func unicodeLen(str string) int { index := strings.Index(str, `\u`) for { if index == -1 { break } r1str := str[index+2:index+6] + " " + str[index+8:index+12] var r1, r2 rune fmt.Sscanf(r1str, "%x %x", &r1, &r2) Trace.Println("runes", r1, r2) if utf16.IsSurrogate(r1) && utf16.IsSurrogate(r2) { r := utf16.DecodeRune(r1, r2) if r == replacementChar { Warning.Println("Unable to deccode runes") str = strings.Replace(str, `\u`, "0x", 2) } else { str = str[:index] + " " + str[index+12:len(str)] } } index = strings.Index(str, `\u`) } return len(str) }
func decodeUTF16beRune(p []byte) (r rune, size int, status Status) { if len(p) < 2 { status = NO_ROOM return } c := rune(p[0])<<8 + rune(p[1]) if utf16.IsSurrogate(c) { if len(p) < 4 { status = NO_ROOM return } c2 := rune(p[2])<<8 + rune(p[3]) c = utf16.DecodeRune(c, c2) if c == 0xfffd { return c, 2, INVALID_CHAR } else { return c, 4, SUCCESS } } return c, 2, SUCCESS }
// readConsole reads utf16 characters from console File, // encodes them into utf8 and stores them in buffer buf. // It returns the number of utf8 bytes read and an error, if any. func (f *File) readConsole(buf []byte) (n int, err error) { if len(buf) == 0 { return 0, nil } if len(f.readbuf) > 0 { return f.copyReadConsoleBuffer(buf) } wchar, err := f.readOneUTF16FromConsole() if err != nil { return 0, err } r := rune(wchar) if utf16.IsSurrogate(r) { wchar, err := f.readOneUTF16FromConsole() if err != nil { return 0, err } r = utf16.DecodeRune(r, rune(wchar)) } if nr := utf8.RuneLen(r); nr > len(buf) { start := len(f.readbuf) for ; nr > 0; nr-- { f.readbuf = append(f.readbuf, 0) } utf8.EncodeRune(f.readbuf[start:cap(f.readbuf)], r) } else { utf8.EncodeRune(buf, r) buf = buf[nr:] n += nr } if n > 0 { return n, nil } return f.copyReadConsoleBuffer(buf) }
func (u *utf16Decoder) Transform(dst, src []byte, atEOF bool) (nDst, nSrc int, err error) { if u.currentBOMPolicy == ExpectBOM { if len(src) < 2 { return 0, 0, transform.ErrShortSrc } switch { case src[0] == 0xfe && src[1] == 0xff: u.endianness = BigEndian case src[0] == 0xff && src[1] == 0xfe: u.endianness = LittleEndian default: return 0, 0, ErrMissingBOM } u.currentBOMPolicy = IgnoreBOM nSrc = 2 } var r rune var dSize, sSize int for nSrc < len(src) { if nSrc+1 < len(src) { x := uint16(src[nSrc+0])<<8 | uint16(src[nSrc+1]) if u.endianness == LittleEndian { x = x>>8 | x<<8 } r, sSize = rune(x), 2 if utf16.IsSurrogate(r) { if nSrc+3 < len(src) { x = uint16(src[nSrc+2])<<8 | uint16(src[nSrc+3]) if u.endianness == LittleEndian { x = x>>8 | x<<8 } // Safe for next iteration if it is not a high surrogate. if isHighSurrogate(rune(x)) { r, sSize = utf16.DecodeRune(r, rune(x)), 4 } } else if !atEOF { err = transform.ErrShortSrc break } } if dSize = utf8.RuneLen(r); dSize < 0 { r, dSize = utf8.RuneError, 3 } } else if atEOF { // Single trailing byte. r, dSize, sSize = utf8.RuneError, 3, 1 } else { err = transform.ErrShortSrc break } if nDst+dSize > len(dst) { err = transform.ErrShortDst break } nDst += utf8.EncodeRune(dst[nDst:], r) nSrc += sSize } return nDst, nSrc, err }
func (d *jsonDecDriver) appendStringAsBytes() { if d.tok == 0 { var b byte r := d.r for b = r.readn1(); jsonIsWS(b); b = r.readn1() { } d.tok = b } // handle null as a string if d.tok == 'n' { d.readStrIdx(10, 13) // ull d.bs = d.bs[:0] return } if d.tok != '"' { d.d.errorf("json: expect char '%c' but got char '%c'", '"', d.tok) } d.tok = 0 v := d.bs[:0] var c uint8 r := d.r for { c = r.readn1() if c == '"' { break } else if c == '\\' { c = r.readn1() switch c { case '"', '\\', '/', '\'': v = append(v, c) case 'b': v = append(v, '\b') case 'f': v = append(v, '\f') case 'n': v = append(v, '\n') case 'r': v = append(v, '\r') case 't': v = append(v, '\t') case 'u': rr := d.jsonU4(false) // fmt.Printf("$$$$$$$$$: is surrogate: %v\n", utf16.IsSurrogate(rr)) if utf16.IsSurrogate(rr) { rr = utf16.DecodeRune(rr, d.jsonU4(true)) } w2 := utf8.EncodeRune(d.bstr[:], rr) v = append(v, d.bstr[:w2]...) default: d.d.errorf("json: unsupported escaped value: %c", c) } } else { v = append(v, c) } } d.bs = v }
func bytesToUTF16String(in []byte) string { var out bytes.Buffer out.WriteString(`u"`) for i := 0; i < len(in)/2; i++ { u := rune(in[2*i])<<8 | rune(in[2*i+1]) if utf16.IsSurrogate(u) && i+1 < len(in)/2 { u2 := rune(in[2*i+2])<<8 | rune(in[2*i+3]) r := utf16.DecodeRune(u, u2) if r != unicode.ReplacementChar { if unicode.IsPrint(r) { out.WriteRune(r) } else { fmt.Fprintf(&out, `\U%08x`, r) } i++ continue } } if u == '\n' { out.WriteString(`\n`) } else if u == '"' { out.WriteString(`\"`) } else if u == '\\' { out.WriteString(`\\`) } else if !utf16.IsSurrogate(u) && unicode.IsPrint(u) { out.WriteRune(u) } else if u <= 0xff { fmt.Fprintf(&out, `\x%02x`, u) } else { fmt.Fprintf(&out, `\u%04x`, u) } } out.WriteString(`"`) // Print the trailing byte if needed. if len(in)&1 == 1 { fmt.Fprintf(&out, " `\\x%02x`", in[len(in)-1]) } return out.String() }
func appendUTF16LE(v []byte, val string) []byte { for _, r := range val { if utf16.IsSurrogate(r) { r1, r2 := utf16.EncodeRune(r) v = append16(v, uint16(r1)) v = append16(v, uint16(r2)) } else { v = append16(v, uint16(r)) } } return v }
func utf16le(val string) []byte { var v []byte for _, r := range val { if utf16.IsSurrogate(r) { r1, r2 := utf16.EncodeRune(r) v = append(v, byte(r1), byte(r1>>8)) v = append(v, byte(r2), byte(r2>>8)) } else { v = append(v, byte(r), byte(r>>8)) } } return v }
func (u *utf16Decoder) Transform(dst, src []byte, atEOF bool) (nDst, nSrc int, err error) { if u.bomPolicy == ExpectBOM { if len(src) < 2 { return 0, 0, transform.ErrShortSrc } switch { case src[0] == 0xfe && src[1] == 0xff: u.endianness = BigEndian case src[0] == 0xff && src[1] == 0xfe: u.endianness = LittleEndian default: return 0, 0, ErrMissingBOM } u.bomPolicy = IgnoreBOM nSrc = 2 } for nSrc+1 < len(src) { x := uint16(src[nSrc+0])<<8 | uint16(src[nSrc+1]) if u.endianness == LittleEndian { x = x>>8 | x<<8 } r, sSize := rune(x), 2 if utf16.IsSurrogate(r) { if nSrc+3 >= len(src) { break } x = uint16(src[nSrc+2])<<8 | uint16(src[nSrc+3]) if u.endianness == LittleEndian { x = x>>8 | x<<8 } r, sSize = utf16.DecodeRune(r, rune(x)), 4 } dSize := utf8.RuneLen(r) if dSize < 0 { r, dSize = utf8.RuneError, 3 } if nDst+dSize > len(dst) { err = transform.ErrShortDst break } nDst += utf8.EncodeRune(dst[nDst:], r) nSrc += sSize } if err == nil && nSrc != len(src) { err = transform.ErrShortSrc } return nDst, nSrc, err }
func decodeUTF16(input chan byte, output chan rune, BE bool) { defer close(output) var surrogatePair rune for { r, ok, e := readNBytes(input, 4, BE) if !ok { if nil != e { panic(e) } break } if 0 != surrogatePair { if !utf16.IsSurrogate(r) { break //ошибка поймается в конце } r = utf16.DecodeRune(surrogatePair, r) surrogatePair = 0 } else { if utf16.IsSurrogate(r) { surrogatePair = r continue } } output <- r } if 0 != surrogatePair { panic("UTF16 ERROR: Не хватает второй половины суррогатной пары\n") } }
// utf7dec extracts UTF-16-BE bytes from Base64 data and converts them to UTF-8. // A nil slice is returned if the encoding is invalid. func utf7dec(b64 []byte) []byte { var b []byte // Allocate a single block of memory large enough to store the Base64 data // (if padding is required), UTF-16-BE bytes, and decoded UTF-8 bytes. // Since a 2-byte UTF-16 sequence may expand into a 3-byte UTF-8 sequence, // double the space allocation for UTF-8. if n := len(b64); b64[n-1] == '=' { return nil } else if n&3 == 0 { b = make([]byte, u7enc.DecodedLen(n)*3) } else { n += 4 - n&3 b = make([]byte, n+u7enc.DecodedLen(n)*3) copy(b[copy(b, b64):n], []byte("==")) b64, b = b[:n], b[n:] } // Decode Base64 into the first 1/3rd of b n, err := u7enc.Decode(b, b64) if err != nil || n&1 == 1 { return nil } // Decode UTF-16-BE into the remaining 2/3rds of b b, s := b[:n], b[n:] j := 0 for i := 0; i < n; i += 2 { r := rune(b[i])<<8 | rune(b[i+1]) if utf16.IsSurrogate(r) { if i += 2; i == n { return nil } r2 := rune(b[i])<<8 | rune(b[i+1]) if r = utf16.DecodeRune(r, r2); r == uRepl { return nil } } else if u7min <= r && r <= u7max { return nil } j += utf8.EncodeRune(s[j:], r) } return s[:j] }
func (d *jsonDecDriver) appendStringAsBytes() { d.expectChar('"') v := d.bs[:0] var c uint8 for { c = d.r.readn1() if c == '"' { break } else if c == '\\' { c = d.r.readn1() switch c { case '"', '\\', '/', '\'': v = append(v, c) case 'b': v = append(v, '\b') case 'f': v = append(v, '\f') case 'n': v = append(v, '\n') case 'r': v = append(v, '\r') case 't': v = append(v, '\t') case 'u': rr := d.jsonU4(false) // fmt.Printf("$$$$$$$$$: is surrogate: %v\n", utf16.IsSurrogate(rr)) if utf16.IsSurrogate(rr) { rr = utf16.DecodeRune(rr, d.jsonU4(true)) } w2 := utf8.EncodeRune(d.bstr[:], rr) v = append(v, d.bstr[:w2]...) default: d.d.errorf("json: unsupported escaped value: %c", c) } } else { v = append(v, c) } } if jsonTrackSkipWhitespace { d.wsSkipped = false } d.bs = v }
func getKeys() []keyInfo { var numberOfEventsRead uint32 var events [10]inputRecordT var orgConMode uint32 result := make([]keyInfo, 0, 0) getConsoleMode.Call(uintptr(hConin), uintptr(unsafe.Pointer(&orgConMode))) setConsoleMode.Call(uintptr(hConin), 0) var precode rune = 0 for len(result) <= 0 { readConsoleInput.Call( uintptr(hConin), uintptr(unsafe.Pointer(&events[0])), uintptr(len(events)), uintptr(unsafe.Pointer(&numberOfEventsRead))) for i := uint32(0); i < numberOfEventsRead; i++ { if events[i].eventType == KEY_EVENT && events[i].bKeyDown != 0 { var keycode = rune(events[i].unicodeChar) if keycode != 0 { if precode != 0 { keycode = utf16.DecodeRune(precode, keycode) precode = 0 } else if utf16.IsSurrogate(keycode) { precode = keycode continue } } result = append(result, keyInfo{ keycode, events[i].wVirtualKeyCode, events[i].dwControlKeyState, }) } } } setConsoleMode.Call(uintptr(hConin), uintptr(orgConMode)) return result }
// Decodes UTF-16 surrogate pairs (such as \uD834\uDD1E). func decodeSurrogates(s string) string { var ( r1 rune = 0 buf = new(bytes.Buffer) ) for _, r := range s { if utf16.IsSurrogate(r) { if r1 == 0 { r1 = r } else { buf.WriteRune(utf16.DecodeRune(r1, r)) r1 = 0 } } else { if r1 != 0 { buf.WriteRune(r1) r1 = 0 } buf.WriteRune(r) } } return buf.String() }
func unquoteBytes(s []byte) (t []byte, ok bool) { // Check for unusual characters. If there are none, // then no unquoting is needed, so return a slice of the // original bytes. r := 0 for r < len(s) { c := s[r] if c == '\\' || c == '"' || c < ' ' { break } if c < utf8.RuneSelf { r++ continue } rr, size := utf8.DecodeRune(s[r:]) if rr == utf8.RuneError && size == 1 { break } r += size } if r == len(s) { return s, true } b := make([]byte, len(s)+2*utf8.UTFMax) w := copy(b, s[0:r]) for r < len(s) { // Out of room? Can only happen if s is full of // malformed UTF-8 and we're replacing each // byte with RuneError. if w >= len(b)-2*utf8.UTFMax { nb := make([]byte, (len(b)+utf8.UTFMax)*2) copy(nb, b[0:w]) b = nb } switch c := s[r]; { case c == '\\': r++ if r >= len(s) { return } switch s[r] { default: return case '"', '\\', '/', '\'': b[w] = s[r] r++ w++ case 'b': b[w] = '\b' r++ w++ case 'f': b[w] = '\f' r++ w++ case 'n': b[w] = '\n' r++ w++ case 'r': b[w] = '\r' r++ w++ case 't': b[w] = '\t' r++ w++ case 'u': r-- rr := getu4(s[r:]) if rr < 0 { return } r += 6 if utf16.IsSurrogate(rr) { rr1 := getu4(s[r:]) if dec := utf16.DecodeRune(rr, rr1); dec != unicode.ReplacementChar { // A valid pair; consume. r += 6 w += utf8.EncodeRune(b[w:], dec) break } // Invalid surrogate; fall back to replacement rune. rr = unicode.ReplacementChar } w += utf8.EncodeRune(b[w:], rr) } // Quote, control characters are invalid. case c == '"', c < ' ': return // ASCII case c < utf8.RuneSelf: b[w] = c r++ w++ // Coerce to well-formed UTF-8. default: rr, size := utf8.DecodeRune(s[r:]) r += size w += utf8.EncodeRune(b[w:], rr) } } return b[0:w], true }
func scanString(txt []byte) (tok []byte, readn int) { if len(txt) < 2 { return nil, 0 } e := 1 for txt[e] != '"' { c := txt[e] if c == '\\' || c == '"' || c < ' ' { break } if c < utf8.RuneSelf { e++ continue } r, size := utf8.DecodeRune(txt[e:]) if r == utf8.RuneError && size == 1 { return nil, 0 } e += size } if txt[e] == '"' { // done we have nothing to unquote return txt[:e+1], e + 1 } out := make([]byte, len(txt)+2*utf8.UTFMax) oute := copy(out, txt[:e]) // copy so far loop: for e < len(txt) { switch c := txt[e]; { case c == '"': out[oute] = c e++ break loop case c == '\\': if txt[e+1] == 'u' { r := getu4(txt[e:]) if r < 0 { // invalid return nil, 0 } e += 6 if utf16.IsSurrogate(r) { nextr := getu4(txt[e:]) dec := utf16.DecodeRune(r, nextr) if dec != unicode.ReplacementChar { // A valid pair consume oute += utf8.EncodeRune(out[oute:], dec) e += 6 break loop } // Invalid surrogate; fall back to replacement rune. r = unicode.ReplacementChar } oute += utf8.EncodeRune(out[oute:], r) } else { // escaped with " \ / ' b f n r t out[oute] = escapeCode[txt[e+1]] e += 2 oute++ } case c < ' ': // control character is invalid return nil, 0 case c < utf8.RuneSelf: // ASCII out[oute] = c oute++ e++ default: // coerce to well-formed UTF-8 r, size := utf8.DecodeRune(txt[e:]) e += size oute += utf8.EncodeRune(out[oute:], r) } } if out[oute] == '"' { return out[:oute+1], e } return nil, 0 }
func (r *ffReader) handleEscaped(c byte, j int, out DecodingBuffer) (int, error) { if j >= r.l { return 0, io.EOF } c = r.s[j] j++ if c == 'u' { ru, err := r.readU4(j) if err != nil { return 0, err } if utf16.IsSurrogate(ru) { ru2, err := r.readU4(j + 6) if err != nil { return 0, err } out.Write(r.s[r.i : j-2]) r.i = j + 10 j = r.i rval := utf16.DecodeRune(ru, ru2) if rval != unicode.ReplacementChar { out.WriteRune(rval) } else { return 0, fmt.Errorf("lex_string_invalid_unicode_surrogate: %v %v", ru, ru2) } } else { out.Write(r.s[r.i : j-2]) r.i = j + 4 j = r.i out.WriteRune(ru) } return j, nil } else if byteLookupTable[c]&cVEC == 0 { return 0, fmt.Errorf("lex_string_invalid_escaped_char: %v", c) } else { out.Write(r.s[r.i : j-2]) r.i = j j = r.i switch c { case '"': out.WriteByte('"') case '\\': out.WriteByte('\\') case '/': out.WriteByte('/') case 'b': out.WriteByte('\b') case 'f': out.WriteByte('\f') case 'n': out.WriteByte('\n') case 'r': out.WriteByte('\r') case 't': out.WriteByte('\t') } } return j, nil }
// readConsole reads utf16 characters from console File, // encodes them into utf8 and stores them in buffer b. // It returns the number of utf8 bytes read and an error, if any. func (f *File) readConsole(b []byte) (n int, err error) { if len(b) == 0 { return 0, nil } if f.readuint16 == nil { // Note: syscall.ReadConsole fails for very large buffers. // The limit is somewhere around (but not exactly) 16384. // Stay well below. f.readuint16 = make([]uint16, 0, 10000) f.readbyte = make([]byte, 0, 4*cap(f.readuint16)) } for f.readbyteOffset >= len(f.readbyte) { n := cap(f.readuint16) - len(f.readuint16) if n > len(b) { n = len(b) } var nw uint32 err := readConsole(f.fd, &f.readuint16[:len(f.readuint16)+1][len(f.readuint16)], uint32(n), &nw, nil) if err != nil { return 0, err } uint16s := f.readuint16[:len(f.readuint16)+int(nw)] f.readuint16 = f.readuint16[:0] buf := f.readbyte[:0] for i := 0; i < len(uint16s); i++ { r := rune(uint16s[i]) if utf16.IsSurrogate(r) { if i+1 == len(uint16s) { if nw > 0 { // Save half surrogate pair for next time. f.readuint16 = f.readuint16[:1] f.readuint16[0] = uint16(r) break } r = utf8.RuneError } else { r = utf16.DecodeRune(r, rune(uint16s[i+1])) if r != utf8.RuneError { i++ } } } n := utf8.EncodeRune(buf[len(buf):cap(buf)], r) buf = buf[:len(buf)+n] } f.readbyte = buf f.readbyteOffset = 0 if nw == 0 { break } } src := f.readbyte[f.readbyteOffset:] var i int for i = 0; i < len(src) && i < len(b); i++ { x := src[i] if x == 0x1A { // Ctrl-Z if i == 0 { f.readbyteOffset++ } break } b[i] = x } f.readbyteOffset += i return i, nil }
// regexp consumes a regular expression from d.data[d.off-1:]. // the two bytes of the regexp ("/a") have been read already. func (d *decodeState) regexp() (string, string, error) { start := d.off - 1 // Look ahead for /. op := d.scanWhile(scanRegexpPattern) if op != scanRegexpOptions { return "", "", fmt.Errorf("expected beginning of regular expression options") } pattern := d.data[start : d.off-1] start = d.off op = d.scanWhile(scanRegexpOptions) // Back up so caller can have the byte we just read. d.off-- d.scan.undo(op) options := d.data[start:d.off] // Check for unusual characters. If there are none, // then no copying is needed, so return string of the // original bytes. r := 0 for r < len(pattern) { c := pattern[r] if c == '\\' || c == '/' || c < ' ' { break } if c < utf8.RuneSelf { r++ continue } rr, size := utf8.DecodeRune(pattern[r:]) if rr == utf8.RuneError && size == 1 { break } r += size } if r == len(pattern) { return string(pattern), string(options), nil } b := make([]byte, len(pattern)+2*utf8.UTFMax) w := copy(b, pattern[0:r]) for r < len(pattern) { // Out of room? Can only happen if pattern is full of // malformed UTF-8 and we're replacing each // byte with RuneError. if w >= len(b)-2*utf8.UTFMax { nb := make([]byte, (len(b)+utf8.UTFMax)*2) copy(nb, b[0:w]) b = nb } switch c := pattern[r]; { case c == '\\': r++ if r >= len(pattern) { return "", "", errPhase } switch pattern[r] { default: return "", "", fmt.Errorf("invalid escape character") case '"', '\\', '/', '\'': b[w] = pattern[r] r++ w++ case 'b': b[w] = '\b' r++ w++ case 'f': b[w] = '\f' r++ w++ case 'n': b[w] = '\n' r++ w++ case 'r': b[w] = '\r' r++ w++ case 't': b[w] = '\t' r++ w++ case 'u': r-- rr := getu4(pattern[r:]) if rr < 0 { return "", "", fmt.Errorf("non-hexadecimal character found") } r += 6 if utf16.IsSurrogate(rr) { rr1 := getu4(pattern[r:]) if dec := utf16.DecodeRune(rr, rr1); dec != unicode.ReplacementChar { // A valid pair; consume. r += 6 w += utf8.EncodeRune(b[w:], dec) break } // Invalid surrogate; fall back to replacement rune. rr = unicode.ReplacementChar } w += utf8.EncodeRune(b[w:], rr) } // Forward slash, control characters are invalid. case c == '/', c < ' ': d.error(fmt.Errorf("regular expression pattern cannot contain unescaped '/'")) // ASCII case c < utf8.RuneSelf: b[w] = c r++ w++ // Coerce to well-formed UTF-8. default: rr, size := utf8.DecodeRune(pattern[r:]) r += size w += utf8.EncodeRune(b[w:], rr) } } return string(b[0:w]), string(options), nil }
func (s *State) readString() (err error) { var ( c byte start int buf *bytes.Buffer atstart bool = false more bool = true escaped bool = false escape bool = false ) for atstart == false { c = s.data[s.i] switch { case c == ' ': fallthrough case c == '\t': s.i++ case c == '"': atstart = true break case c == '}': s.i++ return EndMap{} case c == ']': s.i++ return EndArray{} default: return errors.New("Invalid string char: " + string(c)) } } s.i++ start = s.i buf = new(bytes.Buffer) for more { c = s.data[s.i] switch { case escape == false && c == '\\': escape = true escaped = true break case escape == true && c == '\\': escape = false break case escape == true && c == '/': // Skip the backslash buf.Write(s.data[start : s.i-1]) start = s.i escape = false break case escape == true && c == 'u': // TODO: Handle more encoded cases so that we don't need // the second pass for surrogate pairs down below. // However, Go specifically calls out surrogates // split with \u1234\u5678 encoding as invalid in // http://golang.org/ref/spec#Rune_literals so it's // unlikely to get direct support. buf.Write(s.data[start : s.i-1]) var ( r1, r2 rune perr error ) if r1, perr = s.getSmallURune(s.i - 1); perr != nil { return perr } s.i += 4 // On the last char of the first \u1234 value. if utf16.IsSurrogate(r1) { if r2, perr = s.getSmallURune(s.i + 1); perr != nil { return perr } buf.WriteRune(utf16.DecodeRune(r1, r2)) s.i += 6 // On the last char of the second value. } else { buf.WriteRune(r1) } start = s.i + 1 escape = false break case c == '"': if escape == false { more = false } else { escape = false } break case s.i >= len(s.data)-1: return errors.New("No string terminator") default: escape = false break } s.i++ } buf.Write(s.data[start : s.i-1]) s.v = buf.String() if escaped == true { var utfstr = s.v.(string) utfstr = "\"" + utfstr + "\"" if s.v, err = strconv.Unquote(utfstr); err == nil { s.v = decodeSurrogates(s.v.(string)) } } return }