package goja import ( "io" "strconv" "strings" "unicode/utf8" "apigo.cc/ai/ai/goja/unistring" ) const ( __proto__ = "__proto__" ) var ( stringTrue String = asciiString("true") stringFalse String = asciiString("false") stringNull String = asciiString("null") stringUndefined String = asciiString("undefined") stringObjectC String = asciiString("object") stringFunction String = asciiString("function") stringBoolean String = asciiString("boolean") stringString String = asciiString("string") stringSymbol String = asciiString("symbol") stringNumber String = asciiString("number") stringBigInt String = asciiString("bigint") stringNaN String = asciiString("NaN") stringInfinity = asciiString("Infinity") stringNegInfinity = asciiString("-Infinity") stringBound_ String = asciiString("bound ") stringEmpty String = asciiString("") stringError String = asciiString("Error") stringAggregateError String = asciiString("AggregateError") stringTypeError String = asciiString("TypeError") stringReferenceError String = asciiString("ReferenceError") stringSyntaxError String = asciiString("SyntaxError") stringRangeError String = asciiString("RangeError") stringEvalError String = asciiString("EvalError") stringURIError String = asciiString("URIError") stringGoError String = asciiString("GoError") stringObjectNull String = asciiString("[object Null]") stringObjectUndefined String = asciiString("[object Undefined]") stringInvalidDate String = asciiString("Invalid Date") ) type utf16Reader interface { readChar() (c uint16, err error) } // String represents an ECMAScript string Value. Its internal representation depends on the contents of the // string, but in any case it is capable of holding any UTF-16 string, either valid or invalid. // Instances of this type, as any other primitive values, are goroutine-safe and can be passed between runtimes. // Strings can be created using Runtime.ToValue(goString) or StringFromUTF16. type String interface { Value CharAt(int) uint16 Length() int Concat(String) String Substring(start, end int) String CompareTo(String) int Reader() io.RuneReader utf16Reader() utf16Reader utf16RuneReader() io.RuneReader utf16Runes() []rune index(String, int) int lastIndex(String, int) int toLower() String toUpper() String toTrimmedUTF8() string } type stringIterObject struct { baseObject reader io.RuneReader } func isUTF16FirstSurrogate(c uint16) bool { return c >= 0xD800 && c <= 0xDBFF } func isUTF16SecondSurrogate(c uint16) bool { return c >= 0xDC00 && c <= 0xDFFF } func (si *stringIterObject) next() Value { if si.reader == nil { return si.val.runtime.createIterResultObject(_undefined, true) } r, _, err := si.reader.ReadRune() if err == io.EOF { si.reader = nil return si.val.runtime.createIterResultObject(_undefined, true) } return si.val.runtime.createIterResultObject(stringFromRune(r), false) } func stringFromRune(r rune) String { if r < utf8.RuneSelf { var sb strings.Builder sb.WriteByte(byte(r)) return asciiString(sb.String()) } var sb unicodeStringBuilder sb.WriteRune(r) return sb.String() } func (r *Runtime) createStringIterator(s String) Value { o := &Object{runtime: r} si := &stringIterObject{ reader: &lenientUtf16Decoder{utf16Reader: s.utf16Reader()}, } si.class = classObject si.val = o si.extensible = true o.self = si si.prototype = r.getStringIteratorPrototype() si.init() return o } type stringObject struct { baseObject value String length int lengthProp valueProperty } func newStringValue(s string) String { if u := unistring.Scan(s); u != nil { return unicodeString(u) } return asciiString(s) } func stringValueFromRaw(raw unistring.String) String { if b := raw.AsUtf16(); b != nil { return unicodeString(b) } return asciiString(raw) } func (s *stringObject) init() { s.baseObject.init() s.setLength() } func (s *stringObject) setLength() { if s.value != nil { s.length = s.value.Length() } s.lengthProp.value = intToValue(int64(s.length)) s._put("length", &s.lengthProp) } func (s *stringObject) getStr(name unistring.String, receiver Value) Value { if i := strToGoIdx(name); i >= 0 && i < s.length { return s._getIdx(i) } return s.baseObject.getStr(name, receiver) } func (s *stringObject) getIdx(idx valueInt, receiver Value) Value { i := int(idx) if i >= 0 && i < s.length { return s._getIdx(i) } return s.baseObject.getStr(idx.string(), receiver) } func (s *stringObject) getOwnPropStr(name unistring.String) Value { if i := strToGoIdx(name); i >= 0 && i < s.length { val := s._getIdx(i) return &valueProperty{ value: val, enumerable: true, } } return s.baseObject.getOwnPropStr(name) } func (s *stringObject) getOwnPropIdx(idx valueInt) Value { i := int64(idx) if i >= 0 { if i < int64(s.length) { val := s._getIdx(int(i)) return &valueProperty{ value: val, enumerable: true, } } return nil } return s.baseObject.getOwnPropStr(idx.string()) } func (s *stringObject) _getIdx(idx int) Value { return s.value.Substring(idx, idx+1) } func (s *stringObject) setOwnStr(name unistring.String, val Value, throw bool) bool { if i := strToGoIdx(name); i >= 0 && i < s.length { s.val.runtime.typeErrorResult(throw, "Cannot assign to read only property '%d' of a String", i) return false } return s.baseObject.setOwnStr(name, val, throw) } func (s *stringObject) setOwnIdx(idx valueInt, val Value, throw bool) bool { i := int64(idx) if i >= 0 && i < int64(s.length) { s.val.runtime.typeErrorResult(throw, "Cannot assign to read only property '%d' of a String", i) return false } return s.baseObject.setOwnStr(idx.string(), val, throw) } func (s *stringObject) setForeignStr(name unistring.String, val, receiver Value, throw bool) (bool, bool) { return s._setForeignStr(name, s.getOwnPropStr(name), val, receiver, throw) } func (s *stringObject) setForeignIdx(idx valueInt, val, receiver Value, throw bool) (bool, bool) { return s._setForeignIdx(idx, s.getOwnPropIdx(idx), val, receiver, throw) } func (s *stringObject) defineOwnPropertyStr(name unistring.String, descr PropertyDescriptor, throw bool) bool { if i := strToGoIdx(name); i >= 0 && i < s.length { _, ok := s._defineOwnProperty(name, &valueProperty{enumerable: true}, descr, throw) return ok } return s.baseObject.defineOwnPropertyStr(name, descr, throw) } func (s *stringObject) defineOwnPropertyIdx(idx valueInt, descr PropertyDescriptor, throw bool) bool { i := int64(idx) if i >= 0 && i < int64(s.length) { s.val.runtime.typeErrorResult(throw, "Cannot redefine property: %d", i) return false } return s.baseObject.defineOwnPropertyStr(idx.string(), descr, throw) } type stringPropIter struct { str String // separate, because obj can be the singleton obj *stringObject idx, length int } func (i *stringPropIter) next() (propIterItem, iterNextFunc) { if i.idx < i.length { name := strconv.Itoa(i.idx) i.idx++ return propIterItem{name: asciiString(name), enumerable: _ENUM_TRUE}, i.next } return i.obj.baseObject.iterateStringKeys()() } func (s *stringObject) iterateStringKeys() iterNextFunc { return (&stringPropIter{ str: s.value, obj: s, length: s.length, }).next } func (s *stringObject) stringKeys(all bool, accum []Value) []Value { for i := 0; i < s.length; i++ { accum = append(accum, asciiString(strconv.Itoa(i))) } return s.baseObject.stringKeys(all, accum) } func (s *stringObject) deleteStr(name unistring.String, throw bool) bool { if i := strToGoIdx(name); i >= 0 && i < s.length { s.val.runtime.typeErrorResult(throw, "Cannot delete property '%d' of a String", i) return false } return s.baseObject.deleteStr(name, throw) } func (s *stringObject) deleteIdx(idx valueInt, throw bool) bool { i := int64(idx) if i >= 0 && i < int64(s.length) { s.val.runtime.typeErrorResult(throw, "Cannot delete property '%d' of a String", i) return false } return s.baseObject.deleteStr(idx.string(), throw) } func (s *stringObject) hasOwnPropertyStr(name unistring.String) bool { if i := strToGoIdx(name); i >= 0 && i < s.length { return true } return s.baseObject.hasOwnPropertyStr(name) } func (s *stringObject) hasOwnPropertyIdx(idx valueInt) bool { i := int64(idx) if i >= 0 && i < int64(s.length) { return true } return s.baseObject.hasOwnPropertyStr(idx.string()) } func devirtualizeString(s String) (asciiString, unicodeString) { switch s := s.(type) { case asciiString: return s, nil case unicodeString: return "", s case *importedString: s.ensureScanned() if s.u != nil { return "", s.u } return asciiString(s.s), nil default: panic(unknownStringTypeErr(s)) } } func unknownStringTypeErr(v Value) interface{} { return newTypeError("Internal bug: unknown string type: %T", v) } // StringFromUTF16 creates a string value from an array of UTF-16 code units. The result is a copy, so the initial // slice can be modified after calling this function (but it must not be modified while the function is running). // No validation of any kind is performed. func StringFromUTF16(chars []uint16) String { isAscii := true for _, c := range chars { if c >= utf8.RuneSelf { isAscii = false break } } if isAscii { var sb strings.Builder sb.Grow(len(chars)) for _, c := range chars { sb.WriteByte(byte(c)) } return asciiString(sb.String()) } buf := make([]uint16, len(chars)+1) buf[0] = unistring.BOM copy(buf[1:], chars) return unicodeString(buf) }