//go:build !notfastpath && !codec.notfastpath && (notmono || codec.notmono) // Copyright (c) 2012-2020 Ugorji Nwoke. All rights reserved. // Use of this source code is governed by a MIT license found in the LICENSE file. // Code generated from fastpath.notmono.go.tmpl - DO NOT EDIT. package codec import ( "reflect" "slices" "sort" ) type fastpathE[T encDriver] struct { rtid uintptr rt reflect.Type encfn func(*encoder[T], *encFnInfo, reflect.Value) } type fastpathD[T decDriver] struct { rtid uintptr rt reflect.Type decfn func(*decoder[T], *decFnInfo, reflect.Value) } type fastpathEs[T encDriver] [56]fastpathE[T] type fastpathDs[T decDriver] [56]fastpathD[T] type fastpathET[T encDriver] struct{} type fastpathDT[T decDriver] struct{} func (helperEncDriver[T]) fastpathEList() *fastpathEs[T] { var i uint = 0 var s fastpathEs[T] fn := func(v interface{}, fe func(*encoder[T], *encFnInfo, reflect.Value)) { xrt := reflect.TypeOf(v) s[i] = fastpathE[T]{rt2id(xrt), xrt, fe} i++ } fn([]interface{}(nil), (*encoder[T]).fastpathEncSliceIntfR) fn([]string(nil), (*encoder[T]).fastpathEncSliceStringR) fn([][]byte(nil), (*encoder[T]).fastpathEncSliceBytesR) fn([]float32(nil), (*encoder[T]).fastpathEncSliceFloat32R) fn([]float64(nil), (*encoder[T]).fastpathEncSliceFloat64R) fn([]uint8(nil), (*encoder[T]).fastpathEncSliceUint8R) fn([]uint64(nil), (*encoder[T]).fastpathEncSliceUint64R) fn([]int(nil), (*encoder[T]).fastpathEncSliceIntR) fn([]int32(nil), (*encoder[T]).fastpathEncSliceInt32R) fn([]int64(nil), (*encoder[T]).fastpathEncSliceInt64R) fn([]bool(nil), (*encoder[T]).fastpathEncSliceBoolR) fn(map[string]interface{}(nil), (*encoder[T]).fastpathEncMapStringIntfR) fn(map[string]string(nil), (*encoder[T]).fastpathEncMapStringStringR) fn(map[string][]byte(nil), (*encoder[T]).fastpathEncMapStringBytesR) fn(map[string]uint8(nil), (*encoder[T]).fastpathEncMapStringUint8R) fn(map[string]uint64(nil), (*encoder[T]).fastpathEncMapStringUint64R) fn(map[string]int(nil), (*encoder[T]).fastpathEncMapStringIntR) fn(map[string]int32(nil), (*encoder[T]).fastpathEncMapStringInt32R) fn(map[string]float64(nil), (*encoder[T]).fastpathEncMapStringFloat64R) fn(map[string]bool(nil), (*encoder[T]).fastpathEncMapStringBoolR) fn(map[uint8]interface{}(nil), (*encoder[T]).fastpathEncMapUint8IntfR) fn(map[uint8]string(nil), (*encoder[T]).fastpathEncMapUint8StringR) fn(map[uint8][]byte(nil), (*encoder[T]).fastpathEncMapUint8BytesR) fn(map[uint8]uint8(nil), (*encoder[T]).fastpathEncMapUint8Uint8R) fn(map[uint8]uint64(nil), (*encoder[T]).fastpathEncMapUint8Uint64R) fn(map[uint8]int(nil), (*encoder[T]).fastpathEncMapUint8IntR) fn(map[uint8]int32(nil), (*encoder[T]).fastpathEncMapUint8Int32R) fn(map[uint8]float64(nil), (*encoder[T]).fastpathEncMapUint8Float64R) fn(map[uint8]bool(nil), (*encoder[T]).fastpathEncMapUint8BoolR) fn(map[uint64]interface{}(nil), (*encoder[T]).fastpathEncMapUint64IntfR) fn(map[uint64]string(nil), (*encoder[T]).fastpathEncMapUint64StringR) fn(map[uint64][]byte(nil), (*encoder[T]).fastpathEncMapUint64BytesR) fn(map[uint64]uint8(nil), (*encoder[T]).fastpathEncMapUint64Uint8R) fn(map[uint64]uint64(nil), (*encoder[T]).fastpathEncMapUint64Uint64R) fn(map[uint64]int(nil), (*encoder[T]).fastpathEncMapUint64IntR) fn(map[uint64]int32(nil), (*encoder[T]).fastpathEncMapUint64Int32R) fn(map[uint64]float64(nil), (*encoder[T]).fastpathEncMapUint64Float64R) fn(map[uint64]bool(nil), (*encoder[T]).fastpathEncMapUint64BoolR) fn(map[int]interface{}(nil), (*encoder[T]).fastpathEncMapIntIntfR) fn(map[int]string(nil), (*encoder[T]).fastpathEncMapIntStringR) fn(map[int][]byte(nil), (*encoder[T]).fastpathEncMapIntBytesR) fn(map[int]uint8(nil), (*encoder[T]).fastpathEncMapIntUint8R) fn(map[int]uint64(nil), (*encoder[T]).fastpathEncMapIntUint64R) fn(map[int]int(nil), (*encoder[T]).fastpathEncMapIntIntR) fn(map[int]int32(nil), (*encoder[T]).fastpathEncMapIntInt32R) fn(map[int]float64(nil), (*encoder[T]).fastpathEncMapIntFloat64R) fn(map[int]bool(nil), (*encoder[T]).fastpathEncMapIntBoolR) fn(map[int32]interface{}(nil), (*encoder[T]).fastpathEncMapInt32IntfR) fn(map[int32]string(nil), (*encoder[T]).fastpathEncMapInt32StringR) fn(map[int32][]byte(nil), (*encoder[T]).fastpathEncMapInt32BytesR) fn(map[int32]uint8(nil), (*encoder[T]).fastpathEncMapInt32Uint8R) fn(map[int32]uint64(nil), (*encoder[T]).fastpathEncMapInt32Uint64R) fn(map[int32]int(nil), (*encoder[T]).fastpathEncMapInt32IntR) fn(map[int32]int32(nil), (*encoder[T]).fastpathEncMapInt32Int32R) fn(map[int32]float64(nil), (*encoder[T]).fastpathEncMapInt32Float64R) fn(map[int32]bool(nil), (*encoder[T]).fastpathEncMapInt32BoolR) sort.Slice(s[:], func(i, j int) bool { return s[i].rtid < s[j].rtid }) return &s } func (helperDecDriver[T]) fastpathDList() *fastpathDs[T] { var i uint = 0 var s fastpathDs[T] fn := func(v interface{}, fd func(*decoder[T], *decFnInfo, reflect.Value)) { xrt := reflect.TypeOf(v) s[i] = fastpathD[T]{rt2id(xrt), xrt, fd} i++ } fn([]interface{}(nil), (*decoder[T]).fastpathDecSliceIntfR) fn([]string(nil), (*decoder[T]).fastpathDecSliceStringR) fn([][]byte(nil), (*decoder[T]).fastpathDecSliceBytesR) fn([]float32(nil), (*decoder[T]).fastpathDecSliceFloat32R) fn([]float64(nil), (*decoder[T]).fastpathDecSliceFloat64R) fn([]uint8(nil), (*decoder[T]).fastpathDecSliceUint8R) fn([]uint64(nil), (*decoder[T]).fastpathDecSliceUint64R) fn([]int(nil), (*decoder[T]).fastpathDecSliceIntR) fn([]int32(nil), (*decoder[T]).fastpathDecSliceInt32R) fn([]int64(nil), (*decoder[T]).fastpathDecSliceInt64R) fn([]bool(nil), (*decoder[T]).fastpathDecSliceBoolR) fn(map[string]interface{}(nil), (*decoder[T]).fastpathDecMapStringIntfR) fn(map[string]string(nil), (*decoder[T]).fastpathDecMapStringStringR) fn(map[string][]byte(nil), (*decoder[T]).fastpathDecMapStringBytesR) fn(map[string]uint8(nil), (*decoder[T]).fastpathDecMapStringUint8R) fn(map[string]uint64(nil), (*decoder[T]).fastpathDecMapStringUint64R) fn(map[string]int(nil), (*decoder[T]).fastpathDecMapStringIntR) fn(map[string]int32(nil), (*decoder[T]).fastpathDecMapStringInt32R) fn(map[string]float64(nil), (*decoder[T]).fastpathDecMapStringFloat64R) fn(map[string]bool(nil), (*decoder[T]).fastpathDecMapStringBoolR) fn(map[uint8]interface{}(nil), (*decoder[T]).fastpathDecMapUint8IntfR) fn(map[uint8]string(nil), (*decoder[T]).fastpathDecMapUint8StringR) fn(map[uint8][]byte(nil), (*decoder[T]).fastpathDecMapUint8BytesR) fn(map[uint8]uint8(nil), (*decoder[T]).fastpathDecMapUint8Uint8R) fn(map[uint8]uint64(nil), (*decoder[T]).fastpathDecMapUint8Uint64R) fn(map[uint8]int(nil), (*decoder[T]).fastpathDecMapUint8IntR) fn(map[uint8]int32(nil), (*decoder[T]).fastpathDecMapUint8Int32R) fn(map[uint8]float64(nil), (*decoder[T]).fastpathDecMapUint8Float64R) fn(map[uint8]bool(nil), (*decoder[T]).fastpathDecMapUint8BoolR) fn(map[uint64]interface{}(nil), (*decoder[T]).fastpathDecMapUint64IntfR) fn(map[uint64]string(nil), (*decoder[T]).fastpathDecMapUint64StringR) fn(map[uint64][]byte(nil), (*decoder[T]).fastpathDecMapUint64BytesR) fn(map[uint64]uint8(nil), (*decoder[T]).fastpathDecMapUint64Uint8R) fn(map[uint64]uint64(nil), (*decoder[T]).fastpathDecMapUint64Uint64R) fn(map[uint64]int(nil), (*decoder[T]).fastpathDecMapUint64IntR) fn(map[uint64]int32(nil), (*decoder[T]).fastpathDecMapUint64Int32R) fn(map[uint64]float64(nil), (*decoder[T]).fastpathDecMapUint64Float64R) fn(map[uint64]bool(nil), (*decoder[T]).fastpathDecMapUint64BoolR) fn(map[int]interface{}(nil), (*decoder[T]).fastpathDecMapIntIntfR) fn(map[int]string(nil), (*decoder[T]).fastpathDecMapIntStringR) fn(map[int][]byte(nil), (*decoder[T]).fastpathDecMapIntBytesR) fn(map[int]uint8(nil), (*decoder[T]).fastpathDecMapIntUint8R) fn(map[int]uint64(nil), (*decoder[T]).fastpathDecMapIntUint64R) fn(map[int]int(nil), (*decoder[T]).fastpathDecMapIntIntR) fn(map[int]int32(nil), (*decoder[T]).fastpathDecMapIntInt32R) fn(map[int]float64(nil), (*decoder[T]).fastpathDecMapIntFloat64R) fn(map[int]bool(nil), (*decoder[T]).fastpathDecMapIntBoolR) fn(map[int32]interface{}(nil), (*decoder[T]).fastpathDecMapInt32IntfR) fn(map[int32]string(nil), (*decoder[T]).fastpathDecMapInt32StringR) fn(map[int32][]byte(nil), (*decoder[T]).fastpathDecMapInt32BytesR) fn(map[int32]uint8(nil), (*decoder[T]).fastpathDecMapInt32Uint8R) fn(map[int32]uint64(nil), (*decoder[T]).fastpathDecMapInt32Uint64R) fn(map[int32]int(nil), (*decoder[T]).fastpathDecMapInt32IntR) fn(map[int32]int32(nil), (*decoder[T]).fastpathDecMapInt32Int32R) fn(map[int32]float64(nil), (*decoder[T]).fastpathDecMapInt32Float64R) fn(map[int32]bool(nil), (*decoder[T]).fastpathDecMapInt32BoolR) sort.Slice(s[:], func(i, j int) bool { return s[i].rtid < s[j].rtid }) return &s } // -- encode // -- -- fast path type switch func (helperEncDriver[T]) fastpathEncodeTypeSwitch(iv interface{}, e *encoder[T]) bool { var ft fastpathET[T] switch v := iv.(type) { case []interface{}: if v == nil { e.e.writeNilArray() } else { ft.EncSliceIntfV(v, e) } case []string: if v == nil { e.e.writeNilArray() } else { ft.EncSliceStringV(v, e) } case [][]byte: if v == nil { e.e.writeNilArray() } else { ft.EncSliceBytesV(v, e) } case []float32: if v == nil { e.e.writeNilArray() } else { ft.EncSliceFloat32V(v, e) } case []float64: if v == nil { e.e.writeNilArray() } else { ft.EncSliceFloat64V(v, e) } case []uint8: if v == nil { e.e.writeNilArray() } else { ft.EncSliceUint8V(v, e) } case []uint64: if v == nil { e.e.writeNilArray() } else { ft.EncSliceUint64V(v, e) } case []int: if v == nil { e.e.writeNilArray() } else { ft.EncSliceIntV(v, e) } case []int32: if v == nil { e.e.writeNilArray() } else { ft.EncSliceInt32V(v, e) } case []int64: if v == nil { e.e.writeNilArray() } else { ft.EncSliceInt64V(v, e) } case []bool: if v == nil { e.e.writeNilArray() } else { ft.EncSliceBoolV(v, e) } case map[string]interface{}: if v == nil { e.e.writeNilMap() } else { ft.EncMapStringIntfV(v, e) } case map[string]string: if v == nil { e.e.writeNilMap() } else { ft.EncMapStringStringV(v, e) } case map[string][]byte: if v == nil { e.e.writeNilMap() } else { ft.EncMapStringBytesV(v, e) } case map[string]uint8: if v == nil { e.e.writeNilMap() } else { ft.EncMapStringUint8V(v, e) } case map[string]uint64: if v == nil { e.e.writeNilMap() } else { ft.EncMapStringUint64V(v, e) } case map[string]int: if v == nil { e.e.writeNilMap() } else { ft.EncMapStringIntV(v, e) } case map[string]int32: if v == nil { e.e.writeNilMap() } else { ft.EncMapStringInt32V(v, e) } case map[string]float64: if v == nil { e.e.writeNilMap() } else { ft.EncMapStringFloat64V(v, e) } case map[string]bool: if v == nil { e.e.writeNilMap() } else { ft.EncMapStringBoolV(v, e) } case map[uint8]interface{}: if v == nil { e.e.writeNilMap() } else { ft.EncMapUint8IntfV(v, e) } case map[uint8]string: if v == nil { e.e.writeNilMap() } else { ft.EncMapUint8StringV(v, e) } case map[uint8][]byte: if v == nil { e.e.writeNilMap() } else { ft.EncMapUint8BytesV(v, e) } case map[uint8]uint8: if v == nil { e.e.writeNilMap() } else { ft.EncMapUint8Uint8V(v, e) } case map[uint8]uint64: if v == nil { e.e.writeNilMap() } else { ft.EncMapUint8Uint64V(v, e) } case map[uint8]int: if v == nil { e.e.writeNilMap() } else { ft.EncMapUint8IntV(v, e) } case map[uint8]int32: if v == nil { e.e.writeNilMap() } else { ft.EncMapUint8Int32V(v, e) } case map[uint8]float64: if v == nil { e.e.writeNilMap() } else { ft.EncMapUint8Float64V(v, e) } case map[uint8]bool: if v == nil { e.e.writeNilMap() } else { ft.EncMapUint8BoolV(v, e) } case map[uint64]interface{}: if v == nil { e.e.writeNilMap() } else { ft.EncMapUint64IntfV(v, e) } case map[uint64]string: if v == nil { e.e.writeNilMap() } else { ft.EncMapUint64StringV(v, e) } case map[uint64][]byte: if v == nil { e.e.writeNilMap() } else { ft.EncMapUint64BytesV(v, e) } case map[uint64]uint8: if v == nil { e.e.writeNilMap() } else { ft.EncMapUint64Uint8V(v, e) } case map[uint64]uint64: if v == nil { e.e.writeNilMap() } else { ft.EncMapUint64Uint64V(v, e) } case map[uint64]int: if v == nil { e.e.writeNilMap() } else { ft.EncMapUint64IntV(v, e) } case map[uint64]int32: if v == nil { e.e.writeNilMap() } else { ft.EncMapUint64Int32V(v, e) } case map[uint64]float64: if v == nil { e.e.writeNilMap() } else { ft.EncMapUint64Float64V(v, e) } case map[uint64]bool: if v == nil { e.e.writeNilMap() } else { ft.EncMapUint64BoolV(v, e) } case map[int]interface{}: if v == nil { e.e.writeNilMap() } else { ft.EncMapIntIntfV(v, e) } case map[int]string: if v == nil { e.e.writeNilMap() } else { ft.EncMapIntStringV(v, e) } case map[int][]byte: if v == nil { e.e.writeNilMap() } else { ft.EncMapIntBytesV(v, e) } case map[int]uint8: if v == nil { e.e.writeNilMap() } else { ft.EncMapIntUint8V(v, e) } case map[int]uint64: if v == nil { e.e.writeNilMap() } else { ft.EncMapIntUint64V(v, e) } case map[int]int: if v == nil { e.e.writeNilMap() } else { ft.EncMapIntIntV(v, e) } case map[int]int32: if v == nil { e.e.writeNilMap() } else { ft.EncMapIntInt32V(v, e) } case map[int]float64: if v == nil { e.e.writeNilMap() } else { ft.EncMapIntFloat64V(v, e) } case map[int]bool: if v == nil { e.e.writeNilMap() } else { ft.EncMapIntBoolV(v, e) } case map[int32]interface{}: if v == nil { e.e.writeNilMap() } else { ft.EncMapInt32IntfV(v, e) } case map[int32]string: if v == nil { e.e.writeNilMap() } else { ft.EncMapInt32StringV(v, e) } case map[int32][]byte: if v == nil { e.e.writeNilMap() } else { ft.EncMapInt32BytesV(v, e) } case map[int32]uint8: if v == nil { e.e.writeNilMap() } else { ft.EncMapInt32Uint8V(v, e) } case map[int32]uint64: if v == nil { e.e.writeNilMap() } else { ft.EncMapInt32Uint64V(v, e) } case map[int32]int: if v == nil { e.e.writeNilMap() } else { ft.EncMapInt32IntV(v, e) } case map[int32]int32: if v == nil { e.e.writeNilMap() } else { ft.EncMapInt32Int32V(v, e) } case map[int32]float64: if v == nil { e.e.writeNilMap() } else { ft.EncMapInt32Float64V(v, e) } case map[int32]bool: if v == nil { e.e.writeNilMap() } else { ft.EncMapInt32BoolV(v, e) } default: _ = v // workaround https://github.com/golang/go/issues/12927 seen in go1.4 return false } return true } // -- -- fast path functions func (e *encoder[T]) fastpathEncSliceIntfR(f *encFnInfo, rv reflect.Value) { var ft fastpathET[T] var v []interface{} if rv.Kind() == reflect.Array { rvGetSlice4Array(rv, &v) } else { v = rv2i(rv).([]interface{}) } if f.ti.mbs { ft.EncAsMapSliceIntfV(v, e) return } ft.EncSliceIntfV(v, e) } func (fastpathET[T]) EncSliceIntfV(v []interface{}, e *encoder[T]) { if len(v) == 0 { e.c = 0 e.e.WriteArrayEmpty() return } e.arrayStart(len(v)) for j := range v { e.c = containerArrayElem e.e.WriteArrayElem(j == 0) if !e.encodeBuiltin(v[j]) { e.encodeR(reflect.ValueOf(v[j])) } } e.c = 0 e.e.WriteArrayEnd() } func (fastpathET[T]) EncAsMapSliceIntfV(v []interface{}, e *encoder[T]) { if len(v) == 0 { e.c = 0 e.e.WriteMapEmpty() return } e.haltOnMbsOddLen(len(v)) e.mapStart(len(v) >> 1) // e.mapStart(len(v) / 2) for j := range v { if j&1 == 0 { // if j%2 == 0 { e.c = containerMapKey e.e.WriteMapElemKey(j == 0) } else { e.mapElemValue() } if !e.encodeBuiltin(v[j]) { e.encodeR(reflect.ValueOf(v[j])) } } e.c = 0 e.e.WriteMapEnd() } func (e *encoder[T]) fastpathEncSliceStringR(f *encFnInfo, rv reflect.Value) { var ft fastpathET[T] var v []string if rv.Kind() == reflect.Array { rvGetSlice4Array(rv, &v) } else { v = rv2i(rv).([]string) } if f.ti.mbs { ft.EncAsMapSliceStringV(v, e) return } ft.EncSliceStringV(v, e) } func (fastpathET[T]) EncSliceStringV(v []string, e *encoder[T]) { if len(v) == 0 { e.c = 0 e.e.WriteArrayEmpty() return } e.arrayStart(len(v)) for j := range v { e.c = containerArrayElem e.e.WriteArrayElem(j == 0) e.e.EncodeString(v[j]) } e.c = 0 e.e.WriteArrayEnd() } func (fastpathET[T]) EncAsMapSliceStringV(v []string, e *encoder[T]) { if len(v) == 0 { e.c = 0 e.e.WriteMapEmpty() return } e.haltOnMbsOddLen(len(v)) e.mapStart(len(v) >> 1) // e.mapStart(len(v) / 2) for j := range v { if j&1 == 0 { // if j%2 == 0 { e.c = containerMapKey e.e.WriteMapElemKey(j == 0) } else { e.mapElemValue() } e.e.EncodeString(v[j]) } e.c = 0 e.e.WriteMapEnd() } func (e *encoder[T]) fastpathEncSliceBytesR(f *encFnInfo, rv reflect.Value) { var ft fastpathET[T] var v [][]byte if rv.Kind() == reflect.Array { rvGetSlice4Array(rv, &v) } else { v = rv2i(rv).([][]byte) } if f.ti.mbs { ft.EncAsMapSliceBytesV(v, e) return } ft.EncSliceBytesV(v, e) } func (fastpathET[T]) EncSliceBytesV(v [][]byte, e *encoder[T]) { if len(v) == 0 { e.c = 0 e.e.WriteArrayEmpty() return } e.arrayStart(len(v)) for j := range v { e.c = containerArrayElem e.e.WriteArrayElem(j == 0) e.e.EncodeBytes(v[j]) } e.c = 0 e.e.WriteArrayEnd() } func (fastpathET[T]) EncAsMapSliceBytesV(v [][]byte, e *encoder[T]) { if len(v) == 0 { e.c = 0 e.e.WriteMapEmpty() return } e.haltOnMbsOddLen(len(v)) e.mapStart(len(v) >> 1) // e.mapStart(len(v) / 2) for j := range v { if j&1 == 0 { // if j%2 == 0 { e.c = containerMapKey e.e.WriteMapElemKey(j == 0) } else { e.mapElemValue() } e.e.EncodeBytes(v[j]) } e.c = 0 e.e.WriteMapEnd() } func (e *encoder[T]) fastpathEncSliceFloat32R(f *encFnInfo, rv reflect.Value) { var ft fastpathET[T] var v []float32 if rv.Kind() == reflect.Array { rvGetSlice4Array(rv, &v) } else { v = rv2i(rv).([]float32) } if f.ti.mbs { ft.EncAsMapSliceFloat32V(v, e) return } ft.EncSliceFloat32V(v, e) } func (fastpathET[T]) EncSliceFloat32V(v []float32, e *encoder[T]) { if len(v) == 0 { e.c = 0 e.e.WriteArrayEmpty() return } e.arrayStart(len(v)) for j := range v { e.c = containerArrayElem e.e.WriteArrayElem(j == 0) e.e.EncodeFloat32(v[j]) } e.c = 0 e.e.WriteArrayEnd() } func (fastpathET[T]) EncAsMapSliceFloat32V(v []float32, e *encoder[T]) { if len(v) == 0 { e.c = 0 e.e.WriteMapEmpty() return } e.haltOnMbsOddLen(len(v)) e.mapStart(len(v) >> 1) // e.mapStart(len(v) / 2) for j := range v { if j&1 == 0 { // if j%2 == 0 { e.c = containerMapKey e.e.WriteMapElemKey(j == 0) } else { e.mapElemValue() } e.e.EncodeFloat32(v[j]) } e.c = 0 e.e.WriteMapEnd() } func (e *encoder[T]) fastpathEncSliceFloat64R(f *encFnInfo, rv reflect.Value) { var ft fastpathET[T] var v []float64 if rv.Kind() == reflect.Array { rvGetSlice4Array(rv, &v) } else { v = rv2i(rv).([]float64) } if f.ti.mbs { ft.EncAsMapSliceFloat64V(v, e) return } ft.EncSliceFloat64V(v, e) } func (fastpathET[T]) EncSliceFloat64V(v []float64, e *encoder[T]) { if len(v) == 0 { e.c = 0 e.e.WriteArrayEmpty() return } e.arrayStart(len(v)) for j := range v { e.c = containerArrayElem e.e.WriteArrayElem(j == 0) e.e.EncodeFloat64(v[j]) } e.c = 0 e.e.WriteArrayEnd() } func (fastpathET[T]) EncAsMapSliceFloat64V(v []float64, e *encoder[T]) { if len(v) == 0 { e.c = 0 e.e.WriteMapEmpty() return } e.haltOnMbsOddLen(len(v)) e.mapStart(len(v) >> 1) // e.mapStart(len(v) / 2) for j := range v { if j&1 == 0 { // if j%2 == 0 { e.c = containerMapKey e.e.WriteMapElemKey(j == 0) } else { e.mapElemValue() } e.e.EncodeFloat64(v[j]) } e.c = 0 e.e.WriteMapEnd() } func (e *encoder[T]) fastpathEncSliceUint8R(f *encFnInfo, rv reflect.Value) { var ft fastpathET[T] var v []uint8 if rv.Kind() == reflect.Array { rvGetSlice4Array(rv, &v) } else { v = rv2i(rv).([]uint8) } if f.ti.mbs { ft.EncAsMapSliceUint8V(v, e) return } ft.EncSliceUint8V(v, e) } func (fastpathET[T]) EncSliceUint8V(v []uint8, e *encoder[T]) { e.e.EncodeStringBytesRaw(v) } func (fastpathET[T]) EncAsMapSliceUint8V(v []uint8, e *encoder[T]) { if len(v) == 0 { e.c = 0 e.e.WriteMapEmpty() return } e.haltOnMbsOddLen(len(v)) e.mapStart(len(v) >> 1) // e.mapStart(len(v) / 2) for j := range v { if j&1 == 0 { // if j%2 == 0 { e.c = containerMapKey e.e.WriteMapElemKey(j == 0) } else { e.mapElemValue() } e.e.EncodeUint(uint64(v[j])) } e.c = 0 e.e.WriteMapEnd() } func (e *encoder[T]) fastpathEncSliceUint64R(f *encFnInfo, rv reflect.Value) { var ft fastpathET[T] var v []uint64 if rv.Kind() == reflect.Array { rvGetSlice4Array(rv, &v) } else { v = rv2i(rv).([]uint64) } if f.ti.mbs { ft.EncAsMapSliceUint64V(v, e) return } ft.EncSliceUint64V(v, e) } func (fastpathET[T]) EncSliceUint64V(v []uint64, e *encoder[T]) { if len(v) == 0 { e.c = 0 e.e.WriteArrayEmpty() return } e.arrayStart(len(v)) for j := range v { e.c = containerArrayElem e.e.WriteArrayElem(j == 0) e.e.EncodeUint(v[j]) } e.c = 0 e.e.WriteArrayEnd() } func (fastpathET[T]) EncAsMapSliceUint64V(v []uint64, e *encoder[T]) { if len(v) == 0 { e.c = 0 e.e.WriteMapEmpty() return } e.haltOnMbsOddLen(len(v)) e.mapStart(len(v) >> 1) // e.mapStart(len(v) / 2) for j := range v { if j&1 == 0 { // if j%2 == 0 { e.c = containerMapKey e.e.WriteMapElemKey(j == 0) } else { e.mapElemValue() } e.e.EncodeUint(v[j]) } e.c = 0 e.e.WriteMapEnd() } func (e *encoder[T]) fastpathEncSliceIntR(f *encFnInfo, rv reflect.Value) { var ft fastpathET[T] var v []int if rv.Kind() == reflect.Array { rvGetSlice4Array(rv, &v) } else { v = rv2i(rv).([]int) } if f.ti.mbs { ft.EncAsMapSliceIntV(v, e) return } ft.EncSliceIntV(v, e) } func (fastpathET[T]) EncSliceIntV(v []int, e *encoder[T]) { if len(v) == 0 { e.c = 0 e.e.WriteArrayEmpty() return } e.arrayStart(len(v)) for j := range v { e.c = containerArrayElem e.e.WriteArrayElem(j == 0) e.e.EncodeInt(int64(v[j])) } e.c = 0 e.e.WriteArrayEnd() } func (fastpathET[T]) EncAsMapSliceIntV(v []int, e *encoder[T]) { if len(v) == 0 { e.c = 0 e.e.WriteMapEmpty() return } e.haltOnMbsOddLen(len(v)) e.mapStart(len(v) >> 1) // e.mapStart(len(v) / 2) for j := range v { if j&1 == 0 { // if j%2 == 0 { e.c = containerMapKey e.e.WriteMapElemKey(j == 0) } else { e.mapElemValue() } e.e.EncodeInt(int64(v[j])) } e.c = 0 e.e.WriteMapEnd() } func (e *encoder[T]) fastpathEncSliceInt32R(f *encFnInfo, rv reflect.Value) { var ft fastpathET[T] var v []int32 if rv.Kind() == reflect.Array { rvGetSlice4Array(rv, &v) } else { v = rv2i(rv).([]int32) } if f.ti.mbs { ft.EncAsMapSliceInt32V(v, e) return } ft.EncSliceInt32V(v, e) } func (fastpathET[T]) EncSliceInt32V(v []int32, e *encoder[T]) { if len(v) == 0 { e.c = 0 e.e.WriteArrayEmpty() return } e.arrayStart(len(v)) for j := range v { e.c = containerArrayElem e.e.WriteArrayElem(j == 0) e.e.EncodeInt(int64(v[j])) } e.c = 0 e.e.WriteArrayEnd() } func (fastpathET[T]) EncAsMapSliceInt32V(v []int32, e *encoder[T]) { if len(v) == 0 { e.c = 0 e.e.WriteMapEmpty() return } e.haltOnMbsOddLen(len(v)) e.mapStart(len(v) >> 1) // e.mapStart(len(v) / 2) for j := range v { if j&1 == 0 { // if j%2 == 0 { e.c = containerMapKey e.e.WriteMapElemKey(j == 0) } else { e.mapElemValue() } e.e.EncodeInt(int64(v[j])) } e.c = 0 e.e.WriteMapEnd() } func (e *encoder[T]) fastpathEncSliceInt64R(f *encFnInfo, rv reflect.Value) { var ft fastpathET[T] var v []int64 if rv.Kind() == reflect.Array { rvGetSlice4Array(rv, &v) } else { v = rv2i(rv).([]int64) } if f.ti.mbs { ft.EncAsMapSliceInt64V(v, e) return } ft.EncSliceInt64V(v, e) } func (fastpathET[T]) EncSliceInt64V(v []int64, e *encoder[T]) { if len(v) == 0 { e.c = 0 e.e.WriteArrayEmpty() return } e.arrayStart(len(v)) for j := range v { e.c = containerArrayElem e.e.WriteArrayElem(j == 0) e.e.EncodeInt(v[j]) } e.c = 0 e.e.WriteArrayEnd() } func (fastpathET[T]) EncAsMapSliceInt64V(v []int64, e *encoder[T]) { if len(v) == 0 { e.c = 0 e.e.WriteMapEmpty() return } e.haltOnMbsOddLen(len(v)) e.mapStart(len(v) >> 1) // e.mapStart(len(v) / 2) for j := range v { if j&1 == 0 { // if j%2 == 0 { e.c = containerMapKey e.e.WriteMapElemKey(j == 0) } else { e.mapElemValue() } e.e.EncodeInt(v[j]) } e.c = 0 e.e.WriteMapEnd() } func (e *encoder[T]) fastpathEncSliceBoolR(f *encFnInfo, rv reflect.Value) { var ft fastpathET[T] var v []bool if rv.Kind() == reflect.Array { rvGetSlice4Array(rv, &v) } else { v = rv2i(rv).([]bool) } if f.ti.mbs { ft.EncAsMapSliceBoolV(v, e) return } ft.EncSliceBoolV(v, e) } func (fastpathET[T]) EncSliceBoolV(v []bool, e *encoder[T]) { if len(v) == 0 { e.c = 0 e.e.WriteArrayEmpty() return } e.arrayStart(len(v)) for j := range v { e.c = containerArrayElem e.e.WriteArrayElem(j == 0) e.e.EncodeBool(v[j]) } e.c = 0 e.e.WriteArrayEnd() } func (fastpathET[T]) EncAsMapSliceBoolV(v []bool, e *encoder[T]) { if len(v) == 0 { e.c = 0 e.e.WriteMapEmpty() return } e.haltOnMbsOddLen(len(v)) e.mapStart(len(v) >> 1) // e.mapStart(len(v) / 2) for j := range v { if j&1 == 0 { // if j%2 == 0 { e.c = containerMapKey e.e.WriteMapElemKey(j == 0) } else { e.mapElemValue() } e.e.EncodeBool(v[j]) } e.c = 0 e.e.WriteMapEnd() } func (e *encoder[T]) fastpathEncMapStringIntfR(f *encFnInfo, rv reflect.Value) { fastpathET[T]{}.EncMapStringIntfV(rv2i(rv).(map[string]interface{}), e) } func (fastpathET[T]) EncMapStringIntfV(v map[string]interface{}, e *encoder[T]) { if len(v) == 0 { e.e.WriteMapEmpty() return } var i uint e.mapStart(len(v)) if e.h.Canonical { v2 := make([]string, len(v)) for k := range v { v2[i] = k i++ } slices.Sort(v2) for i, k2 := range v2 { e.c = containerMapKey e.e.WriteMapElemKey(i == 0) e.e.EncodeString(k2) e.mapElemValue() if !e.encodeBuiltin(v[k2]) { e.encodeR(reflect.ValueOf(v[k2])) } } } else { i = 0 for k2, v2 := range v { e.c = containerMapKey e.e.WriteMapElemKey(i == 0) e.e.EncodeString(k2) e.mapElemValue() if !e.encodeBuiltin(v2) { e.encodeR(reflect.ValueOf(v2)) } i++ } } e.c = 0 e.e.WriteMapEnd() } func (e *encoder[T]) fastpathEncMapStringStringR(f *encFnInfo, rv reflect.Value) { fastpathET[T]{}.EncMapStringStringV(rv2i(rv).(map[string]string), e) } func (fastpathET[T]) EncMapStringStringV(v map[string]string, e *encoder[T]) { if len(v) == 0 { e.e.WriteMapEmpty() return } var i uint e.mapStart(len(v)) if e.h.Canonical { v2 := make([]string, len(v)) for k := range v { v2[i] = k i++ } slices.Sort(v2) for i, k2 := range v2 { e.c = containerMapKey e.e.WriteMapElemKey(i == 0) e.e.EncodeString(k2) e.mapElemValue() e.e.EncodeString(v[k2]) } } else { i = 0 for k2, v2 := range v { e.c = containerMapKey e.e.WriteMapElemKey(i == 0) e.e.EncodeString(k2) e.mapElemValue() e.e.EncodeString(v2) i++ } } e.c = 0 e.e.WriteMapEnd() } func (e *encoder[T]) fastpathEncMapStringBytesR(f *encFnInfo, rv reflect.Value) { fastpathET[T]{}.EncMapStringBytesV(rv2i(rv).(map[string][]byte), e) } func (fastpathET[T]) EncMapStringBytesV(v map[string][]byte, e *encoder[T]) { if len(v) == 0 { e.e.WriteMapEmpty() return } var i uint e.mapStart(len(v)) if e.h.Canonical { v2 := make([]string, len(v)) for k := range v { v2[i] = k i++ } slices.Sort(v2) for i, k2 := range v2 { e.c = containerMapKey e.e.WriteMapElemKey(i == 0) e.e.EncodeString(k2) e.mapElemValue() e.e.EncodeBytes(v[k2]) } } else { i = 0 for k2, v2 := range v { e.c = containerMapKey e.e.WriteMapElemKey(i == 0) e.e.EncodeString(k2) e.mapElemValue() e.e.EncodeBytes(v2) i++ } } e.c = 0 e.e.WriteMapEnd() } func (e *encoder[T]) fastpathEncMapStringUint8R(f *encFnInfo, rv reflect.Value) { fastpathET[T]{}.EncMapStringUint8V(rv2i(rv).(map[string]uint8), e) } func (fastpathET[T]) EncMapStringUint8V(v map[string]uint8, e *encoder[T]) { if len(v) == 0 { e.e.WriteMapEmpty() return } var i uint e.mapStart(len(v)) if e.h.Canonical { v2 := make([]string, len(v)) for k := range v { v2[i] = k i++ } slices.Sort(v2) for i, k2 := range v2 { e.c = containerMapKey e.e.WriteMapElemKey(i == 0) e.e.EncodeString(k2) e.mapElemValue() e.e.EncodeUint(uint64(v[k2])) } } else { i = 0 for k2, v2 := range v { e.c = containerMapKey e.e.WriteMapElemKey(i == 0) e.e.EncodeString(k2) e.mapElemValue() e.e.EncodeUint(uint64(v2)) i++ } } e.c = 0 e.e.WriteMapEnd() } func (e *encoder[T]) fastpathEncMapStringUint64R(f *encFnInfo, rv reflect.Value) { fastpathET[T]{}.EncMapStringUint64V(rv2i(rv).(map[string]uint64), e) } func (fastpathET[T]) EncMapStringUint64V(v map[string]uint64, e *encoder[T]) { if len(v) == 0 { e.e.WriteMapEmpty() return } var i uint e.mapStart(len(v)) if e.h.Canonical { v2 := make([]string, len(v)) for k := range v { v2[i] = k i++ } slices.Sort(v2) for i, k2 := range v2 { e.c = containerMapKey e.e.WriteMapElemKey(i == 0) e.e.EncodeString(k2) e.mapElemValue() e.e.EncodeUint(v[k2]) } } else { i = 0 for k2, v2 := range v { e.c = containerMapKey e.e.WriteMapElemKey(i == 0) e.e.EncodeString(k2) e.mapElemValue() e.e.EncodeUint(v2) i++ } } e.c = 0 e.e.WriteMapEnd() } func (e *encoder[T]) fastpathEncMapStringIntR(f *encFnInfo, rv reflect.Value) { fastpathET[T]{}.EncMapStringIntV(rv2i(rv).(map[string]int), e) } func (fastpathET[T]) EncMapStringIntV(v map[string]int, e *encoder[T]) { if len(v) == 0 { e.e.WriteMapEmpty() return } var i uint e.mapStart(len(v)) if e.h.Canonical { v2 := make([]string, len(v)) for k := range v { v2[i] = k i++ } slices.Sort(v2) for i, k2 := range v2 { e.c = containerMapKey e.e.WriteMapElemKey(i == 0) e.e.EncodeString(k2) e.mapElemValue() e.e.EncodeInt(int64(v[k2])) } } else { i = 0 for k2, v2 := range v { e.c = containerMapKey e.e.WriteMapElemKey(i == 0) e.e.EncodeString(k2) e.mapElemValue() e.e.EncodeInt(int64(v2)) i++ } } e.c = 0 e.e.WriteMapEnd() } func (e *encoder[T]) fastpathEncMapStringInt32R(f *encFnInfo, rv reflect.Value) { fastpathET[T]{}.EncMapStringInt32V(rv2i(rv).(map[string]int32), e) } func (fastpathET[T]) EncMapStringInt32V(v map[string]int32, e *encoder[T]) { if len(v) == 0 { e.e.WriteMapEmpty() return } var i uint e.mapStart(len(v)) if e.h.Canonical { v2 := make([]string, len(v)) for k := range v { v2[i] = k i++ } slices.Sort(v2) for i, k2 := range v2 { e.c = containerMapKey e.e.WriteMapElemKey(i == 0) e.e.EncodeString(k2) e.mapElemValue() e.e.EncodeInt(int64(v[k2])) } } else { i = 0 for k2, v2 := range v { e.c = containerMapKey e.e.WriteMapElemKey(i == 0) e.e.EncodeString(k2) e.mapElemValue() e.e.EncodeInt(int64(v2)) i++ } } e.c = 0 e.e.WriteMapEnd() } func (e *encoder[T]) fastpathEncMapStringFloat64R(f *encFnInfo, rv reflect.Value) { fastpathET[T]{}.EncMapStringFloat64V(rv2i(rv).(map[string]float64), e) } func (fastpathET[T]) EncMapStringFloat64V(v map[string]float64, e *encoder[T]) { if len(v) == 0 { e.e.WriteMapEmpty() return } var i uint e.mapStart(len(v)) if e.h.Canonical { v2 := make([]string, len(v)) for k := range v { v2[i] = k i++ } slices.Sort(v2) for i, k2 := range v2 { e.c = containerMapKey e.e.WriteMapElemKey(i == 0) e.e.EncodeString(k2) e.mapElemValue() e.e.EncodeFloat64(v[k2]) } } else { i = 0 for k2, v2 := range v { e.c = containerMapKey e.e.WriteMapElemKey(i == 0) e.e.EncodeString(k2) e.mapElemValue() e.e.EncodeFloat64(v2) i++ } } e.c = 0 e.e.WriteMapEnd() } func (e *encoder[T]) fastpathEncMapStringBoolR(f *encFnInfo, rv reflect.Value) { fastpathET[T]{}.EncMapStringBoolV(rv2i(rv).(map[string]bool), e) } func (fastpathET[T]) EncMapStringBoolV(v map[string]bool, e *encoder[T]) { if len(v) == 0 { e.e.WriteMapEmpty() return } var i uint e.mapStart(len(v)) if e.h.Canonical { v2 := make([]string, len(v)) for k := range v { v2[i] = k i++ } slices.Sort(v2) for i, k2 := range v2 { e.c = containerMapKey e.e.WriteMapElemKey(i == 0) e.e.EncodeString(k2) e.mapElemValue() e.e.EncodeBool(v[k2]) } } else { i = 0 for k2, v2 := range v { e.c = containerMapKey e.e.WriteMapElemKey(i == 0) e.e.EncodeString(k2) e.mapElemValue() e.e.EncodeBool(v2) i++ } } e.c = 0 e.e.WriteMapEnd() } func (e *encoder[T]) fastpathEncMapUint8IntfR(f *encFnInfo, rv reflect.Value) { fastpathET[T]{}.EncMapUint8IntfV(rv2i(rv).(map[uint8]interface{}), e) } func (fastpathET[T]) EncMapUint8IntfV(v map[uint8]interface{}, e *encoder[T]) { if len(v) == 0 { e.e.WriteMapEmpty() return } var i uint e.mapStart(len(v)) if e.h.Canonical { v2 := make([]uint8, len(v)) for k := range v { v2[i] = k i++ } slices.Sort(v2) for i, k2 := range v2 { e.c = containerMapKey e.e.WriteMapElemKey(i == 0) e.e.EncodeUint(uint64(k2)) e.mapElemValue() if !e.encodeBuiltin(v[k2]) { e.encodeR(reflect.ValueOf(v[k2])) } } } else { i = 0 for k2, v2 := range v { e.c = containerMapKey e.e.WriteMapElemKey(i == 0) e.e.EncodeUint(uint64(k2)) e.mapElemValue() if !e.encodeBuiltin(v2) { e.encodeR(reflect.ValueOf(v2)) } i++ } } e.c = 0 e.e.WriteMapEnd() } func (e *encoder[T]) fastpathEncMapUint8StringR(f *encFnInfo, rv reflect.Value) { fastpathET[T]{}.EncMapUint8StringV(rv2i(rv).(map[uint8]string), e) } func (fastpathET[T]) EncMapUint8StringV(v map[uint8]string, e *encoder[T]) { if len(v) == 0 { e.e.WriteMapEmpty() return } var i uint e.mapStart(len(v)) if e.h.Canonical { v2 := make([]uint8, len(v)) for k := range v { v2[i] = k i++ } slices.Sort(v2) for i, k2 := range v2 { e.c = containerMapKey e.e.WriteMapElemKey(i == 0) e.e.EncodeUint(uint64(k2)) e.mapElemValue() e.e.EncodeString(v[k2]) } } else { i = 0 for k2, v2 := range v { e.c = containerMapKey e.e.WriteMapElemKey(i == 0) e.e.EncodeUint(uint64(k2)) e.mapElemValue() e.e.EncodeString(v2) i++ } } e.c = 0 e.e.WriteMapEnd() } func (e *encoder[T]) fastpathEncMapUint8BytesR(f *encFnInfo, rv reflect.Value) { fastpathET[T]{}.EncMapUint8BytesV(rv2i(rv).(map[uint8][]byte), e) } func (fastpathET[T]) EncMapUint8BytesV(v map[uint8][]byte, e *encoder[T]) { if len(v) == 0 { e.e.WriteMapEmpty() return } var i uint e.mapStart(len(v)) if e.h.Canonical { v2 := make([]uint8, len(v)) for k := range v { v2[i] = k i++ } slices.Sort(v2) for i, k2 := range v2 { e.c = containerMapKey e.e.WriteMapElemKey(i == 0) e.e.EncodeUint(uint64(k2)) e.mapElemValue() e.e.EncodeBytes(v[k2]) } } else { i = 0 for k2, v2 := range v { e.c = containerMapKey e.e.WriteMapElemKey(i == 0) e.e.EncodeUint(uint64(k2)) e.mapElemValue() e.e.EncodeBytes(v2) i++ } } e.c = 0 e.e.WriteMapEnd() } func (e *encoder[T]) fastpathEncMapUint8Uint8R(f *encFnInfo, rv reflect.Value) { fastpathET[T]{}.EncMapUint8Uint8V(rv2i(rv).(map[uint8]uint8), e) } func (fastpathET[T]) EncMapUint8Uint8V(v map[uint8]uint8, e *encoder[T]) { if len(v) == 0 { e.e.WriteMapEmpty() return } var i uint e.mapStart(len(v)) if e.h.Canonical { v2 := make([]uint8, len(v)) for k := range v { v2[i] = k i++ } slices.Sort(v2) for i, k2 := range v2 { e.c = containerMapKey e.e.WriteMapElemKey(i == 0) e.e.EncodeUint(uint64(k2)) e.mapElemValue() e.e.EncodeUint(uint64(v[k2])) } } else { i = 0 for k2, v2 := range v { e.c = containerMapKey e.e.WriteMapElemKey(i == 0) e.e.EncodeUint(uint64(k2)) e.mapElemValue() e.e.EncodeUint(uint64(v2)) i++ } } e.c = 0 e.e.WriteMapEnd() } func (e *encoder[T]) fastpathEncMapUint8Uint64R(f *encFnInfo, rv reflect.Value) { fastpathET[T]{}.EncMapUint8Uint64V(rv2i(rv).(map[uint8]uint64), e) } func (fastpathET[T]) EncMapUint8Uint64V(v map[uint8]uint64, e *encoder[T]) { if len(v) == 0 { e.e.WriteMapEmpty() return } var i uint e.mapStart(len(v)) if e.h.Canonical { v2 := make([]uint8, len(v)) for k := range v { v2[i] = k i++ } slices.Sort(v2) for i, k2 := range v2 { e.c = containerMapKey e.e.WriteMapElemKey(i == 0) e.e.EncodeUint(uint64(k2)) e.mapElemValue() e.e.EncodeUint(v[k2]) } } else { i = 0 for k2, v2 := range v { e.c = containerMapKey e.e.WriteMapElemKey(i == 0) e.e.EncodeUint(uint64(k2)) e.mapElemValue() e.e.EncodeUint(v2) i++ } } e.c = 0 e.e.WriteMapEnd() } func (e *encoder[T]) fastpathEncMapUint8IntR(f *encFnInfo, rv reflect.Value) { fastpathET[T]{}.EncMapUint8IntV(rv2i(rv).(map[uint8]int), e) } func (fastpathET[T]) EncMapUint8IntV(v map[uint8]int, e *encoder[T]) { if len(v) == 0 { e.e.WriteMapEmpty() return } var i uint e.mapStart(len(v)) if e.h.Canonical { v2 := make([]uint8, len(v)) for k := range v { v2[i] = k i++ } slices.Sort(v2) for i, k2 := range v2 { e.c = containerMapKey e.e.WriteMapElemKey(i == 0) e.e.EncodeUint(uint64(k2)) e.mapElemValue() e.e.EncodeInt(int64(v[k2])) } } else { i = 0 for k2, v2 := range v { e.c = containerMapKey e.e.WriteMapElemKey(i == 0) e.e.EncodeUint(uint64(k2)) e.mapElemValue() e.e.EncodeInt(int64(v2)) i++ } } e.c = 0 e.e.WriteMapEnd() } func (e *encoder[T]) fastpathEncMapUint8Int32R(f *encFnInfo, rv reflect.Value) { fastpathET[T]{}.EncMapUint8Int32V(rv2i(rv).(map[uint8]int32), e) } func (fastpathET[T]) EncMapUint8Int32V(v map[uint8]int32, e *encoder[T]) { if len(v) == 0 { e.e.WriteMapEmpty() return } var i uint e.mapStart(len(v)) if e.h.Canonical { v2 := make([]uint8, len(v)) for k := range v { v2[i] = k i++ } slices.Sort(v2) for i, k2 := range v2 { e.c = containerMapKey e.e.WriteMapElemKey(i == 0) e.e.EncodeUint(uint64(k2)) e.mapElemValue() e.e.EncodeInt(int64(v[k2])) } } else { i = 0 for k2, v2 := range v { e.c = containerMapKey e.e.WriteMapElemKey(i == 0) e.e.EncodeUint(uint64(k2)) e.mapElemValue() e.e.EncodeInt(int64(v2)) i++ } } e.c = 0 e.e.WriteMapEnd() } func (e *encoder[T]) fastpathEncMapUint8Float64R(f *encFnInfo, rv reflect.Value) { fastpathET[T]{}.EncMapUint8Float64V(rv2i(rv).(map[uint8]float64), e) } func (fastpathET[T]) EncMapUint8Float64V(v map[uint8]float64, e *encoder[T]) { if len(v) == 0 { e.e.WriteMapEmpty() return } var i uint e.mapStart(len(v)) if e.h.Canonical { v2 := make([]uint8, len(v)) for k := range v { v2[i] = k i++ } slices.Sort(v2) for i, k2 := range v2 { e.c = containerMapKey e.e.WriteMapElemKey(i == 0) e.e.EncodeUint(uint64(k2)) e.mapElemValue() e.e.EncodeFloat64(v[k2]) } } else { i = 0 for k2, v2 := range v { e.c = containerMapKey e.e.WriteMapElemKey(i == 0) e.e.EncodeUint(uint64(k2)) e.mapElemValue() e.e.EncodeFloat64(v2) i++ } } e.c = 0 e.e.WriteMapEnd() } func (e *encoder[T]) fastpathEncMapUint8BoolR(f *encFnInfo, rv reflect.Value) { fastpathET[T]{}.EncMapUint8BoolV(rv2i(rv).(map[uint8]bool), e) } func (fastpathET[T]) EncMapUint8BoolV(v map[uint8]bool, e *encoder[T]) { if len(v) == 0 { e.e.WriteMapEmpty() return } var i uint e.mapStart(len(v)) if e.h.Canonical { v2 := make([]uint8, len(v)) for k := range v { v2[i] = k i++ } slices.Sort(v2) for i, k2 := range v2 { e.c = containerMapKey e.e.WriteMapElemKey(i == 0) e.e.EncodeUint(uint64(k2)) e.mapElemValue() e.e.EncodeBool(v[k2]) } } else { i = 0 for k2, v2 := range v { e.c = containerMapKey e.e.WriteMapElemKey(i == 0) e.e.EncodeUint(uint64(k2)) e.mapElemValue() e.e.EncodeBool(v2) i++ } } e.c = 0 e.e.WriteMapEnd() } func (e *encoder[T]) fastpathEncMapUint64IntfR(f *encFnInfo, rv reflect.Value) { fastpathET[T]{}.EncMapUint64IntfV(rv2i(rv).(map[uint64]interface{}), e) } func (fastpathET[T]) EncMapUint64IntfV(v map[uint64]interface{}, e *encoder[T]) { if len(v) == 0 { e.e.WriteMapEmpty() return } var i uint e.mapStart(len(v)) if e.h.Canonical { v2 := make([]uint64, len(v)) for k := range v { v2[i] = k i++ } slices.Sort(v2) for i, k2 := range v2 { e.c = containerMapKey e.e.WriteMapElemKey(i == 0) e.e.EncodeUint(k2) e.mapElemValue() if !e.encodeBuiltin(v[k2]) { e.encodeR(reflect.ValueOf(v[k2])) } } } else { i = 0 for k2, v2 := range v { e.c = containerMapKey e.e.WriteMapElemKey(i == 0) e.e.EncodeUint(k2) e.mapElemValue() if !e.encodeBuiltin(v2) { e.encodeR(reflect.ValueOf(v2)) } i++ } } e.c = 0 e.e.WriteMapEnd() } func (e *encoder[T]) fastpathEncMapUint64StringR(f *encFnInfo, rv reflect.Value) { fastpathET[T]{}.EncMapUint64StringV(rv2i(rv).(map[uint64]string), e) } func (fastpathET[T]) EncMapUint64StringV(v map[uint64]string, e *encoder[T]) { if len(v) == 0 { e.e.WriteMapEmpty() return } var i uint e.mapStart(len(v)) if e.h.Canonical { v2 := make([]uint64, len(v)) for k := range v { v2[i] = k i++ } slices.Sort(v2) for i, k2 := range v2 { e.c = containerMapKey e.e.WriteMapElemKey(i == 0) e.e.EncodeUint(k2) e.mapElemValue() e.e.EncodeString(v[k2]) } } else { i = 0 for k2, v2 := range v { e.c = containerMapKey e.e.WriteMapElemKey(i == 0) e.e.EncodeUint(k2) e.mapElemValue() e.e.EncodeString(v2) i++ } } e.c = 0 e.e.WriteMapEnd() } func (e *encoder[T]) fastpathEncMapUint64BytesR(f *encFnInfo, rv reflect.Value) { fastpathET[T]{}.EncMapUint64BytesV(rv2i(rv).(map[uint64][]byte), e) } func (fastpathET[T]) EncMapUint64BytesV(v map[uint64][]byte, e *encoder[T]) { if len(v) == 0 { e.e.WriteMapEmpty() return } var i uint e.mapStart(len(v)) if e.h.Canonical { v2 := make([]uint64, len(v)) for k := range v { v2[i] = k i++ } slices.Sort(v2) for i, k2 := range v2 { e.c = containerMapKey e.e.WriteMapElemKey(i == 0) e.e.EncodeUint(k2) e.mapElemValue() e.e.EncodeBytes(v[k2]) } } else { i = 0 for k2, v2 := range v { e.c = containerMapKey e.e.WriteMapElemKey(i == 0) e.e.EncodeUint(k2) e.mapElemValue() e.e.EncodeBytes(v2) i++ } } e.c = 0 e.e.WriteMapEnd() } func (e *encoder[T]) fastpathEncMapUint64Uint8R(f *encFnInfo, rv reflect.Value) { fastpathET[T]{}.EncMapUint64Uint8V(rv2i(rv).(map[uint64]uint8), e) } func (fastpathET[T]) EncMapUint64Uint8V(v map[uint64]uint8, e *encoder[T]) { if len(v) == 0 { e.e.WriteMapEmpty() return } var i uint e.mapStart(len(v)) if e.h.Canonical { v2 := make([]uint64, len(v)) for k := range v { v2[i] = k i++ } slices.Sort(v2) for i, k2 := range v2 { e.c = containerMapKey e.e.WriteMapElemKey(i == 0) e.e.EncodeUint(k2) e.mapElemValue() e.e.EncodeUint(uint64(v[k2])) } } else { i = 0 for k2, v2 := range v { e.c = containerMapKey e.e.WriteMapElemKey(i == 0) e.e.EncodeUint(k2) e.mapElemValue() e.e.EncodeUint(uint64(v2)) i++ } } e.c = 0 e.e.WriteMapEnd() } func (e *encoder[T]) fastpathEncMapUint64Uint64R(f *encFnInfo, rv reflect.Value) { fastpathET[T]{}.EncMapUint64Uint64V(rv2i(rv).(map[uint64]uint64), e) } func (fastpathET[T]) EncMapUint64Uint64V(v map[uint64]uint64, e *encoder[T]) { if len(v) == 0 { e.e.WriteMapEmpty() return } var i uint e.mapStart(len(v)) if e.h.Canonical { v2 := make([]uint64, len(v)) for k := range v { v2[i] = k i++ } slices.Sort(v2) for i, k2 := range v2 { e.c = containerMapKey e.e.WriteMapElemKey(i == 0) e.e.EncodeUint(k2) e.mapElemValue() e.e.EncodeUint(v[k2]) } } else { i = 0 for k2, v2 := range v { e.c = containerMapKey e.e.WriteMapElemKey(i == 0) e.e.EncodeUint(k2) e.mapElemValue() e.e.EncodeUint(v2) i++ } } e.c = 0 e.e.WriteMapEnd() } func (e *encoder[T]) fastpathEncMapUint64IntR(f *encFnInfo, rv reflect.Value) { fastpathET[T]{}.EncMapUint64IntV(rv2i(rv).(map[uint64]int), e) } func (fastpathET[T]) EncMapUint64IntV(v map[uint64]int, e *encoder[T]) { if len(v) == 0 { e.e.WriteMapEmpty() return } var i uint e.mapStart(len(v)) if e.h.Canonical { v2 := make([]uint64, len(v)) for k := range v { v2[i] = k i++ } slices.Sort(v2) for i, k2 := range v2 { e.c = containerMapKey e.e.WriteMapElemKey(i == 0) e.e.EncodeUint(k2) e.mapElemValue() e.e.EncodeInt(int64(v[k2])) } } else { i = 0 for k2, v2 := range v { e.c = containerMapKey e.e.WriteMapElemKey(i == 0) e.e.EncodeUint(k2) e.mapElemValue() e.e.EncodeInt(int64(v2)) i++ } } e.c = 0 e.e.WriteMapEnd() } func (e *encoder[T]) fastpathEncMapUint64Int32R(f *encFnInfo, rv reflect.Value) { fastpathET[T]{}.EncMapUint64Int32V(rv2i(rv).(map[uint64]int32), e) } func (fastpathET[T]) EncMapUint64Int32V(v map[uint64]int32, e *encoder[T]) { if len(v) == 0 { e.e.WriteMapEmpty() return } var i uint e.mapStart(len(v)) if e.h.Canonical { v2 := make([]uint64, len(v)) for k := range v { v2[i] = k i++ } slices.Sort(v2) for i, k2 := range v2 { e.c = containerMapKey e.e.WriteMapElemKey(i == 0) e.e.EncodeUint(k2) e.mapElemValue() e.e.EncodeInt(int64(v[k2])) } } else { i = 0 for k2, v2 := range v { e.c = containerMapKey e.e.WriteMapElemKey(i == 0) e.e.EncodeUint(k2) e.mapElemValue() e.e.EncodeInt(int64(v2)) i++ } } e.c = 0 e.e.WriteMapEnd() } func (e *encoder[T]) fastpathEncMapUint64Float64R(f *encFnInfo, rv reflect.Value) { fastpathET[T]{}.EncMapUint64Float64V(rv2i(rv).(map[uint64]float64), e) } func (fastpathET[T]) EncMapUint64Float64V(v map[uint64]float64, e *encoder[T]) { if len(v) == 0 { e.e.WriteMapEmpty() return } var i uint e.mapStart(len(v)) if e.h.Canonical { v2 := make([]uint64, len(v)) for k := range v { v2[i] = k i++ } slices.Sort(v2) for i, k2 := range v2 { e.c = containerMapKey e.e.WriteMapElemKey(i == 0) e.e.EncodeUint(k2) e.mapElemValue() e.e.EncodeFloat64(v[k2]) } } else { i = 0 for k2, v2 := range v { e.c = containerMapKey e.e.WriteMapElemKey(i == 0) e.e.EncodeUint(k2) e.mapElemValue() e.e.EncodeFloat64(v2) i++ } } e.c = 0 e.e.WriteMapEnd() } func (e *encoder[T]) fastpathEncMapUint64BoolR(f *encFnInfo, rv reflect.Value) { fastpathET[T]{}.EncMapUint64BoolV(rv2i(rv).(map[uint64]bool), e) } func (fastpathET[T]) EncMapUint64BoolV(v map[uint64]bool, e *encoder[T]) { if len(v) == 0 { e.e.WriteMapEmpty() return } var i uint e.mapStart(len(v)) if e.h.Canonical { v2 := make([]uint64, len(v)) for k := range v { v2[i] = k i++ } slices.Sort(v2) for i, k2 := range v2 { e.c = containerMapKey e.e.WriteMapElemKey(i == 0) e.e.EncodeUint(k2) e.mapElemValue() e.e.EncodeBool(v[k2]) } } else { i = 0 for k2, v2 := range v { e.c = containerMapKey e.e.WriteMapElemKey(i == 0) e.e.EncodeUint(k2) e.mapElemValue() e.e.EncodeBool(v2) i++ } } e.c = 0 e.e.WriteMapEnd() } func (e *encoder[T]) fastpathEncMapIntIntfR(f *encFnInfo, rv reflect.Value) { fastpathET[T]{}.EncMapIntIntfV(rv2i(rv).(map[int]interface{}), e) } func (fastpathET[T]) EncMapIntIntfV(v map[int]interface{}, e *encoder[T]) { if len(v) == 0 { e.e.WriteMapEmpty() return } var i uint e.mapStart(len(v)) if e.h.Canonical { v2 := make([]int, len(v)) for k := range v { v2[i] = k i++ } slices.Sort(v2) for i, k2 := range v2 { e.c = containerMapKey e.e.WriteMapElemKey(i == 0) e.e.EncodeInt(int64(k2)) e.mapElemValue() if !e.encodeBuiltin(v[k2]) { e.encodeR(reflect.ValueOf(v[k2])) } } } else { i = 0 for k2, v2 := range v { e.c = containerMapKey e.e.WriteMapElemKey(i == 0) e.e.EncodeInt(int64(k2)) e.mapElemValue() if !e.encodeBuiltin(v2) { e.encodeR(reflect.ValueOf(v2)) } i++ } } e.c = 0 e.e.WriteMapEnd() } func (e *encoder[T]) fastpathEncMapIntStringR(f *encFnInfo, rv reflect.Value) { fastpathET[T]{}.EncMapIntStringV(rv2i(rv).(map[int]string), e) } func (fastpathET[T]) EncMapIntStringV(v map[int]string, e *encoder[T]) { if len(v) == 0 { e.e.WriteMapEmpty() return } var i uint e.mapStart(len(v)) if e.h.Canonical { v2 := make([]int, len(v)) for k := range v { v2[i] = k i++ } slices.Sort(v2) for i, k2 := range v2 { e.c = containerMapKey e.e.WriteMapElemKey(i == 0) e.e.EncodeInt(int64(k2)) e.mapElemValue() e.e.EncodeString(v[k2]) } } else { i = 0 for k2, v2 := range v { e.c = containerMapKey e.e.WriteMapElemKey(i == 0) e.e.EncodeInt(int64(k2)) e.mapElemValue() e.e.EncodeString(v2) i++ } } e.c = 0 e.e.WriteMapEnd() } func (e *encoder[T]) fastpathEncMapIntBytesR(f *encFnInfo, rv reflect.Value) { fastpathET[T]{}.EncMapIntBytesV(rv2i(rv).(map[int][]byte), e) } func (fastpathET[T]) EncMapIntBytesV(v map[int][]byte, e *encoder[T]) { if len(v) == 0 { e.e.WriteMapEmpty() return } var i uint e.mapStart(len(v)) if e.h.Canonical { v2 := make([]int, len(v)) for k := range v { v2[i] = k i++ } slices.Sort(v2) for i, k2 := range v2 { e.c = containerMapKey e.e.WriteMapElemKey(i == 0) e.e.EncodeInt(int64(k2)) e.mapElemValue() e.e.EncodeBytes(v[k2]) } } else { i = 0 for k2, v2 := range v { e.c = containerMapKey e.e.WriteMapElemKey(i == 0) e.e.EncodeInt(int64(k2)) e.mapElemValue() e.e.EncodeBytes(v2) i++ } } e.c = 0 e.e.WriteMapEnd() } func (e *encoder[T]) fastpathEncMapIntUint8R(f *encFnInfo, rv reflect.Value) { fastpathET[T]{}.EncMapIntUint8V(rv2i(rv).(map[int]uint8), e) } func (fastpathET[T]) EncMapIntUint8V(v map[int]uint8, e *encoder[T]) { if len(v) == 0 { e.e.WriteMapEmpty() return } var i uint e.mapStart(len(v)) if e.h.Canonical { v2 := make([]int, len(v)) for k := range v { v2[i] = k i++ } slices.Sort(v2) for i, k2 := range v2 { e.c = containerMapKey e.e.WriteMapElemKey(i == 0) e.e.EncodeInt(int64(k2)) e.mapElemValue() e.e.EncodeUint(uint64(v[k2])) } } else { i = 0 for k2, v2 := range v { e.c = containerMapKey e.e.WriteMapElemKey(i == 0) e.e.EncodeInt(int64(k2)) e.mapElemValue() e.e.EncodeUint(uint64(v2)) i++ } } e.c = 0 e.e.WriteMapEnd() } func (e *encoder[T]) fastpathEncMapIntUint64R(f *encFnInfo, rv reflect.Value) { fastpathET[T]{}.EncMapIntUint64V(rv2i(rv).(map[int]uint64), e) } func (fastpathET[T]) EncMapIntUint64V(v map[int]uint64, e *encoder[T]) { if len(v) == 0 { e.e.WriteMapEmpty() return } var i uint e.mapStart(len(v)) if e.h.Canonical { v2 := make([]int, len(v)) for k := range v { v2[i] = k i++ } slices.Sort(v2) for i, k2 := range v2 { e.c = containerMapKey e.e.WriteMapElemKey(i == 0) e.e.EncodeInt(int64(k2)) e.mapElemValue() e.e.EncodeUint(v[k2]) } } else { i = 0 for k2, v2 := range v { e.c = containerMapKey e.e.WriteMapElemKey(i == 0) e.e.EncodeInt(int64(k2)) e.mapElemValue() e.e.EncodeUint(v2) i++ } } e.c = 0 e.e.WriteMapEnd() } func (e *encoder[T]) fastpathEncMapIntIntR(f *encFnInfo, rv reflect.Value) { fastpathET[T]{}.EncMapIntIntV(rv2i(rv).(map[int]int), e) } func (fastpathET[T]) EncMapIntIntV(v map[int]int, e *encoder[T]) { if len(v) == 0 { e.e.WriteMapEmpty() return } var i uint e.mapStart(len(v)) if e.h.Canonical { v2 := make([]int, len(v)) for k := range v { v2[i] = k i++ } slices.Sort(v2) for i, k2 := range v2 { e.c = containerMapKey e.e.WriteMapElemKey(i == 0) e.e.EncodeInt(int64(k2)) e.mapElemValue() e.e.EncodeInt(int64(v[k2])) } } else { i = 0 for k2, v2 := range v { e.c = containerMapKey e.e.WriteMapElemKey(i == 0) e.e.EncodeInt(int64(k2)) e.mapElemValue() e.e.EncodeInt(int64(v2)) i++ } } e.c = 0 e.e.WriteMapEnd() } func (e *encoder[T]) fastpathEncMapIntInt32R(f *encFnInfo, rv reflect.Value) { fastpathET[T]{}.EncMapIntInt32V(rv2i(rv).(map[int]int32), e) } func (fastpathET[T]) EncMapIntInt32V(v map[int]int32, e *encoder[T]) { if len(v) == 0 { e.e.WriteMapEmpty() return } var i uint e.mapStart(len(v)) if e.h.Canonical { v2 := make([]int, len(v)) for k := range v { v2[i] = k i++ } slices.Sort(v2) for i, k2 := range v2 { e.c = containerMapKey e.e.WriteMapElemKey(i == 0) e.e.EncodeInt(int64(k2)) e.mapElemValue() e.e.EncodeInt(int64(v[k2])) } } else { i = 0 for k2, v2 := range v { e.c = containerMapKey e.e.WriteMapElemKey(i == 0) e.e.EncodeInt(int64(k2)) e.mapElemValue() e.e.EncodeInt(int64(v2)) i++ } } e.c = 0 e.e.WriteMapEnd() } func (e *encoder[T]) fastpathEncMapIntFloat64R(f *encFnInfo, rv reflect.Value) { fastpathET[T]{}.EncMapIntFloat64V(rv2i(rv).(map[int]float64), e) } func (fastpathET[T]) EncMapIntFloat64V(v map[int]float64, e *encoder[T]) { if len(v) == 0 { e.e.WriteMapEmpty() return } var i uint e.mapStart(len(v)) if e.h.Canonical { v2 := make([]int, len(v)) for k := range v { v2[i] = k i++ } slices.Sort(v2) for i, k2 := range v2 { e.c = containerMapKey e.e.WriteMapElemKey(i == 0) e.e.EncodeInt(int64(k2)) e.mapElemValue() e.e.EncodeFloat64(v[k2]) } } else { i = 0 for k2, v2 := range v { e.c = containerMapKey e.e.WriteMapElemKey(i == 0) e.e.EncodeInt(int64(k2)) e.mapElemValue() e.e.EncodeFloat64(v2) i++ } } e.c = 0 e.e.WriteMapEnd() } func (e *encoder[T]) fastpathEncMapIntBoolR(f *encFnInfo, rv reflect.Value) { fastpathET[T]{}.EncMapIntBoolV(rv2i(rv).(map[int]bool), e) } func (fastpathET[T]) EncMapIntBoolV(v map[int]bool, e *encoder[T]) { if len(v) == 0 { e.e.WriteMapEmpty() return } var i uint e.mapStart(len(v)) if e.h.Canonical { v2 := make([]int, len(v)) for k := range v { v2[i] = k i++ } slices.Sort(v2) for i, k2 := range v2 { e.c = containerMapKey e.e.WriteMapElemKey(i == 0) e.e.EncodeInt(int64(k2)) e.mapElemValue() e.e.EncodeBool(v[k2]) } } else { i = 0 for k2, v2 := range v { e.c = containerMapKey e.e.WriteMapElemKey(i == 0) e.e.EncodeInt(int64(k2)) e.mapElemValue() e.e.EncodeBool(v2) i++ } } e.c = 0 e.e.WriteMapEnd() } func (e *encoder[T]) fastpathEncMapInt32IntfR(f *encFnInfo, rv reflect.Value) { fastpathET[T]{}.EncMapInt32IntfV(rv2i(rv).(map[int32]interface{}), e) } func (fastpathET[T]) EncMapInt32IntfV(v map[int32]interface{}, e *encoder[T]) { if len(v) == 0 { e.e.WriteMapEmpty() return } var i uint e.mapStart(len(v)) if e.h.Canonical { v2 := make([]int32, len(v)) for k := range v { v2[i] = k i++ } slices.Sort(v2) for i, k2 := range v2 { e.c = containerMapKey e.e.WriteMapElemKey(i == 0) e.e.EncodeInt(int64(k2)) e.mapElemValue() if !e.encodeBuiltin(v[k2]) { e.encodeR(reflect.ValueOf(v[k2])) } } } else { i = 0 for k2, v2 := range v { e.c = containerMapKey e.e.WriteMapElemKey(i == 0) e.e.EncodeInt(int64(k2)) e.mapElemValue() if !e.encodeBuiltin(v2) { e.encodeR(reflect.ValueOf(v2)) } i++ } } e.c = 0 e.e.WriteMapEnd() } func (e *encoder[T]) fastpathEncMapInt32StringR(f *encFnInfo, rv reflect.Value) { fastpathET[T]{}.EncMapInt32StringV(rv2i(rv).(map[int32]string), e) } func (fastpathET[T]) EncMapInt32StringV(v map[int32]string, e *encoder[T]) { if len(v) == 0 { e.e.WriteMapEmpty() return } var i uint e.mapStart(len(v)) if e.h.Canonical { v2 := make([]int32, len(v)) for k := range v { v2[i] = k i++ } slices.Sort(v2) for i, k2 := range v2 { e.c = containerMapKey e.e.WriteMapElemKey(i == 0) e.e.EncodeInt(int64(k2)) e.mapElemValue() e.e.EncodeString(v[k2]) } } else { i = 0 for k2, v2 := range v { e.c = containerMapKey e.e.WriteMapElemKey(i == 0) e.e.EncodeInt(int64(k2)) e.mapElemValue() e.e.EncodeString(v2) i++ } } e.c = 0 e.e.WriteMapEnd() } func (e *encoder[T]) fastpathEncMapInt32BytesR(f *encFnInfo, rv reflect.Value) { fastpathET[T]{}.EncMapInt32BytesV(rv2i(rv).(map[int32][]byte), e) } func (fastpathET[T]) EncMapInt32BytesV(v map[int32][]byte, e *encoder[T]) { if len(v) == 0 { e.e.WriteMapEmpty() return } var i uint e.mapStart(len(v)) if e.h.Canonical { v2 := make([]int32, len(v)) for k := range v { v2[i] = k i++ } slices.Sort(v2) for i, k2 := range v2 { e.c = containerMapKey e.e.WriteMapElemKey(i == 0) e.e.EncodeInt(int64(k2)) e.mapElemValue() e.e.EncodeBytes(v[k2]) } } else { i = 0 for k2, v2 := range v { e.c = containerMapKey e.e.WriteMapElemKey(i == 0) e.e.EncodeInt(int64(k2)) e.mapElemValue() e.e.EncodeBytes(v2) i++ } } e.c = 0 e.e.WriteMapEnd() } func (e *encoder[T]) fastpathEncMapInt32Uint8R(f *encFnInfo, rv reflect.Value) { fastpathET[T]{}.EncMapInt32Uint8V(rv2i(rv).(map[int32]uint8), e) } func (fastpathET[T]) EncMapInt32Uint8V(v map[int32]uint8, e *encoder[T]) { if len(v) == 0 { e.e.WriteMapEmpty() return } var i uint e.mapStart(len(v)) if e.h.Canonical { v2 := make([]int32, len(v)) for k := range v { v2[i] = k i++ } slices.Sort(v2) for i, k2 := range v2 { e.c = containerMapKey e.e.WriteMapElemKey(i == 0) e.e.EncodeInt(int64(k2)) e.mapElemValue() e.e.EncodeUint(uint64(v[k2])) } } else { i = 0 for k2, v2 := range v { e.c = containerMapKey e.e.WriteMapElemKey(i == 0) e.e.EncodeInt(int64(k2)) e.mapElemValue() e.e.EncodeUint(uint64(v2)) i++ } } e.c = 0 e.e.WriteMapEnd() } func (e *encoder[T]) fastpathEncMapInt32Uint64R(f *encFnInfo, rv reflect.Value) { fastpathET[T]{}.EncMapInt32Uint64V(rv2i(rv).(map[int32]uint64), e) } func (fastpathET[T]) EncMapInt32Uint64V(v map[int32]uint64, e *encoder[T]) { if len(v) == 0 { e.e.WriteMapEmpty() return } var i uint e.mapStart(len(v)) if e.h.Canonical { v2 := make([]int32, len(v)) for k := range v { v2[i] = k i++ } slices.Sort(v2) for i, k2 := range v2 { e.c = containerMapKey e.e.WriteMapElemKey(i == 0) e.e.EncodeInt(int64(k2)) e.mapElemValue() e.e.EncodeUint(v[k2]) } } else { i = 0 for k2, v2 := range v { e.c = containerMapKey e.e.WriteMapElemKey(i == 0) e.e.EncodeInt(int64(k2)) e.mapElemValue() e.e.EncodeUint(v2) i++ } } e.c = 0 e.e.WriteMapEnd() } func (e *encoder[T]) fastpathEncMapInt32IntR(f *encFnInfo, rv reflect.Value) { fastpathET[T]{}.EncMapInt32IntV(rv2i(rv).(map[int32]int), e) } func (fastpathET[T]) EncMapInt32IntV(v map[int32]int, e *encoder[T]) { if len(v) == 0 { e.e.WriteMapEmpty() return } var i uint e.mapStart(len(v)) if e.h.Canonical { v2 := make([]int32, len(v)) for k := range v { v2[i] = k i++ } slices.Sort(v2) for i, k2 := range v2 { e.c = containerMapKey e.e.WriteMapElemKey(i == 0) e.e.EncodeInt(int64(k2)) e.mapElemValue() e.e.EncodeInt(int64(v[k2])) } } else { i = 0 for k2, v2 := range v { e.c = containerMapKey e.e.WriteMapElemKey(i == 0) e.e.EncodeInt(int64(k2)) e.mapElemValue() e.e.EncodeInt(int64(v2)) i++ } } e.c = 0 e.e.WriteMapEnd() } func (e *encoder[T]) fastpathEncMapInt32Int32R(f *encFnInfo, rv reflect.Value) { fastpathET[T]{}.EncMapInt32Int32V(rv2i(rv).(map[int32]int32), e) } func (fastpathET[T]) EncMapInt32Int32V(v map[int32]int32, e *encoder[T]) { if len(v) == 0 { e.e.WriteMapEmpty() return } var i uint e.mapStart(len(v)) if e.h.Canonical { v2 := make([]int32, len(v)) for k := range v { v2[i] = k i++ } slices.Sort(v2) for i, k2 := range v2 { e.c = containerMapKey e.e.WriteMapElemKey(i == 0) e.e.EncodeInt(int64(k2)) e.mapElemValue() e.e.EncodeInt(int64(v[k2])) } } else { i = 0 for k2, v2 := range v { e.c = containerMapKey e.e.WriteMapElemKey(i == 0) e.e.EncodeInt(int64(k2)) e.mapElemValue() e.e.EncodeInt(int64(v2)) i++ } } e.c = 0 e.e.WriteMapEnd() } func (e *encoder[T]) fastpathEncMapInt32Float64R(f *encFnInfo, rv reflect.Value) { fastpathET[T]{}.EncMapInt32Float64V(rv2i(rv).(map[int32]float64), e) } func (fastpathET[T]) EncMapInt32Float64V(v map[int32]float64, e *encoder[T]) { if len(v) == 0 { e.e.WriteMapEmpty() return } var i uint e.mapStart(len(v)) if e.h.Canonical { v2 := make([]int32, len(v)) for k := range v { v2[i] = k i++ } slices.Sort(v2) for i, k2 := range v2 { e.c = containerMapKey e.e.WriteMapElemKey(i == 0) e.e.EncodeInt(int64(k2)) e.mapElemValue() e.e.EncodeFloat64(v[k2]) } } else { i = 0 for k2, v2 := range v { e.c = containerMapKey e.e.WriteMapElemKey(i == 0) e.e.EncodeInt(int64(k2)) e.mapElemValue() e.e.EncodeFloat64(v2) i++ } } e.c = 0 e.e.WriteMapEnd() } func (e *encoder[T]) fastpathEncMapInt32BoolR(f *encFnInfo, rv reflect.Value) { fastpathET[T]{}.EncMapInt32BoolV(rv2i(rv).(map[int32]bool), e) } func (fastpathET[T]) EncMapInt32BoolV(v map[int32]bool, e *encoder[T]) { if len(v) == 0 { e.e.WriteMapEmpty() return } var i uint e.mapStart(len(v)) if e.h.Canonical { v2 := make([]int32, len(v)) for k := range v { v2[i] = k i++ } slices.Sort(v2) for i, k2 := range v2 { e.c = containerMapKey e.e.WriteMapElemKey(i == 0) e.e.EncodeInt(int64(k2)) e.mapElemValue() e.e.EncodeBool(v[k2]) } } else { i = 0 for k2, v2 := range v { e.c = containerMapKey e.e.WriteMapElemKey(i == 0) e.e.EncodeInt(int64(k2)) e.mapElemValue() e.e.EncodeBool(v2) i++ } } e.c = 0 e.e.WriteMapEnd() } // -- decode // -- -- fast path type switch func (helperDecDriver[T]) fastpathDecodeTypeSwitch(iv interface{}, d *decoder[T]) bool { var ft fastpathDT[T] var changed bool var containerLen int switch v := iv.(type) { case []interface{}: ft.DecSliceIntfN(v, d) case *[]interface{}: var v2 []interface{} if v2, changed = ft.DecSliceIntfY(*v, d); changed { *v = v2 } case []string: ft.DecSliceStringN(v, d) case *[]string: var v2 []string if v2, changed = ft.DecSliceStringY(*v, d); changed { *v = v2 } case [][]byte: ft.DecSliceBytesN(v, d) case *[][]byte: var v2 [][]byte if v2, changed = ft.DecSliceBytesY(*v, d); changed { *v = v2 } case []float32: ft.DecSliceFloat32N(v, d) case *[]float32: var v2 []float32 if v2, changed = ft.DecSliceFloat32Y(*v, d); changed { *v = v2 } case []float64: ft.DecSliceFloat64N(v, d) case *[]float64: var v2 []float64 if v2, changed = ft.DecSliceFloat64Y(*v, d); changed { *v = v2 } case []uint8: ft.DecSliceUint8N(v, d) case *[]uint8: var v2 []uint8 if v2, changed = ft.DecSliceUint8Y(*v, d); changed { *v = v2 } case []uint64: ft.DecSliceUint64N(v, d) case *[]uint64: var v2 []uint64 if v2, changed = ft.DecSliceUint64Y(*v, d); changed { *v = v2 } case []int: ft.DecSliceIntN(v, d) case *[]int: var v2 []int if v2, changed = ft.DecSliceIntY(*v, d); changed { *v = v2 } case []int32: ft.DecSliceInt32N(v, d) case *[]int32: var v2 []int32 if v2, changed = ft.DecSliceInt32Y(*v, d); changed { *v = v2 } case []int64: ft.DecSliceInt64N(v, d) case *[]int64: var v2 []int64 if v2, changed = ft.DecSliceInt64Y(*v, d); changed { *v = v2 } case []bool: ft.DecSliceBoolN(v, d) case *[]bool: var v2 []bool if v2, changed = ft.DecSliceBoolY(*v, d); changed { *v = v2 } case map[string]interface{}: if containerLen = d.mapStart(d.d.ReadMapStart()); containerLen != containerLenNil { if containerLen != 0 { ft.DecMapStringIntfL(v, containerLen, d) } d.mapEnd() } case *map[string]interface{}: if containerLen = d.mapStart(d.d.ReadMapStart()); containerLen == containerLenNil { *v = nil } else { if *v == nil { *v = make(map[string]interface{}, decInferLen(containerLen, d.maxInitLen(), 32)) } if containerLen != 0 { ft.DecMapStringIntfL(*v, containerLen, d) } d.mapEnd() } case map[string]string: if containerLen = d.mapStart(d.d.ReadMapStart()); containerLen != containerLenNil { if containerLen != 0 { ft.DecMapStringStringL(v, containerLen, d) } d.mapEnd() } case *map[string]string: if containerLen = d.mapStart(d.d.ReadMapStart()); containerLen == containerLenNil { *v = nil } else { if *v == nil { *v = make(map[string]string, decInferLen(containerLen, d.maxInitLen(), 32)) } if containerLen != 0 { ft.DecMapStringStringL(*v, containerLen, d) } d.mapEnd() } case map[string][]byte: if containerLen = d.mapStart(d.d.ReadMapStart()); containerLen != containerLenNil { if containerLen != 0 { ft.DecMapStringBytesL(v, containerLen, d) } d.mapEnd() } case *map[string][]byte: if containerLen = d.mapStart(d.d.ReadMapStart()); containerLen == containerLenNil { *v = nil } else { if *v == nil { *v = make(map[string][]byte, decInferLen(containerLen, d.maxInitLen(), 40)) } if containerLen != 0 { ft.DecMapStringBytesL(*v, containerLen, d) } d.mapEnd() } case map[string]uint8: if containerLen = d.mapStart(d.d.ReadMapStart()); containerLen != containerLenNil { if containerLen != 0 { ft.DecMapStringUint8L(v, containerLen, d) } d.mapEnd() } case *map[string]uint8: if containerLen = d.mapStart(d.d.ReadMapStart()); containerLen == containerLenNil { *v = nil } else { if *v == nil { *v = make(map[string]uint8, decInferLen(containerLen, d.maxInitLen(), 17)) } if containerLen != 0 { ft.DecMapStringUint8L(*v, containerLen, d) } d.mapEnd() } case map[string]uint64: if containerLen = d.mapStart(d.d.ReadMapStart()); containerLen != containerLenNil { if containerLen != 0 { ft.DecMapStringUint64L(v, containerLen, d) } d.mapEnd() } case *map[string]uint64: if containerLen = d.mapStart(d.d.ReadMapStart()); containerLen == containerLenNil { *v = nil } else { if *v == nil { *v = make(map[string]uint64, decInferLen(containerLen, d.maxInitLen(), 24)) } if containerLen != 0 { ft.DecMapStringUint64L(*v, containerLen, d) } d.mapEnd() } case map[string]int: if containerLen = d.mapStart(d.d.ReadMapStart()); containerLen != containerLenNil { if containerLen != 0 { ft.DecMapStringIntL(v, containerLen, d) } d.mapEnd() } case *map[string]int: if containerLen = d.mapStart(d.d.ReadMapStart()); containerLen == containerLenNil { *v = nil } else { if *v == nil { *v = make(map[string]int, decInferLen(containerLen, d.maxInitLen(), 24)) } if containerLen != 0 { ft.DecMapStringIntL(*v, containerLen, d) } d.mapEnd() } case map[string]int32: if containerLen = d.mapStart(d.d.ReadMapStart()); containerLen != containerLenNil { if containerLen != 0 { ft.DecMapStringInt32L(v, containerLen, d) } d.mapEnd() } case *map[string]int32: if containerLen = d.mapStart(d.d.ReadMapStart()); containerLen == containerLenNil { *v = nil } else { if *v == nil { *v = make(map[string]int32, decInferLen(containerLen, d.maxInitLen(), 20)) } if containerLen != 0 { ft.DecMapStringInt32L(*v, containerLen, d) } d.mapEnd() } case map[string]float64: if containerLen = d.mapStart(d.d.ReadMapStart()); containerLen != containerLenNil { if containerLen != 0 { ft.DecMapStringFloat64L(v, containerLen, d) } d.mapEnd() } case *map[string]float64: if containerLen = d.mapStart(d.d.ReadMapStart()); containerLen == containerLenNil { *v = nil } else { if *v == nil { *v = make(map[string]float64, decInferLen(containerLen, d.maxInitLen(), 24)) } if containerLen != 0 { ft.DecMapStringFloat64L(*v, containerLen, d) } d.mapEnd() } case map[string]bool: if containerLen = d.mapStart(d.d.ReadMapStart()); containerLen != containerLenNil { if containerLen != 0 { ft.DecMapStringBoolL(v, containerLen, d) } d.mapEnd() } case *map[string]bool: if containerLen = d.mapStart(d.d.ReadMapStart()); containerLen == containerLenNil { *v = nil } else { if *v == nil { *v = make(map[string]bool, decInferLen(containerLen, d.maxInitLen(), 17)) } if containerLen != 0 { ft.DecMapStringBoolL(*v, containerLen, d) } d.mapEnd() } case map[uint8]interface{}: if containerLen = d.mapStart(d.d.ReadMapStart()); containerLen != containerLenNil { if containerLen != 0 { ft.DecMapUint8IntfL(v, containerLen, d) } d.mapEnd() } case *map[uint8]interface{}: if containerLen = d.mapStart(d.d.ReadMapStart()); containerLen == containerLenNil { *v = nil } else { if *v == nil { *v = make(map[uint8]interface{}, decInferLen(containerLen, d.maxInitLen(), 17)) } if containerLen != 0 { ft.DecMapUint8IntfL(*v, containerLen, d) } d.mapEnd() } case map[uint8]string: if containerLen = d.mapStart(d.d.ReadMapStart()); containerLen != containerLenNil { if containerLen != 0 { ft.DecMapUint8StringL(v, containerLen, d) } d.mapEnd() } case *map[uint8]string: if containerLen = d.mapStart(d.d.ReadMapStart()); containerLen == containerLenNil { *v = nil } else { if *v == nil { *v = make(map[uint8]string, decInferLen(containerLen, d.maxInitLen(), 17)) } if containerLen != 0 { ft.DecMapUint8StringL(*v, containerLen, d) } d.mapEnd() } case map[uint8][]byte: if containerLen = d.mapStart(d.d.ReadMapStart()); containerLen != containerLenNil { if containerLen != 0 { ft.DecMapUint8BytesL(v, containerLen, d) } d.mapEnd() } case *map[uint8][]byte: if containerLen = d.mapStart(d.d.ReadMapStart()); containerLen == containerLenNil { *v = nil } else { if *v == nil { *v = make(map[uint8][]byte, decInferLen(containerLen, d.maxInitLen(), 25)) } if containerLen != 0 { ft.DecMapUint8BytesL(*v, containerLen, d) } d.mapEnd() } case map[uint8]uint8: if containerLen = d.mapStart(d.d.ReadMapStart()); containerLen != containerLenNil { if containerLen != 0 { ft.DecMapUint8Uint8L(v, containerLen, d) } d.mapEnd() } case *map[uint8]uint8: if containerLen = d.mapStart(d.d.ReadMapStart()); containerLen == containerLenNil { *v = nil } else { if *v == nil { *v = make(map[uint8]uint8, decInferLen(containerLen, d.maxInitLen(), 2)) } if containerLen != 0 { ft.DecMapUint8Uint8L(*v, containerLen, d) } d.mapEnd() } case map[uint8]uint64: if containerLen = d.mapStart(d.d.ReadMapStart()); containerLen != containerLenNil { if containerLen != 0 { ft.DecMapUint8Uint64L(v, containerLen, d) } d.mapEnd() } case *map[uint8]uint64: if containerLen = d.mapStart(d.d.ReadMapStart()); containerLen == containerLenNil { *v = nil } else { if *v == nil { *v = make(map[uint8]uint64, decInferLen(containerLen, d.maxInitLen(), 9)) } if containerLen != 0 { ft.DecMapUint8Uint64L(*v, containerLen, d) } d.mapEnd() } case map[uint8]int: if containerLen = d.mapStart(d.d.ReadMapStart()); containerLen != containerLenNil { if containerLen != 0 { ft.DecMapUint8IntL(v, containerLen, d) } d.mapEnd() } case *map[uint8]int: if containerLen = d.mapStart(d.d.ReadMapStart()); containerLen == containerLenNil { *v = nil } else { if *v == nil { *v = make(map[uint8]int, decInferLen(containerLen, d.maxInitLen(), 9)) } if containerLen != 0 { ft.DecMapUint8IntL(*v, containerLen, d) } d.mapEnd() } case map[uint8]int32: if containerLen = d.mapStart(d.d.ReadMapStart()); containerLen != containerLenNil { if containerLen != 0 { ft.DecMapUint8Int32L(v, containerLen, d) } d.mapEnd() } case *map[uint8]int32: if containerLen = d.mapStart(d.d.ReadMapStart()); containerLen == containerLenNil { *v = nil } else { if *v == nil { *v = make(map[uint8]int32, decInferLen(containerLen, d.maxInitLen(), 5)) } if containerLen != 0 { ft.DecMapUint8Int32L(*v, containerLen, d) } d.mapEnd() } case map[uint8]float64: if containerLen = d.mapStart(d.d.ReadMapStart()); containerLen != containerLenNil { if containerLen != 0 { ft.DecMapUint8Float64L(v, containerLen, d) } d.mapEnd() } case *map[uint8]float64: if containerLen = d.mapStart(d.d.ReadMapStart()); containerLen == containerLenNil { *v = nil } else { if *v == nil { *v = make(map[uint8]float64, decInferLen(containerLen, d.maxInitLen(), 9)) } if containerLen != 0 { ft.DecMapUint8Float64L(*v, containerLen, d) } d.mapEnd() } case map[uint8]bool: if containerLen = d.mapStart(d.d.ReadMapStart()); containerLen != containerLenNil { if containerLen != 0 { ft.DecMapUint8BoolL(v, containerLen, d) } d.mapEnd() } case *map[uint8]bool: if containerLen = d.mapStart(d.d.ReadMapStart()); containerLen == containerLenNil { *v = nil } else { if *v == nil { *v = make(map[uint8]bool, decInferLen(containerLen, d.maxInitLen(), 2)) } if containerLen != 0 { ft.DecMapUint8BoolL(*v, containerLen, d) } d.mapEnd() } case map[uint64]interface{}: if containerLen = d.mapStart(d.d.ReadMapStart()); containerLen != containerLenNil { if containerLen != 0 { ft.DecMapUint64IntfL(v, containerLen, d) } d.mapEnd() } case *map[uint64]interface{}: if containerLen = d.mapStart(d.d.ReadMapStart()); containerLen == containerLenNil { *v = nil } else { if *v == nil { *v = make(map[uint64]interface{}, decInferLen(containerLen, d.maxInitLen(), 24)) } if containerLen != 0 { ft.DecMapUint64IntfL(*v, containerLen, d) } d.mapEnd() } case map[uint64]string: if containerLen = d.mapStart(d.d.ReadMapStart()); containerLen != containerLenNil { if containerLen != 0 { ft.DecMapUint64StringL(v, containerLen, d) } d.mapEnd() } case *map[uint64]string: if containerLen = d.mapStart(d.d.ReadMapStart()); containerLen == containerLenNil { *v = nil } else { if *v == nil { *v = make(map[uint64]string, decInferLen(containerLen, d.maxInitLen(), 24)) } if containerLen != 0 { ft.DecMapUint64StringL(*v, containerLen, d) } d.mapEnd() } case map[uint64][]byte: if containerLen = d.mapStart(d.d.ReadMapStart()); containerLen != containerLenNil { if containerLen != 0 { ft.DecMapUint64BytesL(v, containerLen, d) } d.mapEnd() } case *map[uint64][]byte: if containerLen = d.mapStart(d.d.ReadMapStart()); containerLen == containerLenNil { *v = nil } else { if *v == nil { *v = make(map[uint64][]byte, decInferLen(containerLen, d.maxInitLen(), 32)) } if containerLen != 0 { ft.DecMapUint64BytesL(*v, containerLen, d) } d.mapEnd() } case map[uint64]uint8: if containerLen = d.mapStart(d.d.ReadMapStart()); containerLen != containerLenNil { if containerLen != 0 { ft.DecMapUint64Uint8L(v, containerLen, d) } d.mapEnd() } case *map[uint64]uint8: if containerLen = d.mapStart(d.d.ReadMapStart()); containerLen == containerLenNil { *v = nil } else { if *v == nil { *v = make(map[uint64]uint8, decInferLen(containerLen, d.maxInitLen(), 9)) } if containerLen != 0 { ft.DecMapUint64Uint8L(*v, containerLen, d) } d.mapEnd() } case map[uint64]uint64: if containerLen = d.mapStart(d.d.ReadMapStart()); containerLen != containerLenNil { if containerLen != 0 { ft.DecMapUint64Uint64L(v, containerLen, d) } d.mapEnd() } case *map[uint64]uint64: if containerLen = d.mapStart(d.d.ReadMapStart()); containerLen == containerLenNil { *v = nil } else { if *v == nil { *v = make(map[uint64]uint64, decInferLen(containerLen, d.maxInitLen(), 16)) } if containerLen != 0 { ft.DecMapUint64Uint64L(*v, containerLen, d) } d.mapEnd() } case map[uint64]int: if containerLen = d.mapStart(d.d.ReadMapStart()); containerLen != containerLenNil { if containerLen != 0 { ft.DecMapUint64IntL(v, containerLen, d) } d.mapEnd() } case *map[uint64]int: if containerLen = d.mapStart(d.d.ReadMapStart()); containerLen == containerLenNil { *v = nil } else { if *v == nil { *v = make(map[uint64]int, decInferLen(containerLen, d.maxInitLen(), 16)) } if containerLen != 0 { ft.DecMapUint64IntL(*v, containerLen, d) } d.mapEnd() } case map[uint64]int32: if containerLen = d.mapStart(d.d.ReadMapStart()); containerLen != containerLenNil { if containerLen != 0 { ft.DecMapUint64Int32L(v, containerLen, d) } d.mapEnd() } case *map[uint64]int32: if containerLen = d.mapStart(d.d.ReadMapStart()); containerLen == containerLenNil { *v = nil } else { if *v == nil { *v = make(map[uint64]int32, decInferLen(containerLen, d.maxInitLen(), 12)) } if containerLen != 0 { ft.DecMapUint64Int32L(*v, containerLen, d) } d.mapEnd() } case map[uint64]float64: if containerLen = d.mapStart(d.d.ReadMapStart()); containerLen != containerLenNil { if containerLen != 0 { ft.DecMapUint64Float64L(v, containerLen, d) } d.mapEnd() } case *map[uint64]float64: if containerLen = d.mapStart(d.d.ReadMapStart()); containerLen == containerLenNil { *v = nil } else { if *v == nil { *v = make(map[uint64]float64, decInferLen(containerLen, d.maxInitLen(), 16)) } if containerLen != 0 { ft.DecMapUint64Float64L(*v, containerLen, d) } d.mapEnd() } case map[uint64]bool: if containerLen = d.mapStart(d.d.ReadMapStart()); containerLen != containerLenNil { if containerLen != 0 { ft.DecMapUint64BoolL(v, containerLen, d) } d.mapEnd() } case *map[uint64]bool: if containerLen = d.mapStart(d.d.ReadMapStart()); containerLen == containerLenNil { *v = nil } else { if *v == nil { *v = make(map[uint64]bool, decInferLen(containerLen, d.maxInitLen(), 9)) } if containerLen != 0 { ft.DecMapUint64BoolL(*v, containerLen, d) } d.mapEnd() } case map[int]interface{}: if containerLen = d.mapStart(d.d.ReadMapStart()); containerLen != containerLenNil { if containerLen != 0 { ft.DecMapIntIntfL(v, containerLen, d) } d.mapEnd() } case *map[int]interface{}: if containerLen = d.mapStart(d.d.ReadMapStart()); containerLen == containerLenNil { *v = nil } else { if *v == nil { *v = make(map[int]interface{}, decInferLen(containerLen, d.maxInitLen(), 24)) } if containerLen != 0 { ft.DecMapIntIntfL(*v, containerLen, d) } d.mapEnd() } case map[int]string: if containerLen = d.mapStart(d.d.ReadMapStart()); containerLen != containerLenNil { if containerLen != 0 { ft.DecMapIntStringL(v, containerLen, d) } d.mapEnd() } case *map[int]string: if containerLen = d.mapStart(d.d.ReadMapStart()); containerLen == containerLenNil { *v = nil } else { if *v == nil { *v = make(map[int]string, decInferLen(containerLen, d.maxInitLen(), 24)) } if containerLen != 0 { ft.DecMapIntStringL(*v, containerLen, d) } d.mapEnd() } case map[int][]byte: if containerLen = d.mapStart(d.d.ReadMapStart()); containerLen != containerLenNil { if containerLen != 0 { ft.DecMapIntBytesL(v, containerLen, d) } d.mapEnd() } case *map[int][]byte: if containerLen = d.mapStart(d.d.ReadMapStart()); containerLen == containerLenNil { *v = nil } else { if *v == nil { *v = make(map[int][]byte, decInferLen(containerLen, d.maxInitLen(), 32)) } if containerLen != 0 { ft.DecMapIntBytesL(*v, containerLen, d) } d.mapEnd() } case map[int]uint8: if containerLen = d.mapStart(d.d.ReadMapStart()); containerLen != containerLenNil { if containerLen != 0 { ft.DecMapIntUint8L(v, containerLen, d) } d.mapEnd() } case *map[int]uint8: if containerLen = d.mapStart(d.d.ReadMapStart()); containerLen == containerLenNil { *v = nil } else { if *v == nil { *v = make(map[int]uint8, decInferLen(containerLen, d.maxInitLen(), 9)) } if containerLen != 0 { ft.DecMapIntUint8L(*v, containerLen, d) } d.mapEnd() } case map[int]uint64: if containerLen = d.mapStart(d.d.ReadMapStart()); containerLen != containerLenNil { if containerLen != 0 { ft.DecMapIntUint64L(v, containerLen, d) } d.mapEnd() } case *map[int]uint64: if containerLen = d.mapStart(d.d.ReadMapStart()); containerLen == containerLenNil { *v = nil } else { if *v == nil { *v = make(map[int]uint64, decInferLen(containerLen, d.maxInitLen(), 16)) } if containerLen != 0 { ft.DecMapIntUint64L(*v, containerLen, d) } d.mapEnd() } case map[int]int: if containerLen = d.mapStart(d.d.ReadMapStart()); containerLen != containerLenNil { if containerLen != 0 { ft.DecMapIntIntL(v, containerLen, d) } d.mapEnd() } case *map[int]int: if containerLen = d.mapStart(d.d.ReadMapStart()); containerLen == containerLenNil { *v = nil } else { if *v == nil { *v = make(map[int]int, decInferLen(containerLen, d.maxInitLen(), 16)) } if containerLen != 0 { ft.DecMapIntIntL(*v, containerLen, d) } d.mapEnd() } case map[int]int32: if containerLen = d.mapStart(d.d.ReadMapStart()); containerLen != containerLenNil { if containerLen != 0 { ft.DecMapIntInt32L(v, containerLen, d) } d.mapEnd() } case *map[int]int32: if containerLen = d.mapStart(d.d.ReadMapStart()); containerLen == containerLenNil { *v = nil } else { if *v == nil { *v = make(map[int]int32, decInferLen(containerLen, d.maxInitLen(), 12)) } if containerLen != 0 { ft.DecMapIntInt32L(*v, containerLen, d) } d.mapEnd() } case map[int]float64: if containerLen = d.mapStart(d.d.ReadMapStart()); containerLen != containerLenNil { if containerLen != 0 { ft.DecMapIntFloat64L(v, containerLen, d) } d.mapEnd() } case *map[int]float64: if containerLen = d.mapStart(d.d.ReadMapStart()); containerLen == containerLenNil { *v = nil } else { if *v == nil { *v = make(map[int]float64, decInferLen(containerLen, d.maxInitLen(), 16)) } if containerLen != 0 { ft.DecMapIntFloat64L(*v, containerLen, d) } d.mapEnd() } case map[int]bool: if containerLen = d.mapStart(d.d.ReadMapStart()); containerLen != containerLenNil { if containerLen != 0 { ft.DecMapIntBoolL(v, containerLen, d) } d.mapEnd() } case *map[int]bool: if containerLen = d.mapStart(d.d.ReadMapStart()); containerLen == containerLenNil { *v = nil } else { if *v == nil { *v = make(map[int]bool, decInferLen(containerLen, d.maxInitLen(), 9)) } if containerLen != 0 { ft.DecMapIntBoolL(*v, containerLen, d) } d.mapEnd() } case map[int32]interface{}: if containerLen = d.mapStart(d.d.ReadMapStart()); containerLen != containerLenNil { if containerLen != 0 { ft.DecMapInt32IntfL(v, containerLen, d) } d.mapEnd() } case *map[int32]interface{}: if containerLen = d.mapStart(d.d.ReadMapStart()); containerLen == containerLenNil { *v = nil } else { if *v == nil { *v = make(map[int32]interface{}, decInferLen(containerLen, d.maxInitLen(), 20)) } if containerLen != 0 { ft.DecMapInt32IntfL(*v, containerLen, d) } d.mapEnd() } case map[int32]string: if containerLen = d.mapStart(d.d.ReadMapStart()); containerLen != containerLenNil { if containerLen != 0 { ft.DecMapInt32StringL(v, containerLen, d) } d.mapEnd() } case *map[int32]string: if containerLen = d.mapStart(d.d.ReadMapStart()); containerLen == containerLenNil { *v = nil } else { if *v == nil { *v = make(map[int32]string, decInferLen(containerLen, d.maxInitLen(), 20)) } if containerLen != 0 { ft.DecMapInt32StringL(*v, containerLen, d) } d.mapEnd() } case map[int32][]byte: if containerLen = d.mapStart(d.d.ReadMapStart()); containerLen != containerLenNil { if containerLen != 0 { ft.DecMapInt32BytesL(v, containerLen, d) } d.mapEnd() } case *map[int32][]byte: if containerLen = d.mapStart(d.d.ReadMapStart()); containerLen == containerLenNil { *v = nil } else { if *v == nil { *v = make(map[int32][]byte, decInferLen(containerLen, d.maxInitLen(), 28)) } if containerLen != 0 { ft.DecMapInt32BytesL(*v, containerLen, d) } d.mapEnd() } case map[int32]uint8: if containerLen = d.mapStart(d.d.ReadMapStart()); containerLen != containerLenNil { if containerLen != 0 { ft.DecMapInt32Uint8L(v, containerLen, d) } d.mapEnd() } case *map[int32]uint8: if containerLen = d.mapStart(d.d.ReadMapStart()); containerLen == containerLenNil { *v = nil } else { if *v == nil { *v = make(map[int32]uint8, decInferLen(containerLen, d.maxInitLen(), 5)) } if containerLen != 0 { ft.DecMapInt32Uint8L(*v, containerLen, d) } d.mapEnd() } case map[int32]uint64: if containerLen = d.mapStart(d.d.ReadMapStart()); containerLen != containerLenNil { if containerLen != 0 { ft.DecMapInt32Uint64L(v, containerLen, d) } d.mapEnd() } case *map[int32]uint64: if containerLen = d.mapStart(d.d.ReadMapStart()); containerLen == containerLenNil { *v = nil } else { if *v == nil { *v = make(map[int32]uint64, decInferLen(containerLen, d.maxInitLen(), 12)) } if containerLen != 0 { ft.DecMapInt32Uint64L(*v, containerLen, d) } d.mapEnd() } case map[int32]int: if containerLen = d.mapStart(d.d.ReadMapStart()); containerLen != containerLenNil { if containerLen != 0 { ft.DecMapInt32IntL(v, containerLen, d) } d.mapEnd() } case *map[int32]int: if containerLen = d.mapStart(d.d.ReadMapStart()); containerLen == containerLenNil { *v = nil } else { if *v == nil { *v = make(map[int32]int, decInferLen(containerLen, d.maxInitLen(), 12)) } if containerLen != 0 { ft.DecMapInt32IntL(*v, containerLen, d) } d.mapEnd() } case map[int32]int32: if containerLen = d.mapStart(d.d.ReadMapStart()); containerLen != containerLenNil { if containerLen != 0 { ft.DecMapInt32Int32L(v, containerLen, d) } d.mapEnd() } case *map[int32]int32: if containerLen = d.mapStart(d.d.ReadMapStart()); containerLen == containerLenNil { *v = nil } else { if *v == nil { *v = make(map[int32]int32, decInferLen(containerLen, d.maxInitLen(), 8)) } if containerLen != 0 { ft.DecMapInt32Int32L(*v, containerLen, d) } d.mapEnd() } case map[int32]float64: if containerLen = d.mapStart(d.d.ReadMapStart()); containerLen != containerLenNil { if containerLen != 0 { ft.DecMapInt32Float64L(v, containerLen, d) } d.mapEnd() } case *map[int32]float64: if containerLen = d.mapStart(d.d.ReadMapStart()); containerLen == containerLenNil { *v = nil } else { if *v == nil { *v = make(map[int32]float64, decInferLen(containerLen, d.maxInitLen(), 12)) } if containerLen != 0 { ft.DecMapInt32Float64L(*v, containerLen, d) } d.mapEnd() } case map[int32]bool: if containerLen = d.mapStart(d.d.ReadMapStart()); containerLen != containerLenNil { if containerLen != 0 { ft.DecMapInt32BoolL(v, containerLen, d) } d.mapEnd() } case *map[int32]bool: if containerLen = d.mapStart(d.d.ReadMapStart()); containerLen == containerLenNil { *v = nil } else { if *v == nil { *v = make(map[int32]bool, decInferLen(containerLen, d.maxInitLen(), 5)) } if containerLen != 0 { ft.DecMapInt32BoolL(*v, containerLen, d) } d.mapEnd() } default: _ = v // workaround https://github.com/golang/go/issues/12927 seen in go1.4 return false } return true } // -- -- fast path functions func (d *decoder[T]) fastpathDecSliceIntfR(f *decFnInfo, rv reflect.Value) { var ft fastpathDT[T] switch rv.Kind() { case reflect.Ptr: v := rv2i(rv).(*[]interface{}) if vv, changed := ft.DecSliceIntfY(*v, d); changed { *v = vv } case reflect.Array: var v []interface{} rvGetSlice4Array(rv, &v) ft.DecSliceIntfN(v, d) default: ft.DecSliceIntfN(rv2i(rv).([]interface{}), d) } } func (fastpathDT[T]) DecSliceIntfY(v []interface{}, d *decoder[T]) (v2 []interface{}, changed bool) { ctyp := d.d.ContainerType() if ctyp == valueTypeNil { return nil, v != nil } var containerLenS int isArray := ctyp == valueTypeArray if isArray { containerLenS = d.arrayStart(d.d.ReadArrayStart()) } else if ctyp == valueTypeMap { containerLenS = d.mapStart(d.d.ReadMapStart()) * 2 } else { halt.errorStr2("decoding into a slice, expect map/array - got ", ctyp.String()) } hasLen := containerLenS >= 0 var j int fnv := func(dst []interface{}) { v, changed = dst, true } for ; d.containerNext(j, containerLenS, hasLen); j++ { if j == 0 { if containerLenS == len(v) { } else if containerLenS < 0 || containerLenS > cap(v) { if xlen := int(decInferLen(containerLenS, d.maxInitLen(), 16)); xlen <= cap(v) { fnv(v[:uint(xlen)]) } else { v2 = make([]interface{}, uint(xlen)) copy(v2, v) fnv(v2) } } else { fnv(v[:containerLenS]) } } if isArray { d.arrayElem(j == 0) } else if j&1 == 0 { d.mapElemKey(j == 0) } else { d.mapElemValue() } if j >= len(v) { fnv(append(v, nil)) } d.decode(&v[uint(j)]) } if j < len(v) { fnv(v[:uint(j)]) } else if j == 0 && v == nil { fnv([]interface{}{}) } if isArray { d.arrayEnd() } else { d.mapEnd() } return v, changed } func (fastpathDT[T]) DecSliceIntfN(v []interface{}, d *decoder[T]) { ctyp := d.d.ContainerType() if ctyp == valueTypeNil { return } var containerLenS int isArray := ctyp == valueTypeArray if isArray { containerLenS = d.arrayStart(d.d.ReadArrayStart()) } else if ctyp == valueTypeMap { containerLenS = d.mapStart(d.d.ReadMapStart()) * 2 } else { halt.errorStr2("decoding into a slice, expect map/array - got ", ctyp.String()) } hasLen := containerLenS >= 0 for j := 0; d.containerNext(j, containerLenS, hasLen); j++ { if isArray { d.arrayElem(j == 0) } else if j&1 == 0 { d.mapElemKey(j == 0) } else { d.mapElemValue() } if j < len(v) { d.decode(&v[uint(j)]) } else { d.arrayCannotExpand(len(v), j+1) d.swallow() } } if isArray { d.arrayEnd() } else { d.mapEnd() } } func (d *decoder[T]) fastpathDecSliceStringR(f *decFnInfo, rv reflect.Value) { var ft fastpathDT[T] switch rv.Kind() { case reflect.Ptr: v := rv2i(rv).(*[]string) if vv, changed := ft.DecSliceStringY(*v, d); changed { *v = vv } case reflect.Array: var v []string rvGetSlice4Array(rv, &v) ft.DecSliceStringN(v, d) default: ft.DecSliceStringN(rv2i(rv).([]string), d) } } func (fastpathDT[T]) DecSliceStringY(v []string, d *decoder[T]) (v2 []string, changed bool) { ctyp := d.d.ContainerType() if ctyp == valueTypeNil { return nil, v != nil } var containerLenS int isArray := ctyp == valueTypeArray if isArray { containerLenS = d.arrayStart(d.d.ReadArrayStart()) } else if ctyp == valueTypeMap { containerLenS = d.mapStart(d.d.ReadMapStart()) * 2 } else { halt.errorStr2("decoding into a slice, expect map/array - got ", ctyp.String()) } hasLen := containerLenS >= 0 var j int fnv := func(dst []string) { v, changed = dst, true } for ; d.containerNext(j, containerLenS, hasLen); j++ { if j == 0 { if containerLenS == len(v) { } else if containerLenS < 0 || containerLenS > cap(v) { if xlen := int(decInferLen(containerLenS, d.maxInitLen(), 16)); xlen <= cap(v) { fnv(v[:uint(xlen)]) } else { v2 = make([]string, uint(xlen)) copy(v2, v) fnv(v2) } } else { fnv(v[:containerLenS]) } } if isArray { d.arrayElem(j == 0) } else if j&1 == 0 { d.mapElemKey(j == 0) } else { d.mapElemValue() } if j >= len(v) { fnv(append(v, "")) } v[uint(j)] = d.detach2Str(d.d.DecodeStringAsBytes()) } if j < len(v) { fnv(v[:uint(j)]) } else if j == 0 && v == nil { fnv([]string{}) } if isArray { d.arrayEnd() } else { d.mapEnd() } return v, changed } func (fastpathDT[T]) DecSliceStringN(v []string, d *decoder[T]) { ctyp := d.d.ContainerType() if ctyp == valueTypeNil { return } var containerLenS int isArray := ctyp == valueTypeArray if isArray { containerLenS = d.arrayStart(d.d.ReadArrayStart()) } else if ctyp == valueTypeMap { containerLenS = d.mapStart(d.d.ReadMapStart()) * 2 } else { halt.errorStr2("decoding into a slice, expect map/array - got ", ctyp.String()) } hasLen := containerLenS >= 0 for j := 0; d.containerNext(j, containerLenS, hasLen); j++ { if isArray { d.arrayElem(j == 0) } else if j&1 == 0 { d.mapElemKey(j == 0) } else { d.mapElemValue() } if j < len(v) { v[uint(j)] = d.detach2Str(d.d.DecodeStringAsBytes()) } else { d.arrayCannotExpand(len(v), j+1) d.swallow() } } if isArray { d.arrayEnd() } else { d.mapEnd() } } func (d *decoder[T]) fastpathDecSliceBytesR(f *decFnInfo, rv reflect.Value) { var ft fastpathDT[T] switch rv.Kind() { case reflect.Ptr: v := rv2i(rv).(*[][]byte) if vv, changed := ft.DecSliceBytesY(*v, d); changed { *v = vv } case reflect.Array: var v [][]byte rvGetSlice4Array(rv, &v) ft.DecSliceBytesN(v, d) default: ft.DecSliceBytesN(rv2i(rv).([][]byte), d) } } func (fastpathDT[T]) DecSliceBytesY(v [][]byte, d *decoder[T]) (v2 [][]byte, changed bool) { ctyp := d.d.ContainerType() if ctyp == valueTypeNil { return nil, v != nil } var containerLenS int isArray := ctyp == valueTypeArray if isArray { containerLenS = d.arrayStart(d.d.ReadArrayStart()) } else if ctyp == valueTypeMap { containerLenS = d.mapStart(d.d.ReadMapStart()) * 2 } else { halt.errorStr2("decoding into a slice, expect map/array - got ", ctyp.String()) } hasLen := containerLenS >= 0 var j int fnv := func(dst [][]byte) { v, changed = dst, true } for ; d.containerNext(j, containerLenS, hasLen); j++ { if j == 0 { if containerLenS == len(v) { } else if containerLenS < 0 || containerLenS > cap(v) { if xlen := int(decInferLen(containerLenS, d.maxInitLen(), 24)); xlen <= cap(v) { fnv(v[:uint(xlen)]) } else { v2 = make([][]byte, uint(xlen)) copy(v2, v) fnv(v2) } } else { fnv(v[:containerLenS]) } } if isArray { d.arrayElem(j == 0) } else if j&1 == 0 { d.mapElemKey(j == 0) } else { d.mapElemValue() } if j >= len(v) { fnv(append(v, nil)) } v[uint(j)] = bytesOKdbi(d.decodeBytesInto(v[uint(j)], false)) } if j < len(v) { fnv(v[:uint(j)]) } else if j == 0 && v == nil { fnv([][]byte{}) } if isArray { d.arrayEnd() } else { d.mapEnd() } return v, changed } func (fastpathDT[T]) DecSliceBytesN(v [][]byte, d *decoder[T]) { ctyp := d.d.ContainerType() if ctyp == valueTypeNil { return } var containerLenS int isArray := ctyp == valueTypeArray if isArray { containerLenS = d.arrayStart(d.d.ReadArrayStart()) } else if ctyp == valueTypeMap { containerLenS = d.mapStart(d.d.ReadMapStart()) * 2 } else { halt.errorStr2("decoding into a slice, expect map/array - got ", ctyp.String()) } hasLen := containerLenS >= 0 for j := 0; d.containerNext(j, containerLenS, hasLen); j++ { if isArray { d.arrayElem(j == 0) } else if j&1 == 0 { d.mapElemKey(j == 0) } else { d.mapElemValue() } if j < len(v) { v[uint(j)] = bytesOKdbi(d.decodeBytesInto(v[uint(j)], false)) } else { d.arrayCannotExpand(len(v), j+1) d.swallow() } } if isArray { d.arrayEnd() } else { d.mapEnd() } } func (d *decoder[T]) fastpathDecSliceFloat32R(f *decFnInfo, rv reflect.Value) { var ft fastpathDT[T] switch rv.Kind() { case reflect.Ptr: v := rv2i(rv).(*[]float32) if vv, changed := ft.DecSliceFloat32Y(*v, d); changed { *v = vv } case reflect.Array: var v []float32 rvGetSlice4Array(rv, &v) ft.DecSliceFloat32N(v, d) default: ft.DecSliceFloat32N(rv2i(rv).([]float32), d) } } func (fastpathDT[T]) DecSliceFloat32Y(v []float32, d *decoder[T]) (v2 []float32, changed bool) { ctyp := d.d.ContainerType() if ctyp == valueTypeNil { return nil, v != nil } var containerLenS int isArray := ctyp == valueTypeArray if isArray { containerLenS = d.arrayStart(d.d.ReadArrayStart()) } else if ctyp == valueTypeMap { containerLenS = d.mapStart(d.d.ReadMapStart()) * 2 } else { halt.errorStr2("decoding into a slice, expect map/array - got ", ctyp.String()) } hasLen := containerLenS >= 0 var j int fnv := func(dst []float32) { v, changed = dst, true } for ; d.containerNext(j, containerLenS, hasLen); j++ { if j == 0 { if containerLenS == len(v) { } else if containerLenS < 0 || containerLenS > cap(v) { if xlen := int(decInferLen(containerLenS, d.maxInitLen(), 4)); xlen <= cap(v) { fnv(v[:uint(xlen)]) } else { v2 = make([]float32, uint(xlen)) copy(v2, v) fnv(v2) } } else { fnv(v[:containerLenS]) } } if isArray { d.arrayElem(j == 0) } else if j&1 == 0 { d.mapElemKey(j == 0) } else { d.mapElemValue() } if j >= len(v) { fnv(append(v, 0)) } v[uint(j)] = float32(d.d.DecodeFloat32()) } if j < len(v) { fnv(v[:uint(j)]) } else if j == 0 && v == nil { fnv([]float32{}) } if isArray { d.arrayEnd() } else { d.mapEnd() } return v, changed } func (fastpathDT[T]) DecSliceFloat32N(v []float32, d *decoder[T]) { ctyp := d.d.ContainerType() if ctyp == valueTypeNil { return } var containerLenS int isArray := ctyp == valueTypeArray if isArray { containerLenS = d.arrayStart(d.d.ReadArrayStart()) } else if ctyp == valueTypeMap { containerLenS = d.mapStart(d.d.ReadMapStart()) * 2 } else { halt.errorStr2("decoding into a slice, expect map/array - got ", ctyp.String()) } hasLen := containerLenS >= 0 for j := 0; d.containerNext(j, containerLenS, hasLen); j++ { if isArray { d.arrayElem(j == 0) } else if j&1 == 0 { d.mapElemKey(j == 0) } else { d.mapElemValue() } if j < len(v) { v[uint(j)] = float32(d.d.DecodeFloat32()) } else { d.arrayCannotExpand(len(v), j+1) d.swallow() } } if isArray { d.arrayEnd() } else { d.mapEnd() } } func (d *decoder[T]) fastpathDecSliceFloat64R(f *decFnInfo, rv reflect.Value) { var ft fastpathDT[T] switch rv.Kind() { case reflect.Ptr: v := rv2i(rv).(*[]float64) if vv, changed := ft.DecSliceFloat64Y(*v, d); changed { *v = vv } case reflect.Array: var v []float64 rvGetSlice4Array(rv, &v) ft.DecSliceFloat64N(v, d) default: ft.DecSliceFloat64N(rv2i(rv).([]float64), d) } } func (fastpathDT[T]) DecSliceFloat64Y(v []float64, d *decoder[T]) (v2 []float64, changed bool) { ctyp := d.d.ContainerType() if ctyp == valueTypeNil { return nil, v != nil } var containerLenS int isArray := ctyp == valueTypeArray if isArray { containerLenS = d.arrayStart(d.d.ReadArrayStart()) } else if ctyp == valueTypeMap { containerLenS = d.mapStart(d.d.ReadMapStart()) * 2 } else { halt.errorStr2("decoding into a slice, expect map/array - got ", ctyp.String()) } hasLen := containerLenS >= 0 var j int fnv := func(dst []float64) { v, changed = dst, true } for ; d.containerNext(j, containerLenS, hasLen); j++ { if j == 0 { if containerLenS == len(v) { } else if containerLenS < 0 || containerLenS > cap(v) { if xlen := int(decInferLen(containerLenS, d.maxInitLen(), 8)); xlen <= cap(v) { fnv(v[:uint(xlen)]) } else { v2 = make([]float64, uint(xlen)) copy(v2, v) fnv(v2) } } else { fnv(v[:containerLenS]) } } if isArray { d.arrayElem(j == 0) } else if j&1 == 0 { d.mapElemKey(j == 0) } else { d.mapElemValue() } if j >= len(v) { fnv(append(v, 0)) } v[uint(j)] = d.d.DecodeFloat64() } if j < len(v) { fnv(v[:uint(j)]) } else if j == 0 && v == nil { fnv([]float64{}) } if isArray { d.arrayEnd() } else { d.mapEnd() } return v, changed } func (fastpathDT[T]) DecSliceFloat64N(v []float64, d *decoder[T]) { ctyp := d.d.ContainerType() if ctyp == valueTypeNil { return } var containerLenS int isArray := ctyp == valueTypeArray if isArray { containerLenS = d.arrayStart(d.d.ReadArrayStart()) } else if ctyp == valueTypeMap { containerLenS = d.mapStart(d.d.ReadMapStart()) * 2 } else { halt.errorStr2("decoding into a slice, expect map/array - got ", ctyp.String()) } hasLen := containerLenS >= 0 for j := 0; d.containerNext(j, containerLenS, hasLen); j++ { if isArray { d.arrayElem(j == 0) } else if j&1 == 0 { d.mapElemKey(j == 0) } else { d.mapElemValue() } if j < len(v) { v[uint(j)] = d.d.DecodeFloat64() } else { d.arrayCannotExpand(len(v), j+1) d.swallow() } } if isArray { d.arrayEnd() } else { d.mapEnd() } } func (d *decoder[T]) fastpathDecSliceUint8R(f *decFnInfo, rv reflect.Value) { var ft fastpathDT[T] switch rv.Kind() { case reflect.Ptr: v := rv2i(rv).(*[]uint8) if vv, changed := ft.DecSliceUint8Y(*v, d); changed { *v = vv } case reflect.Array: var v []uint8 rvGetSlice4Array(rv, &v) ft.DecSliceUint8N(v, d) default: ft.DecSliceUint8N(rv2i(rv).([]uint8), d) } } func (fastpathDT[T]) DecSliceUint8Y(v []uint8, d *decoder[T]) (v2 []uint8, changed bool) { ctyp := d.d.ContainerType() if ctyp == valueTypeNil { return nil, v != nil } if ctyp != valueTypeMap { var dbi dBytesIntoState v2, dbi = d.decodeBytesInto(v[:len(v):len(v)], false) return v2, dbi != dBytesIntoParamOut } containerLenS := d.mapStart(d.d.ReadMapStart()) * 2 hasLen := containerLenS >= 0 var j int fnv := func(dst []uint8) { v, changed = dst, true } for ; d.containerNext(j, containerLenS, hasLen); j++ { if j == 0 { if containerLenS == len(v) { } else if containerLenS < 0 || containerLenS > cap(v) { if xlen := int(decInferLen(containerLenS, d.maxInitLen(), 1)); xlen <= cap(v) { fnv(v[:uint(xlen)]) } else { v2 = make([]uint8, uint(xlen)) copy(v2, v) fnv(v2) } } else { fnv(v[:containerLenS]) } } if j&1 == 0 { d.mapElemKey(j == 0) } else { d.mapElemValue() } if j >= len(v) { fnv(append(v, 0)) } v[uint(j)] = uint8(chkOvf.UintV(d.d.DecodeUint64(), 8)) } if j < len(v) { fnv(v[:uint(j)]) } else if j == 0 && v == nil { fnv([]uint8{}) } d.mapEnd() return v, changed } func (fastpathDT[T]) DecSliceUint8N(v []uint8, d *decoder[T]) { ctyp := d.d.ContainerType() if ctyp == valueTypeNil { return } if ctyp != valueTypeMap { d.decodeBytesInto(v[:len(v):len(v)], true) return } containerLenS := d.mapStart(d.d.ReadMapStart()) * 2 hasLen := containerLenS >= 0 for j := 0; d.containerNext(j, containerLenS, hasLen); j++ { if j&1 == 0 { d.mapElemKey(j == 0) } else { d.mapElemValue() } if j < len(v) { v[uint(j)] = uint8(chkOvf.UintV(d.d.DecodeUint64(), 8)) } else { d.arrayCannotExpand(len(v), j+1) d.swallow() } } d.mapEnd() } func (d *decoder[T]) fastpathDecSliceUint64R(f *decFnInfo, rv reflect.Value) { var ft fastpathDT[T] switch rv.Kind() { case reflect.Ptr: v := rv2i(rv).(*[]uint64) if vv, changed := ft.DecSliceUint64Y(*v, d); changed { *v = vv } case reflect.Array: var v []uint64 rvGetSlice4Array(rv, &v) ft.DecSliceUint64N(v, d) default: ft.DecSliceUint64N(rv2i(rv).([]uint64), d) } } func (fastpathDT[T]) DecSliceUint64Y(v []uint64, d *decoder[T]) (v2 []uint64, changed bool) { ctyp := d.d.ContainerType() if ctyp == valueTypeNil { return nil, v != nil } var containerLenS int isArray := ctyp == valueTypeArray if isArray { containerLenS = d.arrayStart(d.d.ReadArrayStart()) } else if ctyp == valueTypeMap { containerLenS = d.mapStart(d.d.ReadMapStart()) * 2 } else { halt.errorStr2("decoding into a slice, expect map/array - got ", ctyp.String()) } hasLen := containerLenS >= 0 var j int fnv := func(dst []uint64) { v, changed = dst, true } for ; d.containerNext(j, containerLenS, hasLen); j++ { if j == 0 { if containerLenS == len(v) { } else if containerLenS < 0 || containerLenS > cap(v) { if xlen := int(decInferLen(containerLenS, d.maxInitLen(), 8)); xlen <= cap(v) { fnv(v[:uint(xlen)]) } else { v2 = make([]uint64, uint(xlen)) copy(v2, v) fnv(v2) } } else { fnv(v[:containerLenS]) } } if isArray { d.arrayElem(j == 0) } else if j&1 == 0 { d.mapElemKey(j == 0) } else { d.mapElemValue() } if j >= len(v) { fnv(append(v, 0)) } v[uint(j)] = d.d.DecodeUint64() } if j < len(v) { fnv(v[:uint(j)]) } else if j == 0 && v == nil { fnv([]uint64{}) } if isArray { d.arrayEnd() } else { d.mapEnd() } return v, changed } func (fastpathDT[T]) DecSliceUint64N(v []uint64, d *decoder[T]) { ctyp := d.d.ContainerType() if ctyp == valueTypeNil { return } var containerLenS int isArray := ctyp == valueTypeArray if isArray { containerLenS = d.arrayStart(d.d.ReadArrayStart()) } else if ctyp == valueTypeMap { containerLenS = d.mapStart(d.d.ReadMapStart()) * 2 } else { halt.errorStr2("decoding into a slice, expect map/array - got ", ctyp.String()) } hasLen := containerLenS >= 0 for j := 0; d.containerNext(j, containerLenS, hasLen); j++ { if isArray { d.arrayElem(j == 0) } else if j&1 == 0 { d.mapElemKey(j == 0) } else { d.mapElemValue() } if j < len(v) { v[uint(j)] = d.d.DecodeUint64() } else { d.arrayCannotExpand(len(v), j+1) d.swallow() } } if isArray { d.arrayEnd() } else { d.mapEnd() } } func (d *decoder[T]) fastpathDecSliceIntR(f *decFnInfo, rv reflect.Value) { var ft fastpathDT[T] switch rv.Kind() { case reflect.Ptr: v := rv2i(rv).(*[]int) if vv, changed := ft.DecSliceIntY(*v, d); changed { *v = vv } case reflect.Array: var v []int rvGetSlice4Array(rv, &v) ft.DecSliceIntN(v, d) default: ft.DecSliceIntN(rv2i(rv).([]int), d) } } func (fastpathDT[T]) DecSliceIntY(v []int, d *decoder[T]) (v2 []int, changed bool) { ctyp := d.d.ContainerType() if ctyp == valueTypeNil { return nil, v != nil } var containerLenS int isArray := ctyp == valueTypeArray if isArray { containerLenS = d.arrayStart(d.d.ReadArrayStart()) } else if ctyp == valueTypeMap { containerLenS = d.mapStart(d.d.ReadMapStart()) * 2 } else { halt.errorStr2("decoding into a slice, expect map/array - got ", ctyp.String()) } hasLen := containerLenS >= 0 var j int fnv := func(dst []int) { v, changed = dst, true } for ; d.containerNext(j, containerLenS, hasLen); j++ { if j == 0 { if containerLenS == len(v) { } else if containerLenS < 0 || containerLenS > cap(v) { if xlen := int(decInferLen(containerLenS, d.maxInitLen(), 8)); xlen <= cap(v) { fnv(v[:uint(xlen)]) } else { v2 = make([]int, uint(xlen)) copy(v2, v) fnv(v2) } } else { fnv(v[:containerLenS]) } } if isArray { d.arrayElem(j == 0) } else if j&1 == 0 { d.mapElemKey(j == 0) } else { d.mapElemValue() } if j >= len(v) { fnv(append(v, 0)) } v[uint(j)] = int(chkOvf.IntV(d.d.DecodeInt64(), intBitsize)) } if j < len(v) { fnv(v[:uint(j)]) } else if j == 0 && v == nil { fnv([]int{}) } if isArray { d.arrayEnd() } else { d.mapEnd() } return v, changed } func (fastpathDT[T]) DecSliceIntN(v []int, d *decoder[T]) { ctyp := d.d.ContainerType() if ctyp == valueTypeNil { return } var containerLenS int isArray := ctyp == valueTypeArray if isArray { containerLenS = d.arrayStart(d.d.ReadArrayStart()) } else if ctyp == valueTypeMap { containerLenS = d.mapStart(d.d.ReadMapStart()) * 2 } else { halt.errorStr2("decoding into a slice, expect map/array - got ", ctyp.String()) } hasLen := containerLenS >= 0 for j := 0; d.containerNext(j, containerLenS, hasLen); j++ { if isArray { d.arrayElem(j == 0) } else if j&1 == 0 { d.mapElemKey(j == 0) } else { d.mapElemValue() } if j < len(v) { v[uint(j)] = int(chkOvf.IntV(d.d.DecodeInt64(), intBitsize)) } else { d.arrayCannotExpand(len(v), j+1) d.swallow() } } if isArray { d.arrayEnd() } else { d.mapEnd() } } func (d *decoder[T]) fastpathDecSliceInt32R(f *decFnInfo, rv reflect.Value) { var ft fastpathDT[T] switch rv.Kind() { case reflect.Ptr: v := rv2i(rv).(*[]int32) if vv, changed := ft.DecSliceInt32Y(*v, d); changed { *v = vv } case reflect.Array: var v []int32 rvGetSlice4Array(rv, &v) ft.DecSliceInt32N(v, d) default: ft.DecSliceInt32N(rv2i(rv).([]int32), d) } } func (fastpathDT[T]) DecSliceInt32Y(v []int32, d *decoder[T]) (v2 []int32, changed bool) { ctyp := d.d.ContainerType() if ctyp == valueTypeNil { return nil, v != nil } var containerLenS int isArray := ctyp == valueTypeArray if isArray { containerLenS = d.arrayStart(d.d.ReadArrayStart()) } else if ctyp == valueTypeMap { containerLenS = d.mapStart(d.d.ReadMapStart()) * 2 } else { halt.errorStr2("decoding into a slice, expect map/array - got ", ctyp.String()) } hasLen := containerLenS >= 0 var j int fnv := func(dst []int32) { v, changed = dst, true } for ; d.containerNext(j, containerLenS, hasLen); j++ { if j == 0 { if containerLenS == len(v) { } else if containerLenS < 0 || containerLenS > cap(v) { if xlen := int(decInferLen(containerLenS, d.maxInitLen(), 4)); xlen <= cap(v) { fnv(v[:uint(xlen)]) } else { v2 = make([]int32, uint(xlen)) copy(v2, v) fnv(v2) } } else { fnv(v[:containerLenS]) } } if isArray { d.arrayElem(j == 0) } else if j&1 == 0 { d.mapElemKey(j == 0) } else { d.mapElemValue() } if j >= len(v) { fnv(append(v, 0)) } v[uint(j)] = int32(chkOvf.IntV(d.d.DecodeInt64(), 32)) } if j < len(v) { fnv(v[:uint(j)]) } else if j == 0 && v == nil { fnv([]int32{}) } if isArray { d.arrayEnd() } else { d.mapEnd() } return v, changed } func (fastpathDT[T]) DecSliceInt32N(v []int32, d *decoder[T]) { ctyp := d.d.ContainerType() if ctyp == valueTypeNil { return } var containerLenS int isArray := ctyp == valueTypeArray if isArray { containerLenS = d.arrayStart(d.d.ReadArrayStart()) } else if ctyp == valueTypeMap { containerLenS = d.mapStart(d.d.ReadMapStart()) * 2 } else { halt.errorStr2("decoding into a slice, expect map/array - got ", ctyp.String()) } hasLen := containerLenS >= 0 for j := 0; d.containerNext(j, containerLenS, hasLen); j++ { if isArray { d.arrayElem(j == 0) } else if j&1 == 0 { d.mapElemKey(j == 0) } else { d.mapElemValue() } if j < len(v) { v[uint(j)] = int32(chkOvf.IntV(d.d.DecodeInt64(), 32)) } else { d.arrayCannotExpand(len(v), j+1) d.swallow() } } if isArray { d.arrayEnd() } else { d.mapEnd() } } func (d *decoder[T]) fastpathDecSliceInt64R(f *decFnInfo, rv reflect.Value) { var ft fastpathDT[T] switch rv.Kind() { case reflect.Ptr: v := rv2i(rv).(*[]int64) if vv, changed := ft.DecSliceInt64Y(*v, d); changed { *v = vv } case reflect.Array: var v []int64 rvGetSlice4Array(rv, &v) ft.DecSliceInt64N(v, d) default: ft.DecSliceInt64N(rv2i(rv).([]int64), d) } } func (fastpathDT[T]) DecSliceInt64Y(v []int64, d *decoder[T]) (v2 []int64, changed bool) { ctyp := d.d.ContainerType() if ctyp == valueTypeNil { return nil, v != nil } var containerLenS int isArray := ctyp == valueTypeArray if isArray { containerLenS = d.arrayStart(d.d.ReadArrayStart()) } else if ctyp == valueTypeMap { containerLenS = d.mapStart(d.d.ReadMapStart()) * 2 } else { halt.errorStr2("decoding into a slice, expect map/array - got ", ctyp.String()) } hasLen := containerLenS >= 0 var j int fnv := func(dst []int64) { v, changed = dst, true } for ; d.containerNext(j, containerLenS, hasLen); j++ { if j == 0 { if containerLenS == len(v) { } else if containerLenS < 0 || containerLenS > cap(v) { if xlen := int(decInferLen(containerLenS, d.maxInitLen(), 8)); xlen <= cap(v) { fnv(v[:uint(xlen)]) } else { v2 = make([]int64, uint(xlen)) copy(v2, v) fnv(v2) } } else { fnv(v[:containerLenS]) } } if isArray { d.arrayElem(j == 0) } else if j&1 == 0 { d.mapElemKey(j == 0) } else { d.mapElemValue() } if j >= len(v) { fnv(append(v, 0)) } v[uint(j)] = d.d.DecodeInt64() } if j < len(v) { fnv(v[:uint(j)]) } else if j == 0 && v == nil { fnv([]int64{}) } if isArray { d.arrayEnd() } else { d.mapEnd() } return v, changed } func (fastpathDT[T]) DecSliceInt64N(v []int64, d *decoder[T]) { ctyp := d.d.ContainerType() if ctyp == valueTypeNil { return } var containerLenS int isArray := ctyp == valueTypeArray if isArray { containerLenS = d.arrayStart(d.d.ReadArrayStart()) } else if ctyp == valueTypeMap { containerLenS = d.mapStart(d.d.ReadMapStart()) * 2 } else { halt.errorStr2("decoding into a slice, expect map/array - got ", ctyp.String()) } hasLen := containerLenS >= 0 for j := 0; d.containerNext(j, containerLenS, hasLen); j++ { if isArray { d.arrayElem(j == 0) } else if j&1 == 0 { d.mapElemKey(j == 0) } else { d.mapElemValue() } if j < len(v) { v[uint(j)] = d.d.DecodeInt64() } else { d.arrayCannotExpand(len(v), j+1) d.swallow() } } if isArray { d.arrayEnd() } else { d.mapEnd() } } func (d *decoder[T]) fastpathDecSliceBoolR(f *decFnInfo, rv reflect.Value) { var ft fastpathDT[T] switch rv.Kind() { case reflect.Ptr: v := rv2i(rv).(*[]bool) if vv, changed := ft.DecSliceBoolY(*v, d); changed { *v = vv } case reflect.Array: var v []bool rvGetSlice4Array(rv, &v) ft.DecSliceBoolN(v, d) default: ft.DecSliceBoolN(rv2i(rv).([]bool), d) } } func (fastpathDT[T]) DecSliceBoolY(v []bool, d *decoder[T]) (v2 []bool, changed bool) { ctyp := d.d.ContainerType() if ctyp == valueTypeNil { return nil, v != nil } var containerLenS int isArray := ctyp == valueTypeArray if isArray { containerLenS = d.arrayStart(d.d.ReadArrayStart()) } else if ctyp == valueTypeMap { containerLenS = d.mapStart(d.d.ReadMapStart()) * 2 } else { halt.errorStr2("decoding into a slice, expect map/array - got ", ctyp.String()) } hasLen := containerLenS >= 0 var j int fnv := func(dst []bool) { v, changed = dst, true } for ; d.containerNext(j, containerLenS, hasLen); j++ { if j == 0 { if containerLenS == len(v) { } else if containerLenS < 0 || containerLenS > cap(v) { if xlen := int(decInferLen(containerLenS, d.maxInitLen(), 1)); xlen <= cap(v) { fnv(v[:uint(xlen)]) } else { v2 = make([]bool, uint(xlen)) copy(v2, v) fnv(v2) } } else { fnv(v[:containerLenS]) } } if isArray { d.arrayElem(j == 0) } else if j&1 == 0 { d.mapElemKey(j == 0) } else { d.mapElemValue() } if j >= len(v) { fnv(append(v, false)) } v[uint(j)] = d.d.DecodeBool() } if j < len(v) { fnv(v[:uint(j)]) } else if j == 0 && v == nil { fnv([]bool{}) } if isArray { d.arrayEnd() } else { d.mapEnd() } return v, changed } func (fastpathDT[T]) DecSliceBoolN(v []bool, d *decoder[T]) { ctyp := d.d.ContainerType() if ctyp == valueTypeNil { return } var containerLenS int isArray := ctyp == valueTypeArray if isArray { containerLenS = d.arrayStart(d.d.ReadArrayStart()) } else if ctyp == valueTypeMap { containerLenS = d.mapStart(d.d.ReadMapStart()) * 2 } else { halt.errorStr2("decoding into a slice, expect map/array - got ", ctyp.String()) } hasLen := containerLenS >= 0 for j := 0; d.containerNext(j, containerLenS, hasLen); j++ { if isArray { d.arrayElem(j == 0) } else if j&1 == 0 { d.mapElemKey(j == 0) } else { d.mapElemValue() } if j < len(v) { v[uint(j)] = d.d.DecodeBool() } else { d.arrayCannotExpand(len(v), j+1) d.swallow() } } if isArray { d.arrayEnd() } else { d.mapEnd() } } func (d *decoder[T]) fastpathDecMapStringIntfR(f *decFnInfo, rv reflect.Value) { var ft fastpathDT[T] containerLen := d.mapStart(d.d.ReadMapStart()) if rv.Kind() == reflect.Ptr { vp, _ := rv2i(rv).(*map[string]interface{}) if *vp == nil { *vp = make(map[string]interface{}, decInferLen(containerLen, d.maxInitLen(), 32)) } if containerLen != 0 { ft.DecMapStringIntfL(*vp, containerLen, d) } } else if containerLen != 0 { ft.DecMapStringIntfL(rv2i(rv).(map[string]interface{}), containerLen, d) } d.mapEnd() } func (fastpathDT[T]) DecMapStringIntfL(v map[string]interface{}, containerLen int, d *decoder[T]) { if v == nil { halt.errorInt("cannot decode into nil map[string]interface{} given stream length: ", int64(containerLen)) } var mv interface{} mapGet := !d.h.MapValueReset && !d.h.InterfaceReset hasLen := containerLen >= 0 for j := 0; d.containerNext(j, containerLen, hasLen); j++ { d.mapElemKey(j == 0) mk := d.detach2Str(d.d.DecodeStringAsBytes()) d.mapElemValue() if mapGet { mv = v[mk] } else { mv = nil } d.decode(&mv) v[mk] = mv } } func (d *decoder[T]) fastpathDecMapStringStringR(f *decFnInfo, rv reflect.Value) { var ft fastpathDT[T] containerLen := d.mapStart(d.d.ReadMapStart()) if rv.Kind() == reflect.Ptr { vp, _ := rv2i(rv).(*map[string]string) if *vp == nil { *vp = make(map[string]string, decInferLen(containerLen, d.maxInitLen(), 32)) } if containerLen != 0 { ft.DecMapStringStringL(*vp, containerLen, d) } } else if containerLen != 0 { ft.DecMapStringStringL(rv2i(rv).(map[string]string), containerLen, d) } d.mapEnd() } func (fastpathDT[T]) DecMapStringStringL(v map[string]string, containerLen int, d *decoder[T]) { if v == nil { halt.errorInt("cannot decode into nil map[string]string given stream length: ", int64(containerLen)) } hasLen := containerLen >= 0 for j := 0; d.containerNext(j, containerLen, hasLen); j++ { d.mapElemKey(j == 0) mk := d.detach2Str(d.d.DecodeStringAsBytes()) d.mapElemValue() v[mk] = d.detach2Str(d.d.DecodeStringAsBytes()) } } func (d *decoder[T]) fastpathDecMapStringBytesR(f *decFnInfo, rv reflect.Value) { var ft fastpathDT[T] containerLen := d.mapStart(d.d.ReadMapStart()) if rv.Kind() == reflect.Ptr { vp, _ := rv2i(rv).(*map[string][]byte) if *vp == nil { *vp = make(map[string][]byte, decInferLen(containerLen, d.maxInitLen(), 40)) } if containerLen != 0 { ft.DecMapStringBytesL(*vp, containerLen, d) } } else if containerLen != 0 { ft.DecMapStringBytesL(rv2i(rv).(map[string][]byte), containerLen, d) } d.mapEnd() } func (fastpathDT[T]) DecMapStringBytesL(v map[string][]byte, containerLen int, d *decoder[T]) { if v == nil { halt.errorInt("cannot decode into nil map[string][]byte given stream length: ", int64(containerLen)) } var mv []byte mapGet := !d.h.MapValueReset hasLen := containerLen >= 0 for j := 0; d.containerNext(j, containerLen, hasLen); j++ { d.mapElemKey(j == 0) mk := d.detach2Str(d.d.DecodeStringAsBytes()) d.mapElemValue() if mapGet { mv = v[mk] } else { mv = nil } v[mk], _ = d.decodeBytesInto(mv, false) } } func (d *decoder[T]) fastpathDecMapStringUint8R(f *decFnInfo, rv reflect.Value) { var ft fastpathDT[T] containerLen := d.mapStart(d.d.ReadMapStart()) if rv.Kind() == reflect.Ptr { vp, _ := rv2i(rv).(*map[string]uint8) if *vp == nil { *vp = make(map[string]uint8, decInferLen(containerLen, d.maxInitLen(), 17)) } if containerLen != 0 { ft.DecMapStringUint8L(*vp, containerLen, d) } } else if containerLen != 0 { ft.DecMapStringUint8L(rv2i(rv).(map[string]uint8), containerLen, d) } d.mapEnd() } func (fastpathDT[T]) DecMapStringUint8L(v map[string]uint8, containerLen int, d *decoder[T]) { if v == nil { halt.errorInt("cannot decode into nil map[string]uint8 given stream length: ", int64(containerLen)) } hasLen := containerLen >= 0 for j := 0; d.containerNext(j, containerLen, hasLen); j++ { d.mapElemKey(j == 0) mk := d.detach2Str(d.d.DecodeStringAsBytes()) d.mapElemValue() v[mk] = uint8(chkOvf.UintV(d.d.DecodeUint64(), 8)) } } func (d *decoder[T]) fastpathDecMapStringUint64R(f *decFnInfo, rv reflect.Value) { var ft fastpathDT[T] containerLen := d.mapStart(d.d.ReadMapStart()) if rv.Kind() == reflect.Ptr { vp, _ := rv2i(rv).(*map[string]uint64) if *vp == nil { *vp = make(map[string]uint64, decInferLen(containerLen, d.maxInitLen(), 24)) } if containerLen != 0 { ft.DecMapStringUint64L(*vp, containerLen, d) } } else if containerLen != 0 { ft.DecMapStringUint64L(rv2i(rv).(map[string]uint64), containerLen, d) } d.mapEnd() } func (fastpathDT[T]) DecMapStringUint64L(v map[string]uint64, containerLen int, d *decoder[T]) { if v == nil { halt.errorInt("cannot decode into nil map[string]uint64 given stream length: ", int64(containerLen)) } hasLen := containerLen >= 0 for j := 0; d.containerNext(j, containerLen, hasLen); j++ { d.mapElemKey(j == 0) mk := d.detach2Str(d.d.DecodeStringAsBytes()) d.mapElemValue() v[mk] = d.d.DecodeUint64() } } func (d *decoder[T]) fastpathDecMapStringIntR(f *decFnInfo, rv reflect.Value) { var ft fastpathDT[T] containerLen := d.mapStart(d.d.ReadMapStart()) if rv.Kind() == reflect.Ptr { vp, _ := rv2i(rv).(*map[string]int) if *vp == nil { *vp = make(map[string]int, decInferLen(containerLen, d.maxInitLen(), 24)) } if containerLen != 0 { ft.DecMapStringIntL(*vp, containerLen, d) } } else if containerLen != 0 { ft.DecMapStringIntL(rv2i(rv).(map[string]int), containerLen, d) } d.mapEnd() } func (fastpathDT[T]) DecMapStringIntL(v map[string]int, containerLen int, d *decoder[T]) { if v == nil { halt.errorInt("cannot decode into nil map[string]int given stream length: ", int64(containerLen)) } hasLen := containerLen >= 0 for j := 0; d.containerNext(j, containerLen, hasLen); j++ { d.mapElemKey(j == 0) mk := d.detach2Str(d.d.DecodeStringAsBytes()) d.mapElemValue() v[mk] = int(chkOvf.IntV(d.d.DecodeInt64(), intBitsize)) } } func (d *decoder[T]) fastpathDecMapStringInt32R(f *decFnInfo, rv reflect.Value) { var ft fastpathDT[T] containerLen := d.mapStart(d.d.ReadMapStart()) if rv.Kind() == reflect.Ptr { vp, _ := rv2i(rv).(*map[string]int32) if *vp == nil { *vp = make(map[string]int32, decInferLen(containerLen, d.maxInitLen(), 20)) } if containerLen != 0 { ft.DecMapStringInt32L(*vp, containerLen, d) } } else if containerLen != 0 { ft.DecMapStringInt32L(rv2i(rv).(map[string]int32), containerLen, d) } d.mapEnd() } func (fastpathDT[T]) DecMapStringInt32L(v map[string]int32, containerLen int, d *decoder[T]) { if v == nil { halt.errorInt("cannot decode into nil map[string]int32 given stream length: ", int64(containerLen)) } hasLen := containerLen >= 0 for j := 0; d.containerNext(j, containerLen, hasLen); j++ { d.mapElemKey(j == 0) mk := d.detach2Str(d.d.DecodeStringAsBytes()) d.mapElemValue() v[mk] = int32(chkOvf.IntV(d.d.DecodeInt64(), 32)) } } func (d *decoder[T]) fastpathDecMapStringFloat64R(f *decFnInfo, rv reflect.Value) { var ft fastpathDT[T] containerLen := d.mapStart(d.d.ReadMapStart()) if rv.Kind() == reflect.Ptr { vp, _ := rv2i(rv).(*map[string]float64) if *vp == nil { *vp = make(map[string]float64, decInferLen(containerLen, d.maxInitLen(), 24)) } if containerLen != 0 { ft.DecMapStringFloat64L(*vp, containerLen, d) } } else if containerLen != 0 { ft.DecMapStringFloat64L(rv2i(rv).(map[string]float64), containerLen, d) } d.mapEnd() } func (fastpathDT[T]) DecMapStringFloat64L(v map[string]float64, containerLen int, d *decoder[T]) { if v == nil { halt.errorInt("cannot decode into nil map[string]float64 given stream length: ", int64(containerLen)) } hasLen := containerLen >= 0 for j := 0; d.containerNext(j, containerLen, hasLen); j++ { d.mapElemKey(j == 0) mk := d.detach2Str(d.d.DecodeStringAsBytes()) d.mapElemValue() v[mk] = d.d.DecodeFloat64() } } func (d *decoder[T]) fastpathDecMapStringBoolR(f *decFnInfo, rv reflect.Value) { var ft fastpathDT[T] containerLen := d.mapStart(d.d.ReadMapStart()) if rv.Kind() == reflect.Ptr { vp, _ := rv2i(rv).(*map[string]bool) if *vp == nil { *vp = make(map[string]bool, decInferLen(containerLen, d.maxInitLen(), 17)) } if containerLen != 0 { ft.DecMapStringBoolL(*vp, containerLen, d) } } else if containerLen != 0 { ft.DecMapStringBoolL(rv2i(rv).(map[string]bool), containerLen, d) } d.mapEnd() } func (fastpathDT[T]) DecMapStringBoolL(v map[string]bool, containerLen int, d *decoder[T]) { if v == nil { halt.errorInt("cannot decode into nil map[string]bool given stream length: ", int64(containerLen)) } hasLen := containerLen >= 0 for j := 0; d.containerNext(j, containerLen, hasLen); j++ { d.mapElemKey(j == 0) mk := d.detach2Str(d.d.DecodeStringAsBytes()) d.mapElemValue() v[mk] = d.d.DecodeBool() } } func (d *decoder[T]) fastpathDecMapUint8IntfR(f *decFnInfo, rv reflect.Value) { var ft fastpathDT[T] containerLen := d.mapStart(d.d.ReadMapStart()) if rv.Kind() == reflect.Ptr { vp, _ := rv2i(rv).(*map[uint8]interface{}) if *vp == nil { *vp = make(map[uint8]interface{}, decInferLen(containerLen, d.maxInitLen(), 17)) } if containerLen != 0 { ft.DecMapUint8IntfL(*vp, containerLen, d) } } else if containerLen != 0 { ft.DecMapUint8IntfL(rv2i(rv).(map[uint8]interface{}), containerLen, d) } d.mapEnd() } func (fastpathDT[T]) DecMapUint8IntfL(v map[uint8]interface{}, containerLen int, d *decoder[T]) { if v == nil { halt.errorInt("cannot decode into nil map[uint8]interface{} given stream length: ", int64(containerLen)) } var mv interface{} mapGet := !d.h.MapValueReset && !d.h.InterfaceReset hasLen := containerLen >= 0 for j := 0; d.containerNext(j, containerLen, hasLen); j++ { d.mapElemKey(j == 0) mk := uint8(chkOvf.UintV(d.d.DecodeUint64(), 8)) d.mapElemValue() if mapGet { mv = v[mk] } else { mv = nil } d.decode(&mv) v[mk] = mv } } func (d *decoder[T]) fastpathDecMapUint8StringR(f *decFnInfo, rv reflect.Value) { var ft fastpathDT[T] containerLen := d.mapStart(d.d.ReadMapStart()) if rv.Kind() == reflect.Ptr { vp, _ := rv2i(rv).(*map[uint8]string) if *vp == nil { *vp = make(map[uint8]string, decInferLen(containerLen, d.maxInitLen(), 17)) } if containerLen != 0 { ft.DecMapUint8StringL(*vp, containerLen, d) } } else if containerLen != 0 { ft.DecMapUint8StringL(rv2i(rv).(map[uint8]string), containerLen, d) } d.mapEnd() } func (fastpathDT[T]) DecMapUint8StringL(v map[uint8]string, containerLen int, d *decoder[T]) { if v == nil { halt.errorInt("cannot decode into nil map[uint8]string given stream length: ", int64(containerLen)) } hasLen := containerLen >= 0 for j := 0; d.containerNext(j, containerLen, hasLen); j++ { d.mapElemKey(j == 0) mk := uint8(chkOvf.UintV(d.d.DecodeUint64(), 8)) d.mapElemValue() v[mk] = d.detach2Str(d.d.DecodeStringAsBytes()) } } func (d *decoder[T]) fastpathDecMapUint8BytesR(f *decFnInfo, rv reflect.Value) { var ft fastpathDT[T] containerLen := d.mapStart(d.d.ReadMapStart()) if rv.Kind() == reflect.Ptr { vp, _ := rv2i(rv).(*map[uint8][]byte) if *vp == nil { *vp = make(map[uint8][]byte, decInferLen(containerLen, d.maxInitLen(), 25)) } if containerLen != 0 { ft.DecMapUint8BytesL(*vp, containerLen, d) } } else if containerLen != 0 { ft.DecMapUint8BytesL(rv2i(rv).(map[uint8][]byte), containerLen, d) } d.mapEnd() } func (fastpathDT[T]) DecMapUint8BytesL(v map[uint8][]byte, containerLen int, d *decoder[T]) { if v == nil { halt.errorInt("cannot decode into nil map[uint8][]byte given stream length: ", int64(containerLen)) } var mv []byte mapGet := !d.h.MapValueReset hasLen := containerLen >= 0 for j := 0; d.containerNext(j, containerLen, hasLen); j++ { d.mapElemKey(j == 0) mk := uint8(chkOvf.UintV(d.d.DecodeUint64(), 8)) d.mapElemValue() if mapGet { mv = v[mk] } else { mv = nil } v[mk], _ = d.decodeBytesInto(mv, false) } } func (d *decoder[T]) fastpathDecMapUint8Uint8R(f *decFnInfo, rv reflect.Value) { var ft fastpathDT[T] containerLen := d.mapStart(d.d.ReadMapStart()) if rv.Kind() == reflect.Ptr { vp, _ := rv2i(rv).(*map[uint8]uint8) if *vp == nil { *vp = make(map[uint8]uint8, decInferLen(containerLen, d.maxInitLen(), 2)) } if containerLen != 0 { ft.DecMapUint8Uint8L(*vp, containerLen, d) } } else if containerLen != 0 { ft.DecMapUint8Uint8L(rv2i(rv).(map[uint8]uint8), containerLen, d) } d.mapEnd() } func (fastpathDT[T]) DecMapUint8Uint8L(v map[uint8]uint8, containerLen int, d *decoder[T]) { if v == nil { halt.errorInt("cannot decode into nil map[uint8]uint8 given stream length: ", int64(containerLen)) } hasLen := containerLen >= 0 for j := 0; d.containerNext(j, containerLen, hasLen); j++ { d.mapElemKey(j == 0) mk := uint8(chkOvf.UintV(d.d.DecodeUint64(), 8)) d.mapElemValue() v[mk] = uint8(chkOvf.UintV(d.d.DecodeUint64(), 8)) } } func (d *decoder[T]) fastpathDecMapUint8Uint64R(f *decFnInfo, rv reflect.Value) { var ft fastpathDT[T] containerLen := d.mapStart(d.d.ReadMapStart()) if rv.Kind() == reflect.Ptr { vp, _ := rv2i(rv).(*map[uint8]uint64) if *vp == nil { *vp = make(map[uint8]uint64, decInferLen(containerLen, d.maxInitLen(), 9)) } if containerLen != 0 { ft.DecMapUint8Uint64L(*vp, containerLen, d) } } else if containerLen != 0 { ft.DecMapUint8Uint64L(rv2i(rv).(map[uint8]uint64), containerLen, d) } d.mapEnd() } func (fastpathDT[T]) DecMapUint8Uint64L(v map[uint8]uint64, containerLen int, d *decoder[T]) { if v == nil { halt.errorInt("cannot decode into nil map[uint8]uint64 given stream length: ", int64(containerLen)) } hasLen := containerLen >= 0 for j := 0; d.containerNext(j, containerLen, hasLen); j++ { d.mapElemKey(j == 0) mk := uint8(chkOvf.UintV(d.d.DecodeUint64(), 8)) d.mapElemValue() v[mk] = d.d.DecodeUint64() } } func (d *decoder[T]) fastpathDecMapUint8IntR(f *decFnInfo, rv reflect.Value) { var ft fastpathDT[T] containerLen := d.mapStart(d.d.ReadMapStart()) if rv.Kind() == reflect.Ptr { vp, _ := rv2i(rv).(*map[uint8]int) if *vp == nil { *vp = make(map[uint8]int, decInferLen(containerLen, d.maxInitLen(), 9)) } if containerLen != 0 { ft.DecMapUint8IntL(*vp, containerLen, d) } } else if containerLen != 0 { ft.DecMapUint8IntL(rv2i(rv).(map[uint8]int), containerLen, d) } d.mapEnd() } func (fastpathDT[T]) DecMapUint8IntL(v map[uint8]int, containerLen int, d *decoder[T]) { if v == nil { halt.errorInt("cannot decode into nil map[uint8]int given stream length: ", int64(containerLen)) } hasLen := containerLen >= 0 for j := 0; d.containerNext(j, containerLen, hasLen); j++ { d.mapElemKey(j == 0) mk := uint8(chkOvf.UintV(d.d.DecodeUint64(), 8)) d.mapElemValue() v[mk] = int(chkOvf.IntV(d.d.DecodeInt64(), intBitsize)) } } func (d *decoder[T]) fastpathDecMapUint8Int32R(f *decFnInfo, rv reflect.Value) { var ft fastpathDT[T] containerLen := d.mapStart(d.d.ReadMapStart()) if rv.Kind() == reflect.Ptr { vp, _ := rv2i(rv).(*map[uint8]int32) if *vp == nil { *vp = make(map[uint8]int32, decInferLen(containerLen, d.maxInitLen(), 5)) } if containerLen != 0 { ft.DecMapUint8Int32L(*vp, containerLen, d) } } else if containerLen != 0 { ft.DecMapUint8Int32L(rv2i(rv).(map[uint8]int32), containerLen, d) } d.mapEnd() } func (fastpathDT[T]) DecMapUint8Int32L(v map[uint8]int32, containerLen int, d *decoder[T]) { if v == nil { halt.errorInt("cannot decode into nil map[uint8]int32 given stream length: ", int64(containerLen)) } hasLen := containerLen >= 0 for j := 0; d.containerNext(j, containerLen, hasLen); j++ { d.mapElemKey(j == 0) mk := uint8(chkOvf.UintV(d.d.DecodeUint64(), 8)) d.mapElemValue() v[mk] = int32(chkOvf.IntV(d.d.DecodeInt64(), 32)) } } func (d *decoder[T]) fastpathDecMapUint8Float64R(f *decFnInfo, rv reflect.Value) { var ft fastpathDT[T] containerLen := d.mapStart(d.d.ReadMapStart()) if rv.Kind() == reflect.Ptr { vp, _ := rv2i(rv).(*map[uint8]float64) if *vp == nil { *vp = make(map[uint8]float64, decInferLen(containerLen, d.maxInitLen(), 9)) } if containerLen != 0 { ft.DecMapUint8Float64L(*vp, containerLen, d) } } else if containerLen != 0 { ft.DecMapUint8Float64L(rv2i(rv).(map[uint8]float64), containerLen, d) } d.mapEnd() } func (fastpathDT[T]) DecMapUint8Float64L(v map[uint8]float64, containerLen int, d *decoder[T]) { if v == nil { halt.errorInt("cannot decode into nil map[uint8]float64 given stream length: ", int64(containerLen)) } hasLen := containerLen >= 0 for j := 0; d.containerNext(j, containerLen, hasLen); j++ { d.mapElemKey(j == 0) mk := uint8(chkOvf.UintV(d.d.DecodeUint64(), 8)) d.mapElemValue() v[mk] = d.d.DecodeFloat64() } } func (d *decoder[T]) fastpathDecMapUint8BoolR(f *decFnInfo, rv reflect.Value) { var ft fastpathDT[T] containerLen := d.mapStart(d.d.ReadMapStart()) if rv.Kind() == reflect.Ptr { vp, _ := rv2i(rv).(*map[uint8]bool) if *vp == nil { *vp = make(map[uint8]bool, decInferLen(containerLen, d.maxInitLen(), 2)) } if containerLen != 0 { ft.DecMapUint8BoolL(*vp, containerLen, d) } } else if containerLen != 0 { ft.DecMapUint8BoolL(rv2i(rv).(map[uint8]bool), containerLen, d) } d.mapEnd() } func (fastpathDT[T]) DecMapUint8BoolL(v map[uint8]bool, containerLen int, d *decoder[T]) { if v == nil { halt.errorInt("cannot decode into nil map[uint8]bool given stream length: ", int64(containerLen)) } hasLen := containerLen >= 0 for j := 0; d.containerNext(j, containerLen, hasLen); j++ { d.mapElemKey(j == 0) mk := uint8(chkOvf.UintV(d.d.DecodeUint64(), 8)) d.mapElemValue() v[mk] = d.d.DecodeBool() } } func (d *decoder[T]) fastpathDecMapUint64IntfR(f *decFnInfo, rv reflect.Value) { var ft fastpathDT[T] containerLen := d.mapStart(d.d.ReadMapStart()) if rv.Kind() == reflect.Ptr { vp, _ := rv2i(rv).(*map[uint64]interface{}) if *vp == nil { *vp = make(map[uint64]interface{}, decInferLen(containerLen, d.maxInitLen(), 24)) } if containerLen != 0 { ft.DecMapUint64IntfL(*vp, containerLen, d) } } else if containerLen != 0 { ft.DecMapUint64IntfL(rv2i(rv).(map[uint64]interface{}), containerLen, d) } d.mapEnd() } func (fastpathDT[T]) DecMapUint64IntfL(v map[uint64]interface{}, containerLen int, d *decoder[T]) { if v == nil { halt.errorInt("cannot decode into nil map[uint64]interface{} given stream length: ", int64(containerLen)) } var mv interface{} mapGet := !d.h.MapValueReset && !d.h.InterfaceReset hasLen := containerLen >= 0 for j := 0; d.containerNext(j, containerLen, hasLen); j++ { d.mapElemKey(j == 0) mk := d.d.DecodeUint64() d.mapElemValue() if mapGet { mv = v[mk] } else { mv = nil } d.decode(&mv) v[mk] = mv } } func (d *decoder[T]) fastpathDecMapUint64StringR(f *decFnInfo, rv reflect.Value) { var ft fastpathDT[T] containerLen := d.mapStart(d.d.ReadMapStart()) if rv.Kind() == reflect.Ptr { vp, _ := rv2i(rv).(*map[uint64]string) if *vp == nil { *vp = make(map[uint64]string, decInferLen(containerLen, d.maxInitLen(), 24)) } if containerLen != 0 { ft.DecMapUint64StringL(*vp, containerLen, d) } } else if containerLen != 0 { ft.DecMapUint64StringL(rv2i(rv).(map[uint64]string), containerLen, d) } d.mapEnd() } func (fastpathDT[T]) DecMapUint64StringL(v map[uint64]string, containerLen int, d *decoder[T]) { if v == nil { halt.errorInt("cannot decode into nil map[uint64]string given stream length: ", int64(containerLen)) } hasLen := containerLen >= 0 for j := 0; d.containerNext(j, containerLen, hasLen); j++ { d.mapElemKey(j == 0) mk := d.d.DecodeUint64() d.mapElemValue() v[mk] = d.detach2Str(d.d.DecodeStringAsBytes()) } } func (d *decoder[T]) fastpathDecMapUint64BytesR(f *decFnInfo, rv reflect.Value) { var ft fastpathDT[T] containerLen := d.mapStart(d.d.ReadMapStart()) if rv.Kind() == reflect.Ptr { vp, _ := rv2i(rv).(*map[uint64][]byte) if *vp == nil { *vp = make(map[uint64][]byte, decInferLen(containerLen, d.maxInitLen(), 32)) } if containerLen != 0 { ft.DecMapUint64BytesL(*vp, containerLen, d) } } else if containerLen != 0 { ft.DecMapUint64BytesL(rv2i(rv).(map[uint64][]byte), containerLen, d) } d.mapEnd() } func (fastpathDT[T]) DecMapUint64BytesL(v map[uint64][]byte, containerLen int, d *decoder[T]) { if v == nil { halt.errorInt("cannot decode into nil map[uint64][]byte given stream length: ", int64(containerLen)) } var mv []byte mapGet := !d.h.MapValueReset hasLen := containerLen >= 0 for j := 0; d.containerNext(j, containerLen, hasLen); j++ { d.mapElemKey(j == 0) mk := d.d.DecodeUint64() d.mapElemValue() if mapGet { mv = v[mk] } else { mv = nil } v[mk], _ = d.decodeBytesInto(mv, false) } } func (d *decoder[T]) fastpathDecMapUint64Uint8R(f *decFnInfo, rv reflect.Value) { var ft fastpathDT[T] containerLen := d.mapStart(d.d.ReadMapStart()) if rv.Kind() == reflect.Ptr { vp, _ := rv2i(rv).(*map[uint64]uint8) if *vp == nil { *vp = make(map[uint64]uint8, decInferLen(containerLen, d.maxInitLen(), 9)) } if containerLen != 0 { ft.DecMapUint64Uint8L(*vp, containerLen, d) } } else if containerLen != 0 { ft.DecMapUint64Uint8L(rv2i(rv).(map[uint64]uint8), containerLen, d) } d.mapEnd() } func (fastpathDT[T]) DecMapUint64Uint8L(v map[uint64]uint8, containerLen int, d *decoder[T]) { if v == nil { halt.errorInt("cannot decode into nil map[uint64]uint8 given stream length: ", int64(containerLen)) } hasLen := containerLen >= 0 for j := 0; d.containerNext(j, containerLen, hasLen); j++ { d.mapElemKey(j == 0) mk := d.d.DecodeUint64() d.mapElemValue() v[mk] = uint8(chkOvf.UintV(d.d.DecodeUint64(), 8)) } } func (d *decoder[T]) fastpathDecMapUint64Uint64R(f *decFnInfo, rv reflect.Value) { var ft fastpathDT[T] containerLen := d.mapStart(d.d.ReadMapStart()) if rv.Kind() == reflect.Ptr { vp, _ := rv2i(rv).(*map[uint64]uint64) if *vp == nil { *vp = make(map[uint64]uint64, decInferLen(containerLen, d.maxInitLen(), 16)) } if containerLen != 0 { ft.DecMapUint64Uint64L(*vp, containerLen, d) } } else if containerLen != 0 { ft.DecMapUint64Uint64L(rv2i(rv).(map[uint64]uint64), containerLen, d) } d.mapEnd() } func (fastpathDT[T]) DecMapUint64Uint64L(v map[uint64]uint64, containerLen int, d *decoder[T]) { if v == nil { halt.errorInt("cannot decode into nil map[uint64]uint64 given stream length: ", int64(containerLen)) } hasLen := containerLen >= 0 for j := 0; d.containerNext(j, containerLen, hasLen); j++ { d.mapElemKey(j == 0) mk := d.d.DecodeUint64() d.mapElemValue() v[mk] = d.d.DecodeUint64() } } func (d *decoder[T]) fastpathDecMapUint64IntR(f *decFnInfo, rv reflect.Value) { var ft fastpathDT[T] containerLen := d.mapStart(d.d.ReadMapStart()) if rv.Kind() == reflect.Ptr { vp, _ := rv2i(rv).(*map[uint64]int) if *vp == nil { *vp = make(map[uint64]int, decInferLen(containerLen, d.maxInitLen(), 16)) } if containerLen != 0 { ft.DecMapUint64IntL(*vp, containerLen, d) } } else if containerLen != 0 { ft.DecMapUint64IntL(rv2i(rv).(map[uint64]int), containerLen, d) } d.mapEnd() } func (fastpathDT[T]) DecMapUint64IntL(v map[uint64]int, containerLen int, d *decoder[T]) { if v == nil { halt.errorInt("cannot decode into nil map[uint64]int given stream length: ", int64(containerLen)) } hasLen := containerLen >= 0 for j := 0; d.containerNext(j, containerLen, hasLen); j++ { d.mapElemKey(j == 0) mk := d.d.DecodeUint64() d.mapElemValue() v[mk] = int(chkOvf.IntV(d.d.DecodeInt64(), intBitsize)) } } func (d *decoder[T]) fastpathDecMapUint64Int32R(f *decFnInfo, rv reflect.Value) { var ft fastpathDT[T] containerLen := d.mapStart(d.d.ReadMapStart()) if rv.Kind() == reflect.Ptr { vp, _ := rv2i(rv).(*map[uint64]int32) if *vp == nil { *vp = make(map[uint64]int32, decInferLen(containerLen, d.maxInitLen(), 12)) } if containerLen != 0 { ft.DecMapUint64Int32L(*vp, containerLen, d) } } else if containerLen != 0 { ft.DecMapUint64Int32L(rv2i(rv).(map[uint64]int32), containerLen, d) } d.mapEnd() } func (fastpathDT[T]) DecMapUint64Int32L(v map[uint64]int32, containerLen int, d *decoder[T]) { if v == nil { halt.errorInt("cannot decode into nil map[uint64]int32 given stream length: ", int64(containerLen)) } hasLen := containerLen >= 0 for j := 0; d.containerNext(j, containerLen, hasLen); j++ { d.mapElemKey(j == 0) mk := d.d.DecodeUint64() d.mapElemValue() v[mk] = int32(chkOvf.IntV(d.d.DecodeInt64(), 32)) } } func (d *decoder[T]) fastpathDecMapUint64Float64R(f *decFnInfo, rv reflect.Value) { var ft fastpathDT[T] containerLen := d.mapStart(d.d.ReadMapStart()) if rv.Kind() == reflect.Ptr { vp, _ := rv2i(rv).(*map[uint64]float64) if *vp == nil { *vp = make(map[uint64]float64, decInferLen(containerLen, d.maxInitLen(), 16)) } if containerLen != 0 { ft.DecMapUint64Float64L(*vp, containerLen, d) } } else if containerLen != 0 { ft.DecMapUint64Float64L(rv2i(rv).(map[uint64]float64), containerLen, d) } d.mapEnd() } func (fastpathDT[T]) DecMapUint64Float64L(v map[uint64]float64, containerLen int, d *decoder[T]) { if v == nil { halt.errorInt("cannot decode into nil map[uint64]float64 given stream length: ", int64(containerLen)) } hasLen := containerLen >= 0 for j := 0; d.containerNext(j, containerLen, hasLen); j++ { d.mapElemKey(j == 0) mk := d.d.DecodeUint64() d.mapElemValue() v[mk] = d.d.DecodeFloat64() } } func (d *decoder[T]) fastpathDecMapUint64BoolR(f *decFnInfo, rv reflect.Value) { var ft fastpathDT[T] containerLen := d.mapStart(d.d.ReadMapStart()) if rv.Kind() == reflect.Ptr { vp, _ := rv2i(rv).(*map[uint64]bool) if *vp == nil { *vp = make(map[uint64]bool, decInferLen(containerLen, d.maxInitLen(), 9)) } if containerLen != 0 { ft.DecMapUint64BoolL(*vp, containerLen, d) } } else if containerLen != 0 { ft.DecMapUint64BoolL(rv2i(rv).(map[uint64]bool), containerLen, d) } d.mapEnd() } func (fastpathDT[T]) DecMapUint64BoolL(v map[uint64]bool, containerLen int, d *decoder[T]) { if v == nil { halt.errorInt("cannot decode into nil map[uint64]bool given stream length: ", int64(containerLen)) } hasLen := containerLen >= 0 for j := 0; d.containerNext(j, containerLen, hasLen); j++ { d.mapElemKey(j == 0) mk := d.d.DecodeUint64() d.mapElemValue() v[mk] = d.d.DecodeBool() } } func (d *decoder[T]) fastpathDecMapIntIntfR(f *decFnInfo, rv reflect.Value) { var ft fastpathDT[T] containerLen := d.mapStart(d.d.ReadMapStart()) if rv.Kind() == reflect.Ptr { vp, _ := rv2i(rv).(*map[int]interface{}) if *vp == nil { *vp = make(map[int]interface{}, decInferLen(containerLen, d.maxInitLen(), 24)) } if containerLen != 0 { ft.DecMapIntIntfL(*vp, containerLen, d) } } else if containerLen != 0 { ft.DecMapIntIntfL(rv2i(rv).(map[int]interface{}), containerLen, d) } d.mapEnd() } func (fastpathDT[T]) DecMapIntIntfL(v map[int]interface{}, containerLen int, d *decoder[T]) { if v == nil { halt.errorInt("cannot decode into nil map[int]interface{} given stream length: ", int64(containerLen)) } var mv interface{} mapGet := !d.h.MapValueReset && !d.h.InterfaceReset hasLen := containerLen >= 0 for j := 0; d.containerNext(j, containerLen, hasLen); j++ { d.mapElemKey(j == 0) mk := int(chkOvf.IntV(d.d.DecodeInt64(), intBitsize)) d.mapElemValue() if mapGet { mv = v[mk] } else { mv = nil } d.decode(&mv) v[mk] = mv } } func (d *decoder[T]) fastpathDecMapIntStringR(f *decFnInfo, rv reflect.Value) { var ft fastpathDT[T] containerLen := d.mapStart(d.d.ReadMapStart()) if rv.Kind() == reflect.Ptr { vp, _ := rv2i(rv).(*map[int]string) if *vp == nil { *vp = make(map[int]string, decInferLen(containerLen, d.maxInitLen(), 24)) } if containerLen != 0 { ft.DecMapIntStringL(*vp, containerLen, d) } } else if containerLen != 0 { ft.DecMapIntStringL(rv2i(rv).(map[int]string), containerLen, d) } d.mapEnd() } func (fastpathDT[T]) DecMapIntStringL(v map[int]string, containerLen int, d *decoder[T]) { if v == nil { halt.errorInt("cannot decode into nil map[int]string given stream length: ", int64(containerLen)) } hasLen := containerLen >= 0 for j := 0; d.containerNext(j, containerLen, hasLen); j++ { d.mapElemKey(j == 0) mk := int(chkOvf.IntV(d.d.DecodeInt64(), intBitsize)) d.mapElemValue() v[mk] = d.detach2Str(d.d.DecodeStringAsBytes()) } } func (d *decoder[T]) fastpathDecMapIntBytesR(f *decFnInfo, rv reflect.Value) { var ft fastpathDT[T] containerLen := d.mapStart(d.d.ReadMapStart()) if rv.Kind() == reflect.Ptr { vp, _ := rv2i(rv).(*map[int][]byte) if *vp == nil { *vp = make(map[int][]byte, decInferLen(containerLen, d.maxInitLen(), 32)) } if containerLen != 0 { ft.DecMapIntBytesL(*vp, containerLen, d) } } else if containerLen != 0 { ft.DecMapIntBytesL(rv2i(rv).(map[int][]byte), containerLen, d) } d.mapEnd() } func (fastpathDT[T]) DecMapIntBytesL(v map[int][]byte, containerLen int, d *decoder[T]) { if v == nil { halt.errorInt("cannot decode into nil map[int][]byte given stream length: ", int64(containerLen)) } var mv []byte mapGet := !d.h.MapValueReset hasLen := containerLen >= 0 for j := 0; d.containerNext(j, containerLen, hasLen); j++ { d.mapElemKey(j == 0) mk := int(chkOvf.IntV(d.d.DecodeInt64(), intBitsize)) d.mapElemValue() if mapGet { mv = v[mk] } else { mv = nil } v[mk], _ = d.decodeBytesInto(mv, false) } } func (d *decoder[T]) fastpathDecMapIntUint8R(f *decFnInfo, rv reflect.Value) { var ft fastpathDT[T] containerLen := d.mapStart(d.d.ReadMapStart()) if rv.Kind() == reflect.Ptr { vp, _ := rv2i(rv).(*map[int]uint8) if *vp == nil { *vp = make(map[int]uint8, decInferLen(containerLen, d.maxInitLen(), 9)) } if containerLen != 0 { ft.DecMapIntUint8L(*vp, containerLen, d) } } else if containerLen != 0 { ft.DecMapIntUint8L(rv2i(rv).(map[int]uint8), containerLen, d) } d.mapEnd() } func (fastpathDT[T]) DecMapIntUint8L(v map[int]uint8, containerLen int, d *decoder[T]) { if v == nil { halt.errorInt("cannot decode into nil map[int]uint8 given stream length: ", int64(containerLen)) } hasLen := containerLen >= 0 for j := 0; d.containerNext(j, containerLen, hasLen); j++ { d.mapElemKey(j == 0) mk := int(chkOvf.IntV(d.d.DecodeInt64(), intBitsize)) d.mapElemValue() v[mk] = uint8(chkOvf.UintV(d.d.DecodeUint64(), 8)) } } func (d *decoder[T]) fastpathDecMapIntUint64R(f *decFnInfo, rv reflect.Value) { var ft fastpathDT[T] containerLen := d.mapStart(d.d.ReadMapStart()) if rv.Kind() == reflect.Ptr { vp, _ := rv2i(rv).(*map[int]uint64) if *vp == nil { *vp = make(map[int]uint64, decInferLen(containerLen, d.maxInitLen(), 16)) } if containerLen != 0 { ft.DecMapIntUint64L(*vp, containerLen, d) } } else if containerLen != 0 { ft.DecMapIntUint64L(rv2i(rv).(map[int]uint64), containerLen, d) } d.mapEnd() } func (fastpathDT[T]) DecMapIntUint64L(v map[int]uint64, containerLen int, d *decoder[T]) { if v == nil { halt.errorInt("cannot decode into nil map[int]uint64 given stream length: ", int64(containerLen)) } hasLen := containerLen >= 0 for j := 0; d.containerNext(j, containerLen, hasLen); j++ { d.mapElemKey(j == 0) mk := int(chkOvf.IntV(d.d.DecodeInt64(), intBitsize)) d.mapElemValue() v[mk] = d.d.DecodeUint64() } } func (d *decoder[T]) fastpathDecMapIntIntR(f *decFnInfo, rv reflect.Value) { var ft fastpathDT[T] containerLen := d.mapStart(d.d.ReadMapStart()) if rv.Kind() == reflect.Ptr { vp, _ := rv2i(rv).(*map[int]int) if *vp == nil { *vp = make(map[int]int, decInferLen(containerLen, d.maxInitLen(), 16)) } if containerLen != 0 { ft.DecMapIntIntL(*vp, containerLen, d) } } else if containerLen != 0 { ft.DecMapIntIntL(rv2i(rv).(map[int]int), containerLen, d) } d.mapEnd() } func (fastpathDT[T]) DecMapIntIntL(v map[int]int, containerLen int, d *decoder[T]) { if v == nil { halt.errorInt("cannot decode into nil map[int]int given stream length: ", int64(containerLen)) } hasLen := containerLen >= 0 for j := 0; d.containerNext(j, containerLen, hasLen); j++ { d.mapElemKey(j == 0) mk := int(chkOvf.IntV(d.d.DecodeInt64(), intBitsize)) d.mapElemValue() v[mk] = int(chkOvf.IntV(d.d.DecodeInt64(), intBitsize)) } } func (d *decoder[T]) fastpathDecMapIntInt32R(f *decFnInfo, rv reflect.Value) { var ft fastpathDT[T] containerLen := d.mapStart(d.d.ReadMapStart()) if rv.Kind() == reflect.Ptr { vp, _ := rv2i(rv).(*map[int]int32) if *vp == nil { *vp = make(map[int]int32, decInferLen(containerLen, d.maxInitLen(), 12)) } if containerLen != 0 { ft.DecMapIntInt32L(*vp, containerLen, d) } } else if containerLen != 0 { ft.DecMapIntInt32L(rv2i(rv).(map[int]int32), containerLen, d) } d.mapEnd() } func (fastpathDT[T]) DecMapIntInt32L(v map[int]int32, containerLen int, d *decoder[T]) { if v == nil { halt.errorInt("cannot decode into nil map[int]int32 given stream length: ", int64(containerLen)) } hasLen := containerLen >= 0 for j := 0; d.containerNext(j, containerLen, hasLen); j++ { d.mapElemKey(j == 0) mk := int(chkOvf.IntV(d.d.DecodeInt64(), intBitsize)) d.mapElemValue() v[mk] = int32(chkOvf.IntV(d.d.DecodeInt64(), 32)) } } func (d *decoder[T]) fastpathDecMapIntFloat64R(f *decFnInfo, rv reflect.Value) { var ft fastpathDT[T] containerLen := d.mapStart(d.d.ReadMapStart()) if rv.Kind() == reflect.Ptr { vp, _ := rv2i(rv).(*map[int]float64) if *vp == nil { *vp = make(map[int]float64, decInferLen(containerLen, d.maxInitLen(), 16)) } if containerLen != 0 { ft.DecMapIntFloat64L(*vp, containerLen, d) } } else if containerLen != 0 { ft.DecMapIntFloat64L(rv2i(rv).(map[int]float64), containerLen, d) } d.mapEnd() } func (fastpathDT[T]) DecMapIntFloat64L(v map[int]float64, containerLen int, d *decoder[T]) { if v == nil { halt.errorInt("cannot decode into nil map[int]float64 given stream length: ", int64(containerLen)) } hasLen := containerLen >= 0 for j := 0; d.containerNext(j, containerLen, hasLen); j++ { d.mapElemKey(j == 0) mk := int(chkOvf.IntV(d.d.DecodeInt64(), intBitsize)) d.mapElemValue() v[mk] = d.d.DecodeFloat64() } } func (d *decoder[T]) fastpathDecMapIntBoolR(f *decFnInfo, rv reflect.Value) { var ft fastpathDT[T] containerLen := d.mapStart(d.d.ReadMapStart()) if rv.Kind() == reflect.Ptr { vp, _ := rv2i(rv).(*map[int]bool) if *vp == nil { *vp = make(map[int]bool, decInferLen(containerLen, d.maxInitLen(), 9)) } if containerLen != 0 { ft.DecMapIntBoolL(*vp, containerLen, d) } } else if containerLen != 0 { ft.DecMapIntBoolL(rv2i(rv).(map[int]bool), containerLen, d) } d.mapEnd() } func (fastpathDT[T]) DecMapIntBoolL(v map[int]bool, containerLen int, d *decoder[T]) { if v == nil { halt.errorInt("cannot decode into nil map[int]bool given stream length: ", int64(containerLen)) } hasLen := containerLen >= 0 for j := 0; d.containerNext(j, containerLen, hasLen); j++ { d.mapElemKey(j == 0) mk := int(chkOvf.IntV(d.d.DecodeInt64(), intBitsize)) d.mapElemValue() v[mk] = d.d.DecodeBool() } } func (d *decoder[T]) fastpathDecMapInt32IntfR(f *decFnInfo, rv reflect.Value) { var ft fastpathDT[T] containerLen := d.mapStart(d.d.ReadMapStart()) if rv.Kind() == reflect.Ptr { vp, _ := rv2i(rv).(*map[int32]interface{}) if *vp == nil { *vp = make(map[int32]interface{}, decInferLen(containerLen, d.maxInitLen(), 20)) } if containerLen != 0 { ft.DecMapInt32IntfL(*vp, containerLen, d) } } else if containerLen != 0 { ft.DecMapInt32IntfL(rv2i(rv).(map[int32]interface{}), containerLen, d) } d.mapEnd() } func (fastpathDT[T]) DecMapInt32IntfL(v map[int32]interface{}, containerLen int, d *decoder[T]) { if v == nil { halt.errorInt("cannot decode into nil map[int32]interface{} given stream length: ", int64(containerLen)) } var mv interface{} mapGet := !d.h.MapValueReset && !d.h.InterfaceReset hasLen := containerLen >= 0 for j := 0; d.containerNext(j, containerLen, hasLen); j++ { d.mapElemKey(j == 0) mk := int32(chkOvf.IntV(d.d.DecodeInt64(), 32)) d.mapElemValue() if mapGet { mv = v[mk] } else { mv = nil } d.decode(&mv) v[mk] = mv } } func (d *decoder[T]) fastpathDecMapInt32StringR(f *decFnInfo, rv reflect.Value) { var ft fastpathDT[T] containerLen := d.mapStart(d.d.ReadMapStart()) if rv.Kind() == reflect.Ptr { vp, _ := rv2i(rv).(*map[int32]string) if *vp == nil { *vp = make(map[int32]string, decInferLen(containerLen, d.maxInitLen(), 20)) } if containerLen != 0 { ft.DecMapInt32StringL(*vp, containerLen, d) } } else if containerLen != 0 { ft.DecMapInt32StringL(rv2i(rv).(map[int32]string), containerLen, d) } d.mapEnd() } func (fastpathDT[T]) DecMapInt32StringL(v map[int32]string, containerLen int, d *decoder[T]) { if v == nil { halt.errorInt("cannot decode into nil map[int32]string given stream length: ", int64(containerLen)) } hasLen := containerLen >= 0 for j := 0; d.containerNext(j, containerLen, hasLen); j++ { d.mapElemKey(j == 0) mk := int32(chkOvf.IntV(d.d.DecodeInt64(), 32)) d.mapElemValue() v[mk] = d.detach2Str(d.d.DecodeStringAsBytes()) } } func (d *decoder[T]) fastpathDecMapInt32BytesR(f *decFnInfo, rv reflect.Value) { var ft fastpathDT[T] containerLen := d.mapStart(d.d.ReadMapStart()) if rv.Kind() == reflect.Ptr { vp, _ := rv2i(rv).(*map[int32][]byte) if *vp == nil { *vp = make(map[int32][]byte, decInferLen(containerLen, d.maxInitLen(), 28)) } if containerLen != 0 { ft.DecMapInt32BytesL(*vp, containerLen, d) } } else if containerLen != 0 { ft.DecMapInt32BytesL(rv2i(rv).(map[int32][]byte), containerLen, d) } d.mapEnd() } func (fastpathDT[T]) DecMapInt32BytesL(v map[int32][]byte, containerLen int, d *decoder[T]) { if v == nil { halt.errorInt("cannot decode into nil map[int32][]byte given stream length: ", int64(containerLen)) } var mv []byte mapGet := !d.h.MapValueReset hasLen := containerLen >= 0 for j := 0; d.containerNext(j, containerLen, hasLen); j++ { d.mapElemKey(j == 0) mk := int32(chkOvf.IntV(d.d.DecodeInt64(), 32)) d.mapElemValue() if mapGet { mv = v[mk] } else { mv = nil } v[mk], _ = d.decodeBytesInto(mv, false) } } func (d *decoder[T]) fastpathDecMapInt32Uint8R(f *decFnInfo, rv reflect.Value) { var ft fastpathDT[T] containerLen := d.mapStart(d.d.ReadMapStart()) if rv.Kind() == reflect.Ptr { vp, _ := rv2i(rv).(*map[int32]uint8) if *vp == nil { *vp = make(map[int32]uint8, decInferLen(containerLen, d.maxInitLen(), 5)) } if containerLen != 0 { ft.DecMapInt32Uint8L(*vp, containerLen, d) } } else if containerLen != 0 { ft.DecMapInt32Uint8L(rv2i(rv).(map[int32]uint8), containerLen, d) } d.mapEnd() } func (fastpathDT[T]) DecMapInt32Uint8L(v map[int32]uint8, containerLen int, d *decoder[T]) { if v == nil { halt.errorInt("cannot decode into nil map[int32]uint8 given stream length: ", int64(containerLen)) } hasLen := containerLen >= 0 for j := 0; d.containerNext(j, containerLen, hasLen); j++ { d.mapElemKey(j == 0) mk := int32(chkOvf.IntV(d.d.DecodeInt64(), 32)) d.mapElemValue() v[mk] = uint8(chkOvf.UintV(d.d.DecodeUint64(), 8)) } } func (d *decoder[T]) fastpathDecMapInt32Uint64R(f *decFnInfo, rv reflect.Value) { var ft fastpathDT[T] containerLen := d.mapStart(d.d.ReadMapStart()) if rv.Kind() == reflect.Ptr { vp, _ := rv2i(rv).(*map[int32]uint64) if *vp == nil { *vp = make(map[int32]uint64, decInferLen(containerLen, d.maxInitLen(), 12)) } if containerLen != 0 { ft.DecMapInt32Uint64L(*vp, containerLen, d) } } else if containerLen != 0 { ft.DecMapInt32Uint64L(rv2i(rv).(map[int32]uint64), containerLen, d) } d.mapEnd() } func (fastpathDT[T]) DecMapInt32Uint64L(v map[int32]uint64, containerLen int, d *decoder[T]) { if v == nil { halt.errorInt("cannot decode into nil map[int32]uint64 given stream length: ", int64(containerLen)) } hasLen := containerLen >= 0 for j := 0; d.containerNext(j, containerLen, hasLen); j++ { d.mapElemKey(j == 0) mk := int32(chkOvf.IntV(d.d.DecodeInt64(), 32)) d.mapElemValue() v[mk] = d.d.DecodeUint64() } } func (d *decoder[T]) fastpathDecMapInt32IntR(f *decFnInfo, rv reflect.Value) { var ft fastpathDT[T] containerLen := d.mapStart(d.d.ReadMapStart()) if rv.Kind() == reflect.Ptr { vp, _ := rv2i(rv).(*map[int32]int) if *vp == nil { *vp = make(map[int32]int, decInferLen(containerLen, d.maxInitLen(), 12)) } if containerLen != 0 { ft.DecMapInt32IntL(*vp, containerLen, d) } } else if containerLen != 0 { ft.DecMapInt32IntL(rv2i(rv).(map[int32]int), containerLen, d) } d.mapEnd() } func (fastpathDT[T]) DecMapInt32IntL(v map[int32]int, containerLen int, d *decoder[T]) { if v == nil { halt.errorInt("cannot decode into nil map[int32]int given stream length: ", int64(containerLen)) } hasLen := containerLen >= 0 for j := 0; d.containerNext(j, containerLen, hasLen); j++ { d.mapElemKey(j == 0) mk := int32(chkOvf.IntV(d.d.DecodeInt64(), 32)) d.mapElemValue() v[mk] = int(chkOvf.IntV(d.d.DecodeInt64(), intBitsize)) } } func (d *decoder[T]) fastpathDecMapInt32Int32R(f *decFnInfo, rv reflect.Value) { var ft fastpathDT[T] containerLen := d.mapStart(d.d.ReadMapStart()) if rv.Kind() == reflect.Ptr { vp, _ := rv2i(rv).(*map[int32]int32) if *vp == nil { *vp = make(map[int32]int32, decInferLen(containerLen, d.maxInitLen(), 8)) } if containerLen != 0 { ft.DecMapInt32Int32L(*vp, containerLen, d) } } else if containerLen != 0 { ft.DecMapInt32Int32L(rv2i(rv).(map[int32]int32), containerLen, d) } d.mapEnd() } func (fastpathDT[T]) DecMapInt32Int32L(v map[int32]int32, containerLen int, d *decoder[T]) { if v == nil { halt.errorInt("cannot decode into nil map[int32]int32 given stream length: ", int64(containerLen)) } hasLen := containerLen >= 0 for j := 0; d.containerNext(j, containerLen, hasLen); j++ { d.mapElemKey(j == 0) mk := int32(chkOvf.IntV(d.d.DecodeInt64(), 32)) d.mapElemValue() v[mk] = int32(chkOvf.IntV(d.d.DecodeInt64(), 32)) } } func (d *decoder[T]) fastpathDecMapInt32Float64R(f *decFnInfo, rv reflect.Value) { var ft fastpathDT[T] containerLen := d.mapStart(d.d.ReadMapStart()) if rv.Kind() == reflect.Ptr { vp, _ := rv2i(rv).(*map[int32]float64) if *vp == nil { *vp = make(map[int32]float64, decInferLen(containerLen, d.maxInitLen(), 12)) } if containerLen != 0 { ft.DecMapInt32Float64L(*vp, containerLen, d) } } else if containerLen != 0 { ft.DecMapInt32Float64L(rv2i(rv).(map[int32]float64), containerLen, d) } d.mapEnd() } func (fastpathDT[T]) DecMapInt32Float64L(v map[int32]float64, containerLen int, d *decoder[T]) { if v == nil { halt.errorInt("cannot decode into nil map[int32]float64 given stream length: ", int64(containerLen)) } hasLen := containerLen >= 0 for j := 0; d.containerNext(j, containerLen, hasLen); j++ { d.mapElemKey(j == 0) mk := int32(chkOvf.IntV(d.d.DecodeInt64(), 32)) d.mapElemValue() v[mk] = d.d.DecodeFloat64() } } func (d *decoder[T]) fastpathDecMapInt32BoolR(f *decFnInfo, rv reflect.Value) { var ft fastpathDT[T] containerLen := d.mapStart(d.d.ReadMapStart()) if rv.Kind() == reflect.Ptr { vp, _ := rv2i(rv).(*map[int32]bool) if *vp == nil { *vp = make(map[int32]bool, decInferLen(containerLen, d.maxInitLen(), 5)) } if containerLen != 0 { ft.DecMapInt32BoolL(*vp, containerLen, d) } } else if containerLen != 0 { ft.DecMapInt32BoolL(rv2i(rv).(map[int32]bool), containerLen, d) } d.mapEnd() } func (fastpathDT[T]) DecMapInt32BoolL(v map[int32]bool, containerLen int, d *decoder[T]) { if v == nil { halt.errorInt("cannot decode into nil map[int32]bool given stream length: ", int64(containerLen)) } hasLen := containerLen >= 0 for j := 0; d.containerNext(j, containerLen, hasLen); j++ { d.mapElemKey(j == 0) mk := int32(chkOvf.IntV(d.d.DecodeInt64(), 32)) d.mapElemValue() v[mk] = d.d.DecodeBool() } }