pkg
/
goja
/
builtin_object.go

package goja

import (
	"fmt"
	"sync"
)

func (r *Runtime) builtin_Object(args []Value, newTarget *Object) *Object {
	if newTarget != nil && newTarget != r.getObject() {
		proto := r.getPrototypeFromCtor(newTarget, nil, r.global.ObjectPrototype)
		return r.newBaseObject(proto, classObject).val
	}
	if len(args) > 0 {
		arg := args[0]
		if arg != _undefined && arg != _null {
			return arg.ToObject(r)
		}
	}
	return r.NewObject()
}

func (r *Runtime) object_getPrototypeOf(call FunctionCall) Value {
	o := call.Argument(0).ToObject(r)
	p := o.self.proto()
	if p == nil {
		return _null
	}
	return p
}

func (r *Runtime) valuePropToDescriptorObject(desc Value) Value {
	if desc == nil {
		return _undefined
	}
	var writable, configurable, enumerable, accessor bool
	var get, set *Object
	var value Value
	if v, ok := desc.(*valueProperty); ok {
		writable = v.writable
		configurable = v.configurable
		enumerable = v.enumerable
		accessor = v.accessor
		value = v.value
		get = v.getterFunc
		set = v.setterFunc
	} else {
		writable = true
		configurable = true
		enumerable = true
		value = desc
	}

	ret := r.NewObject()
	obj := ret.self
	if !accessor {
		obj.setOwnStr("value", value, false)
		obj.setOwnStr("writable", r.toBoolean(writable), false)
	} else {
		if get != nil {
			obj.setOwnStr("get", get, false)
		} else {
			obj.setOwnStr("get", _undefined, false)
		}
		if set != nil {
			obj.setOwnStr("set", set, false)
		} else {
			obj.setOwnStr("set", _undefined, false)
		}
	}
	obj.setOwnStr("enumerable", r.toBoolean(enumerable), false)
	obj.setOwnStr("configurable", r.toBoolean(configurable), false)

	return ret
}

func (r *Runtime) object_getOwnPropertyDescriptor(call FunctionCall) Value {
	o := call.Argument(0).ToObject(r)
	propName := toPropertyKey(call.Argument(1))
	return r.valuePropToDescriptorObject(o.getOwnProp(propName))
}

func (r *Runtime) object_getOwnPropertyDescriptors(call FunctionCall) Value {
	o := call.Argument(0).ToObject(r)
	result := r.newBaseObject(r.global.ObjectPrototype, classObject).val
	for item, next := o.self.iterateKeys()(); next != nil; item, next = next() {
		var prop Value
		if item.value == nil {
			prop = o.getOwnProp(item.name)
			if prop == nil {
				continue
			}
		} else {
			prop = item.value
		}
		descriptor := r.valuePropToDescriptorObject(prop)
		if descriptor != _undefined {
			createDataPropertyOrThrow(result, item.name, descriptor)
		}
	}
	return result
}

func (r *Runtime) object_getOwnPropertyNames(call FunctionCall) Value {
	obj := call.Argument(0).ToObject(r)

	return r.newArrayValues(obj.self.stringKeys(true, nil))
}

func (r *Runtime) object_getOwnPropertySymbols(call FunctionCall) Value {
	obj := call.Argument(0).ToObject(r)
	return r.newArrayValues(obj.self.symbols(true, nil))
}

func (r *Runtime) toValueProp(v Value) *valueProperty {
	if v == nil || v == _undefined {
		return nil
	}
	obj := r.toObject(v)
	getter := obj.self.getStr("get", nil)
	setter := obj.self.getStr("set", nil)
	writable := obj.self.getStr("writable", nil)
	value := obj.self.getStr("value", nil)
	if (getter != nil || setter != nil) && (value != nil || writable != nil) {
		r.typeErrorResult(true, "Invalid property descriptor. Cannot both specify accessors and a value or writable attribute")
	}

	ret := &valueProperty{}
	if writable != nil && writable.ToBoolean() {
		ret.writable = true
	}
	if e := obj.self.getStr("enumerable", nil); e != nil && e.ToBoolean() {
		ret.enumerable = true
	}
	if c := obj.self.getStr("configurable", nil); c != nil && c.ToBoolean() {
		ret.configurable = true
	}
	ret.value = value

	if getter != nil && getter != _undefined {
		o := r.toObject(getter)
		if _, ok := o.self.assertCallable(); !ok {
			r.typeErrorResult(true, "getter must be a function")
		}
		ret.getterFunc = o
	}

	if setter != nil && setter != _undefined {
		o := r.toObject(setter)
		if _, ok := o.self.assertCallable(); !ok {
			r.typeErrorResult(true, "setter must be a function")
		}
		ret.setterFunc = o
	}

	if ret.getterFunc != nil || ret.setterFunc != nil {
		ret.accessor = true
	}

	return ret
}

func (r *Runtime) toPropertyDescriptor(v Value) (ret PropertyDescriptor) {
	if o, ok := v.(*Object); ok {
		descr := o.self

		// Save the original descriptor for reference
		ret.jsDescriptor = o

		ret.Value = descr.getStr("value", nil)

		if p := descr.getStr("writable", nil); p != nil {
			ret.Writable = ToFlag(p.ToBoolean())
		}
		if p := descr.getStr("enumerable", nil); p != nil {
			ret.Enumerable = ToFlag(p.ToBoolean())
		}
		if p := descr.getStr("configurable", nil); p != nil {
			ret.Configurable = ToFlag(p.ToBoolean())
		}

		ret.Getter = descr.getStr("get", nil)
		ret.Setter = descr.getStr("set", nil)

		if ret.Getter != nil && ret.Getter != _undefined {
			if _, ok := r.toObject(ret.Getter).self.assertCallable(); !ok {
				r.typeErrorResult(true, "getter must be a function")
			}
		}

		if ret.Setter != nil && ret.Setter != _undefined {
			if _, ok := r.toObject(ret.Setter).self.assertCallable(); !ok {
				r.typeErrorResult(true, "setter must be a function")
			}
		}

		if (ret.Getter != nil || ret.Setter != nil) && (ret.Value != nil || ret.Writable != FLAG_NOT_SET) {
			r.typeErrorResult(true, "Invalid property descriptor. Cannot both specify accessors and a value or writable attribute")
		}
	} else {
		r.typeErrorResult(true, "Property description must be an object: %s", v.String())
	}

	return
}

func (r *Runtime) _defineProperties(o *Object, p Value) {
	type propItem struct {
		name Value
		prop PropertyDescriptor
	}
	props := p.ToObject(r)
	var list []propItem
	for item, next := iterateEnumerableProperties(props)(); next != nil; item, next = next() {
		list = append(list, propItem{
			name: item.name,
			prop: r.toPropertyDescriptor(item.value),
		})
	}
	for _, prop := range list {
		o.defineOwnProperty(prop.name, prop.prop, true)
	}
}

func (r *Runtime) object_create(call FunctionCall) Value {
	var proto *Object
	if arg := call.Argument(0); arg != _null {
		if o, ok := arg.(*Object); ok {
			proto = o
		} else {
			r.typeErrorResult(true, "Object prototype may only be an Object or null: %s", arg.String())
		}
	}
	o := r.newBaseObject(proto, classObject).val

	if props := call.Argument(1); props != _undefined {
		r._defineProperties(o, props)
	}

	return o
}

func (r *Runtime) object_defineProperty(call FunctionCall) (ret Value) {
	if obj, ok := call.Argument(0).(*Object); ok {
		descr := r.toPropertyDescriptor(call.Argument(2))
		obj.defineOwnProperty(toPropertyKey(call.Argument(1)), descr, true)
		ret = call.Argument(0)
	} else {
		r.typeErrorResult(true, "Object.defineProperty called on non-object")
	}
	return
}

func (r *Runtime) object_defineProperties(call FunctionCall) Value {
	obj := r.toObject(call.Argument(0))
	r._defineProperties(obj, call.Argument(1))
	return obj
}

func (r *Runtime) object_seal(call FunctionCall) Value {
	// ES6
	arg := call.Argument(0)
	if obj, ok := arg.(*Object); ok {
		obj.self.preventExtensions(true)
		descr := PropertyDescriptor{
			Configurable: FLAG_FALSE,
		}

		for item, next := obj.self.iterateKeys()(); next != nil; item, next = next() {
			if prop, ok := item.value.(*valueProperty); ok {
				prop.configurable = false
			} else {
				obj.defineOwnProperty(item.name, descr, true)
			}
		}

		return obj
	}
	return arg
}

func (r *Runtime) object_freeze(call FunctionCall) Value {
	arg := call.Argument(0)
	if obj, ok := arg.(*Object); ok {
		obj.self.preventExtensions(true)

		for item, next := obj.self.iterateKeys()(); next != nil; item, next = next() {
			if prop, ok := item.value.(*valueProperty); ok {
				prop.configurable = false
				if !prop.accessor {
					prop.writable = false
				}
			} else {
				prop := obj.getOwnProp(item.name)
				descr := PropertyDescriptor{
					Configurable: FLAG_FALSE,
				}
				if prop, ok := prop.(*valueProperty); ok && prop.accessor {
					// no-op
				} else {
					descr.Writable = FLAG_FALSE
				}
				obj.defineOwnProperty(item.name, descr, true)
			}
		}
		return obj
	} else {
		// ES6 behavior
		return arg
	}
}

func (r *Runtime) object_preventExtensions(call FunctionCall) (ret Value) {
	arg := call.Argument(0)
	if obj, ok := arg.(*Object); ok {
		obj.self.preventExtensions(true)
	}
	return arg
}

func (r *Runtime) object_isSealed(call FunctionCall) Value {
	if obj, ok := call.Argument(0).(*Object); ok {
		if obj.self.isExtensible() {
			return valueFalse
		}
		for item, next := obj.self.iterateKeys()(); next != nil; item, next = next() {
			var prop Value
			if item.value == nil {
				prop = obj.getOwnProp(item.name)
				if prop == nil {
					continue
				}
			} else {
				prop = item.value
			}
			if prop, ok := prop.(*valueProperty); ok {
				if prop.configurable {
					return valueFalse
				}
			} else {
				return valueFalse
			}
		}
	}
	return valueTrue
}

func (r *Runtime) object_isFrozen(call FunctionCall) Value {
	if obj, ok := call.Argument(0).(*Object); ok {
		if obj.self.isExtensible() {
			return valueFalse
		}
		for item, next := obj.self.iterateKeys()(); next != nil; item, next = next() {
			var prop Value
			if item.value == nil {
				prop = obj.getOwnProp(item.name)
				if prop == nil {
					continue
				}
			} else {
				prop = item.value
			}
			if prop, ok := prop.(*valueProperty); ok {
				if prop.configurable || prop.value != nil && prop.writable {
					return valueFalse
				}
			} else {
				return valueFalse
			}
		}
	}
	return valueTrue
}

func (r *Runtime) object_isExtensible(call FunctionCall) Value {
	if obj, ok := call.Argument(0).(*Object); ok {
		if obj.self.isExtensible() {
			return valueTrue
		}
		return valueFalse
	} else {
		// ES6
		//r.typeErrorResult(true, "Object.isExtensible called on non-object")
		return valueFalse
	}
}

func (r *Runtime) object_keys(call FunctionCall) Value {
	obj := call.Argument(0).ToObject(r)

	return r.newArrayValues(obj.self.stringKeys(false, nil))
}

func (r *Runtime) object_entries(call FunctionCall) Value {
	obj := call.Argument(0).ToObject(r)

	var values []Value

	for item, next := iterateEnumerableStringProperties(obj)(); next != nil; item, next = next() {
		values = append(values, r.newArrayValues([]Value{item.name, item.value}))
	}

	return r.newArrayValues(values)
}

func (r *Runtime) object_values(call FunctionCall) Value {
	obj := call.Argument(0).ToObject(r)

	var values []Value

	for item, next := iterateEnumerableStringProperties(obj)(); next != nil; item, next = next() {
		values = append(values, item.value)
	}

	return r.newArrayValues(values)
}

func (r *Runtime) objectproto_hasOwnProperty(call FunctionCall) Value {
	p := toPropertyKey(call.Argument(0))
	o := call.This.ToObject(r)
	if o.hasOwnProperty(p) {
		return valueTrue
	} else {
		return valueFalse
	}
}

func (r *Runtime) objectproto_isPrototypeOf(call FunctionCall) Value {
	if v, ok := call.Argument(0).(*Object); ok {
		o := call.This.ToObject(r)
		for {
			v = v.self.proto()
			if v == nil {
				break
			}
			if v == o {
				return valueTrue
			}
		}
	}
	return valueFalse
}

func (r *Runtime) objectproto_propertyIsEnumerable(call FunctionCall) Value {
	p := toPropertyKey(call.Argument(0))
	o := call.This.ToObject(r)
	pv := o.getOwnProp(p)
	if pv == nil {
		return valueFalse
	}
	if prop, ok := pv.(*valueProperty); ok {
		if !prop.enumerable {
			return valueFalse
		}
	}
	return valueTrue
}

func (r *Runtime) objectproto_toString(call FunctionCall) Value {
	switch o := call.This.(type) {
	case valueNull:
		return stringObjectNull
	case valueUndefined:
		return stringObjectUndefined
	default:
		obj := o.ToObject(r)
		if o, ok := obj.self.(*objectGoReflect); ok {
			if toString := o.toString; toString != nil {
				return toString()
			}
		}
		var clsName string
		if isArray(obj) {
			clsName = classArray
		} else {
			clsName = obj.self.className()
		}
		if tag := obj.self.getSym(SymToStringTag, nil); tag != nil {
			if str, ok := tag.(String); ok {
				clsName = str.String()
			}
		}
		return newStringValue(fmt.Sprintf("[object %s]", clsName))
	}
}

func (r *Runtime) objectproto_toLocaleString(call FunctionCall) Value {
	toString := toMethod(r.getVStr(call.This, "toString"))
	return toString(FunctionCall{This: call.This})
}

func (r *Runtime) objectproto_getProto(call FunctionCall) Value {
	proto := call.This.ToObject(r).self.proto()
	if proto != nil {
		return proto
	}
	return _null
}

func (r *Runtime) setObjectProto(o, arg Value) {
	r.checkObjectCoercible(o)
	var proto *Object
	if arg != _null {
		if obj, ok := arg.(*Object); ok {
			proto = obj
		} else {
			return
		}
	}
	if o, ok := o.(*Object); ok {
		o.self.setProto(proto, true)
	}
}

func (r *Runtime) objectproto_setProto(call FunctionCall) Value {
	r.setObjectProto(call.This, call.Argument(0))
	return _undefined
}

func (r *Runtime) objectproto_valueOf(call FunctionCall) Value {
	return call.This.ToObject(r)
}

func (r *Runtime) object_assign(call FunctionCall) Value {
	to := call.Argument(0).ToObject(r)
	if len(call.Arguments) > 1 {
		for _, arg := range call.Arguments[1:] {
			if arg != _undefined && arg != _null {
				source := arg.ToObject(r)
				for item, next := iterateEnumerableProperties(source)(); next != nil; item, next = next() {
					to.setOwn(item.name, item.value, true)
				}
			}
		}
	}

	return to
}

func (r *Runtime) object_is(call FunctionCall) Value {
	return r.toBoolean(call.Argument(0).SameAs(call.Argument(1)))
}

func (r *Runtime) toProto(proto Value) *Object {
	if proto != _null {
		if obj, ok := proto.(*Object); ok {
			return obj
		} else {
			panic(r.NewTypeError("Object prototype may only be an Object or null: %s", proto))
		}
	}
	return nil
}

func (r *Runtime) object_setPrototypeOf(call FunctionCall) Value {
	o := call.Argument(0)
	r.checkObjectCoercible(o)
	proto := r.toProto(call.Argument(1))
	if o, ok := o.(*Object); ok {
		o.self.setProto(proto, true)
	}

	return o
}

func (r *Runtime) object_fromEntries(call FunctionCall) Value {
	o := call.Argument(0)
	r.checkObjectCoercible(o)

	result := r.newBaseObject(r.global.ObjectPrototype, classObject).val

	iter := r.getIterator(o, nil)
	iter.iterate(func(nextValue Value) {
		i0 := valueInt(0)
		i1 := valueInt(1)

		itemObj := r.toObject(nextValue)
		k := itemObj.self.getIdx(i0, nil)
		v := itemObj.self.getIdx(i1, nil)
		key := toPropertyKey(k)

		createDataPropertyOrThrow(result, key, v)
	})

	return result
}

func (r *Runtime) object_hasOwn(call FunctionCall) Value {
	o := call.Argument(0)
	obj := o.ToObject(r)
	p := toPropertyKey(call.Argument(1))

	if obj.hasOwnProperty(p) {
		return valueTrue
	} else {
		return valueFalse
	}
}

func createObjectTemplate() *objectTemplate {
	t := newObjectTemplate()
	t.protoFactory = func(r *Runtime) *Object {
		return r.getFunctionPrototype()
	}

	t.putStr("length", func(r *Runtime) Value { return valueProp(intToValue(1), false, false, true) })
	t.putStr("name", func(r *Runtime) Value { return valueProp(asciiString("Object"), false, false, true) })

	t.putStr("prototype", func(r *Runtime) Value { return valueProp(r.global.ObjectPrototype, false, false, false) })

	t.putStr("assign", func(r *Runtime) Value { return r.methodProp(r.object_assign, "assign", 2) })
	t.putStr("defineProperty", func(r *Runtime) Value { return r.methodProp(r.object_defineProperty, "defineProperty", 3) })
	t.putStr("defineProperties", func(r *Runtime) Value { return r.methodProp(r.object_defineProperties, "defineProperties", 2) })
	t.putStr("entries", func(r *Runtime) Value { return r.methodProp(r.object_entries, "entries", 1) })
	t.putStr("getOwnPropertyDescriptor", func(r *Runtime) Value {
		return r.methodProp(r.object_getOwnPropertyDescriptor, "getOwnPropertyDescriptor", 2)
	})
	t.putStr("getOwnPropertyDescriptors", func(r *Runtime) Value {
		return r.methodProp(r.object_getOwnPropertyDescriptors, "getOwnPropertyDescriptors", 1)
	})
	t.putStr("getPrototypeOf", func(r *Runtime) Value { return r.methodProp(r.object_getPrototypeOf, "getPrototypeOf", 1) })
	t.putStr("is", func(r *Runtime) Value { return r.methodProp(r.object_is, "is", 2) })
	t.putStr("getOwnPropertyNames", func(r *Runtime) Value { return r.methodProp(r.object_getOwnPropertyNames, "getOwnPropertyNames", 1) })
	t.putStr("getOwnPropertySymbols", func(r *Runtime) Value {
		return r.methodProp(r.object_getOwnPropertySymbols, "getOwnPropertySymbols", 1)
	})
	t.putStr("create", func(r *Runtime) Value { return r.methodProp(r.object_create, "create", 2) })
	t.putStr("seal", func(r *Runtime) Value { return r.methodProp(r.object_seal, "seal", 1) })
	t.putStr("freeze", func(r *Runtime) Value { return r.methodProp(r.object_freeze, "freeze", 1) })
	t.putStr("preventExtensions", func(r *Runtime) Value { return r.methodProp(r.object_preventExtensions, "preventExtensions", 1) })
	t.putStr("isSealed", func(r *Runtime) Value { return r.methodProp(r.object_isSealed, "isSealed", 1) })
	t.putStr("isFrozen", func(r *Runtime) Value { return r.methodProp(r.object_isFrozen, "isFrozen", 1) })
	t.putStr("isExtensible", func(r *Runtime) Value { return r.methodProp(r.object_isExtensible, "isExtensible", 1) })
	t.putStr("keys", func(r *Runtime) Value { return r.methodProp(r.object_keys, "keys", 1) })
	t.putStr("setPrototypeOf", func(r *Runtime) Value { return r.methodProp(r.object_setPrototypeOf, "setPrototypeOf", 2) })
	t.putStr("values", func(r *Runtime) Value { return r.methodProp(r.object_values, "values", 1) })
	t.putStr("fromEntries", func(r *Runtime) Value { return r.methodProp(r.object_fromEntries, "fromEntries", 1) })
	t.putStr("hasOwn", func(r *Runtime) Value { return r.methodProp(r.object_hasOwn, "hasOwn", 2) })

	return t
}

var _objectTemplate *objectTemplate
var objectTemplateOnce sync.Once

func getObjectTemplate() *objectTemplate {
	objectTemplateOnce.Do(func() {
		_objectTemplate = createObjectTemplate()
	})
	return _objectTemplate
}

func (r *Runtime) getObject() *Object {
	ret := r.global.Object
	if ret == nil {
		ret = &Object{runtime: r}
		r.global.Object = ret
		r.newTemplatedFuncObject(getObjectTemplate(), ret, func(call FunctionCall) Value {
			return r.builtin_Object(call.Arguments, nil)
		}, r.builtin_Object)
	}
	return ret
}

/*
func (r *Runtime) getObjectPrototype() *Object {
	ret := r.global.ObjectPrototype
	if ret == nil {
		ret = &Object{runtime: r}
		r.global.ObjectPrototype = ret
		r.newTemplatedObject(getObjectProtoTemplate(), ret)
	}
	return ret
}
*/

var objectProtoTemplate *objectTemplate
var objectProtoTemplateOnce sync.Once

func getObjectProtoTemplate() *objectTemplate {
	objectProtoTemplateOnce.Do(func() {
		objectProtoTemplate = createObjectProtoTemplate()
	})
	return objectProtoTemplate
}

func createObjectProtoTemplate() *objectTemplate {
	t := newObjectTemplate()

	// null prototype

	t.putStr("constructor", func(r *Runtime) Value { return valueProp(r.getObject(), true, false, true) })

	t.putStr("toString", func(r *Runtime) Value { return r.methodProp(r.objectproto_toString, "toString", 0) })
	t.putStr("toLocaleString", func(r *Runtime) Value { return r.methodProp(r.objectproto_toLocaleString, "toLocaleString", 0) })
	t.putStr("valueOf", func(r *Runtime) Value { return r.methodProp(r.objectproto_valueOf, "valueOf", 0) })
	t.putStr("hasOwnProperty", func(r *Runtime) Value { return r.methodProp(r.objectproto_hasOwnProperty, "hasOwnProperty", 1) })
	t.putStr("isPrototypeOf", func(r *Runtime) Value { return r.methodProp(r.objectproto_isPrototypeOf, "isPrototypeOf", 1) })
	t.putStr("propertyIsEnumerable", func(r *Runtime) Value {
		return r.methodProp(r.objectproto_propertyIsEnumerable, "propertyIsEnumerable", 1)
	})
	t.putStr(__proto__, func(r *Runtime) Value {
		return &valueProperty{
			accessor:     true,
			getterFunc:   r.newNativeFunc(r.objectproto_getProto, "get __proto__", 0),
			setterFunc:   r.newNativeFunc(r.objectproto_setProto, "set __proto__", 1),
			configurable: true,
		}
	})

	return t
}