//go:build !notfastpath && !codec.notfastpath // +build !notfastpath,!codec.notfastpath // 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 fast-path.go.tmpl - DO NOT EDIT. package codec // Fast path functions try to create a fast path encode or decode implementation // for common maps and slices. // // We define the functions and register them in this single file // so as not to pollute the encode.go and decode.go, and create a dependency in there. // This file can be omitted without causing a build failure. // // The advantage of fast paths is: // - Many calls bypass reflection altogether // // Currently support // - slice of all builtin types (numeric, bool, string, []byte) // - maps of builtin types to builtin or interface{} type, EXCEPT FOR // keys of type uintptr, int8/16/32, uint16/32, float32/64, bool, interface{} // AND values of type type int8/16/32, uint16/32 // This should provide adequate "typical" implementations. // // Note that fast track decode functions must handle values for which an address cannot be obtained. // For example: // m2 := map[string]int{} // p2 := []interface{}{m2} // // decoding into p2 will bomb if fast track functions do not treat like unaddressable. // import ( "reflect" "sort" ) const fastpathEnabled = true type fastpathT struct{} var fastpathTV fastpathT type fastpathE struct { rt reflect.Type encfn func(*Encoder, *codecFnInfo, reflect.Value) decfn func(*Decoder, *codecFnInfo, reflect.Value) } type fastpathA [56]fastpathE type fastpathARtid [56]uintptr var fastpathAv fastpathA var fastpathAvRtid fastpathARtid type fastpathAslice struct{} func (fastpathAslice) Len() int { return 56 } func (fastpathAslice) Less(i, j int) bool { return fastpathAvRtid[uint(i)] < fastpathAvRtid[uint(j)] } func (fastpathAslice) Swap(i, j int) { fastpathAvRtid[uint(i)], fastpathAvRtid[uint(j)] = fastpathAvRtid[uint(j)], fastpathAvRtid[uint(i)] fastpathAv[uint(i)], fastpathAv[uint(j)] = fastpathAv[uint(j)], fastpathAv[uint(i)] } func fastpathAvIndex(rtid uintptr) int { // use binary search to grab the index (adapted from sort/search.go) // Note: we use goto (instead of for loop) so this can be inlined. // h, i, j := 0, 0, 56 var h, i uint var j uint = 56 LOOP: if i < j { h = (i + j) >> 1 // avoid overflow when computing h // h = i + (j-i)/2 if fastpathAvRtid[h] < rtid { i = h + 1 } else { j = h } goto LOOP } if i < 56 && fastpathAvRtid[i] == rtid { return int(i) } return -1 } // due to possible initialization loop error, make fastpath in an init() func init() { var i uint = 0 fn := func(v interface{}, fe func(*Encoder, *codecFnInfo, reflect.Value), fd func(*Decoder, *codecFnInfo, reflect.Value)) { xrt := reflect.TypeOf(v) xptr := rt2id(xrt) fastpathAvRtid[i] = xptr fastpathAv[i] = fastpathE{xrt, fe, fd} i++ } fn([]interface{}(nil), (*Encoder).fastpathEncSliceIntfR, (*Decoder).fastpathDecSliceIntfR) fn([]string(nil), (*Encoder).fastpathEncSliceStringR, (*Decoder).fastpathDecSliceStringR) fn([][]byte(nil), (*Encoder).fastpathEncSliceBytesR, (*Decoder).fastpathDecSliceBytesR) fn([]float32(nil), (*Encoder).fastpathEncSliceFloat32R, (*Decoder).fastpathDecSliceFloat32R) fn([]float64(nil), (*Encoder).fastpathEncSliceFloat64R, (*Decoder).fastpathDecSliceFloat64R) fn([]uint8(nil), (*Encoder).fastpathEncSliceUint8R, (*Decoder).fastpathDecSliceUint8R) fn([]uint64(nil), (*Encoder).fastpathEncSliceUint64R, (*Decoder).fastpathDecSliceUint64R) fn([]int(nil), (*Encoder).fastpathEncSliceIntR, (*Decoder).fastpathDecSliceIntR) fn([]int32(nil), (*Encoder).fastpathEncSliceInt32R, (*Decoder).fastpathDecSliceInt32R) fn([]int64(nil), (*Encoder).fastpathEncSliceInt64R, (*Decoder).fastpathDecSliceInt64R) fn([]bool(nil), (*Encoder).fastpathEncSliceBoolR, (*Decoder).fastpathDecSliceBoolR) fn(map[string]interface{}(nil), (*Encoder).fastpathEncMapStringIntfR, (*Decoder).fastpathDecMapStringIntfR) fn(map[string]string(nil), (*Encoder).fastpathEncMapStringStringR, (*Decoder).fastpathDecMapStringStringR) fn(map[string][]byte(nil), (*Encoder).fastpathEncMapStringBytesR, (*Decoder).fastpathDecMapStringBytesR) fn(map[string]uint8(nil), (*Encoder).fastpathEncMapStringUint8R, (*Decoder).fastpathDecMapStringUint8R) fn(map[string]uint64(nil), (*Encoder).fastpathEncMapStringUint64R, (*Decoder).fastpathDecMapStringUint64R) fn(map[string]int(nil), (*Encoder).fastpathEncMapStringIntR, (*Decoder).fastpathDecMapStringIntR) fn(map[string]int32(nil), (*Encoder).fastpathEncMapStringInt32R, (*Decoder).fastpathDecMapStringInt32R) fn(map[string]float64(nil), (*Encoder).fastpathEncMapStringFloat64R, (*Decoder).fastpathDecMapStringFloat64R) fn(map[string]bool(nil), (*Encoder).fastpathEncMapStringBoolR, (*Decoder).fastpathDecMapStringBoolR) fn(map[uint8]interface{}(nil), (*Encoder).fastpathEncMapUint8IntfR, (*Decoder).fastpathDecMapUint8IntfR) fn(map[uint8]string(nil), (*Encoder).fastpathEncMapUint8StringR, (*Decoder).fastpathDecMapUint8StringR) fn(map[uint8][]byte(nil), (*Encoder).fastpathEncMapUint8BytesR, (*Decoder).fastpathDecMapUint8BytesR) fn(map[uint8]uint8(nil), (*Encoder).fastpathEncMapUint8Uint8R, (*Decoder).fastpathDecMapUint8Uint8R) fn(map[uint8]uint64(nil), (*Encoder).fastpathEncMapUint8Uint64R, (*Decoder).fastpathDecMapUint8Uint64R) fn(map[uint8]int(nil), (*Encoder).fastpathEncMapUint8IntR, (*Decoder).fastpathDecMapUint8IntR) fn(map[uint8]int32(nil), (*Encoder).fastpathEncMapUint8Int32R, (*Decoder).fastpathDecMapUint8Int32R) fn(map[uint8]float64(nil), (*Encoder).fastpathEncMapUint8Float64R, (*Decoder).fastpathDecMapUint8Float64R) fn(map[uint8]bool(nil), (*Encoder).fastpathEncMapUint8BoolR, (*Decoder).fastpathDecMapUint8BoolR) fn(map[uint64]interface{}(nil), (*Encoder).fastpathEncMapUint64IntfR, (*Decoder).fastpathDecMapUint64IntfR) fn(map[uint64]string(nil), (*Encoder).fastpathEncMapUint64StringR, (*Decoder).fastpathDecMapUint64StringR) fn(map[uint64][]byte(nil), (*Encoder).fastpathEncMapUint64BytesR, (*Decoder).fastpathDecMapUint64BytesR) fn(map[uint64]uint8(nil), (*Encoder).fastpathEncMapUint64Uint8R, (*Decoder).fastpathDecMapUint64Uint8R) fn(map[uint64]uint64(nil), (*Encoder).fastpathEncMapUint64Uint64R, (*Decoder).fastpathDecMapUint64Uint64R) fn(map[uint64]int(nil), (*Encoder).fastpathEncMapUint64IntR, (*Decoder).fastpathDecMapUint64IntR) fn(map[uint64]int32(nil), (*Encoder).fastpathEncMapUint64Int32R, (*Decoder).fastpathDecMapUint64Int32R) fn(map[uint64]float64(nil), (*Encoder).fastpathEncMapUint64Float64R, (*Decoder).fastpathDecMapUint64Float64R) fn(map[uint64]bool(nil), (*Encoder).fastpathEncMapUint64BoolR, (*Decoder).fastpathDecMapUint64BoolR) fn(map[int]interface{}(nil), (*Encoder).fastpathEncMapIntIntfR, (*Decoder).fastpathDecMapIntIntfR) fn(map[int]string(nil), (*Encoder).fastpathEncMapIntStringR, (*Decoder).fastpathDecMapIntStringR) fn(map[int][]byte(nil), (*Encoder).fastpathEncMapIntBytesR, (*Decoder).fastpathDecMapIntBytesR) fn(map[int]uint8(nil), (*Encoder).fastpathEncMapIntUint8R, (*Decoder).fastpathDecMapIntUint8R) fn(map[int]uint64(nil), (*Encoder).fastpathEncMapIntUint64R, (*Decoder).fastpathDecMapIntUint64R) fn(map[int]int(nil), (*Encoder).fastpathEncMapIntIntR, (*Decoder).fastpathDecMapIntIntR) fn(map[int]int32(nil), (*Encoder).fastpathEncMapIntInt32R, (*Decoder).fastpathDecMapIntInt32R) fn(map[int]float64(nil), (*Encoder).fastpathEncMapIntFloat64R, (*Decoder).fastpathDecMapIntFloat64R) fn(map[int]bool(nil), (*Encoder).fastpathEncMapIntBoolR, (*Decoder).fastpathDecMapIntBoolR) fn(map[int32]interface{}(nil), (*Encoder).fastpathEncMapInt32IntfR, (*Decoder).fastpathDecMapInt32IntfR) fn(map[int32]string(nil), (*Encoder).fastpathEncMapInt32StringR, (*Decoder).fastpathDecMapInt32StringR) fn(map[int32][]byte(nil), (*Encoder).fastpathEncMapInt32BytesR, (*Decoder).fastpathDecMapInt32BytesR) fn(map[int32]uint8(nil), (*Encoder).fastpathEncMapInt32Uint8R, (*Decoder).fastpathDecMapInt32Uint8R) fn(map[int32]uint64(nil), (*Encoder).fastpathEncMapInt32Uint64R, (*Decoder).fastpathDecMapInt32Uint64R) fn(map[int32]int(nil), (*Encoder).fastpathEncMapInt32IntR, (*Decoder).fastpathDecMapInt32IntR) fn(map[int32]int32(nil), (*Encoder).fastpathEncMapInt32Int32R, (*Decoder).fastpathDecMapInt32Int32R) fn(map[int32]float64(nil), (*Encoder).fastpathEncMapInt32Float64R, (*Decoder).fastpathDecMapInt32Float64R) fn(map[int32]bool(nil), (*Encoder).fastpathEncMapInt32BoolR, (*Decoder).fastpathDecMapInt32BoolR) sort.Sort(fastpathAslice{}) } // -- encode // -- -- fast path type switch func fastpathEncodeTypeSwitch(iv interface{}, e *Encoder) bool { switch v := iv.(type) { case []interface{}: fastpathTV.EncSliceIntfV(v, e) case *[]interface{}: if *v == nil { e.e.EncodeNil() } else { fastpathTV.EncSliceIntfV(*v, e) } case []string: fastpathTV.EncSliceStringV(v, e) case *[]string: if *v == nil { e.e.EncodeNil() } else { fastpathTV.EncSliceStringV(*v, e) } case [][]byte: fastpathTV.EncSliceBytesV(v, e) case *[][]byte: if *v == nil { e.e.EncodeNil() } else { fastpathTV.EncSliceBytesV(*v, e) } case []float32: fastpathTV.EncSliceFloat32V(v, e) case *[]float32: if *v == nil { e.e.EncodeNil() } else { fastpathTV.EncSliceFloat32V(*v, e) } case []float64: fastpathTV.EncSliceFloat64V(v, e) case *[]float64: if *v == nil { e.e.EncodeNil() } else { fastpathTV.EncSliceFloat64V(*v, e) } case []uint8: fastpathTV.EncSliceUint8V(v, e) case *[]uint8: if *v == nil { e.e.EncodeNil() } else { fastpathTV.EncSliceUint8V(*v, e) } case []uint64: fastpathTV.EncSliceUint64V(v, e) case *[]uint64: if *v == nil { e.e.EncodeNil() } else { fastpathTV.EncSliceUint64V(*v, e) } case []int: fastpathTV.EncSliceIntV(v, e) case *[]int: if *v == nil { e.e.EncodeNil() } else { fastpathTV.EncSliceIntV(*v, e) } case []int32: fastpathTV.EncSliceInt32V(v, e) case *[]int32: if *v == nil { e.e.EncodeNil() } else { fastpathTV.EncSliceInt32V(*v, e) } case []int64: fastpathTV.EncSliceInt64V(v, e) case *[]int64: if *v == nil { e.e.EncodeNil() } else { fastpathTV.EncSliceInt64V(*v, e) } case []bool: fastpathTV.EncSliceBoolV(v, e) case *[]bool: if *v == nil { e.e.EncodeNil() } else { fastpathTV.EncSliceBoolV(*v, e) } case map[string]interface{}: fastpathTV.EncMapStringIntfV(v, e) case *map[string]interface{}: if *v == nil { e.e.EncodeNil() } else { fastpathTV.EncMapStringIntfV(*v, e) } case map[string]string: fastpathTV.EncMapStringStringV(v, e) case *map[string]string: if *v == nil { e.e.EncodeNil() } else { fastpathTV.EncMapStringStringV(*v, e) } case map[string][]byte: fastpathTV.EncMapStringBytesV(v, e) case *map[string][]byte: if *v == nil { e.e.EncodeNil() } else { fastpathTV.EncMapStringBytesV(*v, e) } case map[string]uint8: fastpathTV.EncMapStringUint8V(v, e) case *map[string]uint8: if *v == nil { e.e.EncodeNil() } else { fastpathTV.EncMapStringUint8V(*v, e) } case map[string]uint64: fastpathTV.EncMapStringUint64V(v, e) case *map[string]uint64: if *v == nil { e.e.EncodeNil() } else { fastpathTV.EncMapStringUint64V(*v, e) } case map[string]int: fastpathTV.EncMapStringIntV(v, e) case *map[string]int: if *v == nil { e.e.EncodeNil() } else { fastpathTV.EncMapStringIntV(*v, e) } case map[string]int32: fastpathTV.EncMapStringInt32V(v, e) case *map[string]int32: if *v == nil { e.e.EncodeNil() } else { fastpathTV.EncMapStringInt32V(*v, e) } case map[string]float64: fastpathTV.EncMapStringFloat64V(v, e) case *map[string]float64: if *v == nil { e.e.EncodeNil() } else { fastpathTV.EncMapStringFloat64V(*v, e) } case map[string]bool: fastpathTV.EncMapStringBoolV(v, e) case *map[string]bool: if *v == nil { e.e.EncodeNil() } else { fastpathTV.EncMapStringBoolV(*v, e) } case map[uint8]interface{}: fastpathTV.EncMapUint8IntfV(v, e) case *map[uint8]interface{}: if *v == nil { e.e.EncodeNil() } else { fastpathTV.EncMapUint8IntfV(*v, e) } case map[uint8]string: fastpathTV.EncMapUint8StringV(v, e) case *map[uint8]string: if *v == nil { e.e.EncodeNil() } else { fastpathTV.EncMapUint8StringV(*v, e) } case map[uint8][]byte: fastpathTV.EncMapUint8BytesV(v, e) case *map[uint8][]byte: if *v == nil { e.e.EncodeNil() } else { fastpathTV.EncMapUint8BytesV(*v, e) } case map[uint8]uint8: fastpathTV.EncMapUint8Uint8V(v, e) case *map[uint8]uint8: if *v == nil { e.e.EncodeNil() } else { fastpathTV.EncMapUint8Uint8V(*v, e) } case map[uint8]uint64: fastpathTV.EncMapUint8Uint64V(v, e) case *map[uint8]uint64: if *v == nil { e.e.EncodeNil() } else { fastpathTV.EncMapUint8Uint64V(*v, e) } case map[uint8]int: fastpathTV.EncMapUint8IntV(v, e) case *map[uint8]int: if *v == nil { e.e.EncodeNil() } else { fastpathTV.EncMapUint8IntV(*v, e) } case map[uint8]int32: fastpathTV.EncMapUint8Int32V(v, e) case *map[uint8]int32: if *v == nil { e.e.EncodeNil() } else { fastpathTV.EncMapUint8Int32V(*v, e) } case map[uint8]float64: fastpathTV.EncMapUint8Float64V(v, e) case *map[uint8]float64: if *v == nil { e.e.EncodeNil() } else { fastpathTV.EncMapUint8Float64V(*v, e) } case map[uint8]bool: fastpathTV.EncMapUint8BoolV(v, e) case *map[uint8]bool: if *v == nil { e.e.EncodeNil() } else { fastpathTV.EncMapUint8BoolV(*v, e) } case map[uint64]interface{}: fastpathTV.EncMapUint64IntfV(v, e) case *map[uint64]interface{}: if *v == nil { e.e.EncodeNil() } else { fastpathTV.EncMapUint64IntfV(*v, e) } case map[uint64]string: fastpathTV.EncMapUint64StringV(v, e) case *map[uint64]string: if *v == nil { e.e.EncodeNil() } else { fastpathTV.EncMapUint64StringV(*v, e) } case map[uint64][]byte: fastpathTV.EncMapUint64BytesV(v, e) case *map[uint64][]byte: if *v == nil { e.e.EncodeNil() } else { fastpathTV.EncMapUint64BytesV(*v, e) } case map[uint64]uint8: fastpathTV.EncMapUint64Uint8V(v, e) case *map[uint64]uint8: if *v == nil { e.e.EncodeNil() } else { fastpathTV.EncMapUint64Uint8V(*v, e) } case map[uint64]uint64: fastpathTV.EncMapUint64Uint64V(v, e) case *map[uint64]uint64: if *v == nil { e.e.EncodeNil() } else { fastpathTV.EncMapUint64Uint64V(*v, e) } case map[uint64]int: fastpathTV.EncMapUint64IntV(v, e) case *map[uint64]int: if *v == nil { e.e.EncodeNil() } else { fastpathTV.EncMapUint64IntV(*v, e) } case map[uint64]int32: fastpathTV.EncMapUint64Int32V(v, e) case *map[uint64]int32: if *v == nil { e.e.EncodeNil() } else { fastpathTV.EncMapUint64Int32V(*v, e) } case map[uint64]float64: fastpathTV.EncMapUint64Float64V(v, e) case *map[uint64]float64: if *v == nil { e.e.EncodeNil() } else { fastpathTV.EncMapUint64Float64V(*v, e) } case map[uint64]bool: fastpathTV.EncMapUint64BoolV(v, e) case *map[uint64]bool: if *v == nil { e.e.EncodeNil() } else { fastpathTV.EncMapUint64BoolV(*v, e) } case map[int]interface{}: fastpathTV.EncMapIntIntfV(v, e) case *map[int]interface{}: if *v == nil { e.e.EncodeNil() } else { fastpathTV.EncMapIntIntfV(*v, e) } case map[int]string: fastpathTV.EncMapIntStringV(v, e) case *map[int]string: if *v == nil { e.e.EncodeNil() } else { fastpathTV.EncMapIntStringV(*v, e) } case map[int][]byte: fastpathTV.EncMapIntBytesV(v, e) case *map[int][]byte: if *v == nil { e.e.EncodeNil() } else { fastpathTV.EncMapIntBytesV(*v, e) } case map[int]uint8: fastpathTV.EncMapIntUint8V(v, e) case *map[int]uint8: if *v == nil { e.e.EncodeNil() } else { fastpathTV.EncMapIntUint8V(*v, e) } case map[int]uint64: fastpathTV.EncMapIntUint64V(v, e) case *map[int]uint64: if *v == nil { e.e.EncodeNil() } else { fastpathTV.EncMapIntUint64V(*v, e) } case map[int]int: fastpathTV.EncMapIntIntV(v, e) case *map[int]int: if *v == nil { e.e.EncodeNil() } else { fastpathTV.EncMapIntIntV(*v, e) } case map[int]int32: fastpathTV.EncMapIntInt32V(v, e) case *map[int]int32: if *v == nil { e.e.EncodeNil() } else { fastpathTV.EncMapIntInt32V(*v, e) } case map[int]float64: fastpathTV.EncMapIntFloat64V(v, e) case *map[int]float64: if *v == nil { e.e.EncodeNil() } else { fastpathTV.EncMapIntFloat64V(*v, e) } case map[int]bool: fastpathTV.EncMapIntBoolV(v, e) case *map[int]bool: if *v == nil { e.e.EncodeNil() } else { fastpathTV.EncMapIntBoolV(*v, e) } case map[int32]interface{}: fastpathTV.EncMapInt32IntfV(v, e) case *map[int32]interface{}: if *v == nil { e.e.EncodeNil() } else { fastpathTV.EncMapInt32IntfV(*v, e) } case map[int32]string: fastpathTV.EncMapInt32StringV(v, e) case *map[int32]string: if *v == nil { e.e.EncodeNil() } else { fastpathTV.EncMapInt32StringV(*v, e) } case map[int32][]byte: fastpathTV.EncMapInt32BytesV(v, e) case *map[int32][]byte: if *v == nil { e.e.EncodeNil() } else { fastpathTV.EncMapInt32BytesV(*v, e) } case map[int32]uint8: fastpathTV.EncMapInt32Uint8V(v, e) case *map[int32]uint8: if *v == nil { e.e.EncodeNil() } else { fastpathTV.EncMapInt32Uint8V(*v, e) } case map[int32]uint64: fastpathTV.EncMapInt32Uint64V(v, e) case *map[int32]uint64: if *v == nil { e.e.EncodeNil() } else { fastpathTV.EncMapInt32Uint64V(*v, e) } case map[int32]int: fastpathTV.EncMapInt32IntV(v, e) case *map[int32]int: if *v == nil { e.e.EncodeNil() } else { fastpathTV.EncMapInt32IntV(*v, e) } case map[int32]int32: fastpathTV.EncMapInt32Int32V(v, e) case *map[int32]int32: if *v == nil { e.e.EncodeNil() } else { fastpathTV.EncMapInt32Int32V(*v, e) } case map[int32]float64: fastpathTV.EncMapInt32Float64V(v, e) case *map[int32]float64: if *v == nil { e.e.EncodeNil() } else { fastpathTV.EncMapInt32Float64V(*v, e) } case map[int32]bool: fastpathTV.EncMapInt32BoolV(v, e) case *map[int32]bool: if *v == nil { e.e.EncodeNil() } else { fastpathTV.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) fastpathEncSliceIntfR(f *codecFnInfo, rv reflect.Value) { var v []interface{} if rv.Kind() == reflect.Array { rvGetSlice4Array(rv, &v) } else { v = rv2i(rv).([]interface{}) } if f.ti.mbs { fastpathTV.EncAsMapSliceIntfV(v, e) } else { fastpathTV.EncSliceIntfV(v, e) } } func (fastpathT) EncSliceIntfV(v []interface{}, e *Encoder) { e.arrayStart(len(v)) for j := range v { e.arrayElem() e.encode(v[j]) } e.arrayEnd() } func (fastpathT) EncAsMapSliceIntfV(v []interface{}, e *Encoder) { 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.mapElemKey() } else { e.mapElemValue() } e.encode(v[j]) } e.mapEnd() } func (e *Encoder) fastpathEncSliceStringR(f *codecFnInfo, rv reflect.Value) { var v []string if rv.Kind() == reflect.Array { rvGetSlice4Array(rv, &v) } else { v = rv2i(rv).([]string) } if f.ti.mbs { fastpathTV.EncAsMapSliceStringV(v, e) } else { fastpathTV.EncSliceStringV(v, e) } } func (fastpathT) EncSliceStringV(v []string, e *Encoder) { e.arrayStart(len(v)) for j := range v { e.arrayElem() e.e.EncodeString(v[j]) } e.arrayEnd() } func (fastpathT) EncAsMapSliceStringV(v []string, e *Encoder) { 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.mapElemKey() } else { e.mapElemValue() } e.e.EncodeString(v[j]) } e.mapEnd() } func (e *Encoder) fastpathEncSliceBytesR(f *codecFnInfo, rv reflect.Value) { var v [][]byte if rv.Kind() == reflect.Array { rvGetSlice4Array(rv, &v) } else { v = rv2i(rv).([][]byte) } if f.ti.mbs { fastpathTV.EncAsMapSliceBytesV(v, e) } else { fastpathTV.EncSliceBytesV(v, e) } } func (fastpathT) EncSliceBytesV(v [][]byte, e *Encoder) { e.arrayStart(len(v)) for j := range v { e.arrayElem() e.e.EncodeStringBytesRaw(v[j]) } e.arrayEnd() } func (fastpathT) EncAsMapSliceBytesV(v [][]byte, e *Encoder) { 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.mapElemKey() } else { e.mapElemValue() } e.e.EncodeStringBytesRaw(v[j]) } e.mapEnd() } func (e *Encoder) fastpathEncSliceFloat32R(f *codecFnInfo, rv reflect.Value) { var v []float32 if rv.Kind() == reflect.Array { rvGetSlice4Array(rv, &v) } else { v = rv2i(rv).([]float32) } if f.ti.mbs { fastpathTV.EncAsMapSliceFloat32V(v, e) } else { fastpathTV.EncSliceFloat32V(v, e) } } func (fastpathT) EncSliceFloat32V(v []float32, e *Encoder) { e.arrayStart(len(v)) for j := range v { e.arrayElem() e.e.EncodeFloat32(v[j]) } e.arrayEnd() } func (fastpathT) EncAsMapSliceFloat32V(v []float32, e *Encoder) { 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.mapElemKey() } else { e.mapElemValue() } e.e.EncodeFloat32(v[j]) } e.mapEnd() } func (e *Encoder) fastpathEncSliceFloat64R(f *codecFnInfo, rv reflect.Value) { var v []float64 if rv.Kind() == reflect.Array { rvGetSlice4Array(rv, &v) } else { v = rv2i(rv).([]float64) } if f.ti.mbs { fastpathTV.EncAsMapSliceFloat64V(v, e) } else { fastpathTV.EncSliceFloat64V(v, e) } } func (fastpathT) EncSliceFloat64V(v []float64, e *Encoder) { e.arrayStart(len(v)) for j := range v { e.arrayElem() e.e.EncodeFloat64(v[j]) } e.arrayEnd() } func (fastpathT) EncAsMapSliceFloat64V(v []float64, e *Encoder) { 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.mapElemKey() } else { e.mapElemValue() } e.e.EncodeFloat64(v[j]) } e.mapEnd() } func (e *Encoder) fastpathEncSliceUint8R(f *codecFnInfo, rv reflect.Value) { var v []uint8 if rv.Kind() == reflect.Array { rvGetSlice4Array(rv, &v) } else { v = rv2i(rv).([]uint8) } if f.ti.mbs { fastpathTV.EncAsMapSliceUint8V(v, e) } else { fastpathTV.EncSliceUint8V(v, e) } } func (fastpathT) EncSliceUint8V(v []uint8, e *Encoder) { e.e.EncodeStringBytesRaw(v) } func (fastpathT) EncAsMapSliceUint8V(v []uint8, e *Encoder) { 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.mapElemKey() } else { e.mapElemValue() } e.e.EncodeUint(uint64(v[j])) } e.mapEnd() } func (e *Encoder) fastpathEncSliceUint64R(f *codecFnInfo, rv reflect.Value) { var v []uint64 if rv.Kind() == reflect.Array { rvGetSlice4Array(rv, &v) } else { v = rv2i(rv).([]uint64) } if f.ti.mbs { fastpathTV.EncAsMapSliceUint64V(v, e) } else { fastpathTV.EncSliceUint64V(v, e) } } func (fastpathT) EncSliceUint64V(v []uint64, e *Encoder) { e.arrayStart(len(v)) for j := range v { e.arrayElem() e.e.EncodeUint(v[j]) } e.arrayEnd() } func (fastpathT) EncAsMapSliceUint64V(v []uint64, e *Encoder) { 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.mapElemKey() } else { e.mapElemValue() } e.e.EncodeUint(v[j]) } e.mapEnd() } func (e *Encoder) fastpathEncSliceIntR(f *codecFnInfo, rv reflect.Value) { var v []int if rv.Kind() == reflect.Array { rvGetSlice4Array(rv, &v) } else { v = rv2i(rv).([]int) } if f.ti.mbs { fastpathTV.EncAsMapSliceIntV(v, e) } else { fastpathTV.EncSliceIntV(v, e) } } func (fastpathT) EncSliceIntV(v []int, e *Encoder) { e.arrayStart(len(v)) for j := range v { e.arrayElem() e.e.EncodeInt(int64(v[j])) } e.arrayEnd() } func (fastpathT) EncAsMapSliceIntV(v []int, e *Encoder) { 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.mapElemKey() } else { e.mapElemValue() } e.e.EncodeInt(int64(v[j])) } e.mapEnd() } func (e *Encoder) fastpathEncSliceInt32R(f *codecFnInfo, rv reflect.Value) { var v []int32 if rv.Kind() == reflect.Array { rvGetSlice4Array(rv, &v) } else { v = rv2i(rv).([]int32) } if f.ti.mbs { fastpathTV.EncAsMapSliceInt32V(v, e) } else { fastpathTV.EncSliceInt32V(v, e) } } func (fastpathT) EncSliceInt32V(v []int32, e *Encoder) { e.arrayStart(len(v)) for j := range v { e.arrayElem() e.e.EncodeInt(int64(v[j])) } e.arrayEnd() } func (fastpathT) EncAsMapSliceInt32V(v []int32, e *Encoder) { 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.mapElemKey() } else { e.mapElemValue() } e.e.EncodeInt(int64(v[j])) } e.mapEnd() } func (e *Encoder) fastpathEncSliceInt64R(f *codecFnInfo, rv reflect.Value) { var v []int64 if rv.Kind() == reflect.Array { rvGetSlice4Array(rv, &v) } else { v = rv2i(rv).([]int64) } if f.ti.mbs { fastpathTV.EncAsMapSliceInt64V(v, e) } else { fastpathTV.EncSliceInt64V(v, e) } } func (fastpathT) EncSliceInt64V(v []int64, e *Encoder) { e.arrayStart(len(v)) for j := range v { e.arrayElem() e.e.EncodeInt(v[j]) } e.arrayEnd() } func (fastpathT) EncAsMapSliceInt64V(v []int64, e *Encoder) { 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.mapElemKey() } else { e.mapElemValue() } e.e.EncodeInt(v[j]) } e.mapEnd() } func (e *Encoder) fastpathEncSliceBoolR(f *codecFnInfo, rv reflect.Value) { var v []bool if rv.Kind() == reflect.Array { rvGetSlice4Array(rv, &v) } else { v = rv2i(rv).([]bool) } if f.ti.mbs { fastpathTV.EncAsMapSliceBoolV(v, e) } else { fastpathTV.EncSliceBoolV(v, e) } } func (fastpathT) EncSliceBoolV(v []bool, e *Encoder) { e.arrayStart(len(v)) for j := range v { e.arrayElem() e.e.EncodeBool(v[j]) } e.arrayEnd() } func (fastpathT) EncAsMapSliceBoolV(v []bool, e *Encoder) { 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.mapElemKey() } else { e.mapElemValue() } e.e.EncodeBool(v[j]) } e.mapEnd() } func (e *Encoder) fastpathEncMapStringIntfR(f *codecFnInfo, rv reflect.Value) { fastpathTV.EncMapStringIntfV(rv2i(rv).(map[string]interface{}), e) } func (fastpathT) EncMapStringIntfV(v map[string]interface{}, e *Encoder) { e.mapStart(len(v)) if e.h.Canonical { v2 := make([]string, len(v)) var i uint for k := range v { v2[i] = k i++ } sort.Sort(stringSlice(v2)) for _, k2 := range v2 { e.mapElemKey() e.e.EncodeString(k2) e.mapElemValue() e.encode(v[k2]) } } else { for k2, v2 := range v { e.mapElemKey() e.e.EncodeString(k2) e.mapElemValue() e.encode(v2) } } e.mapEnd() } func (e *Encoder) fastpathEncMapStringStringR(f *codecFnInfo, rv reflect.Value) { fastpathTV.EncMapStringStringV(rv2i(rv).(map[string]string), e) } func (fastpathT) EncMapStringStringV(v map[string]string, e *Encoder) { e.mapStart(len(v)) if e.h.Canonical { v2 := make([]string, len(v)) var i uint for k := range v { v2[i] = k i++ } sort.Sort(stringSlice(v2)) for _, k2 := range v2 { e.mapElemKey() e.e.EncodeString(k2) e.mapElemValue() e.e.EncodeString(v[k2]) } } else { for k2, v2 := range v { e.mapElemKey() e.e.EncodeString(k2) e.mapElemValue() e.e.EncodeString(v2) } } e.mapEnd() } func (e *Encoder) fastpathEncMapStringBytesR(f *codecFnInfo, rv reflect.Value) { fastpathTV.EncMapStringBytesV(rv2i(rv).(map[string][]byte), e) } func (fastpathT) EncMapStringBytesV(v map[string][]byte, e *Encoder) { e.mapStart(len(v)) if e.h.Canonical { v2 := make([]string, len(v)) var i uint for k := range v { v2[i] = k i++ } sort.Sort(stringSlice(v2)) for _, k2 := range v2 { e.mapElemKey() e.e.EncodeString(k2) e.mapElemValue() e.e.EncodeStringBytesRaw(v[k2]) } } else { for k2, v2 := range v { e.mapElemKey() e.e.EncodeString(k2) e.mapElemValue() e.e.EncodeStringBytesRaw(v2) } } e.mapEnd() } func (e *Encoder) fastpathEncMapStringUint8R(f *codecFnInfo, rv reflect.Value) { fastpathTV.EncMapStringUint8V(rv2i(rv).(map[string]uint8), e) } func (fastpathT) EncMapStringUint8V(v map[string]uint8, e *Encoder) { e.mapStart(len(v)) if e.h.Canonical { v2 := make([]string, len(v)) var i uint for k := range v { v2[i] = k i++ } sort.Sort(stringSlice(v2)) for _, k2 := range v2 { e.mapElemKey() e.e.EncodeString(k2) e.mapElemValue() e.e.EncodeUint(uint64(v[k2])) } } else { for k2, v2 := range v { e.mapElemKey() e.e.EncodeString(k2) e.mapElemValue() e.e.EncodeUint(uint64(v2)) } } e.mapEnd() } func (e *Encoder) fastpathEncMapStringUint64R(f *codecFnInfo, rv reflect.Value) { fastpathTV.EncMapStringUint64V(rv2i(rv).(map[string]uint64), e) } func (fastpathT) EncMapStringUint64V(v map[string]uint64, e *Encoder) { e.mapStart(len(v)) if e.h.Canonical { v2 := make([]string, len(v)) var i uint for k := range v { v2[i] = k i++ } sort.Sort(stringSlice(v2)) for _, k2 := range v2 { e.mapElemKey() e.e.EncodeString(k2) e.mapElemValue() e.e.EncodeUint(v[k2]) } } else { for k2, v2 := range v { e.mapElemKey() e.e.EncodeString(k2) e.mapElemValue() e.e.EncodeUint(v2) } } e.mapEnd() } func (e *Encoder) fastpathEncMapStringIntR(f *codecFnInfo, rv reflect.Value) { fastpathTV.EncMapStringIntV(rv2i(rv).(map[string]int), e) } func (fastpathT) EncMapStringIntV(v map[string]int, e *Encoder) { e.mapStart(len(v)) if e.h.Canonical { v2 := make([]string, len(v)) var i uint for k := range v { v2[i] = k i++ } sort.Sort(stringSlice(v2)) for _, k2 := range v2 { e.mapElemKey() e.e.EncodeString(k2) e.mapElemValue() e.e.EncodeInt(int64(v[k2])) } } else { for k2, v2 := range v { e.mapElemKey() e.e.EncodeString(k2) e.mapElemValue() e.e.EncodeInt(int64(v2)) } } e.mapEnd() } func (e *Encoder) fastpathEncMapStringInt32R(f *codecFnInfo, rv reflect.Value) { fastpathTV.EncMapStringInt32V(rv2i(rv).(map[string]int32), e) } func (fastpathT) EncMapStringInt32V(v map[string]int32, e *Encoder) { e.mapStart(len(v)) if e.h.Canonical { v2 := make([]string, len(v)) var i uint for k := range v { v2[i] = k i++ } sort.Sort(stringSlice(v2)) for _, k2 := range v2 { e.mapElemKey() e.e.EncodeString(k2) e.mapElemValue() e.e.EncodeInt(int64(v[k2])) } } else { for k2, v2 := range v { e.mapElemKey() e.e.EncodeString(k2) e.mapElemValue() e.e.EncodeInt(int64(v2)) } } e.mapEnd() } func (e *Encoder) fastpathEncMapStringFloat64R(f *codecFnInfo, rv reflect.Value) { fastpathTV.EncMapStringFloat64V(rv2i(rv).(map[string]float64), e) } func (fastpathT) EncMapStringFloat64V(v map[string]float64, e *Encoder) { e.mapStart(len(v)) if e.h.Canonical { v2 := make([]string, len(v)) var i uint for k := range v { v2[i] = k i++ } sort.Sort(stringSlice(v2)) for _, k2 := range v2 { e.mapElemKey() e.e.EncodeString(k2) e.mapElemValue() e.e.EncodeFloat64(v[k2]) } } else { for k2, v2 := range v { e.mapElemKey() e.e.EncodeString(k2) e.mapElemValue() e.e.EncodeFloat64(v2) } } e.mapEnd() } func (e *Encoder) fastpathEncMapStringBoolR(f *codecFnInfo, rv reflect.Value) { fastpathTV.EncMapStringBoolV(rv2i(rv).(map[string]bool), e) } func (fastpathT) EncMapStringBoolV(v map[string]bool, e *Encoder) { e.mapStart(len(v)) if e.h.Canonical { v2 := make([]string, len(v)) var i uint for k := range v { v2[i] = k i++ } sort.Sort(stringSlice(v2)) for _, k2 := range v2 { e.mapElemKey() e.e.EncodeString(k2) e.mapElemValue() e.e.EncodeBool(v[k2]) } } else { for k2, v2 := range v { e.mapElemKey() e.e.EncodeString(k2) e.mapElemValue() e.e.EncodeBool(v2) } } e.mapEnd() } func (e *Encoder) fastpathEncMapUint8IntfR(f *codecFnInfo, rv reflect.Value) { fastpathTV.EncMapUint8IntfV(rv2i(rv).(map[uint8]interface{}), e) } func (fastpathT) EncMapUint8IntfV(v map[uint8]interface{}, e *Encoder) { e.mapStart(len(v)) if e.h.Canonical { v2 := make([]uint8, len(v)) var i uint for k := range v { v2[i] = k i++ } sort.Sort(uint8Slice(v2)) for _, k2 := range v2 { e.mapElemKey() e.e.EncodeUint(uint64(k2)) e.mapElemValue() e.encode(v[k2]) } } else { for k2, v2 := range v { e.mapElemKey() e.e.EncodeUint(uint64(k2)) e.mapElemValue() e.encode(v2) } } e.mapEnd() } func (e *Encoder) fastpathEncMapUint8StringR(f *codecFnInfo, rv reflect.Value) { fastpathTV.EncMapUint8StringV(rv2i(rv).(map[uint8]string), e) } func (fastpathT) EncMapUint8StringV(v map[uint8]string, e *Encoder) { e.mapStart(len(v)) if e.h.Canonical { v2 := make([]uint8, len(v)) var i uint for k := range v { v2[i] = k i++ } sort.Sort(uint8Slice(v2)) for _, k2 := range v2 { e.mapElemKey() e.e.EncodeUint(uint64(k2)) e.mapElemValue() e.e.EncodeString(v[k2]) } } else { for k2, v2 := range v { e.mapElemKey() e.e.EncodeUint(uint64(k2)) e.mapElemValue() e.e.EncodeString(v2) } } e.mapEnd() } func (e *Encoder) fastpathEncMapUint8BytesR(f *codecFnInfo, rv reflect.Value) { fastpathTV.EncMapUint8BytesV(rv2i(rv).(map[uint8][]byte), e) } func (fastpathT) EncMapUint8BytesV(v map[uint8][]byte, e *Encoder) { e.mapStart(len(v)) if e.h.Canonical { v2 := make([]uint8, len(v)) var i uint for k := range v { v2[i] = k i++ } sort.Sort(uint8Slice(v2)) for _, k2 := range v2 { e.mapElemKey() e.e.EncodeUint(uint64(k2)) e.mapElemValue() e.e.EncodeStringBytesRaw(v[k2]) } } else { for k2, v2 := range v { e.mapElemKey() e.e.EncodeUint(uint64(k2)) e.mapElemValue() e.e.EncodeStringBytesRaw(v2) } } e.mapEnd() } func (e *Encoder) fastpathEncMapUint8Uint8R(f *codecFnInfo, rv reflect.Value) { fastpathTV.EncMapUint8Uint8V(rv2i(rv).(map[uint8]uint8), e) } func (fastpathT) EncMapUint8Uint8V(v map[uint8]uint8, e *Encoder) { e.mapStart(len(v)) if e.h.Canonical { v2 := make([]uint8, len(v)) var i uint for k := range v { v2[i] = k i++ } sort.Sort(uint8Slice(v2)) for _, k2 := range v2 { e.mapElemKey() e.e.EncodeUint(uint64(k2)) e.mapElemValue() e.e.EncodeUint(uint64(v[k2])) } } else { for k2, v2 := range v { e.mapElemKey() e.e.EncodeUint(uint64(k2)) e.mapElemValue() e.e.EncodeUint(uint64(v2)) } } e.mapEnd() } func (e *Encoder) fastpathEncMapUint8Uint64R(f *codecFnInfo, rv reflect.Value) { fastpathTV.EncMapUint8Uint64V(rv2i(rv).(map[uint8]uint64), e) } func (fastpathT) EncMapUint8Uint64V(v map[uint8]uint64, e *Encoder) { e.mapStart(len(v)) if e.h.Canonical { v2 := make([]uint8, len(v)) var i uint for k := range v { v2[i] = k i++ } sort.Sort(uint8Slice(v2)) for _, k2 := range v2 { e.mapElemKey() e.e.EncodeUint(uint64(k2)) e.mapElemValue() e.e.EncodeUint(v[k2]) } } else { for k2, v2 := range v { e.mapElemKey() e.e.EncodeUint(uint64(k2)) e.mapElemValue() e.e.EncodeUint(v2) } } e.mapEnd() } func (e *Encoder) fastpathEncMapUint8IntR(f *codecFnInfo, rv reflect.Value) { fastpathTV.EncMapUint8IntV(rv2i(rv).(map[uint8]int), e) } func (fastpathT) EncMapUint8IntV(v map[uint8]int, e *Encoder) { e.mapStart(len(v)) if e.h.Canonical { v2 := make([]uint8, len(v)) var i uint for k := range v { v2[i] = k i++ } sort.Sort(uint8Slice(v2)) for _, k2 := range v2 { e.mapElemKey() e.e.EncodeUint(uint64(k2)) e.mapElemValue() e.e.EncodeInt(int64(v[k2])) } } else { for k2, v2 := range v { e.mapElemKey() e.e.EncodeUint(uint64(k2)) e.mapElemValue() e.e.EncodeInt(int64(v2)) } } e.mapEnd() } func (e *Encoder) fastpathEncMapUint8Int32R(f *codecFnInfo, rv reflect.Value) { fastpathTV.EncMapUint8Int32V(rv2i(rv).(map[uint8]int32), e) } func (fastpathT) EncMapUint8Int32V(v map[uint8]int32, e *Encoder) { e.mapStart(len(v)) if e.h.Canonical { v2 := make([]uint8, len(v)) var i uint for k := range v { v2[i] = k i++ } sort.Sort(uint8Slice(v2)) for _, k2 := range v2 { e.mapElemKey() e.e.EncodeUint(uint64(k2)) e.mapElemValue() e.e.EncodeInt(int64(v[k2])) } } else { for k2, v2 := range v { e.mapElemKey() e.e.EncodeUint(uint64(k2)) e.mapElemValue() e.e.EncodeInt(int64(v2)) } } e.mapEnd() } func (e *Encoder) fastpathEncMapUint8Float64R(f *codecFnInfo, rv reflect.Value) { fastpathTV.EncMapUint8Float64V(rv2i(rv).(map[uint8]float64), e) } func (fastpathT) EncMapUint8Float64V(v map[uint8]float64, e *Encoder) { e.mapStart(len(v)) if e.h.Canonical { v2 := make([]uint8, len(v)) var i uint for k := range v { v2[i] = k i++ } sort.Sort(uint8Slice(v2)) for _, k2 := range v2 { e.mapElemKey() e.e.EncodeUint(uint64(k2)) e.mapElemValue() e.e.EncodeFloat64(v[k2]) } } else { for k2, v2 := range v { e.mapElemKey() e.e.EncodeUint(uint64(k2)) e.mapElemValue() e.e.EncodeFloat64(v2) } } e.mapEnd() } func (e *Encoder) fastpathEncMapUint8BoolR(f *codecFnInfo, rv reflect.Value) { fastpathTV.EncMapUint8BoolV(rv2i(rv).(map[uint8]bool), e) } func (fastpathT) EncMapUint8BoolV(v map[uint8]bool, e *Encoder) { e.mapStart(len(v)) if e.h.Canonical { v2 := make([]uint8, len(v)) var i uint for k := range v { v2[i] = k i++ } sort.Sort(uint8Slice(v2)) for _, k2 := range v2 { e.mapElemKey() e.e.EncodeUint(uint64(k2)) e.mapElemValue() e.e.EncodeBool(v[k2]) } } else { for k2, v2 := range v { e.mapElemKey() e.e.EncodeUint(uint64(k2)) e.mapElemValue() e.e.EncodeBool(v2) } } e.mapEnd() } func (e *Encoder) fastpathEncMapUint64IntfR(f *codecFnInfo, rv reflect.Value) { fastpathTV.EncMapUint64IntfV(rv2i(rv).(map[uint64]interface{}), e) } func (fastpathT) EncMapUint64IntfV(v map[uint64]interface{}, e *Encoder) { e.mapStart(len(v)) if e.h.Canonical { v2 := make([]uint64, len(v)) var i uint for k := range v { v2[i] = k i++ } sort.Sort(uint64Slice(v2)) for _, k2 := range v2 { e.mapElemKey() e.e.EncodeUint(k2) e.mapElemValue() e.encode(v[k2]) } } else { for k2, v2 := range v { e.mapElemKey() e.e.EncodeUint(k2) e.mapElemValue() e.encode(v2) } } e.mapEnd() } func (e *Encoder) fastpathEncMapUint64StringR(f *codecFnInfo, rv reflect.Value) { fastpathTV.EncMapUint64StringV(rv2i(rv).(map[uint64]string), e) } func (fastpathT) EncMapUint64StringV(v map[uint64]string, e *Encoder) { e.mapStart(len(v)) if e.h.Canonical { v2 := make([]uint64, len(v)) var i uint for k := range v { v2[i] = k i++ } sort.Sort(uint64Slice(v2)) for _, k2 := range v2 { e.mapElemKey() e.e.EncodeUint(k2) e.mapElemValue() e.e.EncodeString(v[k2]) } } else { for k2, v2 := range v { e.mapElemKey() e.e.EncodeUint(k2) e.mapElemValue() e.e.EncodeString(v2) } } e.mapEnd() } func (e *Encoder) fastpathEncMapUint64BytesR(f *codecFnInfo, rv reflect.Value) { fastpathTV.EncMapUint64BytesV(rv2i(rv).(map[uint64][]byte), e) } func (fastpathT) EncMapUint64BytesV(v map[uint64][]byte, e *Encoder) { e.mapStart(len(v)) if e.h.Canonical { v2 := make([]uint64, len(v)) var i uint for k := range v { v2[i] = k i++ } sort.Sort(uint64Slice(v2)) for _, k2 := range v2 { e.mapElemKey() e.e.EncodeUint(k2) e.mapElemValue() e.e.EncodeStringBytesRaw(v[k2]) } } else { for k2, v2 := range v { e.mapElemKey() e.e.EncodeUint(k2) e.mapElemValue() e.e.EncodeStringBytesRaw(v2) } } e.mapEnd() } func (e *Encoder) fastpathEncMapUint64Uint8R(f *codecFnInfo, rv reflect.Value) { fastpathTV.EncMapUint64Uint8V(rv2i(rv).(map[uint64]uint8), e) } func (fastpathT) EncMapUint64Uint8V(v map[uint64]uint8, e *Encoder) { e.mapStart(len(v)) if e.h.Canonical { v2 := make([]uint64, len(v)) var i uint for k := range v { v2[i] = k i++ } sort.Sort(uint64Slice(v2)) for _, k2 := range v2 { e.mapElemKey() e.e.EncodeUint(k2) e.mapElemValue() e.e.EncodeUint(uint64(v[k2])) } } else { for k2, v2 := range v { e.mapElemKey() e.e.EncodeUint(k2) e.mapElemValue() e.e.EncodeUint(uint64(v2)) } } e.mapEnd() } func (e *Encoder) fastpathEncMapUint64Uint64R(f *codecFnInfo, rv reflect.Value) { fastpathTV.EncMapUint64Uint64V(rv2i(rv).(map[uint64]uint64), e) } func (fastpathT) EncMapUint64Uint64V(v map[uint64]uint64, e *Encoder) { e.mapStart(len(v)) if e.h.Canonical { v2 := make([]uint64, len(v)) var i uint for k := range v { v2[i] = k i++ } sort.Sort(uint64Slice(v2)) for _, k2 := range v2 { e.mapElemKey() e.e.EncodeUint(k2) e.mapElemValue() e.e.EncodeUint(v[k2]) } } else { for k2, v2 := range v { e.mapElemKey() e.e.EncodeUint(k2) e.mapElemValue() e.e.EncodeUint(v2) } } e.mapEnd() } func (e *Encoder) fastpathEncMapUint64IntR(f *codecFnInfo, rv reflect.Value) { fastpathTV.EncMapUint64IntV(rv2i(rv).(map[uint64]int), e) } func (fastpathT) EncMapUint64IntV(v map[uint64]int, e *Encoder) { e.mapStart(len(v)) if e.h.Canonical { v2 := make([]uint64, len(v)) var i uint for k := range v { v2[i] = k i++ } sort.Sort(uint64Slice(v2)) for _, k2 := range v2 { e.mapElemKey() e.e.EncodeUint(k2) e.mapElemValue() e.e.EncodeInt(int64(v[k2])) } } else { for k2, v2 := range v { e.mapElemKey() e.e.EncodeUint(k2) e.mapElemValue() e.e.EncodeInt(int64(v2)) } } e.mapEnd() } func (e *Encoder) fastpathEncMapUint64Int32R(f *codecFnInfo, rv reflect.Value) { fastpathTV.EncMapUint64Int32V(rv2i(rv).(map[uint64]int32), e) } func (fastpathT) EncMapUint64Int32V(v map[uint64]int32, e *Encoder) { e.mapStart(len(v)) if e.h.Canonical { v2 := make([]uint64, len(v)) var i uint for k := range v { v2[i] = k i++ } sort.Sort(uint64Slice(v2)) for _, k2 := range v2 { e.mapElemKey() e.e.EncodeUint(k2) e.mapElemValue() e.e.EncodeInt(int64(v[k2])) } } else { for k2, v2 := range v { e.mapElemKey() e.e.EncodeUint(k2) e.mapElemValue() e.e.EncodeInt(int64(v2)) } } e.mapEnd() } func (e *Encoder) fastpathEncMapUint64Float64R(f *codecFnInfo, rv reflect.Value) { fastpathTV.EncMapUint64Float64V(rv2i(rv).(map[uint64]float64), e) } func (fastpathT) EncMapUint64Float64V(v map[uint64]float64, e *Encoder) { e.mapStart(len(v)) if e.h.Canonical { v2 := make([]uint64, len(v)) var i uint for k := range v { v2[i] = k i++ } sort.Sort(uint64Slice(v2)) for _, k2 := range v2 { e.mapElemKey() e.e.EncodeUint(k2) e.mapElemValue() e.e.EncodeFloat64(v[k2]) } } else { for k2, v2 := range v { e.mapElemKey() e.e.EncodeUint(k2) e.mapElemValue() e.e.EncodeFloat64(v2) } } e.mapEnd() } func (e *Encoder) fastpathEncMapUint64BoolR(f *codecFnInfo, rv reflect.Value) { fastpathTV.EncMapUint64BoolV(rv2i(rv).(map[uint64]bool), e) } func (fastpathT) EncMapUint64BoolV(v map[uint64]bool, e *Encoder) { e.mapStart(len(v)) if e.h.Canonical { v2 := make([]uint64, len(v)) var i uint for k := range v { v2[i] = k i++ } sort.Sort(uint64Slice(v2)) for _, k2 := range v2 { e.mapElemKey() e.e.EncodeUint(k2) e.mapElemValue() e.e.EncodeBool(v[k2]) } } else { for k2, v2 := range v { e.mapElemKey() e.e.EncodeUint(k2) e.mapElemValue() e.e.EncodeBool(v2) } } e.mapEnd() } func (e *Encoder) fastpathEncMapIntIntfR(f *codecFnInfo, rv reflect.Value) { fastpathTV.EncMapIntIntfV(rv2i(rv).(map[int]interface{}), e) } func (fastpathT) EncMapIntIntfV(v map[int]interface{}, e *Encoder) { e.mapStart(len(v)) if e.h.Canonical { v2 := make([]int, len(v)) var i uint for k := range v { v2[i] = k i++ } sort.Sort(intSlice(v2)) for _, k2 := range v2 { e.mapElemKey() e.e.EncodeInt(int64(k2)) e.mapElemValue() e.encode(v[k2]) } } else { for k2, v2 := range v { e.mapElemKey() e.e.EncodeInt(int64(k2)) e.mapElemValue() e.encode(v2) } } e.mapEnd() } func (e *Encoder) fastpathEncMapIntStringR(f *codecFnInfo, rv reflect.Value) { fastpathTV.EncMapIntStringV(rv2i(rv).(map[int]string), e) } func (fastpathT) EncMapIntStringV(v map[int]string, e *Encoder) { e.mapStart(len(v)) if e.h.Canonical { v2 := make([]int, len(v)) var i uint for k := range v { v2[i] = k i++ } sort.Sort(intSlice(v2)) for _, k2 := range v2 { e.mapElemKey() e.e.EncodeInt(int64(k2)) e.mapElemValue() e.e.EncodeString(v[k2]) } } else { for k2, v2 := range v { e.mapElemKey() e.e.EncodeInt(int64(k2)) e.mapElemValue() e.e.EncodeString(v2) } } e.mapEnd() } func (e *Encoder) fastpathEncMapIntBytesR(f *codecFnInfo, rv reflect.Value) { fastpathTV.EncMapIntBytesV(rv2i(rv).(map[int][]byte), e) } func (fastpathT) EncMapIntBytesV(v map[int][]byte, e *Encoder) { e.mapStart(len(v)) if e.h.Canonical { v2 := make([]int, len(v)) var i uint for k := range v { v2[i] = k i++ } sort.Sort(intSlice(v2)) for _, k2 := range v2 { e.mapElemKey() e.e.EncodeInt(int64(k2)) e.mapElemValue() e.e.EncodeStringBytesRaw(v[k2]) } } else { for k2, v2 := range v { e.mapElemKey() e.e.EncodeInt(int64(k2)) e.mapElemValue() e.e.EncodeStringBytesRaw(v2) } } e.mapEnd() } func (e *Encoder) fastpathEncMapIntUint8R(f *codecFnInfo, rv reflect.Value) { fastpathTV.EncMapIntUint8V(rv2i(rv).(map[int]uint8), e) } func (fastpathT) EncMapIntUint8V(v map[int]uint8, e *Encoder) { e.mapStart(len(v)) if e.h.Canonical { v2 := make([]int, len(v)) var i uint for k := range v { v2[i] = k i++ } sort.Sort(intSlice(v2)) for _, k2 := range v2 { e.mapElemKey() e.e.EncodeInt(int64(k2)) e.mapElemValue() e.e.EncodeUint(uint64(v[k2])) } } else { for k2, v2 := range v { e.mapElemKey() e.e.EncodeInt(int64(k2)) e.mapElemValue() e.e.EncodeUint(uint64(v2)) } } e.mapEnd() } func (e *Encoder) fastpathEncMapIntUint64R(f *codecFnInfo, rv reflect.Value) { fastpathTV.EncMapIntUint64V(rv2i(rv).(map[int]uint64), e) } func (fastpathT) EncMapIntUint64V(v map[int]uint64, e *Encoder) { e.mapStart(len(v)) if e.h.Canonical { v2 := make([]int, len(v)) var i uint for k := range v { v2[i] = k i++ } sort.Sort(intSlice(v2)) for _, k2 := range v2 { e.mapElemKey() e.e.EncodeInt(int64(k2)) e.mapElemValue() e.e.EncodeUint(v[k2]) } } else { for k2, v2 := range v { e.mapElemKey() e.e.EncodeInt(int64(k2)) e.mapElemValue() e.e.EncodeUint(v2) } } e.mapEnd() } func (e *Encoder) fastpathEncMapIntIntR(f *codecFnInfo, rv reflect.Value) { fastpathTV.EncMapIntIntV(rv2i(rv).(map[int]int), e) } func (fastpathT) EncMapIntIntV(v map[int]int, e *Encoder) { e.mapStart(len(v)) if e.h.Canonical { v2 := make([]int, len(v)) var i uint for k := range v { v2[i] = k i++ } sort.Sort(intSlice(v2)) for _, k2 := range v2 { e.mapElemKey() e.e.EncodeInt(int64(k2)) e.mapElemValue() e.e.EncodeInt(int64(v[k2])) } } else { for k2, v2 := range v { e.mapElemKey() e.e.EncodeInt(int64(k2)) e.mapElemValue() e.e.EncodeInt(int64(v2)) } } e.mapEnd() } func (e *Encoder) fastpathEncMapIntInt32R(f *codecFnInfo, rv reflect.Value) { fastpathTV.EncMapIntInt32V(rv2i(rv).(map[int]int32), e) } func (fastpathT) EncMapIntInt32V(v map[int]int32, e *Encoder) { e.mapStart(len(v)) if e.h.Canonical { v2 := make([]int, len(v)) var i uint for k := range v { v2[i] = k i++ } sort.Sort(intSlice(v2)) for _, k2 := range v2 { e.mapElemKey() e.e.EncodeInt(int64(k2)) e.mapElemValue() e.e.EncodeInt(int64(v[k2])) } } else { for k2, v2 := range v { e.mapElemKey() e.e.EncodeInt(int64(k2)) e.mapElemValue() e.e.EncodeInt(int64(v2)) } } e.mapEnd() } func (e *Encoder) fastpathEncMapIntFloat64R(f *codecFnInfo, rv reflect.Value) { fastpathTV.EncMapIntFloat64V(rv2i(rv).(map[int]float64), e) } func (fastpathT) EncMapIntFloat64V(v map[int]float64, e *Encoder) { e.mapStart(len(v)) if e.h.Canonical { v2 := make([]int, len(v)) var i uint for k := range v { v2[i] = k i++ } sort.Sort(intSlice(v2)) for _, k2 := range v2 { e.mapElemKey() e.e.EncodeInt(int64(k2)) e.mapElemValue() e.e.EncodeFloat64(v[k2]) } } else { for k2, v2 := range v { e.mapElemKey() e.e.EncodeInt(int64(k2)) e.mapElemValue() e.e.EncodeFloat64(v2) } } e.mapEnd() } func (e *Encoder) fastpathEncMapIntBoolR(f *codecFnInfo, rv reflect.Value) { fastpathTV.EncMapIntBoolV(rv2i(rv).(map[int]bool), e) } func (fastpathT) EncMapIntBoolV(v map[int]bool, e *Encoder) { e.mapStart(len(v)) if e.h.Canonical { v2 := make([]int, len(v)) var i uint for k := range v { v2[i] = k i++ } sort.Sort(intSlice(v2)) for _, k2 := range v2 { e.mapElemKey() e.e.EncodeInt(int64(k2)) e.mapElemValue() e.e.EncodeBool(v[k2]) } } else { for k2, v2 := range v { e.mapElemKey() e.e.EncodeInt(int64(k2)) e.mapElemValue() e.e.EncodeBool(v2) } } e.mapEnd() } func (e *Encoder) fastpathEncMapInt32IntfR(f *codecFnInfo, rv reflect.Value) { fastpathTV.EncMapInt32IntfV(rv2i(rv).(map[int32]interface{}), e) } func (fastpathT) EncMapInt32IntfV(v map[int32]interface{}, e *Encoder) { e.mapStart(len(v)) if e.h.Canonical { v2 := make([]int32, len(v)) var i uint for k := range v { v2[i] = k i++ } sort.Sort(int32Slice(v2)) for _, k2 := range v2 { e.mapElemKey() e.e.EncodeInt(int64(k2)) e.mapElemValue() e.encode(v[k2]) } } else { for k2, v2 := range v { e.mapElemKey() e.e.EncodeInt(int64(k2)) e.mapElemValue() e.encode(v2) } } e.mapEnd() } func (e *Encoder) fastpathEncMapInt32StringR(f *codecFnInfo, rv reflect.Value) { fastpathTV.EncMapInt32StringV(rv2i(rv).(map[int32]string), e) } func (fastpathT) EncMapInt32StringV(v map[int32]string, e *Encoder) { e.mapStart(len(v)) if e.h.Canonical { v2 := make([]int32, len(v)) var i uint for k := range v { v2[i] = k i++ } sort.Sort(int32Slice(v2)) for _, k2 := range v2 { e.mapElemKey() e.e.EncodeInt(int64(k2)) e.mapElemValue() e.e.EncodeString(v[k2]) } } else { for k2, v2 := range v { e.mapElemKey() e.e.EncodeInt(int64(k2)) e.mapElemValue() e.e.EncodeString(v2) } } e.mapEnd() } func (e *Encoder) fastpathEncMapInt32BytesR(f *codecFnInfo, rv reflect.Value) { fastpathTV.EncMapInt32BytesV(rv2i(rv).(map[int32][]byte), e) } func (fastpathT) EncMapInt32BytesV(v map[int32][]byte, e *Encoder) { e.mapStart(len(v)) if e.h.Canonical { v2 := make([]int32, len(v)) var i uint for k := range v { v2[i] = k i++ } sort.Sort(int32Slice(v2)) for _, k2 := range v2 { e.mapElemKey() e.e.EncodeInt(int64(k2)) e.mapElemValue() e.e.EncodeStringBytesRaw(v[k2]) } } else { for k2, v2 := range v { e.mapElemKey() e.e.EncodeInt(int64(k2)) e.mapElemValue() e.e.EncodeStringBytesRaw(v2) } } e.mapEnd() } func (e *Encoder) fastpathEncMapInt32Uint8R(f *codecFnInfo, rv reflect.Value) { fastpathTV.EncMapInt32Uint8V(rv2i(rv).(map[int32]uint8), e) } func (fastpathT) EncMapInt32Uint8V(v map[int32]uint8, e *Encoder) { e.mapStart(len(v)) if e.h.Canonical { v2 := make([]int32, len(v)) var i uint for k := range v { v2[i] = k i++ } sort.Sort(int32Slice(v2)) for _, k2 := range v2 { e.mapElemKey() e.e.EncodeInt(int64(k2)) e.mapElemValue() e.e.EncodeUint(uint64(v[k2])) } } else { for k2, v2 := range v { e.mapElemKey() e.e.EncodeInt(int64(k2)) e.mapElemValue() e.e.EncodeUint(uint64(v2)) } } e.mapEnd() } func (e *Encoder) fastpathEncMapInt32Uint64R(f *codecFnInfo, rv reflect.Value) { fastpathTV.EncMapInt32Uint64V(rv2i(rv).(map[int32]uint64), e) } func (fastpathT) EncMapInt32Uint64V(v map[int32]uint64, e *Encoder) { e.mapStart(len(v)) if e.h.Canonical { v2 := make([]int32, len(v)) var i uint for k := range v { v2[i] = k i++ } sort.Sort(int32Slice(v2)) for _, k2 := range v2 { e.mapElemKey() e.e.EncodeInt(int64(k2)) e.mapElemValue() e.e.EncodeUint(v[k2]) } } else { for k2, v2 := range v { e.mapElemKey() e.e.EncodeInt(int64(k2)) e.mapElemValue() e.e.EncodeUint(v2) } } e.mapEnd() } func (e *Encoder) fastpathEncMapInt32IntR(f *codecFnInfo, rv reflect.Value) { fastpathTV.EncMapInt32IntV(rv2i(rv).(map[int32]int), e) } func (fastpathT) EncMapInt32IntV(v map[int32]int, e *Encoder) { e.mapStart(len(v)) if e.h.Canonical { v2 := make([]int32, len(v)) var i uint for k := range v { v2[i] = k i++ } sort.Sort(int32Slice(v2)) for _, k2 := range v2 { e.mapElemKey() e.e.EncodeInt(int64(k2)) e.mapElemValue() e.e.EncodeInt(int64(v[k2])) } } else { for k2, v2 := range v { e.mapElemKey() e.e.EncodeInt(int64(k2)) e.mapElemValue() e.e.EncodeInt(int64(v2)) } } e.mapEnd() } func (e *Encoder) fastpathEncMapInt32Int32R(f *codecFnInfo, rv reflect.Value) { fastpathTV.EncMapInt32Int32V(rv2i(rv).(map[int32]int32), e) } func (fastpathT) EncMapInt32Int32V(v map[int32]int32, e *Encoder) { e.mapStart(len(v)) if e.h.Canonical { v2 := make([]int32, len(v)) var i uint for k := range v { v2[i] = k i++ } sort.Sort(int32Slice(v2)) for _, k2 := range v2 { e.mapElemKey() e.e.EncodeInt(int64(k2)) e.mapElemValue() e.e.EncodeInt(int64(v[k2])) } } else { for k2, v2 := range v { e.mapElemKey() e.e.EncodeInt(int64(k2)) e.mapElemValue() e.e.EncodeInt(int64(v2)) } } e.mapEnd() } func (e *Encoder) fastpathEncMapInt32Float64R(f *codecFnInfo, rv reflect.Value) { fastpathTV.EncMapInt32Float64V(rv2i(rv).(map[int32]float64), e) } func (fastpathT) EncMapInt32Float64V(v map[int32]float64, e *Encoder) { e.mapStart(len(v)) if e.h.Canonical { v2 := make([]int32, len(v)) var i uint for k := range v { v2[i] = k i++ } sort.Sort(int32Slice(v2)) for _, k2 := range v2 { e.mapElemKey() e.e.EncodeInt(int64(k2)) e.mapElemValue() e.e.EncodeFloat64(v[k2]) } } else { for k2, v2 := range v { e.mapElemKey() e.e.EncodeInt(int64(k2)) e.mapElemValue() e.e.EncodeFloat64(v2) } } e.mapEnd() } func (e *Encoder) fastpathEncMapInt32BoolR(f *codecFnInfo, rv reflect.Value) { fastpathTV.EncMapInt32BoolV(rv2i(rv).(map[int32]bool), e) } func (fastpathT) EncMapInt32BoolV(v map[int32]bool, e *Encoder) { e.mapStart(len(v)) if e.h.Canonical { v2 := make([]int32, len(v)) var i uint for k := range v { v2[i] = k i++ } sort.Sort(int32Slice(v2)) for _, k2 := range v2 { e.mapElemKey() e.e.EncodeInt(int64(k2)) e.mapElemValue() e.e.EncodeBool(v[k2]) } } else { for k2, v2 := range v { e.mapElemKey() e.e.EncodeInt(int64(k2)) e.mapElemValue() e.e.EncodeBool(v2) } } e.mapEnd() } // -- decode // -- -- fast path type switch func fastpathDecodeTypeSwitch(iv interface{}, d *Decoder) bool { var changed bool var containerLen int switch v := iv.(type) { case []interface{}: fastpathTV.DecSliceIntfN(v, d) case *[]interface{}: var v2 []interface{} if v2, changed = fastpathTV.DecSliceIntfY(*v, d); changed { *v = v2 } case []string: fastpathTV.DecSliceStringN(v, d) case *[]string: var v2 []string if v2, changed = fastpathTV.DecSliceStringY(*v, d); changed { *v = v2 } case [][]byte: fastpathTV.DecSliceBytesN(v, d) case *[][]byte: var v2 [][]byte if v2, changed = fastpathTV.DecSliceBytesY(*v, d); changed { *v = v2 } case []float32: fastpathTV.DecSliceFloat32N(v, d) case *[]float32: var v2 []float32 if v2, changed = fastpathTV.DecSliceFloat32Y(*v, d); changed { *v = v2 } case []float64: fastpathTV.DecSliceFloat64N(v, d) case *[]float64: var v2 []float64 if v2, changed = fastpathTV.DecSliceFloat64Y(*v, d); changed { *v = v2 } case []uint8: fastpathTV.DecSliceUint8N(v, d) case *[]uint8: var v2 []uint8 if v2, changed = fastpathTV.DecSliceUint8Y(*v, d); changed { *v = v2 } case []uint64: fastpathTV.DecSliceUint64N(v, d) case *[]uint64: var v2 []uint64 if v2, changed = fastpathTV.DecSliceUint64Y(*v, d); changed { *v = v2 } case []int: fastpathTV.DecSliceIntN(v, d) case *[]int: var v2 []int if v2, changed = fastpathTV.DecSliceIntY(*v, d); changed { *v = v2 } case []int32: fastpathTV.DecSliceInt32N(v, d) case *[]int32: var v2 []int32 if v2, changed = fastpathTV.DecSliceInt32Y(*v, d); changed { *v = v2 } case []int64: fastpathTV.DecSliceInt64N(v, d) case *[]int64: var v2 []int64 if v2, changed = fastpathTV.DecSliceInt64Y(*v, d); changed { *v = v2 } case []bool: fastpathTV.DecSliceBoolN(v, d) case *[]bool: var v2 []bool if v2, changed = fastpathTV.DecSliceBoolY(*v, d); changed { *v = v2 } case map[string]interface{}: containerLen = d.mapStart(d.d.ReadMapStart()) if containerLen != containerLenNil { if containerLen != 0 { fastpathTV.DecMapStringIntfL(v, containerLen, d) } d.mapEnd() } case *map[string]interface{}: fastpathTV.DecMapStringIntfX(v, d) case map[string]string: containerLen = d.mapStart(d.d.ReadMapStart()) if containerLen != containerLenNil { if containerLen != 0 { fastpathTV.DecMapStringStringL(v, containerLen, d) } d.mapEnd() } case *map[string]string: fastpathTV.DecMapStringStringX(v, d) case map[string][]byte: containerLen = d.mapStart(d.d.ReadMapStart()) if containerLen != containerLenNil { if containerLen != 0 { fastpathTV.DecMapStringBytesL(v, containerLen, d) } d.mapEnd() } case *map[string][]byte: fastpathTV.DecMapStringBytesX(v, d) case map[string]uint8: containerLen = d.mapStart(d.d.ReadMapStart()) if containerLen != containerLenNil { if containerLen != 0 { fastpathTV.DecMapStringUint8L(v, containerLen, d) } d.mapEnd() } case *map[string]uint8: fastpathTV.DecMapStringUint8X(v, d) case map[string]uint64: containerLen = d.mapStart(d.d.ReadMapStart()) if containerLen != containerLenNil { if containerLen != 0 { fastpathTV.DecMapStringUint64L(v, containerLen, d) } d.mapEnd() } case *map[string]uint64: fastpathTV.DecMapStringUint64X(v, d) case map[string]int: containerLen = d.mapStart(d.d.ReadMapStart()) if containerLen != containerLenNil { if containerLen != 0 { fastpathTV.DecMapStringIntL(v, containerLen, d) } d.mapEnd() } case *map[string]int: fastpathTV.DecMapStringIntX(v, d) case map[string]int32: containerLen = d.mapStart(d.d.ReadMapStart()) if containerLen != containerLenNil { if containerLen != 0 { fastpathTV.DecMapStringInt32L(v, containerLen, d) } d.mapEnd() } case *map[string]int32: fastpathTV.DecMapStringInt32X(v, d) case map[string]float64: containerLen = d.mapStart(d.d.ReadMapStart()) if containerLen != containerLenNil { if containerLen != 0 { fastpathTV.DecMapStringFloat64L(v, containerLen, d) } d.mapEnd() } case *map[string]float64: fastpathTV.DecMapStringFloat64X(v, d) case map[string]bool: containerLen = d.mapStart(d.d.ReadMapStart()) if containerLen != containerLenNil { if containerLen != 0 { fastpathTV.DecMapStringBoolL(v, containerLen, d) } d.mapEnd() } case *map[string]bool: fastpathTV.DecMapStringBoolX(v, d) case map[uint8]interface{}: containerLen = d.mapStart(d.d.ReadMapStart()) if containerLen != containerLenNil { if containerLen != 0 { fastpathTV.DecMapUint8IntfL(v, containerLen, d) } d.mapEnd() } case *map[uint8]interface{}: fastpathTV.DecMapUint8IntfX(v, d) case map[uint8]string: containerLen = d.mapStart(d.d.ReadMapStart()) if containerLen != containerLenNil { if containerLen != 0 { fastpathTV.DecMapUint8StringL(v, containerLen, d) } d.mapEnd() } case *map[uint8]string: fastpathTV.DecMapUint8StringX(v, d) case map[uint8][]byte: containerLen = d.mapStart(d.d.ReadMapStart()) if containerLen != containerLenNil { if containerLen != 0 { fastpathTV.DecMapUint8BytesL(v, containerLen, d) } d.mapEnd() } case *map[uint8][]byte: fastpathTV.DecMapUint8BytesX(v, d) case map[uint8]uint8: containerLen = d.mapStart(d.d.ReadMapStart()) if containerLen != containerLenNil { if containerLen != 0 { fastpathTV.DecMapUint8Uint8L(v, containerLen, d) } d.mapEnd() } case *map[uint8]uint8: fastpathTV.DecMapUint8Uint8X(v, d) case map[uint8]uint64: containerLen = d.mapStart(d.d.ReadMapStart()) if containerLen != containerLenNil { if containerLen != 0 { fastpathTV.DecMapUint8Uint64L(v, containerLen, d) } d.mapEnd() } case *map[uint8]uint64: fastpathTV.DecMapUint8Uint64X(v, d) case map[uint8]int: containerLen = d.mapStart(d.d.ReadMapStart()) if containerLen != containerLenNil { if containerLen != 0 { fastpathTV.DecMapUint8IntL(v, containerLen, d) } d.mapEnd() } case *map[uint8]int: fastpathTV.DecMapUint8IntX(v, d) case map[uint8]int32: containerLen = d.mapStart(d.d.ReadMapStart()) if containerLen != containerLenNil { if containerLen != 0 { fastpathTV.DecMapUint8Int32L(v, containerLen, d) } d.mapEnd() } case *map[uint8]int32: fastpathTV.DecMapUint8Int32X(v, d) case map[uint8]float64: containerLen = d.mapStart(d.d.ReadMapStart()) if containerLen != containerLenNil { if containerLen != 0 { fastpathTV.DecMapUint8Float64L(v, containerLen, d) } d.mapEnd() } case *map[uint8]float64: fastpathTV.DecMapUint8Float64X(v, d) case map[uint8]bool: containerLen = d.mapStart(d.d.ReadMapStart()) if containerLen != containerLenNil { if containerLen != 0 { fastpathTV.DecMapUint8BoolL(v, containerLen, d) } d.mapEnd() } case *map[uint8]bool: fastpathTV.DecMapUint8BoolX(v, d) case map[uint64]interface{}: containerLen = d.mapStart(d.d.ReadMapStart()) if containerLen != containerLenNil { if containerLen != 0 { fastpathTV.DecMapUint64IntfL(v, containerLen, d) } d.mapEnd() } case *map[uint64]interface{}: fastpathTV.DecMapUint64IntfX(v, d) case map[uint64]string: containerLen = d.mapStart(d.d.ReadMapStart()) if containerLen != containerLenNil { if containerLen != 0 { fastpathTV.DecMapUint64StringL(v, containerLen, d) } d.mapEnd() } case *map[uint64]string: fastpathTV.DecMapUint64StringX(v, d) case map[uint64][]byte: containerLen = d.mapStart(d.d.ReadMapStart()) if containerLen != containerLenNil { if containerLen != 0 { fastpathTV.DecMapUint64BytesL(v, containerLen, d) } d.mapEnd() } case *map[uint64][]byte: fastpathTV.DecMapUint64BytesX(v, d) case map[uint64]uint8: containerLen = d.mapStart(d.d.ReadMapStart()) if containerLen != containerLenNil { if containerLen != 0 { fastpathTV.DecMapUint64Uint8L(v, containerLen, d) } d.mapEnd() } case *map[uint64]uint8: fastpathTV.DecMapUint64Uint8X(v, d) case map[uint64]uint64: containerLen = d.mapStart(d.d.ReadMapStart()) if containerLen != containerLenNil { if containerLen != 0 { fastpathTV.DecMapUint64Uint64L(v, containerLen, d) } d.mapEnd() } case *map[uint64]uint64: fastpathTV.DecMapUint64Uint64X(v, d) case map[uint64]int: containerLen = d.mapStart(d.d.ReadMapStart()) if containerLen != containerLenNil { if containerLen != 0 { fastpathTV.DecMapUint64IntL(v, containerLen, d) } d.mapEnd() } case *map[uint64]int: fastpathTV.DecMapUint64IntX(v, d) case map[uint64]int32: containerLen = d.mapStart(d.d.ReadMapStart()) if containerLen != containerLenNil { if containerLen != 0 { fastpathTV.DecMapUint64Int32L(v, containerLen, d) } d.mapEnd() } case *map[uint64]int32: fastpathTV.DecMapUint64Int32X(v, d) case map[uint64]float64: containerLen = d.mapStart(d.d.ReadMapStart()) if containerLen != containerLenNil { if containerLen != 0 { fastpathTV.DecMapUint64Float64L(v, containerLen, d) } d.mapEnd() } case *map[uint64]float64: fastpathTV.DecMapUint64Float64X(v, d) case map[uint64]bool: containerLen = d.mapStart(d.d.ReadMapStart()) if containerLen != containerLenNil { if containerLen != 0 { fastpathTV.DecMapUint64BoolL(v, containerLen, d) } d.mapEnd() } case *map[uint64]bool: fastpathTV.DecMapUint64BoolX(v, d) case map[int]interface{}: containerLen = d.mapStart(d.d.ReadMapStart()) if containerLen != containerLenNil { if containerLen != 0 { fastpathTV.DecMapIntIntfL(v, containerLen, d) } d.mapEnd() } case *map[int]interface{}: fastpathTV.DecMapIntIntfX(v, d) case map[int]string: containerLen = d.mapStart(d.d.ReadMapStart()) if containerLen != containerLenNil { if containerLen != 0 { fastpathTV.DecMapIntStringL(v, containerLen, d) } d.mapEnd() } case *map[int]string: fastpathTV.DecMapIntStringX(v, d) case map[int][]byte: containerLen = d.mapStart(d.d.ReadMapStart()) if containerLen != containerLenNil { if containerLen != 0 { fastpathTV.DecMapIntBytesL(v, containerLen, d) } d.mapEnd() } case *map[int][]byte: fastpathTV.DecMapIntBytesX(v, d) case map[int]uint8: containerLen = d.mapStart(d.d.ReadMapStart()) if containerLen != containerLenNil { if containerLen != 0 { fastpathTV.DecMapIntUint8L(v, containerLen, d) } d.mapEnd() } case *map[int]uint8: fastpathTV.DecMapIntUint8X(v, d) case map[int]uint64: containerLen = d.mapStart(d.d.ReadMapStart()) if containerLen != containerLenNil { if containerLen != 0 { fastpathTV.DecMapIntUint64L(v, containerLen, d) } d.mapEnd() } case *map[int]uint64: fastpathTV.DecMapIntUint64X(v, d) case map[int]int: containerLen = d.mapStart(d.d.ReadMapStart()) if containerLen != containerLenNil { if containerLen != 0 { fastpathTV.DecMapIntIntL(v, containerLen, d) } d.mapEnd() } case *map[int]int: fastpathTV.DecMapIntIntX(v, d) case map[int]int32: containerLen = d.mapStart(d.d.ReadMapStart()) if containerLen != containerLenNil { if containerLen != 0 { fastpathTV.DecMapIntInt32L(v, containerLen, d) } d.mapEnd() } case *map[int]int32: fastpathTV.DecMapIntInt32X(v, d) case map[int]float64: containerLen = d.mapStart(d.d.ReadMapStart()) if containerLen != containerLenNil { if containerLen != 0 { fastpathTV.DecMapIntFloat64L(v, containerLen, d) } d.mapEnd() } case *map[int]float64: fastpathTV.DecMapIntFloat64X(v, d) case map[int]bool: containerLen = d.mapStart(d.d.ReadMapStart()) if containerLen != containerLenNil { if containerLen != 0 { fastpathTV.DecMapIntBoolL(v, containerLen, d) } d.mapEnd() } case *map[int]bool: fastpathTV.DecMapIntBoolX(v, d) case map[int32]interface{}: containerLen = d.mapStart(d.d.ReadMapStart()) if containerLen != containerLenNil { if containerLen != 0 { fastpathTV.DecMapInt32IntfL(v, containerLen, d) } d.mapEnd() } case *map[int32]interface{}: fastpathTV.DecMapInt32IntfX(v, d) case map[int32]string: containerLen = d.mapStart(d.d.ReadMapStart()) if containerLen != containerLenNil { if containerLen != 0 { fastpathTV.DecMapInt32StringL(v, containerLen, d) } d.mapEnd() } case *map[int32]string: fastpathTV.DecMapInt32StringX(v, d) case map[int32][]byte: containerLen = d.mapStart(d.d.ReadMapStart()) if containerLen != containerLenNil { if containerLen != 0 { fastpathTV.DecMapInt32BytesL(v, containerLen, d) } d.mapEnd() } case *map[int32][]byte: fastpathTV.DecMapInt32BytesX(v, d) case map[int32]uint8: containerLen = d.mapStart(d.d.ReadMapStart()) if containerLen != containerLenNil { if containerLen != 0 { fastpathTV.DecMapInt32Uint8L(v, containerLen, d) } d.mapEnd() } case *map[int32]uint8: fastpathTV.DecMapInt32Uint8X(v, d) case map[int32]uint64: containerLen = d.mapStart(d.d.ReadMapStart()) if containerLen != containerLenNil { if containerLen != 0 { fastpathTV.DecMapInt32Uint64L(v, containerLen, d) } d.mapEnd() } case *map[int32]uint64: fastpathTV.DecMapInt32Uint64X(v, d) case map[int32]int: containerLen = d.mapStart(d.d.ReadMapStart()) if containerLen != containerLenNil { if containerLen != 0 { fastpathTV.DecMapInt32IntL(v, containerLen, d) } d.mapEnd() } case *map[int32]int: fastpathTV.DecMapInt32IntX(v, d) case map[int32]int32: containerLen = d.mapStart(d.d.ReadMapStart()) if containerLen != containerLenNil { if containerLen != 0 { fastpathTV.DecMapInt32Int32L(v, containerLen, d) } d.mapEnd() } case *map[int32]int32: fastpathTV.DecMapInt32Int32X(v, d) case map[int32]float64: containerLen = d.mapStart(d.d.ReadMapStart()) if containerLen != containerLenNil { if containerLen != 0 { fastpathTV.DecMapInt32Float64L(v, containerLen, d) } d.mapEnd() } case *map[int32]float64: fastpathTV.DecMapInt32Float64X(v, d) case map[int32]bool: containerLen = d.mapStart(d.d.ReadMapStart()) if containerLen != containerLenNil { if containerLen != 0 { fastpathTV.DecMapInt32BoolL(v, containerLen, d) } d.mapEnd() } case *map[int32]bool: fastpathTV.DecMapInt32BoolX(v, d) default: _ = v // workaround https://github.com/golang/go/issues/12927 seen in go1.4 return false } return true } func fastpathDecodeSetZeroTypeSwitch(iv interface{}) bool { switch v := iv.(type) { case *[]interface{}: *v = nil case *[]string: *v = nil case *[][]byte: *v = nil case *[]float32: *v = nil case *[]float64: *v = nil case *[]uint8: *v = nil case *[]uint64: *v = nil case *[]int: *v = nil case *[]int32: *v = nil case *[]int64: *v = nil case *[]bool: *v = nil case *map[string]interface{}: *v = nil case *map[string]string: *v = nil case *map[string][]byte: *v = nil case *map[string]uint8: *v = nil case *map[string]uint64: *v = nil case *map[string]int: *v = nil case *map[string]int32: *v = nil case *map[string]float64: *v = nil case *map[string]bool: *v = nil case *map[uint8]interface{}: *v = nil case *map[uint8]string: *v = nil case *map[uint8][]byte: *v = nil case *map[uint8]uint8: *v = nil case *map[uint8]uint64: *v = nil case *map[uint8]int: *v = nil case *map[uint8]int32: *v = nil case *map[uint8]float64: *v = nil case *map[uint8]bool: *v = nil case *map[uint64]interface{}: *v = nil case *map[uint64]string: *v = nil case *map[uint64][]byte: *v = nil case *map[uint64]uint8: *v = nil case *map[uint64]uint64: *v = nil case *map[uint64]int: *v = nil case *map[uint64]int32: *v = nil case *map[uint64]float64: *v = nil case *map[uint64]bool: *v = nil case *map[int]interface{}: *v = nil case *map[int]string: *v = nil case *map[int][]byte: *v = nil case *map[int]uint8: *v = nil case *map[int]uint64: *v = nil case *map[int]int: *v = nil case *map[int]int32: *v = nil case *map[int]float64: *v = nil case *map[int]bool: *v = nil case *map[int32]interface{}: *v = nil case *map[int32]string: *v = nil case *map[int32][]byte: *v = nil case *map[int32]uint8: *v = nil case *map[int32]uint64: *v = nil case *map[int32]int: *v = nil case *map[int32]int32: *v = nil case *map[int32]float64: *v = nil case *map[int32]bool: *v = nil default: _ = v // workaround https://github.com/golang/go/issues/12927 seen in go1.4 return false } return true } // -- -- fast path functions func (d *Decoder) fastpathDecSliceIntfR(f *codecFnInfo, rv reflect.Value) { var v []interface{} switch rv.Kind() { case reflect.Ptr: vp := rv2i(rv).(*[]interface{}) var changed bool if v, changed = fastpathTV.DecSliceIntfY(*vp, d); changed { *vp = v } case reflect.Array: rvGetSlice4Array(rv, &v) fastpathTV.DecSliceIntfN(v, d) default: fastpathTV.DecSliceIntfN(rv2i(rv).([]interface{}), d) } } func (f fastpathT) DecSliceIntfX(vp *[]interface{}, d *Decoder) { if v, changed := f.DecSliceIntfY(*vp, d); changed { *vp = v } } func (fastpathT) DecSliceIntfY(v []interface{}, d *Decoder) (v2 []interface{}, changed bool) { slh, containerLenS := d.decSliceHelperStart() if slh.IsNil { if v == nil { return } return nil, true } if containerLenS == 0 { if v == nil { v = []interface{}{} } else if len(v) != 0 { v = v[:0] } slh.End() return v, true } hasLen := containerLenS > 0 var xlen int if hasLen { if containerLenS > cap(v) { xlen = decInferLen(containerLenS, d.h.MaxInitLen, 16) if xlen <= cap(v) { v = v[:uint(xlen)] } else { v = make([]interface{}, uint(xlen)) } changed = true } else if containerLenS != len(v) { v = v[:containerLenS] changed = true } } var j int for j = 0; (hasLen && j < containerLenS) || !(hasLen || d.checkBreak()); j++ { if j == 0 && len(v) == 0 { // means hasLen == false xlen = decInferLen(containerLenS, d.h.MaxInitLen, 16) v = make([]interface{}, uint(xlen)) changed = true } if j >= len(v) { v = append(v, nil) changed = true } slh.ElemContainerState(j) d.decode(&v[uint(j)]) } if j < len(v) { v = v[:uint(j)] changed = true } else if j == 0 && v == nil { v = []interface{}{} changed = true } slh.End() return v, changed } func (fastpathT) DecSliceIntfN(v []interface{}, d *Decoder) { slh, containerLenS := d.decSliceHelperStart() if slh.IsNil { return } if containerLenS == 0 { slh.End() return } hasLen := containerLenS > 0 for j := 0; (hasLen && j < containerLenS) || !(hasLen || d.checkBreak()); j++ { if j >= len(v) { slh.arrayCannotExpand(hasLen, len(v), j, containerLenS) return } slh.ElemContainerState(j) d.decode(&v[uint(j)]) } slh.End() } func (d *Decoder) fastpathDecSliceStringR(f *codecFnInfo, rv reflect.Value) { var v []string switch rv.Kind() { case reflect.Ptr: vp := rv2i(rv).(*[]string) var changed bool if v, changed = fastpathTV.DecSliceStringY(*vp, d); changed { *vp = v } case reflect.Array: rvGetSlice4Array(rv, &v) fastpathTV.DecSliceStringN(v, d) default: fastpathTV.DecSliceStringN(rv2i(rv).([]string), d) } } func (f fastpathT) DecSliceStringX(vp *[]string, d *Decoder) { if v, changed := f.DecSliceStringY(*vp, d); changed { *vp = v } } func (fastpathT) DecSliceStringY(v []string, d *Decoder) (v2 []string, changed bool) { slh, containerLenS := d.decSliceHelperStart() if slh.IsNil { if v == nil { return } return nil, true } if containerLenS == 0 { if v == nil { v = []string{} } else if len(v) != 0 { v = v[:0] } slh.End() return v, true } hasLen := containerLenS > 0 var xlen int if hasLen { if containerLenS > cap(v) { xlen = decInferLen(containerLenS, d.h.MaxInitLen, 16) if xlen <= cap(v) { v = v[:uint(xlen)] } else { v = make([]string, uint(xlen)) } changed = true } else if containerLenS != len(v) { v = v[:containerLenS] changed = true } } var j int for j = 0; (hasLen && j < containerLenS) || !(hasLen || d.checkBreak()); j++ { if j == 0 && len(v) == 0 { // means hasLen == false xlen = decInferLen(containerLenS, d.h.MaxInitLen, 16) v = make([]string, uint(xlen)) changed = true } if j >= len(v) { v = append(v, "") changed = true } slh.ElemContainerState(j) v[uint(j)] = d.stringZC(d.d.DecodeStringAsBytes()) } if j < len(v) { v = v[:uint(j)] changed = true } else if j == 0 && v == nil { v = []string{} changed = true } slh.End() return v, changed } func (fastpathT) DecSliceStringN(v []string, d *Decoder) { slh, containerLenS := d.decSliceHelperStart() if slh.IsNil { return } if containerLenS == 0 { slh.End() return } hasLen := containerLenS > 0 for j := 0; (hasLen && j < containerLenS) || !(hasLen || d.checkBreak()); j++ { if j >= len(v) { slh.arrayCannotExpand(hasLen, len(v), j, containerLenS) return } slh.ElemContainerState(j) v[uint(j)] = d.stringZC(d.d.DecodeStringAsBytes()) } slh.End() } func (d *Decoder) fastpathDecSliceBytesR(f *codecFnInfo, rv reflect.Value) { var v [][]byte switch rv.Kind() { case reflect.Ptr: vp := rv2i(rv).(*[][]byte) var changed bool if v, changed = fastpathTV.DecSliceBytesY(*vp, d); changed { *vp = v } case reflect.Array: rvGetSlice4Array(rv, &v) fastpathTV.DecSliceBytesN(v, d) default: fastpathTV.DecSliceBytesN(rv2i(rv).([][]byte), d) } } func (f fastpathT) DecSliceBytesX(vp *[][]byte, d *Decoder) { if v, changed := f.DecSliceBytesY(*vp, d); changed { *vp = v } } func (fastpathT) DecSliceBytesY(v [][]byte, d *Decoder) (v2 [][]byte, changed bool) { slh, containerLenS := d.decSliceHelperStart() if slh.IsNil { if v == nil { return } return nil, true } if containerLenS == 0 { if v == nil { v = [][]byte{} } else if len(v) != 0 { v = v[:0] } slh.End() return v, true } hasLen := containerLenS > 0 var xlen int if hasLen { if containerLenS > cap(v) { xlen = decInferLen(containerLenS, d.h.MaxInitLen, 24) if xlen <= cap(v) { v = v[:uint(xlen)] } else { v = make([][]byte, uint(xlen)) } changed = true } else if containerLenS != len(v) { v = v[:containerLenS] changed = true } } var j int for j = 0; (hasLen && j < containerLenS) || !(hasLen || d.checkBreak()); j++ { if j == 0 && len(v) == 0 { // means hasLen == false xlen = decInferLen(containerLenS, d.h.MaxInitLen, 24) v = make([][]byte, uint(xlen)) changed = true } if j >= len(v) { v = append(v, nil) changed = true } slh.ElemContainerState(j) v[uint(j)] = d.d.DecodeBytes([]byte{}) } if j < len(v) { v = v[:uint(j)] changed = true } else if j == 0 && v == nil { v = [][]byte{} changed = true } slh.End() return v, changed } func (fastpathT) DecSliceBytesN(v [][]byte, d *Decoder) { slh, containerLenS := d.decSliceHelperStart() if slh.IsNil { return } if containerLenS == 0 { slh.End() return } hasLen := containerLenS > 0 for j := 0; (hasLen && j < containerLenS) || !(hasLen || d.checkBreak()); j++ { if j >= len(v) { slh.arrayCannotExpand(hasLen, len(v), j, containerLenS) return } slh.ElemContainerState(j) v[uint(j)] = d.d.DecodeBytes([]byte{}) } slh.End() } func (d *Decoder) fastpathDecSliceFloat32R(f *codecFnInfo, rv reflect.Value) { var v []float32 switch rv.Kind() { case reflect.Ptr: vp := rv2i(rv).(*[]float32) var changed bool if v, changed = fastpathTV.DecSliceFloat32Y(*vp, d); changed { *vp = v } case reflect.Array: rvGetSlice4Array(rv, &v) fastpathTV.DecSliceFloat32N(v, d) default: fastpathTV.DecSliceFloat32N(rv2i(rv).([]float32), d) } } func (f fastpathT) DecSliceFloat32X(vp *[]float32, d *Decoder) { if v, changed := f.DecSliceFloat32Y(*vp, d); changed { *vp = v } } func (fastpathT) DecSliceFloat32Y(v []float32, d *Decoder) (v2 []float32, changed bool) { slh, containerLenS := d.decSliceHelperStart() if slh.IsNil { if v == nil { return } return nil, true } if containerLenS == 0 { if v == nil { v = []float32{} } else if len(v) != 0 { v = v[:0] } slh.End() return v, true } hasLen := containerLenS > 0 var xlen int if hasLen { if containerLenS > cap(v) { xlen = decInferLen(containerLenS, d.h.MaxInitLen, 4) if xlen <= cap(v) { v = v[:uint(xlen)] } else { v = make([]float32, uint(xlen)) } changed = true } else if containerLenS != len(v) { v = v[:containerLenS] changed = true } } var j int for j = 0; (hasLen && j < containerLenS) || !(hasLen || d.checkBreak()); j++ { if j == 0 && len(v) == 0 { // means hasLen == false xlen = decInferLen(containerLenS, d.h.MaxInitLen, 4) v = make([]float32, uint(xlen)) changed = true } if j >= len(v) { v = append(v, 0) changed = true } slh.ElemContainerState(j) v[uint(j)] = float32(d.decodeFloat32()) } if j < len(v) { v = v[:uint(j)] changed = true } else if j == 0 && v == nil { v = []float32{} changed = true } slh.End() return v, changed } func (fastpathT) DecSliceFloat32N(v []float32, d *Decoder) { slh, containerLenS := d.decSliceHelperStart() if slh.IsNil { return } if containerLenS == 0 { slh.End() return } hasLen := containerLenS > 0 for j := 0; (hasLen && j < containerLenS) || !(hasLen || d.checkBreak()); j++ { if j >= len(v) { slh.arrayCannotExpand(hasLen, len(v), j, containerLenS) return } slh.ElemContainerState(j) v[uint(j)] = float32(d.decodeFloat32()) } slh.End() } func (d *Decoder) fastpathDecSliceFloat64R(f *codecFnInfo, rv reflect.Value) { var v []float64 switch rv.Kind() { case reflect.Ptr: vp := rv2i(rv).(*[]float64) var changed bool if v, changed = fastpathTV.DecSliceFloat64Y(*vp, d); changed { *vp = v } case reflect.Array: rvGetSlice4Array(rv, &v) fastpathTV.DecSliceFloat64N(v, d) default: fastpathTV.DecSliceFloat64N(rv2i(rv).([]float64), d) } } func (f fastpathT) DecSliceFloat64X(vp *[]float64, d *Decoder) { if v, changed := f.DecSliceFloat64Y(*vp, d); changed { *vp = v } } func (fastpathT) DecSliceFloat64Y(v []float64, d *Decoder) (v2 []float64, changed bool) { slh, containerLenS := d.decSliceHelperStart() if slh.IsNil { if v == nil { return } return nil, true } if containerLenS == 0 { if v == nil { v = []float64{} } else if len(v) != 0 { v = v[:0] } slh.End() return v, true } hasLen := containerLenS > 0 var xlen int if hasLen { if containerLenS > cap(v) { xlen = decInferLen(containerLenS, d.h.MaxInitLen, 8) if xlen <= cap(v) { v = v[:uint(xlen)] } else { v = make([]float64, uint(xlen)) } changed = true } else if containerLenS != len(v) { v = v[:containerLenS] changed = true } } var j int for j = 0; (hasLen && j < containerLenS) || !(hasLen || d.checkBreak()); j++ { if j == 0 && len(v) == 0 { // means hasLen == false xlen = decInferLen(containerLenS, d.h.MaxInitLen, 8) v = make([]float64, uint(xlen)) changed = true } if j >= len(v) { v = append(v, 0) changed = true } slh.ElemContainerState(j) v[uint(j)] = d.d.DecodeFloat64() } if j < len(v) { v = v[:uint(j)] changed = true } else if j == 0 && v == nil { v = []float64{} changed = true } slh.End() return v, changed } func (fastpathT) DecSliceFloat64N(v []float64, d *Decoder) { slh, containerLenS := d.decSliceHelperStart() if slh.IsNil { return } if containerLenS == 0 { slh.End() return } hasLen := containerLenS > 0 for j := 0; (hasLen && j < containerLenS) || !(hasLen || d.checkBreak()); j++ { if j >= len(v) { slh.arrayCannotExpand(hasLen, len(v), j, containerLenS) return } slh.ElemContainerState(j) v[uint(j)] = d.d.DecodeFloat64() } slh.End() } func (d *Decoder) fastpathDecSliceUint8R(f *codecFnInfo, rv reflect.Value) { var v []uint8 switch rv.Kind() { case reflect.Ptr: vp := rv2i(rv).(*[]uint8) var changed bool if v, changed = fastpathTV.DecSliceUint8Y(*vp, d); changed { *vp = v } case reflect.Array: rvGetSlice4Array(rv, &v) fastpathTV.DecSliceUint8N(v, d) default: fastpathTV.DecSliceUint8N(rv2i(rv).([]uint8), d) } } func (f fastpathT) DecSliceUint8X(vp *[]uint8, d *Decoder) { if v, changed := f.DecSliceUint8Y(*vp, d); changed { *vp = v } } func (fastpathT) DecSliceUint8Y(v []uint8, d *Decoder) (v2 []uint8, changed bool) { switch d.d.ContainerType() { case valueTypeNil, valueTypeMap: break default: v2 = d.decodeBytesInto(v[:len(v):len(v)]) changed = !(len(v2) > 0 && len(v2) == len(v) && &v2[0] == &v[0]) // not same slice return } slh, containerLenS := d.decSliceHelperStart() if slh.IsNil { if v == nil { return } return nil, true } if containerLenS == 0 { if v == nil { v = []uint8{} } else if len(v) != 0 { v = v[:0] } slh.End() return v, true } hasLen := containerLenS > 0 var xlen int if hasLen { if containerLenS > cap(v) { xlen = decInferLen(containerLenS, d.h.MaxInitLen, 1) if xlen <= cap(v) { v = v[:uint(xlen)] } else { v = make([]uint8, uint(xlen)) } changed = true } else if containerLenS != len(v) { v = v[:containerLenS] changed = true } } var j int for j = 0; (hasLen && j < containerLenS) || !(hasLen || d.checkBreak()); j++ { if j == 0 && len(v) == 0 { // means hasLen == false xlen = decInferLen(containerLenS, d.h.MaxInitLen, 1) v = make([]uint8, uint(xlen)) changed = true } if j >= len(v) { v = append(v, 0) changed = true } slh.ElemContainerState(j) v[uint(j)] = uint8(chkOvf.UintV(d.d.DecodeUint64(), 8)) } if j < len(v) { v = v[:uint(j)] changed = true } else if j == 0 && v == nil { v = []uint8{} changed = true } slh.End() return v, changed } func (fastpathT) DecSliceUint8N(v []uint8, d *Decoder) { switch d.d.ContainerType() { case valueTypeNil, valueTypeMap: break default: v2 := d.decodeBytesInto(v[:len(v):len(v)]) if !(len(v2) > 0 && len(v2) == len(v) && &v2[0] == &v[0]) { // not same slice copy(v, v2) } return } slh, containerLenS := d.decSliceHelperStart() if slh.IsNil { return } if containerLenS == 0 { slh.End() return } hasLen := containerLenS > 0 for j := 0; (hasLen && j < containerLenS) || !(hasLen || d.checkBreak()); j++ { if j >= len(v) { slh.arrayCannotExpand(hasLen, len(v), j, containerLenS) return } slh.ElemContainerState(j) v[uint(j)] = uint8(chkOvf.UintV(d.d.DecodeUint64(), 8)) } slh.End() } func (d *Decoder) fastpathDecSliceUint64R(f *codecFnInfo, rv reflect.Value) { var v []uint64 switch rv.Kind() { case reflect.Ptr: vp := rv2i(rv).(*[]uint64) var changed bool if v, changed = fastpathTV.DecSliceUint64Y(*vp, d); changed { *vp = v } case reflect.Array: rvGetSlice4Array(rv, &v) fastpathTV.DecSliceUint64N(v, d) default: fastpathTV.DecSliceUint64N(rv2i(rv).([]uint64), d) } } func (f fastpathT) DecSliceUint64X(vp *[]uint64, d *Decoder) { if v, changed := f.DecSliceUint64Y(*vp, d); changed { *vp = v } } func (fastpathT) DecSliceUint64Y(v []uint64, d *Decoder) (v2 []uint64, changed bool) { slh, containerLenS := d.decSliceHelperStart() if slh.IsNil { if v == nil { return } return nil, true } if containerLenS == 0 { if v == nil { v = []uint64{} } else if len(v) != 0 { v = v[:0] } slh.End() return v, true } hasLen := containerLenS > 0 var xlen int if hasLen { if containerLenS > cap(v) { xlen = decInferLen(containerLenS, d.h.MaxInitLen, 8) if xlen <= cap(v) { v = v[:uint(xlen)] } else { v = make([]uint64, uint(xlen)) } changed = true } else if containerLenS != len(v) { v = v[:containerLenS] changed = true } } var j int for j = 0; (hasLen && j < containerLenS) || !(hasLen || d.checkBreak()); j++ { if j == 0 && len(v) == 0 { // means hasLen == false xlen = decInferLen(containerLenS, d.h.MaxInitLen, 8) v = make([]uint64, uint(xlen)) changed = true } if j >= len(v) { v = append(v, 0) changed = true } slh.ElemContainerState(j) v[uint(j)] = d.d.DecodeUint64() } if j < len(v) { v = v[:uint(j)] changed = true } else if j == 0 && v == nil { v = []uint64{} changed = true } slh.End() return v, changed } func (fastpathT) DecSliceUint64N(v []uint64, d *Decoder) { slh, containerLenS := d.decSliceHelperStart() if slh.IsNil { return } if containerLenS == 0 { slh.End() return } hasLen := containerLenS > 0 for j := 0; (hasLen && j < containerLenS) || !(hasLen || d.checkBreak()); j++ { if j >= len(v) { slh.arrayCannotExpand(hasLen, len(v), j, containerLenS) return } slh.ElemContainerState(j) v[uint(j)] = d.d.DecodeUint64() } slh.End() } func (d *Decoder) fastpathDecSliceIntR(f *codecFnInfo, rv reflect.Value) { var v []int switch rv.Kind() { case reflect.Ptr: vp := rv2i(rv).(*[]int) var changed bool if v, changed = fastpathTV.DecSliceIntY(*vp, d); changed { *vp = v } case reflect.Array: rvGetSlice4Array(rv, &v) fastpathTV.DecSliceIntN(v, d) default: fastpathTV.DecSliceIntN(rv2i(rv).([]int), d) } } func (f fastpathT) DecSliceIntX(vp *[]int, d *Decoder) { if v, changed := f.DecSliceIntY(*vp, d); changed { *vp = v } } func (fastpathT) DecSliceIntY(v []int, d *Decoder) (v2 []int, changed bool) { slh, containerLenS := d.decSliceHelperStart() if slh.IsNil { if v == nil { return } return nil, true } if containerLenS == 0 { if v == nil { v = []int{} } else if len(v) != 0 { v = v[:0] } slh.End() return v, true } hasLen := containerLenS > 0 var xlen int if hasLen { if containerLenS > cap(v) { xlen = decInferLen(containerLenS, d.h.MaxInitLen, 8) if xlen <= cap(v) { v = v[:uint(xlen)] } else { v = make([]int, uint(xlen)) } changed = true } else if containerLenS != len(v) { v = v[:containerLenS] changed = true } } var j int for j = 0; (hasLen && j < containerLenS) || !(hasLen || d.checkBreak()); j++ { if j == 0 && len(v) == 0 { // means hasLen == false xlen = decInferLen(containerLenS, d.h.MaxInitLen, 8) v = make([]int, uint(xlen)) changed = true } if j >= len(v) { v = append(v, 0) changed = true } slh.ElemContainerState(j) v[uint(j)] = int(chkOvf.IntV(d.d.DecodeInt64(), intBitsize)) } if j < len(v) { v = v[:uint(j)] changed = true } else if j == 0 && v == nil { v = []int{} changed = true } slh.End() return v, changed } func (fastpathT) DecSliceIntN(v []int, d *Decoder) { slh, containerLenS := d.decSliceHelperStart() if slh.IsNil { return } if containerLenS == 0 { slh.End() return } hasLen := containerLenS > 0 for j := 0; (hasLen && j < containerLenS) || !(hasLen || d.checkBreak()); j++ { if j >= len(v) { slh.arrayCannotExpand(hasLen, len(v), j, containerLenS) return } slh.ElemContainerState(j) v[uint(j)] = int(chkOvf.IntV(d.d.DecodeInt64(), intBitsize)) } slh.End() } func (d *Decoder) fastpathDecSliceInt32R(f *codecFnInfo, rv reflect.Value) { var v []int32 switch rv.Kind() { case reflect.Ptr: vp := rv2i(rv).(*[]int32) var changed bool if v, changed = fastpathTV.DecSliceInt32Y(*vp, d); changed { *vp = v } case reflect.Array: rvGetSlice4Array(rv, &v) fastpathTV.DecSliceInt32N(v, d) default: fastpathTV.DecSliceInt32N(rv2i(rv).([]int32), d) } } func (f fastpathT) DecSliceInt32X(vp *[]int32, d *Decoder) { if v, changed := f.DecSliceInt32Y(*vp, d); changed { *vp = v } } func (fastpathT) DecSliceInt32Y(v []int32, d *Decoder) (v2 []int32, changed bool) { slh, containerLenS := d.decSliceHelperStart() if slh.IsNil { if v == nil { return } return nil, true } if containerLenS == 0 { if v == nil { v = []int32{} } else if len(v) != 0 { v = v[:0] } slh.End() return v, true } hasLen := containerLenS > 0 var xlen int if hasLen { if containerLenS > cap(v) { xlen = decInferLen(containerLenS, d.h.MaxInitLen, 4) if xlen <= cap(v) { v = v[:uint(xlen)] } else { v = make([]int32, uint(xlen)) } changed = true } else if containerLenS != len(v) { v = v[:containerLenS] changed = true } } var j int for j = 0; (hasLen && j < containerLenS) || !(hasLen || d.checkBreak()); j++ { if j == 0 && len(v) == 0 { // means hasLen == false xlen = decInferLen(containerLenS, d.h.MaxInitLen, 4) v = make([]int32, uint(xlen)) changed = true } if j >= len(v) { v = append(v, 0) changed = true } slh.ElemContainerState(j) v[uint(j)] = int32(chkOvf.IntV(d.d.DecodeInt64(), 32)) } if j < len(v) { v = v[:uint(j)] changed = true } else if j == 0 && v == nil { v = []int32{} changed = true } slh.End() return v, changed } func (fastpathT) DecSliceInt32N(v []int32, d *Decoder) { slh, containerLenS := d.decSliceHelperStart() if slh.IsNil { return } if containerLenS == 0 { slh.End() return } hasLen := containerLenS > 0 for j := 0; (hasLen && j < containerLenS) || !(hasLen || d.checkBreak()); j++ { if j >= len(v) { slh.arrayCannotExpand(hasLen, len(v), j, containerLenS) return } slh.ElemContainerState(j) v[uint(j)] = int32(chkOvf.IntV(d.d.DecodeInt64(), 32)) } slh.End() } func (d *Decoder) fastpathDecSliceInt64R(f *codecFnInfo, rv reflect.Value) { var v []int64 switch rv.Kind() { case reflect.Ptr: vp := rv2i(rv).(*[]int64) var changed bool if v, changed = fastpathTV.DecSliceInt64Y(*vp, d); changed { *vp = v } case reflect.Array: rvGetSlice4Array(rv, &v) fastpathTV.DecSliceInt64N(v, d) default: fastpathTV.DecSliceInt64N(rv2i(rv).([]int64), d) } } func (f fastpathT) DecSliceInt64X(vp *[]int64, d *Decoder) { if v, changed := f.DecSliceInt64Y(*vp, d); changed { *vp = v } } func (fastpathT) DecSliceInt64Y(v []int64, d *Decoder) (v2 []int64, changed bool) { slh, containerLenS := d.decSliceHelperStart() if slh.IsNil { if v == nil { return } return nil, true } if containerLenS == 0 { if v == nil { v = []int64{} } else if len(v) != 0 { v = v[:0] } slh.End() return v, true } hasLen := containerLenS > 0 var xlen int if hasLen { if containerLenS > cap(v) { xlen = decInferLen(containerLenS, d.h.MaxInitLen, 8) if xlen <= cap(v) { v = v[:uint(xlen)] } else { v = make([]int64, uint(xlen)) } changed = true } else if containerLenS != len(v) { v = v[:containerLenS] changed = true } } var j int for j = 0; (hasLen && j < containerLenS) || !(hasLen || d.checkBreak()); j++ { if j == 0 && len(v) == 0 { // means hasLen == false xlen = decInferLen(containerLenS, d.h.MaxInitLen, 8) v = make([]int64, uint(xlen)) changed = true } if j >= len(v) { v = append(v, 0) changed = true } slh.ElemContainerState(j) v[uint(j)] = d.d.DecodeInt64() } if j < len(v) { v = v[:uint(j)] changed = true } else if j == 0 && v == nil { v = []int64{} changed = true } slh.End() return v, changed } func (fastpathT) DecSliceInt64N(v []int64, d *Decoder) { slh, containerLenS := d.decSliceHelperStart() if slh.IsNil { return } if containerLenS == 0 { slh.End() return } hasLen := containerLenS > 0 for j := 0; (hasLen && j < containerLenS) || !(hasLen || d.checkBreak()); j++ { if j >= len(v) { slh.arrayCannotExpand(hasLen, len(v), j, containerLenS) return } slh.ElemContainerState(j) v[uint(j)] = d.d.DecodeInt64() } slh.End() } func (d *Decoder) fastpathDecSliceBoolR(f *codecFnInfo, rv reflect.Value) { var v []bool switch rv.Kind() { case reflect.Ptr: vp := rv2i(rv).(*[]bool) var changed bool if v, changed = fastpathTV.DecSliceBoolY(*vp, d); changed { *vp = v } case reflect.Array: rvGetSlice4Array(rv, &v) fastpathTV.DecSliceBoolN(v, d) default: fastpathTV.DecSliceBoolN(rv2i(rv).([]bool), d) } } func (f fastpathT) DecSliceBoolX(vp *[]bool, d *Decoder) { if v, changed := f.DecSliceBoolY(*vp, d); changed { *vp = v } } func (fastpathT) DecSliceBoolY(v []bool, d *Decoder) (v2 []bool, changed bool) { slh, containerLenS := d.decSliceHelperStart() if slh.IsNil { if v == nil { return } return nil, true } if containerLenS == 0 { if v == nil { v = []bool{} } else if len(v) != 0 { v = v[:0] } slh.End() return v, true } hasLen := containerLenS > 0 var xlen int if hasLen { if containerLenS > cap(v) { xlen = decInferLen(containerLenS, d.h.MaxInitLen, 1) if xlen <= cap(v) { v = v[:uint(xlen)] } else { v = make([]bool, uint(xlen)) } changed = true } else if containerLenS != len(v) { v = v[:containerLenS] changed = true } } var j int for j = 0; (hasLen && j < containerLenS) || !(hasLen || d.checkBreak()); j++ { if j == 0 && len(v) == 0 { // means hasLen == false xlen = decInferLen(containerLenS, d.h.MaxInitLen, 1) v = make([]bool, uint(xlen)) changed = true } if j >= len(v) { v = append(v, false) changed = true } slh.ElemContainerState(j) v[uint(j)] = d.d.DecodeBool() } if j < len(v) { v = v[:uint(j)] changed = true } else if j == 0 && v == nil { v = []bool{} changed = true } slh.End() return v, changed } func (fastpathT) DecSliceBoolN(v []bool, d *Decoder) { slh, containerLenS := d.decSliceHelperStart() if slh.IsNil { return } if containerLenS == 0 { slh.End() return } hasLen := containerLenS > 0 for j := 0; (hasLen && j < containerLenS) || !(hasLen || d.checkBreak()); j++ { if j >= len(v) { slh.arrayCannotExpand(hasLen, len(v), j, containerLenS) return } slh.ElemContainerState(j) v[uint(j)] = d.d.DecodeBool() } slh.End() } func (d *Decoder) fastpathDecMapStringIntfR(f *codecFnInfo, rv reflect.Value) { 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.h.MaxInitLen, 32)) } if containerLen != 0 { fastpathTV.DecMapStringIntfL(*vp, containerLen, d) } } else if containerLen != 0 { fastpathTV.DecMapStringIntfL(rv2i(rv).(map[string]interface{}), containerLen, d) } d.mapEnd() } func (f fastpathT) DecMapStringIntfX(vp *map[string]interface{}, d *Decoder) { containerLen := d.mapStart(d.d.ReadMapStart()) if containerLen == containerLenNil { *vp = nil } else { if *vp == nil { *vp = make(map[string]interface{}, decInferLen(containerLen, d.h.MaxInitLen, 32)) } if containerLen != 0 { f.DecMapStringIntfL(*vp, containerLen, d) } d.mapEnd() } } func (fastpathT) DecMapStringIntfL(v map[string]interface{}, containerLen int, d *Decoder) { if v == nil { d.errorf("cannot decode into nil map[string]interface{} given stream length: %v", containerLen) return } mapGet := v != nil && !d.h.MapValueReset && !d.h.InterfaceReset var mk string var mv interface{} hasLen := containerLen > 0 for j := 0; (hasLen && j < containerLen) || !(hasLen || d.checkBreak()); j++ { d.mapElemKey() mk = d.stringZC(d.d.DecodeStringAsBytes()) d.mapElemValue() if mapGet { mv = v[mk] } else { mv = nil } d.decode(&mv) v[mk] = mv } } func (d *Decoder) fastpathDecMapStringStringR(f *codecFnInfo, rv reflect.Value) { 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.h.MaxInitLen, 32)) } if containerLen != 0 { fastpathTV.DecMapStringStringL(*vp, containerLen, d) } } else if containerLen != 0 { fastpathTV.DecMapStringStringL(rv2i(rv).(map[string]string), containerLen, d) } d.mapEnd() } func (f fastpathT) DecMapStringStringX(vp *map[string]string, d *Decoder) { containerLen := d.mapStart(d.d.ReadMapStart()) if containerLen == containerLenNil { *vp = nil } else { if *vp == nil { *vp = make(map[string]string, decInferLen(containerLen, d.h.MaxInitLen, 32)) } if containerLen != 0 { f.DecMapStringStringL(*vp, containerLen, d) } d.mapEnd() } } func (fastpathT) DecMapStringStringL(v map[string]string, containerLen int, d *Decoder) { if v == nil { d.errorf("cannot decode into nil map[string]string given stream length: %v", containerLen) return } var mk string var mv string hasLen := containerLen > 0 for j := 0; (hasLen && j < containerLen) || !(hasLen || d.checkBreak()); j++ { d.mapElemKey() mk = d.stringZC(d.d.DecodeStringAsBytes()) d.mapElemValue() mv = d.stringZC(d.d.DecodeStringAsBytes()) v[mk] = mv } } func (d *Decoder) fastpathDecMapStringBytesR(f *codecFnInfo, rv reflect.Value) { 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.h.MaxInitLen, 40)) } if containerLen != 0 { fastpathTV.DecMapStringBytesL(*vp, containerLen, d) } } else if containerLen != 0 { fastpathTV.DecMapStringBytesL(rv2i(rv).(map[string][]byte), containerLen, d) } d.mapEnd() } func (f fastpathT) DecMapStringBytesX(vp *map[string][]byte, d *Decoder) { containerLen := d.mapStart(d.d.ReadMapStart()) if containerLen == containerLenNil { *vp = nil } else { if *vp == nil { *vp = make(map[string][]byte, decInferLen(containerLen, d.h.MaxInitLen, 40)) } if containerLen != 0 { f.DecMapStringBytesL(*vp, containerLen, d) } d.mapEnd() } } func (fastpathT) DecMapStringBytesL(v map[string][]byte, containerLen int, d *Decoder) { if v == nil { d.errorf("cannot decode into nil map[string][]byte given stream length: %v", containerLen) return } mapGet := v != nil && !d.h.MapValueReset var mk string var mv []byte hasLen := containerLen > 0 for j := 0; (hasLen && j < containerLen) || !(hasLen || d.checkBreak()); j++ { d.mapElemKey() mk = d.stringZC(d.d.DecodeStringAsBytes()) d.mapElemValue() if mapGet { mv = v[mk] } else { mv = nil } mv = d.decodeBytesInto(mv) v[mk] = mv } } func (d *Decoder) fastpathDecMapStringUint8R(f *codecFnInfo, rv reflect.Value) { 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.h.MaxInitLen, 17)) } if containerLen != 0 { fastpathTV.DecMapStringUint8L(*vp, containerLen, d) } } else if containerLen != 0 { fastpathTV.DecMapStringUint8L(rv2i(rv).(map[string]uint8), containerLen, d) } d.mapEnd() } func (f fastpathT) DecMapStringUint8X(vp *map[string]uint8, d *Decoder) { containerLen := d.mapStart(d.d.ReadMapStart()) if containerLen == containerLenNil { *vp = nil } else { if *vp == nil { *vp = make(map[string]uint8, decInferLen(containerLen, d.h.MaxInitLen, 17)) } if containerLen != 0 { f.DecMapStringUint8L(*vp, containerLen, d) } d.mapEnd() } } func (fastpathT) DecMapStringUint8L(v map[string]uint8, containerLen int, d *Decoder) { if v == nil { d.errorf("cannot decode into nil map[string]uint8 given stream length: %v", containerLen) return } var mk string var mv uint8 hasLen := containerLen > 0 for j := 0; (hasLen && j < containerLen) || !(hasLen || d.checkBreak()); j++ { d.mapElemKey() mk = d.stringZC(d.d.DecodeStringAsBytes()) d.mapElemValue() mv = uint8(chkOvf.UintV(d.d.DecodeUint64(), 8)) v[mk] = mv } } func (d *Decoder) fastpathDecMapStringUint64R(f *codecFnInfo, rv reflect.Value) { 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.h.MaxInitLen, 24)) } if containerLen != 0 { fastpathTV.DecMapStringUint64L(*vp, containerLen, d) } } else if containerLen != 0 { fastpathTV.DecMapStringUint64L(rv2i(rv).(map[string]uint64), containerLen, d) } d.mapEnd() } func (f fastpathT) DecMapStringUint64X(vp *map[string]uint64, d *Decoder) { containerLen := d.mapStart(d.d.ReadMapStart()) if containerLen == containerLenNil { *vp = nil } else { if *vp == nil { *vp = make(map[string]uint64, decInferLen(containerLen, d.h.MaxInitLen, 24)) } if containerLen != 0 { f.DecMapStringUint64L(*vp, containerLen, d) } d.mapEnd() } } func (fastpathT) DecMapStringUint64L(v map[string]uint64, containerLen int, d *Decoder) { if v == nil { d.errorf("cannot decode into nil map[string]uint64 given stream length: %v", containerLen) return } var mk string var mv uint64 hasLen := containerLen > 0 for j := 0; (hasLen && j < containerLen) || !(hasLen || d.checkBreak()); j++ { d.mapElemKey() mk = d.stringZC(d.d.DecodeStringAsBytes()) d.mapElemValue() mv = d.d.DecodeUint64() v[mk] = mv } } func (d *Decoder) fastpathDecMapStringIntR(f *codecFnInfo, rv reflect.Value) { 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.h.MaxInitLen, 24)) } if containerLen != 0 { fastpathTV.DecMapStringIntL(*vp, containerLen, d) } } else if containerLen != 0 { fastpathTV.DecMapStringIntL(rv2i(rv).(map[string]int), containerLen, d) } d.mapEnd() } func (f fastpathT) DecMapStringIntX(vp *map[string]int, d *Decoder) { containerLen := d.mapStart(d.d.ReadMapStart()) if containerLen == containerLenNil { *vp = nil } else { if *vp == nil { *vp = make(map[string]int, decInferLen(containerLen, d.h.MaxInitLen, 24)) } if containerLen != 0 { f.DecMapStringIntL(*vp, containerLen, d) } d.mapEnd() } } func (fastpathT) DecMapStringIntL(v map[string]int, containerLen int, d *Decoder) { if v == nil { d.errorf("cannot decode into nil map[string]int given stream length: %v", containerLen) return } var mk string var mv int hasLen := containerLen > 0 for j := 0; (hasLen && j < containerLen) || !(hasLen || d.checkBreak()); j++ { d.mapElemKey() mk = d.stringZC(d.d.DecodeStringAsBytes()) d.mapElemValue() mv = int(chkOvf.IntV(d.d.DecodeInt64(), intBitsize)) v[mk] = mv } } func (d *Decoder) fastpathDecMapStringInt32R(f *codecFnInfo, rv reflect.Value) { 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.h.MaxInitLen, 20)) } if containerLen != 0 { fastpathTV.DecMapStringInt32L(*vp, containerLen, d) } } else if containerLen != 0 { fastpathTV.DecMapStringInt32L(rv2i(rv).(map[string]int32), containerLen, d) } d.mapEnd() } func (f fastpathT) DecMapStringInt32X(vp *map[string]int32, d *Decoder) { containerLen := d.mapStart(d.d.ReadMapStart()) if containerLen == containerLenNil { *vp = nil } else { if *vp == nil { *vp = make(map[string]int32, decInferLen(containerLen, d.h.MaxInitLen, 20)) } if containerLen != 0 { f.DecMapStringInt32L(*vp, containerLen, d) } d.mapEnd() } } func (fastpathT) DecMapStringInt32L(v map[string]int32, containerLen int, d *Decoder) { if v == nil { d.errorf("cannot decode into nil map[string]int32 given stream length: %v", containerLen) return } var mk string var mv int32 hasLen := containerLen > 0 for j := 0; (hasLen && j < containerLen) || !(hasLen || d.checkBreak()); j++ { d.mapElemKey() mk = d.stringZC(d.d.DecodeStringAsBytes()) d.mapElemValue() mv = int32(chkOvf.IntV(d.d.DecodeInt64(), 32)) v[mk] = mv } } func (d *Decoder) fastpathDecMapStringFloat64R(f *codecFnInfo, rv reflect.Value) { 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.h.MaxInitLen, 24)) } if containerLen != 0 { fastpathTV.DecMapStringFloat64L(*vp, containerLen, d) } } else if containerLen != 0 { fastpathTV.DecMapStringFloat64L(rv2i(rv).(map[string]float64), containerLen, d) } d.mapEnd() } func (f fastpathT) DecMapStringFloat64X(vp *map[string]float64, d *Decoder) { containerLen := d.mapStart(d.d.ReadMapStart()) if containerLen == containerLenNil { *vp = nil } else { if *vp == nil { *vp = make(map[string]float64, decInferLen(containerLen, d.h.MaxInitLen, 24)) } if containerLen != 0 { f.DecMapStringFloat64L(*vp, containerLen, d) } d.mapEnd() } } func (fastpathT) DecMapStringFloat64L(v map[string]float64, containerLen int, d *Decoder) { if v == nil { d.errorf("cannot decode into nil map[string]float64 given stream length: %v", containerLen) return } var mk string var mv float64 hasLen := containerLen > 0 for j := 0; (hasLen && j < containerLen) || !(hasLen || d.checkBreak()); j++ { d.mapElemKey() mk = d.stringZC(d.d.DecodeStringAsBytes()) d.mapElemValue() mv = d.d.DecodeFloat64() v[mk] = mv } } func (d *Decoder) fastpathDecMapStringBoolR(f *codecFnInfo, rv reflect.Value) { 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.h.MaxInitLen, 17)) } if containerLen != 0 { fastpathTV.DecMapStringBoolL(*vp, containerLen, d) } } else if containerLen != 0 { fastpathTV.DecMapStringBoolL(rv2i(rv).(map[string]bool), containerLen, d) } d.mapEnd() } func (f fastpathT) DecMapStringBoolX(vp *map[string]bool, d *Decoder) { containerLen := d.mapStart(d.d.ReadMapStart()) if containerLen == containerLenNil { *vp = nil } else { if *vp == nil { *vp = make(map[string]bool, decInferLen(containerLen, d.h.MaxInitLen, 17)) } if containerLen != 0 { f.DecMapStringBoolL(*vp, containerLen, d) } d.mapEnd() } } func (fastpathT) DecMapStringBoolL(v map[string]bool, containerLen int, d *Decoder) { if v == nil { d.errorf("cannot decode into nil map[string]bool given stream length: %v", containerLen) return } var mk string var mv bool hasLen := containerLen > 0 for j := 0; (hasLen && j < containerLen) || !(hasLen || d.checkBreak()); j++ { d.mapElemKey() mk = d.stringZC(d.d.DecodeStringAsBytes()) d.mapElemValue() mv = d.d.DecodeBool() v[mk] = mv } } func (d *Decoder) fastpathDecMapUint8IntfR(f *codecFnInfo, rv reflect.Value) { 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.h.MaxInitLen, 17)) } if containerLen != 0 { fastpathTV.DecMapUint8IntfL(*vp, containerLen, d) } } else if containerLen != 0 { fastpathTV.DecMapUint8IntfL(rv2i(rv).(map[uint8]interface{}), containerLen, d) } d.mapEnd() } func (f fastpathT) DecMapUint8IntfX(vp *map[uint8]interface{}, d *Decoder) { containerLen := d.mapStart(d.d.ReadMapStart()) if containerLen == containerLenNil { *vp = nil } else { if *vp == nil { *vp = make(map[uint8]interface{}, decInferLen(containerLen, d.h.MaxInitLen, 17)) } if containerLen != 0 { f.DecMapUint8IntfL(*vp, containerLen, d) } d.mapEnd() } } func (fastpathT) DecMapUint8IntfL(v map[uint8]interface{}, containerLen int, d *Decoder) { if v == nil { d.errorf("cannot decode into nil map[uint8]interface{} given stream length: %v", containerLen) return } mapGet := v != nil && !d.h.MapValueReset && !d.h.InterfaceReset var mk uint8 var mv interface{} hasLen := containerLen > 0 for j := 0; (hasLen && j < containerLen) || !(hasLen || d.checkBreak()); j++ { d.mapElemKey() 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) fastpathDecMapUint8StringR(f *codecFnInfo, rv reflect.Value) { 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.h.MaxInitLen, 17)) } if containerLen != 0 { fastpathTV.DecMapUint8StringL(*vp, containerLen, d) } } else if containerLen != 0 { fastpathTV.DecMapUint8StringL(rv2i(rv).(map[uint8]string), containerLen, d) } d.mapEnd() } func (f fastpathT) DecMapUint8StringX(vp *map[uint8]string, d *Decoder) { containerLen := d.mapStart(d.d.ReadMapStart()) if containerLen == containerLenNil { *vp = nil } else { if *vp == nil { *vp = make(map[uint8]string, decInferLen(containerLen, d.h.MaxInitLen, 17)) } if containerLen != 0 { f.DecMapUint8StringL(*vp, containerLen, d) } d.mapEnd() } } func (fastpathT) DecMapUint8StringL(v map[uint8]string, containerLen int, d *Decoder) { if v == nil { d.errorf("cannot decode into nil map[uint8]string given stream length: %v", containerLen) return } var mk uint8 var mv string hasLen := containerLen > 0 for j := 0; (hasLen && j < containerLen) || !(hasLen || d.checkBreak()); j++ { d.mapElemKey() mk = uint8(chkOvf.UintV(d.d.DecodeUint64(), 8)) d.mapElemValue() mv = d.stringZC(d.d.DecodeStringAsBytes()) v[mk] = mv } } func (d *Decoder) fastpathDecMapUint8BytesR(f *codecFnInfo, rv reflect.Value) { 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.h.MaxInitLen, 25)) } if containerLen != 0 { fastpathTV.DecMapUint8BytesL(*vp, containerLen, d) } } else if containerLen != 0 { fastpathTV.DecMapUint8BytesL(rv2i(rv).(map[uint8][]byte), containerLen, d) } d.mapEnd() } func (f fastpathT) DecMapUint8BytesX(vp *map[uint8][]byte, d *Decoder) { containerLen := d.mapStart(d.d.ReadMapStart()) if containerLen == containerLenNil { *vp = nil } else { if *vp == nil { *vp = make(map[uint8][]byte, decInferLen(containerLen, d.h.MaxInitLen, 25)) } if containerLen != 0 { f.DecMapUint8BytesL(*vp, containerLen, d) } d.mapEnd() } } func (fastpathT) DecMapUint8BytesL(v map[uint8][]byte, containerLen int, d *Decoder) { if v == nil { d.errorf("cannot decode into nil map[uint8][]byte given stream length: %v", containerLen) return } mapGet := v != nil && !d.h.MapValueReset var mk uint8 var mv []byte hasLen := containerLen > 0 for j := 0; (hasLen && j < containerLen) || !(hasLen || d.checkBreak()); j++ { d.mapElemKey() mk = uint8(chkOvf.UintV(d.d.DecodeUint64(), 8)) d.mapElemValue() if mapGet { mv = v[mk] } else { mv = nil } mv = d.decodeBytesInto(mv) v[mk] = mv } } func (d *Decoder) fastpathDecMapUint8Uint8R(f *codecFnInfo, rv reflect.Value) { 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.h.MaxInitLen, 2)) } if containerLen != 0 { fastpathTV.DecMapUint8Uint8L(*vp, containerLen, d) } } else if containerLen != 0 { fastpathTV.DecMapUint8Uint8L(rv2i(rv).(map[uint8]uint8), containerLen, d) } d.mapEnd() } func (f fastpathT) DecMapUint8Uint8X(vp *map[uint8]uint8, d *Decoder) { containerLen := d.mapStart(d.d.ReadMapStart()) if containerLen == containerLenNil { *vp = nil } else { if *vp == nil { *vp = make(map[uint8]uint8, decInferLen(containerLen, d.h.MaxInitLen, 2)) } if containerLen != 0 { f.DecMapUint8Uint8L(*vp, containerLen, d) } d.mapEnd() } } func (fastpathT) DecMapUint8Uint8L(v map[uint8]uint8, containerLen int, d *Decoder) { if v == nil { d.errorf("cannot decode into nil map[uint8]uint8 given stream length: %v", containerLen) return } var mk uint8 var mv uint8 hasLen := containerLen > 0 for j := 0; (hasLen && j < containerLen) || !(hasLen || d.checkBreak()); j++ { d.mapElemKey() mk = uint8(chkOvf.UintV(d.d.DecodeUint64(), 8)) d.mapElemValue() mv = uint8(chkOvf.UintV(d.d.DecodeUint64(), 8)) v[mk] = mv } } func (d *Decoder) fastpathDecMapUint8Uint64R(f *codecFnInfo, rv reflect.Value) { 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.h.MaxInitLen, 9)) } if containerLen != 0 { fastpathTV.DecMapUint8Uint64L(*vp, containerLen, d) } } else if containerLen != 0 { fastpathTV.DecMapUint8Uint64L(rv2i(rv).(map[uint8]uint64), containerLen, d) } d.mapEnd() } func (f fastpathT) DecMapUint8Uint64X(vp *map[uint8]uint64, d *Decoder) { containerLen := d.mapStart(d.d.ReadMapStart()) if containerLen == containerLenNil { *vp = nil } else { if *vp == nil { *vp = make(map[uint8]uint64, decInferLen(containerLen, d.h.MaxInitLen, 9)) } if containerLen != 0 { f.DecMapUint8Uint64L(*vp, containerLen, d) } d.mapEnd() } } func (fastpathT) DecMapUint8Uint64L(v map[uint8]uint64, containerLen int, d *Decoder) { if v == nil { d.errorf("cannot decode into nil map[uint8]uint64 given stream length: %v", containerLen) return } var mk uint8 var mv uint64 hasLen := containerLen > 0 for j := 0; (hasLen && j < containerLen) || !(hasLen || d.checkBreak()); j++ { d.mapElemKey() mk = uint8(chkOvf.UintV(d.d.DecodeUint64(), 8)) d.mapElemValue() mv = d.d.DecodeUint64() v[mk] = mv } } func (d *Decoder) fastpathDecMapUint8IntR(f *codecFnInfo, rv reflect.Value) { 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.h.MaxInitLen, 9)) } if containerLen != 0 { fastpathTV.DecMapUint8IntL(*vp, containerLen, d) } } else if containerLen != 0 { fastpathTV.DecMapUint8IntL(rv2i(rv).(map[uint8]int), containerLen, d) } d.mapEnd() } func (f fastpathT) DecMapUint8IntX(vp *map[uint8]int, d *Decoder) { containerLen := d.mapStart(d.d.ReadMapStart()) if containerLen == containerLenNil { *vp = nil } else { if *vp == nil { *vp = make(map[uint8]int, decInferLen(containerLen, d.h.MaxInitLen, 9)) } if containerLen != 0 { f.DecMapUint8IntL(*vp, containerLen, d) } d.mapEnd() } } func (fastpathT) DecMapUint8IntL(v map[uint8]int, containerLen int, d *Decoder) { if v == nil { d.errorf("cannot decode into nil map[uint8]int given stream length: %v", containerLen) return } var mk uint8 var mv int hasLen := containerLen > 0 for j := 0; (hasLen && j < containerLen) || !(hasLen || d.checkBreak()); j++ { d.mapElemKey() mk = uint8(chkOvf.UintV(d.d.DecodeUint64(), 8)) d.mapElemValue() mv = int(chkOvf.IntV(d.d.DecodeInt64(), intBitsize)) v[mk] = mv } } func (d *Decoder) fastpathDecMapUint8Int32R(f *codecFnInfo, rv reflect.Value) { 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.h.MaxInitLen, 5)) } if containerLen != 0 { fastpathTV.DecMapUint8Int32L(*vp, containerLen, d) } } else if containerLen != 0 { fastpathTV.DecMapUint8Int32L(rv2i(rv).(map[uint8]int32), containerLen, d) } d.mapEnd() } func (f fastpathT) DecMapUint8Int32X(vp *map[uint8]int32, d *Decoder) { containerLen := d.mapStart(d.d.ReadMapStart()) if containerLen == containerLenNil { *vp = nil } else { if *vp == nil { *vp = make(map[uint8]int32, decInferLen(containerLen, d.h.MaxInitLen, 5)) } if containerLen != 0 { f.DecMapUint8Int32L(*vp, containerLen, d) } d.mapEnd() } } func (fastpathT) DecMapUint8Int32L(v map[uint8]int32, containerLen int, d *Decoder) { if v == nil { d.errorf("cannot decode into nil map[uint8]int32 given stream length: %v", containerLen) return } var mk uint8 var mv int32 hasLen := containerLen > 0 for j := 0; (hasLen && j < containerLen) || !(hasLen || d.checkBreak()); j++ { d.mapElemKey() mk = uint8(chkOvf.UintV(d.d.DecodeUint64(), 8)) d.mapElemValue() mv = int32(chkOvf.IntV(d.d.DecodeInt64(), 32)) v[mk] = mv } } func (d *Decoder) fastpathDecMapUint8Float64R(f *codecFnInfo, rv reflect.Value) { 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.h.MaxInitLen, 9)) } if containerLen != 0 { fastpathTV.DecMapUint8Float64L(*vp, containerLen, d) } } else if containerLen != 0 { fastpathTV.DecMapUint8Float64L(rv2i(rv).(map[uint8]float64), containerLen, d) } d.mapEnd() } func (f fastpathT) DecMapUint8Float64X(vp *map[uint8]float64, d *Decoder) { containerLen := d.mapStart(d.d.ReadMapStart()) if containerLen == containerLenNil { *vp = nil } else { if *vp == nil { *vp = make(map[uint8]float64, decInferLen(containerLen, d.h.MaxInitLen, 9)) } if containerLen != 0 { f.DecMapUint8Float64L(*vp, containerLen, d) } d.mapEnd() } } func (fastpathT) DecMapUint8Float64L(v map[uint8]float64, containerLen int, d *Decoder) { if v == nil { d.errorf("cannot decode into nil map[uint8]float64 given stream length: %v", containerLen) return } var mk uint8 var mv float64 hasLen := containerLen > 0 for j := 0; (hasLen && j < containerLen) || !(hasLen || d.checkBreak()); j++ { d.mapElemKey() mk = uint8(chkOvf.UintV(d.d.DecodeUint64(), 8)) d.mapElemValue() mv = d.d.DecodeFloat64() v[mk] = mv } } func (d *Decoder) fastpathDecMapUint8BoolR(f *codecFnInfo, rv reflect.Value) { 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.h.MaxInitLen, 2)) } if containerLen != 0 { fastpathTV.DecMapUint8BoolL(*vp, containerLen, d) } } else if containerLen != 0 { fastpathTV.DecMapUint8BoolL(rv2i(rv).(map[uint8]bool), containerLen, d) } d.mapEnd() } func (f fastpathT) DecMapUint8BoolX(vp *map[uint8]bool, d *Decoder) { containerLen := d.mapStart(d.d.ReadMapStart()) if containerLen == containerLenNil { *vp = nil } else { if *vp == nil { *vp = make(map[uint8]bool, decInferLen(containerLen, d.h.MaxInitLen, 2)) } if containerLen != 0 { f.DecMapUint8BoolL(*vp, containerLen, d) } d.mapEnd() } } func (fastpathT) DecMapUint8BoolL(v map[uint8]bool, containerLen int, d *Decoder) { if v == nil { d.errorf("cannot decode into nil map[uint8]bool given stream length: %v", containerLen) return } var mk uint8 var mv bool hasLen := containerLen > 0 for j := 0; (hasLen && j < containerLen) || !(hasLen || d.checkBreak()); j++ { d.mapElemKey() mk = uint8(chkOvf.UintV(d.d.DecodeUint64(), 8)) d.mapElemValue() mv = d.d.DecodeBool() v[mk] = mv } } func (d *Decoder) fastpathDecMapUint64IntfR(f *codecFnInfo, rv reflect.Value) { 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.h.MaxInitLen, 24)) } if containerLen != 0 { fastpathTV.DecMapUint64IntfL(*vp, containerLen, d) } } else if containerLen != 0 { fastpathTV.DecMapUint64IntfL(rv2i(rv).(map[uint64]interface{}), containerLen, d) } d.mapEnd() } func (f fastpathT) DecMapUint64IntfX(vp *map[uint64]interface{}, d *Decoder) { containerLen := d.mapStart(d.d.ReadMapStart()) if containerLen == containerLenNil { *vp = nil } else { if *vp == nil { *vp = make(map[uint64]interface{}, decInferLen(containerLen, d.h.MaxInitLen, 24)) } if containerLen != 0 { f.DecMapUint64IntfL(*vp, containerLen, d) } d.mapEnd() } } func (fastpathT) DecMapUint64IntfL(v map[uint64]interface{}, containerLen int, d *Decoder) { if v == nil { d.errorf("cannot decode into nil map[uint64]interface{} given stream length: %v", containerLen) return } mapGet := v != nil && !d.h.MapValueReset && !d.h.InterfaceReset var mk uint64 var mv interface{} hasLen := containerLen > 0 for j := 0; (hasLen && j < containerLen) || !(hasLen || d.checkBreak()); j++ { d.mapElemKey() mk = d.d.DecodeUint64() d.mapElemValue() if mapGet { mv = v[mk] } else { mv = nil } d.decode(&mv) v[mk] = mv } } func (d *Decoder) fastpathDecMapUint64StringR(f *codecFnInfo, rv reflect.Value) { 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.h.MaxInitLen, 24)) } if containerLen != 0 { fastpathTV.DecMapUint64StringL(*vp, containerLen, d) } } else if containerLen != 0 { fastpathTV.DecMapUint64StringL(rv2i(rv).(map[uint64]string), containerLen, d) } d.mapEnd() } func (f fastpathT) DecMapUint64StringX(vp *map[uint64]string, d *Decoder) { containerLen := d.mapStart(d.d.ReadMapStart()) if containerLen == containerLenNil { *vp = nil } else { if *vp == nil { *vp = make(map[uint64]string, decInferLen(containerLen, d.h.MaxInitLen, 24)) } if containerLen != 0 { f.DecMapUint64StringL(*vp, containerLen, d) } d.mapEnd() } } func (fastpathT) DecMapUint64StringL(v map[uint64]string, containerLen int, d *Decoder) { if v == nil { d.errorf("cannot decode into nil map[uint64]string given stream length: %v", containerLen) return } var mk uint64 var mv string hasLen := containerLen > 0 for j := 0; (hasLen && j < containerLen) || !(hasLen || d.checkBreak()); j++ { d.mapElemKey() mk = d.d.DecodeUint64() d.mapElemValue() mv = d.stringZC(d.d.DecodeStringAsBytes()) v[mk] = mv } } func (d *Decoder) fastpathDecMapUint64BytesR(f *codecFnInfo, rv reflect.Value) { 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.h.MaxInitLen, 32)) } if containerLen != 0 { fastpathTV.DecMapUint64BytesL(*vp, containerLen, d) } } else if containerLen != 0 { fastpathTV.DecMapUint64BytesL(rv2i(rv).(map[uint64][]byte), containerLen, d) } d.mapEnd() } func (f fastpathT) DecMapUint64BytesX(vp *map[uint64][]byte, d *Decoder) { containerLen := d.mapStart(d.d.ReadMapStart()) if containerLen == containerLenNil { *vp = nil } else { if *vp == nil { *vp = make(map[uint64][]byte, decInferLen(containerLen, d.h.MaxInitLen, 32)) } if containerLen != 0 { f.DecMapUint64BytesL(*vp, containerLen, d) } d.mapEnd() } } func (fastpathT) DecMapUint64BytesL(v map[uint64][]byte, containerLen int, d *Decoder) { if v == nil { d.errorf("cannot decode into nil map[uint64][]byte given stream length: %v", containerLen) return } mapGet := v != nil && !d.h.MapValueReset var mk uint64 var mv []byte hasLen := containerLen > 0 for j := 0; (hasLen && j < containerLen) || !(hasLen || d.checkBreak()); j++ { d.mapElemKey() mk = d.d.DecodeUint64() d.mapElemValue() if mapGet { mv = v[mk] } else { mv = nil } mv = d.decodeBytesInto(mv) v[mk] = mv } } func (d *Decoder) fastpathDecMapUint64Uint8R(f *codecFnInfo, rv reflect.Value) { 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.h.MaxInitLen, 9)) } if containerLen != 0 { fastpathTV.DecMapUint64Uint8L(*vp, containerLen, d) } } else if containerLen != 0 { fastpathTV.DecMapUint64Uint8L(rv2i(rv).(map[uint64]uint8), containerLen, d) } d.mapEnd() } func (f fastpathT) DecMapUint64Uint8X(vp *map[uint64]uint8, d *Decoder) { containerLen := d.mapStart(d.d.ReadMapStart()) if containerLen == containerLenNil { *vp = nil } else { if *vp == nil { *vp = make(map[uint64]uint8, decInferLen(containerLen, d.h.MaxInitLen, 9)) } if containerLen != 0 { f.DecMapUint64Uint8L(*vp, containerLen, d) } d.mapEnd() } } func (fastpathT) DecMapUint64Uint8L(v map[uint64]uint8, containerLen int, d *Decoder) { if v == nil { d.errorf("cannot decode into nil map[uint64]uint8 given stream length: %v", containerLen) return } var mk uint64 var mv uint8 hasLen := containerLen > 0 for j := 0; (hasLen && j < containerLen) || !(hasLen || d.checkBreak()); j++ { d.mapElemKey() mk = d.d.DecodeUint64() d.mapElemValue() mv = uint8(chkOvf.UintV(d.d.DecodeUint64(), 8)) v[mk] = mv } } func (d *Decoder) fastpathDecMapUint64Uint64R(f *codecFnInfo, rv reflect.Value) { 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.h.MaxInitLen, 16)) } if containerLen != 0 { fastpathTV.DecMapUint64Uint64L(*vp, containerLen, d) } } else if containerLen != 0 { fastpathTV.DecMapUint64Uint64L(rv2i(rv).(map[uint64]uint64), containerLen, d) } d.mapEnd() } func (f fastpathT) DecMapUint64Uint64X(vp *map[uint64]uint64, d *Decoder) { containerLen := d.mapStart(d.d.ReadMapStart()) if containerLen == containerLenNil { *vp = nil } else { if *vp == nil { *vp = make(map[uint64]uint64, decInferLen(containerLen, d.h.MaxInitLen, 16)) } if containerLen != 0 { f.DecMapUint64Uint64L(*vp, containerLen, d) } d.mapEnd() } } func (fastpathT) DecMapUint64Uint64L(v map[uint64]uint64, containerLen int, d *Decoder) { if v == nil { d.errorf("cannot decode into nil map[uint64]uint64 given stream length: %v", containerLen) return } var mk uint64 var mv uint64 hasLen := containerLen > 0 for j := 0; (hasLen && j < containerLen) || !(hasLen || d.checkBreak()); j++ { d.mapElemKey() mk = d.d.DecodeUint64() d.mapElemValue() mv = d.d.DecodeUint64() v[mk] = mv } } func (d *Decoder) fastpathDecMapUint64IntR(f *codecFnInfo, rv reflect.Value) { 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.h.MaxInitLen, 16)) } if containerLen != 0 { fastpathTV.DecMapUint64IntL(*vp, containerLen, d) } } else if containerLen != 0 { fastpathTV.DecMapUint64IntL(rv2i(rv).(map[uint64]int), containerLen, d) } d.mapEnd() } func (f fastpathT) DecMapUint64IntX(vp *map[uint64]int, d *Decoder) { containerLen := d.mapStart(d.d.ReadMapStart()) if containerLen == containerLenNil { *vp = nil } else { if *vp == nil { *vp = make(map[uint64]int, decInferLen(containerLen, d.h.MaxInitLen, 16)) } if containerLen != 0 { f.DecMapUint64IntL(*vp, containerLen, d) } d.mapEnd() } } func (fastpathT) DecMapUint64IntL(v map[uint64]int, containerLen int, d *Decoder) { if v == nil { d.errorf("cannot decode into nil map[uint64]int given stream length: %v", containerLen) return } var mk uint64 var mv int hasLen := containerLen > 0 for j := 0; (hasLen && j < containerLen) || !(hasLen || d.checkBreak()); j++ { d.mapElemKey() mk = d.d.DecodeUint64() d.mapElemValue() mv = int(chkOvf.IntV(d.d.DecodeInt64(), intBitsize)) v[mk] = mv } } func (d *Decoder) fastpathDecMapUint64Int32R(f *codecFnInfo, rv reflect.Value) { 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.h.MaxInitLen, 12)) } if containerLen != 0 { fastpathTV.DecMapUint64Int32L(*vp, containerLen, d) } } else if containerLen != 0 { fastpathTV.DecMapUint64Int32L(rv2i(rv).(map[uint64]int32), containerLen, d) } d.mapEnd() } func (f fastpathT) DecMapUint64Int32X(vp *map[uint64]int32, d *Decoder) { containerLen := d.mapStart(d.d.ReadMapStart()) if containerLen == containerLenNil { *vp = nil } else { if *vp == nil { *vp = make(map[uint64]int32, decInferLen(containerLen, d.h.MaxInitLen, 12)) } if containerLen != 0 { f.DecMapUint64Int32L(*vp, containerLen, d) } d.mapEnd() } } func (fastpathT) DecMapUint64Int32L(v map[uint64]int32, containerLen int, d *Decoder) { if v == nil { d.errorf("cannot decode into nil map[uint64]int32 given stream length: %v", containerLen) return } var mk uint64 var mv int32 hasLen := containerLen > 0 for j := 0; (hasLen && j < containerLen) || !(hasLen || d.checkBreak()); j++ { d.mapElemKey() mk = d.d.DecodeUint64() d.mapElemValue() mv = int32(chkOvf.IntV(d.d.DecodeInt64(), 32)) v[mk] = mv } } func (d *Decoder) fastpathDecMapUint64Float64R(f *codecFnInfo, rv reflect.Value) { 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.h.MaxInitLen, 16)) } if containerLen != 0 { fastpathTV.DecMapUint64Float64L(*vp, containerLen, d) } } else if containerLen != 0 { fastpathTV.DecMapUint64Float64L(rv2i(rv).(map[uint64]float64), containerLen, d) } d.mapEnd() } func (f fastpathT) DecMapUint64Float64X(vp *map[uint64]float64, d *Decoder) { containerLen := d.mapStart(d.d.ReadMapStart()) if containerLen == containerLenNil { *vp = nil } else { if *vp == nil { *vp = make(map[uint64]float64, decInferLen(containerLen, d.h.MaxInitLen, 16)) } if containerLen != 0 { f.DecMapUint64Float64L(*vp, containerLen, d) } d.mapEnd() } } func (fastpathT) DecMapUint64Float64L(v map[uint64]float64, containerLen int, d *Decoder) { if v == nil { d.errorf("cannot decode into nil map[uint64]float64 given stream length: %v", containerLen) return } var mk uint64 var mv float64 hasLen := containerLen > 0 for j := 0; (hasLen && j < containerLen) || !(hasLen || d.checkBreak()); j++ { d.mapElemKey() mk = d.d.DecodeUint64() d.mapElemValue() mv = d.d.DecodeFloat64() v[mk] = mv } } func (d *Decoder) fastpathDecMapUint64BoolR(f *codecFnInfo, rv reflect.Value) { 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.h.MaxInitLen, 9)) } if containerLen != 0 { fastpathTV.DecMapUint64BoolL(*vp, containerLen, d) } } else if containerLen != 0 { fastpathTV.DecMapUint64BoolL(rv2i(rv).(map[uint64]bool), containerLen, d) } d.mapEnd() } func (f fastpathT) DecMapUint64BoolX(vp *map[uint64]bool, d *Decoder) { containerLen := d.mapStart(d.d.ReadMapStart()) if containerLen == containerLenNil { *vp = nil } else { if *vp == nil { *vp = make(map[uint64]bool, decInferLen(containerLen, d.h.MaxInitLen, 9)) } if containerLen != 0 { f.DecMapUint64BoolL(*vp, containerLen, d) } d.mapEnd() } } func (fastpathT) DecMapUint64BoolL(v map[uint64]bool, containerLen int, d *Decoder) { if v == nil { d.errorf("cannot decode into nil map[uint64]bool given stream length: %v", containerLen) return } var mk uint64 var mv bool hasLen := containerLen > 0 for j := 0; (hasLen && j < containerLen) || !(hasLen || d.checkBreak()); j++ { d.mapElemKey() mk = d.d.DecodeUint64() d.mapElemValue() mv = d.d.DecodeBool() v[mk] = mv } } func (d *Decoder) fastpathDecMapIntIntfR(f *codecFnInfo, rv reflect.Value) { 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.h.MaxInitLen, 24)) } if containerLen != 0 { fastpathTV.DecMapIntIntfL(*vp, containerLen, d) } } else if containerLen != 0 { fastpathTV.DecMapIntIntfL(rv2i(rv).(map[int]interface{}), containerLen, d) } d.mapEnd() } func (f fastpathT) DecMapIntIntfX(vp *map[int]interface{}, d *Decoder) { containerLen := d.mapStart(d.d.ReadMapStart()) if containerLen == containerLenNil { *vp = nil } else { if *vp == nil { *vp = make(map[int]interface{}, decInferLen(containerLen, d.h.MaxInitLen, 24)) } if containerLen != 0 { f.DecMapIntIntfL(*vp, containerLen, d) } d.mapEnd() } } func (fastpathT) DecMapIntIntfL(v map[int]interface{}, containerLen int, d *Decoder) { if v == nil { d.errorf("cannot decode into nil map[int]interface{} given stream length: %v", containerLen) return } mapGet := v != nil && !d.h.MapValueReset && !d.h.InterfaceReset var mk int var mv interface{} hasLen := containerLen > 0 for j := 0; (hasLen && j < containerLen) || !(hasLen || d.checkBreak()); j++ { d.mapElemKey() 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) fastpathDecMapIntStringR(f *codecFnInfo, rv reflect.Value) { 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.h.MaxInitLen, 24)) } if containerLen != 0 { fastpathTV.DecMapIntStringL(*vp, containerLen, d) } } else if containerLen != 0 { fastpathTV.DecMapIntStringL(rv2i(rv).(map[int]string), containerLen, d) } d.mapEnd() } func (f fastpathT) DecMapIntStringX(vp *map[int]string, d *Decoder) { containerLen := d.mapStart(d.d.ReadMapStart()) if containerLen == containerLenNil { *vp = nil } else { if *vp == nil { *vp = make(map[int]string, decInferLen(containerLen, d.h.MaxInitLen, 24)) } if containerLen != 0 { f.DecMapIntStringL(*vp, containerLen, d) } d.mapEnd() } } func (fastpathT) DecMapIntStringL(v map[int]string, containerLen int, d *Decoder) { if v == nil { d.errorf("cannot decode into nil map[int]string given stream length: %v", containerLen) return } var mk int var mv string hasLen := containerLen > 0 for j := 0; (hasLen && j < containerLen) || !(hasLen || d.checkBreak()); j++ { d.mapElemKey() mk = int(chkOvf.IntV(d.d.DecodeInt64(), intBitsize)) d.mapElemValue() mv = d.stringZC(d.d.DecodeStringAsBytes()) v[mk] = mv } } func (d *Decoder) fastpathDecMapIntBytesR(f *codecFnInfo, rv reflect.Value) { 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.h.MaxInitLen, 32)) } if containerLen != 0 { fastpathTV.DecMapIntBytesL(*vp, containerLen, d) } } else if containerLen != 0 { fastpathTV.DecMapIntBytesL(rv2i(rv).(map[int][]byte), containerLen, d) } d.mapEnd() } func (f fastpathT) DecMapIntBytesX(vp *map[int][]byte, d *Decoder) { containerLen := d.mapStart(d.d.ReadMapStart()) if containerLen == containerLenNil { *vp = nil } else { if *vp == nil { *vp = make(map[int][]byte, decInferLen(containerLen, d.h.MaxInitLen, 32)) } if containerLen != 0 { f.DecMapIntBytesL(*vp, containerLen, d) } d.mapEnd() } } func (fastpathT) DecMapIntBytesL(v map[int][]byte, containerLen int, d *Decoder) { if v == nil { d.errorf("cannot decode into nil map[int][]byte given stream length: %v", containerLen) return } mapGet := v != nil && !d.h.MapValueReset var mk int var mv []byte hasLen := containerLen > 0 for j := 0; (hasLen && j < containerLen) || !(hasLen || d.checkBreak()); j++ { d.mapElemKey() mk = int(chkOvf.IntV(d.d.DecodeInt64(), intBitsize)) d.mapElemValue() if mapGet { mv = v[mk] } else { mv = nil } mv = d.decodeBytesInto(mv) v[mk] = mv } } func (d *Decoder) fastpathDecMapIntUint8R(f *codecFnInfo, rv reflect.Value) { 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.h.MaxInitLen, 9)) } if containerLen != 0 { fastpathTV.DecMapIntUint8L(*vp, containerLen, d) } } else if containerLen != 0 { fastpathTV.DecMapIntUint8L(rv2i(rv).(map[int]uint8), containerLen, d) } d.mapEnd() } func (f fastpathT) DecMapIntUint8X(vp *map[int]uint8, d *Decoder) { containerLen := d.mapStart(d.d.ReadMapStart()) if containerLen == containerLenNil { *vp = nil } else { if *vp == nil { *vp = make(map[int]uint8, decInferLen(containerLen, d.h.MaxInitLen, 9)) } if containerLen != 0 { f.DecMapIntUint8L(*vp, containerLen, d) } d.mapEnd() } } func (fastpathT) DecMapIntUint8L(v map[int]uint8, containerLen int, d *Decoder) { if v == nil { d.errorf("cannot decode into nil map[int]uint8 given stream length: %v", containerLen) return } var mk int var mv uint8 hasLen := containerLen > 0 for j := 0; (hasLen && j < containerLen) || !(hasLen || d.checkBreak()); j++ { d.mapElemKey() mk = int(chkOvf.IntV(d.d.DecodeInt64(), intBitsize)) d.mapElemValue() mv = uint8(chkOvf.UintV(d.d.DecodeUint64(), 8)) v[mk] = mv } } func (d *Decoder) fastpathDecMapIntUint64R(f *codecFnInfo, rv reflect.Value) { 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.h.MaxInitLen, 16)) } if containerLen != 0 { fastpathTV.DecMapIntUint64L(*vp, containerLen, d) } } else if containerLen != 0 { fastpathTV.DecMapIntUint64L(rv2i(rv).(map[int]uint64), containerLen, d) } d.mapEnd() } func (f fastpathT) DecMapIntUint64X(vp *map[int]uint64, d *Decoder) { containerLen := d.mapStart(d.d.ReadMapStart()) if containerLen == containerLenNil { *vp = nil } else { if *vp == nil { *vp = make(map[int]uint64, decInferLen(containerLen, d.h.MaxInitLen, 16)) } if containerLen != 0 { f.DecMapIntUint64L(*vp, containerLen, d) } d.mapEnd() } } func (fastpathT) DecMapIntUint64L(v map[int]uint64, containerLen int, d *Decoder) { if v == nil { d.errorf("cannot decode into nil map[int]uint64 given stream length: %v", containerLen) return } var mk int var mv uint64 hasLen := containerLen > 0 for j := 0; (hasLen && j < containerLen) || !(hasLen || d.checkBreak()); j++ { d.mapElemKey() mk = int(chkOvf.IntV(d.d.DecodeInt64(), intBitsize)) d.mapElemValue() mv = d.d.DecodeUint64() v[mk] = mv } } func (d *Decoder) fastpathDecMapIntIntR(f *codecFnInfo, rv reflect.Value) { 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.h.MaxInitLen, 16)) } if containerLen != 0 { fastpathTV.DecMapIntIntL(*vp, containerLen, d) } } else if containerLen != 0 { fastpathTV.DecMapIntIntL(rv2i(rv).(map[int]int), containerLen, d) } d.mapEnd() } func (f fastpathT) DecMapIntIntX(vp *map[int]int, d *Decoder) { containerLen := d.mapStart(d.d.ReadMapStart()) if containerLen == containerLenNil { *vp = nil } else { if *vp == nil { *vp = make(map[int]int, decInferLen(containerLen, d.h.MaxInitLen, 16)) } if containerLen != 0 { f.DecMapIntIntL(*vp, containerLen, d) } d.mapEnd() } } func (fastpathT) DecMapIntIntL(v map[int]int, containerLen int, d *Decoder) { if v == nil { d.errorf("cannot decode into nil map[int]int given stream length: %v", containerLen) return } var mk int var mv int hasLen := containerLen > 0 for j := 0; (hasLen && j < containerLen) || !(hasLen || d.checkBreak()); j++ { d.mapElemKey() mk = int(chkOvf.IntV(d.d.DecodeInt64(), intBitsize)) d.mapElemValue() mv = int(chkOvf.IntV(d.d.DecodeInt64(), intBitsize)) v[mk] = mv } } func (d *Decoder) fastpathDecMapIntInt32R(f *codecFnInfo, rv reflect.Value) { 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.h.MaxInitLen, 12)) } if containerLen != 0 { fastpathTV.DecMapIntInt32L(*vp, containerLen, d) } } else if containerLen != 0 { fastpathTV.DecMapIntInt32L(rv2i(rv).(map[int]int32), containerLen, d) } d.mapEnd() } func (f fastpathT) DecMapIntInt32X(vp *map[int]int32, d *Decoder) { containerLen := d.mapStart(d.d.ReadMapStart()) if containerLen == containerLenNil { *vp = nil } else { if *vp == nil { *vp = make(map[int]int32, decInferLen(containerLen, d.h.MaxInitLen, 12)) } if containerLen != 0 { f.DecMapIntInt32L(*vp, containerLen, d) } d.mapEnd() } } func (fastpathT) DecMapIntInt32L(v map[int]int32, containerLen int, d *Decoder) { if v == nil { d.errorf("cannot decode into nil map[int]int32 given stream length: %v", containerLen) return } var mk int var mv int32 hasLen := containerLen > 0 for j := 0; (hasLen && j < containerLen) || !(hasLen || d.checkBreak()); j++ { d.mapElemKey() mk = int(chkOvf.IntV(d.d.DecodeInt64(), intBitsize)) d.mapElemValue() mv = int32(chkOvf.IntV(d.d.DecodeInt64(), 32)) v[mk] = mv } } func (d *Decoder) fastpathDecMapIntFloat64R(f *codecFnInfo, rv reflect.Value) { 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.h.MaxInitLen, 16)) } if containerLen != 0 { fastpathTV.DecMapIntFloat64L(*vp, containerLen, d) } } else if containerLen != 0 { fastpathTV.DecMapIntFloat64L(rv2i(rv).(map[int]float64), containerLen, d) } d.mapEnd() } func (f fastpathT) DecMapIntFloat64X(vp *map[int]float64, d *Decoder) { containerLen := d.mapStart(d.d.ReadMapStart()) if containerLen == containerLenNil { *vp = nil } else { if *vp == nil { *vp = make(map[int]float64, decInferLen(containerLen, d.h.MaxInitLen, 16)) } if containerLen != 0 { f.DecMapIntFloat64L(*vp, containerLen, d) } d.mapEnd() } } func (fastpathT) DecMapIntFloat64L(v map[int]float64, containerLen int, d *Decoder) { if v == nil { d.errorf("cannot decode into nil map[int]float64 given stream length: %v", containerLen) return } var mk int var mv float64 hasLen := containerLen > 0 for j := 0; (hasLen && j < containerLen) || !(hasLen || d.checkBreak()); j++ { d.mapElemKey() mk = int(chkOvf.IntV(d.d.DecodeInt64(), intBitsize)) d.mapElemValue() mv = d.d.DecodeFloat64() v[mk] = mv } } func (d *Decoder) fastpathDecMapIntBoolR(f *codecFnInfo, rv reflect.Value) { 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.h.MaxInitLen, 9)) } if containerLen != 0 { fastpathTV.DecMapIntBoolL(*vp, containerLen, d) } } else if containerLen != 0 { fastpathTV.DecMapIntBoolL(rv2i(rv).(map[int]bool), containerLen, d) } d.mapEnd() } func (f fastpathT) DecMapIntBoolX(vp *map[int]bool, d *Decoder) { containerLen := d.mapStart(d.d.ReadMapStart()) if containerLen == containerLenNil { *vp = nil } else { if *vp == nil { *vp = make(map[int]bool, decInferLen(containerLen, d.h.MaxInitLen, 9)) } if containerLen != 0 { f.DecMapIntBoolL(*vp, containerLen, d) } d.mapEnd() } } func (fastpathT) DecMapIntBoolL(v map[int]bool, containerLen int, d *Decoder) { if v == nil { d.errorf("cannot decode into nil map[int]bool given stream length: %v", containerLen) return } var mk int var mv bool hasLen := containerLen > 0 for j := 0; (hasLen && j < containerLen) || !(hasLen || d.checkBreak()); j++ { d.mapElemKey() mk = int(chkOvf.IntV(d.d.DecodeInt64(), intBitsize)) d.mapElemValue() mv = d.d.DecodeBool() v[mk] = mv } } func (d *Decoder) fastpathDecMapInt32IntfR(f *codecFnInfo, rv reflect.Value) { 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.h.MaxInitLen, 20)) } if containerLen != 0 { fastpathTV.DecMapInt32IntfL(*vp, containerLen, d) } } else if containerLen != 0 { fastpathTV.DecMapInt32IntfL(rv2i(rv).(map[int32]interface{}), containerLen, d) } d.mapEnd() } func (f fastpathT) DecMapInt32IntfX(vp *map[int32]interface{}, d *Decoder) { containerLen := d.mapStart(d.d.ReadMapStart()) if containerLen == containerLenNil { *vp = nil } else { if *vp == nil { *vp = make(map[int32]interface{}, decInferLen(containerLen, d.h.MaxInitLen, 20)) } if containerLen != 0 { f.DecMapInt32IntfL(*vp, containerLen, d) } d.mapEnd() } } func (fastpathT) DecMapInt32IntfL(v map[int32]interface{}, containerLen int, d *Decoder) { if v == nil { d.errorf("cannot decode into nil map[int32]interface{} given stream length: %v", containerLen) return } mapGet := v != nil && !d.h.MapValueReset && !d.h.InterfaceReset var mk int32 var mv interface{} hasLen := containerLen > 0 for j := 0; (hasLen && j < containerLen) || !(hasLen || d.checkBreak()); j++ { d.mapElemKey() 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) fastpathDecMapInt32StringR(f *codecFnInfo, rv reflect.Value) { 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.h.MaxInitLen, 20)) } if containerLen != 0 { fastpathTV.DecMapInt32StringL(*vp, containerLen, d) } } else if containerLen != 0 { fastpathTV.DecMapInt32StringL(rv2i(rv).(map[int32]string), containerLen, d) } d.mapEnd() } func (f fastpathT) DecMapInt32StringX(vp *map[int32]string, d *Decoder) { containerLen := d.mapStart(d.d.ReadMapStart()) if containerLen == containerLenNil { *vp = nil } else { if *vp == nil { *vp = make(map[int32]string, decInferLen(containerLen, d.h.MaxInitLen, 20)) } if containerLen != 0 { f.DecMapInt32StringL(*vp, containerLen, d) } d.mapEnd() } } func (fastpathT) DecMapInt32StringL(v map[int32]string, containerLen int, d *Decoder) { if v == nil { d.errorf("cannot decode into nil map[int32]string given stream length: %v", containerLen) return } var mk int32 var mv string hasLen := containerLen > 0 for j := 0; (hasLen && j < containerLen) || !(hasLen || d.checkBreak()); j++ { d.mapElemKey() mk = int32(chkOvf.IntV(d.d.DecodeInt64(), 32)) d.mapElemValue() mv = d.stringZC(d.d.DecodeStringAsBytes()) v[mk] = mv } } func (d *Decoder) fastpathDecMapInt32BytesR(f *codecFnInfo, rv reflect.Value) { 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.h.MaxInitLen, 28)) } if containerLen != 0 { fastpathTV.DecMapInt32BytesL(*vp, containerLen, d) } } else if containerLen != 0 { fastpathTV.DecMapInt32BytesL(rv2i(rv).(map[int32][]byte), containerLen, d) } d.mapEnd() } func (f fastpathT) DecMapInt32BytesX(vp *map[int32][]byte, d *Decoder) { containerLen := d.mapStart(d.d.ReadMapStart()) if containerLen == containerLenNil { *vp = nil } else { if *vp == nil { *vp = make(map[int32][]byte, decInferLen(containerLen, d.h.MaxInitLen, 28)) } if containerLen != 0 { f.DecMapInt32BytesL(*vp, containerLen, d) } d.mapEnd() } } func (fastpathT) DecMapInt32BytesL(v map[int32][]byte, containerLen int, d *Decoder) { if v == nil { d.errorf("cannot decode into nil map[int32][]byte given stream length: %v", containerLen) return } mapGet := v != nil && !d.h.MapValueReset var mk int32 var mv []byte hasLen := containerLen > 0 for j := 0; (hasLen && j < containerLen) || !(hasLen || d.checkBreak()); j++ { d.mapElemKey() mk = int32(chkOvf.IntV(d.d.DecodeInt64(), 32)) d.mapElemValue() if mapGet { mv = v[mk] } else { mv = nil } mv = d.decodeBytesInto(mv) v[mk] = mv } } func (d *Decoder) fastpathDecMapInt32Uint8R(f *codecFnInfo, rv reflect.Value) { 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.h.MaxInitLen, 5)) } if containerLen != 0 { fastpathTV.DecMapInt32Uint8L(*vp, containerLen, d) } } else if containerLen != 0 { fastpathTV.DecMapInt32Uint8L(rv2i(rv).(map[int32]uint8), containerLen, d) } d.mapEnd() } func (f fastpathT) DecMapInt32Uint8X(vp *map[int32]uint8, d *Decoder) { containerLen := d.mapStart(d.d.ReadMapStart()) if containerLen == containerLenNil { *vp = nil } else { if *vp == nil { *vp = make(map[int32]uint8, decInferLen(containerLen, d.h.MaxInitLen, 5)) } if containerLen != 0 { f.DecMapInt32Uint8L(*vp, containerLen, d) } d.mapEnd() } } func (fastpathT) DecMapInt32Uint8L(v map[int32]uint8, containerLen int, d *Decoder) { if v == nil { d.errorf("cannot decode into nil map[int32]uint8 given stream length: %v", containerLen) return } var mk int32 var mv uint8 hasLen := containerLen > 0 for j := 0; (hasLen && j < containerLen) || !(hasLen || d.checkBreak()); j++ { d.mapElemKey() mk = int32(chkOvf.IntV(d.d.DecodeInt64(), 32)) d.mapElemValue() mv = uint8(chkOvf.UintV(d.d.DecodeUint64(), 8)) v[mk] = mv } } func (d *Decoder) fastpathDecMapInt32Uint64R(f *codecFnInfo, rv reflect.Value) { 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.h.MaxInitLen, 12)) } if containerLen != 0 { fastpathTV.DecMapInt32Uint64L(*vp, containerLen, d) } } else if containerLen != 0 { fastpathTV.DecMapInt32Uint64L(rv2i(rv).(map[int32]uint64), containerLen, d) } d.mapEnd() } func (f fastpathT) DecMapInt32Uint64X(vp *map[int32]uint64, d *Decoder) { containerLen := d.mapStart(d.d.ReadMapStart()) if containerLen == containerLenNil { *vp = nil } else { if *vp == nil { *vp = make(map[int32]uint64, decInferLen(containerLen, d.h.MaxInitLen, 12)) } if containerLen != 0 { f.DecMapInt32Uint64L(*vp, containerLen, d) } d.mapEnd() } } func (fastpathT) DecMapInt32Uint64L(v map[int32]uint64, containerLen int, d *Decoder) { if v == nil { d.errorf("cannot decode into nil map[int32]uint64 given stream length: %v", containerLen) return } var mk int32 var mv uint64 hasLen := containerLen > 0 for j := 0; (hasLen && j < containerLen) || !(hasLen || d.checkBreak()); j++ { d.mapElemKey() mk = int32(chkOvf.IntV(d.d.DecodeInt64(), 32)) d.mapElemValue() mv = d.d.DecodeUint64() v[mk] = mv } } func (d *Decoder) fastpathDecMapInt32IntR(f *codecFnInfo, rv reflect.Value) { 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.h.MaxInitLen, 12)) } if containerLen != 0 { fastpathTV.DecMapInt32IntL(*vp, containerLen, d) } } else if containerLen != 0 { fastpathTV.DecMapInt32IntL(rv2i(rv).(map[int32]int), containerLen, d) } d.mapEnd() } func (f fastpathT) DecMapInt32IntX(vp *map[int32]int, d *Decoder) { containerLen := d.mapStart(d.d.ReadMapStart()) if containerLen == containerLenNil { *vp = nil } else { if *vp == nil { *vp = make(map[int32]int, decInferLen(containerLen, d.h.MaxInitLen, 12)) } if containerLen != 0 { f.DecMapInt32IntL(*vp, containerLen, d) } d.mapEnd() } } func (fastpathT) DecMapInt32IntL(v map[int32]int, containerLen int, d *Decoder) { if v == nil { d.errorf("cannot decode into nil map[int32]int given stream length: %v", containerLen) return } var mk int32 var mv int hasLen := containerLen > 0 for j := 0; (hasLen && j < containerLen) || !(hasLen || d.checkBreak()); j++ { d.mapElemKey() mk = int32(chkOvf.IntV(d.d.DecodeInt64(), 32)) d.mapElemValue() mv = int(chkOvf.IntV(d.d.DecodeInt64(), intBitsize)) v[mk] = mv } } func (d *Decoder) fastpathDecMapInt32Int32R(f *codecFnInfo, rv reflect.Value) { 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.h.MaxInitLen, 8)) } if containerLen != 0 { fastpathTV.DecMapInt32Int32L(*vp, containerLen, d) } } else if containerLen != 0 { fastpathTV.DecMapInt32Int32L(rv2i(rv).(map[int32]int32), containerLen, d) } d.mapEnd() } func (f fastpathT) DecMapInt32Int32X(vp *map[int32]int32, d *Decoder) { containerLen := d.mapStart(d.d.ReadMapStart()) if containerLen == containerLenNil { *vp = nil } else { if *vp == nil { *vp = make(map[int32]int32, decInferLen(containerLen, d.h.MaxInitLen, 8)) } if containerLen != 0 { f.DecMapInt32Int32L(*vp, containerLen, d) } d.mapEnd() } } func (fastpathT) DecMapInt32Int32L(v map[int32]int32, containerLen int, d *Decoder) { if v == nil { d.errorf("cannot decode into nil map[int32]int32 given stream length: %v", containerLen) return } var mk int32 var mv int32 hasLen := containerLen > 0 for j := 0; (hasLen && j < containerLen) || !(hasLen || d.checkBreak()); j++ { d.mapElemKey() mk = int32(chkOvf.IntV(d.d.DecodeInt64(), 32)) d.mapElemValue() mv = int32(chkOvf.IntV(d.d.DecodeInt64(), 32)) v[mk] = mv } } func (d *Decoder) fastpathDecMapInt32Float64R(f *codecFnInfo, rv reflect.Value) { 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.h.MaxInitLen, 12)) } if containerLen != 0 { fastpathTV.DecMapInt32Float64L(*vp, containerLen, d) } } else if containerLen != 0 { fastpathTV.DecMapInt32Float64L(rv2i(rv).(map[int32]float64), containerLen, d) } d.mapEnd() } func (f fastpathT) DecMapInt32Float64X(vp *map[int32]float64, d *Decoder) { containerLen := d.mapStart(d.d.ReadMapStart()) if containerLen == containerLenNil { *vp = nil } else { if *vp == nil { *vp = make(map[int32]float64, decInferLen(containerLen, d.h.MaxInitLen, 12)) } if containerLen != 0 { f.DecMapInt32Float64L(*vp, containerLen, d) } d.mapEnd() } } func (fastpathT) DecMapInt32Float64L(v map[int32]float64, containerLen int, d *Decoder) { if v == nil { d.errorf("cannot decode into nil map[int32]float64 given stream length: %v", containerLen) return } var mk int32 var mv float64 hasLen := containerLen > 0 for j := 0; (hasLen && j < containerLen) || !(hasLen || d.checkBreak()); j++ { d.mapElemKey() mk = int32(chkOvf.IntV(d.d.DecodeInt64(), 32)) d.mapElemValue() mv = d.d.DecodeFloat64() v[mk] = mv } } func (d *Decoder) fastpathDecMapInt32BoolR(f *codecFnInfo, rv reflect.Value) { 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.h.MaxInitLen, 5)) } if containerLen != 0 { fastpathTV.DecMapInt32BoolL(*vp, containerLen, d) } } else if containerLen != 0 { fastpathTV.DecMapInt32BoolL(rv2i(rv).(map[int32]bool), containerLen, d) } d.mapEnd() } func (f fastpathT) DecMapInt32BoolX(vp *map[int32]bool, d *Decoder) { containerLen := d.mapStart(d.d.ReadMapStart()) if containerLen == containerLenNil { *vp = nil } else { if *vp == nil { *vp = make(map[int32]bool, decInferLen(containerLen, d.h.MaxInitLen, 5)) } if containerLen != 0 { f.DecMapInt32BoolL(*vp, containerLen, d) } d.mapEnd() } } func (fastpathT) DecMapInt32BoolL(v map[int32]bool, containerLen int, d *Decoder) { if v == nil { d.errorf("cannot decode into nil map[int32]bool given stream length: %v", containerLen) return } var mk int32 var mv bool hasLen := containerLen > 0 for j := 0; (hasLen && j < containerLen) || !(hasLen || d.checkBreak()); j++ { d.mapElemKey() mk = int32(chkOvf.IntV(d.d.DecodeInt64(), 32)) d.mapElemValue() mv = d.d.DecodeBool() v[mk] = mv } }