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package json
import (
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"bytes"
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"encoding"
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"encoding/base64"
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"io"
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"math"
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"reflect"
"strconv"
"sync"
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"sync/atomic"
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"unsafe"
)
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// An Encoder writes JSON values to an output stream.
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type Encoder struct {
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w io . Writer
ctx * encodeRuntimeContext
ptr unsafe . Pointer
buf [ ] byte
enabledIndent bool
enabledHTMLEscape bool
unorderedMap bool
prefix [ ] byte
indentStr [ ] byte
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}
type compiledCode struct {
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code * opcode
linked bool // whether recursive code already have linked
curLen uintptr
nextLen uintptr
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}
const (
bufSize = 1024
)
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const (
opCodeEscapedType = iota
opCodeEscapedIndentType
opCodeNoEscapeType
opCodeNoEscapeIndentType
)
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type opcodeSet struct {
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code * opcode
codeLength int
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}
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func loadOpcodeMap ( ) map [ uintptr ] * opcodeSet {
p := atomic . LoadPointer ( & cachedOpcode )
return * ( * map [ uintptr ] * opcodeSet ) ( unsafe . Pointer ( & p ) )
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}
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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 ( & cachedOpcode , * ( * unsafe . Pointer ) ( unsafe . Pointer ( & newOpcodeMap ) ) )
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}
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var (
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encPool sync . Pool
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codePool sync . Pool
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cachedOpcode unsafe . Pointer // map[uintptr]*opcodeSet
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marshalJSONType reflect . Type
marshalTextType reflect . Type
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)
func init ( ) {
encPool = sync . Pool {
New : func ( ) interface { } {
return & Encoder {
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ctx : & encodeRuntimeContext {
ptrs : make ( [ ] uintptr , 128 ) ,
keepRefs : make ( [ ] unsafe . Pointer , 0 , 8 ) ,
} ,
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buf : make ( [ ] byte , 0 , bufSize ) ,
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}
} ,
}
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marshalJSONType = reflect . TypeOf ( ( * Marshaler ) ( nil ) ) . Elem ( )
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marshalTextType = reflect . TypeOf ( ( * encoding . TextMarshaler ) ( nil ) ) . Elem ( )
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}
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// NewEncoder returns a new encoder that writes to w.
func NewEncoder ( w io . Writer ) * Encoder {
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enc := encPool . Get ( ) . ( * Encoder )
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enc . w = w
enc . reset ( )
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return enc
}
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// 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 {
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return e . EncodeWithOption ( v )
}
// EncodeWithOption call Encode with EncodeOption.
func ( e * Encoder ) EncodeWithOption ( v interface { } , opts ... EncodeOption ) error {
for _ , opt := range opts {
if err := opt ( e ) ; err != nil {
return err
}
}
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header := ( * interfaceHeader ) ( unsafe . Pointer ( & v ) )
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buf , err := e . encode ( header , v == nil )
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if err != nil {
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return err
}
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if e . enabledIndent {
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buf = buf [ : len ( buf ) - 2 ]
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} else {
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buf = buf [ : len ( buf ) - 1 ]
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}
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buf = append ( buf , '\n' )
if _ , err := e . w . Write ( buf ) ; err != nil {
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return err
}
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e . buf = buf [ : 0 ]
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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 ) {
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e . enabledHTMLEscape = on
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}
// 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 ) {
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if prefix == "" && indent == "" {
e . enabledIndent = false
return
}
e . prefix = [ ] byte ( prefix )
e . indentStr = [ ] byte ( indent )
e . enabledIndent = true
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}
func ( e * Encoder ) release ( ) {
e . w = nil
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encPool . Put ( e )
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}
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func ( e * Encoder ) reset ( ) {
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e . enabledHTMLEscape = true
e . enabledIndent = false
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e . unorderedMap = false
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}
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func ( e * Encoder ) encodeForMarshal ( header * interfaceHeader , isNil bool ) ( [ ] byte , error ) {
buf , err := e . encode ( header , isNil )
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if err != nil {
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return nil , err
}
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e . buf = buf
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if e . enabledIndent {
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copied := make ( [ ] byte , len ( buf ) - 2 )
copy ( copied , buf )
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return copied , nil
}
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copied := make ( [ ] byte , len ( buf ) - 1 )
copy ( copied , buf )
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return copied , nil
}
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func ( e * Encoder ) encode ( header * interfaceHeader , isNil bool ) ( [ ] byte , error ) {
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b := e . buf [ : 0 ]
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if isNil {
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b = encodeNull ( b )
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if e . enabledIndent {
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b = encodeIndentComma ( b )
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} else {
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b = encodeComma ( b )
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}
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return b , nil
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}
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typ := header . typ
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typeptr := uintptr ( unsafe . Pointer ( typ ) )
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opcodeMap := loadOpcodeMap ( )
if codeSet , exists := opcodeMap [ typeptr ] ; exists {
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ctx := e . ctx
p := uintptr ( header . ptr )
ctx . init ( p , codeSet . codeLength )
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if e . enabledIndent {
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if e . enabledHTMLEscape {
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return e . runEscapedIndent ( ctx , b , codeSet . code )
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} else {
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return e . runIndent ( ctx , b , codeSet . code )
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}
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}
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if e . enabledHTMLEscape {
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return e . runEscaped ( ctx , b , codeSet . code )
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}
return e . run ( ctx , b , codeSet . code )
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}
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// noescape trick for header.typ ( reflect.*rtype )
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copiedType := * ( * * rtype ) ( unsafe . Pointer ( & typeptr ) )
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code , err := e . compileHead ( & encodeCompileContext {
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typ : copiedType ,
root : true ,
structTypeToCompiledCode : map [ uintptr ] * compiledCode { } ,
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} )
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if err != nil {
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return nil , err
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}
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code = copyOpcode ( code )
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codeLength := code . totalLength ( )
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codeSet := & opcodeSet {
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code : code ,
codeLength : codeLength ,
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}
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storeOpcodeSet ( typeptr , codeSet , opcodeMap )
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p := uintptr ( header . ptr )
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ctx := e . ctx
ctx . init ( p , codeLength )
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if e . enabledIndent {
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if e . enabledHTMLEscape {
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return e . runEscapedIndent ( ctx , b , codeSet . code )
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} else {
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return e . runIndent ( ctx , b , codeSet . code )
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}
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}
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if e . enabledHTMLEscape {
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return e . runEscaped ( ctx , b , codeSet . code )
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}
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return e . run ( ctx , b , codeSet . code )
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}
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func encodeFloat32 ( b [ ] byte , v float32 ) [ ] byte {
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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'
}
}
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return strconv . AppendFloat ( b , f64 , fmt , - 1 , 32 )
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}
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func encodeFloat64 ( b [ ] byte , v float64 ) [ ] byte {
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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'
}
}
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return strconv . AppendFloat ( b , v , fmt , - 1 , 64 )
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}
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func encodeBool ( b [ ] byte , v bool ) [ ] byte {
if v {
return append ( b , "true" ... )
}
return append ( b , "false" ... )
}
func encodeBytes ( dst [ ] byte , src [ ] byte ) [ ] byte {
return append ( dst , src ... )
}
func encodeNull ( b [ ] byte ) [ ] byte {
return append ( b , "null" ... )
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}
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func encodeComma ( b [ ] byte ) [ ] byte {
return append ( b , ',' )
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}
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func encodeIndentComma ( b [ ] byte ) [ ] byte {
return append ( b , ',' , '\n' )
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}
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func appendStructEnd ( b [ ] byte ) [ ] byte {
return append ( b , '}' , ',' )
}
func ( e * Encoder ) appendStructEndIndent ( b [ ] byte , indent int ) [ ] byte {
b = append ( b , '\n' )
b = append ( b , e . prefix ... )
b = append ( b , bytes . Repeat ( e . indentStr , indent ) ... )
return append ( b , '}' , ',' , '\n' )
}
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func encodeByteSlice ( b [ ] byte , src [ ] byte ) [ ] byte {
encodedLen := base64 . StdEncoding . EncodedLen ( len ( src ) )
b = append ( b , '"' )
pos := len ( b )
remainLen := cap ( b [ pos : ] )
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var buf [ ] byte
if remainLen > encodedLen {
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buf = b [ pos : pos + encodedLen ]
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} else {
buf = make ( [ ] byte , encodedLen )
}
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base64 . StdEncoding . Encode ( buf , src )
return append ( append ( b , buf ... ) , '"' )
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}
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func ( e * Encoder ) encodeIndent ( b [ ] byte , indent int ) [ ] byte {
b = append ( b , e . prefix ... )
return append ( b , bytes . Repeat ( e . indentStr , indent ) ... )
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}