package goja import ( "hash/maphash" "io" "math" "reflect" "strings" "unicode/utf16" "unicode/utf8" "apigo.cc/ai/ai/goja/parser" "apigo.cc/ai/ai/goja/unistring" "golang.org/x/text/cases" "golang.org/x/text/language" ) // Represents a string imported from Go. The idea is to delay the scanning for unicode characters and converting // to unicodeString until necessary. This way strings that are merely passed through never get scanned which // saves CPU and memory. // Currently, importedString is created in 2 cases: Runtime.ToValue() for strings longer than 16 bytes and as a result // of JSON.stringify() if it may contain unicode characters. More cases could be added in the future. type importedString struct { s string u unicodeString scanned bool } func (i *importedString) scan() { i.u = unistring.Scan(i.s) i.scanned = true } func (i *importedString) ensureScanned() { if !i.scanned { i.scan() } } func (i *importedString) ToInteger() int64 { i.ensureScanned() if i.u != nil { return 0 } return asciiString(i.s).ToInteger() } func (i *importedString) toString() String { return i } func (i *importedString) string() unistring.String { i.ensureScanned() if i.u != nil { return unistring.FromUtf16(i.u) } return unistring.String(i.s) } func (i *importedString) ToString() Value { return i } func (i *importedString) String() string { return i.s } func (i *importedString) ToFloat() float64 { i.ensureScanned() if i.u != nil { return math.NaN() } return asciiString(i.s).ToFloat() } func (i *importedString) ToNumber() Value { i.ensureScanned() if i.u != nil { return i.u.ToNumber() } return asciiString(i.s).ToNumber() } func (i *importedString) ToBoolean() bool { return len(i.s) != 0 } func (i *importedString) ToObject(r *Runtime) *Object { return r._newString(i, r.getStringPrototype()) } func (i *importedString) SameAs(other Value) bool { return i.StrictEquals(other) } func (i *importedString) Equals(other Value) bool { if i.StrictEquals(other) { return true } i.ensureScanned() if i.u != nil { return i.u.Equals(other) } return asciiString(i.s).Equals(other) } func (i *importedString) StrictEquals(other Value) bool { switch otherStr := other.(type) { case asciiString: if i.u != nil { return false } return i.s == string(otherStr) case unicodeString: i.ensureScanned() if i.u != nil && i.u.equals(otherStr) { return true } case *importedString: return i.s == otherStr.s } return false } func (i *importedString) Export() interface{} { return i.s } func (i *importedString) ExportType() reflect.Type { return reflectTypeString } func (i *importedString) baseObject(r *Runtime) *Object { i.ensureScanned() if i.u != nil { return i.u.baseObject(r) } return asciiString(i.s).baseObject(r) } func (i *importedString) hash(hasher *maphash.Hash) uint64 { i.ensureScanned() if i.u != nil { return i.u.hash(hasher) } return asciiString(i.s).hash(hasher) } func (i *importedString) CharAt(idx int) uint16 { i.ensureScanned() if i.u != nil { return i.u.CharAt(idx) } return asciiString(i.s).CharAt(idx) } func (i *importedString) Length() int { i.ensureScanned() if i.u != nil { return i.u.Length() } return asciiString(i.s).Length() } func (i *importedString) Concat(v String) String { if !i.scanned { if v, ok := v.(*importedString); ok { if !v.scanned { return &importedString{s: i.s + v.s} } } i.ensureScanned() } if i.u != nil { return i.u.Concat(v) } return asciiString(i.s).Concat(v) } func (i *importedString) Substring(start, end int) String { i.ensureScanned() if i.u != nil { return i.u.Substring(start, end) } return asciiString(i.s).Substring(start, end) } func (i *importedString) CompareTo(v String) int { return strings.Compare(i.s, v.String()) } func (i *importedString) Reader() io.RuneReader { if i.scanned { if i.u != nil { return i.u.Reader() } return asciiString(i.s).Reader() } return strings.NewReader(i.s) } type stringUtf16Reader struct { s string pos int second uint16 } func (s *stringUtf16Reader) readChar() (c uint16, err error) { if s.second != 0 { c, s.second = s.second, 0 return } if s.pos < len(s.s) { r1, size1 := utf8.DecodeRuneInString(s.s[s.pos:]) s.pos += size1 if r1 <= 0xFFFF { c = uint16(r1) } else { first, second := utf16.EncodeRune(r1) c, s.second = uint16(first), uint16(second) } } else { err = io.EOF } return } func (s *stringUtf16Reader) ReadRune() (r rune, size int, err error) { c, err := s.readChar() if err != nil { return } r = rune(c) size = 1 return } func (i *importedString) utf16Reader() utf16Reader { if i.scanned { if i.u != nil { return i.u.utf16Reader() } return asciiString(i.s).utf16Reader() } return &stringUtf16Reader{ s: i.s, } } func (i *importedString) utf16RuneReader() io.RuneReader { if i.scanned { if i.u != nil { return i.u.utf16RuneReader() } return asciiString(i.s).utf16RuneReader() } return &stringUtf16Reader{ s: i.s, } } func (i *importedString) utf16Runes() []rune { i.ensureScanned() if i.u != nil { return i.u.utf16Runes() } return asciiString(i.s).utf16Runes() } func (i *importedString) index(v String, start int) int { i.ensureScanned() if i.u != nil { return i.u.index(v, start) } return asciiString(i.s).index(v, start) } func (i *importedString) lastIndex(v String, pos int) int { i.ensureScanned() if i.u != nil { return i.u.lastIndex(v, pos) } return asciiString(i.s).lastIndex(v, pos) } func (i *importedString) toLower() String { i.ensureScanned() if i.u != nil { return toLower(i.s) } return asciiString(i.s).toLower() } func (i *importedString) toUpper() String { i.ensureScanned() if i.u != nil { caser := cases.Upper(language.Und) return newStringValue(caser.String(i.s)) } return asciiString(i.s).toUpper() } func (i *importedString) toTrimmedUTF8() string { return strings.Trim(i.s, parser.WhitespaceChars) }