/** * Tests visibility object factory * * Copyright (C) 2010,2011 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 */ require( 'common' ).testCase( { caseSetUp: function() { this.Sut = this.require( 'VisibilityObjectFactory' ); // properties are expected to be in a specific format this.props = { 'public': { pub: [ [ 'foo' ], {} ], }, 'protected': { prot: [ [ 'bar' ], {} ], }, 'private': { priv: [ [ 'baz' ], {} ], }, }; this.methods = { 'public': { fpub: ( function() { var retval = function() {}; retval.___$$keywords$$ = { 'public': true }; return retval; } )(), }, 'protected': { fprot: function() {}, }, 'private': { fpriv: function() {}, }, }; }, setUp: function() { // we cannot perform these tests if they are not supported by our // environment if ( this.require( 'util' ).definePropertyFallback() ) { this.skip(); } this.sut = this.Sut(); }, /** * To keep with the spirit of ease.js, we should be able to instantiate * VisibilityObjectFactory both with and without the 'new' keyword * * Consistency is key with these sorts of things. */ 'Can instantiate with and without `new` keyword': function() { // with `new` keyword this.assertOk( ( new this.Sut() ) instanceof this.Sut, "Should be able to instantiate VisibilityObjectFactory with " + "'new' keyword" ); // without `new` keyword this.assertOk( this.Sut() instanceof this.Sut, "Should be able to instantiate VisibilityObjectFactory without " + "'new' keyword" ); }, /** * One of the core requirements for proper visibility support is the ability * to create a proxy object. Proxy objects transfer gets/sets of a certain * property to another object. This allows objects to be layered atop each * other while still permitting gets/sets to fall through. */ 'Can create property proxy': function() { var _self = this, base = {}, dest = {}, props = { one: true, two: true, three: true }, val = 'foo', val2 = 'bar' ; // create proxy of props to base on dest this.sut.createPropProxy( base, dest, props ); // check to ensure the properties are properly proxied for ( var prop in props ) { dest[ prop ] = val; // check proxy _self.assertEqual( dest[ prop ], val, "Property can be set/retrieved on destination object" ); // check base _self.assertEqual( base[ prop ], val, "Property can be set via proxy and retrieved on base" ); // set to new value base[ prop ] = val2; // re-check proxy _self.assertEqual( dest[ prop ], val2, "Property can be set on base and retrieved on dest object" ); } }, /** * An additional layer should be created, which will hold the private * members. */ 'Setup creates private layer': function() { var dest = { foo: [] }, obj = this.sut.setup( dest, this.props, this.methods ); this.assertNotEqual( obj, dest, "Returned object should not be the destination object" ); this.assertStrictEqual( obj.foo, dest.foo, "Destination object is part of the prototype chain of the " + "returned obj" ); }, /** * All protected properties must be proxied from the private layer to the * protected. Otherwise, sets would occur on the private object, which would * prevent them from being accessed by subtypes if set by a parent method * invocation. (The same is true in reverse.) */ 'Private layer includes protected member proxy': function() { var dest = {}, obj = this.sut.setup( dest, this.props, this.methods ), val = 'foo' ; obj.prot = val; this.assertEqual( dest.prot, val, "Protected values are proxied from private layer" ); }, /** * Public properties should be initialized on the destination object to * ensure that references are not shared between instances (that'd be a * pretty nasty bug). * * Note that we do not care about public methods, because they're assumed to * already be part of the prototype chain. The visibility object is only * intended to handle levels of visibility that are not directly implemented * in JS. Public methods are a direct consequence of adding a property to * the prototype chain. */ 'Public properties are copied to destination object': function() { var dest = {}; this.sut.setup( dest, this.props, this.methods ); // values should match this.assertEqual( dest.pub[ 0 ], this.props[ 'public' ].pub[ 0 ], "Public properties are properly initialized" ); // ensure references are not shared (should be cloned) this.assertNotStrictEqual( dest.pub, this.props[ 'public' ].pub, "Public properties should not be copied by reference" ); // method references should NOT be transferred (they're assumed to // already be a part of the prototype chain, since they're outside the // scope of the visibility object) this.assertEqual( dest.fpub, undefined, "Public method references should not be copied" ); }, /** * Protected properties should be copied over for the same reason that * public properties should, in addition to the fact that the protected * members are not likely to be present on the destination object. In * addition, methods will be copied over. */ 'Protected properties and methods are added to dest object': function() { var dest = {}; this.sut.setup( dest, this.props, this.methods ); // values should match this.assertEqual( dest.prot[ 0 ], this.props[ 'protected' ].prot[ 0 ], "Protected properties are properly initialized" ); // ensure references are not shared (should be cloned) this.assertNotStrictEqual( dest.prot, this.props[ 'protected' ].prot, "Protected properties should not be copied by reference" ); // protected method references should be copied this.assertStrictEqual( dest.fprot, this.methods[ 'protected' ].fprot, "Protected members should be copied by reference" ); }, /** * Public members should *always* take precedence over protected. The reason * for this is because, if a protected member is overridden and made public * by a subtype, we need to ensure that the protected member of the * supertype doesn't take precedence. The reason it would take precedence by * default is because the protected visibility object is laid *atop* the * public, meaning it comes first in the prototype chain. */ 'Public methods are not overwritten by default': function() { // use the public method var dest = { fpub: this.methods[ 'public' ].fpub }; // add duplicate method to protected this.methods[ 'protected' ].fpub = function() {}; this.sut.setup( dest, this.props, this.methods ); // ensure our public method is still referenced this.assertStrictEqual( dest.fpub, this.methods[ 'public' ].fpub, "Public methods should not be overwritten by protected methods" ); }, /** * Same situation with private members as protected, with the exception that * we do not need to worry about the overlay problem (in regards to * methods). This is simply because private members are not inherited. */ 'Private properties and methods are added to dest object': function() { var dest = {}, obj = this.sut.setup( dest, this.props, this.methods ); // values should match this.assertEqual( obj.priv[ 0 ], this.props[ 'private' ].priv[ 0 ], "Private properties are properly initialized" ); // ensure references are not shared (should be cloned) this.assertNotStrictEqual( obj.priv, this.props[ 'private' ].priv, "Private properties should not be copied by reference" ); // private method references should be copied this.assertStrictEqual( obj.fpriv, this.methods[ 'private' ].fpriv, "Private members should be copied by reference" ); }, } );