package main import ( "fmt" "bytes" "math" ) func BinaryLength(n uint64) uint64 { if n == 0 { return 0 } return 1 + BinaryLength(n / 256) } func ToBinarySlice(n uint64, length uint64) []uint64 { if length == 0 { length = BinaryLength(n) } if n == 0 { return make([]uint64, 1) } slice := ToBinarySlice(n / 256, 0) slice = append(slice, n % 256) return slice } func ToBin(n uint64, length uint64) string { var buf bytes.Buffer for _, val := range ToBinarySlice(n, length) { buf.WriteString(string(val)) } return buf.String() } func FromBin(data []byte) uint64 { if len(data) == 0 { return 0 } return FromBin(data[:len(data)-1]) * 256 + uint64(data[len(data)-1]) } func Decode(data []byte, pos int) (interface{}, int) { char := int(data[pos]) slice := make([]interface{}, 0) switch { case char < 24: return append(slice, data[pos]), pos + 1 case char < 56: b := int(data[pos]) - 23 return FromBin(data[pos+1 : pos+1+b]), pos + 1 + b case char < 64: b := int(data[pos]) - 55 b2 := int(FromBin(data[pos+1 : pos+1+b])) return FromBin(data[pos+1+b : pos+1+b+b2]), pos+1+b+b2 case char < 120: b := int(data[pos]) - 64 return data[pos+1:pos+1+b], pos+1+b case char < 128: b := int(data[pos]) - 119 b2 := int(FromBin(data[pos+1 : pos+1+b])) return data[pos+1+b : pos+1+b+b2], pos+1+b+b2 case char < 184: b := int(data[pos]) - 128 pos++ for i := 0; i < b; i++ { var obj interface{} obj, pos = Decode(data, pos) slice = append(slice, obj) } return slice, pos case char < 192: b := int(data[pos]) - 183 //b2 := int(FromBin(data[pos+1 : pos+1+b])) (ref imprementation has an unused variable) pos = pos+1+b for i := 0; i < b; i++ { var obj interface{} obj, pos = Decode(data, pos) slice = append(slice, obj) } return slice, pos default: panic(fmt.Sprintf("byte not supported: %q", char)) } return slice, 0 } func Encode(object interface{}) []byte { var buff bytes.Buffer switch t := object.(type) { case uint32, uint64: var num uint64 if _num, ok := t.(uint64); ok { num = _num } else if _num, ok := t.(uint32); ok { num = uint64(_num) } if num >= 0 && num < 24 { buff.WriteString(string(num)) } else if num <= uint64(math.Pow(2, 256)) { b := ToBin(num, 0) buff.WriteString(string(len(b) + 23) + b) } else { b := ToBin(num, 0) b2 := ToBin(uint64(len(b)), 0) buff.WriteString(string(len(b2) + 55) + b2 + b) } case string: if len(t) < 56 { buff.WriteString(string(len(t) + 64) + t) } else { b2 := ToBin(uint64(len(t)), 0) buff.WriteString(string(len(b2) + 119) + b2 + t) } case []byte: // Cast the byte slice to a string buff.Write(Encode(string(t))) case []interface{}, []string: // Inline function for writing the slice header WriteSliceHeader := func(length int) { if length < 56 { buff.WriteByte(byte(length + 128)) } else { b2 := ToBin(uint64(length), 0) buff.WriteByte(byte(len(b2) + 183)) buff.WriteString(b2) } } // FIXME How can I do this "better"? if interSlice, ok := t.([]interface{}); ok { WriteSliceHeader(len(interSlice)) for _, val := range interSlice { buff.Write(Encode(val)) } } else if stringSlice, ok := t.([]string); ok { WriteSliceHeader(len(stringSlice)) for _, val := range stringSlice { buff.Write(Encode(val)) } } } return buff.Bytes() }