// Copyright (c) 2012-2015 Ugorji Nwoke. All rights reserved. // Use of this source code is governed by a MIT license found in the LICENSE file. package codec import ( "math" "reflect" "time" ) const bincDoPrune = true // No longer needed. Needed before as C lib did not support pruning. // vd as low 4 bits (there are 16 slots) const ( bincVdSpecial byte = iota bincVdPosInt bincVdNegInt bincVdFloat bincVdString bincVdByteArray bincVdArray bincVdMap bincVdTimestamp bincVdSmallInt bincVdUnicodeOther bincVdSymbol bincVdDecimal _ // open slot _ // open slot bincVdCustomExt = 0x0f ) const ( bincSpNil byte = iota bincSpFalse bincSpTrue bincSpNan bincSpPosInf bincSpNegInf bincSpZeroFloat bincSpZero bincSpNegOne ) const ( bincFlBin16 byte = iota bincFlBin32 _ // bincFlBin32e bincFlBin64 _ // bincFlBin64e // others not currently supported ) type bincEncDriver struct { e *Encoder w encWriter m map[string]uint16 // symbols b [scratchByteArrayLen]byte s uint16 // symbols sequencer encNoSeparator } func (e *bincEncDriver) IsBuiltinType(rt uintptr) bool { return rt == timeTypId } func (e *bincEncDriver) EncodeBuiltin(rt uintptr, v interface{}) { if rt == timeTypId { var bs []byte switch x := v.(type) { case time.Time: bs = encodeTime(x) case *time.Time: bs = encodeTime(*x) default: e.e.errorf("binc error encoding builtin: expect time.Time, received %T", v) } e.w.writen1(bincVdTimestamp<<4 | uint8(len(bs))) e.w.writeb(bs) } } func (e *bincEncDriver) EncodeNil() { e.w.writen1(bincVdSpecial<<4 | bincSpNil) } func (e *bincEncDriver) EncodeBool(b bool) { if b { e.w.writen1(bincVdSpecial<<4 | bincSpTrue) } else { e.w.writen1(bincVdSpecial<<4 | bincSpFalse) } } func (e *bincEncDriver) EncodeFloat32(f float32) { if f == 0 { e.w.writen1(bincVdSpecial<<4 | bincSpZeroFloat) return } e.w.writen1(bincVdFloat<<4 | bincFlBin32) bigenHelper{e.b[:4], e.w}.writeUint32(math.Float32bits(f)) } func (e *bincEncDriver) EncodeFloat64(f float64) { if f == 0 { e.w.writen1(bincVdSpecial<<4 | bincSpZeroFloat) return } bigen.PutUint64(e.b[:8], math.Float64bits(f)) if bincDoPrune { i := 7 for ; i >= 0 && (e.b[i] == 0); i-- { } i++ if i <= 6 { e.w.writen1(bincVdFloat<<4 | 0x8 | bincFlBin64) e.w.writen1(byte(i)) e.w.writeb(e.b[:i]) return } } e.w.writen1(bincVdFloat<<4 | bincFlBin64) e.w.writeb(e.b[:8]) } func (e *bincEncDriver) encIntegerPrune(bd byte, pos bool, v uint64, lim uint8) { if lim == 4 { bigen.PutUint32(e.b[:lim], uint32(v)) } else { bigen.PutUint64(e.b[:lim], v) } if bincDoPrune { i := pruneSignExt(e.b[:lim], pos) e.w.writen1(bd | lim - 1 - byte(i)) e.w.writeb(e.b[i:lim]) } else { e.w.writen1(bd | lim - 1) e.w.writeb(e.b[:lim]) } } func (e *bincEncDriver) EncodeInt(v int64) { const nbd byte = bincVdNegInt << 4 if v >= 0 { e.encUint(bincVdPosInt<<4, true, uint64(v)) } else if v == -1 { e.w.writen1(bincVdSpecial<<4 | bincSpNegOne) } else { e.encUint(bincVdNegInt<<4, false, uint64(-v)) } } func (e *bincEncDriver) EncodeUint(v uint64) { e.encUint(bincVdPosInt<<4, true, v) } func (e *bincEncDriver) encUint(bd byte, pos bool, v uint64) { if v == 0 { e.w.writen1(bincVdSpecial<<4 | bincSpZero) } else if pos && v >= 1 && v <= 16 { e.w.writen1(bincVdSmallInt<<4 | byte(v-1)) } else if v <= math.MaxUint8 { e.w.writen2(bd|0x0, byte(v)) } else if v <= math.MaxUint16 { e.w.writen1(bd | 0x01) bigenHelper{e.b[:2], e.w}.writeUint16(uint16(v)) } else if v <= math.MaxUint32 { e.encIntegerPrune(bd, pos, v, 4) } else { e.encIntegerPrune(bd, pos, v, 8) } } func (e *bincEncDriver) EncodeExt(rv interface{}, xtag uint64, ext Ext, _ *Encoder) { bs := ext.WriteExt(rv) if bs == nil { e.EncodeNil() return } e.encodeExtPreamble(uint8(xtag), len(bs)) e.w.writeb(bs) } func (e *bincEncDriver) EncodeRawExt(re *RawExt, _ *Encoder) { e.encodeExtPreamble(uint8(re.Tag), len(re.Data)) e.w.writeb(re.Data) } func (e *bincEncDriver) encodeExtPreamble(xtag byte, length int) { e.encLen(bincVdCustomExt<<4, uint64(length)) e.w.writen1(xtag) } func (e *bincEncDriver) EncodeArrayStart(length int) { e.encLen(bincVdArray<<4, uint64(length)) } func (e *bincEncDriver) EncodeMapStart(length int) { e.encLen(bincVdMap<<4, uint64(length)) } func (e *bincEncDriver) EncodeString(c charEncoding, v string) { l := uint64(len(v)) e.encBytesLen(c, l) if l > 0 { e.w.writestr(v) } } func (e *bincEncDriver) EncodeSymbol(v string) { // if WriteSymbolsNoRefs { // e.encodeString(c_UTF8, v) // return // } //symbols only offer benefit when string length > 1. //This is because strings with length 1 take only 2 bytes to store //(bd with embedded length, and single byte for string val). l := len(v) if l == 0 { e.encBytesLen(c_UTF8, 0) return } else if l == 1 { e.encBytesLen(c_UTF8, 1) e.w.writen1(v[0]) return } if e.m == nil { e.m = make(map[string]uint16, 16) } ui, ok := e.m[v] if ok { if ui <= math.MaxUint8 { e.w.writen2(bincVdSymbol<<4, byte(ui)) } else { e.w.writen1(bincVdSymbol<<4 | 0x8) bigenHelper{e.b[:2], e.w}.writeUint16(ui) } } else { e.s++ ui = e.s //ui = uint16(atomic.AddUint32(&e.s, 1)) e.m[v] = ui var lenprec uint8 if l <= math.MaxUint8 { // lenprec = 0 } else if l <= math.MaxUint16 { lenprec = 1 } else if int64(l) <= math.MaxUint32 { lenprec = 2 } else { lenprec = 3 } if ui <= math.MaxUint8 { e.w.writen2(bincVdSymbol<<4|0x0|0x4|lenprec, byte(ui)) } else { e.w.writen1(bincVdSymbol<<4 | 0x8 | 0x4 | lenprec) bigenHelper{e.b[:2], e.w}.writeUint16(ui) } if lenprec == 0 { e.w.writen1(byte(l)) } else if lenprec == 1 { bigenHelper{e.b[:2], e.w}.writeUint16(uint16(l)) } else if lenprec == 2 { bigenHelper{e.b[:4], e.w}.writeUint32(uint32(l)) } else { bigenHelper{e.b[:8], e.w}.writeUint64(uint64(l)) } e.w.writestr(v) } } func (e *bincEncDriver) EncodeStringBytes(c charEncoding, v []byte) { l := uint64(len(v)) e.encBytesLen(c, l) if l > 0 { e.w.writeb(v) } } func (e *bincEncDriver) encBytesLen(c charEncoding, length uint64) { //TODO: support bincUnicodeOther (for now, just use string or bytearray) if c == c_RAW { e.encLen(bincVdByteArray<<4, length) } else { e.encLen(bincVdString<<4, length) } } func (e *bincEncDriver) encLen(bd byte, l uint64) { if l < 12 { e.w.writen1(bd | uint8(l+4)) } else { e.encLenNumber(bd, l) } } func (e *bincEncDriver) encLenNumber(bd byte, v uint64) { if v <= math.MaxUint8 { e.w.writen2(bd, byte(v)) } else if v <= math.MaxUint16 { e.w.writen1(bd | 0x01) bigenHelper{e.b[:2], e.w}.writeUint16(uint16(v)) } else if v <= math.MaxUint32 { e.w.writen1(bd | 0x02) bigenHelper{e.b[:4], e.w}.writeUint32(uint32(v)) } else { e.w.writen1(bd | 0x03) bigenHelper{e.b[:8], e.w}.writeUint64(uint64(v)) } } //------------------------------------ type bincDecSymbol struct { s string b []byte i uint16 } type bincDecDriver struct { d *Decoder h *BincHandle r decReader br bool // bytes reader bdRead bool bd byte vd byte vs byte noStreamingCodec decNoSeparator b [scratchByteArrayLen]byte // linear searching on this slice is ok, // because we typically expect < 32 symbols in each stream. s []bincDecSymbol } func (d *bincDecDriver) readNextBd() { d.bd = d.r.readn1() d.vd = d.bd >> 4 d.vs = d.bd & 0x0f d.bdRead = true } func (d *bincDecDriver) uncacheRead() { if d.bdRead { d.r.unreadn1() d.bdRead = false } } func (d *bincDecDriver) ContainerType() (vt valueType) { if !d.bdRead { d.readNextBd() } if d.vd == bincVdSpecial && d.vs == bincSpNil { return valueTypeNil } else if d.vd == bincVdByteArray { return valueTypeBytes } else if d.vd == bincVdString { return valueTypeString } else if d.vd == bincVdArray { return valueTypeArray } else if d.vd == bincVdMap { return valueTypeMap } else { // d.d.errorf("isContainerType: unsupported parameter: %v", vt) } return valueTypeUnset } func (d *bincDecDriver) TryDecodeAsNil() bool { if !d.bdRead { d.readNextBd() } if d.bd == bincVdSpecial<<4|bincSpNil { d.bdRead = false return true } return false } func (d *bincDecDriver) IsBuiltinType(rt uintptr) bool { return rt == timeTypId } func (d *bincDecDriver) DecodeBuiltin(rt uintptr, v interface{}) { if !d.bdRead { d.readNextBd() } if rt == timeTypId { if d.vd != bincVdTimestamp { d.d.errorf("Invalid d.vd. Expecting 0x%x. Received: 0x%x", bincVdTimestamp, d.vd) return } tt, err := decodeTime(d.r.readx(int(d.vs))) if err != nil { panic(err) } var vt *time.Time = v.(*time.Time) *vt = tt d.bdRead = false } } func (d *bincDecDriver) decFloatPre(vs, defaultLen byte) { if vs&0x8 == 0 { d.r.readb(d.b[0:defaultLen]) } else { l := d.r.readn1() if l > 8 { d.d.errorf("At most 8 bytes used to represent float. Received: %v bytes", l) return } for i := l; i < 8; i++ { d.b[i] = 0 } d.r.readb(d.b[0:l]) } } func (d *bincDecDriver) decFloat() (f float64) { //if true { f = math.Float64frombits(bigen.Uint64(d.r.readx(8))); break; } if x := d.vs & 0x7; x == bincFlBin32 { d.decFloatPre(d.vs, 4) f = float64(math.Float32frombits(bigen.Uint32(d.b[0:4]))) } else if x == bincFlBin64 { d.decFloatPre(d.vs, 8) f = math.Float64frombits(bigen.Uint64(d.b[0:8])) } else { d.d.errorf("only float32 and float64 are supported. d.vd: 0x%x, d.vs: 0x%x", d.vd, d.vs) return } return } func (d *bincDecDriver) decUint() (v uint64) { // need to inline the code (interface conversion and type assertion expensive) switch d.vs { case 0: v = uint64(d.r.readn1()) case 1: d.r.readb(d.b[6:8]) v = uint64(bigen.Uint16(d.b[6:8])) case 2: d.b[4] = 0 d.r.readb(d.b[5:8]) v = uint64(bigen.Uint32(d.b[4:8])) case 3: d.r.readb(d.b[4:8]) v = uint64(bigen.Uint32(d.b[4:8])) case 4, 5, 6: lim := int(7 - d.vs) d.r.readb(d.b[lim:8]) for i := 0; i < lim; i++ { d.b[i] = 0 } v = uint64(bigen.Uint64(d.b[:8])) case 7: d.r.readb(d.b[:8]) v = uint64(bigen.Uint64(d.b[:8])) default: d.d.errorf("unsigned integers with greater than 64 bits of precision not supported") return } return } func (d *bincDecDriver) decCheckInteger() (ui uint64, neg bool) { if !d.bdRead { d.readNextBd() } vd, vs := d.vd, d.vs if vd == bincVdPosInt { ui = d.decUint() } else if vd == bincVdNegInt { ui = d.decUint() neg = true } else if vd == bincVdSmallInt { ui = uint64(d.vs) + 1 } else if vd == bincVdSpecial { if vs == bincSpZero { //i = 0 } else if vs == bincSpNegOne { neg = true ui = 1 } else { d.d.errorf("numeric decode fails for special value: d.vs: 0x%x", d.vs) return } } else { d.d.errorf("number can only be decoded from uint or int values. d.bd: 0x%x, d.vd: 0x%x", d.bd, d.vd) return } return } func (d *bincDecDriver) DecodeInt(bitsize uint8) (i int64) { ui, neg := d.decCheckInteger() i, overflow := chkOvf.SignedInt(ui) if overflow { d.d.errorf("simple: overflow converting %v to signed integer", ui) return } if neg { i = -i } if chkOvf.Int(i, bitsize) { d.d.errorf("binc: overflow integer: %v", i) return } d.bdRead = false return } func (d *bincDecDriver) DecodeUint(bitsize uint8) (ui uint64) { ui, neg := d.decCheckInteger() if neg { d.d.errorf("Assigning negative signed value to unsigned type") return } if chkOvf.Uint(ui, bitsize) { d.d.errorf("binc: overflow integer: %v", ui) return } d.bdRead = false return } func (d *bincDecDriver) DecodeFloat(chkOverflow32 bool) (f float64) { if !d.bdRead { d.readNextBd() } vd, vs := d.vd, d.vs if vd == bincVdSpecial { d.bdRead = false if vs == bincSpNan { return math.NaN() } else if vs == bincSpPosInf { return math.Inf(1) } else if vs == bincSpZeroFloat || vs == bincSpZero { return } else if vs == bincSpNegInf { return math.Inf(-1) } else { d.d.errorf("Invalid d.vs decoding float where d.vd=bincVdSpecial: %v", d.vs) return } } else if vd == bincVdFloat { f = d.decFloat() } else { f = float64(d.DecodeInt(64)) } if chkOverflow32 && chkOvf.Float32(f) { d.d.errorf("binc: float32 overflow: %v", f) return } d.bdRead = false return } // bool can be decoded from bool only (single byte). func (d *bincDecDriver) DecodeBool() (b bool) { if !d.bdRead { d.readNextBd() } if bd := d.bd; bd == (bincVdSpecial | bincSpFalse) { // b = false } else if bd == (bincVdSpecial | bincSpTrue) { b = true } else { d.d.errorf("Invalid single-byte value for bool: %s: %x", msgBadDesc, d.bd) return } d.bdRead = false return } func (d *bincDecDriver) ReadMapStart() (length int) { if !d.bdRead { d.readNextBd() } if d.vd != bincVdMap { d.d.errorf("Invalid d.vd for map. Expecting 0x%x. Got: 0x%x", bincVdMap, d.vd) return } length = d.decLen() d.bdRead = false return } func (d *bincDecDriver) ReadArrayStart() (length int) { if !d.bdRead { d.readNextBd() } if d.vd != bincVdArray { d.d.errorf("Invalid d.vd for array. Expecting 0x%x. Got: 0x%x", bincVdArray, d.vd) return } length = d.decLen() d.bdRead = false return } func (d *bincDecDriver) decLen() int { if d.vs > 3 { return int(d.vs - 4) } return int(d.decLenNumber()) } func (d *bincDecDriver) decLenNumber() (v uint64) { if x := d.vs; x == 0 { v = uint64(d.r.readn1()) } else if x == 1 { d.r.readb(d.b[6:8]) v = uint64(bigen.Uint16(d.b[6:8])) } else if x == 2 { d.r.readb(d.b[4:8]) v = uint64(bigen.Uint32(d.b[4:8])) } else { d.r.readb(d.b[:8]) v = bigen.Uint64(d.b[:8]) } return } func (d *bincDecDriver) decStringAndBytes(bs []byte, withString, zerocopy bool) (bs2 []byte, s string) { if !d.bdRead { d.readNextBd() } if d.bd == bincVdSpecial<<4|bincSpNil { d.bdRead = false return } var slen int = -1 // var ok bool switch d.vd { case bincVdString, bincVdByteArray: slen = d.decLen() if zerocopy { if d.br { bs2 = d.r.readx(slen) } else if len(bs) == 0 { bs2 = decByteSlice(d.r, slen, d.d.h.MaxInitLen, d.b[:]) } else { bs2 = decByteSlice(d.r, slen, d.d.h.MaxInitLen, bs) } } else { bs2 = decByteSlice(d.r, slen, d.d.h.MaxInitLen, bs) } if withString { s = string(bs2) } case bincVdSymbol: // zerocopy doesn't apply for symbols, // as the values must be stored in a table for later use. // //from vs: extract numSymbolBytes, containsStringVal, strLenPrecision, //extract symbol //if containsStringVal, read it and put in map //else look in map for string value var symbol uint16 vs := d.vs if vs&0x8 == 0 { symbol = uint16(d.r.readn1()) } else { symbol = uint16(bigen.Uint16(d.r.readx(2))) } if d.s == nil { d.s = make([]bincDecSymbol, 0, 16) } if vs&0x4 == 0 { for i := range d.s { j := &d.s[i] if j.i == symbol { bs2 = j.b if withString { if j.s == "" && bs2 != nil { j.s = string(bs2) } s = j.s } break } } } else { switch vs & 0x3 { case 0: slen = int(d.r.readn1()) case 1: slen = int(bigen.Uint16(d.r.readx(2))) case 2: slen = int(bigen.Uint32(d.r.readx(4))) case 3: slen = int(bigen.Uint64(d.r.readx(8))) } // since using symbols, do not store any part of // the parameter bs in the map, as it might be a shared buffer. // bs2 = decByteSlice(d.r, slen, bs) bs2 = decByteSlice(d.r, slen, d.d.h.MaxInitLen, nil) if withString { s = string(bs2) } d.s = append(d.s, bincDecSymbol{i: symbol, s: s, b: bs2}) } default: d.d.errorf("Invalid d.vd. Expecting string:0x%x, bytearray:0x%x or symbol: 0x%x. Got: 0x%x", bincVdString, bincVdByteArray, bincVdSymbol, d.vd) return } d.bdRead = false return } func (d *bincDecDriver) DecodeString() (s string) { // DecodeBytes does not accommodate symbols, whose impl stores string version in map. // Use decStringAndBytes directly. // return string(d.DecodeBytes(d.b[:], true, true)) _, s = d.decStringAndBytes(d.b[:], true, true) return } func (d *bincDecDriver) DecodeStringAsBytes() (s []byte) { s, _ = d.decStringAndBytes(d.b[:], false, true) return } func (d *bincDecDriver) DecodeBytes(bs []byte, zerocopy bool) (bsOut []byte) { if !d.bdRead { d.readNextBd() } if d.bd == bincVdSpecial<<4|bincSpNil { d.bdRead = false return nil } var clen int if d.vd == bincVdString || d.vd == bincVdByteArray { clen = d.decLen() } else { d.d.errorf("Invalid d.vd for bytes. Expecting string:0x%x or bytearray:0x%x. Got: 0x%x", bincVdString, bincVdByteArray, d.vd) return } d.bdRead = false if zerocopy { if d.br { return d.r.readx(clen) } else if len(bs) == 0 { bs = d.b[:] } } return decByteSlice(d.r, clen, d.d.h.MaxInitLen, bs) } func (d *bincDecDriver) DecodeExt(rv interface{}, xtag uint64, ext Ext) (realxtag uint64) { if xtag > 0xff { d.d.errorf("decodeExt: tag must be <= 0xff; got: %v", xtag) return } realxtag1, xbs := d.decodeExtV(ext != nil, uint8(xtag)) realxtag = uint64(realxtag1) if ext == nil { re := rv.(*RawExt) re.Tag = realxtag re.Data = detachZeroCopyBytes(d.br, re.Data, xbs) } else { ext.ReadExt(rv, xbs) } return } func (d *bincDecDriver) decodeExtV(verifyTag bool, tag byte) (xtag byte, xbs []byte) { if !d.bdRead { d.readNextBd() } if d.vd == bincVdCustomExt { l := d.decLen() xtag = d.r.readn1() if verifyTag && xtag != tag { d.d.errorf("Wrong extension tag. Got %b. Expecting: %v", xtag, tag) return } xbs = d.r.readx(l) } else if d.vd == bincVdByteArray { xbs = d.DecodeBytes(nil, true) } else { d.d.errorf("Invalid d.vd for extensions (Expecting extensions or byte array). Got: 0x%x", d.vd) return } d.bdRead = false return } func (d *bincDecDriver) DecodeNaked() { if !d.bdRead { d.readNextBd() } n := &d.d.n var decodeFurther bool switch d.vd { case bincVdSpecial: switch d.vs { case bincSpNil: n.v = valueTypeNil case bincSpFalse: n.v = valueTypeBool n.b = false case bincSpTrue: n.v = valueTypeBool n.b = true case bincSpNan: n.v = valueTypeFloat n.f = math.NaN() case bincSpPosInf: n.v = valueTypeFloat n.f = math.Inf(1) case bincSpNegInf: n.v = valueTypeFloat n.f = math.Inf(-1) case bincSpZeroFloat: n.v = valueTypeFloat n.f = float64(0) case bincSpZero: n.v = valueTypeUint n.u = uint64(0) // int8(0) case bincSpNegOne: n.v = valueTypeInt n.i = int64(-1) // int8(-1) default: d.d.errorf("decodeNaked: Unrecognized special value 0x%x", d.vs) } case bincVdSmallInt: n.v = valueTypeUint n.u = uint64(int8(d.vs)) + 1 // int8(d.vs) + 1 case bincVdPosInt: n.v = valueTypeUint n.u = d.decUint() case bincVdNegInt: n.v = valueTypeInt n.i = -(int64(d.decUint())) case bincVdFloat: n.v = valueTypeFloat n.f = d.decFloat() case bincVdSymbol: n.v = valueTypeSymbol n.s = d.DecodeString() case bincVdString: n.v = valueTypeString n.s = d.DecodeString() case bincVdByteArray: n.v = valueTypeBytes n.l = d.DecodeBytes(nil, false) case bincVdTimestamp: n.v = valueTypeTimestamp tt, err := decodeTime(d.r.readx(int(d.vs))) if err != nil { panic(err) } n.t = tt case bincVdCustomExt: n.v = valueTypeExt l := d.decLen() n.u = uint64(d.r.readn1()) n.l = d.r.readx(l) case bincVdArray: n.v = valueTypeArray decodeFurther = true case bincVdMap: n.v = valueTypeMap decodeFurther = true default: d.d.errorf("decodeNaked: Unrecognized d.vd: 0x%x", d.vd) } if !decodeFurther { d.bdRead = false } if n.v == valueTypeUint && d.h.SignedInteger { n.v = valueTypeInt n.i = int64(n.u) } return } //------------------------------------ //BincHandle is a Handle for the Binc Schema-Free Encoding Format //defined at https://github.com/ugorji/binc . // //BincHandle currently supports all Binc features with the following EXCEPTIONS: // - only integers up to 64 bits of precision are supported. // big integers are unsupported. // - Only IEEE 754 binary32 and binary64 floats are supported (ie Go float32 and float64 types). // extended precision and decimal IEEE 754 floats are unsupported. // - Only UTF-8 strings supported. // Unicode_Other Binc types (UTF16, UTF32) are currently unsupported. // //Note that these EXCEPTIONS are temporary and full support is possible and may happen soon. type BincHandle struct { BasicHandle binaryEncodingType } func (h *BincHandle) SetBytesExt(rt reflect.Type, tag uint64, ext BytesExt) (err error) { return h.SetExt(rt, tag, &setExtWrapper{b: ext}) } func (h *BincHandle) newEncDriver(e *Encoder) encDriver { return &bincEncDriver{e: e, w: e.w} } func (h *BincHandle) newDecDriver(d *Decoder) decDriver { return &bincDecDriver{d: d, h: h, r: d.r, br: d.bytes} } func (e *bincEncDriver) reset() { e.w = e.e.w e.s = 0 e.m = nil } func (d *bincDecDriver) reset() { d.r, d.br = d.d.r, d.d.bytes d.s = nil d.bd, d.bdRead, d.vd, d.vs = 0, false, 0, 0 } var _ decDriver = (*bincDecDriver)(nil) var _ encDriver = (*bincEncDriver)(nil)