// Copyright 2012 the V8 project authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. // This file relies on the fact that the following declarations have been made // in runtime.js: // var $Object = global.Object; // var $Boolean = global.Boolean; // var $Number = global.Number; // var $Function = global.Function; // var $Array = global.Array; // // in math.js: // var $floor = MathFloor var $isNaN = GlobalIsNaN; var $isFinite = GlobalIsFinite; // ---------------------------------------------------------------------------- // Helper function used to install functions on objects. function InstallFunctions(object, attributes, functions) { if (functions.length >= 8) { %OptimizeObjectForAddingMultipleProperties(object, functions.length >> 1); } for (var i = 0; i < functions.length; i += 2) { var key = functions[i]; var f = functions[i + 1]; %FunctionSetName(f, key); %FunctionRemovePrototype(f); %SetProperty(object, key, f, attributes); %SetNativeFlag(f); } %ToFastProperties(object); } // Helper function to install a getter-only accessor property. function InstallGetter(object, name, getter) { %FunctionSetName(getter, name); %FunctionRemovePrototype(getter); %DefineOrRedefineAccessorProperty(object, name, getter, null, DONT_ENUM); %SetNativeFlag(getter); } // Helper function to install a getter/setter accessor property. function InstallGetterSetter(object, name, getter, setter) { %FunctionSetName(getter, name); %FunctionSetName(setter, name); %FunctionRemovePrototype(getter); %FunctionRemovePrototype(setter); %DefineOrRedefineAccessorProperty(object, name, getter, setter, DONT_ENUM); %SetNativeFlag(getter); %SetNativeFlag(setter); } // Helper function for installing constant properties on objects. function InstallConstants(object, constants) { if (constants.length >= 4) { %OptimizeObjectForAddingMultipleProperties(object, constants.length >> 1); } var attributes = DONT_ENUM | DONT_DELETE | READ_ONLY; for (var i = 0; i < constants.length; i += 2) { var name = constants[i]; var k = constants[i + 1]; %SetProperty(object, name, k, attributes); } %ToFastProperties(object); } // Prevents changes to the prototype of a built-in function. // The "prototype" property of the function object is made non-configurable, // and the prototype object is made non-extensible. The latter prevents // changing the __proto__ property. function SetUpLockedPrototype(constructor, fields, methods) { %CheckIsBootstrapping(); var prototype = constructor.prototype; // Install functions first, because this function is used to initialize // PropertyDescriptor itself. var property_count = (methods.length >> 1) + (fields ? fields.length : 0); if (property_count >= 4) { %OptimizeObjectForAddingMultipleProperties(prototype, property_count); } if (fields) { for (var i = 0; i < fields.length; i++) { %SetProperty(prototype, fields[i], UNDEFINED, DONT_ENUM | DONT_DELETE); } } for (var i = 0; i < methods.length; i += 2) { var key = methods[i]; var f = methods[i + 1]; %SetProperty(prototype, key, f, DONT_ENUM | DONT_DELETE | READ_ONLY); %SetNativeFlag(f); } %SetPrototype(prototype, null); %ToFastProperties(prototype); } // ---------------------------------------------------------------------------- // ECMA 262 - 15.1.4 function GlobalIsNaN(number) { if (!IS_NUMBER(number)) number = NonNumberToNumber(number); return NUMBER_IS_NAN(number); } // ECMA 262 - 15.1.5 function GlobalIsFinite(number) { if (!IS_NUMBER(number)) number = NonNumberToNumber(number); return NUMBER_IS_FINITE(number); } // ECMA-262 - 15.1.2.2 function GlobalParseInt(string, radix) { if (IS_UNDEFINED(radix) || radix === 10 || radix === 0) { // Some people use parseInt instead of Math.floor. This // optimization makes parseInt on a Smi 12 times faster (60ns // vs 800ns). The following optimization makes parseInt on a // non-Smi number 9 times faster (230ns vs 2070ns). Together // they make parseInt on a string 1.4% slower (274ns vs 270ns). if (%_IsSmi(string)) return string; if (IS_NUMBER(string) && ((0.01 < string && string < 1e9) || (-1e9 < string && string < -0.01))) { // Truncate number. return string | 0; } string = TO_STRING_INLINE(string); radix = radix | 0; } else { // The spec says ToString should be evaluated before ToInt32. string = TO_STRING_INLINE(string); radix = TO_INT32(radix); if (!(radix == 0 || (2 <= radix && radix <= 36))) { return NAN; } } if (%_HasCachedArrayIndex(string) && (radix == 0 || radix == 10)) { return %_GetCachedArrayIndex(string); } return %StringParseInt(string, radix); } // ECMA-262 - 15.1.2.3 function GlobalParseFloat(string) { string = TO_STRING_INLINE(string); if (%_HasCachedArrayIndex(string)) return %_GetCachedArrayIndex(string); return %StringParseFloat(string); } function GlobalEval(x) { if (!IS_STRING(x)) return x; // For consistency with JSC we require the global object passed to // eval to be the global object from which 'eval' originated. This // is not mandated by the spec. // We only throw if the global has been detached, since we need the // receiver as this-value for the call. if (!%IsAttachedGlobal(global)) { throw new $EvalError('The "this" value passed to eval must ' + 'be the global object from which eval originated'); } var global_receiver = %GlobalReceiver(global); var f = %CompileString(x, false); if (!IS_FUNCTION(f)) return f; return %_CallFunction(global_receiver, f); } // ---------------------------------------------------------------------------- // Set up global object. function SetUpGlobal() { %CheckIsBootstrapping(); var attributes = DONT_ENUM | DONT_DELETE | READ_ONLY; // ECMA 262 - 15.1.1.1. %SetProperty(global, "NaN", NAN, attributes); // ECMA-262 - 15.1.1.2. %SetProperty(global, "Infinity", INFINITY, attributes); // ECMA-262 - 15.1.1.3. %SetProperty(global, "undefined", UNDEFINED, attributes); // Set up non-enumerable function on the global object. InstallFunctions(global, DONT_ENUM, $Array( "isNaN", GlobalIsNaN, "isFinite", GlobalIsFinite, "parseInt", GlobalParseInt, "parseFloat", GlobalParseFloat, "eval", GlobalEval )); } SetUpGlobal(); // ---------------------------------------------------------------------------- // Object // ECMA-262 - 15.2.4.2 function ObjectToString() { if (IS_UNDEFINED(this) && !IS_UNDETECTABLE(this)) return "[object Undefined]"; if (IS_NULL(this)) return "[object Null]"; return "[object " + %_ClassOf(ToObject(this)) + "]"; } // ECMA-262 - 15.2.4.3 function ObjectToLocaleString() { CHECK_OBJECT_COERCIBLE(this, "Object.prototype.toLocaleString"); return this.toString(); } // ECMA-262 - 15.2.4.4 function ObjectValueOf() { return ToObject(this); } // ECMA-262 - 15.2.4.5 function ObjectHasOwnProperty(V) { if (%IsJSProxy(this)) { // TODO(rossberg): adjust once there is a story for symbols vs proxies. if (IS_SYMBOL(V)) return false; var handler = %GetHandler(this); return CallTrap1(handler, "hasOwn", DerivedHasOwnTrap, ToName(V)); } return %HasOwnProperty(TO_OBJECT_INLINE(this), ToName(V)); } // ECMA-262 - 15.2.4.6 function ObjectIsPrototypeOf(V) { CHECK_OBJECT_COERCIBLE(this, "Object.prototype.isPrototypeOf"); if (!IS_SPEC_OBJECT(V)) return false; return %IsInPrototypeChain(this, V); } // ECMA-262 - 15.2.4.6 function ObjectPropertyIsEnumerable(V) { var P = ToName(V); if (%IsJSProxy(this)) { // TODO(rossberg): adjust once there is a story for symbols vs proxies. if (IS_SYMBOL(V)) return false; var desc = GetOwnPropertyJS(this, P); return IS_UNDEFINED(desc) ? false : desc.isEnumerable(); } return %IsPropertyEnumerable(ToObject(this), P); } // Extensions for providing property getters and setters. function ObjectDefineGetter(name, fun) { var receiver = this; if (receiver == null && !IS_UNDETECTABLE(receiver)) { receiver = %GlobalReceiver(global); } if (!IS_SPEC_FUNCTION(fun)) { throw new $TypeError( 'Object.prototype.__defineGetter__: Expecting function'); } var desc = new PropertyDescriptor(); desc.setGet(fun); desc.setEnumerable(true); desc.setConfigurable(true); DefineOwnProperty(ToObject(receiver), ToName(name), desc, false); } function ObjectLookupGetter(name) { var receiver = this; if (receiver == null && !IS_UNDETECTABLE(receiver)) { receiver = %GlobalReceiver(global); } return %LookupAccessor(ToObject(receiver), ToName(name), GETTER); } function ObjectDefineSetter(name, fun) { var receiver = this; if (receiver == null && !IS_UNDETECTABLE(receiver)) { receiver = %GlobalReceiver(global); } if (!IS_SPEC_FUNCTION(fun)) { throw new $TypeError( 'Object.prototype.__defineSetter__: Expecting function'); } var desc = new PropertyDescriptor(); desc.setSet(fun); desc.setEnumerable(true); desc.setConfigurable(true); DefineOwnProperty(ToObject(receiver), ToName(name), desc, false); } function ObjectLookupSetter(name) { var receiver = this; if (receiver == null && !IS_UNDETECTABLE(receiver)) { receiver = %GlobalReceiver(global); } return %LookupAccessor(ToObject(receiver), ToName(name), SETTER); } function ObjectKeys(obj) { if (!IS_SPEC_OBJECT(obj)) { throw MakeTypeError("called_on_non_object", ["Object.keys"]); } if (%IsJSProxy(obj)) { var handler = %GetHandler(obj); var names = CallTrap0(handler, "keys", DerivedKeysTrap); return ToNameArray(names, "keys", false); } return %OwnKeys(obj); } // ES5 8.10.1. function IsAccessorDescriptor(desc) { if (IS_UNDEFINED(desc)) return false; return desc.hasGetter() || desc.hasSetter(); } // ES5 8.10.2. function IsDataDescriptor(desc) { if (IS_UNDEFINED(desc)) return false; return desc.hasValue() || desc.hasWritable(); } // ES5 8.10.3. function IsGenericDescriptor(desc) { if (IS_UNDEFINED(desc)) return false; return !(IsAccessorDescriptor(desc) || IsDataDescriptor(desc)); } function IsInconsistentDescriptor(desc) { return IsAccessorDescriptor(desc) && IsDataDescriptor(desc); } // ES5 8.10.4 function FromPropertyDescriptor(desc) { if (IS_UNDEFINED(desc)) return desc; if (IsDataDescriptor(desc)) { return { value: desc.getValue(), writable: desc.isWritable(), enumerable: desc.isEnumerable(), configurable: desc.isConfigurable() }; } // Must be an AccessorDescriptor then. We never return a generic descriptor. return { get: desc.getGet(), set: desc.getSet(), enumerable: desc.isEnumerable(), configurable: desc.isConfigurable() }; } // Harmony Proxies function FromGenericPropertyDescriptor(desc) { if (IS_UNDEFINED(desc)) return desc; var obj = new $Object(); if (desc.hasValue()) { %IgnoreAttributesAndSetProperty(obj, "value", desc.getValue(), NONE); } if (desc.hasWritable()) { %IgnoreAttributesAndSetProperty(obj, "writable", desc.isWritable(), NONE); } if (desc.hasGetter()) { %IgnoreAttributesAndSetProperty(obj, "get", desc.getGet(), NONE); } if (desc.hasSetter()) { %IgnoreAttributesAndSetProperty(obj, "set", desc.getSet(), NONE); } if (desc.hasEnumerable()) { %IgnoreAttributesAndSetProperty(obj, "enumerable", desc.isEnumerable(), NONE); } if (desc.hasConfigurable()) { %IgnoreAttributesAndSetProperty(obj, "configurable", desc.isConfigurable(), NONE); } return obj; } // ES5 8.10.5. function ToPropertyDescriptor(obj) { if (!IS_SPEC_OBJECT(obj)) { throw MakeTypeError("property_desc_object", [obj]); } var desc = new PropertyDescriptor(); if ("enumerable" in obj) { desc.setEnumerable(ToBoolean(obj.enumerable)); } if ("configurable" in obj) { desc.setConfigurable(ToBoolean(obj.configurable)); } if ("value" in obj) { desc.setValue(obj.value); } if ("writable" in obj) { desc.setWritable(ToBoolean(obj.writable)); } if ("get" in obj) { var get = obj.get; if (!IS_UNDEFINED(get) && !IS_SPEC_FUNCTION(get)) { throw MakeTypeError("getter_must_be_callable", [get]); } desc.setGet(get); } if ("set" in obj) { var set = obj.set; if (!IS_UNDEFINED(set) && !IS_SPEC_FUNCTION(set)) { throw MakeTypeError("setter_must_be_callable", [set]); } desc.setSet(set); } if (IsInconsistentDescriptor(desc)) { throw MakeTypeError("value_and_accessor", [obj]); } return desc; } // For Harmony proxies. function ToCompletePropertyDescriptor(obj) { var desc = ToPropertyDescriptor(obj); if (IsGenericDescriptor(desc) || IsDataDescriptor(desc)) { if (!desc.hasValue()) desc.setValue(UNDEFINED); if (!desc.hasWritable()) desc.setWritable(false); } else { // Is accessor descriptor. if (!desc.hasGetter()) desc.setGet(UNDEFINED); if (!desc.hasSetter()) desc.setSet(UNDEFINED); } if (!desc.hasEnumerable()) desc.setEnumerable(false); if (!desc.hasConfigurable()) desc.setConfigurable(false); return desc; } function PropertyDescriptor() { // Initialize here so they are all in-object and have the same map. // Default values from ES5 8.6.1. this.value_ = UNDEFINED; this.hasValue_ = false; this.writable_ = false; this.hasWritable_ = false; this.enumerable_ = false; this.hasEnumerable_ = false; this.configurable_ = false; this.hasConfigurable_ = false; this.get_ = UNDEFINED; this.hasGetter_ = false; this.set_ = UNDEFINED; this.hasSetter_ = false; } SetUpLockedPrototype(PropertyDescriptor, $Array( "value_", "hasValue_", "writable_", "hasWritable_", "enumerable_", "hasEnumerable_", "configurable_", "hasConfigurable_", "get_", "hasGetter_", "set_", "hasSetter_" ), $Array( "toString", function() { return "[object PropertyDescriptor]"; }, "setValue", function(value) { this.value_ = value; this.hasValue_ = true; }, "getValue", function() { return this.value_; }, "hasValue", function() { return this.hasValue_; }, "setEnumerable", function(enumerable) { this.enumerable_ = enumerable; this.hasEnumerable_ = true; }, "isEnumerable", function () { return this.enumerable_; }, "hasEnumerable", function() { return this.hasEnumerable_; }, "setWritable", function(writable) { this.writable_ = writable; this.hasWritable_ = true; }, "isWritable", function() { return this.writable_; }, "hasWritable", function() { return this.hasWritable_; }, "setConfigurable", function(configurable) { this.configurable_ = configurable; this.hasConfigurable_ = true; }, "hasConfigurable", function() { return this.hasConfigurable_; }, "isConfigurable", function() { return this.configurable_; }, "setGet", function(get) { this.get_ = get; this.hasGetter_ = true; }, "getGet", function() { return this.get_; }, "hasGetter", function() { return this.hasGetter_; }, "setSet", function(set) { this.set_ = set; this.hasSetter_ = true; }, "getSet", function() { return this.set_; }, "hasSetter", function() { return this.hasSetter_; })); // Converts an array returned from Runtime_GetOwnProperty to an actual // property descriptor. For a description of the array layout please // see the runtime.cc file. function ConvertDescriptorArrayToDescriptor(desc_array) { if (desc_array === false) { throw 'Internal error: invalid desc_array'; } if (IS_UNDEFINED(desc_array)) { return UNDEFINED; } var desc = new PropertyDescriptor(); // This is an accessor. if (desc_array[IS_ACCESSOR_INDEX]) { desc.setGet(desc_array[GETTER_INDEX]); desc.setSet(desc_array[SETTER_INDEX]); } else { desc.setValue(desc_array[VALUE_INDEX]); desc.setWritable(desc_array[WRITABLE_INDEX]); } desc.setEnumerable(desc_array[ENUMERABLE_INDEX]); desc.setConfigurable(desc_array[CONFIGURABLE_INDEX]); return desc; } // For Harmony proxies. function GetTrap(handler, name, defaultTrap) { var trap = handler[name]; if (IS_UNDEFINED(trap)) { if (IS_UNDEFINED(defaultTrap)) { throw MakeTypeError("handler_trap_missing", [handler, name]); } trap = defaultTrap; } else if (!IS_SPEC_FUNCTION(trap)) { throw MakeTypeError("handler_trap_must_be_callable", [handler, name]); } return trap; } function CallTrap0(handler, name, defaultTrap) { return %_CallFunction(handler, GetTrap(handler, name, defaultTrap)); } function CallTrap1(handler, name, defaultTrap, x) { return %_CallFunction(handler, x, GetTrap(handler, name, defaultTrap)); } function CallTrap2(handler, name, defaultTrap, x, y) { return %_CallFunction(handler, x, y, GetTrap(handler, name, defaultTrap)); } // ES5 section 8.12.1. function GetOwnPropertyJS(obj, v) { var p = ToName(v); if (%IsJSProxy(obj)) { // TODO(rossberg): adjust once there is a story for symbols vs proxies. if (IS_SYMBOL(v)) return UNDEFINED; var handler = %GetHandler(obj); var descriptor = CallTrap1( handler, "getOwnPropertyDescriptor", UNDEFINED, p); if (IS_UNDEFINED(descriptor)) return descriptor; var desc = ToCompletePropertyDescriptor(descriptor); if (!desc.isConfigurable()) { throw MakeTypeError("proxy_prop_not_configurable", [handler, "getOwnPropertyDescriptor", p, descriptor]); } return desc; } // GetOwnProperty returns an array indexed by the constants // defined in macros.py. // If p is not a property on obj undefined is returned. var props = %GetOwnProperty(ToObject(obj), p); // A false value here means that access checks failed. if (props === false) return UNDEFINED; return ConvertDescriptorArrayToDescriptor(props); } // ES5 section 8.12.7. function Delete(obj, p, should_throw) { var desc = GetOwnPropertyJS(obj, p); if (IS_UNDEFINED(desc)) return true; if (desc.isConfigurable()) { %DeleteProperty(obj, p, 0); return true; } else if (should_throw) { throw MakeTypeError("define_disallowed", [p]); } else { return; } } // Harmony proxies. function DefineProxyProperty(obj, p, attributes, should_throw) { // TODO(rossberg): adjust once there is a story for symbols vs proxies. if (IS_SYMBOL(p)) return false; var handler = %GetHandler(obj); var result = CallTrap2(handler, "defineProperty", UNDEFINED, p, attributes); if (!ToBoolean(result)) { if (should_throw) { throw MakeTypeError("handler_returned_false", [handler, "defineProperty"]); } else { return false; } } return true; } // ES5 8.12.9. function DefineObjectProperty(obj, p, desc, should_throw) { var current_or_access = %GetOwnProperty(ToObject(obj), ToName(p)); // A false value here means that access checks failed. if (current_or_access === false) return UNDEFINED; var current = ConvertDescriptorArrayToDescriptor(current_or_access); var extensible = %IsExtensible(ToObject(obj)); // Error handling according to spec. // Step 3 if (IS_UNDEFINED(current) && !extensible) { if (should_throw) { throw MakeTypeError("define_disallowed", [p]); } else { return false; } } if (!IS_UNDEFINED(current)) { // Step 5 and 6 if ((IsGenericDescriptor(desc) || IsDataDescriptor(desc) == IsDataDescriptor(current)) && (!desc.hasEnumerable() || SameValue(desc.isEnumerable(), current.isEnumerable())) && (!desc.hasConfigurable() || SameValue(desc.isConfigurable(), current.isConfigurable())) && (!desc.hasWritable() || SameValue(desc.isWritable(), current.isWritable())) && (!desc.hasValue() || SameValue(desc.getValue(), current.getValue())) && (!desc.hasGetter() || SameValue(desc.getGet(), current.getGet())) && (!desc.hasSetter() || SameValue(desc.getSet(), current.getSet()))) { return true; } if (!current.isConfigurable()) { // Step 7 if (desc.isConfigurable() || (desc.hasEnumerable() && desc.isEnumerable() != current.isEnumerable())) { if (should_throw) { throw MakeTypeError("redefine_disallowed", [p]); } else { return false; } } // Step 8 if (!IsGenericDescriptor(desc)) { // Step 9a if (IsDataDescriptor(current) != IsDataDescriptor(desc)) { if (should_throw) { throw MakeTypeError("redefine_disallowed", [p]); } else { return false; } } // Step 10a if (IsDataDescriptor(current) && IsDataDescriptor(desc)) { if (!current.isWritable() && desc.isWritable()) { if (should_throw) { throw MakeTypeError("redefine_disallowed", [p]); } else { return false; } } if (!current.isWritable() && desc.hasValue() && !SameValue(desc.getValue(), current.getValue())) { if (should_throw) { throw MakeTypeError("redefine_disallowed", [p]); } else { return false; } } } // Step 11 if (IsAccessorDescriptor(desc) && IsAccessorDescriptor(current)) { if (desc.hasSetter() && !SameValue(desc.getSet(), current.getSet())) { if (should_throw) { throw MakeTypeError("redefine_disallowed", [p]); } else { return false; } } if (desc.hasGetter() && !SameValue(desc.getGet(),current.getGet())) { if (should_throw) { throw MakeTypeError("redefine_disallowed", [p]); } else { return false; } } } } } } // Send flags - enumerable and configurable are common - writable is // only send to the data descriptor. // Take special care if enumerable and configurable is not defined on // desc (we need to preserve the existing values from current). var flag = NONE; if (desc.hasEnumerable()) { flag |= desc.isEnumerable() ? 0 : DONT_ENUM; } else if (!IS_UNDEFINED(current)) { flag |= current.isEnumerable() ? 0 : DONT_ENUM; } else { flag |= DONT_ENUM; } if (desc.hasConfigurable()) { flag |= desc.isConfigurable() ? 0 : DONT_DELETE; } else if (!IS_UNDEFINED(current)) { flag |= current.isConfigurable() ? 0 : DONT_DELETE; } else flag |= DONT_DELETE; if (IsDataDescriptor(desc) || (IsGenericDescriptor(desc) && (IS_UNDEFINED(current) || IsDataDescriptor(current)))) { // There are 3 cases that lead here: // Step 4a - defining a new data property. // Steps 9b & 12 - replacing an existing accessor property with a data // property. // Step 12 - updating an existing data property with a data or generic // descriptor. if (desc.hasWritable()) { flag |= desc.isWritable() ? 0 : READ_ONLY; } else if (!IS_UNDEFINED(current)) { flag |= current.isWritable() ? 0 : READ_ONLY; } else { flag |= READ_ONLY; } var value = UNDEFINED; // Default value is undefined. if (desc.hasValue()) { value = desc.getValue(); } else if (!IS_UNDEFINED(current) && IsDataDescriptor(current)) { value = current.getValue(); } %DefineOrRedefineDataProperty(obj, p, value, flag); } else { // There are 3 cases that lead here: // Step 4b - defining a new accessor property. // Steps 9c & 12 - replacing an existing data property with an accessor // property. // Step 12 - updating an existing accessor property with an accessor // descriptor. var getter = desc.hasGetter() ? desc.getGet() : null; var setter = desc.hasSetter() ? desc.getSet() : null; %DefineOrRedefineAccessorProperty(obj, p, getter, setter, flag); } return true; } // ES5 section 15.4.5.1. function DefineArrayProperty(obj, p, desc, should_throw) { // Note that the length of an array is not actually stored as part of the // property, hence we use generated code throughout this function instead of // DefineObjectProperty() to modify its value. // Step 3 - Special handling for length property. if (p === "length") { var length = obj.length; var old_length = length; if (!desc.hasValue()) { return DefineObjectProperty(obj, "length", desc, should_throw); } var new_length = ToUint32(desc.getValue()); if (new_length != ToNumber(desc.getValue())) { throw new $RangeError('defineProperty() array length out of range'); } var length_desc = GetOwnPropertyJS(obj, "length"); if (new_length != length && !length_desc.isWritable()) { if (should_throw) { throw MakeTypeError("redefine_disallowed", [p]); } else { return false; } } var threw = false; var emit_splice = %IsObserved(obj) && new_length !== old_length; var removed; if (emit_splice) { BeginPerformSplice(obj); removed = []; if (new_length < old_length) removed.length = old_length - new_length; } while (new_length < length--) { var index = ToString(length); if (emit_splice) { var deletedDesc = GetOwnPropertyJS(obj, index); if (deletedDesc && deletedDesc.hasValue()) removed[length - new_length] = deletedDesc.getValue(); } if (!Delete(obj, index, false)) { new_length = length + 1; threw = true; break; } } // Make sure the below call to DefineObjectProperty() doesn't overwrite // any magic "length" property by removing the value. // TODO(mstarzinger): This hack should be removed once we have addressed the // respective TODO in Runtime_DefineOrRedefineDataProperty. // For the time being, we need a hack to prevent Object.observe from // generating two change records. obj.length = new_length; desc.value_ = UNDEFINED; desc.hasValue_ = false; threw = !DefineObjectProperty(obj, "length", desc, should_throw) || threw; if (emit_splice) { EndPerformSplice(obj); EnqueueSpliceRecord(obj, new_length < old_length ? new_length : old_length, removed, new_length > old_length ? new_length - old_length : 0); } if (threw) { if (should_throw) { throw MakeTypeError("redefine_disallowed", [p]); } else { return false; } } return true; } // Step 4 - Special handling for array index. var index = ToUint32(p); var emit_splice = false; if (ToString(index) == p && index != 4294967295) { var length = obj.length; if (index >= length && %IsObserved(obj)) { emit_splice = true; BeginPerformSplice(obj); } var length_desc = GetOwnPropertyJS(obj, "length"); if ((index >= length && !length_desc.isWritable()) || !DefineObjectProperty(obj, p, desc, true)) { if (emit_splice) EndPerformSplice(obj); if (should_throw) { throw MakeTypeError("define_disallowed", [p]); } else { return false; } } if (index >= length) { obj.length = index + 1; } if (emit_splice) { EndPerformSplice(obj); EnqueueSpliceRecord(obj, length, [], index + 1 - length); } return true; } // Step 5 - Fallback to default implementation. return DefineObjectProperty(obj, p, desc, should_throw); } // ES5 section 8.12.9, ES5 section 15.4.5.1 and Harmony proxies. function DefineOwnProperty(obj, p, desc, should_throw) { if (%IsJSProxy(obj)) { // TODO(rossberg): adjust once there is a story for symbols vs proxies. if (IS_SYMBOL(p)) return false; var attributes = FromGenericPropertyDescriptor(desc); return DefineProxyProperty(obj, p, attributes, should_throw); } else if (IS_ARRAY(obj)) { return DefineArrayProperty(obj, p, desc, should_throw); } else { return DefineObjectProperty(obj, p, desc, should_throw); } } // ES5 section 15.2.3.2. function ObjectGetPrototypeOf(obj) { if (!IS_SPEC_OBJECT(obj)) { throw MakeTypeError("called_on_non_object", ["Object.getPrototypeOf"]); } return %GetPrototype(obj); } // ES6 section 19.1.2.19. function ObjectSetPrototypeOf(obj, proto) { CHECK_OBJECT_COERCIBLE(obj, "Object.setPrototypeOf"); if (proto !== null && !IS_SPEC_OBJECT(proto)) { throw MakeTypeError("proto_object_or_null", [proto]); } if (IS_SPEC_OBJECT(obj)) { %SetPrototype(obj, proto); } return obj; } // ES5 section 15.2.3.3 function ObjectGetOwnPropertyDescriptor(obj, p) { if (!IS_SPEC_OBJECT(obj)) { throw MakeTypeError("called_on_non_object", ["Object.getOwnPropertyDescriptor"]); } var desc = GetOwnPropertyJS(obj, p); return FromPropertyDescriptor(desc); } // For Harmony proxies function ToNameArray(obj, trap, includeSymbols) { if (!IS_SPEC_OBJECT(obj)) { throw MakeTypeError("proxy_non_object_prop_names", [obj, trap]); } var n = ToUint32(obj.length); var array = new $Array(n); var realLength = 0; var names = { __proto__: null }; // TODO(rossberg): use sets once ready. for (var index = 0; index < n; index++) { var s = ToName(obj[index]); // TODO(rossberg): adjust once there is a story for symbols vs proxies. if (IS_SYMBOL(s) && !includeSymbols) continue; if (%HasOwnProperty(names, s)) { throw MakeTypeError("proxy_repeated_prop_name", [obj, trap, s]); } array[index] = s; ++realLength; names[s] = 0; } array.length = realLength; return array; } function ObjectGetOwnPropertyKeys(obj, symbolsOnly) { var nameArrays = new InternalArray(); var filter = symbolsOnly ? PROPERTY_ATTRIBUTES_STRING | PROPERTY_ATTRIBUTES_PRIVATE_SYMBOL : PROPERTY_ATTRIBUTES_SYMBOLIC; // Find all the indexed properties. // Only get own element names if we want to include string keys. if (!symbolsOnly) { var ownElementNames = %GetOwnElementNames(obj); for (var i = 0; i < ownElementNames.length; ++i) { ownElementNames[i] = %_NumberToString(ownElementNames[i]); } nameArrays.push(ownElementNames); // Get names for indexed interceptor properties. var interceptorInfo = %GetInterceptorInfo(obj); if ((interceptorInfo & 1) != 0) { var indexedInterceptorNames = %GetIndexedInterceptorElementNames(obj); if (!IS_UNDEFINED(indexedInterceptorNames)) { nameArrays.push(indexedInterceptorNames); } } } // Find all the named properties. // Get own property names. nameArrays.push(%GetOwnPropertyNames(obj, filter)); // Get names for named interceptor properties if any. if ((interceptorInfo & 2) != 0) { var namedInterceptorNames = %GetNamedInterceptorPropertyNames(obj); if (!IS_UNDEFINED(namedInterceptorNames)) { nameArrays.push(namedInterceptorNames); } } var propertyNames = %Apply(InternalArray.prototype.concat, nameArrays[0], nameArrays, 1, nameArrays.length - 1); // Property names are expected to be unique strings, // but interceptors can interfere with that assumption. if (interceptorInfo != 0) { var seenKeys = { __proto__: null }; var j = 0; for (var i = 0; i < propertyNames.length; ++i) { var name = propertyNames[i]; if (symbolsOnly) { if (!IS_SYMBOL(name) || IS_PRIVATE(name)) continue; } else { if (IS_SYMBOL(name)) continue; name = ToString(name); } if (seenKeys[name]) continue; seenKeys[name] = true; propertyNames[j++] = name; } propertyNames.length = j; } return propertyNames; } // ES5 section 15.2.3.4. function ObjectGetOwnPropertyNames(obj) { if (!IS_SPEC_OBJECT(obj)) { throw MakeTypeError("called_on_non_object", ["Object.getOwnPropertyNames"]); } // Special handling for proxies. if (%IsJSProxy(obj)) { var handler = %GetHandler(obj); var names = CallTrap0(handler, "getOwnPropertyNames", UNDEFINED); return ToNameArray(names, "getOwnPropertyNames", false); } return ObjectGetOwnPropertyKeys(obj, false); } // ES5 section 15.2.3.5. function ObjectCreate(proto, properties) { if (!IS_SPEC_OBJECT(proto) && proto !== null) { throw MakeTypeError("proto_object_or_null", [proto]); } var obj = { __proto__: proto }; if (!IS_UNDEFINED(properties)) ObjectDefineProperties(obj, properties); return obj; } // ES5 section 15.2.3.6. function ObjectDefineProperty(obj, p, attributes) { if (!IS_SPEC_OBJECT(obj)) { throw MakeTypeError("called_on_non_object", ["Object.defineProperty"]); } var name = ToName(p); if (%IsJSProxy(obj)) { // Clone the attributes object for protection. // TODO(rossberg): not spec'ed yet, so not sure if this should involve // non-own properties as it does (or non-enumerable ones, as it doesn't?). var attributesClone = { __proto__: null }; for (var a in attributes) { attributesClone[a] = attributes[a]; } DefineProxyProperty(obj, name, attributesClone, true); // The following would implement the spec as in the current proposal, // but after recent comments on es-discuss, is most likely obsolete. /* var defineObj = FromGenericPropertyDescriptor(desc); var names = ObjectGetOwnPropertyNames(attributes); var standardNames = {value: 0, writable: 0, get: 0, set: 0, enumerable: 0, configurable: 0}; for (var i = 0; i < names.length; i++) { var N = names[i]; if (!(%HasOwnProperty(standardNames, N))) { var attr = GetOwnPropertyJS(attributes, N); DefineOwnProperty(descObj, N, attr, true); } } // This is really confusing the types, but it is what the proxies spec // currently requires: desc = descObj; */ } else { var desc = ToPropertyDescriptor(attributes); DefineOwnProperty(obj, name, desc, true); } return obj; } function GetOwnEnumerablePropertyNames(properties) { var names = new InternalArray(); for (var key in properties) { if (%HasOwnProperty(properties, key)) { names.push(key); } } return names; } // ES5 section 15.2.3.7. function ObjectDefineProperties(obj, properties) { if (!IS_SPEC_OBJECT(obj)) { throw MakeTypeError("called_on_non_object", ["Object.defineProperties"]); } var props = ToObject(properties); var names = GetOwnEnumerablePropertyNames(props); var descriptors = new InternalArray(); for (var i = 0; i < names.length; i++) { descriptors.push(ToPropertyDescriptor(props[names[i]])); } for (var i = 0; i < names.length; i++) { DefineOwnProperty(obj, names[i], descriptors[i], true); } return obj; } // Harmony proxies. function ProxyFix(obj) { var handler = %GetHandler(obj); var props = CallTrap0(handler, "fix", UNDEFINED); if (IS_UNDEFINED(props)) { throw MakeTypeError("handler_returned_undefined", [handler, "fix"]); } if (%IsJSFunctionProxy(obj)) { var callTrap = %GetCallTrap(obj); var constructTrap = %GetConstructTrap(obj); var code = DelegateCallAndConstruct(callTrap, constructTrap); %Fix(obj); // becomes a regular function %SetCode(obj, code); // TODO(rossberg): What about length and other properties? Not specified. // We just put in some half-reasonable defaults for now. var prototype = new $Object(); $Object.defineProperty(prototype, "constructor", {value: obj, writable: true, enumerable: false, configurable: true}); // TODO(v8:1530): defineProperty does not handle prototype and length. %FunctionSetPrototype(obj, prototype); obj.length = 0; } else { %Fix(obj); } ObjectDefineProperties(obj, props); } // ES5 section 15.2.3.8. function ObjectSeal(obj) { if (!IS_SPEC_OBJECT(obj)) { throw MakeTypeError("called_on_non_object", ["Object.seal"]); } if (%IsJSProxy(obj)) { ProxyFix(obj); } var names = ObjectGetOwnPropertyNames(obj); for (var i = 0; i < names.length; i++) { var name = names[i]; var desc = GetOwnPropertyJS(obj, name); if (desc.isConfigurable()) { desc.setConfigurable(false); DefineOwnProperty(obj, name, desc, true); } } %PreventExtensions(obj); return obj; } // ES5 section 15.2.3.9. function ObjectFreezeJS(obj) { if (!IS_SPEC_OBJECT(obj)) { throw MakeTypeError("called_on_non_object", ["Object.freeze"]); } var isProxy = %IsJSProxy(obj); if (isProxy || %HasSloppyArgumentsElements(obj) || %IsObserved(obj)) { if (isProxy) { ProxyFix(obj); } var names = ObjectGetOwnPropertyNames(obj); for (var i = 0; i < names.length; i++) { var name = names[i]; var desc = GetOwnPropertyJS(obj, name); if (desc.isWritable() || desc.isConfigurable()) { if (IsDataDescriptor(desc)) desc.setWritable(false); desc.setConfigurable(false); DefineOwnProperty(obj, name, desc, true); } } %PreventExtensions(obj); } else { // TODO(adamk): Is it worth going to this fast path if the // object's properties are already in dictionary mode? %ObjectFreeze(obj); } return obj; } // ES5 section 15.2.3.10 function ObjectPreventExtension(obj) { if (!IS_SPEC_OBJECT(obj)) { throw MakeTypeError("called_on_non_object", ["Object.preventExtension"]); } if (%IsJSProxy(obj)) { ProxyFix(obj); } %PreventExtensions(obj); return obj; } // ES5 section 15.2.3.11 function ObjectIsSealed(obj) { if (!IS_SPEC_OBJECT(obj)) { throw MakeTypeError("called_on_non_object", ["Object.isSealed"]); } if (%IsJSProxy(obj)) { return false; } if (%IsExtensible(obj)) { return false; } var names = ObjectGetOwnPropertyNames(obj); for (var i = 0; i < names.length; i++) { var name = names[i]; var desc = GetOwnPropertyJS(obj, name); if (desc.isConfigurable()) return false; } return true; } // ES5 section 15.2.3.12 function ObjectIsFrozen(obj) { if (!IS_SPEC_OBJECT(obj)) { throw MakeTypeError("called_on_non_object", ["Object.isFrozen"]); } if (%IsJSProxy(obj)) { return false; } if (%IsExtensible(obj)) { return false; } var names = ObjectGetOwnPropertyNames(obj); for (var i = 0; i < names.length; i++) { var name = names[i]; var desc = GetOwnPropertyJS(obj, name); if (IsDataDescriptor(desc) && desc.isWritable()) return false; if (desc.isConfigurable()) return false; } return true; } // ES5 section 15.2.3.13 function ObjectIsExtensible(obj) { if (!IS_SPEC_OBJECT(obj)) { throw MakeTypeError("called_on_non_object", ["Object.isExtensible"]); } if (%IsJSProxy(obj)) { return true; } return %IsExtensible(obj); } // Harmony egal. function ObjectIs(obj1, obj2) { if (obj1 === obj2) { return (obj1 !== 0) || (1 / obj1 === 1 / obj2); } else { return (obj1 !== obj1) && (obj2 !== obj2); } } // ECMA-262, Edition 6, section B.2.2.1.1 function ObjectGetProto() { return %GetPrototype(ToObject(this)); } // ECMA-262, Edition 6, section B.2.2.1.2 function ObjectSetProto(proto) { CHECK_OBJECT_COERCIBLE(this, "Object.prototype.__proto__"); if ((IS_SPEC_OBJECT(proto) || IS_NULL(proto)) && IS_SPEC_OBJECT(this)) { %SetPrototype(this, proto); } } function ObjectConstructor(x) { if (%_IsConstructCall()) { if (x == null) return this; return ToObject(x); } else { if (x == null) return { }; return ToObject(x); } } // ---------------------------------------------------------------------------- // Object function SetUpObject() { %CheckIsBootstrapping(); %SetNativeFlag($Object); %SetCode($Object, ObjectConstructor); %SetProperty($Object.prototype, "constructor", $Object, DONT_ENUM); // Set up non-enumerable functions on the Object.prototype object. InstallFunctions($Object.prototype, DONT_ENUM, $Array( "toString", ObjectToString, "toLocaleString", ObjectToLocaleString, "valueOf", ObjectValueOf, "hasOwnProperty", ObjectHasOwnProperty, "isPrototypeOf", ObjectIsPrototypeOf, "propertyIsEnumerable", ObjectPropertyIsEnumerable, "__defineGetter__", ObjectDefineGetter, "__lookupGetter__", ObjectLookupGetter, "__defineSetter__", ObjectDefineSetter, "__lookupSetter__", ObjectLookupSetter )); InstallGetterSetter($Object.prototype, "__proto__", ObjectGetProto, ObjectSetProto); // Set up non-enumerable functions in the Object object. InstallFunctions($Object, DONT_ENUM, $Array( "keys", ObjectKeys, "create", ObjectCreate, "defineProperty", ObjectDefineProperty, "defineProperties", ObjectDefineProperties, "freeze", ObjectFreezeJS, "getPrototypeOf", ObjectGetPrototypeOf, "setPrototypeOf", ObjectSetPrototypeOf, "getOwnPropertyDescriptor", ObjectGetOwnPropertyDescriptor, "getOwnPropertyNames", ObjectGetOwnPropertyNames, // getOwnPropertySymbols is added in symbol.js. "is", ObjectIs, "isExtensible", ObjectIsExtensible, "isFrozen", ObjectIsFrozen, "isSealed", ObjectIsSealed, "preventExtensions", ObjectPreventExtension, "seal", ObjectSeal // deliverChangeRecords, getNotifier, observe and unobserve are added // in object-observe.js. )); } SetUpObject(); // ---------------------------------------------------------------------------- // Boolean function BooleanConstructor(x) { if (%_IsConstructCall()) { %_SetValueOf(this, ToBoolean(x)); } else { return ToBoolean(x); } } function BooleanToString() { // NOTE: Both Boolean objects and values can enter here as // 'this'. This is not as dictated by ECMA-262. var b = this; if (!IS_BOOLEAN(b)) { if (!IS_BOOLEAN_WRAPPER(b)) { throw new $TypeError('Boolean.prototype.toString is not generic'); } b = %_ValueOf(b); } return b ? 'true' : 'false'; } function BooleanValueOf() { // NOTE: Both Boolean objects and values can enter here as // 'this'. This is not as dictated by ECMA-262. if (!IS_BOOLEAN(this) && !IS_BOOLEAN_WRAPPER(this)) { throw new $TypeError('Boolean.prototype.valueOf is not generic'); } return %_ValueOf(this); } // ---------------------------------------------------------------------------- function SetUpBoolean () { %CheckIsBootstrapping(); %SetCode($Boolean, BooleanConstructor); %FunctionSetPrototype($Boolean, new $Boolean(false)); %SetProperty($Boolean.prototype, "constructor", $Boolean, DONT_ENUM); InstallFunctions($Boolean.prototype, DONT_ENUM, $Array( "toString", BooleanToString, "valueOf", BooleanValueOf )); } SetUpBoolean(); // ---------------------------------------------------------------------------- // Number function NumberConstructor(x) { var value = %_ArgumentsLength() == 0 ? 0 : ToNumber(x); if (%_IsConstructCall()) { %_SetValueOf(this, value); } else { return value; } } // ECMA-262 section 15.7.4.2. function NumberToString(radix) { // NOTE: Both Number objects and values can enter here as // 'this'. This is not as dictated by ECMA-262. var number = this; if (!IS_NUMBER(this)) { if (!IS_NUMBER_WRAPPER(this)) { throw new $TypeError('Number.prototype.toString is not generic'); } // Get the value of this number in case it's an object. number = %_ValueOf(this); } // Fast case: Convert number in radix 10. if (IS_UNDEFINED(radix) || radix === 10) { return %_NumberToString(number); } // Convert the radix to an integer and check the range. radix = TO_INTEGER(radix); if (radix < 2 || radix > 36) { throw new $RangeError('toString() radix argument must be between 2 and 36'); } // Convert the number to a string in the given radix. return %NumberToRadixString(number, radix); } // ECMA-262 section 15.7.4.3 function NumberToLocaleString() { return %_CallFunction(this, NumberToString); } // ECMA-262 section 15.7.4.4 function NumberValueOf() { // NOTE: Both Number objects and values can enter here as // 'this'. This is not as dictated by ECMA-262. if (!IS_NUMBER(this) && !IS_NUMBER_WRAPPER(this)) { throw new $TypeError('Number.prototype.valueOf is not generic'); } return %_ValueOf(this); } // ECMA-262 section 15.7.4.5 function NumberToFixedJS(fractionDigits) { var x = this; if (!IS_NUMBER(this)) { if (!IS_NUMBER_WRAPPER(this)) { throw MakeTypeError("incompatible_method_receiver", ["Number.prototype.toFixed", this]); } // Get the value of this number in case it's an object. x = %_ValueOf(this); } var f = TO_INTEGER(fractionDigits); if (f < 0 || f > 20) { throw new $RangeError("toFixed() digits argument must be between 0 and 20"); } if (NUMBER_IS_NAN(x)) return "NaN"; if (x == INFINITY) return "Infinity"; if (x == -INFINITY) return "-Infinity"; return %NumberToFixed(x, f); } // ECMA-262 section 15.7.4.6 function NumberToExponentialJS(fractionDigits) { var x = this; if (!IS_NUMBER(this)) { if (!IS_NUMBER_WRAPPER(this)) { throw MakeTypeError("incompatible_method_receiver", ["Number.prototype.toExponential", this]); } // Get the value of this number in case it's an object. x = %_ValueOf(this); } var f = IS_UNDEFINED(fractionDigits) ? UNDEFINED : TO_INTEGER(fractionDigits); if (NUMBER_IS_NAN(x)) return "NaN"; if (x == INFINITY) return "Infinity"; if (x == -INFINITY) return "-Infinity"; if (IS_UNDEFINED(f)) { f = -1; // Signal for runtime function that f is not defined. } else if (f < 0 || f > 20) { throw new $RangeError("toExponential() argument must be between 0 and 20"); } return %NumberToExponential(x, f); } // ECMA-262 section 15.7.4.7 function NumberToPrecisionJS(precision) { var x = this; if (!IS_NUMBER(this)) { if (!IS_NUMBER_WRAPPER(this)) { throw MakeTypeError("incompatible_method_receiver", ["Number.prototype.toPrecision", this]); } // Get the value of this number in case it's an object. x = %_ValueOf(this); } if (IS_UNDEFINED(precision)) return ToString(%_ValueOf(this)); var p = TO_INTEGER(precision); if (NUMBER_IS_NAN(x)) return "NaN"; if (x == INFINITY) return "Infinity"; if (x == -INFINITY) return "-Infinity"; if (p < 1 || p > 21) { throw new $RangeError("toPrecision() argument must be between 1 and 21"); } return %NumberToPrecision(x, p); } // Harmony isFinite. function NumberIsFinite(number) { return IS_NUMBER(number) && NUMBER_IS_FINITE(number); } // Harmony isInteger function NumberIsInteger(number) { return NumberIsFinite(number) && TO_INTEGER(number) == number; } // Harmony isNaN. function NumberIsNaN(number) { return IS_NUMBER(number) && NUMBER_IS_NAN(number); } // Harmony isSafeInteger function NumberIsSafeInteger(number) { if (NumberIsFinite(number)) { var integral = TO_INTEGER(number); if (integral == number) return MathAbs(integral) <= $Number.MAX_SAFE_INTEGER; } return false; } // ---------------------------------------------------------------------------- function SetUpNumber() { %CheckIsBootstrapping(); %SetCode($Number, NumberConstructor); %FunctionSetPrototype($Number, new $Number(0)); %OptimizeObjectForAddingMultipleProperties($Number.prototype, 8); // Set up the constructor property on the Number prototype object. %SetProperty($Number.prototype, "constructor", $Number, DONT_ENUM); InstallConstants($Number, $Array( // ECMA-262 section 15.7.3.1. "MAX_VALUE", 1.7976931348623157e+308, // ECMA-262 section 15.7.3.2. "MIN_VALUE", 5e-324, // ECMA-262 section 15.7.3.3. "NaN", NAN, // ECMA-262 section 15.7.3.4. "NEGATIVE_INFINITY", -INFINITY, // ECMA-262 section 15.7.3.5. "POSITIVE_INFINITY", INFINITY, // --- Harmony constants (no spec refs until settled.) "MAX_SAFE_INTEGER", %_MathPow(2, 53) - 1, "MIN_SAFE_INTEGER", -%_MathPow(2, 53) + 1, "EPSILON", %_MathPow(2, -52) )); // Set up non-enumerable functions on the Number prototype object. InstallFunctions($Number.prototype, DONT_ENUM, $Array( "toString", NumberToString, "toLocaleString", NumberToLocaleString, "valueOf", NumberValueOf, "toFixed", NumberToFixedJS, "toExponential", NumberToExponentialJS, "toPrecision", NumberToPrecisionJS )); // Harmony Number constructor additions InstallFunctions($Number, DONT_ENUM, $Array( "isFinite", NumberIsFinite, "isInteger", NumberIsInteger, "isNaN", NumberIsNaN, "isSafeInteger", NumberIsSafeInteger, "parseInt", GlobalParseInt, "parseFloat", GlobalParseFloat )); } SetUpNumber(); // ---------------------------------------------------------------------------- // Function function FunctionSourceString(func) { while (%IsJSFunctionProxy(func)) { func = %GetCallTrap(func); } if (!IS_FUNCTION(func)) { throw new $TypeError('Function.prototype.toString is not generic'); } var source = %FunctionGetSourceCode(func); if (!IS_STRING(source) || %FunctionIsBuiltin(func)) { var name = %FunctionGetName(func); if (name) { // Mimic what KJS does. return 'function ' + name + '() { [native code] }'; } else { return 'function () { [native code] }'; } } var name = %FunctionNameShouldPrintAsAnonymous(func) ? 'anonymous' : %FunctionGetName(func); var head = %FunctionIsGenerator(func) ? 'function* ' : 'function '; return head + name + source; } function FunctionToString() { return FunctionSourceString(this); } // ES5 15.3.4.5 function FunctionBind(this_arg) { // Length is 1. if (!IS_SPEC_FUNCTION(this)) { throw new $TypeError('Bind must be called on a function'); } var boundFunction = function () { // Poison .arguments and .caller, but is otherwise not detectable. "use strict"; // This function must not use any object literals (Object, Array, RegExp), // since the literals-array is being used to store the bound data. if (%_IsConstructCall()) { return %NewObjectFromBound(boundFunction); } var bindings = %BoundFunctionGetBindings(boundFunction); var argc = %_ArgumentsLength(); if (argc == 0) { return %Apply(bindings[0], bindings[1], bindings, 2, bindings.length - 2); } if (bindings.length === 2) { return %Apply(bindings[0], bindings[1], arguments, 0, argc); } var bound_argc = bindings.length - 2; var argv = new InternalArray(bound_argc + argc); for (var i = 0; i < bound_argc; i++) { argv[i] = bindings[i + 2]; } for (var j = 0; j < argc; j++) { argv[i++] = %_Arguments(j); } return %Apply(bindings[0], bindings[1], argv, 0, bound_argc + argc); }; var new_length = 0; var old_length = this.length; // FunctionProxies might provide a non-UInt32 value. If so, ignore it. if ((typeof old_length === "number") && ((old_length >>> 0) === old_length)) { var argc = %_ArgumentsLength(); if (argc > 0) argc--; // Don't count the thisArg as parameter. new_length = old_length - argc; if (new_length < 0) new_length = 0; } // This runtime function finds any remaining arguments on the stack, // so we don't pass the arguments object. var result = %FunctionBindArguments(boundFunction, this, this_arg, new_length); // We already have caller and arguments properties on functions, // which are non-configurable. It therefore makes no sence to // try to redefine these as defined by the spec. The spec says // that bind should make these throw a TypeError if get or set // is called and make them non-enumerable and non-configurable. // To be consistent with our normal functions we leave this as it is. // TODO(lrn): Do set these to be thrower. return result; } function NewFunctionString(arguments, function_token) { var n = arguments.length; var p = ''; if (n > 1) { p = ToString(arguments[0]); for (var i = 1; i < n - 1; i++) { p += ',' + ToString(arguments[i]); } // If the formal parameters string include ) - an illegal // character - it may make the combined function expression // compile. We avoid this problem by checking for this early on. if (%_CallFunction(p, ')', StringIndexOfJS) != -1) { throw MakeSyntaxError('paren_in_arg_string', []); } // If the formal parameters include an unbalanced block comment, the // function must be rejected. Since JavaScript does not allow nested // comments we can include a trailing block comment to catch this. p += '\n/' + '**/'; } var body = (n > 0) ? ToString(arguments[n - 1]) : ''; return '(' + function_token + '(' + p + ') {\n' + body + '\n})'; } function FunctionConstructor(arg1) { // length == 1 var source = NewFunctionString(arguments, 'function'); var global_receiver = %GlobalReceiver(global); // Compile the string in the constructor and not a helper so that errors // appear to come from here. var f = %CompileString(source, true); if (!IS_FUNCTION(f)) return f; f = %_CallFunction(global_receiver, f); %FunctionMarkNameShouldPrintAsAnonymous(f); return f; } // ---------------------------------------------------------------------------- function SetUpFunction() { %CheckIsBootstrapping(); %SetCode($Function, FunctionConstructor); %SetProperty($Function.prototype, "constructor", $Function, DONT_ENUM); InstallFunctions($Function.prototype, DONT_ENUM, $Array( "bind", FunctionBind, "toString", FunctionToString )); } SetUpFunction();