursor+3] != 's' { + return errors.ErrInvalidCharacter(buf[cursor+3], "false", cursor) + } + if buf[cursor+4] != 'e' { + return errors.ErrInvalidCharacter(buf[cursor+4], "false", cursor) + } + return nil +} + +func validateNull(buf []byte, cursor int64) error { + if cursor+3 >= int64(len(buf)) { + return errors.ErrUnexpectedEndOfJSON("null", cursor) + } + if buf[cursor+1] != 'u' { + return errors.ErrInvalidCharacter(buf[cursor+1], "null", cursor) + } + if buf[cursor+2] != 'l' { + return errors.ErrInvalidCharacter(buf[cursor+2], "null", cursor) + } + if buf[cursor+3] != 'l' { + return errors.ErrInvalidCharacter(buf[cursor+3], "null", cursor) + } + return nil +} diff --git a/vendor/github.com/goccy/go-json/internal/decoder/float.go b/vendor/github.com/goccy/go-json/internal/decoder/float.go new file mode 100644 index 0000000..dfb7168 --- /dev/null +++ b/vendor/github.com/goccy/go-json/internal/decoder/float.go @@ -0,0 +1,158 @@ +package decoder + +import ( + "strconv" + "unsafe" + + "github.com/goccy/go-json/internal/errors" +) + +type floatDecoder struct { + op func(unsafe.Pointer, float64) + structName string + fieldName string +} + +func newFloatDecoder(structName, fieldName string, op func(unsafe.Pointer, float64)) *floatDecoder { + return &floatDecoder{op: op, structName: structName, fieldName: fieldName} +} + +var ( + floatTable = [256]bool{ + '0': true, + '1': true, + '2': true, + '3': true, + '4': true, + '5': true, + '6': true, + '7': true, + '8': true, + '9': true, + '.': true, + 'e': true, + 'E': true, + '+': true, + '-': true, + } + + validEndNumberChar = [256]bool{ + nul: true, + ' ': true, + '\t': true, + '\r': true, + '\n': true, + ',': true, + ':': true, + '}': true, + ']': true, + } +) + +func floatBytes(s *Stream) []byte { + start := s.cursor + for { + s.cursor++ + if floatTable[s.char()] { + continue + } else if s.char() == nul { + if s.read() { + s.cursor-- // for retry current character + continue + } + } + break + } + return s.buf[start:s.cursor] +} + +func (d *floatDecoder) decodeStreamByte(s *Stream) ([]byte, error) { + for { + switch s.char() { + case ' ', '\n', '\t', '\r': + s.cursor++ + continue + case '-', '0', '1', '2', '3', '4', '5', '6', '7', '8', '9': + return floatBytes(s), nil + case 'n': + if err := nullBytes(s); err != nil { + return nil, err + } + return nil, nil + case nul: + if s.read() { + continue + } + goto ERROR + default: + goto ERROR + } + } +ERROR: + return nil, errors.ErrUnexpectedEndOfJSON("float", s.totalOffset()) +} + +func (d *floatDecoder) decodeByte(buf []byte, cursor int64) ([]byte, int64, error) { + for { + switch buf[cursor] { + case ' ', '\n', '\t', '\r': + cursor++ + continue + case '-', '0', '1', '2', '3', '4', '5', '6', '7', '8', '9': + start := cursor + cursor++ + for floatTable[buf[cursor]] { + cursor++ + } + num := buf[start:cursor] + return num, cursor, nil + case 'n': + if err := validateNull(buf, cursor); err != nil { + return nil, 0, err + } + cursor += 4 + return nil, cursor, nil + default: + return nil, 0, errors.ErrUnexpectedEndOfJSON("float", cursor) + } + } +} + +func (d *floatDecoder) DecodeStream(s *Stream, depth int64, p unsafe.Pointer) error { + bytes, err := d.decodeStreamByte(s) + if err != nil { + return err + } + if bytes == nil { + return nil + } + str := *(*string)(unsafe.Pointer(&bytes)) + f64, err := strconv.ParseFloat(str, 64) + if err != nil { + return errors.ErrSyntax(err.Error(), s.totalOffset()) + } + d.op(p, f64) + return nil +} + +func (d *floatDecoder) Decode(ctx *RuntimeContext, cursor, depth int64, p unsafe.Pointer) (int64, error) { + buf := ctx.Buf + bytes, c, err := d.decodeByte(buf, cursor) + if err != nil { + return 0, err + } + if bytes == nil { + return c, nil + } + cursor = c + if !validEndNumberChar[buf[cursor]] { + return 0, errors.ErrUnexpectedEndOfJSON("float", cursor) + } + s := *(*string)(unsafe.Pointer(&bytes)) + f64, err := strconv.ParseFloat(s, 64) + if err != nil { + return 0, errors.ErrSyntax(err.Error(), cursor) + } + d.op(p, f64) + return cursor, nil +} diff --git a/vendor/github.com/goccy/go-json/internal/decoder/func.go b/vendor/github.com/goccy/go-json/internal/decoder/func.go new file mode 100644 index 0000000..ee35637 --- /dev/null +++ b/vendor/github.com/goccy/go-json/internal/decoder/func.go @@ -0,0 +1,141 @@ +package decoder + +import ( + "bytes" + "unsafe" + + "github.com/goccy/go-json/internal/errors" + "github.com/goccy/go-json/internal/runtime" +) + +type funcDecoder struct { + typ *runtime.Type + structName string + fieldName string +} + +func newFuncDecoder(typ *runtime.Type, structName, fieldName string) *funcDecoder { + fnDecoder := &funcDecoder{typ, structName, fieldName} + return fnDecoder +} + +func (d *funcDecoder) DecodeStream(s *Stream, depth int64, p unsafe.Pointer) error { + s.skipWhiteSpace() + start := s.cursor + if err := s.skipValue(depth); err != nil { + return err + } + src := s.buf[start:s.cursor] + if len(src) > 0 { + switch src[0] { + case '"': + return &errors.UnmarshalTypeError{ + Value: "string", + Type: runtime.RType2Type(d.typ), + Offset: s.totalOffset(), + } + case '[': + return &errors.UnmarshalTypeError{ + Value: "array", + Type: runtime.RType2Type(d.typ), + Offset: s.totalOffset(), + } + case '{': + return &errors.UnmarshalTypeError{ + Value: "object", + Type: runtime.RType2Type(d.typ), + Offset: s.totalOffset(), + } + case '-', '0', '1', '2', '3', '4', '5', '6', '7', '8', '9': + return &errors.UnmarshalTypeError{ + Value: "number", + Type: runtime.RType2Type(d.typ), + Offset: s.totalOffset(), + } + case 'n': + if err := nullBytes(s); err != nil { + return err + } + *(*unsafe.Pointer)(p) = nil + return nil + case 't': + if err := trueBytes(s); err == nil { + return &errors.UnmarshalTypeError{ + Value: "boolean", + Type: runtime.RType2Type(d.typ), + Offset: s.totalOffset(), + } + } + case 'f': + if err := falseBytes(s); err == nil { + return &errors.UnmarshalTypeError{ + Value: "boolean", + Type: runtime.RType2Type(d.typ), + Offset: s.totalOffset(), + } + } + } + } + return errors.ErrInvalidBeginningOfValue(s.buf[s.cursor], s.totalOffset()) +} + +func (d *funcDecoder) Decode(ctx *RuntimeContext, cursor, depth int64, p unsafe.Pointer) (int64, error) { + buf := ctx.Buf + cursor = skipWhiteSpace(buf, cursor) + start := cursor + end, err := skipValue(buf, cursor, depth) + if err != nil { + return 0, err + } + src := buf[start:end] + if len(src) > 0 { + switch src[0] { + case '"': + return 0, &errors.UnmarshalTypeError{ + Value: "string", + Type: runtime.RType2Type(d.typ), + Offset: start, + } + case '[': + return 0, &errors.UnmarshalTypeError{ + Value: "array", + Type: runtime.RType2Type(d.typ), + Offset: start, + } + case '{': + return 0, &errors.UnmarshalTypeError{ + Value: "object", + Type: runtime.RType2Type(d.typ), + Offset: start, + } + case '-', '0', '1', '2', '3', '4', '5', '6', '7', '8', '9': + return 0, &errors.UnmarshalTypeError{ + Value: "number", + Type: runtime.RType2Type(d.typ), + Offset: start, + } + case 'n': + if bytes.Equal(src, nullbytes) { + *(*unsafe.Pointer)(p) = nil + return end, nil + } + case 't': + if err := validateTrue(buf, start); err == nil { + return 0, &errors.UnmarshalTypeError{ + Value: "boolean", + Type: runtime.RType2Type(d.typ), + Offset: start, + } + } + case 'f': + if err := validateFalse(buf, start); err == nil { + return 0, &errors.UnmarshalTypeError{ + Value: "boolean", + Type: runtime.RType2Type(d.typ), + Offset: start, + } + } + } + } + return cursor, errors.ErrInvalidBeginningOfValue(buf[cursor], cursor) +} diff --git a/vendor/github.com/goccy/go-json/internal/decoder/int.go b/vendor/github.com/goccy/go-json/internal/decoder/int.go new file mode 100644 index 0000000..7edfb04 --- /dev/null +++ b/vendor/github.com/goccy/go-json/internal/decoder/int.go @@ -0,0 +1,242 @@ +package decoder + +import ( + "fmt" + "reflect" + "unsafe" + + "github.com/goccy/go-json/internal/errors" + "github.com/goccy/go-json/internal/runtime" +) + +type intDecoder struct { + typ *runtime.Type + kind reflect.Kind + op func(unsafe.Pointer, int64) + structName string + fieldName string +} + +func newIntDecoder(typ *runtime.Type, structName, fieldName string, op func(unsafe.Pointer, int64)) *intDecoder { + return &intDecoder{ + typ: typ, + kind: typ.Kind(), + op: op, + structName: structName, + fieldName: fieldName, + } +} + +func (d *intDecoder) typeError(buf []byte, offset int64) *errors.UnmarshalTypeError { + return &errors.UnmarshalTypeError{ + Value: fmt.Sprintf("number %s", string(buf)), + Type: runtime.RType2Type(d.typ), + Struct: d.structName, + Field: d.fieldName, + Offset: offset, + } +} + +var ( + pow10i64 = [...]int64{ + 1e00, 1e01, 1e02, 1e03, 1e04, 1e05, 1e06, 1e07, 1e08, 1e09, + 1e10, 1e11, 1e12, 1e13, 1e14, 1e15, 1e16, 1e17, 1e18, + } + pow10i64Len = len(pow10i64) +) + +func (d *intDecoder) parseInt(b []byte) (int64, error) { + isNegative := false + if b[0] == '-' { + b = b[1:] + isNegative = true + } + maxDigit := len(b) + if maxDigit > pow10i64Len { + return 0, fmt.Errorf("invalid length of number") + } + sum := int64(0) + for i := 0; i < maxDigit; i++ { + c := int64(b[i]) - 48 + digitValue := pow10i64[maxDigit-i-1] + sum += c * digitValue + } + if isNegative { + return -1 * sum, nil + } + return sum, nil +} + +var ( + numTable = [256]bool{ + '0': true, + '1': true, + '2': true, + '3': true, + '4': true, + '5': true, + '6': true, + '7': true, + '8': true, + '9': true, + } +) + +var ( + numZeroBuf = []byte{'0'} +) + +func (d *intDecoder) decodeStreamByte(s *Stream) ([]byte, error) { + for { + switch s.char() { + case ' ', '\n', '\t', '\r': + s.cursor++ + continue + case '-': + start := s.cursor + for { + s.cursor++ + if numTable[s.char()] { + continue + } else if s.char() == nul { + if s.read() { + s.cursor-- // for retry current character + continue + } + } + break + } + num := s.buf[start:s.cursor] + if len(num) < 2 { + goto ERROR + } + return num, nil + case '0': + s.cursor++ + return numZeroBuf, nil + case '1', '2', '3', '4', '5', '6', '7', '8', '9': + start := s.cursor + for { + s.cursor++ + if numTable[s.char()] { + continue + } else if s.char() == nul { + if s.read() { + s.cursor-- // for retry current character + continue + } + } + break + } + num := s.buf[start:s.cursor] + return num, nil + case 'n': + if err := nullBytes(s); err != nil { + return nil, err + } + return nil, nil + case nul: + if s.read() { + continue + } + goto ERROR + default: + return nil, d.typeError([]byte{s.char()}, s.totalOffset()) + } + } +ERROR: + return nil, errors.ErrUnexpectedEndOfJSON("number(integer)", s.totalOffset()) +} + +func (d *intDecoder) decodeByte(buf []byte, cursor int64) ([]byte, int64, error) { + b := (*sliceHeader)(unsafe.Pointer(&buf)).data + for { + switch char(b, cursor) { + case ' ', '\n', '\t', '\r': + cursor++ + continue + case '0': + cursor++ + return numZeroBuf, cursor, nil + case '-', '1', '2', '3', '4', '5', '6', '7', '8', '9': + start := cursor + cursor++ + for numTable[char(b, cursor)] { + cursor++ + } + num := buf[start:cursor] + return num, cursor, nil + case 'n': + if err := validateNull(buf, cursor); err != nil { + return nil, 0, err + } + cursor += 4 + return nil, cursor, nil + default: + return nil, 0, d.typeError([]byte{char(b, cursor)}, cursor) + } + } +} + +func (d *intDecoder) DecodeStream(s *Stream, depth int64, p unsafe.Pointer) error { + bytes, err := d.decodeStreamByte(s) + if err != nil { + return err + } + if bytes == nil { + return nil + } + i64, err := d.parseInt(bytes) + if err != nil { + return d.typeError(bytes, s.totalOffset()) + } + switch d.kind { + case reflect.Int8: + if i64 <= -1*(1<<7) || (1<<7) <= i64 { + return d.typeError(bytes, s.totalOffset()) + } + case reflect.Int16: + if i64 <= -1*(1<<15) || (1<<15) <= i64 { + return d.typeError(bytes, s.totalOffset()) + } + case reflect.Int32: + if i64 <= -1*(1<<31) || (1<<31) <= i64 { + return d.typeError(bytes, s.totalOffset()) + } + } + d.op(p, i64) + s.reset() + return nil +} + +func (d *intDecoder) Decode(ctx *RuntimeContext, cursor, depth int64, p unsafe.Pointer) (int64, error) { + bytes, c, err := d.decodeByte(ctx.Buf, cursor) + if err != nil { + return 0, err + } + if bytes == nil { + return c, nil + } + cursor = c + + i64, err := d.parseInt(bytes) + if err != nil { + return 0, d.typeError(bytes, cursor) + } + switch d.kind { + case reflect.Int8: + if i64 <= -1*(1<<7) || (1<<7) <= i64 { + return 0, d.typeError(bytes, cursor) + } + case reflect.Int16: + if i64 <= -1*(1<<15) || (1<<15) <= i64 { + return 0, d.typeError(bytes, cursor) + } + case reflect.Int32: + if i64 <= -1*(1<<31) || (1<<31) <= i64 { + return 0, d.typeError(bytes, cursor) + } + } + d.op(p, i64) + return cursor, nil +} diff --git a/vendor/github.com/goccy/go-json/internal/decoder/interface.go b/vendor/github.com/goccy/go-json/internal/decoder/interface.go new file mode 100644 index 0000000..4dbb4be --- /dev/null +++ b/vendor/github.com/goccy/go-json/internal/decoder/interface.go @@ -0,0 +1,458 @@ +package decoder + +import ( + "bytes" + "encoding" + "encoding/json" + "reflect" + "unsafe" + + "github.com/goccy/go-json/internal/errors" + "github.com/goccy/go-json/internal/runtime" +) + +type interfaceDecoder struct { + typ *runtime.Type + structName string + fieldName string + sliceDecoder *sliceDecoder + mapDecoder *mapDecoder + floatDecoder *floatDecoder + numberDecoder *numberDecoder + stringDecoder *stringDecoder +} + +func newEmptyInterfaceDecoder(structName, fieldName string) *interfaceDecoder { + ifaceDecoder := &interfaceDecoder{ + typ: emptyInterfaceType, + structName: structName, + fieldName: fieldName, + floatDecoder: newFloatDecoder(structName, fieldName, func(p unsafe.Pointer, v float64) { + *(*interface{})(p) = v + }), + numberDecoder: newNumberDecoder(structName, fieldName, func(p unsafe.Pointer, v json.Number) { + *(*interface{})(p) = v + }), + stringDecoder: newStringDecoder(structName, fieldName), + } + ifaceDecoder.sliceDecoder = newSliceDecoder( + ifaceDecoder, + emptyInterfaceType, + emptyInterfaceType.Size(), + structName, fieldName, + ) + ifaceDecoder.mapDecoder = newMapDecoder( + interfaceMapType, + stringType, + ifaceDecoder.stringDecoder, + interfaceMapType.Elem(), + ifaceDecoder, + structName, + fieldName, + ) + return ifaceDecoder +} + +func newInterfaceDecoder(typ *runtime.Type, structName, fieldName string) *interfaceDecoder { + emptyIfaceDecoder := newEmptyInterfaceDecoder(structName, fieldName) + stringDecoder := newStringDecoder(structName, fieldName) + return &interfaceDecoder{ + typ: typ, + structName: structName, + fieldName: fieldName, + sliceDecoder: newSliceDecoder( + emptyIfaceDecoder, + emptyInterfaceType, + emptyInterfaceType.Size(), + structName, fieldName, + ), + mapDecoder: newMapDecoder( + interfaceMapType, + stringType, + stringDecoder, + interfaceMapType.Elem(), + emptyIfaceDecoder, + structName, + fieldName, + ), + floatDecoder: newFloatDecoder(structName, fieldName, func(p unsafe.Pointer, v float64) { + *(*interface{})(p) = v + }), + numberDecoder: newNumberDecoder(structName, fieldName, func(p unsafe.Pointer, v json.Number) { + *(*interface{})(p) = v + }), + stringDecoder: stringDecoder, + } +} + +func (d *interfaceDecoder) numDecoder(s *Stream) Decoder { + if s.UseNumber { + return d.numberDecoder + } + return d.floatDecoder +} + +var ( + emptyInterfaceType = runtime.Type2RType(reflect.TypeOf((*interface{})(nil)).Elem()) + interfaceMapType = runtime.Type2RType( + reflect.TypeOf((*map[string]interface{})(nil)).Elem(), + ) + stringType = runtime.Type2RType( + reflect.TypeOf(""), + ) +) + +func decodeStreamUnmarshaler(s *Stream, depth int64, unmarshaler json.Unmarshaler) error { + start := s.cursor + if err := s.skipValue(depth); err != nil { + return err + } + src := s.buf[start:s.cursor] + dst := make([]byte, len(src)) + copy(dst, src) + + if err := unmarshaler.UnmarshalJSON(dst); err != nil { + return err + } + return nil +} + +func decodeStreamUnmarshalerContext(s *Stream, depth int64, unmarshaler unmarshalerContext) error { + start := s.cursor + if err := s.skipValue(depth); err != nil { + return err + } + src := s.buf[start:s.cursor] + dst := make([]byte, len(src)) + copy(dst, src) + + if err := unmarshaler.UnmarshalJSON(s.Option.Context, dst); err != nil { + return err + } + return nil +} + +func decodeUnmarshaler(buf []byte, cursor, depth int64, unmarshaler json.Unmarshaler) (int64, error) { + cursor = skipWhiteSpace(buf, cursor) + start := cursor + end, err := skipValue(buf, cursor, depth) + if err != nil { + return 0, err + } + src := buf[start:end] + dst := make([]byte, len(src)) + copy(dst, src) + + if err := unmarshaler.UnmarshalJSON(dst); err != nil { + return 0, err + } + return end, nil +} + +func decodeUnmarshalerContext(ctx *RuntimeContext, buf []byte, cursor, depth int64, unmarshaler unmarshalerContext) (int64, error) { + cursor = skipWhiteSpace(buf, cursor) + start := cursor + end, err := skipValue(buf, cursor, depth) + if err != nil { + return 0, err + } + src := buf[start:end] + dst := make([]byte, len(src)) + copy(dst, src) + + if err := unmarshaler.UnmarshalJSON(ctx.Option.Context, dst); err != nil { + return 0, err + } + return end, nil +} + +func decodeStreamTextUnmarshaler(s *Stream, depth int64, unmarshaler encoding.TextUnmarshaler, p unsafe.Pointer) error { + start := s.cursor + if err := s.skipValue(depth); err != nil { + return err + } + src := s.buf[start:s.cursor] + if bytes.Equal(src, nullbytes) { + *(*unsafe.Pointer)(p) = nil + return nil + } + + dst := make([]byte, len(src)) + copy(dst, src) + + if err := unmarshaler.UnmarshalText(dst); err != nil { + return err + } + return nil +} + +func decodeTextUnmarshaler(buf []byte, cursor, depth int64, unmarshaler encoding.TextUnmarshaler, p unsafe.Pointer) (int64, error) { + cursor = skipWhiteSpace(buf, cursor) + start := cursor + end, err := skipValue(buf, cursor, depth) + if err != nil { + return 0, err + } + src := buf[start:end] + if bytes.Equal(src, nullbytes) { + *(*unsafe.Pointer)(p) = nil + return end, nil + } + if s, ok := unquoteBytes(src); ok { + src = s + } + if err := unmarshaler.UnmarshalText(src); err != nil { + return 0, err + } + return end, nil +} + +func (d *interfaceDecoder) decodeStreamEmptyInterface(s *Stream, depth int64, p unsafe.Pointer) error { + c := s.skipWhiteSpace() + for { + switch c { + case '{': + var v map[string]interface{} + ptr := unsafe.Pointer(&v) + if err := d.mapDecoder.DecodeStream(s, depth, ptr); err != nil { + return err + } + *(*interface{})(p) = v + return nil + case '[': + var v []interface{} + ptr := unsafe.Pointer(&v) + if err := d.sliceDecoder.DecodeStream(s, depth, ptr); err != nil { + return err + } + *(*interface{})(p) = v + return nil + case '-', '0', '1', '2', '3', '4', '5', '6', '7', '8', '9': + return d.numDecoder(s).DecodeStream(s, depth, p) + case '"': + s.cursor++ + start := s.cursor + for { + switch s.char() { + case '\\': + if _, err := decodeEscapeString(s, nil); err != nil { + return err + } + case '"': + literal := s.buf[start:s.cursor] + s.cursor++ + *(*interface{})(p) = string(literal) + return nil + case nul: + if s.read() { + continue + } + return errors.ErrUnexpectedEndOfJSON("string", s.totalOffset()) + } + s.cursor++ + } + case 't': + if err := trueBytes(s); err != nil { + return err + } + **(**interface{})(unsafe.Pointer(&p)) = true + return nil + case 'f': + if err := falseBytes(s); err != nil { + return err + } + **(**interface{})(unsafe.Pointer(&p)) = false + return nil + case 'n': + if err := nullBytes(s); err != nil { + return err + } + *(*interface{})(p) = nil + return nil + case nul: + if s.read() { + c = s.char() + continue + } + } + break + } + return errors.ErrInvalidBeginningOfValue(c, s.totalOffset()) +} + +type emptyInterface struct { + typ *runtime.Type + ptr unsafe.Pointer +} + +func (d *interfaceDecoder) DecodeStream(s *Stream, depth int64, p unsafe.Pointer) error { + runtimeInterfaceValue := *(*interface{})(unsafe.Pointer(&emptyInterface{ + typ: d.typ, + ptr: p, + })) + rv := reflect.ValueOf(runtimeInterfaceValue) + if rv.NumMethod() > 0 && rv.CanInterface() { + if u, ok := rv.Interface().(unmarshalerContext); ok { + return decodeStreamUnmarshalerContext(s, depth, u) + } + if u, ok := rv.Interface().(json.Unmarshaler); ok { + return decodeStreamUnmarshaler(s, depth, u) + } + if u, ok := rv.Interface().(encoding.TextUnmarshaler); ok { + return decodeStreamTextUnmarshaler(s, depth, u, p) + } + if s.skipWhiteSpace() == 'n' { + if err := nullBytes(s); err != nil { + return err + } + *(*interface{})(p) = nil + return nil + } + return d.errUnmarshalType(rv.Type(), s.totalOffset()) + } + iface := rv.Interface() + ifaceHeader := (*emptyInterface)(unsafe.Pointer(&iface)) + typ := ifaceHeader.typ + if ifaceHeader.ptr == nil || d.typ == typ || typ == nil { + // concrete type is empty interface + return d.decodeStreamEmptyInterface(s, depth, p) + } + if typ.Kind() == reflect.Ptr && typ.Elem() == d.typ || typ.Kind() != reflect.Ptr { + return d.decodeStreamEmptyInterface(s, depth, p) + } + if s.skipWhiteSpace() == 'n' { + if err := nullBytes(s); err != nil { + return err + } + *(*interface{})(p) = nil + return nil + } + decoder, err := CompileToGetDecoder(typ) + if err != nil { + return err + } + return decoder.DecodeStream(s, depth, ifaceHeader.ptr) +} + +func (d *interfaceDecoder) errUnmarshalType(typ reflect.Type, offset int64) *errors.UnmarshalTypeError { + return &errors.UnmarshalTypeError{ + Value: typ.String(), + Type: typ, + Offset: offset, + Struct: d.structName, + Field: d.fieldName, + } +} + +func (d *interfaceDecoder) Decode(ctx *RuntimeContext, cursor, depth int64, p unsafe.Pointer) (int64, error) { + buf := ctx.Buf + runtimeInterfaceValue := *(*interface{})(unsafe.Pointer(&emptyInterface{ + typ: d.typ, + ptr: p, + })) + rv := reflect.ValueOf(runtimeInterfaceValue) + if rv.NumMethod() > 0 && rv.CanInterface() { + if u, ok := rv.Interface().(unmarshalerContext); ok { + return decodeUnmarshalerContext(ctx, buf, cursor, depth, u) + } + if u, ok := rv.Interface().(json.Unmarshaler); ok { + return decodeUnmarshaler(buf, cursor, depth, u) + } + if u, ok := rv.Interface().(encoding.TextUnmarshaler); ok { + return decodeTextUnmarshaler(buf, cursor, depth, u, p) + } + cursor = skipWhiteSpace(buf, cursor) + if buf[cursor] == 'n' { + if err := validateNull(buf, cursor); err != nil { + return 0, err + } + cursor += 4 + **(**interface{})(unsafe.Pointer(&p)) = nil + return cursor, nil + } + return 0, d.errUnmarshalType(rv.Type(), cursor) + } + + iface := rv.Interface() + ifaceHeader := (*emptyInterface)(unsafe.Pointer(&iface)) + typ := ifaceHeader.typ + if ifaceHeader.ptr == nil || d.typ == typ || typ == nil { + // concrete type is empty interface + return d.decodeEmptyInterface(ctx, cursor, depth, p) + } + if typ.Kind() == reflect.Ptr && typ.Elem() == d.typ || typ.Kind() != reflect.Ptr { + return d.decodeEmptyInterface(ctx, cursor, depth, p) + } + cursor = skipWhiteSpace(buf, cursor) + if buf[cursor] == 'n' { + if err := validateNull(buf, cursor); err != nil { + return 0, err + } + cursor += 4 + **(**interface{})(unsafe.Pointer(&p)) = nil + return cursor, nil + } + decoder, err := CompileToGetDecoder(typ) + if err != nil { + return 0, err + } + return decoder.Decode(ctx, cursor, depth, ifaceHeader.ptr) +} + +func (d *interfaceDecoder) decodeEmptyInterface(ctx *RuntimeContext, cursor, depth int64, p unsafe.Pointer) (int64, error) { + buf := ctx.Buf + cursor = skipWhiteSpace(buf, cursor) + switch buf[cursor] { + case '{': + var v map[string]interface{} + ptr := unsafe.Pointer(&v) + cursor, err := d.mapDecoder.Decode(ctx, cursor, depth, ptr) + if err != nil { + return 0, err + } + **(**interface{})(unsafe.Pointer(&p)) = v + return cursor, nil + case '[': + var v []interface{} + ptr := unsafe.Pointer(&v) + cursor, err := d.sliceDecoder.Decode(ctx, cursor, depth, ptr) + if err != nil { + return 0, err + } + **(**interface{})(unsafe.Pointer(&p)) = v + return cursor, nil + case '-', '0', '1', '2', '3', '4', '5', '6', '7', '8', '9': + return d.floatDecoder.Decode(ctx, cursor, depth, p) + case '"': + var v string + ptr := unsafe.Pointer(&v) + cursor, err := d.stringDecoder.Decode(ctx, cursor, depth, ptr) + if err != nil { + return 0, err + } + **(**interface{})(unsafe.Pointer(&p)) = v + return cursor, nil + case 't': + if err := validateTrue(buf, cursor); err != nil { + return 0, err + } + cursor += 4 + **(**interface{})(unsafe.Pointer(&p)) = true + return cursor, nil + case 'f': + if err := validateFalse(buf, cursor); err != nil { + return 0, err + } + cursor += 5 + **(**interface{})(unsafe.Pointer(&p)) = false + return cursor, nil + case 'n': + if err := validateNull(buf, cursor); err != nil { + return 0, err + } + cursor += 4 + **(**interface{})(unsafe.Pointer(&p)) = nil + return cursor, nil + } + return cursor, errors.ErrInvalidBeginningOfValue(buf[cursor], cursor) +} diff --git a/vendor/github.com/goccy/go-json/internal/decoder/map.go b/vendor/github.com/goccy/go-json/internal/decoder/map.go new file mode 100644 index 0000000..dd480e1 --- /dev/null +++ b/vendor/github.com/goccy/go-json/internal/decoder/map.go @@ -0,0 +1,173 @@ +package decoder + +import ( + "reflect" + "unsafe" + + "github.com/goccy/go-json/internal/errors" + "github.com/goccy/go-json/internal/runtime" +) + +type mapDecoder struct { + mapType *runtime.Type + keyType *runtime.Type + valueType *runtime.Type + stringKeyType bool + keyDecoder Decoder + valueDecoder Decoder + structName string + fieldName string +} + +func newMapDecoder(mapType *runtime.Type, keyType *runtime.Type, keyDec Decoder, valueType *runtime.Type, valueDec Decoder, structName, fieldName string) *mapDecoder { + return &mapDecoder{ + mapType: mapType, + keyDecoder: keyDec, + keyType: keyType, + stringKeyType: keyType.Kind() == reflect.String, + valueType: valueType, + valueDecoder: valueDec, + structName: structName, + fieldName: fieldName, + } +} + +//go:linkname makemap reflect.makemap +func makemap(*runtime.Type, int) unsafe.Pointer + +//nolint:golint +//go:linkname mapassign_faststr runtime.mapassign_faststr +//go:noescape +func mapassign_faststr(t *runtime.Type, m unsafe.Pointer, s string) unsafe.Pointer + +//go:linkname mapassign reflect.mapassign +//go:noescape +func mapassign(t *runtime.Type, m unsafe.Pointer, k, v unsafe.Pointer) + +func (d *mapDecoder) mapassign(t *runtime.Type, m, k, v unsafe.Pointer) { + if d.stringKeyType { + mapV := mapassign_faststr(d.mapType, m, *(*string)(k)) + typedmemmove(d.valueType, mapV, v) + } else { + mapassign(t, m, k, v) + } +} + +func (d *mapDecoder) DecodeStream(s *Stream, depth int64, p unsafe.Pointer) error { + depth++ + if depth > maxDecodeNestingDepth { + return errors.ErrExceededMaxDepth(s.char(), s.cursor) + } + + switch s.skipWhiteSpace() { + case 'n': + if err := nullBytes(s); err != nil { + return err + } + **(**unsafe.Pointer)(unsafe.Pointer(&p)) = nil + return nil + case '{': + default: + return errors.ErrExpected("{ character for map value", s.totalOffset()) + } + mapValue := *(*unsafe.Pointer)(p) + if mapValue == nil { + mapValue = makemap(d.mapType, 0) + } + if s.buf[s.cursor+1] == '}' { + *(*unsafe.Pointer)(p) = mapValue + s.cursor += 2 + return nil + } + for { + s.cursor++ + k := unsafe_New(d.keyType) + if err := d.keyDecoder.DecodeStream(s, depth, k); err != nil { + return err + } + s.skipWhiteSpace() + if !s.equalChar(':') { + return errors.ErrExpected("colon after object key", s.totalOffset()) + } + s.cursor++ + v := unsafe_New(d.valueType) + if err := d.valueDecoder.DecodeStream(s, depth, v); err != nil { + return err + } + d.mapassign(d.mapType, mapValue, k, v) + s.skipWhiteSpace() + if s.equalChar('}') { + **(**unsafe.Pointer)(unsafe.Pointer(&p)) = mapValue + s.cursor++ + return nil + } + if !s.equalChar(',') { + return errors.ErrExpected("comma after object value", s.totalOffset()) + } + } +} + +func (d *mapDecoder) Decode(ctx *RuntimeContext, cursor, depth int64, p unsafe.Pointer) (int64, error) { + buf := ctx.Buf + depth++ + if depth > maxDecodeNestingDepth { + return 0, errors.ErrExceededMaxDepth(buf[cursor], cursor) + } + + cursor = skipWhiteSpace(buf, cursor) + buflen := int64(len(buf)) + if buflen < 2 { + return 0, errors.ErrExpected("{} for map", cursor) + } + switch buf[cursor] { + case 'n': + if err := validateNull(buf, cursor); err != nil { + return 0, err + } + cursor += 4 + **(**unsafe.Pointer)(unsafe.Pointer(&p)) = nil + return cursor, nil + case '{': + default: + return 0, errors.ErrExpected("{ character for map value", cursor) + } + cursor++ + cursor = skipWhiteSpace(buf, cursor) + mapValue := *(*unsafe.Pointer)(p) + if mapValue == nil { + mapValue = makemap(d.mapType, 0) + } + if buf[cursor] == '}' { + **(**unsafe.Pointer)(unsafe.Pointer(&p)) = mapValue + cursor++ + return cursor, nil + } + for { + k := unsafe_New(d.keyType) + keyCursor, err := d.keyDecoder.Decode(ctx, cursor, depth, k) + if err != nil { + return 0, err + } + cursor = skipWhiteSpace(buf, keyCursor) + if buf[cursor] != ':' { + return 0, errors.ErrExpected("colon after object key", cursor) + } + cursor++ + v := unsafe_New(d.valueType) + valueCursor, err := d.valueDecoder.Decode(ctx, cursor, depth, v) + if err != nil { + return 0, err + } + d.mapassign(d.mapType, mapValue, k, v) + cursor = skipWhiteSpace(buf, valueCursor) + if buf[cursor] == '}' { + **(**unsafe.Pointer)(unsafe.Pointer(&p)) = mapValue + cursor++ + return cursor, nil + } + if buf[cursor] != ',' { + return 0, errors.ErrExpected("comma after object value", cursor) + } + cursor++ + } +} diff --git a/vendor/github.com/goccy/go-json/internal/decoder/number.go b/vendor/github.com/goccy/go-json/internal/decoder/number.go new file mode 100644 index 0000000..bf63773 --- /dev/null +++ b/vendor/github.com/goccy/go-json/internal/decoder/number.go @@ -0,0 +1,112 @@ +package decoder + +import ( + "encoding/json" + "strconv" + "unsafe" + + "github.com/goccy/go-json/internal/errors" +) + +type numberDecoder struct { + stringDecoder *stringDecoder + op func(unsafe.Pointer, json.Number) + structName string + fieldName string +} + +func newNumberDecoder(structName, fieldName string, op func(unsafe.Pointer, json.Number)) *numberDecoder { + return &numberDecoder{ + stringDecoder: newStringDecoder(structName, fieldName), + op: op, + structName: structName, + fieldName: fieldName, + } +} + +func (d *numberDecoder) DecodeStream(s *Stream, depth int64, p unsafe.Pointer) error { + bytes, err := d.decodeStreamByte(s) + if err != nil { + return err + } + if _, err := strconv.ParseFloat(*(*string)(unsafe.Pointer(&bytes)), 64); err != nil { + return errors.ErrSyntax(err.Error(), s.totalOffset()) + } + d.op(p, json.Number(string(bytes))) + s.reset() + return nil +} + +func (d *numberDecoder) Decode(ctx *RuntimeContext, cursor, depth int64, p unsafe.Pointer) (int64, error) { + bytes, c, err := d.decodeByte(ctx.Buf, cursor) + if err != nil { + return 0, err + } + if _, err := strconv.ParseFloat(*(*string)(unsafe.Pointer(&bytes)), 64); err != nil { + return 0, errors.ErrSyntax(err.Error(), c) + } + cursor = c + s := *(*string)(unsafe.Pointer(&bytes)) + d.op(p, json.Number(s)) + return cursor, nil +} + +func (d *numberDecoder) decodeStreamByte(s *Stream) ([]byte, error) { + start := s.cursor + for { + switch s.char() { + case ' ', '\n', '\t', '\r': + s.cursor++ + continue + case '-', '0', '1', '2', '3', '4', '5', '6', '7', '8', '9': + return floatBytes(s), nil + case 'n': + if err := nullBytes(s); err != nil { + return nil, err + } + return nil, nil + case '"': + return d.stringDecoder.decodeStreamByte(s) + case nul: + if s.read() { + continue + } + goto ERROR + default: + goto ERROR + } + } +ERROR: + if s.cursor == start { + return nil, errors.ErrInvalidBeginningOfValue(s.char(), s.totalOffset()) + } + return nil, errors.ErrUnexpectedEndOfJSON("json.Number", s.totalOffset()) +} + +func (d *numberDecoder) decodeByte(buf []byte, cursor int64) ([]byte, int64, error) { + for { + switch buf[cursor] { + case ' ', '\n', '\t', '\r': + cursor++ + continue + case '-', '0', '1', '2', '3', '4', '5', '6', '7', '8', '9': + start := cursor + cursor++ + for floatTable[buf[cursor]] { + cursor++ + } + num := buf[start:cursor] + return num, cursor, nil + case 'n': + if err := validateNull(buf, cursor); err != nil { + return nil, 0, err + } + cursor += 4 + return nil, cursor, nil + case '"': + return d.stringDecoder.decodeByte(buf, cursor) + default: + return nil, 0, errors.ErrUnexpectedEndOfJSON("json.Number", cursor) + } + } +} diff --git a/vendor/github.com/goccy/go-json/internal/decoder/option.go b/vendor/github.com/goccy/go-json/internal/decoder/option.go new file mode 100644 index 0000000..e41f876 --- /dev/null +++ b/vendor/github.com/goccy/go-json/internal/decoder/option.go @@ -0,0 +1,15 @@ +package decoder + +import "context" + +type OptionFlags uint8 + +const ( + FirstWinOption OptionFlags = 1 << iota + ContextOption +) + +type Option struct { + Flags OptionFlags + Context context.Context +} diff --git a/vendor/github.com/goccy/go-json/internal/decoder/ptr.go b/vendor/github.com/goccy/go-json/internal/decoder/ptr.go new file mode 100644 index 0000000..2c83b9c --- /dev/null +++ b/vendor/github.com/goccy/go-json/internal/decoder/ptr.go @@ -0,0 +1,87 @@ +package decoder + +import ( + "unsafe" + + "github.com/goccy/go-json/internal/runtime" +) + +type ptrDecoder struct { + dec Decoder + typ *runtime.Type + structName string + fieldName string +} + +func newPtrDecoder(dec Decoder, typ *runtime.Type, structName, fieldName string) *ptrDecoder { + return &ptrDecoder{ + dec: dec, + typ: typ, + structName: structName, + fieldName: fieldName, + } +} + +func (d *ptrDecoder) contentDecoder() Decoder { + dec, ok := d.dec.(*ptrDecoder) + if !ok { + return d.dec + } + return dec.contentDecoder() +} + +//nolint:golint +//go:linkname unsafe_New reflect.unsafe_New +func unsafe_New(*runtime.Type) unsafe.Pointer + +func (d *ptrDecoder) DecodeStream(s *Stream, depth int64, p unsafe.Pointer) error { + if s.skipWhiteSpace() == nul { + s.read() + } + if s.char() == 'n' { + if err := nullBytes(s); err != nil { + return err + } + *(*unsafe.Pointer)(p) = nil + return nil + } + var newptr unsafe.Pointer + if *(*unsafe.Pointer)(p) == nil { + newptr = unsafe_New(d.typ) + *(*unsafe.Pointer)(p) = newptr + } else { + newptr = *(*unsafe.Pointer)(p) + } + if err := d.dec.DecodeStream(s, depth, newptr); err != nil { + return err + } + return nil +} + +func (d *ptrDecoder) Decode(ctx *RuntimeContext, cursor, depth int64, p unsafe.Pointer) (int64, error) { + buf := ctx.Buf + cursor = skipWhiteSpace(buf, cursor) + if buf[cursor] == 'n' { + if err := validateNull(buf, cursor); err != nil { + return 0, err + } + if p != nil { + *(*unsafe.Pointer)(p) = nil + } + cursor += 4 + return cursor, nil + } + var newptr unsafe.Pointer + if *(*unsafe.Pointer)(p) == nil { + newptr = unsafe_New(d.typ) + *(*unsafe.Pointer)(p) = newptr + } else { + newptr = *(*unsafe.Pointer)(p) + } + c, err := d.dec.Decode(ctx, cursor, depth, newptr) + if err != nil { + return 0, err + } + cursor = c + return cursor, nil +} diff --git a/vendor/github.com/goccy/go-json/internal/decoder/slice.go b/vendor/github.com/goccy/go-json/internal/decoder/slice.go new file mode 100644 index 0000000..85b6e11 --- /dev/null +++ b/vendor/github.com/goccy/go-json/internal/decoder/slice.go @@ -0,0 +1,301 @@ +package decoder + +import ( + "reflect" + "sync" + "unsafe" + + "github.com/goccy/go-json/internal/errors" + "github.com/goccy/go-json/internal/runtime" +) + +var ( + sliceType = runtime.Type2RType( + reflect.TypeOf((*sliceHeader)(nil)).Elem(), + ) + nilSlice = unsafe.Pointer(&sliceHeader{}) +) + +type sliceDecoder struct { + elemType *runtime.Type + isElemPointerType bool + valueDecoder Decoder + size uintptr + arrayPool sync.Pool + structName string + fieldName string +} + +// If use reflect.SliceHeader, data type is uintptr. +// In this case, Go compiler cannot trace reference created by newArray(). +// So, define using unsafe.Pointer as data type +type sliceHeader struct { + data unsafe.Pointer + len int + cap int +} + +const ( + defaultSliceCapacity = 2 +) + +func newSliceDecoder(dec Decoder, elemType *runtime.Type, size uintptr, structName, fieldName string) *sliceDecoder { + return &sliceDecoder{ + valueDecoder: dec, + elemType: elemType, + isElemPointerType: elemType.Kind() == reflect.Ptr || elemType.Kind() == reflect.Map, + size: size, + arrayPool: sync.Pool{ + New: func() interface{} { + return &sliceHeader{ + data: newArray(elemType, defaultSliceCapacity), + len: 0, + cap: defaultSliceCapacity, + } + }, + }, + structName: structName, + fieldName: fieldName, + } +} + +func (d *sliceDecoder) newSlice(src *sliceHeader) *sliceHeader { + slice := d.arrayPool.Get().(*sliceHeader) + if src.len > 0 { + // copy original elem + if slice.cap < src.cap { + data := newArray(d.elemType, src.cap) + slice = &sliceHeader{data: data, len: src.len, cap: src.cap} + } else { + slice.len = src.len + } + copySlice(d.elemType, *slice, *src) + } else { + slice.len = 0 + } + return slice +} + +func (d *sliceDecoder) releaseSlice(p *sliceHeader) { + d.arrayPool.Put(p) +} + +//go:linkname copySlice reflect.typedslicecopy +func copySlice(elemType *runtime.Type, dst, src sliceHeader) int + +//go:linkname newArray reflect.unsafe_NewArray +func newArray(*runtime.Type, int) unsafe.Pointer + +//go:linkname typedmemmove reflect.typedmemmove +func typedmemmove(t *runtime.Type, dst, src unsafe.Pointer) + +func (d *sliceDecoder) errNumber(offset int64) *errors.UnmarshalTypeError { + return &errors.UnmarshalTypeError{ + Value: "number", + Type: reflect.SliceOf(runtime.RType2Type(d.elemType)), + Struct: d.structName, + Field: d.fieldName, + Offset: offset, + } +} + +func (d *sliceDecoder) DecodeStream(s *Stream, depth int64, p unsafe.Pointer) error { + depth++ + if depth > maxDecodeNestingDepth { + return errors.ErrExceededMaxDepth(s.char(), s.cursor) + } + + for { + switch s.char() { + case ' ', '\n', '\t', '\r': + s.cursor++ + continue + case 'n': + if err := nullBytes(s); err != nil { + return err + } + typedmemmove(sliceType, p, nilSlice) + return nil + case '[': + s.cursor++ + if s.skipWhiteSpace() == ']' { + dst := (*sliceHeader)(p) + if dst.data == nil { + dst.data = newArray(d.elemType, 0) + } else { + dst.len = 0 + } + s.cursor++ + return nil + } + idx := 0 + slice := d.newSlice((*sliceHeader)(p)) + srcLen := slice.len + capacity := slice.cap + data := slice.data + for { + if capacity <= idx { + src := sliceHeader{data: data, len: idx, cap: capacity} + capacity *= 2 + data = newArray(d.elemType, capacity) + dst := sliceHeader{data: data, len: idx, cap: capacity} + copySlice(d.elemType, dst, src) + } + ep := unsafe.Pointer(uintptr(data) + uintptr(idx)*d.size) + + // if srcLen is greater than idx, keep the original reference + if srcLen <= idx { + if d.isElemPointerType { + **(**unsafe.Pointer)(unsafe.Pointer(&ep)) = nil // initialize elem pointer + } else { + // assign new element to the slice + typedmemmove(d.elemType, ep, unsafe_New(d.elemType)) + } + } + + if err := d.valueDecoder.DecodeStream(s, depth, ep); err != nil { + return err + } + s.skipWhiteSpace() + RETRY: + switch s.char() { + case ']': + slice.cap = capacity + slice.len = idx + 1 + slice.data = data + dst := (*sliceHeader)(p) + dst.len = idx + 1 + if dst.len > dst.cap { + dst.data = newArray(d.elemType, dst.len) + dst.cap = dst.len + } + copySlice(d.elemType, *dst, *slice) + d.releaseSlice(slice) + s.cursor++ + return nil + case ',': + idx++ + case nul: + if s.read() { + goto RETRY + } + slice.cap = capacity + slice.data = data + d.releaseSlice(slice) + goto ERROR + default: + slice.cap = capacity + slice.data = data + d.releaseSlice(slice) + goto ERROR + } + s.cursor++ + } + case '-', '0', '1', '2', '3', '4', '5', '6', '7', '8', '9': + return d.errNumber(s.totalOffset()) + case nul: + if s.read() { + continue + } + goto ERROR + default: + goto ERROR + } + } +ERROR: + return errors.ErrUnexpectedEndOfJSON("slice", s.totalOffset()) +} + +func (d *sliceDecoder) Decode(ctx *RuntimeContext, cursor, depth int64, p unsafe.Pointer) (int64, error) { + buf := ctx.Buf + depth++ + if depth > maxDecodeNestingDepth { + return 0, errors.ErrExceededMaxDepth(buf[cursor], cursor) + } + + for { + switch buf[cursor] { + case ' ', '\n', '\t', '\r': + cursor++ + continue + case 'n': + if err := validateNull(buf, cursor); err != nil { + return 0, err + } + cursor += 4 + typedmemmove(sliceType, p, nilSlice) + return cursor, nil + case '[': + cursor++ + cursor = skipWhiteSpace(buf, cursor) + if buf[cursor] == ']' { + dst := (*sliceHeader)(p) + if dst.data == nil { + dst.data = newArray(d.elemType, 0) + } else { + dst.len = 0 + } + cursor++ + return cursor, nil + } + idx := 0 + slice := d.newSlice((*sliceHeader)(p)) + srcLen := slice.len + capacity := slice.cap + data := slice.data + for { + if capacity <= idx { + src := sliceHeader{data: data, len: idx, cap: capacity} + capacity *= 2 + data = newArray(d.elemType, capacity) + dst := sliceHeader{data: data, len: idx, cap: capacity} + copySlice(d.elemType, dst, src) + } + ep := unsafe.Pointer(uintptr(data) + uintptr(idx)*d.size) + // if srcLen is greater than idx, keep the original reference + if srcLen <= idx { + if d.isElemPointerType { + **(**unsafe.Pointer)(unsafe.Pointer(&ep)) = nil // initialize elem pointer + } else { + // assign new element to the slice + typedmemmove(d.elemType, ep, unsafe_New(d.elemType)) + } + } + c, err := d.valueDecoder.Decode(ctx, cursor, depth, ep) + if err != nil { + return 0, err + } + cursor = c + cursor = skipWhiteSpace(buf, cursor) + switch buf[cursor] { + case ']': + slice.cap = capacity + slice.len = idx + 1 + slice.data = data + dst := (*sliceHeader)(p) + dst.len = idx + 1 + if dst.len > dst.cap { + dst.data = newArray(d.elemType, dst.len) + dst.cap = dst.len + } + copySlice(d.elemType, *dst, *slice) + d.releaseSlice(slice) + cursor++ + return cursor, nil + case ',': + idx++ + default: + slice.cap = capacity + slice.data = data + d.releaseSlice(slice) + return 0, errors.ErrInvalidCharacter(buf[cursor], "slice", cursor) + } + cursor++ + } + case '-', '0', '1', '2', '3', '4', '5', '6', '7', '8', '9': + return 0, d.errNumber(cursor) + default: + return 0, errors.ErrUnexpectedEndOfJSON("slice", cursor) + } + } +} diff --git a/vendor/github.com/goccy/go-json/internal/decoder/stream.go b/vendor/github.com/goccy/go-json/internal/decoder/stream.go new file mode 100644 index 0000000..c274683 --- /dev/null +++ b/vendor/github.com/goccy/go-json/internal/decoder/stream.go @@ -0,0 +1,554 @@ +package decoder + +import ( + "bytes" + "encoding/json" + "io" + "strconv" + "unsafe" + + "github.com/goccy/go-json/internal/errors" +) + +const ( + initBufSize = 512 +) + +type Stream struct { + buf []byte + bufSize int64 + length int64 + r io.Reader + offset int64 + cursor int64 + filledBuffer bool + allRead bool + UseNumber bool + DisallowUnknownFields bool + Option *Option +} + +func NewStream(r io.Reader) *Stream { + return &Stream{ + r: r, + bufSize: initBufSize, + buf: make([]byte, initBufSize), + Option: &Option{}, + } +} + +func (s *Stream) TotalOffset() int64 { + return s.totalOffset() +} + +func (s *Stream) Buffered() io.Reader { + buflen := int64(len(s.buf)) + for i := s.cursor; i < buflen; i++ { + if s.buf[i] == nul { + return bytes.NewReader(s.buf[s.cursor:i]) + } + } + return bytes.NewReader(s.buf[s.cursor:]) +} + +func (s *Stream) PrepareForDecode() error { + for { + switch s.char() { + case ' ', '\t', '\r', '\n': + s.cursor++ + continue + case ',', ':': + s.cursor++ + return nil + case nul: + if s.read() { + continue + } + return io.EOF + } + break + } + return nil +} + +func (s *Stream) totalOffset() int64 { + return s.offset + s.cursor +} + +func (s *Stream) char() byte { + return s.buf[s.cursor] +} + +func (s *Stream) equalChar(c byte) bool { + cur := s.buf[s.cursor] + if cur == nul { + s.read() + cur = s.buf[s.cursor] + } + return cur == c +} + +func (s *Stream) stat() ([]byte, int64, unsafe.Pointer) { + return s.buf, s.cursor, (*sliceHeader)(unsafe.Pointer(&s.buf)).data +} + +func (s *Stream) bufptr() unsafe.Pointer { + return (*sliceHeader)(unsafe.Pointer(&s.buf)).data +} + +func (s *Stream) statForRetry() ([]byte, int64, unsafe.Pointer) { + s.cursor-- // for retry ( because caller progress cursor position in each loop ) + return s.buf, s.cursor, (*sliceHeader)(unsafe.Pointer(&s.buf)).data +} + +func (s *Stream) Reset() { + s.reset() + s.bufSize = initBufSize +} + +func (s *Stream) More() bool { + for { + switch s.char() { + case ' ', '\n', '\r', '\t': + s.cursor++ + continue + case '}', ']': + return false + case nul: + if s.read() { + continue + } + return false + } + break + } + return true +} + +func (s *Stream) Token() (interface{}, error) { + for { + c := s.char() + switch c { + case ' ', '\n', '\r', '\t': + s.cursor++ + case '{', '[', ']', '}': + s.cursor++ + return json.Delim(c), nil + case ',', ':': + s.cursor++ + case '-', '0', '1', '2', '3', '4', '5', '6', '7', '8', '9': + bytes := floatBytes(s) + s := *(*string)(unsafe.Pointer(&bytes)) + f64, err := strconv.ParseFloat(s, 64) + if err != nil { + return nil, err + } + return f64, nil + case '"': + bytes, err := stringBytes(s) + if err != nil { + return nil, err + } + return string(bytes), nil + case 't': + if err := trueBytes(s); err != nil { + return nil, err + } + return true, nil + case 'f': + if err := falseBytes(s); err != nil { + return nil, err + } + return false, nil + case 'n': + if err := nullBytes(s); err != nil { + return nil, err + } + return nil, nil + case nul: + if s.read() { + continue + } + goto END + default: + return nil, errors.ErrInvalidCharacter(s.char(), "token", s.totalOffset()) + } + } +END: + return nil, io.EOF +} + +func (s *Stream) reset() { + s.offset += s.cursor + s.buf = s.buf[s.cursor:] + s.length -= s.cursor + s.cursor = 0 +} + +func (s *Stream) readBuf() []byte { + if s.filledBuffer { + s.bufSize *= 2 + remainBuf := s.buf + s.buf = make([]byte, s.bufSize) + copy(s.buf, remainBuf) + } + remainLen := s.length - s.cursor + remainNotNulCharNum := int64(0) + for i := int64(0); i < remainLen; i++ { + if s.buf[s.cursor+i] == nul { + break + } + remainNotNulCharNum++ + } + s.length = s.cursor + remainNotNulCharNum + return s.buf[s.cursor+remainNotNulCharNum:] +} + +func (s *Stream) read() bool { + if s.allRead { + return false + } + buf := s.readBuf() + last := len(buf) - 1 + buf[last] = nul + n, err := s.r.Read(buf[:last]) + s.length += int64(n) + if n == last { + s.filledBuffer = true + } else { + s.filledBuffer = false + } + if err == io.EOF { + s.allRead = true + } else if err != nil { + return false + } + return true +} + +func (s *Stream) skipWhiteSpace() byte { + p := s.bufptr() +LOOP: + c := char(p, s.cursor) + switch c { + case ' ', '\n', '\t', '\r': + s.cursor++ + goto LOOP + case nul: + if s.read() { + p = s.bufptr() + goto LOOP + } + } + return c +} + +func (s *Stream) skipObject(depth int64) error { + braceCount := 1 + _, cursor, p := s.stat() + for { + switch char(p, cursor) { + case '{': + braceCount++ + depth++ + if depth > maxDecodeNestingDepth { + return errors.ErrExceededMaxDepth(s.char(), s.cursor) + } + case '}': + braceCount-- + depth-- + if braceCount == 0 { + s.cursor = cursor + 1 + return nil + } + case '[': + depth++ + if depth > maxDecodeNestingDepth { + return errors.ErrExceededMaxDepth(s.char(), s.cursor) + } + case ']': + depth-- + case '"': + for { + cursor++ + switch char(p, cursor) { + case '\\': + cursor++ + if char(p, cursor) == nul { + s.cursor = cursor + if s.read() { + _, cursor, p = s.statForRetry() + continue + } + return errors.ErrUnexpectedEndOfJSON("string of object", cursor) + } + case '"': + goto SWITCH_OUT + case nul: + s.cursor = cursor + if s.read() { + _, cursor, p = s.statForRetry() + continue + } + return errors.ErrUnexpectedEndOfJSON("string of object", cursor) + } + } + case nul: + s.cursor = cursor + if s.read() { + _, cursor, p = s.stat() + continue + } + return errors.ErrUnexpectedEndOfJSON("object of object", cursor) + } + SWITCH_OUT: + cursor++ + } +} + +func (s *Stream) skipArray(depth int64) error { + bracketCount := 1 + _, cursor, p := s.stat() + for { + switch char(p, cursor) { + case '[': + bracketCount++ + depth++ + if depth > maxDecodeNestingDepth { + return errors.ErrExceededMaxDepth(s.char(), s.cursor) + } + case ']': + bracketCount-- + depth-- + if bracketCount == 0 { + s.cursor = cursor + 1 + return nil + } + case '{': + depth++ + if depth > maxDecodeNestingDepth { + return errors.ErrExceededMaxDepth(s.char(), s.cursor) + } + case '}': + depth-- + case '"': + for { + cursor++ + switch char(p, cursor) { + case '\\': + cursor++ + if char(p, cursor) == nul { + s.cursor = cursor + if s.read() { + _, cursor, p = s.statForRetry() + continue + } + return errors.ErrUnexpectedEndOfJSON("string of object", cursor) + } + case '"': + goto SWITCH_OUT + case nul: + s.cursor = cursor + if s.read() { + _, cursor, p = s.statForRetry() + continue + } + return errors.ErrUnexpectedEndOfJSON("string of object", cursor) + } + } + case nul: + s.cursor = cursor + if s.read() { + _, cursor, p = s.stat() + continue + } + return errors.ErrUnexpectedEndOfJSON("array of object", cursor) + } + SWITCH_OUT: + cursor++ + } +} + +func (s *Stream) skipValue(depth int64) error { + _, cursor, p := s.stat() + for { + switch char(p, cursor) { + case ' ', '\n', '\t', '\r': + cursor++ + continue + case nul: + s.cursor = cursor + if s.read() { + _, cursor, p = s.stat() + continue + } + return errors.ErrUnexpectedEndOfJSON("value of object", s.totalOffset()) + case '{': + s.cursor = cursor + 1 + return s.skipObject(depth + 1) + case '[': + s.cursor = cursor + 1 + return s.skipArray(depth + 1) + case '"': + for { + cursor++ + switch char(p, cursor) { + case '\\': + cursor++ + if char(p, cursor) == nul { + s.cursor = cursor + if s.read() { + _, cursor, p = s.statForRetry() + continue + } + return errors.ErrUnexpectedEndOfJSON("value of string", s.totalOffset()) + } + case '"': + s.cursor = cursor + 1 + return nil + case nul: + s.cursor = cursor + if s.read() { + _, cursor, p = s.statForRetry() + continue + } + return errors.ErrUnexpectedEndOfJSON("value of string", s.totalOffset()) + } + } + case '-', '0', '1', '2', '3', '4', '5', '6', '7', '8', '9': + for { + cursor++ + c := char(p, cursor) + if floatTable[c] { + continue + } else if c == nul { + if s.read() { + s.cursor-- // for retry current character + _, cursor, p = s.stat() + continue + } + } + s.cursor = cursor + return nil + } + case 't': + s.cursor = cursor + if err := trueBytes(s); err != nil { + return err + } + return nil + case 'f': + s.cursor = cursor + if err := falseBytes(s); err != nil { + return err + } + return nil + case 'n': + s.cursor = cursor + if err := nullBytes(s); err != nil { + return err + } + return nil + } + cursor++ + } +} + +func nullBytes(s *Stream) error { + // current cursor's character is 'n' + s.cursor++ + if s.char() != 'u' { + if err := retryReadNull(s); err != nil { + return err + } + } + s.cursor++ + if s.char() != 'l' { + if err := retryReadNull(s); err != nil { + return err + } + } + s.cursor++ + if s.char() != 'l' { + if err := retryReadNull(s); err != nil { + return err + } + } + s.cursor++ + return nil +} + +func retryReadNull(s *Stream) error { + if s.char() == nul && s.read() { + return nil + } + return errors.ErrInvalidCharacter(s.char(), "null", s.totalOffset()) +} + +func trueBytes(s *Stream) error { + // current cursor's character is 't' + s.cursor++ + if s.char() != 'r' { + if err := retryReadTrue(s); err != nil { + return err + } + } + s.cursor++ + if s.char() != 'u' { + if err := retryReadTrue(s); err != nil { + return err + } + } + s.cursor++ + if s.char() != 'e' { + if err := retryReadTrue(s); err != nil { + return err + } + } + s.cursor++ + return nil +} + +func retryReadTrue(s *Stream) error { + if s.char() == nul && s.read() { + return nil + } + return errors.ErrInvalidCharacter(s.char(), "bool(true)", s.totalOffset()) +} + +func falseBytes(s *Stream) error { + // current cursor's character is 'f' + s.cursor++ + if s.char() != 'a' { + if err := retryReadFalse(s); err != nil { + return err + } + } + s.cursor++ + if s.char() != 'l' { + if err := retryReadFalse(s); err != nil { + return err + } + } + s.cursor++ + if s.char() != 's' { + if err := retryReadFalse(s); err != nil { + return err + } + } + s.cursor++ + if s.char() != 'e' { + if err := retryReadFalse(s); err != nil { + return err + } + } + s.cursor++ + return nil +} + +func retryReadFalse(s *Stream) error { + if s.char() == nul && s.read() { + return nil + } + return errors.ErrInvalidCharacter(s.char(), "bool(false)", s.totalOffset()) +} diff --git a/vendor/github.com/goccy/go-json/internal/decoder/string.go b/vendor/github.com/goccy/go-json/internal/decoder/string.go new file mode 100644 index 0000000..50e8835 --- /dev/null +++ b/vendor/github.com/goccy/go-json/internal/decoder/string.go @@ -0,0 +1,362 @@ +package decoder + +import ( + "reflect" + "unicode" + "unicode/utf16" + "unicode/utf8" + "unsafe" + + "github.com/goccy/go-json/internal/errors" +) + +type stringDecoder struct { + structName string + fieldName string +} + +func newStringDecoder(structName, fieldName string) *stringDecoder { + return &stringDecoder{ + structName: structName, + fieldName: fieldName, + } +} + +func (d *stringDecoder) errUnmarshalType(typeName string, offset int64) *errors.UnmarshalTypeError { + return &errors.UnmarshalTypeError{ + Value: typeName, + Type: reflect.TypeOf(""), + Offset: offset, + Struct: d.structName, + Field: d.fieldName, + } +} + +func (d *stringDecoder) DecodeStream(s *Stream, depth int64, p unsafe.Pointer) error { + bytes, err := d.decodeStreamByte(s) + if err != nil { + return err + } + if bytes == nil { + return nil + } + **(**string)(unsafe.Pointer(&p)) = *(*string)(unsafe.Pointer(&bytes)) + s.reset() + return nil +} + +func (d *stringDecoder) Decode(ctx *RuntimeContext, cursor, depth int64, p unsafe.Pointer) (int64, error) { + bytes, c, err := d.decodeByte(ctx.Buf, cursor) + if err != nil { + return 0, err + } + if bytes == nil { + return c, nil + } + cursor = c + **(**string)(unsafe.Pointer(&p)) = *(*string)(unsafe.Pointer(&bytes)) + return cursor, nil +} + +var ( + hexToInt = [256]int{ + '0': 0, + '1': 1, + '2': 2, + '3': 3, + '4': 4, + '5': 5, + '6': 6, + '7': 7, + '8': 8, + '9': 9, + 'A': 10, + 'B': 11, + 'C': 12, + 'D': 13, + 'E': 14, + 'F': 15, + 'a': 10, + 'b': 11, + 'c': 12, + 'd': 13, + 'e': 14, + 'f': 15, + } +) + +func unicodeToRune(code []byte) rune { + var r rune + for i := 0; i < len(code); i++ { + r = r*16 + rune(hexToInt[code[i]]) + } + return r +} + +func decodeUnicodeRune(s *Stream, p unsafe.Pointer) (rune, int64, unsafe.Pointer, error) { + const defaultOffset = 5 + const surrogateOffset = 11 + + if s.cursor+defaultOffset >= s.length { + if !s.read() { + return rune(0), 0, nil, errors.ErrInvalidCharacter(s.char(), "escaped string", s.totalOffset()) + } + p = s.bufptr() + } + + r := unicodeToRune(s.buf[s.cursor+1 : s.cursor+defaultOffset]) + if utf16.IsSurrogate(r) { + if s.cursor+surrogateOffset >= s.length { + s.read() + p = s.bufptr() + } + if s.cursor+surrogateOffset >= s.length || s.buf[s.cursor+defaultOffset] != '\\' || s.buf[s.cursor+defaultOffset+1] != 'u' { + return unicode.ReplacementChar, defaultOffset, p, nil + } + r2 := unicodeToRune(s.buf[s.cursor+defaultOffset+2 : s.cursor+surrogateOffset]) + if r := utf16.DecodeRune(r, r2); r != unicode.ReplacementChar { + return r, surrogateOffset, p, nil + } + } + return r, defaultOffset, p, nil +} + +func decodeUnicode(s *Stream, p unsafe.Pointer) (unsafe.Pointer, error) { + const backSlashAndULen = 2 // length of \u + + r, offset, pp, err := decodeUnicodeRune(s, p) + if err != nil { + return nil, err + } + unicode := []byte(string(r)) + unicodeLen := int64(len(unicode)) + s.buf = append(append(s.buf[:s.cursor-1], unicode...), s.buf[s.cursor+offset:]...) + unicodeOrgLen := offset - 1 + s.length = s.length - (backSlashAndULen + (unicodeOrgLen - unicodeLen)) + s.cursor = s.cursor - backSlashAndULen + unicodeLen + return pp, nil +} + +func decodeEscapeString(s *Stream, p unsafe.Pointer) (unsafe.Pointer, error) { + s.cursor++ +RETRY: + switch s.buf[s.cursor] { + case '"': + s.buf[s.cursor] = '"' + case '\\': + s.buf[s.cursor] = '\\' + case '/': + s.buf[s.cursor] = '/' + case 'b': + s.buf[s.cursor] = '\b' + case 'f': + s.buf[s.cursor] = '\f' + case 'n': + s.buf[s.cursor] = '\n' + case 'r': + s.buf[s.cursor] = '\r' + case 't': + s.buf[s.cursor] = '\t' + case 'u': + return decodeUnicode(s, p) + case nul: + if !s.read() { + return nil, errors.ErrInvalidCharacter(s.char(), "escaped string", s.totalOffset()) + } + goto RETRY + default: + return nil, errors.ErrUnexpectedEndOfJSON("string", s.totalOffset()) + } + s.buf = append(s.buf[:s.cursor-1], s.buf[s.cursor:]...) + s.length-- + s.cursor-- + p = s.bufptr() + return p, nil +} + +var ( + runeErrBytes = []byte(string(utf8.RuneError)) + runeErrBytesLen = int64(len(runeErrBytes)) +) + +func stringBytes(s *Stream) ([]byte, error) { + _, cursor, p := s.stat() + cursor++ // skip double quote char + start := cursor + for { + switch char(p, cursor) { + case '\\': + s.cursor = cursor + pp, err := decodeEscapeString(s, p) + if err != nil { + return nil, err + } + p = pp + cursor = s.cursor + case '"': + literal := s.buf[start:cursor] + cursor++ + s.cursor = cursor + return literal, nil + case + // 0x00 is nul, 0x5c is '\\', 0x22 is '"' . + 0x01, 0x02, 0x03, 0x04, 0x05, 0x06, 0x07, 0x08, 0x09, 0x0A, 0x0B, 0x0C, 0x0D, 0x0E, 0x0F, // 0x00-0x0F + 0x10, 0x11, 0x12, 0x13, 0x14, 0x15, 0x16, 0x17, 0x18, 0x19, 0x1A, 0x1B, 0x1C, 0x1D, 0x1E, 0x1F, // 0x10-0x1F + 0x20, 0x21 /*0x22,*/, 0x23, 0x24, 0x25, 0x26, 0x27, 0x28, 0x29, 0x2A, 0x2B, 0x2C, 0x2D, 0x2E, 0x2F, // 0x20-0x2F + 0x30, 0x31, 0x32, 0x33, 0x34, 0x35, 0x36, 0x37, 0x38, 0x39, 0x3A, 0x3B, 0x3C, 0x3D, 0x3E, 0x3F, // 0x30-0x3F + 0x40, 0x41, 0x42, 0x43, 0x44, 0x45, 0x46, 0x47, 0x48, 0x49, 0x4A, 0x4B, 0x4C, 0x4D, 0x4E, 0x4F, // 0x40-0x4F + 0x50, 0x51, 0x52, 0x53, 0x54, 0x55, 0x56, 0x57, 0x58, 0x59, 0x5A, 0x5B /*0x5C,*/, 0x5D, 0x5E, 0x5F, // 0x50-0x5F + 0x60, 0x61, 0x62, 0x63, 0x64, 0x65, 0x66, 0x67, 0x68, 0x69, 0x6A, 0x6B, 0x6C, 0x6D, 0x6E, 0x6F, // 0x60-0x6F + 0x70, 0x71, 0x72, 0x73, 0x74, 0x75, 0x76, 0x77, 0x78, 0x79, 0x7A, 0x7B, 0x7C, 0x7D, 0x7E, 0x7F: // 0x70-0x7F + // character is ASCII. skip to next char + case + 0x80, 0x81, 0x82, 0x83, 0x84, 0x85, 0x86, 0x87, 0x88, 0x89, 0x8A, 0x8B, 0x8C, 0x8D, 0x8E, 0x8F, // 0x80-0x8F + 0x90, 0x91, 0x92, 0x93, 0x94, 0x95, 0x96, 0x97, 0x98, 0x99, 0x9A, 0x9B, 0x9C, 0x9D, 0x9E, 0x9F, // 0x90-0x9F + 0xA0, 0xA1, 0xA2, 0xA3, 0xA4, 0xA5, 0xA6, 0xA7, 0xA8, 0xA9, 0xAA, 0xAB, 0xAC, 0xAD, 0xAE, 0xAF, // 0xA0-0xAF + 0xB0, 0xB1, 0xB2, 0xB3, 0xB4, 0xB5, 0xB6, 0xB7, 0xB8, 0xB9, 0xBA, 0xBB, 0xBC, 0xBD, 0xBE, 0xBF, // 0xB0-0xBF + 0xC0, 0xC1, // 0xC0-0xC1 + 0xF5, 0xF6, 0xF7, 0xF8, 0xF9, 0xFA, 0xFB, 0xFC, 0xFD, 0xFE, 0xFF: // 0xF5-0xFE + // character is invalid + s.buf = append(append(append([]byte{}, s.buf[:cursor]...), runeErrBytes...), s.buf[cursor+1:]...) + _, _, p = s.stat() + cursor += runeErrBytesLen + s.length += runeErrBytesLen + continue + case nul: + s.cursor = cursor + if s.read() { + _, cursor, p = s.stat() + continue + } + goto ERROR + case 0xEF: + // RuneError is {0xEF, 0xBF, 0xBD} + if s.buf[cursor+1] == 0xBF && s.buf[cursor+2] == 0xBD { + // found RuneError: skip + cursor += 2 + break + } + fallthrough + default: + // multi bytes character + r, _ := utf8.DecodeRune(s.buf[cursor:]) + b := []byte(string(r)) + if r == utf8.RuneError { + s.buf = append(append(append([]byte{}, s.buf[:cursor]...), b...), s.buf[cursor+1:]...) + _, _, p = s.stat() + } + cursor += int64(len(b)) + s.length += int64(len(b)) + continue + } + cursor++ + } +ERROR: + return nil, errors.ErrUnexpectedEndOfJSON("string", s.totalOffset()) +} + +func (d *stringDecoder) decodeStreamByte(s *Stream) ([]byte, error) { + for { + switch s.char() { + case ' ', '\n', '\t', '\r': + s.cursor++ + continue + case '[': + return nil, d.errUnmarshalType("array", s.totalOffset()) + case '{': + return nil, d.errUnmarshalType("object", s.totalOffset()) + case '-', '0', '1', '2', '3', '4', '5', '6', '7', '8', '9': + return nil, d.errUnmarshalType("number", s.totalOffset()) + case '"': + return stringBytes(s) + case 'n': + if err := nullBytes(s); err != nil { + return nil, err + } + return nil, nil + case nul: + if s.read() { + continue + } + } + break + } + return nil, errors.ErrInvalidBeginningOfValue(s.char(), s.totalOffset()) +} + +func (d *stringDecoder) decodeByte(buf []byte, cursor int64) ([]byte, int64, error) { + for { + switch buf[cursor] { + case ' ', '\n', '\t', '\r': + cursor++ + case '[': + return nil, 0, d.errUnmarshalType("array", cursor) + case '{': + return nil, 0, d.errUnmarshalType("object", cursor) + case '-', '0', '1', '2', '3', '4', '5', '6', '7', '8', '9': + return nil, 0, d.errUnmarshalType("number", cursor) + case '"': + cursor++ + start := cursor + b := (*sliceHeader)(unsafe.Pointer(&buf)).data + for { + switch char(b, cursor) { + case '\\': + cursor++ + switch char(b, cursor) { + case '"': + buf[cursor] = '"' + buf = append(buf[:cursor-1], buf[cursor:]...) + case '\\': + buf[cursor] = '\\' + buf = append(buf[:cursor-1], buf[cursor:]...) + case '/': + buf[cursor] = '/' + buf = append(buf[:cursor-1], buf[cursor:]...) + case 'b': + buf[cursor] = '\b' + buf = append(buf[:cursor-1], buf[cursor:]...) + case 'f': + buf[cursor] = '\f' + buf = append(buf[:cursor-1], buf[cursor:]...) + case 'n': + buf[cursor] = '\n' + buf = append(buf[:cursor-1], buf[cursor:]...) + case 'r': + buf[cursor] = '\r' + buf = append(buf[:cursor-1], buf[cursor:]...) + case 't': + buf[cursor] = '\t' + buf = append(buf[:cursor-1], buf[cursor:]...) + case 'u': + buflen := int64(len(buf)) + if cursor+5 >= buflen { + return nil, 0, errors.ErrUnexpectedEndOfJSON("escaped string", cursor) + } + code := unicodeToRune(buf[cursor+1 : cursor+5]) + unicode := []byte(string(code)) + buf = append(append(buf[:cursor-1], unicode...), buf[cursor+5:]...) + default: + return nil, 0, errors.ErrUnexpectedEndOfJSON("escaped string", cursor) + } + continue + case '"': + literal := buf[start:cursor] + cursor++ + return literal, cursor, nil + case nul: + return nil, 0, errors.ErrUnexpectedEndOfJSON("string", cursor) + } + cursor++ + } + case 'n': + if err := validateNull(buf, cursor); err != nil { + return nil, 0, err + } + cursor += 4 + return nil, cursor, nil + default: + return nil, 0, errors.ErrInvalidBeginningOfValue(buf[cursor], cursor) + } + } +} diff --git a/vendor/github.com/goccy/go-json/internal/decoder/struct.go b/vendor/github.com/goccy/go-json/internal/decoder/struct.go new file mode 100644 index 0000000..2c64680 --- /dev/null +++ b/vendor/github.com/goccy/go-json/internal/decoder/struct.go @@ -0,0 +1,819 @@ +package decoder + +import ( + "fmt" + "math" + "math/bits" + "sort" + "strings" + "unicode" + "unicode/utf16" + "unsafe" + + "github.com/goccy/go-json/internal/errors" +) + +type structFieldSet struct { + dec Decoder + offset uintptr + isTaggedKey bool + fieldIdx int + key string + keyLen int64 + err error +} + +type structDecoder struct { + fieldMap map[string]*structFieldSet + fieldUniqueNameNum int + stringDecoder *stringDecoder + structName string + fieldName string + isTriedOptimize bool + keyBitmapUint8 [][256]uint8 + keyBitmapUint16 [][256]uint16 + sortedFieldSets []*structFieldSet + keyDecoder func(*structDecoder, []byte, int64) (int64, *structFieldSet, error) + keyStreamDecoder func(*structDecoder, *Stream) (*structFieldSet, string, error) +} + +var ( + largeToSmallTable [256]byte +) + +func init() { + for i := 0; i < 256; i++ { + c := i + if 'A' <= c && c <= 'Z' { + c += 'a' - 'A' + } + largeToSmallTable[i] = byte(c) + } +} + +func newStructDecoder(structName, fieldName string, fieldMap map[string]*structFieldSet) *structDecoder { + return &structDecoder{ + fieldMap: fieldMap, + stringDecoder: newStringDecoder(structName, fieldName), + structName: structName, + fieldName: fieldName, + keyDecoder: decodeKey, + keyStreamDecoder: decodeKeyStream, + } +} + +const ( + allowOptimizeMaxKeyLen = 64 + allowOptimizeMaxFieldLen = 16 +) + +func (d *structDecoder) tryOptimize() { + fieldUniqueNameMap := map[string]int{} + fieldIdx := -1 + for k, v := range d.fieldMap { + lower := strings.ToLower(k) + idx, exists := fieldUniqueNameMap[lower] + if exists { + v.fieldIdx = idx + } else { + fieldIdx++ + v.fieldIdx = fieldIdx + } + fieldUniqueNameMap[lower] = fieldIdx + } + d.fieldUniqueNameNum = len(fieldUniqueNameMap) + + if d.isTriedOptimize { + return + } + fieldMap := map[string]*structFieldSet{} + conflicted := map[string]struct{}{} + for k, v := range d.fieldMap { + key := strings.ToLower(k) + if key != k { + // already exists same key (e.g. Hello and HELLO has same lower case key + if _, exists := conflicted[key]; exists { + d.isTriedOptimize = true + return + } + conflicted[key] = struct{}{} + } + if field, exists := fieldMap[key]; exists { + if field != v { + d.isTriedOptimize = true + return + } + } + fieldMap[key] = v + } + + if len(fieldMap) > allowOptimizeMaxFieldLen { + d.isTriedOptimize = true + return + } + + var maxKeyLen int + sortedKeys := []string{} + for key := range fieldMap { + keyLen := len(key) + if keyLen > allowOptimizeMaxKeyLen { + d.isTriedOptimize = true + return + } + if maxKeyLen < keyLen { + maxKeyLen = keyLen + } + sortedKeys = append(sortedKeys, key) + } + sort.Strings(sortedKeys) + + // By allocating one extra capacity than `maxKeyLen`, + // it is possible to avoid the process of comparing the index of the key with the length of the bitmap each time. + bitmapLen := maxKeyLen + 1 + if len(sortedKeys) <= 8 { + keyBitmap := make([][256]uint8, bitmapLen) + for i, key := range sortedKeys { + for j := 0; j < len(key); j++ { + c := key[j] + keyBitmap[j][c] |= (1 << uint(i)) + } + d.sortedFieldSets = append(d.sortedFieldSets, fieldMap[key]) + } + d.keyBitmapUint8 = keyBitmap + d.keyDecoder = decodeKeyByBitmapUint8 + d.keyStreamDecoder = decodeKeyByBitmapUint8Stream + } else { + keyBitmap := make([][256]uint16, bitmapLen) + for i, key := range sortedKeys { + for j := 0; j < len(key); j++ { + c := key[j] + keyBitmap[j][c] |= (1 << uint(i)) + } + d.sortedFieldSets = append(d.sortedFieldSets, fieldMap[key]) + } + d.keyBitmapUint16 = keyBitmap + d.keyDecoder = decodeKeyByBitmapUint16 + d.keyStreamDecoder = decodeKeyByBitmapUint16Stream + } +} + +// decode from '\uXXXX' +func decodeKeyCharByUnicodeRune(buf []byte, cursor int64) ([]byte, int64) { + const defaultOffset = 4 + const surrogateOffset = 6 + + r := unicodeToRune(buf[cursor : cursor+defaultOffset]) + if utf16.IsSurrogate(r) { + cursor += defaultOffset + if cursor+surrogateOffset >= int64(len(buf)) || buf[cursor] != '\\' || buf[cursor+1] != 'u' { + return []byte(string(unicode.ReplacementChar)), cursor + defaultOffset - 1 + } + cursor += 2 + r2 := unicodeToRune(buf[cursor : cursor+defaultOffset]) + if r := utf16.DecodeRune(r, r2); r != unicode.ReplacementChar { + return []byte(string(r)), cursor + defaultOffset - 1 + } + } + return []byte(string(r)), cursor + defaultOffset - 1 +} + +func decodeKeyCharByEscapedChar(buf []byte, cursor int64) ([]byte, int64) { + c := buf[cursor] + cursor++ + switch c { + case '"': + return []byte{'"'}, cursor + case '\\': + return []byte{'\\'}, cursor + case '/': + return []byte{'/'}, cursor + case 'b': + return []byte{'\b'}, cursor + case 'f': + return []byte{'\f'}, cursor + case 'n': + return []byte{'\n'}, cursor + case 'r': + return []byte{'\r'}, cursor + case 't': + return []byte{'\t'}, cursor + case 'u': + return decodeKeyCharByUnicodeRune(buf, cursor) + } + return nil, cursor +} + +func decodeKeyByBitmapUint8(d *structDecoder, buf []byte, cursor int64) (int64, *structFieldSet, error) { + var ( + curBit uint8 = math.MaxUint8 + ) + b := (*sliceHeader)(unsafe.Pointer(&buf)).data + for { + switch char(b, cursor) { + case ' ', '\n', '\t', '\r': + cursor++ + case '"': + cursor++ + c := char(b, cursor) + switch c { + case '"': + cursor++ + return cursor, nil, nil + case nul: + return 0, nil, errors.ErrUnexpectedEndOfJSON("string", cursor) + } + keyIdx := 0 + bitmap := d.keyBitmapUint8 + start := cursor + for { + c := char(b, cursor) + switch c { + case '"': + fieldSetIndex := bits.TrailingZeros8(curBit) + field := d.sortedFieldSets[fieldSetIndex] + keyLen := cursor - start + cursor++ + if keyLen < field.keyLen { + // early match + return cursor, nil, nil + } + return cursor, field, nil + case nul: + return 0, nil, errors.ErrUnexpectedEndOfJSON("string", cursor) + case '\\': + cursor++ + chars, nextCursor := decodeKeyCharByEscapedChar(buf, cursor) + for _, c := range chars { + curBit &= bitmap[keyIdx][largeToSmallTable[c]] + if curBit == 0 { + return decodeKeyNotFound(b, cursor) + } + keyIdx++ + } + cursor = nextCursor + default: + curBit &= bitmap[keyIdx][largeToSmallTable[c]] + if curBit == 0 { + return decodeKeyNotFound(b, cursor) + } + keyIdx++ + } + cursor++ + } + default: + return cursor, nil, errors.ErrInvalidBeginningOfValue(char(b, cursor), cursor) + } + } +} + +func decodeKeyByBitmapUint16(d *structDecoder, buf []byte, cursor int64) (int64, *structFieldSet, error) { + var ( + curBit uint16 = math.MaxUint16 + ) + b := (*sliceHeader)(unsafe.Pointer(&buf)).data + for { + switch char(b, cursor) { + case ' ', '\n', '\t', '\r': + cursor++ + case '"': + cursor++ + c := char(b, cursor) + switch c { + case '"': + cursor++ + return cursor, nil, nil + case nul: + return 0, nil, errors.ErrUnexpectedEndOfJSON("string", cursor) + } + keyIdx := 0 + bitmap := d.keyBitmapUint16 + start := cursor + for { + c := char(b, cursor) + switch c { + case '"': + fieldSetIndex := bits.TrailingZeros16(curBit) + field := d.sortedFieldSets[fieldSetIndex] + keyLen := cursor - start + cursor++ + if keyLen < field.keyLen { + // early match + return cursor, nil, nil + } + return cursor, field, nil + case nul: + return 0, nil, errors.ErrUnexpectedEndOfJSON("string", cursor) + case '\\': + cursor++ + chars, nextCursor := decodeKeyCharByEscapedChar(buf, cursor) + for _, c := range chars { + curBit &= bitmap[keyIdx][largeToSmallTable[c]] + if curBit == 0 { + return decodeKeyNotFound(b, cursor) + } + keyIdx++ + } + cursor = nextCursor + default: + curBit &= bitmap[keyIdx][largeToSmallTable[c]] + if curBit == 0 { + return decodeKeyNotFound(b, cursor) + } + keyIdx++ + } + cursor++ + } + default: + return cursor, nil, errors.ErrInvalidBeginningOfValue(char(b, cursor), cursor) + } + } +} + +func decodeKeyNotFound(b unsafe.Pointer, cursor int64) (int64, *structFieldSet, error) { + for { + cursor++ + switch char(b, cursor) { + case '"': + cursor++ + return cursor, nil, nil + case '\\': + cursor++ + if char(b, cursor) == nul { + return 0, nil, errors.ErrUnexpectedEndOfJSON("string", cursor) + } + case nul: + return 0, nil, errors.ErrUnexpectedEndOfJSON("string", cursor) + } + } +} + +func decodeKey(d *structDecoder, buf []byte, cursor int64) (int64, *structFieldSet, error) { + key, c, err := d.stringDecoder.decodeByte(buf, cursor) + if err != nil { + return 0, nil, err + } + cursor = c + k := *(*string)(unsafe.Pointer(&key)) + field, exists := d.fieldMap[k] + if !exists { + return cursor, nil, nil + } + return cursor, field, nil +} + +func decodeKeyByBitmapUint8Stream(d *structDecoder, s *Stream) (*structFieldSet, string, error) { + var ( + curBit uint8 = math.MaxUint8 + ) + _, cursor, p := s.stat() + for { + switch char(p, cursor) { + case ' ', '\n', '\t', '\r': + cursor++ + case nul: + s.cursor = cursor + if s.read() { + _, cursor, p = s.stat() + continue + } + return nil, "", errors.ErrInvalidBeginningOfValue(char(p, cursor), s.totalOffset()) + case '"': + cursor++ + FIRST_CHAR: + start := cursor + switch char(p, cursor) { + case '"': + cursor++ + s.cursor = cursor + return nil, "", nil + case nul: + s.cursor = cursor + if s.read() { + _, cursor, p = s.stat() + goto FIRST_CHAR + } + return nil, "", errors.ErrUnexpectedEndOfJSON("string", s.totalOffset()) + } + keyIdx := 0 + bitmap := d.keyBitmapUint8 + for { + c := char(p, cursor) + switch c { + case '"': + fieldSetIndex := bits.TrailingZeros8(curBit) + field := d.sortedFieldSets[fieldSetIndex] + keyLen := cursor - start + cursor++ + s.cursor = cursor + if keyLen < field.keyLen { + // early match + return nil, field.key, nil + } + return field, field.key, nil + case nul: + s.cursor = cursor + if s.read() { + _, cursor, p = s.stat() + continue + } + return nil, "", errors.ErrUnexpectedEndOfJSON("string", s.totalOffset()) + case '\\': + s.cursor = cursor + 1 // skip '\' char + chars, err := decodeKeyCharByEscapeCharStream(s) + if err != nil { + return nil, "", err + } + cursor = s.cursor + for _, c := range chars { + curBit &= bitmap[keyIdx][largeToSmallTable[c]] + if curBit == 0 { + s.cursor = cursor + return decodeKeyNotFoundStream(s, start) + } + keyIdx++ + } + default: + curBit &= bitmap[keyIdx][largeToSmallTable[c]] + if curBit == 0 { + s.cursor = cursor + return decodeKeyNotFoundStream(s, start) + } + keyIdx++ + } + cursor++ + } + default: + return nil, "", errors.ErrInvalidBeginningOfValue(char(p, cursor), s.totalOffset()) + } + } +} + +func decodeKeyByBitmapUint16Stream(d *structDecoder, s *Stream) (*structFieldSet, string, error) { + var ( + curBit uint16 = math.MaxUint16 + ) + _, cursor, p := s.stat() + for { + switch char(p, cursor) { + case ' ', '\n', '\t', '\r': + cursor++ + case nul: + s.cursor = cursor + if s.read() { + _, cursor, p = s.stat() + continue + } + return nil, "", errors.ErrInvalidBeginningOfValue(char(p, cursor), s.totalOffset()) + case '"': + cursor++ + FIRST_CHAR: + start := cursor + switch char(p, cursor) { + case '"': + cursor++ + s.cursor = cursor + return nil, "", nil + case nul: + s.cursor = cursor + if s.read() { + _, cursor, p = s.stat() + goto FIRST_CHAR + } + return nil, "", errors.ErrUnexpectedEndOfJSON("string", s.totalOffset()) + } + keyIdx := 0 + bitmap := d.keyBitmapUint16 + for { + c := char(p, cursor) + switch c { + case '"': + fieldSetIndex := bits.TrailingZeros16(curBit) + field := d.sortedFieldSets[fieldSetIndex] + keyLen := cursor - start + cursor++ + s.cursor = cursor + if keyLen < field.keyLen { + // early match + return nil, field.key, nil + } + return field, field.key, nil + case nul: + s.cursor = cursor + if s.read() { + _, cursor, p = s.stat() + continue + } + return nil, "", errors.ErrUnexpectedEndOfJSON("string", s.totalOffset()) + case '\\': + s.cursor = cursor + 1 // skip '\' char + chars, err := decodeKeyCharByEscapeCharStream(s) + if err != nil { + return nil, "", err + } + cursor = s.cursor + for _, c := range chars { + curBit &= bitmap[keyIdx][largeToSmallTable[c]] + if curBit == 0 { + s.cursor = cursor + return decodeKeyNotFoundStream(s, start) + } + keyIdx++ + } + default: + curBit &= bitmap[keyIdx][largeToSmallTable[c]] + if curBit == 0 { + s.cursor = cursor + return decodeKeyNotFoundStream(s, start) + } + keyIdx++ + } + cursor++ + } + default: + return nil, "", errors.ErrInvalidBeginningOfValue(char(p, cursor), s.totalOffset()) + } + } +} + +// decode from '\uXXXX' +func decodeKeyCharByUnicodeRuneStream(s *Stream) ([]byte, error) { + const defaultOffset = 4 + const surrogateOffset = 6 + + if s.cursor+defaultOffset >= s.length { + if !s.read() { + return nil, errors.ErrInvalidCharacter(s.char(), "escaped unicode char", s.totalOffset()) + } + } + + r := unicodeToRune(s.buf[s.cursor : s.cursor+defaultOffset]) + if utf16.IsSurrogate(r) { + s.cursor += defaultOffset + if s.cursor+surrogateOffset >= s.length { + s.read() + } + if s.cursor+surrogateOffset >= s.length || s.buf[s.cursor] != '\\' || s.buf[s.cursor+1] != 'u' { + s.cursor += defaultOffset - 1 + return []byte(string(unicode.ReplacementChar)), nil + } + r2 := unicodeToRune(s.buf[s.cursor+defaultOffset+2 : s.cursor+surrogateOffset]) + if r := utf16.DecodeRune(r, r2); r != unicode.ReplacementChar { + s.cursor += defaultOffset - 1 + return []byte(string(r)), nil + } + } + s.cursor += defaultOffset - 1 + return []byte(string(r)), nil +} + +func decodeKeyCharByEscapeCharStream(s *Stream) ([]byte, error) { + c := s.buf[s.cursor] + s.cursor++ +RETRY: + switch c { + case '"': + return []byte{'"'}, nil + case '\\': + return []byte{'\\'}, nil + case '/': + return []byte{'/'}, nil + case 'b': + return []byte{'\b'}, nil + case 'f': + return []byte{'\f'}, nil + case 'n': + return []byte{'\n'}, nil + case 'r': + return []byte{'\r'}, nil + case 't': + return []byte{'\t'}, nil + case 'u': + return decodeKeyCharByUnicodeRuneStream(s) + case nul: + if !s.read() { + return nil, errors.ErrInvalidCharacter(s.char(), "escaped char", s.totalOffset()) + } + goto RETRY + default: + return nil, errors.ErrUnexpectedEndOfJSON("struct field", s.totalOffset()) + } +} + +func decodeKeyNotFoundStream(s *Stream, start int64) (*structFieldSet, string, error) { + buf, cursor, p := s.stat() + for { + cursor++ + switch char(p, cursor) { + case '"': + b := buf[start:cursor] + key := *(*string)(unsafe.Pointer(&b)) + cursor++ + s.cursor = cursor + return nil, key, nil + case '\\': + cursor++ + if char(p, cursor) == nul { + s.cursor = cursor + if !s.read() { + return nil, "", errors.ErrUnexpectedEndOfJSON("string", s.totalOffset()) + } + buf, cursor, p = s.statForRetry() + } + case nul: + s.cursor = cursor + if !s.read() { + return nil, "", errors.ErrUnexpectedEndOfJSON("string", s.totalOffset()) + } + buf, cursor, p = s.statForRetry() + } + } +} + +func decodeKeyStream(d *structDecoder, s *Stream) (*structFieldSet, string, error) { + key, err := d.stringDecoder.decodeStreamByte(s) + if err != nil { + return nil, "", err + } + k := *(*string)(unsafe.Pointer(&key)) + return d.fieldMap[k], k, nil +} + +func (d *structDecoder) DecodeStream(s *Stream, depth int64, p unsafe.Pointer) error { + depth++ + if depth > maxDecodeNestingDepth { + return errors.ErrExceededMaxDepth(s.char(), s.cursor) + } + + c := s.skipWhiteSpace() + switch c { + case 'n': + if err := nullBytes(s); err != nil { + return err + } + return nil + default: + if s.char() != '{' { + return errors.ErrInvalidBeginningOfValue(s.char(), s.totalOffset()) + } + } + s.cursor++ + if s.skipWhiteSpace() == '}' { + s.cursor++ + return nil + } + var ( + seenFields map[int]struct{} + seenFieldNum int + ) + firstWin := (s.Option.Flags & FirstWinOption) != 0 + if firstWin { + seenFields = make(map[int]struct{}, d.fieldUniqueNameNum) + } + for { + s.reset() + field, key, err := d.keyStreamDecoder(d, s) + if err != nil { + return err + } + if s.skipWhiteSpace() != ':' { + return errors.ErrExpected("colon after object key", s.totalOffset()) + } + s.cursor++ + if field != nil { + if field.err != nil { + return field.err + } + if firstWin { + if _, exists := seenFields[field.fieldIdx]; exists { + if err := s.skipValue(depth); err != nil { + return err + } + } else { + if err := field.dec.DecodeStream(s, depth, unsafe.Pointer(uintptr(p)+field.offset)); err != nil { + return err + } + seenFieldNum++ + if d.fieldUniqueNameNum <= seenFieldNum { + return s.skipObject(depth) + } + seenFields[field.fieldIdx] = struct{}{} + } + } else { + if err := field.dec.DecodeStream(s, depth, unsafe.Pointer(uintptr(p)+field.offset)); err != nil { + return err + } + } + } else if s.DisallowUnknownFields { + return fmt.Errorf("json: unknown field %q", key) + } else { + if err := s.skipValue(depth); err != nil { + return err + } + } + c := s.skipWhiteSpace() + if c == '}' { + s.cursor++ + return nil + } + if c != ',' { + return errors.ErrExpected("comma after object element", s.totalOffset()) + } + s.cursor++ + } +} + +func (d *structDecoder) Decode(ctx *RuntimeContext, cursor, depth int64, p unsafe.Pointer) (int64, error) { + buf := ctx.Buf + depth++ + if depth > maxDecodeNestingDepth { + return 0, errors.ErrExceededMaxDepth(buf[cursor], cursor) + } + buflen := int64(len(buf)) + cursor = skipWhiteSpace(buf, cursor) + b := (*sliceHeader)(unsafe.Pointer(&buf)).data + switch char(b, cursor) { + case 'n': + if err := validateNull(buf, cursor); err != nil { + return 0, err + } + cursor += 4 + return cursor, nil + case '{': + default: + return 0, errors.ErrInvalidBeginningOfValue(char(b, cursor), cursor) + } + cursor++ + cursor = skipWhiteSpace(buf, cursor) + if buf[cursor] == '}' { + cursor++ + return cursor, nil + } + var ( + seenFields map[int]struct{} + seenFieldNum int + ) + firstWin := (ctx.Option.Flags & FirstWinOption) != 0 + if firstWin { + seenFields = make(map[int]struct{}, d.fieldUniqueNameNum) + } + for { + c, field, err := d.keyDecoder(d, buf, cursor) + if err != nil { + return 0, err + } + cursor = skipWhiteSpace(buf, c) + if char(b, cursor) != ':' { + return 0, errors.ErrExpected("colon after object key", cursor) + } + cursor++ + if cursor >= buflen { + return 0, errors.ErrExpected("object value after colon", cursor) + } + if field != nil { + if field.err != nil { + return 0, field.err + } + if firstWin { + if _, exists := seenFields[field.fieldIdx]; exists { + c, err := skipValue(buf, cursor, depth) + if err != nil { + return 0, err + } + cursor = c + } else { + c, err := field.dec.Decode(ctx, cursor, depth, unsafe.Pointer(uintptr(p)+field.offset)) + if err != nil { + return 0, err + } + cursor = c + seenFieldNum++ + if d.fieldUniqueNameNum <= seenFieldNum { + return skipObject(buf, cursor, depth) + } + seenFields[field.fieldIdx] = struct{}{} + } + } else { + c, err := field.dec.Decode(ctx, cursor, depth, unsafe.Pointer(uintptr(p)+field.offset)) + if err != nil { + return 0, err + } + cursor = c + } + } else { + c, err := skipValue(buf, cursor, depth) + if err != nil { + return 0, err + } + cursor = c + } + cursor = skipWhiteSpace(buf, cursor) + if char(b, cursor) == '}' { + cursor++ + return cursor, nil + } + if char(b, cursor) != ',' { + return 0, errors.ErrExpected("comma after object element", cursor) + } + cursor++ + } +} diff --git a/vendor/github.com/goccy/go-json/internal/decoder/type.go b/vendor/github.com/goccy/go-json/internal/decoder/type.go new file mode 100644 index 0000000..70e9907 --- /dev/null +++ b/vendor/github.com/goccy/go-json/internal/decoder/type.go @@ -0,0 +1,29 @@ +package decoder + +import ( + "context" + "encoding" + "encoding/json" + "reflect" + "unsafe" +) + +type Decoder interface { + Decode(*RuntimeContext, int64, int64, unsafe.Pointer) (int64, error) + DecodeStream(*Stream, int64, unsafe.Pointer) error +} + +const ( + nul = '\000' + maxDecodeNestingDepth = 10000 +) + +type unmarshalerContext interface { + UnmarshalJSON(context.Context, []byte) error +} + +var ( + unmarshalJSONType = reflect.TypeOf((*json.Unmarshaler)(nil)).Elem() + unmarshalJSONContextType = reflect.TypeOf((*unmarshalerContext)(nil)).Elem() + unmarshalTextType = reflect.TypeOf((*encoding.TextUnmarshaler)(nil)).Elem() +) diff --git a/vendor/github.com/goccy/go-json/internal/decoder/uint.go b/vendor/github.com/goccy/go-json/internal/decoder/uint.go new file mode 100644 index 0000000..a62c514 --- /dev/null +++ b/vendor/github.com/goccy/go-json/internal/decoder/uint.go @@ -0,0 +1,190 @@ +package decoder + +import ( + "fmt" + "reflect" + "unsafe" + + "github.com/goccy/go-json/internal/errors" + "github.com/goccy/go-json/internal/runtime" +) + +type uintDecoder struct { + typ *runtime.Type + kind reflect.Kind + op func(unsafe.Pointer, uint64) + structName string + fieldName string +} + +func newUintDecoder(typ *runtime.Type, structName, fieldName string, op func(unsafe.Pointer, uint64)) *uintDecoder { + return &uintDecoder{ + typ: typ, + kind: typ.Kind(), + op: op, + structName: structName, + fieldName: fieldName, + } +} + +func (d *uintDecoder) typeError(buf []byte, offset int64) *errors.UnmarshalTypeError { + return &errors.UnmarshalTypeError{ + Value: fmt.Sprintf("number %s", string(buf)), + Type: runtime.RType2Type(d.typ), + Offset: offset, + } +} + +var ( + pow10u64 = [...]uint64{ + 1e00, 1e01, 1e02, 1e03, 1e04, 1e05, 1e06, 1e07, 1e08, 1e09, + 1e10, 1e11, 1e12, 1e13, 1e14, 1e15, 1e16, 1e17, 1e18, 1e19, + } + pow10u64Len = len(pow10u64) +) + +func (d *uintDecoder) parseUint(b []byte) (uint64, error) { + maxDigit := len(b) + if maxDigit > pow10u64Len { + return 0, fmt.Errorf("invalid length of number") + } + sum := uint64(0) + for i := 0; i < maxDigit; i++ { + c := uint64(b[i]) - 48 + digitValue := pow10u64[maxDigit-i-1] + sum += c * digitValue + } + return sum, nil +} + +func (d *uintDecoder) decodeStreamByte(s *Stream) ([]byte, error) { + for { + switch s.char() { + case ' ', '\n', '\t', '\r': + s.cursor++ + continue + case '0': + s.cursor++ + return numZeroBuf, nil + case '1', '2', '3', '4', '5', '6', '7', '8', '9': + start := s.cursor + for { + s.cursor++ + if numTable[s.char()] { + continue + } else if s.char() == nul { + if s.read() { + s.cursor-- // for retry current character + continue + } + } + break + } + num := s.buf[start:s.cursor] + return num, nil + case 'n': + if err := nullBytes(s); err != nil { + return nil, err + } + return nil, nil + case nul: + if s.read() { + continue + } + default: + return nil, d.typeError([]byte{s.char()}, s.totalOffset()) + } + break + } + return nil, errors.ErrUnexpectedEndOfJSON("number(unsigned integer)", s.totalOffset()) +} + +func (d *uintDecoder) decodeByte(buf []byte, cursor int64) ([]byte, int64, error) { + for { + switch buf[cursor] { + case ' ', '\n', '\t', '\r': + cursor++ + continue + case '0': + cursor++ + return numZeroBuf, cursor, nil + case '1', '2', '3', '4', '5', '6', '7', '8', '9': + start := cursor + cursor++ + for numTable[buf[cursor]] { + cursor++ + } + num := buf[start:cursor] + return num, cursor, nil + case 'n': + if err := validateNull(buf, cursor); err != nil { + return nil, 0, err + } + cursor += 4 + return nil, cursor, nil + default: + return nil, 0, d.typeError([]byte{buf[cursor]}, cursor) + } + } +} + +func (d *uintDecoder) DecodeStream(s *Stream, depth int64, p unsafe.Pointer) error { + bytes, err := d.decodeStreamByte(s) + if err != nil { + return err + } + if bytes == nil { + return nil + } + u64, err := d.parseUint(bytes) + if err != nil { + return d.typeError(bytes, s.totalOffset()) + } + switch d.kind { + case reflect.Uint8: + if (1 << 8) <= u64 { + return d.typeError(bytes, s.totalOffset()) + } + case reflect.Uint16: + if (1 << 16) <= u64 { + return d.typeError(bytes, s.totalOffset()) + } + case reflect.Uint32: + if (1 << 32) <= u64 { + return d.typeError(bytes, s.totalOffset()) + } + } + d.op(p, u64) + return nil +} + +func (d *uintDecoder) Decode(ctx *RuntimeContext, cursor, depth int64, p unsafe.Pointer) (int64, error) { + bytes, c, err := d.decodeByte(ctx.Buf, cursor) + if err != nil { + return 0, err + } + if bytes == nil { + return c, nil + } + cursor = c + u64, err := d.parseUint(bytes) + if err != nil { + return 0, d.typeError(bytes, cursor) + } + switch d.kind { + case reflect.Uint8: + if (1 << 8) <= u64 { + return 0, d.typeError(bytes, cursor) + } + case reflect.Uint16: + if (1 << 16) <= u64 { + return 0, d.typeError(bytes, cursor) + } + case reflect.Uint32: + if (1 << 32) <= u64 { + return 0, d.typeError(bytes, cursor) + } + } + d.op(p, u64) + return cursor, nil +} diff --git a/vendor/github.com/goccy/go-json/internal/decoder/unmarshal_json.go b/vendor/github.com/goccy/go-json/internal/decoder/unmarshal_json.go new file mode 100644 index 0000000..d90f39c --- /dev/null +++ b/vendor/github.com/goccy/go-json/internal/decoder/unmarshal_json.go @@ -0,0 +1,91 @@ +package decoder + +import ( + "encoding/json" + "unsafe" + + "github.com/goccy/go-json/internal/errors" + "github.com/goccy/go-json/internal/runtime" +) + +type unmarshalJSONDecoder struct { + typ *runtime.Type + structName string + fieldName string +} + +func newUnmarshalJSONDecoder(typ *runtime.Type, structName, fieldName string) *unmarshalJSONDecoder { + return &unmarshalJSONDecoder{ + typ: typ, + structName: structName, + fieldName: fieldName, + } +} + +func (d *unmarshalJSONDecoder) annotateError(cursor int64, err error) { + switch e := err.(type) { + case *errors.UnmarshalTypeError: + e.Struct = d.structName + e.Field = d.fieldName + case *errors.SyntaxError: + e.Offset = cursor + } +} + +func (d *unmarshalJSONDecoder) DecodeStream(s *Stream, depth int64, p unsafe.Pointer) error { + s.skipWhiteSpace() + start := s.cursor + if err := s.skipValue(depth); err != nil { + return err + } + src := s.buf[start:s.cursor] + dst := make([]byte, len(src)) + copy(dst, src) + + v := *(*interface{})(unsafe.Pointer(&emptyInterface{ + typ: d.typ, + ptr: p, + })) + if (s.Option.Flags & ContextOption) != 0 { + if err := v.(unmarshalerContext).UnmarshalJSON(s.Option.Context, dst); err != nil { + d.annotateError(s.cursor, err) + return err + } + } else { + if err := v.(json.Unmarshaler).UnmarshalJSON(dst); err != nil { + d.annotateError(s.cursor, err) + return err + } + } + return nil +} + +func (d *unmarshalJSONDecoder) Decode(ctx *RuntimeContext, cursor, depth int64, p unsafe.Pointer) (int64, error) { + buf := ctx.Buf + cursor = skipWhiteSpace(buf, cursor) + start := cursor + end, err := skipValue(buf, cursor, depth) + if err != nil { + return 0, err + } + src := buf[start:end] + dst := make([]byte, len(src)) + copy(dst, src) + + v := *(*interface{})(unsafe.Pointer(&emptyInterface{ + typ: d.typ, + ptr: p, + })) + if (ctx.Option.Flags & ContextOption) != 0 { + if err := v.(unmarshalerContext).UnmarshalJSON(ctx.Option.Context, dst); err != nil { + d.annotateError(cursor, err) + return 0, err + } + } else { + if err := v.(json.Unmarshaler).UnmarshalJSON(dst); err != nil { + d.annotateError(cursor, err) + return 0, err + } + } + return end, nil +} diff --git a/vendor/github.com/goccy/go-json/internal/decoder/unmarshal_text.go b/vendor/github.com/goccy/go-json/internal/decoder/unmarshal_text.go new file mode 100644 index 0000000..1ef2877 --- /dev/null +++ b/vendor/github.com/goccy/go-json/internal/decoder/unmarshal_text.go @@ -0,0 +1,280 @@ +package decoder + +import ( + "bytes" + "encoding" + "unicode" + "unicode/utf16" + "unicode/utf8" + "unsafe" + + "github.com/goccy/go-json/internal/errors" + "github.com/goccy/go-json/internal/runtime" +) + +type unmarshalTextDecoder struct { + typ *runtime.Type + structName string + fieldName string +} + +func newUnmarshalTextDecoder(typ *runtime.Type, structName, fieldName string) *unmarshalTextDecoder { + return &unmarshalTextDecoder{ + typ: typ, + structName: structName, + fieldName: fieldName, + } +} + +func (d *unmarshalTextDecoder) annotateError(cursor int64, err error) { + switch e := err.(type) { + case *errors.UnmarshalTypeError: + e.Struct = d.structName + e.Field = d.fieldName + case *errors.SyntaxError: + e.Offset = cursor + } +} + +var ( + nullbytes = []byte(`null`) +) + +func (d *unmarshalTextDecoder) DecodeStream(s *Stream, depth int64, p unsafe.Pointer) error { + s.skipWhiteSpace() + start := s.cursor + if err := s.skipValue(depth); err != nil { + return err + } + src := s.buf[start:s.cursor] + if len(src) > 0 { + switch src[0] { + case '[': + return &errors.UnmarshalTypeError{ + Value: "array", + Type: runtime.RType2Type(d.typ), + Offset: s.totalOffset(), + } + case '{': + return &errors.UnmarshalTypeError{ + Value: "object", + Type: runtime.RType2Type(d.typ), + Offset: s.totalOffset(), + } + case '-', '0', '1', '2', '3', '4', '5', '6', '7', '8', '9': + return &errors.UnmarshalTypeError{ + Value: "number", + Type: runtime.RType2Type(d.typ), + Offset: s.totalOffset(), + } + case 'n': + if bytes.Equal(src, nullbytes) { + *(*unsafe.Pointer)(p) = nil + return nil + } + } + } + dst := make([]byte, len(src)) + copy(dst, src) + + if b, ok := unquoteBytes(dst); ok { + dst = b + } + v := *(*interface{})(unsafe.Pointer(&emptyInterface{ + typ: d.typ, + ptr: p, + })) + if err := v.(encoding.TextUnmarshaler).UnmarshalText(dst); err != nil { + d.annotateError(s.cursor, err) + return err + } + return nil +} + +func (d *unmarshalTextDecoder) Decode(ctx *RuntimeContext, cursor, depth int64, p unsafe.Pointer) (int64, error) { + buf := ctx.Buf + cursor = skipWhiteSpace(buf, cursor) + start := cursor + end, err := skipValue(buf, cursor, depth) + if err != nil { + return 0, err + } + src := buf[start:end] + if len(src) > 0 { + switch src[0] { + case '[': + return 0, &errors.UnmarshalTypeError{ + Value: "array", + Type: runtime.RType2Type(d.typ), + Offset: start, + } + case '{': + return 0, &errors.UnmarshalTypeError{ + Value: "object", + Type: runtime.RType2Type(d.typ), + Offset: start, + } + case '-', '0', '1', '2', '3', '4', '5', '6', '7', '8', '9': + return 0, &errors.UnmarshalTypeError{ + Value: "number", + Type: runtime.RType2Type(d.typ), + Offset: start, + } + case 'n': + if bytes.Equal(src, nullbytes) { + *(*unsafe.Pointer)(p) = nil + return end, nil + } + } + } + + if s, ok := unquoteBytes(src); ok { + src = s + } + v := *(*interface{})(unsafe.Pointer(&emptyInterface{ + typ: d.typ, + ptr: *(*unsafe.Pointer)(unsafe.Pointer(&p)), + })) + if err := v.(encoding.TextUnmarshaler).UnmarshalText(src); err != nil { + d.annotateError(cursor, err) + return 0, err + } + return end, nil +} + +func unquoteBytes(s []byte) (t []byte, ok bool) { + length := len(s) + if length < 2 || s[0] != '"' || s[length-1] != '"' { + return + } + s = s[1 : length-1] + length -= 2 + + // Check for unusual characters. If there are none, + // then no unquoting is needed, so return a slice of the + // original bytes. + r := 0 + for r < length { + c := s[r] + if c == '\\' || c == '"' || c < ' ' { + break + } + if c < utf8.RuneSelf { + r++ + continue + } + rr, size := utf8.DecodeRune(s[r:]) + if rr == utf8.RuneError && size == 1 { + break + } + r += size + } + if r == length { + return s, true + } + + b := make([]byte, length+2*utf8.UTFMax) + w := copy(b, s[0:r]) + for r < length { + // Out of room? Can only happen if s is full of + // malformed UTF-8 and we're replacing each + // byte with RuneError. + if w >= len(b)-2*utf8.UTFMax { + nb := make([]byte, (len(b)+utf8.UTFMax)*2) + copy(nb, b[0:w]) + b = nb + } + switch c := s[r]; { + case c == '\\': + r++ + if r >= length { + return + } + switch s[r] { + default: + return + case '"', '\\', '/', '\'': + b[w] = s[r] + r++ + w++ + case 'b': + b[w] = '\b' + r++ + w++ + case 'f': + b[w] = '\f' + r++ + w++ + case 'n': + b[w] = '\n' + r++ + w++ + case 'r': + b[w] = '\r' + r++ + w++ + case 't': + b[w] = '\t' + r++ + w++ + case 'u': + r-- + rr := getu4(s[r:]) + if rr < 0 { + return + } + r += 6 + if utf16.IsSurrogate(rr) { + rr1 := getu4(s[r:]) + if dec := utf16.DecodeRune(rr, rr1); dec != unicode.ReplacementChar { + // A valid pair; consume. + r += 6 + w += utf8.EncodeRune(b[w:], dec) + break + } + // Invalid surrogate; fall back to replacement rune. + rr = unicode.ReplacementChar + } + w += utf8.EncodeRune(b[w:], rr) + } + + // Quote, control characters are invalid. + case c == '"', c < ' ': + return + + // ASCII + case c < utf8.RuneSelf: + b[w] = c + r++ + w++ + + // Coerce to well-formed UTF-8. + default: + rr, size := utf8.DecodeRune(s[r:]) + r += size + w += utf8.EncodeRune(b[w:], rr) + } + } + return b[0:w], true +} + +func getu4(s []byte) rune { + if len(s) < 6 || s[0] != '\\' || s[1] != 'u' { + return -1 + } + var r rune + for _, c := range s[2:6] { + switch { + case '0' <= c && c <= '9': + c = c - '0' + case 'a' <= c && c <= 'f': + c = c - 'a' + 10 + case 'A' <= c && c <= 'F': + c = c - 'A' + 10 + default: + return -1 + } + r = r*16 + rune(c) + } + return r +} diff --git a/vendor/github.com/goccy/go-json/internal/decoder/wrapped_string.go b/vendor/github.com/goccy/go-json/internal/decoder/wrapped_string.go new file mode 100644 index 0000000..66227ae --- /dev/null +++ b/vendor/github.com/goccy/go-json/internal/decoder/wrapped_string.go @@ -0,0 +1,68 @@ +package decoder + +import ( + "reflect" + "unsafe" + + "github.com/goccy/go-json/internal/runtime" +) + +type wrappedStringDecoder struct { + typ *runtime.Type + dec Decoder + stringDecoder *stringDecoder + structName string + fieldName string + isPtrType bool +} + +func newWrappedStringDecoder(typ *runtime.Type, dec Decoder, structName, fieldName string) *wrappedStringDecoder { + return &wrappedStringDecoder{ + typ: typ, + dec: dec, + stringDecoder: newStringDecoder(structName, fieldName), + structName: structName, + fieldName: fieldName, + isPtrType: typ.Kind() == reflect.Ptr, + } +} + +func (d *wrappedStringDecoder) DecodeStream(s *Stream, depth int64, p unsafe.Pointer) error { + bytes, err := d.stringDecoder.decodeStreamByte(s) + if err != nil { + return err + } + if bytes == nil { + if d.isPtrType { + *(*unsafe.Pointer)(p) = nil + } + return nil + } + b := make([]byte, len(bytes)+1) + copy(b, bytes) + if _, err := d.dec.Decode(&RuntimeContext{Buf: b}, 0, depth, p); err != nil { + return err + } + return nil +} + +func (d *wrappedStringDecoder) Decode(ctx *RuntimeContext, cursor, depth int64, p unsafe.Pointer) (int64, error) { + bytes, c, err := d.stringDecoder.decodeByte(ctx.Buf, cursor) + if err != nil { + return 0, err + } + if bytes == nil { + if d.isPtrType { + *(*unsafe.Pointer)(p) = nil + } + return c, nil + } + bytes = append(bytes, nul) + oldBuf := ctx.Buf + ctx.Buf = bytes + if _, err := d.dec.Decode(ctx, 0, depth, p); err != nil { + return 0, err + } + ctx.Buf = oldBuf + return c, nil +} diff --git a/vendor/github.com/goccy/go-json/internal/encoder/compact.go b/vendor/github.com/goccy/go-json/internal/encoder/compact.go new file mode 100644 index 0000000..0eb9545 --- /dev/null +++ b/vendor/github.com/goccy/go-json/internal/encoder/compact.go @@ -0,0 +1,286 @@ +package encoder + +import ( + "bytes" + "fmt" + "strconv" + "unsafe" + + "github.com/goccy/go-json/internal/errors" +) + +var ( + isWhiteSpace = [256]bool{ + ' ': true, + '\n': true, + '\t': true, + '\r': true, + } + isHTMLEscapeChar = [256]bool{ + '<': true, + '>': true, + '&': true, + } + nul = byte('\000') +) + +func Compact(buf *bytes.Buffer, src []byte, escape bool) error { + if len(src) == 0 { + return errors.ErrUnexpectedEndOfJSON("", 0) + } + buf.Grow(len(src)) + dst := buf.Bytes() + + ctx := TakeRuntimeContext() + ctxBuf := ctx.Buf[:0] + ctxBuf = append(append(ctxBuf, src...), nul) + ctx.Buf = ctxBuf + + if err := compactAndWrite(buf, dst, ctxBuf, escape); err != nil { + ReleaseRuntimeContext(ctx) + return err + } + ReleaseRuntimeContext(ctx) + return nil +} + +func compactAndWrite(buf *bytes.Buffer, dst []byte, src []byte, escape bool) error { + dst, err := compact(dst, src, escape) + if err != nil { + return err + } + if _, err := buf.Write(dst); err != nil { + return err + } + return nil +} + +func compact(dst, src []byte, escape bool) ([]byte, error) { + buf, cursor, err := compactValue(dst, src, 0, escape) + if err != nil { + return nil, err + } + if err := validateEndBuf(src, cursor); err != nil { + return nil, err + } + return buf, nil +} + +func validateEndBuf(src []byte, cursor int64) error { + for { + switch src[cursor] { + case ' ', '\t', '\n', '\r': + cursor++ + continue + case nul: + return nil + } + return errors.ErrSyntax( + fmt.Sprintf("invalid character '%c' after top-level value", src[cursor]), + cursor+1, + ) + } +} + +func skipWhiteSpace(buf []byte, cursor int64) int64 { +LOOP: + if isWhiteSpace[buf[cursor]] { + cursor++ + goto LOOP + } + return cursor +} + +func compactValue(dst, src []byte, cursor int64, escape bool) ([]byte, int64, error) { + for { + switch src[cursor] { + case ' ', '\t', '\n', '\r': + cursor++ + continue + case '{': + return compactObject(dst, src, cursor, escape) + case '}': + return nil, 0, errors.ErrSyntax("unexpected character '}'", cursor) + case '[': + return compactArray(dst, src, cursor, escape) + case ']': + return nil, 0, errors.ErrSyntax("unexpected character ']'", cursor) + case '"': + return compactString(dst, src, cursor, escape) + case '-', '0', '1', '2', '3', '4', '5', '6', '7', '8', '9': + return compactNumber(dst, src, cursor) + case 't': + return compactTrue(dst, src, cursor) + case 'f': + return compactFalse(dst, src, cursor) + case 'n': + return compactNull(dst, src, cursor) + default: + return nil, 0, errors.ErrSyntax(fmt.Sprintf("unexpected character '%c'", src[cursor]), cursor) + } + } +} + +func compactObject(dst, src []byte, cursor int64, escape bool) ([]byte, int64, error) { + if src[cursor] == '{' { + dst = append(dst, '{') + } else { + return nil, 0, errors.ErrExpected("expected { character for object value", cursor) + } + cursor = skipWhiteSpace(src, cursor+1) + if src[cursor] == '}' { + dst = append(dst, '}') + return dst, cursor + 1, nil + } + var err error + for { + cursor = skipWhiteSpace(src, cursor) + dst, cursor, err = compactString(dst, src, cursor, escape) + if err != nil { + return nil, 0, err + } + cursor = skipWhiteSpace(src, cursor) + if src[cursor] != ':' { + return nil, 0, errors.ErrExpected("colon after object key", cursor) + } + dst = append(dst, ':') + dst, cursor, err = compactValue(dst, src, cursor+1, escape) + if err != nil { + return nil, 0, err + } + cursor = skipWhiteSpace(src, cursor) + switch src[cursor] { + case '}': + dst = append(dst, '}') + cursor++ + return dst, cursor, nil + case ',': + dst = append(dst, ',') + default: + return nil, 0, errors.ErrExpected("comma after object value", cursor) + } + cursor++ + } +} + +func compactArray(dst, src []byte, cursor int64, escape bool) ([]byte, int64, error) { + if src[cursor] == '[' { + dst = append(dst, '[') + } else { + return nil, 0, errors.ErrExpected("expected [ character for array value", cursor) + } + cursor = skipWhiteSpace(src, cursor+1) + if src[cursor] == ']' { + dst = append(dst, ']') + return dst, cursor + 1, nil + } + var err error + for { + dst, cursor, err = compactValue(dst, src, cursor, escape) + if err != nil { + return nil, 0, err + } + cursor = skipWhiteSpace(src, cursor) + switch src[cursor] { + case ']': + dst = append(dst, ']') + cursor++ + return dst, cursor, nil + case ',': + dst = append(dst, ',') + default: + return nil, 0, errors.ErrExpected("comma after array value", cursor) + } + cursor++ + } +} + +func compactString(dst, src []byte, cursor int64, escape bool) ([]byte, int64, error) { + if src[cursor] != '"' { + return nil, 0, errors.ErrInvalidCharacter(src[cursor], "string", cursor) + } + start := cursor + for { + cursor++ + c := src[cursor] + if escape { + if isHTMLEscapeChar[c] { + dst = append(dst, src[start:cursor]...) + dst = append(dst, `\u00`...) + dst = append(dst, hex[c>>4], hex[c&0xF]) + start = cursor + 1 + } else if c == 0xE2 && cursor+2 < int64(len(src)) && src[cursor+1] == 0x80 && src[cursor+2]&^1 == 0xA8 { + dst = append(dst, src[start:cursor]...) + dst = append(dst, `\u202`...) + dst = append(dst, hex[src[cursor+2]&0xF]) + cursor += 2 + start = cursor + 3 + } + } + switch c { + case '\\': + cursor++ + if src[cursor] == nul { + return nil, 0, errors.ErrUnexpectedEndOfJSON("string", int64(len(src))) + } + case '"': + cursor++ + return append(dst, src[start:cursor]...), cursor, nil + case nul: + return nil, 0, errors.ErrUnexpectedEndOfJSON("string", int64(len(src))) + } + } +} + +func compactNumber(dst, src []byte, cursor int64) ([]byte, int64, error) { + start := cursor + for { + cursor++ + if floatTable[src[cursor]] { + continue + } + break + } + num := src[start:cursor] + if _, err := strconv.ParseFloat(*(*string)(unsafe.Pointer(&num)), 64); err != nil { + return nil, 0, err + } + dst = append(dst, num...) + return dst, cursor, nil +} + +func compactTrue(dst, src []byte, cursor int64) ([]byte, int64, error) { + if cursor+3 >= int64(len(src)) { + return nil, 0, errors.ErrUnexpectedEndOfJSON("true", cursor) + } + if !bytes.Equal(src[cursor:cursor+4], []byte(`true`)) { + return nil, 0, errors.ErrInvalidCharacter(src[cursor], "true", cursor) + } + dst = append(dst, "true"...) + cursor += 4 + return dst, cursor, nil +} + +func compactFalse(dst, src []byte, cursor int64) ([]byte, int64, error) { + if cursor+4 >= int64(len(src)) { + return nil, 0, errors.ErrUnexpectedEndOfJSON("false", cursor) + } + if !bytes.Equal(src[cursor:cursor+5], []byte(`false`)) { + return nil, 0, errors.ErrInvalidCharacter(src[cursor], "false", cursor) + } + dst = append(dst, "false"...) + cursor += 5 + return dst, cursor, nil +} + +func compactNull(dst, src []byte, cursor int64) ([]byte, int64, error) { + if cursor+3 >= int64(len(src)) { + return nil, 0, errors.ErrUnexpectedEndOfJSON("null", cursor) + } + if !bytes.Equal(src[cursor:cursor+4], []byte(`null`)) { + return nil, 0, errors.ErrInvalidCharacter(src[cursor], "null", cursor) + } + dst = append(dst, "null"...) + cursor += 4 + return dst, cursor, nil +} diff --git a/vendor/github.com/goccy/go-json/internal/encoder/compiler.go b/vendor/github.com/goccy/go-json/internal/encoder/compiler.go new file mode 100644 index 0000000..84e4f91 --- /dev/null +++ b/vendor/github.com/goccy/go-json/internal/encoder/compiler.go @@ -0,0 +1,1570 @@ +package encoder + +import ( + "context" + "encoding" + "encoding/json" + "fmt" + "reflect" + "strings" + "sync/atomic" + "unsafe" + + "github.com/goccy/go-json/internal/errors" + "github.com/goccy/go-json/internal/runtime" +) + +type marshalerContext interface { + MarshalJSON(context.Context) ([]byte, error) +} + +var ( + marshalJSONType = reflect.TypeOf((*json.Marshaler)(nil)).Elem() + marshalJSONContextType = reflect.TypeOf((*marshalerContext)(nil)).Elem() + marshalTextType = reflect.TypeOf((*encoding.TextMarshaler)(nil)).Elem() + jsonNumberType = reflect.TypeOf(json.Number("")) + cachedOpcodeSets []*OpcodeSet + cachedOpcodeMap unsafe.Pointer // map[uintptr]*OpcodeSet + typeAddr *runtime.TypeAddr +) + +func init() { + typeAddr = runtime.AnalyzeTypeAddr() + if typeAddr == nil { + typeAddr = &runtime.TypeAddr{} + } + cachedOpcodeSets = make([]*OpcodeSet, typeAddr.AddrRange>>typeAddr.AddrShift) +} + +func loadOpcodeMap() map[uintptr]*OpcodeSet { + p := atomic.LoadPointer(&cachedOpcodeMap) + return *(*map[uintptr]*OpcodeSet)(unsafe.Pointer(&p)) +} + +func storeOpcodeSet(typ uintptr, set *OpcodeSet, m map[uintptr]*OpcodeSet) { + newOpcodeMap := make(map[uintptr]*OpcodeSet, len(m)+1) + newOpcodeMap[typ] = set + + for k, v := range m { + newOpcodeMap[k] = v + } + + atomic.StorePointer(&cachedOpcodeMap, *(*unsafe.Pointer)(unsafe.Pointer(&newOpcodeMap))) +} + +func compileToGetCodeSetSlowPath(typeptr uintptr) (*OpcodeSet, error) { + opcodeMap := loadOpcodeMap() + if codeSet, exists := opcodeMap[typeptr]; exists { + return codeSet, nil + } + + // noescape trick for header.typ ( reflect.*rtype ) + copiedType := *(**runtime.Type)(unsafe.Pointer(&typeptr)) + + noescapeKeyCode, err := compileHead(&compileContext{ + typ: copiedType, + structTypeToCompiledCode: map[uintptr]*CompiledCode{}, + }) + if err != nil { + return nil, err + } + escapeKeyCode, err := compileHead(&compileContext{ + typ: copiedType, + structTypeToCompiledCode: map[uintptr]*CompiledCode{}, + escapeKey: true, + }) + if err != nil { + return nil, err + } + noescapeKeyCode = copyOpcode(noescapeKeyCode) + escapeKeyCode = copyOpcode(escapeKeyCode) + setTotalLengthToInterfaceOp(noescapeKeyCode) + setTotalLengthToInterfaceOp(escapeKeyCode) + interfaceNoescapeKeyCode := copyToInterfaceOpcode(noescapeKeyCode) + interfaceEscapeKeyCode := copyToInterfaceOpcode(escapeKeyCode) + codeLength := noescapeKeyCode.TotalLength() + codeSet := &OpcodeSet{ + Type: copiedType, + NoescapeKeyCode: noescapeKeyCode, + EscapeKeyCode: escapeKeyCode, + InterfaceNoescapeKeyCode: interfaceNoescapeKeyCode, + InterfaceEscapeKeyCode: interfaceEscapeKeyCode, + CodeLength: codeLength, + EndCode: ToEndCode(interfaceNoescapeKeyCode), + } + storeOpcodeSet(typeptr, codeSet, opcodeMap) + return codeSet, nil +} + +func compileHead(ctx *compileContext) (*Opcode, error) { + typ := ctx.typ + switch { + case implementsMarshalJSON(typ): + return compileMarshalJSON(ctx) + case implementsMarshalText(typ): + return compileMarshalText(ctx) + } + + isPtr := false + orgType := typ + if typ.Kind() == reflect.Ptr { + typ = typ.Elem() + isPtr = true + } + switch { + case implementsMarshalJSON(typ): + return compileMarshalJSON(ctx) + case implementsMarshalText(typ): + return compileMarshalText(ctx) + } + switch typ.Kind() { + case reflect.Slice: + ctx := ctx.withType(typ) + elem := typ.Elem() + if elem.Kind() == reflect.Uint8 { + p := runtime.PtrTo(elem) + if !implementsMarshalJSONType(p) && !p.Implements(marshalTextType) { + if isPtr { + return compileBytesPtr(ctx) + } + return compileBytes(ctx) + } + } + code, err := compileSlice(ctx) + if err != nil { + return nil, err + } + optimizeStructEnd(code) + linkRecursiveCode(code) + return code, nil + case reflect.Map: + if isPtr { + return compilePtr(ctx.withType(runtime.PtrTo(typ))) + } + code, err := compileMap(ctx.withType(typ)) + if err != nil { + return nil, err + } + optimizeStructEnd(code) + linkRecursiveCode(code) + return code, nil + case reflect.Struct: + code, err := compileStruct(ctx.withType(typ), isPtr) + if err != nil { + return nil, err + } + optimizeStructEnd(code) + linkRecursiveCode(code) + return code, nil + case reflect.Int: + ctx := ctx.withType(typ) + if isPtr { + return compileIntPtr(ctx) + } + return compileInt(ctx) + case reflect.Int8: + ctx := ctx.withType(typ) + if isPtr { + return compileInt8Ptr(ctx) + } + return compileInt8(ctx) + case reflect.Int16: + ctx := ctx.withType(typ) + if isPtr { + return compileInt16Ptr(ctx) + } + return compileInt16(ctx) + case reflect.Int32: + ctx := ctx.withType(typ) + if isPtr { + return compileInt32Ptr(ctx) + } + return compileInt32(ctx) + case reflect.Int64: + ctx := ctx.withType(typ) + if isPtr { + return compileInt64Ptr(ctx) + } + return compileInt64(ctx) + case reflect.Uint, reflect.Uintptr: + ctx := ctx.withType(typ) + if isPtr { + return compileUintPtr(ctx) + } + return compileUint(ctx) + case reflect.Uint8: + ctx := ctx.withType(typ) + if isPtr { + return compileUint8Ptr(ctx) + } + return compileUint8(ctx) + case reflect.Uint16: + ctx := ctx.withType(typ) + if isPtr { + return compileUint16Ptr(ctx) + } + return compileUint16(ctx) + case reflect.Uint32: + ctx := ctx.withType(typ) + if isPtr { + return compileUint32Ptr(ctx) + } + return compileUint32(ctx) + case reflect.Uint64: + ctx := ctx.withType(typ) + if isPtr { + return compileUint64Ptr(ctx) + } + return compileUint64(ctx) + case reflect.Float32: + ctx := ctx.withType(typ) + if isPtr { + return compileFloat32Ptr(ctx) + } + return compileFloat32(ctx) + case reflect.Float64: + ctx := ctx.withType(typ) + if isPtr { + return compileFloat64Ptr(ctx) + } + return compileFloat64(ctx) + case reflect.String: + ctx := ctx.withType(typ) + if isPtr { + return compileStringPtr(ctx) + } + return compileString(ctx) + case reflect.Bool: + ctx := ctx.withType(typ) + if isPtr { + return compileBoolPtr(ctx) + } + return compileBool(ctx) + case reflect.Interface: + ctx := ctx.withType(typ) + if isPtr { + return compileInterfacePtr(ctx) + } + return compileInterface(ctx) + default: + if isPtr && typ.Implements(marshalTextType) { + typ = orgType + } + code, err := compile(ctx.withType(typ), isPtr) + if err != nil { + return nil, err + } + optimizeStructEnd(code) + linkRecursiveCode(code) + return code, nil + } +} + +func linkRecursiveCode(c *Opcode) { + for code := c; code.Op != OpEnd && code.Op != OpRecursiveEnd; { + switch code.Op { + case OpRecursive, OpRecursivePtr: + if code.Jmp.Linked { + code = code.Next + continue + } + code.Jmp.Code = copyOpcode(code.Jmp.Code) + + c := code.Jmp.Code + c.End.Next = newEndOp(&compileContext{}) + c.Op = c.Op.PtrHeadToHead() + + beforeLastCode := c.End + lastCode := beforeLastCode.Next + + lastCode.Idx = beforeLastCode.Idx + uintptrSize + lastCode.ElemIdx = lastCode.Idx + uintptrSize + lastCode.Length = lastCode.Idx + 2*uintptrSize + + // extend length to alloc slot for elemIdx + length + totalLength := uintptr(code.TotalLength() + 3) + nextTotalLength := uintptr(c.TotalLength() + 3) + + c.End.Next.Op = OpRecursiveEnd + + code.Jmp.CurLen = totalLength + code.Jmp.NextLen = nextTotalLength + code.Jmp.Linked = true + + linkRecursiveCode(code.Jmp.Code) + + code = code.Next + continue + } + switch code.Op.CodeType() { + case CodeArrayElem, CodeSliceElem, CodeMapKey: + code = code.End + default: + code = code.Next + } + } +} + +func optimizeStructEnd(c *Opcode) { + for code := c; code.Op != OpEnd; { + if code.Op == OpRecursive || code.Op == OpRecursivePtr { + // ignore if exists recursive operation + return + } + switch code.Op.CodeType() { + case CodeArrayElem, CodeSliceElem, CodeMapKey: + code = code.End + default: + code = code.Next + } + } + + for code := c; code.Op != OpEnd; { + switch code.Op.CodeType() { + case CodeArrayElem, CodeSliceElem, CodeMapKey: + code = code.End + case CodeStructEnd: + switch code.Op { + case OpStructEnd: + prev := code.PrevField + prevOp := prev.Op.String() + if strings.Contains(prevOp, "Head") || + strings.Contains(prevOp, "Slice") || + strings.Contains(prevOp, "Array") || + strings.Contains(prevOp, "Map") || + strings.Contains(prevOp, "MarshalJSON") || + strings.Contains(prevOp, "MarshalText") { + // not exists field + code = code.Next + break + } + if prev.Op != prev.Op.FieldToEnd() { + prev.Op = prev.Op.FieldToEnd() + prev.Next = code.Next + } + code = code.Next + default: + code = code.Next + } + default: + code = code.Next + } + } +} + +func implementsMarshalJSON(typ *runtime.Type) bool { + if !implementsMarshalJSONType(typ) { + return false + } + if typ.Kind() != reflect.Ptr { + return true + } + // type kind is reflect.Ptr + if !implementsMarshalJSONType(typ.Elem()) { + return true + } + // needs to dereference + return false +} + +func implementsMarshalText(typ *runtime.Type) bool { + if !typ.Implements(marshalTextType) { + return false + } + if typ.Kind() != reflect.Ptr { + return true + } + // type kind is reflect.Ptr + if !typ.Elem().Implements(marshalTextType) { + return true + } + // needs to dereference + return false +} + +func compile(ctx *compileContext, isPtr bool) (*Opcode, error) { + typ := ctx.typ + switch { + case implementsMarshalJSON(typ): + return compileMarshalJSON(ctx) + case implementsMarshalText(typ): + return compileMarshalText(ctx) + } + switch typ.Kind() { + case reflect.Ptr: + return compilePtr(ctx) + case reflect.Slice: + elem := typ.Elem() + if elem.Kind() == reflect.Uint8 { + p := runtime.PtrTo(elem) + if !implementsMarshalJSONType(p) && !p.Implements(marshalTextType) { + return compileBytes(ctx) + } + } + return compileSlice(ctx) + case reflect.Array: + return compileArray(ctx) + case reflect.Map: + return compileMap(ctx) + case reflect.Struct: + return compileStruct(ctx, isPtr) + case reflect.Interface: + return compileInterface(ctx) + case reflect.Int: + return compileInt(ctx) + case reflect.Int8: + return compileInt8(ctx) + case reflect.Int16: + return compileInt16(ctx) + case reflect.Int32: + return compileInt32(ctx) + case reflect.Int64: + return compileInt64(ctx) + case reflect.Uint: + return compileUint(ctx) + case reflect.Uint8: + return compileUint8(ctx) + case reflect.Uint16: + return compileUint16(ctx) + case reflect.Uint32: + return compileUint32(ctx) + case reflect.Uint64: + return compileUint64(ctx) + case reflect.Uintptr: + return compileUint(ctx) + case reflect.Float32: + return compileFloat32(ctx) + case reflect.Float64: + return compileFloat64(ctx) + case reflect.String: + return compileString(ctx) + case reflect.Bool: + return compileBool(ctx) + } + return nil, &errors.UnsupportedTypeError{Type: runtime.RType2Type(typ)} +} + +func convertPtrOp(code *Opcode) OpType { + ptrHeadOp := code.Op.HeadToPtrHead() + if code.Op != ptrHeadOp { + if code.PtrNum > 0 { + // ptr field and ptr head + code.PtrNum-- + } + return ptrHeadOp + } + switch code.Op { + case OpInt: + return OpIntPtr + case OpUint: + return OpUintPtr + case OpFloat32: + return OpFloat32Ptr + case OpFloat64: + return OpFloat64Ptr + case OpString: + return OpStringPtr + case OpBool: + return OpBoolPtr + case OpBytes: + return OpBytesPtr + case OpNumber: + return OpNumberPtr + case OpArray: + return OpArrayPtr + case OpSlice: + return OpSlicePtr + case OpMap: + return OpMapPtr + case OpMarshalJSON: + return OpMarshalJSONPtr + case OpMarshalText: + return OpMarshalTextPtr + case OpInterface: + return OpInterfacePtr + case OpRecursive: + return OpRecursivePtr + } + return code.Op +} + +func compileKey(ctx *compileContext) (*Opcode, error) { + typ := ctx.typ + switch { + case implementsMarshalJSON(typ): + return compileMarshalJSON(ctx) + case implementsMarshalText(typ): + return compileMarshalText(ctx) + } + switch typ.Kind() { + case reflect.Ptr: + return compilePtr(ctx) + case reflect.String: + return compileString(ctx) + case reflect.Int: + return compileIntString(ctx) + case reflect.Int8: + return compileInt8String(ctx) + case reflect.Int16: + return compileInt16String(ctx) + case reflect.Int32: + return compileInt32String(ctx) + case reflect.Int64: + return compileInt64String(ctx) + case reflect.Uint: + return compileUintString(ctx) + case reflect.Uint8: + return compileUint8String(ctx) + case reflect.Uint16: + return compileUint16String(ctx) + case reflect.Uint32: + return compileUint32String(ctx) + case reflect.Uint64: + return compileUint64String(ctx) + case reflect.Uintptr: + return compileUintString(ctx) + } + return nil, &errors.UnsupportedTypeError{Type: runtime.RType2Type(typ)} +} + +func compilePtr(ctx *compileContext) (*Opcode, error) { + code, err := compile(ctx.withType(ctx.typ.Elem()), true) + if err != nil { + return nil, err + } + code.Op = convertPtrOp(code) + code.PtrNum++ + return code, nil +} + +func compileMarshalJSON(ctx *compileContext) (*Opcode, error) { + code := newOpCode(ctx, OpMarshalJSON) + typ := ctx.typ + if isPtrMarshalJSONType(typ) { + code.Flags |= AddrForMarshalerFlags + } + if typ.Implements(marshalJSONContextType) || runtime.PtrTo(typ).Implements(marshalJSONContextType) { + code.Flags |= MarshalerContextFlags + } + if isNilableType(typ) { + code.Flags |= IsNilableTypeFlags + } else { + code.Flags &= ^IsNilableTypeFlags + } + ctx.incIndex() + return code, nil +} + +func compileMarshalText(ctx *compileContext) (*Opcode, error) { + code := newOpCode(ctx, OpMarshalText) + typ := ctx.typ + if !typ.Implements(marshalTextType) && runtime.PtrTo(typ).Implements(marshalTextType) { + code.Flags |= AddrForMarshalerFlags + } + if isNilableType(typ) { + code.Flags |= IsNilableTypeFlags + } else { + code.Flags &= ^IsNilableTypeFlags + } + ctx.incIndex() + return code, nil +} + +const intSize = 32 << (^uint(0) >> 63) + +func compileInt(ctx *compileContext) (*Opcode, error) { + code := newOpCode(ctx, OpInt) + code.NumBitSize = intSize + ctx.incIndex() + return code, nil +} + +func compileIntPtr(ctx *compileContext) (*Opcode, error) { + code, err := compileInt(ctx) + if err != nil { + return nil, err + } + code.Op = OpIntPtr + return code, nil +} + +func compileInt8(ctx *compileContext) (*Opcode, error) { + code := newOpCode(ctx, OpInt) + code.NumBitSize = 8 + ctx.incIndex() + return code, nil +} + +func compileInt8Ptr(ctx *compileContext) (*Opcode, error) { + code, err := compileInt8(ctx) + if err != nil { + return nil, err + } + code.Op = OpIntPtr + return code, nil +} + +func compileInt16(ctx *compileContext) (*Opcode, error) { + code := newOpCode(ctx, OpInt) + code.NumBitSize = 16 + ctx.incIndex() + return code, nil +} + +func compileInt16Ptr(ctx *compileContext) (*Opcode, error) { + code, err := compileInt16(ctx) + if err != nil { + return nil, err + } + code.Op = OpIntPtr + return code, nil +} + +func compileInt32(ctx *compileContext) (*Opcode, error) { + code := newOpCode(ctx, OpInt) + code.NumBitSize = 32 + ctx.incIndex() + return code, nil +} + +func compileInt32Ptr(ctx *compileContext) (*Opcode, error) { + code, err := compileInt32(ctx) + if err != nil { + return nil, err + } + code.Op = OpIntPtr + return code, nil +} + +func compileInt64(ctx *compileContext) (*Opcode, error) { + code := newOpCode(ctx, OpInt) + code.NumBitSize = 64 + ctx.incIndex() + return code, nil +} + +func compileInt64Ptr(ctx *compileContext) (*Opcode, error) { + code, err := compileInt64(ctx) + if err != nil { + return nil, err + } + code.Op = OpIntPtr + return code, nil +} + +func compileUint(ctx *compileContext) (*Opcode, error) { + code := newOpCode(ctx, OpUint) + code.NumBitSize = intSize + ctx.incIndex() + return code, nil +} + +func compileUintPtr(ctx *compileContext) (*Opcode, error) { + code, err := compileUint(ctx) + if err != nil { + return nil, err + } + code.Op = OpUintPtr + return code, nil +} + +func compileUint8(ctx *compileContext) (*Opcode, error) { + code := newOpCode(ctx, OpUint) + code.NumBitSize = 8 + ctx.incIndex() + return code, nil +} + +func compileUint8Ptr(ctx *compileContext) (*Opcode, error) { + code, err := compileUint8(ctx) + if err != nil { + return nil, err + } + code.Op = OpUintPtr + return code, nil +} + +func compileUint16(ctx *compileContext) (*Opcode, error) { + code := newOpCode(ctx, OpUint) + code.NumBitSize = 16 + ctx.incIndex() + return code, nil +} + +func compileUint16Ptr(ctx *compileContext) (*Opcode, error) { + code, err := compileUint16(ctx) + if err != nil { + return nil, err + } + code.Op = OpUintPtr + return code, nil +} + +func compileUint32(ctx *compileContext) (*Opcode, error) { + code := newOpCode(ctx, OpUint) + code.NumBitSize = 32 + ctx.incIndex() + return code, nil +} + +func compileUint32Ptr(ctx *compileContext) (*Opcode, error) { + code, err := compileUint32(ctx) + if err != nil { + return nil, err + } + code.Op = OpUintPtr + return code, nil +} + +func compileUint64(ctx *compileContext) (*Opcode, error) { + code := newOpCode(ctx, OpUint) + code.NumBitSize = 64 + ctx.incIndex() + return code, nil +} + +func compileUint64Ptr(ctx *compileContext) (*Opcode, error) { + code, err := compileUint64(ctx) + if err != nil { + return nil, err + } + code.Op = OpUintPtr + return code, nil +} + +func compileIntString(ctx *compileContext) (*Opcode, error) { + code := newOpCode(ctx, OpIntString) + code.NumBitSize = intSize + ctx.incIndex() + return code, nil +} + +func compileInt8String(ctx *compileContext) (*Opcode, error) { + code := newOpCode(ctx, OpIntString) + code.NumBitSize = 8 + ctx.incIndex() + return code, nil +} + +func compileInt16String(ctx *compileContext) (*Opcode, error) { + code := newOpCode(ctx, OpIntString) + code.NumBitSize = 16 + ctx.incIndex() + return code, nil +} + +func compileInt32String(ctx *compileContext) (*Opcode, error) { + code := newOpCode(ctx, OpIntString) + code.NumBitSize = 32 + ctx.incIndex() + return code, nil +} + +func compileInt64String(ctx *compileContext) (*Opcode, error) { + code := newOpCode(ctx, OpIntString) + code.NumBitSize = 64 + ctx.incIndex() + return code, nil +} + +func compileUintString(ctx *compileContext) (*Opcode, error) { + code := newOpCode(ctx, OpUintString) + code.NumBitSize = intSize + ctx.incIndex() + return code, nil +} + +func compileUint8String(ctx *compileContext) (*Opcode, error) { + code := newOpCode(ctx, OpUintString) + code.NumBitSize = 8 + ctx.incIndex() + return code, nil +} + +func compileUint16String(ctx *compileContext) (*Opcode, error) { + code := newOpCode(ctx, OpUintString) + code.NumBitSize = 16 + ctx.incIndex() + return code, nil +} + +func compileUint32String(ctx *compileContext) (*Opcode, error) { + code := newOpCode(ctx, OpUintString) + code.NumBitSize = 32 + ctx.incIndex() + return code, nil +} + +func compileUint64String(ctx *compileContext) (*Opcode, error) { + code := newOpCode(ctx, OpUintString) + code.NumBitSize = 64 + ctx.incIndex() + return code, nil +} + +func compileFloat32(ctx *compileContext) (*Opcode, error) { + code := newOpCode(ctx, OpFloat32) + ctx.incIndex() + return code, nil +} + +func compileFloat32Ptr(ctx *compileContext) (*Opcode, error) { + code, err := compileFloat32(ctx) + if err != nil { + return nil, err + } + code.Op = OpFloat32Ptr + return code, nil +} + +func compileFloat64(ctx *compileContext) (*Opcode, error) { + code := newOpCode(ctx, OpFloat64) + ctx.incIndex() + return code, nil +} + +func compileFloat64Ptr(ctx *compileContext) (*Opcode, error) { + code, err := compileFloat64(ctx) + if err != nil { + return nil, err + } + code.Op = OpFloat64Ptr + return code, nil +} + +func compileString(ctx *compileContext) (*Opcode, error) { + var op OpType + if ctx.typ == runtime.Type2RType(jsonNumberType) { + op = OpNumber + } else { + op = OpString + } + code := newOpCode(ctx, op) + ctx.incIndex() + return code, nil +} + +func compileStringPtr(ctx *compileContext) (*Opcode, error) { + code, err := compileString(ctx) + if err != nil { + return nil, err + } + if code.Op == OpNumber { + code.Op = OpNumberPtr + } else { + code.Op = OpStringPtr + } + return code, nil +} + +func compileBool(ctx *compileContext) (*Opcode, error) { + code := newOpCode(ctx, OpBool) + ctx.incIndex() + return code, nil +} + +func compileBoolPtr(ctx *compileContext) (*Opcode, error) { + code, err := compileBool(ctx) + if err != nil { + return nil, err + } + code.Op = OpBoolPtr + return code, nil +} + +func compileBytes(ctx *compileContext) (*Opcode, error) { + code := newOpCode(ctx, OpBytes) + ctx.incIndex() + return code, nil +} + +func compileBytesPtr(ctx *compileContext) (*Opcode, error) { + code, err := compileBytes(ctx) + if err != nil { + return nil, err + } + code.Op = OpBytesPtr + return code, nil +} + +func compileInterface(ctx *compileContext) (*Opcode, error) { + code := newInterfaceCode(ctx) + ctx.incIndex() + return code, nil +} + +func compileInterfacePtr(ctx *compileContext) (*Opcode, error) { + code, err := compileInterface(ctx) + if err != nil { + return nil, err + } + code.Op = OpInterfacePtr + return code, nil +} + +func compileSlice(ctx *compileContext) (*Opcode, error) { + elem := ctx.typ.Elem() + size := elem.Size() + + header := newSliceHeaderCode(ctx) + ctx.incIndex() + + code, err := compileListElem(ctx.withType(elem).incIndent()) + if err != nil { + return nil, err + } + code.Flags |= IndirectFlags + + // header => opcode => elem => end + // ^ | + // |________| + + elemCode := newSliceElemCode(ctx, header, size) + ctx.incIndex() + + end := newOpCode(ctx, OpSliceEnd) + ctx.incIndex() + + header.End = end + header.Next = code + code.BeforeLastCode().Next = (*Opcode)(unsafe.Pointer(elemCode)) + elemCode.Next = code + elemCode.End = end + return (*Opcode)(unsafe.Pointer(header)), nil +} + +func compileListElem(ctx *compileContext) (*Opcode, error) { + typ := ctx.typ + switch { + case isPtrMarshalJSONType(typ): + return compileMarshalJSON(ctx) + case !typ.Implements(marshalTextType) && runtime.PtrTo(typ).Implements(marshalTextType): + return compileMarshalText(ctx) + case typ.Kind() == reflect.Map: + return compilePtr(ctx.withType(runtime.PtrTo(typ))) + default: + code, err := compile(ctx, false) + if err != nil { + return nil, err + } + if code.Op == OpMapPtr { + code.PtrNum++ + } + return code, nil + } +} + +func compileArray(ctx *compileContext) (*Opcode, error) { + typ := ctx.typ + elem := typ.Elem() + alen := typ.Len() + size := elem.Size() + + header := newArrayHeaderCode(ctx, alen) + ctx.incIndex() + + code, err := compileListElem(ctx.withType(elem).incIndent()) + if err != nil { + return nil, err + } + code.Flags |= IndirectFlags + // header => opcode => elem => end + // ^ | + // |________| + + elemCode := newArrayElemCode(ctx, header, alen, size) + ctx.incIndex() + + end := newOpCode(ctx, OpArrayEnd) + ctx.incIndex() + + header.End = end + header.Next = code + code.BeforeLastCode().Next = (*Opcode)(unsafe.Pointer(elemCode)) + elemCode.Next = code + elemCode.End = end + return (*Opcode)(unsafe.Pointer(header)), nil +} + +func compileMap(ctx *compileContext) (*Opcode, error) { + // header => code => value => code => key => code => value => code => end + // ^ | + // |_______________________| + ctx = ctx.incIndent() + header := newMapHeaderCode(ctx) + ctx.incIndex() + + typ := ctx.typ + keyType := ctx.typ.Key() + keyCode, err := compileKey(ctx.withType(keyType)) + if err != nil { + return nil, err + } + + value := newMapValueCode(ctx, header) + ctx.incIndex() + + valueCode, err := compileMapValue(ctx.withType(typ.Elem())) + if err != nil { + return nil, err + } + valueCode.Flags |= IndirectFlags + + key := newMapKeyCode(ctx, header) + ctx.incIndex() + + ctx = ctx.decIndent() + + end := newMapEndCode(ctx, header) + ctx.incIndex() + + header.Next = keyCode + keyCode.BeforeLastCode().Next = (*Opcode)(unsafe.Pointer(value)) + value.Next = valueCode + valueCode.BeforeLastCode().Next = (*Opcode)(unsafe.Pointer(key)) + key.Next = keyCode + + header.End = end + key.End = end + value.End = end + + return (*Opcode)(unsafe.Pointer(header)), nil +} + +func compileMapValue(ctx *compileContext) (*Opcode, error) { + switch ctx.typ.Kind() { + case reflect.Map: + return compilePtr(ctx.withType(runtime.PtrTo(ctx.typ))) + default: + code, err := compile(ctx, false) + if err != nil { + return nil, err + } + if code.Op == OpMapPtr { + code.PtrNum++ + } + return code, nil + } +} + +func optimizeStructHeader(code *Opcode, tag *runtime.StructTag) OpType { + headType := code.ToHeaderType(tag.IsString) + if tag.IsOmitEmpty { + headType = headType.HeadToOmitEmptyHead() + } + return headType +} + +func optimizeStructField(code *Opcode, tag *runtime.StructTag) OpType { + fieldType := code.ToFieldType(tag.IsString) + if tag.IsOmitEmpty { + fieldType = fieldType.FieldToOmitEmptyField() + } + return fieldType +} + +func recursiveCode(ctx *compileContext, jmp *CompiledCode) *Opcode { + code := newRecursiveCode(ctx, jmp) + ctx.incIndex() + return code +} + +func compiledCode(ctx *compileContext) *Opcode { + typ := ctx.typ + typeptr := uintptr(unsafe.Pointer(typ)) + if cc, exists := ctx.structTypeToCompiledCode[typeptr]; exists { + return recursiveCode(ctx, cc) + } + return nil +} + +func structHeader(ctx *compileContext, fieldCode *Opcode, valueCode *Opcode, tag *runtime.StructTag) *Opcode { + op := optimizeStructHeader(valueCode, tag) + fieldCode.Op = op + fieldCode.NumBitSize = valueCode.NumBitSize + fieldCode.PtrNum = valueCode.PtrNum + if op.IsMultipleOpHead() { + return valueCode.BeforeLastCode() + } + ctx.decOpcodeIndex() + return fieldCode +} + +func structField(ctx *compileContext, fieldCode *Opcode, valueCode *Opcode, tag *runtime.StructTag) *Opcode { + op := optimizeStructField(valueCode, tag) + fieldCode.Op = op + fieldCode.NumBitSize = valueCode.NumBitSize + fieldCode.PtrNum = valueCode.PtrNum + if op.IsMultipleOpField() { + return valueCode.BeforeLastCode() + } + ctx.decIndex() + return fieldCode +} + +func isNotExistsField(head *Opcode) bool { + if head == nil { + return false + } + if head.Op != OpStructHead { + return false + } + if (head.Flags & AnonymousHeadFlags) == 0 { + return false + } + if head.Next == nil { + return false + } + if head.NextField == nil { + return false + } + if head.NextField.Op != OpStructAnonymousEnd { + return false + } + if head.Next.Op == OpStructAnonymousEnd { + return true + } + if head.Next.Op.CodeType() != CodeStructField { + return false + } + return isNotExistsField(head.Next) +} + +func optimizeAnonymousFields(head *Opcode) { + code := head + var prev *Opcode + removedFields := map[*Opcode]struct{}{} + for { + if code.Op == OpStructEnd { + break + } + if code.Op == OpStructField { + codeType := code.Next.Op.CodeType() + if codeType == CodeStructField { + if isNotExistsField(code.Next) { + code.Next = code.NextField + diff := code.Next.DisplayIdx - code.DisplayIdx + for i := uint32(0); i < diff; i++ { + code.Next.decOpcodeIndex() + } + linkPrevToNextField(code, removedFields) + code = prev + } + } + } + prev = code + code = code.NextField + } +} + +type structFieldPair struct { + prevField *Opcode + curField *Opcode + isTaggedKey bool + linked bool +} + +func anonymousStructFieldPairMap(tags runtime.StructTags, named string, valueCode *Opcode) map[string][]structFieldPair { + anonymousFields := map[string][]structFieldPair{} + f := valueCode + var prevAnonymousField *Opcode + removedFields := map[*Opcode]struct{}{} + for { + existsKey := tags.ExistsKey(f.DisplayKey) + isHeadOp := strings.Contains(f.Op.String(), "Head") + if existsKey && f.Next != nil && strings.Contains(f.Next.Op.String(), "Recursive") { + // through + } else if isHeadOp && (f.Flags&AnonymousHeadFlags) == 0 { + if existsKey { + // TODO: need to remove this head + f.Op = OpStructHead + f.Flags |= AnonymousKeyFlags + f.Flags |= AnonymousHeadFlags + } else if named == "" { + f.Flags |= AnonymousHeadFlags + } + } else if named == "" && f.Op == OpStructEnd { + f.Op = OpStructAnonymousEnd + } else if existsKey { + diff := f.NextField.DisplayIdx - f.DisplayIdx + for i := uint32(0); i < diff; i++ { + f.NextField.decOpcodeIndex() + } + linkPrevToNextField(f, removedFields) + } + + if f.DisplayKey == "" { + if f.NextField == nil { + break + } + prevAnonymousField = f + f = f.NextField + continue + } + + key := fmt.Sprintf("%s.%s", named, f.DisplayKey) + anonymousFields[key] = append(anonymousFields[key], structFieldPair{ + prevField: prevAnonymousField, + curField: f, + isTaggedKey: (f.Flags & IsTaggedKeyFlags) != 0, + }) + if f.Next != nil && f.NextField != f.Next && f.Next.Op.CodeType() == CodeStructField { + for k, v := range anonymousFieldPairRecursively(named, f.Next) { + anonymousFields[k] = append(anonymousFields[k], v...) + } + } + if f.NextField == nil { + break + } + prevAnonymousField = f + f = f.NextField + } + return anonymousFields +} + +func anonymousFieldPairRecursively(named string, valueCode *Opcode) map[string][]structFieldPair { + anonymousFields := map[string][]structFieldPair{} + f := valueCode + var prevAnonymousField *Opcode + for { + if f.DisplayKey != "" && (f.Flags&AnonymousHeadFlags) != 0 { + key := fmt.Sprintf("%s.%s", named, f.DisplayKey) + anonymousFields[key] = append(anonymousFields[key], structFieldPair{ + prevField: prevAnonymousField, + curField: f, + isTaggedKey: (f.Flags & IsTaggedKeyFlags) != 0, + }) + if f.Next != nil && f.NextField != f.Next && f.Next.Op.CodeType() == CodeStructField { + for k, v := range anonymousFieldPairRecursively(named, f.Next) { + anonymousFields[k] = append(anonymousFields[k], v...) + } + } + } + if f.NextField == nil { + break + } + prevAnonymousField = f + f = f.NextField + } + return anonymousFields +} + +func optimizeConflictAnonymousFields(anonymousFields map[string][]structFieldPair) { + removedFields := map[*Opcode]struct{}{} + for _, fieldPairs := range anonymousFields { + if len(fieldPairs) == 1 { + continue + } + // conflict anonymous fields + taggedPairs := []structFieldPair{} + for _, fieldPair := range fieldPairs { + if fieldPair.isTaggedKey { + taggedPairs = append(taggedPairs, fieldPair) + } else { + if !fieldPair.linked { + if fieldPair.prevField == nil { + // head operation + fieldPair.curField.Op = OpStructHead + fieldPair.curField.Flags |= AnonymousHeadFlags + fieldPair.curField.Flags |= AnonymousKeyFlags + } else { + diff := fieldPair.curField.NextField.DisplayIdx - fieldPair.curField.DisplayIdx + for i := uint32(0); i < diff; i++ { + fieldPair.curField.NextField.decOpcodeIndex() + } + removedFields[fieldPair.curField] = struct{}{} + linkPrevToNextField(fieldPair.curField, removedFields) + } + fieldPair.linked = true + } + } + } + if len(taggedPairs) > 1 { + for _, fieldPair := range taggedPairs { + if !fieldPair.linked { + if fieldPair.prevField == nil { + // head operation + fieldPair.curField.Op = OpStructHead + fieldPair.curField.Flags |= AnonymousHeadFlags + fieldPair.curField.Flags |= AnonymousKeyFlags + } else { + diff := fieldPair.curField.NextField.DisplayIdx - fieldPair.curField.DisplayIdx + removedFields[fieldPair.curField] = struct{}{} + for i := uint32(0); i < diff; i++ { + fieldPair.curField.NextField.decOpcodeIndex() + } + linkPrevToNextField(fieldPair.curField, removedFields) + } + fieldPair.linked = true + } + } + } else { + for _, fieldPair := range taggedPairs { + fieldPair.curField.Flags &= ^IsTaggedKeyFlags + } + } + } +} + +func isNilableType(typ *runtime.Type) bool { + switch typ.Kind() { + case reflect.Ptr: + return true + case reflect.Map: + return true + case reflect.Func: + return true + default: + return false + } +} + +func compileStruct(ctx *compileContext, isPtr bool) (*Opcode, error) { + if code := compiledCode(ctx); code != nil { + return code, nil + } + typ := ctx.typ + typeptr := uintptr(unsafe.Pointer(typ)) + compiled := &CompiledCode{} + ctx.structTypeToCompiledCode[typeptr] = compiled + // header => code => structField => code => end + // ^ | + // |__________| + fieldNum := typ.NumField() + indirect := runtime.IfaceIndir(typ) + fieldIdx := 0 + disableIndirectConversion := false + var ( + head *Opcode + code *Opcode + prevField *Opcode + ) + ctx = ctx.incIndent() + tags := runtime.StructTags{} + anonymousFields := map[string][]structFieldPair{} + for i := 0; i < fieldNum; i++ { + field := typ.Field(i) + if runtime.IsIgnoredStructField(field) { + continue + } + tags = append(tags, runtime.StructTagFromField(field)) + } + for i, tag := range tags { + field := tag.Field + fieldType := runtime.Type2RType(field.Type) + fieldOpcodeIndex := ctx.opcodeIndex + fieldPtrIndex := ctx.ptrIndex + ctx.incIndex() + + nilcheck := true + addrForMarshaler := false + isIndirectSpecialCase := isPtr && i == 0 && fieldNum == 1 + isNilableType := isNilableType(fieldType) + + var valueCode *Opcode + switch { + case isIndirectSpecialCase && !isNilableType && isPtrMarshalJSONType(fieldType): + // *struct{ field T } => struct { field *T } + // func (*T) MarshalJSON() ([]byte, error) + // move pointer position from head to first field + code, err := compileMarshalJSON(ctx.withType(fieldType)) + if err != nil { + return nil, err + } + addrForMarshaler = true + valueCode = code + nilcheck = false + indirect = false + disableIndirectConversion = true + case isIndirectSpecialCase && !isNilableType && isPtrMarshalTextType(fieldType): + // *struct{ field T } => struct { field *T } + // func (*T) MarshalText() ([]byte, error) + // move pointer position from head to first field + code, err := compileMarshalText(ctx.withType(fieldType)) + if err != nil { + return nil, err + } + addrForMarshaler = true + valueCode = code + nilcheck = false + indirect = false + disableIndirectConversion = true + case isPtr && isPtrMarshalJSONType(fieldType): + // *struct{ field T } + // func (*T) MarshalJSON() ([]byte, error) + code, err := compileMarshalJSON(ctx.withType(fieldType)) + if err != nil { + return nil, err + } + addrForMarshaler = true + nilcheck = false + valueCode = code + case isPtr && isPtrMarshalTextType(fieldType): + // *struct{ field T } + // func (*T) MarshalText() ([]byte, error) + code, err := compileMarshalText(ctx.withType(fieldType)) + if err != nil { + return nil, err + } + addrForMarshaler = true + nilcheck = false + valueCode = code + default: + code, err := compile(ctx.withType(fieldType), isPtr) + if err != nil { + return nil, err + } + valueCode = code + } + + if field.Anonymous && !tag.IsTaggedKey { + tagKey := "" + if tag.IsTaggedKey { + tagKey = tag.Key + } + for k, v := range anonymousStructFieldPairMap(tags, tagKey, valueCode) { + anonymousFields[k] = append(anonymousFields[k], v...) + } + + valueCode.decIndent() + + // fix issue144 + if !(isPtr && strings.Contains(valueCode.Op.String(), "Marshal")) { + if indirect { + valueCode.Flags |= IndirectFlags + } else { + valueCode.Flags &= ^IndirectFlags + } + } + } else { + if indirect { + // if parent is indirect type, set child indirect property to true + valueCode.Flags |= IndirectFlags + } else { + // if parent is not indirect type, set child indirect property to false. + // but if parent's indirect is false and isPtr is true, then indirect must be true. + // Do this only if indirectConversion is enabled at the end of compileStruct. + if i == 0 { + valueCode.Flags &= ^IndirectFlags + } + } + } + var flags OpFlags + if indirect { + flags |= IndirectFlags + } + if field.Anonymous { + flags |= AnonymousKeyFlags + } + if tag.IsTaggedKey { + flags |= IsTaggedKeyFlags + } + if nilcheck { + flags |= NilCheckFlags + } + if addrForMarshaler { + flags |= AddrForMarshalerFlags + } + if strings.Contains(valueCode.Op.String(), "Ptr") || valueCode.Op == OpInterface { + flags |= IsNextOpPtrTypeFlags + } + if isNilableType { + flags |= IsNilableTypeFlags + } + var key string + if ctx.escapeKey { + rctx := &RuntimeContext{Option: &Option{Flag: HTMLEscapeOption}} + key = fmt.Sprintf(`%s:`, string(AppendString(rctx, []byte{}, tag.Key))) + } else { + key = fmt.Sprintf(`"%s":`, tag.Key) + } + fieldCode := &Opcode{ + Idx: opcodeOffset(fieldPtrIndex), + Next: valueCode, + Flags: flags, + Key: key, + Offset: uint32(field.Offset), + Type: valueCode.Type, + DisplayIdx: fieldOpcodeIndex, + Indent: ctx.indent, + DisplayKey: tag.Key, + } + if fieldIdx == 0 { + code = structHeader(ctx, fieldCode, valueCode, tag) + head = fieldCode + prevField = fieldCode + } else { + fieldCode.Idx = head.Idx + code.Next = fieldCode + code = structField(ctx, fieldCode, valueCode, tag) + prevField.NextField = fieldCode + fieldCode.PrevField = prevField + prevField = fieldCode + } + fieldIdx++ + } + + structEndCode := &Opcode{ + Op: OpStructEnd, + Next: newEndOp(ctx), + Type: nil, + Indent: ctx.indent, + } + + ctx = ctx.decIndent() + + // no struct field + if head == nil { + head = &Opcode{ + Op: OpStructHead, + Idx: opcodeOffset(ctx.ptrIndex), + NextField: structEndCode, + Type: typ, + DisplayIdx: ctx.opcodeIndex, + Indent: ctx.indent, + } + structEndCode.PrevField = head + ctx.incIndex() + code = head + } + + structEndCode.DisplayIdx = ctx.opcodeIndex + structEndCode.Idx = opcodeOffset(ctx.ptrIndex) + ctx.incIndex() + + if prevField != nil && prevField.NextField == nil { + prevField.NextField = structEndCode + structEndCode.PrevField = prevField + } + + head.End = structEndCode + code.Next = structEndCode + optimizeConflictAnonymousFields(anonymousFields) + optimizeAnonymousFields(head) + ret := (*Opcode)(unsafe.Pointer(head)) + compiled.Code = ret + + delete(ctx.structTypeToCompiledCode, typeptr) + + if !disableIndirectConversion && (head.Flags&IndirectFlags == 0) && isPtr { + headCode := head + for strings.Contains(headCode.Op.String(), "Head") { + headCode.Flags |= IndirectFlags + headCode = headCode.Next + } + } + + return ret, nil +} + +func implementsMarshalJSONType(typ *runtime.Type) bool { + return typ.Implements(marshalJSONType) || typ.Implements(marshalJSONContextType) +} + +func isPtrMarshalJSONType(typ *runtime.Type) bool { + return !implementsMarshalJSONType(typ) && implementsMarshalJSONType(runtime.PtrTo(typ)) +} + +func isPtrMarshalTextType(typ *runtime.Type) bool { + return !typ.Implements(marshalTextType) && runtime.PtrTo(typ).Implements(marshalTextType) +} diff --git a/vendor/github.com/goccy/go-json/internal/encoder/compiler_norace.go b/vendor/github.com/goccy/go-json/internal/encoder/compiler_norace.go new file mode 100644 index 0000000..9d337f1 --- /dev/null +++ b/vendor/github.com/goccy/go-json/internal/encoder/compiler_norace.go @@ -0,0 +1,56 @@ +// +build !race + +package encoder + +import ( + "unsafe" + + "github.com/goccy/go-json/internal/runtime" +) + +func CompileToGetCodeSet(typeptr uintptr) (*OpcodeSet, error) { + if typeptr > typeAddr.MaxTypeAddr { + return compileToGetCodeSetSlowPath(typeptr) + } + index := (typeptr - typeAddr.BaseTypeAddr) >> typeAddr.AddrShift + if codeSet := cachedOpcodeSets[index]; codeSet != nil { + return codeSet, nil + } + + // noescape trick for header.typ ( reflect.*rtype ) + copiedType := *(**runtime.Type)(unsafe.Pointer(&typeptr)) + + noescapeKeyCode, err := compileHead(&compileContext{ + typ: copiedType, + structTypeToCompiledCode: map[uintptr]*CompiledCode{}, + }) + if err != nil { + return nil, err + } + escapeKeyCode, err := compileHead(&compileContext{ + typ: copiedType, + structTypeToCompiledCode: map[uintptr]*CompiledCode{}, + escapeKey: true, + }) + if err != nil { + return nil, err + } + noescapeKeyCode = copyOpcode(noescapeKeyCode) + escapeKeyCode = copyOpcode(escapeKeyCode) + setTotalLengthToInterfaceOp(noescapeKeyCode) + setTotalLengthToInterfaceOp(escapeKeyCode) + interfaceNoescapeKeyCode := copyToInterfaceOpcode(noescapeKeyCode) + interfaceEscapeKeyCode := copyToInterfaceOpcode(escapeKeyCode) + codeLength := noescapeKeyCode.TotalLength() + codeSet := &OpcodeSet{ + Type: copiedType, + NoescapeKeyCode: noescapeKeyCode, + EscapeKeyCode: escapeKeyCode, + InterfaceNoescapeKeyCode: interfaceNoescapeKeyCode, + InterfaceEscapeKeyCode: interfaceEscapeKeyCode, + CodeLength: codeLength, + EndCode: ToEndCode(interfaceNoescapeKeyCode), + } + cachedOpcodeSets[index] = codeSet + return codeSet, nil +} diff --git a/vendor/github.com/goccy/go-json/internal/encoder/compiler_race.go b/vendor/github.com/goccy/go-json/internal/encoder/compiler_race.go new file mode 100644 index 0000000..3a239e9 --- /dev/null +++ b/vendor/github.com/goccy/go-json/internal/encoder/compiler_race.go @@ -0,0 +1,65 @@ +// +build race + +package encoder + +import ( + "sync" + "unsafe" + + "github.com/goccy/go-json/internal/runtime" +) + +var setsMu sync.RWMutex + +func CompileToGetCodeSet(typeptr uintptr) (*OpcodeSet, error) { + if typeptr > typeAddr.MaxTypeAddr { + return compileToGetCodeSetSlowPath(typeptr) + } + index := (typeptr - typeAddr.BaseTypeAddr) >> typeAddr.AddrShift + setsMu.RLock() + if codeSet := cachedOpcodeSets[index]; codeSet != nil { + setsMu.RUnlock() + return codeSet, nil + } + setsMu.RUnlock() + + // noescape trick for header.typ ( reflect.*rtype ) + copiedType := *(**runtime.Type)(unsafe.Pointer(&typeptr)) + + noescapeKeyCode, err := compileHead(&compileContext{ + typ: copiedType, + structTypeToCompiledCode: map[uintptr]*CompiledCode{}, + }) + if err != nil { + return nil, err + } + escapeKeyCode, err := compileHead(&compileContext{ + typ: copiedType, + structTypeToCompiledCode: map[uintptr]*CompiledCode{}, + escapeKey: true, + }) + if err != nil { + return nil, err + } + + noescapeKeyCode = copyOpcode(noescapeKeyCode) + escapeKeyCode = copyOpcode(escapeKeyCode) + setTotalLengthToInterfaceOp(noescapeKeyCode) + setTotalLengthToInterfaceOp(escapeKeyCode) + interfaceNoescapeKeyCode := copyToInterfaceOpcode(noescapeKeyCode) + interfaceEscapeKeyCode := copyToInterfaceOpcode(escapeKeyCode) + codeLength := noescapeKeyCode.TotalLength() + codeSet := &OpcodeSet{ + Type: copiedType, + NoescapeKeyCode: noescapeKeyCode, + EscapeKeyCode: escapeKeyCode, + InterfaceNoescapeKeyCode: interfaceNoescapeKeyCode, + InterfaceEscapeKeyCode: interfaceEscapeKeyCode, + CodeLength: codeLength, + EndCode: ToEndCode(interfaceNoescapeKeyCode), + } + setsMu.Lock() + cachedOpcodeSets[index] = codeSet + setsMu.Unlock() + return codeSet, nil +} diff --git a/vendor/github.com/goccy/go-json/internal/encoder/context.go b/vendor/github.com/goccy/go-json/internal/encoder/context.go new file mode 100644 index 0000000..61b8908 --- /dev/null +++ b/vendor/github.com/goccy/go-json/internal/encoder/context.go @@ -0,0 +1,141 @@ +package encoder + +import ( + "context" + "sync" + "unsafe" + + "github.com/goccy/go-json/internal/runtime" +) + +type compileContext struct { + typ *runtime.Type + opcodeIndex uint32 + ptrIndex int + indent uint32 + escapeKey bool + structTypeToCompiledCode map[uintptr]*CompiledCode + + parent *compileContext +} + +func (c *compileContext) context() *compileContext { + return &compileContext{ + typ: c.typ, + opcodeIndex: c.opcodeIndex, + ptrIndex: c.ptrIndex, + indent: c.indent, + escapeKey: c.escapeKey, + structTypeToCompiledCode: c.structTypeToCompiledCode, + parent: c, + } +} + +func (c *compileContext) withType(typ *runtime.Type) *compileContext { + ctx := c.context() + ctx.typ = typ + return ctx +} + +func (c *compileContext) incIndent() *compileContext { + ctx := c.context() + ctx.indent++ + return ctx +} + +func (c *compileContext) decIndent() *compileContext { + ctx := c.context() + ctx.indent-- + return ctx +} + +func (c *compileContext) incIndex() { + c.incOpcodeIndex() + c.incPtrIndex() +} + +func (c *compileContext) decIndex() { + c.decOpcodeIndex() + c.decPtrIndex() +} + +func (c *compileContext) incOpcodeIndex() { + c.opcodeIndex++ + if c.parent != nil { + c.parent.incOpcodeIndex() + } +} + +func (c *compileContext) decOpcodeIndex() { + c.opcodeIndex-- + if c.parent != nil { + c.parent.decOpcodeIndex() + } +} + +func (c *compileContext) incPtrIndex() { + c.ptrIndex++ + if c.parent != nil { + c.parent.incPtrIndex() + } +} + +func (c *compileContext) decPtrIndex() { + c.ptrIndex-- + if c.parent != nil { + c.parent.decPtrIndex() + } +} + +const ( + bufSize = 1024 +) + +var ( + runtimeContextPool = sync.Pool{ + New: func() interface{} { + return &RuntimeContext{ + Buf: make([]byte, 0, bufSize), + Ptrs: make([]uintptr, 128), + KeepRefs: make([]unsafe.Pointer, 0, 8), + Option: &Option{}, + } + }, + } +) + +type RuntimeContext struct { + Context context.Context + Buf []byte + MarshalBuf []byte + Ptrs []uintptr + KeepRefs []unsafe.Pointer + SeenPtr []uintptr + BaseIndent uint32 + Prefix []byte + IndentStr []byte + Option *Option +} + +func (c *RuntimeContext) Init(p uintptr, codelen int) { + if len(c.Ptrs) < codelen { + c.Ptrs = make([]uintptr, codelen) + } + c.Ptrs[0] = p + c.KeepRefs = c.KeepRefs[:0] + c.SeenPtr = c.SeenPtr[:0] + c.BaseIndent = 0 +} + +func (c *RuntimeContext) Ptr() uintptr { + header := (*runtime.SliceHeader)(unsafe.Pointer(&c.Ptrs)) + return uintptr(header.Data) +} + +func TakeRuntimeContext() *RuntimeContext { + return runtimeContextPool.Get().(*RuntimeContext) +} + +func ReleaseRuntimeContext(ctx *RuntimeContext) { + runtimeContextPool.Put(ctx) +} diff --git a/vendor/github.com/goccy/go-json/internal/encoder/encoder.go b/vendor/github.com/goccy/go-json/internal/encoder/encoder.go new file mode 100644 index 0000000..b7fa99a --- /dev/null +++ b/vendor/github.com/goccy/go-json/internal/encoder/encoder.go @@ -0,0 +1,551 @@ +package encoder + +import ( + "bytes" + "encoding" + "encoding/base64" + "encoding/json" + "fmt" + "math" + "reflect" + "strconv" + "strings" + "sync" + "unsafe" + + "github.com/goccy/go-json/internal/errors" + "github.com/goccy/go-json/internal/runtime" +) + +func (t OpType) IsMultipleOpHead() bool { + switch t { + case OpStructHead: + return true + case OpStructHeadSlice: + return true + case OpStructHeadArray: + return true + case OpStructHeadMap: + return true + case OpStructHeadStruct: + return true + case OpStructHeadOmitEmpty: + return true + case OpStructHeadOmitEmptySlice: + return true + case OpStructHeadOmitEmptyArray: + return true + case OpStructHeadOmitEmptyMap: + return true + case OpStructHeadOmitEmptyStruct: + return true + case OpStructHeadSlicePtr: + return true + case OpStructHeadOmitEmptySlicePtr: + return true + case OpStructHeadArrayPtr: + return true + case OpStructHeadOmitEmptyArrayPtr: + return true + case OpStructHeadMapPtr: + return true + case OpStructHeadOmitEmptyMapPtr: + return true + } + return false +} + +func (t OpType) IsMultipleOpField() bool { + switch t { + case OpStructField: + return true + case OpStructFieldSlice: + return true + case OpStructFieldArray: + return true + case OpStructFieldMap: + return true + case OpStructFieldStruct: + return true + case OpStructFieldOmitEmpty: + return true + case OpStructFieldOmitEmptySlice: + return true + case OpStructFieldOmitEmptyArray: + return true + case OpStructFieldOmitEmptyMap: + return true + case OpStructFieldOmitEmptyStruct: + return true + case OpStructFieldSlicePtr: + return true + case OpStructFieldOmitEmptySlicePtr: + return true + case OpStructFieldArrayPtr: + return true + case OpStructFieldOmitEmptyArrayPtr: + return true + case OpStructFieldMapPtr: + return true + case OpStructFieldOmitEmptyMapPtr: + return true + } + return false +} + +type OpcodeSet struct { + Type *runtime.Type + NoescapeKeyCode *Opcode + EscapeKeyCode *Opcode + InterfaceNoescapeKeyCode *Opcode + InterfaceEscapeKeyCode *Opcode + CodeLength int + EndCode *Opcode +} + +type CompiledCode struct { + Code *Opcode + Linked bool // whether recursive code already have linked + CurLen uintptr + NextLen uintptr +} + +const StartDetectingCyclesAfter = 1000 + +func Load(base uintptr, idx uintptr) uintptr { + addr := base + idx + return **(**uintptr)(unsafe.Pointer(&addr)) +} + +func Store(base uintptr, idx uintptr, p uintptr) { + addr := base + idx + **(**uintptr)(unsafe.Pointer(&addr)) = p +} + +func LoadNPtr(base uintptr, idx uintptr, ptrNum int) uintptr { + addr := base + idx + p := **(**uintptr)(unsafe.Pointer(&addr)) + if p == 0 { + return 0 + } + return PtrToPtr(p) + /* + for i := 0; i < ptrNum; i++ { + if p == 0 { + return p + } + p = PtrToPtr(p) + } + return p + */ +} + +func PtrToUint64(p uintptr) uint64 { return **(**uint64)(unsafe.Pointer(&p)) } +func PtrToFloat32(p uintptr) float32 { return **(**float32)(unsafe.Pointer(&p)) } +func PtrToFloat64(p uintptr) float64 { return **(**float64)(unsafe.Pointer(&p)) } +func PtrToBool(p uintptr) bool { return **(**bool)(unsafe.Pointer(&p)) } +func PtrToBytes(p uintptr) []byte { return **(**[]byte)(unsafe.Pointer(&p)) } +func PtrToNumber(p uintptr) json.Number { return **(**json.Number)(unsafe.Pointer(&p)) } +func PtrToString(p uintptr) string { return **(**string)(unsafe.Pointer(&p)) } +func PtrToSlice(p uintptr) *runtime.SliceHeader { return *(**runtime.SliceHeader)(unsafe.Pointer(&p)) } +func PtrToPtr(p uintptr) uintptr { + return uintptr(**(**unsafe.Pointer)(unsafe.Pointer(&p))) +} +func PtrToNPtr(p uintptr, ptrNum int) uintptr { + for i := 0; i < ptrNum; i++ { + if p == 0 { + return 0 + } + p = PtrToPtr(p) + } + return p +} + +func PtrToUnsafePtr(p uintptr) unsafe.Pointer { + return *(*unsafe.Pointer)(unsafe.Pointer(&p)) +} +func PtrToInterface(code *Opcode, p uintptr) interface{} { + return *(*interface{})(unsafe.Pointer(&emptyInterface{ + typ: code.Type, + ptr: *(*unsafe.Pointer)(unsafe.Pointer(&p)), + })) +} + +func ErrUnsupportedValue(code *Opcode, ptr uintptr) *errors.UnsupportedValueError { + v := *(*interface{})(unsafe.Pointer(&emptyInterface{ + typ: code.Type, + ptr: *(*unsafe.Pointer)(unsafe.Pointer(&ptr)), + })) + return &errors.UnsupportedValueError{ + Value: reflect.ValueOf(v), + Str: fmt.Sprintf("encountered a cycle via %s", code.Type), + } +} + +func ErrUnsupportedFloat(v float64) *errors.UnsupportedValueError { + return &errors.UnsupportedValueError{ + Value: reflect.ValueOf(v), + Str: strconv.FormatFloat(v, 'g', -1, 64), + } +} + +func ErrMarshalerWithCode(code *Opcode, err error) *errors.MarshalerError { + return &errors.MarshalerError{ + Type: runtime.RType2Type(code.Type), + Err: err, + } +} + +type emptyInterface struct { + typ *runtime.Type + ptr unsafe.Pointer +} + +type MapItem struct { + Key []byte + Value []byte +} + +type Mapslice struct { + Items []MapItem +} + +func (m *Mapslice) Len() int { + return len(m.Items) +} + +func (m *Mapslice) Less(i, j int) bool { + return bytes.Compare(m.Items[i].Key, m.Items[j].Key) < 0 +} + +func (m *Mapslice) Swap(i, j int) { + m.Items[i], m.Items[j] = m.Items[j], m.Items[i] +} + +type MapContext struct { + Pos []int + Slice *Mapslice + Buf []byte +} + +var mapContextPool = sync.Pool{ + New: func() interface{} { + return &MapContext{} + }, +} + +func NewMapContext(mapLen int) *MapContext { + ctx := mapContextPool.Get().(*MapContext) + if ctx.Slice == nil { + ctx.Slice = &Mapslice{ + Items: make([]MapItem, 0, mapLen), + } + } + if cap(ctx.Pos) < (mapLen*2 + 1) { + ctx.Pos = make([]int, 0, mapLen*2+1) + ctx.Slice.Items = make([]MapItem, 0, mapLen) + } else { + ctx.Pos = ctx.Pos[:0] + ctx.Slice.Items = ctx.Slice.Items[:0] + } + ctx.Buf = ctx.Buf[:0] + return ctx +} + +func ReleaseMapContext(c *MapContext) { + mapContextPool.Put(c) +} + +//go:linkname MapIterInit reflect.mapiterinit +//go:noescape +func MapIterInit(mapType *runtime.Type, m unsafe.Pointer) unsafe.Pointer + +//go:linkname MapIterKey reflect.mapiterkey +//go:noescape +func MapIterKey(it unsafe.Pointer) unsafe.Pointer + +//go:linkname MapIterNext reflect.mapiternext +//go:noescape +func MapIterNext(it unsafe.Pointer) + +//go:linkname MapLen reflect.maplen +//go:noescape +func MapLen(m unsafe.Pointer) int + +func AppendByteSlice(_ *RuntimeContext, b []byte, src []byte) []byte { + if src == nil { + return append(b, `null`...) + } + encodedLen := base64.StdEncoding.EncodedLen(len(src)) + b = append(b, '"') + pos := len(b) + remainLen := cap(b[pos:]) + var buf []byte + if remainLen > encodedLen { + buf = b[pos : pos+encodedLen] + } else { + buf = make([]byte, encodedLen) + } + base64.StdEncoding.Encode(buf, src) + return append(append(b, buf...), '"') +} + +func AppendFloat32(_ *RuntimeContext, b []byte, v float32) []byte { + f64 := float64(v) + abs := math.Abs(f64) + fmt := byte('f') + // Note: Must use float32 comparisons for underlying float32 value to get precise cutoffs right. + if abs != 0 { + f32 := float32(abs) + if f32 < 1e-6 || f32 >= 1e21 { + fmt = 'e' + } + } + return strconv.AppendFloat(b, f64, fmt, -1, 32) +} + +func AppendFloat64(_ *RuntimeContext, b []byte, v float64) []byte { + abs := math.Abs(v) + fmt := byte('f') + // Note: Must use float32 comparisons for underlying float32 value to get precise cutoffs right. + if abs != 0 { + if abs < 1e-6 || abs >= 1e21 { + fmt = 'e' + } + } + return strconv.AppendFloat(b, v, fmt, -1, 64) +} + +func AppendBool(_ *RuntimeContext, b []byte, v bool) []byte { + if v { + return append(b, "true"...) + } + return append(b, "false"...) +} + +var ( + floatTable = [256]bool{ + '0': true, + '1': true, + '2': true, + '3': true, + '4': true, + '5': true, + '6': true, + '7': true, + '8': true, + '9': true, + '.': true, + 'e': true, + 'E': true, + '+': true, + '-': true, + } +) + +func AppendNumber(_ *RuntimeContext, b []byte, n json.Number) ([]byte, error) { + if len(n) == 0 { + return append(b, '0'), nil + } + for i := 0; i < len(n); i++ { + if !floatTable[n[i]] { + return nil, fmt.Errorf("json: invalid number literal %q", n) + } + } + b = append(b, n...) + return b, nil +} + +func AppendMarshalJSON(ctx *RuntimeContext, code *Opcode, b []byte, v interface{}) ([]byte, error) { + rv := reflect.ValueOf(v) // convert by dynamic interface type + if (code.Flags & AddrForMarshalerFlags) != 0 { + if rv.CanAddr() { + rv = rv.Addr() + } else { + newV := reflect.New(rv.Type()) + newV.Elem().Set(rv) + rv = newV + } + } + v = rv.Interface() + var bb []byte + if (code.Flags & MarshalerContextFlags) != 0 { + marshaler, ok := v.(marshalerContext) + if !ok { + return AppendNull(ctx, b), nil + } + b, err := marshaler.MarshalJSON(ctx.Option.Context) + if err != nil { + return nil, &errors.MarshalerError{Type: reflect.TypeOf(v), Err: err} + } + bb = b + } else { + marshaler, ok := v.(json.Marshaler) + if !ok { + return AppendNull(ctx, b), nil + } + b, err := marshaler.MarshalJSON() + if err != nil { + return nil, &errors.MarshalerError{Type: reflect.TypeOf(v), Err: err} + } + bb = b + } + marshalBuf := ctx.MarshalBuf[:0] + marshalBuf = append(append(marshalBuf, bb...), nul) + compactedBuf, err := compact(b, marshalBuf, (ctx.Option.Flag&HTMLEscapeOption) != 0) + if err != nil { + return nil, &errors.MarshalerError{Type: reflect.TypeOf(v), Err: err} + } + ctx.MarshalBuf = marshalBuf + return compactedBuf, nil +} + +func AppendMarshalJSONIndent(ctx *RuntimeContext, code *Opcode, b []byte, v interface{}) ([]byte, error) { + rv := reflect.ValueOf(v) // convert by dynamic interface type + if (code.Flags & AddrForMarshalerFlags) != 0 { + if rv.CanAddr() { + rv = rv.Addr() + } else { + newV := reflect.New(rv.Type()) + newV.Elem().Set(rv) + rv = newV + } + } + v = rv.Interface() + var bb []byte + if (code.Flags & MarshalerContextFlags) != 0 { + marshaler, ok := v.(marshalerContext) + if !ok { + return AppendNull(ctx, b), nil + } + b, err := marshaler.MarshalJSON(ctx.Option.Context) + if err != nil { + return nil, &errors.MarshalerError{Type: reflect.TypeOf(v), Err: err} + } + bb = b + } else { + marshaler, ok := v.(json.Marshaler) + if !ok { + return AppendNull(ctx, b), nil + } + b, err := marshaler.MarshalJSON() + if err != nil { + return nil, &errors.MarshalerError{Type: reflect.TypeOf(v), Err: err} + } + bb = b + } + marshalBuf := ctx.MarshalBuf[:0] + marshalBuf = append(append(marshalBuf, bb...), nul) + indentedBuf, err := doIndent( + b, + marshalBuf, + string(ctx.Prefix)+strings.Repeat(string(ctx.IndentStr), int(ctx.BaseIndent+code.Indent)), + string(ctx.IndentStr), + (ctx.Option.Flag&HTMLEscapeOption) != 0, + ) + if err != nil { + return nil, &errors.MarshalerError{Type: reflect.TypeOf(v), Err: err} + } + ctx.MarshalBuf = marshalBuf + return indentedBuf, nil +} + +func AppendMarshalText(ctx *RuntimeContext, code *Opcode, b []byte, v interface{}) ([]byte, error) { + rv := reflect.ValueOf(v) // convert by dynamic interface type + if (code.Flags & AddrForMarshalerFlags) != 0 { + if rv.CanAddr() { + rv = rv.Addr() + } else { + newV := reflect.New(rv.Type()) + newV.Elem().Set(rv) + rv = newV + } + } + v = rv.Interface() + marshaler, ok := v.(encoding.TextMarshaler) + if !ok { + return AppendNull(ctx, b), nil + } + bytes, err := marshaler.MarshalText() + if err != nil { + return nil, &errors.MarshalerError{Type: reflect.TypeOf(v), Err: err} + } + return AppendString(ctx, b, *(*string)(unsafe.Pointer(&bytes))), nil +} + +func AppendMarshalTextIndent(ctx *RuntimeContext, code *Opcode, b []byte, v interface{}) ([]byte, error) { + rv := reflect.ValueOf(v) // convert by dynamic interface type + if (code.Flags & AddrForMarshalerFlags) != 0 { + if rv.CanAddr() { + rv = rv.Addr() + } else { + newV := reflect.New(rv.Type()) + newV.Elem().Set(rv) + rv = newV + } + } + v = rv.Interface() + marshaler, ok := v.(encoding.TextMarshaler) + if !ok { + return AppendNull(ctx, b), nil + } + bytes, err := marshaler.MarshalText() + if err != nil { + return nil, &errors.MarshalerError{Type: reflect.TypeOf(v), Err: err} + } + return AppendString(ctx, b, *(*string)(unsafe.Pointer(&bytes))), nil +} + +func AppendNull(_ *RuntimeContext, b []byte) []byte { + return append(b, "null"...) +} + +func AppendComma(_ *RuntimeContext, b []byte) []byte { + return append(b, ',') +} + +func AppendCommaIndent(_ *RuntimeContext, b []byte) []byte { + return append(b, ',', '\n') +} + +func AppendStructEnd(_ *RuntimeContext, b []byte) []byte { + return append(b, '}', ',') +} + +func AppendStructEndIndent(ctx *RuntimeContext, code *Opcode, b []byte) []byte { + b = append(b, '\n') + b = append(b, ctx.Prefix...) + indentNum := ctx.BaseIndent + code.Indent - 1 + for i := uint32(0); i < indentNum; i++ { + b = append(b, ctx.IndentStr...) + } + return append(b, '}', ',', '\n') +} + +func AppendIndent(ctx *RuntimeContext, b []byte, indent uint32) []byte { + b = append(b, ctx.Prefix...) + indentNum := ctx.BaseIndent + indent + for i := uint32(0); i < indentNum; i++ { + b = append(b, ctx.IndentStr...) + } + return b +} + +func IsNilForMarshaler(v interface{}) bool { + rv := reflect.ValueOf(v) + switch rv.Kind() { + case reflect.Bool: + return !rv.Bool() + case reflect.Int, reflect.Int8, reflect.Int16, reflect.Int32, reflect.Int64: + return rv.Int() == 0 + case reflect.Uint, reflect.Uint8, reflect.Uint16, reflect.Uint32, reflect.Uint64, reflect.Uintptr: + return rv.Uint() == 0 + case reflect.Float32, reflect.Float64: + return math.Float64bits(rv.Float()) == 0 + case reflect.Interface, reflect.Map, reflect.Ptr, reflect.Func: + return rv.IsNil() + case reflect.Slice: + return rv.IsNil() || rv.Len() == 0 + } + return false +} diff --git a/vendor/github.com/goccy/go-json/internal/encoder/indent.go b/vendor/github.com/goccy/go-json/internal/encoder/indent.go new file mode 100644 index 0000000..dfe04b5 --- /dev/null +++ b/vendor/github.com/goccy/go-json/internal/encoder/indent.go @@ -0,0 +1,211 @@ +package encoder + +import ( + "bytes" + "fmt" + + "github.com/goccy/go-json/internal/errors" +) + +func takeIndentSrcRuntimeContext(src []byte) (*RuntimeContext, []byte) { + ctx := TakeRuntimeContext() + buf := ctx.Buf[:0] + buf = append(append(buf, src...), nul) + ctx.Buf = buf + return ctx, buf +} + +func Indent(buf *bytes.Buffer, src []byte, prefix, indentStr string) error { + if len(src) == 0 { + return errors.ErrUnexpectedEndOfJSON("", 0) + } + + srcCtx, srcBuf := takeIndentSrcRuntimeContext(src) + dstCtx := TakeRuntimeContext() + dst := dstCtx.Buf[:0] + + dst, err := indentAndWrite(buf, dst, srcBuf, prefix, indentStr) + if err != nil { + ReleaseRuntimeContext(srcCtx) + ReleaseRuntimeContext(dstCtx) + return err + } + dstCtx.Buf = dst + ReleaseRuntimeContext(srcCtx) + ReleaseRuntimeContext(dstCtx) + return nil +} + +func indentAndWrite(buf *bytes.Buffer, dst []byte, src []byte, prefix, indentStr string) ([]byte, error) { + dst, err := doIndent(dst, src, prefix, indentStr, false) + if err != nil { + return nil, err + } + if _, err := buf.Write(dst); err != nil { + return nil, err + } + return dst, nil +} + +func doIndent(dst, src []byte, prefix, indentStr string, escape bool) ([]byte, error) { + buf, cursor, err := indentValue(dst, src, 0, 0, []byte(prefix), []byte(indentStr), escape) + if err != nil { + return nil, err + } + if err := validateEndBuf(src, cursor); err != nil { + return nil, err + } + return buf, nil +} + +func indentValue( + dst []byte, + src []byte, + indentNum int, + cursor int64, + prefix []byte, + indentBytes []byte, + escape bool) ([]byte, int64, error) { + for { + switch src[cursor] { + case ' ', '\t', '\n', '\r': + cursor++ + continue + case '{': + return indentObject(dst, src, indentNum, cursor, prefix, indentBytes, escape) + case '}': + return nil, 0, errors.ErrSyntax("unexpected character '}'", cursor) + case '[': + return indentArray(dst, src, indentNum, cursor, prefix, indentBytes, escape) + case ']': + return nil, 0, errors.ErrSyntax("unexpected character ']'", cursor) + case '"': + return compactString(dst, src, cursor, escape) + case '-', '0', '1', '2', '3', '4', '5', '6', '7', '8', '9': + return compactNumber(dst, src, cursor) + case 't': + return compactTrue(dst, src, cursor) + case 'f': + return compactFalse(dst, src, cursor) + case 'n': + return compactNull(dst, src, cursor) + default: + return nil, 0, errors.ErrSyntax(fmt.Sprintf("unexpected character '%c'", src[cursor]), cursor) + } + } +} + +func indentObject( + dst []byte, + src []byte, + indentNum int, + cursor int64, + prefix []byte, + indentBytes []byte, + escape bool) ([]byte, int64, error) { + if src[cursor] == '{' { + dst = append(dst, '{') + } else { + return nil, 0, errors.ErrExpected("expected { character for object value", cursor) + } + cursor = skipWhiteSpace(src, cursor+1) + if src[cursor] == '}' { + dst = append(dst, '}') + return dst, cursor + 1, nil + } + indentNum++ + var err error + for { + dst = append(append(dst, '\n'), prefix...) + for i := 0; i < indentNum; i++ { + dst = append(dst, indentBytes...) + } + cursor = skipWhiteSpace(src, cursor) + dst, cursor, err = compactString(dst, src, cursor, escape) + if err != nil { + return nil, 0, err + } + cursor = skipWhiteSpace(src, cursor) + if src[cursor] != ':' { + return nil, 0, errors.ErrSyntax( + fmt.Sprintf("invalid character '%c' after object key", src[cursor]), + cursor+1, + ) + } + dst = append(dst, ':', ' ') + dst, cursor, err = indentValue(dst, src, indentNum, cursor+1, prefix, indentBytes, escape) + if err != nil { + return nil, 0, err + } + cursor = skipWhiteSpace(src, cursor) + switch src[cursor] { + case '}': + dst = append(append(dst, '\n'), prefix...) + for i := 0; i < indentNum-1; i++ { + dst = append(dst, indentBytes...) + } + dst = append(dst, '}') + cursor++ + return dst, cursor, nil + case ',': + dst = append(dst, ',') + default: + return nil, 0, errors.ErrSyntax( + fmt.Sprintf("invalid character '%c' after object key:value pair", src[cursor]), + cursor+1, + ) + } + cursor++ + } +} + +func indentArray( + dst []byte, + src []byte, + indentNum int, + cursor int64, + prefix []byte, + indentBytes []byte, + escape bool) ([]byte, int64, error) { + if src[cursor] == '[' { + dst = append(dst, '[') + } else { + return nil, 0, errors.ErrExpected("expected [ character for array value", cursor) + } + cursor = skipWhiteSpace(src, cursor+1) + if src[cursor] == ']' { + dst = append(dst, ']') + return dst, cursor + 1, nil + } + indentNum++ + var err error + for { + dst = append(append(dst, '\n'), prefix...) + for i := 0; i < indentNum; i++ { + dst = append(dst, indentBytes...) + } + dst, cursor, err = indentValue(dst, src, indentNum, cursor, prefix, indentBytes, escape) + if err != nil { + return nil, 0, err + } + cursor = skipWhiteSpace(src, cursor) + switch src[cursor] { + case ']': + dst = append(append(dst, '\n'), prefix...) + for i := 0; i < indentNum-1; i++ { + dst = append(dst, indentBytes...) + } + dst = append(dst, ']') + cursor++ + return dst, cursor, nil + case ',': + dst = append(dst, ',') + default: + return nil, 0, errors.ErrSyntax( + fmt.Sprintf("invalid character '%c' after array value", src[cursor]), + cursor+1, + ) + } + cursor++ + } +} diff --git a/vendor/github.com/goccy/go-json/internal/encoder/int.go b/vendor/github.com/goccy/go-json/internal/encoder/int.go new file mode 100644 index 0000000..3a3482d --- /dev/null +++ b/vendor/github.com/goccy/go-json/internal/encoder/int.go @@ -0,0 +1,130 @@ +package encoder + +import ( + "unsafe" +) + +var endianness int + +func init() { + var b [2]byte + *(*uint16)(unsafe.Pointer(&b)) = uint16(0xABCD) + + switch b[0] { + case 0xCD: + endianness = 0 // LE + case 0xAB: + endianness = 1 // BE + default: + panic("could not determine endianness") + } +} + +// "00010203...96979899" cast to []uint16 +var intLELookup = [100]uint16{ + 0x3030, 0x3130, 0x3230, 0x3330, 0x3430, 0x3530, 0x3630, 0x3730, 0x3830, 0x3930, + 0x3031, 0x3131, 0x3231, 0x3331, 0x3431, 0x3531, 0x3631, 0x3731, 0x3831, 0x3931, + 0x3032, 0x3132, 0x3232, 0x3332, 0x3432, 0x3532, 0x3632, 0x3732, 0x3832, 0x3932, + 0x3033, 0x3133, 0x3233, 0x3333, 0x3433, 0x3533, 0x3633, 0x3733, 0x3833, 0x3933, + 0x3034, 0x3134, 0x3234, 0x3334, 0x3434, 0x3534, 0x3634, 0x3734, 0x3834, 0x3934, + 0x3035, 0x3135, 0x3235, 0x3335, 0x3435, 0x3535, 0x3635, 0x3735, 0x3835, 0x3935, + 0x3036, 0x3136, 0x3236, 0x3336, 0x3436, 0x3536, 0x3636, 0x3736, 0x3836, 0x3936, + 0x3037, 0x3137, 0x3237, 0x3337, 0x3437, 0x3537, 0x3637, 0x3737, 0x3837, 0x3937, + 0x3038, 0x3138, 0x3238, 0x3338, 0x3438, 0x3538, 0x3638, 0x3738, 0x3838, 0x3938, + 0x3039, 0x3139, 0x3239, 0x3339, 0x3439, 0x3539, 0x3639, 0x3739, 0x3839, 0x3939, +} + +var intBELookup = [100]uint16{ + 0x3030, 0x3031, 0x3032, 0x3033, 0x3034, 0x3035, 0x3036, 0x3037, 0x3038, 0x3039, + 0x3130, 0x3131, 0x3132, 0x3133, 0x3134, 0x3135, 0x3136, 0x3137, 0x3138, 0x3139, + 0x3230, 0x3231, 0x3232, 0x3233, 0x3234, 0x3235, 0x3236, 0x3237, 0x3238, 0x3239, + 0x3330, 0x3331, 0x3332, 0x3333, 0x3334, 0x3335, 0x3336, 0x3337, 0x3338, 0x3339, + 0x3430, 0x3431, 0x3432, 0x3433, 0x3434, 0x3435, 0x3436, 0x3437, 0x3438, 0x3439, + 0x3530, 0x3531, 0x3532, 0x3533, 0x3534, 0x3535, 0x3536, 0x3537, 0x3538, 0x3539, + 0x3630, 0x3631, 0x3632, 0x3633, 0x3634, 0x3635, 0x3636, 0x3637, 0x3638, 0x3639, + 0x3730, 0x3731, 0x3732, 0x3733, 0x3734, 0x3735, 0x3736, 0x3737, 0x3738, 0x3739, + 0x3830, 0x3831, 0x3832, 0x3833, 0x3834, 0x3835, 0x3836, 0x3837, 0x3838, 0x3839, + 0x3930, 0x3931, 0x3932, 0x3933, 0x3934, 0x3935, 0x3936, 0x3937, 0x3938, 0x3939, +} + +var intLookup = [2]*[100]uint16{&intLELookup, &intBELookup} + +func numMask(numBitSize uint8) uint64 { + return 1<>(code.NumBitSize-1))&1 == 1 + if !negative { + if n < 10 { + return append(out, byte(n+'0')) + } else if n < 100 { + u := intLELookup[n] + return append(out, byte(u), byte(u>>8)) + } + } else { + n = -n & mask + } + + lookup := intLookup[endianness] + + var b [22]byte + u := (*[11]uint16)(unsafe.Pointer(&b)) + i := 11 + + for n >= 100 { + j := n % 100 + n /= 100 + i-- + u[i] = lookup[j] + } + + i-- + u[i] = lookup[n] + + i *= 2 // convert to byte index + if n < 10 { + i++ // remove leading zero + } + if negative { + i-- + b[i] = '-' + } + + return append(out, b[i:]...) +} + +func AppendUint(_ *RuntimeContext, out []byte, u64 uint64, code *Opcode) []byte { + mask := numMask(code.NumBitSize) + n := u64 & mask + if n < 10 { + return append(out, byte(n+'0')) + } else if n < 100 { + u := intLELookup[n] + return append(out, byte(u), byte(u>>8)) + } + + lookup := intLookup[endianness] + + var b [22]byte + u := (*[11]uint16)(unsafe.Pointer(&b)) + i := 11 + + for n >= 100 { + j := n % 100 + n /= 100 + i-- + u[i] = lookup[j] + } + + i-- + u[i] = lookup[n] + + i *= 2 // convert to byte index + if n < 10 { + i++ // remove leading zero + } + return append(out, b[i:]...) +} diff --git a/vendor/github.com/goccy/go-json/internal/encoder/map112.go b/vendor/github.com/goccy/go-json/internal/encoder/map112.go new file mode 100644 index 0000000..31858d0 --- /dev/null +++ b/vendor/github.com/goccy/go-json/internal/encoder/map112.go @@ -0,0 +1,8 @@ +// +build !go1.13 + +package encoder + +import "unsafe" + +//go:linkname MapIterValue reflect.mapitervalue +func MapIterValue(it unsafe.Pointer) unsafe.Pointer diff --git a/vendor/github.com/goccy/go-json/internal/encoder/map113.go b/vendor/github.com/goccy/go-json/internal/encoder/map113.go new file mode 100644 index 0000000..f49c27b --- /dev/null +++ b/vendor/github.com/goccy/go-json/internal/encoder/map113.go @@ -0,0 +1,8 @@ +// +build go1.13 + +package encoder + +import "unsafe" + +//go:linkname MapIterValue reflect.mapiterelem +func MapIterValue(it unsafe.Pointer) unsafe.Pointer diff --git a/vendor/github.com/goccy/go-json/internal/encoder/opcode.go b/vendor/github.com/goccy/go-json/internal/encoder/opcode.go new file mode 100644 index 0000000..c23a90b --- /dev/null +++ b/vendor/github.com/goccy/go-json/internal/encoder/opcode.go @@ -0,0 +1,766 @@ +package encoder + +import ( + "fmt" + "strings" + "unsafe" + + "github.com/goccy/go-json/internal/runtime" +) + +const uintptrSize = 4 << (^uintptr(0) >> 63) + +type OpFlags uint16 + +const ( + AnonymousHeadFlags OpFlags = 1 << 0 + AnonymousKeyFlags OpFlags = 1 << 1 + IndirectFlags OpFlags = 1 << 2 + IsTaggedKeyFlags OpFlags = 1 << 3 + NilCheckFlags OpFlags = 1 << 4 + AddrForMarshalerFlags OpFlags = 1 << 5 + IsNextOpPtrTypeFlags OpFlags = 1 << 6 + IsNilableTypeFlags OpFlags = 1 << 7 + MarshalerContextFlags OpFlags = 1 << 8 +) + +type Opcode struct { + Op OpType // operation type + Idx uint32 // offset to access ptr + Next *Opcode // next opcode + End *Opcode // array/slice/struct/map end + NextField *Opcode // next struct field + Key string // struct field key + Offset uint32 // offset size from struct header + PtrNum uint8 // pointer number: e.g. double pointer is 2. + NumBitSize uint8 + Flags OpFlags + + Type *runtime.Type // go type + PrevField *Opcode // prev struct field + Jmp *CompiledCode // for recursive call + ElemIdx uint32 // offset to access array/slice/map elem + Length uint32 // offset to access slice/map length or array length + MapIter uint32 // offset to access map iterator + MapPos uint32 // offset to access position list for sorted map + Indent uint32 // indent number + Size uint32 // array/slice elem size + DisplayIdx uint32 // opcode index + DisplayKey string // key text to display +} + +func (c *Opcode) MaxIdx() uint32 { + max := uint32(0) + for _, value := range []uint32{ + c.Idx, + c.ElemIdx, + c.Length, + c.MapIter, + c.MapPos, + c.Size, + } { + if max < value { + max = value + } + } + return max +} + +func (c *Opcode) ToHeaderType(isString bool) OpType { + switch c.Op { + case OpInt: + if isString { + return OpStructHeadIntString + } + return OpStructHeadInt + case OpIntPtr: + if isString { + return OpStructHeadIntPtrString + } + return OpStructHeadIntPtr + case OpUint: + if isString { + return OpStructHeadUintString + } + return OpStructHeadUint + case OpUintPtr: + if isString { + return OpStructHeadUintPtrString + } + return OpStructHeadUintPtr + case OpFloat32: + if isString { + return OpStructHeadFloat32String + } + return OpStructHeadFloat32 + case OpFloat32Ptr: + if isString { + return OpStructHeadFloat32PtrString + } + return OpStructHeadFloat32Ptr + case OpFloat64: + if isString { + return OpStructHeadFloat64String + } + return OpStructHeadFloat64 + case OpFloat64Ptr: + if isString { + return OpStructHeadFloat64PtrString + } + return OpStructHeadFloat64Ptr + case OpString: + if isString { + return OpStructHeadStringString + } + return OpStructHeadString + case OpStringPtr: + if isString { + return OpStructHeadStringPtrString + } + return OpStructHeadStringPtr + case OpNumber: + if isString { + return OpStructHeadNumberString + } + return OpStructHeadNumber + case OpNumberPtr: + if isString { + return OpStructHeadNumberPtrString + } + return OpStructHeadNumberPtr + case OpBool: + if isString { + return OpStructHeadBoolString + } + return OpStructHeadBool + case OpBoolPtr: + if isString { + return OpStructHeadBoolPtrString + } + return OpStructHeadBoolPtr + case OpBytes: + return OpStructHeadBytes + case OpBytesPtr: + return OpStructHeadBytesPtr + case OpMap: + return OpStructHeadMap + case OpMapPtr: + c.Op = OpMap + return OpStructHeadMapPtr + case OpArray: + return OpStructHeadArray + case OpArrayPtr: + c.Op = OpArray + return OpStructHeadArrayPtr + case OpSlice: + return OpStructHeadSlice + case OpSlicePtr: + c.Op = OpSlice + return OpStructHeadSlicePtr + case OpMarshalJSON: + return OpStructHeadMarshalJSON + case OpMarshalJSONPtr: + return OpStructHeadMarshalJSONPtr + case OpMarshalText: + return OpStructHeadMarshalText + case OpMarshalTextPtr: + return OpStructHeadMarshalTextPtr + } + return OpStructHead +} + +func (c *Opcode) ToFieldType(isString bool) OpType { + switch c.Op { + case OpInt: + if isString { + return OpStructFieldIntString + } + return OpStructFieldInt + case OpIntPtr: + if isString { + return OpStructFieldIntPtrString + } + return OpStructFieldIntPtr + case OpUint: + if isString { + return OpStructFieldUintString + } + return OpStructFieldUint + case OpUintPtr: + if isString { + return OpStructFieldUintPtrString + } + return OpStructFieldUintPtr + case OpFloat32: + if isString { + return OpStructFieldFloat32String + } + return OpStructFieldFloat32 + case OpFloat32Ptr: + if isString { + return OpStructFieldFloat32PtrString + } + return OpStructFieldFloat32Ptr + case OpFloat64: + if isString { + return OpStructFieldFloat64String + } + return OpStructFieldFloat64 + case OpFloat64Ptr: + if isString { + return OpStructFieldFloat64PtrString + } + return OpStructFieldFloat64Ptr + case OpString: + if isString { + return OpStructFieldStringString + } + return OpStructFieldString + case OpStringPtr: + if isString { + return OpStructFieldStringPtrString + } + return OpStructFieldStringPtr + case OpNumber: + if isString { + return OpStructFieldNumberString + } + return OpStructFieldNumber + case OpNumberPtr: + if isString { + return OpStructFieldNumberPtrString + } + return OpStructFieldNumberPtr + case OpBool: + if isString { + return OpStructFieldBoolString + } + return OpStructFieldBool + case OpBoolPtr: + if isString { + return OpStructFieldBoolPtrString + } + return OpStructFieldBoolPtr + case OpBytes: + return OpStructFieldBytes + case OpBytesPtr: + return OpStructFieldBytesPtr + case OpMap: + return OpStructFieldMap + case OpMapPtr: + c.Op = OpMap + return OpStructFieldMapPtr + case OpArray: + return OpStructFieldArray + case OpArrayPtr: + c.Op = OpArray + return OpStructFieldArrayPtr + case OpSlice: + return OpStructFieldSlice + case OpSlicePtr: + c.Op = OpSlice + return OpStructFieldSlicePtr + case OpMarshalJSON: + return OpStructFieldMarshalJSON + case OpMarshalJSONPtr: + return OpStructFieldMarshalJSONPtr + case OpMarshalText: + return OpStructFieldMarshalText + case OpMarshalTextPtr: + return OpStructFieldMarshalTextPtr + } + return OpStructField +} + +func newOpCode(ctx *compileContext, op OpType) *Opcode { + return newOpCodeWithNext(ctx, op, newEndOp(ctx)) +} + +func opcodeOffset(idx int) uint32 { + return uint32(idx) * uintptrSize +} + +func copyOpcode(code *Opcode) *Opcode { + codeMap := map[uintptr]*Opcode{} + return code.copy(codeMap) +} + +func setTotalLengthToInterfaceOp(code *Opcode) { + c := code + for c.Op != OpEnd && c.Op != OpInterfaceEnd { + if c.Op == OpInterface { + c.Length = uint32(code.TotalLength()) + } + switch c.Op.CodeType() { + case CodeArrayElem, CodeSliceElem, CodeMapKey: + c = c.End + default: + c = c.Next + } + } +} + +func ToEndCode(code *Opcode) *Opcode { + c := code + for c.Op != OpEnd && c.Op != OpInterfaceEnd { + switch c.Op.CodeType() { + case CodeArrayElem, CodeSliceElem, CodeMapKey: + c = c.End + default: + c = c.Next + } + } + return c +} + +func copyToInterfaceOpcode(code *Opcode) *Opcode { + copied := copyOpcode(code) + c := copied + c = ToEndCode(c) + c.Idx += uintptrSize + c.ElemIdx = c.Idx + uintptrSize + c.Length = c.Idx + 2*uintptrSize + c.Op = OpInterfaceEnd + return copied +} + +func newOpCodeWithNext(ctx *compileContext, op OpType, next *Opcode) *Opcode { + return &Opcode{ + Op: op, + Idx: opcodeOffset(ctx.ptrIndex), + Next: next, + Type: ctx.typ, + DisplayIdx: ctx.opcodeIndex, + Indent: ctx.indent, + } +} + +func newEndOp(ctx *compileContext) *Opcode { + return newOpCodeWithNext(ctx, OpEnd, nil) +} + +func (c *Opcode) copy(codeMap map[uintptr]*Opcode) *Opcode { + if c == nil { + return nil + } + addr := uintptr(unsafe.Pointer(c)) + if code, exists := codeMap[addr]; exists { + return code + } + copied := &Opcode{ + Op: c.Op, + Key: c.Key, + PtrNum: c.PtrNum, + NumBitSize: c.NumBitSize, + Flags: c.Flags, + Idx: c.Idx, + Offset: c.Offset, + Type: c.Type, + DisplayIdx: c.DisplayIdx, + DisplayKey: c.DisplayKey, + ElemIdx: c.ElemIdx, + Length: c.Length, + MapIter: c.MapIter, + MapPos: c.MapPos, + Size: c.Size, + Indent: c.Indent, + } + codeMap[addr] = copied + copied.End = c.End.copy(codeMap) + copied.PrevField = c.PrevField.copy(codeMap) + copied.NextField = c.NextField.copy(codeMap) + copied.Next = c.Next.copy(codeMap) + copied.Jmp = c.Jmp + return copied +} + +func (c *Opcode) BeforeLastCode() *Opcode { + code := c + for { + var nextCode *Opcode + switch code.Op.CodeType() { + case CodeArrayElem, CodeSliceElem, CodeMapKey: + nextCode = code.End + default: + nextCode = code.Next + } + if nextCode.Op == OpEnd { + return code + } + code = nextCode + } +} + +func (c *Opcode) TotalLength() int { + var idx int + code := c + for code.Op != OpEnd && code.Op != OpInterfaceEnd { + maxIdx := int(code.MaxIdx() / uintptrSize) + if idx < maxIdx { + idx = maxIdx + } + if code.Op == OpRecursiveEnd { + break + } + switch code.Op.CodeType() { + case CodeArrayElem, CodeSliceElem, CodeMapKey: + code = code.End + default: + code = code.Next + } + } + maxIdx := int(code.MaxIdx() / uintptrSize) + if idx < maxIdx { + idx = maxIdx + } + return idx + 1 +} + +func (c *Opcode) decOpcodeIndex() { + for code := c; code.Op != OpEnd; { + code.DisplayIdx-- + if code.Idx > 0 { + code.Idx -= uintptrSize + } + if code.ElemIdx > 0 { + code.ElemIdx -= uintptrSize + } + if code.MapIter > 0 { + code.MapIter -= uintptrSize + } + if code.Length > 0 && code.Op.CodeType() != CodeArrayHead && code.Op.CodeType() != CodeArrayElem { + code.Length -= uintptrSize + } + switch code.Op.CodeType() { + case CodeArrayElem, CodeSliceElem, CodeMapKey: + code = code.End + default: + code = code.Next + } + } +} + +func (c *Opcode) decIndent() { + for code := c; code.Op != OpEnd; { + code.Indent-- + switch code.Op.CodeType() { + case CodeArrayElem, CodeSliceElem, CodeMapKey: + code = code.End + default: + code = code.Next + } + } +} + +func (c *Opcode) dumpHead(code *Opcode) string { + var length uint32 + if code.Op.CodeType() == CodeArrayHead { + length = code.Length + } else { + length = code.Length / uintptrSize + } + return fmt.Sprintf( + `[%d]%s%s ([idx:%d][elemIdx:%d][length:%d])`, + code.DisplayIdx, + strings.Repeat("-", int(code.Indent)), + code.Op, + code.Idx/uintptrSize, + code.ElemIdx/uintptrSize, + length, + ) +} + +func (c *Opcode) dumpMapHead(code *Opcode) string { + return fmt.Sprintf( + `[%d]%s%s ([idx:%d][elemIdx:%d][length:%d][mapIter:%d])`, + code.DisplayIdx, + strings.Repeat("-", int(code.Indent)), + code.Op, + code.Idx/uintptrSize, + code.ElemIdx/uintptrSize, + code.Length/uintptrSize, + code.MapIter/uintptrSize, + ) +} + +func (c *Opcode) dumpMapEnd(code *Opcode) string { + return fmt.Sprintf( + `[%d]%s%s ([idx:%d][mapPos:%d][length:%d])`, + code.DisplayIdx, + strings.Repeat("-", int(code.Indent)), + code.Op, + code.Idx/uintptrSize, + code.MapPos/uintptrSize, + code.Length/uintptrSize, + ) +} + +func (c *Opcode) dumpElem(code *Opcode) string { + var length uint32 + if code.Op.CodeType() == CodeArrayElem { + length = code.Length + } else { + length = code.Length / uintptrSize + } + return fmt.Sprintf( + `[%d]%s%s ([idx:%d][elemIdx:%d][length:%d][size:%d])`, + code.DisplayIdx, + strings.Repeat("-", int(code.Indent)), + code.Op, + code.Idx/uintptrSize, + code.ElemIdx/uintptrSize, + length, + code.Size, + ) +} + +func (c *Opcode) dumpField(code *Opcode) string { + return fmt.Sprintf( + `[%d]%s%s ([idx:%d][key:%s][offset:%d])`, + code.DisplayIdx, + strings.Repeat("-", int(code.Indent)), + code.Op, + code.Idx/uintptrSize, + code.DisplayKey, + code.Offset, + ) +} + +func (c *Opcode) dumpKey(code *Opcode) string { + return fmt.Sprintf( + `[%d]%s%s ([idx:%d][elemIdx:%d][length:%d][mapIter:%d])`, + code.DisplayIdx, + strings.Repeat("-", int(code.Indent)), + code.Op, + code.Idx/uintptrSize, + code.ElemIdx/uintptrSize, + code.Length/uintptrSize, + code.MapIter/uintptrSize, + ) +} + +func (c *Opcode) dumpValue(code *Opcode) string { + return fmt.Sprintf( + `[%d]%s%s ([idx:%d][mapIter:%d])`, + code.DisplayIdx, + strings.Repeat("-", int(code.Indent)), + code.Op, + code.Idx/uintptrSize, + code.MapIter/uintptrSize, + ) +} + +func (c *Opcode) Dump() string { + codes := []string{} + for code := c; code.Op != OpEnd && code.Op != OpInterfaceEnd; { + switch code.Op.CodeType() { + case CodeSliceHead: + codes = append(codes, c.dumpHead(code)) + code = code.Next + case CodeMapHead: + codes = append(codes, c.dumpMapHead(code)) + code = code.Next + case CodeArrayElem, CodeSliceElem: + codes = append(codes, c.dumpElem(code)) + code = code.End + case CodeMapKey: + codes = append(codes, c.dumpKey(code)) + code = code.End + case CodeMapValue: + codes = append(codes, c.dumpValue(code)) + code = code.Next + case CodeMapEnd: + codes = append(codes, c.dumpMapEnd(code)) + code = code.Next + case CodeStructField: + codes = append(codes, c.dumpField(code)) + code = code.Next + case CodeStructEnd: + codes = append(codes, c.dumpField(code)) + code = code.Next + default: + codes = append(codes, fmt.Sprintf( + "[%d]%s%s ([idx:%d])", + code.DisplayIdx, + strings.Repeat("-", int(code.Indent)), + code.Op, + code.Idx/uintptrSize, + )) + code = code.Next + } + } + return strings.Join(codes, "\n") +} + +func prevField(code *Opcode, removedFields map[*Opcode]struct{}) *Opcode { + if _, exists := removedFields[code]; exists { + return prevField(code.PrevField, removedFields) + } + return code +} + +func nextField(code *Opcode, removedFields map[*Opcode]struct{}) *Opcode { + if _, exists := removedFields[code]; exists { + return nextField(code.NextField, removedFields) + } + return code +} + +func linkPrevToNextField(cur *Opcode, removedFields map[*Opcode]struct{}) { + prev := prevField(cur.PrevField, removedFields) + prev.NextField = nextField(cur.NextField, removedFields) + code := prev + fcode := cur + for { + var nextCode *Opcode + switch code.Op.CodeType() { + case CodeArrayElem, CodeSliceElem, CodeMapKey: + nextCode = code.End + default: + nextCode = code.Next + } + if nextCode == fcode { + code.Next = fcode.Next + break + } else if nextCode.Op == OpEnd { + break + } + code = nextCode + } +} + +func newSliceHeaderCode(ctx *compileContext) *Opcode { + idx := opcodeOffset(ctx.ptrIndex) + ctx.incPtrIndex() + elemIdx := opcodeOffset(ctx.ptrIndex) + ctx.incPtrIndex() + length := opcodeOffset(ctx.ptrIndex) + return &Opcode{ + Op: OpSlice, + Idx: idx, + DisplayIdx: ctx.opcodeIndex, + ElemIdx: elemIdx, + Length: length, + Indent: ctx.indent, + } +} + +func newSliceElemCode(ctx *compileContext, head *Opcode, size uintptr) *Opcode { + return &Opcode{ + Op: OpSliceElem, + Idx: head.Idx, + DisplayIdx: ctx.opcodeIndex, + ElemIdx: head.ElemIdx, + Length: head.Length, + Indent: ctx.indent, + Size: uint32(size), + } +} + +func newArrayHeaderCode(ctx *compileContext, alen int) *Opcode { + idx := opcodeOffset(ctx.ptrIndex) + ctx.incPtrIndex() + elemIdx := opcodeOffset(ctx.ptrIndex) + return &Opcode{ + Op: OpArray, + Idx: idx, + DisplayIdx: ctx.opcodeIndex, + ElemIdx: elemIdx, + Indent: ctx.indent, + Length: uint32(alen), + } +} + +func newArrayElemCode(ctx *compileContext, head *Opcode, length int, size uintptr) *Opcode { + return &Opcode{ + Op: OpArrayElem, + Idx: head.Idx, + DisplayIdx: ctx.opcodeIndex, + ElemIdx: head.ElemIdx, + Length: uint32(length), + Indent: ctx.indent, + Size: uint32(size), + } +} + +func newMapHeaderCode(ctx *compileContext) *Opcode { + idx := opcodeOffset(ctx.ptrIndex) + ctx.incPtrIndex() + elemIdx := opcodeOffset(ctx.ptrIndex) + ctx.incPtrIndex() + length := opcodeOffset(ctx.ptrIndex) + ctx.incPtrIndex() + mapIter := opcodeOffset(ctx.ptrIndex) + return &Opcode{ + Op: OpMap, + Idx: idx, + Type: ctx.typ, + DisplayIdx: ctx.opcodeIndex, + ElemIdx: elemIdx, + Length: length, + MapIter: mapIter, + Indent: ctx.indent, + } +} + +func newMapKeyCode(ctx *compileContext, head *Opcode) *Opcode { + return &Opcode{ + Op: OpMapKey, + Idx: opcodeOffset(ctx.ptrIndex), + DisplayIdx: ctx.opcodeIndex, + ElemIdx: head.ElemIdx, + Length: head.Length, + MapIter: head.MapIter, + Indent: ctx.indent, + } +} + +func newMapValueCode(ctx *compileContext, head *Opcode) *Opcode { + return &Opcode{ + Op: OpMapValue, + Idx: opcodeOffset(ctx.ptrIndex), + DisplayIdx: ctx.opcodeIndex, + ElemIdx: head.ElemIdx, + Length: head.Length, + MapIter: head.MapIter, + Indent: ctx.indent, + } +} + +func newMapEndCode(ctx *compileContext, head *Opcode) *Opcode { + mapPos := opcodeOffset(ctx.ptrIndex) + ctx.incPtrIndex() + idx := opcodeOffset(ctx.ptrIndex) + return &Opcode{ + Op: OpMapEnd, + Idx: idx, + Next: newEndOp(ctx), + DisplayIdx: ctx.opcodeIndex, + Length: head.Length, + MapPos: mapPos, + Indent: ctx.indent, + } +} + +func newInterfaceCode(ctx *compileContext) *Opcode { + return &Opcode{ + Op: OpInterface, + Idx: opcodeOffset(ctx.ptrIndex), + Next: newEndOp(ctx), + Type: ctx.typ, + DisplayIdx: ctx.opcodeIndex, + Indent: ctx.indent, + } +} + +func newRecursiveCode(ctx *compileContext, jmp *CompiledCode) *Opcode { + return &Opcode{ + Op: OpRecursive, + Idx: opcodeOffset(ctx.ptrIndex), + Next: newEndOp(ctx), + Type: ctx.typ, + DisplayIdx: ctx.opcodeIndex, + Indent: ctx.indent, + Jmp: jmp, + } +} diff --git a/vendor/github.com/goccy/go-json/internal/encoder/option.go b/vendor/github.com/goccy/go-json/internal/encoder/option.go new file mode 100644 index 0000000..f5f1f04 --- /dev/null +++ b/vendor/github.com/goccy/go-json/internal/encoder/option.go @@ -0,0 +1,41 @@ +package encoder + +import "context" + +type OptionFlag uint8 + +const ( + HTMLEscapeOption OptionFlag = 1 << iota + IndentOption + UnorderedMapOption + DebugOption + ColorizeOption + ContextOption +) + +type Option struct { + Flag OptionFlag + ColorScheme *ColorScheme + Context context.Context +} + +type EncodeFormat struct { + Header string + Footer string +} + +type EncodeFormatScheme struct { + Int EncodeFormat + Uint EncodeFormat + Float EncodeFormat + Bool EncodeFormat + String EncodeFormat + Binary EncodeFormat + ObjectKey EncodeFormat + Null EncodeFormat +} + +type ( + ColorScheme = EncodeFormatScheme + ColorFormat = EncodeFormat +) diff --git a/vendor/github.com/goccy/go-json/internal/encoder/optype.go b/vendor/github.com/goccy/go-json/internal/encoder/optype.go new file mode 100644 index 0000000..335fc04 --- /dev/null +++ b/vendor/github.com/goccy/go-json/internal/encoder/optype.go @@ -0,0 +1,934 @@ +// Code generated by internal/cmd/generator. DO NOT EDIT! +package encoder + +import ( + "strings" +) + +type CodeType int + +const ( + CodeOp CodeType = 0 + CodeArrayHead CodeType = 1 + CodeArrayElem CodeType = 2 + CodeSliceHead CodeType = 3 + CodeSliceElem CodeType = 4 + CodeMapHead CodeType = 5 + CodeMapKey CodeType = 6 + CodeMapValue CodeType = 7 + CodeMapEnd CodeType = 8 + CodeRecursive CodeType = 9 + CodeStructField CodeType = 10 + CodeStructEnd CodeType = 11 +) + +var opTypeStrings = [401]string{ + "End", + "Interface", + "Ptr", + "SliceElem", + "SliceEnd", + "ArrayElem", + "ArrayEnd", + "MapKey", + "MapValue", + "MapEnd", + "Recursive", + "RecursivePtr", + "RecursiveEnd", + "InterfaceEnd", + "StructAnonymousEnd", + "Int", + "Uint", + "Float32", + "Float64", + "Bool", + "String", + "Bytes", + "Number", + "Array", + "Map", + "Slice", + "Struct", + "MarshalJSON", + "MarshalText", + "IntString", + "UintString", + "Float32String", + "Float64String", + "BoolString", + "StringString", + "NumberString", + "IntPtr", + "UintPtr", + "Float32Ptr", + "Float64Ptr", + "BoolPtr", + "StringPtr", + "BytesPtr", + "NumberPtr", + "ArrayPtr", + "MapPtr", + "SlicePtr", + "MarshalJSONPtr", + "MarshalTextPtr", + "InterfacePtr", + "IntPtrString", + "UintPtrString", + "Float32PtrString", + "Float64PtrString", + "BoolPtrString", + "StringPtrString", + "NumberPtrString", + "StructHeadInt", + "StructHeadOmitEmptyInt", + "StructPtrHeadInt", + "StructPtrHeadOmitEmptyInt", + "StructHeadUint", + "StructHeadOmitEmptyUint", + "StructPtrHeadUint", + "StructPtrHeadOmitEmptyUint", + "StructHeadFloat32", + "StructHeadOmitEmptyFloat32", + "StructPtrHeadFloat32", + "StructPtrHeadOmitEmptyFloat32", + "StructHeadFloat64", + "StructHeadOmitEmptyFloat64", + "StructPtrHeadFloat64", + "StructPtrHeadOmitEmptyFloat64", + "StructHeadBool", + "StructHeadOmitEmptyBool", + "StructPtrHeadBool", + "StructPtrHeadOmitEmptyBool", + "StructHeadString", + "StructHeadOmitEmptyString", + "StructPtrHeadString", + "StructPtrHeadOmitEmptyString", + "StructHeadBytes", + "StructHeadOmitEmptyBytes", + "StructPtrHeadBytes", + "StructPtrHeadOmitEmptyBytes", + "StructHeadNumber", + "StructHeadOmitEmptyNumber", + "StructPtrHeadNumber", + "StructPtrHeadOmitEmptyNumber", + "StructHeadArray", + "StructHeadOmitEmptyArray", + "StructPtrHeadArray", + "StructPtrHeadOmitEmptyArray", + "StructHeadMap", + "StructHeadOmitEmptyMap", + "StructPtrHeadMap", + "StructPtrHeadOmitEmptyMap", + "StructHeadSlice", + "StructHeadOmitEmptySlice", + "StructPtrHeadSlice", + "StructPtrHeadOmitEmptySlice", + "StructHeadStruct", + "StructHeadOmitEmptyStruct", + "StructPtrHeadStruct", + "StructPtrHeadOmitEmptyStruct", + "StructHeadMarshalJSON", + "StructHeadOmitEmptyMarshalJSON", + "StructPtrHeadMarshalJSON", + "StructPtrHeadOmitEmptyMarshalJSON", + "StructHeadMarshalText", + "StructHeadOmitEmptyMarshalText", + "StructPtrHeadMarshalText", + "StructPtrHeadOmitEmptyMarshalText", + "StructHeadIntString", + "StructHeadOmitEmptyIntString", + "StructPtrHeadIntString", + "StructPtrHeadOmitEmptyIntString", + "StructHeadUintString", + "StructHeadOmitEmptyUintString", + "StructPtrHeadUintString", + "StructPtrHeadOmitEmptyUintString", + "StructHeadFloat32String", + "StructHeadOmitEmptyFloat32String", + "StructPtrHeadFloat32String", + "StructPtrHeadOmitEmptyFloat32String", + "StructHeadFloat64String", + "StructHeadOmitEmptyFloat64String", + "StructPtrHeadFloat64String", + "StructPtrHeadOmitEmptyFloat64String", + "StructHeadBoolString", + "StructHeadOmitEmptyBoolString", + "StructPtrHeadBoolString", + "StructPtrHeadOmitEmptyBoolString", + "StructHeadStringString", + "StructHeadOmitEmptyStringString", + "StructPtrHeadStringString", + "StructPtrHeadOmitEmptyStringString", + "StructHeadNumberString", + "StructHeadOmitEmptyNumberString", + "StructPtrHeadNumberString", + "StructPtrHeadOmitEmptyNumberString", + "StructHeadIntPtr", + "StructHeadOmitEmptyIntPtr", + "StructPtrHeadIntPtr", + "StructPtrHeadOmitEmptyIntPtr", + "StructHeadUintPtr", + "StructHeadOmitEmptyUintPtr", + "StructPtrHeadUintPtr", + "StructPtrHeadOmitEmptyUintPtr", + "StructHeadFloat32Ptr", + "StructHeadOmitEmptyFloat32Ptr", + "StructPtrHeadFloat32Ptr", + "StructPtrHeadOmitEmptyFloat32Ptr", + "StructHeadFloat64Ptr", + "StructHeadOmitEmptyFloat64Ptr", + "StructPtrHeadFloat64Ptr", + "StructPtrHeadOmitEmptyFloat64Ptr", + "StructHeadBoolPtr", + "StructHeadOmitEmptyBoolPtr", + "StructPtrHeadBoolPtr", + "StructPtrHeadOmitEmptyBoolPtr", + "StructHeadStringPtr", + "StructHeadOmitEmptyStringPtr", + "StructPtrHeadStringPtr", + "StructPtrHeadOmitEmptyStringPtr", + "StructHeadBytesPtr", + "StructHeadOmitEmptyBytesPtr", + "StructPtrHeadBytesPtr", + "StructPtrHeadOmitEmptyBytesPtr", + "StructHeadNumberPtr", + "StructHeadOmitEmptyNumberPtr", + "StructPtrHeadNumberPtr", + "StructPtrHeadOmitEmptyNumberPtr", + "StructHeadArrayPtr", + "StructHeadOmitEmptyArrayPtr", + "StructPtrHeadArrayPtr", + "StructPtrHeadOmitEmptyArrayPtr", + "StructHeadMapPtr", + "StructHeadOmitEmptyMapPtr", + "StructPtrHeadMapPtr", + "StructPtrHeadOmitEmptyMapPtr", + "StructHeadSlicePtr", + "StructHeadOmitEmptySlicePtr", + "StructPtrHeadSlicePtr", + "StructPtrHeadOmitEmptySlicePtr", + "StructHeadMarshalJSONPtr", + "StructHeadOmitEmptyMarshalJSONPtr", + "StructPtrHeadMarshalJSONPtr", + "StructPtrHeadOmitEmptyMarshalJSONPtr", + "StructHeadMarshalTextPtr", + "StructHeadOmitEmptyMarshalTextPtr", + "StructPtrHeadMarshalTextPtr", + "StructPtrHeadOmitEmptyMarshalTextPtr", + "StructHeadInterfacePtr", + "StructHeadOmitEmptyInterfacePtr", + "StructPtrHeadInterfacePtr", + "StructPtrHeadOmitEmptyInterfacePtr", + "StructHeadIntPtrString", + "StructHeadOmitEmptyIntPtrString", + "StructPtrHeadIntPtrString", + "StructPtrHeadOmitEmptyIntPtrString", + "StructHeadUintPtrString", + "StructHeadOmitEmptyUintPtrString", + "StructPtrHeadUintPtrString", + "StructPtrHeadOmitEmptyUintPtrString", + "StructHeadFloat32PtrString", + "StructHeadOmitEmptyFloat32PtrString", + "StructPtrHeadFloat32PtrString", + "StructPtrHeadOmitEmptyFloat32PtrString", + "StructHeadFloat64PtrString", + "StructHeadOmitEmptyFloat64PtrString", + "StructPtrHeadFloat64PtrString", + "StructPtrHeadOmitEmptyFloat64PtrString", + "StructHeadBoolPtrString", + "StructHeadOmitEmptyBoolPtrString", + "StructPtrHeadBoolPtrString", + "StructPtrHeadOmitEmptyBoolPtrString", + "StructHeadStringPtrString", + "StructHeadOmitEmptyStringPtrString", + "StructPtrHeadStringPtrString", + "StructPtrHeadOmitEmptyStringPtrString", + "StructHeadNumberPtrString", + "StructHeadOmitEmptyNumberPtrString", + "StructPtrHeadNumberPtrString", + "StructPtrHeadOmitEmptyNumberPtrString", + "StructHead", + "StructHeadOmitEmpty", + "StructPtrHead", + "StructPtrHeadOmitEmpty", + "StructFieldInt", + "StructFieldOmitEmptyInt", + "StructEndInt", + "StructEndOmitEmptyInt", + "StructFieldUint", + "StructFieldOmitEmptyUint", + "StructEndUint", + "StructEndOmitEmptyUint", + "StructFieldFloat32", + "StructFieldOmitEmptyFloat32", + "StructEndFloat32", + "StructEndOmitEmptyFloat32", + "StructFieldFloat64", + "StructFieldOmitEmptyFloat64", + "StructEndFloat64", + "StructEndOmitEmptyFloat64", + "StructFieldBool", + "StructFieldOmitEmptyBool", + "StructEndBool", + "StructEndOmitEmptyBool", + "StructFieldString", + "StructFieldOmitEmptyString", + "StructEndString", + "StructEndOmitEmptyString", + "StructFieldBytes", + "StructFieldOmitEmptyBytes", + "StructEndBytes", + "StructEndOmitEmptyBytes", + "StructFieldNumber", + "StructFieldOmitEmptyNumber", + "StructEndNumber", + "StructEndOmitEmptyNumber", + "StructFieldArray", + "StructFieldOmitEmptyArray", + "StructEndArray", + "StructEndOmitEmptyArray", + "StructFieldMap", + "StructFieldOmitEmptyMap", + "StructEndMap", + "StructEndOmitEmptyMap", + "StructFieldSlice", + "StructFieldOmitEmptySlice", + "StructEndSlice", + "StructEndOmitEmptySlice", + "StructFieldStruct", + "StructFieldOmitEmptyStruct", + "StructEndStruct", + "StructEndOmitEmptyStruct", + "StructFieldMarshalJSON", + "StructFieldOmitEmptyMarshalJSON", + "StructEndMarshalJSON", + "StructEndOmitEmptyMarshalJSON", + "StructFieldMarshalText", + "StructFieldOmitEmptyMarshalText", + "StructEndMarshalText", + "StructEndOmitEmptyMarshalText", + "StructFieldIntString", + "StructFieldOmitEmptyIntString", + "StructEndIntString", + "StructEndOmitEmptyIntString", + "StructFieldUintString", + "StructFieldOmitEmptyUintString", + "StructEndUintString", + "StructEndOmitEmptyUintString", + "StructFieldFloat32String", + "StructFieldOmitEmptyFloat32String", + "StructEndFloat32String", + "StructEndOmitEmptyFloat32String", + "StructFieldFloat64String", + "StructFieldOmitEmptyFloat64String", + "StructEndFloat64String", + "StructEndOmitEmptyFloat64String", + "StructFieldBoolString", + "StructFieldOmitEmptyBoolString", + "StructEndBoolString", + "StructEndOmitEmptyBoolString", + "StructFieldStringString", + "StructFieldOmitEmptyStringString", + "StructEndStringString", + "StructEndOmitEmptyStringString", + "StructFieldNumberString", + "StructFieldOmitEmptyNumberString", + "StructEndNumberString", + "StructEndOmitEmptyNumberString", + "StructFieldIntPtr", + "StructFieldOmitEmptyIntPtr", + "StructEndIntPtr", + "StructEndOmitEmptyIntPtr", + "StructFieldUintPtr", + "StructFieldOmitEmptyUintPtr", + "StructEndUintPtr", + "StructEndOmitEmptyUintPtr", + "StructFieldFloat32Ptr", + "StructFieldOmitEmptyFloat32Ptr", + "StructEndFloat32Ptr", + "StructEndOmitEmptyFloat32Ptr", + "StructFieldFloat64Ptr", + "StructFieldOmitEmptyFloat64Ptr", + "StructEndFloat64Ptr", + "StructEndOmitEmptyFloat64Ptr", + "StructFieldBoolPtr", + "StructFieldOmitEmptyBoolPtr", + "StructEndBoolPtr", + "StructEndOmitEmptyBoolPtr", + "StructFieldStringPtr", + "StructFieldOmitEmptyStringPtr", + "StructEndStringPtr", + "StructEndOmitEmptyStringPtr", + "StructFieldBytesPtr", + "StructFieldOmitEmptyBytesPtr", + "StructEndBytesPtr", + "StructEndOmitEmptyBytesPtr", + "StructFieldNumberPtr", + "StructFieldOmitEmptyNumberPtr", + "StructEndNumberPtr", + "StructEndOmitEmptyNumberPtr", + "StructFieldArrayPtr", + "StructFieldOmitEmptyArrayPtr", + "StructEndArrayPtr", + "StructEndOmitEmptyArrayPtr", + "StructFieldMapPtr", + "StructFieldOmitEmptyMapPtr", + "StructEndMapPtr", + "StructEndOmitEmptyMapPtr", + "StructFieldSlicePtr", + "StructFieldOmitEmptySlicePtr", + "StructEndSlicePtr", + "StructEndOmitEmptySlicePtr", + "StructFieldMarshalJSONPtr", + "StructFieldOmitEmptyMarshalJSONPtr", + "StructEndMarshalJSONPtr", + "StructEndOmitEmptyMarshalJSONPtr", + "StructFieldMarshalTextPtr", + "StructFieldOmitEmptyMarshalTextPtr", + "StructEndMarshalTextPtr", + "StructEndOmitEmptyMarshalTextPtr", + "StructFieldInterfacePtr", + "StructFieldOmitEmptyInterfacePtr", + "StructEndInterfacePtr", + "StructEndOmitEmptyInterfacePtr", + "StructFieldIntPtrString", + "StructFieldOmitEmptyIntPtrString", + "StructEndIntPtrString", + "StructEndOmitEmptyIntPtrString", + "StructFieldUintPtrString", + "StructFieldOmitEmptyUintPtrString", + "StructEndUintPtrString", + "StructEndOmitEmptyUintPtrString", + "StructFieldFloat32PtrString", + "StructFieldOmitEmptyFloat32PtrString", + "StructEndFloat32PtrString", + "StructEndOmitEmptyFloat32PtrString", + "StructFieldFloat64PtrString", + "StructFieldOmitEmptyFloat64PtrString", + "StructEndFloat64PtrString", + "StructEndOmitEmptyFloat64PtrString", + "StructFieldBoolPtrString", + "StructFieldOmitEmptyBoolPtrString", + "StructEndBoolPtrString", + "StructEndOmitEmptyBoolPtrString", + "StructFieldStringPtrString", + "StructFieldOmitEmptyStringPtrString", + "StructEndStringPtrString", + "StructEndOmitEmptyStringPtrString", + "StructFieldNumberPtrString", + "StructFieldOmitEmptyNumberPtrString", + "StructEndNumberPtrString", + "StructEndOmitEmptyNumberPtrString", + "StructField", + "StructFieldOmitEmpty", + "StructEnd", + "StructEndOmitEmpty", +} + +type OpType uint16 + +const ( + OpEnd OpType = 0 + OpInterface OpType = 1 + OpPtr OpType = 2 + OpSliceElem OpType = 3 + OpSliceEnd OpType = 4 + OpArrayElem OpType = 5 + OpArrayEnd OpType = 6 + OpMapKey OpType = 7 + OpMapValue OpType = 8 + OpMapEnd OpType = 9 + OpRecursive OpType = 10 + OpRecursivePtr OpType = 11 + OpRecursiveEnd OpType = 12 + OpInterfaceEnd OpType = 13 + OpStructAnonymousEnd OpType = 14 + OpInt OpType = 15 + OpUint OpType = 16 + OpFloat32 OpType = 17 + OpFloat64 OpType = 18 + OpBool OpType = 19 + OpString OpType = 20 + OpBytes OpType = 21 + OpNumber OpType = 22 + OpArray OpType = 23 + OpMap OpType = 24 + OpSlice OpType = 25 + OpStruct OpType = 26 + OpMarshalJSON OpType = 27 + OpMarshalText OpType = 28 + OpIntString OpType = 29 + OpUintString OpType = 30 + OpFloat32String OpType = 31 + OpFloat64String OpType = 32 + OpBoolString OpType = 33 + OpStringString OpType = 34 + OpNumberString OpType = 35 + OpIntPtr OpType = 36 + OpUintPtr OpType = 37 + OpFloat32Ptr OpType = 38 + OpFloat64Ptr OpType = 39 + OpBoolPtr OpType = 40 + OpStringPtr OpType = 41 + OpBytesPtr OpType = 42 + OpNumberPtr OpType = 43 + OpArrayPtr OpType = 44 + OpMapPtr OpType = 45 + OpSlicePtr OpType = 46 + OpMarshalJSONPtr OpType = 47 + OpMarshalTextPtr OpType = 48 + OpInterfacePtr OpType = 49 + OpIntPtrString OpType = 50 + OpUintPtrString OpType = 51 + OpFloat32PtrString OpType = 52 + OpFloat64PtrString OpType = 53 + OpBoolPtrString OpType = 54 + OpStringPtrString OpType = 55 + OpNumberPtrString OpType = 56 + OpStructHeadInt OpType = 57 + OpStructHeadOmitEmptyInt OpType = 58 + OpStructPtrHeadInt OpType = 59 + OpStructPtrHeadOmitEmptyInt OpType = 60 + OpStructHeadUint OpType = 61 + OpStructHeadOmitEmptyUint OpType = 62 + OpStructPtrHeadUint OpType = 63 + OpStructPtrHeadOmitEmptyUint OpType = 64 + OpStructHeadFloat32 OpType = 65 + OpStructHeadOmitEmptyFloat32 OpType = 66 + OpStructPtrHeadFloat32 OpType = 67 + OpStructPtrHeadOmitEmptyFloat32 OpType = 68 + OpStructHeadFloat64 OpType = 69 + OpStructHeadOmitEmptyFloat64 OpType = 70 + OpStructPtrHeadFloat64 OpType = 71 + OpStructPtrHeadOmitEmptyFloat64 OpType = 72 + OpStructHeadBool OpType = 73 + OpStructHeadOmitEmptyBool OpType = 74 + OpStructPtrHeadBool OpType = 75 + OpStructPtrHeadOmitEmptyBool OpType = 76 + OpStructHeadString OpType = 77 + OpStructHeadOmitEmptyString OpType = 78 + OpStructPtrHeadString OpType = 79 + OpStructPtrHeadOmitEmptyString OpType = 80 + OpStructHeadBytes OpType = 81 + OpStructHeadOmitEmptyBytes OpType = 82 + OpStructPtrHeadBytes OpType = 83 + OpStructPtrHeadOmitEmptyBytes OpType = 84 + OpStructHeadNumber OpType = 85 + OpStructHeadOmitEmptyNumber OpType = 86 + OpStructPtrHeadNumber OpType = 87 + OpStructPtrHeadOmitEmptyNumber OpType = 88 + OpStructHeadArray OpType = 89 + OpStructHeadOmitEmptyArray OpType = 90 + OpStructPtrHeadArray OpType = 91 + OpStructPtrHeadOmitEmptyArray OpType = 92 + OpStructHeadMap OpType = 93 + OpStructHeadOmitEmptyMap OpType = 94 + OpStructPtrHeadMap OpType = 95 + OpStructPtrHeadOmitEmptyMap OpType = 96 + OpStructHeadSlice OpType = 97 + OpStructHeadOmitEmptySlice OpType = 98 + OpStructPtrHeadSlice OpType = 99 + OpStructPtrHeadOmitEmptySlice OpType = 100 + OpStructHeadStruct OpType = 101 + OpStructHeadOmitEmptyStruct OpType = 102 + OpStructPtrHeadStruct OpType = 103 + OpStructPtrHeadOmitEmptyStruct OpType = 104 + OpStructHeadMarshalJSON OpType = 105 + OpStructHeadOmitEmptyMarshalJSON OpType = 106 + OpStructPtrHeadMarshalJSON OpType = 107 + OpStructPtrHeadOmitEmptyMarshalJSON OpType = 108 + OpStructHeadMarshalText OpType = 109 + OpStructHeadOmitEmptyMarshalText OpType = 110 + OpStructPtrHeadMarshalText OpType = 111 + OpStructPtrHeadOmitEmptyMarshalText OpType = 112 + OpStructHeadIntString OpType = 113 + OpStructHeadOmitEmptyIntString OpType = 114 + OpStructPtrHeadIntString OpType = 115 + OpStructPtrHeadOmitEmptyIntString OpType = 116 + OpStructHeadUintString OpType = 117 + OpStructHeadOmitEmptyUintString OpType = 118 + OpStructPtrHeadUintString OpType = 119 + OpStructPtrHeadOmitEmptyUintString OpType = 120 + OpStructHeadFloat32String OpType = 121 + OpStructHeadOmitEmptyFloat32String OpType = 122 + OpStructPtrHeadFloat32String OpType = 123 + OpStructPtrHeadOmitEmptyFloat32String OpType = 124 + OpStructHeadFloat64String OpType = 125 + OpStructHeadOmitEmptyFloat64String OpType = 126 + OpStructPtrHeadFloat64String OpType = 127 + OpStructPtrHeadOmitEmptyFloat64String OpType = 128 + OpStructHeadBoolString OpType = 129 + OpStructHeadOmitEmptyBoolString OpType = 130 + OpStructPtrHeadBoolString OpType = 131 + OpStructPtrHeadOmitEmptyBoolString OpType = 132 + OpStructHeadStringString OpType = 133 + OpStructHeadOmitEmptyStringString OpType = 134 + OpStructPtrHeadStringString OpType = 135 + OpStructPtrHeadOmitEmptyStringString OpType = 136 + OpStructHeadNumberString OpType = 137 + OpStructHeadOmitEmptyNumberString OpType = 138 + OpStructPtrHeadNumberString OpType = 139 + OpStructPtrHeadOmitEmptyNumberString OpType = 140 + OpStructHeadIntPtr OpType = 141 + OpStructHeadOmitEmptyIntPtr OpType = 142 + OpStructPtrHeadIntPtr OpType = 143 + OpStructPtrHeadOmitEmptyIntPtr OpType = 144 + OpStructHeadUintPtr OpType = 145 + OpStructHeadOmitEmptyUintPtr OpType = 146 + OpStructPtrHeadUintPtr OpType = 147 + OpStructPtrHeadOmitEmptyUintPtr OpType = 148 + OpStructHeadFloat32Ptr OpType = 149 + OpStructHeadOmitEmptyFloat32Ptr OpType = 150 + OpStructPtrHeadFloat32Ptr OpType = 151 + OpStructPtrHeadOmitEmptyFloat32Ptr OpType = 152 + OpStructHeadFloat64Ptr OpType = 153 + OpStructHeadOmitEmptyFloat64Ptr OpType = 154 + OpStructPtrHeadFloat64Ptr OpType = 155 + OpStructPtrHeadOmitEmptyFloat64Ptr OpType = 156 + OpStructHeadBoolPtr OpType = 157 + OpStructHeadOmitEmptyBoolPtr OpType = 158 + OpStructPtrHeadBoolPtr OpType = 159 + OpStructPtrHeadOmitEmptyBoolPtr OpType = 160 + OpStructHeadStringPtr OpType = 161 + OpStructHeadOmitEmptyStringPtr OpType = 162 + OpStructPtrHeadStringPtr OpType = 163 + OpStructPtrHeadOmitEmptyStringPtr OpType = 164 + OpStructHeadBytesPtr OpType = 165 + OpStructHeadOmitEmptyBytesPtr OpType = 166 + OpStructPtrHeadBytesPtr OpType = 167 + OpStructPtrHeadOmitEmptyBytesPtr OpType = 168 + OpStructHeadNumberPtr OpType = 169 + OpStructHeadOmitEmptyNumberPtr OpType = 170 + OpStructPtrHeadNumberPtr OpType = 171 + OpStructPtrHeadOmitEmptyNumberPtr OpType = 172 + OpStructHeadArrayPtr OpType = 173 + OpStructHeadOmitEmptyArrayPtr OpType = 174 + OpStructPtrHeadArrayPtr OpType = 175 + OpStructPtrHeadOmitEmptyArrayPtr OpType = 176 + OpStructHeadMapPtr OpType = 177 + OpStructHeadOmitEmptyMapPtr OpType = 178 + OpStructPtrHeadMapPtr OpType = 179 + OpStructPtrHeadOmitEmptyMapPtr OpType = 180 + OpStructHeadSlicePtr OpType = 181 + OpStructHeadOmitEmptySlicePtr OpType = 182 + OpStructPtrHeadSlicePtr OpType = 183 + OpStructPtrHeadOmitEmptySlicePtr OpType = 184 + OpStructHeadMarshalJSONPtr OpType = 185 + OpStructHeadOmitEmptyMarshalJSONPtr OpType = 186 + OpStructPtrHeadMarshalJSONPtr OpType = 187 + OpStructPtrHeadOmitEmptyMarshalJSONPtr OpType = 188 + OpStructHeadMarshalTextPtr OpType = 189 + OpStructHeadOmitEmptyMarshalTextPtr OpType = 190 + OpStructPtrHeadMarshalTextPtr OpType = 191 + OpStructPtrHeadOmitEmptyMarshalTextPtr OpType = 192 + OpStructHeadInterfacePtr OpType = 193 + OpStructHeadOmitEmptyInterfacePtr OpType = 194 + OpStructPtrHeadInterfacePtr OpType = 195 + OpStructPtrHeadOmitEmptyInterfacePtr OpType = 196 + OpStructHeadIntPtrString OpType = 197 + OpStructHeadOmitEmptyIntPtrString OpType = 198 + OpStructPtrHeadIntPtrString OpType = 199 + OpStructPtrHeadOmitEmptyIntPtrString OpType = 200 + OpStructHeadUintPtrString OpType = 201 + OpStructHeadOmitEmptyUintPtrString OpType = 202 + OpStructPtrHeadUintPtrString OpType = 203 + OpStructPtrHeadOmitEmptyUintPtrString OpType = 204 + OpStructHeadFloat32PtrString OpType = 205 + OpStructHeadOmitEmptyFloat32PtrString OpType = 206 + OpStructPtrHeadFloat32PtrString OpType = 207 + OpStructPtrHeadOmitEmptyFloat32PtrString OpType = 208 + OpStructHeadFloat64PtrString OpType = 209 + OpStructHeadOmitEmptyFloat64PtrString OpType = 210 + OpStructPtrHeadFloat64PtrString OpType = 211 + OpStructPtrHeadOmitEmptyFloat64PtrString OpType = 212 + OpStructHeadBoolPtrString OpType = 213 + OpStructHeadOmitEmptyBoolPtrString OpType = 214 + OpStructPtrHeadBoolPtrString OpType = 215 + OpStructPtrHeadOmitEmptyBoolPtrString OpType = 216 + OpStructHeadStringPtrString OpType = 217 + OpStructHeadOmitEmptyStringPtrString OpType = 218 + OpStructPtrHeadStringPtrString OpType = 219 + OpStructPtrHeadOmitEmptyStringPtrString OpType = 220 + OpStructHeadNumberPtrString OpType = 221 + OpStructHeadOmitEmptyNumberPtrString OpType = 222 + OpStructPtrHeadNumberPtrString OpType = 223 + OpStructPtrHeadOmitEmptyNumberPtrString OpType = 224 + OpStructHead OpType = 225 + OpStructHeadOmitEmpty OpType = 226 + OpStructPtrHead OpType = 227 + OpStructPtrHeadOmitEmpty OpType = 228 + OpStructFieldInt OpType = 229 + OpStructFieldOmitEmptyInt OpType = 230 + OpStructEndInt OpType = 231 + OpStructEndOmitEmptyInt OpType = 232 + OpStructFieldUint OpType = 233 + OpStructFieldOmitEmptyUint OpType = 234 + OpStructEndUint OpType = 235 + OpStructEndOmitEmptyUint OpType = 236 + OpStructFieldFloat32 OpType = 237 + OpStructFieldOmitEmptyFloat32 OpType = 238 + OpStructEndFloat32 OpType = 239 + OpStructEndOmitEmptyFloat32 OpType = 240 + OpStructFieldFloat64 OpType = 241 + OpStructFieldOmitEmptyFloat64 OpType = 242 + OpStructEndFloat64 OpType = 243 + OpStructEndOmitEmptyFloat64 OpType = 244 + OpStructFieldBool OpType = 245 + OpStructFieldOmitEmptyBool OpType = 246 + OpStructEndBool OpType = 247 + OpStructEndOmitEmptyBool OpType = 248 + OpStructFieldString OpType = 249 + OpStructFieldOmitEmptyString OpType = 250 + OpStructEndString OpType = 251 + OpStructEndOmitEmptyString OpType = 252 + OpStructFieldBytes OpType = 253 + OpStructFieldOmitEmptyBytes OpType = 254 + OpStructEndBytes OpType = 255 + OpStructEndOmitEmptyBytes OpType = 256 + OpStructFieldNumber OpType = 257 + OpStructFieldOmitEmptyNumber OpType = 258 + OpStructEndNumber OpType = 259 + OpStructEndOmitEmptyNumber OpType = 260 + OpStructFieldArray OpType = 261 + OpStructFieldOmitEmptyArray OpType = 262 + OpStructEndArray OpType = 263 + OpStructEndOmitEmptyArray OpType = 264 + OpStructFieldMap OpType = 265 + OpStructFieldOmitEmptyMap OpType = 266 + OpStructEndMap OpType = 267 + OpStructEndOmitEmptyMap OpType = 268 + OpStructFieldSlice OpType = 269 + OpStructFieldOmitEmptySlice OpType = 270 + OpStructEndSlice OpType = 271 + OpStructEndOmitEmptySlice OpType = 272 + OpStructFieldStruct OpType = 273 + OpStructFieldOmitEmptyStruct OpType = 274 + OpStructEndStruct OpType = 275 + OpStructEndOmitEmptyStruct OpType = 276 + OpStructFieldMarshalJSON OpType = 277 + OpStructFieldOmitEmptyMarshalJSON OpType = 278 + OpStructEndMarshalJSON OpType = 279 + OpStructEndOmitEmptyMarshalJSON OpType = 280 + OpStructFieldMarshalText OpType = 281 + OpStructFieldOmitEmptyMarshalText OpType = 282 + OpStructEndMarshalText OpType = 283 + OpStructEndOmitEmptyMarshalText OpType = 284 + OpStructFieldIntString OpType = 285 + OpStructFieldOmitEmptyIntString OpType = 286 + OpStructEndIntString OpType = 287 + OpStructEndOmitEmptyIntString OpType = 288 + OpStructFieldUintString OpType = 289 + OpStructFieldOmitEmptyUintString OpType = 290 + OpStructEndUintString OpType = 291 + OpStructEndOmitEmptyUintString OpType = 292 + OpStructFieldFloat32String OpType = 293 + OpStructFieldOmitEmptyFloat32String OpType = 294 + OpStructEndFloat32String OpType = 295 + OpStructEndOmitEmptyFloat32String OpType = 296 + OpStructFieldFloat64String OpType = 297 + OpStructFieldOmitEmptyFloat64String OpType = 298 + OpStructEndFloat64String OpType = 299 + OpStructEndOmitEmptyFloat64String OpType = 300 + OpStructFieldBoolString OpType = 301 + OpStructFieldOmitEmptyBoolString OpType = 302 + OpStructEndBoolString OpType = 303 + OpStructEndOmitEmptyBoolString OpType = 304 + OpStructFieldStringString OpType = 305 + OpStructFieldOmitEmptyStringString OpType = 306 + OpStructEndStringString OpType = 307 + OpStructEndOmitEmptyStringString OpType = 308 + OpStructFieldNumberString OpType = 309 + OpStructFieldOmitEmptyNumberString OpType = 310 + OpStructEndNumberString OpType = 311 + OpStructEndOmitEmptyNumberString OpType = 312 + OpStructFieldIntPtr OpType = 313 + OpStructFieldOmitEmptyIntPtr OpType = 314 + OpStructEndIntPtr OpType = 315 + OpStructEndOmitEmptyIntPtr OpType = 316 + OpStructFieldUintPtr OpType = 317 + OpStructFieldOmitEmptyUintPtr OpType = 318 + OpStructEndUintPtr OpType = 319 + OpStructEndOmitEmptyUintPtr OpType = 320 + OpStructFieldFloat32Ptr OpType = 321 + OpStructFieldOmitEmptyFloat32Ptr OpType = 322 + OpStructEndFloat32Ptr OpType = 323 + OpStructEndOmitEmptyFloat32Ptr OpType = 324 + OpStructFieldFloat64Ptr OpType = 325 + OpStructFieldOmitEmptyFloat64Ptr OpType = 326 + OpStructEndFloat64Ptr OpType = 327 + OpStructEndOmitEmptyFloat64Ptr OpType = 328 + OpStructFieldBoolPtr OpType = 329 + OpStructFieldOmitEmptyBoolPtr OpType = 330 + OpStructEndBoolPtr OpType = 331 + OpStructEndOmitEmptyBoolPtr OpType = 332 + OpStructFieldStringPtr OpType = 333 + OpStructFieldOmitEmptyStringPtr OpType = 334 + OpStructEndStringPtr OpType = 335 + OpStructEndOmitEmptyStringPtr OpType = 336 + OpStructFieldBytesPtr OpType = 337 + OpStructFieldOmitEmptyBytesPtr OpType = 338 + OpStructEndBytesPtr OpType = 339 + OpStructEndOmitEmptyBytesPtr OpType = 340 + OpStructFieldNumberPtr OpType = 341 + OpStructFieldOmitEmptyNumberPtr OpType = 342 + OpStructEndNumberPtr OpType = 343 + OpStructEndOmitEmptyNumberPtr OpType = 344 + OpStructFieldArrayPtr OpType = 345 + OpStructFieldOmitEmptyArrayPtr OpType = 346 + OpStructEndArrayPtr OpType = 347 + OpStructEndOmitEmptyArrayPtr OpType = 348 + OpStructFieldMapPtr OpType = 349 + OpStructFieldOmitEmptyMapPtr OpType = 350 + OpStructEndMapPtr OpType = 351 + OpStructEndOmitEmptyMapPtr OpType = 352 + OpStructFieldSlicePtr OpType = 353 + OpStructFieldOmitEmptySlicePtr OpType = 354 + OpStructEndSlicePtr OpType = 355 + OpStructEndOmitEmptySlicePtr OpType = 356 + OpStructFieldMarshalJSONPtr OpType = 357 + OpStructFieldOmitEmptyMarshalJSONPtr OpType = 358 + OpStructEndMarshalJSONPtr OpType = 359 + OpStructEndOmitEmptyMarshalJSONPtr OpType = 360 + OpStructFieldMarshalTextPtr OpType = 361 + OpStructFieldOmitEmptyMarshalTextPtr OpType = 362 + OpStructEndMarshalTextPtr OpType = 363 + OpStructEndOmitEmptyMarshalTextPtr OpType = 364 + OpStructFieldInterfacePtr OpType = 365 + OpStructFieldOmitEmptyInterfacePtr OpType = 366 + OpStructEndInterfacePtr OpType = 367 + OpStructEndOmitEmptyInterfacePtr OpType = 368 + OpStructFieldIntPtrString OpType = 369 + OpStructFieldOmitEmptyIntPtrString OpType = 370 + OpStructEndIntPtrString OpType = 371 + OpStructEndOmitEmptyIntPtrString OpType = 372 + OpStructFieldUintPtrString OpType = 373 + OpStructFieldOmitEmptyUintPtrString OpType = 374 + OpStructEndUintPtrString OpType = 375 + OpStructEndOmitEmptyUintPtrString OpType = 376 + OpStructFieldFloat32PtrString OpType = 377 + OpStructFieldOmitEmptyFloat32PtrString OpType = 378 + OpStructEndFloat32PtrString OpType = 379 + OpStructEndOmitEmptyFloat32PtrString OpType = 380 + OpStructFieldFloat64PtrString OpType = 381 + OpStructFieldOmitEmptyFloat64PtrString OpType = 382 + OpStructEndFloat64PtrString OpType = 383 + OpStructEndOmitEmptyFloat64PtrString OpType = 384 + OpStructFieldBoolPtrString OpType = 385 + OpStructFieldOmitEmptyBoolPtrString OpType = 386 + OpStructEndBoolPtrString OpType = 387 + OpStructEndOmitEmptyBoolPtrString OpType = 388 + OpStructFieldStringPtrString OpType = 389 + OpStructFieldOmitEmptyStringPtrString OpType = 390 + OpStructEndStringPtrString OpType = 391 + OpStructEndOmitEmptyStringPtrString OpType = 392 + OpStructFieldNumberPtrString OpType = 393 + OpStructFieldOmitEmptyNumberPtrString OpType = 394 + OpStructEndNumberPtrString OpType = 395 + OpStructEndOmitEmptyNumberPtrString OpType = 396 + OpStructField OpType = 397 + OpStructFieldOmitEmpty OpType = 398 + OpStructEnd OpType = 399 + OpStructEndOmitEmpty OpType = 400 +) + +func (t OpType) String() string { + if int(t) >= 401 { + return "" + } + return opTypeStrings[int(t)] +} + +func (t OpType) CodeType() CodeType { + if strings.Contains(t.String(), "Struct") { + if strings.Contains(t.String(), "End") { + return CodeStructEnd + } + return CodeStructField + } + switch t { + case OpArray, OpArrayPtr: + return CodeArrayHead + case OpArrayElem: + return CodeArrayElem + case OpSlice, OpSlicePtr: + return CodeSliceHead + case OpSliceElem: + return CodeSliceElem + case OpMap, OpMapPtr: + return CodeMapHead + case OpMapKey: + return CodeMapKey + case OpMapValue: + return CodeMapValue + case OpMapEnd: + return CodeMapEnd + } + + return CodeOp +} + +func (t OpType) HeadToPtrHead() OpType { + if strings.Index(t.String(), "PtrHead") > 0 { + return t + } + + idx := strings.Index(t.String(), "Head") + if idx == -1 { + return t + } + suffix := "PtrHead" + t.String()[idx+len("Head"):] + + const toPtrOffset = 2 + if strings.Contains(OpType(int(t)+toPtrOffset).String(), suffix) { + return OpType(int(t) + toPtrOffset) + } + return t +} + +func (t OpType) HeadToOmitEmptyHead() OpType { + const toOmitEmptyOffset = 1 + if strings.Contains(OpType(int(t)+toOmitEmptyOffset).String(), "OmitEmpty") { + return OpType(int(t) + toOmitEmptyOffset) + } + + return t +} + +func (t OpType) PtrHeadToHead() OpType { + idx := strings.Index(t.String(), "Ptr") + if idx == -1 { + return t + } + suffix := t.String()[idx+len("Ptr"):] + + const toPtrOffset = 2 + if strings.Contains(OpType(int(t)-toPtrOffset).String(), suffix) { + return OpType(int(t) - toPtrOffset) + } + return t +} + +func (t OpType) FieldToEnd() OpType { + idx := strings.Index(t.String(), "Field") + if idx == -1 { + return t + } + suffix := t.String()[idx+len("Field"):] + if suffix == "" || suffix == "OmitEmpty" { + return t + } + const toEndOffset = 2 + if strings.Contains(OpType(int(t)+toEndOffset).String(), "End"+suffix) { + return OpType(int(t) + toEndOffset) + } + return t +} + +func (t OpType) FieldToOmitEmptyField() OpType { + const toOmitEmptyOffset = 1 + if strings.Contains(OpType(int(t)+toOmitEmptyOffset).String(), "OmitEmpty") { + return OpType(int(t) + toOmitEmptyOffset) + } + return t +} diff --git a/vendor/github.com/goccy/go-json/internal/encoder/string.go b/vendor/github.com/goccy/go-json/internal/encoder/string.go new file mode 100644 index 0000000..a699dba --- /dev/null +++ b/vendor/github.com/goccy/go-json/internal/encoder/string.go @@ -0,0 +1,640 @@ +package encoder + +import ( + "math/bits" + "reflect" + "unicode/utf8" + "unsafe" +) + +const ( + lsb = 0x0101010101010101 + msb = 0x8080808080808080 +) + +var needEscapeWithHTML = [256]bool{ + '"': true, + '&': true, + '<': true, + '>': true, + '\\': true, + 0x00: true, + 0x01: true, + 0x02: true, + 0x03: true, + 0x04: true, + 0x05: true, + 0x06: true, + 0x07: true, + 0x08: true, + 0x09: true, + 0x0a: true, + 0x0b: true, + 0x0c: true, + 0x0d: true, + 0x0e: true, + 0x0f: true, + 0x10: true, + 0x11: true, + 0x12: true, + 0x13: true, + 0x14: true, + 0x15: true, + 0x16: true, + 0x17: true, + 0x18: true, + 0x19: true, + 0x1a: true, + 0x1b: true, + 0x1c: true, + 0x1d: true, + 0x1e: true, + 0x1f: true, + /* 0x20 - 0x7f */ + 0x80: true, + 0x81: true, + 0x82: true, + 0x83: true, + 0x84: true, + 0x85: true, + 0x86: true, + 0x87: true, + 0x88: true, + 0x89: true, + 0x8a: true, + 0x8b: true, + 0x8c: true, + 0x8d: true, + 0x8e: true, + 0x8f: true, + 0x90: true, + 0x91: true, + 0x92: true, + 0x93: true, + 0x94: true, + 0x95: true, + 0x96: true, + 0x97: true, + 0x98: true, + 0x99: true, + 0x9a: true, + 0x9b: true, + 0x9c: true, + 0x9d: true, + 0x9e: true, + 0x9f: true, + 0xa0: true, + 0xa1: true, + 0xa2: true, + 0xa3: true, + 0xa4: true, + 0xa5: true, + 0xa6: true, + 0xa7: true, + 0xa8: true, + 0xa9: true, + 0xaa: true, + 0xab: true, + 0xac: true, + 0xad: true, + 0xae: true, + 0xaf: true, + 0xb0: true, + 0xb1: true, + 0xb2: true, + 0xb3: true, + 0xb4: true, + 0xb5: true, + 0xb6: true, + 0xb7: true, + 0xb8: true, + 0xb9: true, + 0xba: true, + 0xbb: true, + 0xbc: true, + 0xbd: true, + 0xbe: true, + 0xbf: true, + 0xc0: true, + 0xc1: true, + 0xc2: true, + 0xc3: true, + 0xc4: true, + 0xc5: true, + 0xc6: true, + 0xc7: true, + 0xc8: true, + 0xc9: true, + 0xca: true, + 0xcb: true, + 0xcc: true, + 0xcd: true, + 0xce: true, + 0xcf: true, + 0xd0: true, + 0xd1: true, + 0xd2: true, + 0xd3: true, + 0xd4: true, + 0xd5: true, + 0xd6: true, + 0xd7: true, + 0xd8: true, + 0xd9: true, + 0xda: true, + 0xdb: true, + 0xdc: true, + 0xdd: true, + 0xde: true, + 0xdf: true, + 0xe0: true, + 0xe1: true, + 0xe2: true, + 0xe3: true, + 0xe4: true, + 0xe5: true, + 0xe6: true, + 0xe7: true, + 0xe8: true, + 0xe9: true, + 0xea: true, + 0xeb: true, + 0xec: true, + 0xed: true, + 0xee: true, + 0xef: true, + 0xf0: true, + 0xf1: true, + 0xf2: true, + 0xf3: true, + 0xf4: true, + 0xf5: true, + 0xf6: true, + 0xf7: true, + 0xf8: true, + 0xf9: true, + 0xfa: true, + 0xfb: true, + 0xfc: true, + 0xfd: true, + 0xfe: true, + 0xff: true, +} + +var needEscape = [256]bool{ + '"': true, + '\\': true, + 0x00: true, + 0x01: true, + 0x02: true, + 0x03: true, + 0x04: true, + 0x05: true, + 0x06: true, + 0x07: true, + 0x08: true, + 0x09: true, + 0x0a: true, + 0x0b: true, + 0x0c: true, + 0x0d: true, + 0x0e: true, + 0x0f: true, + 0x10: true, + 0x11: true, + 0x12: true, + 0x13: true, + 0x14: true, + 0x15: true, + 0x16: true, + 0x17: true, + 0x18: true, + 0x19: true, + 0x1a: true, + 0x1b: true, + 0x1c: true, + 0x1d: true, + 0x1e: true, + 0x1f: true, + /* 0x20 - 0x7f */ + 0x80: true, + 0x81: true, + 0x82: true, + 0x83: true, + 0x84: true, + 0x85: true, + 0x86: true, + 0x87: true, + 0x88: true, + 0x89: true, + 0x8a: true, + 0x8b: true, + 0x8c: true, + 0x8d: true, + 0x8e: true, + 0x8f: true, + 0x90: true, + 0x91: true, + 0x92: true, + 0x93: true, + 0x94: true, + 0x95: true, + 0x96: true, + 0x97: true, + 0x98: true, + 0x99: true, + 0x9a: true, + 0x9b: true, + 0x9c: true, + 0x9d: true, + 0x9e: true, + 0x9f: true, + 0xa0: true, + 0xa1: true, + 0xa2: true, + 0xa3: true, + 0xa4: true, + 0xa5: true, + 0xa6: true, + 0xa7: true, + 0xa8: true, + 0xa9: true, + 0xaa: true, + 0xab: true, + 0xac: true, + 0xad: true, + 0xae: true, + 0xaf: true, + 0xb0: true, + 0xb1: true, + 0xb2: true, + 0xb3: true, + 0xb4: true, + 0xb5: true, + 0xb6: true, + 0xb7: true, + 0xb8: true, + 0xb9: true, + 0xba: true, + 0xbb: true, + 0xbc: true, + 0xbd: true, + 0xbe: true, + 0xbf: true, + 0xc0: true, + 0xc1: true, + 0xc2: true, + 0xc3: true, + 0xc4: true, + 0xc5: true, + 0xc6: true, + 0xc7: true, + 0xc8: true, + 0xc9: true, + 0xca: true, + 0xcb: true, + 0xcc: true, + 0xcd: true, + 0xce: true, + 0xcf: true, + 0xd0: true, + 0xd1: true, + 0xd2: true, + 0xd3: true, + 0xd4: true, + 0xd5: true, + 0xd6: true, + 0xd7: true, + 0xd8: true, + 0xd9: true, + 0xda: true, + 0xdb: true, + 0xdc: true, + 0xdd: true, + 0xde: true, + 0xdf: true, + 0xe0: true, + 0xe1: true, + 0xe2: true, + 0xe3: true, + 0xe4: true, + 0xe5: true, + 0xe6: true, + 0xe7: true, + 0xe8: true, + 0xe9: true, + 0xea: true, + 0xeb: true, + 0xec: true, + 0xed: true, + 0xee: true, + 0xef: true, + 0xf0: true, + 0xf1: true, + 0xf2: true, + 0xf3: true, + 0xf4: true, + 0xf5: true, + 0xf6: true, + 0xf7: true, + 0xf8: true, + 0xf9: true, + 0xfa: true, + 0xfb: true, + 0xfc: true, + 0xfd: true, + 0xfe: true, + 0xff: true, +} + +var hex = "0123456789abcdef" + +// escapeIndex finds the index of the first char in `s` that requires escaping. +// A char requires escaping if it's outside of the range of [0x20, 0x7F] or if +// it includes a double quote or backslash. +// If no chars in `s` require escaping, the return value is -1. +func escapeIndex(s string) int { + chunks := stringToUint64Slice(s) + for _, n := range chunks { + // combine masks before checking for the MSB of each byte. We include + // `n` in the mask to check whether any of the *input* byte MSBs were + // set (i.e. the byte was outside the ASCII range). + mask := n | below(n, 0x20) | contains(n, '"') | contains(n, '\\') + if (mask & msb) != 0 { + return bits.TrailingZeros64(mask&msb) / 8 + } + } + + valLen := len(s) + for i := len(chunks) * 8; i < valLen; i++ { + if needEscape[s[i]] { + return i + } + } + + return -1 +} + +// below return a mask that can be used to determine if any of the bytes +// in `n` are below `b`. If a byte's MSB is set in the mask then that byte was +// below `b`. The result is only valid if `b`, and each byte in `n`, is below +// 0x80. +func below(n uint64, b byte) uint64 { + return n - expand(b) +} + +// contains returns a mask that can be used to determine if any of the +// bytes in `n` are equal to `b`. If a byte's MSB is set in the mask then +// that byte is equal to `b`. The result is only valid if `b`, and each +// byte in `n`, is below 0x80. +func contains(n uint64, b byte) uint64 { + return (n ^ expand(b)) - lsb +} + +// expand puts the specified byte into each of the 8 bytes of a uint64. +func expand(b byte) uint64 { + return lsb * uint64(b) +} + +//nolint:govet +func stringToUint64Slice(s string) []uint64 { + return *(*[]uint64)(unsafe.Pointer(&reflect.SliceHeader{ + Data: ((*reflect.StringHeader)(unsafe.Pointer(&s))).Data, + Len: len(s) / 8, + Cap: len(s) / 8, + })) +} + +func AppendString(ctx *RuntimeContext, buf []byte, s string) []byte { + if ctx.Option.Flag&HTMLEscapeOption == 0 { + return appendString(buf, s) + } + valLen := len(s) + if valLen == 0 { + return append(buf, `""`...) + } + buf = append(buf, '"') + var ( + i, j int + ) + if valLen >= 8 { + chunks := stringToUint64Slice(s) + for _, n := range chunks { + // combine masks before checking for the MSB of each byte. We include + // `n` in the mask to check whether any of the *input* byte MSBs were + // set (i.e. the byte was outside the ASCII range). + mask := n | (n - (lsb * 0x20)) | + ((n ^ (lsb * '"')) - lsb) | + ((n ^ (lsb * '\\')) - lsb) | + ((n ^ (lsb * '<')) - lsb) | + ((n ^ (lsb * '>')) - lsb) | + ((n ^ (lsb * '&')) - lsb) + if (mask & msb) != 0 { + j = bits.TrailingZeros64(mask&msb) / 8 + goto ESCAPE_END + } + } + for i := len(chunks) * 8; i < valLen; i++ { + if needEscapeWithHTML[s[i]] { + j = i + goto ESCAPE_END + } + } + // no found any escape characters. + return append(append(buf, s...), '"') + } +ESCAPE_END: + for j < valLen { + c := s[j] + + if !needEscapeWithHTML[c] { + // fast path: most of the time, printable ascii characters are used + j++ + continue + } + + switch c { + case '\\', '"': + buf = append(buf, s[i:j]...) + buf = append(buf, '\\', c) + i = j + 1 + j = j + 1 + continue + + case '\n': + buf = append(buf, s[i:j]...) + buf = append(buf, '\\', 'n') + i = j + 1 + j = j + 1 + continue + + case '\r': + buf = append(buf, s[i:j]...) + buf = append(buf, '\\', 'r') + i = j + 1 + j = j + 1 + continue + + case '\t': + buf = append(buf, s[i:j]...) + buf = append(buf, '\\', 't') + i = j + 1 + j = j + 1 + continue + + case '<', '>', '&': + buf = append(buf, s[i:j]...) + buf = append(buf, `\u00`...) + buf = append(buf, hex[c>>4], hex[c&0xF]) + i = j + 1 + j = j + 1 + continue + } + + // This encodes bytes < 0x20 except for \t, \n and \r. + if c < 0x20 { + buf = append(buf, s[i:j]...) + buf = append(buf, `\u00`...) + buf = append(buf, hex[c>>4], hex[c&0xF]) + i = j + 1 + j = j + 1 + continue + } + + r, size := utf8.DecodeRuneInString(s[j:]) + + if r == utf8.RuneError && size == 1 { + buf = append(buf, s[i:j]...) + buf = append(buf, `\ufffd`...) + i = j + size + j = j + size + continue + } + + switch r { + case '\u2028', '\u2029': + // U+2028 is LINE SEPARATOR. + // U+2029 is PARAGRAPH SEPARATOR. + // They are both technically valid characters in JSON strings, + // but don't work in JSONP, which has to be evaluated as JavaScript, + // and can lead to security holes there. It is valid JSON to + // escape them, so we do so unconditionally. + // See http://timelessrepo.com/json-isnt-a-javascript-subset for discussion. + buf = append(buf, s[i:j]...) + buf = append(buf, `\u202`...) + buf = append(buf, hex[r&0xF]) + i = j + size + j = j + size + continue + } + + j += size + } + + return append(append(buf, s[i:]...), '"') +} + +func appendString(buf []byte, s string) []byte { + valLen := len(s) + if valLen == 0 { + return append(buf, `""`...) + } + buf = append(buf, '"') + var escapeIdx int + if valLen >= 8 { + if escapeIdx = escapeIndex(s); escapeIdx < 0 { + return append(append(buf, s...), '"') + } + } + + i := 0 + j := escapeIdx + for j < valLen { + c := s[j] + + if c >= 0x20 && c <= 0x7f && c != '\\' && c != '"' { + // fast path: most of the time, printable ascii characters are used + j++ + continue + } + + switch c { + case '\\', '"': + buf = append(buf, s[i:j]...) + buf = append(buf, '\\', c) + i = j + 1 + j = j + 1 + continue + + case '\n': + buf = append(buf, s[i:j]...) + buf = append(buf, '\\', 'n') + i = j + 1 + j = j + 1 + continue + + case '\r': + buf = append(buf, s[i:j]...) + buf = append(buf, '\\', 'r') + i = j + 1 + j = j + 1 + continue + + case '\t': + buf = append(buf, s[i:j]...) + buf = append(buf, '\\', 't') + i = j + 1 + j = j + 1 + continue + + case '<', '>', '&': + buf = append(buf, s[i:j]...) + buf = append(buf, `\u00`...) + buf = append(buf, hex[c>>4], hex[c&0xF]) + i = j + 1 + j = j + 1 + continue + } + + // This encodes bytes < 0x20 except for \t, \n and \r. + if c < 0x20 { + buf = append(buf, s[i:j]...) + buf = append(buf, `\u00`...) + buf = append(buf, hex[c>>4], hex[c&0xF]) + i = j + 1 + j = j + 1 + continue + } + + r, size := utf8.DecodeRuneInString(s[j:]) + + if r == utf8.RuneError && size == 1 { + buf = append(buf, s[i:j]...) + buf = append(buf, `\ufffd`...) + i = j + size + j = j + size + continue + } + + switch r { + case '\u2028', '\u2029': + // U+2028 is LINE SEPARATOR. + // U+2029 is PARAGRAPH SEPARATOR. + // They are both technically valid characters in JSON strings, + // but don't work in JSONP, which has to be evaluated as JavaScript, + // and can lead to security holes there. It is valid JSON to + // escape them, so we do so unconditionally. + // See http://timelessrepo.com/json-isnt-a-javascript-subset for discussion. + buf = append(buf, s[i:j]...) + buf = append(buf, `\u202`...) + buf = append(buf, hex[r&0xF]) + i = j + size + j = j + size + continue + } + + j += size + } + + return append(append(buf, s[i:]...), '"') +} diff --git a/vendor/github.com/goccy/go-json/internal/encoder/vm/debug_vm.go b/vendor/github.com/goccy/go-json/internal/encoder/vm/debug_vm.go new file mode 100644 index 0000000..05509fe --- /dev/null +++ b/vendor/github.com/goccy/go-json/internal/encoder/vm/debug_vm.go @@ -0,0 +1,34 @@ +package vm + +import ( + "fmt" + + "github.com/goccy/go-json/internal/encoder" +) + +func DebugRun(ctx *encoder.RuntimeContext, b []byte, codeSet *encoder.OpcodeSet) ([]byte, error) { + defer func() { + var code *encoder.Opcode + if (ctx.Option.Flag & encoder.HTMLEscapeOption) != 0 { + code = codeSet.EscapeKeyCode + } else { + code = codeSet.NoescapeKeyCode + } + + if err := recover(); err != nil { + fmt.Println("=============[DEBUG]===============") + fmt.Println("* [TYPE]") + fmt.Println(codeSet.Type) + fmt.Printf("\n") + fmt.Println("* [ALL OPCODE]") + fmt.Println(code.Dump()) + fmt.Printf("\n") + fmt.Println("* [CONTEXT]") + fmt.Printf("%+v\n", ctx) + fmt.Println("===================================") + panic(err) + } + }() + + return Run(ctx, b, codeSet) +} diff --git a/vendor/github.com/goccy/go-json/internal/encoder/vm/hack.go b/vendor/github.com/goccy/go-json/internal/encoder/vm/hack.go new file mode 100644 index 0000000..65252b4 --- /dev/null +++ b/vendor/github.com/goccy/go-json/internal/encoder/vm/hack.go @@ -0,0 +1,9 @@ +package vm + +import ( + // HACK: compile order + // `vm`, `vm_indent`, `vm_color`, `vm_color_indent` packages uses a lot of memory to compile, + // so forcibly make dependencies and avoid compiling in concurrent. + // dependency order: vm => vm_indent => vm_color => vm_color_indent + _ "github.com/goccy/go-json/internal/encoder/vm_indent" +) diff --git a/vendor/github.com/goccy/go-json/internal/encoder/vm/util.go b/vendor/github.com/goccy/go-json/internal/encoder/vm/util.go new file mode 100644 index 0000000..c559447 --- /dev/null +++ b/vendor/github.com/goccy/go-json/internal/encoder/vm/util.go @@ -0,0 +1,182 @@ +package vm + +import ( + "encoding/json" + "fmt" + "unsafe" + + "github.com/goccy/go-json/internal/encoder" + "github.com/goccy/go-json/internal/runtime" +) + +const uintptrSize = 4 << (^uintptr(0) >> 63) + +var ( + appendInt = encoder.AppendInt + appendUint = encoder.AppendUint + appendFloat32 = encoder.AppendFloat32 + appendFloat64 = encoder.AppendFloat64 + appendString = encoder.AppendString + appendByteSlice = encoder.AppendByteSlice + appendNumber = encoder.AppendNumber + errUnsupportedValue = encoder.ErrUnsupportedValue + errUnsupportedFloat = encoder.ErrUnsupportedFloat + mapiterinit = encoder.MapIterInit + mapiterkey = encoder.MapIterKey + mapitervalue = encoder.MapIterValue + mapiternext = encoder.MapIterNext + maplen = encoder.MapLen +) + +type emptyInterface struct { + typ *runtime.Type + ptr unsafe.Pointer +} + +func errUnimplementedOp(op encoder.OpType) error { + return fmt.Errorf("encoder: opcode %s has not been implemented", op) +} + +func load(base uintptr, idx uint32) uintptr { + addr := base + uintptr(idx) + return **(**uintptr)(unsafe.Pointer(&addr)) +} + +func store(base uintptr, idx uint32, p uintptr) { + addr := base + uintptr(idx) + **(**uintptr)(unsafe.Pointer(&addr)) = p +} + +func loadNPtr(base uintptr, idx uint32, ptrNum uint8) uintptr { + addr := base + uintptr(idx) + p := **(**uintptr)(unsafe.Pointer(&addr)) + for i := uint8(0); i < ptrNum; i++ { + if p == 0 { + return 0 + } + p = ptrToPtr(p) + } + return p +} + +func ptrToUint64(p uintptr) uint64 { return **(**uint64)(unsafe.Pointer(&p)) } +func ptrToFloat32(p uintptr) float32 { return **(**float32)(unsafe.Pointer(&p)) } +func ptrToFloat64(p uintptr) float64 { return **(**float64)(unsafe.Pointer(&p)) } +func ptrToBool(p uintptr) bool { return **(**bool)(unsafe.Pointer(&p)) } +func ptrToBytes(p uintptr) []byte { return **(**[]byte)(unsafe.Pointer(&p)) } +func ptrToNumber(p uintptr) json.Number { return **(**json.Number)(unsafe.Pointer(&p)) } +func ptrToString(p uintptr) string { return **(**string)(unsafe.Pointer(&p)) } +func ptrToSlice(p uintptr) *runtime.SliceHeader { return *(**runtime.SliceHeader)(unsafe.Pointer(&p)) } +func ptrToPtr(p uintptr) uintptr { + return uintptr(**(**unsafe.Pointer)(unsafe.Pointer(&p))) +} +func ptrToNPtr(p uintptr, ptrNum uint8) uintptr { + for i := uint8(0); i < ptrNum; i++ { + if p == 0 { + return 0 + } + p = ptrToPtr(p) + } + return p +} + +func ptrToUnsafePtr(p uintptr) unsafe.Pointer { + return *(*unsafe.Pointer)(unsafe.Pointer(&p)) +} +func ptrToInterface(code *encoder.Opcode, p uintptr) interface{} { + return *(*interface{})(unsafe.Pointer(&emptyInterface{ + typ: code.Type, + ptr: *(*unsafe.Pointer)(unsafe.Pointer(&p)), + })) +} + +func appendBool(_ *encoder.RuntimeContext, b []byte, v bool) []byte { + if v { + return append(b, "true"...) + } + return append(b, "false"...) +} + +func appendNull(_ *encoder.RuntimeContext, b []byte) []byte { + return append(b, "null"...) +} + +func appendComma(_ *encoder.RuntimeContext, b []byte) []byte { + return append(b, ',') +} + +func appendColon(_ *encoder.RuntimeContext, b []byte) []byte { + last := len(b) - 1 + b[last] = ':' + return b +} + +func appendMapKeyValue(_ *encoder.RuntimeContext, _ *encoder.Opcode, b, key, value []byte) []byte { + b = append(b, key...) + b[len(b)-1] = ':' + return append(b, value...) +} + +func appendMapEnd(_ *encoder.RuntimeContext, _ *encoder.Opcode, b []byte) []byte { + b[len(b)-1] = '}' + b = append(b, ',') + return b +} + +func appendMarshalJSON(ctx *encoder.RuntimeContext, code *encoder.Opcode, b []byte, v interface{}) ([]byte, error) { + return encoder.AppendMarshalJSON(ctx, code, b, v) +} + +func appendMarshalText(ctx *encoder.RuntimeContext, code *encoder.Opcode, b []byte, v interface{}) ([]byte, error) { + return encoder.AppendMarshalText(ctx, code, b, v) +} + +func appendArrayHead(_ *encoder.RuntimeContext, _ *encoder.Opcode, b []byte) []byte { + return append(b, '[') +} + +func appendArrayEnd(_ *encoder.RuntimeContext, _ *encoder.Opcode, b []byte) []byte { + last := len(b) - 1 + b[last] = ']' + return append(b, ',') +} + +func appendEmptyArray(_ *encoder.RuntimeContext, b []byte) []byte { + return append(b, '[', ']', ',') +} + +func appendEmptyObject(_ *encoder.RuntimeContext, b []byte) []byte { + return append(b, '{', '}', ',') +} + +func appendObjectEnd(_ *encoder.RuntimeContext, _ *encoder.Opcode, b []byte) []byte { + last := len(b) - 1 + b[last] = '}' + return append(b, ',') +} + +func appendStructHead(_ *encoder.RuntimeContext, b []byte) []byte { + return append(b, '{') +} + +func appendStructKey(_ *encoder.RuntimeContext, code *encoder.Opcode, b []byte) []byte { + return append(b, code.Key...) +} + +func appendStructEnd(_ *encoder.RuntimeContext, _ *encoder.Opcode, b []byte) []byte { + return append(b, '}', ',') +} + +func appendStructEndSkipLast(ctx *encoder.RuntimeContext, code *encoder.Opcode, b []byte) []byte { + last := len(b) - 1 + if b[last] == ',' { + b[last] = '}' + return appendComma(ctx, b) + } + return appendStructEnd(ctx, code, b) +} + +func restoreIndent(_ *encoder.RuntimeContext, _ *encoder.Opcode, _ uintptr) {} +func storeIndent(_ uintptr, _ *encoder.Opcode, _ uintptr) {} +func appendMapKeyIndent(_ *encoder.RuntimeContext, _ *encoder.Opcode, b []byte) []byte { return b } +func appendArrayElemIndent(_ *encoder.RuntimeContext, _ *encoder.Opcode, b []byte) []byte { return b } diff --git a/vendor/github.com/goccy/go-json/internal/encoder/vm/vm.go b/vendor/github.com/goccy/go-json/internal/encoder/vm/vm.go new file mode 100644 index 0000000..5c62354 --- /dev/null +++ b/vendor/github.com/goccy/go-json/internal/encoder/vm/vm.go @@ -0,0 +1,5043 @@ +// Code generated by internal/cmd/generator. DO NOT EDIT! +package vm + +import ( + "math" + "sort" + "unsafe" + + "github.com/goccy/go-json/internal/encoder" +) + +func Run(ctx *encoder.RuntimeContext, b []byte, codeSet *encoder.OpcodeSet) ([]byte, error) { + recursiveLevel := 0 + ptrOffset := uintptr(0) + ctxptr := ctx.Ptr() + var code *encoder.Opcode + if (ctx.Option.Flag & encoder.HTMLEscapeOption) != 0 { + code = codeSet.EscapeKeyCode + } else { + code = codeSet.NoescapeKeyCode + } + + for { + switch code.Op { + default: + return nil, errUnimplementedOp(code.Op) + case encoder.OpPtr: + p := load(ctxptr, code.Idx) + code = code.Next + store(ctxptr, code.Idx, ptrToPtr(p)) + case encoder.OpIntPtr: + p := loadNPtr(ctxptr, code.Idx, code.PtrNum) + if p == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + code = code.Next + break + } + store(ctxptr, code.Idx, p) + fallthrough + case encoder.OpInt: + b = appendInt(ctx, b, ptrToUint64(load(ctxptr, code.Idx)), code) + b = appendComma(ctx, b) + code = code.Next + case encoder.OpUintPtr: + p := loadNPtr(ctxptr, code.Idx, code.PtrNum) + if p == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + code = code.Next + break + } + store(ctxptr, code.Idx, p) + fallthrough + case encoder.OpUint: + b = appendUint(ctx, b, ptrToUint64(load(ctxptr, code.Idx)), code) + b = appendComma(ctx, b) + code = code.Next + case encoder.OpIntString: + b = append(b, '"') + b = appendInt(ctx, b, ptrToUint64(load(ctxptr, code.Idx)), code) + b = append(b, '"') + b = appendComma(ctx, b) + code = code.Next + case encoder.OpUintString: + b = append(b, '"') + b = appendUint(ctx, b, ptrToUint64(load(ctxptr, code.Idx)), code) + b = append(b, '"') + b = appendComma(ctx, b) + code = code.Next + case encoder.OpFloat32Ptr: + p := loadNPtr(ctxptr, code.Idx, code.PtrNum) + if p == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + code = code.Next + break + } + store(ctxptr, code.Idx, p) + fallthrough + case encoder.OpFloat32: + b = appendFloat32(ctx, b, ptrToFloat32(load(ctxptr, code.Idx))) + b = appendComma(ctx, b) + code = code.Next + case encoder.OpFloat64Ptr: + p := loadNPtr(ctxptr, code.Idx, code.PtrNum) + if p == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + code = code.Next + break + } + store(ctxptr, code.Idx, p) + fallthrough + case encoder.OpFloat64: + v := ptrToFloat64(load(ctxptr, code.Idx)) + if math.IsInf(v, 0) || math.IsNaN(v) { + return nil, errUnsupportedFloat(v) + } + b = appendFloat64(ctx, b, v) + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStringPtr: + p := loadNPtr(ctxptr, code.Idx, code.PtrNum) + if p == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + code = code.Next + break + } + store(ctxptr, code.Idx, p) + fallthrough + case encoder.OpString: + b = appendString(ctx, b, ptrToString(load(ctxptr, code.Idx))) + b = appendComma(ctx, b) + code = code.Next + case encoder.OpBoolPtr: + p := loadNPtr(ctxptr, code.Idx, code.PtrNum) + if p == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + code = code.Next + break + } + store(ctxptr, code.Idx, p) + fallthrough + case encoder.OpBool: + b = appendBool(ctx, b, ptrToBool(load(ctxptr, code.Idx))) + b = appendComma(ctx, b) + code = code.Next + case encoder.OpBytesPtr: + p := loadNPtr(ctxptr, code.Idx, code.PtrNum) + if p == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + code = code.Next + break + } + store(ctxptr, code.Idx, p) + fallthrough + case encoder.OpBytes: + b = appendByteSlice(ctx, b, ptrToBytes(load(ctxptr, code.Idx))) + b = appendComma(ctx, b) + code = code.Next + case encoder.OpNumberPtr: + p := loadNPtr(ctxptr, code.Idx, code.PtrNum) + if p == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + code = code.Next + break + } + store(ctxptr, code.Idx, p) + fallthrough + case encoder.OpNumber: + bb, err := appendNumber(ctx, b, ptrToNumber(load(ctxptr, code.Idx))) + if err != nil { + return nil, err + } + b = appendComma(ctx, bb) + code = code.Next + case encoder.OpInterfacePtr: + p := loadNPtr(ctxptr, code.Idx, code.PtrNum) + if p == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + code = code.Next + break + } + store(ctxptr, code.Idx, p) + fallthrough + case encoder.OpInterface: + p := load(ctxptr, code.Idx) + if p == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + code = code.Next + break + } + if recursiveLevel > encoder.StartDetectingCyclesAfter { + for _, seen := range ctx.SeenPtr { + if p == seen { + return nil, errUnsupportedValue(code, p) + } + } + } + ctx.SeenPtr = append(ctx.SeenPtr, p) + iface := (*emptyInterface)(ptrToUnsafePtr(p)) + if iface.ptr == nil { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + code = code.Next + break + } + + ctx.KeepRefs = append(ctx.KeepRefs, unsafe.Pointer(iface)) + ifaceCodeSet, err := encoder.CompileToGetCodeSet(uintptr(unsafe.Pointer(iface.typ))) + if err != nil { + return nil, err + } + + totalLength := uintptr(code.Length) + 3 + nextTotalLength := uintptr(ifaceCodeSet.CodeLength) + 3 + + var c *encoder.Opcode + if (ctx.Option.Flag & encoder.HTMLEscapeOption) != 0 { + c = ifaceCodeSet.InterfaceEscapeKeyCode + } else { + c = ifaceCodeSet.InterfaceNoescapeKeyCode + } + curlen := uintptr(len(ctx.Ptrs)) + offsetNum := ptrOffset / uintptrSize + oldOffset := ptrOffset + ptrOffset += totalLength * uintptrSize + oldBaseIndent := ctx.BaseIndent + indentDiffFromTop := c.Indent - 1 + ctx.BaseIndent += code.Indent - indentDiffFromTop + + newLen := offsetNum + totalLength + nextTotalLength + if curlen < newLen { + ctx.Ptrs = append(ctx.Ptrs, make([]uintptr, newLen-curlen)...) + } + ctxptr = ctx.Ptr() + ptrOffset // assign new ctxptr + + end := ifaceCodeSet.EndCode + store(ctxptr, c.Idx, uintptr(iface.ptr)) + store(ctxptr, end.Idx, oldOffset) + store(ctxptr, end.ElemIdx, uintptr(unsafe.Pointer(code.Next))) + storeIndent(ctxptr, end, uintptr(oldBaseIndent)) + code = c + recursiveLevel++ + case encoder.OpInterfaceEnd: + recursiveLevel-- + + // restore ctxptr + offset := load(ctxptr, code.Idx) + restoreIndent(ctx, code, ctxptr) + ctx.SeenPtr = ctx.SeenPtr[:len(ctx.SeenPtr)-1] + + codePtr := load(ctxptr, code.ElemIdx) + code = (*encoder.Opcode)(ptrToUnsafePtr(codePtr)) + ctxptr = ctx.Ptr() + offset + ptrOffset = offset + case encoder.OpMarshalJSONPtr: + p := load(ctxptr, code.Idx) + if p == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + code = code.Next + break + } + store(ctxptr, code.Idx, ptrToPtr(p)) + fallthrough + case encoder.OpMarshalJSON: + p := load(ctxptr, code.Idx) + if p == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + code = code.Next + break + } + if (code.Flags&encoder.IsNilableTypeFlags) != 0 && (code.Flags&encoder.IndirectFlags) != 0 { + p = ptrToPtr(p) + } + bb, err := appendMarshalJSON(ctx, code, b, ptrToInterface(code, p)) + if err != nil { + return nil, err + } + b = appendComma(ctx, bb) + code = code.Next + case encoder.OpMarshalTextPtr: + p := load(ctxptr, code.Idx) + if p == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + code = code.Next + break + } + store(ctxptr, code.Idx, ptrToPtr(p)) + fallthrough + case encoder.OpMarshalText: + p := load(ctxptr, code.Idx) + if p == 0 { + b = append(b, `""`...) + b = appendComma(ctx, b) + code = code.Next + break + } + if (code.Flags&encoder.IsNilableTypeFlags) != 0 && (code.Flags&encoder.IndirectFlags) != 0 { + p = ptrToPtr(p) + } + bb, err := appendMarshalText(ctx, code, b, ptrToInterface(code, p)) + if err != nil { + return nil, err + } + b = appendComma(ctx, bb) + code = code.Next + case encoder.OpSlicePtr: + p := loadNPtr(ctxptr, code.Idx, code.PtrNum) + if p == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + code = code.End.Next + break + } + store(ctxptr, code.Idx, p) + fallthrough + case encoder.OpSlice: + p := load(ctxptr, code.Idx) + slice := ptrToSlice(p) + if p == 0 || slice.Data == nil { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + code = code.End.Next + break + } + store(ctxptr, code.ElemIdx, 0) + store(ctxptr, code.Length, uintptr(slice.Len)) + store(ctxptr, code.Idx, uintptr(slice.Data)) + if slice.Len > 0 { + b = appendArrayHead(ctx, code, b) + code = code.Next + store(ctxptr, code.Idx, uintptr(slice.Data)) + } else { + b = appendEmptyArray(ctx, b) + code = code.End.Next + } + case encoder.OpSliceElem: + idx := load(ctxptr, code.ElemIdx) + length := load(ctxptr, code.Length) + idx++ + if idx < length { + b = appendArrayElemIndent(ctx, code, b) + store(ctxptr, code.ElemIdx, idx) + data := load(ctxptr, code.Idx) + size := uintptr(code.Size) + code = code.Next + store(ctxptr, code.Idx, data+idx*size) + } else { + b = appendArrayEnd(ctx, code, b) + code = code.End.Next + } + case encoder.OpArrayPtr: + p := loadNPtr(ctxptr, code.Idx, code.PtrNum) + if p == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + code = code.End.Next + break + } + store(ctxptr, code.Idx, p) + fallthrough + case encoder.OpArray: + p := load(ctxptr, code.Idx) + if p == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + code = code.End.Next + break + } + if code.Length > 0 { + b = appendArrayHead(ctx, code, b) + store(ctxptr, code.ElemIdx, 0) + code = code.Next + store(ctxptr, code.Idx, p) + } else { + b = appendEmptyArray(ctx, b) + code = code.End.Next + } + case encoder.OpArrayElem: + idx := load(ctxptr, code.ElemIdx) + idx++ + if idx < uintptr(code.Length) { + b = appendArrayElemIndent(ctx, code, b) + store(ctxptr, code.ElemIdx, idx) + p := load(ctxptr, code.Idx) + size := uintptr(code.Size) + code = code.Next + store(ctxptr, code.Idx, p+idx*size) + } else { + b = appendArrayEnd(ctx, code, b) + code = code.End.Next + } + case encoder.OpMapPtr: + p := loadNPtr(ctxptr, code.Idx, code.PtrNum) + if p == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + code = code.End.Next + break + } + store(ctxptr, code.Idx, p) + fallthrough + case encoder.OpMap: + p := load(ctxptr, code.Idx) + if p == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + code = code.End.Next + break + } + uptr := ptrToUnsafePtr(p) + mlen := maplen(uptr) + if mlen <= 0 { + b = appendEmptyObject(ctx, b) + code = code.End.Next + break + } + b = appendStructHead(ctx, b) + iter := mapiterinit(code.Type, uptr) + ctx.KeepRefs = append(ctx.KeepRefs, iter) + store(ctxptr, code.ElemIdx, 0) + store(ctxptr, code.Length, uintptr(mlen)) + store(ctxptr, code.MapIter, uintptr(iter)) + if (ctx.Option.Flag & encoder.UnorderedMapOption) != 0 { + b = appendMapKeyIndent(ctx, code.Next, b) + } else { + mapCtx := encoder.NewMapContext(mlen) + mapCtx.Pos = append(mapCtx.Pos, len(b)) + ctx.KeepRefs = append(ctx.KeepRefs, unsafe.Pointer(mapCtx)) + store(ctxptr, code.End.MapPos, uintptr(unsafe.Pointer(mapCtx))) + } + key := mapiterkey(iter) + store(ctxptr, code.Next.Idx, uintptr(key)) + code = code.Next + case encoder.OpMapKey: + idx := load(ctxptr, code.ElemIdx) + length := load(ctxptr, code.Length) + idx++ + if (ctx.Option.Flag & encoder.UnorderedMapOption) != 0 { + if idx < length { + b = appendMapKeyIndent(ctx, code, b) + store(ctxptr, code.ElemIdx, idx) + ptr := load(ctxptr, code.MapIter) + iter := ptrToUnsafePtr(ptr) + key := mapiterkey(iter) + store(ctxptr, code.Next.Idx, uintptr(key)) + code = code.Next + } else { + b = appendObjectEnd(ctx, code, b) + code = code.End.Next + } + } else { + ptr := load(ctxptr, code.End.MapPos) + mapCtx := (*encoder.MapContext)(ptrToUnsafePtr(ptr)) + mapCtx.Pos = append(mapCtx.Pos, len(b)) + if idx < length { + ptr := load(ctxptr, code.MapIter) + iter := ptrToUnsafePtr(ptr) + store(ctxptr, code.ElemIdx, idx) + key := mapiterkey(iter) + store(ctxptr, code.Next.Idx, uintptr(key)) + code = code.Next + } else { + code = code.End + } + } + case encoder.OpMapValue: + if (ctx.Option.Flag & encoder.UnorderedMapOption) != 0 { + b = appendColon(ctx, b) + } else { + ptr := load(ctxptr, code.End.MapPos) + mapCtx := (*encoder.MapContext)(ptrToUnsafePtr(ptr)) + mapCtx.Pos = append(mapCtx.Pos, len(b)) + } + ptr := load(ctxptr, code.MapIter) + iter := ptrToUnsafePtr(ptr) + value := mapitervalue(iter) + store(ctxptr, code.Next.Idx, uintptr(value)) + mapiternext(iter) + code = code.Next + case encoder.OpMapEnd: + // this operation only used by sorted map. + length := int(load(ctxptr, code.Length)) + ptr := load(ctxptr, code.MapPos) + mapCtx := (*encoder.MapContext)(ptrToUnsafePtr(ptr)) + pos := mapCtx.Pos + for i := 0; i < length; i++ { + startKey := pos[i*2] + startValue := pos[i*2+1] + var endValue int + if i+1 < length { + endValue = pos[i*2+2] + } else { + endValue = len(b) + } + mapCtx.Slice.Items = append(mapCtx.Slice.Items, encoder.MapItem{ + Key: b[startKey:startValue], + Value: b[startValue:endValue], + }) + } + sort.Sort(mapCtx.Slice) + buf := mapCtx.Buf + for _, item := range mapCtx.Slice.Items { + buf = appendMapKeyValue(ctx, code, buf, item.Key, item.Value) + } + buf = appendMapEnd(ctx, code, buf) + b = b[:pos[0]] + b = append(b, buf...) + mapCtx.Buf = buf + encoder.ReleaseMapContext(mapCtx) + code = code.Next + case encoder.OpRecursivePtr: + p := load(ctxptr, code.Idx) + if p == 0 { + code = code.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpRecursive: + ptr := load(ctxptr, code.Idx) + if ptr != 0 { + if recursiveLevel > encoder.StartDetectingCyclesAfter { + for _, seen := range ctx.SeenPtr { + if ptr == seen { + return nil, errUnsupportedValue(code, ptr) + } + } + } + } + ctx.SeenPtr = append(ctx.SeenPtr, ptr) + c := code.Jmp.Code + curlen := uintptr(len(ctx.Ptrs)) + offsetNum := ptrOffset / uintptrSize + oldOffset := ptrOffset + ptrOffset += code.Jmp.CurLen * uintptrSize + oldBaseIndent := ctx.BaseIndent + indentDiffFromTop := c.Indent - 1 + ctx.BaseIndent += code.Indent - indentDiffFromTop + + newLen := offsetNum + code.Jmp.CurLen + code.Jmp.NextLen + if curlen < newLen { + ctx.Ptrs = append(ctx.Ptrs, make([]uintptr, newLen-curlen)...) + } + ctxptr = ctx.Ptr() + ptrOffset // assign new ctxptr + + store(ctxptr, c.Idx, ptr) + store(ctxptr, c.End.Next.Idx, oldOffset) + store(ctxptr, c.End.Next.ElemIdx, uintptr(unsafe.Pointer(code.Next))) + storeIndent(ctxptr, c.End.Next, uintptr(oldBaseIndent)) + code = c + recursiveLevel++ + case encoder.OpRecursiveEnd: + recursiveLevel-- + + // restore ctxptr + restoreIndent(ctx, code, ctxptr) + offset := load(ctxptr, code.Idx) + ctx.SeenPtr = ctx.SeenPtr[:len(ctx.SeenPtr)-1] + + codePtr := load(ctxptr, code.ElemIdx) + code = (*encoder.Opcode)(ptrToUnsafePtr(codePtr)) + ctxptr = ctx.Ptr() + offset + ptrOffset = offset + case encoder.OpStructPtrHead: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHead: + p := load(ctxptr, code.Idx) + if p == 0 && ((code.Flags&encoder.IndirectFlags) != 0 || code.Next.Op == encoder.OpStructEnd) { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + if len(code.Key) > 0 { + if (code.Flags&encoder.IsTaggedKeyFlags) != 0 || code.Flags&encoder.AnonymousKeyFlags == 0 { + b = appendStructKey(ctx, code, b) + } + } + p += uintptr(code.Offset) + code = code.Next + store(ctxptr, code.Idx, p) + case encoder.OpStructPtrHeadOmitEmpty: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadOmitEmpty: + p := load(ctxptr, code.Idx) + if p == 0 && ((code.Flags&encoder.IndirectFlags) != 0 || code.Next.Op == encoder.OpStructEnd) { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + p += uintptr(code.Offset) + if p == 0 || (ptrToPtr(p) == 0 && (code.Flags&encoder.IsNextOpPtrTypeFlags) != 0) { + code = code.NextField + } else { + b = appendStructKey(ctx, code, b) + code = code.Next + store(ctxptr, code.Idx, p) + } + case encoder.OpStructPtrHeadInt: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadInt: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + b = appendInt(ctx, b, ptrToUint64(p+uintptr(code.Offset)), code) + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyInt: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadOmitEmptyInt: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + u64 := ptrToUint64(p + uintptr(code.Offset)) + v := u64 & ((1 << code.NumBitSize) - 1) + if v == 0 { + code = code.NextField + } else { + b = appendStructKey(ctx, code, b) + b = appendInt(ctx, b, u64, code) + b = appendComma(ctx, b) + code = code.Next + } + case encoder.OpStructPtrHeadIntString: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadIntString: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendInt(ctx, b, ptrToUint64(p+uintptr(code.Offset)), code) + b = append(b, '"') + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyIntString: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadOmitEmptyIntString: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + u64 := ptrToUint64(p + uintptr(code.Offset)) + v := u64 & ((1 << code.NumBitSize) - 1) + if v == 0 { + code = code.NextField + } else { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendInt(ctx, b, u64, code) + b = append(b, '"') + b = appendComma(ctx, b) + code = code.Next + } + case encoder.OpStructPtrHeadIntPtr: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadIntPtr: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p == 0 { + b = appendNull(ctx, b) + } else { + b = appendInt(ctx, b, ptrToUint64(p), code) + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyIntPtr: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadOmitEmptyIntPtr: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p != 0 { + b = appendStructKey(ctx, code, b) + b = appendInt(ctx, b, ptrToUint64(p), code) + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructPtrHeadIntPtrString: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadIntPtrString: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p == 0 { + b = appendNull(ctx, b) + } else { + b = append(b, '"') + b = appendInt(ctx, b, ptrToUint64(p), code) + b = append(b, '"') + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyIntPtrString: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadOmitEmptyIntPtrString: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p != 0 { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendInt(ctx, b, ptrToUint64(p), code) + b = append(b, '"') + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructPtrHeadUint: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadUint: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + b = appendUint(ctx, b, ptrToUint64(p+uintptr(code.Offset)), code) + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyUint: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadOmitEmptyUint: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + u64 := ptrToUint64(p + uintptr(code.Offset)) + v := u64 & ((1 << code.NumBitSize) - 1) + if v == 0 { + code = code.NextField + } else { + b = appendStructKey(ctx, code, b) + b = appendUint(ctx, b, u64, code) + b = appendComma(ctx, b) + code = code.Next + } + case encoder.OpStructPtrHeadUintString: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadUintString: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendUint(ctx, b, ptrToUint64(p+uintptr(code.Offset)), code) + b = append(b, '"') + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyUintString: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadOmitEmptyUintString: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + u64 := ptrToUint64(p + uintptr(code.Offset)) + v := u64 & ((1 << code.NumBitSize) - 1) + if v == 0 { + code = code.NextField + } else { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendUint(ctx, b, u64, code) + b = append(b, '"') + b = appendComma(ctx, b) + code = code.Next + } + case encoder.OpStructPtrHeadUintPtr: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadUintPtr: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p == 0 { + b = appendNull(ctx, b) + } else { + b = appendUint(ctx, b, ptrToUint64(p), code) + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyUintPtr: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadOmitEmptyUintPtr: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p != 0 { + b = appendStructKey(ctx, code, b) + b = appendUint(ctx, b, ptrToUint64(p), code) + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructPtrHeadUintPtrString: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadUintPtrString: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p == 0 { + b = appendNull(ctx, b) + } else { + b = append(b, '"') + b = appendUint(ctx, b, ptrToUint64(p), code) + b = append(b, '"') + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyUintPtrString: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadOmitEmptyUintPtrString: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p != 0 { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendUint(ctx, b, ptrToUint64(p), code) + b = append(b, '"') + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructPtrHeadFloat32: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadFloat32: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + b = appendFloat32(ctx, b, ptrToFloat32(p+uintptr(code.Offset))) + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyFloat32: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadOmitEmptyFloat32: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + v := ptrToFloat32(p + uintptr(code.Offset)) + if v == 0 { + code = code.NextField + } else { + b = appendStructKey(ctx, code, b) + b = appendFloat32(ctx, b, v) + b = appendComma(ctx, b) + code = code.Next + } + case encoder.OpStructPtrHeadFloat32String: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadFloat32String: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendFloat32(ctx, b, ptrToFloat32(p+uintptr(code.Offset))) + b = append(b, '"') + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyFloat32String: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadOmitEmptyFloat32String: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + v := ptrToFloat32(p + uintptr(code.Offset)) + if v == 0 { + code = code.NextField + } else { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendFloat32(ctx, b, v) + b = append(b, '"') + b = appendComma(ctx, b) + code = code.Next + } + case encoder.OpStructPtrHeadFloat32Ptr: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadFloat32Ptr: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p == 0 { + b = appendNull(ctx, b) + } else { + b = appendFloat32(ctx, b, ptrToFloat32(p)) + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyFloat32Ptr: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadOmitEmptyFloat32Ptr: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p != 0 { + b = appendStructKey(ctx, code, b) + b = appendFloat32(ctx, b, ptrToFloat32(p)) + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructPtrHeadFloat32PtrString: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadFloat32PtrString: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p == 0 { + b = appendNull(ctx, b) + } else { + b = append(b, '"') + b = appendFloat32(ctx, b, ptrToFloat32(p)) + b = append(b, '"') + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyFloat32PtrString: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadOmitEmptyFloat32PtrString: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p != 0 { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendFloat32(ctx, b, ptrToFloat32(p)) + b = append(b, '"') + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructPtrHeadFloat64: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadFloat64: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + v := ptrToFloat64(p + uintptr(code.Offset)) + if math.IsInf(v, 0) || math.IsNaN(v) { + return nil, errUnsupportedFloat(v) + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + b = appendFloat64(ctx, b, v) + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyFloat64: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadOmitEmptyFloat64: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + v := ptrToFloat64(p + uintptr(code.Offset)) + if v == 0 { + code = code.NextField + } else { + if math.IsInf(v, 0) || math.IsNaN(v) { + return nil, errUnsupportedFloat(v) + } + b = appendStructKey(ctx, code, b) + b = appendFloat64(ctx, b, v) + b = appendComma(ctx, b) + code = code.Next + } + case encoder.OpStructPtrHeadFloat64String: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadFloat64String: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + v := ptrToFloat64(p + uintptr(code.Offset)) + if math.IsInf(v, 0) || math.IsNaN(v) { + return nil, errUnsupportedFloat(v) + } + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendFloat64(ctx, b, v) + b = append(b, '"') + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyFloat64String: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadOmitEmptyFloat64String: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + v := ptrToFloat64(p + uintptr(code.Offset)) + if v == 0 { + code = code.NextField + } else { + if math.IsInf(v, 0) || math.IsNaN(v) { + return nil, errUnsupportedFloat(v) + } + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendFloat64(ctx, b, v) + b = append(b, '"') + b = appendComma(ctx, b) + code = code.Next + } + case encoder.OpStructPtrHeadFloat64Ptr: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadFloat64Ptr: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p == 0 { + b = appendNull(ctx, b) + } else { + v := ptrToFloat64(p) + if math.IsInf(v, 0) || math.IsNaN(v) { + return nil, errUnsupportedFloat(v) + } + b = appendFloat64(ctx, b, v) + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyFloat64Ptr: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadOmitEmptyFloat64Ptr: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p != 0 { + b = appendStructKey(ctx, code, b) + v := ptrToFloat64(p) + if math.IsInf(v, 0) || math.IsNaN(v) { + return nil, errUnsupportedFloat(v) + } + b = appendFloat64(ctx, b, v) + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructPtrHeadFloat64PtrString: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadFloat64PtrString: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p == 0 { + b = appendNull(ctx, b) + } else { + b = append(b, '"') + v := ptrToFloat64(p) + if math.IsInf(v, 0) || math.IsNaN(v) { + return nil, errUnsupportedFloat(v) + } + b = appendFloat64(ctx, b, v) + b = append(b, '"') + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyFloat64PtrString: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadOmitEmptyFloat64PtrString: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p != 0 { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + v := ptrToFloat64(p) + if math.IsInf(v, 0) || math.IsNaN(v) { + return nil, errUnsupportedFloat(v) + } + b = appendFloat64(ctx, b, v) + b = append(b, '"') + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructPtrHeadString: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadString: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + b = appendString(ctx, b, ptrToString(p+uintptr(code.Offset))) + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyString: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadOmitEmptyString: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + v := ptrToString(p + uintptr(code.Offset)) + if v == "" { + code = code.NextField + } else { + b = appendStructKey(ctx, code, b) + b = appendString(ctx, b, v) + b = appendComma(ctx, b) + code = code.Next + } + case encoder.OpStructPtrHeadStringString: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadStringString: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + b = appendString(ctx, b, string(appendString(ctx, []byte{}, ptrToString(p+uintptr(code.Offset))))) + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyStringString: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadOmitEmptyStringString: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + v := ptrToString(p + uintptr(code.Offset)) + if v == "" { + code = code.NextField + } else { + b = appendStructKey(ctx, code, b) + b = appendString(ctx, b, string(appendString(ctx, []byte{}, v))) + b = appendComma(ctx, b) + code = code.Next + } + case encoder.OpStructPtrHeadStringPtr: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadStringPtr: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p == 0 { + b = appendNull(ctx, b) + } else { + b = appendString(ctx, b, ptrToString(p)) + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyStringPtr: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadOmitEmptyStringPtr: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p != 0 { + b = appendStructKey(ctx, code, b) + b = appendString(ctx, b, ptrToString(p)) + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructPtrHeadStringPtrString: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadStringPtrString: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p == 0 { + b = appendNull(ctx, b) + } else { + b = appendString(ctx, b, string(appendString(ctx, []byte{}, ptrToString(p)))) + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyStringPtrString: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadOmitEmptyStringPtrString: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p != 0 { + b = appendStructKey(ctx, code, b) + b = appendString(ctx, b, string(appendString(ctx, []byte{}, ptrToString(p)))) + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructPtrHeadBool: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadBool: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + b = appendBool(ctx, b, ptrToBool(p+uintptr(code.Offset))) + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyBool: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadOmitEmptyBool: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + v := ptrToBool(p + uintptr(code.Offset)) + if v { + b = appendStructKey(ctx, code, b) + b = appendBool(ctx, b, v) + b = appendComma(ctx, b) + code = code.Next + } else { + code = code.NextField + } + case encoder.OpStructPtrHeadBoolString: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadBoolString: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendBool(ctx, b, ptrToBool(p+uintptr(code.Offset))) + b = append(b, '"') + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyBoolString: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadOmitEmptyBoolString: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + v := ptrToBool(p + uintptr(code.Offset)) + if v { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendBool(ctx, b, v) + b = append(b, '"') + b = appendComma(ctx, b) + code = code.Next + } else { + code = code.NextField + } + case encoder.OpStructPtrHeadBoolPtr: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadBoolPtr: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p == 0 { + b = appendNull(ctx, b) + } else { + b = appendBool(ctx, b, ptrToBool(p)) + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyBoolPtr: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadOmitEmptyBoolPtr: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p != 0 { + b = appendStructKey(ctx, code, b) + b = appendBool(ctx, b, ptrToBool(p)) + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructPtrHeadBoolPtrString: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadBoolPtrString: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p == 0 { + b = appendNull(ctx, b) + } else { + b = append(b, '"') + b = appendBool(ctx, b, ptrToBool(p)) + b = append(b, '"') + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyBoolPtrString: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadOmitEmptyBoolPtrString: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p != 0 { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendBool(ctx, b, ptrToBool(p)) + b = append(b, '"') + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructPtrHeadBytes: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadBytes: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + b = appendByteSlice(ctx, b, ptrToBytes(p+uintptr(code.Offset))) + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyBytes: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadOmitEmptyBytes: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + v := ptrToBytes(p + uintptr(code.Offset)) + if len(v) == 0 { + code = code.NextField + } else { + b = appendStructKey(ctx, code, b) + b = appendByteSlice(ctx, b, v) + b = appendComma(ctx, b) + code = code.Next + } + case encoder.OpStructPtrHeadBytesPtr: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadBytesPtr: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p == 0 { + b = appendNull(ctx, b) + } else { + b = appendByteSlice(ctx, b, ptrToBytes(p)) + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyBytesPtr: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadOmitEmptyBytesPtr: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p != 0 { + b = appendStructKey(ctx, code, b) + b = appendByteSlice(ctx, b, ptrToBytes(p)) + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructPtrHeadNumber: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadNumber: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + bb, err := appendNumber(ctx, b, ptrToNumber(p+uintptr(code.Offset))) + if err != nil { + return nil, err + } + b = appendComma(ctx, bb) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyNumber: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadOmitEmptyNumber: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + v := ptrToNumber(p + uintptr(code.Offset)) + if v == "" { + code = code.NextField + } else { + b = appendStructKey(ctx, code, b) + bb, err := appendNumber(ctx, b, v) + if err != nil { + return nil, err + } + b = appendComma(ctx, bb) + code = code.Next + } + case encoder.OpStructPtrHeadNumberString: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadNumberString: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + b = append(b, '"') + bb, err := appendNumber(ctx, b, ptrToNumber(p+uintptr(code.Offset))) + if err != nil { + return nil, err + } + b = append(bb, '"') + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyNumberString: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadOmitEmptyNumberString: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + v := ptrToNumber(p + uintptr(code.Offset)) + if v == "" { + code = code.NextField + } else { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + bb, err := appendNumber(ctx, b, v) + if err != nil { + return nil, err + } + b = append(bb, '"') + b = appendComma(ctx, b) + code = code.Next + } + case encoder.OpStructPtrHeadNumberPtr: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadNumberPtr: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p == 0 { + b = appendNull(ctx, b) + } else { + bb, err := appendNumber(ctx, b, ptrToNumber(p)) + if err != nil { + return nil, err + } + b = bb + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyNumberPtr: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadOmitEmptyNumberPtr: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p != 0 { + b = appendStructKey(ctx, code, b) + bb, err := appendNumber(ctx, b, ptrToNumber(p)) + if err != nil { + return nil, err + } + b = appendComma(ctx, bb) + } + code = code.Next + case encoder.OpStructPtrHeadNumberPtrString: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadNumberPtrString: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p == 0 { + b = appendNull(ctx, b) + } else { + b = append(b, '"') + bb, err := appendNumber(ctx, b, ptrToNumber(p)) + if err != nil { + return nil, err + } + b = append(bb, '"') + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyNumberPtrString: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadOmitEmptyNumberPtrString: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p != 0 { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + bb, err := appendNumber(ctx, b, ptrToNumber(p)) + if err != nil { + return nil, err + } + b = append(bb, '"') + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructPtrHeadArray, encoder.OpStructPtrHeadSlice: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadArray, encoder.OpStructHeadSlice: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + p += uintptr(code.Offset) + code = code.Next + store(ctxptr, code.Idx, p) + case encoder.OpStructPtrHeadOmitEmptyArray: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadOmitEmptyArray: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + p += uintptr(code.Offset) + b = appendStructKey(ctx, code, b) + code = code.Next + store(ctxptr, code.Idx, p) + case encoder.OpStructPtrHeadOmitEmptySlice: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadOmitEmptySlice: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + p += uintptr(code.Offset) + slice := ptrToSlice(p) + if slice.Len == 0 { + code = code.NextField + } else { + b = appendStructKey(ctx, code, b) + code = code.Next + store(ctxptr, code.Idx, p) + } + case encoder.OpStructPtrHeadArrayPtr, encoder.OpStructPtrHeadSlicePtr: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadArrayPtr, encoder.OpStructHeadSlicePtr: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + code = code.NextField + } else { + code = code.Next + store(ctxptr, code.Idx, p) + } + case encoder.OpStructPtrHeadOmitEmptyArrayPtr, encoder.OpStructPtrHeadOmitEmptySlicePtr: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadOmitEmptyArrayPtr, encoder.OpStructHeadOmitEmptySlicePtr: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p == 0 { + code = code.NextField + } else { + b = appendStructKey(ctx, code, b) + code = code.Next + store(ctxptr, code.Idx, p) + } + case encoder.OpStructPtrHeadMap: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadMap: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + if p != 0 && (code.Flags&encoder.IndirectFlags) != 0 { + p = ptrToPtr(p + uintptr(code.Offset)) + } + code = code.Next + store(ctxptr, code.Idx, p) + case encoder.OpStructPtrHeadOmitEmptyMap: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadOmitEmptyMap: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + if p != 0 && (code.Flags&encoder.IndirectFlags) != 0 { + p = ptrToPtr(p + uintptr(code.Offset)) + } + if maplen(ptrToUnsafePtr(p)) == 0 { + code = code.NextField + } else { + b = appendStructKey(ctx, code, b) + code = code.Next + store(ctxptr, code.Idx, p) + } + case encoder.OpStructPtrHeadMapPtr: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadMapPtr: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + if p == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + code = code.NextField + break + } + p = ptrToPtr(p + uintptr(code.Offset)) + if p == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + code = code.NextField + } else { + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p, code.PtrNum) + } + code = code.Next + store(ctxptr, code.Idx, p) + } + case encoder.OpStructPtrHeadOmitEmptyMapPtr: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadOmitEmptyMapPtr: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + if p == 0 { + code = code.NextField + break + } + p = ptrToPtr(p + uintptr(code.Offset)) + if p == 0 { + code = code.NextField + } else { + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p, code.PtrNum) + } + b = appendStructKey(ctx, code, b) + code = code.Next + store(ctxptr, code.Idx, p) + } + case encoder.OpStructPtrHeadMarshalJSON: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if (code.Flags & encoder.IndirectFlags) != 0 { + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadMarshalJSON: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + if (code.Flags & encoder.IsNilableTypeFlags) != 0 { + if (code.Flags&encoder.IndirectFlags) != 0 || code.Op == encoder.OpStructPtrHeadMarshalJSON { + p = ptrToPtr(p + uintptr(code.Offset)) + } + } + if p == 0 && (code.Flags&encoder.NilCheckFlags) != 0 { + b = appendNull(ctx, b) + } else { + bb, err := appendMarshalJSON(ctx, code, b, ptrToInterface(code, p)) + if err != nil { + return nil, err + } + b = bb + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyMarshalJSON: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if (code.Flags & encoder.IndirectFlags) != 0 { + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadOmitEmptyMarshalJSON: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + if (code.Flags & encoder.IsNilableTypeFlags) != 0 { + if (code.Flags&encoder.IndirectFlags) != 0 || code.Op == encoder.OpStructPtrHeadOmitEmptyMarshalJSON { + p = ptrToPtr(p + uintptr(code.Offset)) + } + } + iface := ptrToInterface(code, p) + if (code.Flags&encoder.NilCheckFlags) != 0 && encoder.IsNilForMarshaler(iface) { + code = code.NextField + } else { + b = appendStructKey(ctx, code, b) + bb, err := appendMarshalJSON(ctx, code, b, iface) + if err != nil { + return nil, err + } + b = bb + b = appendComma(ctx, b) + code = code.Next + } + case encoder.OpStructPtrHeadMarshalJSONPtr: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadMarshalJSONPtr: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p == 0 { + b = appendNull(ctx, b) + } else { + bb, err := appendMarshalJSON(ctx, code, b, ptrToInterface(code, p)) + if err != nil { + return nil, err + } + b = bb + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyMarshalJSONPtr: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadOmitEmptyMarshalJSONPtr: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + if p == 0 { + code = code.NextField + } else { + b = appendStructKey(ctx, code, b) + bb, err := appendMarshalJSON(ctx, code, b, ptrToInterface(code, p)) + if err != nil { + return nil, err + } + b = bb + b = appendComma(ctx, b) + code = code.Next + } + case encoder.OpStructPtrHeadMarshalText: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if (code.Flags & encoder.IndirectFlags) != 0 { + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadMarshalText: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + if (code.Flags & encoder.IsNilableTypeFlags) != 0 { + if (code.Flags&encoder.IndirectFlags) != 0 || code.Op == encoder.OpStructPtrHeadMarshalText { + p = ptrToPtr(p + uintptr(code.Offset)) + } + } + if p == 0 && (code.Flags&encoder.NilCheckFlags) != 0 { + b = appendNull(ctx, b) + } else { + bb, err := appendMarshalText(ctx, code, b, ptrToInterface(code, p)) + if err != nil { + return nil, err + } + b = bb + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyMarshalText: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if (code.Flags & encoder.IndirectFlags) != 0 { + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadOmitEmptyMarshalText: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + if (code.Flags & encoder.IsNilableTypeFlags) != 0 { + if (code.Flags&encoder.IndirectFlags) != 0 || code.Op == encoder.OpStructPtrHeadOmitEmptyMarshalText { + p = ptrToPtr(p + uintptr(code.Offset)) + } + } + if p == 0 && (code.Flags&encoder.NilCheckFlags) != 0 { + code = code.NextField + } else { + b = appendStructKey(ctx, code, b) + bb, err := appendMarshalText(ctx, code, b, ptrToInterface(code, p)) + if err != nil { + return nil, err + } + b = bb + b = appendComma(ctx, b) + code = code.Next + } + case encoder.OpStructPtrHeadMarshalTextPtr: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadMarshalTextPtr: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p == 0 { + b = appendNull(ctx, b) + } else { + bb, err := appendMarshalText(ctx, code, b, ptrToInterface(code, p)) + if err != nil { + return nil, err + } + b = bb + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyMarshalTextPtr: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadOmitEmptyMarshalTextPtr: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + if p == 0 { + code = code.NextField + } else { + b = appendStructKey(ctx, code, b) + bb, err := appendMarshalText(ctx, code, b, ptrToInterface(code, p)) + if err != nil { + return nil, err + } + b = bb + b = appendComma(ctx, b) + code = code.Next + } + case encoder.OpStructField: + if code.Flags&encoder.IsTaggedKeyFlags != 0 || code.Flags&encoder.AnonymousKeyFlags == 0 { + b = appendStructKey(ctx, code, b) + } + p := load(ctxptr, code.Idx) + uintptr(code.Offset) + code = code.Next + store(ctxptr, code.Idx, p) + case encoder.OpStructFieldOmitEmpty: + p := load(ctxptr, code.Idx) + p += uintptr(code.Offset) + if ptrToPtr(p) == 0 && (code.Flags&encoder.IsNextOpPtrTypeFlags) != 0 { + code = code.NextField + } else { + b = appendStructKey(ctx, code, b) + code = code.Next + store(ctxptr, code.Idx, p) + } + case encoder.OpStructFieldInt: + p := load(ctxptr, code.Idx) + b = appendStructKey(ctx, code, b) + b = appendInt(ctx, b, ptrToUint64(p+uintptr(code.Offset)), code) + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyInt: + p := load(ctxptr, code.Idx) + u64 := ptrToUint64(p + uintptr(code.Offset)) + v := u64 & ((1 << code.NumBitSize) - 1) + if v != 0 { + b = appendStructKey(ctx, code, b) + b = appendInt(ctx, b, u64, code) + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructFieldIntString: + p := load(ctxptr, code.Idx) + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendInt(ctx, b, ptrToUint64(p+uintptr(code.Offset)), code) + b = append(b, '"') + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyIntString: + p := load(ctxptr, code.Idx) + u64 := ptrToUint64(p + uintptr(code.Offset)) + v := u64 & ((1 << code.NumBitSize) - 1) + if v != 0 { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendInt(ctx, b, u64, code) + b = append(b, '"') + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructFieldIntPtr: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + b = appendStructKey(ctx, code, b) + if p == 0 { + b = appendNull(ctx, b) + } else { + b = appendInt(ctx, b, ptrToUint64(p), code) + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyIntPtr: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + b = appendInt(ctx, b, ptrToUint64(p), code) + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructFieldIntPtrString: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + b = appendStructKey(ctx, code, b) + if p == 0 { + b = appendNull(ctx, b) + } else { + b = append(b, '"') + b = appendInt(ctx, b, ptrToUint64(p), code) + b = append(b, '"') + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyIntPtrString: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendInt(ctx, b, ptrToUint64(p), code) + b = append(b, '"') + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructFieldUint: + p := load(ctxptr, code.Idx) + b = appendStructKey(ctx, code, b) + b = appendUint(ctx, b, ptrToUint64(p+uintptr(code.Offset)), code) + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyUint: + p := load(ctxptr, code.Idx) + u64 := ptrToUint64(p + uintptr(code.Offset)) + v := u64 & ((1 << code.NumBitSize) - 1) + if v != 0 { + b = appendStructKey(ctx, code, b) + b = appendUint(ctx, b, u64, code) + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructFieldUintString: + p := load(ctxptr, code.Idx) + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendUint(ctx, b, ptrToUint64(p+uintptr(code.Offset)), code) + b = append(b, '"') + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyUintString: + p := load(ctxptr, code.Idx) + u64 := ptrToUint64(p + uintptr(code.Offset)) + v := u64 & ((1 << code.NumBitSize) - 1) + if v != 0 { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendUint(ctx, b, u64, code) + b = append(b, '"') + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructFieldUintPtr: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + b = appendStructKey(ctx, code, b) + if p == 0 { + b = appendNull(ctx, b) + } else { + b = appendUint(ctx, b, ptrToUint64(p), code) + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyUintPtr: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + b = appendUint(ctx, b, ptrToUint64(p), code) + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructFieldUintPtrString: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + b = appendStructKey(ctx, code, b) + if p == 0 { + b = appendNull(ctx, b) + } else { + b = append(b, '"') + b = appendUint(ctx, b, ptrToUint64(p), code) + b = append(b, '"') + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyUintPtrString: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendUint(ctx, b, ptrToUint64(p), code) + b = append(b, '"') + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructFieldFloat32: + p := load(ctxptr, code.Idx) + b = appendStructKey(ctx, code, b) + b = appendFloat32(ctx, b, ptrToFloat32(p+uintptr(code.Offset))) + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyFloat32: + p := load(ctxptr, code.Idx) + v := ptrToFloat32(p + uintptr(code.Offset)) + if v != 0 { + b = appendStructKey(ctx, code, b) + b = appendFloat32(ctx, b, v) + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructFieldFloat32String: + p := load(ctxptr, code.Idx) + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendFloat32(ctx, b, ptrToFloat32(p+uintptr(code.Offset))) + b = append(b, '"') + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyFloat32String: + p := load(ctxptr, code.Idx) + v := ptrToFloat32(p + uintptr(code.Offset)) + if v != 0 { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendFloat32(ctx, b, v) + b = append(b, '"') + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructFieldFloat32Ptr: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + b = appendStructKey(ctx, code, b) + if p == 0 { + b = appendNull(ctx, b) + } else { + b = appendFloat32(ctx, b, ptrToFloat32(p)) + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyFloat32Ptr: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + b = appendFloat32(ctx, b, ptrToFloat32(p)) + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructFieldFloat32PtrString: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + b = appendStructKey(ctx, code, b) + if p == 0 { + b = appendNull(ctx, b) + } else { + b = append(b, '"') + b = appendFloat32(ctx, b, ptrToFloat32(p)) + b = append(b, '"') + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyFloat32PtrString: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendFloat32(ctx, b, ptrToFloat32(p)) + b = append(b, '"') + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructFieldFloat64: + p := load(ctxptr, code.Idx) + b = appendStructKey(ctx, code, b) + v := ptrToFloat64(p + uintptr(code.Offset)) + if math.IsInf(v, 0) || math.IsNaN(v) { + return nil, errUnsupportedFloat(v) + } + b = appendFloat64(ctx, b, v) + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyFloat64: + p := load(ctxptr, code.Idx) + v := ptrToFloat64(p + uintptr(code.Offset)) + if v != 0 { + if math.IsInf(v, 0) || math.IsNaN(v) { + return nil, errUnsupportedFloat(v) + } + b = appendStructKey(ctx, code, b) + b = appendFloat64(ctx, b, v) + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructFieldFloat64String: + p := load(ctxptr, code.Idx) + v := ptrToFloat64(p + uintptr(code.Offset)) + if math.IsInf(v, 0) || math.IsNaN(v) { + return nil, errUnsupportedFloat(v) + } + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendFloat64(ctx, b, v) + b = append(b, '"') + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyFloat64String: + p := load(ctxptr, code.Idx) + v := ptrToFloat64(p + uintptr(code.Offset)) + if v != 0 { + if math.IsInf(v, 0) || math.IsNaN(v) { + return nil, errUnsupportedFloat(v) + } + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendFloat64(ctx, b, v) + b = append(b, '"') + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructFieldFloat64Ptr: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + b = appendStructKey(ctx, code, b) + if p == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + code = code.Next + break + } + v := ptrToFloat64(p) + if math.IsInf(v, 0) || math.IsNaN(v) { + return nil, errUnsupportedFloat(v) + } + b = appendFloat64(ctx, b, v) + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyFloat64Ptr: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + v := ptrToFloat64(p) + if math.IsInf(v, 0) || math.IsNaN(v) { + return nil, errUnsupportedFloat(v) + } + b = appendFloat64(ctx, b, v) + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructFieldFloat64PtrString: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + b = appendStructKey(ctx, code, b) + if p == 0 { + b = appendNull(ctx, b) + } else { + v := ptrToFloat64(p) + if math.IsInf(v, 0) || math.IsNaN(v) { + return nil, errUnsupportedFloat(v) + } + b = append(b, '"') + b = appendFloat64(ctx, b, v) + b = append(b, '"') + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyFloat64PtrString: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + v := ptrToFloat64(p) + if math.IsInf(v, 0) || math.IsNaN(v) { + return nil, errUnsupportedFloat(v) + } + b = appendFloat64(ctx, b, v) + b = append(b, '"') + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructFieldString: + p := load(ctxptr, code.Idx) + b = appendStructKey(ctx, code, b) + b = appendString(ctx, b, ptrToString(p+uintptr(code.Offset))) + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyString: + p := load(ctxptr, code.Idx) + v := ptrToString(p + uintptr(code.Offset)) + if v != "" { + b = appendStructKey(ctx, code, b) + b = appendString(ctx, b, v) + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructFieldStringString: + p := load(ctxptr, code.Idx) + s := ptrToString(p + uintptr(code.Offset)) + b = appendStructKey(ctx, code, b) + b = appendString(ctx, b, string(appendString(ctx, []byte{}, s))) + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyStringString: + p := load(ctxptr, code.Idx) + v := ptrToString(p + uintptr(code.Offset)) + if v != "" { + b = appendStructKey(ctx, code, b) + b = appendString(ctx, b, string(appendString(ctx, []byte{}, v))) + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructFieldStringPtr: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + b = appendStructKey(ctx, code, b) + if p == 0 { + b = appendNull(ctx, b) + } else { + b = appendString(ctx, b, ptrToString(p)) + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyStringPtr: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + b = appendString(ctx, b, ptrToString(p)) + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructFieldStringPtrString: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + b = appendStructKey(ctx, code, b) + if p == 0 { + b = appendNull(ctx, b) + } else { + b = appendString(ctx, b, string(appendString(ctx, []byte{}, ptrToString(p)))) + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyStringPtrString: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + b = appendString(ctx, b, string(appendString(ctx, []byte{}, ptrToString(p)))) + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructFieldBool: + p := load(ctxptr, code.Idx) + b = appendStructKey(ctx, code, b) + b = appendBool(ctx, b, ptrToBool(p+uintptr(code.Offset))) + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyBool: + p := load(ctxptr, code.Idx) + v := ptrToBool(p + uintptr(code.Offset)) + if v { + b = appendStructKey(ctx, code, b) + b = appendBool(ctx, b, v) + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructFieldBoolString: + p := load(ctxptr, code.Idx) + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendBool(ctx, b, ptrToBool(p+uintptr(code.Offset))) + b = append(b, '"') + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyBoolString: + p := load(ctxptr, code.Idx) + v := ptrToBool(p + uintptr(code.Offset)) + if v { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendBool(ctx, b, v) + b = append(b, '"') + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructFieldBoolPtr: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + b = appendStructKey(ctx, code, b) + if p == 0 { + b = appendNull(ctx, b) + } else { + b = appendBool(ctx, b, ptrToBool(p)) + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyBoolPtr: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + b = appendBool(ctx, b, ptrToBool(p)) + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructFieldBoolPtrString: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + b = appendStructKey(ctx, code, b) + if p == 0 { + b = appendNull(ctx, b) + } else { + b = append(b, '"') + b = appendBool(ctx, b, ptrToBool(p)) + b = append(b, '"') + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyBoolPtrString: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendBool(ctx, b, ptrToBool(p)) + b = append(b, '"') + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructFieldBytes: + p := load(ctxptr, code.Idx) + b = appendStructKey(ctx, code, b) + b = appendByteSlice(ctx, b, ptrToBytes(p+uintptr(code.Offset))) + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyBytes: + p := load(ctxptr, code.Idx) + v := ptrToBytes(p + uintptr(code.Offset)) + if len(v) > 0 { + b = appendStructKey(ctx, code, b) + b = appendByteSlice(ctx, b, v) + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructFieldBytesPtr: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + b = appendStructKey(ctx, code, b) + if p == 0 { + b = appendNull(ctx, b) + } else { + b = appendByteSlice(ctx, b, ptrToBytes(p)) + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyBytesPtr: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + b = appendByteSlice(ctx, b, ptrToBytes(p)) + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructFieldNumber: + p := load(ctxptr, code.Idx) + b = appendStructKey(ctx, code, b) + bb, err := appendNumber(ctx, b, ptrToNumber(p+uintptr(code.Offset))) + if err != nil { + return nil, err + } + b = appendComma(ctx, bb) + code = code.Next + case encoder.OpStructFieldOmitEmptyNumber: + p := load(ctxptr, code.Idx) + v := ptrToNumber(p + uintptr(code.Offset)) + if v != "" { + b = appendStructKey(ctx, code, b) + bb, err := appendNumber(ctx, b, v) + if err != nil { + return nil, err + } + b = appendComma(ctx, bb) + } + code = code.Next + case encoder.OpStructFieldNumberString: + p := load(ctxptr, code.Idx) + b = appendStructKey(ctx, code, b) + b = append(b, '"') + bb, err := appendNumber(ctx, b, ptrToNumber(p+uintptr(code.Offset))) + if err != nil { + return nil, err + } + b = append(bb, '"') + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyNumberString: + p := load(ctxptr, code.Idx) + v := ptrToNumber(p + uintptr(code.Offset)) + if v != "" { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + bb, err := appendNumber(ctx, b, v) + if err != nil { + return nil, err + } + b = append(bb, '"') + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructFieldNumberPtr: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + b = appendStructKey(ctx, code, b) + if p == 0 { + b = appendNull(ctx, b) + } else { + bb, err := appendNumber(ctx, b, ptrToNumber(p)) + if err != nil { + return nil, err + } + b = bb + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyNumberPtr: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + bb, err := appendNumber(ctx, b, ptrToNumber(p)) + if err != nil { + return nil, err + } + b = appendComma(ctx, bb) + } + code = code.Next + case encoder.OpStructFieldNumberPtrString: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + b = appendStructKey(ctx, code, b) + if p == 0 { + b = appendNull(ctx, b) + } else { + b = append(b, '"') + bb, err := appendNumber(ctx, b, ptrToNumber(p)) + if err != nil { + return nil, err + } + b = append(bb, '"') + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyNumberPtrString: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + bb, err := appendNumber(ctx, b, ptrToNumber(p)) + if err != nil { + return nil, err + } + b = append(bb, '"') + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructFieldMarshalJSON: + p := load(ctxptr, code.Idx) + b = appendStructKey(ctx, code, b) + p += uintptr(code.Offset) + if (code.Flags & encoder.IsNilableTypeFlags) != 0 { + p = ptrToPtr(p) + } + if p == 0 && (code.Flags&encoder.NilCheckFlags) != 0 { + b = appendNull(ctx, b) + } else { + bb, err := appendMarshalJSON(ctx, code, b, ptrToInterface(code, p)) + if err != nil { + return nil, err + } + b = bb + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyMarshalJSON: + p := load(ctxptr, code.Idx) + p += uintptr(code.Offset) + if (code.Flags & encoder.IsNilableTypeFlags) != 0 { + p = ptrToPtr(p) + } + if p == 0 && (code.Flags&encoder.NilCheckFlags) != 0 { + code = code.NextField + break + } + iface := ptrToInterface(code, p) + if (code.Flags&encoder.NilCheckFlags) != 0 && encoder.IsNilForMarshaler(iface) { + code = code.NextField + break + } + b = appendStructKey(ctx, code, b) + bb, err := appendMarshalJSON(ctx, code, b, iface) + if err != nil { + return nil, err + } + b = appendComma(ctx, bb) + code = code.Next + case encoder.OpStructFieldMarshalJSONPtr: + p := load(ctxptr, code.Idx) + b = appendStructKey(ctx, code, b) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p == 0 { + b = appendNull(ctx, b) + } else { + bb, err := appendMarshalJSON(ctx, code, b, ptrToInterface(code, p)) + if err != nil { + return nil, err + } + b = bb + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyMarshalJSONPtr: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + bb, err := appendMarshalJSON(ctx, code, b, ptrToInterface(code, p)) + if err != nil { + return nil, err + } + b = appendComma(ctx, bb) + } + code = code.Next + case encoder.OpStructFieldMarshalText: + p := load(ctxptr, code.Idx) + b = appendStructKey(ctx, code, b) + p += uintptr(code.Offset) + if (code.Flags & encoder.IsNilableTypeFlags) != 0 { + p = ptrToPtr(p) + } + if p == 0 && (code.Flags&encoder.NilCheckFlags) != 0 { + b = appendNull(ctx, b) + } else { + bb, err := appendMarshalText(ctx, code, b, ptrToInterface(code, p)) + if err != nil { + return nil, err + } + b = bb + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyMarshalText: + p := load(ctxptr, code.Idx) + p += uintptr(code.Offset) + if (code.Flags & encoder.IsNilableTypeFlags) != 0 { + p = ptrToPtr(p) + } + if p == 0 && (code.Flags&encoder.NilCheckFlags) != 0 { + code = code.NextField + break + } + b = appendStructKey(ctx, code, b) + bb, err := appendMarshalText(ctx, code, b, ptrToInterface(code, p)) + if err != nil { + return nil, err + } + b = appendComma(ctx, bb) + code = code.Next + case encoder.OpStructFieldMarshalTextPtr: + p := load(ctxptr, code.Idx) + b = appendStructKey(ctx, code, b) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p == 0 { + b = appendNull(ctx, b) + } else { + bb, err := appendMarshalText(ctx, code, b, ptrToInterface(code, p)) + if err != nil { + return nil, err + } + b = bb + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyMarshalTextPtr: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + bb, err := appendMarshalText(ctx, code, b, ptrToInterface(code, p)) + if err != nil { + return nil, err + } + b = appendComma(ctx, bb) + } + code = code.Next + case encoder.OpStructFieldArray: + b = appendStructKey(ctx, code, b) + p := load(ctxptr, code.Idx) + p += uintptr(code.Offset) + code = code.Next + store(ctxptr, code.Idx, p) + case encoder.OpStructFieldOmitEmptyArray: + b = appendStructKey(ctx, code, b) + p := load(ctxptr, code.Idx) + p += uintptr(code.Offset) + code = code.Next + store(ctxptr, code.Idx, p) + case encoder.OpStructFieldArrayPtr: + b = appendStructKey(ctx, code, b) + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + code = code.Next + store(ctxptr, code.Idx, p) + case encoder.OpStructFieldOmitEmptyArrayPtr: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + code = code.Next + store(ctxptr, code.Idx, p) + } else { + code = code.NextField + } + case encoder.OpStructFieldSlice: + b = appendStructKey(ctx, code, b) + p := load(ctxptr, code.Idx) + p += uintptr(code.Offset) + code = code.Next + store(ctxptr, code.Idx, p) + case encoder.OpStructFieldOmitEmptySlice: + p := load(ctxptr, code.Idx) + p += uintptr(code.Offset) + slice := ptrToSlice(p) + if slice.Len == 0 { + code = code.NextField + } else { + b = appendStructKey(ctx, code, b) + code = code.Next + store(ctxptr, code.Idx, p) + } + case encoder.OpStructFieldSlicePtr: + b = appendStructKey(ctx, code, b) + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + code = code.Next + store(ctxptr, code.Idx, p) + case encoder.OpStructFieldOmitEmptySlicePtr: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + code = code.Next + store(ctxptr, code.Idx, p) + } else { + code = code.NextField + } + case encoder.OpStructFieldMap: + b = appendStructKey(ctx, code, b) + p := load(ctxptr, code.Idx) + p = ptrToPtr(p + uintptr(code.Offset)) + code = code.Next + store(ctxptr, code.Idx, p) + case encoder.OpStructFieldOmitEmptyMap: + p := load(ctxptr, code.Idx) + p = ptrToPtr(p + uintptr(code.Offset)) + if p == 0 || maplen(ptrToUnsafePtr(p)) == 0 { + code = code.NextField + } else { + b = appendStructKey(ctx, code, b) + code = code.Next + store(ctxptr, code.Idx, p) + } + case encoder.OpStructFieldMapPtr: + b = appendStructKey(ctx, code, b) + p := load(ctxptr, code.Idx) + p = ptrToPtr(p + uintptr(code.Offset)) + if p != 0 { + p = ptrToNPtr(p, code.PtrNum) + } + code = code.Next + store(ctxptr, code.Idx, p) + case encoder.OpStructFieldOmitEmptyMapPtr: + p := load(ctxptr, code.Idx) + p = ptrToPtr(p + uintptr(code.Offset)) + if p != 0 { + p = ptrToNPtr(p, code.PtrNum) + } + if p != 0 { + b = appendStructKey(ctx, code, b) + code = code.Next + store(ctxptr, code.Idx, p) + } else { + code = code.NextField + } + case encoder.OpStructFieldStruct: + b = appendStructKey(ctx, code, b) + p := load(ctxptr, code.Idx) + p += uintptr(code.Offset) + code = code.Next + store(ctxptr, code.Idx, p) + case encoder.OpStructFieldOmitEmptyStruct: + p := load(ctxptr, code.Idx) + p += uintptr(code.Offset) + if ptrToPtr(p) == 0 && (code.Flags&encoder.IsNextOpPtrTypeFlags) != 0 { + code = code.NextField + } else { + b = appendStructKey(ctx, code, b) + code = code.Next + store(ctxptr, code.Idx, p) + } + case encoder.OpStructAnonymousEnd: + code = code.Next + case encoder.OpStructEnd: + b = appendStructEndSkipLast(ctx, code, b) + code = code.Next + case encoder.OpStructEndInt: + p := load(ctxptr, code.Idx) + b = appendStructKey(ctx, code, b) + b = appendInt(ctx, b, ptrToUint64(p+uintptr(code.Offset)), code) + b = appendStructEnd(ctx, code, b) + code = code.Next + case encoder.OpStructEndOmitEmptyInt: + p := load(ctxptr, code.Idx) + u64 := ptrToUint64(p + uintptr(code.Offset)) + v := u64 & ((1 << code.NumBitSize) - 1) + if v != 0 { + b = appendStructKey(ctx, code, b) + b = appendInt(ctx, b, u64, code) + b = appendStructEnd(ctx, code, b) + } else { + b = appendStructEndSkipLast(ctx, code, b) + } + code = code.Next + case encoder.OpStructEndIntString: + p := load(ctxptr, code.Idx) + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendInt(ctx, b, ptrToUint64(p+uintptr(code.Offset)), code) + b = append(b, '"') + b = appendStructEnd(ctx, code, b) + code = code.Next + case encoder.OpStructEndOmitEmptyIntString: + p := load(ctxptr, code.Idx) + u64 := ptrToUint64(p + uintptr(code.Offset)) + v := u64 & ((1 << code.NumBitSize) - 1) + if v != 0 { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendInt(ctx, b, u64, code) + b = append(b, '"') + b = appendStructEnd(ctx, code, b) + } else { + b = appendStructEndSkipLast(ctx, code, b) + } + code = code.Next + case encoder.OpStructEndIntPtr: + b = appendStructKey(ctx, code, b) + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p == 0 { + b = appendNull(ctx, b) + } else { + b = appendInt(ctx, b, ptrToUint64(p), code) + } + b = appendStructEnd(ctx, code, b) + code = code.Next + case encoder.OpStructEndOmitEmptyIntPtr: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + b = appendInt(ctx, b, ptrToUint64(p), code) + b = appendStructEnd(ctx, code, b) + } else { + b = appendStructEndSkipLast(ctx, code, b) + } + code = code.Next + case encoder.OpStructEndIntPtrString: + b = appendStructKey(ctx, code, b) + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p == 0 { + b = appendNull(ctx, b) + } else { + b = append(b, '"') + b = appendInt(ctx, b, ptrToUint64(p), code) + b = append(b, '"') + } + b = appendStructEnd(ctx, code, b) + code = code.Next + case encoder.OpStructEndOmitEmptyIntPtrString: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendInt(ctx, b, ptrToUint64(p), code) + b = append(b, '"') + b = appendStructEnd(ctx, code, b) + } else { + b = appendStructEndSkipLast(ctx, code, b) + } + code = code.Next + case encoder.OpStructEndUint: + p := load(ctxptr, code.Idx) + b = appendStructKey(ctx, code, b) + b = appendUint(ctx, b, ptrToUint64(p+uintptr(code.Offset)), code) + b = appendStructEnd(ctx, code, b) + code = code.Next + case encoder.OpStructEndOmitEmptyUint: + p := load(ctxptr, code.Idx) + u64 := ptrToUint64(p + uintptr(code.Offset)) + v := u64 & ((1 << code.NumBitSize) - 1) + if v != 0 { + b = appendStructKey(ctx, code, b) + b = appendUint(ctx, b, u64, code) + b = appendStructEnd(ctx, code, b) + } else { + b = appendStructEndSkipLast(ctx, code, b) + } + code = code.Next + case encoder.OpStructEndUintString: + p := load(ctxptr, code.Idx) + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendUint(ctx, b, ptrToUint64(p+uintptr(code.Offset)), code) + b = append(b, '"') + b = appendStructEnd(ctx, code, b) + code = code.Next + case encoder.OpStructEndOmitEmptyUintString: + p := load(ctxptr, code.Idx) + u64 := ptrToUint64(p + uintptr(code.Offset)) + v := u64 & ((1 << code.NumBitSize) - 1) + if v != 0 { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendUint(ctx, b, u64, code) + b = append(b, '"') + b = appendStructEnd(ctx, code, b) + } else { + b = appendStructEndSkipLast(ctx, code, b) + } + code = code.Next + case encoder.OpStructEndUintPtr: + b = appendStructKey(ctx, code, b) + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p == 0 { + b = appendNull(ctx, b) + } else { + b = appendUint(ctx, b, ptrToUint64(p), code) + } + b = appendStructEnd(ctx, code, b) + code = code.Next + case encoder.OpStructEndOmitEmptyUintPtr: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + b = appendUint(ctx, b, ptrToUint64(p), code) + b = appendStructEnd(ctx, code, b) + } else { + b = appendStructEndSkipLast(ctx, code, b) + } + code = code.Next + case encoder.OpStructEndUintPtrString: + b = appendStructKey(ctx, code, b) + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p == 0 { + b = appendNull(ctx, b) + } else { + b = append(b, '"') + b = appendUint(ctx, b, ptrToUint64(p), code) + b = append(b, '"') + } + b = appendStructEnd(ctx, code, b) + code = code.Next + case encoder.OpStructEndOmitEmptyUintPtrString: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendUint(ctx, b, ptrToUint64(p), code) + b = append(b, '"') + b = appendStructEnd(ctx, code, b) + } else { + b = appendStructEndSkipLast(ctx, code, b) + } + code = code.Next + case encoder.OpStructEndFloat32: + p := load(ctxptr, code.Idx) + b = appendStructKey(ctx, code, b) + b = appendFloat32(ctx, b, ptrToFloat32(p+uintptr(code.Offset))) + b = appendStructEnd(ctx, code, b) + code = code.Next + case encoder.OpStructEndOmitEmptyFloat32: + p := load(ctxptr, code.Idx) + v := ptrToFloat32(p + uintptr(code.Offset)) + if v != 0 { + b = appendStructKey(ctx, code, b) + b = appendFloat32(ctx, b, v) + b = appendStructEnd(ctx, code, b) + } else { + b = appendStructEndSkipLast(ctx, code, b) + } + code = code.Next + case encoder.OpStructEndFloat32String: + p := load(ctxptr, code.Idx) + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendFloat32(ctx, b, ptrToFloat32(p+uintptr(code.Offset))) + b = append(b, '"') + b = appendStructEnd(ctx, code, b) + code = code.Next + case encoder.OpStructEndOmitEmptyFloat32String: + p := load(ctxptr, code.Idx) + v := ptrToFloat32(p + uintptr(code.Offset)) + if v != 0 { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendFloat32(ctx, b, v) + b = append(b, '"') + b = appendStructEnd(ctx, code, b) + } else { + b = appendStructEndSkipLast(ctx, code, b) + } + code = code.Next + case encoder.OpStructEndFloat32Ptr: + b = appendStructKey(ctx, code, b) + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p == 0 { + b = appendNull(ctx, b) + } else { + b = appendFloat32(ctx, b, ptrToFloat32(p)) + } + b = appendStructEnd(ctx, code, b) + code = code.Next + case encoder.OpStructEndOmitEmptyFloat32Ptr: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + b = appendFloat32(ctx, b, ptrToFloat32(p)) + b = appendStructEnd(ctx, code, b) + } else { + b = appendStructEndSkipLast(ctx, code, b) + } + code = code.Next + case encoder.OpStructEndFloat32PtrString: + b = appendStructKey(ctx, code, b) + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p == 0 { + b = appendNull(ctx, b) + } else { + b = append(b, '"') + b = appendFloat32(ctx, b, ptrToFloat32(p)) + b = append(b, '"') + } + b = appendStructEnd(ctx, code, b) + code = code.Next + case encoder.OpStructEndOmitEmptyFloat32PtrString: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendFloat32(ctx, b, ptrToFloat32(p)) + b = append(b, '"') + b = appendStructEnd(ctx, code, b) + } else { + b = appendStructEndSkipLast(ctx, code, b) + } + code = code.Next + case encoder.OpStructEndFloat64: + p := load(ctxptr, code.Idx) + v := ptrToFloat64(p + uintptr(code.Offset)) + if math.IsInf(v, 0) || math.IsNaN(v) { + return nil, errUnsupportedFloat(v) + } + b = appendStructKey(ctx, code, b) + b = appendFloat64(ctx, b, v) + b = appendStructEnd(ctx, code, b) + code = code.Next + case encoder.OpStructEndOmitEmptyFloat64: + p := load(ctxptr, code.Idx) + v := ptrToFloat64(p + uintptr(code.Offset)) + if v != 0 { + if math.IsInf(v, 0) || math.IsNaN(v) { + return nil, errUnsupportedFloat(v) + } + b = appendStructKey(ctx, code, b) + b = appendFloat64(ctx, b, v) + b = appendStructEnd(ctx, code, b) + } else { + b = appendStructEndSkipLast(ctx, code, b) + } + code = code.Next + case encoder.OpStructEndFloat64String: + p := load(ctxptr, code.Idx) + v := ptrToFloat64(p + uintptr(code.Offset)) + if math.IsInf(v, 0) || math.IsNaN(v) { + return nil, errUnsupportedFloat(v) + } + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendFloat64(ctx, b, v) + b = append(b, '"') + b = appendStructEnd(ctx, code, b) + code = code.Next + case encoder.OpStructEndOmitEmptyFloat64String: + p := load(ctxptr, code.Idx) + v := ptrToFloat64(p + uintptr(code.Offset)) + if v != 0 { + if math.IsInf(v, 0) || math.IsNaN(v) { + return nil, errUnsupportedFloat(v) + } + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendFloat64(ctx, b, v) + b = append(b, '"') + b = appendStructEnd(ctx, code, b) + } else { + b = appendStructEndSkipLast(ctx, code, b) + } + code = code.Next + case encoder.OpStructEndFloat64Ptr: + b = appendStructKey(ctx, code, b) + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p == 0 { + b = appendNull(ctx, b) + b = appendStructEnd(ctx, code, b) + code = code.Next + break + } + v := ptrToFloat64(p) + if math.IsInf(v, 0) || math.IsNaN(v) { + return nil, errUnsupportedFloat(v) + } + b = appendFloat64(ctx, b, v) + b = appendStructEnd(ctx, code, b) + code = code.Next + case encoder.OpStructEndOmitEmptyFloat64Ptr: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + v := ptrToFloat64(p) + if math.IsInf(v, 0) || math.IsNaN(v) { + return nil, errUnsupportedFloat(v) + } + b = appendFloat64(ctx, b, v) + b = appendStructEnd(ctx, code, b) + } else { + b = appendStructEndSkipLast(ctx, code, b) + } + code = code.Next + case encoder.OpStructEndFloat64PtrString: + b = appendStructKey(ctx, code, b) + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p == 0 { + b = appendNull(ctx, b) + } else { + b = append(b, '"') + v := ptrToFloat64(p) + if math.IsInf(v, 0) || math.IsNaN(v) { + return nil, errUnsupportedFloat(v) + } + b = appendFloat64(ctx, b, v) + b = append(b, '"') + } + b = appendStructEnd(ctx, code, b) + code = code.Next + case encoder.OpStructEndOmitEmptyFloat64PtrString: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + v := ptrToFloat64(p) + if math.IsInf(v, 0) || math.IsNaN(v) { + return nil, errUnsupportedFloat(v) + } + b = append(b, '"') + b = appendFloat64(ctx, b, v) + b = append(b, '"') + b = appendStructEnd(ctx, code, b) + } else { + b = appendStructEndSkipLast(ctx, code, b) + } + code = code.Next + case encoder.OpStructEndString: + p := load(ctxptr, code.Idx) + b = appendStructKey(ctx, code, b) + b = appendString(ctx, b, ptrToString(p+uintptr(code.Offset))) + b = appendStructEnd(ctx, code, b) + code = code.Next + case encoder.OpStructEndOmitEmptyString: + p := load(ctxptr, code.Idx) + v := ptrToString(p + uintptr(code.Offset)) + if v != "" { + b = appendStructKey(ctx, code, b) + b = appendString(ctx, b, v) + b = appendStructEnd(ctx, code, b) + } else { + b = appendStructEndSkipLast(ctx, code, b) + } + code = code.Next + case encoder.OpStructEndStringString: + p := load(ctxptr, code.Idx) + b = appendStructKey(ctx, code, b) + s := ptrToString(p + uintptr(code.Offset)) + b = appendString(ctx, b, string(appendString(ctx, []byte{}, s))) + b = appendStructEnd(ctx, code, b) + code = code.Next + case encoder.OpStructEndOmitEmptyStringString: + p := load(ctxptr, code.Idx) + v := ptrToString(p + uintptr(code.Offset)) + if v != "" { + b = appendStructKey(ctx, code, b) + b = appendString(ctx, b, string(appendString(ctx, []byte{}, v))) + b = appendStructEnd(ctx, code, b) + } else { + b = appendStructEndSkipLast(ctx, code, b) + } + code = code.Next + case encoder.OpStructEndStringPtr: + b = appendStructKey(ctx, code, b) + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p == 0 { + b = appendNull(ctx, b) + } else { + b = appendString(ctx, b, ptrToString(p)) + } + b = appendStructEnd(ctx, code, b) + code = code.Next + case encoder.OpStructEndOmitEmptyStringPtr: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + b = appendString(ctx, b, ptrToString(p)) + b = appendStructEnd(ctx, code, b) + } else { + b = appendStructEndSkipLast(ctx, code, b) + } + code = code.Next + case encoder.OpStructEndStringPtrString: + b = appendStructKey(ctx, code, b) + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p == 0 { + b = appendNull(ctx, b) + } else { + b = appendString(ctx, b, string(appendString(ctx, []byte{}, ptrToString(p)))) + } + b = appendStructEnd(ctx, code, b) + code = code.Next + case encoder.OpStructEndOmitEmptyStringPtrString: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + b = appendString(ctx, b, string(appendString(ctx, []byte{}, ptrToString(p)))) + b = appendStructEnd(ctx, code, b) + } else { + b = appendStructEndSkipLast(ctx, code, b) + } + code = code.Next + case encoder.OpStructEndBool: + p := load(ctxptr, code.Idx) + b = appendStructKey(ctx, code, b) + b = appendBool(ctx, b, ptrToBool(p+uintptr(code.Offset))) + b = appendStructEnd(ctx, code, b) + code = code.Next + case encoder.OpStructEndOmitEmptyBool: + p := load(ctxptr, code.Idx) + v := ptrToBool(p + uintptr(code.Offset)) + if v { + b = appendStructKey(ctx, code, b) + b = appendBool(ctx, b, v) + b = appendStructEnd(ctx, code, b) + } else { + b = appendStructEndSkipLast(ctx, code, b) + } + code = code.Next + case encoder.OpStructEndBoolString: + p := load(ctxptr, code.Idx) + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendBool(ctx, b, ptrToBool(p+uintptr(code.Offset))) + b = append(b, '"') + b = appendStructEnd(ctx, code, b) + code = code.Next + case encoder.OpStructEndOmitEmptyBoolString: + p := load(ctxptr, code.Idx) + v := ptrToBool(p + uintptr(code.Offset)) + if v { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendBool(ctx, b, v) + b = append(b, '"') + b = appendStructEnd(ctx, code, b) + } else { + b = appendStructEndSkipLast(ctx, code, b) + } + code = code.Next + case encoder.OpStructEndBoolPtr: + b = appendStructKey(ctx, code, b) + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p == 0 { + b = appendNull(ctx, b) + } else { + b = appendBool(ctx, b, ptrToBool(p)) + } + b = appendStructEnd(ctx, code, b) + code = code.Next + case encoder.OpStructEndOmitEmptyBoolPtr: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + b = appendBool(ctx, b, ptrToBool(p)) + b = appendStructEnd(ctx, code, b) + } else { + b = appendStructEndSkipLast(ctx, code, b) + } + code = code.Next + case encoder.OpStructEndBoolPtrString: + b = appendStructKey(ctx, code, b) + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p == 0 { + b = appendNull(ctx, b) + } else { + b = append(b, '"') + b = appendBool(ctx, b, ptrToBool(p)) + b = append(b, '"') + } + b = appendStructEnd(ctx, code, b) + code = code.Next + case encoder.OpStructEndOmitEmptyBoolPtrString: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendBool(ctx, b, ptrToBool(p)) + b = append(b, '"') + b = appendStructEnd(ctx, code, b) + } else { + b = appendStructEndSkipLast(ctx, code, b) + } + code = code.Next + case encoder.OpStructEndBytes: + p := load(ctxptr, code.Idx) + b = appendStructKey(ctx, code, b) + b = appendByteSlice(ctx, b, ptrToBytes(p+uintptr(code.Offset))) + b = appendStructEnd(ctx, code, b) + code = code.Next + case encoder.OpStructEndOmitEmptyBytes: + p := load(ctxptr, code.Idx) + v := ptrToBytes(p + uintptr(code.Offset)) + if len(v) > 0 { + b = appendStructKey(ctx, code, b) + b = appendByteSlice(ctx, b, v) + b = appendStructEnd(ctx, code, b) + } else { + b = appendStructEndSkipLast(ctx, code, b) + } + code = code.Next + case encoder.OpStructEndBytesPtr: + b = appendStructKey(ctx, code, b) + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p == 0 { + b = appendNull(ctx, b) + } else { + b = appendByteSlice(ctx, b, ptrToBytes(p)) + } + b = appendStructEnd(ctx, code, b) + code = code.Next + case encoder.OpStructEndOmitEmptyBytesPtr: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + b = appendByteSlice(ctx, b, ptrToBytes(p)) + b = appendStructEnd(ctx, code, b) + } else { + b = appendStructEndSkipLast(ctx, code, b) + } + code = code.Next + case encoder.OpStructEndNumber: + p := load(ctxptr, code.Idx) + b = appendStructKey(ctx, code, b) + bb, err := appendNumber(ctx, b, ptrToNumber(p+uintptr(code.Offset))) + if err != nil { + return nil, err + } + b = appendStructEnd(ctx, code, bb) + code = code.Next + case encoder.OpStructEndOmitEmptyNumber: + p := load(ctxptr, code.Idx) + v := ptrToNumber(p + uintptr(code.Offset)) + if v != "" { + b = appendStructKey(ctx, code, b) + bb, err := appendNumber(ctx, b, v) + if err != nil { + return nil, err + } + b = appendStructEnd(ctx, code, bb) + } else { + b = appendStructEndSkipLast(ctx, code, b) + } + code = code.Next + case encoder.OpStructEndNumberString: + p := load(ctxptr, code.Idx) + b = appendStructKey(ctx, code, b) + b = append(b, '"') + bb, err := appendNumber(ctx, b, ptrToNumber(p+uintptr(code.Offset))) + if err != nil { + return nil, err + } + b = append(bb, '"') + b = appendStructEnd(ctx, code, b) + code = code.Next + case encoder.OpStructEndOmitEmptyNumberString: + p := load(ctxptr, code.Idx) + v := ptrToNumber(p + uintptr(code.Offset)) + if v != "" { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + bb, err := appendNumber(ctx, b, v) + if err != nil { + return nil, err + } + b = append(bb, '"') + b = appendStructEnd(ctx, code, b) + } else { + b = appendStructEndSkipLast(ctx, code, b) + } + code = code.Next + case encoder.OpStructEndNumberPtr: + b = appendStructKey(ctx, code, b) + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p == 0 { + b = appendNull(ctx, b) + } else { + bb, err := appendNumber(ctx, b, ptrToNumber(p)) + if err != nil { + return nil, err + } + b = bb + } + b = appendStructEnd(ctx, code, b) + code = code.Next + case encoder.OpStructEndOmitEmptyNumberPtr: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + bb, err := appendNumber(ctx, b, ptrToNumber(p)) + if err != nil { + return nil, err + } + b = appendStructEnd(ctx, code, bb) + } else { + b = appendStructEndSkipLast(ctx, code, b) + } + code = code.Next + case encoder.OpStructEndNumberPtrString: + b = appendStructKey(ctx, code, b) + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p == 0 { + b = appendNull(ctx, b) + } else { + b = append(b, '"') + bb, err := appendNumber(ctx, b, ptrToNumber(p)) + if err != nil { + return nil, err + } + b = append(bb, '"') + } + b = appendStructEnd(ctx, code, b) + code = code.Next + case encoder.OpStructEndOmitEmptyNumberPtrString: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + bb, err := appendNumber(ctx, b, ptrToNumber(p)) + if err != nil { + return nil, err + } + b = append(bb, '"') + b = appendStructEnd(ctx, code, b) + } else { + b = appendStructEndSkipLast(ctx, code, b) + } + code = code.Next + case encoder.OpEnd: + goto END + } + } +END: + return b, nil +} diff --git a/vendor/github.com/goccy/go-json/internal/encoder/vm_color/debug_vm.go b/vendor/github.com/goccy/go-json/internal/encoder/vm_color/debug_vm.go new file mode 100644 index 0000000..6a6a33d --- /dev/null +++ b/vendor/github.com/goccy/go-json/internal/encoder/vm_color/debug_vm.go @@ -0,0 +1,34 @@ +package vm_color + +import ( + "fmt" + + "github.com/goccy/go-json/internal/encoder" +) + +func DebugRun(ctx *encoder.RuntimeContext, b []byte, codeSet *encoder.OpcodeSet) ([]byte, error) { + var code *encoder.Opcode + if (ctx.Option.Flag & encoder.HTMLEscapeOption) != 0 { + code = codeSet.EscapeKeyCode + } else { + code = codeSet.NoescapeKeyCode + } + + defer func() { + if err := recover(); err != nil { + fmt.Println("=============[DEBUG]===============") + fmt.Println("* [TYPE]") + fmt.Println(codeSet.Type) + fmt.Printf("\n") + fmt.Println("* [ALL OPCODE]") + fmt.Println(code.Dump()) + fmt.Printf("\n") + fmt.Println("* [CONTEXT]") + fmt.Printf("%+v\n", ctx) + fmt.Println("===================================") + panic(err) + } + }() + + return Run(ctx, b, codeSet) +} diff --git a/vendor/github.com/goccy/go-json/internal/encoder/vm_color/hack.go b/vendor/github.com/goccy/go-json/internal/encoder/vm_color/hack.go new file mode 100644 index 0000000..12ec56c --- /dev/null +++ b/vendor/github.com/goccy/go-json/internal/encoder/vm_color/hack.go @@ -0,0 +1,9 @@ +package vm_color + +import ( + // HACK: compile order + // `vm`, `vm_indent`, `vm_color`, `vm_color_indent` packages uses a lot of memory to compile, + // so forcibly make dependencies and avoid compiling in concurrent. + // dependency order: vm => vm_indent => vm_color => vm_color_indent + _ "github.com/goccy/go-json/internal/encoder/vm_color_indent" +) diff --git a/vendor/github.com/goccy/go-json/internal/encoder/vm_color/util.go b/vendor/github.com/goccy/go-json/internal/encoder/vm_color/util.go new file mode 100644 index 0000000..516536d --- /dev/null +++ b/vendor/github.com/goccy/go-json/internal/encoder/vm_color/util.go @@ -0,0 +1,246 @@ +package vm_color + +import ( + "encoding/json" + "fmt" + "unsafe" + + "github.com/goccy/go-json/internal/encoder" + "github.com/goccy/go-json/internal/runtime" +) + +const uintptrSize = 4 << (^uintptr(0) >> 63) + +var ( + errUnsupportedValue = encoder.ErrUnsupportedValue + errUnsupportedFloat = encoder.ErrUnsupportedFloat + mapiterinit = encoder.MapIterInit + mapiterkey = encoder.MapIterKey + mapitervalue = encoder.MapIterValue + mapiternext = encoder.MapIterNext + maplen = encoder.MapLen +) + +type emptyInterface struct { + typ *runtime.Type + ptr unsafe.Pointer +} + +func errUnimplementedOp(op encoder.OpType) error { + return fmt.Errorf("encoder: opcode %s has not been implemented", op) +} + +func load(base uintptr, idx uint32) uintptr { + addr := base + uintptr(idx) + return **(**uintptr)(unsafe.Pointer(&addr)) +} + +func store(base uintptr, idx uint32, p uintptr) { + addr := base + uintptr(idx) + **(**uintptr)(unsafe.Pointer(&addr)) = p +} + +func loadNPtr(base uintptr, idx uint32, ptrNum uint8) uintptr { + addr := base + uintptr(idx) + p := **(**uintptr)(unsafe.Pointer(&addr)) + for i := uint8(0); i < ptrNum; i++ { + if p == 0 { + return 0 + } + p = ptrToPtr(p) + } + return p +} + +func ptrToUint64(p uintptr) uint64 { return **(**uint64)(unsafe.Pointer(&p)) } +func ptrToFloat32(p uintptr) float32 { return **(**float32)(unsafe.Pointer(&p)) } +func ptrToFloat64(p uintptr) float64 { return **(**float64)(unsafe.Pointer(&p)) } +func ptrToBool(p uintptr) bool { return **(**bool)(unsafe.Pointer(&p)) } +func ptrToBytes(p uintptr) []byte { return **(**[]byte)(unsafe.Pointer(&p)) } +func ptrToNumber(p uintptr) json.Number { return **(**json.Number)(unsafe.Pointer(&p)) } +func ptrToString(p uintptr) string { return **(**string)(unsafe.Pointer(&p)) } +func ptrToSlice(p uintptr) *runtime.SliceHeader { return *(**runtime.SliceHeader)(unsafe.Pointer(&p)) } +func ptrToPtr(p uintptr) uintptr { + return uintptr(**(**unsafe.Pointer)(unsafe.Pointer(&p))) +} +func ptrToNPtr(p uintptr, ptrNum uint8) uintptr { + for i := uint8(0); i < ptrNum; i++ { + if p == 0 { + return 0 + } + p = ptrToPtr(p) + } + return p +} + +func ptrToUnsafePtr(p uintptr) unsafe.Pointer { + return *(*unsafe.Pointer)(unsafe.Pointer(&p)) +} +func ptrToInterface(code *encoder.Opcode, p uintptr) interface{} { + return *(*interface{})(unsafe.Pointer(&emptyInterface{ + typ: code.Type, + ptr: *(*unsafe.Pointer)(unsafe.Pointer(&p)), + })) +} + +func appendInt(ctx *encoder.RuntimeContext, b []byte, v uint64, code *encoder.Opcode) []byte { + format := ctx.Option.ColorScheme.Int + b = append(b, format.Header...) + b = encoder.AppendInt(ctx, b, v, code) + return append(b, format.Footer...) +} + +func appendUint(ctx *encoder.RuntimeContext, b []byte, v uint64, code *encoder.Opcode) []byte { + format := ctx.Option.ColorScheme.Uint + b = append(b, format.Header...) + b = encoder.AppendUint(ctx, b, v, code) + return append(b, format.Footer...) +} + +func appendFloat32(ctx *encoder.RuntimeContext, b []byte, v float32) []byte { + format := ctx.Option.ColorScheme.Float + b = append(b, format.Header...) + b = encoder.AppendFloat32(ctx, b, v) + return append(b, format.Footer...) +} + +func appendFloat64(ctx *encoder.RuntimeContext, b []byte, v float64) []byte { + format := ctx.Option.ColorScheme.Float + b = append(b, format.Header...) + b = encoder.AppendFloat64(ctx, b, v) + return append(b, format.Footer...) +} + +func appendString(ctx *encoder.RuntimeContext, b []byte, v string) []byte { + format := ctx.Option.ColorScheme.String + b = append(b, format.Header...) + b = encoder.AppendString(ctx, b, v) + return append(b, format.Footer...) +} + +func appendByteSlice(ctx *encoder.RuntimeContext, b []byte, src []byte) []byte { + format := ctx.Option.ColorScheme.Binary + b = append(b, format.Header...) + b = encoder.AppendByteSlice(ctx, b, src) + return append(b, format.Footer...) +} + +func appendNumber(ctx *encoder.RuntimeContext, b []byte, n json.Number) ([]byte, error) { + format := ctx.Option.ColorScheme.Int + b = append(b, format.Header...) + bb, err := encoder.AppendNumber(ctx, b, n) + if err != nil { + return nil, err + } + return append(bb, format.Footer...), nil +} + +func appendBool(ctx *encoder.RuntimeContext, b []byte, v bool) []byte { + format := ctx.Option.ColorScheme.Bool + b = append(b, format.Header...) + if v { + b = append(b, "true"...) + } else { + b = append(b, "false"...) + } + return append(b, format.Footer...) +} + +func appendNull(ctx *encoder.RuntimeContext, b []byte) []byte { + format := ctx.Option.ColorScheme.Null + b = append(b, format.Header...) + b = append(b, "null"...) + return append(b, format.Footer...) +} + +func appendComma(_ *encoder.RuntimeContext, b []byte) []byte { + return append(b, ',') +} + +func appendColon(_ *encoder.RuntimeContext, b []byte) []byte { + last := len(b) - 1 + b[last] = ':' + return b +} + +func appendMapKeyValue(_ *encoder.RuntimeContext, _ *encoder.Opcode, b, key, value []byte) []byte { + b = append(b, key[:len(key)-1]...) + b = append(b, ':') + return append(b, value...) +} + +func appendMapEnd(_ *encoder.RuntimeContext, _ *encoder.Opcode, b []byte) []byte { + last := len(b) - 1 + b[last] = '}' + b = append(b, ',') + return b +} + +func appendMarshalJSON(ctx *encoder.RuntimeContext, code *encoder.Opcode, b []byte, v interface{}) ([]byte, error) { + return encoder.AppendMarshalJSON(ctx, code, b, v) +} + +func appendMarshalText(ctx *encoder.RuntimeContext, code *encoder.Opcode, b []byte, v interface{}) ([]byte, error) { + format := ctx.Option.ColorScheme.String + b = append(b, format.Header...) + bb, err := encoder.AppendMarshalText(ctx, code, b, v) + if err != nil { + return nil, err + } + return append(bb, format.Footer...), nil +} + +func appendArrayHead(_ *encoder.RuntimeContext, _ *encoder.Opcode, b []byte) []byte { + return append(b, '[') +} + +func appendArrayEnd(_ *encoder.RuntimeContext, _ *encoder.Opcode, b []byte) []byte { + last := len(b) - 1 + b[last] = ']' + return append(b, ',') +} + +func appendEmptyArray(_ *encoder.RuntimeContext, b []byte) []byte { + return append(b, '[', ']', ',') +} + +func appendEmptyObject(_ *encoder.RuntimeContext, b []byte) []byte { + return append(b, '{', '}', ',') +} + +func appendObjectEnd(_ *encoder.RuntimeContext, _ *encoder.Opcode, b []byte) []byte { + last := len(b) - 1 + b[last] = '}' + return append(b, ',') +} + +func appendStructHead(_ *encoder.RuntimeContext, b []byte) []byte { + return append(b, '{') +} + +func appendStructKey(ctx *encoder.RuntimeContext, code *encoder.Opcode, b []byte) []byte { + format := ctx.Option.ColorScheme.ObjectKey + b = append(b, format.Header...) + b = append(b, code.Key[:len(code.Key)-1]...) + b = append(b, format.Footer...) + + return append(b, ':') +} + +func appendStructEnd(_ *encoder.RuntimeContext, _ *encoder.Opcode, b []byte) []byte { + return append(b, '}', ',') +} + +func appendStructEndSkipLast(ctx *encoder.RuntimeContext, code *encoder.Opcode, b []byte) []byte { + last := len(b) - 1 + if b[last] == ',' { + b[last] = '}' + return appendComma(ctx, b) + } + return appendStructEnd(ctx, code, b) +} + +func restoreIndent(_ *encoder.RuntimeContext, _ *encoder.Opcode, _ uintptr) {} +func storeIndent(_ uintptr, _ *encoder.Opcode, _ uintptr) {} +func appendMapKeyIndent(_ *encoder.RuntimeContext, _ *encoder.Opcode, b []byte) []byte { return b } +func appendArrayElemIndent(_ *encoder.RuntimeContext, _ *encoder.Opcode, b []byte) []byte { return b } diff --git a/vendor/github.com/goccy/go-json/internal/encoder/vm_color/vm.go b/vendor/github.com/goccy/go-json/internal/encoder/vm_color/vm.go new file mode 100644 index 0000000..71aa3f7 --- /dev/null +++ b/vendor/github.com/goccy/go-json/internal/encoder/vm_color/vm.go @@ -0,0 +1,5043 @@ +// Code generated by internal/cmd/generator. DO NOT EDIT! +package vm_color + +import ( + "math" + "sort" + "unsafe" + + "github.com/goccy/go-json/internal/encoder" +) + +func Run(ctx *encoder.RuntimeContext, b []byte, codeSet *encoder.OpcodeSet) ([]byte, error) { + recursiveLevel := 0 + ptrOffset := uintptr(0) + ctxptr := ctx.Ptr() + var code *encoder.Opcode + if (ctx.Option.Flag & encoder.HTMLEscapeOption) != 0 { + code = codeSet.EscapeKeyCode + } else { + code = codeSet.NoescapeKeyCode + } + + for { + switch code.Op { + default: + return nil, errUnimplementedOp(code.Op) + case encoder.OpPtr: + p := load(ctxptr, code.Idx) + code = code.Next + store(ctxptr, code.Idx, ptrToPtr(p)) + case encoder.OpIntPtr: + p := loadNPtr(ctxptr, code.Idx, code.PtrNum) + if p == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + code = code.Next + break + } + store(ctxptr, code.Idx, p) + fallthrough + case encoder.OpInt: + b = appendInt(ctx, b, ptrToUint64(load(ctxptr, code.Idx)), code) + b = appendComma(ctx, b) + code = code.Next + case encoder.OpUintPtr: + p := loadNPtr(ctxptr, code.Idx, code.PtrNum) + if p == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + code = code.Next + break + } + store(ctxptr, code.Idx, p) + fallthrough + case encoder.OpUint: + b = appendUint(ctx, b, ptrToUint64(load(ctxptr, code.Idx)), code) + b = appendComma(ctx, b) + code = code.Next + case encoder.OpIntString: + b = append(b, '"') + b = appendInt(ctx, b, ptrToUint64(load(ctxptr, code.Idx)), code) + b = append(b, '"') + b = appendComma(ctx, b) + code = code.Next + case encoder.OpUintString: + b = append(b, '"') + b = appendUint(ctx, b, ptrToUint64(load(ctxptr, code.Idx)), code) + b = append(b, '"') + b = appendComma(ctx, b) + code = code.Next + case encoder.OpFloat32Ptr: + p := loadNPtr(ctxptr, code.Idx, code.PtrNum) + if p == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + code = code.Next + break + } + store(ctxptr, code.Idx, p) + fallthrough + case encoder.OpFloat32: + b = appendFloat32(ctx, b, ptrToFloat32(load(ctxptr, code.Idx))) + b = appendComma(ctx, b) + code = code.Next + case encoder.OpFloat64Ptr: + p := loadNPtr(ctxptr, code.Idx, code.PtrNum) + if p == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + code = code.Next + break + } + store(ctxptr, code.Idx, p) + fallthrough + case encoder.OpFloat64: + v := ptrToFloat64(load(ctxptr, code.Idx)) + if math.IsInf(v, 0) || math.IsNaN(v) { + return nil, errUnsupportedFloat(v) + } + b = appendFloat64(ctx, b, v) + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStringPtr: + p := loadNPtr(ctxptr, code.Idx, code.PtrNum) + if p == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + code = code.Next + break + } + store(ctxptr, code.Idx, p) + fallthrough + case encoder.OpString: + b = appendString(ctx, b, ptrToString(load(ctxptr, code.Idx))) + b = appendComma(ctx, b) + code = code.Next + case encoder.OpBoolPtr: + p := loadNPtr(ctxptr, code.Idx, code.PtrNum) + if p == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + code = code.Next + break + } + store(ctxptr, code.Idx, p) + fallthrough + case encoder.OpBool: + b = appendBool(ctx, b, ptrToBool(load(ctxptr, code.Idx))) + b = appendComma(ctx, b) + code = code.Next + case encoder.OpBytesPtr: + p := loadNPtr(ctxptr, code.Idx, code.PtrNum) + if p == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + code = code.Next + break + } + store(ctxptr, code.Idx, p) + fallthrough + case encoder.OpBytes: + b = appendByteSlice(ctx, b, ptrToBytes(load(ctxptr, code.Idx))) + b = appendComma(ctx, b) + code = code.Next + case encoder.OpNumberPtr: + p := loadNPtr(ctxptr, code.Idx, code.PtrNum) + if p == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + code = code.Next + break + } + store(ctxptr, code.Idx, p) + fallthrough + case encoder.OpNumber: + bb, err := appendNumber(ctx, b, ptrToNumber(load(ctxptr, code.Idx))) + if err != nil { + return nil, err + } + b = appendComma(ctx, bb) + code = code.Next + case encoder.OpInterfacePtr: + p := loadNPtr(ctxptr, code.Idx, code.PtrNum) + if p == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + code = code.Next + break + } + store(ctxptr, code.Idx, p) + fallthrough + case encoder.OpInterface: + p := load(ctxptr, code.Idx) + if p == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + code = code.Next + break + } + if recursiveLevel > encoder.StartDetectingCyclesAfter { + for _, seen := range ctx.SeenPtr { + if p == seen { + return nil, errUnsupportedValue(code, p) + } + } + } + ctx.SeenPtr = append(ctx.SeenPtr, p) + iface := (*emptyInterface)(ptrToUnsafePtr(p)) + if iface.ptr == nil { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + code = code.Next + break + } + + ctx.KeepRefs = append(ctx.KeepRefs, unsafe.Pointer(iface)) + ifaceCodeSet, err := encoder.CompileToGetCodeSet(uintptr(unsafe.Pointer(iface.typ))) + if err != nil { + return nil, err + } + + totalLength := uintptr(code.Length) + 3 + nextTotalLength := uintptr(ifaceCodeSet.CodeLength) + 3 + + var c *encoder.Opcode + if (ctx.Option.Flag & encoder.HTMLEscapeOption) != 0 { + c = ifaceCodeSet.InterfaceEscapeKeyCode + } else { + c = ifaceCodeSet.InterfaceNoescapeKeyCode + } + curlen := uintptr(len(ctx.Ptrs)) + offsetNum := ptrOffset / uintptrSize + oldOffset := ptrOffset + ptrOffset += totalLength * uintptrSize + oldBaseIndent := ctx.BaseIndent + indentDiffFromTop := c.Indent - 1 + ctx.BaseIndent += code.Indent - indentDiffFromTop + + newLen := offsetNum + totalLength + nextTotalLength + if curlen < newLen { + ctx.Ptrs = append(ctx.Ptrs, make([]uintptr, newLen-curlen)...) + } + ctxptr = ctx.Ptr() + ptrOffset // assign new ctxptr + + end := ifaceCodeSet.EndCode + store(ctxptr, c.Idx, uintptr(iface.ptr)) + store(ctxptr, end.Idx, oldOffset) + store(ctxptr, end.ElemIdx, uintptr(unsafe.Pointer(code.Next))) + storeIndent(ctxptr, end, uintptr(oldBaseIndent)) + code = c + recursiveLevel++ + case encoder.OpInterfaceEnd: + recursiveLevel-- + + // restore ctxptr + offset := load(ctxptr, code.Idx) + restoreIndent(ctx, code, ctxptr) + ctx.SeenPtr = ctx.SeenPtr[:len(ctx.SeenPtr)-1] + + codePtr := load(ctxptr, code.ElemIdx) + code = (*encoder.Opcode)(ptrToUnsafePtr(codePtr)) + ctxptr = ctx.Ptr() + offset + ptrOffset = offset + case encoder.OpMarshalJSONPtr: + p := load(ctxptr, code.Idx) + if p == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + code = code.Next + break + } + store(ctxptr, code.Idx, ptrToPtr(p)) + fallthrough + case encoder.OpMarshalJSON: + p := load(ctxptr, code.Idx) + if p == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + code = code.Next + break + } + if (code.Flags&encoder.IsNilableTypeFlags) != 0 && (code.Flags&encoder.IndirectFlags) != 0 { + p = ptrToPtr(p) + } + bb, err := appendMarshalJSON(ctx, code, b, ptrToInterface(code, p)) + if err != nil { + return nil, err + } + b = appendComma(ctx, bb) + code = code.Next + case encoder.OpMarshalTextPtr: + p := load(ctxptr, code.Idx) + if p == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + code = code.Next + break + } + store(ctxptr, code.Idx, ptrToPtr(p)) + fallthrough + case encoder.OpMarshalText: + p := load(ctxptr, code.Idx) + if p == 0 { + b = append(b, `""`...) + b = appendComma(ctx, b) + code = code.Next + break + } + if (code.Flags&encoder.IsNilableTypeFlags) != 0 && (code.Flags&encoder.IndirectFlags) != 0 { + p = ptrToPtr(p) + } + bb, err := appendMarshalText(ctx, code, b, ptrToInterface(code, p)) + if err != nil { + return nil, err + } + b = appendComma(ctx, bb) + code = code.Next + case encoder.OpSlicePtr: + p := loadNPtr(ctxptr, code.Idx, code.PtrNum) + if p == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + code = code.End.Next + break + } + store(ctxptr, code.Idx, p) + fallthrough + case encoder.OpSlice: + p := load(ctxptr, code.Idx) + slice := ptrToSlice(p) + if p == 0 || slice.Data == nil { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + code = code.End.Next + break + } + store(ctxptr, code.ElemIdx, 0) + store(ctxptr, code.Length, uintptr(slice.Len)) + store(ctxptr, code.Idx, uintptr(slice.Data)) + if slice.Len > 0 { + b = appendArrayHead(ctx, code, b) + code = code.Next + store(ctxptr, code.Idx, uintptr(slice.Data)) + } else { + b = appendEmptyArray(ctx, b) + code = code.End.Next + } + case encoder.OpSliceElem: + idx := load(ctxptr, code.ElemIdx) + length := load(ctxptr, code.Length) + idx++ + if idx < length { + b = appendArrayElemIndent(ctx, code, b) + store(ctxptr, code.ElemIdx, idx) + data := load(ctxptr, code.Idx) + size := uintptr(code.Size) + code = code.Next + store(ctxptr, code.Idx, data+idx*size) + } else { + b = appendArrayEnd(ctx, code, b) + code = code.End.Next + } + case encoder.OpArrayPtr: + p := loadNPtr(ctxptr, code.Idx, code.PtrNum) + if p == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + code = code.End.Next + break + } + store(ctxptr, code.Idx, p) + fallthrough + case encoder.OpArray: + p := load(ctxptr, code.Idx) + if p == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + code = code.End.Next + break + } + if code.Length > 0 { + b = appendArrayHead(ctx, code, b) + store(ctxptr, code.ElemIdx, 0) + code = code.Next + store(ctxptr, code.Idx, p) + } else { + b = appendEmptyArray(ctx, b) + code = code.End.Next + } + case encoder.OpArrayElem: + idx := load(ctxptr, code.ElemIdx) + idx++ + if idx < uintptr(code.Length) { + b = appendArrayElemIndent(ctx, code, b) + store(ctxptr, code.ElemIdx, idx) + p := load(ctxptr, code.Idx) + size := uintptr(code.Size) + code = code.Next + store(ctxptr, code.Idx, p+idx*size) + } else { + b = appendArrayEnd(ctx, code, b) + code = code.End.Next + } + case encoder.OpMapPtr: + p := loadNPtr(ctxptr, code.Idx, code.PtrNum) + if p == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + code = code.End.Next + break + } + store(ctxptr, code.Idx, p) + fallthrough + case encoder.OpMap: + p := load(ctxptr, code.Idx) + if p == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + code = code.End.Next + break + } + uptr := ptrToUnsafePtr(p) + mlen := maplen(uptr) + if mlen <= 0 { + b = appendEmptyObject(ctx, b) + code = code.End.Next + break + } + b = appendStructHead(ctx, b) + iter := mapiterinit(code.Type, uptr) + ctx.KeepRefs = append(ctx.KeepRefs, iter) + store(ctxptr, code.ElemIdx, 0) + store(ctxptr, code.Length, uintptr(mlen)) + store(ctxptr, code.MapIter, uintptr(iter)) + if (ctx.Option.Flag & encoder.UnorderedMapOption) != 0 { + b = appendMapKeyIndent(ctx, code.Next, b) + } else { + mapCtx := encoder.NewMapContext(mlen) + mapCtx.Pos = append(mapCtx.Pos, len(b)) + ctx.KeepRefs = append(ctx.KeepRefs, unsafe.Pointer(mapCtx)) + store(ctxptr, code.End.MapPos, uintptr(unsafe.Pointer(mapCtx))) + } + key := mapiterkey(iter) + store(ctxptr, code.Next.Idx, uintptr(key)) + code = code.Next + case encoder.OpMapKey: + idx := load(ctxptr, code.ElemIdx) + length := load(ctxptr, code.Length) + idx++ + if (ctx.Option.Flag & encoder.UnorderedMapOption) != 0 { + if idx < length { + b = appendMapKeyIndent(ctx, code, b) + store(ctxptr, code.ElemIdx, idx) + ptr := load(ctxptr, code.MapIter) + iter := ptrToUnsafePtr(ptr) + key := mapiterkey(iter) + store(ctxptr, code.Next.Idx, uintptr(key)) + code = code.Next + } else { + b = appendObjectEnd(ctx, code, b) + code = code.End.Next + } + } else { + ptr := load(ctxptr, code.End.MapPos) + mapCtx := (*encoder.MapContext)(ptrToUnsafePtr(ptr)) + mapCtx.Pos = append(mapCtx.Pos, len(b)) + if idx < length { + ptr := load(ctxptr, code.MapIter) + iter := ptrToUnsafePtr(ptr) + store(ctxptr, code.ElemIdx, idx) + key := mapiterkey(iter) + store(ctxptr, code.Next.Idx, uintptr(key)) + code = code.Next + } else { + code = code.End + } + } + case encoder.OpMapValue: + if (ctx.Option.Flag & encoder.UnorderedMapOption) != 0 { + b = appendColon(ctx, b) + } else { + ptr := load(ctxptr, code.End.MapPos) + mapCtx := (*encoder.MapContext)(ptrToUnsafePtr(ptr)) + mapCtx.Pos = append(mapCtx.Pos, len(b)) + } + ptr := load(ctxptr, code.MapIter) + iter := ptrToUnsafePtr(ptr) + value := mapitervalue(iter) + store(ctxptr, code.Next.Idx, uintptr(value)) + mapiternext(iter) + code = code.Next + case encoder.OpMapEnd: + // this operation only used by sorted map. + length := int(load(ctxptr, code.Length)) + ptr := load(ctxptr, code.MapPos) + mapCtx := (*encoder.MapContext)(ptrToUnsafePtr(ptr)) + pos := mapCtx.Pos + for i := 0; i < length; i++ { + startKey := pos[i*2] + startValue := pos[i*2+1] + var endValue int + if i+1 < length { + endValue = pos[i*2+2] + } else { + endValue = len(b) + } + mapCtx.Slice.Items = append(mapCtx.Slice.Items, encoder.MapItem{ + Key: b[startKey:startValue], + Value: b[startValue:endValue], + }) + } + sort.Sort(mapCtx.Slice) + buf := mapCtx.Buf + for _, item := range mapCtx.Slice.Items { + buf = appendMapKeyValue(ctx, code, buf, item.Key, item.Value) + } + buf = appendMapEnd(ctx, code, buf) + b = b[:pos[0]] + b = append(b, buf...) + mapCtx.Buf = buf + encoder.ReleaseMapContext(mapCtx) + code = code.Next + case encoder.OpRecursivePtr: + p := load(ctxptr, code.Idx) + if p == 0 { + code = code.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpRecursive: + ptr := load(ctxptr, code.Idx) + if ptr != 0 { + if recursiveLevel > encoder.StartDetectingCyclesAfter { + for _, seen := range ctx.SeenPtr { + if ptr == seen { + return nil, errUnsupportedValue(code, ptr) + } + } + } + } + ctx.SeenPtr = append(ctx.SeenPtr, ptr) + c := code.Jmp.Code + curlen := uintptr(len(ctx.Ptrs)) + offsetNum := ptrOffset / uintptrSize + oldOffset := ptrOffset + ptrOffset += code.Jmp.CurLen * uintptrSize + oldBaseIndent := ctx.BaseIndent + indentDiffFromTop := c.Indent - 1 + ctx.BaseIndent += code.Indent - indentDiffFromTop + + newLen := offsetNum + code.Jmp.CurLen + code.Jmp.NextLen + if curlen < newLen { + ctx.Ptrs = append(ctx.Ptrs, make([]uintptr, newLen-curlen)...) + } + ctxptr = ctx.Ptr() + ptrOffset // assign new ctxptr + + store(ctxptr, c.Idx, ptr) + store(ctxptr, c.End.Next.Idx, oldOffset) + store(ctxptr, c.End.Next.ElemIdx, uintptr(unsafe.Pointer(code.Next))) + storeIndent(ctxptr, c.End.Next, uintptr(oldBaseIndent)) + code = c + recursiveLevel++ + case encoder.OpRecursiveEnd: + recursiveLevel-- + + // restore ctxptr + restoreIndent(ctx, code, ctxptr) + offset := load(ctxptr, code.Idx) + ctx.SeenPtr = ctx.SeenPtr[:len(ctx.SeenPtr)-1] + + codePtr := load(ctxptr, code.ElemIdx) + code = (*encoder.Opcode)(ptrToUnsafePtr(codePtr)) + ctxptr = ctx.Ptr() + offset + ptrOffset = offset + case encoder.OpStructPtrHead: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHead: + p := load(ctxptr, code.Idx) + if p == 0 && ((code.Flags&encoder.IndirectFlags) != 0 || code.Next.Op == encoder.OpStructEnd) { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + if len(code.Key) > 0 { + if (code.Flags&encoder.IsTaggedKeyFlags) != 0 || code.Flags&encoder.AnonymousKeyFlags == 0 { + b = appendStructKey(ctx, code, b) + } + } + p += uintptr(code.Offset) + code = code.Next + store(ctxptr, code.Idx, p) + case encoder.OpStructPtrHeadOmitEmpty: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadOmitEmpty: + p := load(ctxptr, code.Idx) + if p == 0 && ((code.Flags&encoder.IndirectFlags) != 0 || code.Next.Op == encoder.OpStructEnd) { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + p += uintptr(code.Offset) + if p == 0 || (ptrToPtr(p) == 0 && (code.Flags&encoder.IsNextOpPtrTypeFlags) != 0) { + code = code.NextField + } else { + b = appendStructKey(ctx, code, b) + code = code.Next + store(ctxptr, code.Idx, p) + } + case encoder.OpStructPtrHeadInt: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadInt: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + b = appendInt(ctx, b, ptrToUint64(p+uintptr(code.Offset)), code) + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyInt: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadOmitEmptyInt: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + u64 := ptrToUint64(p + uintptr(code.Offset)) + v := u64 & ((1 << code.NumBitSize) - 1) + if v == 0 { + code = code.NextField + } else { + b = appendStructKey(ctx, code, b) + b = appendInt(ctx, b, u64, code) + b = appendComma(ctx, b) + code = code.Next + } + case encoder.OpStructPtrHeadIntString: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadIntString: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendInt(ctx, b, ptrToUint64(p+uintptr(code.Offset)), code) + b = append(b, '"') + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyIntString: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadOmitEmptyIntString: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + u64 := ptrToUint64(p + uintptr(code.Offset)) + v := u64 & ((1 << code.NumBitSize) - 1) + if v == 0 { + code = code.NextField + } else { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendInt(ctx, b, u64, code) + b = append(b, '"') + b = appendComma(ctx, b) + code = code.Next + } + case encoder.OpStructPtrHeadIntPtr: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadIntPtr: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p == 0 { + b = appendNull(ctx, b) + } else { + b = appendInt(ctx, b, ptrToUint64(p), code) + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyIntPtr: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadOmitEmptyIntPtr: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p != 0 { + b = appendStructKey(ctx, code, b) + b = appendInt(ctx, b, ptrToUint64(p), code) + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructPtrHeadIntPtrString: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadIntPtrString: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p == 0 { + b = appendNull(ctx, b) + } else { + b = append(b, '"') + b = appendInt(ctx, b, ptrToUint64(p), code) + b = append(b, '"') + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyIntPtrString: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadOmitEmptyIntPtrString: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p != 0 { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendInt(ctx, b, ptrToUint64(p), code) + b = append(b, '"') + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructPtrHeadUint: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadUint: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + b = appendUint(ctx, b, ptrToUint64(p+uintptr(code.Offset)), code) + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyUint: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadOmitEmptyUint: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + u64 := ptrToUint64(p + uintptr(code.Offset)) + v := u64 & ((1 << code.NumBitSize) - 1) + if v == 0 { + code = code.NextField + } else { + b = appendStructKey(ctx, code, b) + b = appendUint(ctx, b, u64, code) + b = appendComma(ctx, b) + code = code.Next + } + case encoder.OpStructPtrHeadUintString: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadUintString: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendUint(ctx, b, ptrToUint64(p+uintptr(code.Offset)), code) + b = append(b, '"') + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyUintString: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadOmitEmptyUintString: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + u64 := ptrToUint64(p + uintptr(code.Offset)) + v := u64 & ((1 << code.NumBitSize) - 1) + if v == 0 { + code = code.NextField + } else { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendUint(ctx, b, u64, code) + b = append(b, '"') + b = appendComma(ctx, b) + code = code.Next + } + case encoder.OpStructPtrHeadUintPtr: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadUintPtr: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p == 0 { + b = appendNull(ctx, b) + } else { + b = appendUint(ctx, b, ptrToUint64(p), code) + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyUintPtr: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadOmitEmptyUintPtr: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p != 0 { + b = appendStructKey(ctx, code, b) + b = appendUint(ctx, b, ptrToUint64(p), code) + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructPtrHeadUintPtrString: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadUintPtrString: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p == 0 { + b = appendNull(ctx, b) + } else { + b = append(b, '"') + b = appendUint(ctx, b, ptrToUint64(p), code) + b = append(b, '"') + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyUintPtrString: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadOmitEmptyUintPtrString: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p != 0 { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendUint(ctx, b, ptrToUint64(p), code) + b = append(b, '"') + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructPtrHeadFloat32: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadFloat32: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + b = appendFloat32(ctx, b, ptrToFloat32(p+uintptr(code.Offset))) + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyFloat32: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadOmitEmptyFloat32: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + v := ptrToFloat32(p + uintptr(code.Offset)) + if v == 0 { + code = code.NextField + } else { + b = appendStructKey(ctx, code, b) + b = appendFloat32(ctx, b, v) + b = appendComma(ctx, b) + code = code.Next + } + case encoder.OpStructPtrHeadFloat32String: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadFloat32String: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendFloat32(ctx, b, ptrToFloat32(p+uintptr(code.Offset))) + b = append(b, '"') + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyFloat32String: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadOmitEmptyFloat32String: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + v := ptrToFloat32(p + uintptr(code.Offset)) + if v == 0 { + code = code.NextField + } else { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendFloat32(ctx, b, v) + b = append(b, '"') + b = appendComma(ctx, b) + code = code.Next + } + case encoder.OpStructPtrHeadFloat32Ptr: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadFloat32Ptr: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p == 0 { + b = appendNull(ctx, b) + } else { + b = appendFloat32(ctx, b, ptrToFloat32(p)) + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyFloat32Ptr: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadOmitEmptyFloat32Ptr: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p != 0 { + b = appendStructKey(ctx, code, b) + b = appendFloat32(ctx, b, ptrToFloat32(p)) + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructPtrHeadFloat32PtrString: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadFloat32PtrString: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p == 0 { + b = appendNull(ctx, b) + } else { + b = append(b, '"') + b = appendFloat32(ctx, b, ptrToFloat32(p)) + b = append(b, '"') + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyFloat32PtrString: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadOmitEmptyFloat32PtrString: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p != 0 { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendFloat32(ctx, b, ptrToFloat32(p)) + b = append(b, '"') + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructPtrHeadFloat64: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadFloat64: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + v := ptrToFloat64(p + uintptr(code.Offset)) + if math.IsInf(v, 0) || math.IsNaN(v) { + return nil, errUnsupportedFloat(v) + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + b = appendFloat64(ctx, b, v) + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyFloat64: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadOmitEmptyFloat64: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + v := ptrToFloat64(p + uintptr(code.Offset)) + if v == 0 { + code = code.NextField + } else { + if math.IsInf(v, 0) || math.IsNaN(v) { + return nil, errUnsupportedFloat(v) + } + b = appendStructKey(ctx, code, b) + b = appendFloat64(ctx, b, v) + b = appendComma(ctx, b) + code = code.Next + } + case encoder.OpStructPtrHeadFloat64String: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadFloat64String: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + v := ptrToFloat64(p + uintptr(code.Offset)) + if math.IsInf(v, 0) || math.IsNaN(v) { + return nil, errUnsupportedFloat(v) + } + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendFloat64(ctx, b, v) + b = append(b, '"') + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyFloat64String: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadOmitEmptyFloat64String: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + v := ptrToFloat64(p + uintptr(code.Offset)) + if v == 0 { + code = code.NextField + } else { + if math.IsInf(v, 0) || math.IsNaN(v) { + return nil, errUnsupportedFloat(v) + } + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendFloat64(ctx, b, v) + b = append(b, '"') + b = appendComma(ctx, b) + code = code.Next + } + case encoder.OpStructPtrHeadFloat64Ptr: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadFloat64Ptr: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p == 0 { + b = appendNull(ctx, b) + } else { + v := ptrToFloat64(p) + if math.IsInf(v, 0) || math.IsNaN(v) { + return nil, errUnsupportedFloat(v) + } + b = appendFloat64(ctx, b, v) + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyFloat64Ptr: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadOmitEmptyFloat64Ptr: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p != 0 { + b = appendStructKey(ctx, code, b) + v := ptrToFloat64(p) + if math.IsInf(v, 0) || math.IsNaN(v) { + return nil, errUnsupportedFloat(v) + } + b = appendFloat64(ctx, b, v) + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructPtrHeadFloat64PtrString: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadFloat64PtrString: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p == 0 { + b = appendNull(ctx, b) + } else { + b = append(b, '"') + v := ptrToFloat64(p) + if math.IsInf(v, 0) || math.IsNaN(v) { + return nil, errUnsupportedFloat(v) + } + b = appendFloat64(ctx, b, v) + b = append(b, '"') + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyFloat64PtrString: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadOmitEmptyFloat64PtrString: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p != 0 { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + v := ptrToFloat64(p) + if math.IsInf(v, 0) || math.IsNaN(v) { + return nil, errUnsupportedFloat(v) + } + b = appendFloat64(ctx, b, v) + b = append(b, '"') + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructPtrHeadString: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadString: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + b = appendString(ctx, b, ptrToString(p+uintptr(code.Offset))) + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyString: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadOmitEmptyString: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + v := ptrToString(p + uintptr(code.Offset)) + if v == "" { + code = code.NextField + } else { + b = appendStructKey(ctx, code, b) + b = appendString(ctx, b, v) + b = appendComma(ctx, b) + code = code.Next + } + case encoder.OpStructPtrHeadStringString: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadStringString: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + b = appendString(ctx, b, string(appendString(ctx, []byte{}, ptrToString(p+uintptr(code.Offset))))) + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyStringString: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadOmitEmptyStringString: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + v := ptrToString(p + uintptr(code.Offset)) + if v == "" { + code = code.NextField + } else { + b = appendStructKey(ctx, code, b) + b = appendString(ctx, b, string(appendString(ctx, []byte{}, v))) + b = appendComma(ctx, b) + code = code.Next + } + case encoder.OpStructPtrHeadStringPtr: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadStringPtr: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p == 0 { + b = appendNull(ctx, b) + } else { + b = appendString(ctx, b, ptrToString(p)) + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyStringPtr: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadOmitEmptyStringPtr: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p != 0 { + b = appendStructKey(ctx, code, b) + b = appendString(ctx, b, ptrToString(p)) + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructPtrHeadStringPtrString: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadStringPtrString: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p == 0 { + b = appendNull(ctx, b) + } else { + b = appendString(ctx, b, string(appendString(ctx, []byte{}, ptrToString(p)))) + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyStringPtrString: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadOmitEmptyStringPtrString: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p != 0 { + b = appendStructKey(ctx, code, b) + b = appendString(ctx, b, string(appendString(ctx, []byte{}, ptrToString(p)))) + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructPtrHeadBool: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadBool: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + b = appendBool(ctx, b, ptrToBool(p+uintptr(code.Offset))) + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyBool: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadOmitEmptyBool: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + v := ptrToBool(p + uintptr(code.Offset)) + if v { + b = appendStructKey(ctx, code, b) + b = appendBool(ctx, b, v) + b = appendComma(ctx, b) + code = code.Next + } else { + code = code.NextField + } + case encoder.OpStructPtrHeadBoolString: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadBoolString: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendBool(ctx, b, ptrToBool(p+uintptr(code.Offset))) + b = append(b, '"') + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyBoolString: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadOmitEmptyBoolString: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + v := ptrToBool(p + uintptr(code.Offset)) + if v { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendBool(ctx, b, v) + b = append(b, '"') + b = appendComma(ctx, b) + code = code.Next + } else { + code = code.NextField + } + case encoder.OpStructPtrHeadBoolPtr: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadBoolPtr: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p == 0 { + b = appendNull(ctx, b) + } else { + b = appendBool(ctx, b, ptrToBool(p)) + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyBoolPtr: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadOmitEmptyBoolPtr: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p != 0 { + b = appendStructKey(ctx, code, b) + b = appendBool(ctx, b, ptrToBool(p)) + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructPtrHeadBoolPtrString: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadBoolPtrString: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p == 0 { + b = appendNull(ctx, b) + } else { + b = append(b, '"') + b = appendBool(ctx, b, ptrToBool(p)) + b = append(b, '"') + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyBoolPtrString: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadOmitEmptyBoolPtrString: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p != 0 { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendBool(ctx, b, ptrToBool(p)) + b = append(b, '"') + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructPtrHeadBytes: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadBytes: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + b = appendByteSlice(ctx, b, ptrToBytes(p+uintptr(code.Offset))) + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyBytes: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadOmitEmptyBytes: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + v := ptrToBytes(p + uintptr(code.Offset)) + if len(v) == 0 { + code = code.NextField + } else { + b = appendStructKey(ctx, code, b) + b = appendByteSlice(ctx, b, v) + b = appendComma(ctx, b) + code = code.Next + } + case encoder.OpStructPtrHeadBytesPtr: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadBytesPtr: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p == 0 { + b = appendNull(ctx, b) + } else { + b = appendByteSlice(ctx, b, ptrToBytes(p)) + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyBytesPtr: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadOmitEmptyBytesPtr: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p != 0 { + b = appendStructKey(ctx, code, b) + b = appendByteSlice(ctx, b, ptrToBytes(p)) + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructPtrHeadNumber: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadNumber: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + bb, err := appendNumber(ctx, b, ptrToNumber(p+uintptr(code.Offset))) + if err != nil { + return nil, err + } + b = appendComma(ctx, bb) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyNumber: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadOmitEmptyNumber: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + v := ptrToNumber(p + uintptr(code.Offset)) + if v == "" { + code = code.NextField + } else { + b = appendStructKey(ctx, code, b) + bb, err := appendNumber(ctx, b, v) + if err != nil { + return nil, err + } + b = appendComma(ctx, bb) + code = code.Next + } + case encoder.OpStructPtrHeadNumberString: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadNumberString: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + b = append(b, '"') + bb, err := appendNumber(ctx, b, ptrToNumber(p+uintptr(code.Offset))) + if err != nil { + return nil, err + } + b = append(bb, '"') + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyNumberString: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadOmitEmptyNumberString: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + v := ptrToNumber(p + uintptr(code.Offset)) + if v == "" { + code = code.NextField + } else { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + bb, err := appendNumber(ctx, b, v) + if err != nil { + return nil, err + } + b = append(bb, '"') + b = appendComma(ctx, b) + code = code.Next + } + case encoder.OpStructPtrHeadNumberPtr: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadNumberPtr: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p == 0 { + b = appendNull(ctx, b) + } else { + bb, err := appendNumber(ctx, b, ptrToNumber(p)) + if err != nil { + return nil, err + } + b = bb + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyNumberPtr: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadOmitEmptyNumberPtr: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p != 0 { + b = appendStructKey(ctx, code, b) + bb, err := appendNumber(ctx, b, ptrToNumber(p)) + if err != nil { + return nil, err + } + b = appendComma(ctx, bb) + } + code = code.Next + case encoder.OpStructPtrHeadNumberPtrString: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadNumberPtrString: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p == 0 { + b = appendNull(ctx, b) + } else { + b = append(b, '"') + bb, err := appendNumber(ctx, b, ptrToNumber(p)) + if err != nil { + return nil, err + } + b = append(bb, '"') + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyNumberPtrString: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadOmitEmptyNumberPtrString: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p != 0 { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + bb, err := appendNumber(ctx, b, ptrToNumber(p)) + if err != nil { + return nil, err + } + b = append(bb, '"') + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructPtrHeadArray, encoder.OpStructPtrHeadSlice: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadArray, encoder.OpStructHeadSlice: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + p += uintptr(code.Offset) + code = code.Next + store(ctxptr, code.Idx, p) + case encoder.OpStructPtrHeadOmitEmptyArray: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadOmitEmptyArray: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + p += uintptr(code.Offset) + b = appendStructKey(ctx, code, b) + code = code.Next + store(ctxptr, code.Idx, p) + case encoder.OpStructPtrHeadOmitEmptySlice: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadOmitEmptySlice: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + p += uintptr(code.Offset) + slice := ptrToSlice(p) + if slice.Len == 0 { + code = code.NextField + } else { + b = appendStructKey(ctx, code, b) + code = code.Next + store(ctxptr, code.Idx, p) + } + case encoder.OpStructPtrHeadArrayPtr, encoder.OpStructPtrHeadSlicePtr: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadArrayPtr, encoder.OpStructHeadSlicePtr: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + code = code.NextField + } else { + code = code.Next + store(ctxptr, code.Idx, p) + } + case encoder.OpStructPtrHeadOmitEmptyArrayPtr, encoder.OpStructPtrHeadOmitEmptySlicePtr: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadOmitEmptyArrayPtr, encoder.OpStructHeadOmitEmptySlicePtr: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p == 0 { + code = code.NextField + } else { + b = appendStructKey(ctx, code, b) + code = code.Next + store(ctxptr, code.Idx, p) + } + case encoder.OpStructPtrHeadMap: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadMap: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + if p != 0 && (code.Flags&encoder.IndirectFlags) != 0 { + p = ptrToPtr(p + uintptr(code.Offset)) + } + code = code.Next + store(ctxptr, code.Idx, p) + case encoder.OpStructPtrHeadOmitEmptyMap: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadOmitEmptyMap: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + if p != 0 && (code.Flags&encoder.IndirectFlags) != 0 { + p = ptrToPtr(p + uintptr(code.Offset)) + } + if maplen(ptrToUnsafePtr(p)) == 0 { + code = code.NextField + } else { + b = appendStructKey(ctx, code, b) + code = code.Next + store(ctxptr, code.Idx, p) + } + case encoder.OpStructPtrHeadMapPtr: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadMapPtr: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + if p == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + code = code.NextField + break + } + p = ptrToPtr(p + uintptr(code.Offset)) + if p == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + code = code.NextField + } else { + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p, code.PtrNum) + } + code = code.Next + store(ctxptr, code.Idx, p) + } + case encoder.OpStructPtrHeadOmitEmptyMapPtr: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadOmitEmptyMapPtr: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + if p == 0 { + code = code.NextField + break + } + p = ptrToPtr(p + uintptr(code.Offset)) + if p == 0 { + code = code.NextField + } else { + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p, code.PtrNum) + } + b = appendStructKey(ctx, code, b) + code = code.Next + store(ctxptr, code.Idx, p) + } + case encoder.OpStructPtrHeadMarshalJSON: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if (code.Flags & encoder.IndirectFlags) != 0 { + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadMarshalJSON: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + if (code.Flags & encoder.IsNilableTypeFlags) != 0 { + if (code.Flags&encoder.IndirectFlags) != 0 || code.Op == encoder.OpStructPtrHeadMarshalJSON { + p = ptrToPtr(p + uintptr(code.Offset)) + } + } + if p == 0 && (code.Flags&encoder.NilCheckFlags) != 0 { + b = appendNull(ctx, b) + } else { + bb, err := appendMarshalJSON(ctx, code, b, ptrToInterface(code, p)) + if err != nil { + return nil, err + } + b = bb + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyMarshalJSON: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if (code.Flags & encoder.IndirectFlags) != 0 { + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadOmitEmptyMarshalJSON: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + if (code.Flags & encoder.IsNilableTypeFlags) != 0 { + if (code.Flags&encoder.IndirectFlags) != 0 || code.Op == encoder.OpStructPtrHeadOmitEmptyMarshalJSON { + p = ptrToPtr(p + uintptr(code.Offset)) + } + } + iface := ptrToInterface(code, p) + if (code.Flags&encoder.NilCheckFlags) != 0 && encoder.IsNilForMarshaler(iface) { + code = code.NextField + } else { + b = appendStructKey(ctx, code, b) + bb, err := appendMarshalJSON(ctx, code, b, iface) + if err != nil { + return nil, err + } + b = bb + b = appendComma(ctx, b) + code = code.Next + } + case encoder.OpStructPtrHeadMarshalJSONPtr: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadMarshalJSONPtr: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p == 0 { + b = appendNull(ctx, b) + } else { + bb, err := appendMarshalJSON(ctx, code, b, ptrToInterface(code, p)) + if err != nil { + return nil, err + } + b = bb + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyMarshalJSONPtr: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadOmitEmptyMarshalJSONPtr: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + if p == 0 { + code = code.NextField + } else { + b = appendStructKey(ctx, code, b) + bb, err := appendMarshalJSON(ctx, code, b, ptrToInterface(code, p)) + if err != nil { + return nil, err + } + b = bb + b = appendComma(ctx, b) + code = code.Next + } + case encoder.OpStructPtrHeadMarshalText: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if (code.Flags & encoder.IndirectFlags) != 0 { + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadMarshalText: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + if (code.Flags & encoder.IsNilableTypeFlags) != 0 { + if (code.Flags&encoder.IndirectFlags) != 0 || code.Op == encoder.OpStructPtrHeadMarshalText { + p = ptrToPtr(p + uintptr(code.Offset)) + } + } + if p == 0 && (code.Flags&encoder.NilCheckFlags) != 0 { + b = appendNull(ctx, b) + } else { + bb, err := appendMarshalText(ctx, code, b, ptrToInterface(code, p)) + if err != nil { + return nil, err + } + b = bb + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyMarshalText: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if (code.Flags & encoder.IndirectFlags) != 0 { + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadOmitEmptyMarshalText: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + if (code.Flags & encoder.IsNilableTypeFlags) != 0 { + if (code.Flags&encoder.IndirectFlags) != 0 || code.Op == encoder.OpStructPtrHeadOmitEmptyMarshalText { + p = ptrToPtr(p + uintptr(code.Offset)) + } + } + if p == 0 && (code.Flags&encoder.NilCheckFlags) != 0 { + code = code.NextField + } else { + b = appendStructKey(ctx, code, b) + bb, err := appendMarshalText(ctx, code, b, ptrToInterface(code, p)) + if err != nil { + return nil, err + } + b = bb + b = appendComma(ctx, b) + code = code.Next + } + case encoder.OpStructPtrHeadMarshalTextPtr: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadMarshalTextPtr: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p == 0 { + b = appendNull(ctx, b) + } else { + bb, err := appendMarshalText(ctx, code, b, ptrToInterface(code, p)) + if err != nil { + return nil, err + } + b = bb + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyMarshalTextPtr: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadOmitEmptyMarshalTextPtr: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + if p == 0 { + code = code.NextField + } else { + b = appendStructKey(ctx, code, b) + bb, err := appendMarshalText(ctx, code, b, ptrToInterface(code, p)) + if err != nil { + return nil, err + } + b = bb + b = appendComma(ctx, b) + code = code.Next + } + case encoder.OpStructField: + if code.Flags&encoder.IsTaggedKeyFlags != 0 || code.Flags&encoder.AnonymousKeyFlags == 0 { + b = appendStructKey(ctx, code, b) + } + p := load(ctxptr, code.Idx) + uintptr(code.Offset) + code = code.Next + store(ctxptr, code.Idx, p) + case encoder.OpStructFieldOmitEmpty: + p := load(ctxptr, code.Idx) + p += uintptr(code.Offset) + if ptrToPtr(p) == 0 && (code.Flags&encoder.IsNextOpPtrTypeFlags) != 0 { + code = code.NextField + } else { + b = appendStructKey(ctx, code, b) + code = code.Next + store(ctxptr, code.Idx, p) + } + case encoder.OpStructFieldInt: + p := load(ctxptr, code.Idx) + b = appendStructKey(ctx, code, b) + b = appendInt(ctx, b, ptrToUint64(p+uintptr(code.Offset)), code) + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyInt: + p := load(ctxptr, code.Idx) + u64 := ptrToUint64(p + uintptr(code.Offset)) + v := u64 & ((1 << code.NumBitSize) - 1) + if v != 0 { + b = appendStructKey(ctx, code, b) + b = appendInt(ctx, b, u64, code) + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructFieldIntString: + p := load(ctxptr, code.Idx) + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendInt(ctx, b, ptrToUint64(p+uintptr(code.Offset)), code) + b = append(b, '"') + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyIntString: + p := load(ctxptr, code.Idx) + u64 := ptrToUint64(p + uintptr(code.Offset)) + v := u64 & ((1 << code.NumBitSize) - 1) + if v != 0 { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendInt(ctx, b, u64, code) + b = append(b, '"') + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructFieldIntPtr: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + b = appendStructKey(ctx, code, b) + if p == 0 { + b = appendNull(ctx, b) + } else { + b = appendInt(ctx, b, ptrToUint64(p), code) + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyIntPtr: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + b = appendInt(ctx, b, ptrToUint64(p), code) + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructFieldIntPtrString: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + b = appendStructKey(ctx, code, b) + if p == 0 { + b = appendNull(ctx, b) + } else { + b = append(b, '"') + b = appendInt(ctx, b, ptrToUint64(p), code) + b = append(b, '"') + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyIntPtrString: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendInt(ctx, b, ptrToUint64(p), code) + b = append(b, '"') + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructFieldUint: + p := load(ctxptr, code.Idx) + b = appendStructKey(ctx, code, b) + b = appendUint(ctx, b, ptrToUint64(p+uintptr(code.Offset)), code) + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyUint: + p := load(ctxptr, code.Idx) + u64 := ptrToUint64(p + uintptr(code.Offset)) + v := u64 & ((1 << code.NumBitSize) - 1) + if v != 0 { + b = appendStructKey(ctx, code, b) + b = appendUint(ctx, b, u64, code) + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructFieldUintString: + p := load(ctxptr, code.Idx) + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendUint(ctx, b, ptrToUint64(p+uintptr(code.Offset)), code) + b = append(b, '"') + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyUintString: + p := load(ctxptr, code.Idx) + u64 := ptrToUint64(p + uintptr(code.Offset)) + v := u64 & ((1 << code.NumBitSize) - 1) + if v != 0 { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendUint(ctx, b, u64, code) + b = append(b, '"') + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructFieldUintPtr: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + b = appendStructKey(ctx, code, b) + if p == 0 { + b = appendNull(ctx, b) + } else { + b = appendUint(ctx, b, ptrToUint64(p), code) + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyUintPtr: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + b = appendUint(ctx, b, ptrToUint64(p), code) + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructFieldUintPtrString: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + b = appendStructKey(ctx, code, b) + if p == 0 { + b = appendNull(ctx, b) + } else { + b = append(b, '"') + b = appendUint(ctx, b, ptrToUint64(p), code) + b = append(b, '"') + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyUintPtrString: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendUint(ctx, b, ptrToUint64(p), code) + b = append(b, '"') + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructFieldFloat32: + p := load(ctxptr, code.Idx) + b = appendStructKey(ctx, code, b) + b = appendFloat32(ctx, b, ptrToFloat32(p+uintptr(code.Offset))) + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyFloat32: + p := load(ctxptr, code.Idx) + v := ptrToFloat32(p + uintptr(code.Offset)) + if v != 0 { + b = appendStructKey(ctx, code, b) + b = appendFloat32(ctx, b, v) + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructFieldFloat32String: + p := load(ctxptr, code.Idx) + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendFloat32(ctx, b, ptrToFloat32(p+uintptr(code.Offset))) + b = append(b, '"') + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyFloat32String: + p := load(ctxptr, code.Idx) + v := ptrToFloat32(p + uintptr(code.Offset)) + if v != 0 { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendFloat32(ctx, b, v) + b = append(b, '"') + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructFieldFloat32Ptr: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + b = appendStructKey(ctx, code, b) + if p == 0 { + b = appendNull(ctx, b) + } else { + b = appendFloat32(ctx, b, ptrToFloat32(p)) + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyFloat32Ptr: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + b = appendFloat32(ctx, b, ptrToFloat32(p)) + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructFieldFloat32PtrString: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + b = appendStructKey(ctx, code, b) + if p == 0 { + b = appendNull(ctx, b) + } else { + b = append(b, '"') + b = appendFloat32(ctx, b, ptrToFloat32(p)) + b = append(b, '"') + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyFloat32PtrString: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendFloat32(ctx, b, ptrToFloat32(p)) + b = append(b, '"') + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructFieldFloat64: + p := load(ctxptr, code.Idx) + b = appendStructKey(ctx, code, b) + v := ptrToFloat64(p + uintptr(code.Offset)) + if math.IsInf(v, 0) || math.IsNaN(v) { + return nil, errUnsupportedFloat(v) + } + b = appendFloat64(ctx, b, v) + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyFloat64: + p := load(ctxptr, code.Idx) + v := ptrToFloat64(p + uintptr(code.Offset)) + if v != 0 { + if math.IsInf(v, 0) || math.IsNaN(v) { + return nil, errUnsupportedFloat(v) + } + b = appendStructKey(ctx, code, b) + b = appendFloat64(ctx, b, v) + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructFieldFloat64String: + p := load(ctxptr, code.Idx) + v := ptrToFloat64(p + uintptr(code.Offset)) + if math.IsInf(v, 0) || math.IsNaN(v) { + return nil, errUnsupportedFloat(v) + } + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendFloat64(ctx, b, v) + b = append(b, '"') + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyFloat64String: + p := load(ctxptr, code.Idx) + v := ptrToFloat64(p + uintptr(code.Offset)) + if v != 0 { + if math.IsInf(v, 0) || math.IsNaN(v) { + return nil, errUnsupportedFloat(v) + } + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendFloat64(ctx, b, v) + b = append(b, '"') + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructFieldFloat64Ptr: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + b = appendStructKey(ctx, code, b) + if p == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + code = code.Next + break + } + v := ptrToFloat64(p) + if math.IsInf(v, 0) || math.IsNaN(v) { + return nil, errUnsupportedFloat(v) + } + b = appendFloat64(ctx, b, v) + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyFloat64Ptr: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + v := ptrToFloat64(p) + if math.IsInf(v, 0) || math.IsNaN(v) { + return nil, errUnsupportedFloat(v) + } + b = appendFloat64(ctx, b, v) + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructFieldFloat64PtrString: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + b = appendStructKey(ctx, code, b) + if p == 0 { + b = appendNull(ctx, b) + } else { + v := ptrToFloat64(p) + if math.IsInf(v, 0) || math.IsNaN(v) { + return nil, errUnsupportedFloat(v) + } + b = append(b, '"') + b = appendFloat64(ctx, b, v) + b = append(b, '"') + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyFloat64PtrString: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + v := ptrToFloat64(p) + if math.IsInf(v, 0) || math.IsNaN(v) { + return nil, errUnsupportedFloat(v) + } + b = appendFloat64(ctx, b, v) + b = append(b, '"') + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructFieldString: + p := load(ctxptr, code.Idx) + b = appendStructKey(ctx, code, b) + b = appendString(ctx, b, ptrToString(p+uintptr(code.Offset))) + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyString: + p := load(ctxptr, code.Idx) + v := ptrToString(p + uintptr(code.Offset)) + if v != "" { + b = appendStructKey(ctx, code, b) + b = appendString(ctx, b, v) + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructFieldStringString: + p := load(ctxptr, code.Idx) + s := ptrToString(p + uintptr(code.Offset)) + b = appendStructKey(ctx, code, b) + b = appendString(ctx, b, string(appendString(ctx, []byte{}, s))) + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyStringString: + p := load(ctxptr, code.Idx) + v := ptrToString(p + uintptr(code.Offset)) + if v != "" { + b = appendStructKey(ctx, code, b) + b = appendString(ctx, b, string(appendString(ctx, []byte{}, v))) + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructFieldStringPtr: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + b = appendStructKey(ctx, code, b) + if p == 0 { + b = appendNull(ctx, b) + } else { + b = appendString(ctx, b, ptrToString(p)) + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyStringPtr: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + b = appendString(ctx, b, ptrToString(p)) + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructFieldStringPtrString: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + b = appendStructKey(ctx, code, b) + if p == 0 { + b = appendNull(ctx, b) + } else { + b = appendString(ctx, b, string(appendString(ctx, []byte{}, ptrToString(p)))) + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyStringPtrString: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + b = appendString(ctx, b, string(appendString(ctx, []byte{}, ptrToString(p)))) + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructFieldBool: + p := load(ctxptr, code.Idx) + b = appendStructKey(ctx, code, b) + b = appendBool(ctx, b, ptrToBool(p+uintptr(code.Offset))) + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyBool: + p := load(ctxptr, code.Idx) + v := ptrToBool(p + uintptr(code.Offset)) + if v { + b = appendStructKey(ctx, code, b) + b = appendBool(ctx, b, v) + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructFieldBoolString: + p := load(ctxptr, code.Idx) + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendBool(ctx, b, ptrToBool(p+uintptr(code.Offset))) + b = append(b, '"') + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyBoolString: + p := load(ctxptr, code.Idx) + v := ptrToBool(p + uintptr(code.Offset)) + if v { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendBool(ctx, b, v) + b = append(b, '"') + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructFieldBoolPtr: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + b = appendStructKey(ctx, code, b) + if p == 0 { + b = appendNull(ctx, b) + } else { + b = appendBool(ctx, b, ptrToBool(p)) + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyBoolPtr: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + b = appendBool(ctx, b, ptrToBool(p)) + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructFieldBoolPtrString: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + b = appendStructKey(ctx, code, b) + if p == 0 { + b = appendNull(ctx, b) + } else { + b = append(b, '"') + b = appendBool(ctx, b, ptrToBool(p)) + b = append(b, '"') + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyBoolPtrString: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendBool(ctx, b, ptrToBool(p)) + b = append(b, '"') + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructFieldBytes: + p := load(ctxptr, code.Idx) + b = appendStructKey(ctx, code, b) + b = appendByteSlice(ctx, b, ptrToBytes(p+uintptr(code.Offset))) + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyBytes: + p := load(ctxptr, code.Idx) + v := ptrToBytes(p + uintptr(code.Offset)) + if len(v) > 0 { + b = appendStructKey(ctx, code, b) + b = appendByteSlice(ctx, b, v) + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructFieldBytesPtr: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + b = appendStructKey(ctx, code, b) + if p == 0 { + b = appendNull(ctx, b) + } else { + b = appendByteSlice(ctx, b, ptrToBytes(p)) + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyBytesPtr: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + b = appendByteSlice(ctx, b, ptrToBytes(p)) + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructFieldNumber: + p := load(ctxptr, code.Idx) + b = appendStructKey(ctx, code, b) + bb, err := appendNumber(ctx, b, ptrToNumber(p+uintptr(code.Offset))) + if err != nil { + return nil, err + } + b = appendComma(ctx, bb) + code = code.Next + case encoder.OpStructFieldOmitEmptyNumber: + p := load(ctxptr, code.Idx) + v := ptrToNumber(p + uintptr(code.Offset)) + if v != "" { + b = appendStructKey(ctx, code, b) + bb, err := appendNumber(ctx, b, v) + if err != nil { + return nil, err + } + b = appendComma(ctx, bb) + } + code = code.Next + case encoder.OpStructFieldNumberString: + p := load(ctxptr, code.Idx) + b = appendStructKey(ctx, code, b) + b = append(b, '"') + bb, err := appendNumber(ctx, b, ptrToNumber(p+uintptr(code.Offset))) + if err != nil { + return nil, err + } + b = append(bb, '"') + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyNumberString: + p := load(ctxptr, code.Idx) + v := ptrToNumber(p + uintptr(code.Offset)) + if v != "" { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + bb, err := appendNumber(ctx, b, v) + if err != nil { + return nil, err + } + b = append(bb, '"') + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructFieldNumberPtr: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + b = appendStructKey(ctx, code, b) + if p == 0 { + b = appendNull(ctx, b) + } else { + bb, err := appendNumber(ctx, b, ptrToNumber(p)) + if err != nil { + return nil, err + } + b = bb + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyNumberPtr: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + bb, err := appendNumber(ctx, b, ptrToNumber(p)) + if err != nil { + return nil, err + } + b = appendComma(ctx, bb) + } + code = code.Next + case encoder.OpStructFieldNumberPtrString: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + b = appendStructKey(ctx, code, b) + if p == 0 { + b = appendNull(ctx, b) + } else { + b = append(b, '"') + bb, err := appendNumber(ctx, b, ptrToNumber(p)) + if err != nil { + return nil, err + } + b = append(bb, '"') + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyNumberPtrString: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + bb, err := appendNumber(ctx, b, ptrToNumber(p)) + if err != nil { + return nil, err + } + b = append(bb, '"') + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructFieldMarshalJSON: + p := load(ctxptr, code.Idx) + b = appendStructKey(ctx, code, b) + p += uintptr(code.Offset) + if (code.Flags & encoder.IsNilableTypeFlags) != 0 { + p = ptrToPtr(p) + } + if p == 0 && (code.Flags&encoder.NilCheckFlags) != 0 { + b = appendNull(ctx, b) + } else { + bb, err := appendMarshalJSON(ctx, code, b, ptrToInterface(code, p)) + if err != nil { + return nil, err + } + b = bb + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyMarshalJSON: + p := load(ctxptr, code.Idx) + p += uintptr(code.Offset) + if (code.Flags & encoder.IsNilableTypeFlags) != 0 { + p = ptrToPtr(p) + } + if p == 0 && (code.Flags&encoder.NilCheckFlags) != 0 { + code = code.NextField + break + } + iface := ptrToInterface(code, p) + if (code.Flags&encoder.NilCheckFlags) != 0 && encoder.IsNilForMarshaler(iface) { + code = code.NextField + break + } + b = appendStructKey(ctx, code, b) + bb, err := appendMarshalJSON(ctx, code, b, iface) + if err != nil { + return nil, err + } + b = appendComma(ctx, bb) + code = code.Next + case encoder.OpStructFieldMarshalJSONPtr: + p := load(ctxptr, code.Idx) + b = appendStructKey(ctx, code, b) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p == 0 { + b = appendNull(ctx, b) + } else { + bb, err := appendMarshalJSON(ctx, code, b, ptrToInterface(code, p)) + if err != nil { + return nil, err + } + b = bb + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyMarshalJSONPtr: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + bb, err := appendMarshalJSON(ctx, code, b, ptrToInterface(code, p)) + if err != nil { + return nil, err + } + b = appendComma(ctx, bb) + } + code = code.Next + case encoder.OpStructFieldMarshalText: + p := load(ctxptr, code.Idx) + b = appendStructKey(ctx, code, b) + p += uintptr(code.Offset) + if (code.Flags & encoder.IsNilableTypeFlags) != 0 { + p = ptrToPtr(p) + } + if p == 0 && (code.Flags&encoder.NilCheckFlags) != 0 { + b = appendNull(ctx, b) + } else { + bb, err := appendMarshalText(ctx, code, b, ptrToInterface(code, p)) + if err != nil { + return nil, err + } + b = bb + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyMarshalText: + p := load(ctxptr, code.Idx) + p += uintptr(code.Offset) + if (code.Flags & encoder.IsNilableTypeFlags) != 0 { + p = ptrToPtr(p) + } + if p == 0 && (code.Flags&encoder.NilCheckFlags) != 0 { + code = code.NextField + break + } + b = appendStructKey(ctx, code, b) + bb, err := appendMarshalText(ctx, code, b, ptrToInterface(code, p)) + if err != nil { + return nil, err + } + b = appendComma(ctx, bb) + code = code.Next + case encoder.OpStructFieldMarshalTextPtr: + p := load(ctxptr, code.Idx) + b = appendStructKey(ctx, code, b) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p == 0 { + b = appendNull(ctx, b) + } else { + bb, err := appendMarshalText(ctx, code, b, ptrToInterface(code, p)) + if err != nil { + return nil, err + } + b = bb + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyMarshalTextPtr: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + bb, err := appendMarshalText(ctx, code, b, ptrToInterface(code, p)) + if err != nil { + return nil, err + } + b = appendComma(ctx, bb) + } + code = code.Next + case encoder.OpStructFieldArray: + b = appendStructKey(ctx, code, b) + p := load(ctxptr, code.Idx) + p += uintptr(code.Offset) + code = code.Next + store(ctxptr, code.Idx, p) + case encoder.OpStructFieldOmitEmptyArray: + b = appendStructKey(ctx, code, b) + p := load(ctxptr, code.Idx) + p += uintptr(code.Offset) + code = code.Next + store(ctxptr, code.Idx, p) + case encoder.OpStructFieldArrayPtr: + b = appendStructKey(ctx, code, b) + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + code = code.Next + store(ctxptr, code.Idx, p) + case encoder.OpStructFieldOmitEmptyArrayPtr: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + code = code.Next + store(ctxptr, code.Idx, p) + } else { + code = code.NextField + } + case encoder.OpStructFieldSlice: + b = appendStructKey(ctx, code, b) + p := load(ctxptr, code.Idx) + p += uintptr(code.Offset) + code = code.Next + store(ctxptr, code.Idx, p) + case encoder.OpStructFieldOmitEmptySlice: + p := load(ctxptr, code.Idx) + p += uintptr(code.Offset) + slice := ptrToSlice(p) + if slice.Len == 0 { + code = code.NextField + } else { + b = appendStructKey(ctx, code, b) + code = code.Next + store(ctxptr, code.Idx, p) + } + case encoder.OpStructFieldSlicePtr: + b = appendStructKey(ctx, code, b) + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + code = code.Next + store(ctxptr, code.Idx, p) + case encoder.OpStructFieldOmitEmptySlicePtr: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + code = code.Next + store(ctxptr, code.Idx, p) + } else { + code = code.NextField + } + case encoder.OpStructFieldMap: + b = appendStructKey(ctx, code, b) + p := load(ctxptr, code.Idx) + p = ptrToPtr(p + uintptr(code.Offset)) + code = code.Next + store(ctxptr, code.Idx, p) + case encoder.OpStructFieldOmitEmptyMap: + p := load(ctxptr, code.Idx) + p = ptrToPtr(p + uintptr(code.Offset)) + if p == 0 || maplen(ptrToUnsafePtr(p)) == 0 { + code = code.NextField + } else { + b = appendStructKey(ctx, code, b) + code = code.Next + store(ctxptr, code.Idx, p) + } + case encoder.OpStructFieldMapPtr: + b = appendStructKey(ctx, code, b) + p := load(ctxptr, code.Idx) + p = ptrToPtr(p + uintptr(code.Offset)) + if p != 0 { + p = ptrToNPtr(p, code.PtrNum) + } + code = code.Next + store(ctxptr, code.Idx, p) + case encoder.OpStructFieldOmitEmptyMapPtr: + p := load(ctxptr, code.Idx) + p = ptrToPtr(p + uintptr(code.Offset)) + if p != 0 { + p = ptrToNPtr(p, code.PtrNum) + } + if p != 0 { + b = appendStructKey(ctx, code, b) + code = code.Next + store(ctxptr, code.Idx, p) + } else { + code = code.NextField + } + case encoder.OpStructFieldStruct: + b = appendStructKey(ctx, code, b) + p := load(ctxptr, code.Idx) + p += uintptr(code.Offset) + code = code.Next + store(ctxptr, code.Idx, p) + case encoder.OpStructFieldOmitEmptyStruct: + p := load(ctxptr, code.Idx) + p += uintptr(code.Offset) + if ptrToPtr(p) == 0 && (code.Flags&encoder.IsNextOpPtrTypeFlags) != 0 { + code = code.NextField + } else { + b = appendStructKey(ctx, code, b) + code = code.Next + store(ctxptr, code.Idx, p) + } + case encoder.OpStructAnonymousEnd: + code = code.Next + case encoder.OpStructEnd: + b = appendStructEndSkipLast(ctx, code, b) + code = code.Next + case encoder.OpStructEndInt: + p := load(ctxptr, code.Idx) + b = appendStructKey(ctx, code, b) + b = appendInt(ctx, b, ptrToUint64(p+uintptr(code.Offset)), code) + b = appendStructEnd(ctx, code, b) + code = code.Next + case encoder.OpStructEndOmitEmptyInt: + p := load(ctxptr, code.Idx) + u64 := ptrToUint64(p + uintptr(code.Offset)) + v := u64 & ((1 << code.NumBitSize) - 1) + if v != 0 { + b = appendStructKey(ctx, code, b) + b = appendInt(ctx, b, u64, code) + b = appendStructEnd(ctx, code, b) + } else { + b = appendStructEndSkipLast(ctx, code, b) + } + code = code.Next + case encoder.OpStructEndIntString: + p := load(ctxptr, code.Idx) + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendInt(ctx, b, ptrToUint64(p+uintptr(code.Offset)), code) + b = append(b, '"') + b = appendStructEnd(ctx, code, b) + code = code.Next + case encoder.OpStructEndOmitEmptyIntString: + p := load(ctxptr, code.Idx) + u64 := ptrToUint64(p + uintptr(code.Offset)) + v := u64 & ((1 << code.NumBitSize) - 1) + if v != 0 { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendInt(ctx, b, u64, code) + b = append(b, '"') + b = appendStructEnd(ctx, code, b) + } else { + b = appendStructEndSkipLast(ctx, code, b) + } + code = code.Next + case encoder.OpStructEndIntPtr: + b = appendStructKey(ctx, code, b) + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p == 0 { + b = appendNull(ctx, b) + } else { + b = appendInt(ctx, b, ptrToUint64(p), code) + } + b = appendStructEnd(ctx, code, b) + code = code.Next + case encoder.OpStructEndOmitEmptyIntPtr: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + b = appendInt(ctx, b, ptrToUint64(p), code) + b = appendStructEnd(ctx, code, b) + } else { + b = appendStructEndSkipLast(ctx, code, b) + } + code = code.Next + case encoder.OpStructEndIntPtrString: + b = appendStructKey(ctx, code, b) + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p == 0 { + b = appendNull(ctx, b) + } else { + b = append(b, '"') + b = appendInt(ctx, b, ptrToUint64(p), code) + b = append(b, '"') + } + b = appendStructEnd(ctx, code, b) + code = code.Next + case encoder.OpStructEndOmitEmptyIntPtrString: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendInt(ctx, b, ptrToUint64(p), code) + b = append(b, '"') + b = appendStructEnd(ctx, code, b) + } else { + b = appendStructEndSkipLast(ctx, code, b) + } + code = code.Next + case encoder.OpStructEndUint: + p := load(ctxptr, code.Idx) + b = appendStructKey(ctx, code, b) + b = appendUint(ctx, b, ptrToUint64(p+uintptr(code.Offset)), code) + b = appendStructEnd(ctx, code, b) + code = code.Next + case encoder.OpStructEndOmitEmptyUint: + p := load(ctxptr, code.Idx) + u64 := ptrToUint64(p + uintptr(code.Offset)) + v := u64 & ((1 << code.NumBitSize) - 1) + if v != 0 { + b = appendStructKey(ctx, code, b) + b = appendUint(ctx, b, u64, code) + b = appendStructEnd(ctx, code, b) + } else { + b = appendStructEndSkipLast(ctx, code, b) + } + code = code.Next + case encoder.OpStructEndUintString: + p := load(ctxptr, code.Idx) + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendUint(ctx, b, ptrToUint64(p+uintptr(code.Offset)), code) + b = append(b, '"') + b = appendStructEnd(ctx, code, b) + code = code.Next + case encoder.OpStructEndOmitEmptyUintString: + p := load(ctxptr, code.Idx) + u64 := ptrToUint64(p + uintptr(code.Offset)) + v := u64 & ((1 << code.NumBitSize) - 1) + if v != 0 { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendUint(ctx, b, u64, code) + b = append(b, '"') + b = appendStructEnd(ctx, code, b) + } else { + b = appendStructEndSkipLast(ctx, code, b) + } + code = code.Next + case encoder.OpStructEndUintPtr: + b = appendStructKey(ctx, code, b) + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p == 0 { + b = appendNull(ctx, b) + } else { + b = appendUint(ctx, b, ptrToUint64(p), code) + } + b = appendStructEnd(ctx, code, b) + code = code.Next + case encoder.OpStructEndOmitEmptyUintPtr: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + b = appendUint(ctx, b, ptrToUint64(p), code) + b = appendStructEnd(ctx, code, b) + } else { + b = appendStructEndSkipLast(ctx, code, b) + } + code = code.Next + case encoder.OpStructEndUintPtrString: + b = appendStructKey(ctx, code, b) + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p == 0 { + b = appendNull(ctx, b) + } else { + b = append(b, '"') + b = appendUint(ctx, b, ptrToUint64(p), code) + b = append(b, '"') + } + b = appendStructEnd(ctx, code, b) + code = code.Next + case encoder.OpStructEndOmitEmptyUintPtrString: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendUint(ctx, b, ptrToUint64(p), code) + b = append(b, '"') + b = appendStructEnd(ctx, code, b) + } else { + b = appendStructEndSkipLast(ctx, code, b) + } + code = code.Next + case encoder.OpStructEndFloat32: + p := load(ctxptr, code.Idx) + b = appendStructKey(ctx, code, b) + b = appendFloat32(ctx, b, ptrToFloat32(p+uintptr(code.Offset))) + b = appendStructEnd(ctx, code, b) + code = code.Next + case encoder.OpStructEndOmitEmptyFloat32: + p := load(ctxptr, code.Idx) + v := ptrToFloat32(p + uintptr(code.Offset)) + if v != 0 { + b = appendStructKey(ctx, code, b) + b = appendFloat32(ctx, b, v) + b = appendStructEnd(ctx, code, b) + } else { + b = appendStructEndSkipLast(ctx, code, b) + } + code = code.Next + case encoder.OpStructEndFloat32String: + p := load(ctxptr, code.Idx) + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendFloat32(ctx, b, ptrToFloat32(p+uintptr(code.Offset))) + b = append(b, '"') + b = appendStructEnd(ctx, code, b) + code = code.Next + case encoder.OpStructEndOmitEmptyFloat32String: + p := load(ctxptr, code.Idx) + v := ptrToFloat32(p + uintptr(code.Offset)) + if v != 0 { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendFloat32(ctx, b, v) + b = append(b, '"') + b = appendStructEnd(ctx, code, b) + } else { + b = appendStructEndSkipLast(ctx, code, b) + } + code = code.Next + case encoder.OpStructEndFloat32Ptr: + b = appendStructKey(ctx, code, b) + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p == 0 { + b = appendNull(ctx, b) + } else { + b = appendFloat32(ctx, b, ptrToFloat32(p)) + } + b = appendStructEnd(ctx, code, b) + code = code.Next + case encoder.OpStructEndOmitEmptyFloat32Ptr: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + b = appendFloat32(ctx, b, ptrToFloat32(p)) + b = appendStructEnd(ctx, code, b) + } else { + b = appendStructEndSkipLast(ctx, code, b) + } + code = code.Next + case encoder.OpStructEndFloat32PtrString: + b = appendStructKey(ctx, code, b) + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p == 0 { + b = appendNull(ctx, b) + } else { + b = append(b, '"') + b = appendFloat32(ctx, b, ptrToFloat32(p)) + b = append(b, '"') + } + b = appendStructEnd(ctx, code, b) + code = code.Next + case encoder.OpStructEndOmitEmptyFloat32PtrString: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendFloat32(ctx, b, ptrToFloat32(p)) + b = append(b, '"') + b = appendStructEnd(ctx, code, b) + } else { + b = appendStructEndSkipLast(ctx, code, b) + } + code = code.Next + case encoder.OpStructEndFloat64: + p := load(ctxptr, code.Idx) + v := ptrToFloat64(p + uintptr(code.Offset)) + if math.IsInf(v, 0) || math.IsNaN(v) { + return nil, errUnsupportedFloat(v) + } + b = appendStructKey(ctx, code, b) + b = appendFloat64(ctx, b, v) + b = appendStructEnd(ctx, code, b) + code = code.Next + case encoder.OpStructEndOmitEmptyFloat64: + p := load(ctxptr, code.Idx) + v := ptrToFloat64(p + uintptr(code.Offset)) + if v != 0 { + if math.IsInf(v, 0) || math.IsNaN(v) { + return nil, errUnsupportedFloat(v) + } + b = appendStructKey(ctx, code, b) + b = appendFloat64(ctx, b, v) + b = appendStructEnd(ctx, code, b) + } else { + b = appendStructEndSkipLast(ctx, code, b) + } + code = code.Next + case encoder.OpStructEndFloat64String: + p := load(ctxptr, code.Idx) + v := ptrToFloat64(p + uintptr(code.Offset)) + if math.IsInf(v, 0) || math.IsNaN(v) { + return nil, errUnsupportedFloat(v) + } + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendFloat64(ctx, b, v) + b = append(b, '"') + b = appendStructEnd(ctx, code, b) + code = code.Next + case encoder.OpStructEndOmitEmptyFloat64String: + p := load(ctxptr, code.Idx) + v := ptrToFloat64(p + uintptr(code.Offset)) + if v != 0 { + if math.IsInf(v, 0) || math.IsNaN(v) { + return nil, errUnsupportedFloat(v) + } + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendFloat64(ctx, b, v) + b = append(b, '"') + b = appendStructEnd(ctx, code, b) + } else { + b = appendStructEndSkipLast(ctx, code, b) + } + code = code.Next + case encoder.OpStructEndFloat64Ptr: + b = appendStructKey(ctx, code, b) + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p == 0 { + b = appendNull(ctx, b) + b = appendStructEnd(ctx, code, b) + code = code.Next + break + } + v := ptrToFloat64(p) + if math.IsInf(v, 0) || math.IsNaN(v) { + return nil, errUnsupportedFloat(v) + } + b = appendFloat64(ctx, b, v) + b = appendStructEnd(ctx, code, b) + code = code.Next + case encoder.OpStructEndOmitEmptyFloat64Ptr: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + v := ptrToFloat64(p) + if math.IsInf(v, 0) || math.IsNaN(v) { + return nil, errUnsupportedFloat(v) + } + b = appendFloat64(ctx, b, v) + b = appendStructEnd(ctx, code, b) + } else { + b = appendStructEndSkipLast(ctx, code, b) + } + code = code.Next + case encoder.OpStructEndFloat64PtrString: + b = appendStructKey(ctx, code, b) + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p == 0 { + b = appendNull(ctx, b) + } else { + b = append(b, '"') + v := ptrToFloat64(p) + if math.IsInf(v, 0) || math.IsNaN(v) { + return nil, errUnsupportedFloat(v) + } + b = appendFloat64(ctx, b, v) + b = append(b, '"') + } + b = appendStructEnd(ctx, code, b) + code = code.Next + case encoder.OpStructEndOmitEmptyFloat64PtrString: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + v := ptrToFloat64(p) + if math.IsInf(v, 0) || math.IsNaN(v) { + return nil, errUnsupportedFloat(v) + } + b = append(b, '"') + b = appendFloat64(ctx, b, v) + b = append(b, '"') + b = appendStructEnd(ctx, code, b) + } else { + b = appendStructEndSkipLast(ctx, code, b) + } + code = code.Next + case encoder.OpStructEndString: + p := load(ctxptr, code.Idx) + b = appendStructKey(ctx, code, b) + b = appendString(ctx, b, ptrToString(p+uintptr(code.Offset))) + b = appendStructEnd(ctx, code, b) + code = code.Next + case encoder.OpStructEndOmitEmptyString: + p := load(ctxptr, code.Idx) + v := ptrToString(p + uintptr(code.Offset)) + if v != "" { + b = appendStructKey(ctx, code, b) + b = appendString(ctx, b, v) + b = appendStructEnd(ctx, code, b) + } else { + b = appendStructEndSkipLast(ctx, code, b) + } + code = code.Next + case encoder.OpStructEndStringString: + p := load(ctxptr, code.Idx) + b = appendStructKey(ctx, code, b) + s := ptrToString(p + uintptr(code.Offset)) + b = appendString(ctx, b, string(appendString(ctx, []byte{}, s))) + b = appendStructEnd(ctx, code, b) + code = code.Next + case encoder.OpStructEndOmitEmptyStringString: + p := load(ctxptr, code.Idx) + v := ptrToString(p + uintptr(code.Offset)) + if v != "" { + b = appendStructKey(ctx, code, b) + b = appendString(ctx, b, string(appendString(ctx, []byte{}, v))) + b = appendStructEnd(ctx, code, b) + } else { + b = appendStructEndSkipLast(ctx, code, b) + } + code = code.Next + case encoder.OpStructEndStringPtr: + b = appendStructKey(ctx, code, b) + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p == 0 { + b = appendNull(ctx, b) + } else { + b = appendString(ctx, b, ptrToString(p)) + } + b = appendStructEnd(ctx, code, b) + code = code.Next + case encoder.OpStructEndOmitEmptyStringPtr: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + b = appendString(ctx, b, ptrToString(p)) + b = appendStructEnd(ctx, code, b) + } else { + b = appendStructEndSkipLast(ctx, code, b) + } + code = code.Next + case encoder.OpStructEndStringPtrString: + b = appendStructKey(ctx, code, b) + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p == 0 { + b = appendNull(ctx, b) + } else { + b = appendString(ctx, b, string(appendString(ctx, []byte{}, ptrToString(p)))) + } + b = appendStructEnd(ctx, code, b) + code = code.Next + case encoder.OpStructEndOmitEmptyStringPtrString: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + b = appendString(ctx, b, string(appendString(ctx, []byte{}, ptrToString(p)))) + b = appendStructEnd(ctx, code, b) + } else { + b = appendStructEndSkipLast(ctx, code, b) + } + code = code.Next + case encoder.OpStructEndBool: + p := load(ctxptr, code.Idx) + b = appendStructKey(ctx, code, b) + b = appendBool(ctx, b, ptrToBool(p+uintptr(code.Offset))) + b = appendStructEnd(ctx, code, b) + code = code.Next + case encoder.OpStructEndOmitEmptyBool: + p := load(ctxptr, code.Idx) + v := ptrToBool(p + uintptr(code.Offset)) + if v { + b = appendStructKey(ctx, code, b) + b = appendBool(ctx, b, v) + b = appendStructEnd(ctx, code, b) + } else { + b = appendStructEndSkipLast(ctx, code, b) + } + code = code.Next + case encoder.OpStructEndBoolString: + p := load(ctxptr, code.Idx) + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendBool(ctx, b, ptrToBool(p+uintptr(code.Offset))) + b = append(b, '"') + b = appendStructEnd(ctx, code, b) + code = code.Next + case encoder.OpStructEndOmitEmptyBoolString: + p := load(ctxptr, code.Idx) + v := ptrToBool(p + uintptr(code.Offset)) + if v { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendBool(ctx, b, v) + b = append(b, '"') + b = appendStructEnd(ctx, code, b) + } else { + b = appendStructEndSkipLast(ctx, code, b) + } + code = code.Next + case encoder.OpStructEndBoolPtr: + b = appendStructKey(ctx, code, b) + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p == 0 { + b = appendNull(ctx, b) + } else { + b = appendBool(ctx, b, ptrToBool(p)) + } + b = appendStructEnd(ctx, code, b) + code = code.Next + case encoder.OpStructEndOmitEmptyBoolPtr: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + b = appendBool(ctx, b, ptrToBool(p)) + b = appendStructEnd(ctx, code, b) + } else { + b = appendStructEndSkipLast(ctx, code, b) + } + code = code.Next + case encoder.OpStructEndBoolPtrString: + b = appendStructKey(ctx, code, b) + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p == 0 { + b = appendNull(ctx, b) + } else { + b = append(b, '"') + b = appendBool(ctx, b, ptrToBool(p)) + b = append(b, '"') + } + b = appendStructEnd(ctx, code, b) + code = code.Next + case encoder.OpStructEndOmitEmptyBoolPtrString: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendBool(ctx, b, ptrToBool(p)) + b = append(b, '"') + b = appendStructEnd(ctx, code, b) + } else { + b = appendStructEndSkipLast(ctx, code, b) + } + code = code.Next + case encoder.OpStructEndBytes: + p := load(ctxptr, code.Idx) + b = appendStructKey(ctx, code, b) + b = appendByteSlice(ctx, b, ptrToBytes(p+uintptr(code.Offset))) + b = appendStructEnd(ctx, code, b) + code = code.Next + case encoder.OpStructEndOmitEmptyBytes: + p := load(ctxptr, code.Idx) + v := ptrToBytes(p + uintptr(code.Offset)) + if len(v) > 0 { + b = appendStructKey(ctx, code, b) + b = appendByteSlice(ctx, b, v) + b = appendStructEnd(ctx, code, b) + } else { + b = appendStructEndSkipLast(ctx, code, b) + } + code = code.Next + case encoder.OpStructEndBytesPtr: + b = appendStructKey(ctx, code, b) + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p == 0 { + b = appendNull(ctx, b) + } else { + b = appendByteSlice(ctx, b, ptrToBytes(p)) + } + b = appendStructEnd(ctx, code, b) + code = code.Next + case encoder.OpStructEndOmitEmptyBytesPtr: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + b = appendByteSlice(ctx, b, ptrToBytes(p)) + b = appendStructEnd(ctx, code, b) + } else { + b = appendStructEndSkipLast(ctx, code, b) + } + code = code.Next + case encoder.OpStructEndNumber: + p := load(ctxptr, code.Idx) + b = appendStructKey(ctx, code, b) + bb, err := appendNumber(ctx, b, ptrToNumber(p+uintptr(code.Offset))) + if err != nil { + return nil, err + } + b = appendStructEnd(ctx, code, bb) + code = code.Next + case encoder.OpStructEndOmitEmptyNumber: + p := load(ctxptr, code.Idx) + v := ptrToNumber(p + uintptr(code.Offset)) + if v != "" { + b = appendStructKey(ctx, code, b) + bb, err := appendNumber(ctx, b, v) + if err != nil { + return nil, err + } + b = appendStructEnd(ctx, code, bb) + } else { + b = appendStructEndSkipLast(ctx, code, b) + } + code = code.Next + case encoder.OpStructEndNumberString: + p := load(ctxptr, code.Idx) + b = appendStructKey(ctx, code, b) + b = append(b, '"') + bb, err := appendNumber(ctx, b, ptrToNumber(p+uintptr(code.Offset))) + if err != nil { + return nil, err + } + b = append(bb, '"') + b = appendStructEnd(ctx, code, b) + code = code.Next + case encoder.OpStructEndOmitEmptyNumberString: + p := load(ctxptr, code.Idx) + v := ptrToNumber(p + uintptr(code.Offset)) + if v != "" { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + bb, err := appendNumber(ctx, b, v) + if err != nil { + return nil, err + } + b = append(bb, '"') + b = appendStructEnd(ctx, code, b) + } else { + b = appendStructEndSkipLast(ctx, code, b) + } + code = code.Next + case encoder.OpStructEndNumberPtr: + b = appendStructKey(ctx, code, b) + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p == 0 { + b = appendNull(ctx, b) + } else { + bb, err := appendNumber(ctx, b, ptrToNumber(p)) + if err != nil { + return nil, err + } + b = bb + } + b = appendStructEnd(ctx, code, b) + code = code.Next + case encoder.OpStructEndOmitEmptyNumberPtr: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + bb, err := appendNumber(ctx, b, ptrToNumber(p)) + if err != nil { + return nil, err + } + b = appendStructEnd(ctx, code, bb) + } else { + b = appendStructEndSkipLast(ctx, code, b) + } + code = code.Next + case encoder.OpStructEndNumberPtrString: + b = appendStructKey(ctx, code, b) + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p == 0 { + b = appendNull(ctx, b) + } else { + b = append(b, '"') + bb, err := appendNumber(ctx, b, ptrToNumber(p)) + if err != nil { + return nil, err + } + b = append(bb, '"') + } + b = appendStructEnd(ctx, code, b) + code = code.Next + case encoder.OpStructEndOmitEmptyNumberPtrString: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + bb, err := appendNumber(ctx, b, ptrToNumber(p)) + if err != nil { + return nil, err + } + b = append(bb, '"') + b = appendStructEnd(ctx, code, b) + } else { + b = appendStructEndSkipLast(ctx, code, b) + } + code = code.Next + case encoder.OpEnd: + goto END + } + } +END: + return b, nil +} diff --git a/vendor/github.com/goccy/go-json/internal/encoder/vm_color_indent/debug_vm.go b/vendor/github.com/goccy/go-json/internal/encoder/vm_color_indent/debug_vm.go new file mode 100644 index 0000000..a68bbf6 --- /dev/null +++ b/vendor/github.com/goccy/go-json/internal/encoder/vm_color_indent/debug_vm.go @@ -0,0 +1,34 @@ +package vm_color_indent + +import ( + "fmt" + + "github.com/goccy/go-json/internal/encoder" +) + +func DebugRun(ctx *encoder.RuntimeContext, b []byte, codeSet *encoder.OpcodeSet) ([]byte, error) { + var code *encoder.Opcode + if (ctx.Option.Flag & encoder.HTMLEscapeOption) != 0 { + code = codeSet.EscapeKeyCode + } else { + code = codeSet.NoescapeKeyCode + } + + defer func() { + if err := recover(); err != nil { + fmt.Println("=============[DEBUG]===============") + fmt.Println("* [TYPE]") + fmt.Println(codeSet.Type) + fmt.Printf("\n") + fmt.Println("* [ALL OPCODE]") + fmt.Println(code.Dump()) + fmt.Printf("\n") + fmt.Println("* [CONTEXT]") + fmt.Printf("%+v\n", ctx) + fmt.Println("===================================") + panic(err) + } + }() + + return Run(ctx, b, codeSet) +} diff --git a/vendor/github.com/goccy/go-json/internal/encoder/vm_color_indent/util.go b/vendor/github.com/goccy/go-json/internal/encoder/vm_color_indent/util.go new file mode 100644 index 0000000..9f98781 --- /dev/null +++ b/vendor/github.com/goccy/go-json/internal/encoder/vm_color_indent/util.go @@ -0,0 +1,267 @@ +package vm_color_indent + +import ( + "encoding/json" + "fmt" + "unsafe" + + "github.com/goccy/go-json/internal/encoder" + "github.com/goccy/go-json/internal/runtime" +) + +const uintptrSize = 4 << (^uintptr(0) >> 63) + +var ( + appendIndent = encoder.AppendIndent + appendStructEnd = encoder.AppendStructEndIndent + errUnsupportedValue = encoder.ErrUnsupportedValue + errUnsupportedFloat = encoder.ErrUnsupportedFloat + mapiterinit = encoder.MapIterInit + mapiterkey = encoder.MapIterKey + mapitervalue = encoder.MapIterValue + mapiternext = encoder.MapIterNext + maplen = encoder.MapLen +) + +type emptyInterface struct { + typ *runtime.Type + ptr unsafe.Pointer +} + +func errUnimplementedOp(op encoder.OpType) error { + return fmt.Errorf("encoder (indent): opcode %s has not been implemented", op) +} + +func load(base uintptr, idx uint32) uintptr { + addr := base + uintptr(idx) + return **(**uintptr)(unsafe.Pointer(&addr)) +} + +func store(base uintptr, idx uint32, p uintptr) { + addr := base + uintptr(idx) + **(**uintptr)(unsafe.Pointer(&addr)) = p +} + +func loadNPtr(base uintptr, idx uint32, ptrNum uint8) uintptr { + addr := base + uintptr(idx) + p := **(**uintptr)(unsafe.Pointer(&addr)) + for i := uint8(0); i < ptrNum; i++ { + if p == 0 { + return 0 + } + p = ptrToPtr(p) + } + return p +} + +func ptrToUint64(p uintptr) uint64 { return **(**uint64)(unsafe.Pointer(&p)) } +func ptrToFloat32(p uintptr) float32 { return **(**float32)(unsafe.Pointer(&p)) } +func ptrToFloat64(p uintptr) float64 { return **(**float64)(unsafe.Pointer(&p)) } +func ptrToBool(p uintptr) bool { return **(**bool)(unsafe.Pointer(&p)) } +func ptrToBytes(p uintptr) []byte { return **(**[]byte)(unsafe.Pointer(&p)) } +func ptrToNumber(p uintptr) json.Number { return **(**json.Number)(unsafe.Pointer(&p)) } +func ptrToString(p uintptr) string { return **(**string)(unsafe.Pointer(&p)) } +func ptrToSlice(p uintptr) *runtime.SliceHeader { return *(**runtime.SliceHeader)(unsafe.Pointer(&p)) } +func ptrToPtr(p uintptr) uintptr { + return uintptr(**(**unsafe.Pointer)(unsafe.Pointer(&p))) +} +func ptrToNPtr(p uintptr, ptrNum uint8) uintptr { + for i := uint8(0); i < ptrNum; i++ { + if p == 0 { + return 0 + } + p = ptrToPtr(p) + } + return p +} + +func ptrToUnsafePtr(p uintptr) unsafe.Pointer { + return *(*unsafe.Pointer)(unsafe.Pointer(&p)) +} +func ptrToInterface(code *encoder.Opcode, p uintptr) interface{} { + return *(*interface{})(unsafe.Pointer(&emptyInterface{ + typ: code.Type, + ptr: *(*unsafe.Pointer)(unsafe.Pointer(&p)), + })) +} + +func appendInt(ctx *encoder.RuntimeContext, b []byte, v uint64, code *encoder.Opcode) []byte { + format := ctx.Option.ColorScheme.Int + b = append(b, format.Header...) + b = encoder.AppendInt(ctx, b, v, code) + return append(b, format.Footer...) +} + +func appendUint(ctx *encoder.RuntimeContext, b []byte, v uint64, code *encoder.Opcode) []byte { + format := ctx.Option.ColorScheme.Uint + b = append(b, format.Header...) + b = encoder.AppendUint(ctx, b, v, code) + return append(b, format.Footer...) +} + +func appendFloat32(ctx *encoder.RuntimeContext, b []byte, v float32) []byte { + format := ctx.Option.ColorScheme.Float + b = append(b, format.Header...) + b = encoder.AppendFloat32(ctx, b, v) + return append(b, format.Footer...) +} + +func appendFloat64(ctx *encoder.RuntimeContext, b []byte, v float64) []byte { + format := ctx.Option.ColorScheme.Float + b = append(b, format.Header...) + b = encoder.AppendFloat64(ctx, b, v) + return append(b, format.Footer...) +} + +func appendString(ctx *encoder.RuntimeContext, b []byte, v string) []byte { + format := ctx.Option.ColorScheme.String + b = append(b, format.Header...) + b = encoder.AppendString(ctx, b, v) + return append(b, format.Footer...) +} + +func appendByteSlice(ctx *encoder.RuntimeContext, b []byte, src []byte) []byte { + format := ctx.Option.ColorScheme.Binary + b = append(b, format.Header...) + b = encoder.AppendByteSlice(ctx, b, src) + return append(b, format.Footer...) +} + +func appendNumber(ctx *encoder.RuntimeContext, b []byte, n json.Number) ([]byte, error) { + format := ctx.Option.ColorScheme.Int + b = append(b, format.Header...) + bb, err := encoder.AppendNumber(ctx, b, n) + if err != nil { + return nil, err + } + return append(bb, format.Footer...), nil +} + +func appendBool(ctx *encoder.RuntimeContext, b []byte, v bool) []byte { + format := ctx.Option.ColorScheme.Bool + b = append(b, format.Header...) + if v { + b = append(b, "true"...) + } else { + b = append(b, "false"...) + } + return append(b, format.Footer...) +} + +func appendNull(ctx *encoder.RuntimeContext, b []byte) []byte { + format := ctx.Option.ColorScheme.Null + b = append(b, format.Header...) + b = append(b, "null"...) + return append(b, format.Footer...) +} + +func appendComma(_ *encoder.RuntimeContext, b []byte) []byte { + return append(b, ',', '\n') +} + +func appendColon(_ *encoder.RuntimeContext, b []byte) []byte { + return append(b, ':', ' ') +} + +func appendMapKeyValue(ctx *encoder.RuntimeContext, code *encoder.Opcode, b, key, value []byte) []byte { + b = appendIndent(ctx, b, code.Indent+1) + b = append(b, key...) + b[len(b)-2] = ':' + b[len(b)-1] = ' ' + return append(b, value...) +} + +func appendMapEnd(ctx *encoder.RuntimeContext, code *encoder.Opcode, b []byte) []byte { + b = b[:len(b)-2] + b = append(b, '\n') + b = appendIndent(ctx, b, code.Indent) + return append(b, '}', ',', '\n') +} + +func appendArrayHead(ctx *encoder.RuntimeContext, code *encoder.Opcode, b []byte) []byte { + b = append(b, '[', '\n') + return appendIndent(ctx, b, code.Indent+1) +} + +func appendArrayEnd(ctx *encoder.RuntimeContext, code *encoder.Opcode, b []byte) []byte { + b = b[:len(b)-2] + b = append(b, '\n') + b = appendIndent(ctx, b, code.Indent) + return append(b, ']', ',', '\n') +} + +func appendEmptyArray(_ *encoder.RuntimeContext, b []byte) []byte { + return append(b, '[', ']', ',', '\n') +} + +func appendEmptyObject(_ *encoder.RuntimeContext, b []byte) []byte { + return append(b, '{', '}', ',', '\n') +} + +func appendObjectEnd(ctx *encoder.RuntimeContext, code *encoder.Opcode, b []byte) []byte { + last := len(b) - 1 + b[last] = '\n' + b = appendIndent(ctx, b, code.Indent-1) + return append(b, '}', ',', '\n') +} + +func appendMarshalJSON(ctx *encoder.RuntimeContext, code *encoder.Opcode, b []byte, v interface{}) ([]byte, error) { + return encoder.AppendMarshalJSONIndent(ctx, code, b, v) +} + +func appendMarshalText(ctx *encoder.RuntimeContext, code *encoder.Opcode, b []byte, v interface{}) ([]byte, error) { + format := ctx.Option.ColorScheme.String + b = append(b, format.Header...) + bb, err := encoder.AppendMarshalTextIndent(ctx, code, b, v) + if err != nil { + return nil, err + } + return append(bb, format.Footer...), nil +} + +func appendStructHead(_ *encoder.RuntimeContext, b []byte) []byte { + return append(b, '{', '\n') +} + +func appendStructKey(ctx *encoder.RuntimeContext, code *encoder.Opcode, b []byte) []byte { + b = appendIndent(ctx, b, code.Indent) + + format := ctx.Option.ColorScheme.ObjectKey + b = append(b, format.Header...) + b = append(b, code.Key[:len(code.Key)-1]...) + b = append(b, format.Footer...) + + return append(b, ':', ' ') +} + +func appendStructEndSkipLast(ctx *encoder.RuntimeContext, code *encoder.Opcode, b []byte) []byte { + last := len(b) - 1 + if b[last-1] == '{' { + b[last] = '}' + } else { + if b[last] == '\n' { + // to remove ',' and '\n' characters + b = b[:len(b)-2] + } + b = append(b, '\n') + b = appendIndent(ctx, b, code.Indent-1) + b = append(b, '}') + } + return appendComma(ctx, b) +} + +func restoreIndent(ctx *encoder.RuntimeContext, code *encoder.Opcode, ctxptr uintptr) { + ctx.BaseIndent = uint32(load(ctxptr, code.Length)) +} + +func storeIndent(ctxptr uintptr, code *encoder.Opcode, indent uintptr) { + store(ctxptr, code.Length, indent) +} + +func appendArrayElemIndent(ctx *encoder.RuntimeContext, code *encoder.Opcode, b []byte) []byte { + return appendIndent(ctx, b, code.Indent+1) +} + +func appendMapKeyIndent(ctx *encoder.RuntimeContext, code *encoder.Opcode, b []byte) []byte { + return appendIndent(ctx, b, code.Indent) +} diff --git a/vendor/github.com/goccy/go-json/internal/encoder/vm_color_indent/vm.go b/vendor/github.com/goccy/go-json/internal/encoder/vm_color_indent/vm.go new file mode 100644 index 0000000..60d0083 --- /dev/null +++ b/vendor/github.com/goccy/go-json/internal/encoder/vm_color_indent/vm.go @@ -0,0 +1,5043 @@ +// Code generated by internal/cmd/generator. DO NOT EDIT! +package vm_color_indent + +import ( + "math" + "sort" + "unsafe" + + "github.com/goccy/go-json/internal/encoder" +) + +func Run(ctx *encoder.RuntimeContext, b []byte, codeSet *encoder.OpcodeSet) ([]byte, error) { + recursiveLevel := 0 + ptrOffset := uintptr(0) + ctxptr := ctx.Ptr() + var code *encoder.Opcode + if (ctx.Option.Flag & encoder.HTMLEscapeOption) != 0 { + code = codeSet.EscapeKeyCode + } else { + code = codeSet.NoescapeKeyCode + } + + for { + switch code.Op { + default: + return nil, errUnimplementedOp(code.Op) + case encoder.OpPtr: + p := load(ctxptr, code.Idx) + code = code.Next + store(ctxptr, code.Idx, ptrToPtr(p)) + case encoder.OpIntPtr: + p := loadNPtr(ctxptr, code.Idx, code.PtrNum) + if p == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + code = code.Next + break + } + store(ctxptr, code.Idx, p) + fallthrough + case encoder.OpInt: + b = appendInt(ctx, b, ptrToUint64(load(ctxptr, code.Idx)), code) + b = appendComma(ctx, b) + code = code.Next + case encoder.OpUintPtr: + p := loadNPtr(ctxptr, code.Idx, code.PtrNum) + if p == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + code = code.Next + break + } + store(ctxptr, code.Idx, p) + fallthrough + case encoder.OpUint: + b = appendUint(ctx, b, ptrToUint64(load(ctxptr, code.Idx)), code) + b = appendComma(ctx, b) + code = code.Next + case encoder.OpIntString: + b = append(b, '"') + b = appendInt(ctx, b, ptrToUint64(load(ctxptr, code.Idx)), code) + b = append(b, '"') + b = appendComma(ctx, b) + code = code.Next + case encoder.OpUintString: + b = append(b, '"') + b = appendUint(ctx, b, ptrToUint64(load(ctxptr, code.Idx)), code) + b = append(b, '"') + b = appendComma(ctx, b) + code = code.Next + case encoder.OpFloat32Ptr: + p := loadNPtr(ctxptr, code.Idx, code.PtrNum) + if p == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + code = code.Next + break + } + store(ctxptr, code.Idx, p) + fallthrough + case encoder.OpFloat32: + b = appendFloat32(ctx, b, ptrToFloat32(load(ctxptr, code.Idx))) + b = appendComma(ctx, b) + code = code.Next + case encoder.OpFloat64Ptr: + p := loadNPtr(ctxptr, code.Idx, code.PtrNum) + if p == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + code = code.Next + break + } + store(ctxptr, code.Idx, p) + fallthrough + case encoder.OpFloat64: + v := ptrToFloat64(load(ctxptr, code.Idx)) + if math.IsInf(v, 0) || math.IsNaN(v) { + return nil, errUnsupportedFloat(v) + } + b = appendFloat64(ctx, b, v) + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStringPtr: + p := loadNPtr(ctxptr, code.Idx, code.PtrNum) + if p == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + code = code.Next + break + } + store(ctxptr, code.Idx, p) + fallthrough + case encoder.OpString: + b = appendString(ctx, b, ptrToString(load(ctxptr, code.Idx))) + b = appendComma(ctx, b) + code = code.Next + case encoder.OpBoolPtr: + p := loadNPtr(ctxptr, code.Idx, code.PtrNum) + if p == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + code = code.Next + break + } + store(ctxptr, code.Idx, p) + fallthrough + case encoder.OpBool: + b = appendBool(ctx, b, ptrToBool(load(ctxptr, code.Idx))) + b = appendComma(ctx, b) + code = code.Next + case encoder.OpBytesPtr: + p := loadNPtr(ctxptr, code.Idx, code.PtrNum) + if p == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + code = code.Next + break + } + store(ctxptr, code.Idx, p) + fallthrough + case encoder.OpBytes: + b = appendByteSlice(ctx, b, ptrToBytes(load(ctxptr, code.Idx))) + b = appendComma(ctx, b) + code = code.Next + case encoder.OpNumberPtr: + p := loadNPtr(ctxptr, code.Idx, code.PtrNum) + if p == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + code = code.Next + break + } + store(ctxptr, code.Idx, p) + fallthrough + case encoder.OpNumber: + bb, err := appendNumber(ctx, b, ptrToNumber(load(ctxptr, code.Idx))) + if err != nil { + return nil, err + } + b = appendComma(ctx, bb) + code = code.Next + case encoder.OpInterfacePtr: + p := loadNPtr(ctxptr, code.Idx, code.PtrNum) + if p == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + code = code.Next + break + } + store(ctxptr, code.Idx, p) + fallthrough + case encoder.OpInterface: + p := load(ctxptr, code.Idx) + if p == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + code = code.Next + break + } + if recursiveLevel > encoder.StartDetectingCyclesAfter { + for _, seen := range ctx.SeenPtr { + if p == seen { + return nil, errUnsupportedValue(code, p) + } + } + } + ctx.SeenPtr = append(ctx.SeenPtr, p) + iface := (*emptyInterface)(ptrToUnsafePtr(p)) + if iface.ptr == nil { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + code = code.Next + break + } + + ctx.KeepRefs = append(ctx.KeepRefs, unsafe.Pointer(iface)) + ifaceCodeSet, err := encoder.CompileToGetCodeSet(uintptr(unsafe.Pointer(iface.typ))) + if err != nil { + return nil, err + } + + totalLength := uintptr(code.Length) + 3 + nextTotalLength := uintptr(ifaceCodeSet.CodeLength) + 3 + + var c *encoder.Opcode + if (ctx.Option.Flag & encoder.HTMLEscapeOption) != 0 { + c = ifaceCodeSet.InterfaceEscapeKeyCode + } else { + c = ifaceCodeSet.InterfaceNoescapeKeyCode + } + curlen := uintptr(len(ctx.Ptrs)) + offsetNum := ptrOffset / uintptrSize + oldOffset := ptrOffset + ptrOffset += totalLength * uintptrSize + oldBaseIndent := ctx.BaseIndent + indentDiffFromTop := c.Indent - 1 + ctx.BaseIndent += code.Indent - indentDiffFromTop + + newLen := offsetNum + totalLength + nextTotalLength + if curlen < newLen { + ctx.Ptrs = append(ctx.Ptrs, make([]uintptr, newLen-curlen)...) + } + ctxptr = ctx.Ptr() + ptrOffset // assign new ctxptr + + end := ifaceCodeSet.EndCode + store(ctxptr, c.Idx, uintptr(iface.ptr)) + store(ctxptr, end.Idx, oldOffset) + store(ctxptr, end.ElemIdx, uintptr(unsafe.Pointer(code.Next))) + storeIndent(ctxptr, end, uintptr(oldBaseIndent)) + code = c + recursiveLevel++ + case encoder.OpInterfaceEnd: + recursiveLevel-- + + // restore ctxptr + offset := load(ctxptr, code.Idx) + restoreIndent(ctx, code, ctxptr) + ctx.SeenPtr = ctx.SeenPtr[:len(ctx.SeenPtr)-1] + + codePtr := load(ctxptr, code.ElemIdx) + code = (*encoder.Opcode)(ptrToUnsafePtr(codePtr)) + ctxptr = ctx.Ptr() + offset + ptrOffset = offset + case encoder.OpMarshalJSONPtr: + p := load(ctxptr, code.Idx) + if p == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + code = code.Next + break + } + store(ctxptr, code.Idx, ptrToPtr(p)) + fallthrough + case encoder.OpMarshalJSON: + p := load(ctxptr, code.Idx) + if p == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + code = code.Next + break + } + if (code.Flags&encoder.IsNilableTypeFlags) != 0 && (code.Flags&encoder.IndirectFlags) != 0 { + p = ptrToPtr(p) + } + bb, err := appendMarshalJSON(ctx, code, b, ptrToInterface(code, p)) + if err != nil { + return nil, err + } + b = appendComma(ctx, bb) + code = code.Next + case encoder.OpMarshalTextPtr: + p := load(ctxptr, code.Idx) + if p == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + code = code.Next + break + } + store(ctxptr, code.Idx, ptrToPtr(p)) + fallthrough + case encoder.OpMarshalText: + p := load(ctxptr, code.Idx) + if p == 0 { + b = append(b, `""`...) + b = appendComma(ctx, b) + code = code.Next + break + } + if (code.Flags&encoder.IsNilableTypeFlags) != 0 && (code.Flags&encoder.IndirectFlags) != 0 { + p = ptrToPtr(p) + } + bb, err := appendMarshalText(ctx, code, b, ptrToInterface(code, p)) + if err != nil { + return nil, err + } + b = appendComma(ctx, bb) + code = code.Next + case encoder.OpSlicePtr: + p := loadNPtr(ctxptr, code.Idx, code.PtrNum) + if p == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + code = code.End.Next + break + } + store(ctxptr, code.Idx, p) + fallthrough + case encoder.OpSlice: + p := load(ctxptr, code.Idx) + slice := ptrToSlice(p) + if p == 0 || slice.Data == nil { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + code = code.End.Next + break + } + store(ctxptr, code.ElemIdx, 0) + store(ctxptr, code.Length, uintptr(slice.Len)) + store(ctxptr, code.Idx, uintptr(slice.Data)) + if slice.Len > 0 { + b = appendArrayHead(ctx, code, b) + code = code.Next + store(ctxptr, code.Idx, uintptr(slice.Data)) + } else { + b = appendEmptyArray(ctx, b) + code = code.End.Next + } + case encoder.OpSliceElem: + idx := load(ctxptr, code.ElemIdx) + length := load(ctxptr, code.Length) + idx++ + if idx < length { + b = appendArrayElemIndent(ctx, code, b) + store(ctxptr, code.ElemIdx, idx) + data := load(ctxptr, code.Idx) + size := uintptr(code.Size) + code = code.Next + store(ctxptr, code.Idx, data+idx*size) + } else { + b = appendArrayEnd(ctx, code, b) + code = code.End.Next + } + case encoder.OpArrayPtr: + p := loadNPtr(ctxptr, code.Idx, code.PtrNum) + if p == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + code = code.End.Next + break + } + store(ctxptr, code.Idx, p) + fallthrough + case encoder.OpArray: + p := load(ctxptr, code.Idx) + if p == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + code = code.End.Next + break + } + if code.Length > 0 { + b = appendArrayHead(ctx, code, b) + store(ctxptr, code.ElemIdx, 0) + code = code.Next + store(ctxptr, code.Idx, p) + } else { + b = appendEmptyArray(ctx, b) + code = code.End.Next + } + case encoder.OpArrayElem: + idx := load(ctxptr, code.ElemIdx) + idx++ + if idx < uintptr(code.Length) { + b = appendArrayElemIndent(ctx, code, b) + store(ctxptr, code.ElemIdx, idx) + p := load(ctxptr, code.Idx) + size := uintptr(code.Size) + code = code.Next + store(ctxptr, code.Idx, p+idx*size) + } else { + b = appendArrayEnd(ctx, code, b) + code = code.End.Next + } + case encoder.OpMapPtr: + p := loadNPtr(ctxptr, code.Idx, code.PtrNum) + if p == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + code = code.End.Next + break + } + store(ctxptr, code.Idx, p) + fallthrough + case encoder.OpMap: + p := load(ctxptr, code.Idx) + if p == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + code = code.End.Next + break + } + uptr := ptrToUnsafePtr(p) + mlen := maplen(uptr) + if mlen <= 0 { + b = appendEmptyObject(ctx, b) + code = code.End.Next + break + } + b = appendStructHead(ctx, b) + iter := mapiterinit(code.Type, uptr) + ctx.KeepRefs = append(ctx.KeepRefs, iter) + store(ctxptr, code.ElemIdx, 0) + store(ctxptr, code.Length, uintptr(mlen)) + store(ctxptr, code.MapIter, uintptr(iter)) + if (ctx.Option.Flag & encoder.UnorderedMapOption) != 0 { + b = appendMapKeyIndent(ctx, code.Next, b) + } else { + mapCtx := encoder.NewMapContext(mlen) + mapCtx.Pos = append(mapCtx.Pos, len(b)) + ctx.KeepRefs = append(ctx.KeepRefs, unsafe.Pointer(mapCtx)) + store(ctxptr, code.End.MapPos, uintptr(unsafe.Pointer(mapCtx))) + } + key := mapiterkey(iter) + store(ctxptr, code.Next.Idx, uintptr(key)) + code = code.Next + case encoder.OpMapKey: + idx := load(ctxptr, code.ElemIdx) + length := load(ctxptr, code.Length) + idx++ + if (ctx.Option.Flag & encoder.UnorderedMapOption) != 0 { + if idx < length { + b = appendMapKeyIndent(ctx, code, b) + store(ctxptr, code.ElemIdx, idx) + ptr := load(ctxptr, code.MapIter) + iter := ptrToUnsafePtr(ptr) + key := mapiterkey(iter) + store(ctxptr, code.Next.Idx, uintptr(key)) + code = code.Next + } else { + b = appendObjectEnd(ctx, code, b) + code = code.End.Next + } + } else { + ptr := load(ctxptr, code.End.MapPos) + mapCtx := (*encoder.MapContext)(ptrToUnsafePtr(ptr)) + mapCtx.Pos = append(mapCtx.Pos, len(b)) + if idx < length { + ptr := load(ctxptr, code.MapIter) + iter := ptrToUnsafePtr(ptr) + store(ctxptr, code.ElemIdx, idx) + key := mapiterkey(iter) + store(ctxptr, code.Next.Idx, uintptr(key)) + code = code.Next + } else { + code = code.End + } + } + case encoder.OpMapValue: + if (ctx.Option.Flag & encoder.UnorderedMapOption) != 0 { + b = appendColon(ctx, b) + } else { + ptr := load(ctxptr, code.End.MapPos) + mapCtx := (*encoder.MapContext)(ptrToUnsafePtr(ptr)) + mapCtx.Pos = append(mapCtx.Pos, len(b)) + } + ptr := load(ctxptr, code.MapIter) + iter := ptrToUnsafePtr(ptr) + value := mapitervalue(iter) + store(ctxptr, code.Next.Idx, uintptr(value)) + mapiternext(iter) + code = code.Next + case encoder.OpMapEnd: + // this operation only used by sorted map. + length := int(load(ctxptr, code.Length)) + ptr := load(ctxptr, code.MapPos) + mapCtx := (*encoder.MapContext)(ptrToUnsafePtr(ptr)) + pos := mapCtx.Pos + for i := 0; i < length; i++ { + startKey := pos[i*2] + startValue := pos[i*2+1] + var endValue int + if i+1 < length { + endValue = pos[i*2+2] + } else { + endValue = len(b) + } + mapCtx.Slice.Items = append(mapCtx.Slice.Items, encoder.MapItem{ + Key: b[startKey:startValue], + Value: b[startValue:endValue], + }) + } + sort.Sort(mapCtx.Slice) + buf := mapCtx.Buf + for _, item := range mapCtx.Slice.Items { + buf = appendMapKeyValue(ctx, code, buf, item.Key, item.Value) + } + buf = appendMapEnd(ctx, code, buf) + b = b[:pos[0]] + b = append(b, buf...) + mapCtx.Buf = buf + encoder.ReleaseMapContext(mapCtx) + code = code.Next + case encoder.OpRecursivePtr: + p := load(ctxptr, code.Idx) + if p == 0 { + code = code.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpRecursive: + ptr := load(ctxptr, code.Idx) + if ptr != 0 { + if recursiveLevel > encoder.StartDetectingCyclesAfter { + for _, seen := range ctx.SeenPtr { + if ptr == seen { + return nil, errUnsupportedValue(code, ptr) + } + } + } + } + ctx.SeenPtr = append(ctx.SeenPtr, ptr) + c := code.Jmp.Code + curlen := uintptr(len(ctx.Ptrs)) + offsetNum := ptrOffset / uintptrSize + oldOffset := ptrOffset + ptrOffset += code.Jmp.CurLen * uintptrSize + oldBaseIndent := ctx.BaseIndent + indentDiffFromTop := c.Indent - 1 + ctx.BaseIndent += code.Indent - indentDiffFromTop + + newLen := offsetNum + code.Jmp.CurLen + code.Jmp.NextLen + if curlen < newLen { + ctx.Ptrs = append(ctx.Ptrs, make([]uintptr, newLen-curlen)...) + } + ctxptr = ctx.Ptr() + ptrOffset // assign new ctxptr + + store(ctxptr, c.Idx, ptr) + store(ctxptr, c.End.Next.Idx, oldOffset) + store(ctxptr, c.End.Next.ElemIdx, uintptr(unsafe.Pointer(code.Next))) + storeIndent(ctxptr, c.End.Next, uintptr(oldBaseIndent)) + code = c + recursiveLevel++ + case encoder.OpRecursiveEnd: + recursiveLevel-- + + // restore ctxptr + restoreIndent(ctx, code, ctxptr) + offset := load(ctxptr, code.Idx) + ctx.SeenPtr = ctx.SeenPtr[:len(ctx.SeenPtr)-1] + + codePtr := load(ctxptr, code.ElemIdx) + code = (*encoder.Opcode)(ptrToUnsafePtr(codePtr)) + ctxptr = ctx.Ptr() + offset + ptrOffset = offset + case encoder.OpStructPtrHead: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHead: + p := load(ctxptr, code.Idx) + if p == 0 && ((code.Flags&encoder.IndirectFlags) != 0 || code.Next.Op == encoder.OpStructEnd) { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + if len(code.Key) > 0 { + if (code.Flags&encoder.IsTaggedKeyFlags) != 0 || code.Flags&encoder.AnonymousKeyFlags == 0 { + b = appendStructKey(ctx, code, b) + } + } + p += uintptr(code.Offset) + code = code.Next + store(ctxptr, code.Idx, p) + case encoder.OpStructPtrHeadOmitEmpty: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadOmitEmpty: + p := load(ctxptr, code.Idx) + if p == 0 && ((code.Flags&encoder.IndirectFlags) != 0 || code.Next.Op == encoder.OpStructEnd) { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + p += uintptr(code.Offset) + if p == 0 || (ptrToPtr(p) == 0 && (code.Flags&encoder.IsNextOpPtrTypeFlags) != 0) { + code = code.NextField + } else { + b = appendStructKey(ctx, code, b) + code = code.Next + store(ctxptr, code.Idx, p) + } + case encoder.OpStructPtrHeadInt: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadInt: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + b = appendInt(ctx, b, ptrToUint64(p+uintptr(code.Offset)), code) + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyInt: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadOmitEmptyInt: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + u64 := ptrToUint64(p + uintptr(code.Offset)) + v := u64 & ((1 << code.NumBitSize) - 1) + if v == 0 { + code = code.NextField + } else { + b = appendStructKey(ctx, code, b) + b = appendInt(ctx, b, u64, code) + b = appendComma(ctx, b) + code = code.Next + } + case encoder.OpStructPtrHeadIntString: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadIntString: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendInt(ctx, b, ptrToUint64(p+uintptr(code.Offset)), code) + b = append(b, '"') + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyIntString: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadOmitEmptyIntString: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + u64 := ptrToUint64(p + uintptr(code.Offset)) + v := u64 & ((1 << code.NumBitSize) - 1) + if v == 0 { + code = code.NextField + } else { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendInt(ctx, b, u64, code) + b = append(b, '"') + b = appendComma(ctx, b) + code = code.Next + } + case encoder.OpStructPtrHeadIntPtr: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadIntPtr: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p == 0 { + b = appendNull(ctx, b) + } else { + b = appendInt(ctx, b, ptrToUint64(p), code) + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyIntPtr: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadOmitEmptyIntPtr: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p != 0 { + b = appendStructKey(ctx, code, b) + b = appendInt(ctx, b, ptrToUint64(p), code) + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructPtrHeadIntPtrString: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadIntPtrString: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p == 0 { + b = appendNull(ctx, b) + } else { + b = append(b, '"') + b = appendInt(ctx, b, ptrToUint64(p), code) + b = append(b, '"') + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyIntPtrString: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadOmitEmptyIntPtrString: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p != 0 { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendInt(ctx, b, ptrToUint64(p), code) + b = append(b, '"') + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructPtrHeadUint: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadUint: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + b = appendUint(ctx, b, ptrToUint64(p+uintptr(code.Offset)), code) + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyUint: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadOmitEmptyUint: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + u64 := ptrToUint64(p + uintptr(code.Offset)) + v := u64 & ((1 << code.NumBitSize) - 1) + if v == 0 { + code = code.NextField + } else { + b = appendStructKey(ctx, code, b) + b = appendUint(ctx, b, u64, code) + b = appendComma(ctx, b) + code = code.Next + } + case encoder.OpStructPtrHeadUintString: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadUintString: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendUint(ctx, b, ptrToUint64(p+uintptr(code.Offset)), code) + b = append(b, '"') + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyUintString: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadOmitEmptyUintString: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + u64 := ptrToUint64(p + uintptr(code.Offset)) + v := u64 & ((1 << code.NumBitSize) - 1) + if v == 0 { + code = code.NextField + } else { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendUint(ctx, b, u64, code) + b = append(b, '"') + b = appendComma(ctx, b) + code = code.Next + } + case encoder.OpStructPtrHeadUintPtr: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadUintPtr: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p == 0 { + b = appendNull(ctx, b) + } else { + b = appendUint(ctx, b, ptrToUint64(p), code) + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyUintPtr: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadOmitEmptyUintPtr: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p != 0 { + b = appendStructKey(ctx, code, b) + b = appendUint(ctx, b, ptrToUint64(p), code) + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructPtrHeadUintPtrString: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadUintPtrString: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p == 0 { + b = appendNull(ctx, b) + } else { + b = append(b, '"') + b = appendUint(ctx, b, ptrToUint64(p), code) + b = append(b, '"') + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyUintPtrString: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadOmitEmptyUintPtrString: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p != 0 { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendUint(ctx, b, ptrToUint64(p), code) + b = append(b, '"') + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructPtrHeadFloat32: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadFloat32: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + b = appendFloat32(ctx, b, ptrToFloat32(p+uintptr(code.Offset))) + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyFloat32: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadOmitEmptyFloat32: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + v := ptrToFloat32(p + uintptr(code.Offset)) + if v == 0 { + code = code.NextField + } else { + b = appendStructKey(ctx, code, b) + b = appendFloat32(ctx, b, v) + b = appendComma(ctx, b) + code = code.Next + } + case encoder.OpStructPtrHeadFloat32String: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadFloat32String: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendFloat32(ctx, b, ptrToFloat32(p+uintptr(code.Offset))) + b = append(b, '"') + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyFloat32String: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadOmitEmptyFloat32String: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + v := ptrToFloat32(p + uintptr(code.Offset)) + if v == 0 { + code = code.NextField + } else { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendFloat32(ctx, b, v) + b = append(b, '"') + b = appendComma(ctx, b) + code = code.Next + } + case encoder.OpStructPtrHeadFloat32Ptr: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadFloat32Ptr: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p == 0 { + b = appendNull(ctx, b) + } else { + b = appendFloat32(ctx, b, ptrToFloat32(p)) + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyFloat32Ptr: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadOmitEmptyFloat32Ptr: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p != 0 { + b = appendStructKey(ctx, code, b) + b = appendFloat32(ctx, b, ptrToFloat32(p)) + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructPtrHeadFloat32PtrString: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadFloat32PtrString: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p == 0 { + b = appendNull(ctx, b) + } else { + b = append(b, '"') + b = appendFloat32(ctx, b, ptrToFloat32(p)) + b = append(b, '"') + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyFloat32PtrString: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadOmitEmptyFloat32PtrString: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p != 0 { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendFloat32(ctx, b, ptrToFloat32(p)) + b = append(b, '"') + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructPtrHeadFloat64: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadFloat64: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + v := ptrToFloat64(p + uintptr(code.Offset)) + if math.IsInf(v, 0) || math.IsNaN(v) { + return nil, errUnsupportedFloat(v) + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + b = appendFloat64(ctx, b, v) + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyFloat64: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadOmitEmptyFloat64: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + v := ptrToFloat64(p + uintptr(code.Offset)) + if v == 0 { + code = code.NextField + } else { + if math.IsInf(v, 0) || math.IsNaN(v) { + return nil, errUnsupportedFloat(v) + } + b = appendStructKey(ctx, code, b) + b = appendFloat64(ctx, b, v) + b = appendComma(ctx, b) + code = code.Next + } + case encoder.OpStructPtrHeadFloat64String: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadFloat64String: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + v := ptrToFloat64(p + uintptr(code.Offset)) + if math.IsInf(v, 0) || math.IsNaN(v) { + return nil, errUnsupportedFloat(v) + } + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendFloat64(ctx, b, v) + b = append(b, '"') + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyFloat64String: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadOmitEmptyFloat64String: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + v := ptrToFloat64(p + uintptr(code.Offset)) + if v == 0 { + code = code.NextField + } else { + if math.IsInf(v, 0) || math.IsNaN(v) { + return nil, errUnsupportedFloat(v) + } + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendFloat64(ctx, b, v) + b = append(b, '"') + b = appendComma(ctx, b) + code = code.Next + } + case encoder.OpStructPtrHeadFloat64Ptr: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadFloat64Ptr: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p == 0 { + b = appendNull(ctx, b) + } else { + v := ptrToFloat64(p) + if math.IsInf(v, 0) || math.IsNaN(v) { + return nil, errUnsupportedFloat(v) + } + b = appendFloat64(ctx, b, v) + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyFloat64Ptr: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadOmitEmptyFloat64Ptr: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p != 0 { + b = appendStructKey(ctx, code, b) + v := ptrToFloat64(p) + if math.IsInf(v, 0) || math.IsNaN(v) { + return nil, errUnsupportedFloat(v) + } + b = appendFloat64(ctx, b, v) + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructPtrHeadFloat64PtrString: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadFloat64PtrString: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p == 0 { + b = appendNull(ctx, b) + } else { + b = append(b, '"') + v := ptrToFloat64(p) + if math.IsInf(v, 0) || math.IsNaN(v) { + return nil, errUnsupportedFloat(v) + } + b = appendFloat64(ctx, b, v) + b = append(b, '"') + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyFloat64PtrString: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadOmitEmptyFloat64PtrString: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p != 0 { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + v := ptrToFloat64(p) + if math.IsInf(v, 0) || math.IsNaN(v) { + return nil, errUnsupportedFloat(v) + } + b = appendFloat64(ctx, b, v) + b = append(b, '"') + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructPtrHeadString: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadString: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + b = appendString(ctx, b, ptrToString(p+uintptr(code.Offset))) + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyString: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadOmitEmptyString: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + v := ptrToString(p + uintptr(code.Offset)) + if v == "" { + code = code.NextField + } else { + b = appendStructKey(ctx, code, b) + b = appendString(ctx, b, v) + b = appendComma(ctx, b) + code = code.Next + } + case encoder.OpStructPtrHeadStringString: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadStringString: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + b = appendString(ctx, b, string(appendString(ctx, []byte{}, ptrToString(p+uintptr(code.Offset))))) + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyStringString: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadOmitEmptyStringString: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + v := ptrToString(p + uintptr(code.Offset)) + if v == "" { + code = code.NextField + } else { + b = appendStructKey(ctx, code, b) + b = appendString(ctx, b, string(appendString(ctx, []byte{}, v))) + b = appendComma(ctx, b) + code = code.Next + } + case encoder.OpStructPtrHeadStringPtr: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadStringPtr: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p == 0 { + b = appendNull(ctx, b) + } else { + b = appendString(ctx, b, ptrToString(p)) + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyStringPtr: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadOmitEmptyStringPtr: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p != 0 { + b = appendStructKey(ctx, code, b) + b = appendString(ctx, b, ptrToString(p)) + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructPtrHeadStringPtrString: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadStringPtrString: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p == 0 { + b = appendNull(ctx, b) + } else { + b = appendString(ctx, b, string(appendString(ctx, []byte{}, ptrToString(p)))) + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyStringPtrString: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadOmitEmptyStringPtrString: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p != 0 { + b = appendStructKey(ctx, code, b) + b = appendString(ctx, b, string(appendString(ctx, []byte{}, ptrToString(p)))) + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructPtrHeadBool: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadBool: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + b = appendBool(ctx, b, ptrToBool(p+uintptr(code.Offset))) + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyBool: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadOmitEmptyBool: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + v := ptrToBool(p + uintptr(code.Offset)) + if v { + b = appendStructKey(ctx, code, b) + b = appendBool(ctx, b, v) + b = appendComma(ctx, b) + code = code.Next + } else { + code = code.NextField + } + case encoder.OpStructPtrHeadBoolString: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadBoolString: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendBool(ctx, b, ptrToBool(p+uintptr(code.Offset))) + b = append(b, '"') + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyBoolString: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadOmitEmptyBoolString: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + v := ptrToBool(p + uintptr(code.Offset)) + if v { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendBool(ctx, b, v) + b = append(b, '"') + b = appendComma(ctx, b) + code = code.Next + } else { + code = code.NextField + } + case encoder.OpStructPtrHeadBoolPtr: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadBoolPtr: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p == 0 { + b = appendNull(ctx, b) + } else { + b = appendBool(ctx, b, ptrToBool(p)) + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyBoolPtr: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadOmitEmptyBoolPtr: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p != 0 { + b = appendStructKey(ctx, code, b) + b = appendBool(ctx, b, ptrToBool(p)) + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructPtrHeadBoolPtrString: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadBoolPtrString: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p == 0 { + b = appendNull(ctx, b) + } else { + b = append(b, '"') + b = appendBool(ctx, b, ptrToBool(p)) + b = append(b, '"') + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyBoolPtrString: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadOmitEmptyBoolPtrString: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p != 0 { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendBool(ctx, b, ptrToBool(p)) + b = append(b, '"') + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructPtrHeadBytes: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadBytes: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + b = appendByteSlice(ctx, b, ptrToBytes(p+uintptr(code.Offset))) + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyBytes: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadOmitEmptyBytes: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + v := ptrToBytes(p + uintptr(code.Offset)) + if len(v) == 0 { + code = code.NextField + } else { + b = appendStructKey(ctx, code, b) + b = appendByteSlice(ctx, b, v) + b = appendComma(ctx, b) + code = code.Next + } + case encoder.OpStructPtrHeadBytesPtr: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadBytesPtr: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p == 0 { + b = appendNull(ctx, b) + } else { + b = appendByteSlice(ctx, b, ptrToBytes(p)) + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyBytesPtr: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadOmitEmptyBytesPtr: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p != 0 { + b = appendStructKey(ctx, code, b) + b = appendByteSlice(ctx, b, ptrToBytes(p)) + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructPtrHeadNumber: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadNumber: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + bb, err := appendNumber(ctx, b, ptrToNumber(p+uintptr(code.Offset))) + if err != nil { + return nil, err + } + b = appendComma(ctx, bb) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyNumber: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadOmitEmptyNumber: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + v := ptrToNumber(p + uintptr(code.Offset)) + if v == "" { + code = code.NextField + } else { + b = appendStructKey(ctx, code, b) + bb, err := appendNumber(ctx, b, v) + if err != nil { + return nil, err + } + b = appendComma(ctx, bb) + code = code.Next + } + case encoder.OpStructPtrHeadNumberString: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadNumberString: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + b = append(b, '"') + bb, err := appendNumber(ctx, b, ptrToNumber(p+uintptr(code.Offset))) + if err != nil { + return nil, err + } + b = append(bb, '"') + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyNumberString: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadOmitEmptyNumberString: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + v := ptrToNumber(p + uintptr(code.Offset)) + if v == "" { + code = code.NextField + } else { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + bb, err := appendNumber(ctx, b, v) + if err != nil { + return nil, err + } + b = append(bb, '"') + b = appendComma(ctx, b) + code = code.Next + } + case encoder.OpStructPtrHeadNumberPtr: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadNumberPtr: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p == 0 { + b = appendNull(ctx, b) + } else { + bb, err := appendNumber(ctx, b, ptrToNumber(p)) + if err != nil { + return nil, err + } + b = bb + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyNumberPtr: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadOmitEmptyNumberPtr: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p != 0 { + b = appendStructKey(ctx, code, b) + bb, err := appendNumber(ctx, b, ptrToNumber(p)) + if err != nil { + return nil, err + } + b = appendComma(ctx, bb) + } + code = code.Next + case encoder.OpStructPtrHeadNumberPtrString: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadNumberPtrString: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p == 0 { + b = appendNull(ctx, b) + } else { + b = append(b, '"') + bb, err := appendNumber(ctx, b, ptrToNumber(p)) + if err != nil { + return nil, err + } + b = append(bb, '"') + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyNumberPtrString: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadOmitEmptyNumberPtrString: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p != 0 { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + bb, err := appendNumber(ctx, b, ptrToNumber(p)) + if err != nil { + return nil, err + } + b = append(bb, '"') + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructPtrHeadArray, encoder.OpStructPtrHeadSlice: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadArray, encoder.OpStructHeadSlice: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + p += uintptr(code.Offset) + code = code.Next + store(ctxptr, code.Idx, p) + case encoder.OpStructPtrHeadOmitEmptyArray: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadOmitEmptyArray: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + p += uintptr(code.Offset) + b = appendStructKey(ctx, code, b) + code = code.Next + store(ctxptr, code.Idx, p) + case encoder.OpStructPtrHeadOmitEmptySlice: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadOmitEmptySlice: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + p += uintptr(code.Offset) + slice := ptrToSlice(p) + if slice.Len == 0 { + code = code.NextField + } else { + b = appendStructKey(ctx, code, b) + code = code.Next + store(ctxptr, code.Idx, p) + } + case encoder.OpStructPtrHeadArrayPtr, encoder.OpStructPtrHeadSlicePtr: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadArrayPtr, encoder.OpStructHeadSlicePtr: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + code = code.NextField + } else { + code = code.Next + store(ctxptr, code.Idx, p) + } + case encoder.OpStructPtrHeadOmitEmptyArrayPtr, encoder.OpStructPtrHeadOmitEmptySlicePtr: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadOmitEmptyArrayPtr, encoder.OpStructHeadOmitEmptySlicePtr: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p == 0 { + code = code.NextField + } else { + b = appendStructKey(ctx, code, b) + code = code.Next + store(ctxptr, code.Idx, p) + } + case encoder.OpStructPtrHeadMap: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadMap: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + if p != 0 && (code.Flags&encoder.IndirectFlags) != 0 { + p = ptrToPtr(p + uintptr(code.Offset)) + } + code = code.Next + store(ctxptr, code.Idx, p) + case encoder.OpStructPtrHeadOmitEmptyMap: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadOmitEmptyMap: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + if p != 0 && (code.Flags&encoder.IndirectFlags) != 0 { + p = ptrToPtr(p + uintptr(code.Offset)) + } + if maplen(ptrToUnsafePtr(p)) == 0 { + code = code.NextField + } else { + b = appendStructKey(ctx, code, b) + code = code.Next + store(ctxptr, code.Idx, p) + } + case encoder.OpStructPtrHeadMapPtr: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadMapPtr: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + if p == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + code = code.NextField + break + } + p = ptrToPtr(p + uintptr(code.Offset)) + if p == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + code = code.NextField + } else { + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p, code.PtrNum) + } + code = code.Next + store(ctxptr, code.Idx, p) + } + case encoder.OpStructPtrHeadOmitEmptyMapPtr: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadOmitEmptyMapPtr: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + if p == 0 { + code = code.NextField + break + } + p = ptrToPtr(p + uintptr(code.Offset)) + if p == 0 { + code = code.NextField + } else { + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p, code.PtrNum) + } + b = appendStructKey(ctx, code, b) + code = code.Next + store(ctxptr, code.Idx, p) + } + case encoder.OpStructPtrHeadMarshalJSON: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if (code.Flags & encoder.IndirectFlags) != 0 { + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadMarshalJSON: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + if (code.Flags & encoder.IsNilableTypeFlags) != 0 { + if (code.Flags&encoder.IndirectFlags) != 0 || code.Op == encoder.OpStructPtrHeadMarshalJSON { + p = ptrToPtr(p + uintptr(code.Offset)) + } + } + if p == 0 && (code.Flags&encoder.NilCheckFlags) != 0 { + b = appendNull(ctx, b) + } else { + bb, err := appendMarshalJSON(ctx, code, b, ptrToInterface(code, p)) + if err != nil { + return nil, err + } + b = bb + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyMarshalJSON: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if (code.Flags & encoder.IndirectFlags) != 0 { + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadOmitEmptyMarshalJSON: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + if (code.Flags & encoder.IsNilableTypeFlags) != 0 { + if (code.Flags&encoder.IndirectFlags) != 0 || code.Op == encoder.OpStructPtrHeadOmitEmptyMarshalJSON { + p = ptrToPtr(p + uintptr(code.Offset)) + } + } + iface := ptrToInterface(code, p) + if (code.Flags&encoder.NilCheckFlags) != 0 && encoder.IsNilForMarshaler(iface) { + code = code.NextField + } else { + b = appendStructKey(ctx, code, b) + bb, err := appendMarshalJSON(ctx, code, b, iface) + if err != nil { + return nil, err + } + b = bb + b = appendComma(ctx, b) + code = code.Next + } + case encoder.OpStructPtrHeadMarshalJSONPtr: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadMarshalJSONPtr: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p == 0 { + b = appendNull(ctx, b) + } else { + bb, err := appendMarshalJSON(ctx, code, b, ptrToInterface(code, p)) + if err != nil { + return nil, err + } + b = bb + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyMarshalJSONPtr: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadOmitEmptyMarshalJSONPtr: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + if p == 0 { + code = code.NextField + } else { + b = appendStructKey(ctx, code, b) + bb, err := appendMarshalJSON(ctx, code, b, ptrToInterface(code, p)) + if err != nil { + return nil, err + } + b = bb + b = appendComma(ctx, b) + code = code.Next + } + case encoder.OpStructPtrHeadMarshalText: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if (code.Flags & encoder.IndirectFlags) != 0 { + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadMarshalText: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + if (code.Flags & encoder.IsNilableTypeFlags) != 0 { + if (code.Flags&encoder.IndirectFlags) != 0 || code.Op == encoder.OpStructPtrHeadMarshalText { + p = ptrToPtr(p + uintptr(code.Offset)) + } + } + if p == 0 && (code.Flags&encoder.NilCheckFlags) != 0 { + b = appendNull(ctx, b) + } else { + bb, err := appendMarshalText(ctx, code, b, ptrToInterface(code, p)) + if err != nil { + return nil, err + } + b = bb + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyMarshalText: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if (code.Flags & encoder.IndirectFlags) != 0 { + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadOmitEmptyMarshalText: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + if (code.Flags & encoder.IsNilableTypeFlags) != 0 { + if (code.Flags&encoder.IndirectFlags) != 0 || code.Op == encoder.OpStructPtrHeadOmitEmptyMarshalText { + p = ptrToPtr(p + uintptr(code.Offset)) + } + } + if p == 0 && (code.Flags&encoder.NilCheckFlags) != 0 { + code = code.NextField + } else { + b = appendStructKey(ctx, code, b) + bb, err := appendMarshalText(ctx, code, b, ptrToInterface(code, p)) + if err != nil { + return nil, err + } + b = bb + b = appendComma(ctx, b) + code = code.Next + } + case encoder.OpStructPtrHeadMarshalTextPtr: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadMarshalTextPtr: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p == 0 { + b = appendNull(ctx, b) + } else { + bb, err := appendMarshalText(ctx, code, b, ptrToInterface(code, p)) + if err != nil { + return nil, err + } + b = bb + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyMarshalTextPtr: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadOmitEmptyMarshalTextPtr: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + if p == 0 { + code = code.NextField + } else { + b = appendStructKey(ctx, code, b) + bb, err := appendMarshalText(ctx, code, b, ptrToInterface(code, p)) + if err != nil { + return nil, err + } + b = bb + b = appendComma(ctx, b) + code = code.Next + } + case encoder.OpStructField: + if code.Flags&encoder.IsTaggedKeyFlags != 0 || code.Flags&encoder.AnonymousKeyFlags == 0 { + b = appendStructKey(ctx, code, b) + } + p := load(ctxptr, code.Idx) + uintptr(code.Offset) + code = code.Next + store(ctxptr, code.Idx, p) + case encoder.OpStructFieldOmitEmpty: + p := load(ctxptr, code.Idx) + p += uintptr(code.Offset) + if ptrToPtr(p) == 0 && (code.Flags&encoder.IsNextOpPtrTypeFlags) != 0 { + code = code.NextField + } else { + b = appendStructKey(ctx, code, b) + code = code.Next + store(ctxptr, code.Idx, p) + } + case encoder.OpStructFieldInt: + p := load(ctxptr, code.Idx) + b = appendStructKey(ctx, code, b) + b = appendInt(ctx, b, ptrToUint64(p+uintptr(code.Offset)), code) + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyInt: + p := load(ctxptr, code.Idx) + u64 := ptrToUint64(p + uintptr(code.Offset)) + v := u64 & ((1 << code.NumBitSize) - 1) + if v != 0 { + b = appendStructKey(ctx, code, b) + b = appendInt(ctx, b, u64, code) + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructFieldIntString: + p := load(ctxptr, code.Idx) + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendInt(ctx, b, ptrToUint64(p+uintptr(code.Offset)), code) + b = append(b, '"') + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyIntString: + p := load(ctxptr, code.Idx) + u64 := ptrToUint64(p + uintptr(code.Offset)) + v := u64 & ((1 << code.NumBitSize) - 1) + if v != 0 { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendInt(ctx, b, u64, code) + b = append(b, '"') + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructFieldIntPtr: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + b = appendStructKey(ctx, code, b) + if p == 0 { + b = appendNull(ctx, b) + } else { + b = appendInt(ctx, b, ptrToUint64(p), code) + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyIntPtr: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + b = appendInt(ctx, b, ptrToUint64(p), code) + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructFieldIntPtrString: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + b = appendStructKey(ctx, code, b) + if p == 0 { + b = appendNull(ctx, b) + } else { + b = append(b, '"') + b = appendInt(ctx, b, ptrToUint64(p), code) + b = append(b, '"') + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyIntPtrString: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendInt(ctx, b, ptrToUint64(p), code) + b = append(b, '"') + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructFieldUint: + p := load(ctxptr, code.Idx) + b = appendStructKey(ctx, code, b) + b = appendUint(ctx, b, ptrToUint64(p+uintptr(code.Offset)), code) + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyUint: + p := load(ctxptr, code.Idx) + u64 := ptrToUint64(p + uintptr(code.Offset)) + v := u64 & ((1 << code.NumBitSize) - 1) + if v != 0 { + b = appendStructKey(ctx, code, b) + b = appendUint(ctx, b, u64, code) + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructFieldUintString: + p := load(ctxptr, code.Idx) + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendUint(ctx, b, ptrToUint64(p+uintptr(code.Offset)), code) + b = append(b, '"') + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyUintString: + p := load(ctxptr, code.Idx) + u64 := ptrToUint64(p + uintptr(code.Offset)) + v := u64 & ((1 << code.NumBitSize) - 1) + if v != 0 { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendUint(ctx, b, u64, code) + b = append(b, '"') + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructFieldUintPtr: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + b = appendStructKey(ctx, code, b) + if p == 0 { + b = appendNull(ctx, b) + } else { + b = appendUint(ctx, b, ptrToUint64(p), code) + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyUintPtr: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + b = appendUint(ctx, b, ptrToUint64(p), code) + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructFieldUintPtrString: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + b = appendStructKey(ctx, code, b) + if p == 0 { + b = appendNull(ctx, b) + } else { + b = append(b, '"') + b = appendUint(ctx, b, ptrToUint64(p), code) + b = append(b, '"') + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyUintPtrString: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendUint(ctx, b, ptrToUint64(p), code) + b = append(b, '"') + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructFieldFloat32: + p := load(ctxptr, code.Idx) + b = appendStructKey(ctx, code, b) + b = appendFloat32(ctx, b, ptrToFloat32(p+uintptr(code.Offset))) + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyFloat32: + p := load(ctxptr, code.Idx) + v := ptrToFloat32(p + uintptr(code.Offset)) + if v != 0 { + b = appendStructKey(ctx, code, b) + b = appendFloat32(ctx, b, v) + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructFieldFloat32String: + p := load(ctxptr, code.Idx) + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendFloat32(ctx, b, ptrToFloat32(p+uintptr(code.Offset))) + b = append(b, '"') + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyFloat32String: + p := load(ctxptr, code.Idx) + v := ptrToFloat32(p + uintptr(code.Offset)) + if v != 0 { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendFloat32(ctx, b, v) + b = append(b, '"') + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructFieldFloat32Ptr: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + b = appendStructKey(ctx, code, b) + if p == 0 { + b = appendNull(ctx, b) + } else { + b = appendFloat32(ctx, b, ptrToFloat32(p)) + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyFloat32Ptr: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + b = appendFloat32(ctx, b, ptrToFloat32(p)) + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructFieldFloat32PtrString: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + b = appendStructKey(ctx, code, b) + if p == 0 { + b = appendNull(ctx, b) + } else { + b = append(b, '"') + b = appendFloat32(ctx, b, ptrToFloat32(p)) + b = append(b, '"') + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyFloat32PtrString: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendFloat32(ctx, b, ptrToFloat32(p)) + b = append(b, '"') + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructFieldFloat64: + p := load(ctxptr, code.Idx) + b = appendStructKey(ctx, code, b) + v := ptrToFloat64(p + uintptr(code.Offset)) + if math.IsInf(v, 0) || math.IsNaN(v) { + return nil, errUnsupportedFloat(v) + } + b = appendFloat64(ctx, b, v) + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyFloat64: + p := load(ctxptr, code.Idx) + v := ptrToFloat64(p + uintptr(code.Offset)) + if v != 0 { + if math.IsInf(v, 0) || math.IsNaN(v) { + return nil, errUnsupportedFloat(v) + } + b = appendStructKey(ctx, code, b) + b = appendFloat64(ctx, b, v) + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructFieldFloat64String: + p := load(ctxptr, code.Idx) + v := ptrToFloat64(p + uintptr(code.Offset)) + if math.IsInf(v, 0) || math.IsNaN(v) { + return nil, errUnsupportedFloat(v) + } + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendFloat64(ctx, b, v) + b = append(b, '"') + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyFloat64String: + p := load(ctxptr, code.Idx) + v := ptrToFloat64(p + uintptr(code.Offset)) + if v != 0 { + if math.IsInf(v, 0) || math.IsNaN(v) { + return nil, errUnsupportedFloat(v) + } + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendFloat64(ctx, b, v) + b = append(b, '"') + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructFieldFloat64Ptr: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + b = appendStructKey(ctx, code, b) + if p == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + code = code.Next + break + } + v := ptrToFloat64(p) + if math.IsInf(v, 0) || math.IsNaN(v) { + return nil, errUnsupportedFloat(v) + } + b = appendFloat64(ctx, b, v) + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyFloat64Ptr: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + v := ptrToFloat64(p) + if math.IsInf(v, 0) || math.IsNaN(v) { + return nil, errUnsupportedFloat(v) + } + b = appendFloat64(ctx, b, v) + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructFieldFloat64PtrString: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + b = appendStructKey(ctx, code, b) + if p == 0 { + b = appendNull(ctx, b) + } else { + v := ptrToFloat64(p) + if math.IsInf(v, 0) || math.IsNaN(v) { + return nil, errUnsupportedFloat(v) + } + b = append(b, '"') + b = appendFloat64(ctx, b, v) + b = append(b, '"') + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyFloat64PtrString: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + v := ptrToFloat64(p) + if math.IsInf(v, 0) || math.IsNaN(v) { + return nil, errUnsupportedFloat(v) + } + b = appendFloat64(ctx, b, v) + b = append(b, '"') + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructFieldString: + p := load(ctxptr, code.Idx) + b = appendStructKey(ctx, code, b) + b = appendString(ctx, b, ptrToString(p+uintptr(code.Offset))) + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyString: + p := load(ctxptr, code.Idx) + v := ptrToString(p + uintptr(code.Offset)) + if v != "" { + b = appendStructKey(ctx, code, b) + b = appendString(ctx, b, v) + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructFieldStringString: + p := load(ctxptr, code.Idx) + s := ptrToString(p + uintptr(code.Offset)) + b = appendStructKey(ctx, code, b) + b = appendString(ctx, b, string(appendString(ctx, []byte{}, s))) + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyStringString: + p := load(ctxptr, code.Idx) + v := ptrToString(p + uintptr(code.Offset)) + if v != "" { + b = appendStructKey(ctx, code, b) + b = appendString(ctx, b, string(appendString(ctx, []byte{}, v))) + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructFieldStringPtr: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + b = appendStructKey(ctx, code, b) + if p == 0 { + b = appendNull(ctx, b) + } else { + b = appendString(ctx, b, ptrToString(p)) + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyStringPtr: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + b = appendString(ctx, b, ptrToString(p)) + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructFieldStringPtrString: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + b = appendStructKey(ctx, code, b) + if p == 0 { + b = appendNull(ctx, b) + } else { + b = appendString(ctx, b, string(appendString(ctx, []byte{}, ptrToString(p)))) + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyStringPtrString: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + b = appendString(ctx, b, string(appendString(ctx, []byte{}, ptrToString(p)))) + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructFieldBool: + p := load(ctxptr, code.Idx) + b = appendStructKey(ctx, code, b) + b = appendBool(ctx, b, ptrToBool(p+uintptr(code.Offset))) + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyBool: + p := load(ctxptr, code.Idx) + v := ptrToBool(p + uintptr(code.Offset)) + if v { + b = appendStructKey(ctx, code, b) + b = appendBool(ctx, b, v) + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructFieldBoolString: + p := load(ctxptr, code.Idx) + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendBool(ctx, b, ptrToBool(p+uintptr(code.Offset))) + b = append(b, '"') + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyBoolString: + p := load(ctxptr, code.Idx) + v := ptrToBool(p + uintptr(code.Offset)) + if v { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendBool(ctx, b, v) + b = append(b, '"') + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructFieldBoolPtr: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + b = appendStructKey(ctx, code, b) + if p == 0 { + b = appendNull(ctx, b) + } else { + b = appendBool(ctx, b, ptrToBool(p)) + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyBoolPtr: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + b = appendBool(ctx, b, ptrToBool(p)) + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructFieldBoolPtrString: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + b = appendStructKey(ctx, code, b) + if p == 0 { + b = appendNull(ctx, b) + } else { + b = append(b, '"') + b = appendBool(ctx, b, ptrToBool(p)) + b = append(b, '"') + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyBoolPtrString: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendBool(ctx, b, ptrToBool(p)) + b = append(b, '"') + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructFieldBytes: + p := load(ctxptr, code.Idx) + b = appendStructKey(ctx, code, b) + b = appendByteSlice(ctx, b, ptrToBytes(p+uintptr(code.Offset))) + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyBytes: + p := load(ctxptr, code.Idx) + v := ptrToBytes(p + uintptr(code.Offset)) + if len(v) > 0 { + b = appendStructKey(ctx, code, b) + b = appendByteSlice(ctx, b, v) + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructFieldBytesPtr: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + b = appendStructKey(ctx, code, b) + if p == 0 { + b = appendNull(ctx, b) + } else { + b = appendByteSlice(ctx, b, ptrToBytes(p)) + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyBytesPtr: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + b = appendByteSlice(ctx, b, ptrToBytes(p)) + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructFieldNumber: + p := load(ctxptr, code.Idx) + b = appendStructKey(ctx, code, b) + bb, err := appendNumber(ctx, b, ptrToNumber(p+uintptr(code.Offset))) + if err != nil { + return nil, err + } + b = appendComma(ctx, bb) + code = code.Next + case encoder.OpStructFieldOmitEmptyNumber: + p := load(ctxptr, code.Idx) + v := ptrToNumber(p + uintptr(code.Offset)) + if v != "" { + b = appendStructKey(ctx, code, b) + bb, err := appendNumber(ctx, b, v) + if err != nil { + return nil, err + } + b = appendComma(ctx, bb) + } + code = code.Next + case encoder.OpStructFieldNumberString: + p := load(ctxptr, code.Idx) + b = appendStructKey(ctx, code, b) + b = append(b, '"') + bb, err := appendNumber(ctx, b, ptrToNumber(p+uintptr(code.Offset))) + if err != nil { + return nil, err + } + b = append(bb, '"') + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyNumberString: + p := load(ctxptr, code.Idx) + v := ptrToNumber(p + uintptr(code.Offset)) + if v != "" { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + bb, err := appendNumber(ctx, b, v) + if err != nil { + return nil, err + } + b = append(bb, '"') + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructFieldNumberPtr: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + b = appendStructKey(ctx, code, b) + if p == 0 { + b = appendNull(ctx, b) + } else { + bb, err := appendNumber(ctx, b, ptrToNumber(p)) + if err != nil { + return nil, err + } + b = bb + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyNumberPtr: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + bb, err := appendNumber(ctx, b, ptrToNumber(p)) + if err != nil { + return nil, err + } + b = appendComma(ctx, bb) + } + code = code.Next + case encoder.OpStructFieldNumberPtrString: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + b = appendStructKey(ctx, code, b) + if p == 0 { + b = appendNull(ctx, b) + } else { + b = append(b, '"') + bb, err := appendNumber(ctx, b, ptrToNumber(p)) + if err != nil { + return nil, err + } + b = append(bb, '"') + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyNumberPtrString: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + bb, err := appendNumber(ctx, b, ptrToNumber(p)) + if err != nil { + return nil, err + } + b = append(bb, '"') + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructFieldMarshalJSON: + p := load(ctxptr, code.Idx) + b = appendStructKey(ctx, code, b) + p += uintptr(code.Offset) + if (code.Flags & encoder.IsNilableTypeFlags) != 0 { + p = ptrToPtr(p) + } + if p == 0 && (code.Flags&encoder.NilCheckFlags) != 0 { + b = appendNull(ctx, b) + } else { + bb, err := appendMarshalJSON(ctx, code, b, ptrToInterface(code, p)) + if err != nil { + return nil, err + } + b = bb + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyMarshalJSON: + p := load(ctxptr, code.Idx) + p += uintptr(code.Offset) + if (code.Flags & encoder.IsNilableTypeFlags) != 0 { + p = ptrToPtr(p) + } + if p == 0 && (code.Flags&encoder.NilCheckFlags) != 0 { + code = code.NextField + break + } + iface := ptrToInterface(code, p) + if (code.Flags&encoder.NilCheckFlags) != 0 && encoder.IsNilForMarshaler(iface) { + code = code.NextField + break + } + b = appendStructKey(ctx, code, b) + bb, err := appendMarshalJSON(ctx, code, b, iface) + if err != nil { + return nil, err + } + b = appendComma(ctx, bb) + code = code.Next + case encoder.OpStructFieldMarshalJSONPtr: + p := load(ctxptr, code.Idx) + b = appendStructKey(ctx, code, b) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p == 0 { + b = appendNull(ctx, b) + } else { + bb, err := appendMarshalJSON(ctx, code, b, ptrToInterface(code, p)) + if err != nil { + return nil, err + } + b = bb + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyMarshalJSONPtr: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + bb, err := appendMarshalJSON(ctx, code, b, ptrToInterface(code, p)) + if err != nil { + return nil, err + } + b = appendComma(ctx, bb) + } + code = code.Next + case encoder.OpStructFieldMarshalText: + p := load(ctxptr, code.Idx) + b = appendStructKey(ctx, code, b) + p += uintptr(code.Offset) + if (code.Flags & encoder.IsNilableTypeFlags) != 0 { + p = ptrToPtr(p) + } + if p == 0 && (code.Flags&encoder.NilCheckFlags) != 0 { + b = appendNull(ctx, b) + } else { + bb, err := appendMarshalText(ctx, code, b, ptrToInterface(code, p)) + if err != nil { + return nil, err + } + b = bb + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyMarshalText: + p := load(ctxptr, code.Idx) + p += uintptr(code.Offset) + if (code.Flags & encoder.IsNilableTypeFlags) != 0 { + p = ptrToPtr(p) + } + if p == 0 && (code.Flags&encoder.NilCheckFlags) != 0 { + code = code.NextField + break + } + b = appendStructKey(ctx, code, b) + bb, err := appendMarshalText(ctx, code, b, ptrToInterface(code, p)) + if err != nil { + return nil, err + } + b = appendComma(ctx, bb) + code = code.Next + case encoder.OpStructFieldMarshalTextPtr: + p := load(ctxptr, code.Idx) + b = appendStructKey(ctx, code, b) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p == 0 { + b = appendNull(ctx, b) + } else { + bb, err := appendMarshalText(ctx, code, b, ptrToInterface(code, p)) + if err != nil { + return nil, err + } + b = bb + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyMarshalTextPtr: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + bb, err := appendMarshalText(ctx, code, b, ptrToInterface(code, p)) + if err != nil { + return nil, err + } + b = appendComma(ctx, bb) + } + code = code.Next + case encoder.OpStructFieldArray: + b = appendStructKey(ctx, code, b) + p := load(ctxptr, code.Idx) + p += uintptr(code.Offset) + code = code.Next + store(ctxptr, code.Idx, p) + case encoder.OpStructFieldOmitEmptyArray: + b = appendStructKey(ctx, code, b) + p := load(ctxptr, code.Idx) + p += uintptr(code.Offset) + code = code.Next + store(ctxptr, code.Idx, p) + case encoder.OpStructFieldArrayPtr: + b = appendStructKey(ctx, code, b) + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + code = code.Next + store(ctxptr, code.Idx, p) + case encoder.OpStructFieldOmitEmptyArrayPtr: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + code = code.Next + store(ctxptr, code.Idx, p) + } else { + code = code.NextField + } + case encoder.OpStructFieldSlice: + b = appendStructKey(ctx, code, b) + p := load(ctxptr, code.Idx) + p += uintptr(code.Offset) + code = code.Next + store(ctxptr, code.Idx, p) + case encoder.OpStructFieldOmitEmptySlice: + p := load(ctxptr, code.Idx) + p += uintptr(code.Offset) + slice := ptrToSlice(p) + if slice.Len == 0 { + code = code.NextField + } else { + b = appendStructKey(ctx, code, b) + code = code.Next + store(ctxptr, code.Idx, p) + } + case encoder.OpStructFieldSlicePtr: + b = appendStructKey(ctx, code, b) + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + code = code.Next + store(ctxptr, code.Idx, p) + case encoder.OpStructFieldOmitEmptySlicePtr: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + code = code.Next + store(ctxptr, code.Idx, p) + } else { + code = code.NextField + } + case encoder.OpStructFieldMap: + b = appendStructKey(ctx, code, b) + p := load(ctxptr, code.Idx) + p = ptrToPtr(p + uintptr(code.Offset)) + code = code.Next + store(ctxptr, code.Idx, p) + case encoder.OpStructFieldOmitEmptyMap: + p := load(ctxptr, code.Idx) + p = ptrToPtr(p + uintptr(code.Offset)) + if p == 0 || maplen(ptrToUnsafePtr(p)) == 0 { + code = code.NextField + } else { + b = appendStructKey(ctx, code, b) + code = code.Next + store(ctxptr, code.Idx, p) + } + case encoder.OpStructFieldMapPtr: + b = appendStructKey(ctx, code, b) + p := load(ctxptr, code.Idx) + p = ptrToPtr(p + uintptr(code.Offset)) + if p != 0 { + p = ptrToNPtr(p, code.PtrNum) + } + code = code.Next + store(ctxptr, code.Idx, p) + case encoder.OpStructFieldOmitEmptyMapPtr: + p := load(ctxptr, code.Idx) + p = ptrToPtr(p + uintptr(code.Offset)) + if p != 0 { + p = ptrToNPtr(p, code.PtrNum) + } + if p != 0 { + b = appendStructKey(ctx, code, b) + code = code.Next + store(ctxptr, code.Idx, p) + } else { + code = code.NextField + } + case encoder.OpStructFieldStruct: + b = appendStructKey(ctx, code, b) + p := load(ctxptr, code.Idx) + p += uintptr(code.Offset) + code = code.Next + store(ctxptr, code.Idx, p) + case encoder.OpStructFieldOmitEmptyStruct: + p := load(ctxptr, code.Idx) + p += uintptr(code.Offset) + if ptrToPtr(p) == 0 && (code.Flags&encoder.IsNextOpPtrTypeFlags) != 0 { + code = code.NextField + } else { + b = appendStructKey(ctx, code, b) + code = code.Next + store(ctxptr, code.Idx, p) + } + case encoder.OpStructAnonymousEnd: + code = code.Next + case encoder.OpStructEnd: + b = appendStructEndSkipLast(ctx, code, b) + code = code.Next + case encoder.OpStructEndInt: + p := load(ctxptr, code.Idx) + b = appendStructKey(ctx, code, b) + b = appendInt(ctx, b, ptrToUint64(p+uintptr(code.Offset)), code) + b = appendStructEnd(ctx, code, b) + code = code.Next + case encoder.OpStructEndOmitEmptyInt: + p := load(ctxptr, code.Idx) + u64 := ptrToUint64(p + uintptr(code.Offset)) + v := u64 & ((1 << code.NumBitSize) - 1) + if v != 0 { + b = appendStructKey(ctx, code, b) + b = appendInt(ctx, b, u64, code) + b = appendStructEnd(ctx, code, b) + } else { + b = appendStructEndSkipLast(ctx, code, b) + } + code = code.Next + case encoder.OpStructEndIntString: + p := load(ctxptr, code.Idx) + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendInt(ctx, b, ptrToUint64(p+uintptr(code.Offset)), code) + b = append(b, '"') + b = appendStructEnd(ctx, code, b) + code = code.Next + case encoder.OpStructEndOmitEmptyIntString: + p := load(ctxptr, code.Idx) + u64 := ptrToUint64(p + uintptr(code.Offset)) + v := u64 & ((1 << code.NumBitSize) - 1) + if v != 0 { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendInt(ctx, b, u64, code) + b = append(b, '"') + b = appendStructEnd(ctx, code, b) + } else { + b = appendStructEndSkipLast(ctx, code, b) + } + code = code.Next + case encoder.OpStructEndIntPtr: + b = appendStructKey(ctx, code, b) + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p == 0 { + b = appendNull(ctx, b) + } else { + b = appendInt(ctx, b, ptrToUint64(p), code) + } + b = appendStructEnd(ctx, code, b) + code = code.Next + case encoder.OpStructEndOmitEmptyIntPtr: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + b = appendInt(ctx, b, ptrToUint64(p), code) + b = appendStructEnd(ctx, code, b) + } else { + b = appendStructEndSkipLast(ctx, code, b) + } + code = code.Next + case encoder.OpStructEndIntPtrString: + b = appendStructKey(ctx, code, b) + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p == 0 { + b = appendNull(ctx, b) + } else { + b = append(b, '"') + b = appendInt(ctx, b, ptrToUint64(p), code) + b = append(b, '"') + } + b = appendStructEnd(ctx, code, b) + code = code.Next + case encoder.OpStructEndOmitEmptyIntPtrString: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendInt(ctx, b, ptrToUint64(p), code) + b = append(b, '"') + b = appendStructEnd(ctx, code, b) + } else { + b = appendStructEndSkipLast(ctx, code, b) + } + code = code.Next + case encoder.OpStructEndUint: + p := load(ctxptr, code.Idx) + b = appendStructKey(ctx, code, b) + b = appendUint(ctx, b, ptrToUint64(p+uintptr(code.Offset)), code) + b = appendStructEnd(ctx, code, b) + code = code.Next + case encoder.OpStructEndOmitEmptyUint: + p := load(ctxptr, code.Idx) + u64 := ptrToUint64(p + uintptr(code.Offset)) + v := u64 & ((1 << code.NumBitSize) - 1) + if v != 0 { + b = appendStructKey(ctx, code, b) + b = appendUint(ctx, b, u64, code) + b = appendStructEnd(ctx, code, b) + } else { + b = appendStructEndSkipLast(ctx, code, b) + } + code = code.Next + case encoder.OpStructEndUintString: + p := load(ctxptr, code.Idx) + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendUint(ctx, b, ptrToUint64(p+uintptr(code.Offset)), code) + b = append(b, '"') + b = appendStructEnd(ctx, code, b) + code = code.Next + case encoder.OpStructEndOmitEmptyUintString: + p := load(ctxptr, code.Idx) + u64 := ptrToUint64(p + uintptr(code.Offset)) + v := u64 & ((1 << code.NumBitSize) - 1) + if v != 0 { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendUint(ctx, b, u64, code) + b = append(b, '"') + b = appendStructEnd(ctx, code, b) + } else { + b = appendStructEndSkipLast(ctx, code, b) + } + code = code.Next + case encoder.OpStructEndUintPtr: + b = appendStructKey(ctx, code, b) + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p == 0 { + b = appendNull(ctx, b) + } else { + b = appendUint(ctx, b, ptrToUint64(p), code) + } + b = appendStructEnd(ctx, code, b) + code = code.Next + case encoder.OpStructEndOmitEmptyUintPtr: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + b = appendUint(ctx, b, ptrToUint64(p), code) + b = appendStructEnd(ctx, code, b) + } else { + b = appendStructEndSkipLast(ctx, code, b) + } + code = code.Next + case encoder.OpStructEndUintPtrString: + b = appendStructKey(ctx, code, b) + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p == 0 { + b = appendNull(ctx, b) + } else { + b = append(b, '"') + b = appendUint(ctx, b, ptrToUint64(p), code) + b = append(b, '"') + } + b = appendStructEnd(ctx, code, b) + code = code.Next + case encoder.OpStructEndOmitEmptyUintPtrString: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendUint(ctx, b, ptrToUint64(p), code) + b = append(b, '"') + b = appendStructEnd(ctx, code, b) + } else { + b = appendStructEndSkipLast(ctx, code, b) + } + code = code.Next + case encoder.OpStructEndFloat32: + p := load(ctxptr, code.Idx) + b = appendStructKey(ctx, code, b) + b = appendFloat32(ctx, b, ptrToFloat32(p+uintptr(code.Offset))) + b = appendStructEnd(ctx, code, b) + code = code.Next + case encoder.OpStructEndOmitEmptyFloat32: + p := load(ctxptr, code.Idx) + v := ptrToFloat32(p + uintptr(code.Offset)) + if v != 0 { + b = appendStructKey(ctx, code, b) + b = appendFloat32(ctx, b, v) + b = appendStructEnd(ctx, code, b) + } else { + b = appendStructEndSkipLast(ctx, code, b) + } + code = code.Next + case encoder.OpStructEndFloat32String: + p := load(ctxptr, code.Idx) + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendFloat32(ctx, b, ptrToFloat32(p+uintptr(code.Offset))) + b = append(b, '"') + b = appendStructEnd(ctx, code, b) + code = code.Next + case encoder.OpStructEndOmitEmptyFloat32String: + p := load(ctxptr, code.Idx) + v := ptrToFloat32(p + uintptr(code.Offset)) + if v != 0 { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendFloat32(ctx, b, v) + b = append(b, '"') + b = appendStructEnd(ctx, code, b) + } else { + b = appendStructEndSkipLast(ctx, code, b) + } + code = code.Next + case encoder.OpStructEndFloat32Ptr: + b = appendStructKey(ctx, code, b) + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p == 0 { + b = appendNull(ctx, b) + } else { + b = appendFloat32(ctx, b, ptrToFloat32(p)) + } + b = appendStructEnd(ctx, code, b) + code = code.Next + case encoder.OpStructEndOmitEmptyFloat32Ptr: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + b = appendFloat32(ctx, b, ptrToFloat32(p)) + b = appendStructEnd(ctx, code, b) + } else { + b = appendStructEndSkipLast(ctx, code, b) + } + code = code.Next + case encoder.OpStructEndFloat32PtrString: + b = appendStructKey(ctx, code, b) + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p == 0 { + b = appendNull(ctx, b) + } else { + b = append(b, '"') + b = appendFloat32(ctx, b, ptrToFloat32(p)) + b = append(b, '"') + } + b = appendStructEnd(ctx, code, b) + code = code.Next + case encoder.OpStructEndOmitEmptyFloat32PtrString: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendFloat32(ctx, b, ptrToFloat32(p)) + b = append(b, '"') + b = appendStructEnd(ctx, code, b) + } else { + b = appendStructEndSkipLast(ctx, code, b) + } + code = code.Next + case encoder.OpStructEndFloat64: + p := load(ctxptr, code.Idx) + v := ptrToFloat64(p + uintptr(code.Offset)) + if math.IsInf(v, 0) || math.IsNaN(v) { + return nil, errUnsupportedFloat(v) + } + b = appendStructKey(ctx, code, b) + b = appendFloat64(ctx, b, v) + b = appendStructEnd(ctx, code, b) + code = code.Next + case encoder.OpStructEndOmitEmptyFloat64: + p := load(ctxptr, code.Idx) + v := ptrToFloat64(p + uintptr(code.Offset)) + if v != 0 { + if math.IsInf(v, 0) || math.IsNaN(v) { + return nil, errUnsupportedFloat(v) + } + b = appendStructKey(ctx, code, b) + b = appendFloat64(ctx, b, v) + b = appendStructEnd(ctx, code, b) + } else { + b = appendStructEndSkipLast(ctx, code, b) + } + code = code.Next + case encoder.OpStructEndFloat64String: + p := load(ctxptr, code.Idx) + v := ptrToFloat64(p + uintptr(code.Offset)) + if math.IsInf(v, 0) || math.IsNaN(v) { + return nil, errUnsupportedFloat(v) + } + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendFloat64(ctx, b, v) + b = append(b, '"') + b = appendStructEnd(ctx, code, b) + code = code.Next + case encoder.OpStructEndOmitEmptyFloat64String: + p := load(ctxptr, code.Idx) + v := ptrToFloat64(p + uintptr(code.Offset)) + if v != 0 { + if math.IsInf(v, 0) || math.IsNaN(v) { + return nil, errUnsupportedFloat(v) + } + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendFloat64(ctx, b, v) + b = append(b, '"') + b = appendStructEnd(ctx, code, b) + } else { + b = appendStructEndSkipLast(ctx, code, b) + } + code = code.Next + case encoder.OpStructEndFloat64Ptr: + b = appendStructKey(ctx, code, b) + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p == 0 { + b = appendNull(ctx, b) + b = appendStructEnd(ctx, code, b) + code = code.Next + break + } + v := ptrToFloat64(p) + if math.IsInf(v, 0) || math.IsNaN(v) { + return nil, errUnsupportedFloat(v) + } + b = appendFloat64(ctx, b, v) + b = appendStructEnd(ctx, code, b) + code = code.Next + case encoder.OpStructEndOmitEmptyFloat64Ptr: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + v := ptrToFloat64(p) + if math.IsInf(v, 0) || math.IsNaN(v) { + return nil, errUnsupportedFloat(v) + } + b = appendFloat64(ctx, b, v) + b = appendStructEnd(ctx, code, b) + } else { + b = appendStructEndSkipLast(ctx, code, b) + } + code = code.Next + case encoder.OpStructEndFloat64PtrString: + b = appendStructKey(ctx, code, b) + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p == 0 { + b = appendNull(ctx, b) + } else { + b = append(b, '"') + v := ptrToFloat64(p) + if math.IsInf(v, 0) || math.IsNaN(v) { + return nil, errUnsupportedFloat(v) + } + b = appendFloat64(ctx, b, v) + b = append(b, '"') + } + b = appendStructEnd(ctx, code, b) + code = code.Next + case encoder.OpStructEndOmitEmptyFloat64PtrString: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + v := ptrToFloat64(p) + if math.IsInf(v, 0) || math.IsNaN(v) { + return nil, errUnsupportedFloat(v) + } + b = append(b, '"') + b = appendFloat64(ctx, b, v) + b = append(b, '"') + b = appendStructEnd(ctx, code, b) + } else { + b = appendStructEndSkipLast(ctx, code, b) + } + code = code.Next + case encoder.OpStructEndString: + p := load(ctxptr, code.Idx) + b = appendStructKey(ctx, code, b) + b = appendString(ctx, b, ptrToString(p+uintptr(code.Offset))) + b = appendStructEnd(ctx, code, b) + code = code.Next + case encoder.OpStructEndOmitEmptyString: + p := load(ctxptr, code.Idx) + v := ptrToString(p + uintptr(code.Offset)) + if v != "" { + b = appendStructKey(ctx, code, b) + b = appendString(ctx, b, v) + b = appendStructEnd(ctx, code, b) + } else { + b = appendStructEndSkipLast(ctx, code, b) + } + code = code.Next + case encoder.OpStructEndStringString: + p := load(ctxptr, code.Idx) + b = appendStructKey(ctx, code, b) + s := ptrToString(p + uintptr(code.Offset)) + b = appendString(ctx, b, string(appendString(ctx, []byte{}, s))) + b = appendStructEnd(ctx, code, b) + code = code.Next + case encoder.OpStructEndOmitEmptyStringString: + p := load(ctxptr, code.Idx) + v := ptrToString(p + uintptr(code.Offset)) + if v != "" { + b = appendStructKey(ctx, code, b) + b = appendString(ctx, b, string(appendString(ctx, []byte{}, v))) + b = appendStructEnd(ctx, code, b) + } else { + b = appendStructEndSkipLast(ctx, code, b) + } + code = code.Next + case encoder.OpStructEndStringPtr: + b = appendStructKey(ctx, code, b) + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p == 0 { + b = appendNull(ctx, b) + } else { + b = appendString(ctx, b, ptrToString(p)) + } + b = appendStructEnd(ctx, code, b) + code = code.Next + case encoder.OpStructEndOmitEmptyStringPtr: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + b = appendString(ctx, b, ptrToString(p)) + b = appendStructEnd(ctx, code, b) + } else { + b = appendStructEndSkipLast(ctx, code, b) + } + code = code.Next + case encoder.OpStructEndStringPtrString: + b = appendStructKey(ctx, code, b) + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p == 0 { + b = appendNull(ctx, b) + } else { + b = appendString(ctx, b, string(appendString(ctx, []byte{}, ptrToString(p)))) + } + b = appendStructEnd(ctx, code, b) + code = code.Next + case encoder.OpStructEndOmitEmptyStringPtrString: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + b = appendString(ctx, b, string(appendString(ctx, []byte{}, ptrToString(p)))) + b = appendStructEnd(ctx, code, b) + } else { + b = appendStructEndSkipLast(ctx, code, b) + } + code = code.Next + case encoder.OpStructEndBool: + p := load(ctxptr, code.Idx) + b = appendStructKey(ctx, code, b) + b = appendBool(ctx, b, ptrToBool(p+uintptr(code.Offset))) + b = appendStructEnd(ctx, code, b) + code = code.Next + case encoder.OpStructEndOmitEmptyBool: + p := load(ctxptr, code.Idx) + v := ptrToBool(p + uintptr(code.Offset)) + if v { + b = appendStructKey(ctx, code, b) + b = appendBool(ctx, b, v) + b = appendStructEnd(ctx, code, b) + } else { + b = appendStructEndSkipLast(ctx, code, b) + } + code = code.Next + case encoder.OpStructEndBoolString: + p := load(ctxptr, code.Idx) + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendBool(ctx, b, ptrToBool(p+uintptr(code.Offset))) + b = append(b, '"') + b = appendStructEnd(ctx, code, b) + code = code.Next + case encoder.OpStructEndOmitEmptyBoolString: + p := load(ctxptr, code.Idx) + v := ptrToBool(p + uintptr(code.Offset)) + if v { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendBool(ctx, b, v) + b = append(b, '"') + b = appendStructEnd(ctx, code, b) + } else { + b = appendStructEndSkipLast(ctx, code, b) + } + code = code.Next + case encoder.OpStructEndBoolPtr: + b = appendStructKey(ctx, code, b) + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p == 0 { + b = appendNull(ctx, b) + } else { + b = appendBool(ctx, b, ptrToBool(p)) + } + b = appendStructEnd(ctx, code, b) + code = code.Next + case encoder.OpStructEndOmitEmptyBoolPtr: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + b = appendBool(ctx, b, ptrToBool(p)) + b = appendStructEnd(ctx, code, b) + } else { + b = appendStructEndSkipLast(ctx, code, b) + } + code = code.Next + case encoder.OpStructEndBoolPtrString: + b = appendStructKey(ctx, code, b) + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p == 0 { + b = appendNull(ctx, b) + } else { + b = append(b, '"') + b = appendBool(ctx, b, ptrToBool(p)) + b = append(b, '"') + } + b = appendStructEnd(ctx, code, b) + code = code.Next + case encoder.OpStructEndOmitEmptyBoolPtrString: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendBool(ctx, b, ptrToBool(p)) + b = append(b, '"') + b = appendStructEnd(ctx, code, b) + } else { + b = appendStructEndSkipLast(ctx, code, b) + } + code = code.Next + case encoder.OpStructEndBytes: + p := load(ctxptr, code.Idx) + b = appendStructKey(ctx, code, b) + b = appendByteSlice(ctx, b, ptrToBytes(p+uintptr(code.Offset))) + b = appendStructEnd(ctx, code, b) + code = code.Next + case encoder.OpStructEndOmitEmptyBytes: + p := load(ctxptr, code.Idx) + v := ptrToBytes(p + uintptr(code.Offset)) + if len(v) > 0 { + b = appendStructKey(ctx, code, b) + b = appendByteSlice(ctx, b, v) + b = appendStructEnd(ctx, code, b) + } else { + b = appendStructEndSkipLast(ctx, code, b) + } + code = code.Next + case encoder.OpStructEndBytesPtr: + b = appendStructKey(ctx, code, b) + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p == 0 { + b = appendNull(ctx, b) + } else { + b = appendByteSlice(ctx, b, ptrToBytes(p)) + } + b = appendStructEnd(ctx, code, b) + code = code.Next + case encoder.OpStructEndOmitEmptyBytesPtr: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + b = appendByteSlice(ctx, b, ptrToBytes(p)) + b = appendStructEnd(ctx, code, b) + } else { + b = appendStructEndSkipLast(ctx, code, b) + } + code = code.Next + case encoder.OpStructEndNumber: + p := load(ctxptr, code.Idx) + b = appendStructKey(ctx, code, b) + bb, err := appendNumber(ctx, b, ptrToNumber(p+uintptr(code.Offset))) + if err != nil { + return nil, err + } + b = appendStructEnd(ctx, code, bb) + code = code.Next + case encoder.OpStructEndOmitEmptyNumber: + p := load(ctxptr, code.Idx) + v := ptrToNumber(p + uintptr(code.Offset)) + if v != "" { + b = appendStructKey(ctx, code, b) + bb, err := appendNumber(ctx, b, v) + if err != nil { + return nil, err + } + b = appendStructEnd(ctx, code, bb) + } else { + b = appendStructEndSkipLast(ctx, code, b) + } + code = code.Next + case encoder.OpStructEndNumberString: + p := load(ctxptr, code.Idx) + b = appendStructKey(ctx, code, b) + b = append(b, '"') + bb, err := appendNumber(ctx, b, ptrToNumber(p+uintptr(code.Offset))) + if err != nil { + return nil, err + } + b = append(bb, '"') + b = appendStructEnd(ctx, code, b) + code = code.Next + case encoder.OpStructEndOmitEmptyNumberString: + p := load(ctxptr, code.Idx) + v := ptrToNumber(p + uintptr(code.Offset)) + if v != "" { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + bb, err := appendNumber(ctx, b, v) + if err != nil { + return nil, err + } + b = append(bb, '"') + b = appendStructEnd(ctx, code, b) + } else { + b = appendStructEndSkipLast(ctx, code, b) + } + code = code.Next + case encoder.OpStructEndNumberPtr: + b = appendStructKey(ctx, code, b) + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p == 0 { + b = appendNull(ctx, b) + } else { + bb, err := appendNumber(ctx, b, ptrToNumber(p)) + if err != nil { + return nil, err + } + b = bb + } + b = appendStructEnd(ctx, code, b) + code = code.Next + case encoder.OpStructEndOmitEmptyNumberPtr: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + bb, err := appendNumber(ctx, b, ptrToNumber(p)) + if err != nil { + return nil, err + } + b = appendStructEnd(ctx, code, bb) + } else { + b = appendStructEndSkipLast(ctx, code, b) + } + code = code.Next + case encoder.OpStructEndNumberPtrString: + b = appendStructKey(ctx, code, b) + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p == 0 { + b = appendNull(ctx, b) + } else { + b = append(b, '"') + bb, err := appendNumber(ctx, b, ptrToNumber(p)) + if err != nil { + return nil, err + } + b = append(bb, '"') + } + b = appendStructEnd(ctx, code, b) + code = code.Next + case encoder.OpStructEndOmitEmptyNumberPtrString: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + bb, err := appendNumber(ctx, b, ptrToNumber(p)) + if err != nil { + return nil, err + } + b = append(bb, '"') + b = appendStructEnd(ctx, code, b) + } else { + b = appendStructEndSkipLast(ctx, code, b) + } + code = code.Next + case encoder.OpEnd: + goto END + } + } +END: + return b, nil +} diff --git a/vendor/github.com/goccy/go-json/internal/encoder/vm_indent/debug_vm.go b/vendor/github.com/goccy/go-json/internal/encoder/vm_indent/debug_vm.go new file mode 100644 index 0000000..4cfd17a --- /dev/null +++ b/vendor/github.com/goccy/go-json/internal/encoder/vm_indent/debug_vm.go @@ -0,0 +1,34 @@ +package vm_indent + +import ( + "fmt" + + "github.com/goccy/go-json/internal/encoder" +) + +func DebugRun(ctx *encoder.RuntimeContext, b []byte, codeSet *encoder.OpcodeSet) ([]byte, error) { + var code *encoder.Opcode + if (ctx.Option.Flag & encoder.HTMLEscapeOption) != 0 { + code = codeSet.EscapeKeyCode + } else { + code = codeSet.NoescapeKeyCode + } + + defer func() { + if err := recover(); err != nil { + fmt.Println("=============[DEBUG]===============") + fmt.Println("* [TYPE]") + fmt.Println(codeSet.Type) + fmt.Printf("\n") + fmt.Println("* [ALL OPCODE]") + fmt.Println(code.Dump()) + fmt.Printf("\n") + fmt.Println("* [CONTEXT]") + fmt.Printf("%+v\n", ctx) + fmt.Println("===================================") + panic(err) + } + }() + + return Run(ctx, b, codeSet) +} diff --git a/vendor/github.com/goccy/go-json/internal/encoder/vm_indent/hack.go b/vendor/github.com/goccy/go-json/internal/encoder/vm_indent/hack.go new file mode 100644 index 0000000..9e245bf --- /dev/null +++ b/vendor/github.com/goccy/go-json/internal/encoder/vm_indent/hack.go @@ -0,0 +1,9 @@ +package vm_indent + +import ( + // HACK: compile order + // `vm`, `vm_indent`, `vm_color`, `vm_color_indent` packages uses a lot of memory to compile, + // so forcibly make dependencies and avoid compiling in concurrent. + // dependency order: vm => vm_indent => vm_color => vm_color_indent + _ "github.com/goccy/go-json/internal/encoder/vm_color" +) diff --git a/vendor/github.com/goccy/go-json/internal/encoder/vm_indent/util.go b/vendor/github.com/goccy/go-json/internal/encoder/vm_indent/util.go new file mode 100644 index 0000000..5f5d8a5 --- /dev/null +++ b/vendor/github.com/goccy/go-json/internal/encoder/vm_indent/util.go @@ -0,0 +1,204 @@ +package vm_indent + +import ( + "encoding/json" + "fmt" + "unsafe" + + "github.com/goccy/go-json/internal/encoder" + "github.com/goccy/go-json/internal/runtime" +) + +const uintptrSize = 4 << (^uintptr(0) >> 63) + +var ( + appendInt = encoder.AppendInt + appendUint = encoder.AppendUint + appendFloat32 = encoder.AppendFloat32 + appendFloat64 = encoder.AppendFloat64 + appendString = encoder.AppendString + appendByteSlice = encoder.AppendByteSlice + appendNumber = encoder.AppendNumber + appendStructEnd = encoder.AppendStructEndIndent + appendIndent = encoder.AppendIndent + errUnsupportedValue = encoder.ErrUnsupportedValue + errUnsupportedFloat = encoder.ErrUnsupportedFloat + mapiterinit = encoder.MapIterInit + mapiterkey = encoder.MapIterKey + mapitervalue = encoder.MapIterValue + mapiternext = encoder.MapIterNext + maplen = encoder.MapLen +) + +type emptyInterface struct { + typ *runtime.Type + ptr unsafe.Pointer +} + +func errUnimplementedOp(op encoder.OpType) error { + return fmt.Errorf("encoder (indent): opcode %s has not been implemented", op) +} + +func load(base uintptr, idx uint32) uintptr { + addr := base + uintptr(idx) + return **(**uintptr)(unsafe.Pointer(&addr)) +} + +func store(base uintptr, idx uint32, p uintptr) { + addr := base + uintptr(idx) + **(**uintptr)(unsafe.Pointer(&addr)) = p +} + +func loadNPtr(base uintptr, idx uint32, ptrNum uint8) uintptr { + addr := base + uintptr(idx) + p := **(**uintptr)(unsafe.Pointer(&addr)) + for i := uint8(0); i < ptrNum; i++ { + if p == 0 { + return 0 + } + p = ptrToPtr(p) + } + return p +} + +func ptrToUint64(p uintptr) uint64 { return **(**uint64)(unsafe.Pointer(&p)) } +func ptrToFloat32(p uintptr) float32 { return **(**float32)(unsafe.Pointer(&p)) } +func ptrToFloat64(p uintptr) float64 { return **(**float64)(unsafe.Pointer(&p)) } +func ptrToBool(p uintptr) bool { return **(**bool)(unsafe.Pointer(&p)) } +func ptrToBytes(p uintptr) []byte { return **(**[]byte)(unsafe.Pointer(&p)) } +func ptrToNumber(p uintptr) json.Number { return **(**json.Number)(unsafe.Pointer(&p)) } +func ptrToString(p uintptr) string { return **(**string)(unsafe.Pointer(&p)) } +func ptrToSlice(p uintptr) *runtime.SliceHeader { return *(**runtime.SliceHeader)(unsafe.Pointer(&p)) } +func ptrToPtr(p uintptr) uintptr { + return uintptr(**(**unsafe.Pointer)(unsafe.Pointer(&p))) +} +func ptrToNPtr(p uintptr, ptrNum uint8) uintptr { + for i := uint8(0); i < ptrNum; i++ { + if p == 0 { + return 0 + } + p = ptrToPtr(p) + } + return p +} + +func ptrToUnsafePtr(p uintptr) unsafe.Pointer { + return *(*unsafe.Pointer)(unsafe.Pointer(&p)) +} +func ptrToInterface(code *encoder.Opcode, p uintptr) interface{} { + return *(*interface{})(unsafe.Pointer(&emptyInterface{ + typ: code.Type, + ptr: *(*unsafe.Pointer)(unsafe.Pointer(&p)), + })) +} + +func appendBool(_ *encoder.RuntimeContext, b []byte, v bool) []byte { + if v { + return append(b, "true"...) + } + return append(b, "false"...) +} + +func appendNull(_ *encoder.RuntimeContext, b []byte) []byte { + return append(b, "null"...) +} + +func appendComma(_ *encoder.RuntimeContext, b []byte) []byte { + return append(b, ',', '\n') +} + +func appendColon(_ *encoder.RuntimeContext, b []byte) []byte { + return append(b, ':', ' ') +} + +func appendMapKeyValue(ctx *encoder.RuntimeContext, code *encoder.Opcode, b, key, value []byte) []byte { + b = appendIndent(ctx, b, code.Indent+1) + b = append(b, key...) + b[len(b)-2] = ':' + b[len(b)-1] = ' ' + return append(b, value...) +} + +func appendMapEnd(ctx *encoder.RuntimeContext, code *encoder.Opcode, b []byte) []byte { + b = b[:len(b)-2] + b = append(b, '\n') + b = appendIndent(ctx, b, code.Indent) + return append(b, '}', ',', '\n') +} + +func appendArrayHead(ctx *encoder.RuntimeContext, code *encoder.Opcode, b []byte) []byte { + b = append(b, '[', '\n') + return appendIndent(ctx, b, code.Indent+1) +} + +func appendArrayEnd(ctx *encoder.RuntimeContext, code *encoder.Opcode, b []byte) []byte { + b = b[:len(b)-2] + b = append(b, '\n') + b = appendIndent(ctx, b, code.Indent) + return append(b, ']', ',', '\n') +} + +func appendEmptyArray(_ *encoder.RuntimeContext, b []byte) []byte { + return append(b, '[', ']', ',', '\n') +} + +func appendEmptyObject(_ *encoder.RuntimeContext, b []byte) []byte { + return append(b, '{', '}', ',', '\n') +} + +func appendObjectEnd(ctx *encoder.RuntimeContext, code *encoder.Opcode, b []byte) []byte { + last := len(b) - 1 + b[last] = '\n' + b = appendIndent(ctx, b, code.Indent-1) + return append(b, '}', ',', '\n') +} + +func appendMarshalJSON(ctx *encoder.RuntimeContext, code *encoder.Opcode, b []byte, v interface{}) ([]byte, error) { + return encoder.AppendMarshalJSONIndent(ctx, code, b, v) +} + +func appendMarshalText(ctx *encoder.RuntimeContext, code *encoder.Opcode, b []byte, v interface{}) ([]byte, error) { + return encoder.AppendMarshalTextIndent(ctx, code, b, v) +} + +func appendStructHead(_ *encoder.RuntimeContext, b []byte) []byte { + return append(b, '{', '\n') +} + +func appendStructKey(ctx *encoder.RuntimeContext, code *encoder.Opcode, b []byte) []byte { + b = appendIndent(ctx, b, code.Indent) + b = append(b, code.Key...) + return append(b, ' ') +} + +func appendStructEndSkipLast(ctx *encoder.RuntimeContext, code *encoder.Opcode, b []byte) []byte { + last := len(b) - 1 + if b[last-1] == '{' { + b[last] = '}' + } else { + if b[last] == '\n' { + // to remove ',' and '\n' characters + b = b[:len(b)-2] + } + b = append(b, '\n') + b = appendIndent(ctx, b, code.Indent-1) + b = append(b, '}') + } + return appendComma(ctx, b) +} + +func restoreIndent(ctx *encoder.RuntimeContext, code *encoder.Opcode, ctxptr uintptr) { + ctx.BaseIndent = uint32(load(ctxptr, code.Length)) +} + +func storeIndent(ctxptr uintptr, code *encoder.Opcode, indent uintptr) { + store(ctxptr, code.Length, indent) +} + +func appendArrayElemIndent(ctx *encoder.RuntimeContext, code *encoder.Opcode, b []byte) []byte { + return appendIndent(ctx, b, code.Indent+1) +} + +func appendMapKeyIndent(ctx *encoder.RuntimeContext, code *encoder.Opcode, b []byte) []byte { + return appendIndent(ctx, b, code.Indent) +} diff --git a/vendor/github.com/goccy/go-json/internal/encoder/vm_indent/vm.go b/vendor/github.com/goccy/go-json/internal/encoder/vm_indent/vm.go new file mode 100644 index 0000000..e817484 --- /dev/null +++ b/vendor/github.com/goccy/go-json/internal/encoder/vm_indent/vm.go @@ -0,0 +1,5043 @@ +// Code generated by internal/cmd/generator. DO NOT EDIT! +package vm_indent + +import ( + "math" + "sort" + "unsafe" + + "github.com/goccy/go-json/internal/encoder" +) + +func Run(ctx *encoder.RuntimeContext, b []byte, codeSet *encoder.OpcodeSet) ([]byte, error) { + recursiveLevel := 0 + ptrOffset := uintptr(0) + ctxptr := ctx.Ptr() + var code *encoder.Opcode + if (ctx.Option.Flag & encoder.HTMLEscapeOption) != 0 { + code = codeSet.EscapeKeyCode + } else { + code = codeSet.NoescapeKeyCode + } + + for { + switch code.Op { + default: + return nil, errUnimplementedOp(code.Op) + case encoder.OpPtr: + p := load(ctxptr, code.Idx) + code = code.Next + store(ctxptr, code.Idx, ptrToPtr(p)) + case encoder.OpIntPtr: + p := loadNPtr(ctxptr, code.Idx, code.PtrNum) + if p == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + code = code.Next + break + } + store(ctxptr, code.Idx, p) + fallthrough + case encoder.OpInt: + b = appendInt(ctx, b, ptrToUint64(load(ctxptr, code.Idx)), code) + b = appendComma(ctx, b) + code = code.Next + case encoder.OpUintPtr: + p := loadNPtr(ctxptr, code.Idx, code.PtrNum) + if p == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + code = code.Next + break + } + store(ctxptr, code.Idx, p) + fallthrough + case encoder.OpUint: + b = appendUint(ctx, b, ptrToUint64(load(ctxptr, code.Idx)), code) + b = appendComma(ctx, b) + code = code.Next + case encoder.OpIntString: + b = append(b, '"') + b = appendInt(ctx, b, ptrToUint64(load(ctxptr, code.Idx)), code) + b = append(b, '"') + b = appendComma(ctx, b) + code = code.Next + case encoder.OpUintString: + b = append(b, '"') + b = appendUint(ctx, b, ptrToUint64(load(ctxptr, code.Idx)), code) + b = append(b, '"') + b = appendComma(ctx, b) + code = code.Next + case encoder.OpFloat32Ptr: + p := loadNPtr(ctxptr, code.Idx, code.PtrNum) + if p == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + code = code.Next + break + } + store(ctxptr, code.Idx, p) + fallthrough + case encoder.OpFloat32: + b = appendFloat32(ctx, b, ptrToFloat32(load(ctxptr, code.Idx))) + b = appendComma(ctx, b) + code = code.Next + case encoder.OpFloat64Ptr: + p := loadNPtr(ctxptr, code.Idx, code.PtrNum) + if p == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + code = code.Next + break + } + store(ctxptr, code.Idx, p) + fallthrough + case encoder.OpFloat64: + v := ptrToFloat64(load(ctxptr, code.Idx)) + if math.IsInf(v, 0) || math.IsNaN(v) { + return nil, errUnsupportedFloat(v) + } + b = appendFloat64(ctx, b, v) + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStringPtr: + p := loadNPtr(ctxptr, code.Idx, code.PtrNum) + if p == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + code = code.Next + break + } + store(ctxptr, code.Idx, p) + fallthrough + case encoder.OpString: + b = appendString(ctx, b, ptrToString(load(ctxptr, code.Idx))) + b = appendComma(ctx, b) + code = code.Next + case encoder.OpBoolPtr: + p := loadNPtr(ctxptr, code.Idx, code.PtrNum) + if p == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + code = code.Next + break + } + store(ctxptr, code.Idx, p) + fallthrough + case encoder.OpBool: + b = appendBool(ctx, b, ptrToBool(load(ctxptr, code.Idx))) + b = appendComma(ctx, b) + code = code.Next + case encoder.OpBytesPtr: + p := loadNPtr(ctxptr, code.Idx, code.PtrNum) + if p == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + code = code.Next + break + } + store(ctxptr, code.Idx, p) + fallthrough + case encoder.OpBytes: + b = appendByteSlice(ctx, b, ptrToBytes(load(ctxptr, code.Idx))) + b = appendComma(ctx, b) + code = code.Next + case encoder.OpNumberPtr: + p := loadNPtr(ctxptr, code.Idx, code.PtrNum) + if p == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + code = code.Next + break + } + store(ctxptr, code.Idx, p) + fallthrough + case encoder.OpNumber: + bb, err := appendNumber(ctx, b, ptrToNumber(load(ctxptr, code.Idx))) + if err != nil { + return nil, err + } + b = appendComma(ctx, bb) + code = code.Next + case encoder.OpInterfacePtr: + p := loadNPtr(ctxptr, code.Idx, code.PtrNum) + if p == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + code = code.Next + break + } + store(ctxptr, code.Idx, p) + fallthrough + case encoder.OpInterface: + p := load(ctxptr, code.Idx) + if p == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + code = code.Next + break + } + if recursiveLevel > encoder.StartDetectingCyclesAfter { + for _, seen := range ctx.SeenPtr { + if p == seen { + return nil, errUnsupportedValue(code, p) + } + } + } + ctx.SeenPtr = append(ctx.SeenPtr, p) + iface := (*emptyInterface)(ptrToUnsafePtr(p)) + if iface.ptr == nil { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + code = code.Next + break + } + + ctx.KeepRefs = append(ctx.KeepRefs, unsafe.Pointer(iface)) + ifaceCodeSet, err := encoder.CompileToGetCodeSet(uintptr(unsafe.Pointer(iface.typ))) + if err != nil { + return nil, err + } + + totalLength := uintptr(code.Length) + 3 + nextTotalLength := uintptr(ifaceCodeSet.CodeLength) + 3 + + var c *encoder.Opcode + if (ctx.Option.Flag & encoder.HTMLEscapeOption) != 0 { + c = ifaceCodeSet.InterfaceEscapeKeyCode + } else { + c = ifaceCodeSet.InterfaceNoescapeKeyCode + } + curlen := uintptr(len(ctx.Ptrs)) + offsetNum := ptrOffset / uintptrSize + oldOffset := ptrOffset + ptrOffset += totalLength * uintptrSize + oldBaseIndent := ctx.BaseIndent + indentDiffFromTop := c.Indent - 1 + ctx.BaseIndent += code.Indent - indentDiffFromTop + + newLen := offsetNum + totalLength + nextTotalLength + if curlen < newLen { + ctx.Ptrs = append(ctx.Ptrs, make([]uintptr, newLen-curlen)...) + } + ctxptr = ctx.Ptr() + ptrOffset // assign new ctxptr + + end := ifaceCodeSet.EndCode + store(ctxptr, c.Idx, uintptr(iface.ptr)) + store(ctxptr, end.Idx, oldOffset) + store(ctxptr, end.ElemIdx, uintptr(unsafe.Pointer(code.Next))) + storeIndent(ctxptr, end, uintptr(oldBaseIndent)) + code = c + recursiveLevel++ + case encoder.OpInterfaceEnd: + recursiveLevel-- + + // restore ctxptr + offset := load(ctxptr, code.Idx) + restoreIndent(ctx, code, ctxptr) + ctx.SeenPtr = ctx.SeenPtr[:len(ctx.SeenPtr)-1] + + codePtr := load(ctxptr, code.ElemIdx) + code = (*encoder.Opcode)(ptrToUnsafePtr(codePtr)) + ctxptr = ctx.Ptr() + offset + ptrOffset = offset + case encoder.OpMarshalJSONPtr: + p := load(ctxptr, code.Idx) + if p == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + code = code.Next + break + } + store(ctxptr, code.Idx, ptrToPtr(p)) + fallthrough + case encoder.OpMarshalJSON: + p := load(ctxptr, code.Idx) + if p == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + code = code.Next + break + } + if (code.Flags&encoder.IsNilableTypeFlags) != 0 && (code.Flags&encoder.IndirectFlags) != 0 { + p = ptrToPtr(p) + } + bb, err := appendMarshalJSON(ctx, code, b, ptrToInterface(code, p)) + if err != nil { + return nil, err + } + b = appendComma(ctx, bb) + code = code.Next + case encoder.OpMarshalTextPtr: + p := load(ctxptr, code.Idx) + if p == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + code = code.Next + break + } + store(ctxptr, code.Idx, ptrToPtr(p)) + fallthrough + case encoder.OpMarshalText: + p := load(ctxptr, code.Idx) + if p == 0 { + b = append(b, `""`...) + b = appendComma(ctx, b) + code = code.Next + break + } + if (code.Flags&encoder.IsNilableTypeFlags) != 0 && (code.Flags&encoder.IndirectFlags) != 0 { + p = ptrToPtr(p) + } + bb, err := appendMarshalText(ctx, code, b, ptrToInterface(code, p)) + if err != nil { + return nil, err + } + b = appendComma(ctx, bb) + code = code.Next + case encoder.OpSlicePtr: + p := loadNPtr(ctxptr, code.Idx, code.PtrNum) + if p == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + code = code.End.Next + break + } + store(ctxptr, code.Idx, p) + fallthrough + case encoder.OpSlice: + p := load(ctxptr, code.Idx) + slice := ptrToSlice(p) + if p == 0 || slice.Data == nil { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + code = code.End.Next + break + } + store(ctxptr, code.ElemIdx, 0) + store(ctxptr, code.Length, uintptr(slice.Len)) + store(ctxptr, code.Idx, uintptr(slice.Data)) + if slice.Len > 0 { + b = appendArrayHead(ctx, code, b) + code = code.Next + store(ctxptr, code.Idx, uintptr(slice.Data)) + } else { + b = appendEmptyArray(ctx, b) + code = code.End.Next + } + case encoder.OpSliceElem: + idx := load(ctxptr, code.ElemIdx) + length := load(ctxptr, code.Length) + idx++ + if idx < length { + b = appendArrayElemIndent(ctx, code, b) + store(ctxptr, code.ElemIdx, idx) + data := load(ctxptr, code.Idx) + size := uintptr(code.Size) + code = code.Next + store(ctxptr, code.Idx, data+idx*size) + } else { + b = appendArrayEnd(ctx, code, b) + code = code.End.Next + } + case encoder.OpArrayPtr: + p := loadNPtr(ctxptr, code.Idx, code.PtrNum) + if p == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + code = code.End.Next + break + } + store(ctxptr, code.Idx, p) + fallthrough + case encoder.OpArray: + p := load(ctxptr, code.Idx) + if p == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + code = code.End.Next + break + } + if code.Length > 0 { + b = appendArrayHead(ctx, code, b) + store(ctxptr, code.ElemIdx, 0) + code = code.Next + store(ctxptr, code.Idx, p) + } else { + b = appendEmptyArray(ctx, b) + code = code.End.Next + } + case encoder.OpArrayElem: + idx := load(ctxptr, code.ElemIdx) + idx++ + if idx < uintptr(code.Length) { + b = appendArrayElemIndent(ctx, code, b) + store(ctxptr, code.ElemIdx, idx) + p := load(ctxptr, code.Idx) + size := uintptr(code.Size) + code = code.Next + store(ctxptr, code.Idx, p+idx*size) + } else { + b = appendArrayEnd(ctx, code, b) + code = code.End.Next + } + case encoder.OpMapPtr: + p := loadNPtr(ctxptr, code.Idx, code.PtrNum) + if p == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + code = code.End.Next + break + } + store(ctxptr, code.Idx, p) + fallthrough + case encoder.OpMap: + p := load(ctxptr, code.Idx) + if p == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + code = code.End.Next + break + } + uptr := ptrToUnsafePtr(p) + mlen := maplen(uptr) + if mlen <= 0 { + b = appendEmptyObject(ctx, b) + code = code.End.Next + break + } + b = appendStructHead(ctx, b) + iter := mapiterinit(code.Type, uptr) + ctx.KeepRefs = append(ctx.KeepRefs, iter) + store(ctxptr, code.ElemIdx, 0) + store(ctxptr, code.Length, uintptr(mlen)) + store(ctxptr, code.MapIter, uintptr(iter)) + if (ctx.Option.Flag & encoder.UnorderedMapOption) != 0 { + b = appendMapKeyIndent(ctx, code.Next, b) + } else { + mapCtx := encoder.NewMapContext(mlen) + mapCtx.Pos = append(mapCtx.Pos, len(b)) + ctx.KeepRefs = append(ctx.KeepRefs, unsafe.Pointer(mapCtx)) + store(ctxptr, code.End.MapPos, uintptr(unsafe.Pointer(mapCtx))) + } + key := mapiterkey(iter) + store(ctxptr, code.Next.Idx, uintptr(key)) + code = code.Next + case encoder.OpMapKey: + idx := load(ctxptr, code.ElemIdx) + length := load(ctxptr, code.Length) + idx++ + if (ctx.Option.Flag & encoder.UnorderedMapOption) != 0 { + if idx < length { + b = appendMapKeyIndent(ctx, code, b) + store(ctxptr, code.ElemIdx, idx) + ptr := load(ctxptr, code.MapIter) + iter := ptrToUnsafePtr(ptr) + key := mapiterkey(iter) + store(ctxptr, code.Next.Idx, uintptr(key)) + code = code.Next + } else { + b = appendObjectEnd(ctx, code, b) + code = code.End.Next + } + } else { + ptr := load(ctxptr, code.End.MapPos) + mapCtx := (*encoder.MapContext)(ptrToUnsafePtr(ptr)) + mapCtx.Pos = append(mapCtx.Pos, len(b)) + if idx < length { + ptr := load(ctxptr, code.MapIter) + iter := ptrToUnsafePtr(ptr) + store(ctxptr, code.ElemIdx, idx) + key := mapiterkey(iter) + store(ctxptr, code.Next.Idx, uintptr(key)) + code = code.Next + } else { + code = code.End + } + } + case encoder.OpMapValue: + if (ctx.Option.Flag & encoder.UnorderedMapOption) != 0 { + b = appendColon(ctx, b) + } else { + ptr := load(ctxptr, code.End.MapPos) + mapCtx := (*encoder.MapContext)(ptrToUnsafePtr(ptr)) + mapCtx.Pos = append(mapCtx.Pos, len(b)) + } + ptr := load(ctxptr, code.MapIter) + iter := ptrToUnsafePtr(ptr) + value := mapitervalue(iter) + store(ctxptr, code.Next.Idx, uintptr(value)) + mapiternext(iter) + code = code.Next + case encoder.OpMapEnd: + // this operation only used by sorted map. + length := int(load(ctxptr, code.Length)) + ptr := load(ctxptr, code.MapPos) + mapCtx := (*encoder.MapContext)(ptrToUnsafePtr(ptr)) + pos := mapCtx.Pos + for i := 0; i < length; i++ { + startKey := pos[i*2] + startValue := pos[i*2+1] + var endValue int + if i+1 < length { + endValue = pos[i*2+2] + } else { + endValue = len(b) + } + mapCtx.Slice.Items = append(mapCtx.Slice.Items, encoder.MapItem{ + Key: b[startKey:startValue], + Value: b[startValue:endValue], + }) + } + sort.Sort(mapCtx.Slice) + buf := mapCtx.Buf + for _, item := range mapCtx.Slice.Items { + buf = appendMapKeyValue(ctx, code, buf, item.Key, item.Value) + } + buf = appendMapEnd(ctx, code, buf) + b = b[:pos[0]] + b = append(b, buf...) + mapCtx.Buf = buf + encoder.ReleaseMapContext(mapCtx) + code = code.Next + case encoder.OpRecursivePtr: + p := load(ctxptr, code.Idx) + if p == 0 { + code = code.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpRecursive: + ptr := load(ctxptr, code.Idx) + if ptr != 0 { + if recursiveLevel > encoder.StartDetectingCyclesAfter { + for _, seen := range ctx.SeenPtr { + if ptr == seen { + return nil, errUnsupportedValue(code, ptr) + } + } + } + } + ctx.SeenPtr = append(ctx.SeenPtr, ptr) + c := code.Jmp.Code + curlen := uintptr(len(ctx.Ptrs)) + offsetNum := ptrOffset / uintptrSize + oldOffset := ptrOffset + ptrOffset += code.Jmp.CurLen * uintptrSize + oldBaseIndent := ctx.BaseIndent + indentDiffFromTop := c.Indent - 1 + ctx.BaseIndent += code.Indent - indentDiffFromTop + + newLen := offsetNum + code.Jmp.CurLen + code.Jmp.NextLen + if curlen < newLen { + ctx.Ptrs = append(ctx.Ptrs, make([]uintptr, newLen-curlen)...) + } + ctxptr = ctx.Ptr() + ptrOffset // assign new ctxptr + + store(ctxptr, c.Idx, ptr) + store(ctxptr, c.End.Next.Idx, oldOffset) + store(ctxptr, c.End.Next.ElemIdx, uintptr(unsafe.Pointer(code.Next))) + storeIndent(ctxptr, c.End.Next, uintptr(oldBaseIndent)) + code = c + recursiveLevel++ + case encoder.OpRecursiveEnd: + recursiveLevel-- + + // restore ctxptr + restoreIndent(ctx, code, ctxptr) + offset := load(ctxptr, code.Idx) + ctx.SeenPtr = ctx.SeenPtr[:len(ctx.SeenPtr)-1] + + codePtr := load(ctxptr, code.ElemIdx) + code = (*encoder.Opcode)(ptrToUnsafePtr(codePtr)) + ctxptr = ctx.Ptr() + offset + ptrOffset = offset + case encoder.OpStructPtrHead: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHead: + p := load(ctxptr, code.Idx) + if p == 0 && ((code.Flags&encoder.IndirectFlags) != 0 || code.Next.Op == encoder.OpStructEnd) { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + if len(code.Key) > 0 { + if (code.Flags&encoder.IsTaggedKeyFlags) != 0 || code.Flags&encoder.AnonymousKeyFlags == 0 { + b = appendStructKey(ctx, code, b) + } + } + p += uintptr(code.Offset) + code = code.Next + store(ctxptr, code.Idx, p) + case encoder.OpStructPtrHeadOmitEmpty: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadOmitEmpty: + p := load(ctxptr, code.Idx) + if p == 0 && ((code.Flags&encoder.IndirectFlags) != 0 || code.Next.Op == encoder.OpStructEnd) { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + p += uintptr(code.Offset) + if p == 0 || (ptrToPtr(p) == 0 && (code.Flags&encoder.IsNextOpPtrTypeFlags) != 0) { + code = code.NextField + } else { + b = appendStructKey(ctx, code, b) + code = code.Next + store(ctxptr, code.Idx, p) + } + case encoder.OpStructPtrHeadInt: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadInt: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + b = appendInt(ctx, b, ptrToUint64(p+uintptr(code.Offset)), code) + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyInt: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadOmitEmptyInt: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + u64 := ptrToUint64(p + uintptr(code.Offset)) + v := u64 & ((1 << code.NumBitSize) - 1) + if v == 0 { + code = code.NextField + } else { + b = appendStructKey(ctx, code, b) + b = appendInt(ctx, b, u64, code) + b = appendComma(ctx, b) + code = code.Next + } + case encoder.OpStructPtrHeadIntString: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadIntString: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendInt(ctx, b, ptrToUint64(p+uintptr(code.Offset)), code) + b = append(b, '"') + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyIntString: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadOmitEmptyIntString: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + u64 := ptrToUint64(p + uintptr(code.Offset)) + v := u64 & ((1 << code.NumBitSize) - 1) + if v == 0 { + code = code.NextField + } else { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendInt(ctx, b, u64, code) + b = append(b, '"') + b = appendComma(ctx, b) + code = code.Next + } + case encoder.OpStructPtrHeadIntPtr: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadIntPtr: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p == 0 { + b = appendNull(ctx, b) + } else { + b = appendInt(ctx, b, ptrToUint64(p), code) + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyIntPtr: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadOmitEmptyIntPtr: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p != 0 { + b = appendStructKey(ctx, code, b) + b = appendInt(ctx, b, ptrToUint64(p), code) + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructPtrHeadIntPtrString: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadIntPtrString: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p == 0 { + b = appendNull(ctx, b) + } else { + b = append(b, '"') + b = appendInt(ctx, b, ptrToUint64(p), code) + b = append(b, '"') + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyIntPtrString: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadOmitEmptyIntPtrString: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p != 0 { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendInt(ctx, b, ptrToUint64(p), code) + b = append(b, '"') + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructPtrHeadUint: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadUint: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + b = appendUint(ctx, b, ptrToUint64(p+uintptr(code.Offset)), code) + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyUint: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadOmitEmptyUint: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + u64 := ptrToUint64(p + uintptr(code.Offset)) + v := u64 & ((1 << code.NumBitSize) - 1) + if v == 0 { + code = code.NextField + } else { + b = appendStructKey(ctx, code, b) + b = appendUint(ctx, b, u64, code) + b = appendComma(ctx, b) + code = code.Next + } + case encoder.OpStructPtrHeadUintString: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadUintString: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendUint(ctx, b, ptrToUint64(p+uintptr(code.Offset)), code) + b = append(b, '"') + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyUintString: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadOmitEmptyUintString: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + u64 := ptrToUint64(p + uintptr(code.Offset)) + v := u64 & ((1 << code.NumBitSize) - 1) + if v == 0 { + code = code.NextField + } else { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendUint(ctx, b, u64, code) + b = append(b, '"') + b = appendComma(ctx, b) + code = code.Next + } + case encoder.OpStructPtrHeadUintPtr: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadUintPtr: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p == 0 { + b = appendNull(ctx, b) + } else { + b = appendUint(ctx, b, ptrToUint64(p), code) + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyUintPtr: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadOmitEmptyUintPtr: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p != 0 { + b = appendStructKey(ctx, code, b) + b = appendUint(ctx, b, ptrToUint64(p), code) + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructPtrHeadUintPtrString: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadUintPtrString: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p == 0 { + b = appendNull(ctx, b) + } else { + b = append(b, '"') + b = appendUint(ctx, b, ptrToUint64(p), code) + b = append(b, '"') + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyUintPtrString: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadOmitEmptyUintPtrString: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p != 0 { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendUint(ctx, b, ptrToUint64(p), code) + b = append(b, '"') + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructPtrHeadFloat32: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadFloat32: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + b = appendFloat32(ctx, b, ptrToFloat32(p+uintptr(code.Offset))) + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyFloat32: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadOmitEmptyFloat32: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + v := ptrToFloat32(p + uintptr(code.Offset)) + if v == 0 { + code = code.NextField + } else { + b = appendStructKey(ctx, code, b) + b = appendFloat32(ctx, b, v) + b = appendComma(ctx, b) + code = code.Next + } + case encoder.OpStructPtrHeadFloat32String: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadFloat32String: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendFloat32(ctx, b, ptrToFloat32(p+uintptr(code.Offset))) + b = append(b, '"') + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyFloat32String: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadOmitEmptyFloat32String: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + v := ptrToFloat32(p + uintptr(code.Offset)) + if v == 0 { + code = code.NextField + } else { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendFloat32(ctx, b, v) + b = append(b, '"') + b = appendComma(ctx, b) + code = code.Next + } + case encoder.OpStructPtrHeadFloat32Ptr: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadFloat32Ptr: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p == 0 { + b = appendNull(ctx, b) + } else { + b = appendFloat32(ctx, b, ptrToFloat32(p)) + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyFloat32Ptr: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadOmitEmptyFloat32Ptr: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p != 0 { + b = appendStructKey(ctx, code, b) + b = appendFloat32(ctx, b, ptrToFloat32(p)) + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructPtrHeadFloat32PtrString: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadFloat32PtrString: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p == 0 { + b = appendNull(ctx, b) + } else { + b = append(b, '"') + b = appendFloat32(ctx, b, ptrToFloat32(p)) + b = append(b, '"') + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyFloat32PtrString: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadOmitEmptyFloat32PtrString: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p != 0 { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendFloat32(ctx, b, ptrToFloat32(p)) + b = append(b, '"') + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructPtrHeadFloat64: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadFloat64: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + v := ptrToFloat64(p + uintptr(code.Offset)) + if math.IsInf(v, 0) || math.IsNaN(v) { + return nil, errUnsupportedFloat(v) + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + b = appendFloat64(ctx, b, v) + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyFloat64: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadOmitEmptyFloat64: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + v := ptrToFloat64(p + uintptr(code.Offset)) + if v == 0 { + code = code.NextField + } else { + if math.IsInf(v, 0) || math.IsNaN(v) { + return nil, errUnsupportedFloat(v) + } + b = appendStructKey(ctx, code, b) + b = appendFloat64(ctx, b, v) + b = appendComma(ctx, b) + code = code.Next + } + case encoder.OpStructPtrHeadFloat64String: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadFloat64String: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + v := ptrToFloat64(p + uintptr(code.Offset)) + if math.IsInf(v, 0) || math.IsNaN(v) { + return nil, errUnsupportedFloat(v) + } + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendFloat64(ctx, b, v) + b = append(b, '"') + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyFloat64String: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadOmitEmptyFloat64String: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + v := ptrToFloat64(p + uintptr(code.Offset)) + if v == 0 { + code = code.NextField + } else { + if math.IsInf(v, 0) || math.IsNaN(v) { + return nil, errUnsupportedFloat(v) + } + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendFloat64(ctx, b, v) + b = append(b, '"') + b = appendComma(ctx, b) + code = code.Next + } + case encoder.OpStructPtrHeadFloat64Ptr: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadFloat64Ptr: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p == 0 { + b = appendNull(ctx, b) + } else { + v := ptrToFloat64(p) + if math.IsInf(v, 0) || math.IsNaN(v) { + return nil, errUnsupportedFloat(v) + } + b = appendFloat64(ctx, b, v) + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyFloat64Ptr: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadOmitEmptyFloat64Ptr: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p != 0 { + b = appendStructKey(ctx, code, b) + v := ptrToFloat64(p) + if math.IsInf(v, 0) || math.IsNaN(v) { + return nil, errUnsupportedFloat(v) + } + b = appendFloat64(ctx, b, v) + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructPtrHeadFloat64PtrString: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadFloat64PtrString: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p == 0 { + b = appendNull(ctx, b) + } else { + b = append(b, '"') + v := ptrToFloat64(p) + if math.IsInf(v, 0) || math.IsNaN(v) { + return nil, errUnsupportedFloat(v) + } + b = appendFloat64(ctx, b, v) + b = append(b, '"') + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyFloat64PtrString: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadOmitEmptyFloat64PtrString: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p != 0 { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + v := ptrToFloat64(p) + if math.IsInf(v, 0) || math.IsNaN(v) { + return nil, errUnsupportedFloat(v) + } + b = appendFloat64(ctx, b, v) + b = append(b, '"') + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructPtrHeadString: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadString: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + b = appendString(ctx, b, ptrToString(p+uintptr(code.Offset))) + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyString: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadOmitEmptyString: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + v := ptrToString(p + uintptr(code.Offset)) + if v == "" { + code = code.NextField + } else { + b = appendStructKey(ctx, code, b) + b = appendString(ctx, b, v) + b = appendComma(ctx, b) + code = code.Next + } + case encoder.OpStructPtrHeadStringString: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadStringString: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + b = appendString(ctx, b, string(appendString(ctx, []byte{}, ptrToString(p+uintptr(code.Offset))))) + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyStringString: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadOmitEmptyStringString: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + v := ptrToString(p + uintptr(code.Offset)) + if v == "" { + code = code.NextField + } else { + b = appendStructKey(ctx, code, b) + b = appendString(ctx, b, string(appendString(ctx, []byte{}, v))) + b = appendComma(ctx, b) + code = code.Next + } + case encoder.OpStructPtrHeadStringPtr: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadStringPtr: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p == 0 { + b = appendNull(ctx, b) + } else { + b = appendString(ctx, b, ptrToString(p)) + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyStringPtr: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadOmitEmptyStringPtr: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p != 0 { + b = appendStructKey(ctx, code, b) + b = appendString(ctx, b, ptrToString(p)) + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructPtrHeadStringPtrString: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadStringPtrString: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p == 0 { + b = appendNull(ctx, b) + } else { + b = appendString(ctx, b, string(appendString(ctx, []byte{}, ptrToString(p)))) + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyStringPtrString: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadOmitEmptyStringPtrString: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p != 0 { + b = appendStructKey(ctx, code, b) + b = appendString(ctx, b, string(appendString(ctx, []byte{}, ptrToString(p)))) + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructPtrHeadBool: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadBool: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + b = appendBool(ctx, b, ptrToBool(p+uintptr(code.Offset))) + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyBool: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadOmitEmptyBool: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + v := ptrToBool(p + uintptr(code.Offset)) + if v { + b = appendStructKey(ctx, code, b) + b = appendBool(ctx, b, v) + b = appendComma(ctx, b) + code = code.Next + } else { + code = code.NextField + } + case encoder.OpStructPtrHeadBoolString: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadBoolString: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendBool(ctx, b, ptrToBool(p+uintptr(code.Offset))) + b = append(b, '"') + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyBoolString: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadOmitEmptyBoolString: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + v := ptrToBool(p + uintptr(code.Offset)) + if v { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendBool(ctx, b, v) + b = append(b, '"') + b = appendComma(ctx, b) + code = code.Next + } else { + code = code.NextField + } + case encoder.OpStructPtrHeadBoolPtr: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadBoolPtr: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p == 0 { + b = appendNull(ctx, b) + } else { + b = appendBool(ctx, b, ptrToBool(p)) + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyBoolPtr: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadOmitEmptyBoolPtr: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p != 0 { + b = appendStructKey(ctx, code, b) + b = appendBool(ctx, b, ptrToBool(p)) + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructPtrHeadBoolPtrString: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadBoolPtrString: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p == 0 { + b = appendNull(ctx, b) + } else { + b = append(b, '"') + b = appendBool(ctx, b, ptrToBool(p)) + b = append(b, '"') + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyBoolPtrString: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadOmitEmptyBoolPtrString: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p != 0 { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendBool(ctx, b, ptrToBool(p)) + b = append(b, '"') + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructPtrHeadBytes: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadBytes: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + b = appendByteSlice(ctx, b, ptrToBytes(p+uintptr(code.Offset))) + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyBytes: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadOmitEmptyBytes: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + v := ptrToBytes(p + uintptr(code.Offset)) + if len(v) == 0 { + code = code.NextField + } else { + b = appendStructKey(ctx, code, b) + b = appendByteSlice(ctx, b, v) + b = appendComma(ctx, b) + code = code.Next + } + case encoder.OpStructPtrHeadBytesPtr: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadBytesPtr: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p == 0 { + b = appendNull(ctx, b) + } else { + b = appendByteSlice(ctx, b, ptrToBytes(p)) + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyBytesPtr: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadOmitEmptyBytesPtr: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p != 0 { + b = appendStructKey(ctx, code, b) + b = appendByteSlice(ctx, b, ptrToBytes(p)) + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructPtrHeadNumber: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadNumber: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + bb, err := appendNumber(ctx, b, ptrToNumber(p+uintptr(code.Offset))) + if err != nil { + return nil, err + } + b = appendComma(ctx, bb) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyNumber: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadOmitEmptyNumber: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + v := ptrToNumber(p + uintptr(code.Offset)) + if v == "" { + code = code.NextField + } else { + b = appendStructKey(ctx, code, b) + bb, err := appendNumber(ctx, b, v) + if err != nil { + return nil, err + } + b = appendComma(ctx, bb) + code = code.Next + } + case encoder.OpStructPtrHeadNumberString: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadNumberString: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + b = append(b, '"') + bb, err := appendNumber(ctx, b, ptrToNumber(p+uintptr(code.Offset))) + if err != nil { + return nil, err + } + b = append(bb, '"') + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyNumberString: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadOmitEmptyNumberString: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + v := ptrToNumber(p + uintptr(code.Offset)) + if v == "" { + code = code.NextField + } else { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + bb, err := appendNumber(ctx, b, v) + if err != nil { + return nil, err + } + b = append(bb, '"') + b = appendComma(ctx, b) + code = code.Next + } + case encoder.OpStructPtrHeadNumberPtr: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadNumberPtr: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p == 0 { + b = appendNull(ctx, b) + } else { + bb, err := appendNumber(ctx, b, ptrToNumber(p)) + if err != nil { + return nil, err + } + b = bb + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyNumberPtr: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadOmitEmptyNumberPtr: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p != 0 { + b = appendStructKey(ctx, code, b) + bb, err := appendNumber(ctx, b, ptrToNumber(p)) + if err != nil { + return nil, err + } + b = appendComma(ctx, bb) + } + code = code.Next + case encoder.OpStructPtrHeadNumberPtrString: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadNumberPtrString: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p == 0 { + b = appendNull(ctx, b) + } else { + b = append(b, '"') + bb, err := appendNumber(ctx, b, ptrToNumber(p)) + if err != nil { + return nil, err + } + b = append(bb, '"') + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyNumberPtrString: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadOmitEmptyNumberPtrString: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p != 0 { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + bb, err := appendNumber(ctx, b, ptrToNumber(p)) + if err != nil { + return nil, err + } + b = append(bb, '"') + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructPtrHeadArray, encoder.OpStructPtrHeadSlice: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadArray, encoder.OpStructHeadSlice: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + p += uintptr(code.Offset) + code = code.Next + store(ctxptr, code.Idx, p) + case encoder.OpStructPtrHeadOmitEmptyArray: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadOmitEmptyArray: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + p += uintptr(code.Offset) + b = appendStructKey(ctx, code, b) + code = code.Next + store(ctxptr, code.Idx, p) + case encoder.OpStructPtrHeadOmitEmptySlice: + if (code.Flags & encoder.IndirectFlags) != 0 { + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadOmitEmptySlice: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + p += uintptr(code.Offset) + slice := ptrToSlice(p) + if slice.Len == 0 { + code = code.NextField + } else { + b = appendStructKey(ctx, code, b) + code = code.Next + store(ctxptr, code.Idx, p) + } + case encoder.OpStructPtrHeadArrayPtr, encoder.OpStructPtrHeadSlicePtr: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadArrayPtr, encoder.OpStructHeadSlicePtr: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + code = code.NextField + } else { + code = code.Next + store(ctxptr, code.Idx, p) + } + case encoder.OpStructPtrHeadOmitEmptyArrayPtr, encoder.OpStructPtrHeadOmitEmptySlicePtr: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadOmitEmptyArrayPtr, encoder.OpStructHeadOmitEmptySlicePtr: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p == 0 { + code = code.NextField + } else { + b = appendStructKey(ctx, code, b) + code = code.Next + store(ctxptr, code.Idx, p) + } + case encoder.OpStructPtrHeadMap: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadMap: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + if p != 0 && (code.Flags&encoder.IndirectFlags) != 0 { + p = ptrToPtr(p + uintptr(code.Offset)) + } + code = code.Next + store(ctxptr, code.Idx, p) + case encoder.OpStructPtrHeadOmitEmptyMap: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadOmitEmptyMap: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + if p != 0 && (code.Flags&encoder.IndirectFlags) != 0 { + p = ptrToPtr(p + uintptr(code.Offset)) + } + if maplen(ptrToUnsafePtr(p)) == 0 { + code = code.NextField + } else { + b = appendStructKey(ctx, code, b) + code = code.Next + store(ctxptr, code.Idx, p) + } + case encoder.OpStructPtrHeadMapPtr: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadMapPtr: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + if p == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + code = code.NextField + break + } + p = ptrToPtr(p + uintptr(code.Offset)) + if p == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + code = code.NextField + } else { + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p, code.PtrNum) + } + code = code.Next + store(ctxptr, code.Idx, p) + } + case encoder.OpStructPtrHeadOmitEmptyMapPtr: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadOmitEmptyMapPtr: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + if p == 0 { + code = code.NextField + break + } + p = ptrToPtr(p + uintptr(code.Offset)) + if p == 0 { + code = code.NextField + } else { + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p, code.PtrNum) + } + b = appendStructKey(ctx, code, b) + code = code.Next + store(ctxptr, code.Idx, p) + } + case encoder.OpStructPtrHeadMarshalJSON: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if (code.Flags & encoder.IndirectFlags) != 0 { + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadMarshalJSON: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + if (code.Flags & encoder.IsNilableTypeFlags) != 0 { + if (code.Flags&encoder.IndirectFlags) != 0 || code.Op == encoder.OpStructPtrHeadMarshalJSON { + p = ptrToPtr(p + uintptr(code.Offset)) + } + } + if p == 0 && (code.Flags&encoder.NilCheckFlags) != 0 { + b = appendNull(ctx, b) + } else { + bb, err := appendMarshalJSON(ctx, code, b, ptrToInterface(code, p)) + if err != nil { + return nil, err + } + b = bb + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyMarshalJSON: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if (code.Flags & encoder.IndirectFlags) != 0 { + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadOmitEmptyMarshalJSON: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + if (code.Flags & encoder.IsNilableTypeFlags) != 0 { + if (code.Flags&encoder.IndirectFlags) != 0 || code.Op == encoder.OpStructPtrHeadOmitEmptyMarshalJSON { + p = ptrToPtr(p + uintptr(code.Offset)) + } + } + iface := ptrToInterface(code, p) + if (code.Flags&encoder.NilCheckFlags) != 0 && encoder.IsNilForMarshaler(iface) { + code = code.NextField + } else { + b = appendStructKey(ctx, code, b) + bb, err := appendMarshalJSON(ctx, code, b, iface) + if err != nil { + return nil, err + } + b = bb + b = appendComma(ctx, b) + code = code.Next + } + case encoder.OpStructPtrHeadMarshalJSONPtr: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadMarshalJSONPtr: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p == 0 { + b = appendNull(ctx, b) + } else { + bb, err := appendMarshalJSON(ctx, code, b, ptrToInterface(code, p)) + if err != nil { + return nil, err + } + b = bb + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyMarshalJSONPtr: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadOmitEmptyMarshalJSONPtr: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + if p == 0 { + code = code.NextField + } else { + b = appendStructKey(ctx, code, b) + bb, err := appendMarshalJSON(ctx, code, b, ptrToInterface(code, p)) + if err != nil { + return nil, err + } + b = bb + b = appendComma(ctx, b) + code = code.Next + } + case encoder.OpStructPtrHeadMarshalText: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if (code.Flags & encoder.IndirectFlags) != 0 { + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadMarshalText: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + if (code.Flags & encoder.IsNilableTypeFlags) != 0 { + if (code.Flags&encoder.IndirectFlags) != 0 || code.Op == encoder.OpStructPtrHeadMarshalText { + p = ptrToPtr(p + uintptr(code.Offset)) + } + } + if p == 0 && (code.Flags&encoder.NilCheckFlags) != 0 { + b = appendNull(ctx, b) + } else { + bb, err := appendMarshalText(ctx, code, b, ptrToInterface(code, p)) + if err != nil { + return nil, err + } + b = bb + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyMarshalText: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if (code.Flags & encoder.IndirectFlags) != 0 { + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + } + fallthrough + case encoder.OpStructHeadOmitEmptyMarshalText: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + if (code.Flags & encoder.IsNilableTypeFlags) != 0 { + if (code.Flags&encoder.IndirectFlags) != 0 || code.Op == encoder.OpStructPtrHeadOmitEmptyMarshalText { + p = ptrToPtr(p + uintptr(code.Offset)) + } + } + if p == 0 && (code.Flags&encoder.NilCheckFlags) != 0 { + code = code.NextField + } else { + b = appendStructKey(ctx, code, b) + bb, err := appendMarshalText(ctx, code, b, ptrToInterface(code, p)) + if err != nil { + return nil, err + } + b = bb + b = appendComma(ctx, b) + code = code.Next + } + case encoder.OpStructPtrHeadMarshalTextPtr: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadMarshalTextPtr: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + b = appendStructKey(ctx, code, b) + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if p == 0 { + b = appendNull(ctx, b) + } else { + bb, err := appendMarshalText(ctx, code, b, ptrToInterface(code, p)) + if err != nil { + return nil, err + } + b = bb + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructPtrHeadOmitEmptyMarshalTextPtr: + p := load(ctxptr, code.Idx) + if p == 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + store(ctxptr, code.Idx, ptrToNPtr(p, code.PtrNum)) + fallthrough + case encoder.OpStructHeadOmitEmptyMarshalTextPtr: + p := load(ctxptr, code.Idx) + if p == 0 && (code.Flags&encoder.IndirectFlags) != 0 { + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + } + code = code.End.Next + break + } + if (code.Flags & encoder.IndirectFlags) != 0 { + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + } + if code.Flags&encoder.AnonymousHeadFlags == 0 { + b = appendStructHead(ctx, b) + } + if p == 0 { + code = code.NextField + } else { + b = appendStructKey(ctx, code, b) + bb, err := appendMarshalText(ctx, code, b, ptrToInterface(code, p)) + if err != nil { + return nil, err + } + b = bb + b = appendComma(ctx, b) + code = code.Next + } + case encoder.OpStructField: + if code.Flags&encoder.IsTaggedKeyFlags != 0 || code.Flags&encoder.AnonymousKeyFlags == 0 { + b = appendStructKey(ctx, code, b) + } + p := load(ctxptr, code.Idx) + uintptr(code.Offset) + code = code.Next + store(ctxptr, code.Idx, p) + case encoder.OpStructFieldOmitEmpty: + p := load(ctxptr, code.Idx) + p += uintptr(code.Offset) + if ptrToPtr(p) == 0 && (code.Flags&encoder.IsNextOpPtrTypeFlags) != 0 { + code = code.NextField + } else { + b = appendStructKey(ctx, code, b) + code = code.Next + store(ctxptr, code.Idx, p) + } + case encoder.OpStructFieldInt: + p := load(ctxptr, code.Idx) + b = appendStructKey(ctx, code, b) + b = appendInt(ctx, b, ptrToUint64(p+uintptr(code.Offset)), code) + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyInt: + p := load(ctxptr, code.Idx) + u64 := ptrToUint64(p + uintptr(code.Offset)) + v := u64 & ((1 << code.NumBitSize) - 1) + if v != 0 { + b = appendStructKey(ctx, code, b) + b = appendInt(ctx, b, u64, code) + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructFieldIntString: + p := load(ctxptr, code.Idx) + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendInt(ctx, b, ptrToUint64(p+uintptr(code.Offset)), code) + b = append(b, '"') + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyIntString: + p := load(ctxptr, code.Idx) + u64 := ptrToUint64(p + uintptr(code.Offset)) + v := u64 & ((1 << code.NumBitSize) - 1) + if v != 0 { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendInt(ctx, b, u64, code) + b = append(b, '"') + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructFieldIntPtr: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + b = appendStructKey(ctx, code, b) + if p == 0 { + b = appendNull(ctx, b) + } else { + b = appendInt(ctx, b, ptrToUint64(p), code) + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyIntPtr: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + b = appendInt(ctx, b, ptrToUint64(p), code) + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructFieldIntPtrString: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + b = appendStructKey(ctx, code, b) + if p == 0 { + b = appendNull(ctx, b) + } else { + b = append(b, '"') + b = appendInt(ctx, b, ptrToUint64(p), code) + b = append(b, '"') + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyIntPtrString: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendInt(ctx, b, ptrToUint64(p), code) + b = append(b, '"') + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructFieldUint: + p := load(ctxptr, code.Idx) + b = appendStructKey(ctx, code, b) + b = appendUint(ctx, b, ptrToUint64(p+uintptr(code.Offset)), code) + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyUint: + p := load(ctxptr, code.Idx) + u64 := ptrToUint64(p + uintptr(code.Offset)) + v := u64 & ((1 << code.NumBitSize) - 1) + if v != 0 { + b = appendStructKey(ctx, code, b) + b = appendUint(ctx, b, u64, code) + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructFieldUintString: + p := load(ctxptr, code.Idx) + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendUint(ctx, b, ptrToUint64(p+uintptr(code.Offset)), code) + b = append(b, '"') + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyUintString: + p := load(ctxptr, code.Idx) + u64 := ptrToUint64(p + uintptr(code.Offset)) + v := u64 & ((1 << code.NumBitSize) - 1) + if v != 0 { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendUint(ctx, b, u64, code) + b = append(b, '"') + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructFieldUintPtr: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + b = appendStructKey(ctx, code, b) + if p == 0 { + b = appendNull(ctx, b) + } else { + b = appendUint(ctx, b, ptrToUint64(p), code) + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyUintPtr: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + b = appendUint(ctx, b, ptrToUint64(p), code) + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructFieldUintPtrString: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + b = appendStructKey(ctx, code, b) + if p == 0 { + b = appendNull(ctx, b) + } else { + b = append(b, '"') + b = appendUint(ctx, b, ptrToUint64(p), code) + b = append(b, '"') + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyUintPtrString: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendUint(ctx, b, ptrToUint64(p), code) + b = append(b, '"') + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructFieldFloat32: + p := load(ctxptr, code.Idx) + b = appendStructKey(ctx, code, b) + b = appendFloat32(ctx, b, ptrToFloat32(p+uintptr(code.Offset))) + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyFloat32: + p := load(ctxptr, code.Idx) + v := ptrToFloat32(p + uintptr(code.Offset)) + if v != 0 { + b = appendStructKey(ctx, code, b) + b = appendFloat32(ctx, b, v) + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructFieldFloat32String: + p := load(ctxptr, code.Idx) + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendFloat32(ctx, b, ptrToFloat32(p+uintptr(code.Offset))) + b = append(b, '"') + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyFloat32String: + p := load(ctxptr, code.Idx) + v := ptrToFloat32(p + uintptr(code.Offset)) + if v != 0 { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendFloat32(ctx, b, v) + b = append(b, '"') + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructFieldFloat32Ptr: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + b = appendStructKey(ctx, code, b) + if p == 0 { + b = appendNull(ctx, b) + } else { + b = appendFloat32(ctx, b, ptrToFloat32(p)) + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyFloat32Ptr: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + b = appendFloat32(ctx, b, ptrToFloat32(p)) + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructFieldFloat32PtrString: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + b = appendStructKey(ctx, code, b) + if p == 0 { + b = appendNull(ctx, b) + } else { + b = append(b, '"') + b = appendFloat32(ctx, b, ptrToFloat32(p)) + b = append(b, '"') + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyFloat32PtrString: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendFloat32(ctx, b, ptrToFloat32(p)) + b = append(b, '"') + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructFieldFloat64: + p := load(ctxptr, code.Idx) + b = appendStructKey(ctx, code, b) + v := ptrToFloat64(p + uintptr(code.Offset)) + if math.IsInf(v, 0) || math.IsNaN(v) { + return nil, errUnsupportedFloat(v) + } + b = appendFloat64(ctx, b, v) + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyFloat64: + p := load(ctxptr, code.Idx) + v := ptrToFloat64(p + uintptr(code.Offset)) + if v != 0 { + if math.IsInf(v, 0) || math.IsNaN(v) { + return nil, errUnsupportedFloat(v) + } + b = appendStructKey(ctx, code, b) + b = appendFloat64(ctx, b, v) + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructFieldFloat64String: + p := load(ctxptr, code.Idx) + v := ptrToFloat64(p + uintptr(code.Offset)) + if math.IsInf(v, 0) || math.IsNaN(v) { + return nil, errUnsupportedFloat(v) + } + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendFloat64(ctx, b, v) + b = append(b, '"') + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyFloat64String: + p := load(ctxptr, code.Idx) + v := ptrToFloat64(p + uintptr(code.Offset)) + if v != 0 { + if math.IsInf(v, 0) || math.IsNaN(v) { + return nil, errUnsupportedFloat(v) + } + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendFloat64(ctx, b, v) + b = append(b, '"') + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructFieldFloat64Ptr: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + b = appendStructKey(ctx, code, b) + if p == 0 { + b = appendNull(ctx, b) + b = appendComma(ctx, b) + code = code.Next + break + } + v := ptrToFloat64(p) + if math.IsInf(v, 0) || math.IsNaN(v) { + return nil, errUnsupportedFloat(v) + } + b = appendFloat64(ctx, b, v) + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyFloat64Ptr: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + v := ptrToFloat64(p) + if math.IsInf(v, 0) || math.IsNaN(v) { + return nil, errUnsupportedFloat(v) + } + b = appendFloat64(ctx, b, v) + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructFieldFloat64PtrString: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + b = appendStructKey(ctx, code, b) + if p == 0 { + b = appendNull(ctx, b) + } else { + v := ptrToFloat64(p) + if math.IsInf(v, 0) || math.IsNaN(v) { + return nil, errUnsupportedFloat(v) + } + b = append(b, '"') + b = appendFloat64(ctx, b, v) + b = append(b, '"') + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyFloat64PtrString: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + v := ptrToFloat64(p) + if math.IsInf(v, 0) || math.IsNaN(v) { + return nil, errUnsupportedFloat(v) + } + b = appendFloat64(ctx, b, v) + b = append(b, '"') + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructFieldString: + p := load(ctxptr, code.Idx) + b = appendStructKey(ctx, code, b) + b = appendString(ctx, b, ptrToString(p+uintptr(code.Offset))) + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyString: + p := load(ctxptr, code.Idx) + v := ptrToString(p + uintptr(code.Offset)) + if v != "" { + b = appendStructKey(ctx, code, b) + b = appendString(ctx, b, v) + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructFieldStringString: + p := load(ctxptr, code.Idx) + s := ptrToString(p + uintptr(code.Offset)) + b = appendStructKey(ctx, code, b) + b = appendString(ctx, b, string(appendString(ctx, []byte{}, s))) + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyStringString: + p := load(ctxptr, code.Idx) + v := ptrToString(p + uintptr(code.Offset)) + if v != "" { + b = appendStructKey(ctx, code, b) + b = appendString(ctx, b, string(appendString(ctx, []byte{}, v))) + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructFieldStringPtr: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + b = appendStructKey(ctx, code, b) + if p == 0 { + b = appendNull(ctx, b) + } else { + b = appendString(ctx, b, ptrToString(p)) + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyStringPtr: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + b = appendString(ctx, b, ptrToString(p)) + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructFieldStringPtrString: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + b = appendStructKey(ctx, code, b) + if p == 0 { + b = appendNull(ctx, b) + } else { + b = appendString(ctx, b, string(appendString(ctx, []byte{}, ptrToString(p)))) + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyStringPtrString: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + b = appendString(ctx, b, string(appendString(ctx, []byte{}, ptrToString(p)))) + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructFieldBool: + p := load(ctxptr, code.Idx) + b = appendStructKey(ctx, code, b) + b = appendBool(ctx, b, ptrToBool(p+uintptr(code.Offset))) + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyBool: + p := load(ctxptr, code.Idx) + v := ptrToBool(p + uintptr(code.Offset)) + if v { + b = appendStructKey(ctx, code, b) + b = appendBool(ctx, b, v) + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructFieldBoolString: + p := load(ctxptr, code.Idx) + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendBool(ctx, b, ptrToBool(p+uintptr(code.Offset))) + b = append(b, '"') + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyBoolString: + p := load(ctxptr, code.Idx) + v := ptrToBool(p + uintptr(code.Offset)) + if v { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendBool(ctx, b, v) + b = append(b, '"') + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructFieldBoolPtr: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + b = appendStructKey(ctx, code, b) + if p == 0 { + b = appendNull(ctx, b) + } else { + b = appendBool(ctx, b, ptrToBool(p)) + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyBoolPtr: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + b = appendBool(ctx, b, ptrToBool(p)) + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructFieldBoolPtrString: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + b = appendStructKey(ctx, code, b) + if p == 0 { + b = appendNull(ctx, b) + } else { + b = append(b, '"') + b = appendBool(ctx, b, ptrToBool(p)) + b = append(b, '"') + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyBoolPtrString: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendBool(ctx, b, ptrToBool(p)) + b = append(b, '"') + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructFieldBytes: + p := load(ctxptr, code.Idx) + b = appendStructKey(ctx, code, b) + b = appendByteSlice(ctx, b, ptrToBytes(p+uintptr(code.Offset))) + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyBytes: + p := load(ctxptr, code.Idx) + v := ptrToBytes(p + uintptr(code.Offset)) + if len(v) > 0 { + b = appendStructKey(ctx, code, b) + b = appendByteSlice(ctx, b, v) + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructFieldBytesPtr: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + b = appendStructKey(ctx, code, b) + if p == 0 { + b = appendNull(ctx, b) + } else { + b = appendByteSlice(ctx, b, ptrToBytes(p)) + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyBytesPtr: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + b = appendByteSlice(ctx, b, ptrToBytes(p)) + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructFieldNumber: + p := load(ctxptr, code.Idx) + b = appendStructKey(ctx, code, b) + bb, err := appendNumber(ctx, b, ptrToNumber(p+uintptr(code.Offset))) + if err != nil { + return nil, err + } + b = appendComma(ctx, bb) + code = code.Next + case encoder.OpStructFieldOmitEmptyNumber: + p := load(ctxptr, code.Idx) + v := ptrToNumber(p + uintptr(code.Offset)) + if v != "" { + b = appendStructKey(ctx, code, b) + bb, err := appendNumber(ctx, b, v) + if err != nil { + return nil, err + } + b = appendComma(ctx, bb) + } + code = code.Next + case encoder.OpStructFieldNumberString: + p := load(ctxptr, code.Idx) + b = appendStructKey(ctx, code, b) + b = append(b, '"') + bb, err := appendNumber(ctx, b, ptrToNumber(p+uintptr(code.Offset))) + if err != nil { + return nil, err + } + b = append(bb, '"') + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyNumberString: + p := load(ctxptr, code.Idx) + v := ptrToNumber(p + uintptr(code.Offset)) + if v != "" { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + bb, err := appendNumber(ctx, b, v) + if err != nil { + return nil, err + } + b = append(bb, '"') + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructFieldNumberPtr: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + b = appendStructKey(ctx, code, b) + if p == 0 { + b = appendNull(ctx, b) + } else { + bb, err := appendNumber(ctx, b, ptrToNumber(p)) + if err != nil { + return nil, err + } + b = bb + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyNumberPtr: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + bb, err := appendNumber(ctx, b, ptrToNumber(p)) + if err != nil { + return nil, err + } + b = appendComma(ctx, bb) + } + code = code.Next + case encoder.OpStructFieldNumberPtrString: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + b = appendStructKey(ctx, code, b) + if p == 0 { + b = appendNull(ctx, b) + } else { + b = append(b, '"') + bb, err := appendNumber(ctx, b, ptrToNumber(p)) + if err != nil { + return nil, err + } + b = append(bb, '"') + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyNumberPtrString: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + bb, err := appendNumber(ctx, b, ptrToNumber(p)) + if err != nil { + return nil, err + } + b = append(bb, '"') + b = appendComma(ctx, b) + } + code = code.Next + case encoder.OpStructFieldMarshalJSON: + p := load(ctxptr, code.Idx) + b = appendStructKey(ctx, code, b) + p += uintptr(code.Offset) + if (code.Flags & encoder.IsNilableTypeFlags) != 0 { + p = ptrToPtr(p) + } + if p == 0 && (code.Flags&encoder.NilCheckFlags) != 0 { + b = appendNull(ctx, b) + } else { + bb, err := appendMarshalJSON(ctx, code, b, ptrToInterface(code, p)) + if err != nil { + return nil, err + } + b = bb + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyMarshalJSON: + p := load(ctxptr, code.Idx) + p += uintptr(code.Offset) + if (code.Flags & encoder.IsNilableTypeFlags) != 0 { + p = ptrToPtr(p) + } + if p == 0 && (code.Flags&encoder.NilCheckFlags) != 0 { + code = code.NextField + break + } + iface := ptrToInterface(code, p) + if (code.Flags&encoder.NilCheckFlags) != 0 && encoder.IsNilForMarshaler(iface) { + code = code.NextField + break + } + b = appendStructKey(ctx, code, b) + bb, err := appendMarshalJSON(ctx, code, b, iface) + if err != nil { + return nil, err + } + b = appendComma(ctx, bb) + code = code.Next + case encoder.OpStructFieldMarshalJSONPtr: + p := load(ctxptr, code.Idx) + b = appendStructKey(ctx, code, b) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p == 0 { + b = appendNull(ctx, b) + } else { + bb, err := appendMarshalJSON(ctx, code, b, ptrToInterface(code, p)) + if err != nil { + return nil, err + } + b = bb + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyMarshalJSONPtr: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + bb, err := appendMarshalJSON(ctx, code, b, ptrToInterface(code, p)) + if err != nil { + return nil, err + } + b = appendComma(ctx, bb) + } + code = code.Next + case encoder.OpStructFieldMarshalText: + p := load(ctxptr, code.Idx) + b = appendStructKey(ctx, code, b) + p += uintptr(code.Offset) + if (code.Flags & encoder.IsNilableTypeFlags) != 0 { + p = ptrToPtr(p) + } + if p == 0 && (code.Flags&encoder.NilCheckFlags) != 0 { + b = appendNull(ctx, b) + } else { + bb, err := appendMarshalText(ctx, code, b, ptrToInterface(code, p)) + if err != nil { + return nil, err + } + b = bb + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyMarshalText: + p := load(ctxptr, code.Idx) + p += uintptr(code.Offset) + if (code.Flags & encoder.IsNilableTypeFlags) != 0 { + p = ptrToPtr(p) + } + if p == 0 && (code.Flags&encoder.NilCheckFlags) != 0 { + code = code.NextField + break + } + b = appendStructKey(ctx, code, b) + bb, err := appendMarshalText(ctx, code, b, ptrToInterface(code, p)) + if err != nil { + return nil, err + } + b = appendComma(ctx, bb) + code = code.Next + case encoder.OpStructFieldMarshalTextPtr: + p := load(ctxptr, code.Idx) + b = appendStructKey(ctx, code, b) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p == 0 { + b = appendNull(ctx, b) + } else { + bb, err := appendMarshalText(ctx, code, b, ptrToInterface(code, p)) + if err != nil { + return nil, err + } + b = bb + } + b = appendComma(ctx, b) + code = code.Next + case encoder.OpStructFieldOmitEmptyMarshalTextPtr: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + bb, err := appendMarshalText(ctx, code, b, ptrToInterface(code, p)) + if err != nil { + return nil, err + } + b = appendComma(ctx, bb) + } + code = code.Next + case encoder.OpStructFieldArray: + b = appendStructKey(ctx, code, b) + p := load(ctxptr, code.Idx) + p += uintptr(code.Offset) + code = code.Next + store(ctxptr, code.Idx, p) + case encoder.OpStructFieldOmitEmptyArray: + b = appendStructKey(ctx, code, b) + p := load(ctxptr, code.Idx) + p += uintptr(code.Offset) + code = code.Next + store(ctxptr, code.Idx, p) + case encoder.OpStructFieldArrayPtr: + b = appendStructKey(ctx, code, b) + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + code = code.Next + store(ctxptr, code.Idx, p) + case encoder.OpStructFieldOmitEmptyArrayPtr: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + code = code.Next + store(ctxptr, code.Idx, p) + } else { + code = code.NextField + } + case encoder.OpStructFieldSlice: + b = appendStructKey(ctx, code, b) + p := load(ctxptr, code.Idx) + p += uintptr(code.Offset) + code = code.Next + store(ctxptr, code.Idx, p) + case encoder.OpStructFieldOmitEmptySlice: + p := load(ctxptr, code.Idx) + p += uintptr(code.Offset) + slice := ptrToSlice(p) + if slice.Len == 0 { + code = code.NextField + } else { + b = appendStructKey(ctx, code, b) + code = code.Next + store(ctxptr, code.Idx, p) + } + case encoder.OpStructFieldSlicePtr: + b = appendStructKey(ctx, code, b) + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + code = code.Next + store(ctxptr, code.Idx, p) + case encoder.OpStructFieldOmitEmptySlicePtr: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + code = code.Next + store(ctxptr, code.Idx, p) + } else { + code = code.NextField + } + case encoder.OpStructFieldMap: + b = appendStructKey(ctx, code, b) + p := load(ctxptr, code.Idx) + p = ptrToPtr(p + uintptr(code.Offset)) + code = code.Next + store(ctxptr, code.Idx, p) + case encoder.OpStructFieldOmitEmptyMap: + p := load(ctxptr, code.Idx) + p = ptrToPtr(p + uintptr(code.Offset)) + if p == 0 || maplen(ptrToUnsafePtr(p)) == 0 { + code = code.NextField + } else { + b = appendStructKey(ctx, code, b) + code = code.Next + store(ctxptr, code.Idx, p) + } + case encoder.OpStructFieldMapPtr: + b = appendStructKey(ctx, code, b) + p := load(ctxptr, code.Idx) + p = ptrToPtr(p + uintptr(code.Offset)) + if p != 0 { + p = ptrToNPtr(p, code.PtrNum) + } + code = code.Next + store(ctxptr, code.Idx, p) + case encoder.OpStructFieldOmitEmptyMapPtr: + p := load(ctxptr, code.Idx) + p = ptrToPtr(p + uintptr(code.Offset)) + if p != 0 { + p = ptrToNPtr(p, code.PtrNum) + } + if p != 0 { + b = appendStructKey(ctx, code, b) + code = code.Next + store(ctxptr, code.Idx, p) + } else { + code = code.NextField + } + case encoder.OpStructFieldStruct: + b = appendStructKey(ctx, code, b) + p := load(ctxptr, code.Idx) + p += uintptr(code.Offset) + code = code.Next + store(ctxptr, code.Idx, p) + case encoder.OpStructFieldOmitEmptyStruct: + p := load(ctxptr, code.Idx) + p += uintptr(code.Offset) + if ptrToPtr(p) == 0 && (code.Flags&encoder.IsNextOpPtrTypeFlags) != 0 { + code = code.NextField + } else { + b = appendStructKey(ctx, code, b) + code = code.Next + store(ctxptr, code.Idx, p) + } + case encoder.OpStructAnonymousEnd: + code = code.Next + case encoder.OpStructEnd: + b = appendStructEndSkipLast(ctx, code, b) + code = code.Next + case encoder.OpStructEndInt: + p := load(ctxptr, code.Idx) + b = appendStructKey(ctx, code, b) + b = appendInt(ctx, b, ptrToUint64(p+uintptr(code.Offset)), code) + b = appendStructEnd(ctx, code, b) + code = code.Next + case encoder.OpStructEndOmitEmptyInt: + p := load(ctxptr, code.Idx) + u64 := ptrToUint64(p + uintptr(code.Offset)) + v := u64 & ((1 << code.NumBitSize) - 1) + if v != 0 { + b = appendStructKey(ctx, code, b) + b = appendInt(ctx, b, u64, code) + b = appendStructEnd(ctx, code, b) + } else { + b = appendStructEndSkipLast(ctx, code, b) + } + code = code.Next + case encoder.OpStructEndIntString: + p := load(ctxptr, code.Idx) + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendInt(ctx, b, ptrToUint64(p+uintptr(code.Offset)), code) + b = append(b, '"') + b = appendStructEnd(ctx, code, b) + code = code.Next + case encoder.OpStructEndOmitEmptyIntString: + p := load(ctxptr, code.Idx) + u64 := ptrToUint64(p + uintptr(code.Offset)) + v := u64 & ((1 << code.NumBitSize) - 1) + if v != 0 { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendInt(ctx, b, u64, code) + b = append(b, '"') + b = appendStructEnd(ctx, code, b) + } else { + b = appendStructEndSkipLast(ctx, code, b) + } + code = code.Next + case encoder.OpStructEndIntPtr: + b = appendStructKey(ctx, code, b) + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p == 0 { + b = appendNull(ctx, b) + } else { + b = appendInt(ctx, b, ptrToUint64(p), code) + } + b = appendStructEnd(ctx, code, b) + code = code.Next + case encoder.OpStructEndOmitEmptyIntPtr: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + b = appendInt(ctx, b, ptrToUint64(p), code) + b = appendStructEnd(ctx, code, b) + } else { + b = appendStructEndSkipLast(ctx, code, b) + } + code = code.Next + case encoder.OpStructEndIntPtrString: + b = appendStructKey(ctx, code, b) + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p == 0 { + b = appendNull(ctx, b) + } else { + b = append(b, '"') + b = appendInt(ctx, b, ptrToUint64(p), code) + b = append(b, '"') + } + b = appendStructEnd(ctx, code, b) + code = code.Next + case encoder.OpStructEndOmitEmptyIntPtrString: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendInt(ctx, b, ptrToUint64(p), code) + b = append(b, '"') + b = appendStructEnd(ctx, code, b) + } else { + b = appendStructEndSkipLast(ctx, code, b) + } + code = code.Next + case encoder.OpStructEndUint: + p := load(ctxptr, code.Idx) + b = appendStructKey(ctx, code, b) + b = appendUint(ctx, b, ptrToUint64(p+uintptr(code.Offset)), code) + b = appendStructEnd(ctx, code, b) + code = code.Next + case encoder.OpStructEndOmitEmptyUint: + p := load(ctxptr, code.Idx) + u64 := ptrToUint64(p + uintptr(code.Offset)) + v := u64 & ((1 << code.NumBitSize) - 1) + if v != 0 { + b = appendStructKey(ctx, code, b) + b = appendUint(ctx, b, u64, code) + b = appendStructEnd(ctx, code, b) + } else { + b = appendStructEndSkipLast(ctx, code, b) + } + code = code.Next + case encoder.OpStructEndUintString: + p := load(ctxptr, code.Idx) + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendUint(ctx, b, ptrToUint64(p+uintptr(code.Offset)), code) + b = append(b, '"') + b = appendStructEnd(ctx, code, b) + code = code.Next + case encoder.OpStructEndOmitEmptyUintString: + p := load(ctxptr, code.Idx) + u64 := ptrToUint64(p + uintptr(code.Offset)) + v := u64 & ((1 << code.NumBitSize) - 1) + if v != 0 { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendUint(ctx, b, u64, code) + b = append(b, '"') + b = appendStructEnd(ctx, code, b) + } else { + b = appendStructEndSkipLast(ctx, code, b) + } + code = code.Next + case encoder.OpStructEndUintPtr: + b = appendStructKey(ctx, code, b) + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p == 0 { + b = appendNull(ctx, b) + } else { + b = appendUint(ctx, b, ptrToUint64(p), code) + } + b = appendStructEnd(ctx, code, b) + code = code.Next + case encoder.OpStructEndOmitEmptyUintPtr: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + b = appendUint(ctx, b, ptrToUint64(p), code) + b = appendStructEnd(ctx, code, b) + } else { + b = appendStructEndSkipLast(ctx, code, b) + } + code = code.Next + case encoder.OpStructEndUintPtrString: + b = appendStructKey(ctx, code, b) + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p == 0 { + b = appendNull(ctx, b) + } else { + b = append(b, '"') + b = appendUint(ctx, b, ptrToUint64(p), code) + b = append(b, '"') + } + b = appendStructEnd(ctx, code, b) + code = code.Next + case encoder.OpStructEndOmitEmptyUintPtrString: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendUint(ctx, b, ptrToUint64(p), code) + b = append(b, '"') + b = appendStructEnd(ctx, code, b) + } else { + b = appendStructEndSkipLast(ctx, code, b) + } + code = code.Next + case encoder.OpStructEndFloat32: + p := load(ctxptr, code.Idx) + b = appendStructKey(ctx, code, b) + b = appendFloat32(ctx, b, ptrToFloat32(p+uintptr(code.Offset))) + b = appendStructEnd(ctx, code, b) + code = code.Next + case encoder.OpStructEndOmitEmptyFloat32: + p := load(ctxptr, code.Idx) + v := ptrToFloat32(p + uintptr(code.Offset)) + if v != 0 { + b = appendStructKey(ctx, code, b) + b = appendFloat32(ctx, b, v) + b = appendStructEnd(ctx, code, b) + } else { + b = appendStructEndSkipLast(ctx, code, b) + } + code = code.Next + case encoder.OpStructEndFloat32String: + p := load(ctxptr, code.Idx) + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendFloat32(ctx, b, ptrToFloat32(p+uintptr(code.Offset))) + b = append(b, '"') + b = appendStructEnd(ctx, code, b) + code = code.Next + case encoder.OpStructEndOmitEmptyFloat32String: + p := load(ctxptr, code.Idx) + v := ptrToFloat32(p + uintptr(code.Offset)) + if v != 0 { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendFloat32(ctx, b, v) + b = append(b, '"') + b = appendStructEnd(ctx, code, b) + } else { + b = appendStructEndSkipLast(ctx, code, b) + } + code = code.Next + case encoder.OpStructEndFloat32Ptr: + b = appendStructKey(ctx, code, b) + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p == 0 { + b = appendNull(ctx, b) + } else { + b = appendFloat32(ctx, b, ptrToFloat32(p)) + } + b = appendStructEnd(ctx, code, b) + code = code.Next + case encoder.OpStructEndOmitEmptyFloat32Ptr: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + b = appendFloat32(ctx, b, ptrToFloat32(p)) + b = appendStructEnd(ctx, code, b) + } else { + b = appendStructEndSkipLast(ctx, code, b) + } + code = code.Next + case encoder.OpStructEndFloat32PtrString: + b = appendStructKey(ctx, code, b) + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p == 0 { + b = appendNull(ctx, b) + } else { + b = append(b, '"') + b = appendFloat32(ctx, b, ptrToFloat32(p)) + b = append(b, '"') + } + b = appendStructEnd(ctx, code, b) + code = code.Next + case encoder.OpStructEndOmitEmptyFloat32PtrString: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendFloat32(ctx, b, ptrToFloat32(p)) + b = append(b, '"') + b = appendStructEnd(ctx, code, b) + } else { + b = appendStructEndSkipLast(ctx, code, b) + } + code = code.Next + case encoder.OpStructEndFloat64: + p := load(ctxptr, code.Idx) + v := ptrToFloat64(p + uintptr(code.Offset)) + if math.IsInf(v, 0) || math.IsNaN(v) { + return nil, errUnsupportedFloat(v) + } + b = appendStructKey(ctx, code, b) + b = appendFloat64(ctx, b, v) + b = appendStructEnd(ctx, code, b) + code = code.Next + case encoder.OpStructEndOmitEmptyFloat64: + p := load(ctxptr, code.Idx) + v := ptrToFloat64(p + uintptr(code.Offset)) + if v != 0 { + if math.IsInf(v, 0) || math.IsNaN(v) { + return nil, errUnsupportedFloat(v) + } + b = appendStructKey(ctx, code, b) + b = appendFloat64(ctx, b, v) + b = appendStructEnd(ctx, code, b) + } else { + b = appendStructEndSkipLast(ctx, code, b) + } + code = code.Next + case encoder.OpStructEndFloat64String: + p := load(ctxptr, code.Idx) + v := ptrToFloat64(p + uintptr(code.Offset)) + if math.IsInf(v, 0) || math.IsNaN(v) { + return nil, errUnsupportedFloat(v) + } + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendFloat64(ctx, b, v) + b = append(b, '"') + b = appendStructEnd(ctx, code, b) + code = code.Next + case encoder.OpStructEndOmitEmptyFloat64String: + p := load(ctxptr, code.Idx) + v := ptrToFloat64(p + uintptr(code.Offset)) + if v != 0 { + if math.IsInf(v, 0) || math.IsNaN(v) { + return nil, errUnsupportedFloat(v) + } + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendFloat64(ctx, b, v) + b = append(b, '"') + b = appendStructEnd(ctx, code, b) + } else { + b = appendStructEndSkipLast(ctx, code, b) + } + code = code.Next + case encoder.OpStructEndFloat64Ptr: + b = appendStructKey(ctx, code, b) + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p == 0 { + b = appendNull(ctx, b) + b = appendStructEnd(ctx, code, b) + code = code.Next + break + } + v := ptrToFloat64(p) + if math.IsInf(v, 0) || math.IsNaN(v) { + return nil, errUnsupportedFloat(v) + } + b = appendFloat64(ctx, b, v) + b = appendStructEnd(ctx, code, b) + code = code.Next + case encoder.OpStructEndOmitEmptyFloat64Ptr: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + v := ptrToFloat64(p) + if math.IsInf(v, 0) || math.IsNaN(v) { + return nil, errUnsupportedFloat(v) + } + b = appendFloat64(ctx, b, v) + b = appendStructEnd(ctx, code, b) + } else { + b = appendStructEndSkipLast(ctx, code, b) + } + code = code.Next + case encoder.OpStructEndFloat64PtrString: + b = appendStructKey(ctx, code, b) + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p == 0 { + b = appendNull(ctx, b) + } else { + b = append(b, '"') + v := ptrToFloat64(p) + if math.IsInf(v, 0) || math.IsNaN(v) { + return nil, errUnsupportedFloat(v) + } + b = appendFloat64(ctx, b, v) + b = append(b, '"') + } + b = appendStructEnd(ctx, code, b) + code = code.Next + case encoder.OpStructEndOmitEmptyFloat64PtrString: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + v := ptrToFloat64(p) + if math.IsInf(v, 0) || math.IsNaN(v) { + return nil, errUnsupportedFloat(v) + } + b = append(b, '"') + b = appendFloat64(ctx, b, v) + b = append(b, '"') + b = appendStructEnd(ctx, code, b) + } else { + b = appendStructEndSkipLast(ctx, code, b) + } + code = code.Next + case encoder.OpStructEndString: + p := load(ctxptr, code.Idx) + b = appendStructKey(ctx, code, b) + b = appendString(ctx, b, ptrToString(p+uintptr(code.Offset))) + b = appendStructEnd(ctx, code, b) + code = code.Next + case encoder.OpStructEndOmitEmptyString: + p := load(ctxptr, code.Idx) + v := ptrToString(p + uintptr(code.Offset)) + if v != "" { + b = appendStructKey(ctx, code, b) + b = appendString(ctx, b, v) + b = appendStructEnd(ctx, code, b) + } else { + b = appendStructEndSkipLast(ctx, code, b) + } + code = code.Next + case encoder.OpStructEndStringString: + p := load(ctxptr, code.Idx) + b = appendStructKey(ctx, code, b) + s := ptrToString(p + uintptr(code.Offset)) + b = appendString(ctx, b, string(appendString(ctx, []byte{}, s))) + b = appendStructEnd(ctx, code, b) + code = code.Next + case encoder.OpStructEndOmitEmptyStringString: + p := load(ctxptr, code.Idx) + v := ptrToString(p + uintptr(code.Offset)) + if v != "" { + b = appendStructKey(ctx, code, b) + b = appendString(ctx, b, string(appendString(ctx, []byte{}, v))) + b = appendStructEnd(ctx, code, b) + } else { + b = appendStructEndSkipLast(ctx, code, b) + } + code = code.Next + case encoder.OpStructEndStringPtr: + b = appendStructKey(ctx, code, b) + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p == 0 { + b = appendNull(ctx, b) + } else { + b = appendString(ctx, b, ptrToString(p)) + } + b = appendStructEnd(ctx, code, b) + code = code.Next + case encoder.OpStructEndOmitEmptyStringPtr: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + b = appendString(ctx, b, ptrToString(p)) + b = appendStructEnd(ctx, code, b) + } else { + b = appendStructEndSkipLast(ctx, code, b) + } + code = code.Next + case encoder.OpStructEndStringPtrString: + b = appendStructKey(ctx, code, b) + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p == 0 { + b = appendNull(ctx, b) + } else { + b = appendString(ctx, b, string(appendString(ctx, []byte{}, ptrToString(p)))) + } + b = appendStructEnd(ctx, code, b) + code = code.Next + case encoder.OpStructEndOmitEmptyStringPtrString: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + b = appendString(ctx, b, string(appendString(ctx, []byte{}, ptrToString(p)))) + b = appendStructEnd(ctx, code, b) + } else { + b = appendStructEndSkipLast(ctx, code, b) + } + code = code.Next + case encoder.OpStructEndBool: + p := load(ctxptr, code.Idx) + b = appendStructKey(ctx, code, b) + b = appendBool(ctx, b, ptrToBool(p+uintptr(code.Offset))) + b = appendStructEnd(ctx, code, b) + code = code.Next + case encoder.OpStructEndOmitEmptyBool: + p := load(ctxptr, code.Idx) + v := ptrToBool(p + uintptr(code.Offset)) + if v { + b = appendStructKey(ctx, code, b) + b = appendBool(ctx, b, v) + b = appendStructEnd(ctx, code, b) + } else { + b = appendStructEndSkipLast(ctx, code, b) + } + code = code.Next + case encoder.OpStructEndBoolString: + p := load(ctxptr, code.Idx) + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendBool(ctx, b, ptrToBool(p+uintptr(code.Offset))) + b = append(b, '"') + b = appendStructEnd(ctx, code, b) + code = code.Next + case encoder.OpStructEndOmitEmptyBoolString: + p := load(ctxptr, code.Idx) + v := ptrToBool(p + uintptr(code.Offset)) + if v { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendBool(ctx, b, v) + b = append(b, '"') + b = appendStructEnd(ctx, code, b) + } else { + b = appendStructEndSkipLast(ctx, code, b) + } + code = code.Next + case encoder.OpStructEndBoolPtr: + b = appendStructKey(ctx, code, b) + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p == 0 { + b = appendNull(ctx, b) + } else { + b = appendBool(ctx, b, ptrToBool(p)) + } + b = appendStructEnd(ctx, code, b) + code = code.Next + case encoder.OpStructEndOmitEmptyBoolPtr: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + b = appendBool(ctx, b, ptrToBool(p)) + b = appendStructEnd(ctx, code, b) + } else { + b = appendStructEndSkipLast(ctx, code, b) + } + code = code.Next + case encoder.OpStructEndBoolPtrString: + b = appendStructKey(ctx, code, b) + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p == 0 { + b = appendNull(ctx, b) + } else { + b = append(b, '"') + b = appendBool(ctx, b, ptrToBool(p)) + b = append(b, '"') + } + b = appendStructEnd(ctx, code, b) + code = code.Next + case encoder.OpStructEndOmitEmptyBoolPtrString: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + b = appendBool(ctx, b, ptrToBool(p)) + b = append(b, '"') + b = appendStructEnd(ctx, code, b) + } else { + b = appendStructEndSkipLast(ctx, code, b) + } + code = code.Next + case encoder.OpStructEndBytes: + p := load(ctxptr, code.Idx) + b = appendStructKey(ctx, code, b) + b = appendByteSlice(ctx, b, ptrToBytes(p+uintptr(code.Offset))) + b = appendStructEnd(ctx, code, b) + code = code.Next + case encoder.OpStructEndOmitEmptyBytes: + p := load(ctxptr, code.Idx) + v := ptrToBytes(p + uintptr(code.Offset)) + if len(v) > 0 { + b = appendStructKey(ctx, code, b) + b = appendByteSlice(ctx, b, v) + b = appendStructEnd(ctx, code, b) + } else { + b = appendStructEndSkipLast(ctx, code, b) + } + code = code.Next + case encoder.OpStructEndBytesPtr: + b = appendStructKey(ctx, code, b) + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p == 0 { + b = appendNull(ctx, b) + } else { + b = appendByteSlice(ctx, b, ptrToBytes(p)) + } + b = appendStructEnd(ctx, code, b) + code = code.Next + case encoder.OpStructEndOmitEmptyBytesPtr: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + b = appendByteSlice(ctx, b, ptrToBytes(p)) + b = appendStructEnd(ctx, code, b) + } else { + b = appendStructEndSkipLast(ctx, code, b) + } + code = code.Next + case encoder.OpStructEndNumber: + p := load(ctxptr, code.Idx) + b = appendStructKey(ctx, code, b) + bb, err := appendNumber(ctx, b, ptrToNumber(p+uintptr(code.Offset))) + if err != nil { + return nil, err + } + b = appendStructEnd(ctx, code, bb) + code = code.Next + case encoder.OpStructEndOmitEmptyNumber: + p := load(ctxptr, code.Idx) + v := ptrToNumber(p + uintptr(code.Offset)) + if v != "" { + b = appendStructKey(ctx, code, b) + bb, err := appendNumber(ctx, b, v) + if err != nil { + return nil, err + } + b = appendStructEnd(ctx, code, bb) + } else { + b = appendStructEndSkipLast(ctx, code, b) + } + code = code.Next + case encoder.OpStructEndNumberString: + p := load(ctxptr, code.Idx) + b = appendStructKey(ctx, code, b) + b = append(b, '"') + bb, err := appendNumber(ctx, b, ptrToNumber(p+uintptr(code.Offset))) + if err != nil { + return nil, err + } + b = append(bb, '"') + b = appendStructEnd(ctx, code, b) + code = code.Next + case encoder.OpStructEndOmitEmptyNumberString: + p := load(ctxptr, code.Idx) + v := ptrToNumber(p + uintptr(code.Offset)) + if v != "" { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + bb, err := appendNumber(ctx, b, v) + if err != nil { + return nil, err + } + b = append(bb, '"') + b = appendStructEnd(ctx, code, b) + } else { + b = appendStructEndSkipLast(ctx, code, b) + } + code = code.Next + case encoder.OpStructEndNumberPtr: + b = appendStructKey(ctx, code, b) + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p == 0 { + b = appendNull(ctx, b) + } else { + bb, err := appendNumber(ctx, b, ptrToNumber(p)) + if err != nil { + return nil, err + } + b = bb + } + b = appendStructEnd(ctx, code, b) + code = code.Next + case encoder.OpStructEndOmitEmptyNumberPtr: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + bb, err := appendNumber(ctx, b, ptrToNumber(p)) + if err != nil { + return nil, err + } + b = appendStructEnd(ctx, code, bb) + } else { + b = appendStructEndSkipLast(ctx, code, b) + } + code = code.Next + case encoder.OpStructEndNumberPtrString: + b = appendStructKey(ctx, code, b) + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p == 0 { + b = appendNull(ctx, b) + } else { + b = append(b, '"') + bb, err := appendNumber(ctx, b, ptrToNumber(p)) + if err != nil { + return nil, err + } + b = append(bb, '"') + } + b = appendStructEnd(ctx, code, b) + code = code.Next + case encoder.OpStructEndOmitEmptyNumberPtrString: + p := load(ctxptr, code.Idx) + p = ptrToNPtr(p+uintptr(code.Offset), code.PtrNum) + if p != 0 { + b = appendStructKey(ctx, code, b) + b = append(b, '"') + bb, err := appendNumber(ctx, b, ptrToNumber(p)) + if err != nil { + return nil, err + } + b = append(bb, '"') + b = appendStructEnd(ctx, code, b) + } else { + b = appendStructEndSkipLast(ctx, code, b) + } + code = code.Next + case encoder.OpEnd: + goto END + } + } +END: + return b, nil +} diff --git a/vendor/github.com/goccy/go-json/internal/errors/error.go b/vendor/github.com/goccy/go-json/internal/errors/error.go new file mode 100644 index 0000000..d58e39f --- /dev/null +++ b/vendor/github.com/goccy/go-json/internal/errors/error.go @@ -0,0 +1,164 @@ +package errors + +import ( + "fmt" + "reflect" + "strconv" +) + +type InvalidUTF8Error struct { + S string // the whole string value that caused the error +} + +func (e *InvalidUTF8Error) Error() string { + return fmt.Sprintf("json: invalid UTF-8 in string: %s", strconv.Quote(e.S)) +} + +type InvalidUnmarshalError struct { + Type reflect.Type +} + +func (e *InvalidUnmarshalError) Error() string { + if e.Type == nil { + return "json: Unmarshal(nil)" + } + + if e.Type.Kind() != reflect.Ptr { + return fmt.Sprintf("json: Unmarshal(non-pointer %s)", e.Type) + } + return fmt.Sprintf("json: Unmarshal(nil %s)", e.Type) +} + +// A MarshalerError represents an error from calling a MarshalJSON or MarshalText method. +type MarshalerError struct { + Type reflect.Type + Err error + sourceFunc string +} + +func (e *MarshalerError) Error() string { + srcFunc := e.sourceFunc + if srcFunc == "" { + srcFunc = "MarshalJSON" + } + return fmt.Sprintf("json: error calling %s for type %s: %s", srcFunc, e.Type, e.Err.Error()) +} + +// Unwrap returns the underlying error. +func (e *MarshalerError) Unwrap() error { return e.Err } + +// A SyntaxError is a description of a JSON syntax error. +type SyntaxError struct { + msg string // description of error + Offset int64 // error occurred after reading Offset bytes +} + +func (e *SyntaxError) Error() string { return e.msg } + +// An UnmarshalFieldError describes a JSON object key that +// led to an unexported (and therefore unwritable) struct field. +// +// Deprecated: No longer used; kept for compatibility. +type UnmarshalFieldError struct { + Key string + Type reflect.Type + Field reflect.StructField +} + +func (e *UnmarshalFieldError) Error() string { + return fmt.Sprintf("json: cannot unmarshal object key %s into unexported field %s of type %s", + strconv.Quote(e.Key), e.Field.Name, e.Type.String(), + ) +} + +// An UnmarshalTypeError describes a JSON value that was +// not appropriate for a value of a specific Go type. +type UnmarshalTypeError struct { + Value string // description of JSON value - "bool", "array", "number -5" + Type reflect.Type // type of Go value it could not be assigned to + Offset int64 // error occurred after reading Offset bytes + Struct string // name of the struct type containing the field + Field string // the full path from root node to the field +} + +func (e *UnmarshalTypeError) Error() string { + if e.Struct != "" || e.Field != "" { + return fmt.Sprintf("json: cannot unmarshal %s into Go struct field %s.%s of type %s", + e.Value, e.Struct, e.Field, e.Type, + ) + } + return fmt.Sprintf("json: cannot unmarshal %s into Go value of type %s", e.Value, e.Type) +} + +// An UnsupportedTypeError is returned by Marshal when attempting +// to encode an unsupported value type. +type UnsupportedTypeError struct { + Type reflect.Type +} + +func (e *UnsupportedTypeError) Error() string { + return fmt.Sprintf("json: unsupported type: %s", e.Type) +} + +type UnsupportedValueError struct { + Value reflect.Value + Str string +} + +func (e *UnsupportedValueError) Error() string { + return fmt.Sprintf("json: unsupported value: %s", e.Str) +} + +func ErrSyntax(msg string, offset int64) *SyntaxError { + return &SyntaxError{msg: msg, Offset: offset} +} + +func ErrMarshaler(typ reflect.Type, err error, msg string) *MarshalerError { + return &MarshalerError{ + Type: typ, + Err: err, + sourceFunc: msg, + } +} + +func ErrExceededMaxDepth(c byte, cursor int64) *SyntaxError { + return &SyntaxError{ + msg: fmt.Sprintf(`invalid character "%c" exceeded max depth`, c), + Offset: cursor, + } +} + +func ErrNotAtBeginningOfValue(cursor int64) *SyntaxError { + return &SyntaxError{msg: "not at beginning of value", Offset: cursor} +} + +func ErrUnexpectedEndOfJSON(msg string, cursor int64) *SyntaxError { + return &SyntaxError{ + msg: fmt.Sprintf("json: %s unexpected end of JSON input", msg), + Offset: cursor, + } +} + +func ErrExpected(msg string, cursor int64) *SyntaxError { + return &SyntaxError{msg: fmt.Sprintf("expected %s", msg), Offset: cursor} +} + +func ErrInvalidCharacter(c byte, context string, cursor int64) *SyntaxError { + if c == 0 { + return &SyntaxError{ + msg: fmt.Sprintf("json: invalid character as %s", context), + Offset: cursor, + } + } + return &SyntaxError{ + msg: fmt.Sprintf("json: invalid character %c as %s", c, context), + Offset: cursor, + } +} + +func ErrInvalidBeginningOfValue(c byte, cursor int64) *SyntaxError { + return &SyntaxError{ + msg: fmt.Sprintf("invalid character '%c' looking for beginning of value", c), + Offset: cursor, + } +} diff --git a/vendor/github.com/goccy/go-json/internal/runtime/rtype.go b/vendor/github.com/goccy/go-json/internal/runtime/rtype.go new file mode 100644 index 0000000..4db10de --- /dev/null +++ b/vendor/github.com/goccy/go-json/internal/runtime/rtype.go @@ -0,0 +1,263 @@ +package runtime + +import ( + "reflect" + "unsafe" +) + +// Type representing reflect.rtype for noescape trick +type Type struct{} + +//go:linkname rtype_Align reflect.(*rtype).Align +//go:noescape +func rtype_Align(*Type) int + +func (t *Type) Align() int { + return rtype_Align(t) +} + +//go:linkname rtype_FieldAlign reflect.(*rtype).FieldAlign +//go:noescape +func rtype_FieldAlign(*Type) int + +func (t *Type) FieldAlign() int { + return rtype_FieldAlign(t) +} + +//go:linkname rtype_Method reflect.(*rtype).Method +//go:noescape +func rtype_Method(*Type, int) reflect.Method + +func (t *Type) Method(a0 int) reflect.Method { + return rtype_Method(t, a0) +} + +//go:linkname rtype_MethodByName reflect.(*rtype).MethodByName +//go:noescape +func rtype_MethodByName(*Type, string) (reflect.Method, bool) + +func (t *Type) MethodByName(a0 string) (reflect.Method, bool) { + return rtype_MethodByName(t, a0) +} + +//go:linkname rtype_NumMethod reflect.(*rtype).NumMethod +//go:noescape +func rtype_NumMethod(*Type) int + +func (t *Type) NumMethod() int { + return rtype_NumMethod(t) +} + +//go:linkname rtype_Name reflect.(*rtype).Name +//go:noescape +func rtype_Name(*Type) string + +func (t *Type) Name() string { + return rtype_Name(t) +} + +//go:linkname rtype_PkgPath reflect.(*rtype).PkgPath +//go:noescape +func rtype_PkgPath(*Type) string + +func (t *Type) PkgPath() string { + return rtype_PkgPath(t) +} + +//go:linkname rtype_Size reflect.(*rtype).Size +//go:noescape +func rtype_Size(*Type) uintptr + +func (t *Type) Size() uintptr { + return rtype_Size(t) +} + +//go:linkname rtype_String reflect.(*rtype).String +//go:noescape +func rtype_String(*Type) string + +func (t *Type) String() string { + return rtype_String(t) +} + +//go:linkname rtype_Kind reflect.(*rtype).Kind +//go:noescape +func rtype_Kind(*Type) reflect.Kind + +func (t *Type) Kind() reflect.Kind { + return rtype_Kind(t) +} + +//go:linkname rtype_Implements reflect.(*rtype).Implements +//go:noescape +func rtype_Implements(*Type, reflect.Type) bool + +func (t *Type) Implements(u reflect.Type) bool { + return rtype_Implements(t, u) +} + +//go:linkname rtype_AssignableTo reflect.(*rtype).AssignableTo +//go:noescape +func rtype_AssignableTo(*Type, reflect.Type) bool + +func (t *Type) AssignableTo(u reflect.Type) bool { + return rtype_AssignableTo(t, u) +} + +//go:linkname rtype_ConvertibleTo reflect.(*rtype).ConvertibleTo +//go:noescape +func rtype_ConvertibleTo(*Type, reflect.Type) bool + +func (t *Type) ConvertibleTo(u reflect.Type) bool { + return rtype_ConvertibleTo(t, u) +} + +//go:linkname rtype_Comparable reflect.(*rtype).Comparable +//go:noescape +func rtype_Comparable(*Type) bool + +func (t *Type) Comparable() bool { + return rtype_Comparable(t) +} + +//go:linkname rtype_Bits reflect.(*rtype).Bits +//go:noescape +func rtype_Bits(*Type) int + +func (t *Type) Bits() int { + return rtype_Bits(t) +} + +//go:linkname rtype_ChanDir reflect.(*rtype).ChanDir +//go:noescape +func rtype_ChanDir(*Type) reflect.ChanDir + +func (t *Type) ChanDir() reflect.ChanDir { + return rtype_ChanDir(t) +} + +//go:linkname rtype_IsVariadic reflect.(*rtype).IsVariadic +//go:noescape +func rtype_IsVariadic(*Type) bool + +func (t *Type) IsVariadic() bool { + return rtype_IsVariadic(t) +} + +//go:linkname rtype_Elem reflect.(*rtype).Elem +//go:noescape +func rtype_Elem(*Type) reflect.Type + +func (t *Type) Elem() *Type { + return Type2RType(rtype_Elem(t)) +} + +//go:linkname rtype_Field reflect.(*rtype).Field +//go:noescape +func rtype_Field(*Type, int) reflect.StructField + +func (t *Type) Field(i int) reflect.StructField { + return rtype_Field(t, i) +} + +//go:linkname rtype_FieldByIndex reflect.(*rtype).FieldByIndex +//go:noescape +func rtype_FieldByIndex(*Type, []int) reflect.StructField + +func (t *Type) FieldByIndex(index []int) reflect.StructField { + return rtype_FieldByIndex(t, index) +} + +//go:linkname rtype_FieldByName reflect.(*rtype).FieldByName +//go:noescape +func rtype_FieldByName(*Type, string) (reflect.StructField, bool) + +func (t *Type) FieldByName(name string) (reflect.StructField, bool) { + return rtype_FieldByName(t, name) +} + +//go:linkname rtype_FieldByNameFunc reflect.(*rtype).FieldByNameFunc +//go:noescape +func rtype_FieldByNameFunc(*Type, func(string) bool) (reflect.StructField, bool) + +func (t *Type) FieldByNameFunc(match func(string) bool) (reflect.StructField, bool) { + return rtype_FieldByNameFunc(t, match) +} + +//go:linkname rtype_In reflect.(*rtype).In +//go:noescape +func rtype_In(*Type, int) reflect.Type + +func (t *Type) In(i int) reflect.Type { + return rtype_In(t, i) +} + +//go:linkname rtype_Key reflect.(*rtype).Key +//go:noescape +func rtype_Key(*Type) reflect.Type + +func (t *Type) Key() *Type { + return Type2RType(rtype_Key(t)) +} + +//go:linkname rtype_Len reflect.(*rtype).Len +//go:noescape +func rtype_Len(*Type) int + +func (t *Type) Len() int { + return rtype_Len(t) +} + +//go:linkname rtype_NumField reflect.(*rtype).NumField +//go:noescape +func rtype_NumField(*Type) int + +func (t *Type) NumField() int { + return rtype_NumField(t) +} + +//go:linkname rtype_NumIn reflect.(*rtype).NumIn +//go:noescape +func rtype_NumIn(*Type) int + +func (t *Type) NumIn() int { + return rtype_NumIn(t) +} + +//go:linkname rtype_NumOut reflect.(*rtype).NumOut +//go:noescape +func rtype_NumOut(*Type) int + +func (t *Type) NumOut() int { + return rtype_NumOut(t) +} + +//go:linkname rtype_Out reflect.(*rtype).Out +//go:noescape +func rtype_Out(*Type, int) reflect.Type + +//go:linkname PtrTo reflect.(*rtype).ptrTo +//go:noescape +func PtrTo(*Type) *Type + +func (t *Type) Out(i int) reflect.Type { + return rtype_Out(t, i) +} + +//go:linkname IfaceIndir reflect.ifaceIndir +//go:noescape +func IfaceIndir(*Type) bool + +//go:linkname RType2Type reflect.toType +//go:noescape +func RType2Type(t *Type) reflect.Type + +//go:nolint structcheck +type emptyInterface struct { + _ *Type + ptr unsafe.Pointer +} + +func Type2RType(t reflect.Type) *Type { + return (*Type)(((*emptyInterface)(unsafe.Pointer(&t))).ptr) +} diff --git a/vendor/github.com/goccy/go-json/internal/runtime/struct_field.go b/vendor/github.com/goccy/go-json/internal/runtime/struct_field.go new file mode 100644 index 0000000..c321180 --- /dev/null +++ b/vendor/github.com/goccy/go-json/internal/runtime/struct_field.go @@ -0,0 +1,87 @@ +package runtime + +import ( + "reflect" + "strings" + "unicode" +) + +func getTag(field reflect.StructField) string { + return field.Tag.Get("json") +} + +func IsIgnoredStructField(field reflect.StructField) bool { + if field.PkgPath != "" { + if field.Anonymous { + if !(field.Type.Kind() == reflect.Ptr && field.Type.Elem().Kind() == reflect.Struct) && field.Type.Kind() != reflect.Struct { + return true + } + } else { + // private field + return true + } + } + tag := getTag(field) + return tag == "-" +} + +type StructTag struct { + Key string + IsTaggedKey bool + IsOmitEmpty bool + IsString bool + Field reflect.StructField +} + +type StructTags []*StructTag + +func (t StructTags) ExistsKey(key string) bool { + for _, tt := range t { + if tt.Key == key { + return true + } + } + return false +} + +func isValidTag(s string) bool { + if s == "" { + return false + } + for _, c := range s { + switch { + case strings.ContainsRune("!#$%&()*+-./:<=>?@[]^_{|}~ ", c): + // Backslash and quote chars are reserved, but + // otherwise any punctuation chars are allowed + // in a tag name. + case !unicode.IsLetter(c) && !unicode.IsDigit(c): + return false + } + } + return true +} + +func StructTagFromField(field reflect.StructField) *StructTag { + keyName := field.Name + tag := getTag(field) + st := &StructTag{Field: field} + opts := strings.Split(tag, ",") + if len(opts) > 0 { + if opts[0] != "" && isValidTag(opts[0]) { + keyName = opts[0] + st.IsTaggedKey = true + } + } + st.Key = keyName + if len(opts) > 1 { + for _, opt := range opts[1:] { + switch opt { + case "omitempty": + st.IsOmitEmpty = true + case "string": + st.IsString = true + } + } + } + return st +} diff --git a/vendor/github.com/goccy/go-json/internal/runtime/type.go b/vendor/github.com/goccy/go-json/internal/runtime/type.go new file mode 100644 index 0000000..0167cd2 --- /dev/null +++ b/vendor/github.com/goccy/go-json/internal/runtime/type.go @@ -0,0 +1,100 @@ +package runtime + +import ( + "reflect" + "unsafe" +) + +type SliceHeader struct { + Data unsafe.Pointer + Len int + Cap int +} + +const ( + maxAcceptableTypeAddrRange = 1024 * 1024 * 2 // 2 Mib +) + +type TypeAddr struct { + BaseTypeAddr uintptr + MaxTypeAddr uintptr + AddrRange uintptr + AddrShift uintptr +} + +var ( + typeAddr *TypeAddr + alreadyAnalyzed bool +) + +//go:linkname typelinks reflect.typelinks +func typelinks() ([]unsafe.Pointer, [][]int32) + +//go:linkname rtypeOff reflect.rtypeOff +func rtypeOff(unsafe.Pointer, int32) unsafe.Pointer + +func AnalyzeTypeAddr() *TypeAddr { + defer func() { + alreadyAnalyzed = true + }() + if alreadyAnalyzed { + return typeAddr + } + sections, offsets := typelinks() + if len(sections) != 1 { + return nil + } + if len(offsets) != 1 { + return nil + } + section := sections[0] + offset := offsets[0] + var ( + min uintptr = uintptr(^uint(0)) + max uintptr = 0 + isAligned64 = true + isAligned32 = true + ) + for i := 0; i < len(offset); i++ { + typ := (*Type)(rtypeOff(section, offset[i])) + addr := uintptr(unsafe.Pointer(typ)) + if min > addr { + min = addr + } + if max < addr { + max = addr + } + if typ.Kind() == reflect.Ptr { + addr = uintptr(unsafe.Pointer(typ.Elem())) + if min > addr { + min = addr + } + if max < addr { + max = addr + } + } + isAligned64 = isAligned64 && (addr-min)&63 == 0 + isAligned32 = isAligned32 && (addr-min)&31 == 0 + } + addrRange := max - min + if addrRange == 0 { + return nil + } + var addrShift uintptr + if isAligned64 { + addrShift = 6 + } else if isAligned32 { + addrShift = 5 + } + cacheSize := addrRange >> addrShift + if cacheSize > maxAcceptableTypeAddrRange { + return nil + } + typeAddr = &TypeAddr{ + BaseTypeAddr: min, + MaxTypeAddr: max, + AddrRange: addrRange, + AddrShift: addrShift, + } + return typeAddr +} diff --git a/vendor/github.com/goccy/go-json/json.go b/vendor/github.com/goccy/go-json/json.go new file mode 100644 index 0000000..5c9448d --- /dev/null +++ b/vendor/github.com/goccy/go-json/json.go @@ -0,0 +1,366 @@ +package json + +import ( + "bytes" + "context" + "encoding/json" + + "github.com/goccy/go-json/internal/encoder" +) + +// Marshaler is the interface implemented by types that +// can marshal themselves into valid JSON. +type Marshaler interface { + MarshalJSON() ([]byte, error) +} + +// MarshalerContext is the interface implemented by types that +// can marshal themselves into valid JSON with context.Context. +type MarshalerContext interface { + MarshalJSON(context.Context) ([]byte, error) +} + +// Unmarshaler is the interface implemented by types +// that can unmarshal a JSON description of themselves. +// The input can be assumed to be a valid encoding of +// a JSON value. UnmarshalJSON must copy the JSON data +// if it wishes to retain the data after returning. +// +// By convention, to approximate the behavior of Unmarshal itself, +// Unmarshalers implement UnmarshalJSON([]byte("null")) as a no-op. +type Unmarshaler interface { + UnmarshalJSON([]byte) error +} + +// UnmarshalerContext is the interface implemented by types +// that can unmarshal with context.Context a JSON description of themselves. +type UnmarshalerContext interface { + UnmarshalJSON(context.Context, []byte) error +} + +// Marshal returns the JSON encoding of v. +// +// Marshal traverses the value v recursively. +// If an encountered value implements the Marshaler interface +// and is not a nil pointer, Marshal calls its MarshalJSON method +// to produce JSON. If no MarshalJSON method is present but the +// value implements encoding.TextMarshaler instead, Marshal calls +// its MarshalText method and encodes the result as a JSON string. +// The nil pointer exception is not strictly necessary +// but mimics a similar, necessary exception in the behavior of +// UnmarshalJSON. +// +// Otherwise, Marshal uses the following type-dependent default encodings: +// +// Boolean values encode as JSON booleans. +// +// Floating point, integer, and Number values encode as JSON numbers. +// +// String values encode as JSON strings coerced to valid UTF-8, +// replacing invalid bytes with the Unicode replacement rune. +// The angle brackets "<" and ">" are escaped to "\u003c" and "\u003e" +// to keep some browsers from misinterpreting JSON output as HTML. +// Ampersand "&" is also escaped to "\u0026" for the same reason. +// This escaping can be disabled using an Encoder that had SetEscapeHTML(false) +// called on it. +// +// Array and slice values encode as JSON arrays, except that +// []byte encodes as a base64-encoded string, and a nil slice +// encodes as the null JSON value. +// +// Struct values encode as JSON objects. +// Each exported struct field becomes a member of the object, using the +// field name as the object key, unless the field is omitted for one of the +// reasons given below. +// +// The encoding of each struct field can be customized by the format string +// stored under the "json" key in the struct field's tag. +// The format string gives the name of the field, possibly followed by a +// comma-separated list of options. The name may be empty in order to +// specify options without overriding the default field name. +// +// The "omitempty" option specifies that the field should be omitted +// from the encoding if the field has an empty value, defined as +// false, 0, a nil pointer, a nil interface value, and any empty array, +// slice, map, or string. +// +// As a special case, if the field tag is "-", the field is always omitted. +// Note that a field with name "-" can still be generated using the tag "-,". +// +// Examples of struct field tags and their meanings: +// +// // Field appears in JSON as key "myName". +// Field int `json:"myName"` +// +// // Field appears in JSON as key "myName" and +// // the field is omitted from the object if its value is empty, +// // as defined above. +// Field int `json:"myName,omitempty"` +// +// // Field appears in JSON as key "Field" (the default), but +// // the field is skipped if empty. +// // Note the leading comma. +// Field int `json:",omitempty"` +// +// // Field is ignored by this package. +// Field int `json:"-"` +// +// // Field appears in JSON as key "-". +// Field int `json:"-,"` +// +// The "string" option signals that a field is stored as JSON inside a +// JSON-encoded string. It applies only to fields of string, floating point, +// integer, or boolean types. This extra level of encoding is sometimes used +// when communicating with JavaScript programs: +// +// Int64String int64 `json:",string"` +// +// The key name will be used if it's a non-empty string consisting of +// only Unicode letters, digits, and ASCII punctuation except quotation +// marks, backslash, and comma. +// +// Anonymous struct fields are usually marshaled as if their inner exported fields +// were fields in the outer struct, subject to the usual Go visibility rules amended +// as described in the next paragraph. +// An anonymous struct field with a name given in its JSON tag is treated as +// having that name, rather than being anonymous. +// An anonymous struct field of interface type is treated the same as having +// that type as its name, rather than being anonymous. +// +// The Go visibility rules for struct fields are amended for JSON when +// deciding which field to marshal or unmarshal. If there are +// multiple fields at the same level, and that level is the least +// nested (and would therefore be the nesting level selected by the +// usual Go rules), the following extra rules apply: +// +// 1) Of those fields, if any are JSON-tagged, only tagged fields are considered, +// even if there are multiple untagged fields that would otherwise conflict. +// +// 2) If there is exactly one field (tagged or not according to the first rule), that is selected. +// +// 3) Otherwise there are multiple fields, and all are ignored; no error occurs. +// +// Handling of anonymous struct fields is new in Go 1.1. +// Prior to Go 1.1, anonymous struct fields were ignored. To force ignoring of +// an anonymous struct field in both current and earlier versions, give the field +// a JSON tag of "-". +// +// Map values encode as JSON objects. The map's key type must either be a +// string, an integer type, or implement encoding.TextMarshaler. The map keys +// are sorted and used as JSON object keys by applying the following rules, +// subject to the UTF-8 coercion described for string values above: +// - string keys are used directly +// - encoding.TextMarshalers are marshaled +// - integer keys are converted to strings +// +// Pointer values encode as the value pointed to. +// A nil pointer encodes as the null JSON value. +// +// Interface values encode as the value contained in the interface. +// A nil interface value encodes as the null JSON value. +// +// Channel, complex, and function values cannot be encoded in JSON. +// Attempting to encode such a value causes Marshal to return +// an UnsupportedTypeError. +// +// JSON cannot represent cyclic data structures and Marshal does not +// handle them. Passing cyclic structures to Marshal will result in +// an infinite recursion. +// +func Marshal(v interface{}) ([]byte, error) { + return MarshalWithOption(v) +} + +// MarshalNoEscape returns the JSON encoding of v and doesn't escape v. +func MarshalNoEscape(v interface{}) ([]byte, error) { + return marshalNoEscape(v) +} + +// MarshalContext returns the JSON encoding of v with context.Context and EncodeOption. +func MarshalContext(ctx context.Context, v interface{}, optFuncs ...EncodeOptionFunc) ([]byte, error) { + return marshalContext(ctx, v, optFuncs...) +} + +// MarshalWithOption returns the JSON encoding of v with EncodeOption. +func MarshalWithOption(v interface{}, optFuncs ...EncodeOptionFunc) ([]byte, error) { + return marshal(v, optFuncs...) +} + +// MarshalIndent is like Marshal but applies Indent to format the output. +// Each JSON element in the output will begin on a new line beginning with prefix +// followed by one or more copies of indent according to the indentation nesting. +func MarshalIndent(v interface{}, prefix, indent string) ([]byte, error) { + return MarshalIndentWithOption(v, prefix, indent) +} + +// MarshalIndentWithOption is like Marshal but applies Indent to format the output with EncodeOption. +func MarshalIndentWithOption(v interface{}, prefix, indent string, optFuncs ...EncodeOptionFunc) ([]byte, error) { + return marshalIndent(v, prefix, indent, optFuncs...) +} + +// Unmarshal parses the JSON-encoded data and stores the result +// in the value pointed to by v. If v is nil or not a pointer, +// Unmarshal returns an InvalidUnmarshalError. +// +// Unmarshal uses the inverse of the encodings that +// Marshal uses, allocating maps, slices, and pointers as necessary, +// with the following additional rules: +// +// To unmarshal JSON into a pointer, Unmarshal first handles the case of +// the JSON being the JSON literal null. In that case, Unmarshal sets +// the pointer to nil. Otherwise, Unmarshal unmarshals the JSON into +// the value pointed at by the pointer. If the pointer is nil, Unmarshal +// allocates a new value for it to point to. +// +// To unmarshal JSON into a value implementing the Unmarshaler interface, +// Unmarshal calls that value's UnmarshalJSON method, including +// when the input is a JSON null. +// Otherwise, if the value implements encoding.TextUnmarshaler +// and the input is a JSON quoted string, Unmarshal calls that value's +// UnmarshalText method with the unquoted form of the string. +// +// To unmarshal JSON into a struct, Unmarshal matches incoming object +// keys to the keys used by Marshal (either the struct field name or its tag), +// preferring an exact match but also accepting a case-insensitive match. By +// default, object keys which don't have a corresponding struct field are +// ignored (see Decoder.DisallowUnknownFields for an alternative). +// +// To unmarshal JSON into an interface value, +// Unmarshal stores one of these in the interface value: +// +// bool, for JSON booleans +// float64, for JSON numbers +// string, for JSON strings +// []interface{}, for JSON arrays +// map[string]interface{}, for JSON objects +// nil for JSON null +// +// To unmarshal a JSON array into a slice, Unmarshal resets the slice length +// to zero and then appends each element to the slice. +// As a special case, to unmarshal an empty JSON array into a slice, +// Unmarshal replaces the slice with a new empty slice. +// +// To unmarshal a JSON array into a Go array, Unmarshal decodes +// JSON array elements into corresponding Go array elements. +// If the Go array is smaller than the JSON array, +// the additional JSON array elements are discarded. +// If the JSON array is smaller than the Go array, +// the additional Go array elements are set to zero values. +// +// To unmarshal a JSON object into a map, Unmarshal first establishes a map to +// use. If the map is nil, Unmarshal allocates a new map. Otherwise Unmarshal +// reuses the existing map, keeping existing entries. Unmarshal then stores +// key-value pairs from the JSON object into the map. The map's key type must +// either be any string type, an integer, implement json.Unmarshaler, or +// implement encoding.TextUnmarshaler. +// +// If a JSON value is not appropriate for a given target type, +// or if a JSON number overflows the target type, Unmarshal +// skips that field and completes the unmarshaling as best it can. +// If no more serious errors are encountered, Unmarshal returns +// an UnmarshalTypeError describing the earliest such error. In any +// case, it's not guaranteed that all the remaining fields following +// the problematic one will be unmarshaled into the target object. +// +// The JSON null value unmarshals into an interface, map, pointer, or slice +// by setting that Go value to nil. Because null is often used in JSON to mean +// ``not present,'' unmarshaling a JSON null into any other Go type has no effect +// on the value and produces no error. +// +// When unmarshaling quoted strings, invalid UTF-8 or +// invalid UTF-16 surrogate pairs are not treated as an error. +// Instead, they are replaced by the Unicode replacement +// character U+FFFD. +// +func Unmarshal(data []byte, v interface{}) error { + return unmarshal(data, v) +} + +// UnmarshalContext parses the JSON-encoded data and stores the result +// in the value pointed to by v. If you implement the UnmarshalerContext interface, +// call it with ctx as an argument. +func UnmarshalContext(ctx context.Context, data []byte, v interface{}, optFuncs ...DecodeOptionFunc) error { + return unmarshalContext(ctx, data, v) +} + +func UnmarshalWithOption(data []byte, v interface{}, optFuncs ...DecodeOptionFunc) error { + return unmarshal(data, v, optFuncs...) +} + +func UnmarshalNoEscape(data []byte, v interface{}, optFuncs ...DecodeOptionFunc) error { + return unmarshalNoEscape(data, v, optFuncs...) +} + +// A Token holds a value of one of these types: +// +// Delim, for the four JSON delimiters [ ] { } +// bool, for JSON booleans +// float64, for JSON numbers +// Number, for JSON numbers +// string, for JSON string literals +// nil, for JSON null +// +type Token = json.Token + +// A Number represents a JSON number literal. +type Number = json.Number + +// RawMessage is a raw encoded JSON value. +// It implements Marshaler and Unmarshaler and can +// be used to delay JSON decoding or precompute a JSON encoding. +type RawMessage = json.RawMessage + +// A Delim is a JSON array or object delimiter, one of [ ] { or }. +type Delim = json.Delim + +// Compact appends to dst the JSON-encoded src with +// insignificant space characters elided. +func Compact(dst *bytes.Buffer, src []byte) error { + return encoder.Compact(dst, src, false) +} + +// Indent appends to dst an indented form of the JSON-encoded src. +// Each element in a JSON object or array begins on a new, +// indented line beginning with prefix followed by one or more +// copies of indent according to the indentation nesting. +// The data appended to dst does not begin with the prefix nor +// any indentation, to make it easier to embed inside other formatted JSON data. +// Although leading space characters (space, tab, carriage return, newline) +// at the beginning of src are dropped, trailing space characters +// at the end of src are preserved and copied to dst. +// For example, if src has no trailing spaces, neither will dst; +// if src ends in a trailing newline, so will dst. +func Indent(dst *bytes.Buffer, src []byte, prefix, indent string) error { + return encoder.Indent(dst, src, prefix, indent) +} + +// HTMLEscape appends to dst the JSON-encoded src with <, >, &, U+2028 and U+2029 +// characters inside string literals changed to \u003c, \u003e, \u0026, \u2028, \u2029 +// so that the JSON will be safe to embed inside HTML