/** * Tests class builder member restrictions * * Copyright (C) 2014 Mike Gerwitz * * This file is part of GNU ease.js. * * ease.js is free software: you can redistribute it and/or modify * it under the terms of the GNU 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 General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ require( 'common' ).testCase( { caseSetUp: function() { // XXX: the Sut is not directly tested; get rid of these! this.Class = this.require( 'class' ); this.AbstractClass = this.require( 'class_abstract' ); this.Sut = this.require( 'ClassBuilder' ); // weak flag test data this.weak = [ [ 'weak foo', 'foo' ], // former weak [ 'foo', 'weak foo' ], // latter weak [ 'weak foo', 'weak foo' ], // both weak ]; }, setUp: function() { this.builder = this.Sut( this.require( 'MemberBuilder' )(), this.require( 'VisibilityObjectFactoryFactory' ) .fromEnvironment() ); }, /** * It's always useful to be able to quickly reference a list of reserved * members so that an implementer can programatically handle runtime * cases. It's also useful for testing. */ 'Can retrieve a list of reserved members': function() { var reserved = this.Sut.getReservedMembers(); this.assertOk( reserved instanceof Object, "Can retrieve hash of reserved members" ); }, /** * Ability to alter the reserved members list would permit implementors * to break compatibility with libraries that use the reserved members * being added. Furthermore, it could add unintended consequences if a * reserved member were removed from the list and used. To put it * simply, it could cause complete and utter chaos. As such, no. No, no, * no. * * It is of course true that future versions of ease.js could add * additional reserved members, which is why one should never prefix * their variables in the same manner ease.js does for reserved members. * But let's leave that to ease.js, shall we? */ 'Cannot modify internal reserved members list': function() { var val = 'foo'; // attempt to add to list this.Sut.getReservedMembers().foo = val; this.assertNotEqual( this.Sut.getReservedMembers().foo, val, "Cannot alter internal list of reserved members" ); }, /** * This test is to ensure that nobody (a) removes reserved members * without understanding the consequences or (b) adds reserved members * without properly documenting them. */ 'Proper members are reserved': function() { var chk = [ '__initProps', 'constructor' ], i = chk.length, reserved = this.Sut.getReservedMembers(); while ( i-- ) { var cur = chk[ i ]; this.assertOk( reserved.hasOwnProperty( cur ), "Member '" + cur + "' should be reserved" ); delete reserved[ cur ]; } // ensure there are no others that we didn't expect for ( var name in reserved ) { this.assertFail( "Untested reserved member found: " + name ); } }, /** * Ensure that each of the reserved members will throw an exception if * they are used. */ 'All reserved members are actually reserved': function() { var _self = this, reserved = this.Sut.getReservedMembers(), count = 0; // test each of the reserved members for ( var name in reserved ) { // properties this.assertThrows( function() { var obj = {}; obj[ name ] = ''; _self.Class( obj ); }, Error, "Reserved members cannot be used in class definitions as " + "properties" ); // methods this.assertThrows( function() { var obj = {}; obj[ name ] = function() {}; _self.Class( obj ); }, Error, "Reserved members cannot be used in class definitions as " + "methods" ); count++; } // ensure we weren't provided an empty object this.assertNotEqual( count, 0, "Reserved memebers were tested" ); }, /** * We want these available for the same reason that we want the * restricted members available (see above) */ 'Can retrieve list of forced public methods': function() { var pub = this.Sut.getForcedPublicMethods(), count = 0; this.assertOk( pub instanceof Object, "Can retrieve hash of forced-public methods" ); for ( var name in pub ) { count++; } // ensure we weren't provided an empty object this.assertNotEqual( count, 0, "Forced-public method list is not empty" ); }, /** * See above. Same reason that we don't want reserved members to be * modified. */ 'Cannot modify internal forced public methods list': function() { var val = 'foo'; // attempt to add to list this.Sut.getForcedPublicMethods().foo = val; this.assertNotEqual( this.Sut.getForcedPublicMethods().foo, val, "Cannot alter internal list of forced-public methods" ); }, /** * Ensure that an exception will be thrown for each forced-public method * that is not declared as public in the class definition. */ 'All forced public methods are forced to public': function() { var _self = this, pub = this.Sut.getForcedPublicMethods(); // test each of the reserved members for ( var name in pub ) { this.assertThrows( function() { var obj = {}; obj[ 'private ' + name ] = function() {}; _self.Class( obj ); }, Error, "Forced-public methods must be declared as public" ); } }, /** * If different keywords are used, then a definition object could * contain two members of the same name. This is probably a bug in the * user's implementation, so we should flip our shit. * * But, see the next test. */ 'Cannot define two members of the same name': function() { var _self = this; this.assertThrows( function() { // duplicate foos _self.Class( { 'public foo': function() {}, 'protected foo': function() {}, } ); } ); }, /** * Code generation tools may find it convenient to declare a duplicate * member without knowing whether or not a duplicate will exist; this * may save time and complexity when ease.js has been designed to handle * certain situations. If at least one of the conflicting members has * been flagged as `weak', then we should ignore the error. * * As an example, this is used interally with ease.js to inherit * abstract members from traits while still permitting concrete * definitions. */ '@each(weak) Can define members of the same name if one is weak': function( weak ) { // TODO: this makes assumptions about how the code works; the code // needs to be refactored to permit more sane testing (since right // now it'd be a clusterfuck) var dfn = {}; dfn[ 'abstract ' + weak[ 0 ] ] = []; dfn[ 'abstract ' + weak[ 1 ] ] = []; var _self = this; this.assertDoesNotThrow( function() { _self.AbstractClass( dfn ); } ); }, } );