package jsoniter import ( "math" "strconv" ) var intDigits []int8 const uint32SafeToMultiply10 = uint32(0xffffffff)/10 - 1 const uint64SafeToMultiple10 = uint64(0xffffffffffffffff)/10 - 1 func init() { intDigits = make([]int8, 256) for i := 0; i < len(intDigits); i++ { intDigits[i] = invalidCharForNumber } for i := int8('0'); i <= int8('9'); i++ { intDigits[i] = i - int8('0') } } func (iter *Iterator) ReadUint() uint { return uint(iter.ReadUint64()) } func (iter *Iterator) ReadInt() int { return int(iter.ReadInt64()) } func (iter *Iterator) ReadInt8() (ret int8) { c := iter.nextToken() if c == '-' { val := iter.readUint32(iter.readByte()) if val > math.MaxInt8+1 { iter.ReportError("ReadInt8", "overflow: "+strconv.FormatInt(int64(val), 10)) return } return -int8(val) } else { val := iter.readUint32(c) if val > math.MaxInt8 { iter.ReportError("ReadInt8", "overflow: "+strconv.FormatInt(int64(val), 10)) return } return int8(val) } } func (iter *Iterator) ReadUint8() (ret uint8) { val := iter.readUint32(iter.nextToken()) if val > math.MaxUint8 { iter.ReportError("ReadUint8", "overflow: "+strconv.FormatInt(int64(val), 10)) return } return uint8(val) } func (iter *Iterator) ReadInt16() (ret int16) { c := iter.nextToken() if c == '-' { val := iter.readUint32(iter.readByte()) if val > math.MaxInt16+1 { iter.ReportError("ReadInt16", "overflow: "+strconv.FormatInt(int64(val), 10)) return } return -int16(val) } else { val := iter.readUint32(c) if val > math.MaxInt16 { iter.ReportError("ReadInt16", "overflow: "+strconv.FormatInt(int64(val), 10)) return } return int16(val) } } func (iter *Iterator) ReadUint16() (ret uint16) { val := iter.readUint32(iter.nextToken()) if val > math.MaxUint16 { iter.ReportError("ReadUint16", "overflow: "+strconv.FormatInt(int64(val), 10)) return } return uint16(val) } func (iter *Iterator) ReadInt32() (ret int32) { c := iter.nextToken() if c == '-' { val := iter.readUint32(iter.readByte()) if val > math.MaxInt32+1 { iter.ReportError("ReadInt32", "overflow: "+strconv.FormatInt(int64(val), 10)) return } return -int32(val) } else { val := iter.readUint32(c) if val > math.MaxInt32 { iter.ReportError("ReadInt32", "overflow: "+strconv.FormatInt(int64(val), 10)) return } return int32(val) } } func (iter *Iterator) ReadUint32() (ret uint32) { return iter.readUint32(iter.nextToken()) } func (iter *Iterator) readUint32(c byte) (ret uint32) { ind := intDigits[c] if ind == 0 { return 0 // single zero } if ind == invalidCharForNumber { iter.ReportError("readUint32", "unexpected character: "+string([]byte{byte(ind)})) return } value := uint32(ind) if iter.tail-iter.head > 10 { i := iter.head ind2 := intDigits[iter.buf[i]] if ind2 == invalidCharForNumber { iter.head = i return value } i++ ind3 := intDigits[iter.buf[i]] if ind3 == invalidCharForNumber { iter.head = i return value*10 + uint32(ind2) } //iter.head = i + 1 //value = value * 100 + uint32(ind2) * 10 + uint32(ind3) i++ ind4 := intDigits[iter.buf[i]] if ind4 == invalidCharForNumber { iter.head = i return value*100 + uint32(ind2)*10 + uint32(ind3) } i++ ind5 := intDigits[iter.buf[i]] if ind5 == invalidCharForNumber { iter.head = i return value*1000 + uint32(ind2)*100 + uint32(ind3)*10 + uint32(ind4) } i++ ind6 := intDigits[iter.buf[i]] if ind6 == invalidCharForNumber { iter.head = i return value*10000 + uint32(ind2)*1000 + uint32(ind3)*100 + uint32(ind4)*10 + uint32(ind5) } i++ ind7 := intDigits[iter.buf[i]] if ind7 == invalidCharForNumber { iter.head = i return value*100000 + uint32(ind2)*10000 + uint32(ind3)*1000 + uint32(ind4)*100 + uint32(ind5)*10 + uint32(ind6) } i++ ind8 := intDigits[iter.buf[i]] if ind8 == invalidCharForNumber { iter.head = i return value*1000000 + uint32(ind2)*100000 + uint32(ind3)*10000 + uint32(ind4)*1000 + uint32(ind5)*100 + uint32(ind6)*10 + uint32(ind7) } i++ ind9 := intDigits[iter.buf[i]] value = value*10000000 + uint32(ind2)*1000000 + uint32(ind3)*100000 + uint32(ind4)*10000 + uint32(ind5)*1000 + uint32(ind6)*100 + uint32(ind7)*10 + uint32(ind8) iter.head = i if ind9 == invalidCharForNumber { return value } } for { for i := iter.head; i < iter.tail; i++ { ind = intDigits[iter.buf[i]] if ind == invalidCharForNumber { iter.head = i return value } if value > uint32SafeToMultiply10 { value2 := (value << 3) + (value << 1) + uint32(ind) if value2 < value { iter.ReportError("readUint32", "overflow") return } else { value = value2 continue } } value = (value << 3) + (value << 1) + uint32(ind) } if !iter.loadMore() { return value } } } func (iter *Iterator) ReadInt64() (ret int64) { c := iter.nextToken() if c == '-' { val := iter.readUint64(iter.readByte()) if val > math.MaxInt64+1 { iter.ReportError("ReadInt64", "overflow: "+strconv.FormatUint(uint64(val), 10)) return } return -int64(val) } else { val := iter.readUint64(c) if val > math.MaxInt64 { iter.ReportError("ReadInt64", "overflow: "+strconv.FormatUint(uint64(val), 10)) return } return int64(val) } } func (iter *Iterator) ReadUint64() uint64 { return iter.readUint64(iter.nextToken()) } func (iter *Iterator) readUint64(c byte) (ret uint64) { ind := intDigits[c] if ind == 0 { return 0 // single zero } if ind == invalidCharForNumber { iter.ReportError("readUint64", "unexpected character: "+string([]byte{byte(ind)})) return } value := uint64(ind) for { for i := iter.head; i < iter.tail; i++ { ind = intDigits[iter.buf[i]] if ind == invalidCharForNumber { iter.head = i return value } if value > uint64SafeToMultiple10 { value2 := (value << 3) + (value << 1) + uint64(ind) if value2 < value { iter.ReportError("readUint64", "overflow") return } else { value = value2 continue } } value = (value << 3) + (value << 1) + uint64(ind) } if !iter.loadMore() { return value } } }