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mediawiki-extensions-Visual.../modules/ve/test/ve.test.js
Timo Tijhof b11bbed7a6 JSDuck: Generated code documentation! 
See CODING.md for how to run it.

Mistakes fixed:
* Warning: Unknown type function
  -> Function
* Warning: Unknown type DOMElement
  -> HTMLElement
* Warning: Unknown type DOM Node
  -> HTMLElement
* Warning: Unknown type Integer
  -> Mixed
* Warning: Unknown type Command
  -> ve.Command
* Warning: Unknown type any
  -> number
* Warning: Unknown type ve.Transaction
  -> ve.dm.Transaction
* Warning: Unknown type ve.dm.AnnotationSet
  -> ve.AnnotationSet
* Warning: Unknown type false
  -> boolean
* Warning: Unknown type ve.dm.AlienNode
  ve.dm doesn't have a generic AlienNode like ve.ce
  -> Unknown type ve.dm.AlienInlineNode|ve.dm.AlienBlockNode
* Warning: Unknown type ve.ve.Surface
  -> ve.ce.Surface
* ve.example.lookupNode:
  -> Last @param should be @return
* ve.dm.Transaction.prototype.pushReplace:
  -> @param {Array] should be @param {Array}
* Warning: ve.BranchNode.js:27: {@link ve.Node#hasChildren} links to non-existing member
  -> (removed)
* Warning: ve.LeafNode.js:21: {@link ve.Node#hasChildren} links to non-existing member
  -> (removed)

Differences fixed:
* Variadic arguments are like @param {Type...} [name]
  instead of @param {Type} [name...]
* Convert all file headers from /** to /*! because JSDuck tries
  to parse all /** blocks and fails to parse with all sorts of
   errors for "Global property", "Unnamed property", and
  "Duplicate property".
  Find: \/\*\*([^@]+)(@copyright)
  Replace: /*!$1$2
* Indented blocks are considered code examples.
  A few methods had documentation with numbered lists that were
  indented, which have now been updated to not be intended.
* The free-form text descriptions are parsed with Markdown,
  which requires lists to be separated from paragraphs by an
  empty line.
  And we should use `backticks` instead of {braces} for inline
  code in text paragraphs.
* Doc blocks for classes and their constructor have to be
  in the correct order (@constructor, @param, @return must be
  before @class, @abstract, @extends etc.)
* `@extends Class` must not have Class {wrapped}
* @throws must start with a {Type}
* @example means something else. It is used for an  inline demo
  iframe, not code block. For that simply indent with spaces.
* @member means something else.
  Non-function properties are marked with @property, not @member.
* To create a link to a class or member, in most cases the name
  is enough to create a link. E.g. Foo, Foo.bar, Foo.bar#quux,
  where a hash stands for "instance member", so Foo.bar#quux,
  links to Foo.bar.prototype.quux (the is not supported, as
  "prototype" is considered an implementation detail, it only
  indexes class name and method name).
  If the magic linker doesn't work for some case, the
  verbose syntax is {@link #target label}.
* @property can't have sub-properties (nested @param and @return
  values are supported, only @static @property can't be nested).
  We only have one case of this, which can be worked around by
  moving those in a new virtual class. The code is unaltered
  (only moved down so that it isn't with the scope of the main
  @class block). ve.dm.TransactionProcessor.processors.

New:
* @mixins: Classes mixed into the current class.
* @event: Events that can be emitted by a class. These are also
  inherited by subclasses. (+ @param, @return and @preventable).
  So ve.Node#event-attach is inherited to ve.dm.BreakNode,
  just like @method is.
* @singleton: Plain objects such as ve, ve.dm, ve.ce were missing
  documentation causing a tree error. Documented those as a
  JSDuck singleton, which they but just weren't documented yet.
  NB: Members of @singleton don't need @static (if present,
  triggers a compiler warning).
* @chainable: Shorthand for "@return this". We were using
  "@return {classname}" which is ambiguous (returns the same
  instance or another instance?), @chainable is specifically
  for "@return this". Creates proper labels in the generated
  HTML pages.

Removed:
* @mixin: (not to be confused with @mixins). Not supported by
  JSDuck. Every class is standalone anyway. Where needed marked
  them @class + @abstract instead.

Change-Id: I6a7c9e8ee8f995731bc205d666167874eb2ebe23
2013-01-05 01:16:32 +01:00

572 lines
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JavaScript
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/*!
* VisualEditor Base method tests.
*
* @copyright 2011-2012 VisualEditor Team and others; see AUTHORS.txt
* @license The MIT License (MIT); see LICENSE.txt
*/
QUnit.module( 've' );
/* Tests */
// ve.createObject: Tested upstream (K-js)
QUnit.test( 'inheritClass', 16, function ( assert ) {
var foo, bar;
function Foo() {
this.constructedFoo = true;
}
Foo.a = 'prop of Foo';
Foo.b = 'prop of Foo';
Foo.prototype.b = 'proto of Foo';
Foo.prototype.c = 'proto of Foo';
Foo.prototype.bFn = function () {
return 'proto of Foo';
};
Foo.prototype.cFn = function () {
return 'proto of Foo';
};
foo = new Foo();
function Bar() {
this.constructedBar = true;
}
ve.inheritClass( Bar, Foo );
assert.deepEqual(
Foo.static,
{},
'A "static" property (empty object) is automatically created if absent'
);
Foo.static.a = 'static of Foo';
Foo.static.b = 'static of Foo';
assert.notStrictEqual( Foo.static, Bar.static, 'Static property is not copied, but inheriting' );
assert.equal( Bar.static.a, 'static of Foo', 'Foo.static inherits from Bar.static' );
Bar.static.b = 'static of Bar';
assert.equal( Foo.static.b, 'static of Foo', 'Change to Bar.static does not affect Foo.static' );
Bar.a = 'prop of Bar';
Bar.prototype.b = 'proto of Bar';
Bar.prototype.bFn = function () {
return 'proto of Bar';
};
bar = new Bar();
assert.strictEqual(
Bar.b,
undefined,
'Constructor properties are not inherited'
);
assert.strictEqual(
foo instanceof Foo,
true,
'foo instance of Foo'
);
assert.strictEqual(
foo instanceof Bar,
false,
'foo not instance of Bar'
);
assert.strictEqual(
bar instanceof Foo,
true,
'bar instance of Foo'
);
assert.strictEqual(
bar instanceof Bar,
true,
'bar instance of Bar'
);
assert.equal( bar.constructor, Bar, 'constructor property is restored' );
assert.equal( bar.b, 'proto of Bar', 'own methods go first' );
assert.equal( bar.bFn(), 'proto of Bar', 'own properties go first' );
assert.equal( bar.c, 'proto of Foo', 'prototype properties are inherited' );
assert.equal( bar.cFn(), 'proto of Foo', 'prototype methods are inherited' );
Bar.prototype.dFn = function () {
return 'proto of Bar';
};
Foo.prototype.dFn = function () {
return 'proto of Foo';
};
Foo.prototype.eFn = function () {
return 'proto of Foo';
};
assert.equal( bar.dFn(), 'proto of Bar', 'inheritance is live (overwriting an inherited method)' );
assert.equal( bar.eFn(), 'proto of Foo', 'inheritance is live (adding a new method deeper in the chain)' );
});
// ve.mixinClass: Tested upstream (K-js)
// ve.cloneObject: Tested upstream (K-js)
// ve.isPlainObject: Tested upstream (jQuery)
// ve.isEmptyObject: Tested upstream (jQuery)
// ve.isArray: Tested upstream (jQuery)
// ve.bind: Tested upstream (jQuery)
// ve.indexOf: Tested upstream (jQuery)
// ve.extendObject: Tested upstream (jQuery)
QUnit.test( 'getHash: Basic usage', 5, function ( assert ) {
var tmp, hash, objects;
objects = {};
objects['a-z literal'] = {
a: 1,
b: 1,
c: 1
};
objects['z-a literal'] = {
c: 1,
b: 1,
a: 1
};
tmp = {};
objects['a-z augmented'] = tmp;
tmp.a = 1;
tmp.b = 1;
tmp.c = 1;
tmp = {};
objects['z-a augmented'] = tmp;
tmp.c = 1;
tmp.b = 1;
tmp.a = 1;
hash = '{"a":1,"b":1,"c":1}';
$.each( objects, function ( key, val ) {
assert.equal(
ve.getHash( val ),
hash,
'Similar enough objects have the same hash, regardless of "property order"'
);
});
// .. and that something completely different is in face different
// (just incase getHash is broken and always returns the same)
assert.notEqual(
ve.getHash( { a: 2, b: 2 } ),
hash,
'A different object has a different hash'
);
} );
QUnit.test( 'getHash: Complex usage', 4, function ( assert ) {
var obj, hash, frame;
obj = {
a: 1,
b: 1,
c: 1,
// Nested array
d: ['x', 'y', 'z'],
e: {
a: 2,
b: 2,
c: 2
}
};
assert.equal(
ve.getHash( obj ),
'{"a":1,"b":1,"c":1,"d":["x","y","z"],"e":{"a":2,"b":2,"c":2}}',
'Object with nested array and circular reference'
);
// Include a circular reference
obj.f = obj;
assert.throws( function () {
ve.getHash( obj );
}, 'Throw exceptions for objects with cirular refences ' );
function Foo() {
this.a = 1;
this.c = 3;
this.b = 2;
}
hash = '{"a":1,"b":2,"c":3}';
assert.equal(
ve.getHash( new Foo() ),
hash,
// This was previously broken when we used .constructor === Object
// ve.getHash.keySortReplacer, because although instances of Foo
// do inherit from Object (( new Foo() ) instanceof Object === true),
// direct comparison would return false.
'Treat objects constructed by a function as well'
);
frame = document.createElement( 'frame' );
frame.src = 'about:blank';
$( '#qunit-fixture' ).append( frame );
obj = new frame.contentWindow.Object();
obj.c = 3;
obj.b = 2;
obj.a = 1;
assert.equal(
ve.getHash( obj ),
hash,
// This was previously broken when we used comparison with "Object" in
// ve.getHash.keySortReplacer, because they are an instance of the other
// window's "Object".
'Treat objects constructed by a another window as well'
);
} );
QUnit.test( 'getObjectValues', 6, function ( assert ) {
var tmp;
assert.deepEqual(
ve.getObjectValues( { a: 1, b: 2, c: 3, foo: 'bar' } ),
[ 1, 2, 3, 'bar' ],
'Simple object with numbers and strings as values'
);
assert.deepEqual(
ve.getObjectValues( [ 1, 2, 3, 'bar' ] ),
[ 1, 2, 3, 'bar' ],
'Simple array with numbers and strings as values'
);
tmp = function () {
this.isTest = true;
return this;
};
tmp.a = 'foo';
tmp.b = 'bar';
assert.deepEqual(
ve.getObjectValues( tmp ),
['foo', 'bar'],
'Function with properties'
);
assert.throws(
function () {
ve.getObjectValues( 'hello' );
},
TypeError,
'Throw exception for non-object (string)'
);
assert.throws(
function () {
ve.getObjectValues( 123 );
},
TypeError,
'Throw exception for non-object (number)'
);
assert.throws(
function () {
ve.getObjectValues( null );
},
TypeError,
'Throw exception for non-object (null)'
);
} );
QUnit.test( 'copyArray', 6, function ( assert ) {
var simpleArray = [ 'foo', 3 ],
withObj = [ { 'bar': 'baz', 'quux': 3 }, 5, null ],
nestedArray = [ [ 'a', 'b' ], [ 1, 3, 4 ] ],
sparseArray = [ 'a', undefined, undefined, 'b' ],
withSparseArray = [ [ 'a', undefined, undefined, 'b' ] ],
Cloneable = function ( p ) {
this.p = p;
};
Cloneable.prototype.clone = function () {
return new Cloneable( this.p + '-clone' );
};
assert.deepEqual(
ve.copyArray( simpleArray ),
simpleArray,
'Simple array'
);
assert.deepEqual(
ve.copyArray( withObj ),
withObj,
'Array containing object'
);
assert.deepEqual(
ve.copyArray( [ new Cloneable( 'bar' ) ] ),
[ new Cloneable( 'bar-clone' ) ],
'Use the .clone() method if available'
);
assert.deepEqual(
ve.copyArray( nestedArray ),
nestedArray,
'Nested array'
);
assert.deepEqual(
ve.copyArray( sparseArray ),
sparseArray,
'Sparse array'
);
assert.deepEqual(
ve.copyArray( withSparseArray ),
withSparseArray,
'Nested sparse array'
);
} );
QUnit.test( 'copyObject', 6, function ( assert ) {
var simpleObj = { 'foo': 'bar', 'baz': 3, 'quux': null },
nestedObj = { 'foo': { 'bar': 'baz', 'quux': 3 }, 'whee': 5 },
withArray = { 'foo': [ 'a', 'b' ], 'bar': [ 1, 3, 4 ] },
withSparseArray = { 'foo': [ 'a', undefined, undefined, 'b' ] },
Cloneable = function ( p ) {
this.p = p;
};
Cloneable.prototype.clone = function () { return new Cloneable( this.p + '-clone' ); };
assert.deepEqual(
ve.copyObject( simpleObj ),
simpleObj,
'Simple object'
);
assert.deepEqual(
ve.copyObject( nestedObj ),
nestedObj,
'Nested object'
);
assert.deepEqual(
ve.copyObject( new Cloneable( 'foo' ) ),
new Cloneable( 'foo-clone' ),
'Cloneable object'
);
assert.deepEqual(
ve.copyObject( { 'foo': new Cloneable( 'bar' ) } ),
{ 'foo': new Cloneable( 'bar-clone' ) },
'Object containing object'
);
assert.deepEqual(
ve.copyObject( withArray ),
withArray,
'Object with array'
);
assert.deepEqual(
ve.copyObject( withSparseArray ),
withSparseArray,
'Object with sparse array'
);
} );
QUnit.test( 'getDomAttributes', 1, function ( assert ) {
assert.deepEqual(
ve.getDomAttributes( $( '<div foo="bar" baz quux=3></div>').get( 0 ) ),
{ 'foo': 'bar', 'baz': '', 'quux': '3' },
'getDomAttributes() returns object with correct attributes'
);
} );
QUnit.test( 'setDomAttributes', 3, function ( assert ) {
var element = document.createElement( 'div' );
ve.setDomAttributes( element, { 'foo': 'bar', 'baz': '', 'quux': 3 } );
assert.deepEqual(
ve.getDomAttributes( element ),
{ 'foo': 'bar', 'baz': '', 'quux': '3' },
'setDomAttributes() sets attributes correctly'
);
ve.setDomAttributes( element, { 'foo': null, 'bar': 1, 'baz': undefined, 'quux': 5, 'whee': 'yay' } );
assert.deepEqual(
ve.getDomAttributes( element ),
{ 'bar': '1', 'quux': '5', 'whee': 'yay' },
'setDomAttributes() overwrites attributes, removes attributes, and sets new attributes'
);
ve.setDomAttributes( element, { 'onclick': 'alert(1);' }, ['foo', 'bar', 'baz', 'quux', 'whee'] );
assert.ok( !element.hasAttribute( 'onclick' ), 'event attributes are blocked when sanitizing' );
} );
QUnit.test( 'getOpeningHtmlTag', 5, function ( assert ) {
assert.deepEqual(
ve.getOpeningHtmlTag( 'code', {} ),
'<code>',
'opening tag without attributes'
);
assert.deepEqual(
ve.getOpeningHtmlTag( 'img', { 'src': 'foo' } ),
'<img src="foo">',
'opening tag with one attribute'
);
assert.deepEqual(
ve.getOpeningHtmlTag( 'a', { 'href': 'foo', 'rel': 'bar' } ),
'<a href="foo" rel="bar">',
'tag with two attributes'
);
assert.deepEqual(
ve.getOpeningHtmlTag( 'option', { 'selected': true, 'blah': false, 'value': 3 } ),
'<option selected="selected" value="3">',
'handling of booleans and numbers'
);
assert.deepEqual(
ve.getOpeningHtmlTag( 'input', { 'placeholder': '<foo>&"bar"&\'baz\'' } ),
'<input placeholder="&lt;foo&gt;&amp;&quot;bar&quot;&amp;&#039;baz&#039;">',
'escaping of attribute values'
);
} );
( function () {
var plainObj, funcObj, arrObj;
plainObj = {
'foo': 3,
'bar': {
'baz': null,
'quux': {
'whee': 'yay'
}
}
};
funcObj = function abc( d ) { return d; };
funcObj.foo = 3;
funcObj.bar = {
'baz': null,
'quux': {
'whee': 'yay'
}
};
arrObj = ['a', 'b', 'c'];
arrObj.foo = 3;
arrObj.bar = {
'baz': null,
'quux': {
'whee': 'yay'
}
};
$.each( {
'Object': plainObj,
'Function': funcObj,
'Array': arrObj
}, function ( type, obj ) {
QUnit.test( 'getProp( ' + type + ' )', 9, function ( assert ) {
assert.deepEqual(
ve.getProp( obj, 'foo' ),
3,
'single key'
);
assert.deepEqual(
ve.getProp( obj, 'bar' ),
{ 'baz': null, 'quux': { 'whee': 'yay' } },
'single key, returns object'
);
assert.deepEqual(
ve.getProp( obj, 'bar', 'baz' ),
null,
'two keys, returns null'
);
assert.deepEqual(
ve.getProp( obj, 'bar', 'quux', 'whee' ),
'yay',
'three keys'
);
assert.deepEqual(
ve.getProp( obj, 'x' ),
undefined,
'missing property returns undefined'
);
assert.deepEqual(
ve.getProp( obj, 'foo', 'bar' ),
undefined,
'missing 2nd-level property returns undefined'
);
assert.deepEqual(
ve.getProp( obj, 'foo', 'bar', 'baz', 'quux', 'whee' ),
undefined,
'multiple missing properties don\'t cause an error'
);
assert.deepEqual(
ve.getProp( obj, 'bar', 'baz', 'quux' ),
undefined,
'accessing property of null returns undefined, doesn\'t cause an error'
);
assert.deepEqual(
ve.getProp( obj, 'bar', 'baz', 'quux', 'whee', 'yay' ),
undefined,
'accessing multiple properties of null'
);
} );
QUnit.test( 'setProp( ' + type + ' )' , 7, function ( assert ) {
ve.setProp( obj, 'foo', 4 );
assert.deepEqual( 4, obj.foo, 'setting an existing key with depth 1' );
ve.setProp( obj, 'test', 'TEST' );
assert.deepEqual( 'TEST', obj.test, 'setting a new key with depth 1' );
ve.setProp( obj, 'bar', 'quux', 'whee', 'YAY' );
assert.deepEqual( 'YAY', obj.bar.quux.whee, 'setting an existing key with depth 3' );
ve.setProp( obj, 'bar', 'a', 'b', 'c' );
assert.deepEqual( 'c', obj.bar.a.b, 'setting two new keys within an existing key' );
ve.setProp( obj, 'a', 'b', 'c', 'd', 'e', 'f' );
assert.deepEqual( 'f', obj.a.b.c.d.e, 'setting new keys with depth 5' );
ve.setProp( obj, 'bar', 'baz', 'whee', 'wheee', 'wheeee' );
assert.deepEqual( null, obj.bar.baz, 'descending into null fails silently' );
ve.setProp( obj, 'foo', 'bar', 'baz', 5 );
assert.deepEqual( undefined, obj.foo.bar, 'descending into a non-object fails silently' );
} );
} );
}() );
QUnit.test( 'batchSplice', 8, function ( assert ) {
var actual = [ 'a', 'b', 'c', 'd', 'e' ], expected = actual.slice( 0 ), bigArr = [],
actualRet, expectedRet, i;
actualRet = ve.batchSplice( actual, 1, 1, [] );
expectedRet = expected.splice( 1, 1 );
assert.deepEqual( expectedRet, actualRet, 'removing 1 element (return value)' );
assert.deepEqual( expected, actual, 'removing 1 element (array)' );
actualRet = ve.batchSplice( actual, 3, 2, [ 'w', 'x', 'y', 'z' ] );
expectedRet = expected.splice( 3, 2, 'w', 'x', 'y', 'z' );
assert.deepEqual( expectedRet, actualRet, 'replacing 2 elements with 4 elements (return value)' );
assert.deepEqual( expected, actual, 'replacing 2 elements with 4 elements (array)' );
actualRet = ve.batchSplice( actual, 0, 0, [ 'f', 'o', 'o' ] );
expectedRet = expected.splice( 0, 0, 'f', 'o', 'o' );
assert.deepEqual( expectedRet, actualRet, 'inserting 3 elements (return value)' );
assert.deepEqual( expected, actual, 'inserting 3 elements (array)' );
for ( i = 0; i < 2100; i++ ) {
bigArr[i] = i;
}
actualRet = ve.batchSplice( actual, 2, 3, bigArr );
expectedRet = expected.splice.apply( expected, [2, 3].concat( bigArr.slice( 0, 1050 ) ) );
expected.splice.apply( expected, [1052, 0].concat( bigArr.slice( 1050 ) ) );
assert.deepEqual( expectedRet, actualRet, 'replacing 3 elements with 2100 elements (return value)' );
assert.deepEqual( expected, actual, 'replacing 3 elements with 2100 elements (array)' );
} );
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