package filename import ( "encoding/base64" "encoding/binary" "github.com/klauspost/compress/huff0" ) // Encode will encode the string and return a base64 (url) compatible version of it. // Calling Decode with the returned string should always succeed. // It is not a requirement that the input string is valid utf-8. func Encode(s string) string { table, payload := EncodeBytes(s) return string(encodeURL[table]) + base64.URLEncoding.EncodeToString(payload) } // EncodeBytes will compress the given string and return a table identifier and a payload. func EncodeBytes(s string) (table byte, payload []byte) { initCoders() bestSize := len(s) bestTable := byte(tableUncompressed) org := []byte(s) bestOut := []byte(s) // Try all tables and choose the best for i, enc := range encTables[:] { org := org if len(org) <= 1 || len(org) > maxLength { // Use the uncompressed break } if enc == nil { continue } if i == tableSCSU { var err error olen := len(org) org, err = scsuEncodeStrict(s, make([]byte, 0, len(org))) if err != nil || olen <= len(org) { continue } if len(org) < bestSize { // This is already better, store so we can use if the table cannot. bestOut = bestOut[:len(org)] bestTable = tableSCSUPlain bestSize = len(org) copy(bestOut, org) } } // Try to encode using table. err := func() error { encTableLocks[i].Lock() defer encTableLocks[i].Unlock() out, _, err := huff0.Compress1X(org, enc) if err != nil { return err } if len(out) < bestSize { bestOut = bestOut[:len(out)] bestTable = byte(i) bestSize = len(out) copy(bestOut, out) } return nil }() // If input is a single byte repeated store as RLE or save uncompressed. if err == huff0.ErrUseRLE && i != tableSCSU { if len(org) > 2 { // Encode as one byte repeated since it will be smaller than uncompressed. n := binary.PutUvarint(bestOut, uint64(len(org))) bestOut = bestOut[:n+1] bestOut[n] = org[0] bestSize = n + 1 bestTable = tableRLE } break } } return bestTable, bestOut }