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interpreter.js
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interpreter.js
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const acorn = require('acorn');
/**
* @license
* Copyright 2013 Google LLC
* SPDX-License-Identifier: Apache-2.0
*/
/**
* @fileoverview Interpreting JavaScript in JavaScript.
* @author [email protected] (Neil Fraser)
*/
'use strict';
/**
* Create a new interpreter.
* @param {string|!Object} code Raw JavaScript text or AST.
* @param {Function=} opt_initFunc Optional initialization function. Used to
* define APIs. When called it is passed the interpreter object and the
* global scope object.
* @constructor
*/
var Interpreter = function(code, opt_initFunc) {
if (typeof code === 'string') {
code = this.parse_(code, 'code');
}
// Get a handle on Acorn's node_t object.
var nodeConstructor = code.constructor;
this.newNode = function() {
return new nodeConstructor({'options': {}});
};
// Clone the root 'Program' node so that the AST may be modified.
var ast = this.newNode();
for (var prop in code) {
ast[prop] = (prop === 'body') ? code[prop].slice() : code[prop];
}
this.ast = ast;
/**
* Sorted array of setTimeout/setInterval tasks waiting to execute.
* @type {!Array<!Interpreter.Task>}
*/
this.tasks = [];
this.initFunc_ = opt_initFunc;
/**
* True if the interpreter is paused while waiting for an async function.
*/
this.paused_ = false;
/**
* Lines of code to execute during startup of Interpreter.
* @type {!Array<string>|undefined}
*/
this.polyfills_ = [];
// Unique identifier for native functions. Used in serialization.
this.functionCounter_ = 0;
// Map node types to our step function names; a property lookup is faster
// than string concatenation with "step" prefix.
this.stepFunctions_ = Object.create(null);
var stepMatch = /^step([A-Z]\w*)$/;
var m;
for (var methodName in this) {
if ((typeof this[methodName] === 'function') &&
(m = methodName.match(stepMatch))) {
this.stepFunctions_[m[1]] = this[methodName].bind(this);
}
}
// Create and initialize the global scope.
this.globalScope = this.createScope(this.ast, null);
this.globalObject = this.globalScope.object;
// Run the polyfills.
this.ast = this.parse_(this.polyfills_.join('\n'), 'polyfills');
this.polyfills_ = undefined; // Allow polyfill strings to garbage collect.
Interpreter.stripLocations_(this.ast, undefined, undefined);
var state = new Interpreter.State(this.ast, this.globalScope);
state.done = false;
this.stateStack = [state];
this.run();
this.value = undefined;
// Point at the main program.
this.ast = ast;
state = new Interpreter.State(this.ast, this.globalScope);
state.done = false;
this.stateStack.length = 0;
this.stateStack[0] = state;
};
/**
* Completion Value Types.
* @enum {number}
*/
Interpreter.Completion = {
NORMAL: 0,
BREAK: 1,
CONTINUE: 2,
RETURN: 3,
THROW: 4,
};
/**
* Interpreter status values.
* @enum {number}
*/
Interpreter.Status = {
'DONE': 0,
'STEP': 1,
'TASK': 2,
'ASYNC': 3,
};
/**
* @const {!Object} Configuration used for all Acorn parsing.
*/
Interpreter.PARSE_OPTIONS = {
locations: true,
ecmaVersion: 5, // Needed in the event a version > 0.5.0 of Acorn is used.
};
/**
* Property descriptor of readonly properties.
*/
Interpreter.READONLY_DESCRIPTOR = {
'configurable': true,
'enumerable': true,
'writable': false,
};
/**
* Property descriptor of non-enumerable properties.
*/
Interpreter.NONENUMERABLE_DESCRIPTOR = {
'configurable': true,
'enumerable': false,
'writable': true,
};
/**
* Property descriptor of readonly, non-enumerable properties.
*/
Interpreter.READONLY_NONENUMERABLE_DESCRIPTOR = {
'configurable': true,
'enumerable': false,
'writable': false,
};
/**
* Property descriptor of non-configurable, readonly, non-enumerable properties.
* E.g. NaN, Infinity.
*/
Interpreter.NONCONFIGURABLE_READONLY_NONENUMERABLE_DESCRIPTOR = {
'configurable': false,
'enumerable': false,
'writable': false,
};
/**
* Property descriptor of variables.
*/
Interpreter.VARIABLE_DESCRIPTOR = {
'configurable': false,
'enumerable': true,
'writable': true,
};
/**
* Unique symbol for indicating that a step has encountered an error, has
* added it to the stack, and will be thrown within the user's program.
* When STEP_ERROR is thrown in the JS-Interpreter, the error can be ignored.
*/
Interpreter.STEP_ERROR = {'STEP_ERROR': true};
/**
* Unique symbol for indicating that a reference is a variable on the scope,
* not an object property.
*/
Interpreter.SCOPE_REFERENCE = {'SCOPE_REFERENCE': true};
/**
* Unique symbol for indicating, when used as the value of the value
* parameter in calls to setProperty and friends, that the value
* should be taken from the property descriptor instead.
*/
Interpreter.VALUE_IN_DESCRIPTOR = /** @type {!Interpreter.Value} */({
'VALUE_IN_DESCRIPTOR': true
});
/**
* Unique symbol for indicating that a RegExp timeout has occurred in a VM.
*/
Interpreter.REGEXP_TIMEOUT = {'REGEXP_TIMEOUT': true};
/**
* For cycle detection in array to string and error conversion;
* see spec bug github.com/tc39/ecma262/issues/289
* Since this is for atomic actions only, it can be a class property.
*/
Interpreter.toStringCycles_ = [];
/**
* Node's vm module, if loaded and required.
* @type {Object}
*/
Interpreter.vm = null;
/**
* Currently executing interpreter. Needed so Interpreter.Object instances
* can know their environment.
* @type {Interpreter}
*/
Interpreter.currentInterpreter_ = null;
/**
* The global object. Ideally use `globalThis`. Failing that try `this` or
* `window`. Other options to consider are `self` and `global`.
* Same logic as in Acorn.
*/
Interpreter.nativeGlobal =
(typeof globalThis === 'undefined') ? this || window : globalThis;
/**
* Code for executing regular expressions in a thread.
*/
Interpreter.WORKER_CODE = [
"onmessage = function(e) {",
"var result;",
"var data = e.data;",
"switch (data[0]) {",
"case 'split':",
// ['split', string, separator, limit]
"result = data[1].split(data[2], data[3]);",
"break;",
"case 'match':",
// ['match', string, regexp]
"result = data[1].match(data[2]);",
"break;",
"case 'search':",
// ['search', string, regexp]
"result = data[1].search(data[2]);",
"break;",
"case 'replace':",
// ['replace', string, regexp, newSubstr]
"result = data[1].replace(data[2], data[3]);",
"break;",
"case 'exec':",
// ['exec', regexp, lastIndex, string]
"var regexp = data[1];",
"regexp.lastIndex = data[2];",
"result = [regexp.exec(data[3]), data[1].lastIndex];",
"break;",
"default:",
"throw Error('Unknown RegExp operation: ' + data[0]);",
"}",
"postMessage(result);",
"close();",
"};"];
/**
* Is a value a legal integer for an array length?
* @param {Interpreter.Value} x Value to check.
* @returns {number} Zero, or a positive integer if the value can be
* converted to such. NaN otherwise.
*/
Interpreter.legalArrayLength = function(x) {
var n = x >>> 0;
// Array length must be between 0 and 2^32-1 (inclusive).
return (n === Number(x)) ? n : NaN;
};
/**
* Is a value a legal integer for an array index?
* @param {Interpreter.Value} x Value to check.
* @returns {number} Zero, or a positive integer if the value can be
* converted to such. NaN otherwise.
*/
Interpreter.legalArrayIndex = function(x) {
var n = x >>> 0;
// Array index cannot be 2^32-1, otherwise length would be 2^32.
// 0xffffffff is 2^32-1.
return (String(n) === String(x) && n !== 0xffffffff) ? n : NaN;
};
/**
* Remove start and end values from AST, or set start and end values to a
* constant value. Used to remove highlighting from polyfills and to set
* highlighting in an eval to cover the entire eval expression.
* @param {!Object} node AST node.
* @param {number=} start Starting character of all nodes, or undefined.
* @param {number=} end Ending character of all nodes, or undefined.
* @private
*/
Interpreter.stripLocations_ = function(node, start, end) {
if (start) {
node.start = start;
} else {
delete node.start;
}
if (end) {
node.end = end;
} else {
delete node.end;
}
for (var name in node) {
if (name !== 'loc' && node.hasOwnProperty(name)) {
var prop = node[name];
if (prop && typeof prop === 'object') {
Interpreter.stripLocations_(/** @type {!Object} */(prop), start, end);
}
}
}
};
/**
* Some pathological regular expressions can take geometric time.
* Regular expressions are handled in one of three ways:
* 0 - throw as invalid.
* 1 - execute natively (risk of unresponsive program).
* 2 - execute in separate thread (not supported by IE 9).
*/
Interpreter.prototype['REGEXP_MODE'] = 1;
/**
* If REGEXP_MODE = 2, the length of time (in ms) to allow a RegExp
* thread to execute before terminating it.
*/
Interpreter.prototype['REGEXP_THREAD_TIMEOUT'] = 1000;
/**
* Length of time (in ms) to allow a polyfill to run before ending step.
* If set to 0, polyfills will execute step by step.
* If set to 1000, polyfills will run for up to a second per step
* (execution will resume in the polyfill in the next step).
* If set to Infinity, polyfills will run to completion in a single step.
*/
Interpreter.prototype['POLYFILL_TIMEOUT'] = 1000;
/**
* Flag indicating that a getter function needs to be called immediately.
* @private
*/
Interpreter.prototype.getterStep_ = false;
/**
* Flag indicating that a setter function needs to be called immediately.
* @private
*/
Interpreter.prototype.setterStep_ = false;
/**
* Number of code chunks appended to the interpreter.
* @private
*/
Interpreter.prototype.appendCodeNumber_ = 0;
/**
* Number of parsed tasks.
* @private
*/
Interpreter.prototype.taskCodeNumber_ = 0;
/**
* Parse JavaScript code into an AST using Acorn.
* @param {string} code Raw JavaScript text.
* @param {string} sourceFile Name of filename (for stack trace).
* @returns {!Object} AST.
* @private
*/
Interpreter.prototype.parse_ = function(code, sourceFile) {
// Create a new options object, since Acorn will modify this object.
// Inheritance can't be used since Acorn uses hasOwnProperty.
// Object.assign can't be used since that's ES6.
var options = {};
for (var name in Interpreter.PARSE_OPTIONS) {
options[name] = Interpreter.PARSE_OPTIONS[name];
}
options.sourceFile = sourceFile;
return Interpreter.nativeGlobal.acorn.parse(code, options);
};
/**
* Add more code to the interpreter.
* @param {string|!Object} code Raw JavaScript text or AST.
*/
Interpreter.prototype.appendCode = function(code) {
var state = this.stateStack[0];
if (!state || state.node.type !== 'Program') {
throw Error('Expecting original AST to start with a Program node');
}
if (typeof code === 'string') {
code = this.parse_(code, 'appendCode' + (this.appendCodeNumber_++));
}
if (!code || code.type !== 'Program') {
throw Error('Expecting new AST to start with a Program node');
}
this.populateScope_(code, state.scope);
// Append the new program to the old one.
Array.prototype.push.apply(state.node.body, code.body);
state.node.body.variableCache_ = null;
state.done = false;
};
/**
* Execute one step of the interpreter.
* @returns {boolean} True if a step was executed, false if no more instructions.
*/
Interpreter.prototype.step = function() {
var stack = this.stateStack;
var endTime;
do {
var state = stack[stack.length - 1];
if (this.paused_) {
// Blocked by an asynchronous function.
return true;
} else if (!state || (state.node.type === 'Program' && state.done)) {
if (!this.tasks.length) {
// Main program complete and no queued tasks. We're done!
return false;
}
state = this.nextTask_();
if (!state) {
// Main program complete, queued tasks, but nothing to run right now.
return true;
}
// Found a queued task, execute it.
}
var node = state.node;
// Record the interpreter in a global property so calls to toString/valueOf
// can execute in the proper context.
var oldInterpreterValue = Interpreter.currentInterpreter_;
Interpreter.currentInterpreter_ = this;
try {
var nextState = this.stepFunctions_[node.type](stack, state, node);
} catch (e) {
// Eat any step errors. They have been thrown on the stack.
if (e !== Interpreter.STEP_ERROR) {
// This is a real error, either in the JS-Interpreter, or an uncaught
// error in the interpreted code. Rethrow.
if (this.value !== e) {
// Uh oh. Internal error in the JS-Interpreter.
this.value = undefined;
}
throw e;
}
} finally {
// Restore to previous value (probably null, maybe nested toString calls).
Interpreter.currentInterpreter_ = oldInterpreterValue;
}
if (nextState) {
stack.push(nextState);
}
if (this.getterStep_) {
// Getter from this step was not handled.
this.value = undefined;
throw Error('Getter not supported in this context');
}
if (this.setterStep_) {
// Setter from this step was not handled.
this.value = undefined;
throw Error('Setter not supported in this context');
}
// This may be polyfill code. Keep executing until we arrive at user code.
if (!endTime && !node.end) {
// Ideally this would be defined at the top of the function, but that
// wastes time if the step isn't a polyfill.
endTime = Date.now() + this['POLYFILL_TIMEOUT'];
}
} while (!node.end && endTime > Date.now());
return true;
};
/**
* Execute the interpreter to program completion. Vulnerable to infinite loops.
* @returns {boolean} True if a execution is asynchronously blocked,
* false if no more instructions.
*/
Interpreter.prototype.run = function() {
while (!this.paused_ && this.step()) {}
return this.paused_;
};
/**
* Current status of the interpreter.
* @returns {Interpreter.Status} One of DONE, STEP, TASK, or ASYNC.
*/
Interpreter.prototype.getStatus = function() {
if (this.paused_) {
return Interpreter.Status['ASYNC'];
}
var stack = this.stateStack;
var state = stack[stack.length - 1];
if (state && (state.node.type !== 'Program' || !state.done)) {
// There's a step ready to execute.
return Interpreter.Status['STEP'];
}
var task = this.tasks[0];
if (task) {
if (task.time > Date.now()) {
// There's a pending task, but it's not ready.
return Interpreter.Status['TASK'];
}
// There's a task ready to execute.
return Interpreter.Status['STEP'];
}
return Interpreter.Status['DONE'];
};
/**
* Initialize the global object with built-in properties and functions.
* @param {!Interpreter.Object} globalObject Global object.
*/
Interpreter.prototype.initGlobal = function(globalObject) {
// Initialize uneditable global properties.
this.setProperty(globalObject, 'NaN', NaN,
Interpreter.NONCONFIGURABLE_READONLY_NONENUMERABLE_DESCRIPTOR);
this.setProperty(globalObject, 'Infinity', Infinity,
Interpreter.NONCONFIGURABLE_READONLY_NONENUMERABLE_DESCRIPTOR);
this.setProperty(globalObject, 'undefined', undefined,
Interpreter.NONCONFIGURABLE_READONLY_NONENUMERABLE_DESCRIPTOR);
this.setProperty(globalObject, 'window', globalObject,
Interpreter.READONLY_DESCRIPTOR);
this.setProperty(globalObject, 'this', globalObject,
Interpreter.NONCONFIGURABLE_READONLY_NONENUMERABLE_DESCRIPTOR);
this.setProperty(globalObject, 'self', globalObject); // Editable.
// Create the objects which will become Object.prototype and
// Function.prototype, which are needed to bootstrap everything else.
this.OBJECT_PROTO = new Interpreter.Object(null);
this.FUNCTION_PROTO = new Interpreter.Object(this.OBJECT_PROTO);
// Initialize global objects.
this.initFunction(globalObject);
this.initObject(globalObject);
// Unable to set globalObject's parent prior (OBJECT did not exist).
// Note that in a browser this would be `Window`, whereas in Node.js it would
// be `Object`. This interpreter is closer to Node in that it has no DOM.
globalObject.proto = this.OBJECT_PROTO;
this.setProperty(globalObject, 'constructor', this.OBJECT,
Interpreter.NONENUMERABLE_DESCRIPTOR);
this.initArray(globalObject);
this.initString(globalObject);
this.initBoolean(globalObject);
this.initNumber(globalObject);
this.initDate(globalObject);
this.initRegExp(globalObject);
this.initError(globalObject);
this.initMath(globalObject);
this.initJSON(globalObject);
// Initialize global functions.
var thisInterpreter = this;
var wrapper;
var func = this.createNativeFunction(
function(_x) {throw EvalError("Can't happen");}, false);
func.eval = true;
this.setProperty(globalObject, 'eval', func,
Interpreter.NONENUMERABLE_DESCRIPTOR);
this.setProperty(globalObject, 'parseInt',
this.createNativeFunction(parseInt, false),
Interpreter.NONENUMERABLE_DESCRIPTOR);
this.setProperty(globalObject, 'parseFloat',
this.createNativeFunction(parseFloat, false),
Interpreter.NONENUMERABLE_DESCRIPTOR);
this.setProperty(globalObject, 'isNaN',
this.createNativeFunction(isNaN, false),
Interpreter.NONENUMERABLE_DESCRIPTOR);
this.setProperty(globalObject, 'isFinite',
this.createNativeFunction(isFinite, false),
Interpreter.NONENUMERABLE_DESCRIPTOR);
var strFunctions = [
[escape, 'escape'], [unescape, 'unescape'],
[decodeURI, 'decodeURI'], [decodeURIComponent, 'decodeURIComponent'],
[encodeURI, 'encodeURI'], [encodeURIComponent, 'encodeURIComponent']
];
for (var i = 0; i < strFunctions.length; i++) {
wrapper = (function(nativeFunc) {
return function(str) {
try {
return nativeFunc(str);
} catch (e) {
// decodeURI('%xy') will throw an error. Catch and rethrow.
thisInterpreter.throwException(thisInterpreter.URI_ERROR, e.message);
}
};
})(strFunctions[i][0]);
this.setProperty(globalObject, strFunctions[i][1],
this.createNativeFunction(wrapper, false),
Interpreter.NONENUMERABLE_DESCRIPTOR);
}
wrapper = function setTimeout(var_args) {
return thisInterpreter.createTask_(false, arguments);
};
this.setProperty(globalObject, 'setTimeout',
this.createNativeFunction(wrapper, false),
Interpreter.NONENUMERABLE_DESCRIPTOR);
wrapper = function setInterval(var_args) {
return thisInterpreter.createTask_(true, arguments);
};
this.setProperty(globalObject, 'setInterval',
this.createNativeFunction(wrapper, false),
Interpreter.NONENUMERABLE_DESCRIPTOR);
wrapper = function clearTimeout(pid) {
thisInterpreter.deleteTask_(pid);
};
this.setProperty(globalObject, 'clearTimeout',
this.createNativeFunction(wrapper, false),
Interpreter.NONENUMERABLE_DESCRIPTOR);
wrapper = function clearInterval(pid) {
thisInterpreter.deleteTask_(pid);
};
this.setProperty(globalObject, 'clearInterval',
this.createNativeFunction(wrapper, false),
Interpreter.NONENUMERABLE_DESCRIPTOR);
// Preserve public properties from being pruned/renamed by JS compilers.
// Add others as needed.
this['OBJECT'] = this.OBJECT; this['OBJECT_PROTO'] = this.OBJECT_PROTO;
this['FUNCTION'] = this.FUNCTION; this['FUNCTION_PROTO'] = this.FUNCTION_PROTO;
this['ARRAY'] = this.ARRAY; this['ARRAY_PROTO'] = this.ARRAY_PROTO;
this['REGEXP'] = this.REGEXP; this['REGEXP_PROTO'] = this.REGEXP_PROTO;
this['DATE'] = this.DATE; this['DATE_PROTO'] = this.DATE_PROTO;
// Run any user-provided initialization.
if (this.initFunc_) {
this.initFunc_(this, globalObject);
}
};
/**
* Number of functions created by the interpreter.
* @private
*/
Interpreter.prototype.functionCodeNumber_ = 0;
/**
* Initialize the Function class.
* @param {!Interpreter.Object} globalObject Global object.
*/
Interpreter.prototype.initFunction = function(globalObject) {
var thisInterpreter = this;
var wrapper;
var identifierRegexp = /^[A-Za-z_$][\w$]*$/;
// Function constructor.
wrapper = function Function(var_args) {
if (arguments.length) {
var code = String(arguments[arguments.length - 1]);
} else {
var code = '';
}
var argsStr = Array.prototype.slice.call(arguments, 0, -1).join(',').trim();
if (argsStr) {
var args = argsStr.split(/\s*,\s*/);
for (var i = 0; i < args.length; i++) {
var name = args[i];
if (!identifierRegexp.test(name)) {
thisInterpreter.throwException(thisInterpreter.SYNTAX_ERROR,
'Invalid function argument: ' + name);
}
}
argsStr = args.join(', ');
}
// Acorn needs to parse code in the context of a function or else `return`
// statements will be syntax errors.
try {
var ast = thisInterpreter.parse_('(function(' + argsStr + ') {' + code + '})',
'function' + (thisInterpreter.functionCodeNumber_++));
} catch (e) {
// Acorn threw a SyntaxError. Rethrow as a trappable error.
thisInterpreter.throwException(thisInterpreter.SYNTAX_ERROR,
'Invalid code: ' + e.message);
}
if (ast.body.length !== 1) {
// Function('a', 'return a + 6;}; {alert(1);');
thisInterpreter.throwException(thisInterpreter.SYNTAX_ERROR,
'Invalid code in function body');
}
var node = ast.body[0].expression;
// Note that if this constructor is called as `new Function()` the function
// object created by stepCallExpression and assigned to `this` is discarded.
// Interestingly, the scope for constructed functions is the global scope,
// even if they were constructed in some other scope.
return thisInterpreter.createFunction(node, thisInterpreter.globalScope,
'anonymous');
};
this.FUNCTION = this.createNativeFunction(wrapper, true);
this.setProperty(globalObject, 'Function', this.FUNCTION,
Interpreter.NONENUMERABLE_DESCRIPTOR);
// Throw away the created prototype and use the root prototype.
this.setProperty(this.FUNCTION, 'prototype', this.FUNCTION_PROTO,
Interpreter.NONENUMERABLE_DESCRIPTOR);
// Configure Function.prototype.
this.setProperty(this.FUNCTION_PROTO, 'constructor', this.FUNCTION,
Interpreter.NONENUMERABLE_DESCRIPTOR);
this.FUNCTION_PROTO.nativeFunc = function() {};
this.FUNCTION_PROTO.nativeFunc.id = this.functionCounter_++;
this.FUNCTION_PROTO.illegalConstructor = true;
this.setProperty(this.FUNCTION_PROTO, 'length', 0,
Interpreter.READONLY_NONENUMERABLE_DESCRIPTOR);
this.FUNCTION_PROTO.class = 'Function';
wrapper = function apply_(func, thisArg, args) {
var state =
thisInterpreter.stateStack[thisInterpreter.stateStack.length - 1];
// Rewrite the current CallExpression state to apply a different function.
// Note: 'func' is provided by the polyfill as a non-standard argument.
state.func_ = func;
// Assign the `this` object.
state.funcThis_ = thisArg;
// Bind any provided arguments.
state.arguments_ = [];
if (args !== null && args !== undefined) {
if (args instanceof Interpreter.Object) {
// Convert the pseudo array of args into a native array.
// The pseudo array's properties object happens to be array-like.
state.arguments_ = Array.from(args.properties);
} else {
thisInterpreter.throwException(thisInterpreter.TYPE_ERROR,
'CreateListFromArrayLike called on non-object');
}
}
state.doneExec_ = false;
};
this.setNativeFunctionPrototype(this.FUNCTION, 'apply', wrapper);
this.polyfills_.push(
/* POLYFILL START */
// Flatten the apply args list to remove any inheritance or getter functions.
"(function() {",
"var apply_ = Function.prototype.apply;",
"Function.prototype.apply = function apply(thisArg, args) {",
"var a2 = [];",
"for (var i = 0; i < args.length; i++) {",
"a2[i] = args[i];",
"}",
"return apply_(this, thisArg, a2);", // Note: Non-standard 'this' arg.
"};",
"})();"
/* POLYFILL END */
);
wrapper = function call(thisArg /*, var_args */) {
var state =
thisInterpreter.stateStack[thisInterpreter.stateStack.length - 1];
// Rewrite the current CallExpression state to call a different function.
state.func_ = this;
// Assign the `this` object.
state.funcThis_ = thisArg;
// Bind any provided arguments.
state.arguments_ = [];
for (var i = 1; i < arguments.length; i++) {
state.arguments_.push(arguments[i]);
}
state.doneExec_ = false;
};
this.setNativeFunctionPrototype(this.FUNCTION, 'call', wrapper);
this.polyfills_.push(
/* POLYFILL START */
// Polyfill copied from:
// developer.mozilla.org/en/docs/Web/JavaScript/Reference/Global_objects/Function/bind
"Object.defineProperty(Function.prototype, 'bind',",
"{configurable: true, writable: true, value:",
"function bind(oThis) {",
"if (typeof this !== 'function') {",
"throw TypeError('What is trying to be bound is not callable');",
"}",
"var aArgs = Array.prototype.slice.call(arguments, 1),",
"fToBind = this,",
"fNOP = function() {},",
"fBound = function() {",
"return fToBind.apply(this instanceof fNOP",
"? this",
": oThis,",
"aArgs.concat(Array.prototype.slice.call(arguments)));",
"};",
"if (this.prototype) {",
"fNOP.prototype = this.prototype;",
"}",
"fBound.prototype = new fNOP();",
"return fBound;",
"}",
"});",
""
/* POLYFILL END */
);
// Function has no parent to inherit from, so it needs its own mandatory
// toString and valueOf functions.
wrapper = function toString() {
return String(this);
};
this.setNativeFunctionPrototype(this.FUNCTION, 'toString', wrapper);
this.setProperty(this.FUNCTION, 'toString',
this.createNativeFunction(wrapper, false),
Interpreter.NONENUMERABLE_DESCRIPTOR);
wrapper = function valueOf() {
return this.valueOf();
};
this.setNativeFunctionPrototype(this.FUNCTION, 'valueOf', wrapper);
this.setProperty(this.FUNCTION, 'valueOf',
this.createNativeFunction(wrapper, false),
Interpreter.NONENUMERABLE_DESCRIPTOR);
};
/**
* Initialize the Object class.
* @param {!Interpreter.Object} globalObject Global object.
*/
Interpreter.prototype.initObject = function(globalObject) {
var thisInterpreter = this;
var wrapper;
// Object constructor.
wrapper = function Object(value) {
if (value === undefined || value === null) {
// Create a new object.
if (thisInterpreter.calledWithNew()) {
// Called as `new Object()`.
return this;
} else {
// Called as `Object()`.
return thisInterpreter.createObjectProto(thisInterpreter.OBJECT_PROTO);
}
}
if (!(value instanceof Interpreter.Object)) {
// Wrap the value as an object.
var box = thisInterpreter.createObjectProto(
thisInterpreter.getPrototype(value));
box.data = value;
return box;
}
// Return the provided object.
return value;
};
this.OBJECT = this.createNativeFunction(wrapper, true);
// Throw away the created prototype and use the root prototype.
this.setProperty(this.OBJECT, 'prototype', this.OBJECT_PROTO,
Interpreter.NONENUMERABLE_DESCRIPTOR);
this.setProperty(this.OBJECT_PROTO, 'constructor', this.OBJECT,
Interpreter.NONENUMERABLE_DESCRIPTOR);
this.setProperty(globalObject, 'Object', this.OBJECT,
Interpreter.NONENUMERABLE_DESCRIPTOR);
/**
* Checks if the provided value is null or undefined.
* If so, then throw an error in the call stack.
* @param {Interpreter.Value} value Value to check.
*/
var throwIfNullUndefined = function(value) {
if (value === undefined || value === null) {
thisInterpreter.throwException(thisInterpreter.TYPE_ERROR,
"Cannot convert '" + value + "' to object");
}
};
// Static methods on Object.
wrapper = function getOwnPropertyNames(obj) {
throwIfNullUndefined(obj);
var props = (obj instanceof Interpreter.Object) ? obj.properties : obj;
return thisInterpreter.nativeToPseudo(Object.getOwnPropertyNames(props));
};
this.setProperty(this.OBJECT, 'getOwnPropertyNames',
this.createNativeFunction(wrapper, false),
Interpreter.NONENUMERABLE_DESCRIPTOR);
wrapper = function keys(obj) {
throwIfNullUndefined(obj);
if (obj instanceof Interpreter.Object) {
obj = obj.properties;
}
return thisInterpreter.nativeToPseudo(Object.keys(obj));
};
this.setProperty(this.OBJECT, 'keys',
this.createNativeFunction(wrapper, false),
Interpreter.NONENUMERABLE_DESCRIPTOR);
wrapper = function create_(proto) {
// Support for the second argument is the responsibility of a polyfill.
if (proto === null) {
return thisInterpreter.createObjectProto(null);
}
if (!(proto instanceof Interpreter.Object)) {
thisInterpreter.throwException(thisInterpreter.TYPE_ERROR,
'Object prototype may only be an Object or null, not ' + proto);
}
return thisInterpreter.createObjectProto(proto);
};
this.setProperty(this.OBJECT, 'create',
this.createNativeFunction(wrapper, false),
Interpreter.NONENUMERABLE_DESCRIPTOR);
// Add a polyfill to handle create's second argument.
this.polyfills_.push(
/* POLYFILL START */
"(function() {",
"var create_ = Object.create;",
"Object.create = function create(proto, props) {",
"var obj = create_(proto);",
"props && Object.defineProperties(obj, props);",
"return obj;",
"};",
"})();",
""
/* POLYFILL END */
);
wrapper = function defineProperty(obj, prop, descriptor) {
prop = String(prop);
if (!(obj instanceof Interpreter.Object)) {
thisInterpreter.throwException(thisInterpreter.TYPE_ERROR,
'Object.defineProperty called on non-object: ' + obj);
}
if (!(descriptor instanceof Interpreter.Object)) {
thisInterpreter.throwException(thisInterpreter.TYPE_ERROR,
'Property description must be an object');
}
if (obj.preventExtensions && !(prop in obj.properties)) {
thisInterpreter.throwException(thisInterpreter.TYPE_ERROR,
"Can't define property '" + prop + "', object is not extensible");
}
// The polyfill guarantees no inheritance and no getter functions.
// Therefore the descriptor properties map is the native object needed.
thisInterpreter.setProperty(obj, prop, Interpreter.VALUE_IN_DESCRIPTOR,
descriptor.properties);
return obj;
};
this.setProperty(this.OBJECT, 'defineProperty',
this.createNativeFunction(wrapper, false),
Interpreter.NONENUMERABLE_DESCRIPTOR);
this.polyfills_.push(
// Flatten the descriptor to remove any inheritance or getter functions.
/* POLYFILL START */
"(function() {",
"var defineProperty_ = Object.defineProperty;",
"Object.defineProperty = function defineProperty(obj, prop, d1) {",
"var d2 = {};",
"if ('configurable' in d1) d2.configurable = d1.configurable;",
"if ('enumerable' in d1) d2.enumerable = d1.enumerable;",
"if ('writable' in d1) d2.writable = d1.writable;",
"if ('value' in d1) d2.value = d1.value;",
"if ('get' in d1) d2.get = d1.get;",
"if ('set' in d1) d2.set = d1.set;",
"return defineProperty_(obj, prop, d2);",
"};",
"})();",
"Object.defineProperty(Object, 'defineProperties',",
"{configurable: true, writable: true, value:",
"function defineProperties(obj, props) {",
"var keys = Object.keys(props);",
"for (var i = 0; i < keys.length; i++) {",
"Object.defineProperty(obj, keys[i], props[keys[i]]);",
"}",
"return obj;",
"}",
"});",
""
/* POLYFILL END */
);
wrapper = function getOwnPropertyDescriptor(obj, prop) {
if (!(obj instanceof Interpreter.Object)) {
thisInterpreter.throwException(thisInterpreter.TYPE_ERROR,
'Object.getOwnPropertyDescriptor called on non-object: ' + obj);
}
prop = String(prop);
if (!(prop in obj.properties)) {
return undefined;
}
var descriptor = Object.getOwnPropertyDescriptor(obj.properties, prop);
var getter = obj.getter[prop];
var setter = obj.setter[prop];
var pseudoDescriptor =
thisInterpreter.createObjectProto(thisInterpreter.OBJECT_PROTO);
if (getter || setter) {
thisInterpreter.setProperty(pseudoDescriptor, 'get', getter);
thisInterpreter.setProperty(pseudoDescriptor, 'set', setter);
} else {
thisInterpreter.setProperty(pseudoDescriptor, 'value',
/** @type {!Interpreter.Value} */(descriptor['value']));
thisInterpreter.setProperty(pseudoDescriptor, 'writable',
descriptor['writable']);
}
thisInterpreter.setProperty(pseudoDescriptor, 'configurable',
descriptor['configurable']);
thisInterpreter.setProperty(pseudoDescriptor, 'enumerable',
descriptor['enumerable']);
return pseudoDescriptor;
};
this.setProperty(this.OBJECT, 'getOwnPropertyDescriptor',
this.createNativeFunction(wrapper, false),
Interpreter.NONENUMERABLE_DESCRIPTOR);
wrapper = function getPrototypeOf(obj) {