package goja import ( "fmt" "math" "math/bits" "reflect" "sort" "strconv" "apigo.cc/ai/ai/goja/unistring" ) type sparseArrayItem struct { idx uint32 value Value } type sparseArrayObject struct { baseObject items []sparseArrayItem length uint32 propValueCount int lengthProp valueProperty } func (a *sparseArrayObject) findIdx(idx uint32) int { return sort.Search(len(a.items), func(i int) bool { return a.items[i].idx >= idx }) } func (a *sparseArrayObject) _setLengthInt(l uint32, throw bool) bool { ret := true if l <= a.length { if a.propValueCount > 0 { // Slow path for i := len(a.items) - 1; i >= 0; i-- { item := a.items[i] if item.idx <= l { break } if prop, ok := item.value.(*valueProperty); ok { if !prop.configurable { l = item.idx + 1 ret = false break } a.propValueCount-- } } } } idx := a.findIdx(l) aa := a.items[idx:] for i := range aa { aa[i].value = nil } a.items = a.items[:idx] a.length = l if !ret { a.val.runtime.typeErrorResult(throw, "Cannot redefine property: length") } return ret } func (a *sparseArrayObject) setLengthInt(l uint32, throw bool) bool { if l == a.length { return true } if !a.lengthProp.writable { a.val.runtime.typeErrorResult(throw, "length is not writable") return false } return a._setLengthInt(l, throw) } func (a *sparseArrayObject) setLength(v uint32, throw bool) bool { if !a.lengthProp.writable { a.val.runtime.typeErrorResult(throw, "length is not writable") return false } return a._setLengthInt(v, throw) } func (a *sparseArrayObject) _getIdx(idx uint32) Value { i := a.findIdx(idx) if i < len(a.items) && a.items[i].idx == idx { return a.items[i].value } return nil } func (a *sparseArrayObject) getStr(name unistring.String, receiver Value) Value { return a.getStrWithOwnProp(a.getOwnPropStr(name), name, receiver) } func (a *sparseArrayObject) getIdx(idx valueInt, receiver Value) Value { prop := a.getOwnPropIdx(idx) if prop == nil { if a.prototype != nil { if receiver == nil { return a.prototype.self.getIdx(idx, a.val) } return a.prototype.self.getIdx(idx, receiver) } } if prop, ok := prop.(*valueProperty); ok { if receiver == nil { return prop.get(a.val) } return prop.get(receiver) } return prop } func (a *sparseArrayObject) getLengthProp() *valueProperty { a.lengthProp.value = intToValue(int64(a.length)) return &a.lengthProp } func (a *sparseArrayObject) getOwnPropStr(name unistring.String) Value { if idx := strToArrayIdx(name); idx != math.MaxUint32 { return a._getIdx(idx) } if name == "length" { return a.getLengthProp() } return a.baseObject.getOwnPropStr(name) } func (a *sparseArrayObject) getOwnPropIdx(idx valueInt) Value { if idx := toIdx(idx); idx != math.MaxUint32 { return a._getIdx(idx) } return a.baseObject.getOwnPropStr(idx.string()) } func (a *sparseArrayObject) add(idx uint32, val Value) { i := a.findIdx(idx) a.items = append(a.items, sparseArrayItem{}) copy(a.items[i+1:], a.items[i:]) a.items[i] = sparseArrayItem{ idx: idx, value: val, } } func (a *sparseArrayObject) _setOwnIdx(idx uint32, val Value, throw bool) bool { var prop Value i := a.findIdx(idx) if i < len(a.items) && a.items[i].idx == idx { prop = a.items[i].value } if prop == nil { if proto := a.prototype; proto != nil { // we know it's foreign because prototype loops are not allowed if res, ok := proto.self.setForeignIdx(valueInt(idx), val, a.val, throw); ok { return res } } // new property if !a.extensible { a.val.runtime.typeErrorResult(throw, "Cannot add property %d, object is not extensible", idx) return false } if idx >= a.length { if !a.setLengthInt(idx+1, throw) { return false } } if a.expand(idx) { a.items = append(a.items, sparseArrayItem{}) copy(a.items[i+1:], a.items[i:]) a.items[i] = sparseArrayItem{ idx: idx, value: val, } } else { ar := a.val.self.(*arrayObject) ar.values[idx] = val ar.objCount++ return true } } else { if prop, ok := prop.(*valueProperty); ok { if !prop.isWritable() { a.val.runtime.typeErrorResult(throw) return false } prop.set(a.val, val) } else { a.items[i].value = val } } return true } func (a *sparseArrayObject) setOwnStr(name unistring.String, val Value, throw bool) bool { if idx := strToArrayIdx(name); idx != math.MaxUint32 { return a._setOwnIdx(idx, val, throw) } else { if name == "length" { return a.setLength(a.val.runtime.toLengthUint32(val), throw) } else { return a.baseObject.setOwnStr(name, val, throw) } } } func (a *sparseArrayObject) setOwnIdx(idx valueInt, val Value, throw bool) bool { if idx := toIdx(idx); idx != math.MaxUint32 { return a._setOwnIdx(idx, val, throw) } return a.baseObject.setOwnStr(idx.string(), val, throw) } func (a *sparseArrayObject) setForeignStr(name unistring.String, val, receiver Value, throw bool) (bool, bool) { return a._setForeignStr(name, a.getOwnPropStr(name), val, receiver, throw) } func (a *sparseArrayObject) setForeignIdx(name valueInt, val, receiver Value, throw bool) (bool, bool) { return a._setForeignIdx(name, a.getOwnPropIdx(name), val, receiver, throw) } type sparseArrayPropIter struct { a *sparseArrayObject idx int } func (i *sparseArrayPropIter) next() (propIterItem, iterNextFunc) { for i.idx < len(i.a.items) { name := asciiString(strconv.Itoa(int(i.a.items[i.idx].idx))) prop := i.a.items[i.idx].value i.idx++ if prop != nil { return propIterItem{name: name, value: prop}, i.next } } return i.a.baseObject.iterateStringKeys()() } func (a *sparseArrayObject) iterateStringKeys() iterNextFunc { return (&sparseArrayPropIter{ a: a, }).next } func (a *sparseArrayObject) stringKeys(all bool, accum []Value) []Value { if all { for _, item := range a.items { accum = append(accum, asciiString(strconv.FormatUint(uint64(item.idx), 10))) } } else { for _, item := range a.items { if prop, ok := item.value.(*valueProperty); ok && !prop.enumerable { continue } accum = append(accum, asciiString(strconv.FormatUint(uint64(item.idx), 10))) } } return a.baseObject.stringKeys(all, accum) } func (a *sparseArrayObject) setValues(values []Value, objCount int) { a.items = make([]sparseArrayItem, 0, objCount) for i, val := range values { if val != nil { a.items = append(a.items, sparseArrayItem{ idx: uint32(i), value: val, }) } } } func (a *sparseArrayObject) hasOwnPropertyStr(name unistring.String) bool { if idx := strToArrayIdx(name); idx != math.MaxUint32 { i := a.findIdx(idx) return i < len(a.items) && a.items[i].idx == idx } else { return a.baseObject.hasOwnPropertyStr(name) } } func (a *sparseArrayObject) hasOwnPropertyIdx(idx valueInt) bool { if idx := toIdx(idx); idx != math.MaxUint32 { i := a.findIdx(idx) return i < len(a.items) && a.items[i].idx == idx } return a.baseObject.hasOwnPropertyStr(idx.string()) } func (a *sparseArrayObject) hasPropertyIdx(idx valueInt) bool { if a.hasOwnPropertyIdx(idx) { return true } if a.prototype != nil { return a.prototype.self.hasPropertyIdx(idx) } return false } func (a *sparseArrayObject) expand(idx uint32) bool { if l := len(a.items); l >= 1024 { if ii := a.items[l-1].idx; ii > idx { idx = ii } if (bits.UintSize == 64 || idx < math.MaxInt32) && int(idx)>>3 < l { //log.Println("Switching sparse->standard") ar := &arrayObject{ baseObject: a.baseObject, length: a.length, propValueCount: a.propValueCount, } ar.setValuesFromSparse(a.items, int(idx)) ar.val.self = ar ar.lengthProp.writable = a.lengthProp.writable a._put("length", &ar.lengthProp) return false } } return true } func (a *sparseArrayObject) _defineIdxProperty(idx uint32, desc PropertyDescriptor, throw bool) bool { var existing Value i := a.findIdx(idx) if i < len(a.items) && a.items[i].idx == idx { existing = a.items[i].value } prop, ok := a.baseObject._defineOwnProperty(unistring.String(strconv.FormatUint(uint64(idx), 10)), existing, desc, throw) if ok { if idx >= a.length { if !a.setLengthInt(idx+1, throw) { return false } } if i >= len(a.items) || a.items[i].idx != idx { if a.expand(idx) { a.items = append(a.items, sparseArrayItem{}) copy(a.items[i+1:], a.items[i:]) a.items[i] = sparseArrayItem{ idx: idx, value: prop, } if idx >= a.length { a.length = idx + 1 } } else { a.val.self.(*arrayObject).values[idx] = prop } } else { a.items[i].value = prop } if _, ok := prop.(*valueProperty); ok { a.propValueCount++ } } return ok } func (a *sparseArrayObject) defineOwnPropertyStr(name unistring.String, descr PropertyDescriptor, throw bool) bool { if idx := strToArrayIdx(name); idx != math.MaxUint32 { return a._defineIdxProperty(idx, descr, throw) } if name == "length" { return a.val.runtime.defineArrayLength(a.getLengthProp(), descr, a.setLength, throw) } return a.baseObject.defineOwnPropertyStr(name, descr, throw) } func (a *sparseArrayObject) defineOwnPropertyIdx(idx valueInt, descr PropertyDescriptor, throw bool) bool { if idx := toIdx(idx); idx != math.MaxUint32 { return a._defineIdxProperty(idx, descr, throw) } return a.baseObject.defineOwnPropertyStr(idx.string(), descr, throw) } func (a *sparseArrayObject) _deleteIdxProp(idx uint32, throw bool) bool { i := a.findIdx(idx) if i < len(a.items) && a.items[i].idx == idx { if p, ok := a.items[i].value.(*valueProperty); ok { if !p.configurable { a.val.runtime.typeErrorResult(throw, "Cannot delete property '%d' of %s", idx, a.val.toString()) return false } a.propValueCount-- } copy(a.items[i:], a.items[i+1:]) a.items[len(a.items)-1].value = nil a.items = a.items[:len(a.items)-1] } return true } func (a *sparseArrayObject) deleteStr(name unistring.String, throw bool) bool { if idx := strToArrayIdx(name); idx != math.MaxUint32 { return a._deleteIdxProp(idx, throw) } return a.baseObject.deleteStr(name, throw) } func (a *sparseArrayObject) deleteIdx(idx valueInt, throw bool) bool { if idx := toIdx(idx); idx != math.MaxUint32 { return a._deleteIdxProp(idx, throw) } return a.baseObject.deleteStr(idx.string(), throw) } func (a *sparseArrayObject) sortLen() int { if len(a.items) > 0 { return toIntStrict(int64(a.items[len(a.items)-1].idx) + 1) } return 0 } func (a *sparseArrayObject) export(ctx *objectExportCtx) interface{} { if v, exists := ctx.get(a.val); exists { return v } arr := make([]interface{}, a.length) ctx.put(a.val, arr) var prevIdx uint32 for _, item := range a.items { idx := item.idx for i := prevIdx; i < idx; i++ { if a.prototype != nil { if v := a.prototype.self.getIdx(valueInt(i), nil); v != nil { arr[i] = exportValue(v, ctx) } } } v := item.value if v != nil { if prop, ok := v.(*valueProperty); ok { v = prop.get(a.val) } arr[idx] = exportValue(v, ctx) } prevIdx = idx + 1 } for i := prevIdx; i < a.length; i++ { if a.prototype != nil { if v := a.prototype.self.getIdx(valueInt(i), nil); v != nil { arr[i] = exportValue(v, ctx) } } } return arr } func (a *sparseArrayObject) exportType() reflect.Type { return reflectTypeArray } func (a *sparseArrayObject) exportToArrayOrSlice(dst reflect.Value, typ reflect.Type, ctx *objectExportCtx) error { r := a.val.runtime if iter := a.getSym(SymIterator, nil); iter == r.getArrayValues() || iter == nil { l := toIntStrict(int64(a.length)) if typ.Kind() == reflect.Array { if dst.Len() != l { return fmt.Errorf("cannot convert an Array into an array, lengths mismatch (have %d, need %d)", l, dst.Len()) } } else { dst.Set(reflect.MakeSlice(typ, l, l)) } ctx.putTyped(a.val, typ, dst.Interface()) for _, item := range a.items { val := item.value if p, ok := val.(*valueProperty); ok { val = p.get(a.val) } idx := toIntStrict(int64(item.idx)) if idx >= l { break } err := r.toReflectValue(val, dst.Index(idx), ctx) if err != nil { return fmt.Errorf("could not convert array element %v to %v at %d: %w", item.value, typ, idx, err) } } return nil } return a.baseObject.exportToArrayOrSlice(dst, typ, ctx) }