package json import ( "fmt" "strings" "unsafe" ) const uintptrSize = 4 << (^uintptr(0) >> 63) // unsafe.Sizeof(uintptr(0)) but an ideal const type opcode struct { op opType // operation type typ *rtype // go type displayIdx int // opcode index key []byte // struct field key escapedKey []byte // struct field key ( HTML escaped ) ptrNum int // pointer number: e.g. double pointer is 2. displayKey string // key text to display isTaggedKey bool // whether tagged key anonymousKey bool // whether anonymous key anonymousHead bool // whether anonymous head or not root bool // whether root indirect bool // whether indirect or not nilcheck bool // whether needs to nilcheck or not rshiftNum uint8 // use to take bit for judging whether negative integer or not mask uint64 // mask for number indent int // indent number idx uintptr // offset to access ptr headIdx uintptr // offset to access slice/struct head elemIdx uintptr // offset to access array/slice/map elem length uintptr // offset to access slice/map length or array length mapIter uintptr // offset to access map iterator mapPos uintptr // offset to access position list for sorted map offset uintptr // offset size from struct header size uintptr // array/slice elem size mapKey *opcode // map key mapValue *opcode // map value elem *opcode // array/slice elem end *opcode // array/slice/struct/map end prevField *opcode // prev struct field nextField *opcode // next struct field next *opcode // next opcode jmp *compiledCode // for recursive call } func newOpCode(ctx *encodeCompileContext, op opType) *opcode { return newOpCodeWithNext(ctx, op, newEndOp(ctx)) } func opcodeOffset(idx int) uintptr { return uintptr(idx) * uintptrSize } func copyOpcode(code *opcode) *opcode { codeMap := map[uintptr]*opcode{} return code.copy(codeMap) } func newOpCodeWithNext(ctx *encodeCompileContext, op opType, next *opcode) *opcode { return &opcode{ op: op, typ: ctx.typ, displayIdx: ctx.opcodeIndex, indent: ctx.indent, idx: opcodeOffset(ctx.ptrIndex), next: next, } } func newEndOp(ctx *encodeCompileContext) *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, typ: c.typ, displayIdx: c.displayIdx, key: c.key, escapedKey: c.escapedKey, displayKey: c.displayKey, ptrNum: c.ptrNum, mask: c.mask, rshiftNum: c.rshiftNum, isTaggedKey: c.isTaggedKey, anonymousKey: c.anonymousKey, anonymousHead: c.anonymousHead, root: c.root, indirect: c.indirect, nilcheck: c.nilcheck, indent: c.indent, idx: c.idx, headIdx: c.headIdx, elemIdx: c.elemIdx, length: c.length, mapIter: c.mapIter, mapPos: c.mapPos, offset: c.offset, size: c.size, } codeMap[addr] = copied copied.mapKey = c.mapKey.copy(codeMap) copied.mapValue = c.mapValue.copy(codeMap) copied.elem = c.elem.copy(codeMap) 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 for code := c; code.op != opEnd; { idx = int(code.idx / uintptrSize) if code.op == opStructFieldRecursiveEnd { break } switch code.op.codeType() { case codeArrayElem, codeSliceElem, codeMapKey: code = code.end default: code = code.next } } return idx + 2 // opEnd + 1 } func (c *opcode) decOpcodeIndex() { for code := c; code.op != opEnd; { code.displayIdx-- code.idx -= uintptrSize if code.headIdx > 0 { code.headIdx -= 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) dumpHead(code *opcode) string { var length uintptr if code.op.codeType() == codeArrayHead { length = code.length } else { length = code.length / uintptrSize } return fmt.Sprintf( `[%d]%s%s ([idx:%d][headIdx:%d][elemIdx:%d][length:%d])`, code.displayIdx, strings.Repeat("-", code.indent), code.op, code.idx/uintptrSize, code.headIdx/uintptrSize, code.elemIdx/uintptrSize, length, ) } func (c *opcode) dumpMapHead(code *opcode) string { return fmt.Sprintf( `[%d]%s%s ([idx:%d][headIdx:%d][elemIdx:%d][length:%d][mapIter:%d])`, code.displayIdx, strings.Repeat("-", code.indent), code.op, code.idx/uintptrSize, code.headIdx/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("-", code.indent), code.op, code.idx/uintptrSize, code.mapPos/uintptrSize, code.length/uintptrSize, ) } func (c *opcode) dumpElem(code *opcode) string { var length uintptr if code.op.codeType() == codeArrayElem { length = code.length } else { length = code.length / uintptrSize } return fmt.Sprintf( `[%d]%s%s ([idx:%d][headIdx:%d][elemIdx:%d][length:%d][size:%d])`, code.displayIdx, strings.Repeat("-", code.indent), code.op, code.idx/uintptrSize, code.headIdx/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][headIdx:%d])`, code.displayIdx, strings.Repeat("-", code.indent), code.op, code.idx/uintptrSize, code.displayKey, code.offset, code.headIdx/uintptrSize, ) } 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("-", 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("-", code.indent), code.op, code.idx/uintptrSize, code.mapIter/uintptrSize, ) } func (c *opcode) dump() string { codes := []string{} for code := c; code.op != opEnd; { 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("-", 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 encodeLinkPrevToNextField(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 *encodeCompileContext) *opcode { idx := opcodeOffset(ctx.ptrIndex) ctx.incPtrIndex() elemIdx := opcodeOffset(ctx.ptrIndex) ctx.incPtrIndex() length := opcodeOffset(ctx.ptrIndex) return &opcode{ op: opSliceHead, displayIdx: ctx.opcodeIndex, idx: idx, headIdx: idx, elemIdx: elemIdx, length: length, indent: ctx.indent, } } func newSliceElemCode(ctx *encodeCompileContext, head *opcode, size uintptr) *opcode { return &opcode{ op: opSliceElem, displayIdx: ctx.opcodeIndex, idx: opcodeOffset(ctx.ptrIndex), headIdx: head.idx, elemIdx: head.elemIdx, length: head.length, indent: ctx.indent, size: size, } } func newArrayHeaderCode(ctx *encodeCompileContext, alen int) *opcode { idx := opcodeOffset(ctx.ptrIndex) ctx.incPtrIndex() elemIdx := opcodeOffset(ctx.ptrIndex) return &opcode{ op: opArrayHead, displayIdx: ctx.opcodeIndex, idx: idx, headIdx: idx, elemIdx: elemIdx, indent: ctx.indent, length: uintptr(alen), } } func newArrayElemCode(ctx *encodeCompileContext, head *opcode, length int, size uintptr) *opcode { return &opcode{ op: opArrayElem, displayIdx: ctx.opcodeIndex, idx: opcodeOffset(ctx.ptrIndex), elemIdx: head.elemIdx, headIdx: head.headIdx, length: uintptr(length), size: size, } } func newMapHeaderCode(ctx *encodeCompileContext, withLoad bool) *opcode { var op opType if withLoad { op = opMapHeadLoad } else { op = opMapHead } 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: op, typ: ctx.typ, displayIdx: ctx.opcodeIndex, idx: idx, elemIdx: elemIdx, length: length, mapIter: mapIter, indent: ctx.indent, } } func newMapKeyCode(ctx *encodeCompileContext, head *opcode) *opcode { return &opcode{ op: opMapKey, displayIdx: ctx.opcodeIndex, idx: opcodeOffset(ctx.ptrIndex), elemIdx: head.elemIdx, length: head.length, mapIter: head.mapIter, indent: ctx.indent, } } func newMapValueCode(ctx *encodeCompileContext, head *opcode) *opcode { return &opcode{ op: opMapValue, displayIdx: ctx.opcodeIndex, idx: opcodeOffset(ctx.ptrIndex), elemIdx: head.elemIdx, length: head.length, mapIter: head.mapIter, indent: ctx.indent, } } func newMapEndCode(ctx *encodeCompileContext, head *opcode) *opcode { mapPos := opcodeOffset(ctx.ptrIndex) ctx.incPtrIndex() idx := opcodeOffset(ctx.ptrIndex) return &opcode{ op: opMapEnd, displayIdx: ctx.opcodeIndex, idx: idx, length: head.length, mapPos: mapPos, indent: ctx.indent, next: newEndOp(ctx), } } func newInterfaceCode(ctx *encodeCompileContext) *opcode { return &opcode{ op: opInterface, typ: ctx.typ, displayIdx: ctx.opcodeIndex, idx: opcodeOffset(ctx.ptrIndex), indent: ctx.indent, root: ctx.root, next: newEndOp(ctx), } } func newRecursiveCode(ctx *encodeCompileContext, jmp *compiledCode) *opcode { return &opcode{ op: opStructFieldRecursive, typ: ctx.typ, displayIdx: ctx.opcodeIndex, idx: opcodeOffset(ctx.ptrIndex), indent: ctx.indent, next: newEndOp(ctx), jmp: jmp, } }