/** * Tests static members * * 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 test */ var common = require( './common' ), assert = require( 'assert' ), fallback = common.require( 'util' ).definePropertyFallback() builder = common.require( 'ClassBuilder' )( common.require( 'member_builder' ), common.require( 'VisibilityObjectFactoryFactory' ).fromEnvironment() ) ; /** * To provide access to static members, this.__self is made available inside of * instances. */ ( function testSelfPropertyReferencesClassDefinition() { var val = [ 'baz' ], Foo = builder.build( { 'public test': function() { return this.__self; }, } ); Foo.bar = val; // we must use instanceof here because the __self object has the class in // its prototype chain assert.ok( ( Foo().test().bar === Foo.bar ), "__self property references class definition" ); } )(); /** * If a static property does not exist, the getter should return undefined. * * This test exists to ensure an error is not thrown if the property is not * found. This is because we check each parent and eventually reach the base * object. We must ensure the base object does not cause any problems. */ ( function testStaticPropertyLookupReturnsUndefinedIfNotFound() { var result = builder.build( {} ).$( 'foo' ); assert.equal( result, undefined, "Static property getter should return undefined if not found" ); } )(); /** * If supported by the environment, ensure that the accessor method used to * access static properties is not enumerable. It's unnecessary clutter (and * confusion) otherwise. */ ( function testStaticPropertyAccessorIsNotEnumerable() { var get = Object.getOwnPropertyDescriptor, Foo = builder.build( {} ); // don't perform the test if unsupported if ( fallback ) { return; } assert.equal( get( Foo, '$' ).enumerable, false, "Static property accessor method should not be enumerable" ); } )(); /** * Static members, by their nature, should be accessible through the class * definition itself; that is, without instantiation. It should also not be * available through the generated prototype (and therefore, be unavailable to * instances). */ ( function testPublicStaticMembersAreAccessibleViaClassDefinitionOnly() { var val = 'foo', val2 = 'bar', Foo = builder.build( { 'public static foo': val, // should be public by default 'static bar': val2, // the same rules should apply to methods 'public static baz': function() { return val; }, 'static foobar': function() { return val2; }, } ); // properties should be accessible via class definition assert.equal( Foo.$('foo'), val, "Public static properties should be accessible via class definition" ); // as long as the above test succeeded, we can then conclude that static // members are public by default if the following succeeds assert.equal( Foo.$('bar'), val2, "Static properties are public by default" ); // methods should be accessible via class definition assert.equal( Foo.baz(), val, "Public static methods should be accessible via class definition" ); // same rules as above, but with a method assert.equal( Foo.foobar(), val2, "Static methods are public by default" ); // getter/setter method should not be a part of the prototype assert.equal( Foo.prototype.$, undefined, "Public static properties are *not* part of the prototype" ); } )(); /** * Same as above, but with getters/setters. We can only run this test if * getters/setters are supported by the engine running it. */ ( function testPublicStaticGettersSettersAreAccessibleViaClassDefinitionOnly() { // if unsupported, don't bother with the test if ( fallback ) { return; } // we must define in this manner so older engines won't blow up due to // syntax errors var def = {}, val = 'baz' called = []; Object.defineProperty( def, 'public static foo', { get: function() { return val; }, set: function() { called[ 0 ] = true; }, enumerable: true, } ); // should be public by default if not specified Object.defineProperty( def, 'static bar', { get: function() { return val; }, set: function() { called[ 1 ] = true; }, enumerable: true, } ); // define the class var Foo = builder.build( def ); assert.equal( Foo.foo, val, "Public static getters are accessible via class definition" ); Foo.foo = 'moo'; assert.equal( called[ 0 ], true, "Public static setters are accessible via class definition" ); assert.equal( Foo.bar, val, "Static getters are public by default" ); Foo.bar = 'moo'; assert.equal( called[ 1 ], true, "Static setters are public by default" ); // none of these should be available on the prototype assert.equal( Foo.prototype.foo, undefined, "Public static getters/getters are unavailable on prototype (0)" ); assert.equal( Foo.prototype.bar, undefined, "Public static getters/getters are unavailable on prototype (1)" ); } )(); /** * With non-static methods, 'this' is bound to the instance. In the case of * static members, we should bind to the class definition (equivalent of * this.__self). * * This functionality had already existed previously. When a propobj is not * available for an instance, it falls back. This serves as a regression test to * ensure this functionality remains. */ ( function testStaticMethodsNotBoundToInstance() { var result = null, Foo = builder.build( { 'public static foo': function() { result = this; }, } ); // call the static method Foo.foo(); // note that the objects themselves aren't the same, due to the property // object assert.equal( result.foo, Foo.foo, "Static members are bound to class definition rather than instance" ); } )(); /** * We don't have the benefit of static members being part of the prototype * chain. Inheritance is not automatic. This test deals only with ensuring that * *public* static members are inherited by subtypes. */ ( function testPublicStaticMembersAreInheritedBySubtypes() { var def = { 'public static foo': 'val', 'public static func': function() {}, 'public bla': 'moo', }; // also test getters/setters if supported if ( !fallback ) { Object.defineProperty( def, 'public static bar', { get: function() {}, set: function() {}, enumerable: true, } ); } var baz = 'foobar', Foo = builder.build( def ), // extends from the parent and adds an additional SubFoo = builder.build( Foo, { 'public static baz': baz } ), // simply extends from the parent (also serves as a check to ensure that // static members of *all* parents are inherited, not just the // immediate) SubSubFoo = builder.build( SubFoo, {} ) ; // properties assert.equal( SubFoo.$('foo'), Foo.$('foo'), "Public static properties are inherited by subtypes" ); assert.equal( SubSubFoo.$('foo'), Foo.$('foo'), "Public static properties are inherited by sub-subtypes" ); // methods assert.deepEqual( SubFoo.func, Foo.func, "Public static methods are inherited by subtypes" ); assert.deepEqual( SubSubFoo.func, Foo.func, "Public static methods are inherited by sub-subtypes" ); // merge assert.equal( SubFoo.$('baz'), baz, "Subtypes contain both inherited static members as well as their own" ); // getters/setters (if supported by engine) if ( !fallback ) { var super_data = Object.getOwnPropertyDescriptor( Foo, 'bar' ), sub_data = Object.getOwnPropertyDescriptor( SubFoo, 'bar' ), sub_sub_data = Object.getOwnPropertyDescriptor( SubSubFoo, 'bar' ) ; // getters assert.deepEqual( super_data.get, sub_data.get, "Public static getters are inherited by subtypes" ); assert.deepEqual( super_data.get, sub_sub_data.get, "Public static getters are inherited by sub-subtypes" ); // setters assert.deepEqual( super_data.set, sub_data.set, "Public static setters are inherited by subtypes" ); assert.deepEqual( super_data.set, sub_sub_data.set, "Public static setters are inherited by sub-subtypes" ); } } )(); /** * Static references should be inherited by subtypes. That is, modifying a * static property of a supertype should modify the same static property of the * subtype, so long as the subtype has not defined a property of the same name. */ ( function testPublicStaticPropertyReferencesAreInheritedBySubtypes() { var val = [ 1, 2, 3 ], val2 = [ 'a', 'b', 'c' ], Foo = builder.build( { 'public static bar': val, } ), SubFoo = builder.build( Foo, {} ) ; // the properties should reference the same object assert.ok( SubFoo.$('bar') === Foo.$('bar'), "Inherited static properties should share references" ); // setting a property on Foo should set the property on SubFoo and // vice-versa Foo.$( 'bar', val2 ); assert.deepEqual( Foo.$( 'bar' ), val2, "Can set static property values" ); assert.ok( Foo.$( 'bar' ) === SubFoo.$( 'bar' ), "Setting a static property value on a supertype also sets the value " + "on subtypes" ); SubFoo.$( 'bar', val ); assert.ok( Foo.$( 'bar' ) === SubFoo.$( 'bar' ) ); } )(); /** * Static members do not have the benefit of prototype chains. We must * implement our own means of traversing the inheritance tree. This is done by * checking to see if a class has defined the requested property, then * forwarding the call to the parent if it has not. * * The process of looking up the property is very important. hasOwnProperty is * used rather than checking for undefined, because they have drastically * different results. Setting a value to undefined (if hasOwnProperty were not * used) would effectively forward all requests to the base class (since no * property would be found), thereby preventing it from ever being written to * again. */ ( function testSettingsStaticPropertiesToUndefinedWillNotCorruptLookupProcess() { var val = 'baz', Foo = builder.build( { 'public static foo': '', } ) ; // first check to ensure we can set the value to null Foo.$( 'foo', null ); assert.strictEqual( Foo.$( 'foo' ), null, "Static properties may be set to null" ); // then undefined (this actually won't do anything) Foo.$( 'foo', undefined ); assert.strictEqual( Foo.$( 'foo' ), undefined, "Static properties may be set to undefined" ); // then set back to a scalar Foo.$( 'foo', val ); assert.equal( Foo.$( 'foo' ), val, "Setting static property to undefined does not corrupt lookup process" ); } )(); /** * Ensure that the proper context is returned by static property setters. It * should return the calling class, regardless of whether or not it owns the * property being requested. */ ( function testStaticPropertySettersReturnProperContext() { var Foo = builder.build( { 'public static foo': '', } ), SubFoo = builder.build( Foo, {} ) ; assert.ok( Foo.$( 'foo', 'val' ) === Foo, "Static property setter returns self" ); assert.ok( SubFoo.$( 'foo', 'val' ) === SubFoo, "Static property setter returns calling class, even if property is " + "owned by a supertype" ); } )(); /** * Users should not be permitted to set values of static properties that have * not been declared. */ ( function testAttemptingToSetUndeclaredStaticPropertyResultsInException() { assert.throws( function() { // should throw an exception since property 'foo' has not been // declared builder.build( {} ).$( 'foo', 'val' ); }, ReferenceError, "Attempting to set an undeclaraed static property results in an " + "exception" ); } )(); /** * Protected members should be available from within the class but shouldn't be * exposed to the world */ ( function testProtectedStaticMembersAreAvailableInsideClassOnly() { var val = 'foo', Foo = builder.build( { 'protected static prop': val, // the same rules should apply to methods 'protected static baz': function() { return val; }, // ensure method is accessible to static methods 'public static staticBaz': function() { return this.baz(); }, // ensure method is accessible to instance methods 'public instBaz': function() { return this.__self.baz(); }, 'public static staticGetProp': function() { return this.$('prop'); }, 'public instGetProp': function() { return this.__self.$('prop'); }, } ); assert.equal( Foo.baz, undefined, "Protected methods should not be accessible outside the class" ); assert.equal( Foo.staticBaz(), val, "Protected methods are accessible to static methods" ); assert.equal( Foo().instBaz(), val, "Protected methods are accessible to instance methods" ); assert.equal( Foo.staticGetProp(), val, "Protected static properties are accessible to static methods" ); assert.equal( Foo().instGetProp(), val, "Protected static properties are accessible to instance methods" ); } )(); /** * Same as above, but with getters/setters. We can only run this test if * getters/setters are supported by the engine running it. */ ( function testProtectedStaticGettersSettersAreAccessibleInsideClassesOnly() { // if unsupported, don't bother with the test if ( fallback ) { return; } // we must define in this manner so older engines won't blow up due to // syntax errors var def = { 'public static getProp': function() { // getters/setters are not accessed using the accessor method return this.foo; }, 'public static setProp': function( val ) { this.foo = val; }, }, val = 'baz' called = []; Object.defineProperty( def, 'protected static foo', { get: function() { return val; }, set: function() { called[ 0 ] = true; }, enumerable: true, } ); // define the class var Foo = builder.build( def ); assert.equal( Foo.getProp(), val, "Protected static getters are accessible from within the class" ); Foo.setProp( 'bla' ); assert.equal( called[ 0 ], true, "Protected static setters are accessible from within the class" ); assert.equal( Foo.foo, undefined, "Protected static getters/getters are not public" ); } )(); /** * As usual, protected members (in this case, static) should be inherited by * subtypes. * * Long function is long. Kids, don't do this at home. */ ( function testProtectedStaticMembersAreInheritedBySubtypes() { var val = 'baz', val2 = 'bazbaz', def = { 'protected static prop': val, 'protected static foo': function() { return val; }, }; // also test getters/setters if supported if ( !fallback ) { Object.defineProperty( def, 'protected static bar', { get: function() {}, set: function() {}, enumerable: true, } ); // used to get the property descriptor of a protected property def[ 'public static getPropDesc' ] = function( prop ) { return Object.getOwnPropertyDescriptor( this, prop ); }; } var Foo = builder.build( def ), SubFoo = builder.build( Foo, { 'public static bar': function() { return this.foo(); }, 'protected static foo2': function() { return val2; }, 'public static bar2': function() { return this.foo2(); }, 'public static getProp': function() { return this.$('prop'); }, } ), SubSubFoo = builder.build( SubFoo, {} ) ; assert.equal( SubFoo.bar(), val, "Subtypes inherit parents' protected static methods" ); assert.equal( SubFoo.bar2(), val2, "Static methods have access to other static methods in the same class" ); // for extra assurance, to ensure our recursive implementation is correct assert.equal( SubSubFoo.bar(), val, "Sub-subtypes inherit parents' protected static methods" ); assert.equal( SubFoo.getProp(), val, "Subtypes inherit parents' protected static properties" ); assert.equal( SubSubFoo.getProp(), val, "Sub-subtypes inherit parents' protected static properties" ); // getters/setters (if supported by engine) if ( !fallback ) { var super_data = Foo.getPropDesc( 'bar' ), sub_data = SubFoo.getPropDesc( 'bar' ), sub_sub_data = SubSubFoo.getPropDesc( 'bar' ) ; // getters assert.deepEqual( super_data.get, sub_data.get, "Protected static getters are inherited by subtypes" ); assert.deepEqual( super_data.get, sub_sub_data.get, "Protected static getters are inherited by sub-subtypes" ); // setters assert.deepEqual( super_data.set, sub_data.set, "Protected static setters are inherited by subtypes" ); assert.deepEqual( super_data.set, sub_sub_data.set, "Protected static setters are inherited by sub-subtypes" ); } } )(); /** * Private members should be available from within the class, but not outside of * it */ ( function testPrivateStaticMembersAreAvailableInsideClassOnly() { var val = 'foo', Foo = builder.build( { 'private static prop': val, // the same rules should apply to methods 'private static baz': function() { return val; }, // ensure method is accessible to static methods 'public static staticBaz': function() { return this.baz(); }, // ensure method is accessible to instance methods 'public instBaz': function() { return this.__self.baz(); }, 'public static staticGetProp': function() { return this.$('prop'); }, 'public instGetProp': function() { return this.__self.$('prop'); }, } ); assert.equal( Foo.baz, undefined, "Private methods should not be accessible outside the class" ); assert.equal( Foo.staticBaz(), val, "Private methods are accessible to static methods" ); assert.equal( Foo().instBaz(), val, "Private methods are accessible to instance methods" ); assert.equal( Foo.staticGetProp(), val, "Private static properties are accessible to static methods" ); assert.equal( Foo().instGetProp(), val, "Private static properties are accessible to instance methods" ); } )(); /** * Private static members should not be inherited by subtypes. Of course. Moving * along... */ ( function testPrivateStaticMembersAreNotInheritedBySubtypes() { var def = { 'private static prop': 'foo', 'private static priv': function() {}, }; if ( !fallback ) { Object.defineProperty( def, 'private static foo', { get: function() { return 'foo'; }, set: function() {}, enumerable: true, } ); } var Foo = builder.build( def ), SubFoo = builder.build( Foo, { 'public static getPriv': function() { return this.priv; }, 'public static getGetSet': function() { return this.foo; }, 'public static staticGetProp': function() { return this.$('prop'); }, 'public instGetProp': function() { return this.__self.$('prop'); }, } ) ; assert.equal( SubFoo.getPriv(), undefined, "Private static methods should not be inherited by subtypes" ); assert.equal( SubFoo.getGetSet(), undefined, "Private static getters/setters should not be inherited by subtypes" ); assert.equal( SubFoo().instGetProp(), undefined, "Private static properties should not be inherited by subtypes (inst)" ); assert.equal( SubFoo.staticGetProp(), undefined, "Private static properties should not be inherited by subtypes (static)" ); } )(); /** * Same as above, but with getters/setters. We can only run this test if * getters/setters are supported by the engine running it. */ ( function testPrivateStaticGettersSettersAreAccessibleInsideClassesOnly() { // if unsupported, don't bother with the test if ( fallback ) { return; } // we must define in this manner so older engines won't blow up due to // syntax errors var def = { 'public static getProp': function() { // getters/setters are not accessed using the accessor method return this.foo; }, 'public static setProp': function( val ) { this.foo = val; }, }, val = 'baz' called = []; Object.defineProperty( def, 'private static foo', { get: function() { return val; }, set: function() { called[ 0 ] = true; }, enumerable: true, } ); // define the class var Foo = builder.build( def ); assert.equal( Foo.getProp(), val, "Private static getters are accessible from within the class" ); Foo.setProp( 'bla' ); assert.equal( called[ 0 ], true, "Private static setters are accessible from within the class" ); assert.equal( Foo.foo, undefined, "Private static getters/getters are not public" ); } )(); /** * Public and protected static methods should be able to be overridden by * subtypes. We needn't test private methods, as they are not inherited. */ ( function testStaticMethodsCanBeOverriddenBySubtypes() { var val = 'bar', Foo = builder.build( { 'public static foo': function() {}, 'protected static bar': function() {}, } ), SubFoo = builder.build( Foo, { 'public static foo': function() { return val; }, 'public static prot': function() { return this.bar(); }, 'protected static bar': function() { return val; }, } ); assert.equal( SubFoo.foo(), val, "Public static methods can be overridden by subtypes" ); assert.equal( SubFoo.prot(), val, "Protected static methods can be overridden by subtypes" ); } )(); /** * This tests very closely to the implementation, which is not good. However, * it's important to protecting the data. The accessor method works off of * context, so it's important to ensure that the data will remain encapsulated * if the user attempts to be tricky and bind to a supertype. */ ( function testCannotExploitAccessorMethodToGainAccessToParentPrivateProps() { var Foo = builder.build( { 'private static foo': 'bar', } ), SubFoo = builder.build( Foo, { 'public static getParentPrivate': function() { return this.$.call( Foo, 'foo' ); } } ) ; assert.equal( SubFoo.getParentPrivate(), undefined, "Cannot exploit accses modifier to gain access to parent private props" ); } )(); /** * Static members cannot be overridden. Instead, static members can be *hidden* * if a member of the same name is defined by a subtype. */ ( function testCannotOverrideStaticMembers() { var val_orig = 'foobaz', val = 'foobar', Foo = builder.build( { 'public static prop': val_orig, 'public static foo': function() { return this.bar(); }, 'public static bar': function() { return val_orig; }, 'public static baz': function() { return this.$( 'prop' ); }, } ), SubFoo = builder.build( Foo, { 'public static prop': val, // override parent static method (this is truly overriding, not // hiding) 'public static bar': function() { return val; }, 'public static getProp': function() { return this.$( 'prop' ); } } ) ; // cannot override assert.notEqual( SubFoo.foo(), val, "System does not support overriding static methods" ); assert.notEqual( SubFoo.baz(), val, "System does not support overriding static properties" ); // but we can hide them assert.equal( SubFoo.bar(), val, "System supports static method hiding" ); assert.equal( SubFoo.getProp(), val, "System supports static property hiding" ); } )(); /** * Since members are statically bound, calls to parent methods should retain * access to their private members. */ ( function testCallsToParentStaticMethodsRetainPrivateMemberAccess() { var val = 'foobar', Foo = builder.build( { 'private static _priv': val, 'public static getPriv': function() { return this.$('_priv'); }, } ), SubFoo = builder.build( Foo, { 'public static getPriv2': function() { return this.getPriv(); }, } ) ; assert.equal( SubFoo.getPriv(), val, 'Calls to parent static methods should retain access to their own ' + 'private members when called externally' ); assert.equal( SubFoo.getPriv2(), val, 'Calls to parent static methods should retain access to their own ' + 'private members when called internally' ); } )();