/** * Contains utilities functions shared by modules * * Copyright (C) 2010 Mike Gerwitz * * This file is part of ease.js. * * ease.js is free software: you can redistribute it and/or modify it under the * terms of the GNU Lesser General Public License as published by the Free * Software Foundation, either version 3 of the License, or (at your option) * any later version. * * This program is distributed in the hope that it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License * for more details. * * You should have received a copy of the GNU Lesser General Public License * along with this program. If not, see . * * @author Mike Gerwitz * @package core */ var propParseKeywords = require( './prop_parser' ).parseKeywords; /** * Whether getters/setters are supported * @var {boolean} */ var getset = ( Object.prototype.__defineGetter__ === undefined ) ? false : true ; /** * Whether we can actually define secure properties, or we need to fall back * @type {boolean} */ var secure_fallback = ( Object.defineProperty instanceof Function ) ? false : true ; /** * Freezes an object if freezing is supported * * @param {Object} obj object to freeze * * @return {Object} object passed to function */ exports.freeze = function( obj ) { // if freezing is not supported (ES5), do nothing if ( Object.freeze === undefined ) { return; } Object.freeze( obj ); return obj; }; /** * Gets/sets whether the system needs to fall back to defining normal properties * when a secure property is requested * * This will be set by default if the JS engine does not support the * Object.defineProperty method from EcmaScript 5. * * @param {boolean=} val value, if used as setter * * @return {boolean|Object} current value if getter, self if setter */ exports.secureFallback = function( val ) { if ( val === undefined ) { return secure_fallback; } secure_fallback = !!val; exports.defineSecureProp = getDefineSecureProp(); return exports; }; /** * Attempts to define a non-enumerable, non-writable and non-configurable * property on the given object * * If the operation is unsupported, a normal property will be set. * * @param {Object} obj object to set property on * @param {string} prop name of property to set * @param {mixed} value value to set * * @return {undefined} */ exports.defineSecureProp = getDefineSecureProp(); /** * Clones an object * * @param {Object} data object to clone * @param {boolean} deep perform deep clone (defaults to shallow) * * @return {Object} cloned object */ exports.clone = function clone( data, deep ) { deep = !!deep; if ( data instanceof Array ) { if ( !deep ) { // return a copy of the array return data.slice( 0 ); } // if we're performing a deep clone, we have to loop through each of the // elements of the array and clone them var ret = []; for ( var i = 0, len = data.length; i < len; i++ ) { // clone this element ret.push( clone( data[ i ], deep ) ); } return ret; } else if ( data instanceof Object ) { var newobj = {}, hasOwn = Object.prototype.hasOwnProperty; // copy data to the new object for ( prop in data ) { if ( hasOwn.call( data, prop ) ) { newobj[ prop ] = ( deep ) ? clone( data[ prop ] ) : data[ prop ] ; } } return newobj; } // primitive type; cloning unnecessary return data; }; /** * Parses object properties to determine how they should be interpreted in an * Object Oriented manner * * @param {Object} data properties with names as the key * @param {Object} options parser options and callbacks * * @return undefined */ exports.propParse = function( data, options ) { // todo: profile; function calls are more expensive than if statements, so // it's probably a better idea not to use fvoid var fvoid = function() {}, callbackEach = options.each || undefined, callbackProp = options.property || fvoid, callbackMethod = options.method || fvoid, callbackGetter = options.getter || fvoid, callbackSetter = options.setter || fvoid, keywordParser = options.keywordParser || propParseKeywords, hasOwn = Object.prototype.hasOwnProperty, parse_data = {}, name = '', keywords = {}, value = null, getter = false, setter = false; // for each of the given properties, determine what type of property we're // dealing with (in the classic OO sense) for ( prop in data ) { // ignore properties of instance prototypes if ( !( hasOwn.call( data, prop ) ) ) { continue; } value = data[ prop ]; getter = ( ( getset ) ? data.__lookupGetter__( prop ) : null ); setter = ( ( getset ) ? data.__lookupSetter__( prop ) : null ); parse_data = keywordParser( prop ) || {}; name = parse_data.name || prop; keywords = parse_data.keywords || {}; if ( keywords['abstract'] ) { if ( !( value instanceof Array ) ) { throw TypeError( "Missing parameter list for abstract method: " + name ); } value = exports.createAbstractMethod.apply( this, value ); } // if an 'each' callback was provided, pass the data before parsing it if ( callbackEach ) { callbackEach.call( callbackEach, name, value ); } // getter/setter if ( getter || setter ) { callbackGetter.call( callbackGetter, name, getter, keywords ); callbackSetter.call( callbackSetter, name, setter, keywords ); } // method else if ( value instanceof Function ) { callbackMethod.call( callbackMethod, name, value, exports.isAbstractMethod( value ), keywords ); } // simple property else { callbackProp.call( callbackProp, name, value, keywords ); } } }; /** * Copies properties to the destination object * * If the method already exists, it will be overridden and accessible via either * the parent prototype or by invoking this.__super(). * * The destination object is directly modified. * * The result data will be populated with information from the copy that may be * useful to the creation of the class (e.g. list of the abstract methods). * * @param {Object} props properties to copy * @param {Object} dest destination object * @param {Object} actions parser actions (see propParse()) * * @return undefined */ exports.propCopy = function( props, dest, actions ) { actions = actions || {}; var useOr = function( use, or ) { if ( use instanceof Function ) { // allow the override to invoke the default implementation use.performDefault = or; return use; } // use the default return or; }; // substitute default functionality if needed var parse_actions = { each: useOr( actions.each, function( name, value ) { // methods can only be overridden with methods if ( ( dest[ name ] instanceof Function ) && ( !( value instanceof Function ) ) ) { throw new TypeError( "Cannot override method with non-method" ); } } ), property: useOr( actions.property, function( name, value ) { dest[ name ] = value; } ), getter: useOr( actions.getter, function( name, func ) { dest.__defineGetter__( name, func ); } ), setter: useOr( actions.setter, function( name, func ) { dest.__defineSetter__( name, func ); } ), method: useOr( actions.method, function( name, func, is_abstract ) { var pre = dest[ name ]; // check for override if ( pre !== undefined ) { if ( pre instanceof Function ) { // use provided method override action, or fall back to // generic override var overrideFunc = useOr( actions.methodOverride, function( name, pre, func ) { return exports.overrideMethod( name, pre, func ); } ); // use call(), passing self in as context, to ensure 'this' // will reference the function itself dest[ name ] = overrideFunc.call( overrideFunc, name, pre, func ); } else { throw new TypeError( "Cannot override property '" + name + "' with method" ); } } else { // simply copy over the method dest[ name ] = func; } } ), }; exports.propParse( props, parse_actions ); }; /** * Creates an abstract method * * Abstract methods must be implemented by a subclass and cannot be called * directly. If a class contains a single abstract method, the class itself is * considered to be abstract and cannot be instantiated. It may only be * extended. * * @param {...string} definition function definition that concrete * implementations must follow * * @return {Function} */ exports.createAbstractMethod = function() { var definition = Array.prototype.slice.call( arguments ); var method = function() { throw new Error( "Cannot call abstract method" ); }; exports.defineSecureProp( method, 'abstractFlag', true ); exports.defineSecureProp( method, 'definition', definition ); exports.defineSecureProp( method, '__length', arguments.length ); return method; }; /** * Determines if the given function is an abstract method * * @param {Function} function function to inspect * * @return {boolean} true if function is an abstract method, otherwise false */ exports.isAbstractMethod = function( func ) { return ( ( func instanceof Function ) && ( func.abstractFlag === true ) ) ? true : false ; }; /** * Overrides a method * * The given method must be a function or an exception will be thrown. * * @param {string} name method name * @param {Function} super_method method to override * @param {Function} new_method method to override with * @param {Array.=} abstract_methods list of abstract methods * * @return {Function} overridden method */ exports.overrideMethod = function( name, super_method, new_method, abstract_methods ) { abstract_methods = abstract_methods || []; // it's much faster to lookup a hash than it is to iterate through an entire // array each time we need to find an existing abstract method var abstract_map = {}; for ( var i = 0, len = abstract_methods.length; i < len; i++ ) { var method = abstract_methods[ i ]; abstract_map[ method ] = i; } if ( abstract_map[ name ] !== undefined ) { var is_abstract = exports.isAbstractMethod( new_method ); if ( super_method.definition instanceof Array ) { var arg_len = ( is_abstract ) ? new_method.definition.length : new_method.length; // ensure the concrete definition is compatible with // that of its supertype if ( arg_len < super_method.definition.length ) { throw new TypeError( "Declaration of " + name + " must be compatiable " + "with that of its supertype" ); } } } // this is the method that will be invoked when the requested // method is called, so note that in the context of this // function, `this` will represent the current class instance return function() { var tmp = this.__super; // assign _super temporarily for the method invocation so // that the method can call the parent method this.__super = super_method; var retval = new_method.apply( this, arguments ); this.__super = tmp; return retval; } }; /** * Shrinks an array, removing undefined elements * * Pushes all items onto a new array, removing undefined elements. This ensures * that the length of the array represents correctly the number of elements in * the array. * * @param {Array} items array to shrink * * @return {Array} shrunken array */ exports.arrayShrink = function( items ) { // copy the methods into a new array by pushing them onto it, to ensure // the length property of the array will work properly var arr_new = []; for ( var i = 0, len = items.length; i < len; i++ ) { var item = items[ i ]; if ( item === undefined ) { continue; } arr_new.push( item ); } return arr_new; }; /** * Appropriately returns defineSecureProp implementation to avoid check on each * invocation * * @return {function( Object, string, * )} */ function getDefineSecureProp() { // falls back to simply defining a normal property var fallback = function( obj, prop, value ) { obj[ prop ] = value; }; if ( secure_fallback ) { return fallback; } else { // uses ECMAScript 5's Object.defineProperty() method return function( obj, prop, value ) { try { Object.defineProperty( obj, prop, { value: value, enumerable: false, writable: false, configurable: false, }); } catch ( e ) { // let's not have this happen again, as repeatedly throwing // exceptions will do nothing but slow down the system exports.secureFallback( true ); // if there's an error (ehem, IE8), fall back fallback( obj, prop, value ); } }; } }