go-json/encode_compile.go

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package json
import (
"fmt"
"reflect"
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"strings"
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"unsafe"
)
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func (e *Encoder) compileHead(ctx *encodeCompileContext) (*opcode, error) {
typ := ctx.typ
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switch {
case typ.Implements(marshalJSONType):
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return e.compileMarshalJSON(ctx)
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case rtype_ptrTo(typ).Implements(marshalJSONType):
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return e.compileMarshalJSONPtr(ctx)
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case typ.Implements(marshalTextType):
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return e.compileMarshalText(ctx)
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case rtype_ptrTo(typ).Implements(marshalTextType):
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return e.compileMarshalTextPtr(ctx)
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}
isPtr := false
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orgType := typ
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if typ.Kind() == reflect.Ptr {
typ = typ.Elem()
isPtr = true
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}
if typ.Kind() == reflect.Map {
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return e.compileMap(ctx.withType(typ), isPtr)
} else if typ.Kind() == reflect.Struct {
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code, err := e.compileStruct(ctx.withType(typ), isPtr)
if err != nil {
return nil, err
}
e.optimizeStructEnd(code)
return code, nil
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} else if isPtr && typ.Implements(marshalTextType) {
typ = orgType
} else if isPtr && typ.Implements(marshalJSONType) {
typ = orgType
}
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code, err := e.compile(ctx.withType(typ))
if err != nil {
return nil, err
}
e.optimizeStructEnd(code)
return code, nil
}
func (e *Encoder) optimizeStructEnd(c *opcode) {
for code := c; code.op != opEnd; {
if code.op == opStructFieldRecursive {
// 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
if strings.Contains(prev.op.String(), "Head") {
// 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
}
}
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}
func (e *Encoder) implementsMarshaler(typ *rtype) bool {
switch {
case typ.Implements(marshalJSONType):
return true
case rtype_ptrTo(typ).Implements(marshalJSONType):
return true
case typ.Implements(marshalTextType):
return true
case rtype_ptrTo(typ).Implements(marshalTextType):
return true
}
return false
}
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func (e *Encoder) compile(ctx *encodeCompileContext) (*opcode, error) {
typ := ctx.typ
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switch {
case typ.Implements(marshalJSONType):
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return e.compileMarshalJSON(ctx)
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case rtype_ptrTo(typ).Implements(marshalJSONType):
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return e.compileMarshalJSONPtr(ctx)
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case typ.Implements(marshalTextType):
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return e.compileMarshalText(ctx)
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case rtype_ptrTo(typ).Implements(marshalTextType):
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return e.compileMarshalTextPtr(ctx)
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}
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switch typ.Kind() {
case reflect.Ptr:
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return e.compilePtr(ctx)
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case reflect.Slice:
elem := typ.Elem()
if !e.implementsMarshaler(elem) && elem.Kind() == reflect.Uint8 {
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return e.compileBytes(ctx)
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}
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return e.compileSlice(ctx)
case reflect.Array:
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return e.compileArray(ctx)
case reflect.Map:
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return e.compileMap(ctx, true)
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case reflect.Struct:
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return e.compileStruct(ctx, false)
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case reflect.Interface:
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return e.compileInterface(ctx)
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case reflect.Int:
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return e.compileInt(ctx)
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case reflect.Int8:
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return e.compileInt8(ctx)
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case reflect.Int16:
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return e.compileInt16(ctx)
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case reflect.Int32:
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return e.compileInt32(ctx)
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case reflect.Int64:
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return e.compileInt64(ctx)
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case reflect.Uint:
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return e.compileUint(ctx)
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case reflect.Uint8:
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return e.compileUint8(ctx)
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case reflect.Uint16:
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return e.compileUint16(ctx)
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case reflect.Uint32:
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return e.compileUint32(ctx)
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case reflect.Uint64:
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return e.compileUint64(ctx)
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case reflect.Uintptr:
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return e.compileUint(ctx)
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case reflect.Float32:
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return e.compileFloat32(ctx)
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case reflect.Float64:
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return e.compileFloat64(ctx)
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case reflect.String:
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return e.compileString(ctx)
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case reflect.Bool:
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return e.compileBool(ctx)
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}
return nil, &UnsupportedTypeError{Type: rtype2type(typ)}
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}
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func (e *Encoder) compileKey(ctx *encodeCompileContext) (*opcode, error) {
typ := ctx.typ
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switch {
case rtype_ptrTo(typ).Implements(marshalJSONType):
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return e.compileMarshalJSONPtr(ctx)
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case rtype_ptrTo(typ).Implements(marshalTextType):
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return e.compileMarshalTextPtr(ctx)
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}
switch typ.Kind() {
case reflect.Ptr:
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return e.compilePtr(ctx)
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case reflect.Interface:
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return e.compileInterface(ctx)
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case reflect.String:
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return e.compileString(ctx)
case reflect.Int:
return e.compileIntString(ctx)
case reflect.Int8:
return e.compileInt8String(ctx)
case reflect.Int16:
return e.compileInt16String(ctx)
case reflect.Int32:
return e.compileInt32String(ctx)
case reflect.Int64:
return e.compileInt64String(ctx)
case reflect.Uint:
return e.compileUintString(ctx)
case reflect.Uint8:
return e.compileUint8String(ctx)
case reflect.Uint16:
return e.compileUint16String(ctx)
case reflect.Uint32:
return e.compileUint32String(ctx)
case reflect.Uint64:
return e.compileUint64String(ctx)
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case reflect.Uintptr:
return e.compileUintString(ctx)
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}
return nil, &UnsupportedTypeError{Type: rtype2type(typ)}
}
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func (e *Encoder) compilePtr(ctx *encodeCompileContext) (*opcode, error) {
ptrOpcodeIndex := ctx.opcodeIndex
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ptrIndex := ctx.ptrIndex
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ctx.incIndex()
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code, err := e.compile(ctx.withType(ctx.typ.Elem()))
if err != nil {
return nil, err
}
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ptrHeadOp := code.op.headToPtrHead()
if code.op != ptrHeadOp {
code.op = ptrHeadOp
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code.decOpcodeIndex()
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ctx.decIndex()
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return code, nil
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}
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c := ctx.context()
c.opcodeIndex = ptrOpcodeIndex
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c.ptrIndex = ptrIndex
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return newOpCodeWithNext(c, opPtr, code), nil
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}
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func (e *Encoder) compileMarshalJSON(ctx *encodeCompileContext) (*opcode, error) {
code := newOpCode(ctx, opMarshalJSON)
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ctx.incIndex()
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return code, nil
}
func (e *Encoder) compileMarshalJSONPtr(ctx *encodeCompileContext) (*opcode, error) {
code := newOpCode(ctx.withType(rtype_ptrTo(ctx.typ)), opMarshalJSON)
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ctx.incIndex()
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return code, nil
}
func (e *Encoder) compileMarshalText(ctx *encodeCompileContext) (*opcode, error) {
code := newOpCode(ctx, opMarshalText)
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ctx.incIndex()
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return code, nil
}
func (e *Encoder) compileMarshalTextPtr(ctx *encodeCompileContext) (*opcode, error) {
code := newOpCode(ctx.withType(rtype_ptrTo(ctx.typ)), opMarshalText)
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ctx.incIndex()
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return code, nil
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}
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func (e *Encoder) compileInt(ctx *encodeCompileContext) (*opcode, error) {
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code := newOpCode(ctx, opInt)
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ctx.incIndex()
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return code, nil
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}
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func (e *Encoder) compileInt8(ctx *encodeCompileContext) (*opcode, error) {
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code := newOpCode(ctx, opInt8)
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ctx.incIndex()
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return code, nil
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}
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func (e *Encoder) compileInt16(ctx *encodeCompileContext) (*opcode, error) {
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code := newOpCode(ctx, opInt16)
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ctx.incIndex()
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return code, nil
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}
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func (e *Encoder) compileInt32(ctx *encodeCompileContext) (*opcode, error) {
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code := newOpCode(ctx, opInt32)
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ctx.incIndex()
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return code, nil
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}
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func (e *Encoder) compileInt64(ctx *encodeCompileContext) (*opcode, error) {
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code := newOpCode(ctx, opInt64)
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ctx.incIndex()
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return code, nil
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}
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func (e *Encoder) compileUint(ctx *encodeCompileContext) (*opcode, error) {
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code := newOpCode(ctx, opUint)
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ctx.incIndex()
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return code, nil
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}
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func (e *Encoder) compileUint8(ctx *encodeCompileContext) (*opcode, error) {
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code := newOpCode(ctx, opUint8)
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ctx.incIndex()
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return code, nil
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}
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func (e *Encoder) compileUint16(ctx *encodeCompileContext) (*opcode, error) {
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code := newOpCode(ctx, opUint16)
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ctx.incIndex()
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return code, nil
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}
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func (e *Encoder) compileUint32(ctx *encodeCompileContext) (*opcode, error) {
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code := newOpCode(ctx, opUint32)
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ctx.incIndex()
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return code, nil
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}
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func (e *Encoder) compileUint64(ctx *encodeCompileContext) (*opcode, error) {
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code := newOpCode(ctx, opUint64)
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ctx.incIndex()
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return code, nil
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}
func (e *Encoder) compileIntString(ctx *encodeCompileContext) (*opcode, error) {
code := newOpCode(ctx, opIntString)
ctx.incIndex()
return code, nil
}
func (e *Encoder) compileInt8String(ctx *encodeCompileContext) (*opcode, error) {
code := newOpCode(ctx, opInt8String)
ctx.incIndex()
return code, nil
}
func (e *Encoder) compileInt16String(ctx *encodeCompileContext) (*opcode, error) {
code := newOpCode(ctx, opInt16String)
ctx.incIndex()
return code, nil
}
func (e *Encoder) compileInt32String(ctx *encodeCompileContext) (*opcode, error) {
code := newOpCode(ctx, opInt32String)
ctx.incIndex()
return code, nil
}
func (e *Encoder) compileInt64String(ctx *encodeCompileContext) (*opcode, error) {
code := newOpCode(ctx, opInt64String)
ctx.incIndex()
return code, nil
}
func (e *Encoder) compileUintString(ctx *encodeCompileContext) (*opcode, error) {
code := newOpCode(ctx, opUintString)
ctx.incIndex()
return code, nil
}
func (e *Encoder) compileUint8String(ctx *encodeCompileContext) (*opcode, error) {
code := newOpCode(ctx, opUint8String)
ctx.incIndex()
return code, nil
}
func (e *Encoder) compileUint16String(ctx *encodeCompileContext) (*opcode, error) {
code := newOpCode(ctx, opUint16String)
ctx.incIndex()
return code, nil
}
func (e *Encoder) compileUint32String(ctx *encodeCompileContext) (*opcode, error) {
code := newOpCode(ctx, opUint32String)
ctx.incIndex()
return code, nil
}
func (e *Encoder) compileUint64String(ctx *encodeCompileContext) (*opcode, error) {
code := newOpCode(ctx, opUint64String)
ctx.incIndex()
return code, nil
}
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func (e *Encoder) compileFloat32(ctx *encodeCompileContext) (*opcode, error) {
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code := newOpCode(ctx, opFloat32)
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ctx.incIndex()
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return code, nil
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}
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func (e *Encoder) compileFloat64(ctx *encodeCompileContext) (*opcode, error) {
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code := newOpCode(ctx, opFloat64)
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ctx.incIndex()
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return code, nil
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}
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func (e *Encoder) compileString(ctx *encodeCompileContext) (*opcode, error) {
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code := newOpCode(ctx, opString)
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ctx.incIndex()
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return code, nil
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}
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func (e *Encoder) compileBool(ctx *encodeCompileContext) (*opcode, error) {
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code := newOpCode(ctx, opBool)
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ctx.incIndex()
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return code, nil
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}
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func (e *Encoder) compileBytes(ctx *encodeCompileContext) (*opcode, error) {
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code := newOpCode(ctx, opBytes)
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ctx.incIndex()
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return code, nil
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}
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func (e *Encoder) compileInterface(ctx *encodeCompileContext) (*opcode, error) {
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code := newInterfaceCode(ctx)
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ctx.incIndex()
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return code, nil
}
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func (e *Encoder) compileSlice(ctx *encodeCompileContext) (*opcode, error) {
ctx.root = false
elem := ctx.typ.Elem()
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size := elem.Size()
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header := newSliceHeaderCode(ctx)
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ctx.incIndex()
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code, err := e.compile(ctx.withType(ctx.typ.Elem()).incIndent())
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if err != nil {
return nil, err
}
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// header => opcode => elem => end
// ^ |
// |________|
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elemCode := newSliceElemCode(ctx, header, size)
ctx.incIndex()
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end := newOpCode(ctx, opSliceEnd)
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ctx.incIndex()
header.elem = elemCode
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
}
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func (e *Encoder) compileArray(ctx *encodeCompileContext) (*opcode, error) {
ctx.root = false
typ := ctx.typ
elem := typ.Elem()
alen := typ.Len()
size := elem.Size()
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header := newArrayHeaderCode(ctx, alen)
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ctx.incIndex()
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code, err := e.compile(ctx.withType(elem).incIndent())
if err != nil {
return nil, err
}
// header => opcode => elem => end
// ^ |
// |________|
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elemCode := newArrayElemCode(ctx, header, alen, size)
ctx.incIndex()
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end := newOpCode(ctx, opArrayEnd)
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ctx.incIndex()
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header.elem = elemCode
header.end = end
header.next = code
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code.beforeLastCode().next = (*opcode)(unsafe.Pointer(elemCode))
elemCode.next = code
elemCode.end = end
return (*opcode)(unsafe.Pointer(header)), nil
}
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//go:linkname mapiterinit reflect.mapiterinit
//go:noescape
func mapiterinit(mapType *rtype, 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
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func (e *Encoder) compileMap(ctx *encodeCompileContext, withLoad bool) (*opcode, error) {
// header => code => value => code => key => code => value => code => end
// ^ |
// |_______________________|
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ctx = ctx.incIndent()
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header := newMapHeaderCode(ctx, withLoad)
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ctx.incIndex()
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typ := ctx.typ
keyType := ctx.typ.Key()
keyCode, err := e.compileKey(ctx.withType(keyType))
if err != nil {
return nil, err
}
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value := newMapValueCode(ctx, header)
ctx.incIndex()
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valueType := typ.Elem()
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valueCode, err := e.compile(ctx.withType(valueType))
if err != nil {
return nil, err
}
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key := newMapKeyCode(ctx, header)
ctx.incIndex()
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ctx = ctx.decIndent()
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header.mapKey = key
header.mapValue = value
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end := newMapEndCode(ctx, header)
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ctx.incIndex()
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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
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value.end = end
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return (*opcode)(unsafe.Pointer(header)), nil
}
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func (e *Encoder) typeToHeaderType(ctx *encodeCompileContext, code *opcode) opType {
switch code.op {
case opPtr:
ptrNum := 1
c := code
ctx.decIndex()
for {
if code.next.op == opPtr {
ptrNum++
code = code.next
ctx.decIndex()
}
break
}
c.ptrNum = ptrNum
if ptrNum > 1 {
switch code.next.op {
case opInt:
return opStructFieldHeadIntNPtr
case opInt8:
return opStructFieldHeadInt8NPtr
case opInt16:
return opStructFieldHeadInt16NPtr
case opInt32:
return opStructFieldHeadInt32NPtr
case opInt64:
return opStructFieldHeadInt64NPtr
case opUint:
return opStructFieldHeadUintNPtr
case opUint8:
return opStructFieldHeadUint8NPtr
case opUint16:
return opStructFieldHeadUint16NPtr
case opUint32:
return opStructFieldHeadUint32NPtr
case opUint64:
return opStructFieldHeadUint64NPtr
case opFloat32:
return opStructFieldHeadFloat32NPtr
case opFloat64:
return opStructFieldHeadFloat64NPtr
case opString:
return opStructFieldHeadStringNPtr
case opBool:
return opStructFieldHeadBoolNPtr
}
} else {
switch code.next.op {
case opInt:
return opStructFieldHeadIntPtr
case opInt8:
return opStructFieldHeadInt8Ptr
case opInt16:
return opStructFieldHeadInt16Ptr
case opInt32:
return opStructFieldHeadInt32Ptr
case opInt64:
return opStructFieldHeadInt64Ptr
case opUint:
return opStructFieldHeadUintPtr
case opUint8:
return opStructFieldHeadUint8Ptr
case opUint16:
return opStructFieldHeadUint16Ptr
case opUint32:
return opStructFieldHeadUint32Ptr
case opUint64:
return opStructFieldHeadUint64Ptr
case opFloat32:
return opStructFieldHeadFloat32Ptr
case opFloat64:
return opStructFieldHeadFloat64Ptr
case opString:
return opStructFieldHeadStringPtr
case opBool:
return opStructFieldHeadBoolPtr
}
}
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case opInt:
return opStructFieldHeadInt
case opInt8:
return opStructFieldHeadInt8
case opInt16:
return opStructFieldHeadInt16
case opInt32:
return opStructFieldHeadInt32
case opInt64:
return opStructFieldHeadInt64
case opUint:
return opStructFieldHeadUint
case opUint8:
return opStructFieldHeadUint8
case opUint16:
return opStructFieldHeadUint16
case opUint32:
return opStructFieldHeadUint32
case opUint64:
return opStructFieldHeadUint64
case opFloat32:
return opStructFieldHeadFloat32
case opFloat64:
return opStructFieldHeadFloat64
case opString:
return opStructFieldHeadString
case opBool:
return opStructFieldHeadBool
case opMapHead:
return opStructFieldHeadMap
case opMapHeadLoad:
return opStructFieldHeadMapLoad
case opArrayHead:
return opStructFieldHeadArray
case opSliceHead:
return opStructFieldHeadSlice
case opStructFieldHead:
return opStructFieldHeadStruct
case opMarshalJSON:
return opStructFieldHeadMarshalJSON
case opMarshalText:
return opStructFieldHeadMarshalText
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}
return opStructFieldHead
}
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func (e *Encoder) typeToFieldType(ctx *encodeCompileContext, code *opcode) opType {
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switch code.op {
case opPtr:
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ptrNum := 1
ctx.decIndex()
c := code
for {
if code.next.op == opPtr {
ptrNum++
code = code.next
ctx.decIndex()
}
break
}
c.ptrNum = ptrNum
if ptrNum > 1 {
switch code.next.op {
case opInt:
return opStructFieldIntNPtr
case opInt8:
return opStructFieldInt8NPtr
case opInt16:
return opStructFieldInt16NPtr
case opInt32:
return opStructFieldInt32NPtr
case opInt64:
return opStructFieldInt64NPtr
case opUint:
return opStructFieldUintNPtr
case opUint8:
return opStructFieldUint8NPtr
case opUint16:
return opStructFieldUint16NPtr
case opUint32:
return opStructFieldUint32NPtr
case opUint64:
return opStructFieldUint64NPtr
case opFloat32:
return opStructFieldFloat32NPtr
case opFloat64:
return opStructFieldFloat64NPtr
case opString:
return opStructFieldStringNPtr
case opBool:
return opStructFieldBoolNPtr
}
} else {
switch code.next.op {
case opInt:
return opStructFieldIntPtr
case opInt8:
return opStructFieldInt8Ptr
case opInt16:
return opStructFieldInt16Ptr
case opInt32:
return opStructFieldInt32Ptr
case opInt64:
return opStructFieldInt64Ptr
case opUint:
return opStructFieldUintPtr
case opUint8:
return opStructFieldUint8Ptr
case opUint16:
return opStructFieldUint16Ptr
case opUint32:
return opStructFieldUint32Ptr
case opUint64:
return opStructFieldUint64Ptr
case opFloat32:
return opStructFieldFloat32Ptr
case opFloat64:
return opStructFieldFloat64Ptr
case opString:
return opStructFieldStringPtr
case opBool:
return opStructFieldBoolPtr
}
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}
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case opInt:
return opStructFieldInt
case opInt8:
return opStructFieldInt8
case opInt16:
return opStructFieldInt16
case opInt32:
return opStructFieldInt32
case opInt64:
return opStructFieldInt64
case opUint:
return opStructFieldUint
case opUint8:
return opStructFieldUint8
case opUint16:
return opStructFieldUint16
case opUint32:
return opStructFieldUint32
case opUint64:
return opStructFieldUint64
case opFloat32:
return opStructFieldFloat32
case opFloat64:
return opStructFieldFloat64
case opString:
return opStructFieldString
case opBool:
return opStructFieldBool
case opMapHead:
return opStructFieldMap
case opMapHeadLoad:
return opStructFieldMapLoad
case opArrayHead:
return opStructFieldArray
case opSliceHead:
return opStructFieldSlice
case opStructFieldHead:
return opStructFieldStruct
case opMarshalJSON:
return opStructFieldMarshalJSON
case opMarshalText:
return opStructFieldMarshalText
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}
return opStructField
}
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func (e *Encoder) optimizeStructHeader(ctx *encodeCompileContext, code *opcode, tag *structTag) opType {
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headType := e.typeToHeaderType(ctx, code)
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switch {
case tag.isOmitEmpty:
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headType = headType.headToOmitEmptyHead()
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case tag.isString:
headType = headType.headToStringTagHead()
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}
return headType
}
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func (e *Encoder) optimizeStructField(ctx *encodeCompileContext, code *opcode, tag *structTag) opType {
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fieldType := e.typeToFieldType(ctx, code)
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switch {
case tag.isOmitEmpty:
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fieldType = fieldType.fieldToOmitEmptyField()
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case tag.isString:
fieldType = fieldType.fieldToStringTagField()
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}
return fieldType
}
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func (e *Encoder) recursiveCode(ctx *encodeCompileContext, jmp *compiledCode) *opcode {
code := newRecursiveCode(ctx, jmp)
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ctx.incIndex()
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return code
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}
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func (e *Encoder) compiledCode(ctx *encodeCompileContext) *opcode {
typ := ctx.typ
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typeptr := uintptr(unsafe.Pointer(typ))
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if compiledCode, exists := ctx.structTypeToCompiledCode[typeptr]; exists {
return e.recursiveCode(ctx, compiledCode)
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}
return nil
}
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func (e *Encoder) structHeader(ctx *encodeCompileContext, fieldCode *opcode, valueCode *opcode, tag *structTag) *opcode {
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fieldCode.indent--
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op := e.optimizeStructHeader(ctx, valueCode, tag)
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fieldCode.op = op
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fieldCode.ptrNum = valueCode.ptrNum
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switch op {
case opStructFieldHead,
opStructFieldHeadSlice,
opStructFieldHeadArray,
opStructFieldHeadMap,
opStructFieldHeadMapLoad,
opStructFieldHeadStruct,
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opStructFieldHeadOmitEmpty,
opStructFieldHeadOmitEmptySlice,
opStructFieldHeadOmitEmptyArray,
opStructFieldHeadOmitEmptyMap,
opStructFieldHeadOmitEmptyMapLoad,
opStructFieldHeadOmitEmptyStruct,
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opStructFieldHeadStringTag:
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return valueCode.beforeLastCode()
}
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ctx.decOpcodeIndex()
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return (*opcode)(unsafe.Pointer(fieldCode))
}
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func (e *Encoder) structField(ctx *encodeCompileContext, fieldCode *opcode, valueCode *opcode, tag *structTag) *opcode {
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code := (*opcode)(unsafe.Pointer(fieldCode))
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op := e.optimizeStructField(ctx, valueCode, tag)
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fieldCode.op = op
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fieldCode.ptrNum = valueCode.ptrNum
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switch op {
case opStructField,
opStructFieldSlice,
opStructFieldArray,
opStructFieldMap,
opStructFieldMapLoad,
opStructFieldStruct,
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opStructFieldOmitEmpty,
opStructFieldOmitEmptySlice,
opStructFieldOmitEmptyArray,
opStructFieldOmitEmptyMap,
opStructFieldOmitEmptyMapLoad,
opStructFieldOmitEmptyStruct,
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opStructFieldStringTag:
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return valueCode.beforeLastCode()
}
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ctx.decIndex()
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return code
}
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func (e *Encoder) isNotExistsField(head *opcode) bool {
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if head == nil {
return false
}
if head.op != opStructFieldAnonymousHead {
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
}
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return e.isNotExistsField(head.next)
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}
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func (e *Encoder) optimizeAnonymousFields(head *opcode) {
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code := head
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var prev *opcode
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removedFields := map[*opcode]struct{}{}
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for {
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if code.op == opStructEnd {
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break
}
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if code.op == opStructField {
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codeType := code.next.op.codeType()
if codeType == codeStructField {
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if e.isNotExistsField(code.next) {
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code.next = code.nextField
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diff := code.next.displayIdx - code.displayIdx
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for i := 0; i < diff; i++ {
code.next.decOpcodeIndex()
}
2020-11-16 15:28:33 +03:00
linkPrevToNextField(code, removedFields)
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code = prev
}
}
}
prev = code
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code = code.nextField
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}
}
type structFieldPair struct {
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prevField *opcode
curField *opcode
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isTaggedKey bool
linked bool
}
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func (e *Encoder) anonymousStructFieldPairMap(typ *rtype, tags structTags, named string, valueCode *opcode) map[string][]structFieldPair {
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anonymousFields := map[string][]structFieldPair{}
f := valueCode
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var prevAnonymousField *opcode
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removedFields := map[*opcode]struct{}{}
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for {
existsKey := tags.existsKey(f.displayKey)
op := f.op.headToAnonymousHead()
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if existsKey && (f.next.op == opStructFieldPtrAnonymousHeadRecursive || f.next.op == opStructFieldAnonymousHeadRecursive) {
// through
} else if op != f.op {
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if existsKey {
f.op = opStructFieldAnonymousHead
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} else if named == "" {
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f.op = op
}
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} else if named == "" && f.op == opStructEnd {
2020-08-22 09:40:18 +03:00
f.op = opStructAnonymousEnd
} else if existsKey {
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diff := f.nextField.displayIdx - f.displayIdx
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for i := 0; i < diff; i++ {
f.nextField.decOpcodeIndex()
}
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linkPrevToNextField(f, removedFields)
2020-08-22 09:40:18 +03:00
}
if f.displayKey == "" {
if f.nextField == nil {
break
}
prevAnonymousField = f
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f = f.nextField
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continue
}
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key := fmt.Sprintf("%s.%s", named, f.displayKey)
anonymousFields[key] = append(anonymousFields[key], structFieldPair{
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prevField: prevAnonymousField,
curField: f,
isTaggedKey: f.isTaggedKey,
})
if f.next != nil && f.nextField != f.next && f.next.op.codeType() == codeStructField {
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for k, v := range e.anonymousStructFieldPairMap(typ, tags, named, f.next) {
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anonymousFields[k] = append(anonymousFields[k], v...)
}
}
if f.nextField == nil {
break
}
prevAnonymousField = f
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f = f.nextField
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}
return anonymousFields
}
func (e *Encoder) optimizeConflictAnonymousFields(anonymousFields map[string][]structFieldPair) {
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removedFields := map[*opcode]struct{}{}
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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 = opStructFieldAnonymousHead
} else {
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diff := fieldPair.curField.nextField.displayIdx - fieldPair.curField.displayIdx
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for i := 0; i < diff; i++ {
fieldPair.curField.nextField.decOpcodeIndex()
}
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removedFields[fieldPair.curField] = struct{}{}
linkPrevToNextField(fieldPair.curField, removedFields)
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}
fieldPair.linked = true
}
}
}
if len(taggedPairs) > 1 {
for _, fieldPair := range taggedPairs {
if !fieldPair.linked {
if fieldPair.prevField == nil {
// head operation
fieldPair.curField.op = opStructFieldAnonymousHead
} else {
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diff := fieldPair.curField.nextField.displayIdx - fieldPair.curField.displayIdx
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removedFields[fieldPair.curField] = struct{}{}
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for i := 0; i < diff; i++ {
fieldPair.curField.nextField.decOpcodeIndex()
}
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linkPrevToNextField(fieldPair.curField, removedFields)
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}
fieldPair.linked = true
}
}
} else {
for _, fieldPair := range taggedPairs {
fieldPair.curField.isTaggedKey = false
}
}
}
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}
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func (e *Encoder) compileStruct(ctx *encodeCompileContext, isPtr bool) (*opcode, error) {
ctx.root = false
if code := e.compiledCode(ctx); code != nil {
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return code, nil
}
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typ := ctx.typ
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typeptr := uintptr(unsafe.Pointer(typ))
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compiled := &compiledCode{}
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ctx.structTypeToCompiledCode[typeptr] = compiled
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// header => code => structField => code => end
// ^ |
// |__________|
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fieldNum := typ.NumField()
fieldIdx := 0
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var (
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head *opcode
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code *opcode
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prevField *opcode
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)
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ctx = ctx.incIndent()
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tags := structTags{}
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anonymousFields := map[string][]structFieldPair{}
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for i := 0; i < fieldNum; i++ {
field := typ.Field(i)
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if isIgnoredStructField(field) {
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continue
}
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tags = append(tags, structTagFromField(field))
}
for i, tag := range tags {
field := tag.field
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fieldType := type2rtype(field.Type)
if isPtr && i == 0 {
// head field of pointer structure at top level
// if field type is pointer and implements MarshalJSON or MarshalText,
// it need to operation of dereference of pointer.
if field.Type.Kind() == reflect.Ptr &&
(field.Type.Implements(marshalJSONType) || field.Type.Implements(marshalTextType)) {
fieldType = rtype_ptrTo(fieldType)
}
}
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fieldOpcodeIndex := ctx.opcodeIndex
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fieldPtrIndex := ctx.ptrIndex
ctx.incIndex()
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valueCode, err := e.compile(ctx.withType(fieldType))
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if err != nil {
return nil, err
}
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if field.Anonymous {
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if valueCode.op == opPtr && valueCode.next.op == opStructFieldRecursive {
valueCode = valueCode.next
valueCode.decOpcodeIndex()
ctx.decIndex()
valueCode.op = opStructFieldPtrHeadRecursive
}
tagKey := ""
if tag.isTaggedKey {
tagKey = tag.key
}
for k, v := range e.anonymousStructFieldPairMap(typ, tags, tagKey, valueCode) {
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anonymousFields[k] = append(anonymousFields[k], v...)
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}
}
if fieldNum == 1 && valueCode.op == opPtr {
// if field number is one and primitive pointer type,
// it should encode as **not** pointer .
switch valueCode.next.op {
case opInt, opInt8, opInt16, opInt32, opInt64,
opUint, opUint8, opUint16, opUint32, opUint64,
opFloat32, opFloat64, opBool, opString, opBytes:
valueCode = valueCode.next
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ctx.decOpcodeIndex()
}
}
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key := fmt.Sprintf(`"%s":`, tag.key)
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escapedKey := fmt.Sprintf(`%s:`, string(encodeEscapedString([]byte{}, tag.key)))
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fieldCode := &opcode{
typ: valueCode.typ,
displayIdx: fieldOpcodeIndex,
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idx: opcodeOffset(fieldPtrIndex),
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next: valueCode,
indent: ctx.indent,
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anonymousKey: field.Anonymous,
key: []byte(key),
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escapedKey: []byte(escapedKey),
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isTaggedKey: tag.isTaggedKey,
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displayKey: tag.key,
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offset: field.Offset,
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}
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if fieldIdx == 0 {
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fieldCode.headIdx = fieldCode.idx
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code = e.structHeader(ctx, fieldCode, valueCode, tag)
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head = fieldCode
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prevField = fieldCode
} else {
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fieldCode.headIdx = head.headIdx
code.next = fieldCode
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code = e.structField(ctx, fieldCode, valueCode, tag)
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prevField.nextField = fieldCode
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fieldCode.prevField = prevField
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prevField = fieldCode
}
fieldIdx++
}
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ctx = ctx.decIndent()
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structEndCode := &opcode{
op: opStructEnd,
typ: nil,
indent: ctx.indent,
next: newEndOp(ctx),
}
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// no struct field
if head == nil {
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head = &opcode{
op: opStructFieldHead,
typ: typ,
displayIdx: ctx.opcodeIndex,
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idx: opcodeOffset(ctx.ptrIndex),
headIdx: opcodeOffset(ctx.ptrIndex),
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indent: ctx.indent,
nextField: structEndCode,
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}
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structEndCode.prevField = head
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ctx.incIndex()
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code = head
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}
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structEndCode.displayIdx = ctx.opcodeIndex
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structEndCode.idx = opcodeOffset(ctx.ptrIndex)
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ctx.incIndex()
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if prevField != nil && prevField.nextField == nil {
prevField.nextField = structEndCode
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structEndCode.prevField = prevField
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}
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head.end = structEndCode
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code.next = structEndCode
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e.optimizeConflictAnonymousFields(anonymousFields)
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e.optimizeAnonymousFields(head)
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ret := (*opcode)(unsafe.Pointer(head))
compiled.code = ret
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delete(ctx.structTypeToCompiledCode, typeptr)
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return ret, nil
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}