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easejs/test/test-member_builder-method.js

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/**
* Tests method builder
*
* 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 <http://www.gnu.org/licenses/>.
*
* @author Mike Gerwitz
* @package test
*/
var common = require( './common' ),
assert = require( 'assert' ),
mb_common = require( './inc-member_builder-common' )
;
mb_common.funcVal = 'foobar';
mb_common.value = function() { return mb_common.funcVal; };
mb_common.buildMember = common.require( 'member_builder' ).buildMethod;
// do assertions common to all member builders
mb_common.assertCommon();
/**
* One may question the purpose of this assertion. Why should we not permit
* overriding properties with methods? It's useful to be able to store callbacks
* and such within properties.
*
* Yes, it is. However, that would be misinterpreting the purpose of the method
* builder. Here, we are working with prototypes, not class instances. If the
* user wishes to assign a function to the property (so long as it's permitted
* by the type definition) after the class is instantiated, he/she may go right
* ahead. However, if we modify the prototype to use a function, then the
* prototype will interpret the function as a method. As such, the method cannot
* be overridden with a property in the future. To avoid this confusing
* scenario, we'll prevent it from occurring entirely.
*/
( function testCannotOverridePropertyWithMethod()
{
mb_common.value = 'moofoo';
mb_common.funcVal = undefined;
mb_common.buildMemberQuick();
assert.throws( function()
{
// attempt to override with function
mb_common.value = function() {};
mb_common.buildMemberQuick( {}, true );
}, TypeError, "Cannot override property with method" );
} )();
/**
* To ensure interfaces of subtypes remain compatible with that of their
* supertypes, the parameter lists must match and build upon each other.
*/
( function testMethodOverridesMustHaveEqualOrGreaterParameters()
{
mb_common.value = function( one, two ) {};
mb_common.buildMemberQuick();
assert.doesNotThrow( function()
{
mb_common.buildMemberQuick( {}, true );
}, TypeError, "Method can have equal number of parameters" );
assert.doesNotThrow( function()
{
mb_common.value = function( one, two, three ) {};
mb_common.buildMemberQuick( {}, true );
}, TypeError, "Method can have greater number of parameters" );
assert.throws( function()
{
mb_common.value = function( one ) {};
mb_common.buildMemberQuick( {}, true );
}, TypeError, "Method cannot have lesser number of parameters" );
} )();
/**
* The __super property is defined for method overrides and permits invoking the
* overridden method (method of the supertype).
*
* In this test, we are not looking to assert that __super matches the super
* method. Rather, we want to ensure it /invokes/ it. This is because the super
* method may be wrapped to provide additional functionality. We don't know, we
* don't care. We just want to make sure it's functioning properly.
*/
( function testOverridenMethodShouldContainReferenceToSuperMethod()
{
var orig_called = false;
// "super" method
mb_common.value = function()
{
orig_called = true;
};
mb_common.buildMemberQuick();
// override method
mb_common.value = function()
{
assert.notEqual(
this.__super,
undefined,
"__super is defined for overridden method"
);
this.__super();
assert.equal(
orig_called,
true,
"Invoking __super calls super method"
);
};
mb_common.buildMemberQuick( {}, true );
// invoke the method
mb_common.members[ 'public' ][ mb_common.name ]();
} )();
/**
* Once a concrete implementation has been defined for a method, a subtype
* cannot make it abstract.
*/
( function testCannotOverrideConcreteMethodWithAbstractMethod()
{
// concrete method
mb_common.value = function() {};
mb_common.buildMemberQuick();
assert.throws( function()
{
mb_common.buildMemberQuick( { 'abstract': true }, true );
}, TypeError, "Cannot override concrete method with abstract method" );
} )();
/**
* One of the powerful features of the method builder is the ability to pass in
* an instance to be bound to 'this' when invoking a method. This has some
* important consequences, such as the ability to implement protected/private
* members.
*/
( function testMethodInvocationBindsThisToPassedInstance()
{
var instance = function() {},
val = 'fooboo',
val2 = 'fooboo2',
iid = 1,
func = function()
{
return this.foo;
},
func2 = function()
{
return this.foo2;
},
called = false,
instCallback = function()
{
called = true;
return instance;
},
members = { 'public': {}, 'protected': {}, 'private': {} }
;
// set instance values
instance.foo = val;
instance.foo2 = val2;
// concrete method
mb_common.buildMember(
members,
exports.meta,
'func',
func,
[ 'public' ],
instCallback
);
assert.equal(
members[ 'public' ].func(),
val,
"Calling method will bind 'this' to passed instance"
);
// override method
mb_common.buildMember(
members,
exports.meta,
'func',
func2,
[ 'public' ],
instCallback
);
assert.equal(
members[ 'public' ].func(),
val2,
"Calling method override will bind 'this' to passed instance"
);
} )();
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