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RohacekD/PageBuilder_.idea_.name

Created April 30, 2014 08:19
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Raw
PageBuilder_.idea_.name
PageBuilder
Raw
PageBuilder_.idea_encodings.xml
<?xml version="1.0" encoding="UTF-8"?>
<project version="4">
<component name="Encoding" useUTFGuessing="true" native2AsciiForPropertiesFiles="false" />
</project>
Raw
PageBuilder_.idea_misc.xml
<?xml version="1.0" encoding="UTF-8"?>
<project version="4">
<component name="ProjectRootManager" version="2" />
</project>
Raw
PageBuilder_.idea_modules.xml
<?xml version="1.0" encoding="UTF-8"?>
<project version="4">
<component name="ProjectModuleManager">
<modules>
<module fileurl="file://$PROJECT_DIR$/.idea/PageBuilder.iml" filepath="$PROJECT_DIR$/.idea/PageBuilder.iml" />
</modules>
</component>
</project>
Raw
PageBuilder_.idea_PageBuilder.iml
<?xml version="1.0" encoding="UTF-8"?>
<module type="WEB_MODULE" version="4">
<component name="NewModuleRootManager">
<content url="file://$MODULE_DIR$" />
<orderEntry type="inheritedJdk" />
<orderEntry type="sourceFolder" forTests="false" />
</component>
</module>
Raw
PageBuilder_.idea_scopes_scope_settings.xml
<component name="DependencyValidationManager">
<state>
<option name="SKIP_IMPORT_STATEMENTS" value="false" />
</state>
</component>
Raw
PageBuilder_.idea_vcs.xml
<?xml version="1.0" encoding="UTF-8"?>
<project version="4">
<component name="VcsDirectoryMappings">
<mapping directory="" vcs="" />
</component>
</project>
Raw
PageBuilder_API_Project.php
<?php
$ret = array();
$ret[0]['name']="Prvni projekt";
$ret[1]['name']="Druhy projekt";
$ret[0]['id']=0;
$ret[1]['id']=1;
$ret[0]["author"]="Ratan";
$ret[1]["author"]="Ratan";
echo json_encode($ret[$_GET['id']]);
Raw
PageBuilder_API_Projects.php
<?php
$ret = array();
$ret["0"]['name']="Prvni projekt";
$ret["1"]['name']="Druhy projekt";
$ret["0"]['id']=0;
$ret["1"]['id']=1;
$ret["0"]["author"]="Ratan";
$ret["1"]["author"]="Ratan";
echo json_encode($ret);
Raw
PageBuilder_css_normalize.css
/*! normalize.css v2.1.3 | MIT License | git.io/normalize */
/* ==========================================================================
HTML5 display definitions
========================================================================== */
/**
* Correct `block` display not defined in IE 8/9.
*/
article,
aside,
details,
figcaption,
figure,
footer,
header,
hgroup,
main,
nav,
section,
summary {
display: block;
}
/**
* Correct `inline-block` display not defined in IE 8/9.
*/
audio,
canvas,
video {
display: inline-block;
}
/**
* Prevent modern browsers from displaying `audio` without controls.
* Remove excess height in iOS 5 devices.
*/
audio:not([controls]) {
display: none;
height: 0;
}
/**
* Address `[hidden]` styling not present in IE 8/9.
* Hide the `template` element in IE, Safari, and Firefox < 22.
*/
[hidden],
template {
display: none;
}
/* ==========================================================================
Base
========================================================================== */
/**
* 1. Set default font family to sans-serif.
* 2. Prevent iOS text size adjust after orientation change, without disabling
* user zoom.
*/
html {
font-family: sans-serif; /* 1 */
-ms-text-size-adjust: 100%; /* 2 */
-webkit-text-size-adjust: 100%; /* 2 */
}
/**
* Remove default margin.
*/
body {
margin: 0;
}
/* ==========================================================================
Links
========================================================================== */
/**
* Remove the gray background color from active links in IE 10.
*/
a {
background: transparent;
}
/**
* Address `outline` inconsistency between Chrome and other browsers.
*/
a:focus {
outline: thin dotted;
}
/**
* Improve readability when focused and also mouse hovered in all browsers.
*/
a:active,
a:hover {
outline: 0;
}
/* ==========================================================================
Typography
========================================================================== */
/**
* Address variable `h1` font-size and margin within `section` and `article`
* contexts in Firefox 4+, Safari 5, and Chrome.
*/
h1 {
font-size: 2em;
margin: 0.67em 0;
}
/**
* Address styling not present in IE 8/9, Safari 5, and Chrome.
*/
abbr[title] {
border-bottom: 1px dotted;
}
/**
* Address style set to `bolder` in Firefox 4+, Safari 5, and Chrome.
*/
b,
strong {
font-weight: bold;
}
/**
* Address styling not present in Safari 5 and Chrome.
*/
dfn {
font-style: italic;
}
/**
* Address differences between Firefox and other browsers.
*/
hr {
-moz-box-sizing: content-box;
box-sizing: content-box;
height: 0;
}
/**
* Address styling not present in IE 8/9.
*/
mark {
background: #ff0;
color: #000;
}
/**
* Correct font family set oddly in Safari 5 and Chrome.
*/
code,
kbd,
pre,
samp {
font-family: monospace, serif;
font-size: 1em;
}
/**
* Improve readability of pre-formatted text in all browsers.
*/
pre {
white-space: pre-wrap;
}
/**
* Set consistent quote types.
*/
q {
quotes: "\201C" "\201D" "\2018" "\2019";
}
/**
* Address inconsistent and variable font size in all browsers.
*/
small {
font-size: 80%;
}
/**
* Prevent `sub` and `sup` affecting `line-height` in all browsers.
*/
sub,
sup {
font-size: 75%;
line-height: 0;
position: relative;
vertical-align: baseline;
}
sup {
top: -0.5em;
}
sub {
bottom: -0.25em;
}
/* ==========================================================================
Embedded content
========================================================================== */
/**
* Remove border when inside `a` element in IE 8/9.
*/
img {
border: 0;
}
/**
* Correct overflow displayed oddly in IE 9.
*/
svg:not(:root) {
overflow: hidden;
}
/* ==========================================================================
Figures
========================================================================== */
/**
* Address margin not present in IE 8/9 and Safari 5.
*/
figure {
margin: 0;
}
/* ==========================================================================
Forms
========================================================================== */
/**
* Define consistent border, margin, and padding.
*/
fieldset {
border: 1px solid #c0c0c0;
margin: 0 2px;
padding: 0.35em 0.625em 0.75em;
}
/**
* 1. Correct `color` not being inherited in IE 8/9.
* 2. Remove padding so people aren't caught out if they zero out fieldsets.
*/
legend {
border: 0; /* 1 */
padding: 0; /* 2 */
}
/**
* 1. Correct font family not being inherited in all browsers.
* 2. Correct font size not being inherited in all browsers.
* 3. Address margins set differently in Firefox 4+, Safari 5, and Chrome.
*/
button,
input,
select,
textarea {
font-family: inherit; /* 1 */
font-size: 100%; /* 2 */
margin: 0; /* 3 */
}
/**
* Address Firefox 4+ setting `line-height` on `input` using `!important` in
* the UA stylesheet.
*/
button,
input {
line-height: normal;
}
/**
* Address inconsistent `text-transform` inheritance for `button` and `select`.
* All other form control elements do not inherit `text-transform` values.
* Correct `button` style inheritance in Chrome, Safari 5+, and IE 8+.
* Correct `select` style inheritance in Firefox 4+ and Opera.
*/
button,
select {
text-transform: none;
}
/**
* 1. Avoid the WebKit bug in Android 4.0.* where (2) destroys native `audio`
* and `video` controls.
* 2. Correct inability to style clickable `input` types in iOS.
* 3. Improve usability and consistency of cursor style between image-type
* `input` and others.
*/
button,
html input[type="button"], /* 1 */
input[type="reset"],
input[type="submit"] {
-webkit-appearance: button; /* 2 */
cursor: pointer; /* 3 */
}
/**
* Re-set default cursor for disabled elements.
*/
button[disabled],
html input[disabled] {
cursor: default;
}
/**
* 1. Address box sizing set to `content-box` in IE 8/9/10.
* 2. Remove excess padding in IE 8/9/10.
*/
input[type="checkbox"],
input[type="radio"] {
box-sizing: border-box; /* 1 */
padding: 0; /* 2 */
}
/**
* 1. Address `appearance` set to `searchfield` in Safari 5 and Chrome.
* 2. Address `box-sizing` set to `border-box` in Safari 5 and Chrome
* (include `-moz` to future-proof).
*/
input[type="search"] {
-webkit-appearance: textfield; /* 1 */
-moz-box-sizing: content-box;
-webkit-box-sizing: content-box; /* 2 */
box-sizing: content-box;
}
/**
* Remove inner padding and search cancel button in Safari 5 and Chrome
* on OS X.
*/
input[type="search"]::-webkit-search-cancel-button,
input[type="search"]::-webkit-search-decoration {
-webkit-appearance: none;
}
/**
* Remove inner padding and border in Firefox 4+.
*/
button::-moz-focus-inner,
input::-moz-focus-inner {
border: 0;
padding: 0;
}
/**
* 1. Remove default vertical scrollbar in IE 8/9.
* 2. Improve readability and alignment in all browsers.
*/
textarea {
overflow: auto; /* 1 */
vertical-align: top; /* 2 */
}
/* ==========================================================================
Tables
========================================================================== */
/**
* Remove most spacing between table cells.
*/
table {
border-collapse: collapse;
border-spacing: 0;
}
Raw
PageBuilder_css_style.css
html,
body {
margin: 0;
padding: 0;
font-family: 'Playfair Display SC', serif;
color: #ffffff;
}
a{
text-decoration: none;
color: #000;
}
button{
background: #000000;
color: #ffffff;
padding: 4px;
background: linear-gradient(top);
-moz-border-radius: 10px;
-webkit-border-radius: 10px;
-o-border-radius: 10px;
border-radius: 10px;
border: 0;
background: -moz-linear-gradient(
top,
#000000 0%,
#000000 80%,
#dbdbdb 93%,
#a3a3a3
);
background: -webkit-gradient(
linear, left top, left bottom,
from(#000000),
color-stop(0.80, #000000),
color-stop(0.93, #dbdbdb),
to(#a3a3a3)
);
}
body {
background: url("../resources/images/dark-canvas.gif");
}
.circle {
display: block;
-moz-border-radius: 50%;
-webkit-border-radius: 50%;
-o-border-radius: 50%;
border-radius: 50%;
background: radial-gradient(circle, blue 10%, #FFE373 100%);
background: #2989d8;
color: #ffffff;
box-shadow: 0px 0px 0px 3px #2989d8;
border: 2px dashed #ffffff;
}
.circle div{
height: 100%;
width: 100%;
text-align: center;
}
.circle.big {
width: 200px;
height: 200px;
}
.circle.big div{
line-height: 200px;
}
.circle.middle {
width: 150px;
height: 150px;
}
.circle.middle div{
line-height: 150px;
}
.hidden{
display:none;
}
.container{
margin: auto;
background: #e0e3e0;
border-radius: 15px;
width: 809px;
height: 500px;
outline: 2px dashed #ccc;
outline-offset: -5px;
margin-top: 50px;
}
.container div{
height: 100%;
}
.container div .progress{
width: 245px;
border-right: 2px dashed #ccc;
height: 100%;
float: left;
}
.container div .content{
width: 544px;
margin-left: 30%;
padding: 10px;
}
.shadowbox{
box-shadow: 10px 10px 20px rgba(0, 0, 0, .5);
}
Raw
PageBuilder_index.html
<!doctype html>
<html>
<head>
<meta charset="utf-8">
<title>Page builder</title>
<link rel="stylesheet" href="css/style.css"><link href='http://fonts.googleapis.com/css?family=Playfair+Display+SC:700&subset=latin,latin-ext' rel='stylesheet' type='text/css'>
</head>
<body>
<script type="text/x-handlebars">
{{outlet}}
</script>
<div id="qunit"></div>
<script src="js/libs/jquery-1.10.2.js"></script>
<script src="js/libs/handlebars-1.1.2.js"></script>
<script src="js/libs/ember-1.5.0.js"></script>
<script src="http://emberjs.com.s3.amazonaws.com/getting-started/ember-data.js"></script>
<script src="js/helpers.js"></script>
<script src="js/loader.js"></script>
<script src="js/app.js"></script>
<script src="js/router.js"></script>
<script src="js/RCL/element.js"></script>
<!--<script src="tests/runner.js"></script>-->
<!-- to activate the test runner, add the "?test" query string parameter -->
</body>
</html>
Raw
PageBuilder_js_app.js
var project = {
name: '',
author: '',
standards: {
css: '3',
html: '5'
},
prefixes: {
webkit: true,
moz: true,
o: true,
ms: true
}
};
var ProjectIsSetUp = function () {
if (project.name == '')
return false;
if (project.standards.css == '')
return false;
if (project.standards.html == '')
return false;
return true;
};
App.NewRoute = Ember.Route.extend({
model: function () {
return project;
},
actions: {
check: function () {
blink('Neni jmeno');
if (project.get('name') == '') {
blink('Neni jmeno');
}
}
}
});
App.NewController = Ember.ObjectController.extend({
});
App.NewBaseController = Ember.ObjectController.extend({
actions: {
check: function () {
blink('Neni jmeno');
if (project.get('name') == '') {
blink('Neni jmeno');
}
}
}
});
App.NewStandardsController = Ember.ObjectController.extend({
csss: [
{name: 'CSS 2', version: '2' },
{name: 'CSS 3', version: '3' }
],
htmls: [
{name: 'HTML 4.1', version: '4.1' },
{name: 'HTML 5', version: '5' }
],
});
App.NewAdvancedController = Ember.ObjectController.extend({
webkit: 'Prefixy pro webkit (Chrome):',
moz: 'Prefixy pro Mozila Firefox:',
opera: 'Prefixy pro Operu:',
ms: 'Prefixy pro Internet Explorer:',
actions: {
finish: function () {
if (ProjectIsSetUp()) {
//TODO: odeslat data DB
//this.transitionTo('project');
blink(project.name);
}
}
}
});
App.ProjectsRoute = Ember.Route.extend({
model: function () {
return Ember.$.getJSON('API/Projects.php');
}
});
App.ProjectRoute = Ember.Route.extend({
model: function(param) {
blink( $.ajax({
async: false,
url: 'API/Projects.php?id='+param.project_id,
cache: true,
success: function(retData) {
r = retData;
return r.toString();
}
}));
return Ember.$.getJSON('API/Projects.php?id='+param.project_id);
}
});
Raw
PageBuilder_js_helpers.js
Ember.TextSupport.reopen({
attributeBindings: ['required']
});
Raw
PageBuilder_js_RCL_element.js
/**
* Created by Ratan on 7.4.14.
*/
function element() {
};
element.prototype.name = "";
element.prototype.syntax = "";
element.prototype.property=[];/** CSS property **/
element.prototype.attributes=[];/** HTML atrribute **/
element.prototype.showCss = function(){
return false;
};
element.prototype.show= function() {
console.log(this.name);
console.log("<"+this.syntax+">");
};
element.prototype.form =function (){
};
Raw
PageBuilder_js_RCL_elements.js
/**
* Created by Ratan on 7.4.14.
*/
function Elements() {
function Forms() {
function Input() {
var x = new element();
x.name="input";
x.
};
};
};
Raw
PageBuilder_js_RCL_form.js
/**
* Created by Ratan on 7.4.14.
*/
var form = function() {
};
Raw
PageBuilder_README.md

starter-kit

A starter kit for Ember

Your Ember.js project is almost ready! Here's how to get started:

  • Start writing your app in js/app.js.

  • Describe your application HTML in index.html.

  • During development, you can link to js/libs/ember-*.js to get the unminified version of Ember.js.

  • Add CSS to css/style.css

  • Open index.html in your browser

Tests

This starter kit comes with an integration test sample, written for QUnit runner.

You can run the tests by opening the index.html?test page in your browser.

The test is located in the tests/tests.js file. You can see how such an integration test should be written, using QUnit assertions and ember-testing helpers.

For more information about ember-testing package see ember-testing

For more information about the QUnit testing framework, see QUnit

Contact

www.emberjs.com

Raw
PageBuilder_js_libs_ember-1.5.0.js
This file has been truncated, but you can view the full file.
/*!
* @overview Ember - JavaScript Application Framework
* @copyright Copyright 2011-2014 Tilde Inc. and contributors
* Portions Copyright 2006-2011 Strobe Inc.
* Portions Copyright 2008-2011 Apple Inc. All rights reserved.
* @license Licensed under MIT license
* See https://raw.github.com/emberjs/ember.js/master/LICENSE
* @version 1.5.0
*/
(function() {
/*global __fail__*/
/**
Ember Debug
@module ember
@submodule ember-debug
*/
/**
@class Ember
*/
if ('undefined' === typeof Ember) {
Ember = {};
if ('undefined' !== typeof window) {
window.Em = window.Ember = Em = Ember;
}
}
// This needs to be kept in sync with the logic in
// `packages/ember-metal/lib/core.js`.
//
// This is duplicated here to ensure that `Ember.ENV`
// is setup even if `Ember` is not loaded yet.
if (Ember.ENV) {
// do nothing if Ember.ENV is already setup
} else if ('undefined' !== typeof EmberENV) {
Ember.ENV = EmberENV;
} else if('undefined' !== typeof ENV) {
Ember.ENV = ENV;
} else {
Ember.ENV = {};
}
if (!('MANDATORY_SETTER' in Ember.ENV)) {
Ember.ENV.MANDATORY_SETTER = true; // default to true for debug dist
}
/**
Define an assertion that will throw an exception if the condition is not
met. Ember build tools will remove any calls to `Ember.assert()` when
doing a production build. Example:
```javascript
// Test for truthiness
Ember.assert('Must pass a valid object', obj);
// Fail unconditionally
Ember.assert('This code path should never be run')
```
@method assert
@param {String} desc A description of the assertion. This will become
the text of the Error thrown if the assertion fails.
@param {Boolean} test Must be truthy for the assertion to pass. If
falsy, an exception will be thrown.
*/
Ember.assert = function(desc, test) {
if (!test) {
throw new Ember.Error("Assertion Failed: " + desc);
}
};
/**
Display a warning with the provided message. Ember build tools will
remove any calls to `Ember.warn()` when doing a production build.
@method warn
@param {String} message A warning to display.
@param {Boolean} test An optional boolean. If falsy, the warning
will be displayed.
*/
Ember.warn = function(message, test) {
if (!test) {
Ember.Logger.warn("WARNING: "+message);
if ('trace' in Ember.Logger) Ember.Logger.trace();
}
};
/**
Display a debug notice. Ember build tools will remove any calls to
`Ember.debug()` when doing a production build.
```javascript
Ember.debug("I'm a debug notice!");
```
@method debug
@param {String} message A debug message to display.
*/
Ember.debug = function(message) {
Ember.Logger.debug("DEBUG: "+message);
};
/**
Display a deprecation warning with the provided message and a stack trace
(Chrome and Firefox only). Ember build tools will remove any calls to
`Ember.deprecate()` when doing a production build.
@method deprecate
@param {String} message A description of the deprecation.
@param {Boolean} test An optional boolean. If falsy, the deprecation
will be displayed.
*/
Ember.deprecate = function(message, test) {
if (test) { return; }
if (Ember.ENV.RAISE_ON_DEPRECATION) { throw new Ember.Error(message); }
var error;
// When using new Error, we can't do the arguments check for Chrome. Alternatives are welcome
try { __fail__.fail(); } catch (e) { error = e; }
if (Ember.LOG_STACKTRACE_ON_DEPRECATION && error.stack) {
var stack, stackStr = '';
if (error['arguments']) {
// Chrome
stack = error.stack.replace(/^\s+at\s+/gm, '').
replace(/^([^\(]+?)([\n$])/gm, '{anonymous}($1)$2').
replace(/^Object.<anonymous>\s*\(([^\)]+)\)/gm, '{anonymous}($1)').split('\n');
stack.shift();
} else {
// Firefox
stack = error.stack.replace(/(?:\n@:0)?\s+$/m, '').
replace(/^\(/gm, '{anonymous}(').split('\n');
}
stackStr = "\n " + stack.slice(2).join("\n ");
message = message + stackStr;
}
Ember.Logger.warn("DEPRECATION: "+message);
};
/**
Alias an old, deprecated method with its new counterpart.
Display a deprecation warning with the provided message and a stack trace
(Chrome and Firefox only) when the assigned method is called.
Ember build tools will not remove calls to `Ember.deprecateFunc()`, though
no warnings will be shown in production.
```javascript
Ember.oldMethod = Ember.deprecateFunc("Please use the new, updated method", Ember.newMethod);
```
@method deprecateFunc
@param {String} message A description of the deprecation.
@param {Function} func The new function called to replace its deprecated counterpart.
@return {Function} a new function that wrapped the original function with a deprecation warning
*/
Ember.deprecateFunc = function(message, func) {
return function() {
Ember.deprecate(message);
return func.apply(this, arguments);
};
};
/**
Run a function meant for debugging. Ember build tools will remove any calls to
`Ember.runInDebug()` when doing a production build.
```javascript
Ember.runInDebug( function() {
Ember.Handlebars.EachView.reopen({
didInsertElement: function() {
console.log("I'm happy");
}
});
});
```
@method runInDebug
@param {Function} func The function to be executed.
*/
Ember.runInDebug = function(func) {
func()
};
// Inform the developer about the Ember Inspector if not installed.
if (!Ember.testing) {
var isFirefox = typeof InstallTrigger !== 'undefined';
var isChrome = !!window.chrome && !window.opera;
if (typeof window !== 'undefined' && (isFirefox || isChrome) && window.addEventListener) {
window.addEventListener("load", function() {
if (document.documentElement && document.documentElement.dataset && !document.documentElement.dataset.emberExtension) {
var downloadURL;
if(isChrome) {
downloadURL = 'https://chrome.google.com/webstore/detail/ember-inspector/bmdblncegkenkacieihfhpjfppoconhi';
} else if(isFirefox) {
downloadURL = 'https://addons.mozilla.org/en-US/firefox/addon/ember-inspector/';
}
Ember.debug('For more advanced debugging, install the Ember Inspector from ' + downloadURL);
}
}, false);
}
}
})();
/*!
* @overview Ember - JavaScript Application Framework
* @copyright Copyright 2011-2014 Tilde Inc. and contributors
* Portions Copyright 2006-2011 Strobe Inc.
* Portions Copyright 2008-2011 Apple Inc. All rights reserved.
* @license Licensed under MIT license
* See https://raw.github.com/emberjs/ember.js/master/LICENSE
* @version 1.5.0
*/
(function() {
var define, requireModule, require, requirejs;
(function() {
var registry = {}, seen = {};
define = function(name, deps, callback) {
registry[name] = { deps: deps, callback: callback };
};
requirejs = require = requireModule = function(name) {
requirejs._eak_seen = registry;
if (seen[name]) { return seen[name]; }
seen[name] = {};
if (!registry[name]) {
throw new Error("Could not find module " + name);
}
var mod = registry[name],
deps = mod.deps,
callback = mod.callback,
reified = [],
exports;
for (var i=0, l=deps.length; i<l; i++) {
if (deps[i] === 'exports') {
reified.push(exports = {});
} else {
reified.push(requireModule(resolve(deps[i])));
}
}
var value = callback.apply(this, reified);
return seen[name] = exports || value;
function resolve(child) {
if (child.charAt(0) !== '.') { return child; }
var parts = child.split("/");
var parentBase = name.split("/").slice(0, -1);
for (var i=0, l=parts.length; i<l; i++) {
var part = parts[i];
if (part === '..') { parentBase.pop(); }
else if (part === '.') { continue; }
else { parentBase.push(part); }
}
return parentBase.join("/");
}
};
})();
(function() {
/*globals Em:true ENV EmberENV MetamorphENV:true */
/**
@module ember
@submodule ember-metal
*/
/**
All Ember methods and functions are defined inside of this namespace. You
generally should not add new properties to this namespace as it may be
overwritten by future versions of Ember.
You can also use the shorthand `Em` instead of `Ember`.
Ember-Runtime is a framework that provides core functions for Ember including
cross-platform functions, support for property observing and objects. Its
focus is on small size and performance. You can use this in place of or
along-side other cross-platform libraries such as jQuery.
The core Runtime framework is based on the jQuery API with a number of
performance optimizations.
@class Ember
@static
@version 1.5.0
*/
if ('undefined' === typeof Ember) {
// Create core object. Make it act like an instance of Ember.Namespace so that
// objects assigned to it are given a sane string representation.
Ember = {};
}
// Default imports, exports and lookup to the global object;
var imports = Ember.imports = Ember.imports || this;
var exports = Ember.exports = Ember.exports || this;
var lookup = Ember.lookup = Ember.lookup || this;
// aliases needed to keep minifiers from removing the global context
exports.Em = exports.Ember = Em = Ember;
// Make sure these are set whether Ember was already defined or not
Ember.isNamespace = true;
Ember.toString = function() { return "Ember"; };
/**
@property VERSION
@type String
@default '1.5.0'
@static
*/
Ember.VERSION = '1.5.0';
/**
Standard environmental variables. You can define these in a global `EmberENV`
variable before loading Ember to control various configuration settings.
For backwards compatibility with earlier versions of Ember the global `ENV`
variable will be used if `EmberENV` is not defined.
@property ENV
@type Hash
*/
// This needs to be kept in sync with the logic in
// `packages/ember-debug/lib/main.js`.
if (Ember.ENV) {
// do nothing if Ember.ENV is already setup
} else if ('undefined' !== typeof EmberENV) {
Ember.ENV = EmberENV;
} else if('undefined' !== typeof ENV) {
Ember.ENV = ENV;
} else {
Ember.ENV = {};
}
Ember.config = Ember.config || {};
// We disable the RANGE API by default for performance reasons
if ('undefined' === typeof Ember.ENV.DISABLE_RANGE_API) {
Ember.ENV.DISABLE_RANGE_API = true;
}
if ("undefined" === typeof MetamorphENV) {
exports.MetamorphENV = {};
}
MetamorphENV.DISABLE_RANGE_API = Ember.ENV.DISABLE_RANGE_API;
/**
Hash of enabled Canary features. Add to before creating your application.
You can also define `ENV.FEATURES` if you need to enable features flagged at runtime.
@property FEATURES
@type Hash
*/
Ember.FEATURES = Ember.ENV.FEATURES || {};
/**
Test that a feature is enabled. Parsed by Ember's build tools to leave
experimental features out of beta/stable builds.
You can define the following configuration options:
* `ENV.ENABLE_ALL_FEATURES` - force all features to be enabled.
* `ENV.ENABLE_OPTIONAL_FEATURES` - enable any features that have not been explicitly
enabled/disabled.
@method isEnabled
@param {string} feature
*/
Ember.FEATURES.isEnabled = function(feature) {
var featureValue = Ember.FEATURES[feature];
if (Ember.ENV.ENABLE_ALL_FEATURES) {
return true;
} else if (featureValue === true || featureValue === false || featureValue === undefined) {
return featureValue;
} else if (Ember.ENV.ENABLE_OPTIONAL_FEATURES) {
return true;
} else {
return false;
}
};
// ..........................................................
// BOOTSTRAP
//
/**
Determines whether Ember should enhances some built-in object prototypes to
provide a more friendly API. If enabled, a few methods will be added to
`Function`, `String`, and `Array`. `Object.prototype` will not be enhanced,
which is the one that causes most trouble for people.
In general we recommend leaving this option set to true since it rarely
conflicts with other code. If you need to turn it off however, you can
define an `ENV.EXTEND_PROTOTYPES` config to disable it.
@property EXTEND_PROTOTYPES
@type Boolean
@default true
*/
Ember.EXTEND_PROTOTYPES = Ember.ENV.EXTEND_PROTOTYPES;
if (typeof Ember.EXTEND_PROTOTYPES === 'undefined') {
Ember.EXTEND_PROTOTYPES = true;
}
/**
Determines whether Ember logs a full stack trace during deprecation warnings
@property LOG_STACKTRACE_ON_DEPRECATION
@type Boolean
@default true
*/
Ember.LOG_STACKTRACE_ON_DEPRECATION = (Ember.ENV.LOG_STACKTRACE_ON_DEPRECATION !== false);
/**
Determines whether Ember should add ECMAScript 5 shims to older browsers.
@property SHIM_ES5
@type Boolean
@default Ember.EXTEND_PROTOTYPES
*/
Ember.SHIM_ES5 = (Ember.ENV.SHIM_ES5 === false) ? false : Ember.EXTEND_PROTOTYPES;
/**
Determines whether Ember logs info about version of used libraries
@property LOG_VERSION
@type Boolean
@default true
*/
Ember.LOG_VERSION = (Ember.ENV.LOG_VERSION === false) ? false : true;
/**
Empty function. Useful for some operations. Always returns `this`.
@method K
@private
@return {Object}
*/
Ember.K = function() { return this; };
// Stub out the methods defined by the ember-debug package in case it's not loaded
if ('undefined' === typeof Ember.assert) { Ember.assert = Ember.K; }
if ('undefined' === typeof Ember.warn) { Ember.warn = Ember.K; }
if ('undefined' === typeof Ember.debug) { Ember.debug = Ember.K; }
if ('undefined' === typeof Ember.runInDebug) { Ember.runInDebug = Ember.K; }
if ('undefined' === typeof Ember.deprecate) { Ember.deprecate = Ember.K; }
if ('undefined' === typeof Ember.deprecateFunc) {
Ember.deprecateFunc = function(_, func) { return func; };
}
/**
Previously we used `Ember.$.uuid`, however `$.uuid` has been removed from
jQuery master. We'll just bootstrap our own uuid now.
@property uuid
@type Number
@private
*/
Ember.uuid = 0;
/**
Merge the contents of two objects together into the first object.
```javascript
Ember.merge({first: 'Tom'}, {last: 'Dale'}); // {first: 'Tom', last: 'Dale'}
var a = {first: 'Yehuda'}, b = {last: 'Katz'};
Ember.merge(a, b); // a == {first: 'Yehuda', last: 'Katz'}, b == {last: 'Katz'}
```
@method merge
@for Ember
@param {Object} original The object to merge into
@param {Object} updates The object to copy properties from
@return {Object}
*/
Ember.merge = function(original, updates) {
for (var prop in updates) {
if (!updates.hasOwnProperty(prop)) { continue; }
original[prop] = updates[prop];
}
return original;
};
/**
Returns true if the passed value is null or undefined. This avoids errors
from JSLint complaining about use of ==, which can be technically
confusing.
```javascript
Ember.isNone(); // true
Ember.isNone(null); // true
Ember.isNone(undefined); // true
Ember.isNone(''); // false
Ember.isNone([]); // false
Ember.isNone(function() {}); // false
```
@method isNone
@for Ember
@param {Object} obj Value to test
@return {Boolean}
*/
Ember.isNone = function(obj) {
return obj === null || obj === undefined;
};
Ember.none = Ember.deprecateFunc("Ember.none is deprecated. Please use Ember.isNone instead.", Ember.isNone);
/**
Verifies that a value is `null` or an empty string, empty array,
or empty function.
Constrains the rules on `Ember.isNone` by returning false for empty
string and empty arrays.
```javascript
Ember.isEmpty(); // true
Ember.isEmpty(null); // true
Ember.isEmpty(undefined); // true
Ember.isEmpty(''); // true
Ember.isEmpty([]); // true
Ember.isEmpty('Adam Hawkins'); // false
Ember.isEmpty([0,1,2]); // false
```
@method isEmpty
@for Ember
@param {Object} obj Value to test
@return {Boolean}
*/
Ember.isEmpty = function(obj) {
return Ember.isNone(obj) || (obj.length === 0 && typeof obj !== 'function') || (typeof obj === 'object' && Ember.get(obj, 'length') === 0);
};
Ember.empty = Ember.deprecateFunc("Ember.empty is deprecated. Please use Ember.isEmpty instead.", Ember.isEmpty);
/**
A value is blank if it is empty or a whitespace string.
```javascript
Ember.isBlank(); // true
Ember.isBlank(null); // true
Ember.isBlank(undefined); // true
Ember.isBlank(''); // true
Ember.isBlank([]); // true
Ember.isBlank('\n\t'); // true
Ember.isBlank(' '); // true
Ember.isBlank({}); // false
Ember.isBlank('\n\t Hello'); // false
Ember.isBlank('Hello world'); // false
Ember.isBlank([1,2,3]); // false
```
@method isBlank
@for Ember
@param {Object} obj Value to test
@return {Boolean}
*/
Ember.isBlank = function(obj) {
return Ember.isEmpty(obj) || (typeof obj === 'string' && obj.match(/\S/) === null);
};
})();
(function() {
/*globals Node */
/**
@module ember-metal
*/
/**
Platform specific methods and feature detectors needed by the framework.
@class platform
@namespace Ember
@static
*/
var platform = Ember.platform = {};
/**
Identical to `Object.create()`. Implements if not available natively.
@method create
@for Ember
*/
Ember.create = Object.create;
// IE8 has Object.create but it couldn't treat property descriptors.
if (Ember.create) {
if (Ember.create({a: 1}, {a: {value: 2}}).a !== 2) {
Ember.create = null;
}
}
// STUB_OBJECT_CREATE allows us to override other libraries that stub
// Object.create different than we would prefer
if (!Ember.create || Ember.ENV.STUB_OBJECT_CREATE) {
var K = function() {};
Ember.create = function(obj, props) {
K.prototype = obj;
obj = new K();
if (props) {
K.prototype = obj;
for (var prop in props) {
K.prototype[prop] = props[prop].value;
}
obj = new K();
}
K.prototype = null;
return obj;
};
Ember.create.isSimulated = true;
}
var defineProperty = Object.defineProperty;
var canRedefineProperties, canDefinePropertyOnDOM;
// Catch IE8 where Object.defineProperty exists but only works on DOM elements
if (defineProperty) {
try {
defineProperty({}, 'a',{get:function() {}});
} catch (e) {
defineProperty = null;
}
}
if (defineProperty) {
// Detects a bug in Android <3.2 where you cannot redefine a property using
// Object.defineProperty once accessors have already been set.
canRedefineProperties = (function() {
var obj = {};
defineProperty(obj, 'a', {
configurable: true,
enumerable: true,
get: function() { },
set: function() { }
});
defineProperty(obj, 'a', {
configurable: true,
enumerable: true,
writable: true,
value: true
});
return obj.a === true;
})();
// This is for Safari 5.0, which supports Object.defineProperty, but not
// on DOM nodes.
canDefinePropertyOnDOM = (function() {
try {
defineProperty(document.createElement('div'), 'definePropertyOnDOM', {});
return true;
} catch(e) { }
return false;
})();
if (!canRedefineProperties) {
defineProperty = null;
} else if (!canDefinePropertyOnDOM) {
defineProperty = function(obj, keyName, desc) {
var isNode;
if (typeof Node === "object") {
isNode = obj instanceof Node;
} else {
isNode = typeof obj === "object" && typeof obj.nodeType === "number" && typeof obj.nodeName === "string";
}
if (isNode) {
// TODO: Should we have a warning here?
return (obj[keyName] = desc.value);
} else {
return Object.defineProperty(obj, keyName, desc);
}
};
}
}
/**
@class platform
@namespace Ember
*/
/**
Identical to `Object.defineProperty()`. Implements as much functionality
as possible if not available natively.
@method defineProperty
@param {Object} obj The object to modify
@param {String} keyName property name to modify
@param {Object} desc descriptor hash
@return {void}
*/
platform.defineProperty = defineProperty;
/**
Set to true if the platform supports native getters and setters.
@property hasPropertyAccessors
@final
*/
platform.hasPropertyAccessors = true;
if (!platform.defineProperty) {
platform.hasPropertyAccessors = false;
platform.defineProperty = function(obj, keyName, desc) {
if (!desc.get) { obj[keyName] = desc.value; }
};
platform.defineProperty.isSimulated = true;
}
if (Ember.ENV.MANDATORY_SETTER && !platform.hasPropertyAccessors) {
Ember.ENV.MANDATORY_SETTER = false;
}
})();
(function() {
/*jshint newcap:false*/
/**
@module ember-metal
*/
// NOTE: There is a bug in jshint that doesn't recognize `Object()` without `new`
// as being ok unless both `newcap:false` and not `use strict`.
// https://github.com/jshint/jshint/issues/392
// Testing this is not ideal, but we want to use native functions
// if available, but not to use versions created by libraries like Prototype
var isNativeFunc = function(func) {
// This should probably work in all browsers likely to have ES5 array methods
return func && Function.prototype.toString.call(func).indexOf('[native code]') > -1;
};
// From: https://developer.mozilla.org/en/JavaScript/Reference/Global_Objects/array/map
var arrayMap = isNativeFunc(Array.prototype.map) ? Array.prototype.map : function(fun /*, thisp */) {
//"use strict";
if (this === void 0 || this === null) {
throw new TypeError();
}
var t = Object(this);
var len = t.length >>> 0;
if (typeof fun !== "function") {
throw new TypeError();
}
var res = new Array(len);
var thisp = arguments[1];
for (var i = 0; i < len; i++) {
if (i in t) {
res[i] = fun.call(thisp, t[i], i, t);
}
}
return res;
};
// From: https://developer.mozilla.org/en/JavaScript/Reference/Global_Objects/array/foreach
var arrayForEach = isNativeFunc(Array.prototype.forEach) ? Array.prototype.forEach : function(fun /*, thisp */) {
//"use strict";
if (this === void 0 || this === null) {
throw new TypeError();
}
var t = Object(this);
var len = t.length >>> 0;
if (typeof fun !== "function") {
throw new TypeError();
}
var thisp = arguments[1];
for (var i = 0; i < len; i++) {
if (i in t) {
fun.call(thisp, t[i], i, t);
}
}
};
var arrayIndexOf = isNativeFunc(Array.prototype.indexOf) ? Array.prototype.indexOf : function (obj, fromIndex) {
if (fromIndex === null || fromIndex === undefined) { fromIndex = 0; }
else if (fromIndex < 0) { fromIndex = Math.max(0, this.length + fromIndex); }
for (var i = fromIndex, j = this.length; i < j; i++) {
if (this[i] === obj) { return i; }
}
return -1;
};
var arrayFilter = isNativeFunc(Array.prototype.filter) ? Array.prototype.filter : function (fn, context) {
var i,
value,
result = [],
length = this.length;
for (i = 0; i < length; i++) {
if (this.hasOwnProperty(i)) {
value = this[i];
if (fn.call(context, value, i, this)) {
result.push(value);
}
}
}
return result;
};
/**
Array polyfills to support ES5 features in older browsers.
@namespace Ember
@property ArrayPolyfills
*/
Ember.ArrayPolyfills = {
map: arrayMap,
forEach: arrayForEach,
filter: arrayFilter,
indexOf: arrayIndexOf
};
if (Ember.SHIM_ES5) {
if (!Array.prototype.map) {
Array.prototype.map = arrayMap;
}
if (!Array.prototype.forEach) {
Array.prototype.forEach = arrayForEach;
}
if (!Array.prototype.filter) {
Array.prototype.filter = arrayFilter;
}
if (!Array.prototype.indexOf) {
Array.prototype.indexOf = arrayIndexOf;
}
}
})();
(function() {
var errorProps = ['description', 'fileName', 'lineNumber', 'message', 'name', 'number', 'stack'];
/**
A subclass of the JavaScript Error object for use in Ember.
@class Error
@namespace Ember
@extends Error
@constructor
*/
Ember.Error = function() {
var tmp = Error.apply(this, arguments);
// Adds a `stack` property to the given error object that will yield the
// stack trace at the time captureStackTrace was called.
// When collecting the stack trace all frames above the topmost call
// to this function, including that call, will be left out of the
// stack trace.
// This is useful because we can hide Ember implementation details
// that are not very helpful for the user.
if (Error.captureStackTrace) {
Error.captureStackTrace(this, Ember.Error);
}
// Unfortunately errors are not enumerable in Chrome (at least), so `for prop in tmp` doesn't work.
for (var idx = 0; idx < errorProps.length; idx++) {
this[errorProps[idx]] = tmp[errorProps[idx]];
}
};
Ember.Error.prototype = Ember.create(Error.prototype);
// ..........................................................
// ERROR HANDLING
//
/**
A function may be assigned to `Ember.onerror` to be called when Ember
internals encounter an error. This is useful for specialized error handling
and reporting code.
```javascript
Ember.onerror = function(error) {
Em.$.ajax('/report-error', 'POST', {
stack: error.stack,
otherInformation: 'whatever app state you want to provide'
});
};
```
@event onerror
@for Ember
@param {Exception} error the error object
*/
Ember.onerror = null;
})();
(function() {
/**
@module ember-metal
*/
/**
Prefix used for guids through out Ember.
@private
*/
Ember.GUID_PREFIX = 'ember';
var o_defineProperty = Ember.platform.defineProperty,
o_create = Ember.create,
// Used for guid generation...
GUID_KEY = '__ember'+ (+ new Date()),
numberCache = [],
stringCache = {},
uuid = 0;
var MANDATORY_SETTER = Ember.ENV.MANDATORY_SETTER;
/**
A unique key used to assign guids and other private metadata to objects.
If you inspect an object in your browser debugger you will often see these.
They can be safely ignored.
On browsers that support it, these properties are added with enumeration
disabled so they won't show up when you iterate over your properties.
@private
@property GUID_KEY
@for Ember
@type String
@final
*/
Ember.GUID_KEY = GUID_KEY;
var GUID_DESC = {
writable: false,
configurable: false,
enumerable: false,
value: null
};
/**
Generates a new guid, optionally saving the guid to the object that you
pass in. You will rarely need to use this method. Instead you should
call `Ember.guidFor(obj)`, which return an existing guid if available.
@private
@method generateGuid
@for Ember
@param {Object} [obj] Object the guid will be used for. If passed in, the guid will
be saved on the object and reused whenever you pass the same object
again.
If no object is passed, just generate a new guid.
@param {String} [prefix] Prefix to place in front of the guid. Useful when you want to
separate the guid into separate namespaces.
@return {String} the guid
*/
Ember.generateGuid = function generateGuid(obj, prefix) {
if (!prefix) prefix = Ember.GUID_PREFIX;
var ret = (prefix + (uuid++));
if (obj) {
if (obj[GUID_KEY] === null) {
obj[GUID_KEY] = ret;
} else {
GUID_DESC.value = ret;
o_defineProperty(obj, GUID_KEY, GUID_DESC);
}
}
return ret;
};
/**
Returns a unique id for the object. If the object does not yet have a guid,
one will be assigned to it. You can call this on any object,
`Ember.Object`-based or not, but be aware that it will add a `_guid`
property.
You can also use this method on DOM Element objects.
@private
@method guidFor
@for Ember
@param {Object} obj any object, string, number, Element, or primitive
@return {String} the unique guid for this instance.
*/
Ember.guidFor = function guidFor(obj) {
// special cases where we don't want to add a key to object
if (obj === undefined) return "(undefined)";
if (obj === null) return "(null)";
var ret;
var type = typeof obj;
// Don't allow prototype changes to String etc. to change the guidFor
switch(type) {
case 'number':
ret = numberCache[obj];
if (!ret) ret = numberCache[obj] = 'nu'+obj;
return ret;
case 'string':
ret = stringCache[obj];
if (!ret) ret = stringCache[obj] = 'st'+(uuid++);
return ret;
case 'boolean':
return obj ? '(true)' : '(false)';
default:
if (obj[GUID_KEY]) return obj[GUID_KEY];
if (obj === Object) return '(Object)';
if (obj === Array) return '(Array)';
ret = 'ember' + (uuid++);
if (obj[GUID_KEY] === null) {
obj[GUID_KEY] = ret;
} else {
GUID_DESC.value = ret;
o_defineProperty(obj, GUID_KEY, GUID_DESC);
}
return ret;
}
};
// ..........................................................
// META
//
var META_DESC = Ember.META_DESC = {
writable: true,
configurable: false,
enumerable: false,
value: null
};
var META_KEY = Ember.GUID_KEY+'_meta';
/**
The key used to store meta information on object for property observing.
@property META_KEY
@for Ember
@private
@final
@type String
*/
Ember.META_KEY = META_KEY;
var isDefinePropertySimulated = Ember.platform.defineProperty.isSimulated;
function Meta(obj) {
this.descs = {};
this.watching = {};
this.cache = {};
this.cacheMeta = {};
this.source = obj;
}
Meta.prototype = {
descs: null,
deps: null,
watching: null,
listeners: null,
cache: null,
cacheMeta: null,
source: null,
mixins: null,
bindings: null,
chains: null,
chainWatchers: null,
values: null,
proto: null
};
if (isDefinePropertySimulated) {
// on platforms that don't support enumerable false
// make meta fail jQuery.isPlainObject() to hide from
// jQuery.extend() by having a property that fails
// hasOwnProperty check.
Meta.prototype.__preventPlainObject__ = true;
// Without non-enumerable properties, meta objects will be output in JSON
// unless explicitly suppressed
Meta.prototype.toJSON = function () { };
}
// Placeholder for non-writable metas.
var EMPTY_META = new Meta(null);
if (MANDATORY_SETTER) { EMPTY_META.values = {}; }
Ember.EMPTY_META = EMPTY_META;
/**
Retrieves the meta hash for an object. If `writable` is true ensures the
hash is writable for this object as well.
The meta object contains information about computed property descriptors as
well as any watched properties and other information. You generally will
not access this information directly but instead work with higher level
methods that manipulate this hash indirectly.
@method meta
@for Ember
@private
@param {Object} obj The object to retrieve meta for
@param {Boolean} [writable=true] Pass `false` if you do not intend to modify
the meta hash, allowing the method to avoid making an unnecessary copy.
@return {Object} the meta hash for an object
*/
Ember.meta = function meta(obj, writable) {
var ret = obj[META_KEY];
if (writable===false) return ret || EMPTY_META;
if (!ret) {
if (!isDefinePropertySimulated) o_defineProperty(obj, META_KEY, META_DESC);
ret = new Meta(obj);
if (MANDATORY_SETTER) { ret.values = {}; }
obj[META_KEY] = ret;
// make sure we don't accidentally try to create constructor like desc
ret.descs.constructor = null;
} else if (ret.source !== obj) {
if (!isDefinePropertySimulated) o_defineProperty(obj, META_KEY, META_DESC);
ret = o_create(ret);
ret.descs = o_create(ret.descs);
ret.watching = o_create(ret.watching);
ret.cache = {};
ret.cacheMeta = {};
ret.source = obj;
if (MANDATORY_SETTER) { ret.values = o_create(ret.values); }
obj[META_KEY] = ret;
}
return ret;
};
Ember.getMeta = function getMeta(obj, property) {
var meta = Ember.meta(obj, false);
return meta[property];
};
Ember.setMeta = function setMeta(obj, property, value) {
var meta = Ember.meta(obj, true);
meta[property] = value;
return value;
};
/**
@deprecated
@private
In order to store defaults for a class, a prototype may need to create
a default meta object, which will be inherited by any objects instantiated
from the class's constructor.
However, the properties of that meta object are only shallow-cloned,
so if a property is a hash (like the event system's `listeners` hash),
it will by default be shared across all instances of that class.
This method allows extensions to deeply clone a series of nested hashes or
other complex objects. For instance, the event system might pass
`['listeners', 'foo:change', 'ember157']` to `prepareMetaPath`, which will
walk down the keys provided.
For each key, if the key does not exist, it is created. If it already
exists and it was inherited from its constructor, the constructor's
key is cloned.
You can also pass false for `writable`, which will simply return
undefined if `prepareMetaPath` discovers any part of the path that
shared or undefined.
@method metaPath
@for Ember
@param {Object} obj The object whose meta we are examining
@param {Array} path An array of keys to walk down
@param {Boolean} writable whether or not to create a new meta
(or meta property) if one does not already exist or if it's
shared with its constructor
*/
Ember.metaPath = function metaPath(obj, path, writable) {
Ember.deprecate("Ember.metaPath is deprecated and will be removed from future releases.");
var meta = Ember.meta(obj, writable), keyName, value;
for (var i=0, l=path.length; i<l; i++) {
keyName = path[i];
value = meta[keyName];
if (!value) {
if (!writable) { return undefined; }
value = meta[keyName] = { __ember_source__: obj };
} else if (value.__ember_source__ !== obj) {
if (!writable) { return undefined; }
value = meta[keyName] = o_create(value);
value.__ember_source__ = obj;
}
meta = value;
}
return value;
};
/**
Wraps the passed function so that `this._super` will point to the superFunc
when the function is invoked. This is the primitive we use to implement
calls to super.
@private
@method wrap
@for Ember
@param {Function} func The function to call
@param {Function} superFunc The super function.
@return {Function} wrapped function.
*/
Ember.wrap = function(func, superFunc) {
function superWrapper() {
var ret, sup = this.__nextSuper;
this.__nextSuper = superFunc;
ret = func.apply(this, arguments);
this.__nextSuper = sup;
return ret;
}
superWrapper.wrappedFunction = func;
superWrapper.__ember_observes__ = func.__ember_observes__;
superWrapper.__ember_observesBefore__ = func.__ember_observesBefore__;
superWrapper.__ember_listens__ = func.__ember_listens__;
return superWrapper;
};
/**
Returns true if the passed object is an array or Array-like.
Ember Array Protocol:
- the object has an objectAt property
- the object is a native Array
- the object is an Object, and has a length property
Unlike `Ember.typeOf` this method returns true even if the passed object is
not formally array but appears to be array-like (i.e. implements `Ember.Array`)
```javascript
Ember.isArray(); // false
Ember.isArray([]); // true
Ember.isArray( Ember.ArrayProxy.create({ content: [] }) ); // true
```
@method isArray
@for Ember
@param {Object} obj The object to test
@return {Boolean} true if the passed object is an array or Array-like
*/
Ember.isArray = function(obj) {
if (!obj || obj.setInterval) { return false; }
if (Array.isArray && Array.isArray(obj)) { return true; }
if (Ember.Array && Ember.Array.detect(obj)) { return true; }
if ((obj.length !== undefined) && 'object'===typeof obj) { return true; }
return false;
};
/**
Forces the passed object to be part of an array. If the object is already
an array or array-like, returns the object. Otherwise adds the object to
an array. If obj is `null` or `undefined`, returns an empty array.
```javascript
Ember.makeArray(); // []
Ember.makeArray(null); // []
Ember.makeArray(undefined); // []
Ember.makeArray('lindsay'); // ['lindsay']
Ember.makeArray([1,2,42]); // [1,2,42]
var controller = Ember.ArrayProxy.create({ content: [] });
Ember.makeArray(controller) === controller; // true
```
@method makeArray
@for Ember
@param {Object} obj the object
@return {Array}
*/
Ember.makeArray = function(obj) {
if (obj === null || obj === undefined) { return []; }
return Ember.isArray(obj) ? obj : [obj];
};
function canInvoke(obj, methodName) {
return !!(obj && typeof obj[methodName] === 'function');
}
/**
Checks to see if the `methodName` exists on the `obj`.
```javascript
var foo = {bar: Ember.K, baz: null};
Ember.canInvoke(foo, 'bar'); // true
Ember.canInvoke(foo, 'baz'); // false
Ember.canInvoke(foo, 'bat'); // false
```
@method canInvoke
@for Ember
@param {Object} obj The object to check for the method
@param {String} methodName The method name to check for
@return {Boolean}
*/
Ember.canInvoke = canInvoke;
/**
Checks to see if the `methodName` exists on the `obj`,
and if it does, invokes it with the arguments passed.
```javascript
var d = new Date('03/15/2013');
Ember.tryInvoke(d, 'getTime'); // 1363320000000
Ember.tryInvoke(d, 'setFullYear', [2014]); // 1394856000000
Ember.tryInvoke(d, 'noSuchMethod', [2014]); // undefined
```
@method tryInvoke
@for Ember
@param {Object} obj The object to check for the method
@param {String} methodName The method name to check for
@param {Array} [args] The arguments to pass to the method
@return {*} the return value of the invoked method or undefined if it cannot be invoked
*/
Ember.tryInvoke = function(obj, methodName, args) {
if (canInvoke(obj, methodName)) {
return obj[methodName].apply(obj, args || []);
}
};
// https://github.com/emberjs/ember.js/pull/1617
var needsFinallyFix = (function() {
var count = 0;
try{
try { }
finally {
count++;
throw new Error('needsFinallyFixTest');
}
} catch (e) {}
return count !== 1;
})();
/**
Provides try { } finally { } functionality, while working
around Safari's double finally bug.
```javascript
var tryable = function() {
someResource.lock();
runCallback(); // May throw error.
};
var finalizer = function() {
someResource.unlock();
};
Ember.tryFinally(tryable, finalizer);
```
@method tryFinally
@for Ember
@param {Function} tryable The function to run the try callback
@param {Function} finalizer The function to run the finally callback
@param {Object} [binding] The optional calling object. Defaults to 'this'
@return {*} The return value is the that of the finalizer,
unless that value is undefined, in which case it is the return value
of the tryable
*/
if (needsFinallyFix) {
Ember.tryFinally = function(tryable, finalizer, binding) {
var result, finalResult, finalError;
binding = binding || this;
try {
result = tryable.call(binding);
} finally {
try {
finalResult = finalizer.call(binding);
} catch (e) {
finalError = e;
}
}
if (finalError) { throw finalError; }
return (finalResult === undefined) ? result : finalResult;
};
} else {
Ember.tryFinally = function(tryable, finalizer, binding) {
var result, finalResult;
binding = binding || this;
try {
result = tryable.call(binding);
} finally {
finalResult = finalizer.call(binding);
}
return (finalResult === undefined) ? result : finalResult;
};
}
/**
Provides try { } catch finally { } functionality, while working
around Safari's double finally bug.
```javascript
var tryable = function() {
for (i=0, l=listeners.length; i<l; i++) {
listener = listeners[i];
beforeValues[i] = listener.before(name, time(), payload);
}
return callback.call(binding);
};
var catchable = function(e) {
payload = payload || {};
payload.exception = e;
};
var finalizer = function() {
for (i=0, l=listeners.length; i<l; i++) {
listener = listeners[i];
listener.after(name, time(), payload, beforeValues[i]);
}
};
Ember.tryCatchFinally(tryable, catchable, finalizer);
```
@method tryCatchFinally
@for Ember
@param {Function} tryable The function to run the try callback
@param {Function} catchable The function to run the catchable callback
@param {Function} finalizer The function to run the finally callback
@param {Object} [binding] The optional calling object. Defaults to 'this'
@return {*} The return value is the that of the finalizer,
unless that value is undefined, in which case it is the return value
of the tryable.
*/
if (needsFinallyFix) {
Ember.tryCatchFinally = function(tryable, catchable, finalizer, binding) {
var result, finalResult, finalError;
binding = binding || this;
try {
result = tryable.call(binding);
} catch(error) {
result = catchable.call(binding, error);
} finally {
try {
finalResult = finalizer.call(binding);
} catch (e) {
finalError = e;
}
}
if (finalError) { throw finalError; }
return (finalResult === undefined) ? result : finalResult;
};
} else {
Ember.tryCatchFinally = function(tryable, catchable, finalizer, binding) {
var result, finalResult;
binding = binding || this;
try {
result = tryable.call(binding);
} catch(error) {
result = catchable.call(binding, error);
} finally {
finalResult = finalizer.call(binding);
}
return (finalResult === undefined) ? result : finalResult;
};
}
// ........................................
// TYPING & ARRAY MESSAGING
//
var TYPE_MAP = {};
var t = "Boolean Number String Function Array Date RegExp Object".split(" ");
Ember.ArrayPolyfills.forEach.call(t, function(name) {
TYPE_MAP[ "[object " + name + "]" ] = name.toLowerCase();
});
var toString = Object.prototype.toString;
/**
Returns a consistent type for the passed item.
Use this instead of the built-in `typeof` to get the type of an item.
It will return the same result across all browsers and includes a bit
more detail. Here is what will be returned:
| Return Value | Meaning |
|---------------|------------------------------------------------------|
| 'string' | String primitive or String object. |
| 'number' | Number primitive or Number object. |
| 'boolean' | Boolean primitive or Boolean object. |
| 'null' | Null value |
| 'undefined' | Undefined value |
| 'function' | A function |
| 'array' | An instance of Array |
| 'regexp' | An instance of RegExp |
| 'date' | An instance of Date |
| 'class' | An Ember class (created using Ember.Object.extend()) |
| 'instance' | An Ember object instance |
| 'error' | An instance of the Error object |
| 'object' | A JavaScript object not inheriting from Ember.Object |
Examples:
```javascript
Ember.typeOf(); // 'undefined'
Ember.typeOf(null); // 'null'
Ember.typeOf(undefined); // 'undefined'
Ember.typeOf('michael'); // 'string'
Ember.typeOf(new String('michael')); // 'string'
Ember.typeOf(101); // 'number'
Ember.typeOf(new Number(101)); // 'number'
Ember.typeOf(true); // 'boolean'
Ember.typeOf(new Boolean(true)); // 'boolean'
Ember.typeOf(Ember.makeArray); // 'function'
Ember.typeOf([1,2,90]); // 'array'
Ember.typeOf(/abc/); // 'regexp'
Ember.typeOf(new Date()); // 'date'
Ember.typeOf(Ember.Object.extend()); // 'class'
Ember.typeOf(Ember.Object.create()); // 'instance'
Ember.typeOf(new Error('teamocil')); // 'error'
// "normal" JavaScript object
Ember.typeOf({a: 'b'}); // 'object'
```
@method typeOf
@for Ember
@param {Object} item the item to check
@return {String} the type
*/
Ember.typeOf = function(item) {
var ret;
ret = (item === null || item === undefined) ? String(item) : TYPE_MAP[toString.call(item)] || 'object';
if (ret === 'function') {
if (Ember.Object && Ember.Object.detect(item)) ret = 'class';
} else if (ret === 'object') {
if (item instanceof Error) ret = 'error';
else if (Ember.Object && item instanceof Ember.Object) ret = 'instance';
else if (item instanceof Date) ret = 'date';
}
return ret;
};
/**
Convenience method to inspect an object. This method will attempt to
convert the object into a useful string description.
It is a pretty simple implementation. If you want something more robust,
use something like JSDump: https://github.com/NV/jsDump
@method inspect
@for Ember
@param {Object} obj The object you want to inspect.
@return {String} A description of the object
*/
Ember.inspect = function(obj) {
var type = Ember.typeOf(obj);
if (type === 'array') {
return '[' + obj + ']';
}
if (type !== 'object') {
return obj + '';
}
var v, ret = [];
for(var key in obj) {
if (obj.hasOwnProperty(key)) {
v = obj[key];
if (v === 'toString') { continue; } // ignore useless items
if (Ember.typeOf(v) === 'function') { v = "function() { ... }"; }
ret.push(key + ": " + v);
}
}
return "{" + ret.join(", ") + "}";
};
})();
(function() {
// Ember.tryCatchFinally
/**
The purpose of the Ember Instrumentation module is
to provide efficient, general-purpose instrumentation
for Ember.
Subscribe to a listener by using `Ember.subscribe`:
```javascript
Ember.subscribe("render", {
before: function(name, timestamp, payload) {
},
after: function(name, timestamp, payload) {
}
});
```
If you return a value from the `before` callback, that same
value will be passed as a fourth parameter to the `after`
callback.
Instrument a block of code by using `Ember.instrument`:
```javascript
Ember.instrument("render.handlebars", payload, function() {
// rendering logic
}, binding);
```
Event names passed to `Ember.instrument` are namespaced
by periods, from more general to more specific. Subscribers
can listen for events by whatever level of granularity they
are interested in.
In the above example, the event is `render.handlebars`,
and the subscriber listened for all events beginning with
`render`. It would receive callbacks for events named
`render`, `render.handlebars`, `render.container`, or
even `render.handlebars.layout`.
@class Instrumentation
@namespace Ember
@static
*/
Ember.Instrumentation = {};
var subscribers = [], cache = {};
var populateListeners = function(name) {
var listeners = [], subscriber;
for (var i=0, l=subscribers.length; i<l; i++) {
subscriber = subscribers[i];
if (subscriber.regex.test(name)) {
listeners.push(subscriber.object);
}
}
cache[name] = listeners;
return listeners;
};
var time = (function() {
var perf = 'undefined' !== typeof window ? window.performance || {} : {};
var fn = perf.now || perf.mozNow || perf.webkitNow || perf.msNow || perf.oNow;
// fn.bind will be available in all the browsers that support the advanced window.performance... ;-)
return fn ? fn.bind(perf) : function() { return +new Date(); };
})();
/**
Notifies event's subscribers, calls `before` and `after` hooks.
@method instrument
@namespace Ember.Instrumentation
@param {String} [name] Namespaced event name.
@param {Object} payload
@param {Function} callback Function that you're instrumenting.
@param {Object} binding Context that instrument function is called with.
*/
Ember.Instrumentation.instrument = function(name, payload, callback, binding) {
var listeners = cache[name], timeName, ret;
if (Ember.STRUCTURED_PROFILE) {
timeName = name + ": " + payload.object;
console.time(timeName);
}
if (!listeners) {
listeners = populateListeners(name);
}
if (listeners.length === 0) {
ret = callback.call(binding);
if (Ember.STRUCTURED_PROFILE) { console.timeEnd(timeName); }
return ret;
}
var beforeValues = [], listener, i, l;
function tryable() {
for (i=0, l=listeners.length; i<l; i++) {
listener = listeners[i];
beforeValues[i] = listener.before(name, time(), payload);
}
return callback.call(binding);
}
function catchable(e) {
payload = payload || {};
payload.exception = e;
}
function finalizer() {
for (i=0, l=listeners.length; i<l; i++) {
listener = listeners[i];
listener.after(name, time(), payload, beforeValues[i]);
}
if (Ember.STRUCTURED_PROFILE) {
console.timeEnd(timeName);
}
}
return Ember.tryCatchFinally(tryable, catchable, finalizer);
};
/**
Subscribes to a particular event or instrumented block of code.
@method subscribe
@namespace Ember.Instrumentation
@param {String} [pattern] Namespaced event name.
@param {Object} [object] Before and After hooks.
@return {Subscriber}
*/
Ember.Instrumentation.subscribe = function(pattern, object) {
var paths = pattern.split("."), path, regex = [];
for (var i=0, l=paths.length; i<l; i++) {
path = paths[i];
if (path === "*") {
regex.push("[^\\.]*");
} else {
regex.push(path);
}
}
regex = regex.join("\\.");
regex = regex + "(\\..*)?";
var subscriber = {
pattern: pattern,
regex: new RegExp("^" + regex + "$"),
object: object
};
subscribers.push(subscriber);
cache = {};
return subscriber;
};
/**
Unsubscribes from a particular event or instrumented block of code.
@method unsubscribe
@namespace Ember.Instrumentation
@param {Object} [subscriber]
*/
Ember.Instrumentation.unsubscribe = function(subscriber) {
var index;
for (var i=0, l=subscribers.length; i<l; i++) {
if (subscribers[i] === subscriber) {
index = i;
}
}
subscribers.splice(index, 1);
cache = {};
};
/**
Resets `Ember.Instrumentation` by flushing list of subscribers.
@method reset
@namespace Ember.Instrumentation
*/
Ember.Instrumentation.reset = function() {
subscribers = [];
cache = {};
};
Ember.instrument = Ember.Instrumentation.instrument;
Ember.subscribe = Ember.Instrumentation.subscribe;
})();
(function() {
var map, forEach, indexOf, splice, filter;
map = Array.prototype.map || Ember.ArrayPolyfills.map;
forEach = Array.prototype.forEach || Ember.ArrayPolyfills.forEach;
indexOf = Array.prototype.indexOf || Ember.ArrayPolyfills.indexOf;
filter = Array.prototype.filter || Ember.ArrayPolyfills.filter;
splice = Array.prototype.splice;
/**
* Defines some convenience methods for working with Enumerables.
* `Ember.EnumerableUtils` uses `Ember.ArrayPolyfills` when necessary.
*
* @class EnumerableUtils
* @namespace Ember
* @static
* */
var utils = Ember.EnumerableUtils = {
/**
* Calls the map function on the passed object with a specified callback. This
* uses `Ember.ArrayPolyfill`'s-map method when necessary.
*
* @method map
* @param {Object} obj The object that should be mapped
* @param {Function} callback The callback to execute
* @param {Object} thisArg Value to use as this when executing *callback*
*
* @return {Array} An array of mapped values.
*/
map: function(obj, callback, thisArg) {
return obj.map ? obj.map.call(obj, callback, thisArg) : map.call(obj, callback, thisArg);
},
/**
* Calls the forEach function on the passed object with a specified callback. This
* uses `Ember.ArrayPolyfill`'s-forEach method when necessary.
*
* @method forEach
* @param {Object} obj The object to call forEach on
* @param {Function} callback The callback to execute
* @param {Object} thisArg Value to use as this when executing *callback*
*
*/
forEach: function(obj, callback, thisArg) {
return obj.forEach ? obj.forEach.call(obj, callback, thisArg) : forEach.call(obj, callback, thisArg);
},
/**
* Calls the filter function on the passed object with a specified callback. This
* uses `Ember.ArrayPolyfill`'s-filter method when necessary.
*
* @method filter
* @param {Object} obj The object to call filter on
* @param {Function} callback The callback to execute
* @param {Object} thisArg Value to use as this when executing *callback*
*
* @return {Array} An array containing the filtered values
*/
filter: function(obj, callback, thisArg) {
return obj.filter ? obj.filter.call(obj, callback, thisArg) : filter.call(obj, callback, thisArg);
},
/**
* Calls the indexOf function on the passed object with a specified callback. This
* uses `Ember.ArrayPolyfill`'s-indexOf method when necessary.
*
* @method indexOf
* @param {Object} obj The object to call indexOn on
* @param {Function} callback The callback to execute
* @param {Object} index The index to start searching from
*
*/
indexOf: function(obj, element, index) {
return obj.indexOf ? obj.indexOf.call(obj, element, index) : indexOf.call(obj, element, index);
},
/**
* Returns an array of indexes of the first occurrences of the passed elements
* on the passed object.
*
* ```javascript
* var array = [1, 2, 3, 4, 5];
* Ember.EnumerableUtils.indexesOf(array, [2, 5]); // [1, 4]
*
* var fubar = "Fubarr";
* Ember.EnumerableUtils.indexesOf(fubar, ['b', 'r']); // [2, 4]
* ```
*
* @method indexesOf
* @param {Object} obj The object to check for element indexes
* @param {Array} elements The elements to search for on *obj*
*
* @return {Array} An array of indexes.
*
*/
indexesOf: function(obj, elements) {
return elements === undefined ? [] : utils.map(elements, function(item) {
return utils.indexOf(obj, item);
});
},
/**
* Adds an object to an array. If the array already includes the object this
* method has no effect.
*
* @method addObject
* @param {Array} array The array the passed item should be added to
* @param {Object} item The item to add to the passed array
*
* @return 'undefined'
*/
addObject: function(array, item) {
var index = utils.indexOf(array, item);
if (index === -1) { array.push(item); }
},
/**
* Removes an object from an array. If the array does not contain the passed
* object this method has no effect.
*
* @method removeObject
* @param {Array} array The array to remove the item from.
* @param {Object} item The item to remove from the passed array.
*
* @return 'undefined'
*/
removeObject: function(array, item) {
var index = utils.indexOf(array, item);
if (index !== -1) { array.splice(index, 1); }
},
_replace: function(array, idx, amt, objects) {
var args = [].concat(objects), chunk, ret = [],
// https://code.google.com/p/chromium/issues/detail?id=56588
size = 60000, start = idx, ends = amt, count;
while (args.length) {
count = ends > size ? size : ends;
if (count <= 0) { count = 0; }
chunk = args.splice(0, size);
chunk = [start, count].concat(chunk);
start += size;
ends -= count;
ret = ret.concat(splice.apply(array, chunk));
}
return ret;
},
/**
* Replaces objects in an array with the passed objects.
*
* ```javascript
* var array = [1,2,3];
* Ember.EnumerableUtils.replace(array, 1, 2, [4, 5]); // [1, 4, 5]
*
* var array = [1,2,3];
* Ember.EnumerableUtils.replace(array, 1, 1, [4, 5]); // [1, 4, 5, 3]
*
* var array = [1,2,3];
* Ember.EnumerableUtils.replace(array, 10, 1, [4, 5]); // [1, 2, 3, 4, 5]
* ```
*
* @method replace
* @param {Array} array The array the objects should be inserted into.
* @param {Number} idx Starting index in the array to replace. If *idx* >=
* length, then append to the end of the array.
* @param {Number} amt Number of elements that should be removed from the array,
* starting at *idx*
* @param {Array} objects An array of zero or more objects that should be
* inserted into the array at *idx*
*
* @return {Array} The modified array.
*/
replace: function(array, idx, amt, objects) {
if (array.replace) {
return array.replace(idx, amt, objects);
} else {
return utils._replace(array, idx, amt, objects);
}
},
/**
* Calculates the intersection of two arrays. This method returns a new array
* filled with the records that the two passed arrays share with each other.
* If there is no intersection, an empty array will be returned.
*
* ```javascript
* var array1 = [1, 2, 3, 4, 5];
* var array2 = [1, 3, 5, 6, 7];
*
* Ember.EnumerableUtils.intersection(array1, array2); // [1, 3, 5]
*
* var array1 = [1, 2, 3];
* var array2 = [4, 5, 6];
*
* Ember.EnumerableUtils.intersection(array1, array2); // []
* ```
*
* @method intersection
* @param {Array} array1 The first array
* @param {Array} array2 The second array
*
* @return {Array} The intersection of the two passed arrays.
*/
intersection: function(array1, array2) {
var intersection = [];
utils.forEach(array1, function(element) {
if (utils.indexOf(array2, element) >= 0) {
intersection.push(element);
}
});
return intersection;
}
};
})();
(function() {
/**
@module ember-metal
*/
var META_KEY = Ember.META_KEY, get;
var MANDATORY_SETTER = Ember.ENV.MANDATORY_SETTER;
var IS_GLOBAL_PATH = /^([A-Z$]|([0-9][A-Z$])).*[\.\*]/;
var HAS_THIS = /^this[\.\*]/;
var FIRST_KEY = /^([^\.\*]+)/;
// ..........................................................
// GET AND SET
//
// If we are on a platform that supports accessors we can use those.
// Otherwise simulate accessors by looking up the property directly on the
// object.
/**
Gets the value of a property on an object. If the property is computed,
the function will be invoked. If the property is not defined but the
object implements the `unknownProperty` method then that will be invoked.
If you plan to run on IE8 and older browsers then you should use this
method anytime you want to retrieve a property on an object that you don't
know for sure is private. (Properties beginning with an underscore '_'
are considered private.)
On all newer browsers, you only need to use this method to retrieve
properties if the property might not be defined on the object and you want
to respect the `unknownProperty` handler. Otherwise you can ignore this
method.
Note that if the object itself is `undefined`, this method will throw
an error.
@method get
@for Ember
@param {Object} obj The object to retrieve from.
@param {String} keyName The property key to retrieve
@return {Object} the property value or `null`.
*/
get = function get(obj, keyName) {
// Helpers that operate with 'this' within an #each
if (keyName === '') {
return obj;
}
if (!keyName && 'string'===typeof obj) {
keyName = obj;
obj = null;
}
Ember.assert("Cannot call get with "+ keyName +" key.", !!keyName);
Ember.assert("Cannot call get with '"+ keyName +"' on an undefined object.", obj !== undefined);
if (obj === null || keyName.indexOf('.') !== -1) {
return getPath(obj, keyName);
}
var meta = obj[META_KEY], desc = meta && meta.descs[keyName], ret;
if (desc) {
return desc.get(obj, keyName);
} else {
if (MANDATORY_SETTER && meta && meta.watching[keyName] > 0) {
ret = meta.values[keyName];
} else {
ret = obj[keyName];
}
if (ret === undefined &&
'object' === typeof obj && !(keyName in obj) && 'function' === typeof obj.unknownProperty) {
return obj.unknownProperty(keyName);
}
return ret;
}
};
// Currently used only by Ember Data tests
if (Ember.config.overrideAccessors) {
Ember.get = get;
Ember.config.overrideAccessors();
get = Ember.get;
}
/**
Normalizes a target/path pair to reflect that actual target/path that should
be observed, etc. This takes into account passing in global property
paths (i.e. a path beginning with a captial letter not defined on the
target) and * separators.
@private
@method normalizeTuple
@for Ember
@param {Object} target The current target. May be `null`.
@param {String} path A path on the target or a global property path.
@return {Array} a temporary array with the normalized target/path pair.
*/
var normalizeTuple = Ember.normalizeTuple = function(target, path) {
var hasThis = HAS_THIS.test(path),
isGlobal = !hasThis && IS_GLOBAL_PATH.test(path),
key;
if (!target || isGlobal) target = Ember.lookup;
if (hasThis) path = path.slice(5);
if (target === Ember.lookup) {
key = path.match(FIRST_KEY)[0];
target = get(target, key);
path = path.slice(key.length+1);
}
// must return some kind of path to be valid else other things will break.
if (!path || path.length===0) throw new Ember.Error('Path cannot be empty');
return [ target, path ];
};
var getPath = Ember._getPath = function(root, path) {
var hasThis, parts, tuple, idx, len;
// If there is no root and path is a key name, return that
// property from the global object.
// E.g. get('Ember') -> Ember
if (root === null && path.indexOf('.') === -1) { return get(Ember.lookup, path); }
// detect complicated paths and normalize them
hasThis = HAS_THIS.test(path);
if (!root || hasThis) {
tuple = normalizeTuple(root, path);
root = tuple[0];
path = tuple[1];
tuple.length = 0;
}
parts = path.split(".");
len = parts.length;
for (idx = 0; root != null && idx < len; idx++) {
root = get(root, parts[idx], true);
if (root && root.isDestroyed) { return undefined; }
}
return root;
};
Ember.getWithDefault = function(root, key, defaultValue) {
var value = get(root, key);
if (value === undefined) { return defaultValue; }
return value;
};
Ember.get = get;
})();
(function() {
/**
@module ember-metal
*/
var o_create = Ember.create,
metaFor = Ember.meta,
META_KEY = Ember.META_KEY,
a_slice = [].slice,
/* listener flags */
ONCE = 1, SUSPENDED = 2;
/*
The event system uses a series of nested hashes to store listeners on an
object. When a listener is registered, or when an event arrives, these
hashes are consulted to determine which target and action pair to invoke.
The hashes are stored in the object's meta hash, and look like this:
// Object's meta hash
{
listeners: { // variable name: `listenerSet`
"foo:changed": [ // variable name: `actions`
target, method, flags
]
}
}
*/
function indexOf(array, target, method) {
var index = -1;
// hashes are added to the end of the event array
// so it makes sense to start searching at the end
// of the array and search in reverse
for (var i = array.length - 3 ; i >=0; i -= 3) {
if (target === array[i] && method === array[i + 1]) {
index = i; break;
}
}
return index;
}
function actionsFor(obj, eventName) {
var meta = metaFor(obj, true),
actions;
if (!meta.listeners) { meta.listeners = {}; }
if (!meta.hasOwnProperty('listeners')) {
// setup inherited copy of the listeners object
meta.listeners = o_create(meta.listeners);
}
actions = meta.listeners[eventName];
// if there are actions, but the eventName doesn't exist in our listeners, then copy them from the prototype
if (actions && !meta.listeners.hasOwnProperty(eventName)) {
actions = meta.listeners[eventName] = meta.listeners[eventName].slice();
} else if (!actions) {
actions = meta.listeners[eventName] = [];
}
return actions;
}
function actionsUnion(obj, eventName, otherActions) {
var meta = obj[META_KEY],
actions = meta && meta.listeners && meta.listeners[eventName];
if (!actions) { return; }
for (var i = actions.length - 3; i >= 0; i -= 3) {
var target = actions[i],
method = actions[i+1],
flags = actions[i+2],
actionIndex = indexOf(otherActions, target, method);
if (actionIndex === -1) {
otherActions.push(target, method, flags);
}
}
}
function actionsDiff(obj, eventName, otherActions) {
var meta = obj[META_KEY],
actions = meta && meta.listeners && meta.listeners[eventName],
diffActions = [];
if (!actions) { return; }
for (var i = actions.length - 3; i >= 0; i -= 3) {
var target = actions[i],
method = actions[i+1],
flags = actions[i+2],
actionIndex = indexOf(otherActions, target, method);
if (actionIndex !== -1) { continue; }
otherActions.push(target, method, flags);
diffActions.push(target, method, flags);
}
return diffActions;
}
/**
Add an event listener
@method addListener
@for Ember
@param obj
@param {String} eventName
@param {Object|Function} targetOrMethod A target object or a function
@param {Function|String} method A function or the name of a function to be called on `target`
@param {Boolean} once A flag whether a function should only be called once
*/
function addListener(obj, eventName, target, method, once) {
Ember.assert("You must pass at least an object and event name to Ember.addListener", !!obj && !!eventName);
if (!method && 'function' === typeof target) {
method = target;
target = null;
}
var actions = actionsFor(obj, eventName),
actionIndex = indexOf(actions, target, method),
flags = 0;
if (once) flags |= ONCE;
if (actionIndex !== -1) { return; }
actions.push(target, method, flags);
if ('function' === typeof obj.didAddListener) {
obj.didAddListener(eventName, target, method);
}
}
/**
Remove an event listener
Arguments should match those passed to `Ember.addListener`.
@method removeListener
@for Ember
@param obj
@param {String} eventName
@param {Object|Function} targetOrMethod A target object or a function
@param {Function|String} method A function or the name of a function to be called on `target`
*/
function removeListener(obj, eventName, target, method) {
Ember.assert("You must pass at least an object and event name to Ember.removeListener", !!obj && !!eventName);
if (!method && 'function' === typeof target) {
method = target;
target = null;
}
function _removeListener(target, method) {
var actions = actionsFor(obj, eventName),
actionIndex = indexOf(actions, target, method);
// action doesn't exist, give up silently
if (actionIndex === -1) { return; }
actions.splice(actionIndex, 3);
if ('function' === typeof obj.didRemoveListener) {
obj.didRemoveListener(eventName, target, method);
}
}
if (method) {
_removeListener(target, method);
} else {
var meta = obj[META_KEY],
actions = meta && meta.listeners && meta.listeners[eventName];
if (!actions) { return; }
for (var i = actions.length - 3; i >= 0; i -= 3) {
_removeListener(actions[i], actions[i+1]);
}
}
}
/**
Suspend listener during callback.
This should only be used by the target of the event listener
when it is taking an action that would cause the event, e.g.
an object might suspend its property change listener while it is
setting that property.
@method suspendListener
@for Ember
@private
@param obj
@param {String} eventName
@param {Object|Function} targetOrMethod A target object or a function
@param {Function|String} method A function or the name of a function to be called on `target`
@param {Function} callback
*/
function suspendListener(obj, eventName, target, method, callback) {
if (!method && 'function' === typeof target) {
method = target;
target = null;
}
var actions = actionsFor(obj, eventName),
actionIndex = indexOf(actions, target, method);
if (actionIndex !== -1) {
actions[actionIndex+2] |= SUSPENDED; // mark the action as suspended
}
function tryable() { return callback.call(target); }
function finalizer() { if (actionIndex !== -1) { actions[actionIndex+2] &= ~SUSPENDED; } }
return Ember.tryFinally(tryable, finalizer);
}
/**
Suspends multiple listeners during a callback.
@method suspendListeners
@for Ember
@private
@param obj
@param {Array} eventName Array of event names
@param {Object|Function} targetOrMethod A target object or a function
@param {Function|String} method A function or the name of a function to be called on `target`
@param {Function} callback
*/
function suspendListeners(obj, eventNames, target, method, callback) {
if (!method && 'function' === typeof target) {
method = target;
target = null;
}
var suspendedActions = [],
actionsList = [],
eventName, actions, i, l;
for (i=0, l=eventNames.length; i<l; i++) {
eventName = eventNames[i];
actions = actionsFor(obj, eventName);
var actionIndex = indexOf(actions, target, method);
if (actionIndex !== -1) {
actions[actionIndex+2] |= SUSPENDED;
suspendedActions.push(actionIndex);
actionsList.push(actions);
}
}
function tryable() { return callback.call(target); }
function finalizer() {
for (var i = 0, l = suspendedActions.length; i < l; i++) {
var actionIndex = suspendedActions[i];
actionsList[i][actionIndex+2] &= ~SUSPENDED;
}
}
return Ember.tryFinally(tryable, finalizer);
}
/**
Return a list of currently watched events
@private
@method watchedEvents
@for Ember
@param obj
*/
function watchedEvents(obj) {
var listeners = obj[META_KEY].listeners, ret = [];
if (listeners) {
for(var eventName in listeners) {
if (listeners[eventName]) { ret.push(eventName); }
}
}
return ret;
}
/**
Send an event. The execution of suspended listeners
is skipped, and once listeners are removed. A listener without
a target is executed on the passed object. If an array of actions
is not passed, the actions stored on the passed object are invoked.
@method sendEvent
@for Ember
@param obj
@param {String} eventName
@param {Array} params Optional parameters for each listener.
@param {Array} actions Optional array of actions (listeners).
@return true
*/
function sendEvent(obj, eventName, params, actions) {
// first give object a chance to handle it
if (obj !== Ember && 'function' === typeof obj.sendEvent) {
obj.sendEvent(eventName, params);
}
if (!actions) {
var meta = obj[META_KEY];
actions = meta && meta.listeners && meta.listeners[eventName];
}
if (!actions) { return; }
for (var i = actions.length - 3; i >= 0; i -= 3) { // looping in reverse for once listeners
var target = actions[i], method = actions[i+1], flags = actions[i+2];
if (!method) { continue; }
if (flags & SUSPENDED) { continue; }
if (flags & ONCE) { removeListener(obj, eventName, target, method); }
if (!target) { target = obj; }
if ('string' === typeof method) { method = target[method]; }
if (params) {
method.apply(target, params);
} else {
method.call(target);
}
}
return true;
}
/**
@private
@method hasListeners
@for Ember
@param obj
@param {String} eventName
*/
function hasListeners(obj, eventName) {
var meta = obj[META_KEY],
actions = meta && meta.listeners && meta.listeners[eventName];
return !!(actions && actions.length);
}
/**
@private
@method listenersFor
@for Ember
@param obj
@param {String} eventName
*/
function listenersFor(obj, eventName) {
var ret = [];
var meta = obj[META_KEY],
actions = meta && meta.listeners && meta.listeners[eventName];
if (!actions) { return ret; }
for (var i = 0, l = actions.length; i < l; i += 3) {
var target = actions[i],
method = actions[i+1];
ret.push([target, method]);
}
return ret;
}
/**
Define a property as a function that should be executed when
a specified event or events are triggered.
``` javascript
var Job = Ember.Object.extend({
logCompleted: Ember.on('completed', function(){
console.log('Job completed!');
})
});
var job = Job.create();
Ember.sendEvent(job, 'completed'); // Logs "Job completed!"
```
@method on
@for Ember
@param {String} eventNames*
@param {Function} func
@return func
*/
Ember.on = function(){
var func = a_slice.call(arguments, -1)[0],
events = a_slice.call(arguments, 0, -1);
func.__ember_listens__ = events;
return func;
};
Ember.addListener = addListener;
Ember.removeListener = removeListener;
Ember._suspendListener = suspendListener;
Ember._suspendListeners = suspendListeners;
Ember.sendEvent = sendEvent;
Ember.hasListeners = hasListeners;
Ember.watchedEvents = watchedEvents;
Ember.listenersFor = listenersFor;
Ember.listenersDiff = actionsDiff;
Ember.listenersUnion = actionsUnion;
})();
(function() {
var guidFor = Ember.guidFor,
sendEvent = Ember.sendEvent;
/*
this.observerSet = {
[senderGuid]: { // variable name: `keySet`
[keyName]: listIndex
}
},
this.observers = [
{
sender: obj,
keyName: keyName,
eventName: eventName,
listeners: [
[target, method, flags]
]
},
...
]
*/
var ObserverSet = Ember._ObserverSet = function() {
this.clear();
};
ObserverSet.prototype.add = function(sender, keyName, eventName) {
var observerSet = this.observerSet,
observers = this.observers,
senderGuid = guidFor(sender),
keySet = observerSet[senderGuid],
index;
if (!keySet) {
observerSet[senderGuid] = keySet = {};
}
index = keySet[keyName];
if (index === undefined) {
index = observers.push({
sender: sender,
keyName: keyName,
eventName: eventName,
listeners: []
}) - 1;
keySet[keyName] = index;
}
return observers[index].listeners;
};
ObserverSet.prototype.flush = function() {
var observers = this.observers, i, len, observer, sender;
this.clear();
for (i=0, len=observers.length; i < len; ++i) {
observer = observers[i];
sender = observer.sender;
if (sender.isDestroying || sender.isDestroyed) { continue; }
sendEvent(sender, observer.eventName, [sender, observer.keyName], observer.listeners);
}
};
ObserverSet.prototype.clear = function() {
this.observerSet = {};
this.observers = [];
};
})();
(function() {
var META_KEY = Ember.META_KEY,
guidFor = Ember.guidFor,
tryFinally = Ember.tryFinally,
sendEvent = Ember.sendEvent,
listenersUnion = Ember.listenersUnion,
listenersDiff = Ember.listenersDiff,
ObserverSet = Ember._ObserverSet,
beforeObserverSet = new ObserverSet(),
observerSet = new ObserverSet(),
deferred = 0;
// ..........................................................
// PROPERTY CHANGES
//
/**
This function is called just before an object property is about to change.
It will notify any before observers and prepare caches among other things.
Normally you will not need to call this method directly but if for some
reason you can't directly watch a property you can invoke this method
manually along with `Ember.propertyDidChange()` which you should call just
after the property value changes.
@method propertyWillChange
@for Ember
@param {Object} obj The object with the property that will change
@param {String} keyName The property key (or path) that will change.
@return {void}
*/
function propertyWillChange(obj, keyName) {
var m = obj[META_KEY],
watching = (m && m.watching[keyName] > 0) || keyName === 'length',
proto = m && m.proto,
desc = m && m.descs[keyName];
if (!watching) { return; }
if (proto === obj) { return; }
if (desc && desc.willChange) { desc.willChange(obj, keyName); }
dependentKeysWillChange(obj, keyName, m);
chainsWillChange(obj, keyName, m);
notifyBeforeObservers(obj, keyName);
}
Ember.propertyWillChange = propertyWillChange;
/**
This function is called just after an object property has changed.
It will notify any observers and clear caches among other things.
Normally you will not need to call this method directly but if for some
reason you can't directly watch a property you can invoke this method
manually along with `Ember.propertyWillChange()` which you should call just
before the property value changes.
@method propertyDidChange
@for Ember
@param {Object} obj The object with the property that will change
@param {String} keyName The property key (or path) that will change.
@return {void}
*/
function propertyDidChange(obj, keyName) {
var m = obj[META_KEY],
watching = (m && m.watching[keyName] > 0) || keyName === 'length',
proto = m && m.proto,
desc = m && m.descs[keyName];
if (proto === obj) { return; }
// shouldn't this mean that we're watching this key?
if (desc && desc.didChange) { desc.didChange(obj, keyName); }
if (!watching && keyName !== 'length') { return; }
dependentKeysDidChange(obj, keyName, m);
chainsDidChange(obj, keyName, m, false);
notifyObservers(obj, keyName);
}
Ember.propertyDidChange = propertyDidChange;
var WILL_SEEN, DID_SEEN;
// called whenever a property is about to change to clear the cache of any dependent keys (and notify those properties of changes, etc...)
function dependentKeysWillChange(obj, depKey, meta) {
if (obj.isDestroying) { return; }
var seen = WILL_SEEN, top = !seen;
if (top) { seen = WILL_SEEN = {}; }
iterDeps(propertyWillChange, obj, depKey, seen, meta);
if (top) { WILL_SEEN = null; }
}
// called whenever a property has just changed to update dependent keys
function dependentKeysDidChange(obj, depKey, meta) {
if (obj.isDestroying) { return; }
var seen = DID_SEEN, top = !seen;
if (top) { seen = DID_SEEN = {}; }
iterDeps(propertyDidChange, obj, depKey, seen, meta);
if (top) { DID_SEEN = null; }
}
function iterDeps(method, obj, depKey, seen, meta) {
var guid = guidFor(obj);
if (!seen[guid]) seen[guid] = {};
if (seen[guid][depKey]) return;
seen[guid][depKey] = true;
var deps = meta.deps;
deps = deps && deps[depKey];
if (deps) {
for(var key in deps) {
var desc = meta.descs[key];
if (desc && desc._suspended === obj) continue;
method(obj, key);
}
}
}
function chainsWillChange(obj, keyName, m) {
if (!(m.hasOwnProperty('chainWatchers') &&
m.chainWatchers[keyName])) {
return;
}
var nodes = m.chainWatchers[keyName],
events = [],
i, l;
for(i = 0, l = nodes.length; i < l; i++) {
nodes[i].willChange(events);
}
for (i = 0, l = events.length; i < l; i += 2) {
propertyWillChange(events[i], events[i+1]);
}
}
function chainsDidChange(obj, keyName, m, suppressEvents) {
if (!(m && m.hasOwnProperty('chainWatchers') &&
m.chainWatchers[keyName])) {
return;
}
var nodes = m.chainWatchers[keyName],
events = suppressEvents ? null : [],
i, l;
for(i = 0, l = nodes.length; i < l; i++) {
nodes[i].didChange(events);
}
if (suppressEvents) {
return;
}
for (i = 0, l = events.length; i < l; i += 2) {
propertyDidChange(events[i], events[i+1]);
}
}
Ember.overrideChains = function(obj, keyName, m) {
chainsDidChange(obj, keyName, m, true);
};
/**
@method beginPropertyChanges
@chainable
@private
*/
function beginPropertyChanges() {
deferred++;
}
Ember.beginPropertyChanges = beginPropertyChanges;
/**
@method endPropertyChanges
@private
*/
function endPropertyChanges() {
deferred--;
if (deferred<=0) {
beforeObserverSet.clear();
observerSet.flush();
}
}
Ember.endPropertyChanges = endPropertyChanges;
/**
Make a series of property changes together in an
exception-safe way.
```javascript
Ember.changeProperties(function() {
obj1.set('foo', mayBlowUpWhenSet);
obj2.set('bar', baz);
});
```
@method changeProperties
@param {Function} callback
@param [binding]
*/
Ember.changeProperties = function(cb, binding) {
beginPropertyChanges();
tryFinally(cb, endPropertyChanges, binding);
};
function notifyBeforeObservers(obj, keyName) {
if (obj.isDestroying) { return; }
var eventName = keyName + ':before', listeners, diff;
if (deferred) {
listeners = beforeObserverSet.add(obj, keyName, eventName);
diff = listenersDiff(obj, eventName, listeners);
sendEvent(obj, eventName, [obj, keyName], diff);
} else {
sendEvent(obj, eventName, [obj, keyName]);
}
}
function notifyObservers(obj, keyName) {
if (obj.isDestroying) { return; }
var eventName = keyName + ':change', listeners;
if (deferred) {
listeners = observerSet.add(obj, keyName, eventName);
listenersUnion(obj, eventName, listeners);
} else {
sendEvent(obj, eventName, [obj, keyName]);
}
}
})();
(function() {
// META_KEY
// _getPath
// propertyWillChange, propertyDidChange
var META_KEY = Ember.META_KEY,
MANDATORY_SETTER = Ember.ENV.MANDATORY_SETTER,
IS_GLOBAL = /^([A-Z$]|([0-9][A-Z$]))/,
getPath = Ember._getPath;
/**
Sets the value of a property on an object, respecting computed properties
and notifying observers and other listeners of the change. If the
property is not defined but the object implements the `setUnknownProperty`
method then that will be invoked as well.
@method set
@for Ember
@param {Object} obj The object to modify.
@param {String} keyName The property key to set
@param {Object} value The value to set
@return {Object} the passed value.
*/
var set = function set(obj, keyName, value, tolerant) {
if (typeof obj === 'string') {
Ember.assert("Path '" + obj + "' must be global if no obj is given.", IS_GLOBAL.test(obj));
value = keyName;
keyName = obj;
obj = null;
}
Ember.assert("Cannot call set with "+ keyName +" key.", !!keyName);
if (!obj || keyName.indexOf('.') !== -1) {
return setPath(obj, keyName, value, tolerant);
}
Ember.assert("You need to provide an object and key to `set`.", !!obj && keyName !== undefined);
Ember.assert('calling set on destroyed object', !obj.isDestroyed);
var meta = obj[META_KEY], desc = meta && meta.descs[keyName],
isUnknown, currentValue;
if (desc) {
desc.set(obj, keyName, value);
} else {
isUnknown = 'object' === typeof obj && !(keyName in obj);
// setUnknownProperty is called if `obj` is an object,
// the property does not already exist, and the
// `setUnknownProperty` method exists on the object
if (isUnknown && 'function' === typeof obj.setUnknownProperty) {
obj.setUnknownProperty(keyName, value);
} else if (meta && meta.watching[keyName] > 0) {
if (MANDATORY_SETTER) {
currentValue = meta.values[keyName];
} else {
currentValue = obj[keyName];
}
// only trigger a change if the value has changed
if (value !== currentValue) {
Ember.propertyWillChange(obj, keyName);
if (MANDATORY_SETTER) {
if ((currentValue === undefined && !(keyName in obj)) || !obj.propertyIsEnumerable(keyName)) {
Ember.defineProperty(obj, keyName, null, value); // setup mandatory setter
} else {
meta.values[keyName] = value;
}
} else {
obj[keyName] = value;
}
Ember.propertyDidChange(obj, keyName);
}
} else {
obj[keyName] = value;
}
}
return value;
};
// Currently used only by Ember Data tests
if (Ember.config.overrideAccessors) {
Ember.set = set;
Ember.config.overrideAccessors();
set = Ember.set;
}
function setPath(root, path, value, tolerant) {
var keyName;
// get the last part of the path
keyName = path.slice(path.lastIndexOf('.') + 1);
// get the first part of the part
path = (path === keyName) ? keyName : path.slice(0, path.length-(keyName.length+1));
// unless the path is this, look up the first part to
// get the root
if (path !== 'this') {
root = getPath(root, path);
}
if (!keyName || keyName.length === 0) {
throw new Ember.Error('Property set failed: You passed an empty path');
}
if (!root) {
if (tolerant) { return; }
else { throw new Ember.Error('Property set failed: object in path "'+path+'" could not be found or was destroyed.'); }
}
return set(root, keyName, value);
}
Ember.set = set;
/**
Error-tolerant form of `Ember.set`. Will not blow up if any part of the
chain is `undefined`, `null`, or destroyed.
This is primarily used when syncing bindings, which may try to update after
an object has been destroyed.
@method trySet
@for Ember
@param {Object} obj The object to modify.
@param {String} path The property path to set
@param {Object} value The value to set
*/
Ember.trySet = function(root, path, value) {
return set(root, path, value, true);
};
})();
(function() {
/**
@module ember-metal
*/
/*
JavaScript (before ES6) does not have a Map implementation. Objects,
which are often used as dictionaries, may only have Strings as keys.
Because Ember has a way to get a unique identifier for every object
via `Ember.guidFor`, we can implement a performant Map with arbitrary
keys. Because it is commonly used in low-level bookkeeping, Map is
implemented as a pure JavaScript object for performance.
This implementation follows the current iteration of the ES6 proposal for
maps (http://wiki.ecmascript.org/doku.php?id=harmony:simple_maps_and_sets),
with two exceptions. First, because we need our implementation to be pleasant
on older browsers, we do not use the `delete` name (using `remove` instead).
Second, as we do not have the luxury of in-VM iteration, we implement a
forEach method for iteration.
Map is mocked out to look like an Ember object, so you can do
`Ember.Map.create()` for symmetry with other Ember classes.
*/
var set = Ember.set,
guidFor = Ember.guidFor,
indexOf = Ember.ArrayPolyfills.indexOf;
var copy = function(obj) {
var output = {};
for (var prop in obj) {
if (obj.hasOwnProperty(prop)) { output[prop] = obj[prop]; }
}
return output;
};
var copyMap = function(original, newObject) {
var keys = original.keys.copy(),
values = copy(original.values);
newObject.keys = keys;
newObject.values = values;
newObject.length = original.length;
return newObject;
};
/**
This class is used internally by Ember and Ember Data.
Please do not use it at this time. We plan to clean it up
and add many tests soon.
@class OrderedSet
@namespace Ember
@constructor
@private
*/
var OrderedSet = Ember.OrderedSet = function() {
this.clear();
};
/**
@method create
@static
@return {Ember.OrderedSet}
*/
OrderedSet.create = function() {
return new OrderedSet();
};
OrderedSet.prototype = {
/**
@method clear
*/
clear: function() {
this.presenceSet = {};
this.list = [];
},
/**
@method add
@param obj
*/
add: function(obj) {
var guid = guidFor(obj),
presenceSet = this.presenceSet,
list = this.list;
if (guid in presenceSet) { return; }
presenceSet[guid] = true;
list.push(obj);
},
/**
@method remove
@param obj
*/
remove: function(obj) {
var guid = guidFor(obj),
presenceSet = this.presenceSet,
list = this.list;
delete presenceSet[guid];
var index = indexOf.call(list, obj);
if (index > -1) {
list.splice(index, 1);
}
},
/**
@method isEmpty
@return {Boolean}
*/
isEmpty: function() {
return this.list.length === 0;
},
/**
@method has
@param obj
@return {Boolean}
*/
has: function(obj) {
var guid = guidFor(obj),
presenceSet = this.presenceSet;
return guid in presenceSet;
},
/**
@method forEach
@param {Function} fn
@param self
*/
forEach: function(fn, self) {
// allow mutation during iteration
var list = this.toArray();
for (var i = 0, j = list.length; i < j; i++) {
fn.call(self, list[i]);
}
},
/**
@method toArray
@return {Array}
*/
toArray: function() {
return this.list.slice();
},
/**
@method copy
@return {Ember.OrderedSet}
*/
copy: function() {
var set = new OrderedSet();
set.presenceSet = copy(this.presenceSet);
set.list = this.toArray();
return set;
}
};
/**
A Map stores values indexed by keys. Unlike JavaScript's
default Objects, the keys of a Map can be any JavaScript
object.
Internally, a Map has two data structures:
1. `keys`: an OrderedSet of all of the existing keys
2. `values`: a JavaScript Object indexed by the `Ember.guidFor(key)`
When a key/value pair is added for the first time, we
add the key to the `keys` OrderedSet, and create or
replace an entry in `values`. When an entry is deleted,
we delete its entry in `keys` and `values`.
@class Map
@namespace Ember
@private
@constructor
*/
var Map = Ember.Map = function() {
this.keys = Ember.OrderedSet.create();
this.values = {};
};
/**
@method create
@static
*/
Map.create = function() {
return new Map();
};
Map.prototype = {
/**
This property will change as the number of objects in the map changes.
@property length
@type number
@default 0
*/
length: 0,
/**
Retrieve the value associated with a given key.
@method get
@param {*} key
@return {*} the value associated with the key, or `undefined`
*/
get: function(key) {
var values = this.values,
guid = guidFor(key);
return values[guid];
},
/**
Adds a value to the map. If a value for the given key has already been
provided, the new value will replace the old value.
@method set
@param {*} key
@param {*} value
*/
set: function(key, value) {
var keys = this.keys,
values = this.values,
guid = guidFor(key);
keys.add(key);
values[guid] = value;
set(this, 'length', keys.list.length);
},
/**
Removes a value from the map for an associated key.
@method remove
@param {*} key
@return {Boolean} true if an item was removed, false otherwise
*/
remove: function(key) {
// don't use ES6 "delete" because it will be annoying
// to use in browsers that are not ES6 friendly;
var keys = this.keys,
values = this.values,
guid = guidFor(key);
if (values.hasOwnProperty(guid)) {
keys.remove(key);
delete values[guid];
set(this, 'length', keys.list.length);
return true;
} else {
return false;
}
},
/**
Check whether a key is present.
@method has
@param {*} key
@return {Boolean} true if the item was present, false otherwise
*/
has: function(key) {
var values = this.values,
guid = guidFor(key);
return values.hasOwnProperty(guid);
},
/**
Iterate over all the keys and values. Calls the function once
for each key, passing in the key and value, in that order.
The keys are guaranteed to be iterated over in insertion order.
@method forEach
@param {Function} callback
@param {*} self if passed, the `this` value inside the
callback. By default, `this` is the map.
*/
forEach: function(callback, self) {
var keys = this.keys,
values = this.values;
keys.forEach(function(key) {
var guid = guidFor(key);
callback.call(self, key, values[guid]);
});
},
/**
@method copy
@return {Ember.Map}
*/
copy: function() {
return copyMap(this, new Map());
}
};
/**
@class MapWithDefault
@namespace Ember
@extends Ember.Map
@private
@constructor
@param [options]
@param {*} [options.defaultValue]
*/
var MapWithDefault = Ember.MapWithDefault = function(options) {
Map.call(this);
this.defaultValue = options.defaultValue;
};
/**
@method create
@static
@param [options]
@param {*} [options.defaultValue]
@return {Ember.MapWithDefault|Ember.Map} If options are passed, returns
`Ember.MapWithDefault` otherwise returns `Ember.Map`
*/
MapWithDefault.create = function(options) {
if (options) {
return new MapWithDefault(options);
} else {
return new Map();
}
};
MapWithDefault.prototype = Ember.create(Map.prototype);
/**
Retrieve the value associated with a given key.
@method get
@param {*} key
@return {*} the value associated with the key, or the default value
*/
MapWithDefault.prototype.get = function(key) {
var hasValue = this.has(key);
if (hasValue) {
return Map.prototype.get.call(this, key);
} else {
var defaultValue = this.defaultValue(key);
this.set(key, defaultValue);
return defaultValue;
}
};
/**
@method copy
@return {Ember.MapWithDefault}
*/
MapWithDefault.prototype.copy = function() {
return copyMap(this, new MapWithDefault({
defaultValue: this.defaultValue
}));
};
})();
(function() {
function consoleMethod(name) {
var consoleObj, logToConsole;
if (Ember.imports.console) {
consoleObj = Ember.imports.console;
} else if (typeof console !== 'undefined') {
consoleObj = console;
}
var method = typeof consoleObj === 'object' ? consoleObj[name] : null;
if (method) {
// Older IE doesn't support apply, but Chrome needs it
if (typeof method.apply === 'function') {
logToConsole = function() {
method.apply(consoleObj, arguments);
};
logToConsole.displayName = 'console.' + name;
return logToConsole;
} else {
return function() {
var message = Array.prototype.join.call(arguments, ', ');
method(message);
};
}
}
}
function assertPolyfill(test, message) {
if (!test) {
try {
// attempt to preserve the stack
throw new Ember.Error("assertion failed: " + message);
} catch(error) {
setTimeout(function() {
throw error;
}, 0);
}
}
}
/**
Inside Ember-Metal, simply uses the methods from `imports.console`.
Override this to provide more robust logging functionality.
@class Logger
@namespace Ember
*/
Ember.Logger = {
/**
Logs the arguments to the console.
You can pass as many arguments as you want and they will be joined together with a space.
```javascript
var foo = 1;
Ember.Logger.log('log value of foo:', foo);
// "log value of foo: 1" will be printed to the console
```
@method log
@for Ember.Logger
@param {*} arguments
*/
log: consoleMethod('log') || Ember.K,
/**
Prints the arguments to the console with a warning icon.
You can pass as many arguments as you want and they will be joined together with a space.
```javascript
Ember.Logger.warn('Something happened!');
// "Something happened!" will be printed to the console with a warning icon.
```
@method warn
@for Ember.Logger
@param {*} arguments
*/
warn: consoleMethod('warn') || Ember.K,
/**
Prints the arguments to the console with an error icon, red text and a stack trace.
You can pass as many arguments as you want and they will be joined together with a space.
```javascript
Ember.Logger.error('Danger! Danger!');
// "Danger! Danger!" will be printed to the console in red text.
```
@method error
@for Ember.Logger
@param {*} arguments
*/
error: consoleMethod('error') || Ember.K,
/**
Logs the arguments to the console.
You can pass as many arguments as you want and they will be joined together with a space.
```javascript
var foo = 1;
Ember.Logger.info('log value of foo:', foo);
// "log value of foo: 1" will be printed to the console
```
@method info
@for Ember.Logger
@param {*} arguments
*/
info: consoleMethod('info') || Ember.K,
/**
Logs the arguments to the console in blue text.
You can pass as many arguments as you want and they will be joined together with a space.
```javascript
var foo = 1;
Ember.Logger.debug('log value of foo:', foo);
// "log value of foo: 1" will be printed to the console
```
@method debug
@for Ember.Logger
@param {*} arguments
*/
debug: consoleMethod('debug') || consoleMethod('info') || Ember.K,
/**
If the value passed into `Ember.Logger.assert` is not truthy it will throw an error with a stack trace.
```javascript
Ember.Logger.assert(true); // undefined
Ember.Logger.assert(true === false); // Throws an Assertion failed error.
```
@method assert
@for Ember.Logger
@param {Boolean} bool Value to test
*/
assert: consoleMethod('assert') || assertPolyfill
};
})();
(function() {
/**
@module ember-metal
*/
var META_KEY = Ember.META_KEY,
metaFor = Ember.meta,
objectDefineProperty = Ember.platform.defineProperty;
var MANDATORY_SETTER = Ember.ENV.MANDATORY_SETTER;
// ..........................................................
// DESCRIPTOR
//
/**
Objects of this type can implement an interface to respond to requests to
get and set. The default implementation handles simple properties.
You generally won't need to create or subclass this directly.
@class Descriptor
@namespace Ember
@private
@constructor
*/
Ember.Descriptor = function() {};
// ..........................................................
// DEFINING PROPERTIES API
//
var MANDATORY_SETTER_FUNCTION = Ember.MANDATORY_SETTER_FUNCTION = function(value) {
Ember.assert("You must use Ember.set() to access this property (of " + this + ")", false);
};
var DEFAULT_GETTER_FUNCTION = Ember.DEFAULT_GETTER_FUNCTION = function(name) {
return function() {
var meta = this[META_KEY];
return meta && meta.values[name];
};
};
/**
NOTE: This is a low-level method used by other parts of the API. You almost
never want to call this method directly. Instead you should use
`Ember.mixin()` to define new properties.
Defines a property on an object. This method works much like the ES5
`Object.defineProperty()` method except that it can also accept computed
properties and other special descriptors.
Normally this method takes only three parameters. However if you pass an
instance of `Ember.Descriptor` as the third param then you can pass an
optional value as the fourth parameter. This is often more efficient than
creating new descriptor hashes for each property.
## Examples
```javascript
// ES5 compatible mode
Ember.defineProperty(contact, 'firstName', {
writable: true,
configurable: false,
enumerable: true,
value: 'Charles'
});
// define a simple property
Ember.defineProperty(contact, 'lastName', undefined, 'Jolley');
// define a computed property
Ember.defineProperty(contact, 'fullName', Ember.computed(function() {
return this.firstName+' '+this.lastName;
}).property('firstName', 'lastName'));
```
@private
@method defineProperty
@for Ember
@param {Object} obj the object to define this property on. This may be a prototype.
@param {String} keyName the name of the property
@param {Ember.Descriptor} [desc] an instance of `Ember.Descriptor` (typically a
computed property) or an ES5 descriptor.
You must provide this or `data` but not both.
@param {*} [data] something other than a descriptor, that will
become the explicit value of this property.
*/
Ember.defineProperty = function(obj, keyName, desc, data, meta) {
var descs, existingDesc, watching, value;
if (!meta) meta = metaFor(obj);
descs = meta.descs;
existingDesc = meta.descs[keyName];
watching = meta.watching[keyName] > 0;
if (existingDesc instanceof Ember.Descriptor) {
existingDesc.teardown(obj, keyName);
}
if (desc instanceof Ember.Descriptor) {
value = desc;
descs[keyName] = desc;
if (MANDATORY_SETTER && watching) {
objectDefineProperty(obj, keyName, {
configurable: true,
enumerable: true,
writable: true,
value: undefined // make enumerable
});
} else {
obj[keyName] = undefined; // make enumerable
}
if (Ember.FEATURES.isEnabled('composable-computed-properties')) {
if (desc.func && desc._dependentCPs) {
addImplicitCPs(obj, desc._dependentCPs, meta);
}
}
} else {
descs[keyName] = undefined; // shadow descriptor in proto
if (desc == null) {
value = data;
if (MANDATORY_SETTER && watching) {
meta.values[keyName] = data;
objectDefineProperty(obj, keyName, {
configurable: true,
enumerable: true,
set: MANDATORY_SETTER_FUNCTION,
get: DEFAULT_GETTER_FUNCTION(keyName)
});
} else {
obj[keyName] = data;
}
} else {
value = desc;
// compatibility with ES5
objectDefineProperty(obj, keyName, desc);
}
}
// if key is being watched, override chains that
// were initialized with the prototype
if (watching) { Ember.overrideChains(obj, keyName, meta); }
// The `value` passed to the `didDefineProperty` hook is
// either the descriptor or data, whichever was passed.
if (obj.didDefineProperty) { obj.didDefineProperty(obj, keyName, value); }
return this;
};
if (Ember.FEATURES.isEnabled('composable-computed-properties')) {
var addImplicitCPs = function defineImplicitCPs(obj, implicitCPs, meta) {
var cp, key, length = implicitCPs.length;
for (var i=0; i<length; ++i) {
cp = implicitCPs[i];
key = cp.implicitCPKey;
Ember.defineProperty(obj, key, cp, undefined, meta);
if (cp._dependentCPs) {
addImplicitCPs(obj, cp._dependentCPs, meta);
}
}
};
}
})();
(function() {
var get = Ember.get;
/**
To get multiple properties at once, call `Ember.getProperties`
with an object followed by a list of strings or an array:
```javascript
Ember.getProperties(record, 'firstName', 'lastName', 'zipCode');
// { firstName: 'John', lastName: 'Doe', zipCode: '10011' }
```
is equivalent to:
```javascript
Ember.getProperties(record, ['firstName', 'lastName', 'zipCode']);
// { firstName: 'John', lastName: 'Doe', zipCode: '10011' }
```
@method getProperties
@param obj
@param {String...|Array} list of keys to get
@return {Hash}
*/
Ember.getProperties = function(obj) {
var ret = {},
propertyNames = arguments,
i = 1;
if (arguments.length === 2 && Ember.typeOf(arguments[1]) === 'array') {
i = 0;
propertyNames = arguments[1];
}
for(var len = propertyNames.length; i < len; i++) {
ret[propertyNames[i]] = get(obj, propertyNames[i]);
}
return ret;
};
})();
(function() {
var changeProperties = Ember.changeProperties,
set = Ember.set;
/**
Set a list of properties on an object. These properties are set inside
a single `beginPropertyChanges` and `endPropertyChanges` batch, so
observers will be buffered.
```javascript
anObject.setProperties({
firstName: "Stanley",
lastName: "Stuart",
age: "21"
})
```
@method setProperties
@param self
@param {Object} hash
@return self
*/
Ember.setProperties = function(self, hash) {
changeProperties(function() {
for(var prop in hash) {
if (hash.hasOwnProperty(prop)) { set(self, prop, hash[prop]); }
}
});
return self;
};
})();
(function() {
var metaFor = Ember.meta, // utils.js
typeOf = Ember.typeOf, // utils.js
MANDATORY_SETTER = Ember.ENV.MANDATORY_SETTER,
o_defineProperty = Ember.platform.defineProperty;
Ember.watchKey = function(obj, keyName, meta) {
// can't watch length on Array - it is special...
if (keyName === 'length' && typeOf(obj) === 'array') { return; }
var m = meta || metaFor(obj), watching = m.watching;
// activate watching first time
if (!watching[keyName]) {
watching[keyName] = 1;
if ('function' === typeof obj.willWatchProperty) {
obj.willWatchProperty(keyName);
}
if (MANDATORY_SETTER && keyName in obj) {
m.values[keyName] = obj[keyName];
o_defineProperty(obj, keyName, {
configurable: true,
enumerable: obj.propertyIsEnumerable(keyName),
set: Ember.MANDATORY_SETTER_FUNCTION,
get: Ember.DEFAULT_GETTER_FUNCTION(keyName)
});
}
} else {
watching[keyName] = (watching[keyName] || 0) + 1;
}
};
Ember.unwatchKey = function(obj, keyName, meta) {
var m = meta || metaFor(obj), watching = m.watching;
if (watching[keyName] === 1) {
watching[keyName] = 0;
if ('function' === typeof obj.didUnwatchProperty) {
obj.didUnwatchProperty(keyName);
}
if (MANDATORY_SETTER && keyName in obj) {
o_defineProperty(obj, keyName, {
configurable: true,
enumerable: obj.propertyIsEnumerable(keyName),
set: function(val) {
// redefine to set as enumerable
o_defineProperty(obj, keyName, {
configurable: true,
writable: true,
enumerable: true,
value: val
});
delete m.values[keyName];
},
get: Ember.DEFAULT_GETTER_FUNCTION(keyName)
});
}
} else if (watching[keyName] > 1) {
watching[keyName]--;
}
};
})();
(function() {
var metaFor = Ember.meta, // utils.js
get = Ember.get, // property_get.js
normalizeTuple = Ember.normalizeTuple, // property_get.js
forEach = Ember.ArrayPolyfills.forEach, // array.js
warn = Ember.warn,
watchKey = Ember.watchKey,
unwatchKey = Ember.unwatchKey,
FIRST_KEY = /^([^\.\*]+)/,
META_KEY = Ember.META_KEY;
function firstKey(path) {
return path.match(FIRST_KEY)[0];
}
var pendingQueue = [];
// attempts to add the pendingQueue chains again. If some of them end up
// back in the queue and reschedule is true, schedules a timeout to try
// again.
Ember.flushPendingChains = function() {
if (pendingQueue.length === 0) { return; } // nothing to do
var queue = pendingQueue;
pendingQueue = [];
forEach.call(queue, function(q) { q[0].add(q[1]); });
warn('Watching an undefined global, Ember expects watched globals to be setup by the time the run loop is flushed, check for typos', pendingQueue.length === 0);
};
function addChainWatcher(obj, keyName, node) {
if (!obj || ('object' !== typeof obj)) { return; } // nothing to do
var m = metaFor(obj), nodes = m.chainWatchers;
if (!m.hasOwnProperty('chainWatchers')) {
nodes = m.chainWatchers = {};
}
if (!nodes[keyName]) { nodes[keyName] = []; }
nodes[keyName].push(node);
watchKey(obj, keyName, m);
}
var removeChainWatcher = Ember.removeChainWatcher = function(obj, keyName, node) {
if (!obj || 'object' !== typeof obj) { return; } // nothing to do
var m = obj[META_KEY];
if (m && !m.hasOwnProperty('chainWatchers')) { return; } // nothing to do
var nodes = m && m.chainWatchers;
if (nodes && nodes[keyName]) {
nodes = nodes[keyName];
for (var i = 0, l = nodes.length; i < l; i++) {
if (nodes[i] === node) { nodes.splice(i, 1); }
}
}
unwatchKey(obj, keyName, m);
};
// A ChainNode watches a single key on an object. If you provide a starting
// value for the key then the node won't actually watch it. For a root node
// pass null for parent and key and object for value.
var ChainNode = Ember._ChainNode = function(parent, key, value) {
this._parent = parent;
this._key = key;
// _watching is true when calling get(this._parent, this._key) will
// return the value of this node.
//
// It is false for the root of a chain (because we have no parent)
// and for global paths (because the parent node is the object with
// the observer on it)
this._watching = value===undefined;
this._value = value;
this._paths = {};
if (this._watching) {
this._object = parent.value();
if (this._object) { addChainWatcher(this._object, this._key, this); }
}
// Special-case: the EachProxy relies on immediate evaluation to
// establish its observers.
//
// TODO: Replace this with an efficient callback that the EachProxy
// can implement.
if (this._parent && this._parent._key === '@each') {
this.value();
}
};
var ChainNodePrototype = ChainNode.prototype;
function lazyGet(obj, key) {
if (!obj) return undefined;
var meta = obj[META_KEY];
// check if object meant only to be a prototype
if (meta && meta.proto === obj) return undefined;
if (key === "@each") return get(obj, key);
// if a CP only return cached value
var desc = meta && meta.descs[key];
if (desc && desc._cacheable) {
if (key in meta.cache) {
return meta.cache[key];
} else {
return undefined;
}
}
return get(obj, key);
}
ChainNodePrototype.value = function() {
if (this._value === undefined && this._watching) {
var obj = this._parent.value();
this._value = lazyGet(obj, this._key);
}
return this._value;
};
ChainNodePrototype.destroy = function() {
if (this._watching) {
var obj = this._object;
if (obj) { removeChainWatcher(obj, this._key, this); }
this._watching = false; // so future calls do nothing
}
};
// copies a top level object only
ChainNodePrototype.copy = function(obj) {
var ret = new ChainNode(null, null, obj),
paths = this._paths, path;
for (path in paths) {
if (paths[path] <= 0) { continue; } // this check will also catch non-number vals.
ret.add(path);
}
return ret;
};
// called on the root node of a chain to setup watchers on the specified
// path.
ChainNodePrototype.add = function(path) {
var obj, tuple, key, src, paths;
paths = this._paths;
paths[path] = (paths[path] || 0) + 1;
obj = this.value();
tuple = normalizeTuple(obj, path);
// the path was a local path
if (tuple[0] && tuple[0] === obj) {
path = tuple[1];
key = firstKey(path);
path = path.slice(key.length+1);
// global path, but object does not exist yet.
// put into a queue and try to connect later.
} else if (!tuple[0]) {
pendingQueue.push([this, path]);
tuple.length = 0;
return;
// global path, and object already exists
} else {
src = tuple[0];
key = path.slice(0, 0-(tuple[1].length+1));
path = tuple[1];
}
tuple.length = 0;
this.chain(key, path, src);
};
// called on the root node of a chain to teardown watcher on the specified
// path
ChainNodePrototype.remove = function(path) {
var obj, tuple, key, src, paths;
paths = this._paths;
if (paths[path] > 0) { paths[path]--; }
obj = this.value();
tuple = normalizeTuple(obj, path);
if (tuple[0] === obj) {
path = tuple[1];
key = firstKey(path);
path = path.slice(key.length+1);
} else {
src = tuple[0];
key = path.slice(0, 0-(tuple[1].length+1));
path = tuple[1];
}
tuple.length = 0;
this.unchain(key, path);
};
ChainNodePrototype.count = 0;
ChainNodePrototype.chain = function(key, path, src) {
var chains = this._chains, node;
if (!chains) { chains = this._chains = {}; }
node = chains[key];
if (!node) { node = chains[key] = new ChainNode(this, key, src); }
node.count++; // count chains...
// chain rest of path if there is one
if (path && path.length>0) {
key = firstKey(path);
path = path.slice(key.length+1);
node.chain(key, path); // NOTE: no src means it will observe changes...
}
};
ChainNodePrototype.unchain = function(key, path) {
var chains = this._chains, node = chains[key];
// unchain rest of path first...
if (path && path.length>1) {
key = firstKey(path);
path = path.slice(key.length+1);
node.unchain(key, path);
}
// delete node if needed.
node.count--;
if (node.count<=0) {
delete chains[node._key];
node.destroy();
}
};
ChainNodePrototype.willChange = function(events) {
var chains = this._chains;
if (chains) {
for(var key in chains) {
if (!chains.hasOwnProperty(key)) { continue; }
chains[key].willChange(events);
}
}
if (this._parent) { this._parent.chainWillChange(this, this._key, 1, events); }
};
ChainNodePrototype.chainWillChange = function(chain, path, depth, events) {
if (this._key) { path = this._key + '.' + path; }
if (this._parent) {
this._parent.chainWillChange(this, path, depth+1, events);
} else {
if (depth > 1) {
events.push(this.value(), path);
}
path = 'this.' + path;
if (this._paths[path] > 0) {
events.push(this.value(), path);
}
}
};
ChainNodePrototype.chainDidChange = function(chain, path, depth, events) {
if (this._key) { path = this._key + '.' + path; }
if (this._parent) {
this._parent.chainDidChange(this, path, depth+1, events);
} else {
if (depth > 1) {
events.push(this.value(), path);
}
path = 'this.' + path;
if (this._paths[path] > 0) {
events.push(this.value(), path);
}
}
};
ChainNodePrototype.didChange = function(events) {
// invalidate my own value first.
if (this._watching) {
var obj = this._parent.value();
if (obj !== this._object) {
removeChainWatcher(this._object, this._key, this);
this._object = obj;
addChainWatcher(obj, this._key, this);
}
this._value = undefined;
// Special-case: the EachProxy relies on immediate evaluation to
// establish its observers.
if (this._parent && this._parent._key === '@each')
this.value();
}
// then notify chains...
var chains = this._chains;
if (chains) {
for(var key in chains) {
if (!chains.hasOwnProperty(key)) { continue; }
chains[key].didChange(events);
}
}
// if no events are passed in then we only care about the above wiring update
if (events === null) { return; }
// and finally tell parent about my path changing...
if (this._parent) { this._parent.chainDidChange(this, this._key, 1, events); }
};
Ember.finishChains = function(obj) {
// We only create meta if we really have to
var m = obj[META_KEY], chains = m && m.chains;
if (chains) {
if (chains.value() !== obj) {
metaFor(obj).chains = chains = chains.copy(obj);
} else {
chains.didChange(null);
}
}
};
})();
(function() {
/**
@module ember-metal
*/
var forEach = Ember.EnumerableUtils.forEach,
BRACE_EXPANSION = /^((?:[^\.]*\.)*)\{(.*)\}$/;
/**
Expands `pattern`, invoking `callback` for each expansion.
The only pattern supported is brace-expansion, anything else will be passed
once to `callback` directly. Brace expansion can only appear at the end of a
pattern, for example as the last item in a chain.
Example
```js
function echo(arg){ console.log(arg); }
Ember.expandProperties('foo.bar', echo); //=> 'foo.bar'
Ember.expandProperties('{foo,bar}', echo); //=> 'foo', 'bar'
Ember.expandProperties('foo.{bar,baz}', echo); //=> 'foo.bar', 'foo.baz'
Ember.expandProperties('{foo,bar}.baz', echo); //=> '{foo,bar}.baz'
```
@method
@private
@param {string} pattern The property pattern to expand.
@param {function} callback The callback to invoke. It is invoked once per
expansion, and is passed the expansion.
*/
Ember.expandProperties = function (pattern, callback) {
var match, prefix, list;
if (match = BRACE_EXPANSION.exec(pattern)) {
prefix = match[1];
list = match[2];
forEach(list.split(','), function (suffix) {
callback(prefix + suffix);
});
} else {
callback(pattern);
}
};
})();
(function() {
var metaFor = Ember.meta, // utils.js
typeOf = Ember.typeOf, // utils.js
ChainNode = Ember._ChainNode; // chains.js
// get the chains for the current object. If the current object has
// chains inherited from the proto they will be cloned and reconfigured for
// the current object.
function chainsFor(obj, meta) {
var m = meta || metaFor(obj), ret = m.chains;
if (!ret) {
ret = m.chains = new ChainNode(null, null, obj);
} else if (ret.value() !== obj) {
ret = m.chains = ret.copy(obj);
}
return ret;
}
Ember.watchPath = function(obj, keyPath, meta) {
// can't watch length on Array - it is special...
if (keyPath === 'length' && typeOf(obj) === 'array') { return; }
var m = meta || metaFor(obj), watching = m.watching;
if (!watching[keyPath]) { // activate watching first time
watching[keyPath] = 1;
chainsFor(obj, m).add(keyPath);
} else {
watching[keyPath] = (watching[keyPath] || 0) + 1;
}
};
Ember.unwatchPath = function(obj, keyPath, meta) {
var m = meta || metaFor(obj), watching = m.watching;
if (watching[keyPath] === 1) {
watching[keyPath] = 0;
chainsFor(obj, m).remove(keyPath);
} else if (watching[keyPath] > 1) {
watching[keyPath]--;
}
};
})();
(function() {
/**
@module ember-metal
*/
var metaFor = Ember.meta, // utils.js
GUID_KEY = Ember.GUID_KEY, // utils.js
META_KEY = Ember.META_KEY, // utils.js
removeChainWatcher = Ember.removeChainWatcher,
watchKey = Ember.watchKey, // watch_key.js
unwatchKey = Ember.unwatchKey,
watchPath = Ember.watchPath, // watch_path.js
unwatchPath = Ember.unwatchPath,
typeOf = Ember.typeOf, // utils.js
generateGuid = Ember.generateGuid,
IS_PATH = /[\.\*]/;
// returns true if the passed path is just a keyName
function isKeyName(path) {
return path==='*' || !IS_PATH.test(path);
}
/**
Starts watching a property on an object. Whenever the property changes,
invokes `Ember.propertyWillChange` and `Ember.propertyDidChange`. This is the
primitive used by observers and dependent keys; usually you will never call
this method directly but instead use higher level methods like
`Ember.addObserver()`
@private
@method watch
@for Ember
@param obj
@param {String} keyName
*/
Ember.watch = function(obj, _keyPath, m) {
// can't watch length on Array - it is special...
if (_keyPath === 'length' && typeOf(obj) === 'array') { return; }
if (isKeyName(_keyPath)) {
watchKey(obj, _keyPath, m);
} else {
watchPath(obj, _keyPath, m);
}
};
Ember.isWatching = function isWatching(obj, key) {
var meta = obj[META_KEY];
return (meta && meta.watching[key]) > 0;
};
Ember.watch.flushPending = Ember.flushPendingChains;
Ember.unwatch = function(obj, _keyPath, m) {
// can't watch length on Array - it is special...
if (_keyPath === 'length' && typeOf(obj) === 'array') { return; }
if (isKeyName(_keyPath)) {
unwatchKey(obj, _keyPath, m);
} else {
unwatchPath(obj, _keyPath, m);
}
};
/**
Call on an object when you first beget it from another object. This will
setup any chained watchers on the object instance as needed. This method is
safe to call multiple times.
@private
@method rewatch
@for Ember
@param obj
*/
Ember.rewatch = function(obj) {
var m = obj[META_KEY], chains = m && m.chains;
// make sure the object has its own guid.
if (GUID_KEY in obj && !obj.hasOwnProperty(GUID_KEY)) {
generateGuid(obj);
}
// make sure any chained watchers update.
if (chains && chains.value() !== obj) {
m.chains = chains.copy(obj);
}
};
var NODE_STACK = [];
/**
Tears down the meta on an object so that it can be garbage collected.
Multiple calls will have no effect.
@method destroy
@for Ember
@param {Object} obj the object to destroy
@return {void}
*/
Ember.destroy = function (obj) {
var meta = obj[META_KEY], node, nodes, key, nodeObject;
if (meta) {
obj[META_KEY] = null;
// remove chainWatchers to remove circular references that would prevent GC
node = meta.chains;
if (node) {
NODE_STACK.push(node);
// process tree
while (NODE_STACK.length > 0) {
node = NODE_STACK.pop();
// push children
nodes = node._chains;
if (nodes) {
for (key in nodes) {
if (nodes.hasOwnProperty(key)) {
NODE_STACK.push(nodes[key]);
}
}
}
// remove chainWatcher in node object
if (node._watching) {
nodeObject = node._object;
if (nodeObject) {
removeChainWatcher(nodeObject, node._key, node);
}
}
}
}
}
};
})();
(function() {
/**
@module ember-metal
*/
Ember.warn("The CP_DEFAULT_CACHEABLE flag has been removed and computed properties are always cached by default. Use `volatile` if you don't want caching.", Ember.ENV.CP_DEFAULT_CACHEABLE !== false);
var get = Ember.get,
set = Ember.set,
metaFor = Ember.meta,
a_slice = [].slice,
o_create = Ember.create,
META_KEY = Ember.META_KEY,
watch = Ember.watch,
unwatch = Ember.unwatch;
var expandProperties = Ember.expandProperties;
// ..........................................................
// DEPENDENT KEYS
//
// data structure:
// meta.deps = {
// 'depKey': {
// 'keyName': count,
// }
// }
/*
This function returns a map of unique dependencies for a
given object and key.
*/
function keysForDep(depsMeta, depKey) {
var keys = depsMeta[depKey];
if (!keys) {
// if there are no dependencies yet for a the given key
// create a new empty list of dependencies for the key
keys = depsMeta[depKey] = {};
} else if (!depsMeta.hasOwnProperty(depKey)) {
// otherwise if the dependency list is inherited from
// a superclass, clone the hash
keys = depsMeta[depKey] = o_create(keys);
}
return keys;
}
function metaForDeps(meta) {
return keysForDep(meta, 'deps');
}
function addDependentKeys(desc, obj, keyName, meta) {
// the descriptor has a list of dependent keys, so
// add all of its dependent keys.
var depKeys = desc._dependentKeys, depsMeta, idx, len, depKey, keys;
if (!depKeys) return;
depsMeta = metaForDeps(meta);
for(idx = 0, len = depKeys.length; idx < len; idx++) {
depKey = depKeys[idx];
// Lookup keys meta for depKey
keys = keysForDep(depsMeta, depKey);
// Increment the number of times depKey depends on keyName.
keys[keyName] = (keys[keyName] || 0) + 1;
// Watch the depKey
watch(obj, depKey, meta);
}
}
function removeDependentKeys(desc, obj, keyName, meta) {
// the descriptor has a list of dependent keys, so
// add all of its dependent keys.
var depKeys = desc._dependentKeys, depsMeta, idx, len, depKey, keys;
if (!depKeys) return;
depsMeta = metaForDeps(meta);
for(idx = 0, len = depKeys.length; idx < len; idx++) {
depKey = depKeys[idx];
// Lookup keys meta for depKey
keys = keysForDep(depsMeta, depKey);
// Increment the number of times depKey depends on keyName.
keys[keyName] = (keys[keyName] || 0) - 1;
// Watch the depKey
unwatch(obj, depKey, meta);
}
}
// ..........................................................
// COMPUTED PROPERTY
//
/**
A computed property transforms an objects function into a property.
By default the function backing the computed property will only be called
once and the result will be cached. You can specify various properties
that your computed property is dependent on. This will force the cached
result to be recomputed if the dependencies are modified.
In the following example we declare a computed property (by calling
`.property()` on the fullName function) and setup the properties
dependencies (depending on firstName and lastName). The fullName function
will be called once (regardless of how many times it is accessed) as long
as it's dependencies have not been changed. Once firstName or lastName are updated
any future calls (or anything bound) to fullName will incorporate the new
values.
```javascript
Person = Ember.Object.extend({
// these will be supplied by `create`
firstName: null,
lastName: null,
fullName: function() {
var firstName = this.get('firstName');
var lastName = this.get('lastName');
return firstName + ' ' + lastName;
}.property('firstName', 'lastName')
});
var tom = Person.create({
firstName: "Tom",
lastName: "Dale"
});
tom.get('fullName') // "Tom Dale"
```
You can also define what Ember should do when setting a computed property.
If you try to set a computed property, it will be invoked with the key and
value you want to set it to. You can also accept the previous value as the
third parameter.
```javascript
Person = Ember.Object.extend({
// these will be supplied by `create`
firstName: null,
lastName: null,
fullName: function(key, value, oldValue) {
// getter
if (arguments.length === 1) {
var firstName = this.get('firstName');
var lastName = this.get('lastName');
return firstName + ' ' + lastName;
// setter
} else {
var name = value.split(" ");
this.set('firstName', name[0]);
this.set('lastName', name[1]);
return value;
}
}.property('firstName', 'lastName')
});
var person = Person.create();
person.set('fullName', "Peter Wagenet");
person.get('firstName') // Peter
person.get('lastName') // Wagenet
```
@class ComputedProperty
@namespace Ember
@extends Ember.Descriptor
@constructor
*/
function ComputedProperty(func, opts) {
this.func = func;
if (Ember.FEATURES.isEnabled('composable-computed-properties')) {
setDependentKeys(this, opts && opts.dependentKeys);
} else {
this._dependentKeys = opts && opts.dependentKeys;
}
this._cacheable = (opts && opts.cacheable !== undefined) ? opts.cacheable : true;
this._readOnly = opts && (opts.readOnly !== undefined || !!opts.readOnly);
}
Ember.ComputedProperty = ComputedProperty;
ComputedProperty.prototype = new Ember.Descriptor();
var ComputedPropertyPrototype = ComputedProperty.prototype;
ComputedPropertyPrototype._dependentKeys = undefined;
ComputedPropertyPrototype._suspended = undefined;
ComputedPropertyPrototype._meta = undefined;
if (Ember.FEATURES.isEnabled('composable-computed-properties')) {
ComputedPropertyPrototype._dependentCPs = undefined;
ComputedPropertyPrototype.implicitCPKey = undefined;
ComputedPropertyPrototype.toString = function() {
if (this.implicitCPKey) {
return this.implicitCPKey;
}
return Ember.Descriptor.prototype.toString.apply(this, arguments);
};
}
/**
Properties are cacheable by default. Computed property will automatically
cache the return value of your function until one of the dependent keys changes.
Call `volatile()` to set it into non-cached mode. When in this mode
the computed property will not automatically cache the return value.
However, if a property is properly observable, there is no reason to disable
caching.
@method cacheable
@param {Boolean} aFlag optional set to `false` to disable caching
@return {Ember.ComputedProperty} this
@chainable
*/
ComputedPropertyPrototype.cacheable = function(aFlag) {
this._cacheable = aFlag !== false;
return this;
};
/**
Call on a computed property to set it into non-cached mode. When in this
mode the computed property will not automatically cache the return value.
```javascript
MyApp.outsideService = Ember.Object.extend({
value: function() {
return OutsideService.getValue();
}.property().volatile()
}).create();
```
@method volatile
@return {Ember.ComputedProperty} this
@chainable
*/
ComputedPropertyPrototype.volatile = function() {
return this.cacheable(false);
};
/**
Call on a computed property to set it into read-only mode. When in this
mode the computed property will throw an error when set.
```javascript
MyApp.Person = Ember.Object.extend({
guid: function() {
return 'guid-guid-guid';
}.property().readOnly()
});
MyApp.person = MyApp.Person.create();
MyApp.person.set('guid', 'new-guid'); // will throw an exception
```
@method readOnly
@return {Ember.ComputedProperty} this
@chainable
*/
ComputedPropertyPrototype.readOnly = function(readOnly) {
this._readOnly = readOnly === undefined || !!readOnly;
return this;
};
/**
Sets the dependent keys on this computed property. Pass any number of
arguments containing key paths that this computed property depends on.
```javascript
MyApp.President = Ember.Object.extend({
fullName: Ember.computed(function() {
return this.get('firstName') + ' ' + this.get('lastName');
// Tell Ember that this computed property depends on firstName
// and lastName
}).property('firstName', 'lastName')
});
MyApp.president = MyApp.President.create({
firstName: 'Barack',
lastName: 'Obama',
});
MyApp.president.get('fullName'); // Barack Obama
```
@method property
@param {String} path* zero or more property paths
@return {Ember.ComputedProperty} this
@chainable
*/
ComputedPropertyPrototype.property = function() {
var args;
var addArg = function (property) {
args.push(property);
};
args = [];
for (var i = 0, l = arguments.length; i < l; i++) {
expandProperties(arguments[i], addArg);
}
if (Ember.FEATURES.isEnabled('composable-computed-properties')) {
setDependentKeys(this, args);
} else {
this._dependentKeys = args;
}
return this;
};
/**
In some cases, you may want to annotate computed properties with additional
metadata about how they function or what values they operate on. For example,
computed property functions may close over variables that are then no longer
available for introspection.
You can pass a hash of these values to a computed property like this:
```
person: function() {
var personId = this.get('personId');
return App.Person.create({ id: personId });
}.property().meta({ type: App.Person })
```
The hash that you pass to the `meta()` function will be saved on the
computed property descriptor under the `_meta` key. Ember runtime
exposes a public API for retrieving these values from classes,
via the `metaForProperty()` function.
@method meta
@param {Hash} meta
@chainable
*/
ComputedPropertyPrototype.meta = function(meta) {
if (arguments.length === 0) {
return this._meta || {};
} else {
this._meta = meta;
return this;
}
};
/* impl descriptor API */
ComputedPropertyPrototype.didChange = function(obj, keyName) {
// _suspended is set via a CP.set to ensure we don't clear
// the cached value set by the setter
if (this._cacheable && this._suspended !== obj) {
var meta = metaFor(obj);
if (keyName in meta.cache) {
delete meta.cache[keyName];
removeDependentKeys(this, obj, keyName, meta);
}
}
};
function finishChains(chainNodes)
{
for (var i=0, l=chainNodes.length; i<l; i++) {
chainNodes[i].didChange(null);
}
}
/**
Access the value of the function backing the computed property.
If this property has already been cached, return the cached result.
Otherwise, call the function passing the property name as an argument.
```javascript
Person = Ember.Object.extend({
fullName: function(keyName) {
// the keyName parameter is 'fullName' in this case.
return this.get('firstName') + ' ' + this.get('lastName');
}.property('firstName', 'lastName')
});
var tom = Person.create({
firstName: "Tom",
lastName: "Dale"
});
tom.get('fullName') // "Tom Dale"
```
@method get
@param {String} keyName The key being accessed.
@return {Object} The return value of the function backing the CP.
*/
ComputedPropertyPrototype.get = function(obj, keyName) {
var ret, cache, meta, chainNodes;
if (this._cacheable) {
meta = metaFor(obj);
cache = meta.cache;
if (keyName in cache) { return cache[keyName]; }
ret = cache[keyName] = this.func.call(obj, keyName);
chainNodes = meta.chainWatchers && meta.chainWatchers[keyName];
if (chainNodes) { finishChains(chainNodes); }
addDependentKeys(this, obj, keyName, meta);
} else {
ret = this.func.call(obj, keyName);
}
return ret;
};
/**
Set the value of a computed property. If the function that backs your
computed property does not accept arguments then the default action for
setting would be to define the property on the current object, and set
the value of the property to the value being set.
Generally speaking if you intend for your computed property to be set
your backing function should accept either two or three arguments.
@method set
@param {String} keyName The key being accessed.
@param {Object} newValue The new value being assigned.
@param {String} oldValue The old value being replaced.
@return {Object} The return value of the function backing the CP.
*/
ComputedPropertyPrototype.set = function(obj, keyName, value) {
var cacheable = this._cacheable,
func = this.func,
meta = metaFor(obj, cacheable),
watched = meta.watching[keyName],
oldSuspended = this._suspended,
hadCachedValue = false,
cache = meta.cache,
funcArgLength, cachedValue, ret;
if (this._readOnly) {
throw new Ember.Error('Cannot set read-only property "' + keyName + '" on object: ' + Ember.inspect(obj));
}
this._suspended = obj;
try {
if (cacheable && cache.hasOwnProperty(keyName)) {
cachedValue = cache[keyName];
hadCachedValue = true;
}
// Check if the CP has been wrapped. If if has, use the
// length from the wrapped function.
funcArgLength = (func.wrappedFunction ? func.wrappedFunction.length : func.length);
// For backwards-compatibility with computed properties
// that check for arguments.length === 2 to determine if
// they are being get or set, only pass the old cached
// value if the computed property opts into a third
// argument.
if (funcArgLength === 3) {
ret = func.call(obj, keyName, value, cachedValue);
} else if (funcArgLength === 2) {
ret = func.call(obj, keyName, value);
} else {
Ember.defineProperty(obj, keyName, null, cachedValue);
Ember.set(obj, keyName, value);
return;
}
if (hadCachedValue && cachedValue === ret) { return; }
if (watched) { Ember.propertyWillChange(obj, keyName); }
if (hadCachedValue) {
delete cache[keyName];
}
if (cacheable) {
if (!hadCachedValue) {
addDependentKeys(this, obj, keyName, meta);
}
cache[keyName] = ret;
}
if (watched) { Ember.propertyDidChange(obj, keyName); }
} finally {
this._suspended = oldSuspended;
}
return ret;
};
/* called before property is overridden */
ComputedPropertyPrototype.teardown = function(obj, keyName) {
var meta = metaFor(obj);
if (keyName in meta.cache) {
removeDependentKeys(this, obj, keyName, meta);
}
if (this._cacheable) { delete meta.cache[keyName]; }
return null; // no value to restore
};
/**
This helper returns a new property descriptor that wraps the passed
computed property function. You can use this helper to define properties
with mixins or via `Ember.defineProperty()`.
The function you pass will be used to both get and set property values.
The function should accept two parameters, key and value. If value is not
undefined you should set the value first. In either case return the
current value of the property.
@method computed
@for Ember
@param {Function} func The computed property function.
@return {Ember.ComputedProperty} property descriptor instance
*/
Ember.computed = function(func) {
var args;
if (arguments.length > 1) {
args = a_slice.call(arguments, 0, -1);
func = a_slice.call(arguments, -1)[0];
}
if (typeof func !== "function") {
throw new Ember.Error("Computed Property declared without a property function");
}
var cp = new ComputedProperty(func);
if (args) {
cp.property.apply(cp, args);
}
return cp;
};
/**
Returns the cached value for a property, if one exists.
This can be useful for peeking at the value of a computed
property that is generated lazily, without accidentally causing
it to be created.
@method cacheFor
@for Ember
@param {Object} obj the object whose property you want to check
@param {String} key the name of the property whose cached value you want
to return
@return {Object} the cached value
*/
Ember.cacheFor = function cacheFor(obj, key) {
var meta = obj[META_KEY],
cache = meta && meta.cache;
if (cache && key in cache) {
return cache[key];
}
};
function getProperties(self, propertyNames) {
var ret = {};
for(var i = 0; i < propertyNames.length; i++) {
ret[propertyNames[i]] = get(self, propertyNames[i]);
}
return ret;
}
var registerComputed, registerComputedWithProperties;
if (Ember.FEATURES.isEnabled('composable-computed-properties')) {
var guidFor = Ember.guidFor,
map = Ember.EnumerableUtils.map,
filter = Ember.EnumerableUtils.filter,
typeOf = Ember.typeOf;
var implicitKey = function (cp) {
return [guidFor(cp)].concat(cp._dependentKeys).join('_').replace(/\./g, '_DOT_');
};
var normalizeDependentKey = function (key) {
if (key instanceof Ember.ComputedProperty) {
return implicitKey(key);
} else {
return key;
}
};
var normalizeDependentKeys = function (keys) {
return map(keys, function (key) {
return normalizeDependentKey(key);
});
};
var selectDependentCPs = function (keys) {
return filter(keys, function (key) {
return key instanceof Ember.ComputedProperty;
});
};
var setDependentKeys = function(cp, dependentKeys) {
if (dependentKeys) {
cp._dependentKeys = normalizeDependentKeys(dependentKeys);
cp._dependentCPs = selectDependentCPs(dependentKeys);
} else {
cp._dependentKeys = cp._dependentCPs = [];
}
cp.implicitCPKey = implicitKey(cp);
};
// expose `normalizeDependentKey[s]` so user CP macros can easily support
// composition
Ember.computed.normalizeDependentKey = normalizeDependentKey;
Ember.computed.normalizeDependentKeys = normalizeDependentKeys;
registerComputed = function (name, macro) {
Ember.computed[name] = function(dependentKey) {
var args = normalizeDependentKeys(a_slice.call(arguments));
return Ember.computed(dependentKey, function() {
return macro.apply(this, args);
});
};
};
}
if (Ember.FEATURES.isEnabled('composable-computed-properties')) {
registerComputedWithProperties = function(name, macro) {
Ember.computed[name] = function() {
var args = a_slice.call(arguments);
var properties = normalizeDependentKeys(args);
var computed = Ember.computed(function() {
return macro.apply(this, [getProperties(this, properties)]);
});
return computed.property.apply(computed, args);
};
};
} else {
registerComputed = function (name, macro) {
Ember.computed[name] = function(dependentKey) {
var args = a_slice.call(arguments);
return Ember.computed(dependentKey, function() {
return macro.apply(this, args);
});
};
};
registerComputedWithProperties = function(name, macro) {
Ember.computed[name] = function() {
var properties = a_slice.call(arguments);
var computed = Ember.computed(function() {
return macro.apply(this, [getProperties(this, properties)]);
});
return computed.property.apply(computed, properties);
};
};
}
if (Ember.FEATURES.isEnabled('composable-computed-properties')) {
Ember.computed.literal = function (value) {
return Ember.computed(function () {
return value;
});
};
}
/**
A computed property that returns true if the value of the dependent
property is null, an empty string, empty array, or empty function.
Note: When using `Ember.computed.empty` to watch an array make sure to
use the `array.[]` syntax so the computed can subscribe to transitions
from empty to non-empty states.
Example
```javascript
var ToDoList = Ember.Object.extend({
done: Ember.computed.empty('todos.[]') // detect array changes
});
var todoList = ToDoList.create({todos: ['Unit Test', 'Documentation', 'Release']});
todoList.get('done'); // false
todoList.get('todos').clear(); // []
todoList.get('done'); // true
```
@method computed.empty
@for Ember
@param {String} dependentKey
@return {Ember.ComputedProperty} computed property which negate
the original value for property
*/
registerComputed('empty', function(dependentKey) {
return Ember.isEmpty(get(this, dependentKey));
});
/**
A computed property that returns true if the value of the dependent
property is NOT null, an empty string, empty array, or empty function.
Note: When using `Ember.computed.notEmpty` to watch an array make sure to
use the `array.[]` syntax so the computed can subscribe to transitions
from empty to non-empty states.
Example
```javascript
var Hamster = Ember.Object.extend({
hasStuff: Ember.computed.notEmpty('backpack.[]')
});
var hamster = Hamster.create({backpack: ['Food', 'Sleeping Bag', 'Tent']});
hamster.get('hasStuff'); // true
hamster.get('backpack').clear(); // []
hamster.get('hasStuff'); // false
```
@method computed.notEmpty
@for Ember
@param {String} dependentKey
@return {Ember.ComputedProperty} computed property which returns true if
original value for property is not empty.
*/
registerComputed('notEmpty', function(dependentKey) {
return !Ember.isEmpty(get(this, dependentKey));
});
/**
A computed property that returns true if the value of the dependent
property is null or undefined. This avoids errors from JSLint complaining
about use of ==, which can be technically confusing.
Example
```javascript
var Hamster = Ember.Object.extend({
isHungry: Ember.computed.none('food')
});
var hamster = Hamster.create();
hamster.get('isHungry'); // true
hamster.set('food', 'Banana');
hamster.get('isHungry'); // false
hamster.set('food', null);
hamster.get('isHungry'); // true
```
@method computed.none
@for Ember
@param {String} dependentKey
@return {Ember.ComputedProperty} computed property which
returns true if original value for property is null or undefined.
*/
registerComputed('none', function(dependentKey) {
return Ember.isNone(get(this, dependentKey));
});
/**
A computed property that returns the inverse boolean value
of the original value for the dependent property.
Example
```javascript
var User = Ember.Object.extend({
isAnonymous: Ember.computed.not('loggedIn')
});
var user = User.create({loggedIn: false});
user.get('isAnonymous'); // true
user.set('loggedIn', true);
user.get('isAnonymous'); // false
```
@method computed.not
@for Ember
@param {String} dependentKey
@return {Ember.ComputedProperty} computed property which returns
inverse of the original value for property
*/
registerComputed('not', function(dependentKey) {
return !get(this, dependentKey);
});
/**
A computed property that converts the provided dependent property
into a boolean value.
```javascript
var Hamster = Ember.Object.extend({
hasBananas: Ember.computed.bool('numBananas')
});
var hamster = Hamster.create();
hamster.get('hasBananas'); // false
hamster.set('numBananas', 0);
hamster.get('hasBananas'); // false
hamster.set('numBananas', 1);
hamster.get('hasBananas'); // true
hamster.set('numBananas', null);
hamster.get('hasBananas'); // false
```
@method computed.bool
@for Ember
@param {String} dependentKey
@return {Ember.ComputedProperty} computed property which converts
to boolean the original value for property
*/
registerComputed('bool', function(dependentKey) {
return !!get(this, dependentKey);
});
/**
A computed property which matches the original value for the
dependent property against a given RegExp, returning `true`
if they values matches the RegExp and `false` if it does not.
Example
```javascript
var User = Ember.Object.extend({
hasValidEmail: Ember.computed.match('email', /^.+@.+\..+$/)
});
var user = User.create({loggedIn: false});
user.get('hasValidEmail'); // false
user.set('email', '');
user.get('hasValidEmail'); // false
user.set('email', 'ember_hamster@example.com');
user.get('hasValidEmail'); // true
```
@method computed.match
@for Ember
@param {String} dependentKey
@param {RegExp} regexp
@return {Ember.ComputedProperty} computed property which match
the original value for property against a given RegExp
*/
registerComputed('match', function(dependentKey, regexp) {
var value = get(this, dependentKey);
return typeof value === 'string' ? regexp.test(value) : false;
});
/**
A computed property that returns true if the provided dependent property
is equal to the given value.
Example
```javascript
var Hamster = Ember.Object.extend({
napTime: Ember.computed.equal('state', 'sleepy')
});
var hamster = Hamster.create();
hamster.get('napTime'); // false
hamster.set('state', 'sleepy');
hamster.get('napTime'); // true
hamster.set('state', 'hungry');
hamster.get('napTime'); // false
```
@method computed.equal
@for Ember
@param {String} dependentKey
@param {String|Number|Object} value
@return {Ember.ComputedProperty} computed property which returns true if
the original value for property is equal to the given value.
*/
registerComputed('equal', function(dependentKey, value) {
return get(this, dependentKey) === value;
});
/**
A computed property that returns true if the provied dependent property
is greater than the provided value.
Example
```javascript
var Hamster = Ember.Object.extend({
hasTooManyBananas: Ember.computed.gt('numBananas', 10)
});
var hamster = Hamster.create();
hamster.get('hasTooManyBananas'); // false
hamster.set('numBananas', 3);
hamster.get('hasTooManyBananas'); // false
hamster.set('numBananas', 11);
hamster.get('hasTooManyBananas'); // true
```
@method computed.gt
@for Ember
@param {String} dependentKey
@param {Number} value
@return {Ember.ComputedProperty} computed property which returns true if
the original value for property is greater then given value.
*/
registerComputed('gt', function(dependentKey, value) {
return get(this, dependentKey) > value;
});
/**
A computed property that returns true if the provided dependent property
is greater than or equal to the provided value.
Example
```javascript
var Hamster = Ember.Object.extend({
hasTooManyBananas: Ember.computed.gte('numBananas', 10)
});
var hamster = Hamster.create();
hamster.get('hasTooManyBananas'); // false
hamster.set('numBananas', 3);
hamster.get('hasTooManyBananas'); // false
hamster.set('numBananas', 10);
hamster.get('hasTooManyBananas'); // true
```
@method computed.gte
@for Ember
@param {String} dependentKey
@param {Number} value
@return {Ember.ComputedProperty} computed property which returns true if
the original value for property is greater or equal then given value.
*/
registerComputed('gte', function(dependentKey, value) {
return get(this, dependentKey) >= value;
});
/**
A computed property that returns true if the provided dependent property
is less than the provided value.
Example
```javascript
var Hamster = Ember.Object.extend({
needsMoreBananas: Ember.computed.lt('numBananas', 3)
});
var hamster = Hamster.create();
hamster.get('needsMoreBananas'); // true
hamster.set('numBananas', 3);
hamster.get('needsMoreBananas'); // false
hamster.set('numBananas', 2);
hamster.get('needsMoreBananas'); // true
```
@method computed.lt
@for Ember
@param {String} dependentKey
@param {Number} value
@return {Ember.ComputedProperty} computed property which returns true if
the original value for property is less then given value.
*/
registerComputed('lt', function(dependentKey, value) {
return get(this, dependentKey) < value;
});
/**
A computed property that returns true if the provided dependent property
is less than or equal to the provided value.
Example
```javascript
var Hamster = Ember.Object.extend({
needsMoreBananas: Ember.computed.lte('numBananas', 3)
});
var hamster = Hamster.create();
hamster.get('needsMoreBananas'); // true
hamster.set('numBananas', 5);
hamster.get('needsMoreBananas'); // false
hamster.set('numBananas', 3);
hamster.get('needsMoreBananas'); // true
```
@method computed.lte
@for Ember
@param {String} dependentKey
@param {Number} value
@return {Ember.ComputedProperty} computed property which returns true if
the original value for property is less or equal then given value.
*/
registerComputed('lte', function(dependentKey, value) {
return get(this, dependentKey) <= value;
});
/**
A computed property that performs a logical `and` on the
original values for the provided dependent properties.
Example
```javascript
var Hamster = Ember.Object.extend({
readyForCamp: Ember.computed.and('hasTent', 'hasBackpack')
});
var hamster = Hamster.create();
hamster.get('readyForCamp'); // false
hamster.set('hasTent', true);
hamster.get('readyForCamp'); // false
hamster.set('hasBackpack', true);
hamster.get('readyForCamp'); // true
```
@method computed.and
@for Ember
@param {String} dependentKey*
@return {Ember.ComputedProperty} computed property which performs
a logical `and` on the values of all the original values for properties.
*/
registerComputedWithProperties('and', function(properties) {
for (var key in properties) {
if (properties.hasOwnProperty(key) && !properties[key]) {
return false;
}
}
return true;
});
/**
A computed property which performs a logical `or` on the
original values for the provided dependent properties.
Example
```javascript
var Hamster = Ember.Object.extend({
readyForRain: Ember.computed.or('hasJacket', 'hasUmbrella')
});
var hamster = Hamster.create();
hamster.get('readyForRain'); // false
hamster.set('hasJacket', true);
hamster.get('readyForRain'); // true
```
@method computed.or
@for Ember
@param {String} dependentKey*
@return {Ember.ComputedProperty} computed property which performs
a logical `or` on the values of all the original values for properties.
*/
registerComputedWithProperties('or', function(properties) {
for (var key in properties) {
if (properties.hasOwnProperty(key) && properties[key]) {
return true;
}
}
return false;
});
/**
A computed property that returns the first truthy value
from a list of dependent properties.
Example
```javascript
var Hamster = Ember.Object.extend({
hasClothes: Ember.computed.any('hat', 'shirt')
});
var hamster = Hamster.create();
hamster.get('hasClothes'); // null
hamster.set('shirt', 'Hawaiian Shirt');
hamster.get('hasClothes'); // 'Hawaiian Shirt'
```
@method computed.any
@for Ember
@param {String} dependentKey*
@return {Ember.ComputedProperty} computed property which returns
the first truthy value of given list of properties.
*/
registerComputedWithProperties('any', function(properties) {
for (var key in properties) {
if (properties.hasOwnProperty(key) && properties[key]) {
return properties[key];
}
}
return null;
});
/**
A computed property that returns the array of values
for the provided dependent properties.
Example
```javascript
var Hamster = Ember.Object.extend({
clothes: Ember.computed.collect('hat', 'shirt')
});
var hamster = Hamster.create();
hamster.get('clothes'); // [null, null]
hamster.set('hat', 'Camp Hat');
hamster.set('shirt', 'Camp Shirt');
hamster.get('clothes'); // ['Camp Hat', 'Camp Shirt']
```
@method computed.collect
@for Ember
@param {String} dependentKey*
@return {Ember.ComputedProperty} computed property which maps
values of all passed properties in to an array.
*/
registerComputedWithProperties('collect', function(properties) {
var res = [];
for (var key in properties) {
if (properties.hasOwnProperty(key)) {
if (Ember.isNone(properties[key])) {
res.push(null);
} else {
res.push(properties[key]);
}
}
}
return res;
});
/**
Creates a new property that is an alias for another property
on an object. Calls to `get` or `set` this property behave as
though they were called on the original property.
```javascript
Person = Ember.Object.extend({
name: 'Alex Matchneer',
nomen: Ember.computed.alias('name')
});
alex = Person.create();
alex.get('nomen'); // 'Alex Matchneer'
alex.get('name'); // 'Alex Matchneer'
alex.set('nomen', '@machty');
alex.get('name'); // '@machty'
```
@method computed.alias
@for Ember
@param {String} dependentKey
@return {Ember.ComputedProperty} computed property which creates an
alias to the original value for property.
*/
Ember.computed.alias = function(dependentKey) {
return Ember.computed(dependentKey, function(key, value) {
if (arguments.length > 1) {
set(this, dependentKey, value);
return value;
} else {
return get(this, dependentKey);
}
});
};
/**
Where `computed.alias` aliases `get` and `set`, and allows for bidirectional
data flow, `computed.oneWay` only provides an aliased `get`. The `set` will
not mutate the upstream property, rather causes the current property to
become the value set. This causes the downstream property to permentantly
diverge from the upstream property.
Example
```javascript
User = Ember.Object.extend({
firstName: null,
lastName: null,
nickName: Ember.computed.oneWay('firstName')
});
user = User.create({
firstName: 'Teddy',
lastName: 'Zeenny'
});
user.get('nickName');
# 'Teddy'
user.set('nickName', 'TeddyBear');
# 'TeddyBear'
user.get('firstName');
# 'Teddy'
```
@method computed.oneWay
@for Ember
@param {String} dependentKey
@return {Ember.ComputedProperty} computed property which creates a
one way computed property to the original value for property.
*/
Ember.computed.oneWay = function(dependentKey) {
return Ember.computed(dependentKey, function() {
return get(this, dependentKey);
});
};
/**
Where `computed.oneWay` provides oneWay bindings, `computed.readOnly` provides
a readOnly one way binding. Very often when using `computed.oneWay` one does
not also want changes to propogate back up, as they will replace the value.
This prevents the reverse flow, and also throws an exception when it occurs.
Example
```javascript
User = Ember.Object.extend({
firstName: null,
lastName: null,
nickName: Ember.computed.readOnly('firstName')
});
user = User.create({
firstName: 'Teddy',
lastName: 'Zeenny'
});
user.get('nickName');
# 'Teddy'
user.set('nickName', 'TeddyBear');
# throws Exception
# throw new Ember.Error('Cannot Set: nickName on: <User:ember27288>' );`
user.get('firstName');
# 'Teddy'
```
@method computed.readOnly
@for Ember
@param {String} dependentKey
@return {Ember.ComputedProperty} computed property which creates a
one way computed property to the original value for property.
*/
Ember.computed.readOnly = function(dependentKey) {
return Ember.computed(dependentKey, function() {
return get(this, dependentKey);
}).readOnly();
};
/**
A computed property that acts like a standard getter and setter,
but returns the value at the provided `defaultPath` if the
property itself has not been set to a value
Example
```javascript
var Hamster = Ember.Object.extend({
wishList: Ember.computed.defaultTo('favoriteFood')
});
var hamster = Hamster.create({favoriteFood: 'Banana'});
hamster.get('wishList'); // 'Banana'
hamster.set('wishList', 'More Unit Tests');
hamster.get('wishList'); // 'More Unit Tests'
hamster.get('favoriteFood'); // 'Banana'
```
@method computed.defaultTo
@for Ember
@param {String} defaultPath
@return {Ember.ComputedProperty} computed property which acts like
a standard getter and setter, but defaults to the value from `defaultPath`.
*/
Ember.computed.defaultTo = function(defaultPath) {
return Ember.computed(function(key, newValue, cachedValue) {
if (arguments.length === 1) {
return cachedValue != null ? cachedValue : get(this, defaultPath);
}
return newValue != null ? newValue : get(this, defaultPath);
});
};
})();
(function() {
// Ember.tryFinally
/**
@module ember-metal
*/
var AFTER_OBSERVERS = ':change',
BEFORE_OBSERVERS = ':before';
function changeEvent(keyName) {
return keyName+AFTER_OBSERVERS;
}
function beforeEvent(keyName) {
return keyName+BEFORE_OBSERVERS;
}
/**
@method addObserver
@for Ember
@param obj
@param {String} path
@param {Object|Function} targetOrMethod
@param {Function|String} [method]
*/
Ember.addObserver = function(obj, _path, target, method) {
Ember.addListener(obj, changeEvent(_path), target, method);
Ember.watch(obj, _path);
return this;
};
Ember.observersFor = function(obj, path) {
return Ember.listenersFor(obj, changeEvent(path));
};
/**
@method removeObserver
@for Ember
@param obj
@param {String} path
@param {Object|Function} targetOrMethod
@param {Function|String} [method]
*/
Ember.removeObserver = function(obj, _path, target, method) {
Ember.unwatch(obj, _path);
Ember.removeListener(obj, changeEvent(_path), target, method);
return this;
};
/**
@method addBeforeObserver
@for Ember
@param obj
@param {String} path
@param {Object|Function} targetOrMethod
@param {Function|String} [method]
*/
Ember.addBeforeObserver = function(obj, _path, target, method) {
Ember.addListener(obj, beforeEvent(_path), target, method);
Ember.watch(obj, _path);
return this;
};
// Suspend observer during callback.
//
// This should only be used by the target of the observer
// while it is setting the observed path.
Ember._suspendBeforeObserver = function(obj, path, target, method, callback) {
return Ember._suspendListener(obj, beforeEvent(path), target, method, callback);
};
Ember._suspendObserver = function(obj, path, target, method, callback) {
return Ember._suspendListener(obj, changeEvent(path), target, method, callback);
};
var map = Ember.ArrayPolyfills.map;
Ember._suspendBeforeObservers = function(obj, paths, target, method, callback) {
var events = map.call(paths, beforeEvent);
return Ember._suspendListeners(obj, events, target, method, callback);
};
Ember._suspendObservers = function(obj, paths, target, method, callback) {
var events = map.call(paths, changeEvent);
return Ember._suspendListeners(obj, events, target, method, callback);
};
Ember.beforeObserversFor = function(obj, path) {
return Ember.listenersFor(obj, beforeEvent(path));
};
/**
@method removeBeforeObserver
@for Ember
@param obj
@param {String} path
@param {Object|Function} targetOrMethod
@param {Function|String} [method]
*/
Ember.removeBeforeObserver = function(obj, _path, target, method) {
Ember.unwatch(obj, _path);
Ember.removeListener(obj, beforeEvent(_path), target, method);
return this;
};
})();
(function() {
define("backburner/queue",
["exports"],
function(__exports__) {
"use strict";
function Queue(daq, name, options) {
this.daq = daq;
this.name = name;
this.options = options;
this._queue = [];
}
Queue.prototype = {
daq: null,
name: null,
options: null,
_queue: null,
push: function(target, method, args, stack) {
var queue = this._queue;
queue.push(target, method, args, stack);
return {queue: this, target: target, method: method};
},
pushUnique: function(target, method, args, stack) {
var queue = this._queue, currentTarget, currentMethod, i, l;
for (i = 0, l = queue.length; i < l; i += 4) {
currentTarget = queue[i];
currentMethod = queue[i+1];
if (currentTarget === target && currentMethod === method) {
queue[i+2] = args; // replace args
queue[i+3] = stack; // replace stack
return {queue: this, target: target, method: method}; // TODO: test this code path
}
}
this._queue.push(target, method, args, stack);
return {queue: this, target: target, method: method};
},
// TODO: remove me, only being used for Ember.run.sync
flush: function() {
var queue = this._queue,
options = this.options,
before = options && options.before,
after = options && options.after,
target, method, args, stack, i, l = queue.length;
if (l && before) { before(); }
for (i = 0; i < l; i += 4) {
target = queue[i];
method = queue[i+1];
args = queue[i+2];
stack = queue[i+3]; // Debugging assistance
// TODO: error handling
if (args && args.length > 0) {
method.apply(target, args);
} else {
method.call(target);
}
}
if (l && after) { after(); }
// check if new items have been added
if (queue.length > l) {
this._queue = queue.slice(l);
this.flush();
} else {
this._queue.length = 0;
}
},
cancel: function(actionToCancel) {
var queue = this._queue, currentTarget, currentMethod, i, l;
for (i = 0, l = queue.length; i < l; i += 4) {
currentTarget = queue[i];
currentMethod = queue[i+1];
if (currentTarget === actionToCancel.target && currentMethod === actionToCancel.method) {
queue.splice(i, 4);
return true;
}
}
// if not found in current queue
// could be in the queue that is being flushed
queue = this._queueBeingFlushed;
if (!queue) {
return;
}
for (i = 0, l = queue.length; i < l; i += 4) {
currentTarget = queue[i];
currentMethod = queue[i+1];
if (currentTarget === actionToCancel.target && currentMethod === actionToCancel.method) {
// don't mess with array during flush
// just nullify the method
queue[i+1] = null;
return true;
}
}
}
};
__exports__.Queue = Queue;
});
define("backburner/deferred_action_queues",
["backburner/queue","exports"],
function(__dependency1__, __exports__) {
"use strict";
var Queue = __dependency1__.Queue;
function DeferredActionQueues(queueNames, options) {
var queues = this.queues = {};
this.queueNames = queueNames = queueNames || [];
var queueName;
for (var i = 0, l = queueNames.length; i < l; i++) {
queueName = queueNames[i];
queues[queueName] = new Queue(this, queueName, options[queueName]);
}
}
DeferredActionQueues.prototype = {
queueNames: null,
queues: null,
schedule: function(queueName, target, method, args, onceFlag, stack) {
var queues = this.queues,
queue = queues[queueName];
if (!queue) { throw new Error("You attempted to schedule an action in a queue (" + queueName + ") that doesn't exist"); }
if (onceFlag) {
return queue.pushUnique(target, method, args, stack);
} else {
return queue.push(target, method, args, stack);
}
},
flush: function() {
var queues = this.queues,
queueNames = this.queueNames,
queueName, queue, queueItems, priorQueueNameIndex,
queueNameIndex = 0, numberOfQueues = queueNames.length;
outerloop:
while (queueNameIndex < numberOfQueues) {
queueName = queueNames[queueNameIndex];
queue = queues[queueName];
queueItems = queue._queueBeingFlushed = queue._queue.slice();
queue._queue = [];
var options = queue.options,
before = options && options.before,
after = options && options.after,
target, method, args, stack,
queueIndex = 0, numberOfQueueItems = queueItems.length;
if (numberOfQueueItems && before) { before(); }
while (queueIndex < numberOfQueueItems) {
target = queueItems[queueIndex];
method = queueItems[queueIndex+1];
args = queueItems[queueIndex+2];
stack = queueItems[queueIndex+3]; // Debugging assistance
if (typeof method === 'string') { method = target[method]; }
// method could have been nullified / canceled during flush
if (method) {
// TODO: error handling
if (args && args.length > 0) {
method.apply(target, args);
} else {
method.call(target);
}
}
queueIndex += 4;
}
queue._queueBeingFlushed = null;
if (numberOfQueueItems && after) { after(); }
if ((priorQueueNameIndex = indexOfPriorQueueWithActions(this, queueNameIndex)) !== -1) {
queueNameIndex = priorQueueNameIndex;
continue outerloop;
}
queueNameIndex++;
}
}
};
function indexOfPriorQueueWithActions(daq, currentQueueIndex) {
var queueName, queue;
for (var i = 0, l = currentQueueIndex; i <= l; i++) {
queueName = daq.queueNames[i];
queue = daq.queues[queueName];
if (queue._queue.length) { return i; }
}
return -1;
}
__exports__.DeferredActionQueues = DeferredActionQueues;
});
define("backburner",
["backburner/deferred_action_queues","exports"],
function(__dependency1__, __exports__) {
"use strict";
var DeferredActionQueues = __dependency1__.DeferredActionQueues;
var slice = [].slice,
pop = [].pop,
throttlers = [],
debouncees = [],
timers = [],
autorun, laterTimer, laterTimerExpiresAt,
global = this,
NUMBER = /\d+/;
function isCoercableNumber(number) {
return typeof number === 'number' || NUMBER.test(number);
}
function Backburner(queueNames, options) {
this.queueNames = queueNames;
this.options = options || {};
if (!this.options.defaultQueue) {
this.options.defaultQueue = queueNames[0];
}
this.instanceStack = [];
}
Backburner.prototype = {
queueNames: null,
options: null,
currentInstance: null,
instanceStack: null,
begin: function() {
var onBegin = this.options && this.options.onBegin,
previousInstance = this.currentInstance;
if (previousInstance) {
this.instanceStack.push(previousInstance);
}
this.currentInstance = new DeferredActionQueues(this.queueNames, this.options);
if (onBegin) {
onBegin(this.currentInstance, previousInstance);
}
},
end: function() {
var onEnd = this.options && this.options.onEnd,
currentInstance = this.currentInstance,
nextInstance = null;
try {
currentInstance.flush();
} finally {
this.currentInstance = null;
if (this.instanceStack.length) {
nextInstance = this.instanceStack.pop();
this.currentInstance = nextInstance;
}
if (onEnd) {
onEnd(currentInstance, nextInstance);
}
}
},
run: function(target, method /*, args */) {
var ret;
this.begin();
if (!method) {
method = target;
target = null;
}
if (typeof method === 'string') {
method = target[method];
}
// Prevent Safari double-finally.
var finallyAlreadyCalled = false;
try {
if (arguments.length > 2) {
ret = method.apply(target, slice.call(arguments, 2));
} else {
ret = method.call(target);
}
} finally {
if (!finallyAlreadyCalled) {
finallyAlreadyCalled = true;
this.end();
}
}
return ret;
},
defer: function(queueName, target, method /* , args */) {
if (!method) {
method = target;
target = null;
}
if (typeof method === 'string') {
method = target[method];
}
var stack = this.DEBUG ? new Error() : undefined,
args = arguments.length > 3 ? slice.call(arguments, 3) : undefined;
if (!this.currentInstance) { createAutorun(this); }
return this.currentInstance.schedule(queueName, target, method, args, false, stack);
},
deferOnce: function(queueName, target, method /* , args */) {
if (!method) {
method = target;
target = null;
}
if (typeof method === 'string') {
method = target[method];
}
var stack = this.DEBUG ? new Error() : undefined,
args = arguments.length > 3 ? slice.call(arguments, 3) : undefined;
if (!this.currentInstance) { createAutorun(this); }
return this.currentInstance.schedule(queueName, target, method, args, true, stack);
},
setTimeout: function() {
var args = slice.call(arguments);
var length = args.length;
var method, wait, target;
var self = this;
var methodOrTarget, methodOrWait, methodOrArgs;
if (length === 0) {
return;
} else if (length === 1) {
method = args.shift();
wait = 0;
} else if (length === 2) {
methodOrTarget = args[0];
methodOrWait = args[1];
if (typeof methodOrWait === 'function' || typeof methodOrTarget[methodOrWait] === 'function') {
target = args.shift();
method = args.shift();
wait = 0;
} else if (isCoercableNumber(methodOrWait)) {
method = args.shift();
wait = args.shift();
} else {
method = args.shift();
wait = 0;
}
} else {
var last = args[args.length - 1];
if (isCoercableNumber(last)) {
wait = args.pop();
}
methodOrTarget = args[0];
methodOrArgs = args[1];
if (typeof methodOrArgs === 'function' || (typeof methodOrArgs === 'string' &&
methodOrTarget !== null &&
methodOrArgs in methodOrTarget)) {
target = args.shift();
method = args.shift();
} else {
method = args.shift();
}
}
var executeAt = (+new Date()) + parseInt(wait, 10);
if (typeof method === 'string') {
method = target[method];
}
function fn() {
method.apply(target, args);
}
// find position to insert - TODO: binary search
var i, l;
for (i = 0, l = timers.length; i < l; i += 2) {
if (executeAt < timers[i]) { break; }
}
timers.splice(i, 0, executeAt, fn);
updateLaterTimer(self, executeAt, wait);
return fn;
},
throttle: function(target, method /* , args, wait, [immediate] */) {
var self = this,
args = arguments,
immediate = pop.call(args),
wait,
throttler,
index,
timer;
if (typeof immediate === "number" || typeof immediate === "string") {
wait = immediate;
immediate = true;
} else {
wait = pop.call(args);
}
wait = parseInt(wait, 10);
index = findThrottler(target, method);
if (index > -1) { return throttlers[index]; } // throttled
timer = global.setTimeout(function() {
if (!immediate) {
self.run.apply(self, args);
}
var index = findThrottler(target, method);
if (index > -1) { throttlers.splice(index, 1); }
}, wait);
if (immediate) {
self.run.apply(self, args);
}
throttler = [target, method, timer];
throttlers.push(throttler);
return throttler;
},
debounce: function(target, method /* , args, wait, [immediate] */) {
var self = this,
args = arguments,
immediate = pop.call(args),
wait,
index,
debouncee,
timer;
if (typeof immediate === "number" || typeof immediate === "string") {
wait = immediate;
immediate = false;
} else {
wait = pop.call(args);
}
wait = parseInt(wait, 10);
// Remove debouncee
index = findDebouncee(target, method);
if (index > -1) {
debouncee = debouncees[index];
debouncees.splice(index, 1);
clearTimeout(debouncee[2]);
}
timer = global.setTimeout(function() {
if (!immediate) {
self.run.apply(self, args);
}
var index = findDebouncee(target, method);
if (index > -1) {
debouncees.splice(index, 1);
}
}, wait);
if (immediate && index === -1) {
self.run.apply(self, args);
}
debouncee = [target, method, timer];
debouncees.push(debouncee);
return debouncee;
},
cancelTimers: function() {
var i, len;
for (i = 0, len = throttlers.length; i < len; i++) {
clearTimeout(throttlers[i][2]);
}
throttlers = [];
for (i = 0, len = debouncees.length; i < len; i++) {
clearTimeout(debouncees[i][2]);
}
debouncees = [];
if (laterTimer) {
clearTimeout(laterTimer);
laterTimer = null;
}
timers = [];
if (autorun) {
clearTimeout(autorun);
autorun = null;
}
},
hasTimers: function() {
return !!timers.length || autorun;
},
cancel: function(timer) {
var timerType = typeof timer;
if (timer && timerType === 'object' && timer.queue && timer.method) { // we're cancelling a deferOnce
return timer.queue.cancel(timer);
} else if (timerType === 'function') { // we're cancelling a setTimeout
for (var i = 0, l = timers.length; i < l; i += 2) {
if (timers[i + 1] === timer) {
timers.splice(i, 2); // remove the two elements
return true;
}
}
} else if (Object.prototype.toString.call(timer) === "[object Array]"){ // we're cancelling a throttle or debounce
return this._cancelItem(findThrottler, throttlers, timer) ||
this._cancelItem(findDebouncee, debouncees, timer);
} else {
return; // timer was null or not a timer
}
},
_cancelItem: function(findMethod, array, timer){
var item,
index;
if (timer.length < 3) { return false; }
index = findMethod(timer[0], timer[1]);
if(index > -1) {
item = array[index];
if(item[2] === timer[2]){
array.splice(index, 1);
clearTimeout(timer[2]);
return true;
}
}
return false;
}
};
Backburner.prototype.schedule = Backburner.prototype.defer;
Backburner.prototype.scheduleOnce = Backburner.prototype.deferOnce;
Backburner.prototype.later = Backburner.prototype.setTimeout;
function createAutorun(backburner) {
backburner.begin();
autorun = global.setTimeout(function() {
autorun = null;
backburner.end();
});
}
function updateLaterTimer(self, executeAt, wait) {
if (!laterTimer || executeAt < laterTimerExpiresAt) {
if (laterTimer) {
clearTimeout(laterTimer);
}
laterTimer = global.setTimeout(function() {
laterTimer = null;
laterTimerExpiresAt = null;
executeTimers(self);
}, wait);
laterTimerExpiresAt = executeAt;
}
}
function executeTimers(self) {
var now = +new Date(),
time, fns, i, l;
self.run(function() {
// TODO: binary search
for (i = 0, l = timers.length; i < l; i += 2) {
time = timers[i];
if (time > now) { break; }
}
fns = timers.splice(0, i);
for (i = 1, l = fns.length; i < l; i += 2) {
self.schedule(self.options.defaultQueue, null, fns[i]);
}
});
if (timers.length) {
updateLaterTimer(self, timers[0], timers[0] - now);
}
}
function findDebouncee(target, method) {
var debouncee,
index = -1;
for (var i = 0, l = debouncees.length; i < l; i++) {
debouncee = debouncees[i];
if (debouncee[0] === target && debouncee[1] === method) {
index = i;
break;
}
}
return index;
}
function findThrottler(target, method) {
var throttler,
index = -1;
for (var i = 0, l = throttlers.length; i < l; i++) {
throttler = throttlers[i];
if (throttler[0] === target && throttler[1] === method) {
index = i;
break;
}
}
return index;
}
__exports__.Backburner = Backburner;
});
})();
(function() {
var onBegin = function(current) {
Ember.run.currentRunLoop = current;
};
var onEnd = function(current, next) {
Ember.run.currentRunLoop = next;
};
var Backburner = requireModule('backburner').Backburner,
backburner = new Backburner(['sync', 'actions', 'destroy'], {
sync: {
before: Ember.beginPropertyChanges,
after: Ember.endPropertyChanges
},
defaultQueue: 'actions',
onBegin: onBegin,
onEnd: onEnd
}),
slice = [].slice,
concat = [].concat;
// ..........................................................
// Ember.run - this is ideally the only public API the dev sees
//
/**
Runs the passed target and method inside of a RunLoop, ensuring any
deferred actions including bindings and views updates are flushed at the
end.
Normally you should not need to invoke this method yourself. However if
you are implementing raw event handlers when interfacing with other
libraries or plugins, you should probably wrap all of your code inside this
call.
```javascript
Ember.run(function() {
// code to be execute within a RunLoop
});
```
@class run
@namespace Ember
@static
@constructor
@param {Object} [target] target of method to call
@param {Function|String} method Method to invoke.
May be a function or a string. If you pass a string
then it will be looked up on the passed target.
@param {Object} [args*] Any additional arguments you wish to pass to the method.
@return {Object} return value from invoking the passed function.
*/
Ember.run = function() {
if (Ember.onerror) {
return onerror(arguments);
} else {
return backburner.run.apply(backburner, arguments);
}
};
function onerror(args) {
try {
return backburner.run.apply(backburner, args);
} catch(error) {
Ember.onerror(error);
}
}
/**
If no run-loop is present, it creates a new one. If a run loop is
present it will queue itself to run on the existing run-loops action
queue.
Please note: This is not for normal usage, and should be used sparingly.
If invoked when not within a run loop:
```javascript
Ember.run.join(function() {
// creates a new run-loop
});
```
Alternatively, if called within an existing run loop:
```javascript
Ember.run(function() {
// creates a new run-loop
Ember.run.join(function() {
// joins with the existing run-loop, and queues for invocation on
// the existing run-loops action queue.
});
});
```
@method join
@namespace Ember
@param {Object} [target] target of method to call
@param {Function|String} method Method to invoke.
May be a function or a string. If you pass a string
then it will be looked up on the passed target.
@param {Object} [args*] Any additional arguments you wish to pass to the method.
@return {Object} Return value from invoking the passed function. Please note,
when called within an existing loop, no return value is possible.
*/
Ember.run.join = function(target, method /* args */) {
if (!Ember.run.currentRunLoop) {
return Ember.run.apply(Ember.run, arguments);
}
var args = slice.call(arguments);
args.unshift('actions');
Ember.run.schedule.apply(Ember.run, args);
};
/**
Provides a useful utility for when integrating with non-Ember libraries
that provide asynchronous callbacks.
Ember utilizes a run-loop to batch and coalesce changes. This works by
marking the start and end of Ember-related Javascript execution.
When using events such as a View's click handler, Ember wraps the event
handler in a run-loop, but when integrating with non-Ember libraries this
can be tedious.
For example, the following is rather verbose but is the correct way to combine
third-party events and Ember code.
```javascript
var that = this;
jQuery(window).on('resize', function(){
Ember.run(function(){
that.handleResize();
});
});
```
To reduce the boilerplate, the following can be used to construct a
run-loop-wrapped callback handler.
```javascript
jQuery(window).on('resize', Ember.run.bind(this, this.handleResize));
```
@method bind
@namespace Ember.run
@param {Object} [target] target of method to call
@param {Function|String} method Method to invoke.
May be a function or a string. If you pass a string
then it will be looked up on the passed target.
@param {Object} [args*] Any additional arguments you wish to pass to the method.
@return {Object} return value from invoking the passed function. Please note,
when called within an existing loop, no return value is possible.
*/
Ember.run.bind = function(target, method /* args*/) {
var args = slice.call(arguments);
return function() {
return Ember.run.join.apply(Ember.run, args.concat(slice.call(arguments)));
};
};
Ember.run.backburner = backburner;
var run = Ember.run;
Ember.run.currentRunLoop = null;
Ember.run.queues = backburner.queueNames;
/**
Begins a new RunLoop. Any deferred actions invoked after the begin will
be buffered until you invoke a matching call to `Ember.run.end()`. This is
a lower-level way to use a RunLoop instead of using `Ember.run()`.
```javascript
Ember.run.begin();
// code to be execute within a RunLoop
Ember.run.end();
```
@method begin
@return {void}
*/
Ember.run.begin = function() {
backburner.begin();
};
/**
Ends a RunLoop. This must be called sometime after you call
`Ember.run.begin()` to flush any deferred actions. This is a lower-level way
to use a RunLoop instead of using `Ember.run()`.
```javascript
Ember.run.begin();
// code to be execute within a RunLoop
Ember.run.end();
```
@method end
@return {void}
*/
Ember.run.end = function() {
backburner.end();
};
/**
Array of named queues. This array determines the order in which queues
are flushed at the end of the RunLoop. You can define your own queues by
simply adding the queue name to this array. Normally you should not need
to inspect or modify this property.
@property queues
@type Array
@default ['sync', 'actions', 'destroy']
*/
/**
Adds the passed target/method and any optional arguments to the named
queue to be executed at the end of the RunLoop. If you have not already
started a RunLoop when calling this method one will be started for you
automatically.
At the end of a RunLoop, any methods scheduled in this way will be invoked.
Methods will be invoked in an order matching the named queues defined in
the `Ember.run.queues` property.
```javascript
Ember.run.schedule('sync', this, function() {
// this will be executed in the first RunLoop queue, when bindings are synced
console.log("scheduled on sync queue");
});
Ember.run.schedule('actions', this, function() {
// this will be executed in the 'actions' queue, after bindings have synced.
console.log("scheduled on actions queue");
});
// Note the functions will be run in order based on the run queues order.
// Output would be:
// scheduled on sync queue
// scheduled on actions queue
```
@method schedule
@param {String} queue The name of the queue to schedule against.
Default queues are 'sync' and 'actions'
@param {Object} [target] target object to use as the context when invoking a method.
@param {String|Function} method The method to invoke. If you pass a string it
will be resolved on the target object at the time the scheduled item is
invoked allowing you to change the target function.
@param {Object} [arguments*] Optional arguments to be passed to the queued method.
@return {void}
*/
Ember.run.schedule = function(queue, target, method) {
checkAutoRun();
backburner.schedule.apply(backburner, arguments);
};
// Used by global test teardown
Ember.run.hasScheduledTimers = function() {
return backburner.hasTimers();
};
// Used by global test teardown
Ember.run.cancelTimers = function () {
backburner.cancelTimers();
};
/**
Immediately flushes any events scheduled in the 'sync' queue. Bindings
use this queue so this method is a useful way to immediately force all
bindings in the application to sync.
You should call this method anytime you need any changed state to propagate
throughout the app immediately without repainting the UI (which happens
in the later 'render' queue added by the `ember-views` package).
```javascript
Ember.run.sync();
```
@method sync
@return {void}
*/
Ember.run.sync = function() {
if (backburner.currentInstance) {
backburner.currentInstance.queues.sync.flush();
}
};
/**
Invokes the passed target/method and optional arguments after a specified
period if time. The last parameter of this method must always be a number
of milliseconds.
You should use this method whenever you need to run some action after a
period of time instead of using `setTimeout()`. This method will ensure that
items that expire during the same script execution cycle all execute
together, which is often more efficient than using a real setTimeout.
```javascript
Ember.run.later(myContext, function() {
// code here will execute within a RunLoop in about 500ms with this == myContext
}, 500);
```
@method later
@param {Object} [target] target of method to invoke
@param {Function|String} method The method to invoke.
If you pass a string it will be resolved on the
target at the time the method is invoked.
@param {Object} [args*] Optional arguments to pass to the timeout.
@param {Number} wait Number of milliseconds to wait.
@return {String} a string you can use to cancel the timer in
`Ember.run.cancel` later.
*/
Ember.run.later = function(target, method) {
return backburner.later.apply(backburner, arguments);
};
/**
Schedule a function to run one time during the current RunLoop. This is equivalent
to calling `scheduleOnce` with the "actions" queue.
@method once
@param {Object} [target] The target of the method to invoke.
@param {Function|String} method The method to invoke.
If you pass a string it will be resolved on the
target at the time the method is invoked.
@param {Object} [args*] Optional arguments to pass to the timeout.
@return {Object} Timer information for use in cancelling, see `Ember.run.cancel`.
*/
Ember.run.once = function(target, method) {
checkAutoRun();
var args = slice.call(arguments);
args.unshift('actions');
return backburner.scheduleOnce.apply(backburner, args);
};
/**
Schedules a function to run one time in a given queue of the current RunLoop.
Calling this method with the same queue/target/method combination will have
no effect (past the initial call).
Note that although you can pass optional arguments these will not be
considered when looking for duplicates. New arguments will replace previous
calls.
```javascript
Ember.run(function() {
var sayHi = function() { console.log('hi'); }
Ember.run.scheduleOnce('afterRender', myContext, sayHi);
Ember.run.scheduleOnce('afterRender', myContext, sayHi);
// sayHi will only be executed once, in the afterRender queue of the RunLoop
});
```
Also note that passing an anonymous function to `Ember.run.scheduleOnce` will
not prevent additional calls with an identical anonymous function from
scheduling the items multiple times, e.g.:
```javascript
function scheduleIt() {
Ember.run.scheduleOnce('actions', myContext, function() { console.log("Closure"); });
}
scheduleIt();
scheduleIt();
// "Closure" will print twice, even though we're using `Ember.run.scheduleOnce`,
// because the function we pass to it is anonymous and won't match the
// previously scheduled operation.
```
Available queues, and their order, can be found at `Ember.run.queues`
@method scheduleOnce
@param {String} [queue] The name of the queue to schedule against. Default queues are 'sync' and 'actions'.
@param {Object} [target] The target of the method to invoke.
@param {Function|String} method The method to invoke.
If you pass a string it will be resolved on the
target at the time the method is invoked.
@param {Object} [args*] Optional arguments to pass to the timeout.
@return {Object} Timer information for use in cancelling, see `Ember.run.cancel`.
*/
Ember.run.scheduleOnce = function(queue, target, method) {
checkAutoRun();
return backburner.scheduleOnce.apply(backburner, arguments);
};
/**
Schedules an item to run from within a separate run loop, after
control has been returned to the system. This is equivalent to calling
`Ember.run.later` with a wait time of 1ms.
```javascript
Ember.run.next(myContext, function() {
// code to be executed in the next run loop,
// which will be scheduled after the current one
});
```
Multiple operations scheduled with `Ember.run.next` will coalesce
into the same later run loop, along with any other operations
scheduled by `Ember.run.later` that expire right around the same
time that `Ember.run.next` operations will fire.
Note that there are often alternatives to using `Ember.run.next`.
For instance, if you'd like to schedule an operation to happen
after all DOM element operations have completed within the current
run loop, you can make use of the `afterRender` run loop queue (added
by the `ember-views` package, along with the preceding `render` queue
where all the DOM element operations happen). Example:
```javascript
App.MyCollectionView = Ember.CollectionView.extend({
didInsertElement: function() {
Ember.run.scheduleOnce('afterRender', this, 'processChildElements');
},
processChildElements: function() {
// ... do something with collectionView's child view
// elements after they've finished rendering, which
// can't be done within the CollectionView's
// `didInsertElement` hook because that gets run
// before the child elements have been added to the DOM.
}
});
```
One benefit of the above approach compared to using `Ember.run.next` is
that you will be able to perform DOM/CSS operations before unprocessed
elements are rendered to the screen, which may prevent flickering or
other artifacts caused by delaying processing until after rendering.
The other major benefit to the above approach is that `Ember.run.next`
introduces an element of non-determinism, which can make things much
harder to test, due to its reliance on `setTimeout`; it's much harder
to guarantee the order of scheduled operations when they are scheduled
outside of the current run loop, i.e. with `Ember.run.next`.
@method next
@param {Object} [target] target of method to invoke
@param {Function|String} method The method to invoke.
If you pass a string it will be resolved on the
target at the time the method is invoked.
@param {Object} [args*] Optional arguments to pass to the timeout.
@return {Object} Timer information for use in cancelling, see `Ember.run.cancel`.
*/
Ember.run.next = function() {
var args = slice.call(arguments);
args.push(1);
return backburner.later.apply(backburner, args);
};
/**
Cancels a scheduled item. Must be a value returned by `Ember.run.later()`,
`Ember.run.once()`, `Ember.run.next()`, `Ember.run.debounce()`, or
`Ember.run.throttle()`.
```javascript
var runNext = Ember.run.next(myContext, function() {
// will not be executed
});
Ember.run.cancel(runNext);
var runLater = Ember.run.later(myContext, function() {
// will not be executed
}, 500);
Ember.run.cancel(runLater);
var runOnce = Ember.run.once(myContext, function() {
// will not be executed
});
Ember.run.cancel(runOnce);
var throttle = Ember.run.throttle(myContext, function() {
// will not be executed
}, 1, false);
Ember.run.cancel(throttle);
var debounce = Ember.run.debounce(myContext, function() {
// will not be executed
}, 1);
Ember.run.cancel(debounce);
var debounceImmediate = Ember.run.debounce(myContext, function() {
// will be executed since we passed in true (immediate)
}, 100, true);
// the 100ms delay until this method can be called again will be cancelled
Ember.run.cancel(debounceImmediate);
```
@method cancel
@param {Object} timer Timer object to cancel
@return {Boolean} true if cancelled or false/undefined if it wasn't found
*/
Ember.run.cancel = function(timer) {
return backburner.cancel(timer);
};
/**
Delay calling the target method until the debounce period has elapsed
with no additional debounce calls. If `debounce` is called again before
the specified time has elapsed, the timer is reset and the entire period
must pass again before the target method is called.
This method should be used when an event may be called multiple times
but the action should only be called once when the event is done firing.
A common example is for scroll events where you only want updates to
happen once scrolling has ceased.
```javascript
var myFunc = function() { console.log(this.name + ' ran.'); };
var myContext = {name: 'debounce'};
Ember.run.debounce(myContext, myFunc, 150);
// less than 150ms passes
Ember.run.debounce(myContext, myFunc, 150);
// 150ms passes
// myFunc is invoked with context myContext
// console logs 'debounce ran.' one time.
```
Immediate allows you to run the function immediately, but debounce
other calls for this function until the wait time has elapsed. If
`debounce` is called again before the specified time has elapsed,
the timer is reset and the entire period must pass again before
the method can be called again.
```javascript
var myFunc = function() { console.log(this.name + ' ran.'); };
var myContext = {name: 'debounce'};
Ember.run.debounce(myContext, myFunc, 150, true);
// console logs 'debounce ran.' one time immediately.
// 100ms passes
Ember.run.debounce(myContext, myFunc, 150, true);
// 150ms passes and nothing else is logged to the console and
// the debouncee is no longer being watched
Ember.run.debounce(myContext, myFunc, 150, true);
// console logs 'debounce ran.' one time immediately.
// 150ms passes and nothing else is logged tot he console and
// the debouncee is no longer being watched
```
@method debounce
@param {Object} [target] target of method to invoke
@param {Function|String} method The method to invoke.
May be a function or a string. If you pass a string
then it will be looked up on the passed target.
@param {Object} [args*] Optional arguments to pass to the timeout.
@param {Number} wait Number of milliseconds to wait.
@param {Boolean} immediate Trigger the function on the leading instead
of the trailing edge of the wait interval. Defaults to false.
@return {Array} Timer information for use in cancelling, see `Ember.run.cancel`.
*/
Ember.run.debounce = function() {
return backburner.debounce.apply(backburner, arguments);
};
/**
Ensure that the target method is never called more frequently than
the specified spacing period.
```javascript
var myFunc = function() { console.log(this.name + ' ran.'); };
var myContext = {name: 'throttle'};
Ember.run.throttle(myContext, myFunc, 150);
// myFunc is invoked with context myContext
// 50ms passes
Ember.run.throttle(myContext, myFunc, 150);
// 50ms passes
Ember.run.throttle(myContext, myFunc, 150);
// 150ms passes
Ember.run.throttle(myContext, myFunc, 150);
// myFunc is invoked with context myContext
// console logs 'throttle ran.' twice, 250ms apart.
```
@method throttle
@param {Object} [target] target of method to invoke
@param {Function|String} method The method to invoke.
May be a function or a string. If you pass a string
then it will be looked up on the passed target.
@param {Object} [args*] Optional arguments to pass to the timeout.
@param {Number} spacing Number of milliseconds to space out requests.
@return {Array} Timer information for use in cancelling, see `Ember.run.cancel`.
*/
Ember.run.throttle = function() {
return backburner.throttle.apply(backburner, arguments);
};
// Make sure it's not an autorun during testing
function checkAutoRun() {
if (!Ember.run.currentRunLoop) {
Ember.assert("You have turned on testing mode, which disabled the run-loop's autorun. You will need to wrap any code with asynchronous side-effects in an Ember.run", !Ember.testing);
}
}
})();
(function() {
// Ember.Logger
// get
// set
// guidFor, meta
// addObserver, removeObserver
// Ember.run.schedule
/**
@module ember-metal
*/
// ..........................................................
// CONSTANTS
//
/**
Debug parameter you can turn on. This will log all bindings that fire to
the console. This should be disabled in production code. Note that you
can also enable this from the console or temporarily.
@property LOG_BINDINGS
@for Ember
@type Boolean
@default false
*/
Ember.LOG_BINDINGS = false || !!Ember.ENV.LOG_BINDINGS;
var get = Ember.get,
set = Ember.set,
guidFor = Ember.guidFor,
IS_GLOBAL = /^([A-Z$]|([0-9][A-Z$]))/;
/**
Returns true if the provided path is global (e.g., `MyApp.fooController.bar`)
instead of local (`foo.bar.baz`).
@method isGlobalPath
@for Ember
@private
@param {String} path
@return Boolean
*/
var isGlobalPath = Ember.isGlobalPath = function(path) {
return IS_GLOBAL.test(path);
};
function getWithGlobals(obj, path) {
return get(isGlobalPath(path) ? Ember.lookup : obj, path);
}
// ..........................................................
// BINDING
//
var Binding = function(toPath, fromPath) {
this._direction = 'fwd';
this._from = fromPath;
this._to = toPath;
this._directionMap = Ember.Map.create();
};
/**
@class Binding
@namespace Ember
*/
Binding.prototype = {
/**
This copies the Binding so it can be connected to another object.
@method copy
@return {Ember.Binding} `this`
*/
copy: function () {
var copy = new Binding(this._to, this._from);
if (this._oneWay) { copy._oneWay = true; }
return copy;
},
// ..........................................................
// CONFIG
//
/**
This will set `from` property path to the specified value. It will not
attempt to resolve this property path to an actual object until you
connect the binding.
The binding will search for the property path starting at the root object
you pass when you `connect()` the binding. It follows the same rules as
`get()` - see that method for more information.
@method from
@param {String} path the property path to connect to
@return {Ember.Binding} `this`
*/
from: function(path) {
this._from = path;
return this;
},
/**
This will set the `to` property path to the specified value. It will not
attempt to resolve this property path to an actual object until you
connect the binding.
The binding will search for the property path starting at the root object
you pass when you `connect()` the binding. It follows the same rules as
`get()` - see that method for more information.
@method to
@param {String|Tuple} path A property path or tuple
@return {Ember.Binding} `this`
*/
to: function(path) {
this._to = path;
return this;
},
/**
Configures the binding as one way. A one-way binding will relay changes
on the `from` side to the `to` side, but not the other way around. This
means that if you change the `to` side directly, the `from` side may have
a different value.
@method oneWay
@return {Ember.Binding} `this`
*/
oneWay: function() {
this._oneWay = true;
return this;
},
/**
@method toString
@return {String} string representation of binding
*/
toString: function() {
var oneWay = this._oneWay ? '[oneWay]' : '';
return "Ember.Binding<" + guidFor(this) + ">(" + this._from + " -> " + this._to + ")" + oneWay;
},
// ..........................................................
// CONNECT AND SYNC
//
/**
Attempts to connect this binding instance so that it can receive and relay
changes. This method will raise an exception if you have not set the
from/to properties yet.
@method connect
@param {Object} obj The root object for this binding.
@return {Ember.Binding} `this`
*/
connect: function(obj) {
Ember.assert('Must pass a valid object to Ember.Binding.connect()', !!obj);
var fromPath = this._from, toPath = this._to;
Ember.trySet(obj, toPath, getWithGlobals(obj, fromPath));
// add an observer on the object to be notified when the binding should be updated
Ember.addObserver(obj, fromPath, this, this.fromDidChange);
// if the binding is a two-way binding, also set up an observer on the target
if (!this._oneWay) { Ember.addObserver(obj, toPath, this, this.toDidChange); }
this._readyToSync = true;
return this;
},
/**
Disconnects the binding instance. Changes will no longer be relayed. You
will not usually need to call this method.
@method disconnect
@param {Object} obj The root object you passed when connecting the binding.
@return {Ember.Binding} `this`
*/
disconnect: function(obj) {
Ember.assert('Must pass a valid object to Ember.Binding.disconnect()', !!obj);
var twoWay = !this._oneWay;
// remove an observer on the object so we're no longer notified of
// changes that should update bindings.
Ember.removeObserver(obj, this._from, this, this.fromDidChange);
// if the binding is two-way, remove the observer from the target as well
if (twoWay) { Ember.removeObserver(obj, this._to, this, this.toDidChange); }
this._readyToSync = false; // disable scheduled syncs...
return this;
},
// ..........................................................
// PRIVATE
//
/* called when the from side changes */
fromDidChange: function(target) {
this._scheduleSync(target, 'fwd');
},
/* called when the to side changes */
toDidChange: function(target) {
this._scheduleSync(target, 'back');
},
_scheduleSync: function(obj, dir) {
var directionMap = this._directionMap;
var existingDir = directionMap.get(obj);
// if we haven't scheduled the binding yet, schedule it
if (!existingDir) {
Ember.run.schedule('sync', this, this._sync, obj);
directionMap.set(obj, dir);
}
// If both a 'back' and 'fwd' sync have been scheduled on the same object,
// default to a 'fwd' sync so that it remains deterministic.
if (existingDir === 'back' && dir === 'fwd') {
directionMap.set(obj, 'fwd');
}
},
_sync: function(obj) {
var log = Ember.LOG_BINDINGS;
// don't synchronize destroyed objects or disconnected bindings
if (obj.isDestroyed || !this._readyToSync) { return; }
// get the direction of the binding for the object we are
// synchronizing from
var directionMap = this._directionMap;
var direction = directionMap.get(obj);
var fromPath = this._from, toPath = this._to;
directionMap.remove(obj);
// if we're synchronizing from the remote object...
if (direction === 'fwd') {
var fromValue = getWithGlobals(obj, this._from);
if (log) {
Ember.Logger.log(' ', this.toString(), '->', fromValue, obj);
}
if (this._oneWay) {
Ember.trySet(obj, toPath, fromValue);
} else {
Ember._suspendObserver(obj, toPath, this, this.toDidChange, function () {
Ember.trySet(obj, toPath, fromValue);
});
}
// if we're synchronizing *to* the remote object
} else if (direction === 'back') {
var toValue = get(obj, this._to);
if (log) {
Ember.Logger.log(' ', this.toString(), '<-', toValue, obj);
}
Ember._suspendObserver(obj, fromPath, this, this.fromDidChange, function () {
Ember.trySet(Ember.isGlobalPath(fromPath) ? Ember.lookup : obj, fromPath, toValue);
});
}
}
};
function mixinProperties(to, from) {
for (var key in from) {
if (from.hasOwnProperty(key)) {
to[key] = from[key];
}
}
}
mixinProperties(Binding, {
/*
See `Ember.Binding.from`.
@method from
@static
*/
from: function() {
var C = this, binding = new C();
return binding.from.apply(binding, arguments);
},
/*
See `Ember.Binding.to`.
@method to
@static
*/
to: function() {
var C = this, binding = new C();
return binding.to.apply(binding, arguments);
},
/**
Creates a new Binding instance and makes it apply in a single direction.
A one-way binding will relay changes on the `from` side object (supplied
as the `from` argument) the `to` side, but not the other way around.
This means that if you change the "to" side directly, the "from" side may have
a different value.
See `Binding.oneWay`.
@method oneWay
@param {String} from from path.
@param {Boolean} [flag] (Optional) passing nothing here will make the
binding `oneWay`. You can instead pass `false` to disable `oneWay`, making the
binding two way again.
@return {Ember.Binding} `this`
*/
oneWay: function(from, flag) {
var C = this, binding = new C(null, from);
return binding.oneWay(flag);
}
});
/**
An `Ember.Binding` connects the properties of two objects so that whenever
the value of one property changes, the other property will be changed also.
## Automatic Creation of Bindings with `/^*Binding/`-named Properties
You do not usually create Binding objects directly but instead describe
bindings in your class or object definition using automatic binding
detection.
Properties ending in a `Binding` suffix will be converted to `Ember.Binding`
instances. The value of this property should be a string representing a path
to another object or a custom binding instanced created using Binding helpers
(see "One Way Bindings"):
```
valueBinding: "MyApp.someController.title"
```
This will create a binding from `MyApp.someController.title` to the `value`
property of your object instance automatically. Now the two values will be
kept in sync.
## One Way Bindings
One especially useful binding customization you can use is the `oneWay()`
helper. This helper tells Ember that you are only interested in
receiving changes on the object you are binding from. For example, if you
are binding to a preference and you want to be notified if the preference
has changed, but your object will not be changing the preference itself, you
could do:
```
bigTitlesBinding: Ember.Binding.oneWay("MyApp.preferencesController.bigTitles")
```
This way if the value of `MyApp.preferencesController.bigTitles` changes the
`bigTitles` property of your object will change also. However, if you
change the value of your `bigTitles` property, it will not update the
`preferencesController`.
One way bindings are almost twice as fast to setup and twice as fast to
execute because the binding only has to worry about changes to one side.
You should consider using one way bindings anytime you have an object that
may be created frequently and you do not intend to change a property; only
to monitor it for changes (such as in the example above).
## Adding Bindings Manually
All of the examples above show you how to configure a custom binding, but the
result of these customizations will be a binding template, not a fully active
Binding instance. The binding will actually become active only when you
instantiate the object the binding belongs to. It is useful however, to
understand what actually happens when the binding is activated.
For a binding to function it must have at least a `from` property and a `to`
property. The `from` property path points to the object/key that you want to
bind from while the `to` path points to the object/key you want to bind to.
When you define a custom binding, you are usually describing the property
you want to bind from (such as `MyApp.someController.value` in the examples
above). When your object is created, it will automatically assign the value
you want to bind `to` based on the name of your binding key. In the
examples above, during init, Ember objects will effectively call
something like this on your binding:
```javascript
binding = Ember.Binding.from(this.valueBinding).to("value");
```
This creates a new binding instance based on the template you provide, and
sets the to path to the `value` property of the new object. Now that the
binding is fully configured with a `from` and a `to`, it simply needs to be
connected to become active. This is done through the `connect()` method:
```javascript
binding.connect(this);
```
Note that when you connect a binding you pass the object you want it to be
connected to. This object will be used as the root for both the from and
to side of the binding when inspecting relative paths. This allows the
binding to be automatically inherited by subclassed objects as well.
Now that the binding is connected, it will observe both the from and to side
and relay changes.
If you ever needed to do so (you almost never will, but it is useful to
understand this anyway), you could manually create an active binding by
using the `Ember.bind()` helper method. (This is the same method used by
to setup your bindings on objects):
```javascript
Ember.bind(MyApp.anotherObject, "value", "MyApp.someController.value");
```
Both of these code fragments have the same effect as doing the most friendly
form of binding creation like so:
```javascript
MyApp.anotherObject = Ember.Object.create({
valueBinding: "MyApp.someController.value",
// OTHER CODE FOR THIS OBJECT...
});
```
Ember's built in binding creation method makes it easy to automatically
create bindings for you. You should always use the highest-level APIs
available, even if you understand how it works underneath.
@class Binding
@namespace Ember
@since Ember 0.9
*/
Ember.Binding = Binding;
/**
Global helper method to create a new binding. Just pass the root object
along with a `to` and `from` path to create and connect the binding.
@method bind
@for Ember
@param {Object} obj The root object of the transform.
@param {String} to The path to the 'to' side of the binding.
Must be relative to obj.
@param {String} from The path to the 'from' side of the binding.
Must be relative to obj or a global path.
@return {Ember.Binding} binding instance
*/
Ember.bind = function(obj, to, from) {
return new Ember.Binding(to, from).connect(obj);
};
/**
@method oneWay
@for Ember
@param {Object} obj The root object of the transform.
@param {String} to The path to the 'to' side of the binding.
Must be relative to obj.
@param {String} from The path to the 'from' side of the binding.
Must be relative to obj or a global path.
@return {Ember.Binding} binding instance
*/
Ember.oneWay = function(obj, to, from) {
return new Ember.Binding(to, from).oneWay().connect(obj);
};
})();
(function() {
/**
@module ember
@submodule ember-metal
*/
var Mixin, REQUIRED, Alias,
a_map = Ember.ArrayPolyfills.map,
a_indexOf = Ember.ArrayPolyfills.indexOf,
a_forEach = Ember.ArrayPolyfills.forEach,
a_slice = [].slice,
o_create = Ember.create,
defineProperty = Ember.defineProperty,
guidFor = Ember.guidFor,
metaFor = Ember.meta,
META_KEY = Ember.META_KEY;
var expandProperties = Ember.expandProperties;
function superFunction(){
var ret, func = this.__nextSuper;
if (func) {
this.__nextSuper = null;
ret = func.apply(this, arguments);
this.__nextSuper = func;
}
return ret;
}
function mixinsMeta(obj) {
var m = metaFor(obj, true), ret = m.mixins;
if (!ret) {
ret = m.mixins = {};
} else if (!m.hasOwnProperty('mixins')) {
ret = m.mixins = o_create(ret);
}
return ret;
}
function initMixin(mixin, args) {
if (args && args.length > 0) {
mixin.mixins = a_map.call(args, function(x) {
if (x instanceof Mixin) { return x; }
// Note: Manually setup a primitive mixin here. This is the only
// way to actually get a primitive mixin. This way normal creation
// of mixins will give you combined mixins...
var mixin = new Mixin();
mixin.properties = x;
return mixin;
});
}
return mixin;
}
function isMethod(obj) {
return 'function' === typeof obj &&
obj.isMethod !== false &&
obj !== Boolean && obj !== Object && obj !== Number && obj !== Array && obj !== Date && obj !== String;
}
var CONTINUE = {};
function mixinProperties(mixinsMeta, mixin) {
var guid;
if (mixin instanceof Mixin) {
guid = guidFor(mixin);
if (mixinsMeta[guid]) { return CONTINUE; }
mixinsMeta[guid] = mixin;
return mixin.properties;
} else {
return mixin; // apply anonymous mixin properties
}
}
function concatenatedMixinProperties(concatProp, props, values, base) {
var concats;
// reset before adding each new mixin to pickup concats from previous
concats = values[concatProp] || base[concatProp];
if (props[concatProp]) {
concats = concats ? concats.concat(props[concatProp]) : props[concatProp];
}
return concats;
}
function giveDescriptorSuper(meta, key, property, values, descs) {
var superProperty;
// Computed properties override methods, and do not call super to them
if (values[key] === undefined) {
// Find the original descriptor in a parent mixin
superProperty = descs[key];
}
// If we didn't find the original descriptor in a parent mixin, find
// it on the original object.
superProperty = superProperty || meta.descs[key];
if (!superProperty || !(superProperty instanceof Ember.ComputedProperty)) {
return property;
}
// Since multiple mixins may inherit from the same parent, we need
// to clone the computed property so that other mixins do not receive
// the wrapped version.
property = o_create(property);
property.func = Ember.wrap(property.func, superProperty.func);
return property;
}
function giveMethodSuper(obj, key, method, values, descs) {
var superMethod;
// Methods overwrite computed properties, and do not call super to them.
if (descs[key] === undefined) {
// Find the original method in a parent mixin
superMethod = values[key];
}
// If we didn't find the original value in a parent mixin, find it in
// the original object
superMethod = superMethod || obj[key];
// Only wrap the new method if the original method was a function
if ('function' !== typeof superMethod) {
return method;
}
return Ember.wrap(method, superMethod);
}
function applyConcatenatedProperties(obj, key, value, values) {
var baseValue = values[key] || obj[key];
if (baseValue) {
if ('function' === typeof baseValue.concat) {
return baseValue.concat(value);
} else {
return Ember.makeArray(baseValue).concat(value);
}
} else {
return Ember.makeArray(value);
}
}
function applyMergedProperties(obj, key, value, values) {
var baseValue = values[key] || obj[key];
if (!baseValue) { return value; }
var newBase = Ember.merge({}, baseValue),
hasFunction = false;
for (var prop in value) {
if (!value.hasOwnProperty(prop)) { continue; }
var propValue = value[prop];
if (isMethod(propValue)) {
// TODO: support for Computed Properties, etc?
hasFunction = true;
newBase[prop] = giveMethodSuper(obj, prop, propValue, baseValue, {});
} else {
newBase[prop] = propValue;
}
}
if (hasFunction) {
newBase._super = superFunction;
}
return newBase;
}
function addNormalizedProperty(base, key, value, meta, descs, values, concats, mergings) {
if (value instanceof Ember.Descriptor) {
if (value === REQUIRED && descs[key]) { return CONTINUE; }
// Wrap descriptor function to implement
// __nextSuper() if needed
if (value.func) {
value = giveDescriptorSuper(meta, key, value, values, descs);
}
descs[key] = value;
values[key] = undefined;
} else {
if ((concats && a_indexOf.call(concats, key) >= 0) ||
key === 'concatenatedProperties' ||
key === 'mergedProperties') {
value = applyConcatenatedProperties(base, key, value, values);
} else if ((mergings && a_indexOf.call(mergings, key) >= 0)) {
value = applyMergedProperties(base, key, value, values);
} else if (isMethod(value)) {
value = giveMethodSuper(base, key, value, values, descs);
}
descs[key] = undefined;
values[key] = value;
}
}
function mergeMixins(mixins, m, descs, values, base, keys) {
var mixin, props, key, concats, mergings, meta;
function removeKeys(keyName) {
delete descs[keyName];
delete values[keyName];
}
for(var i=0, l=mixins.length; i<l; i++) {
mixin = mixins[i];
Ember.assert('Expected hash or Mixin instance, got ' + Object.prototype.toString.call(mixin),
typeof mixin === 'object' && mixin !== null && Object.prototype.toString.call(mixin) !== '[object Array]');
props = mixinProperties(m, mixin);
if (props === CONTINUE) { continue; }
if (props) {
meta = metaFor(base);
if (base.willMergeMixin) { base.willMergeMixin(props); }
concats = concatenatedMixinProperties('concatenatedProperties', props, values, base);
mergings = concatenatedMixinProperties('mergedProperties', props, values, base);
for (key in props) {
if (!props.hasOwnProperty(key)) { continue; }
keys.push(key);
addNormalizedProperty(base, key, props[key], meta, descs, values, concats, mergings);
}
// manually copy toString() because some JS engines do not enumerate it
if (props.hasOwnProperty('toString')) { base.toString = props.toString; }
} else if (mixin.mixins) {
mergeMixins(mixin.mixins, m, descs, values, base, keys);
if (mixin._without) { a_forEach.call(mixin._without, removeKeys); }
}
}
}
var IS_BINDING = Ember.IS_BINDING = /^.+Binding$/;
function detectBinding(obj, key, value, m) {
if (IS_BINDING.test(key)) {
var bindings = m.bindings;
if (!bindings) {
bindings = m.bindings = {};
} else if (!m.hasOwnProperty('bindings')) {
bindings = m.bindings = o_create(m.bindings);
}
bindings[key] = value;
}
}
function connectBindings(obj, m) {
// TODO Mixin.apply(instance) should disconnect binding if exists
var bindings = m.bindings, key, binding, to;
if (bindings) {
for (key in bindings) {
binding = bindings[key];
if (binding) {
to = key.slice(0, -7); // strip Binding off end
if (binding instanceof Ember.Binding) {
binding = binding.copy(); // copy prototypes' instance
binding.to(to);
} else { // binding is string path
binding = new Ember.Binding(to, binding);
}
binding.connect(obj);
obj[key] = binding;
}
}
// mark as applied
m.bindings = {};
}
}
function finishPartial(obj, m) {
connectBindings(obj, m || metaFor(obj));
return obj;
}
function followAlias(obj, desc, m, descs, values) {
var altKey = desc.methodName, value;
if (descs[altKey] || values[altKey]) {
value = values[altKey];
desc = descs[altKey];
} else if (m.descs[altKey]) {
desc = m.descs[altKey];
value = undefined;
} else {
desc = undefined;
value = obj[altKey];
}
return { desc: desc, value: value };
}
function updateObserversAndListeners(obj, key, observerOrListener, pathsKey, updateMethod) {
var paths = observerOrListener[pathsKey];
if (paths) {
for (var i=0, l=paths.length; i<l; i++) {
Ember[updateMethod](obj, paths[i], null, key);
}
}
}
function replaceObserversAndListeners(obj, key, observerOrListener) {
var prev = obj[key];
if ('function' === typeof prev) {
updateObserversAndListeners(obj, key, prev, '__ember_observesBefore__', 'removeBeforeObserver');
updateObserversAndListeners(obj, key, prev, '__ember_observes__', 'removeObserver');
updateObserversAndListeners(obj, key, prev, '__ember_listens__', 'removeListener');
}
if ('function' === typeof observerOrListener) {
updateObserversAndListeners(obj, key, observerOrListener, '__ember_observesBefore__', 'addBeforeObserver');
updateObserversAndListeners(obj, key, observerOrListener, '__ember_observes__', 'addObserver');
updateObserversAndListeners(obj, key, observerOrListener, '__ember_listens__', 'addListener');
}
}
function applyMixin(obj, mixins, partial) {
var descs = {}, values = {}, m = metaFor(obj),
key, value, desc, keys = [];
obj._super = superFunction;
// Go through all mixins and hashes passed in, and:
//
// * Handle concatenated properties
// * Handle merged properties
// * Set up _super wrapping if necessary
// * Set up computed property descriptors
// * Copying `toString` in broken browsers
mergeMixins(mixins, mixinsMeta(obj), descs, values, obj, keys);
for(var i = 0, l = keys.length; i < l; i++) {
key = keys[i];
if (key === 'constructor' || !values.hasOwnProperty(key)) { continue; }
desc = descs[key];
value = values[key];
if (desc === REQUIRED) { continue; }
while (desc && desc instanceof Alias) {
var followed = followAlias(obj, desc, m, descs, values);
desc = followed.desc;
value = followed.value;
}
if (desc === undefined && value === undefined) { continue; }
replaceObserversAndListeners(obj, key, value);
detectBinding(obj, key, value, m);
defineProperty(obj, key, desc, value, m);
}
if (!partial) { // don't apply to prototype
finishPartial(obj, m);
}
return obj;
}
/**
@method mixin
@for Ember
@param obj
@param mixins*
@return obj
*/
Ember.mixin = function(obj) {
var args = a_slice.call(arguments, 1);
applyMixin(obj, args, false);
return obj;
};
/**
The `Ember.Mixin` class allows you to create mixins, whose properties can be
added to other classes. For instance,
```javascript
App.Editable = Ember.Mixin.create({
edit: function() {
console.log('starting to edit');
this.set('isEditing', true);
},
isEditing: false
});
// Mix mixins into classes by passing them as the first arguments to
// .extend.
App.CommentView = Ember.View.extend(App.Editable, {
template: Ember.Handlebars.compile('{{#if view.isEditing}}...{{else}}...{{/if}}')
});
commentView = App.CommentView.create();
commentView.edit(); // outputs 'starting to edit'
```
Note that Mixins are created with `Ember.Mixin.create`, not
`Ember.Mixin.extend`.
Note that mixins extend a constructor's prototype so arrays and object literals
defined as properties will be shared amongst objects that implement the mixin.
If you want to define a property in a mixin that is not shared, you can define
it either as a computed property or have it be created on initialization of the object.
```javascript
//filters array will be shared amongst any object implementing mixin
App.Filterable = Ember.Mixin.create({
filters: Ember.A()
});
//filters will be a separate array for every object implementing the mixin
App.Filterable = Ember.Mixin.create({
filters: Ember.computed(function(){return Ember.A();})
});
//filters will be created as a separate array during the object's initialization
App.Filterable = Ember.Mixin.create({
init: function() {
this._super();
this.set("filters", Ember.A());
}
});
```
@class Mixin
@namespace Ember
*/
Ember.Mixin = function() { return initMixin(this, arguments); };
Mixin = Ember.Mixin;
Mixin.prototype = {
properties: null,
mixins: null,
ownerConstructor: null
};
Mixin._apply = applyMixin;
Mixin.applyPartial = function(obj) {
var args = a_slice.call(arguments, 1);
return applyMixin(obj, args, true);
};
Mixin.finishPartial = finishPartial;
Ember.anyUnprocessedMixins = false;
/**
@method create
@static
@param arguments*
*/
Mixin.create = function() {
Ember.anyUnprocessedMixins = true;
var M = this;
return initMixin(new M(), arguments);
};
var MixinPrototype = Mixin.prototype;
/**
@method reopen
@param arguments*
*/
MixinPrototype.reopen = function() {
var mixin, tmp;
if (this.properties) {
mixin = Mixin.create();
mixin.properties = this.properties;
delete this.properties;
this.mixins = [mixin];
} else if (!this.mixins) {
this.mixins = [];
}
var len = arguments.length, mixins = this.mixins, idx;
for(idx=0; idx < len; idx++) {
mixin = arguments[idx];
Ember.assert('Expected hash or Mixin instance, got ' + Object.prototype.toString.call(mixin),
typeof mixin === 'object' && mixin !== null && Object.prototype.toString.call(mixin) !== '[object Array]');
if (mixin instanceof Mixin) {
mixins.push(mixin);
} else {
tmp = Mixin.create();
tmp.properties = mixin;
mixins.push(tmp);
}
}
return this;
};
/**
@method apply
@param obj
@return applied object
*/
MixinPrototype.apply = function(obj) {
return applyMixin(obj, [this], false);
};
MixinPrototype.applyPartial = function(obj) {
return applyMixin(obj, [this], true);
};
function _detect(curMixin, targetMixin, seen) {
var guid = guidFor(curMixin);
if (seen[guid]) { return false; }
seen[guid] = true;
if (curMixin === targetMixin) { return true; }
var mixins = curMixin.mixins, loc = mixins ? mixins.length : 0;
while (--loc >= 0) {
if (_detect(mixins[loc], targetMixin, seen)) { return true; }
}
return false;
}
/**
@method detect
@param obj
@return {Boolean}
*/
MixinPrototype.detect = function(obj) {
if (!obj) { return false; }
if (obj instanceof Mixin) { return _detect(obj, this, {}); }
var m = obj[META_KEY],
mixins = m && m.mixins;
if (mixins) {
return !!mixins[guidFor(this)];
}
return false;
};
MixinPrototype.without = function() {
var ret = new Mixin(this);
ret._without = a_slice.call(arguments);
return ret;
};
function _keys(ret, mixin, seen) {
if (seen[guidFor(mixin)]) { return; }
seen[guidFor(mixin)] = true;
if (mixin.properties) {
var props = mixin.properties;
for (var key in props) {
if (props.hasOwnProperty(key)) { ret[key] = true; }
}
} else if (mixin.mixins) {
a_forEach.call(mixin.mixins, function(x) { _keys(ret, x, seen); });
}
}
MixinPrototype.keys = function() {
var keys = {}, seen = {}, ret = [];
_keys(keys, this, seen);
for(var key in keys) {
if (keys.hasOwnProperty(key)) { ret.push(key); }
}
return ret;
};
// returns the mixins currently applied to the specified object
// TODO: Make Ember.mixin
Mixin.mixins = function(obj) {
var m = obj[META_KEY],
mixins = m && m.mixins, ret = [];
if (!mixins) { return ret; }
for (var key in mixins) {
var mixin = mixins[key];
// skip primitive mixins since these are always anonymous
if (!mixin.properties) { ret.push(mixin); }
}
return ret;
};
REQUIRED = new Ember.Descriptor();
REQUIRED.toString = function() { return '(Required Property)'; };
/**
Denotes a required property for a mixin
@method required
@for Ember
*/
Ember.required = function() {
return REQUIRED;
};
Alias = function(methodName) {
this.methodName = methodName;
};
Alias.prototype = new Ember.Descriptor();
/**
Makes a method available via an additional name.
```javascript
App.Person = Ember.Object.extend({
name: function() {
return 'Tomhuda Katzdale';
},
moniker: Ember.aliasMethod('name')
});
var goodGuy = App.Person.create()
```
@method aliasMethod
@for Ember
@param {String} methodName name of the method to alias
@return {Ember.Descriptor}
*/
Ember.aliasMethod = function(methodName) {
return new Alias(methodName);
};
// ..........................................................
// OBSERVER HELPER
//
/**
Specify a method that observes property changes.
```javascript
Ember.Object.extend({
valueObserver: Ember.observer('value', function() {
// Executes whenever the "value" property changes
})
});
```
In the future this method may become asynchronous. If you want to ensure
synchronous behavior, use `immediateObserver`.
Also available as `Function.prototype.observes` if prototype extensions are
enabled.
@method observer
@for Ember
@param {String} propertyNames*
@param {Function} func
@return func
*/
Ember.observer = function() {
var func = a_slice.call(arguments, -1)[0];
var paths;
var addWatchedProperty = function (path) { paths.push(path); };
var _paths = a_slice.call(arguments, 0, -1);
if (typeof func !== "function") {
// revert to old, soft-deprecated argument ordering
func = arguments[0];
_paths = a_slice.call(arguments, 1);
}
paths = [];
for (var i=0; i<_paths.length; ++i) {
expandProperties(_paths[i], addWatchedProperty);
}
if (typeof func !== "function") {
throw new Ember.Error("Ember.observer called without a function");
}
func.__ember_observes__ = paths;
return func;
};
/**
Specify a method that observes property changes.
```javascript
Ember.Object.extend({
valueObserver: Ember.immediateObserver('value', function() {
// Executes whenever the "value" property changes
})
});
```
In the future, `Ember.observer` may become asynchronous. In this event,
`Ember.immediateObserver` will maintain the synchronous behavior.
Also available as `Function.prototype.observesImmediately` if prototype extensions are
enabled.
@method immediateObserver
@for Ember
@param {String} propertyNames*
@param {Function} func
@return func
*/
Ember.immediateObserver = function() {
for (var i=0, l=arguments.length; i<l; i++) {
var arg = arguments[i];
Ember.assert("Immediate observers must observe internal properties only, not properties on other objects.", typeof arg !== "string" || arg.indexOf('.') === -1);
}
return Ember.observer.apply(this, arguments);
};
/**
When observers fire, they are called with the arguments `obj`, `keyName`.
Note, `@each.property` observer is called per each add or replace of an element
and it's not called with a specific enumeration item.
A `beforeObserver` fires before a property changes.
A `beforeObserver` is an alternative form of `.observesBefore()`.
```javascript
App.PersonView = Ember.View.extend({
friends: [{ name: 'Tom' }, { name: 'Stefan' }, { name: 'Kris' }],
valueWillChange: Ember.beforeObserver('content.value', function(obj, keyName) {
this.changingFrom = obj.get(keyName);
}),
valueDidChange: Ember.observer('content.value', function(obj, keyName) {
// only run if updating a value already in the DOM
if (this.get('state') === 'inDOM') {
var color = obj.get(keyName) > this.changingFrom ? 'green' : 'red';
// logic
}
}),
friendsDidChange: Ember.observer('friends.@each.name', function(obj, keyName) {
// some logic
// obj.get(keyName) returns friends array
})
});
```
Also available as `Function.prototype.observesBefore` if prototype extensions are
enabled.
@method beforeObserver
@for Ember
@param {String} propertyNames*
@param {Function} func
@return func
*/
Ember.beforeObserver = function() {
var func = a_slice.call(arguments, -1)[0];
var paths;
var addWatchedProperty = function(path) { paths.push(path); };
var _paths = a_slice.call(arguments, 0, -1);
if (typeof func !== "function") {
// revert to old, soft-deprecated argument ordering
func = arguments[0];
_paths = a_slice.call(arguments, 1);
}
paths = [];
for (var i=0; i<_paths.length; ++i) {
expandProperties(_paths[i], addWatchedProperty);
}
if (typeof func !== "function") {
throw new Ember.Error("Ember.beforeObserver called without a function");
}
func.__ember_observesBefore__ = paths;
return func;
};
})();
(function() {
// Provides a way to register library versions with ember.
var forEach = Ember.EnumerableUtils.forEach,
indexOf = Ember.EnumerableUtils.indexOf;
Ember.libraries = function() {
var libraries = [];
var coreLibIndex = 0;
var getLibrary = function(name) {
for (var i = 0; i < libraries.length; i++) {
if (libraries[i].name === name) {
return libraries[i];
}
}
};
libraries.register = function(name, version) {
if (!getLibrary(name)) {
libraries.push({name: name, version: version});
}
};
libraries.registerCoreLibrary = function(name, version) {
if (!getLibrary(name)) {
libraries.splice(coreLibIndex++, 0, {name: name, version: version});
}
};
libraries.deRegister = function(name) {
var lib = getLibrary(name);
if (lib) libraries.splice(indexOf(libraries, lib), 1);
};
libraries.each = function (callback) {
forEach(libraries, function(lib) {
callback(lib.name, lib.version);
});
};
return libraries;
}();
Ember.libraries.registerCoreLibrary('Ember', Ember.VERSION);
})();
(function() {
/**
Ember Metal
@module ember
@submodule ember-metal
*/
})();
(function() {
/**
@class RSVP
@module RSVP
*/
define("rsvp/all",
["./promise","exports"],
function(__dependency1__, __exports__) {
"use strict";
var Promise = __dependency1__["default"];
/**
This is a convenient alias for `RSVP.Promise.all`.
@method all
@for RSVP
@param {Array} array Array of promises.
@param {String} label An optional label. This is useful
for tooling.
@static
*/
__exports__["default"] = function all(array, label) {
return Promise.all(array, label);
};
});
define("rsvp/all_settled",
["./promise","./utils","exports"],
function(__dependency1__, __dependency2__, __exports__) {
"use strict";
var Promise = __dependency1__["default"];
var isArray = __dependency2__.isArray;
var isNonThenable = __dependency2__.isNonThenable;
/**
`RSVP.allSettled` is similar to `RSVP.all`, but instead of implementing
a fail-fast method, it waits until all the promises have returned and
shows you all the results. This is useful if you want to handle multiple
promises' failure states together as a set.
Returns a promise that is fulfilled when all the given promises have been
settled. The return promise is fulfilled with an array of the states of
the promises passed into the `promises` array argument.
Each state object will either indicate fulfillment or rejection, and
provide the corresponding value or reason. The states will take one of
the following formats:
```javascript
{ state: 'fulfilled', value: value }
or
{ state: 'rejected', reason: reason }
```
Example:
```javascript
var promise1 = RSVP.Promise.resolve(1);
var promise2 = RSVP.Promise.reject(new Error('2'));
var promise3 = RSVP.Promise.reject(new Error('3'));
var promises = [ promise1, promise2, promise3 ];
RSVP.allSettled(promises).then(function(array){
// array == [
// { state: 'fulfilled', value: 1 },
// { state: 'rejected', reason: Error },
// { state: 'rejected', reason: Error }
// ]
// Note that for the second item, reason.message will be "2", and for the
// third item, reason.message will be "3".
}, function(error) {
// Not run. (This block would only be called if allSettled had failed,
// for instance if passed an incorrect argument type.)
});
```
@method allSettled
@for RSVP
@param {Array} promises
@param {String} label - optional string that describes the promise.
Useful for tooling.
@return {Promise} promise that is fulfilled with an array of the settled
states of the constituent promises.
@static
*/
__exports__["default"] = function allSettled(entries, label) {
return new Promise(function(resolve, reject) {
if (!isArray(entries)) {
throw new TypeError('You must pass an array to allSettled.');
}
var remaining = entries.length;
var entry;
if (remaining === 0) {
resolve([]);
return;
}
var results = new Array(remaining);
function fulfilledResolver(index) {
return function(value) {
resolveAll(index, fulfilled(value));
};
}
function rejectedResolver(index) {
return function(reason) {
resolveAll(index, rejected(reason));
};
}
function resolveAll(index, value) {
results[index] = value;
if (--remaining === 0) {
resolve(results);
}
}
for (var index = 0; index < entries.length; index++) {
entry = entries[index];
if (isNonThenable(entry)) {
resolveAll(index, fulfilled(entry));
} else {
Promise.cast(entry).then(fulfilledResolver(index), rejectedResolver(index));
}
}
}, label);
};
function fulfilled(value) {
return { state: 'fulfilled', value: value };
}
function rejected(reason) {
return { state: 'rejected', reason: reason };
}
});
define("rsvp/config",
["./events","exports"],
function(__dependency1__, __exports__) {
"use strict";
var EventTarget = __dependency1__["default"];
var config = {
instrument: false
};
EventTarget.mixin(config);
function configure(name, value) {
if (name === 'onerror') {
// handle for legacy users that expect the actual
// error to be passed to their function added via
// `RSVP.configure('onerror', someFunctionHere);`
config.on('error', value);
return;
}
if (arguments.length === 2) {
config[name] = value;
} else {
return config[name];
}
}
__exports__.config = config;
__exports__.configure = configure;
});
define("rsvp/defer",
["./promise","exports"],
function(__dependency1__, __exports__) {
"use strict";
var Promise = __dependency1__["default"];
/**
`RSVP.defer` returns an object similar to jQuery's `$.Deferred`.
`RSVP.defer` should be used when porting over code reliant on `$.Deferred`'s
interface. New code should use the `RSVP.Promise` constructor instead.
The object returned from `RSVP.defer` is a plain object with three properties:
* promise - an `RSVP.Promise`.
* reject - a function that causes the `promise` property on this object to
become rejected
* resolve - a function that causes the `promise` property on this object to
become fulfilled.
Example:
```javascript
var deferred = RSVP.defer();
deferred.resolve("Success!");
defered.promise.then(function(value){
// value here is "Success!"
});
```
@method defer
@for RSVP
@param {String} label optional string for labeling the promise.
Useful for tooling.
@return {Object}
*/
__exports__["default"] = function defer(label) {
var deferred = { };
deferred.promise = new Promise(function(resolve, reject) {
deferred.resolve = resolve;
deferred.reject = reject;
}, label);
return deferred;
};
});
define("rsvp/events",
["exports"],
function(__exports__) {
"use strict";
var indexOf = function(callbacks, callback) {
for (var i=0, l=callbacks.length; i<l; i++) {
if (callbacks[i] === callback) { return i; }
}
return -1;
};
var callbacksFor = function(object) {
var callbacks = object._promiseCallbacks;
if (!callbacks) {
callbacks = object._promiseCallbacks = {};
}
return callbacks;
};
/**
@class RSVP.EventTarget
*/
__exports__["default"] = {
/**
`RSVP.EventTarget.mixin` extends an object with EventTarget methods. For
Example:
```javascript
var object = {};
RSVP.EventTarget.mixin(object);
object.on("finished", function(event) {
// handle event
});
object.trigger("finished", { detail: value });
```
`EventTarget.mixin` also works with prototypes:
```javascript
var Person = function() {};
RSVP.EventTarget.mixin(Person.prototype);
var yehuda = new Person();
var tom = new Person();
yehuda.on("poke", function(event) {
console.log("Yehuda says OW");
});
tom.on("poke", function(event) {
console.log("Tom says OW");
});
yehuda.trigger("poke");
tom.trigger("poke");
```
@method mixin
@param {Object} object object to extend with EventTarget methods
@private
*/
mixin: function(object) {
object.on = this.on;
object.off = this.off;
object.trigger = this.trigger;
object._promiseCallbacks = undefined;
return object;
},
/**
Registers a callback to be executed when `eventName` is triggered
```javascript
object.on('event', function(eventInfo){
// handle the event
});
object.trigger('event');
```
@method on
@param {String} eventName name of the event to listen for
@param {Function} callback function to be called when the event is triggered.
@private
*/
on: function(eventName, callback) {
var allCallbacks = callbacksFor(this), callbacks;
callbacks = allCallbacks[eventName];
if (!callbacks) {
callbacks = allCallbacks[eventName] = [];
}
if (indexOf(callbacks, callback) === -1) {
callbacks.push(callback);
}
},
/**
You can use `off` to stop firing a particular callback for an event:
```javascript
function doStuff() { // do stuff! }
object.on('stuff', doStuff);
object.trigger('stuff'); // doStuff will be called
// Unregister ONLY the doStuff callback
object.off('stuff', doStuff);
object.trigger('stuff'); // doStuff will NOT be called
```
If you don't pass a `callback` argument to `off`, ALL callbacks for the
event will not be executed when the event fires. For example:
```javascript
var callback1 = function(){};
var callback2 = function(){};
object.on('stuff', callback1);
object.on('stuff', callback2);
object.trigger('stuff'); // callback1 and callback2 will be executed.
object.off('stuff');
object.trigger('stuff'); // callback1 and callback2 will not be executed!
```
@method off
@param {String} eventName event to stop listening to
@param {Function} callback optional argument. If given, only the function
given will be removed from the event's callback queue. If no `callback`
argument is given, all callbacks will be removed from the event's callback
queue.
@private
*/
off: function(eventName, callback) {
var allCallbacks = callbacksFor(this), callbacks, index;
if (!callback) {
allCallbacks[eventName] = [];
return;
}
callbacks = allCallbacks[eventName];
index = indexOf(callbacks, callback);
if (index !== -1) { callbacks.splice(index, 1); }
},
/**
Use `trigger` to fire custom events. For example:
```javascript
object.on('foo', function(){
console.log('foo event happened!');
});
object.trigger('foo');
// 'foo event happened!' logged to the console
```
You can also pass a value as a second argument to `trigger` that will be
passed as an argument to all event listeners for the event:
```javascript
object.on('foo', function(value){
console.log(value.name);
});
object.trigger('foo', { name: 'bar' });
// 'bar' logged to the console
```
@method trigger
@param {String} eventName name of the event to be triggered
@param {Any} options optional value to be passed to any event handlers for
the given `eventName`
@private
*/
trigger: function(eventName, options) {
var allCallbacks = callbacksFor(this),
callbacks, callbackTuple, callback, binding;
if (callbacks = allCallbacks[eventName]) {
// Don't cache the callbacks.length since it may grow
for (var i=0; i<callbacks.length; i++) {
callback = callbacks[i];
callback(options);
}
}
}
};
});
define("rsvp/filter",
["./all","./map","./utils","exports"],
function(__dependency1__, __dependency2__, __dependency3__, __exports__) {
"use strict";
var all = __dependency1__["default"];
var map = __dependency2__["default"];
var isFunction = __dependency3__.isFunction;
var isArray = __dependency3__.isArray;
/**
`RSVP.filter` is similar to JavaScript's native `filter` method, except that it
waits for all promises to become fulfilled before running the `filterFn` on
each item in given to `promises`. `RSVP.filter` returns a promise that will
become fulfilled with the result of running `filterFn` on the values the
promises become fulfilled with.
For example:
```javascript
var promise1 = RSVP.resolve(1);
var promise2 = RSVP.resolve(2);
var promise3 = RSVP.resolve(3);
var filterFn = function(item){
return item > 1;
};
RSVP.filter(promises, filterFn).then(function(result){
// result is [ 2, 3 ]
});
```
If any of the `promises` given to `RSVP.filter` are rejected, the first promise
that is rejected will be given as an argument to the returned promise's
rejection handler. For example:
```javascript
var promise1 = RSVP.resolve(1);
var promise2 = RSVP.reject(new Error("2"));
var promise3 = RSVP.reject(new Error("3"));
var promises = [ promise1, promise2, promise3 ];
var filterFn = function(item){
return item > 1;
};
RSVP.filter(promises, filterFn).then(function(array){
// Code here never runs because there are rejected promises!
}, function(reason) {
// reason.message === "2"
});
```
`RSVP.filter` will also wait for any promises returned from `filterFn`.
For instance, you may want to fetch a list of users then return a subset
of those users based on some asynchronous operation:
```javascript
var alice = { name: 'alice' };
var bob = { name: 'bob' };
var users = [ alice, bob ];
var promises = users.map(function(user){
return RSVP.resolve(user);
});
var filterFn = function(user){
// Here, Alice has permissions to create a blog post, but Bob does not.
return getPrivilegesForUser(user).then(function(privs){
return privs.can_create_blog_post === true;
});
};
RSVP.filter(promises, filterFn).then(function(users){
// true, because the server told us only Alice can create a blog post.
users.length === 1;
// false, because Alice is the only user present in `users`
users[0] === bob;
});
```
@method filter
@for RSVP
@param {Array} promises
@param {Function} filterFn - function to be called on each resolved value to
filter the final results.
@param {String} label optional string describing the promise. Useful for
tooling.
@return {Promise}
*/
function filter(promises, filterFn, label) {
return all(promises, label).then(function(values){
if (!isArray(promises)) {
throw new TypeError('You must pass an array to filter.');
}
if (!isFunction(filterFn)){
throw new TypeError("You must pass a function to filter's second argument.");
}
return map(promises, filterFn, label).then(function(filterResults){
var i,
valuesLen = values.length,
filtered = [];
for (i = 0; i < valuesLen; i++){
if(filterResults[i]) filtered.push(values[i]);
}
return filtered;
});
});
}
__exports__["default"] = filter;
});
define("rsvp/hash",
["./promise","./utils","exports"],
function(__dependency1__, __dependency2__, __exports__) {
"use strict";
var Promise = __dependency1__["default"];
var isNonThenable = __dependency2__.isNonThenable;
var keysOf = __dependency2__.keysOf;
/**
`RSVP.hash` is similar to `RSVP.all`, but takes an object instead of an array
for its `promises` argument.
Returns a promise that is fulfilled when all the given promises have been
fulfilled, or rejected if any of them become rejected. The returned promise
is fulfilled with a hash that has the same key names as the `promises` object
argument. If any of the values in the object are not promises, they will
simply be copied over to the fulfilled object.
Example:
```javascript
var promises = {
myPromise: RSVP.resolve(1),
yourPromise: RSVP.resolve(2),
theirPromise: RSVP.resolve(3),
notAPromise: 4
};
RSVP.hash(promises).then(function(hash){
// hash here is an object that looks like:
// {
// myPromise: 1,
// yourPromise: 2,
// theirPromise: 3,
// notAPromise: 4
// }
});
````
If any of the `promises` given to `RSVP.hash` are rejected, the first promise
that is rejected will be given as the reason to the rejection handler.
Example:
```javascript
var promises = {
myPromise: RSVP.resolve(1),
rejectedPromise: RSVP.reject(new Error("rejectedPromise")),
anotherRejectedPromise: RSVP.reject(new Error("anotherRejectedPromise")),
};
RSVP.hash(promises).then(function(hash){
// Code here never runs because there are rejected promises!
}, function(reason) {
// reason.message === "rejectedPromise"
});
```
An important note: `RSVP.hash` is intended for plain JavaScript objects that
are just a set of keys and values. `RSVP.hash` will NOT preserve prototype
chains.
Example:
```javascript
function MyConstructor(){
this.example = RSVP.resolve("Example");
}
MyConstructor.prototype = {
protoProperty: RSVP.resolve("Proto Property")
};
var myObject = new MyConstructor();
RSVP.hash(myObject).then(function(hash){
// protoProperty will not be present, instead you will just have an
// object that looks like:
// {
// example: "Example"
// }
//
// hash.hasOwnProperty('protoProperty'); // false
// 'undefined' === typeof hash.protoProperty
});
```
@method hash
@for RSVP
@param {Object} promises
@param {String} label optional string that describes the promise.
Useful for tooling.
@return {Promise} promise that is fulfilled when all properties of `promises`
have been fulfilled, or rejected if any of them become rejected.
@static
*/
__exports__["default"] = function hash(object, label) {
return new Promise(function(resolve, reject){
var results = {};
var keys = keysOf(object);
var remaining = keys.length;
var entry, property;
if (remaining === 0) {
resolve(results);
return;
}
function fulfilledTo(property) {
return function(value) {
results[property] = value;
if (--remaining === 0) {
resolve(results);
}
};
}
function onRejection(reason) {
remaining = 0;
reject(reason);
}
for (var i = 0; i < keys.length; i++) {
property = keys[i];
entry = object[property];
if (isNonThenable(entry)) {
results[property] = entry;
if (--remaining === 0) {
resolve(results);
}
} else {
Promise.cast(entry).then(fulfilledTo(property), onRejection);
}
}
});
};
});
define("rsvp/instrument",
["./config","./utils","exports"],
function(__dependency1__, __dependency2__, __exports__) {
"use strict";
var config = __dependency1__.config;
var now = __dependency2__.now;
__exports__["default"] = function instrument(eventName, promise, child) {
// instrumentation should not disrupt normal usage.
try {
config.trigger(eventName, {
guid: promise._guidKey + promise._id,
eventName: eventName,
detail: promise._detail,
childGuid: child && promise._guidKey + child._id,
label: promise._label,
timeStamp: now(),
stack: new Error(promise._label).stack
});
} catch(error) {
setTimeout(function(){
throw error;
}, 0);
}
};
});
define("rsvp/map",
["./promise","./all","./utils","exports"],
function(__dependency1__, __dependency2__, __dependency3__, __exports__) {
"use strict";
var Promise = __dependency1__["default"];
var all = __dependency2__["default"];
var isArray = __dependency3__.isArray;
var isFunction = __dependency3__.isFunction;
/**
`RSVP.map` is similar to JavaScript's native `map` method, except that it
waits for all promises to become fulfilled before running the `mapFn` on
each item in given to `promises`. `RSVP.map` returns a promise that will
become fulfilled with the result of running `mapFn` on the values the promises
become fulfilled with.
For example:
```javascript
var promise1 = RSVP.resolve(1);
var promise2 = RSVP.resolve(2);
var promise3 = RSVP.resolve(3);
var promises = [ promise1, promise2, promise3 ];
var mapFn = function(item){
return item + 1;
};
RSVP.map(promises, mapFn).then(function(result){
// result is [ 2, 3, 4 ]
});
```
If any of the `promises` given to `RSVP.map` are rejected, the first promise
that is rejected will be given as an argument to the returned promise's
rejection handler. For example:
```javascript
var promise1 = RSVP.resolve(1);
var promise2 = RSVP.reject(new Error("2"));
var promise3 = RSVP.reject(new Error("3"));
var promises = [ promise1, promise2, promise3 ];
var mapFn = function(item){
return item + 1;
};
RSVP.map(promises, mapFn).then(function(array){
// Code here never runs because there are rejected promises!
}, function(reason) {
// reason.message === "2"
});
```
`RSVP.map` will also wait if a promise is returned from `mapFn`. For example,
say you want to get all comments from a set of blog posts, but you need
the blog posts first becuase they contain a url to those comments.
```javscript
var mapFn = function(blogPost){
// getComments does some ajax and returns an RSVP.Promise that is fulfilled
// with some comments data
return getComments(blogPost.comments_url);
};
// getBlogPosts does some ajax and returns an RSVP.Promise that is fulfilled
// with some blog post data
RSVP.map(getBlogPosts(), mapFn).then(function(comments){
// comments is the result of asking the server for the comments
// of all blog posts returned from getBlogPosts()
});
```
@method map
@for RSVP
@param {Array} promises
@param {Function} mapFn function to be called on each fulfilled promise.
@param {String} label optional string for labeling the promise.
Useful for tooling.
@return {Promise} promise that is fulfilled with the result of calling
`mapFn` on each fulfilled promise or value when they become fulfilled.
The promise will be rejected if any of the given `promises` become rejected.
@static
*/
__exports__["default"] = function map(promises, mapFn, label) {
return all(promises, label).then(function(results){
if (!isArray(promises)) {
throw new TypeError('You must pass an array to map.');
}
if (!isFunction(mapFn)){
throw new TypeError("You must pass a function to map's second argument.");
}
var resultLen = results.length,
mappedResults = [],
i;
for (i = 0; i < resultLen; i++){
mappedResults.push(mapFn(results[i]));
}
return all(mappedResults, label);
});
};
});
define("rsvp/node",
["./promise","exports"],
function(__dependency1__, __exports__) {
"use strict";
var Promise = __dependency1__["default"];
var slice = Array.prototype.slice;
function makeNodeCallbackFor(resolve, reject) {
return function (error, value) {
if (error) {
reject(error);
} else if (arguments.length > 2) {
resolve(slice.call(arguments, 1));
} else {
resolve(value);
}
};
}
/**
`RSVP.denodeify` takes a "node-style" function and returns a function that
will return an `RSVP.Promise`. You can use `denodeify` in Node.js or the
browser when you'd prefer to use promises over using callbacks. For example,
`denodeify` transforms the following:
```javascript
var fs = require('fs');
fs.readFile('myfile.txt', function(err, data){
if (err) return handleError(err);
handleData(data);
});
```
into:
```javascript
var fs = require('fs');
var readFile = RSVP.denodeify(fs.readFile);
readFile('myfile.txt').then(handleData, handleError);
```
Using `denodeify` makes it easier to compose asynchronous operations instead
of using callbacks. For example, instead of:
```javascript
var fs = require('fs');
var log = require('some-async-logger');
fs.readFile('myfile.txt', function(err, data){
if (err) return handleError(err);
fs.writeFile('myfile2.txt', data, function(err){
if (err) throw err;
log('success', function(err) {
if (err) throw err;
});
});
});
```
You can chain the operations together using `then` from the returned promise:
```javascript
var fs = require('fs');
var denodeify = RSVP.denodeify;
var readFile = denodeify(fs.readFile);
var writeFile = denodeify(fs.writeFile);
var log = denodeify(require('some-async-logger'));
readFile('myfile.txt').then(function(data){
return writeFile('myfile2.txt', data);
}).then(function(){
return log('SUCCESS');
}).then(function(){
// success handler
}, function(reason){
// rejection handler
});
```
@method denodeify
@for RSVP
@param {Function} nodeFunc a "node-style" function that takes a callback as
its last argument. The callback expects an error to be passed as its first
argument (if an error occurred, otherwise null), and the value from the
operation as its second argument ("function(err, value){ }").
@param {Any} binding optional argument for binding the "this" value when
calling the `nodeFunc` function.
@return {Function} a function that wraps `nodeFunc` to return an
`RSVP.Promise`
@static
*/
__exports__["default"] = function denodeify(nodeFunc, binding) {
return function() {
var nodeArgs = slice.call(arguments), resolve, reject;
var thisArg = this || binding;
return new Promise(function(resolve, reject) {
Promise.all(nodeArgs).then(function(nodeArgs) {
try {
nodeArgs.push(makeNodeCallbackFor(resolve, reject));
nodeFunc.apply(thisArg, nodeArgs);
} catch(e) {
reject(e);
}
});
});
};
};
});
define("rsvp/promise",
["./config","./events","./instrument","./utils","./promise/cast","./promise/all","./promise/race","./promise/resolve","./promise/reject","exports"],
function(__dependency1__, __dependency2__, __dependency3__, __dependency4__, __dependency5__, __dependency6__, __dependency7__, __dependency8__, __dependency9__, __exports__) {
"use strict";
var config = __dependency1__.config;
var EventTarget = __dependency2__["default"];
var instrument = __dependency3__["default"];
var objectOrFunction = __dependency4__.objectOrFunction;
var isFunction = __dependency4__.isFunction;
var now = __dependency4__.now;
var cast = __dependency5__["default"];
var all = __dependency6__["default"];
var race = __dependency7__["default"];
var Resolve = __dependency8__["default"];
var Reject = __dependency9__["default"];
var guidKey = 'rsvp_' + now() + '-';
var counter = 0;
function noop() {}
__exports__["default"] = Promise;
/**
Promise objects represent the eventual result of an asynchronous operation. The
primary way of interacting with a promise is through its `then` method, which
registers callbacks to receive either a promise’s eventual value or the reason
why the promise cannot be fulfilled.
Terminology
-----------
- `promise` is an object or function with a `then` method whose behavior conforms to this specification.
- `thenable` is an object or function that defines a `then` method.
- `value` is any legal JavaScript value (including undefined, a thenable, or a promise).
- `exception` is a value that is thrown using the throw statement.
- `reason` is a value that indicates why a promise was rejected.
- `settled` the final resting state of a promise, fulfilled or rejected.
A promise can be in one of three states: pending, fulfilled, or rejected.
Promises that are fulfilled have a fulfillment value and are in the fulfilled
state. Promises that are rejected have a rejection reason and are in the
rejected state. A fulfillment value is never a thenable. Similarly, a
rejection reason is never a thenable.
Promises can also be said to *resolve* a value. If this value is also a
promise, then the original promise's settled state will match the value's
settled state. So a promise that *resolves* a promise that rejects will
itself reject, and a promise that *resolves* a promise that fulfills will
itself fulfill.
Basic Usage:
------------
```js
var promise = new Promise(function(resolve, reject) {
// on success
resolve(value);
// on failure
reject(reason);
});
promise.then(function(value) {
// on fulfillment
}, function(reason) {
// on rejection
});
```
Advanced Usage:
---------------
Promises shine when abstracting away asynchronous interactions such as
`XMLHttpRequest`s.
```js
function getJSON(url) {
return new Promise(function(resolve, reject){
var xhr = new XMLHttpRequest();
xhr.open('GET', url);
xhr.onreadystatechange = handler;
xhr.responseType = 'json';
xhr.setRequestHeader('Accept', 'application/json');
xhr.send();
function handler() {
if (this.readyState === this.DONE) {
if (this.status === 200) {
resolve(this.response);
} else {
reject(new Error("getJSON: `" + url + "` failed with status: [" + this.status + "]");
}
}
};
});
}
getJSON('/posts.json').then(function(json) {
// on fulfillment
}, function(reason) {
// on rejection
});
```
Unlike callbacks, promises are great composable primitives.
```js
Promise.all([
getJSON('/posts'),
getJSON('/comments')
]).then(function(values){
values[0] // => postsJSON
values[1] // => commentsJSON
return values;
});
```
@class RSVP.Promise
@param {function}
@param {String} label optional string for labeling the promise.
Useful for tooling.
@constructor
*/
function Promise(resolver, label) {
if (!isFunction(resolver)) {
throw new TypeError('You must pass a resolver function as the first argument to the promise constructor');
}
if (!(this instanceof Promise)) {
throw new TypeError("Failed to construct 'Promise': Please use the 'new' operator, this object constructor cannot be called as a function.");
}
this._id = counter++;
this._label = label;
this._subscribers = [];
if (config.instrument) {
instrument('created', this);
}
if (noop !== resolver) {
invokeResolver(resolver, this);
}
}
function invokeResolver(resolver, promise) {
function resolvePromise(value) {
resolve(promise, value);
}
function rejectPromise(reason) {
reject(promise, reason);
}
try {
resolver(resolvePromise, rejectPromise);
} catch(e) {
rejectPromise(e);
}
}
Promise.cast = cast;
Promise.all = all;
Promise.race = race;
Promise.resolve = Resolve;
Promise.reject = Reject;
var PENDING = void 0;
var SEALED = 0;
var FULFILLED = 1;
var REJECTED = 2;
function subscribe(parent, child, onFulfillment, onRejection) {
var subscribers = parent._subscribers;
var length = subscribers.length;
subscribers[length] = child;
subscribers[length + FULFILLED] = onFulfillment;
subscribers[length + REJECTED] = onRejection;
}
function publish(promise, settled) {
var child, callback, subscribers = promise._subscribers, detail = promise._detail;
if (config.instrument) {
instrument(settled === FULFILLED ? 'fulfilled' : 'rejected', promise);
}
for (var i = 0; i < subscribers.length; i += 3) {
child = subscribers[i];
callback = subscribers[i + settled];
invokeCallback(settled, child, callback, detail);
}
promise._subscribers = null;
}
Promise.prototype = {
constructor: Promise,
_id: undefined,
_guidKey: guidKey,
_label: undefined,
_state: undefined,
_detail: undefined,
_subscribers: undefined,
_onerror: function (reason) {
config.trigger('error', reason);
},
/**
The primary way of interacting with a promise is through its `then` method,
which registers callbacks to receive either a promise's eventual value or the
reason why the promise cannot be fulfilled.
```js
findUser().then(function(user){
// user is available
}, function(reason){
// user is unavailable, and you are given the reason why
});
```
Chaining
--------
The return value of `then` is itself a promise. This second, "downstream"
promise is resolved with the return value of the first promise's fulfillment
or rejection handler, or rejected if the handler throws an exception.
```js
findUser().then(function (user) {
return user.name;
}, function (reason) {
return "default name";
}).then(function (userName) {
// If `findUser` fulfilled, `userName` will be the user's name, otherwise it
// will be `"default name"`
});
findUser().then(function (user) {
throw new Error("Found user, but still unhappy");
}, function (reason) {
throw new Error("`findUser` rejected and we're unhappy");
}).then(function (value) {
// never reached
}, function (reason) {
// if `findUser` fulfilled, `reason` will be "Found user, but still unhappy".
// If `findUser` rejected, `reason` will be "`findUser` rejected and we're unhappy".
});
```
If the downstream promise does not specify a rejection handler, rejection reasons will be propagated further downstream.
```js
findUser().then(function (user) {
throw new PedagogicalException("Upstream error");
}).then(function (value) {
// never reached
}).then(function (value) {
// never reached
}, function (reason) {
// The `PedgagocialException` is propagated all the way down to here
});
```
Assimilation
------------
Sometimes the value you want to propagate to a downstream promise can only be
retrieved asynchronously. This can be achieved by returning a promise in the
fulfillment or rejection handler. The downstream promise will then be pending
until the returned promise is settled. This is called *assimilation*.
```js
findUser().then(function (user) {
return findCommentsByAuthor(user);
}).then(function (comments) {
// The user's comments are now available
});
```
If the assimliated promise rejects, then the downstream promise will also reject.
```js
findUser().then(function (user) {
return findCommentsByAuthor(user);
}).then(function (comments) {
// If `findCommentsByAuthor` fulfills, we'll have the value here
}, function (reason) {
// If `findCommentsByAuthor` rejects, we'll have the reason here
});
```
Simple Example
--------------
Synchronous Example
```javascript
var result;
try {
result = findResult();
// success
} catch(reason) {
// failure
}
```
Errback Example
```js
findResult(function(result, err){
if (err) {
// failure
} else {
// success
}
});
```
Promise Example;
```javascript
findResult().then(function(result){
// success
}, function(reason){
// failure
});
```
Advanced Example
--------------
Synchronous Example
```javascript
var author, books;
try {
author = findAuthor();
books = findBooksByAuthor(author);
// success
} catch(reason) {
// failure
}
```
Errback Example
```js
function foundBooks(books) {
}
function failure(reason) {
}
findAuthor(function(author, err){
if (err) {
failure(err);
// failure
} else {
try {
findBoooksByAuthor(author, function(books, err) {
if (err) {
failure(err);
} else {
try {
foundBooks(books);
} catch(reason) {
failure(reason);
}
}
});
} catch(error) {
failure(err);
}
// success
}
});
```
Promise Example;
```javascript
findAuthor().
then(findBooksByAuthor).
then(function(books){
// found books
}).catch(function(reason){
// something went wrong
});
```
@method then
@param {Function} onFulfilled
@param {Function} onRejected
@param {String} label optional string for labeling the promise.
Useful for tooling.
@return {Promise}
*/
then: function(onFulfillment, onRejection, label) {
var promise = this;
this._onerror = null;
var thenPromise = new this.constructor(noop, label);
if (this._state) {
var callbacks = arguments;
config.async(function invokePromiseCallback() {
invokeCallback(promise._state, thenPromise, callbacks[promise._state - 1], promise._detail);
});
} else {
subscribe(this, thenPromise, onFulfillment, onRejection);
}
if (config.instrument) {
instrument('chained', promise, thenPromise);
}
return thenPromise;
},
/**
`catch` is simply sugar for `then(undefined, onRejection)` which makes it the same
as the catch block of a try/catch statement.
```js
function findAuthor(){
throw new Error("couldn't find that author");
}
// synchronous
try {
findAuthor();
} catch(reason) {
// something went wrong
}
// async with promises
findAuthor().catch(function(reason){
// something went wrong
});
```
@method catch
@param {Function} onRejection
@param {String} label optional string for labeling the promise.
Useful for tooling.
@return {Promise}
*/
'catch': function(onRejection, label) {
return this.then(null, onRejection, label);
},
/**
`finally` will be invoked regardless of the promise's fate just as native
try/catch/finally behaves
Synchronous example:
```js
findAuthor() {
if (Math.random() > 0.5) {
throw new Error();
}
return new Author();
}
try {
return findAuthor(); // succeed or fail
} catch(error) {
return findOtherAuther();
} finally {
// always runs
// doesn't affect the return value
}
```
Asynchronous example:
```js
findAuthor().catch(function(reason){
return findOtherAuther();
}).finally(function(){
// author was either found, or not
});
```
@method finally
@param {Function} callback
@param {String} label optional string for labeling the promise.
Useful for tooling.
@return {Promise}
*/
'finally': function(callback, label) {
var constructor = this.constructor;
return this.then(function(value) {
return constructor.cast(callback()).then(function(){
return value;
});
}, function(reason) {
return constructor.cast(callback()).then(function(){
throw reason;
});
}, label);
}
};
function invokeCallback(settled, promise, callback, detail) {
var hasCallback = isFunction(callback),
value, error, succeeded, failed;
if (hasCallback) {
try {
value = callback(detail);
succeeded = true;
} catch(e) {
failed = true;
error = e;
}
} else {
value = detail;
succeeded = true;
}
if (handleThenable(promise, value)) {
return;
} else if (hasCallback && succeeded) {
resolve(promise, value);
} else if (failed) {
reject(promise, error);
} else if (settled === FULFILLED) {
resolve(promise, value);
} else if (settled === REJECTED) {
reject(promise, value);
}
}
function handleThenable(promise, value) {
var then = null,
resolved;
try {
if (promise === value) {
throw new TypeError("A promises callback cannot return that same promise.");
}
if (objectOrFunction(value)) {
then = value.then;
if (isFunction(then)) {
then.call(value, function(val) {
if (resolved) { return true; }
resolved = true;
if (value !== val) {
resolve(promise, val);
} else {
fulfill(promise, val);
}
}, function(val) {
if (resolved) { return true; }
resolved = true;
reject(promise, val);
}, 'derived from: ' + (promise._label || ' unknown promise'));
return true;
}
}
} catch (error) {
if (resolved) { return true; }
reject(promise, error);
return true;
}
return false;
}
function resolve(promise, value) {
if (promise === value) {
fulfill(promise, value);
} else if (!handleThenable(promise, value)) {
fulfill(promise, value);
}
}
function fulfill(promise, value) {
if (promise._state !== PENDING) { return; }
promise._state = SEALED;
promise._detail = value;
config.async(publishFulfillment, promise);
}
function reject(promise, reason) {
if (promise._state !== PENDING) { return; }
promise._state = SEALED;
promise._detail = reason;
config.async(publishRejection, promise);
}
function publishFulfillment(promise) {
publish(promise, promise._state = FULFILLED);
}
function publishRejection(promise) {
if (promise._onerror) {
promise._onerror(promise._detail);
}
publish(promise, promise._state = REJECTED);
}
});
define("rsvp/promise/all",
["../utils","exports"],
function(__dependency1__, __exports__) {
"use strict";
var isArray = __dependency1__.isArray;
var isNonThenable = __dependency1__.isNonThenable;
/**
`RSVP.Promise.all` accepts an array of promises, and returns a new promise which
is fulfilled with an array of fulfillment values for the passed promises, or
rejected with the reason of the first passed promise to be rejected. It casts all
elements of the passed iterable to promises as it runs this algorithm.
Example:
```javascript
var promise1 = RSVP.resolve(1);
var promise2 = RSVP.resolve(2);
var promise3 = RSVP.resolve(3);
var promises = [ promise1, promise2, promise3 ];
RSVP.Promise.all(promises).then(function(array){
// The array here would be [ 1, 2, 3 ];
});
```
If any of the `promises` given to `RSVP.all` are rejected, the first promise
that is rejected will be given as an argument to the returned promises's
rejection handler. For example:
Example:
```javascript
var promise1 = RSVP.resolve(1);
var promise2 = RSVP.reject(new Error("2"));
var promise3 = RSVP.reject(new Error("3"));
var promises = [ promise1, promise2, promise3 ];
RSVP.Promise.all(promises).then(function(array){
// Code here never runs because there are rejected promises!
}, function(error) {
// error.message === "2"
});
```
@method all
@for Ember.RSVP.Promise
@param {Array} entries array of promises
@param {String} label optional string for labeling the promise.
Useful for tooling.
@return {Promise} promise that is fulfilled when all `promises` have been
fulfilled, or rejected if any of them become rejected.
@static
*/
__exports__["default"] = function all(entries, label) {
/*jshint validthis:true */
var Constructor = this;
return new Constructor(function(resolve, reject) {
if (!isArray(entries)) {
throw new TypeError('You must pass an array to all.');
}
var remaining = entries.length;
var results = new Array(remaining);
var entry, pending = true;
if (remaining === 0) {
resolve(results);
return;
}
function fulfillmentAt(index) {
return function(value) {
results[index] = value;
if (--remaining === 0) {
resolve(results);
}
};
}
function onRejection(reason) {
remaining = 0;
reject(reason);
}
for (var index = 0; index < entries.length; index++) {
entry = entries[index];
if (isNonThenable(entry)) {
results[index] = entry;
if (--remaining === 0) {
resolve(results);
}
} else {
Constructor.cast(entry).then(fulfillmentAt(index), onRejection);
}
}
}, label);
};
});
define("rsvp/promise/cast",
["exports"],
function(__exports__) {
"use strict";
/**
`RSVP.Promise.cast` coerces its argument to a promise, or returns the
argument if it is already a promise which shares a constructor with the caster.
Example:
```javascript
var promise = RSVP.Promise.resolve(1);
var casted = RSVP.Promise.cast(promise);
console.log(promise === casted); // true
```
In the case of a promise whose constructor does not match, it is assimilated.
The resulting promise will fulfill or reject based on the outcome of the
promise being casted.
Example:
```javascript
var thennable = $.getJSON('/api/foo');
var casted = RSVP.Promise.cast(thennable);
console.log(thennable === casted); // false
console.log(casted instanceof RSVP.Promise) // true
casted.then(function(data) {
// data is the value getJSON fulfills with
});
```
In the case of a non-promise, a promise which will fulfill with that value is
returned.
Example:
```javascript
var value = 1; // could be a number, boolean, string, undefined...
var casted = RSVP.Promise.cast(value);
console.log(value === casted); // false
console.log(casted instanceof RSVP.Promise) // true
casted.then(function(val) {
val === value // => true
});
```
`RSVP.Promise.cast` is similar to `RSVP.Promise.resolve`, but `RSVP.Promise.cast` differs in the
following ways:
* `RSVP.Promise.cast` serves as a memory-efficient way of getting a promise, when you
have something that could either be a promise or a value. RSVP.resolve
will have the same effect but will create a new promise wrapper if the
argument is a promise.
* `RSVP.Promise.cast` is a way of casting incoming thenables or promise subclasses to
promises of the exact class specified, so that the resulting object's `then` is
ensured to have the behavior of the constructor you are calling cast on (i.e., RSVP.Promise).
@method cast
@param {Object} object to be casted
@param {String} label optional string for labeling the promise.
Useful for tooling.
@return {Promise} promise
@static
*/
__exports__["default"] = function cast(object, label) {
/*jshint validthis:true */
var Constructor = this;
if (object && typeof object === 'object' && object.constructor === Constructor) {
return object;
}
return new Constructor(function(resolve) {
resolve(object);
}, label);
};
});
define("rsvp/promise/race",
["../utils","exports"],
function(__dependency1__, __exports__) {
"use strict";
/* global toString */
var isArray = __dependency1__.isArray;
var isFunction = __dependency1__.isFunction;
var isNonThenable = __dependency1__.isNonThenable;
/**
`RSVP.Promise.race` returns a new promise which is settled in the same way as the
first passed promise to settle.
Example:
```javascript
var promise1 = new RSVP.Promise(function(resolve, reject){
setTimeout(function(){
resolve("promise 1");
}, 200);
});
var promise2 = new RSVP.Promise(function(resolve, reject){
setTimeout(function(){
resolve("promise 2");
}, 100);
});
RSVP.Promise.race([promise1, promise2]).then(function(result){
// result === "promise 2" because it was resolved before promise1
// was resolved.
});
```
`RSVP.Promise.race` is deterministic in that only the state of the first
settled promise matters. For example, even if other promises given to the
`promises` array argument are resolved, but the first settled promise has
become rejected before the other promises became fulfilled, the returned
promise will become rejected:
```javascript
var promise1 = new RSVP.Promise(function(resolve, reject){
setTimeout(function(){
resolve("promise 1");
}, 200);
});
var promise2 = new RSVP.Promise(function(resolve, reject){
setTimeout(function(){
reject(new Error("promise 2"));
}, 100);
});
RSVP.Promise.race([promise1, promise2]).then(function(result){
// Code here never runs
}, function(reason){
// reason.message === "promise2" because promise 2 became rejected before
// promise 1 became fulfilled
});
```
An example real-world use case is implementing timeouts:
```javascript
RSVP.Promise.race([ajax('foo.json'), timeout(5000)])
```
@method race
@param {Array} promises array of promises to observe
@param {String} label optional string for describing the promise returned.
Useful for tooling.
@return {Promise} a promise which settles in the same way as the first passed
promise to settle.
@static
*/
__exports__["default"] = function race(entries, label) {
/*jshint validthis:true */
var Constructor = this, entry;
return new Constructor(function(resolve, reject) {
if (!isArray(entries)) {
throw new TypeError('You must pass an array to race.');
}
var pending = true;
function onFulfillment(value) { if (pending) { pending = false; resolve(value); } }
function onRejection(reason) { if (pending) { pending = false; reject(reason); } }
for (var i = 0; i < entries.length; i++) {
entry = entries[i];
if (isNonThenable(entry)) {
pending = false;
resolve(entry);
return;
} else {
Constructor.cast(entry).then(onFulfillment, onRejection);
}
}
}, label);
};
});
define("rsvp/promise/reject",
["exports"],
function(__exports__) {
"use strict";
/**
`RSVP.Promise.reject` returns a promise rejected with the passed `reason`.
It is shorthand for the following:
```javascript
var promise = new RSVP.Promise(function(resolve, reject){
reject(new Error('WHOOPS'));
});
promise.then(function(value){
// Code here doesn't run because the promise is rejected!
}, function(reason){
// reason.message === 'WHOOPS'
});
```
Instead of writing the above, your code now simply becomes the following:
```javascript
var promise = RSVP.Promise.reject(new Error('WHOOPS'));
promise.then(function(value){
// Code here doesn't run because the promise is rejected!
}, function(reason){
// reason.message === 'WHOOPS'
});
```
@method reject
@param {Any} reason value that the returned promise will be rejected with.
@param {String} label optional string for identifying the returned promise.
Useful for tooling.
@return {Promise} a promise rejected with the given `reason`.
@static
*/
__exports__["default"] = function reject(reason, label) {
/*jshint validthis:true */
var Constructor = this;
return new Constructor(function (resolve, reject) {
reject(reason);
}, label);
};
});
define("rsvp/promise/resolve",
["exports"],
function(__exports__) {
"use strict";
/**
`RSVP.Promise.resolve` returns a promise that will become resolved with the
passed `value`. It is shorthand for the following:
```javascript
var promise = new RSVP.Promise(function(resolve, reject){
resolve(1);
});
promise.then(function(value){
// value === 1
});
```
Instead of writing the above, your code now simply becomes the following:
```javascript
var promise = RSVP.Promise.resolve(1);
promise.then(function(value){
// value === 1
});
```
@method resolve
@param {Any} value value that the returned promise will be resolved with
@param {String} label optional string for identifying the returned promise.
Useful for tooling.
@return {Promise} a promise that will become fulfilled with the given
`value`
@static
*/
__exports__["default"] = function resolve(value, label) {
/*jshint validthis:true */
var Constructor = this;
return new Constructor(function(resolve, reject) {
resolve(value);
}, label);
};
});
define("rsvp/race",
["./promise","exports"],
function(__dependency1__, __exports__) {
"use strict";
var Promise = __dependency1__["default"];
/**
This is a convenient alias for `RSVP.Promise.race`.
@method race
@param {Array} array Array of promises.
@param {String} label An optional label. This is useful
for tooling.
@static
*/
__exports__["default"] = function race(array, label) {
return Promise.race(array, label);
};
});
define("rsvp/reject",
["./promise","exports"],
function(__dependency1__, __exports__) {
"use strict";
var Promise = __dependency1__["default"];
/**
This is a convenient alias for `RSVP.Promise.reject`.
@method reject
@for RSVP
@param {Any} reason value that the returned promise will be rejected with.
@param {String} label optional string for identifying the returned promise.
Useful for tooling.
@return {Promise} a promise rejected with the given `reason`.
@static
*/
__exports__["default"] = function reject(reason, label) {
return Promise.reject(reason, label);
};
});
define("rsvp/resolve",
["./promise","exports"],
function(__dependency1__, __exports__) {
"use strict";
var Promise = __dependency1__["default"];
/**
This is a convenient alias for `RSVP.Promise.resolve`.
@method resolve
@for RSVP
@param {Any} value value that the returned promise will be resolved with
@param {String} label optional string for identifying the returned promise.
Useful for tooling.
@return {Promise} a promise that will become fulfilled with the given
`value`
@static
*/
__exports__["default"] = function resolve(value, label) {
return Promise.resolve(value, label);
};
});
define("rsvp/rethrow",
["exports"],
function(__exports__) {
"use strict";
/**
`RSVP.rethrow` will rethrow an error on the next turn of the JavaScript event
loop in order to aid debugging.
Promises A+ specifies that any exceptions that occur with a promise must be
caught by the promises implementation and bubbled to the last handler. For
this reason, it is recommended that you always specify a second rejection
handler function to `then`. However, `RSVP.rethrow` will throw the exception
outside of the promise, so it bubbles up to your console if in the browser,
or domain/cause uncaught exception in Node. `rethrow` will also throw the
error again so the error can be handled by the promise per the spec.
```javascript
function throws(){
throw new Error('Whoops!');
}
var promise = new RSVP.Promise(function(resolve, reject){
throws();
});
promise.catch(RSVP.rethrow).then(function(){
// Code here doesn't run because the promise became rejected due to an
// error!
}, function (err){
// handle the error here
});
```
The 'Whoops' error will be thrown on the next turn of the event loop
and you can watch for it in your console. You can also handle it using a
rejection handler given to `.then` or `.catch` on the returned promise.
@method rethrow
@for RSVP
@param {Error} reason reason the promise became rejected.
@throws Error
@static
*/
__exports__["default"] = function rethrow(reason) {
setTimeout(function() {
throw reason;
});
throw reason;
};
});
define("rsvp/utils",
["exports"],
function(__exports__) {
"use strict";
function objectOrFunction(x) {
return typeof x === "function" || (typeof x === "object" && x !== null);
}
__exports__.objectOrFunction = objectOrFunction;function isFunction(x) {
return typeof x === "function";
}
__exports__.isFunction = isFunction;function isNonThenable(x) {
return !objectOrFunction(x);
}
__exports__.isNonThenable = isNonThenable;function isArray(x) {
return Object.prototype.toString.call(x) === "[object Array]";
}
__exports__.isArray = isArray;// Date.now is not available in browsers < IE9
// https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Global_Objects/Date/now#Compatibility
var now = Date.now || function() { return new Date().getTime(); };
__exports__.now = now;
var keysOf = Object.keys || function(object) {
var result = [];
for (var prop in object) {
result.push(prop);
}
return result;
};
__exports__.keysOf = keysOf;
});
define("rsvp",
["./rsvp/promise","./rsvp/events","./rsvp/node","./rsvp/all","./rsvp/all_settled","./rsvp/race","./rsvp/hash","./rsvp/rethrow","./rsvp/defer","./rsvp/config","./rsvp/map","./rsvp/resolve","./rsvp/reject","./rsvp/filter","exports"],
function(__dependency1__, __dependency2__, __dependency3__, __dependency4__, __dependency5__, __dependency6__, __dependency7__, __dependency8__, __dependency9__, __dependency10__, __dependency11__, __dependency12__, __dependency13__, __dependency14__, __exports__) {
"use strict";
var Promise = __dependency1__["default"];
var EventTarget = __dependency2__["default"];
var denodeify = __dependency3__["default"];
var all = __dependency4__["default"];
var allSettled = __dependency5__["default"];
var race = __dependency6__["default"];
var hash = __dependency7__["default"];
var rethrow = __dependency8__["default"];
var defer = __dependency9__["default"];
var config = __dependency10__.config;
var configure = __dependency10__.configure;
var map = __dependency11__["default"];
var resolve = __dependency12__["default"];
var reject = __dependency13__["default"];
var filter = __dependency14__["default"];
function async(callback, arg) {
config.async(callback, arg);
}
function on() {
config.on.apply(config, arguments);
}
function off() {
config.off.apply(config, arguments);
}
// Set up instrumentation through `window.__PROMISE_INTRUMENTATION__`
if (typeof window !== 'undefined' && typeof window.__PROMISE_INSTRUMENTATION__ === 'object') {
var callbacks = window.__PROMISE_INSTRUMENTATION__;
configure('instrument', true);
for (var eventName in callbacks) {
if (callbacks.hasOwnProperty(eventName)) {
on(eventName, callbacks[eventName]);
}
}
}
__exports__.Promise = Promise;
__exports__.EventTarget = EventTarget;
__exports__.all = all;
__exports__.allSettled = allSettled;
__exports__.race = race;
__exports__.hash = hash;
__exports__.rethrow = rethrow;
__exports__.defer = defer;
__exports__.denodeify = denodeify;
__exports__.configure = configure;
__exports__.on = on;
__exports__.off = off;
__exports__.resolve = resolve;
__exports__.reject = reject;
__exports__.async = async;
__exports__.map = map;
__exports__.filter = filter;
});
})();
(function() {
define("container/container",
["container/inheriting_dict","exports"],
function(__dependency1__, __exports__) {
"use strict";
var InheritingDict = __dependency1__["default"];
// A lightweight container that helps to assemble and decouple components.
// Public api for the container is still in flux.
// The public api, specified on the application namespace should be considered the stable api.
function Container(parent) {
this.parent = parent;
this.children = [];
this.resolver = parent && parent.resolver || function() {};
this.registry = new InheritingDict(parent && parent.registry);
this.cache = new InheritingDict(parent && parent.cache);
this.factoryCache = new InheritingDict(parent && parent.factoryCache);
this.resolveCache = new InheritingDict(parent && parent.resolveCache);
this.typeInjections = new InheritingDict(parent && parent.typeInjections);
this.injections = {};
this.factoryTypeInjections = new InheritingDict(parent && parent.factoryTypeInjections);
this.factoryInjections = {};
this._options = new InheritingDict(parent && parent._options);
this._typeOptions = new InheritingDict(parent && parent._typeOptions);
}
Container.prototype = {
/**
@property parent
@type Container
@default null
*/
parent: null,
/**
@property children
@type Array
@default []
*/
children: null,
/**
@property resolver
@type function
*/
resolver: null,
/**
@property registry
@type InheritingDict
*/
registry: null,
/**
@property cache
@type InheritingDict
*/
cache: null,
/**
@property typeInjections
@type InheritingDict
*/
typeInjections: null,
/**
@property injections
@type Object
@default {}
*/
injections: null,
/**
@private
@property _options
@type InheritingDict
@default null
*/
_options: null,
/**
@private
@property _typeOptions
@type InheritingDict
*/
_typeOptions: null,
/**
Returns a new child of the current container. These children are configured
to correctly inherit from the current container.
@method child
@return {Container}
*/
child: function() {
var container = new Container(this);
this.children.push(container);
return container;
},
/**
Sets a key-value pair on the current container. If a parent container,
has the same key, once set on a child, the parent and child will diverge
as expected.
@method set
@param {Object} object
@param {String} key
@param {any} value
*/
set: function(object, key, value) {
object[key] = value;
},
/**
Registers a factory for later injection.
Example:
```javascript
var container = new Container();
container.register('model:user', Person, {singleton: false });
container.register('fruit:favorite', Orange);
container.register('communication:main', Email, {singleton: false});
```
@method register
@param {String} fullName
@param {Function} factory
@param {Object} options
*/
register: function(fullName, factory, options) {
validateFullName(fullName);
if (factory === undefined) {
throw new TypeError('Attempting to register an unknown factory: `' + fullName + '`');
}
var normalizedName = this.normalize(fullName);
if (this.cache.has(normalizedName)) {
throw new Error('Cannot re-register: `' + fullName +'`, as it has already been looked up.');
}
this.registry.set(normalizedName, factory);
this._options.set(normalizedName, options || {});
},
/**
Unregister a fullName
```javascript
var container = new Container();
container.register('model:user', User);
container.lookup('model:user') instanceof User //=> true
container.unregister('model:user')
container.lookup('model:user') === undefined //=> true
```
@method unregister
@param {String} fullName
*/
unregister: function(fullName) {
validateFullName(fullName);
var normalizedName = this.normalize(fullName);
this.registry.remove(normalizedName);
this.cache.remove(normalizedName);
this.factoryCache.remove(normalizedName);
this.resolveCache.remove(normalizedName);
this._options.remove(normalizedName);
},
/**
Given a fullName return the corresponding factory.
By default `resolve` will retrieve the factory from
its container's registry.
```javascript
var container = new Container();
container.register('api:twitter', Twitter);
container.resolve('api:twitter') // => Twitter
```
Optionally the container can be provided with a custom resolver.
If provided, `resolve` will first provide the custom resolver
the oppertunity to resolve the fullName, otherwise it will fallback
to the registry.
```javascript
var container = new Container();
container.resolver = function(fullName) {
// lookup via the module system of choice
};
// the twitter factory is added to the module system
container.resolve('api:twitter') // => Twitter
```
@method resolve
@param {String} fullName
@return {Function} fullName's factory
*/
resolve: function(fullName) {
validateFullName(fullName);
var normalizedName = this.normalize(fullName);
var cached = this.resolveCache.get(normalizedName);
if (cached) { return cached; }
var resolved = this.resolver(normalizedName) || this.registry.get(normalizedName);
this.resolveCache.set(normalizedName, resolved);
return resolved;
},
/**
A hook that can be used to describe how the resolver will
attempt to find the factory.
For example, the default Ember `.describe` returns the full
class name (including namespace) where Ember's resolver expects
to find the `fullName`.
@method describe
@param {String} fullName
@return {string} described fullName
*/
describe: function(fullName) {
return fullName;
},
/**
A hook to enable custom fullName normalization behaviour
@method normalize
@param {String} fullName
@return {string} normalized fullName
*/
normalize: function(fullName) {
return fullName;
},
/**
@method makeToString
@param {any} factory
@param {string} fullName
@return {function} toString function
*/
makeToString: function(factory, fullName) {
return factory.toString();
},
/**
Given a fullName return a corresponding instance.
The default behaviour is for lookup to return a singleton instance.
The singleton is scoped to the container, allowing multiple containers
to all have their own locally scoped singletons.
```javascript
var container = new Container();
container.register('api:twitter', Twitter);
var twitter = container.lookup('api:twitter');
twitter instanceof Twitter; // => true
// by default the container will return singletons
var twitter2 = container.lookup('api:twitter');
twitter instanceof Twitter; // => true
twitter === twitter2; //=> true
```
If singletons are not wanted an optional flag can be provided at lookup.
```javascript
var container = new Container();
container.register('api:twitter', Twitter);
var twitter = container.lookup('api:twitter', { singleton: false });
var twitter2 = container.lookup('api:twitter', { singleton: false });
twitter === twitter2; //=> false
```
@method lookup
@param {String} fullName
@param {Object} options
@return {any}
*/
lookup: function(fullName, options) {
validateFullName(fullName);
return lookup(this, this.normalize(fullName), options);
},
/**
Given a fullName return the corresponding factory.
@method lookupFactory
@param {String} fullName
@return {any}
*/
lookupFactory: function(fullName) {
validateFullName(fullName);
return factoryFor(this, this.normalize(fullName));
},
/**
Given a fullName check if the container is aware of its factory
or singleton instance.
@method has
@param {String} fullName
@return {Boolean}
*/
has: function(fullName) {
validateFullName(fullName);
return has(this, this.normalize(fullName));
},
/**
Allow registering options for all factories of a type.
```javascript
var container = new Container();
// if all of type `connection` must not be singletons
container.optionsForType('connection', { singleton: false });
container.register('connection:twitter', TwitterConnection);
container.register('connection:facebook', FacebookConnection);
var twitter = container.lookup('connection:twitter');
var twitter2 = container.lookup('connection:twitter');
twitter === twitter2; // => false
var facebook = container.lookup('connection:facebook');
var facebook2 = container.lookup('connection:facebook');
facebook === facebook2; // => false
```
@method optionsForType
@param {String} type
@param {Object} options
*/
optionsForType: function(type, options) {
if (this.parent) { illegalChildOperation('optionsForType'); }
this._typeOptions.set(type, options);
},
/**
@method options
@param {String} type
@param {Object} options
*/
options: function(type, options) {
this.optionsForType(type, options);
},
/**
Used only via `injection`.
Provides a specialized form of injection, specifically enabling
all objects of one type to be injected with a reference to another
object.
For example, provided each object of type `controller` needed a `router`.
one would do the following:
```javascript
var container = new Container();
container.register('router:main', Router);
container.register('controller:user', UserController);
container.register('controller:post', PostController);
container.typeInjection('controller', 'router', 'router:main');
var user = container.lookup('controller:user');
var post = container.lookup('controller:post');
user.router instanceof Router; //=> true
post.router instanceof Router; //=> true
// both controllers share the same router
user.router === post.router; //=> true
```
@private
@method typeInjection
@param {String} type
@param {String} property
@param {String} fullName
*/
typeInjection: function(type, property, fullName) {
validateFullName(fullName);
if (this.parent) { illegalChildOperation('typeInjection'); }
addTypeInjection(this.typeInjections, type, property, fullName);
},
/**
Defines injection rules.
These rules are used to inject dependencies onto objects when they
are instantiated.
Two forms of injections are possible:
* Injecting one fullName on another fullName
* Injecting one fullName on a type
Example:
```javascript
var container = new Container();
container.register('source:main', Source);
container.register('model:user', User);
container.register('model:post', Post);
// injecting one fullName on another fullName
// eg. each user model gets a post model
container.injection('model:user', 'post', 'model:post');
// injecting one fullName on another type
container.injection('model', 'source', 'source:main');
var user = container.lookup('model:user');
var post = container.lookup('model:post');
user.source instanceof Source; //=> true
post.source instanceof Source; //=> true
user.post instanceof Post; //=> true
// and both models share the same source
user.source === post.source; //=> true
```
@method injection
@param {String} factoryName
@param {String} property
@param {String} injectionName
*/
injection: function(fullName, property, injectionName) {
if (this.parent) { illegalChildOperation('injection'); }
validateFullName(injectionName);
var normalizedInjectionName = this.normalize(injectionName);
if (fullName.indexOf(':') === -1) {
return this.typeInjection(fullName, property, normalizedInjectionName);
}
validateFullName(fullName);
var normalizedName = this.normalize(fullName);
addInjection(this.injections, normalizedName, property, normalizedInjectionName);
},
/**
Used only via `factoryInjection`.
Provides a specialized form of injection, specifically enabling
all factory of one type to be injected with a reference to another
object.
For example, provided each factory of type `model` needed a `store`.
one would do the following:
```javascript
var container = new Container();
container.register('store:main', SomeStore);
container.factoryTypeInjection('model', 'store', 'store:main');
var store = container.lookup('store:main');
var UserFactory = container.lookupFactory('model:user');
UserFactory.store instanceof SomeStore; //=> true
```
@private
@method factoryTypeInjection
@param {String} type
@param {String} property
@param {String} fullName
*/
factoryTypeInjection: function(type, property, fullName) {
if (this.parent) { illegalChildOperation('factoryTypeInjection'); }
addTypeInjection(this.factoryTypeInjections, type, property, this.normalize(fullName));
},
/**
Defines factory injection rules.
Similar to regular injection rules, but are run against factories, via
`Container#lookupFactory`.
These rules are used to inject objects onto factories when they
are looked up.
Two forms of injections are possible:
* Injecting one fullName on another fullName
* Injecting one fullName on a type
Example:
```javascript
var container = new Container();
container.register('store:main', Store);
container.register('store:secondary', OtherStore);
container.register('model:user', User);
container.register('model:post', Post);
// injecting one fullName on another type
container.factoryInjection('model', 'store', 'store:main');
// injecting one fullName on another fullName
container.factoryInjection('model:post', 'secondaryStore', 'store:secondary');
var UserFactory = container.lookupFactory('model:user');
var PostFactory = container.lookupFactory('model:post');
var store = container.lookup('store:main');
UserFactory.store instanceof Store; //=> true
UserFactory.secondaryStore instanceof OtherStore; //=> false
PostFactory.store instanceof Store; //=> true
PostFactory.secondaryStore instanceof OtherStore; //=> true
// and both models share the same source instance
UserFactory.store === PostFactory.store; //=> true
```
@method factoryInjection
@param {String} factoryName
@param {String} property
@param {String} injectionName
*/
factoryInjection: function(fullName, property, injectionName) {
if (this.parent) { illegalChildOperation('injection'); }
var normalizedName = this.normalize(fullName);
var normalizedInjectionName = this.normalize(injectionName);
validateFullName(injectionName);
if (fullName.indexOf(':') === -1) {
return this.factoryTypeInjection(normalizedName, property, normalizedInjectionName);
}
validateFullName(fullName);
addInjection(this.factoryInjections, normalizedName, property, normalizedInjectionName);
},
/**
A depth first traversal, destroying the container, its descendant containers and all
their managed objects.
@method destroy
*/
destroy: function() {
for (var i=0, l=this.children.length; i<l; i++) {
this.children[i].destroy();
}
this.children = [];
eachDestroyable(this, function(item) {
item.destroy();
});
this.parent = undefined;
this.isDestroyed = true;
},
/**
@method reset
*/
reset: function() {
for (var i=0, l=this.children.length; i<l; i++) {
resetCache(this.children[i]);
}
resetCache(this);
}
};
function has(container, fullName){
if (container.cache.has(fullName)) {
return true;
}
return !!container.resolve(fullName);
}
function lookup(container, fullName, options) {
options = options || {};
if (container.cache.has(fullName) && options.singleton !== false) {
return container.cache.get(fullName);
}
var value = instantiate(container, fullName);
if (value === undefined) { return; }
if (isSingleton(container, fullName) && options.singleton !== false) {
container.cache.set(fullName, value);
}
return value;
}
function illegalChildOperation(operation) {
throw new Error(operation + " is not currently supported on child containers");
}
function isSingleton(container, fullName) {
var singleton = option(container, fullName, 'singleton');
return singleton !== false;
}
function buildInjections(container, injections) {
var hash = {};
if (!injections) { return hash; }
var injection, injectable;
for (var i=0, l=injections.length; i<l; i++) {
injection = injections[i];
injectable = lookup(container, injection.fullName);
if (injectable !== undefined) {
hash[injection.property] = injectable;
} else {
throw new Error('Attempting to inject an unknown injection: `' + injection.fullName + '`');
}
}
return hash;
}
function option(container, fullName, optionName) {
var options = container._options.get(fullName);
if (options && options[optionName] !== undefined) {
return options[optionName];
}
var type = fullName.split(":")[0];
options = container._typeOptions.get(type);
if (options) {
return options[optionName];
}
}
function factoryFor(container, fullName) {
var name = fullName;
var factory = container.resolve(name);
var injectedFactory;
var cache = container.factoryCache;
var type = fullName.split(":")[0];
if (factory === undefined) { return; }
if (cache.has(fullName)) {
return cache.get(fullName);
}
if (!factory || typeof factory.extend !== 'function' || (!Ember.MODEL_FACTORY_INJECTIONS && type === 'model')) {
// TODO: think about a 'safe' merge style extension
// for now just fallback to create time injection
return factory;
} else {
var injections = injectionsFor(container, fullName);
var factoryInjections = factoryInjectionsFor(container, fullName);
factoryInjections._toString = container.makeToString(factory, fullName);
injectedFactory = factory.extend(injections);
injectedFactory.reopenClass(factoryInjections);
cache.set(fullName, injectedFactory);
return injectedFactory;
}
}
function injectionsFor(container, fullName) {
var splitName = fullName.split(":"),
type = splitName[0],
injections = [];
injections = injections.concat(container.typeInjections.get(type) || []);
injections = injections.concat(container.injections[fullName] || []);
injections = buildInjections(container, injections);
injections._debugContainerKey = fullName;
injections.container = container;
return injections;
}
function factoryInjectionsFor(container, fullName) {
var splitName = fullName.split(":"),
type = splitName[0],
factoryInjections = [];
factoryInjections = factoryInjections.concat(container.factoryTypeInjections.get(type) || []);
factoryInjections = factoryInjections.concat(container.factoryInjections[fullName] || []);
factoryInjections = buildInjections(container, factoryInjections);
factoryInjections._debugContainerKey = fullName;
return factoryInjections;
}
function instantiate(container, fullName) {
var factory = factoryFor(container, fullName);
if (option(container, fullName, 'instantiate') === false) {
return factory;
}
if (factory) {
if (typeof factory.extend === 'function') {
// assume the factory was extendable and is already injected
return factory.create();
} else {
// assume the factory was extendable
// to create time injections
// TODO: support new'ing for instantiation and merge injections for pure JS Functions
return factory.create(injectionsFor(container, fullName));
}
}
}
function eachDestroyable(container, callback) {
container.cache.eachLocal(function(key, value) {
if (option(container, key, 'instantiate') === false) { return; }
callback(value);
});
}
function resetCache(container) {
container.cache.eachLocal(function(key, value) {
if (option(container, key, 'instantiate') === false) { return; }
value.destroy();
});
container.cache.dict = {};
}
function addTypeInjection(rules, type, property, fullName) {
var injections = rules.get(type);
if (!injections) {
injections = [];
rules.set(type, injections);
}
injections.push({
property: property,
fullName: fullName
});
}
var VALID_FULL_NAME_REGEXP = /^[^:]+.+:[^:]+$/;
function validateFullName(fullName) {
if (!VALID_FULL_NAME_REGEXP.test(fullName)) {
throw new TypeError('Invalid Fullname, expected: `type:name` got: ' + fullName);
}
}
function addInjection(rules, factoryName, property, injectionName) {
var injections = rules[factoryName] = rules[factoryName] || [];
injections.push({ property: property, fullName: injectionName });
}
__exports__["default"] = Container;
});
define("container/inheriting_dict",
["exports"],
function(__exports__) {
"use strict";
// A safe and simple inheriting object.
function InheritingDict(parent) {
this.parent = parent;
this.dict = {};
}
InheritingDict.prototype = {
/**
@property parent
@type InheritingDict
@default null
*/
parent: null,
/**
Object used to store the current nodes data.
@property dict
@type Object
@default Object
*/
dict: null,
/**
Retrieve the value given a key, if the value is present at the current
level use it, otherwise walk up the parent hierarchy and try again. If
no matching key is found, return undefined.
@method get
@param {String} key
@return {any}
*/
get: function(key) {
var dict = this.dict;
if (dict.hasOwnProperty(key)) {
return dict[key];
}
if (this.parent) {
return this.parent.get(key);
}
},
/**
Set the given value for the given key, at the current level.
@method set
@param {String} key
@param {Any} value
*/
set: function(key, value) {
this.dict[key] = value;
},
/**
Delete the given key
@method remove
@param {String} key
*/
remove: function(key) {
delete this.dict[key];
},
/**
Check for the existence of given a key, if the key is present at the current
level return true, otherwise walk up the parent hierarchy and try again. If
no matching key is found, return false.
@method has
@param {String} key
@return {Boolean}
*/
has: function(key) {
var dict = this.dict;
if (dict.hasOwnProperty(key)) {
return true;
}
if (this.parent) {
return this.parent.has(key);
}
return false;
},
/**
Iterate and invoke a callback for each local key-value pair.
@method eachLocal
@param {Function} callback
@param {Object} binding
*/
eachLocal: function(callback, binding) {
var dict = this.dict;
for (var prop in dict) {
if (dict.hasOwnProperty(prop)) {
callback.call(binding, prop, dict[prop]);
}
}
}
};
__exports__["default"] = InheritingDict;
});
define("container",
["container/container","exports"],
function(__dependency1__, __exports__) {
"use strict";
/**
Public api for the container is still in flux.
The public api, specified on the application namespace should be considered the stable api.
// @module container
@private
*/
/*
Flag to enable/disable model factory injections (disabled by default)
If model factory injections are enabled, models should not be
accessed globally (only through `container.lookupFactory('model:modelName'))`);
*/
Ember.MODEL_FACTORY_INJECTIONS = false || !!Ember.ENV.MODEL_FACTORY_INJECTIONS;
var Container = __dependency1__["default"];
__exports__["default"] = Container;
});
})();
(function() {
/*globals ENV */
/**
@module ember
@submodule ember-runtime
*/
var indexOf = Ember.EnumerableUtils.indexOf;
/**
This will compare two javascript values of possibly different types.
It will tell you which one is greater than the other by returning:
- -1 if the first is smaller than the second,
- 0 if both are equal,
- 1 if the first is greater than the second.
The order is calculated based on `Ember.ORDER_DEFINITION`, if types are different.
In case they have the same type an appropriate comparison for this type is made.
```javascript
Ember.compare('hello', 'hello'); // 0
Ember.compare('abc', 'dfg'); // -1
Ember.compare(2, 1); // 1
```
@method compare
@for Ember
@param {Object} v First value to compare
@param {Object} w Second value to compare
@return {Number} -1 if v < w, 0 if v = w and 1 if v > w.
*/
Ember.compare = function compare(v, w) {
if (v === w) { return 0; }
var type1 = Ember.typeOf(v);
var type2 = Ember.typeOf(w);
var Comparable = Ember.Comparable;
if (Comparable) {
if (type1==='instance' && Comparable.detect(v.constructor)) {
return v.constructor.compare(v, w);
}
if (type2 === 'instance' && Comparable.detect(w.constructor)) {
return 1-w.constructor.compare(w, v);
}
}
// If we haven't yet generated a reverse-mapping of Ember.ORDER_DEFINITION,
// do so now.
var mapping = Ember.ORDER_DEFINITION_MAPPING;
if (!mapping) {
var order = Ember.ORDER_DEFINITION;
mapping = Ember.ORDER_DEFINITION_MAPPING = {};
var idx, len;
for (idx = 0, len = order.length; idx < len; ++idx) {
mapping[order[idx]] = idx;
}
// We no longer need Ember.ORDER_DEFINITION.
delete Ember.ORDER_DEFINITION;
}
var type1Index = mapping[type1];
var type2Index = mapping[type2];
if (type1Index < type2Index) { return -1; }
if (type1Index > type2Index) { return 1; }
// types are equal - so we have to check values now
switch (type1) {
case 'boolean':
case 'number':
if (v < w) { return -1; }
if (v > w) { return 1; }
return 0;
case 'string':
var comp = v.localeCompare(w);
if (comp < 0) { return -1; }
if (comp > 0) { return 1; }
return 0;
case 'array':
var vLen = v.length;
var wLen = w.length;
var l = Math.min(vLen, wLen);
var r = 0;
var i = 0;
while (r === 0 && i < l) {
r = compare(v[i],w[i]);
i++;
}
if (r !== 0) { return r; }
// all elements are equal now
// shorter array should be ordered first
if (vLen < wLen) { return -1; }
if (vLen > wLen) { return 1; }
// arrays are equal now
return 0;
case 'instance':
if (Ember.Comparable && Ember.Comparable.detect(v)) {
return v.compare(v, w);
}
return 0;
case 'date':
var vNum = v.getTime();
var wNum = w.getTime();
if (vNum < wNum) { return -1; }
if (vNum > wNum) { return 1; }
return 0;
default:
return 0;
}
};
function _copy(obj, deep, seen, copies) {
var ret, loc, key;
// primitive data types are immutable, just return them.
if ('object' !== typeof obj || obj===null) return obj;
// avoid cyclical loops
if (deep && (loc=indexOf(seen, obj))>=0) return copies[loc];
Ember.assert('Cannot clone an Ember.Object that does not implement Ember.Copyable', !(obj instanceof Ember.Object) || (Ember.Copyable && Ember.Copyable.detect(obj)));
// IMPORTANT: this specific test will detect a native array only. Any other
// object will need to implement Copyable.
if (Ember.typeOf(obj) === 'array') {
ret = obj.slice();
if (deep) {
loc = ret.length;
while(--loc>=0) ret[loc] = _copy(ret[loc], deep, seen, copies);
}
} else if (Ember.Copyable && Ember.Copyable.detect(obj)) {
ret = obj.copy(deep, seen, copies);
} else if (obj instanceof Date) {
ret = new Date(obj.getTime());
} else {
ret = {};
for(key in obj) {
if (!obj.hasOwnProperty(key)) continue;
// Prevents browsers that don't respect non-enumerability from
// copying internal Ember properties
if (key.substring(0,2) === '__') continue;
ret[key] = deep ? _copy(obj[key], deep, seen, copies) : obj[key];
}
}
if (deep) {
seen.push(obj);
copies.push(ret);
}
return ret;
}
/**
Creates a clone of the passed object. This function can take just about
any type of object and create a clone of it, including primitive values
(which are not actually cloned because they are immutable).
If the passed object implements the `clone()` method, then this function
will simply call that method and return the result.
@method copy
@for Ember
@param {Object} obj The object to clone
@param {Boolean} deep If true, a deep copy of the object is made
@return {Object} The cloned object
*/
Ember.copy = function(obj, deep) {
// fast paths
if ('object' !== typeof obj || obj===null) return obj; // can't copy primitives
if (Ember.Copyable && Ember.Copyable.detect(obj)) return obj.copy(deep);
return _copy(obj, deep, deep ? [] : null, deep ? [] : null);
};
/**
Compares two objects, returning true if they are logically equal. This is
a deeper comparison than a simple triple equal. For sets it will compare the
internal objects. For any other object that implements `isEqual()` it will
respect that method.
```javascript
Ember.isEqual('hello', 'hello'); // true
Ember.isEqual(1, 2); // false
Ember.isEqual([4,2], [4,2]); // false
```
@method isEqual
@for Ember
@param {Object} a first object to compare
@param {Object} b second object to compare
@return {Boolean}
*/
Ember.isEqual = function(a, b) {
if (a && 'function'===typeof a.isEqual) return a.isEqual(b);
return a === b;
};
// Used by Ember.compare
Ember.ORDER_DEFINITION = Ember.ENV.ORDER_DEFINITION || [
'undefined',
'null',
'boolean',
'number',
'string',
'array',
'object',
'instance',
'function',
'class',
'date'
];
/**
Returns all of the keys defined on an object or hash. This is useful
when inspecting objects for debugging. On browsers that support it, this
uses the native `Object.keys` implementation.
@method keys
@for Ember
@param {Object} obj
@return {Array} Array containing keys of obj
*/
Ember.keys = Object.keys;
if (!Ember.keys || Ember.create.isSimulated) {
var prototypeProperties = [
'constructor',
'hasOwnProperty',
'isPrototypeOf',
'propertyIsEnumerable',
'valueOf',
'toLocaleString',
'toString'
],
pushPropertyName = function(obj, array, key) {
// Prevents browsers that don't respect non-enumerability from
// copying internal Ember properties
if (key.substring(0,2) === '__') return;
if (key === '_super') return;
if (indexOf(array, key) >= 0) return;
if (!obj.hasOwnProperty(key)) return;
array.push(key);
};
Ember.keys = function(obj) {
var ret = [], key;
for (key in obj) {
pushPropertyName(obj, ret, key);
}
// IE8 doesn't enumerate property that named the same as prototype properties.
for (var i = 0, l = prototypeProperties.length; i < l; i++) {
key = prototypeProperties[i];
pushPropertyName(obj, ret, key);
}
return ret;
};
}
})();
(function() {
/**
@module ember
@submodule ember-runtime
*/
var STRING_DASHERIZE_REGEXP = (/[ _]/g);
var STRING_DASHERIZE_CACHE = {};
var STRING_DECAMELIZE_REGEXP = (/([a-z\d])([A-Z])/g);
var STRING_CAMELIZE_REGEXP = (/(\-|_|\.|\s)+(.)?/g);
var STRING_UNDERSCORE_REGEXP_1 = (/([a-z\d])([A-Z]+)/g);
var STRING_UNDERSCORE_REGEXP_2 = (/\-|\s+/g);
var STRING_PARAMETERIZE_REGEXP_1 = (/[_|\/|\s]+/g);
var STRING_PARAMETERIZE_REGEXP_2 = (/[^a-z0-9\-]+/gi);
var STRING_PARAMETERIZE_REGEXP_3 = (/[\-]+/g);
var STRING_PARAMETERIZE_REGEXP_4 = (/^-+|-+$/g);
/**
Defines the hash of localized strings for the current language. Used by
the `Ember.String.loc()` helper. To localize, add string values to this
hash.
@property STRINGS
@for Ember
@type Hash
*/
Ember.STRINGS = {};
/**
Defines string helper methods including string formatting and localization.
Unless `Ember.EXTEND_PROTOTYPES.String` is `false` these methods will also be
added to the `String.prototype` as well.
@class String
@namespace Ember
@static
*/
Ember.String = {
/**
Apply formatting options to the string. This will look for occurrences
of "%@" in your string and substitute them with the arguments you pass into
this method. If you want to control the specific order of replacement,
you can add a number after the key as well to indicate which argument
you want to insert.
Ordered insertions are most useful when building loc strings where values
you need to insert may appear in different orders.
```javascript
"Hello %@ %@".fmt('John', 'Doe'); // "Hello John Doe"
"Hello %@2, %@1".fmt('John', 'Doe'); // "Hello Doe, John"
```
@method fmt
@param {String} str The string to format
@param {Array} formats An array of parameters to interpolate into string.
@return {String} formatted string
*/
fmt: function(str, formats) {
// first, replace any ORDERED replacements.
var idx = 0; // the current index for non-numerical replacements
return str.replace(/%@([0-9]+)?/g, function(s, argIndex) {
argIndex = (argIndex) ? parseInt(argIndex, 10) - 1 : idx++;
s = formats[argIndex];
return (s === null) ? '(null)' : (s === undefined) ? '' : Ember.inspect(s);
}) ;
},
/**
Formats the passed string, but first looks up the string in the localized
strings hash. This is a convenient way to localize text. See
`Ember.String.fmt()` for more information on formatting.
Note that it is traditional but not required to prefix localized string
keys with an underscore or other character so you can easily identify
localized strings.
```javascript
Ember.STRINGS = {
'_Hello World': 'Bonjour le monde',
'_Hello %@ %@': 'Bonjour %@ %@'
};
Ember.String.loc("_Hello World"); // 'Bonjour le monde';
Ember.String.loc("_Hello %@ %@", ["John", "Smith"]); // "Bonjour John Smith";
```
@method loc
@param {String} str The string to format
@param {Array} formats Optional array of parameters to interpolate into string.
@return {String} formatted string
*/
loc: function(str, formats) {
str = Ember.STRINGS[str] || str;
return Ember.String.fmt(str, formats) ;
},
/**
Splits a string into separate units separated by spaces, eliminating any
empty strings in the process. This is a convenience method for split that
is mostly useful when applied to the `String.prototype`.
```javascript
Ember.String.w("alpha beta gamma").forEach(function(key) {
console.log(key);
});
// > alpha
// > beta
// > gamma
```
@method w
@param {String} str The string to split
@return {String} split string
*/
w: function(str) { return str.split(/\s+/); },
/**
Converts a camelized string into all lower case separated by underscores.
```javascript
'innerHTML'.decamelize(); // 'inner_html'
'action_name'.decamelize(); // 'action_name'
'css-class-name'.decamelize(); // 'css-class-name'
'my favorite items'.decamelize(); // 'my favorite items'
```
@method decamelize
@param {String} str The string to decamelize.
@return {String} the decamelized string.
*/
decamelize: function(str) {
return str.replace(STRING_DECAMELIZE_REGEXP, '$1_$2').toLowerCase();
},
/**
Replaces underscores, spaces, or camelCase with dashes.
```javascript
'innerHTML'.dasherize(); // 'inner-html'
'action_name'.dasherize(); // 'action-name'
'css-class-name'.dasherize(); // 'css-class-name'
'my favorite items'.dasherize(); // 'my-favorite-items'
```
@method dasherize
@param {String} str The string to dasherize.
@return {String} the dasherized string.
*/
dasherize: function(str) {
var cache = STRING_DASHERIZE_CACHE,
hit = cache.hasOwnProperty(str),
ret;
if (hit) {
return cache[str];
} else {
ret = Ember.String.decamelize(str).replace(STRING_DASHERIZE_REGEXP,'-');
cache[str] = ret;
}
return ret;
},
/**
Returns the lowerCamelCase form of a string.
```javascript
'innerHTML'.camelize(); // 'innerHTML'
'action_name'.camelize(); // 'actionName'
'css-class-name'.camelize(); // 'cssClassName'
'my favorite items'.camelize(); // 'myFavoriteItems'
'My Favorite Items'.camelize(); // 'myFavoriteItems'
```
@method camelize
@param {String} str The string to camelize.
@return {String} the camelized string.
*/
camelize: function(str) {
return str.replace(STRING_CAMELIZE_REGEXP, function(match, separator, chr) {
return chr ? chr.toUpperCase() : '';
}).replace(/^([A-Z])/, function(match, separator, chr) {
return match.toLowerCase();
});
},
/**
Returns the UpperCamelCase form of a string.
```javascript
'innerHTML'.classify(); // 'InnerHTML'
'action_name'.classify(); // 'ActionName'
'css-class-name'.classify(); // 'CssClassName'
'my favorite items'.classify(); // 'MyFavoriteItems'
```
@method classify
@param {String} str the string to classify
@return {String} the classified string
*/
classify: function(str) {
var parts = str.split("."),
out = [];
for (var i=0, l=parts.length; i<l; i++) {
var camelized = Ember.String.camelize(parts[i]);
out.push(camelized.charAt(0).toUpperCase() + camelized.substr(1));
}
return out.join(".");
},
/**
More general than decamelize. Returns the lower\_case\_and\_underscored
form of a string.
```javascript
'innerHTML'.underscore(); // 'inner_html'
'action_name'.underscore(); // 'action_name'
'css-class-name'.underscore(); // 'css_class_name'
'my favorite items'.underscore(); // 'my_favorite_items'
```
@method underscore
@param {String} str The string to underscore.
@return {String} the underscored string.
*/
underscore: function(str) {
return str.replace(STRING_UNDERSCORE_REGEXP_1, '$1_$2').
replace(STRING_UNDERSCORE_REGEXP_2, '_').toLowerCase();
},
/**
Returns the Capitalized form of a string
```javascript
'innerHTML'.capitalize() // 'InnerHTML'
'action_name'.capitalize() // 'Action_name'
'css-class-name'.capitalize() // 'Css-class-name'
'my favorite items'.capitalize() // 'My favorite items'
```
@method capitalize
@param {String} str The string to capitalize.
@return {String} The capitalized string.
*/
capitalize: function(str) {
return str.charAt(0).toUpperCase() + str.substr(1);
}
};
})();
(function() {
/**
@module ember
@submodule ember-runtime
*/
var fmt = Ember.String.fmt,
w = Ember.String.w,
loc = Ember.String.loc,
camelize = Ember.String.camelize,
decamelize = Ember.String.decamelize,
dasherize = Ember.String.dasherize,
underscore = Ember.String.underscore,
capitalize = Ember.String.capitalize,
classify = Ember.String.classify;
if (Ember.EXTEND_PROTOTYPES === true || Ember.EXTEND_PROTOTYPES.String) {
/**
See [Ember.String.fmt](/api/classes/Ember.String.html#method_fmt).
@method fmt
@for String
*/
String.prototype.fmt = function() {
return fmt(this, arguments);
};
/**
See [Ember.String.w](/api/classes/Ember.String.html#method_w).
@method w
@for String
*/
String.prototype.w = function() {
return w(this);
};
/**
See [Ember.String.loc](/api/classes/Ember.String.html#method_loc).
@method loc
@for String
*/
String.prototype.loc = function() {
return loc(this, arguments);
};
/**
See [Ember.String.camelize](/api/classes/Ember.String.html#method_camelize).
@method camelize
@for String
*/
String.prototype.camelize = function() {
return camelize(this);
};
/**
See [Ember.String.decamelize](/api/classes/Ember.String.html#method_decamelize).
@method decamelize
@for String
*/
String.prototype.decamelize = function() {
return decamelize(this);
};
/**
See [Ember.String.dasherize](/api/classes/Ember.String.html#method_dasherize).
@method dasherize
@for String
*/
String.prototype.dasherize = function() {
return dasherize(this);
};
/**
See [Ember.String.underscore](/api/classes/Ember.String.html#method_underscore).
@method underscore
@for String
*/
String.prototype.underscore = function() {
return underscore(this);
};
/**
See [Ember.String.classify](/api/classes/Ember.String.html#method_classify).
@method classify
@for String
*/
String.prototype.classify = function() {
return classify(this);
};
/**
See [Ember.String.capitalize](/api/classes/Ember.String.html#method_capitalize).
@method capitalize
@for String
*/
String.prototype.capitalize = function() {
return capitalize(this);
};
}
})();
(function() {
/**
@module ember
@submodule ember-runtime
*/
var get = Ember.get,
set = Ember.set,
slice = Array.prototype.slice,
getProperties = Ember.getProperties;
/**
## Overview
This mixin provides properties and property observing functionality, core
features of the Ember object model.
Properties and observers allow one object to observe changes to a
property on another object. This is one of the fundamental ways that
models, controllers and views communicate with each other in an Ember
application.
Any object that has this mixin applied can be used in observer
operations. That includes `Ember.Object` and most objects you will
interact with as you write your Ember application.
Note that you will not generally apply this mixin to classes yourself,
but you will use the features provided by this module frequently, so it
is important to understand how to use it.
## Using `get()` and `set()`
Because of Ember's support for bindings and observers, you will always
access properties using the get method, and set properties using the
set method. This allows the observing objects to be notified and
computed properties to be handled properly.
More documentation about `get` and `set` are below.
## Observing Property Changes
You typically observe property changes simply by adding the `observes`
call to the end of your method declarations in classes that you write.
For example:
```javascript
Ember.Object.extend({
valueObserver: function() {
// Executes whenever the "value" property changes
}.observes('value')
});
```
Although this is the most common way to add an observer, this capability
is actually built into the `Ember.Object` class on top of two methods
defined in this mixin: `addObserver` and `removeObserver`. You can use
these two methods to add and remove observers yourself if you need to
do so at runtime.
To add an observer for a property, call:
```javascript
object.addObserver('propertyKey', targetObject, targetAction)
```
This will call the `targetAction` method on the `targetObject` whenever
the value of the `propertyKey` changes.
Note that if `propertyKey` is a computed property, the observer will be
called when any of the property dependencies are changed, even if the
resulting value of the computed property is unchanged. This is necessary
because computed properties are not computed until `get` is called.
@class Observable
@namespace Ember
*/
Ember.Observable = Ember.Mixin.create({
/**
Retrieves the value of a property from the object.
This method is usually similar to using `object[keyName]` or `object.keyName`,
however it supports both computed properties and the unknownProperty
handler.
Because `get` unifies the syntax for accessing all these kinds
of properties, it can make many refactorings easier, such as replacing a
simple property with a computed property, or vice versa.
### Computed Properties
Computed properties are methods defined with the `property` modifier
declared at the end, such as:
```javascript
fullName: function() {
return this.get('firstName') + ' ' + this.get('lastName');
}.property('firstName', 'lastName')
```
When you call `get` on a computed property, the function will be
called and the return value will be returned instead of the function
itself.
### Unknown Properties
Likewise, if you try to call `get` on a property whose value is
`undefined`, the `unknownProperty()` method will be called on the object.
If this method returns any value other than `undefined`, it will be returned
instead. This allows you to implement "virtual" properties that are
not defined upfront.
@method get
@param {String} keyName The property to retrieve
@return {Object} The property value or undefined.
*/
get: function(keyName) {
return get(this, keyName);
},
/**
To get multiple properties at once, call `getProperties`
with a list of strings or an array:
```javascript
record.getProperties('firstName', 'lastName', 'zipCode'); // { firstName: 'John', lastName: 'Doe', zipCode: '10011' }
```
is equivalent to:
```javascript
record.getProperties(['firstName', 'lastName', 'zipCode']); // { firstName: 'John', lastName: 'Doe', zipCode: '10011' }
```
@method getProperties
@param {String...|Array} list of keys to get
@return {Hash}
*/
getProperties: function() {
return getProperties.apply(null, [this].concat(slice.call(arguments)));
},
/**
Sets the provided key or path to the value.
This method is generally very similar to calling `object[key] = value` or
`object.key = value`, except that it provides support for computed
properties, the `setUnknownProperty()` method and property observers.
### Computed Properties
If you try to set a value on a key that has a computed property handler
defined (see the `get()` method for an example), then `set()` will call
that method, passing both the value and key instead of simply changing
the value itself. This is useful for those times when you need to
implement a property that is composed of one or more member
properties.
### Unknown Properties
If you try to set a value on a key that is undefined in the target
object, then the `setUnknownProperty()` handler will be called instead. This
gives you an opportunity to implement complex "virtual" properties that
are not predefined on the object. If `setUnknownProperty()` returns
undefined, then `set()` will simply set the value on the object.
### Property Observers
In addition to changing the property, `set()` will also register a property
change with the object. Unless you have placed this call inside of a
`beginPropertyChanges()` and `endPropertyChanges(),` any "local" observers
(i.e. observer methods declared on the same object), will be called
immediately. Any "remote" observers (i.e. observer methods declared on
another object) will be placed in a queue and called at a later time in a
coalesced manner.
### Chaining
In addition to property changes, `set()` returns the value of the object
itself so you can do chaining like this:
```javascript
record.set('firstName', 'Charles').set('lastName', 'Jolley');
```
@method set
@param {String} keyName The property to set
@param {Object} value The value to set or `null`.
@return {Ember.Observable}
*/
set: function(keyName, value) {
set(this, keyName, value);
return this;
},
/**
Sets a list of properties at once. These properties are set inside
a single `beginPropertyChanges` and `endPropertyChanges` batch, so
observers will be buffered.
```javascript
record.setProperties({ firstName: 'Charles', lastName: 'Jolley' });
```
@method setProperties
@param {Hash} hash the hash of keys and values to set
@return {Ember.Observable}
*/
setProperties: function(hash) {
return Ember.setProperties(this, hash);
},
/**
Begins a grouping of property changes.
You can use this method to group property changes so that notifications
will not be sent until the changes are finished. If you plan to make a
large number of changes to an object at one time, you should call this
method at the beginning of the changes to begin deferring change
notifications. When you are done making changes, call
`endPropertyChanges()` to deliver the deferred change notifications and end
deferring.
@method beginPropertyChanges
@return {Ember.Observable}
*/
beginPropertyChanges: function() {
Ember.beginPropertyChanges();
return this;
},
/**
Ends a grouping of property changes.
You can use this method to group property changes so that notifications
will not be sent until the changes are finished. If you plan to make a
large number of changes to an object at one time, you should call
`beginPropertyChanges()` at the beginning of the changes to defer change
notifications. When you are done making changes, call this method to
deliver the deferred change notifications and end deferring.
@method endPropertyChanges
@return {Ember.Observable}
*/
endPropertyChanges: function() {
Ember.endPropertyChanges();
return this;
},
/**
Notify the observer system that a property is about to change.
Sometimes you need to change a value directly or indirectly without
actually calling `get()` or `set()` on it. In this case, you can use this
method and `propertyDidChange()` instead. Calling these two methods
together will notify all observers that the property has potentially
changed value.
Note that you must always call `propertyWillChange` and `propertyDidChange`
as a pair. If you do not, it may get the property change groups out of
order and cause notifications to be delivered more often than you would
like.
@method propertyWillChange
@param {String} keyName The property key that is about to change.
@return {Ember.Observable}
*/
propertyWillChange: function(keyName) {
Ember.propertyWillChange(this, keyName);
return this;
},
/**
Notify the observer system that a property has just changed.
Sometimes you need to change a value directly or indirectly without
actually calling `get()` or `set()` on it. In this case, you can use this
method and `propertyWillChange()` instead. Calling these two methods
together will notify all observers that the property has potentially
changed value.
Note that you must always call `propertyWillChange` and `propertyDidChange`
as a pair. If you do not, it may get the property change groups out of
order and cause notifications to be delivered more often than you would
like.
@method propertyDidChange
@param {String} keyName The property key that has just changed.
@return {Ember.Observable}
*/
propertyDidChange: function(keyName) {
Ember.propertyDidChange(this, keyName);
return this;
},
/**
Convenience method to call `propertyWillChange` and `propertyDidChange` in
succession.
@method notifyPropertyChange
@param {String} keyName The property key to be notified about.
@return {Ember.Observable}
*/
notifyPropertyChange: function(keyName) {
this.propertyWillChange(keyName);
this.propertyDidChange(keyName);
return this;
},
addBeforeObserver: function(key, target, method) {
Ember.addBeforeObserver(this, key, target, method);
},
/**
Adds an observer on a property.
This is the core method used to register an observer for a property.
Once you call this method, any time the key's value is set, your observer
will be notified. Note that the observers are triggered any time the
value is set, regardless of whether it has actually changed. Your
observer should be prepared to handle that.
You can also pass an optional context parameter to this method. The
context will be passed to your observer method whenever it is triggered.
Note that if you add the same target/method pair on a key multiple times
with different context parameters, your observer will only be called once
with the last context you passed.
### Observer Methods
Observer methods you pass should generally have the following signature if
you do not pass a `context` parameter:
```javascript
fooDidChange: function(sender, key, value, rev) { };
```
The sender is the object that changed. The key is the property that
changes. The value property is currently reserved and unused. The rev
is the last property revision of the object when it changed, which you can
use to detect if the key value has really changed or not.
If you pass a `context` parameter, the context will be passed before the
revision like so:
```javascript
fooDidChange: function(sender, key, value, context, rev) { };
```
Usually you will not need the value, context or revision parameters at
the end. In this case, it is common to write observer methods that take
only a sender and key value as parameters or, if you aren't interested in
any of these values, to write an observer that has no parameters at all.
@method addObserver
@param {String} key The key to observer
@param {Object} target The target object to invoke
@param {String|Function} method The method to invoke.
@return {Ember.Object} self
*/
addObserver: function(key, target, method) {
Ember.addObserver(this, key, target, method);
},
/**
Remove an observer you have previously registered on this object. Pass
the same key, target, and method you passed to `addObserver()` and your
target will no longer receive notifications.
@method removeObserver
@param {String} key The key to observer
@param {Object} target The target object to invoke
@param {String|Function} method The method to invoke.
@return {Ember.Observable} receiver
*/
removeObserver: function(key, target, method) {
Ember.removeObserver(this, key, target, method);
},
/**
Returns `true` if the object currently has observers registered for a
particular key. You can use this method to potentially defer performing
an expensive action until someone begins observing a particular property
on the object.
@method hasObserverFor
@param {String} key Key to check
@return {Boolean}
*/
hasObserverFor: function(key) {
return Ember.hasListeners(this, key+':change');
},
/**
Retrieves the value of a property, or a default value in the case that the
property returns `undefined`.
```javascript
person.getWithDefault('lastName', 'Doe');
```
@method getWithDefault
@param {String} keyName The name of the property to retrieve
@param {Object} defaultValue The value to return if the property value is undefined
@return {Object} The property value or the defaultValue.
*/
getWithDefault: function(keyName, defaultValue) {
return Ember.getWithDefault(this, keyName, defaultValue);
},
/**
Set the value of a property to the current value plus some amount.
```javascript
person.incrementProperty('age');
team.incrementProperty('score', 2);
```
@method incrementProperty
@param {String} keyName The name of the property to increment
@param {Number} increment The amount to increment by. Defaults to 1
@return {Number} The new property value
*/
incrementProperty: function(keyName, increment) {
if (Ember.isNone(increment)) { increment = 1; }
Ember.assert("Must pass a numeric value to incrementProperty", (!isNaN(parseFloat(increment)) && isFinite(increment)));
set(this, keyName, (get(this, keyName) || 0) + increment);
return get(this, keyName);
},
/**
Set the value of a property to the current value minus some amount.
```javascript
player.decrementProperty('lives');
orc.decrementProperty('health', 5);
```
@method decrementProperty
@param {String} keyName The name of the property to decrement
@param {Number} decrement The amount to decrement by. Defaults to 1
@return {Number} The new property value
*/
decrementProperty: function(keyName, decrement) {
if (Ember.isNone(decrement)) { decrement = 1; }
Ember.assert("Must pass a numeric value to decrementProperty", (!isNaN(parseFloat(decrement)) && isFinite(decrement)));
set(this, keyName, (get(this, keyName) || 0) - decrement);
return get(this, keyName);
},
/**
Set the value of a boolean property to the opposite of it's
current value.
```javascript
starship.toggleProperty('warpDriveEngaged');
```
@method toggleProperty
@param {String} keyName The name of the property to toggle
@return {Object} The new property value
*/
toggleProperty: function(keyName) {
set(this, keyName, !get(this, keyName));
return get(this, keyName);
},
/**
Returns the cached value of a computed property, if it exists.
This allows you to inspect the value of a computed property
without accidentally invoking it if it is intended to be
generated lazily.
@method cacheFor
@param {String} keyName
@return {Object} The cached value of the computed property, if any
*/
cacheFor: function(keyName) {
return Ember.cacheFor(this, keyName);
},
// intended for debugging purposes
observersForKey: function(keyName) {
return Ember.observersFor(this, keyName);
}
});
})();
(function() {
/**
@module ember
@submodule ember-runtime
*/
// NOTE: this object should never be included directly. Instead use `Ember.Object`.
// We only define this separately so that `Ember.Set` can depend on it.
var set = Ember.set, get = Ember.get,
o_create = Ember.create,
o_defineProperty = Ember.platform.defineProperty,
GUID_KEY = Ember.GUID_KEY,
guidFor = Ember.guidFor,
generateGuid = Ember.generateGuid,
meta = Ember.meta,
META_KEY = Ember.META_KEY,
rewatch = Ember.rewatch,
finishChains = Ember.finishChains,
sendEvent = Ember.sendEvent,
destroy = Ember.destroy,
schedule = Ember.run.schedule,
Mixin = Ember.Mixin,
applyMixin = Mixin._apply,
finishPartial = Mixin.finishPartial,
reopen = Mixin.prototype.reopen,
MANDATORY_SETTER = Ember.ENV.MANDATORY_SETTER,
indexOf = Ember.EnumerableUtils.indexOf;
var undefinedDescriptor = {
configurable: true,
writable: true,
enumerable: false,
value: undefined
};
var nullDescriptor = {
configurable: true,
writable: true,
enumerable: false,
value: null
};
function makeCtor() {
// Note: avoid accessing any properties on the object since it makes the
// method a lot faster. This is glue code so we want it to be as fast as
// possible.
var wasApplied = false, initMixins, initProperties;
var Class = function() {
if (!wasApplied) {
Class.proto(); // prepare prototype...
}
o_defineProperty(this, GUID_KEY, nullDescriptor);
o_defineProperty(this, '__nextSuper', undefinedDescriptor);
var m = meta(this), proto = m.proto;
m.proto = this;
if (initMixins) {
// capture locally so we can clear the closed over variable
var mixins = initMixins;
initMixins = null;
this.reopen.apply(this, mixins);
}
if (initProperties) {
// capture locally so we can clear the closed over variable
var props = initProperties;
initProperties = null;
var concatenatedProperties = this.concatenatedProperties;
for (var i = 0, l = props.length; i < l; i++) {
var properties = props[i];
Ember.assert("Ember.Object.create no longer supports mixing in other definitions, use createWithMixins instead.", !(properties instanceof Ember.Mixin));
if (typeof properties !== 'object' && properties !== undefined) {
throw new Ember.Error("Ember.Object.create only accepts objects.");
}
if (!properties) { continue; }
var keyNames = Ember.keys(properties);
for (var j = 0, ll = keyNames.length; j < ll; j++) {
var keyName = keyNames[j];
if (!properties.hasOwnProperty(keyName)) { continue; }
var value = properties[keyName],
IS_BINDING = Ember.IS_BINDING;
if (IS_BINDING.test(keyName)) {
var bindings = m.bindings;
if (!bindings) {
bindings = m.bindings = {};
} else if (!m.hasOwnProperty('bindings')) {
bindings = m.bindings = o_create(m.bindings);
}
bindings[keyName] = value;
}
var desc = m.descs[keyName];
Ember.assert("Ember.Object.create no longer supports defining computed properties. Define computed properties using extend() or reopen() before calling create().", !(value instanceof Ember.ComputedProperty));
Ember.assert("Ember.Object.create no longer supports defining methods that call _super.", !(typeof value === 'function' && value.toString().indexOf('._super') !== -1));
Ember.assert("`actions` must be provided at extend time, not at create " +
"time, when Ember.ActionHandler is used (i.e. views, " +
"controllers & routes).", !((keyName === 'actions') && Ember.ActionHandler.detect(this)));
if (concatenatedProperties && indexOf(concatenatedProperties, keyName) >= 0) {
var baseValue = this[keyName];
if (baseValue) {
if ('function' === typeof baseValue.concat) {
value = baseValue.concat(value);
} else {
value = Ember.makeArray(baseValue).concat(value);
}
} else {
value = Ember.makeArray(value);
}
}
if (desc) {
desc.set(this, keyName, value);
} else {
if (typeof this.setUnknownProperty === 'function' && !(keyName in this)) {
this.setUnknownProperty(keyName, value);
} else if (MANDATORY_SETTER) {
Ember.defineProperty(this, keyName, null, value); // setup mandatory setter
} else {
this[keyName] = value;
}
}
}
}
}
finishPartial(this, m);
this.init.apply(this, arguments);
m.proto = proto;
finishChains(this);
sendEvent(this, "init");
};
Class.toString = Mixin.prototype.toString;
Class.willReopen = function() {
if (wasApplied) {
Class.PrototypeMixin = Mixin.create(Class.PrototypeMixin);
}
wasApplied = false;
};
Class._initMixins = function(args) { initMixins = args; };
Class._initProperties = function(args) { initProperties = args; };
Class.proto = function() {
var superclass = Class.superclass;
if (superclass) { superclass.proto(); }
if (!wasApplied) {
wasApplied = true;
Class.PrototypeMixin.applyPartial(Class.prototype);
rewatch(Class.prototype);
}
return this.prototype;
};
return Class;
}
/**
@class CoreObject
@namespace Ember
*/
var CoreObject = makeCtor();
CoreObject.toString = function() { return "Ember.CoreObject"; };
CoreObject.PrototypeMixin = Mixin.create({
reopen: function() {
applyMixin(this, arguments, true);
return this;
},
/**
An overridable method called when objects are instantiated. By default,
does nothing unless it is overridden during class definition.
Example:
```javascript
App.Person = Ember.Object.extend({
init: function() {
alert('Name is ' + this.get('name'));
}
});
var steve = App.Person.create({
name: "Steve"
});
// alerts 'Name is Steve'.
```
NOTE: If you do override `init` for a framework class like `Ember.View` or
`Ember.ArrayController`, be sure to call `this._super()` in your
`init` declaration! If you don't, Ember may not have an opportunity to
do important setup work, and you'll see strange behavior in your
application.
@method init
*/
init: function() {},
/**
Defines the properties that will be concatenated from the superclass
(instead of overridden).
By default, when you extend an Ember class a property defined in
the subclass overrides a property with the same name that is defined
in the superclass. However, there are some cases where it is preferable
to build up a property's value by combining the superclass' property
value with the subclass' value. An example of this in use within Ember
is the `classNames` property of `Ember.View`.
Here is some sample code showing the difference between a concatenated
property and a normal one:
```javascript
App.BarView = Ember.View.extend({
someNonConcatenatedProperty: ['bar'],
classNames: ['bar']
});
App.FooBarView = App.BarView.extend({
someNonConcatenatedProperty: ['foo'],
classNames: ['foo'],
});
var fooBarView = App.FooBarView.create();
fooBarView.get('someNonConcatenatedProperty'); // ['foo']
fooBarView.get('classNames'); // ['ember-view', 'bar', 'foo']
```
This behavior extends to object creation as well. Continuing the
above example:
```javascript
var view = App.FooBarView.create({
someNonConcatenatedProperty: ['baz'],
classNames: ['baz']
})
view.get('someNonConcatenatedProperty'); // ['baz']
view.get('classNames'); // ['ember-view', 'bar', 'foo', 'baz']
```
Adding a single property that is not an array will just add it in the array:
```javascript
var view = App.FooBarView.create({
classNames: 'baz'
})
view.get('classNames'); // ['ember-view', 'bar', 'foo', 'baz']
```
Using the `concatenatedProperties` property, we can tell to Ember that mix
the content of the properties.
In `Ember.View` the `classNameBindings` and `attributeBindings` properties
are also concatenated, in addition to `classNames`.
This feature is available for you to use throughout the Ember object model,
although typical app developers are likely to use it infrequently. Since
it changes expectations about behavior of properties, you should properly
document its usage in each individual concatenated property (to not
mislead your users to think they can override the property in a subclass).
@property concatenatedProperties
@type Array
@default null
*/
concatenatedProperties: null,
/**
Destroyed object property flag.
if this property is `true` the observers and bindings were already
removed by the effect of calling the `destroy()` method.
@property isDestroyed
@default false
*/
isDestroyed: false,
/**
Destruction scheduled flag. The `destroy()` method has been called.
The object stays intact until the end of the run loop at which point
the `isDestroyed` flag is set.
@property isDestroying
@default false
*/
isDestroying: false,
/**
Destroys an object by setting the `isDestroyed` flag and removing its
metadata, which effectively destroys observers and bindings.
If you try to set a property on a destroyed object, an exception will be
raised.
Note that destruction is scheduled for the end of the run loop and does not
happen immediately. It will set an isDestroying flag immediately.
@method destroy
@return {Ember.Object} receiver
*/
destroy: function() {
if (this.isDestroying) { return; }
this.isDestroying = true;
schedule('actions', this, this.willDestroy);
schedule('destroy', this, this._scheduledDestroy);
return this;
},
/**
Override to implement teardown.
@method willDestroy
*/
willDestroy: Ember.K,
/**
Invoked by the run loop to actually destroy the object. This is
scheduled for execution by the `destroy` method.
@private
@method _scheduledDestroy
*/
_scheduledDestroy: function() {
if (this.isDestroyed) { return; }
destroy(this);
this.isDestroyed = true;
},
bind: function(to, from) {
if (!(from instanceof Ember.Binding)) { from = Ember.Binding.from(from); }
from.to(to).connect(this);
return from;
},
/**
Returns a string representation which attempts to provide more information
than Javascript's `toString` typically does, in a generic way for all Ember
objects.
```javascript
App.Person = Em.Object.extend()
person = App.Person.create()
person.toString() //=> "<App.Person:ember1024>"
```
If the object's class is not defined on an Ember namespace, it will
indicate it is a subclass of the registered superclass:
```javascript
Student = App.Person.extend()
student = Student.create()
student.toString() //=> "<(subclass of App.Person):ember1025>"
```
If the method `toStringExtension` is defined, its return value will be
included in the output.
```javascript
App.Teacher = App.Person.extend({
toStringExtension: function() {
return this.get('fullName');
}
});
teacher = App.Teacher.create()
teacher.toString(); //=> "<App.Teacher:ember1026:Tom Dale>"
```
@method toString
@return {String} string representation
*/
toString: function toString() {
var hasToStringExtension = typeof this.toStringExtension === 'function',
extension = hasToStringExtension ? ":" + this.toStringExtension() : '';
var ret = '<'+this.constructor.toString()+':'+guidFor(this)+extension+'>';
this.toString = makeToString(ret);
return ret;
}
});
CoreObject.PrototypeMixin.ownerConstructor = CoreObject;
function makeToString(ret) {
return function() { return ret; };
}
if (Ember.config.overridePrototypeMixin) {
Ember.config.overridePrototypeMixin(CoreObject.PrototypeMixin);
}
CoreObject.__super__ = null;
var ClassMixin = Mixin.create({
ClassMixin: Ember.required(),
PrototypeMixin: Ember.required(),
isClass: true,
isMethod: false,
/**
Creates a new subclass.
```javascript
App.Person = Ember.Object.extend({
say: function(thing) {
alert(thing);
}
});
```
This defines a new subclass of Ember.Object: `App.Person`. It contains one method: `say()`.
You can also create a subclass from any existing class by calling its `extend()` method. For example, you might want to create a subclass of Ember's built-in `Ember.View` class:
```javascript
App.PersonView = Ember.View.extend({
tagName: 'li',
classNameBindings: ['isAdministrator']
});
```
When defining a subclass, you can override methods but still access the implementation of your parent class by calling the special `_super()` method:
```javascript
App.Person = Ember.Object.extend({
say: function(thing) {
var name = this.get('name');
alert(name + ' says: ' + thing);
}
});
App.Soldier = App.Person.extend({
say: function(thing) {
this._super(thing + ", sir!");
},
march: function(numberOfHours) {
alert(this.get('name') + ' marches for ' + numberOfHours + ' hours.')
}
});
var yehuda = App.Soldier.create({
name: "Yehuda Katz"
});
yehuda.say("Yes"); // alerts "Yehuda Katz says: Yes, sir!"
```
The `create()` on line #17 creates an *instance* of the `App.Soldier` class. The `extend()` on line #8 creates a *subclass* of `App.Person`. Any instance of the `App.Person` class will *not* have the `march()` method.
You can also pass `Ember.Mixin` classes to add additional properties to the subclass.
```javascript
App.Person = Ember.Object.extend({
say: function(thing) {
alert(this.get('name') + ' says: ' + thing);
}
});
App.SingingMixin = Ember.Mixin.create({
sing: function(thing){
alert(this.get('name') + ' sings: la la la ' + thing);
}
});
App.BroadwayStar = App.Person.extend(App.SingingMixin, {
dance: function() {
alert(this.get('name') + ' dances: tap tap tap tap ');
}
});
```
The `App.BroadwayStar` class contains three methods: `say()`, `sing()`, and `dance()`.
@method extend
@static
@param {Ember.Mixin} [mixins]* One or more Ember.Mixin classes
@param {Object} [arguments]* Object containing values to use within the new class
*/
extend: function() {
var Class = makeCtor(), proto;
Class.ClassMixin = Mixin.create(this.ClassMixin);
Class.PrototypeMixin = Mixin.create(this.PrototypeMixin);
Class.ClassMixin.ownerConstructor = Class;
Class.PrototypeMixin.ownerConstructor = Class;
reopen.apply(Class.PrototypeMixin, arguments);
Class.superclass = this;
Class.__super__ = this.prototype;
proto = Class.prototype = o_create(this.prototype);
proto.constructor = Class;
generateGuid(proto);
meta(proto).proto = proto; // this will disable observers on prototype
Class.ClassMixin.apply(Class);
return Class;
},
/**
Equivalent to doing `extend(arguments).create()`.
If possible use the normal `create` method instead.
@method createWithMixins
@static
@param [arguments]*
*/
createWithMixins: function() {
var C = this;
if (arguments.length>0) { this._initMixins(arguments); }
return new C();
},
/**
Creates an instance of a class. Accepts either no arguments, or an object
containing values to initialize the newly instantiated object with.
```javascript
App.Person = Ember.Object.extend({
helloWorld: function() {
alert("Hi, my name is " + this.get('name'));
}
});
var tom = App.Person.create({
name: 'Tom Dale'
});
tom.helloWorld(); // alerts "Hi, my name is Tom Dale".
```
`create` will call the `init` function if defined during
`Ember.AnyObject.extend`
If no arguments are passed to `create`, it will not set values to the new
instance during initialization:
```javascript
var noName = App.Person.create();
noName.helloWorld(); // alerts undefined
```
NOTE: For performance reasons, you cannot declare methods or computed
properties during `create`. You should instead declare methods and computed
properties when using `extend` or use the `createWithMixins` shorthand.
@method create
@static
@param [arguments]*
*/
create: function() {
var C = this;
if (arguments.length>0) { this._initProperties(arguments); }
return new C();
},
/**
Augments a constructor's prototype with additional
properties and functions:
```javascript
MyObject = Ember.Object.extend({
name: 'an object'
});
o = MyObject.create();
o.get('name'); // 'an object'
MyObject.reopen({
say: function(msg){
console.log(msg);
}
})
o2 = MyObject.create();
o2.say("hello"); // logs "hello"
o.say("goodbye"); // logs "goodbye"
```
To add functions and properties to the constructor itself,
see `reopenClass`
@method reopen
*/
reopen: function() {
this.willReopen();
reopen.apply(this.PrototypeMixin, arguments);
return this;
},
/**
Augments a constructor's own properties and functions:
```javascript
MyObject = Ember.Object.extend({
name: 'an object'
});
MyObject.reopenClass({
canBuild: false
});
MyObject.canBuild; // false
o = MyObject.create();
```
In other words, this creates static properties and functions for the class. These are only available on the class
and not on any instance of that class.
```javascript
App.Person = Ember.Object.extend({
name : "",
sayHello : function(){
alert("Hello. My name is " + this.get('name'));
}
});
App.Person.reopenClass({
species : "Homo sapiens",
createPerson: function(newPersonsName){
return App.Person.create({
name:newPersonsName
});
}
});
var tom = App.Person.create({
name : "Tom Dale"
});
var yehuda = App.Person.createPerson("Yehuda Katz");
tom.sayHello(); // "Hello. My name is Tom Dale"
yehuda.sayHello(); // "Hello. My name is Yehuda Katz"
alert(App.Person.species); // "Homo sapiens"
```
Note that `species` and `createPerson` are *not* valid on the `tom` and `yehuda`
variables. They are only valid on `App.Person`.
To add functions and properties to instances of
a constructor by extending the constructor's prototype
see `reopen`
@method reopenClass
*/
reopenClass: function() {
reopen.apply(this.ClassMixin, arguments);
applyMixin(this, arguments, false);
return this;
},
detect: function(obj) {
if ('function' !== typeof obj) { return false; }
while(obj) {
if (obj===this) { return true; }
obj = obj.superclass;
}
return false;
},
detectInstance: function(obj) {
return obj instanceof this;
},
/**
In some cases, you may want to annotate computed properties with additional
metadata about how they function or what values they operate on. For
example, computed property functions may close over variables that are then
no longer available for introspection.
You can pass a hash of these values to a computed property like this:
```javascript
person: function() {
var personId = this.get('personId');
return App.Person.create({ id: personId });
}.property().meta({ type: App.Person })
```
Once you've done this, you can retrieve the values saved to the computed
property from your class like this:
```javascript
MyClass.metaForProperty('person');
```
This will return the original hash that was passed to `meta()`.
@method metaForProperty
@param key {String} property name
*/
metaForProperty: function(key) {
var meta = this.proto()[META_KEY],
desc = meta && meta.descs[key];
Ember.assert("metaForProperty() could not find a computed property with key '"+key+"'.", !!desc && desc instanceof Ember.ComputedProperty);
return desc._meta || {};
},
/**
Iterate over each computed property for the class, passing its name
and any associated metadata (see `metaForProperty`) to the callback.
@method eachComputedProperty
@param {Function} callback
@param {Object} binding
*/
eachComputedProperty: function(callback, binding) {
var proto = this.proto(),
descs = meta(proto).descs,
empty = {},
property;
for (var name in descs) {
property = descs[name];
if (property instanceof Ember.ComputedProperty) {
callback.call(binding || this, name, property._meta || empty);
}
}
}
});
ClassMixin.ownerConstructor = CoreObject;
if (Ember.config.overrideClassMixin) {
Ember.config.overrideClassMixin(ClassMixin);
}
CoreObject.ClassMixin = ClassMixin;
ClassMixin.apply(CoreObject);
Ember.CoreObject = CoreObject;
})();
(function() {
/**
@module ember
@submodule ember-runtime
*/
/**
`Ember.Object` is the main base class for all Ember objects. It is a subclass
of `Ember.CoreObject` with the `Ember.Observable` mixin applied. For details,
see the documentation for each of these.
@class Object
@namespace Ember
@extends Ember.CoreObject
@uses Ember.Observable
*/
Ember.Object = Ember.CoreObject.extend(Ember.Observable);
Ember.Object.toString = function() { return "Ember.Object"; };
})();
(function() {
/**
@module ember
@submodule ember-runtime
*/
var get = Ember.get, indexOf = Ember.ArrayPolyfills.indexOf;
/**
A Namespace is an object usually used to contain other objects or methods
such as an application or framework. Create a namespace anytime you want
to define one of these new containers.
# Example Usage
```javascript
MyFramework = Ember.Namespace.create({
VERSION: '1.0.0'
});
```
@class Namespace
@namespace Ember
@extends Ember.Object
*/
var Namespace = Ember.Namespace = Ember.Object.extend({
isNamespace: true,
init: function() {
Ember.Namespace.NAMESPACES.push(this);
Ember.Namespace.PROCESSED = false;
},
toString: function() {
var name = get(this, 'name');
if (name) { return name; }
findNamespaces();
return this[Ember.GUID_KEY+'_name'];
},
nameClasses: function() {
processNamespace([this.toString()], this, {});
},
destroy: function() {
var namespaces = Ember.Namespace.NAMESPACES;
Ember.lookup[this.toString()] = undefined;
delete Ember.Namespace.NAMESPACES_BY_ID[this.toString()];
namespaces.splice(indexOf.call(namespaces, this), 1);
this._super();
}
});
Namespace.reopenClass({
NAMESPACES: [Ember],
NAMESPACES_BY_ID: {},
PROCESSED: false,
processAll: processAllNamespaces,
byName: function(name) {
if (!Ember.BOOTED) {
processAllNamespaces();
}
return NAMESPACES_BY_ID[name];
}
});
var NAMESPACES_BY_ID = Namespace.NAMESPACES_BY_ID;
var hasOwnProp = ({}).hasOwnProperty,
guidFor = Ember.guidFor;
function processNamespace(paths, root, seen) {
var idx = paths.length;
NAMESPACES_BY_ID[paths.join('.')] = root;
// Loop over all of the keys in the namespace, looking for classes
for(var key in root) {
if (!hasOwnProp.call(root, key)) { continue; }
var obj = root[key];
// If we are processing the `Ember` namespace, for example, the
// `paths` will start with `["Ember"]`. Every iteration through
// the loop will update the **second** element of this list with
// the key, so processing `Ember.View` will make the Array
// `['Ember', 'View']`.
paths[idx] = key;
// If we have found an unprocessed class
if (obj && obj.toString === classToString) {
// Replace the class' `toString` with the dot-separated path
// and set its `NAME_KEY`
obj.toString = makeToString(paths.join('.'));
obj[NAME_KEY] = paths.join('.');
// Support nested namespaces
} else if (obj && obj.isNamespace) {
// Skip aliased namespaces
if (seen[guidFor(obj)]) { continue; }
seen[guidFor(obj)] = true;
// Process the child namespace
processNamespace(paths, obj, seen);
}
}
paths.length = idx; // cut out last item
}
function findNamespaces() {
var Namespace = Ember.Namespace, lookup = Ember.lookup, obj, isNamespace;
if (Namespace.PROCESSED) { return; }
for (var prop in lookup) {
// These don't raise exceptions but can cause warnings
if (prop === "parent" || prop === "top" || prop === "frameElement" || prop === "webkitStorageInfo") { continue; }
// get(window.globalStorage, 'isNamespace') would try to read the storage for domain isNamespace and cause exception in Firefox.
// globalStorage is a storage obsoleted by the WhatWG storage specification. See https://developer.mozilla.org/en/DOM/Storage#globalStorage
if (prop === "globalStorage" && lookup.StorageList && lookup.globalStorage instanceof lookup.StorageList) { continue; }
// Unfortunately, some versions of IE don't support window.hasOwnProperty
if (lookup.hasOwnProperty && !lookup.hasOwnProperty(prop)) { continue; }
// At times we are not allowed to access certain properties for security reasons.
// There are also times where even if we can access them, we are not allowed to access their properties.
try {
obj = Ember.lookup[prop];
isNamespace = obj && obj.isNamespace;
} catch (e) {
continue;
}
if (isNamespace) {
Ember.deprecate("Namespaces should not begin with lowercase.", /^[A-Z]/.test(prop));
obj[NAME_KEY] = prop;
}
}
}
var NAME_KEY = Ember.NAME_KEY = Ember.GUID_KEY + '_name';
function superClassString(mixin) {
var superclass = mixin.superclass;
if (superclass) {
if (superclass[NAME_KEY]) { return superclass[NAME_KEY]; }
else { return superClassString(superclass); }
} else {
return;
}
}
function classToString() {
if (!Ember.BOOTED && !this[NAME_KEY]) {
processAllNamespaces();
}
var ret;
if (this[NAME_KEY]) {
ret = this[NAME_KEY];
} else if (this._toString) {
ret = this._toString;
} else {
var str = superClassString(this);
if (str) {
ret = "(subclass of " + str + ")";
} else {
ret = "(unknown mixin)";
}
this.toString = makeToString(ret);
}
return ret;
}
function processAllNamespaces() {
var unprocessedNamespaces = !Namespace.PROCESSED,
unprocessedMixins = Ember.anyUnprocessedMixins;
if (unprocessedNamespaces) {
findNamespaces();
Namespace.PROCESSED = true;
}
if (unprocessedNamespaces || unprocessedMixins) {
var namespaces = Namespace.NAMESPACES, namespace;
for (var i=0, l=namespaces.length; i<l; i++) {
namespace = namespaces[i];
processNamespace([namespace.toString()], namespace, {});
}
Ember.anyUnprocessedMixins = false;
}
}
function makeToString(ret) {
return function() { return ret; };
}
Ember.Mixin.prototype.toString = classToString;
})();
(function() {
/**
@module ember
@submodule ember-runtime
*/
var get = Ember.get,
set = Ember.set,
fmt = Ember.String.fmt,
addBeforeObserver = Ember.addBeforeObserver,
addObserver = Ember.addObserver,
removeBeforeObserver = Ember.removeBeforeObserver,
removeObserver = Ember.removeObserver,
propertyWillChange = Ember.propertyWillChange,
propertyDidChange = Ember.propertyDidChange,
meta = Ember.meta,
defineProperty = Ember.defineProperty;
function contentPropertyWillChange(content, contentKey) {
var key = contentKey.slice(8); // remove "content."
if (key in this) { return; } // if shadowed in proxy
propertyWillChange(this, key);
}
function contentPropertyDidChange(content, contentKey) {
var key = contentKey.slice(8); // remove "content."
if (key in this) { return; } // if shadowed in proxy
propertyDidChange(this, key);
}
/**
`Ember.ObjectProxy` forwards all properties not defined by the proxy itself
to a proxied `content` object.
```javascript
object = Ember.Object.create({
name: 'Foo'
});
proxy = Ember.ObjectProxy.create({
content: object
});
// Access and change existing properties
proxy.get('name') // 'Foo'
proxy.set('name', 'Bar');
object.get('name') // 'Bar'
// Create new 'description' property on `object`
proxy.set('description', 'Foo is a whizboo baz');
object.get('description') // 'Foo is a whizboo baz'
```
While `content` is unset, setting a property to be delegated will throw an
Error.
```javascript
proxy = Ember.ObjectProxy.create({
content: null,
flag: null
});
proxy.set('flag', true);
proxy.get('flag'); // true
proxy.get('foo'); // undefined
proxy.set('foo', 'data'); // throws Error
```
Delegated properties can be bound to and will change when content is updated.
Computed properties on the proxy itself can depend on delegated properties.
```javascript
ProxyWithComputedProperty = Ember.ObjectProxy.extend({
fullName: function () {
var firstName = this.get('firstName'),
lastName = this.get('lastName');
if (firstName && lastName) {
return firstName + ' ' + lastName;
}
return firstName || lastName;
}.property('firstName', 'lastName')
});
proxy = ProxyWithComputedProperty.create();
proxy.get('fullName'); // undefined
proxy.set('content', {
firstName: 'Tom', lastName: 'Dale'
}); // triggers property change for fullName on proxy
proxy.get('fullName'); // 'Tom Dale'
```
@class ObjectProxy
@namespace Ember
@extends Ember.Object
*/
Ember.ObjectProxy = Ember.Object.extend({
/**
The object whose properties will be forwarded.
@property content
@type Ember.Object
@default null
*/
content: null,
_contentDidChange: Ember.observer('content', function() {
Ember.assert("Can't set ObjectProxy's content to itself", this.get('content') !== this);
}),
isTruthy: Ember.computed.bool('content'),
_debugContainerKey: null,
willWatchProperty: function (key) {
var contentKey = 'content.' + key;
addBeforeObserver(this, contentKey, null, contentPropertyWillChange);
addObserver(this, contentKey, null, contentPropertyDidChange);
},
didUnwatchProperty: function (key) {
var contentKey = 'content.' + key;
removeBeforeObserver(this, contentKey, null, contentPropertyWillChange);
removeObserver(this, contentKey, null, contentPropertyDidChange);
},
unknownProperty: function (key) {
var content = get(this, 'content');
if (content) {
return get(content, key);
}
},
setUnknownProperty: function (key, value) {
var m = meta(this);
if (m.proto === this) {
// if marked as prototype then just defineProperty
// rather than delegate
defineProperty(this, key, null, value);
return value;
}
var content = get(this, 'content');
Ember.assert(fmt("Cannot delegate set('%@', %@) to the 'content' property of object proxy %@: its 'content' is undefined.", [key, value, this]), content);
return set(content, key, value);
}
});
})();
(function() {
/**
@module ember
@submodule ember-runtime
*/
// ..........................................................
// HELPERS
//
var get = Ember.get, set = Ember.set;
var a_slice = Array.prototype.slice;
var a_indexOf = Ember.EnumerableUtils.indexOf;
var contexts = [];
function popCtx() {
return contexts.length===0 ? {} : contexts.pop();
}
function pushCtx(ctx) {
contexts.push(ctx);
return null;
}
function iter(key, value) {
var valueProvided = arguments.length === 2;
function i(item) {
var cur = get(item, key);
return valueProvided ? value===cur : !!cur;
}
return i ;
}
/**
This mixin defines the common interface implemented by enumerable objects
in Ember. Most of these methods follow the standard Array iteration
API defined up to JavaScript 1.8 (excluding language-specific features that
cannot be emulated in older versions of JavaScript).
This mixin is applied automatically to the Array class on page load, so you
can use any of these methods on simple arrays. If Array already implements
one of these methods, the mixin will not override them.
## Writing Your Own Enumerable
To make your own custom class enumerable, you need two items:
1. You must have a length property. This property should change whenever
the number of items in your enumerable object changes. If you use this
with an `Ember.Object` subclass, you should be sure to change the length
property using `set().`
2. You must implement `nextObject().` See documentation.
Once you have these two methods implemented, apply the `Ember.Enumerable` mixin
to your class and you will be able to enumerate the contents of your object
like any other collection.
## Using Ember Enumeration with Other Libraries
Many other libraries provide some kind of iterator or enumeration like
facility. This is often where the most common API conflicts occur.
Ember's API is designed to be as friendly as possible with other
libraries by implementing only methods that mostly correspond to the
JavaScript 1.8 API.
@class Enumerable
@namespace Ember
@since Ember 0.9
*/
Ember.Enumerable = Ember.Mixin.create({
/**
Implement this method to make your class enumerable.
This method will be call repeatedly during enumeration. The index value
will always begin with 0 and increment monotonically. You don't have to
rely on the index value to determine what object to return, but you should
always check the value and start from the beginning when you see the
requested index is 0.
The `previousObject` is the object that was returned from the last call
to `nextObject` for the current iteration. This is a useful way to
manage iteration if you are tracing a linked list, for example.
Finally the context parameter will always contain a hash you can use as
a "scratchpad" to maintain any other state you need in order to iterate
properly. The context object is reused and is not reset between
iterations so make sure you setup the context with a fresh state whenever
the index parameter is 0.
Generally iterators will continue to call `nextObject` until the index
reaches the your current length-1. If you run out of data before this
time for some reason, you should simply return undefined.
The default implementation of this method simply looks up the index.
This works great on any Array-like objects.
@method nextObject
@param {Number} index the current index of the iteration
@param {Object} previousObject the value returned by the last call to
`nextObject`.
@param {Object} context a context object you can use to maintain state.
@return {Object} the next object in the iteration or undefined
*/
nextObject: Ember.required(Function),
/**
Helper method returns the first object from a collection. This is usually
used by bindings and other parts of the framework to extract a single
object if the enumerable contains only one item.
If you override this method, you should implement it so that it will
always return the same value each time it is called. If your enumerable
contains only one object, this method should always return that object.
If your enumerable is empty, this method should return `undefined`.
```javascript
var arr = ["a", "b", "c"];
arr.get('firstObject'); // "a"
var arr = [];
arr.get('firstObject'); // undefined
```
@property firstObject
@return {Object} the object or undefined
*/
firstObject: Ember.computed(function() {
if (get(this, 'length')===0) return undefined ;
// handle generic enumerables
var context = popCtx(), ret;
ret = this.nextObject(0, null, context);
pushCtx(context);
return ret ;
}).property('[]'),
/**
Helper method returns the last object from a collection. If your enumerable
contains only one object, this method should always return that object.
If your enumerable is empty, this method should return `undefined`.
```javascript
var arr = ["a", "b", "c"];
arr.get('lastObject'); // "c"
var arr = [];
arr.get('lastObject'); // undefined
```
@property lastObject
@return {Object} the last object or undefined
*/
lastObject: Ember.computed(function() {
var len = get(this, 'length');
if (len===0) return undefined ;
var context = popCtx(), idx=0, cur, last = null;
do {
last = cur;
cur = this.nextObject(idx++, last, context);
} while (cur !== undefined);
pushCtx(context);
return last;
}).property('[]'),
/**
Returns `true` if the passed object can be found in the receiver. The
default version will iterate through the enumerable until the object
is found. You may want to override this with a more efficient version.
```javascript
var arr = ["a", "b", "c"];
arr.contains("a"); // true
arr.contains("z"); // false
```
@method contains
@param {Object} obj The object to search for.
@return {Boolean} `true` if object is found in enumerable.
*/
contains: function(obj) {
return this.find(function(item) { return item===obj; }) !== undefined;
},
/**
Iterates through the enumerable, calling the passed function on each
item. This method corresponds to the `forEach()` method defined in
JavaScript 1.6.
The callback method you provide should have the following signature (all
parameters are optional):
```javascript
function(item, index, enumerable);
```
- `item` is the current item in the iteration.
- `index` is the current index in the iteration.
- `enumerable` is the enumerable object itself.
Note that in addition to a callback, you can also pass an optional target
object that will be set as `this` on the context. This is a good way
to give your iterator function access to the current object.
@method forEach
@param {Function} callback The callback to execute
@param {Object} [target] The target object to use
@return {Object} receiver
*/
forEach: function(callback, target) {
if (typeof callback !== "function") throw new TypeError() ;
var len = get(this, 'length'), last = null, context = popCtx();
if (target === undefined) target = null;
for(var idx=0;idx<len;idx++) {
var next = this.nextObject(idx, last, context) ;
callback.call(target, next, idx, this);
last = next ;
}
last = null ;
context = pushCtx(context);
return this ;
},
/**
Alias for `mapBy`
@method getEach
@param {String} key name of the property
@return {Array} The mapped array.
*/
getEach: function(key) {
return this.mapBy(key);
},
/**
Sets the value on the named property for each member. This is more
efficient than using other methods defined on this helper. If the object
implements Ember.Observable, the value will be changed to `set(),` otherwise
it will be set directly. `null` objects are skipped.
@method setEach
@param {String} key The key to set
@param {Object} value The object to set
@return {Object} receiver
*/
setEach: function(key, value) {
return this.forEach(function(item) {
set(item, key, value);
});
},
/**
Maps all of the items in the enumeration to another value, returning
a new array. This method corresponds to `map()` defined in JavaScript 1.6.
The callback method you provide should have the following signature (all
parameters are optional):
```javascript
function(item, index, enumerable);
```
- `item` is the current item in the iteration.
- `index` is the current index in the iteration.
- `enumerable` is the enumerable object itself.
It should return the mapped value.
Note that in addition to a callback, you can also pass an optional target
object that will be set as `this` on the context. This is a good way
to give your iterator function access to the current object.
@method map
@param {Function} callback The callback to execute
@param {Object} [target] The target object to use
@return {Array} The mapped array.
*/
map: function(callback, target) {
var ret = Ember.A();
this.forEach(function(x, idx, i) {
ret[idx] = callback.call(target, x, idx,i);
});
return ret ;
},
/**
Similar to map, this specialized function returns the value of the named
property on all items in the enumeration.
@method mapBy
@param {String} key name of the property
@return {Array} The mapped array.
*/
mapBy: function(key) {
return this.map(function(next) {
return get(next, key);
});
},
/**
Similar to map, this specialized function returns the value of the named
property on all items in the enumeration.
@method mapProperty
@param {String} key name of the property
@return {Array} The mapped array.
@deprecated Use `mapBy` instead
*/
mapProperty: Ember.aliasMethod('mapBy'),
/**
Returns an array with all of the items in the enumeration that the passed
function returns true for. This method corresponds to `filter()` defined in
JavaScript 1.6.
The callback method you provide should have the following signature (all
parameters are optional):
```javascript
function(item, index, enumerable);
```
- `item` is the current item in the iteration.
- `index` is the current index in the iteration.
- `enumerable` is the enumerable object itself.
It should return the `true` to include the item in the results, `false`
otherwise.
Note that in addition to a callback, you can also pass an optional target
object that will be set as `this` on the context. This is a good way
to give your iterator function access to the current object.
@method filter
@param {Function} callback The callback to execute
@param {Object} [target] The target object to use
@return {Array} A filtered array.
*/
filter: function(callback, target) {
var ret = Ember.A();
this.forEach(function(x, idx, i) {
if (callback.call(target, x, idx, i)) ret.push(x);
});
return ret ;
},
/**
Returns an array with all of the items in the enumeration where the passed
function returns false for. This method is the inverse of filter().
The callback method you provide should have the following signature (all
parameters are optional):
```javascript
function(item, index, enumerable);
```
- *item* is the current item in the iteration.
- *index* is the current index in the iteration
- *enumerable* is the enumerable object itself.
It should return the a falsey value to include the item in the results.
Note that in addition to a callback, you can also pass an optional target
object that will be set as "this" on the context. This is a good way
to give your iterator function access to the current object.
@method reject
@param {Function} callback The callback to execute
@param {Object} [target] The target object to use
@return {Array} A rejected array.
*/
reject: function(callback, target) {
return this.filter(function() {
return !(callback.apply(target, arguments));
});
},
/**
Returns an array with just the items with the matched property. You
can pass an optional second argument with the target value. Otherwise
this will match any property that evaluates to `true`.
@method filterBy
@param {String} key the property to test
@param {*} [value] optional value to test against.
@return {Array} filtered array
*/
filterBy: function(key, value) {
return this.filter(iter.apply(this, arguments));
},
/**
Returns an array with just the items with the matched property. You
can pass an optional second argument with the target value. Otherwise
this will match any property that evaluates to `true`.
@method filterProperty
@param {String} key the property to test
@param {String} [value] optional value to test against.
@return {Array} filtered array
@deprecated Use `filterBy` instead
*/
filterProperty: Ember.aliasMethod('filterBy'),
/**
Returns an array with the items that do not have truthy values for
key. You can pass an optional second argument with the target value. Otherwise
this will match any property that evaluates to false.
@method rejectBy
@param {String} key the property to test
@param {String} [value] optional value to test against.
@return {Array} rejected array
*/
rejectBy: function(key, value) {
var exactValue = function(item) { return get(item, key) === value; },
hasValue = function(item) { return !!get(item, key); },
use = (arguments.length === 2 ? exactValue : hasValue);
return this.reject(use);
},
/**
Returns an array with the items that do not have truthy values for
key. You can pass an optional second argument with the target value. Otherwise
this will match any property that evaluates to false.
@method rejectProperty
@param {String} key the property to test
@param {String} [value] optional value to test against.
@return {Array} rejected array
@deprecated Use `rejectBy` instead
*/
rejectProperty: Ember.aliasMethod('rejectBy'),
/**
Returns the first item in the array for which the callback returns true.
This method works similar to the `filter()` method defined in JavaScript 1.6
except that it will stop working on the array once a match is found.
The callback method you provide should have the following signature (all
parameters are optional):
```javascript
function(item, index, enumerable);
```
- `item` is the current item in the iteration.
- `index` is the current index in the iteration.
- `enumerable` is the enumerable object itself.
It should return the `true` to include the item in the results, `false`
otherwise.
Note that in addition to a callback, you can also pass an optional target
object that will be set as `this` on the context. This is a good way
to give your iterator function access to the current object.
@method find
@param {Function} callback The callback to execute
@param {Object} [target] The target object to use
@return {Object} Found item or `undefined`.
*/
find: function(callback, target) {
var len = get(this, 'length') ;
if (target === undefined) target = null;
var last = null, next, found = false, ret ;
var context = popCtx();
for(var idx=0;idx<len && !found;idx++) {
next = this.nextObject(idx, last, context) ;
if (found = callback.call(target, next, idx, this)) ret = next ;
last = next ;
}
next = last = null ;
context = pushCtx(context);
return ret ;
},
/**
Returns the first item with a property matching the passed value. You
can pass an optional second argument with the target value. Otherwise
this will match any property that evaluates to `true`.
This method works much like the more generic `find()` method.
@method findBy
@param {String} key the property to test
@param {String} [value] optional value to test against.
@return {Object} found item or `undefined`
*/
findBy: function(key, value) {
return this.find(iter.apply(this, arguments));
},
/**
Returns the first item with a property matching the passed value. You
can pass an optional second argument with the target value. Otherwise
this will match any property that evaluates to `true`.
This method works much like the more generic `find()` method.
@method findProperty
@param {String} key the property to test
@param {String} [value] optional value to test against.
@return {Object} found item or `undefined`
@deprecated Use `findBy` instead
*/
findProperty: Ember.aliasMethod('findBy'),
/**
Returns `true` if the passed function returns true for every item in the
enumeration. This corresponds with the `every()` method in JavaScript 1.6.
The callback method you provide should have the following signature (all
parameters are optional):
```javascript
function(item, index, enumerable);
```
- `item` is the current item in the iteration.
- `index` is the current index in the iteration.
- `enumerable` is the enumerable object itself.
It should return the `true` or `false`.
Note that in addition to a callback, you can also pass an optional target
object that will be set as `this` on the context. This is a good way
to give your iterator function access to the current object.
Example Usage:
```javascript
if (people.every(isEngineer)) { Paychecks.addBigBonus(); }
```
@method every
@param {Function} callback The callback to execute
@param {Object} [target] The target object to use
@return {Boolean}
*/
every: function(callback, target) {
return !this.find(function(x, idx, i) {
return !callback.call(target, x, idx, i);
});
},
/**
@method everyBy
@param {String} key the property to test
@param {String} [value] optional value to test against.
@deprecated Use `isEvery` instead
@return {Boolean}
*/
everyBy: Ember.aliasMethod('isEvery'),
/**
@method everyProperty
@param {String} key the property to test
@param {String} [value] optional value to test against.
@deprecated Use `isEvery` instead
@return {Boolean}
*/
everyProperty: Ember.aliasMethod('isEvery'),
/**
Returns `true` if the passed property resolves to `true` for all items in
the enumerable. This method is often simpler/faster than using a callback.
@method isEvery
@param {String} key the property to test
@param {String} [value] optional value to test against.
@return {Boolean}
*/
isEvery: function(key, value) {
return this.every(iter.apply(this, arguments));
},
/**
Returns `true` if the passed function returns true for any item in the
enumeration. This corresponds with the `some()` method in JavaScript 1.6.
The callback method you provide should have the following signature (all
parameters are optional):
```javascript
function(item, index, enumerable);
```
- `item` is the current item in the iteration.
- `index` is the current index in the iteration.
- `enumerable` is the enumerable object itself.
It should return the `true` to include the item in the results, `false`
otherwise.
Note that in addition to a callback, you can also pass an optional target
object that will be set as `this` on the context. This is a good way
to give your iterator function access to the current object.
Usage Example:
```javascript
if (people.any(isManager)) { Paychecks.addBiggerBonus(); }
```
@method any
@param {Function} callback The callback to execute
@param {Object} [target] The target object to use
@return {Boolean} `true` if the passed function returns `true` for any item
*/
any: function(callback, target) {
var len = get(this, 'length'),
context = popCtx(),
found = false,
last = null,
next, idx;
if (target === undefined) { target = null; }
for (idx = 0; idx < len && !found; idx++) {
next = this.nextObject(idx, last, context);
found = callback.call(target, next, idx, this);
last = next;
}
next = last = null;
context = pushCtx(context);
return found;
},
/**
Returns `true` if the passed function returns true for any item in the
enumeration. This corresponds with the `some()` method in JavaScript 1.6.
The callback method you provide should have the following signature (all
parameters are optional):
```javascript
function(item, index, enumerable);
```
- `item` is the current item in the iteration.
- `index` is the current index in the iteration.
- `enumerable` is the enumerable object itself.
It should return the `true` to include the item in the results, `false`
otherwise.
Note that in addition to a callback, you can also pass an optional target
object that will be set as `this` on the context. This is a good way
to give your iterator function access to the current object.
Usage Example:
```javascript
if (people.some(isManager)) { Paychecks.addBiggerBonus(); }
```
@method some
@param {Function} callback The callback to execute
@param {Object} [target] The target object to use
@return {Boolean} `true` if the passed function returns `true` for any item
@deprecated Use `any` instead
*/
some: Ember.aliasMethod('any'),
/**
Returns `true` if the passed property resolves to `true` for any item in
the enumerable. This method is often simpler/faster than using a callback.
@method isAny
@param {String} key the property to test
@param {String} [value] optional value to test against.
@return {Boolean} `true` if the passed function returns `true` for any item
*/
isAny: function(key, value) {
return this.any(iter.apply(this, arguments));
},
/**
@method anyBy
@param {String} key the property to test
@param {String} [value] optional value to test against.
@return {Boolean} `true` if the passed function returns `true` for any item
@deprecated Use `isAny` instead
*/
anyBy: Ember.aliasMethod('isAny'),
/**
@method someProperty
@param {String} key the property to test
@param {String} [value] optional value to test against.
@return {Boolean} `true` if the passed function returns `true` for any item
@deprecated Use `isAny` instead
*/
someProperty: Ember.aliasMethod('isAny'),
/**
This will combine the values of the enumerator into a single value. It
is a useful way to collect a summary value from an enumeration. This
corresponds to the `reduce()` method defined in JavaScript 1.8.
The callback method you provide should have the following signature (all
parameters are optional):
```javascript
function(previousValue, item, index, enumerable);
```
- `previousValue` is the value returned by the last call to the iterator.
- `item` is the current item in the iteration.
- `index` is the current index in the iteration.
- `enumerable` is the enumerable object itself.
Return the new cumulative value.
In addition to the callback you can also pass an `initialValue`. An error
will be raised if you do not pass an initial value and the enumerator is
empty.
Note that unlike the other methods, this method does not allow you to
pass a target object to set as this for the callback. It's part of the
spec. Sorry.
@method reduce
@param {Function} callback The callback to execute
@param {Object} initialValue Initial value for the reduce
@param {String} reducerProperty internal use only.
@return {Object} The reduced value.
*/
reduce: function(callback, initialValue, reducerProperty) {
if (typeof callback !== "function") { throw new TypeError(); }
var ret = initialValue;
this.forEach(function(item, i) {
ret = callback(ret, item, i, this, reducerProperty);
}, this);
return ret;
},
/**
Invokes the named method on every object in the receiver that
implements it. This method corresponds to the implementation in
Prototype 1.6.
@method invoke
@param {String} methodName the name of the method
@param {Object...} args optional arguments to pass as well.
@return {Array} return values from calling invoke.
*/
invoke: function(methodName) {
var args, ret = Ember.A();
if (arguments.length>1) args = a_slice.call(arguments, 1);
this.forEach(function(x, idx) {
var method = x && x[methodName];
if ('function' === typeof method) {
ret[idx] = args ? method.apply(x, args) : x[methodName]();
}
}, this);
return ret;
},
/**
Simply converts the enumerable into a genuine array. The order is not
guaranteed. Corresponds to the method implemented by Prototype.
@method toArray
@return {Array} the enumerable as an array.
*/
toArray: function() {
var ret = Ember.A();
this.forEach(function(o, idx) { ret[idx] = o; });
return ret ;
},
/**
Returns a copy of the array with all null and undefined elements removed.
```javascript
var arr = ["a", null, "c", undefined];
arr.compact(); // ["a", "c"]
```
@method compact
@return {Array} the array without null and undefined elements.
*/
compact: function() {
return this.filter(function(value) { return value != null; });
},
/**
Returns a new enumerable that excludes the passed value. The default
implementation returns an array regardless of the receiver type unless
the receiver does not contain the value.
```javascript
var arr = ["a", "b", "a", "c"];
arr.without("a"); // ["b", "c"]
```
@method without
@param {Object} value
@return {Ember.Enumerable}
*/
without: function(value) {
if (!this.contains(value)) return this; // nothing to do
var ret = Ember.A();
this.forEach(function(k) {
if (k !== value) ret[ret.length] = k;
}) ;
return ret ;
},
/**
Returns a new enumerable that contains only unique values. The default
implementation returns an array regardless of the receiver type.
```javascript
var arr = ["a", "a", "b", "b"];
arr.uniq(); // ["a", "b"]
```
@method uniq
@return {Ember.Enumerable}
*/
uniq: function() {
var ret = Ember.A();
this.forEach(function(k) {
if (a_indexOf(ret, k)<0) ret.push(k);
});
return ret;
},
/**
This property will trigger anytime the enumerable's content changes.
You can observe this property to be notified of changes to the enumerables
content.
For plain enumerables, this property is read only. `Ember.Array` overrides
this method.
@property []
@type Ember.Array
@return this
*/
'[]': Ember.computed(function(key, value) {
return this;
}),
// ..........................................................
// ENUMERABLE OBSERVERS
//
/**
Registers an enumerable observer. Must implement `Ember.EnumerableObserver`
mixin.
@method addEnumerableObserver
@param {Object} target
@param {Hash} [opts]
@return this
*/
addEnumerableObserver: function(target, opts) {
var willChange = (opts && opts.willChange) || 'enumerableWillChange',
didChange = (opts && opts.didChange) || 'enumerableDidChange';
var hasObservers = get(this, 'hasEnumerableObservers');
if (!hasObservers) Ember.propertyWillChange(this, 'hasEnumerableObservers');
Ember.addListener(this, '@enumerable:before', target, willChange);
Ember.addListener(this, '@enumerable:change', target, didChange);
if (!hasObservers) Ember.propertyDidChange(this, 'hasEnumerableObservers');
return this;
},
/**
Removes a registered enumerable observer.
@method removeEnumerableObserver
@param {Object} target
@param {Hash} [opts]
@return this
*/
removeEnumerableObserver: function(target, opts) {
var willChange = (opts && opts.willChange) || 'enumerableWillChange',
didChange = (opts && opts.didChange) || 'enumerableDidChange';
var hasObservers = get(this, 'hasEnumerableObservers');
if (hasObservers) Ember.propertyWillChange(this, 'hasEnumerableObservers');
Ember.removeListener(this, '@enumerable:before', target, willChange);
Ember.removeListener(this, '@enumerable:change', target, didChange);
if (hasObservers) Ember.propertyDidChange(this, 'hasEnumerableObservers');
return this;
},
/**
Becomes true whenever the array currently has observers watching changes
on the array.
@property hasEnumerableObservers
@type Boolean
*/
hasEnumerableObservers: Ember.computed(function() {
return Ember.hasListeners(this, '@enumerable:change') || Ember.hasListeners(this, '@enumerable:before');
}),
/**
Invoke this method just before the contents of your enumerable will
change. You can either omit the parameters completely or pass the objects
to be removed or added if available or just a count.
@method enumerableContentWillChange
@param {Ember.Enumerable|Number} removing An enumerable of the objects to
be removed or the number of items to be removed.
@param {Ember.Enumerable|Number} adding An enumerable of the objects to be
added or the number of items to be added.
@chainable
*/
enumerableContentWillChange: function(removing, adding) {
var removeCnt, addCnt, hasDelta;
if ('number' === typeof removing) removeCnt = removing;
else if (removing) removeCnt = get(removing, 'length');
else removeCnt = removing = -1;
if ('number' === typeof adding) addCnt = adding;
else if (adding) addCnt = get(adding,'length');
else addCnt = adding = -1;
hasDelta = addCnt<0 || removeCnt<0 || addCnt-removeCnt!==0;
if (removing === -1) removing = null;
if (adding === -1) adding = null;
Ember.propertyWillChange(this, '[]');
if (hasDelta) Ember.propertyWillChange(this, 'length');
Ember.sendEvent(this, '@enumerable:before', [this, removing, adding]);
return this;
},
/**
Invoke this method when the contents of your enumerable has changed.
This will notify any observers watching for content changes. If your are
implementing an ordered enumerable (such as an array), also pass the
start and end values where the content changed so that it can be used to
notify range observers.
@method enumerableContentDidChange
@param {Ember.Enumerable|Number} removing An enumerable of the objects to
be removed or the number of items to be removed.
@param {Ember.Enumerable|Number} adding An enumerable of the objects to
be added or the number of items to be added.
@chainable
*/
enumerableContentDidChange: function(removing, adding) {
var removeCnt, addCnt, hasDelta;
if ('number' === typeof removing) removeCnt = removing;
else if (removing) removeCnt = get(removing, 'length');
else removeCnt = removing = -1;
if ('number' === typeof adding) addCnt = adding;
else if (adding) addCnt = get(adding, 'length');
else addCnt = adding = -1;
hasDelta = addCnt<0 || removeCnt<0 || addCnt-removeCnt!==0;
if (removing === -1) removing = null;
if (adding === -1) adding = null;
Ember.sendEvent(this, '@enumerable:change', [this, removing, adding]);
if (hasDelta) Ember.propertyDidChange(this, 'length');
Ember.propertyDidChange(this, '[]');
return this ;
},
/**
Converts the enumerable into an array and sorts by the keys
specified in the argument.
You may provide multiple arguments to sort by multiple properties.
@method sortBy
@param {String} property name(s) to sort on
@return {Array} The sorted array.
*/
sortBy: function() {
var sortKeys = arguments;
return this.toArray().sort(function(a, b){
for(var i = 0; i < sortKeys.length; i++) {
var key = sortKeys[i],
propA = get(a, key),
propB = get(b, key);
// return 1 or -1 else continue to the next sortKey
var compareValue = Ember.compare(propA, propB);
if (compareValue) { return compareValue; }
}
return 0;
});
}
});
})();
(function() {
/**
@module ember
@submodule ember-runtime
*/
// ..........................................................
// HELPERS
//
var get = Ember.get, set = Ember.set, isNone = Ember.isNone, map = Ember.EnumerableUtils.map, cacheFor = Ember.cacheFor;
// ..........................................................
// ARRAY
//
/**
This mixin implements Observer-friendly Array-like behavior. It is not a
concrete implementation, but it can be used up by other classes that want
to appear like arrays.
For example, ArrayProxy and ArrayController are both concrete classes that can
be instantiated to implement array-like behavior. Both of these classes use
the Array Mixin by way of the MutableArray mixin, which allows observable
changes to be made to the underlying array.
Unlike `Ember.Enumerable,` this mixin defines methods specifically for
collections that provide index-ordered access to their contents. When you
are designing code that needs to accept any kind of Array-like object, you
should use these methods instead of Array primitives because these will
properly notify observers of changes to the array.
Although these methods are efficient, they do add a layer of indirection to
your application so it is a good idea to use them only when you need the
flexibility of using both true JavaScript arrays and "virtual" arrays such
as controllers and collections.
You can use the methods defined in this module to access and modify array
contents in a KVO-friendly way. You can also be notified whenever the
membership of an array changes by changing the syntax of the property to
`.observes('*myProperty.[]')`.
To support `Ember.Array` in your own class, you must override two
primitives to use it: `replace()` and `objectAt()`.
Note that the Ember.Array mixin also incorporates the `Ember.Enumerable`
mixin. All `Ember.Array`-like objects are also enumerable.
@class Array
@namespace Ember
@uses Ember.Enumerable
@since Ember 0.9.0
*/
Ember.Array = Ember.Mixin.create(Ember.Enumerable, {
/**
Your array must support the `length` property. Your replace methods should
set this property whenever it changes.
@property {Number} length
*/
length: Ember.required(),
/**
Returns the object at the given `index`. If the given `index` is negative
or is greater or equal than the array length, returns `undefined`.
This is one of the primitives you must implement to support `Ember.Array`.
If your object supports retrieving the value of an array item using `get()`
(i.e. `myArray.get(0)`), then you do not need to implement this method
yourself.
```javascript
var arr = ['a', 'b', 'c', 'd'];
arr.objectAt(0); // "a"
arr.objectAt(3); // "d"
arr.objectAt(-1); // undefined
arr.objectAt(4); // undefined
arr.objectAt(5); // undefined
```
@method objectAt
@param {Number} idx The index of the item to return.
@return {*} item at index or undefined
*/
objectAt: function(idx) {
if ((idx < 0) || (idx>=get(this, 'length'))) return undefined ;
return get(this, idx);
},
/**
This returns the objects at the specified indexes, using `objectAt`.
```javascript
var arr = ['a', 'b', 'c', 'd'];
arr.objectsAt([0, 1, 2]); // ["a", "b", "c"]
arr.objectsAt([2, 3, 4]); // ["c", "d", undefined]
```
@method objectsAt
@param {Array} indexes An array of indexes of items to return.
@return {Array}
*/
objectsAt: function(indexes) {
var self = this;
return map(indexes, function(idx) { return self.objectAt(idx); });
},
// overrides Ember.Enumerable version
nextObject: function(idx) {
return this.objectAt(idx);
},
/**
This is the handler for the special array content property. If you get
this property, it will return this. If you set this property it a new
array, it will replace the current content.
This property overrides the default property defined in `Ember.Enumerable`.
@property []
@return this
*/
'[]': Ember.computed(function(key, value) {
if (value !== undefined) this.replace(0, get(this, 'length'), value) ;
return this ;
}),
firstObject: Ember.computed(function() {
return this.objectAt(0);
}),
lastObject: Ember.computed(function() {
return this.objectAt(get(this, 'length')-1);
}),
// optimized version from Enumerable
contains: function(obj) {
return this.indexOf(obj) >= 0;
},
// Add any extra methods to Ember.Array that are native to the built-in Array.
/**
Returns a new array that is a slice of the receiver. This implementation
uses the observable array methods to retrieve the objects for the new
slice.
```javascript
var arr = ['red', 'green', 'blue'];
arr.slice(0); // ['red', 'green', 'blue']
arr.slice(0, 2); // ['red', 'green']
arr.slice(1, 100); // ['green', 'blue']
```
@method slice
@param {Integer} beginIndex (Optional) index to begin slicing from.
@param {Integer} endIndex (Optional) index to end the slice at (but not included).
@return {Array} New array with specified slice
*/
slice: function(beginIndex, endIndex) {
var ret = Ember.A();
var length = get(this, 'length') ;
if (isNone(beginIndex)) beginIndex = 0 ;
if (isNone(endIndex) || (endIndex > length)) endIndex = length ;
if (beginIndex < 0) beginIndex = length + beginIndex;
if (endIndex < 0) endIndex = length + endIndex;
while(beginIndex < endIndex) {
ret[ret.length] = this.objectAt(beginIndex++) ;
}
return ret ;
},
/**
Returns the index of the given object's first occurrence.
If no `startAt` argument is given, the starting location to
search is 0. If it's negative, will count backward from
the end of the array. Returns -1 if no match is found.
```javascript
var arr = ["a", "b", "c", "d", "a"];
arr.indexOf("a"); // 0
arr.indexOf("z"); // -1
arr.indexOf("a", 2); // 4
arr.indexOf("a", -1); // 4
arr.indexOf("b", 3); // -1
arr.indexOf("a", 100); // -1
```
@method indexOf
@param {Object} object the item to search for
@param {Number} startAt optional starting location to search, default 0
@return {Number} index or -1 if not found
*/
indexOf: function(object, startAt) {
var idx, len = get(this, 'length');
if (startAt === undefined) startAt = 0;
if (startAt < 0) startAt += len;
for(idx=startAt;idx<len;idx++) {
if (this.objectAt(idx) === object) return idx ;
}
return -1;
},
/**
Returns the index of the given object's last occurrence.
If no `startAt` argument is given, the search starts from
the last position. If it's negative, will count backward
from the end of the array. Returns -1 if no match is found.
```javascript
var arr = ["a", "b", "c", "d", "a"];
arr.lastIndexOf("a"); // 4
arr.lastIndexOf("z"); // -1
arr.lastIndexOf("a", 2); // 0
arr.lastIndexOf("a", -1); // 4
arr.lastIndexOf("b", 3); // 1
arr.lastIndexOf("a", 100); // 4
```
@method lastIndexOf
@param {Object} object the item to search for
@param {Number} startAt optional starting location to search, default 0
@return {Number} index or -1 if not found
*/
lastIndexOf: function(object, startAt) {
var idx, len = get(this, 'length');
if (startAt === undefined || startAt >= len) startAt = len-1;
if (startAt < 0) startAt += len;
for(idx=startAt;idx>=0;idx--) {
if (this.objectAt(idx) === object) return idx ;
}
return -1;
},
// ..........................................................
// ARRAY OBSERVERS
//
/**
Adds an array observer to the receiving array. The array observer object
normally must implement two methods:
* `arrayWillChange(observedObj, start, removeCount, addCount)` - This method will be
called just before the array is modified.
* `arrayDidChange(observedObj, start, removeCount, addCount)` - This method will be
called just after the array is modified.
Both callbacks will be passed the observed object, starting index of the
change as well a a count of the items to be removed and added. You can use
these callbacks to optionally inspect the array during the change, clear
caches, or do any other bookkeeping necessary.
In addition to passing a target, you can also include an options hash
which you can use to override the method names that will be invoked on the
target.
@method addArrayObserver
@param {Object} target The observer object.
@param {Hash} opts Optional hash of configuration options including
`willChange` and `didChange` option.
@return {Ember.Array} receiver
*/
addArrayObserver: function(target, opts) {
var willChange = (opts && opts.willChange) || 'arrayWillChange',
didChange = (opts && opts.didChange) || 'arrayDidChange';
var hasObservers = get(this, 'hasArrayObservers');
if (!hasObservers) Ember.propertyWillChange(this, 'hasArrayObservers');
Ember.addListener(this, '@array:before', target, willChange);
Ember.addListener(this, '@array:change', target, didChange);
if (!hasObservers) Ember.propertyDidChange(this, 'hasArrayObservers');
return this;
},
/**
Removes an array observer from the object if the observer is current
registered. Calling this method multiple times with the same object will
have no effect.
@method removeArrayObserver
@param {Object} target The object observing the array.
@param {Hash} opts Optional hash of configuration options including
`willChange` and `didChange` option.
@return {Ember.Array} receiver
*/
removeArrayObserver: function(target, opts) {
var willChange = (opts && opts.willChange) || 'arrayWillChange',
didChange = (opts && opts.didChange) || 'arrayDidChange';
var hasObservers = get(this, 'hasArrayObservers');
if (hasObservers) Ember.propertyWillChange(this, 'hasArrayObservers');
Ember.removeListener(this, '@array:before', target, willChange);
Ember.removeListener(this, '@array:change', target, didChange);
if (hasObservers) Ember.propertyDidChange(this, 'hasArrayObservers');
return this;
},
/**
Becomes true whenever the array currently has observers watching changes
on the array.
@property {Boolean} hasArrayObservers
*/
hasArrayObservers: Ember.computed(function() {
return Ember.hasListeners(this, '@array:change') || Ember.hasListeners(this, '@array:before');
}),
/**
If you are implementing an object that supports `Ember.Array`, call this
method just before the array content changes to notify any observers and
invalidate any related properties. Pass the starting index of the change
as well as a delta of the amounts to change.
@method arrayContentWillChange
@param {Number} startIdx The starting index in the array that will change.
@param {Number} removeAmt The number of items that will be removed. If you
pass `null` assumes 0
@param {Number} addAmt The number of items that will be added. If you
pass `null` assumes 0.
@return {Ember.Array} receiver
*/
arrayContentWillChange: function(startIdx, removeAmt, addAmt) {
// if no args are passed assume everything changes
if (startIdx===undefined) {
startIdx = 0;
removeAmt = addAmt = -1;
} else {
if (removeAmt === undefined) removeAmt=-1;
if (addAmt === undefined) addAmt=-1;
}
// Make sure the @each proxy is set up if anyone is observing @each
if (Ember.isWatching(this, '@each')) { get(this, '@each'); }
Ember.sendEvent(this, '@array:before', [this, startIdx, removeAmt, addAmt]);
var removing, lim;
if (startIdx>=0 && removeAmt>=0 && get(this, 'hasEnumerableObservers')) {
removing = [];
lim = startIdx+removeAmt;
for(var idx=startIdx;idx<lim;idx++) removing.push(this.objectAt(idx));
} else {
removing = removeAmt;
}
this.enumerableContentWillChange(removing, addAmt);
return this;
},
/**
If you are implementing an object that supports `Ember.Array`, call this
method just after the array content changes to notify any observers and
invalidate any related properties. Pass the starting index of the change
as well as a delta of the amounts to change.
@method arrayContentDidChange
@param {Number} startIdx The starting index in the array that did change.
@param {Number} removeAmt The number of items that were removed. If you
pass `null` assumes 0
@param {Number} addAmt The number of items that were added. If you
pass `null` assumes 0.
@return {Ember.Array} receiver
*/
arrayContentDidChange: function(startIdx, removeAmt, addAmt) {
// if no args are passed assume everything changes
if (startIdx===undefined) {
startIdx = 0;
removeAmt = addAmt = -1;
} else {
if (removeAmt === undefined) removeAmt=-1;
if (addAmt === undefined) addAmt=-1;
}
var adding, lim;
if (startIdx>=0 && addAmt>=0 && get(this, 'hasEnumerableObservers')) {
adding = [];
lim = startIdx+addAmt;
for(var idx=startIdx;idx<lim;idx++) adding.push(this.objectAt(idx));
} else {
adding = addAmt;
}
this.enumerableContentDidChange(removeAmt, adding);
Ember.sendEvent(this, '@array:change', [this, startIdx, removeAmt, addAmt]);
var length = get(this, 'length'),
cachedFirst = cacheFor(this, 'firstObject'),
cachedLast = cacheFor(this, 'lastObject');
if (this.objectAt(0) !== cachedFirst) {
Ember.propertyWillChange(this, 'firstObject');
Ember.propertyDidChange(this, 'firstObject');
}
if (this.objectAt(length-1) !== cachedLast) {
Ember.propertyWillChange(this, 'lastObject');
Ember.propertyDidChange(this, 'lastObject');
}
return this;
},
// ..........................................................
// ENUMERATED PROPERTIES
//
/**
Returns a special object that can be used to observe individual properties
on the array. Just get an equivalent property on this object and it will
return an enumerable that maps automatically to the named key on the
member objects.
If you merely want to watch for any items being added or removed to the array,
use the `[]` property instead of `@each`.
@property @each
*/
'@each': Ember.computed(function() {
if (!this.__each) this.__each = new Ember.EachProxy(this);
return this.__each;
})
}) ;
})();
(function() {
var e_get = Ember.get,
set = Ember.set,
guidFor = Ember.guidFor,
metaFor = Ember.meta,
propertyWillChange = Ember.propertyWillChange,
propertyDidChange = Ember.propertyDidChange,
addBeforeObserver = Ember.addBeforeObserver,
removeBeforeObserver = Ember.removeBeforeObserver,
addObserver = Ember.addObserver,
removeObserver = Ember.removeObserver,
ComputedProperty = Ember.ComputedProperty,
a_slice = [].slice,
o_create = Ember.create,
forEach = Ember.EnumerableUtils.forEach,
cacheSet = Ember.cacheFor.set,
cacheGet = Ember.cacheFor.get,
cacheRemove = Ember.cacheFor.remove,
// Here we explicitly don't allow `@each.foo`; it would require some special
// testing, but there's no particular reason why it should be disallowed.
eachPropertyPattern = /^(.*)\.@each\.(.*)/,
doubleEachPropertyPattern = /(.*\.@each){2,}/,
arrayBracketPattern = /\.\[\]$/;
var expandProperties = Ember.expandProperties;
function get(obj, key) {
if (key === '@this') {
return obj;
}
return e_get(obj, key);
}
/*
Tracks changes to dependent arrays, as well as to properties of items in
dependent arrays.
@class DependentArraysObserver
*/
function DependentArraysObserver(callbacks, cp, instanceMeta, context, propertyName, sugarMeta) {
// user specified callbacks for `addedItem` and `removedItem`
this.callbacks = callbacks;
// the computed property: remember these are shared across instances
this.cp = cp;
// the ReduceComputedPropertyInstanceMeta this DependentArraysObserver is
// associated with
this.instanceMeta = instanceMeta;
// A map of array guids to dependentKeys, for the given context. We track
// this because we want to set up the computed property potentially before the
// dependent array even exists, but when the array observer fires, we lack
// enough context to know what to update: we can recover that context by
// getting the dependentKey.
this.dependentKeysByGuid = {};
// a map of dependent array guids -> Ember.TrackedArray instances. We use
// this to lazily recompute indexes for item property observers.
this.trackedArraysByGuid = {};
// We suspend observers to ignore replacements from `reset` when totally
// recomputing. Unfortunately we cannot properly suspend the observers
// because we only have the key; instead we make the observers no-ops
this.suspended = false;
// This is used to coalesce item changes from property observers.
this.changedItems = {};
}
function ItemPropertyObserverContext (dependentArray, index, trackedArray) {
Ember.assert("Internal error: trackedArray is null or undefined", trackedArray);
this.dependentArray = dependentArray;
this.index = index;
this.item = dependentArray.objectAt(index);
this.trackedArray = trackedArray;
this.beforeObserver = null;
this.observer = null;
this.destroyed = false;
}
DependentArraysObserver.prototype = {
setValue: function (newValue) {
this.instanceMeta.setValue(newValue, true);
},
getValue: function () {
return this.instanceMeta.getValue();
},
setupObservers: function (dependentArray, dependentKey) {
this.dependentKeysByGuid[guidFor(dependentArray)] = dependentKey;
dependentArray.addArrayObserver(this, {
willChange: 'dependentArrayWillChange',
didChange: 'dependentArrayDidChange'
});
if (this.cp._itemPropertyKeys[dependentKey]) {
this.setupPropertyObservers(dependentKey, this.cp._itemPropertyKeys[dependentKey]);
}
},
teardownObservers: function (dependentArray, dependentKey) {
var itemPropertyKeys = this.cp._itemPropertyKeys[dependentKey] || [];
delete this.dependentKeysByGuid[guidFor(dependentArray)];
this.teardownPropertyObservers(dependentKey, itemPropertyKeys);
dependentArray.removeArrayObserver(this, {
willChange: 'dependentArrayWillChange',
didChange: 'dependentArrayDidChange'
});
},
suspendArrayObservers: function (callback, binding) {
var oldSuspended = this.suspended;
this.suspended = true;
callback.call(binding);
this.suspended = oldSuspended;
},
setupPropertyObservers: function (dependentKey, itemPropertyKeys) {
var dependentArray = get(this.instanceMeta.context, dependentKey),
length = get(dependentArray, 'length'),
observerContexts = new Array(length);
this.resetTransformations(dependentKey, observerContexts);
forEach(dependentArray, function (item, index) {
var observerContext = this.createPropertyObserverContext(dependentArray, index, this.trackedArraysByGuid[dependentKey]);
observerContexts[index] = observerContext;
forEach(itemPropertyKeys, function (propertyKey) {
addBeforeObserver(item, propertyKey, this, observerContext.beforeObserver);
addObserver(item, propertyKey, this, observerContext.observer);
}, this);
}, this);
},
teardownPropertyObservers: function (dependentKey, itemPropertyKeys) {
var dependentArrayObserver = this,
trackedArray = this.trackedArraysByGuid[dependentKey],
beforeObserver,
observer,
item;
if (!trackedArray) { return; }
trackedArray.apply(function (observerContexts, offset, operation) {
if (operation === Ember.TrackedArray.DELETE) { return; }
forEach(observerContexts, function (observerContext) {
observerContext.destroyed = true;
beforeObserver = observerContext.beforeObserver;
observer = observerContext.observer;
item = observerContext.item;
forEach(itemPropertyKeys, function (propertyKey) {
removeBeforeObserver(item, propertyKey, dependentArrayObserver, beforeObserver);
removeObserver(item, propertyKey, dependentArrayObserver, observer);
});
});
});
},
createPropertyObserverContext: function (dependentArray, index, trackedArray) {
var observerContext = new ItemPropertyObserverContext(dependentArray, index, trackedArray);
this.createPropertyObserver(observerContext);
return observerContext;
},
createPropertyObserver: function (observerContext) {
var dependentArrayObserver = this;
observerContext.beforeObserver = function (obj, keyName) {
return dependentArrayObserver.itemPropertyWillChange(obj, keyName, observerContext.dependentArray, observerContext);
};
observerContext.observer = function (obj, keyName) {
return dependentArrayObserver.itemPropertyDidChange(obj, keyName, observerContext.dependentArray, observerContext);
};
},
resetTransformations: function (dependentKey, observerContexts) {
this.trackedArraysByGuid[dependentKey] = new Ember.TrackedArray(observerContexts);
},
trackAdd: function (dependentKey, index, newItems) {
var trackedArray = this.trackedArraysByGuid[dependentKey];
if (trackedArray) {
trackedArray.addItems(index, newItems);
}
},
trackRemove: function (dependentKey, index, removedCount) {
var trackedArray = this.trackedArraysByGuid[dependentKey];
if (trackedArray) {
return trackedArray.removeItems(index, removedCount);
}
return [];
},
updateIndexes: function (trackedArray, array) {
var length = get(array, 'length');
// OPTIMIZE: we could stop updating once we hit the object whose observer
// fired; ie partially apply the transformations
trackedArray.apply(function (observerContexts, offset, operation) {
// we don't even have observer contexts for removed items, even if we did,
// they no longer have any index in the array
if (operation === Ember.TrackedArray.DELETE) { return; }
if (operation === Ember.TrackedArray.RETAIN && observerContexts.length === length && offset === 0) {
// If we update many items we don't want to walk the array each time: we
// only need to update the indexes at most once per run loop.
return;
}
forEach(observerContexts, function (context, index) {
context.index = index + offset;
});
});
},
dependentArrayWillChange: function (dependentArray, index, removedCount, addedCount) {
if (this.suspended) { return; }
var removedItem = this.callbacks.removedItem,
changeMeta,
guid = guidFor(dependentArray),
dependentKey = this.dependentKeysByGuid[guid],
itemPropertyKeys = this.cp._itemPropertyKeys[dependentKey] || [],
length = get(dependentArray, 'length'),
normalizedIndex = normalizeIndex(index, length, 0),
normalizedRemoveCount = normalizeRemoveCount(normalizedIndex, length, removedCount),
item,
itemIndex,
sliceIndex,
observerContexts;
observerContexts = this.trackRemove(dependentKey, normalizedIndex, normalizedRemoveCount);
function removeObservers(propertyKey) {
observerContexts[sliceIndex].destroyed = true;
removeBeforeObserver(item, propertyKey, this, observerContexts[sliceIndex].beforeObserver);
removeObserver(item, propertyKey, this, observerContexts[sliceIndex].observer);
}
for (sliceIndex = normalizedRemoveCount - 1; sliceIndex >= 0; --sliceIndex) {
itemIndex = normalizedIndex + sliceIndex;
if (itemIndex >= length) { break; }
item = dependentArray.objectAt(itemIndex);
forEach(itemPropertyKeys, removeObservers, this);
changeMeta = createChangeMeta(dependentArray, item, itemIndex, this.instanceMeta.propertyName, this.cp);
this.setValue( removedItem.call(
this.instanceMeta.context, this.getValue(), item, changeMeta, this.instanceMeta.sugarMeta));
}
},
dependentArrayDidChange: function (dependentArray, index, removedCount, addedCount) {
if (this.suspended) { return; }
var addedItem = this.callbacks.addedItem,
guid = guidFor(dependentArray),
dependentKey = this.dependentKeysByGuid[guid],
observerContexts = new Array(addedCount),
itemPropertyKeys = this.cp._itemPropertyKeys[dependentKey],
length = get(dependentArray, 'length'),
normalizedIndex = normalizeIndex(index, length, addedCount),
changeMeta,
observerContext;
forEach(dependentArray.slice(normalizedIndex, normalizedIndex + addedCount), function (item, sliceIndex) {
if (itemPropertyKeys) {
observerContext =
observerContexts[sliceIndex] =
this.createPropertyObserverContext(dependentArray, normalizedIndex + sliceIndex, this.trackedArraysByGuid[dependentKey]);
forEach(itemPropertyKeys, function (propertyKey) {
addBeforeObserver(item, propertyKey, this, observerContext.beforeObserver);
addObserver(item, propertyKey, this, observerContext.observer);
}, this);
}
changeMeta = createChangeMeta(dependentArray, item, normalizedIndex + sliceIndex, this.instanceMeta.propertyName, this.cp);
this.setValue( addedItem.call(
this.instanceMeta.context, this.getValue(), item, changeMeta, this.instanceMeta.sugarMeta));
}, this);
this.trackAdd(dependentKey, normalizedIndex, observerContexts);
},
itemPropertyWillChange: function (obj, keyName, array, observerContext) {
var guid = guidFor(obj);
if (!this.changedItems[guid]) {
this.changedItems[guid] = {
array: array,
observerContext: observerContext,
obj: obj,
previousValues: {}
};
}
this.changedItems[guid].previousValues[keyName] = get(obj, keyName);
},
itemPropertyDidChange: function(obj, keyName, array, observerContext) {
this.flushChanges();
},
flushChanges: function() {
var changedItems = this.changedItems, key, c, changeMeta;
for (key in changedItems) {
c = changedItems[key];
if (c.observerContext.destroyed) { continue; }
this.updateIndexes(c.observerContext.trackedArray, c.observerContext.dependentArray);
changeMeta = createChangeMeta(c.array, c.obj, c.observerContext.index, this.instanceMeta.propertyName, this.cp, c.previousValues);
this.setValue(
this.callbacks.removedItem.call(this.instanceMeta.context, this.getValue(), c.obj, changeMeta, this.instanceMeta.sugarMeta));
this.setValue(
this.callbacks.addedItem.call(this.instanceMeta.context, this.getValue(), c.obj, changeMeta, this.instanceMeta.sugarMeta));
}
this.changedItems = {};
}
};
function normalizeIndex(index, length, newItemsOffset) {
if (index < 0) {
return Math.max(0, length + index);
} else if (index < length) {
return index;
} else /* index > length */ {
return Math.min(length - newItemsOffset, index);
}
}
function normalizeRemoveCount(index, length, removedCount) {
return Math.min(removedCount, length - index);
}
function createChangeMeta(dependentArray, item, index, propertyName, property, previousValues) {
var meta = {
arrayChanged: dependentArray,
index: index,
item: item,
propertyName: propertyName,
property: property
};
if (previousValues) {
// previous values only available for item property changes
meta.previousValues = previousValues;
}
return meta;
}
function addItems (dependentArray, callbacks, cp, propertyName, meta) {
forEach(dependentArray, function (item, index) {
meta.setValue( callbacks.addedItem.call(
this, meta.getValue(), item, createChangeMeta(dependentArray, item, index, propertyName, cp), meta.sugarMeta));
}, this);
}
function reset(cp, propertyName) {
var callbacks = cp._callbacks(),
meta;
if (cp._hasInstanceMeta(this, propertyName)) {
meta = cp._instanceMeta(this, propertyName);
meta.setValue(cp.resetValue(meta.getValue()));
} else {
meta = cp._instanceMeta(this, propertyName);
}
if (cp.options.initialize) {
cp.options.initialize.call(this, meta.getValue(), { property: cp, propertyName: propertyName }, meta.sugarMeta);
}
}
function partiallyRecomputeFor(obj, dependentKey) {
if (arrayBracketPattern.test(dependentKey)) {
return false;
}
var value = get(obj, dependentKey);
return Ember.Array.detect(value);
}
function ReduceComputedPropertyInstanceMeta(context, propertyName, initialValue) {
this.context = context;
this.propertyName = propertyName;
this.cache = metaFor(context).cache;
this.dependentArrays = {};
this.sugarMeta = {};
this.initialValue = initialValue;
}
ReduceComputedPropertyInstanceMeta.prototype = {
getValue: function () {
if (this.propertyName in this.cache) {
return this.cache[this.propertyName];
} else {
return this.initialValue;
}
},
setValue: function(newValue, triggerObservers) {
// This lets sugars force a recomputation, handy for very simple
// implementations of eg max.
if (newValue === this.cache[this.propertyName]) {
return;
}
if (triggerObservers) {
propertyWillChange(this.context, this.propertyName);
}
if (newValue === undefined) {
delete this.cache[this.propertyName];
} else {
this.cache[this.propertyName] = newValue;
}
if (triggerObservers) {
propertyDidChange(this.context, this.propertyName);
}
}
};
/**
A computed property whose dependent keys are arrays and which is updated with
"one at a time" semantics.
@class ReduceComputedProperty
@namespace Ember
@extends Ember.ComputedProperty
@constructor
*/
function ReduceComputedProperty(options) {
var cp = this;
this.options = options;
this._dependentKeys = null;
// A map of dependentKey -> [itemProperty, ...] that tracks what properties of
// items in the array we must track to update this property.
this._itemPropertyKeys = {};
this._previousItemPropertyKeys = {};
this.readOnly();
this.cacheable();
this.recomputeOnce = function(propertyName) {
// TODO: Coalesce recomputation by <this, propertyName, cp>.
recompute.call(this, propertyName);
};
var recompute = function(propertyName) {
var dependentKeys = cp._dependentKeys,
meta = cp._instanceMeta(this, propertyName),
callbacks = cp._callbacks();
reset.call(this, cp, propertyName);
meta.dependentArraysObserver.suspendArrayObservers(function () {
forEach(cp._dependentKeys, function (dependentKey) {
Ember.assert(
"dependent array " + dependentKey + " must be an `Ember.Array`. " +
"If you are not extending arrays, you will need to wrap native arrays with `Ember.A`",
!(Ember.isArray(get(this, dependentKey)) && !Ember.Array.detect(get(this, dependentKey))));
if (!partiallyRecomputeFor(this, dependentKey)) { return; }
var dependentArray = get(this, dependentKey),
previousDependentArray = meta.dependentArrays[dependentKey];
if (dependentArray === previousDependentArray) {
// The array may be the same, but our item property keys may have
// changed, so we set them up again. We can't easily tell if they've
// changed: the array may be the same object, but with different
// contents.
if (cp._previousItemPropertyKeys[dependentKey]) {
delete cp._previousItemPropertyKeys[dependentKey];
meta.dependentArraysObserver.setupPropertyObservers(dependentKey, cp._itemPropertyKeys[dependentKey]);
}
} else {
meta.dependentArrays[dependentKey] = dependentArray;
if (previousDependentArray) {
meta.dependentArraysObserver.teardownObservers(previousDependentArray, dependentKey);
}
if (dependentArray) {
meta.dependentArraysObserver.setupObservers(dependentArray, dependentKey);
}
}
}, this);
}, this);
forEach(cp._dependentKeys, function(dependentKey) {
if (!partiallyRecomputeFor(this, dependentKey)) { return; }
var dependentArray = get(this, dependentKey);
if (dependentArray) {
addItems.call(this, dependentArray, callbacks, cp, propertyName, meta);
}
}, this);
};
this.func = function (propertyName) {
Ember.assert("Computed reduce values require at least one dependent key", cp._dependentKeys);
recompute.call(this, propertyName);
return cp._instanceMeta(this, propertyName).getValue();
};
}
Ember.ReduceComputedProperty = ReduceComputedProperty;
ReduceComputedProperty.prototype = o_create(ComputedProperty.prototype);
function defaultCallback(computedValue) {
return computedValue;
}
ReduceComputedProperty.prototype._callbacks = function () {
if (!this.callbacks) {
var options = this.options;
this.callbacks = {
removedItem: options.removedItem || defaultCallback,
addedItem: options.addedItem || defaultCallback
};
}
return this.callbacks;
};
ReduceComputedProperty.prototype._hasInstanceMeta = function (context, propertyName) {
return !!metaFor(context).cacheMeta[propertyName];
};
ReduceComputedProperty.prototype._instanceMeta = function (context, propertyName) {
var cacheMeta = metaFor(context).cacheMeta,
meta = cacheMeta[propertyName];
if (!meta) {
meta = cacheMeta[propertyName] = new ReduceComputedPropertyInstanceMeta(context, propertyName, this.initialValue());
meta.dependentArraysObserver = new DependentArraysObserver(this._callbacks(), this, meta, context, propertyName, meta.sugarMeta);
}
return meta;
};
ReduceComputedProperty.prototype.initialValue = function () {
if (typeof this.options.initialValue === 'function') {
return this.options.initialValue();
}
else {
return this.options.initialValue;
}
};
ReduceComputedProperty.prototype.resetValue = function (value) {
return this.initialValue();
};
ReduceComputedProperty.prototype.itemPropertyKey = function (dependentArrayKey, itemPropertyKey) {
this._itemPropertyKeys[dependentArrayKey] = this._itemPropertyKeys[dependentArrayKey] || [];
this._itemPropertyKeys[dependentArrayKey].push(itemPropertyKey);
};
ReduceComputedProperty.prototype.clearItemPropertyKeys = function (dependentArrayKey) {
if (this._itemPropertyKeys[dependentArrayKey]) {
this._previousItemPropertyKeys[dependentArrayKey] = this._itemPropertyKeys[dependentArrayKey];
this._itemPropertyKeys[dependentArrayKey] = [];
}
};
ReduceComputedProperty.prototype.property = function () {
var cp = this,
args = a_slice.call(arguments),
propertyArgs = new Ember.Set(),
match,
dependentArrayKey,
itemPropertyKey;
forEach(args, function (dependentKey) {
if (doubleEachPropertyPattern.test(dependentKey)) {
throw new Ember.Error("Nested @each properties not supported: " + dependentKey);
} else if (match = eachPropertyPattern.exec(dependentKey)) {
dependentArrayKey = match[1];
var itemPropertyKeyPattern = match[2],
addItemPropertyKey = function (itemPropertyKey) {
cp.itemPropertyKey(dependentArrayKey, itemPropertyKey);
};
expandProperties(itemPropertyKeyPattern, addItemPropertyKey);
propertyArgs.add(dependentArrayKey);
} else {
propertyArgs.add(dependentKey);
}
});
return ComputedProperty.prototype.property.apply(this, propertyArgs.toArray());
};
/**
Creates a computed property which operates on dependent arrays and
is updated with "one at a time" semantics. When items are added or
removed from the dependent array(s) a reduce computed only operates
on the change instead of re-evaluating the entire array.
If there are more than one arguments the first arguments are
considered to be dependent property keys. The last argument is
required to be an options object. The options object can have the
following four properties:
`initialValue` - A value or function that will be used as the initial
value for the computed. If this property is a function the result of calling
the function will be used as the initial value. This property is required.
`initialize` - An optional initialize function. Typically this will be used
to set up state on the instanceMeta object.
`removedItem` - A function that is called each time an element is removed
from the array.
`addedItem` - A function that is called each time an element is added to
the array.
The `initialize` function has the following signature:
```javascript
function (initialValue, changeMeta, instanceMeta)
```
`initialValue` - The value of the `initialValue` property from the
options object.
`changeMeta` - An object which contains meta information about the
computed. It contains the following properties:
- `property` the computed property
- `propertyName` the name of the property on the object
`instanceMeta` - An object that can be used to store meta
information needed for calculating your computed. For example a
unique computed might use this to store the number of times a given
element is found in the dependent array.
The `removedItem` and `addedItem` functions both have the following signature:
```javascript
function (accumulatedValue, item, changeMeta, instanceMeta)
```
`accumulatedValue` - The value returned from the last time
`removedItem` or `addedItem` was called or `initialValue`.
`item` - the element added or removed from the array
`changeMeta` - An object which contains meta information about the
change. It contains the following properties:
- `property` the computed property
- `propertyName` the name of the property on the object
- `index` the index of the added or removed item
- `item` the added or removed item: this is exactly the same as
the second arg
- `arrayChanged` the array that triggered the change. Can be
useful when depending on multiple arrays.
For property changes triggered on an item property change (when
depKey is something like `someArray.@each.someProperty`),
`changeMeta` will also contain the following property:
- `previousValues` an object whose keys are the properties that changed on
the item, and whose values are the item's previous values.
`previousValues` is important Ember coalesces item property changes via
Ember.run.once. This means that by the time removedItem gets called, item has
the new values, but you may need the previous value (eg for sorting &
filtering).
`instanceMeta` - An object that can be used to store meta
information needed for calculating your computed. For example a
unique computed might use this to store the number of times a given
element is found in the dependent array.
The `removedItem` and `addedItem` functions should return the accumulated
value. It is acceptable to not return anything (ie return undefined)
to invalidate the computation. This is generally not a good idea for
arrayComputed but it's used in eg max and min.
Note that observers will be fired if either of these functions return a value
that differs from the accumulated value. When returning an object that
mutates in response to array changes, for example an array that maps
everything from some other array (see `Ember.computed.map`), it is usually
important that the *same* array be returned to avoid accidentally triggering observers.
Example
```javascript
Ember.computed.max = function (dependentKey) {
return Ember.reduceComputed(dependentKey, {
initialValue: -Infinity,
addedItem: function (accumulatedValue, item, changeMeta, instanceMeta) {
return Math.max(accumulatedValue, item);
},
removedItem: function (accumulatedValue, item, changeMeta, instanceMeta) {
if (item < accumulatedValue) {
return accumulatedValue;
}
}
});
};
```
Dependent keys may refer to `@this` to observe changes to the object itself,
which must be array-like, rather than a property of the object. This is
mostly useful for array proxies, to ensure objects are retrieved via
`objectAtContent`. This is how you could sort items by properties defined on an item controller.
Example
```javascript
App.PeopleController = Ember.ArrayController.extend({
itemController: 'person',
sortedPeople: Ember.computed.sort('@this.@each.reversedName', function(personA, personB) {
// `reversedName` isn't defined on Person, but we have access to it via
// the item controller App.PersonController. If we'd used
// `content.@each.reversedName` above, we would be getting the objects
// directly and not have access to `reversedName`.
//
var reversedNameA = get(personA, 'reversedName'),
reversedNameB = get(personB, 'reversedName');
return Ember.compare(reversedNameA, reversedNameB);
})
});
App.PersonController = Ember.ObjectController.extend({
reversedName: function () {
return reverse(get(this, 'name'));
}.property('name')
})
```
Dependent keys whose values are not arrays are treated as regular
dependencies: when they change, the computed property is completely
recalculated. It is sometimes useful to have dependent arrays with similar
semantics. Dependent keys which end in `.[]` do not use "one at a time"
semantics. When an item is added or removed from such a dependency, the
computed property is completely recomputed.
Example
```javascript
Ember.Object.extend({
// When `string` is changed, `computed` is completely recomputed.
string: 'a string',
// When an item is added to `array`, `addedItem` is called.
array: [],
// When an item is added to `anotherArray`, `computed` is completely
// recomputed.
anotherArray: [],
computed: Ember.reduceComputed('string', 'array', 'anotherArray.[]', {
addedItem: addedItemCallback,
removedItem: removedItemCallback
})
});
```
@method reduceComputed
@for Ember
@param {String} [dependentKeys*]
@param {Object} options
@return {Ember.ComputedProperty}
*/
Ember.reduceComputed = function (options) {
var args;
if (arguments.length > 1) {
args = a_slice.call(arguments, 0, -1);
options = a_slice.call(arguments, -1)[0];
}
if (typeof options !== "object") {
throw new Ember.Error("Reduce Computed Property declared without an options hash");
}
if (!('initialValue' in options)) {
throw new Ember.Error("Reduce Computed Property declared without an initial value");
}
var cp = new ReduceComputedProperty(options);
if (args) {
cp.property.apply(cp, args);
}
return cp;
};
})();
(function() {
var ReduceComputedProperty = Ember.ReduceComputedProperty,
a_slice = [].slice,
o_create = Ember.create,
forEach = Ember.EnumerableUtils.forEach;
function ArrayComputedProperty() {
var cp = this;
ReduceComputedProperty.apply(this, arguments);
this.func = (function(reduceFunc) {
return function (propertyName) {
if (!cp._hasInstanceMeta(this, propertyName)) {
// When we recompute an array computed property, we need already
// retrieved arrays to be updated; we can't simply empty the cache and
// hope the array is re-retrieved.
forEach(cp._dependentKeys, function(dependentKey) {
Ember.addObserver(this, dependentKey, function() {
cp.recomputeOnce.call(this, propertyName);
});
}, this);
}
return reduceFunc.apply(this, arguments);
};
})(this.func);
return this;
}
Ember.ArrayComputedProperty = ArrayComputedProperty;
ArrayComputedProperty.prototype = o_create(ReduceComputedProperty.prototype);
ArrayComputedProperty.prototype.initialValue = function () {
return Ember.A();
};
ArrayComputedProperty.prototype.resetValue = function (array) {
array.clear();
return array;
};
// This is a stopgap to keep the reference counts correct with lazy CPs.
ArrayComputedProperty.prototype.didChange = function (obj, keyName) {
return;
};
/**
Creates a computed property which operates on dependent arrays and
is updated with "one at a time" semantics. When items are added or
removed from the dependent array(s) an array computed only operates
on the change instead of re-evaluating the entire array. This should
return an array, if you'd like to use "one at a time" semantics and
compute some value other then an array look at
`Ember.reduceComputed`.
If there are more than one arguments the first arguments are
considered to be dependent property keys. The last argument is
required to be an options object. The options object can have the
following three properties.
`initialize` - An optional initialize function. Typically this will be used
to set up state on the instanceMeta object.
`removedItem` - A function that is called each time an element is
removed from the array.
`addedItem` - A function that is called each time an element is
added to the array.
The `initialize` function has the following signature:
```javascript
function (array, changeMeta, instanceMeta)
```
`array` - The initial value of the arrayComputed, an empty array.
`changeMeta` - An object which contains meta information about the
computed. It contains the following properties:
- `property` the computed property
- `propertyName` the name of the property on the object
`instanceMeta` - An object that can be used to store meta
information needed for calculating your computed. For example a
unique computed might use this to store the number of times a given
element is found in the dependent array.
The `removedItem` and `addedItem` functions both have the following signature:
```javascript
function (accumulatedValue, item, changeMeta, instanceMeta)
```
`accumulatedValue` - The value returned from the last time
`removedItem` or `addedItem` was called or an empty array.
`item` - the element added or removed from the array
`changeMeta` - An object which contains meta information about the
change. It contains the following properties:
- `property` the computed property
- `propertyName` the name of the property on the object
- `index` the index of the added or removed item
- `item` the added or removed item: this is exactly the same as
the second arg
- `arrayChanged` the array that triggered the change. Can be
useful when depending on multiple arrays.
For property changes triggered on an item property change (when
depKey is something like `someArray.@each.someProperty`),
`changeMeta` will also contain the following property:
- `previousValues` an object whose keys are the properties that changed on
the item, and whose values are the item's previous values.
`previousValues` is important Ember coalesces item property changes via
Ember.run.once. This means that by the time removedItem gets called, item has
the new values, but you may need the previous value (eg for sorting &
filtering).
`instanceMeta` - An object that can be used to store meta
information needed for calculating your computed. For example a
unique computed might use this to store the number of times a given
element is found in the dependent array.
The `removedItem` and `addedItem` functions should return the accumulated
value. It is acceptable to not return anything (ie return undefined)
to invalidate the computation. This is generally not a good idea for
arrayComputed but it's used in eg max and min.
Example
```javascript
Ember.computed.map = function(dependentKey, callback) {
var options = {
addedItem: function(array, item, changeMeta, instanceMeta) {
var mapped = callback(item);
array.insertAt(changeMeta.index, mapped);
return array;
},
removedItem: function(array, item, changeMeta, instanceMeta) {
array.removeAt(changeMeta.index, 1);
return array;
}
};
return Ember.arrayComputed(dependentKey, options);
};
```
@method arrayComputed
@for Ember
@param {String} [dependentKeys*]
@param {Object} options
@return {Ember.ComputedProperty}
*/
Ember.arrayComputed = function (options) {
var args;
if (arguments.length > 1) {
args = a_slice.call(arguments, 0, -1);
options = a_slice.call(arguments, -1)[0];
}
if (typeof options !== "object") {
throw new Ember.Error("Array Computed Property declared without an options hash");
}
var cp = new ArrayComputedProperty(options);
if (args) {
cp.property.apply(cp, args);
}
return cp;
};
})();
(function() {
/**
@module ember
@submodule ember-runtime
*/
var get = Ember.get,
set = Ember.set,
guidFor = Ember.guidFor,
merge = Ember.merge,
a_slice = [].slice,
forEach = Ember.EnumerableUtils.forEach,
map = Ember.EnumerableUtils.map,
SearchProxy;
/**
A computed property that returns the sum of the value
in the dependent array.
@method computed.sum
@for Ember
@param {String} dependentKey
@return {Ember.ComputedProperty} computes the sum of all values in the dependentKey's array
*/
Ember.computed.sum = function(dependentKey){
return Ember.reduceComputed(dependentKey, {
initialValue: 0,
addedItem: function(accumulatedValue, item, changeMeta, instanceMeta){
return accumulatedValue + item;
},
removedItem: function(accumulatedValue, item, changeMeta, instanceMeta){
return accumulatedValue - item;
}
});
};
/**
A computed property that calculates the maximum value in the
dependent array. This will return `-Infinity` when the dependent
array is empty.
```javascript
App.Person = Ember.Object.extend({
childAges: Ember.computed.mapBy('children', 'age'),
maxChildAge: Ember.computed.max('childAges')
});
var lordByron = App.Person.create({children: []});
lordByron.get('maxChildAge'); // -Infinity
lordByron.get('children').pushObject({
name: 'Augusta Ada Byron', age: 7
});
lordByron.get('maxChildAge'); // 7
lordByron.get('children').pushObjects([{
name: 'Allegra Byron',
age: 5
}, {
name: 'Elizabeth Medora Leigh',
age: 8
}]);
lordByron.get('maxChildAge'); // 8
```
@method computed.max
@for Ember
@param {String} dependentKey
@return {Ember.ComputedProperty} computes the largest value in the dependentKey's array
*/
Ember.computed.max = function (dependentKey) {
return Ember.reduceComputed(dependentKey, {
initialValue: -Infinity,
addedItem: function (accumulatedValue, item, changeMeta, instanceMeta) {
return Math.max(accumulatedValue, item);
},
removedItem: function (accumulatedValue, item, changeMeta, instanceMeta) {
if (item < accumulatedValue) {
return accumulatedValue;
}
}
});
};
/**
A computed property that calculates the minimum value in the
dependent array. This will return `Infinity` when the dependent
array is empty.
```javascript
App.Person = Ember.Object.extend({
childAges: Ember.computed.mapBy('children', 'age'),
minChildAge: Ember.computed.min('childAges')
});
var lordByron = App.Person.create({children: []});
lordByron.get('minChildAge'); // Infinity
lordByron.get('children').pushObject({
name: 'Augusta Ada Byron', age: 7
});
lordByron.get('minChildAge'); // 7
lordByron.get('children').pushObjects([{
name: 'Allegra Byron',
age: 5
}, {
name: 'Elizabeth Medora Leigh',
age: 8
}]);
lordByron.get('minChildAge'); // 5
```
@method computed.min
@for Ember
@param {String} dependentKey
@return {Ember.ComputedProperty} computes the smallest value in the dependentKey's array
*/
Ember.computed.min = function (dependentKey) {
return Ember.reduceComputed(dependentKey, {
initialValue: Infinity,
addedItem: function (accumulatedValue, item, changeMeta, instanceMeta) {
return Math.min(accumulatedValue, item);
},
removedItem: function (accumulatedValue, item, changeMeta, instanceMeta) {
if (item > accumulatedValue) {
return accumulatedValue;
}
}
});
};
/**
Returns an array mapped via the callback
The callback method you provide should have the following signature.
`item` is the current item in the iteration.
```javascript
function(item);
```
Example
```javascript
App.Hamster = Ember.Object.extend({
excitingChores: Ember.computed.map('chores', function(chore) {
return chore.toUpperCase() + '!';
})
});
var hamster = App.Hamster.create({
chores: ['clean', 'write more unit tests']
});
hamster.get('excitingChores'); // ['CLEAN!', 'WRITE MORE UNIT TESTS!']
```
@method computed.map
@for Ember
@param {String} dependentKey
@param {Function} callback
@return {Ember.ComputedProperty} an array mapped via the callback
*/
Ember.computed.map = function(dependentKey, callback) {
var options = {
addedItem: function(array, item, changeMeta, instanceMeta) {
var mapped = callback.call(this, item);
array.insertAt(changeMeta.index, mapped);
return array;
},
removedItem: function(array, item, changeMeta, instanceMeta) {
array.removeAt(changeMeta.index, 1);
return array;
}
};
return Ember.arrayComputed(dependentKey, options);
};
/**
Returns an array mapped to the specified key.
```javascript
App.Person = Ember.Object.extend({
childAges: Ember.computed.mapBy('children', 'age')
});
var lordByron = App.Person.create({children: []});
lordByron.get('childAges'); // []
lordByron.get('children').pushObject({name: 'Augusta Ada Byron', age: 7});
lordByron.get('childAges'); // [7]
lordByron.get('children').pushObjects([{
name: 'Allegra Byron',
age: 5
}, {
name: 'Elizabeth Medora Leigh',
age: 8
}]);
lordByron.get('childAges'); // [7, 5, 8]
```
@method computed.mapBy
@for Ember
@param {String} dependentKey
@param {String} propertyKey
@return {Ember.ComputedProperty} an array mapped to the specified key
*/
Ember.computed.mapBy = function(dependentKey, propertyKey) {
var callback = function(item) { return get(item, propertyKey); };
return Ember.computed.map(dependentKey + '.@each.' + propertyKey, callback);
};
/**
@method computed.mapProperty
@for Ember
@deprecated Use `Ember.computed.mapBy` instead
@param dependentKey
@param propertyKey
*/
Ember.computed.mapProperty = Ember.computed.mapBy;
/**
Filters the array by the callback.
The callback method you provide should have the following signature.
`item` is the current item in the iteration.
```javascript
function(item);
```
```javascript
App.Hamster = Ember.Object.extend({
remainingChores: Ember.computed.filter('chores', function(chore) {
return !chore.done;
})
});
var hamster = App.Hamster.create({chores: [
{name: 'cook', done: true},
{name: 'clean', done: true},
{name: 'write more unit tests', done: false}
]});
hamster.get('remainingChores'); // [{name: 'write more unit tests', done: false}]
```
@method computed.filter
@for Ember
@param {String} dependentKey
@param {Function} callback
@return {Ember.ComputedProperty} the filtered array
*/
Ember.computed.filter = function(dependentKey, callback) {
var options = {
initialize: function (array, changeMeta, instanceMeta) {
instanceMeta.filteredArrayIndexes = new Ember.SubArray();
},
addedItem: function(array, item, changeMeta, instanceMeta) {
var match = !!callback.call(this, item),
filterIndex = instanceMeta.filteredArrayIndexes.addItem(changeMeta.index, match);
if (match) {
array.insertAt(filterIndex, item);
}
return array;
},
removedItem: function(array, item, changeMeta, instanceMeta) {
var filterIndex = instanceMeta.filteredArrayIndexes.removeItem(changeMeta.index);
if (filterIndex > -1) {
array.removeAt(filterIndex);
}
return array;
}
};
return Ember.arrayComputed(dependentKey, options);
};
/**
Filters the array by the property and value
```javascript
App.Hamster = Ember.Object.extend({
remainingChores: Ember.computed.filterBy('chores', 'done', false)
});
var hamster = App.Hamster.create({chores: [
{name: 'cook', done: true},
{name: 'clean', done: true},
{name: 'write more unit tests', done: false}
]});
hamster.get('remainingChores'); // [{name: 'write more unit tests', done: false}]
```
@method computed.filterBy
@for Ember
@param {String} dependentKey
@param {String} propertyKey
@param {*} value
@return {Ember.ComputedProperty} the filtered array
*/
Ember.computed.filterBy = function(dependentKey, propertyKey, value) {
var callback;
if (arguments.length === 2) {
callback = function(item) {
return get(item, propertyKey);
};
} else {
callback = function(item) {
return get(item, propertyKey) === value;
};
}
return Ember.computed.filter(dependentKey + '.@each.' + propertyKey, callback);
};
/**
@method computed.filterProperty
@for Ember
@param dependentKey
@param propertyKey
@param value
@deprecated Use `Ember.computed.filterBy` instead
*/
Ember.computed.filterProperty = Ember.computed.filterBy;
/**
A computed property which returns a new array with all the unique
elements from one or more dependent arrays.
Example
```javascript
App.Hamster = Ember.Object.extend({
uniqueFruits: Ember.computed.uniq('fruits')
});
var hamster = App.Hamster.create({fruits: [
'banana',
'grape',
'kale',
'banana'
]});
hamster.get('uniqueFruits'); // ['banana', 'grape', 'kale']
```
@method computed.uniq
@for Ember
@param {String} propertyKey*
@return {Ember.ComputedProperty} computes a new array with all the
unique elements from the dependent array
*/
Ember.computed.uniq = function() {
var args = a_slice.call(arguments);
args.push({
initialize: function(array, changeMeta, instanceMeta) {
instanceMeta.itemCounts = {};
},
addedItem: function(array, item, changeMeta, instanceMeta) {
var guid = guidFor(item);
if (!instanceMeta.itemCounts[guid]) {
instanceMeta.itemCounts[guid] = 1;
} else {
++instanceMeta.itemCounts[guid];
}
array.addObject(item);
return array;
},
removedItem: function(array, item, _, instanceMeta) {
var guid = guidFor(item),
itemCounts = instanceMeta.itemCounts;
if (--itemCounts[guid] === 0) {
array.removeObject(item);
}
return array;
}
});
return Ember.arrayComputed.apply(null, args);
};
/**
Alias for [Ember.computed.uniq](/api/#method_computed_uniq).
@method computed.union
@for Ember
@param {String} propertyKey*
@return {Ember.ComputedProperty} computes a new array with all the
unique elements from the dependent array
*/
Ember.computed.union = Ember.computed.uniq;
/**
A computed property which returns a new array with all the duplicated
elements from two or more dependent arrays.
Example
```javascript
var obj = Ember.Object.createWithMixins({
adaFriends: ['Charles Babbage', 'John Hobhouse', 'William King', 'Mary Somerville'],
charlesFriends: ['William King', 'Mary Somerville', 'Ada Lovelace', 'George Peacock'],
friendsInCommon: Ember.computed.intersect('adaFriends', 'charlesFriends')
});
obj.get('friendsInCommon'); // ['William King', 'Mary Somerville']
```
@method computed.intersect
@for Ember
@param {String} propertyKey*
@return {Ember.ComputedProperty} computes a new array with all the
duplicated elements from the dependent arrays
*/
Ember.computed.intersect = function () {
var getDependentKeyGuids = function (changeMeta) {
return map(changeMeta.property._dependentKeys, function (dependentKey) {
return guidFor(dependentKey);
});
};
var args = a_slice.call(arguments);
args.push({
initialize: function (array, changeMeta, instanceMeta) {
instanceMeta.itemCounts = {};
},
addedItem: function(array, item, changeMeta, instanceMeta) {
var itemGuid = guidFor(item),
dependentGuids = getDependentKeyGuids(changeMeta),
dependentGuid = guidFor(changeMeta.arrayChanged),
numberOfDependentArrays = changeMeta.property._dependentKeys.length,
itemCounts = instanceMeta.itemCounts;
if (!itemCounts[itemGuid]) { itemCounts[itemGuid] = {}; }
if (itemCounts[itemGuid][dependentGuid] === undefined) { itemCounts[itemGuid][dependentGuid] = 0; }
if (++itemCounts[itemGuid][dependentGuid] === 1 &&
numberOfDependentArrays === Ember.keys(itemCounts[itemGuid]).length) {
array.addObject(item);
}
return array;
},
removedItem: function(array, item, changeMeta, instanceMeta) {
var itemGuid = guidFor(item),
dependentGuids = getDependentKeyGuids(changeMeta),
dependentGuid = guidFor(changeMeta.arrayChanged),
numberOfDependentArrays = changeMeta.property._dependentKeys.length,
numberOfArraysItemAppearsIn,
itemCounts = instanceMeta.itemCounts;
if (itemCounts[itemGuid][dependentGuid] === undefined) { itemCounts[itemGuid][dependentGuid] = 0; }
if (--itemCounts[itemGuid][dependentGuid] === 0) {
delete itemCounts[itemGuid][dependentGuid];
numberOfArraysItemAppearsIn = Ember.keys(itemCounts[itemGuid]).length;
if (numberOfArraysItemAppearsIn === 0) {
delete itemCounts[itemGuid];
}
array.removeObject(item);
}
return array;
}
});
return Ember.arrayComputed.apply(null, args);
};
/**
A computed property which returns a new array with all the
properties from the first dependent array that are not in the second
dependent array.
Example
```javascript
App.Hamster = Ember.Object.extend({
likes: ['banana', 'grape', 'kale'],
wants: Ember.computed.setDiff('likes', 'fruits')
});
var hamster = App.Hamster.create({fruits: [
'grape',
'kale',
]});
hamster.get('wants'); // ['banana']
```
@method computed.setDiff
@for Ember
@param {String} setAProperty
@param {String} setBProperty
@return {Ember.ComputedProperty} computes a new array with all the
items from the first dependent array that are not in the second
dependent array
*/
Ember.computed.setDiff = function (setAProperty, setBProperty) {
if (arguments.length !== 2) {
throw new Ember.Error("setDiff requires exactly two dependent arrays.");
}
return Ember.arrayComputed(setAProperty, setBProperty, {
addedItem: function (array, item, changeMeta, instanceMeta) {
var setA = get(this, setAProperty),
setB = get(this, setBProperty);
if (changeMeta.arrayChanged === setA) {
if (!setB.contains(item)) {
array.addObject(item);
}
} else {
array.removeObject(item);
}
return array;
},
removedItem: function (array, item, changeMeta, instanceMeta) {
var setA = get(this, setAProperty),
setB = get(this, setBProperty);
if (changeMeta.arrayChanged === setB) {
if (setA.contains(item)) {
array.addObject(item);
}
} else {
array.removeObject(item);
}
return array;
}
});
};
function binarySearch(array, item, low, high) {
var mid, midItem, res, guidMid, guidItem;
if (arguments.length < 4) { high = get(array, 'length'); }
if (arguments.length < 3) { low = 0; }
if (low === high) {
return low;
}
mid = low + Math.floor((high - low) / 2);
midItem = array.objectAt(mid);
guidMid = _guidFor(midItem);
guidItem = _guidFor(item);
if (guidMid === guidItem) {
return mid;
}
res = this.order(midItem, item);
if (res === 0) {
res = guidMid < guidItem ? -1 : 1;
}
if (res < 0) {
return this.binarySearch(array, item, mid+1, high);
} else if (res > 0) {
return this.binarySearch(array, item, low, mid);
}
return mid;
function _guidFor(item) {
if (SearchProxy.detectInstance(item)) {
return guidFor(get(item, 'content'));
}
return guidFor(item);
}
}
SearchProxy = Ember.ObjectProxy.extend();
/**
A computed property which returns a new array with all the
properties from the first dependent array sorted based on a property
or sort function.
The callback method you provide should have the following signature:
```javascript
function(itemA, itemB);
```
- `itemA` the first item to compare.
- `itemB` the second item to compare.
This function should return negative number (e.g. `-1`) when `itemA` should come before
`itemB`. It should return positive number (e.g. `1`) when `itemA` should come after
`itemB`. If the `itemA` and `itemB` are equal this function should return `0`.
Therefore, if this function is comparing some numeric values, simple `itemA - itemB` or
`itemA.get( 'foo' ) - itemB.get( 'foo' )` can be used instead of series of `if`.
Example
```javascript
var ToDoList = Ember.Object.extend({
todosSorting: ['name'],
sortedTodos: Ember.computed.sort('todos', 'todosSorting'),
priorityTodos: Ember.computed.sort('todos', function(a, b){
if (a.priority > b.priority) {
return 1;
} else if (a.priority < b.priority) {
return -1;
}
return 0;
}),
});
var todoList = ToDoList.create({todos: [
{name: 'Unit Test', priority: 2},
{name: 'Documentation', priority: 3},
{name: 'Release', priority: 1}
]});
todoList.get('sortedTodos'); // [{name:'Documentation', priority:3}, {name:'Release', priority:1}, {name:'Unit Test', priority:2}]
todoList.get('priorityTodos'); // [{name:'Release', priority:1}, {name:'Unit Test', priority:2}, {name:'Documentation', priority:3}]
```
@method computed.sort
@for Ember
@param {String} dependentKey
@param {String or Function} sortDefinition a dependent key to an
array of sort properties or a function to use when sorting
@return {Ember.ComputedProperty} computes a new sorted array based
on the sort property array or callback function
*/
Ember.computed.sort = function (itemsKey, sortDefinition) {
Ember.assert("Ember.computed.sort requires two arguments: an array key to sort and either a sort properties key or sort function", arguments.length === 2);
var initFn, sortPropertiesKey;
if (typeof sortDefinition === 'function') {
initFn = function (array, changeMeta, instanceMeta) {
instanceMeta.order = sortDefinition;
instanceMeta.binarySearch = binarySearch;
};
} else {
sortPropertiesKey = sortDefinition;
initFn = function (array, changeMeta, instanceMeta) {
function setupSortProperties() {
var sortPropertyDefinitions = get(this, sortPropertiesKey),
sortProperty,
sortProperties = instanceMeta.sortProperties = [],
sortPropertyAscending = instanceMeta.sortPropertyAscending = {},
idx,
asc;
Ember.assert("Cannot sort: '" + sortPropertiesKey + "' is not an array.", Ember.isArray(sortPropertyDefinitions));
changeMeta.property.clearItemPropertyKeys(itemsKey);
forEach(sortPropertyDefinitions, function (sortPropertyDefinition) {
if ((idx = sortPropertyDefinition.indexOf(':')) !== -1) {
sortProperty = sortPropertyDefinition.substring(0, idx);
asc = sortPropertyDefinition.substring(idx+1).toLowerCase() !== 'desc';
} else {
sortProperty = sortPropertyDefinition;
asc = true;
}
sortProperties.push(sortProperty);
sortPropertyAscending[sortProperty] = asc;
changeMeta.property.itemPropertyKey(itemsKey, sortProperty);
});
sortPropertyDefinitions.addObserver('@each', this, updateSortPropertiesOnce);
}
function updateSortPropertiesOnce() {
Ember.run.once(this, updateSortProperties, changeMeta.propertyName);
}
function updateSortProperties(propertyName) {
setupSortProperties.call(this);
changeMeta.property.recomputeOnce.call(this, propertyName);
}
Ember.addObserver(this, sortPropertiesKey, updateSortPropertiesOnce);
setupSortProperties.call(this);
instanceMeta.order = function (itemA, itemB) {
var isProxy = itemB instanceof SearchProxy,
sortProperty, result, asc;
for (var i = 0; i < this.sortProperties.length; ++i) {
sortProperty = this.sortProperties[i];
result = Ember.compare(get(itemA, sortProperty), isProxy ? itemB[sortProperty] : get(itemB, sortProperty));
if (result !== 0) {
asc = this.sortPropertyAscending[sortProperty];
return asc ? result : (-1 * result);
}
}
return 0;
};
instanceMeta.binarySearch = binarySearch;
};
}
return Ember.arrayComputed(itemsKey, {
initialize: initFn,
addedItem: function (array, item, changeMeta, instanceMeta) {
var index = instanceMeta.binarySearch(array, item);
array.insertAt(index, item);
return array;
},
removedItem: function (array, item, changeMeta, instanceMeta) {
var proxyProperties, index, searchItem;
if (changeMeta.previousValues) {
proxyProperties = merge({ content: item }, changeMeta.previousValues);
searchItem = SearchProxy.create(proxyProperties);
} else {
searchItem = item;
}
index = instanceMeta.binarySearch(array, searchItem);
array.removeAt(index);
return array;
}
});
};
})();
(function() {
Ember.RSVP = requireModule('rsvp');
Ember.RSVP.onerrorDefault = function(error) {
if (error instanceof Error) {
if (Ember.testing) {
if (Ember.Test && Ember.Test.adapter) {
Ember.Test.adapter.exception(error);
} else {
throw error;
}
} else {
Ember.Logger.error(error.stack);
Ember.assert(error, false);
}
}
};
Ember.RSVP.on('error', Ember.RSVP.onerrorDefault);
})();
(function() {
/**
@module ember
@submodule ember-runtime
*/
var a_slice = Array.prototype.slice;
var expandProperties = Ember.expandProperties;
if (Ember.EXTEND_PROTOTYPES === true || Ember.EXTEND_PROTOTYPES.Function) {
/**
The `property` extension of Javascript's Function prototype is available
when `Ember.EXTEND_PROTOTYPES` or `Ember.EXTEND_PROTOTYPES.Function` is
`true`, which is the default.
Computed properties allow you to treat a function like a property:
```javascript
MyApp.President = Ember.Object.extend({
firstName: '',
lastName: '',
fullName: function() {
return this.get('firstName') + ' ' + this.get('lastName');
// Call this flag to mark the function as a property
}.property()
});
var president = MyApp.President.create({
firstName: "Barack",
lastName: "Obama"
});
president.get('fullName'); // "Barack Obama"
```
Treating a function like a property is useful because they can work with
bindings, just like any other property.
Many computed properties have dependencies on other properties. For
example, in the above example, the `fullName` property depends on
`firstName` and `lastName` to determine its value. You can tell Ember
about these dependencies like this:
```javascript
MyApp.President = Ember.Object.extend({
firstName: '',
lastName: '',
fullName: function() {
return this.get('firstName') + ' ' + this.get('lastName');
// Tell Ember.js that this computed property depends on firstName
// and lastName
}.property('firstName', 'lastName')
});
```
Make sure you list these dependencies so Ember knows when to update
bindings that connect to a computed property. Changing a dependency
will not immediately trigger an update of the computed property, but
will instead clear the cache so that it is updated when the next `get`
is called on the property.
See [Ember.ComputedProperty](/api/classes/Ember.ComputedProperty.html), [Ember.computed](/api/#method_computed).
@method property
@for Function
*/
Function.prototype.property = function() {
var ret = Ember.computed(this);
// ComputedProperty.prototype.property expands properties; no need for us to
// do so here.
return ret.property.apply(ret, arguments);
};
/**
The `observes` extension of Javascript's Function prototype is available
when `Ember.EXTEND_PROTOTYPES` or `Ember.EXTEND_PROTOTYPES.Function` is
true, which is the default.
You can observe property changes simply by adding the `observes`
call to the end of your method declarations in classes that you write.
For example:
```javascript
Ember.Object.extend({
valueObserver: function() {
// Executes whenever the "value" property changes
}.observes('value')
});
```
In the future this method may become asynchronous. If you want to ensure
synchronous behavior, use `observesImmediately`.
See `Ember.observer`.
@method observes
@for Function
*/
Function.prototype.observes = function() {
var addWatchedProperty = function (obs) { watched.push(obs); };
var watched = [];
for (var i=0; i<arguments.length; ++i) {
expandProperties(arguments[i], addWatchedProperty);
}
this.__ember_observes__ = watched;
return this;
};
/**
The `observesImmediately` extension of Javascript's Function prototype is
available when `Ember.EXTEND_PROTOTYPES` or
`Ember.EXTEND_PROTOTYPES.Function` is true, which is the default.
You can observe property changes simply by adding the `observesImmediately`
call to the end of your method declarations in classes that you write.
For example:
```javascript
Ember.Object.extend({
valueObserver: function() {
// Executes immediately after the "value" property changes
}.observesImmediately('value')
});
```
In the future, `observes` may become asynchronous. In this event,
`observesImmediately` will maintain the synchronous behavior.
See `Ember.immediateObserver`.
@method observesImmediately
@for Function
*/
Function.prototype.observesImmediately = function() {
for (var i=0, l=arguments.length; i<l; i++) {
var arg = arguments[i];
Ember.assert("Immediate observers must observe internal properties only, not properties on other objects.", arg.indexOf('.') === -1);
}
// observes handles property expansion
return this.observes.apply(this, arguments);
};
/**
The `observesBefore` extension of Javascript's Function prototype is
available when `Ember.EXTEND_PROTOTYPES` or
`Ember.EXTEND_PROTOTYPES.Function` is true, which is the default.
You can get notified when a property change is about to happen by
by adding the `observesBefore` call to the end of your method
declarations in classes that you write. For example:
```javascript
Ember.Object.extend({
valueObserver: function() {
// Executes whenever the "value" property is about to change
}.observesBefore('value')
});
```
See `Ember.beforeObserver`.
@method observesBefore
@for Function
*/
Function.prototype.observesBefore = function() {
var addWatchedProperty = function (obs) { watched.push(obs); };
var watched = [];
for (var i=0; i<arguments.length; ++i) {
expandProperties(arguments[i], addWatchedProperty);
}
this.__ember_observesBefore__ = watched;
return this;
};
/**
The `on` extension of Javascript's Function prototype is available
when `Ember.EXTEND_PROTOTYPES` or `Ember.EXTEND_PROTOTYPES.Function` is
true, which is the default.
You can listen for events simply by adding the `on` call to the end of
your method declarations in classes or mixins that you write. For example:
```javascript
Ember.Mixin.create({
doSomethingWithElement: function() {
// Executes whenever the "didInsertElement" event fires
}.on('didInsertElement')
});
```
See `Ember.on`.
@method on
@for Function
*/
Function.prototype.on = function() {
var events = a_slice.call(arguments);
this.__ember_listens__ = events;
return this;
};
}
})();
(function() {
})();
(function() {
/**
@module ember
@submodule ember-runtime
*/
/**
Implements some standard methods for comparing objects. Add this mixin to
any class you create that can compare its instances.
You should implement the `compare()` method.
@class Comparable
@namespace Ember
@since Ember 0.9
*/
Ember.Comparable = Ember.Mixin.create({
/**
Override to return the result of the comparison of the two parameters. The
compare method should return:
- `-1` if `a < b`
- `0` if `a == b`
- `1` if `a > b`
Default implementation raises an exception.
@method compare
@param a {Object} the first object to compare
@param b {Object} the second object to compare
@return {Integer} the result of the comparison
*/
compare: Ember.required(Function)
});
})();
(function() {
/**
@module ember
@submodule ember-runtime
*/
var get = Ember.get, set = Ember.set;
/**
Implements some standard methods for copying an object. Add this mixin to
any object you create that can create a copy of itself. This mixin is
added automatically to the built-in array.
You should generally implement the `copy()` method to return a copy of the
receiver.
Note that `frozenCopy()` will only work if you also implement
`Ember.Freezable`.
@class Copyable
@namespace Ember
@since Ember 0.9
*/
Ember.Copyable = Ember.Mixin.create({
/**
Override to return a copy of the receiver. Default implementation raises
an exception.
@method copy
@param {Boolean} deep if `true`, a deep copy of the object should be made
@return {Object} copy of receiver
*/
copy: Ember.required(Function),
/**
If the object implements `Ember.Freezable`, then this will return a new
copy if the object is not frozen and the receiver if the object is frozen.
Raises an exception if you try to call this method on a object that does
not support freezing.
You should use this method whenever you want a copy of a freezable object
since a freezable object can simply return itself without actually
consuming more memory.
@method frozenCopy
@return {Object} copy of receiver or receiver
*/
frozenCopy: function() {
if (Ember.Freezable && Ember.Freezable.detect(this)) {
return get(this, 'isFrozen') ? this : this.copy().freeze();
} else {
throw new Ember.Error(Ember.String.fmt("%@ does not support freezing", [this]));
}
}
});
})();
(function() {
/**
@module ember
@submodule ember-runtime
*/
var get = Ember.get, set = Ember.set;
/**
The `Ember.Freezable` mixin implements some basic methods for marking an
object as frozen. Once an object is frozen it should be read only. No changes
may be made the internal state of the object.
## Enforcement
To fully support freezing in your subclass, you must include this mixin and
override any method that might alter any property on the object to instead
raise an exception. You can check the state of an object by checking the
`isFrozen` property.
Although future versions of JavaScript may support language-level freezing
object objects, that is not the case today. Even if an object is freezable,
it is still technically possible to modify the object, even though it could
break other parts of your application that do not expect a frozen object to
change. It is, therefore, very important that you always respect the
`isFrozen` property on all freezable objects.
## Example Usage
The example below shows a simple object that implement the `Ember.Freezable`
protocol.
```javascript
Contact = Ember.Object.extend(Ember.Freezable, {
firstName: null,
lastName: null,
// swaps the names
swapNames: function() {
if (this.get('isFrozen')) throw Ember.FROZEN_ERROR;
var tmp = this.get('firstName');
this.set('firstName', this.get('lastName'));
this.set('lastName', tmp);
return this;
}
});
c = Contact.create({ firstName: "John", lastName: "Doe" });
c.swapNames(); // returns c
c.freeze();
c.swapNames(); // EXCEPTION
```
## Copying
Usually the `Ember.Freezable` protocol is implemented in cooperation with the
`Ember.Copyable` protocol, which defines a `frozenCopy()` method that will
return a frozen object, if the object implements this method as well.
@class Freezable
@namespace Ember
@since Ember 0.9
*/
Ember.Freezable = Ember.Mixin.create({
/**
Set to `true` when the object is frozen. Use this property to detect
whether your object is frozen or not.
@property isFrozen
@type Boolean
*/
isFrozen: false,
/**
Freezes the object. Once this method has been called the object should
no longer allow any properties to be edited.
@method freeze
@return {Object} receiver
*/
freeze: function() {
if (get(this, 'isFrozen')) return this;
set(this, 'isFrozen', true);
return this;
}
});
Ember.FROZEN_ERROR = "Frozen object cannot be modified.";
})();
(function() {
/**
@module ember
@submodule ember-runtime
*/
var forEach = Ember.EnumerableUtils.forEach;
/**
This mixin defines the API for modifying generic enumerables. These methods
can be applied to an object regardless of whether it is ordered or
unordered.
Note that an Enumerable can change even if it does not implement this mixin.
For example, a MappedEnumerable cannot be directly modified but if its
underlying enumerable changes, it will change also.
## Adding Objects
To add an object to an enumerable, use the `addObject()` method. This
method will only add the object to the enumerable if the object is not
already present and is of a type supported by the enumerable.
```javascript
set.addObject(contact);
```
## Removing Objects
To remove an object from an enumerable, use the `removeObject()` method. This
will only remove the object if it is present in the enumerable, otherwise
this method has no effect.
```javascript
set.removeObject(contact);
```
## Implementing In Your Own Code
If you are implementing an object and want to support this API, just include
this mixin in your class and implement the required methods. In your unit
tests, be sure to apply the Ember.MutableEnumerableTests to your object.
@class MutableEnumerable
@namespace Ember
@uses Ember.Enumerable
*/
Ember.MutableEnumerable = Ember.Mixin.create(Ember.Enumerable, {
/**
__Required.__ You must implement this method to apply this mixin.
Attempts to add the passed object to the receiver if the object is not
already present in the collection. If the object is present, this method
has no effect.
If the passed object is of a type not supported by the receiver,
then this method should raise an exception.
@method addObject
@param {Object} object The object to add to the enumerable.
@return {Object} the passed object
*/
addObject: Ember.required(Function),
/**
Adds each object in the passed enumerable to the receiver.
@method addObjects
@param {Ember.Enumerable} objects the objects to add.
@return {Object} receiver
*/
addObjects: function(objects) {
Ember.beginPropertyChanges(this);
forEach(objects, function(obj) { this.addObject(obj); }, this);
Ember.endPropertyChanges(this);
return this;
},
/**
__Required.__ You must implement this method to apply this mixin.
Attempts to remove the passed object from the receiver collection if the
object is present in the collection. If the object is not present,
this method has no effect.
If the passed object is of a type not supported by the receiver,
then this method should raise an exception.
@method removeObject
@param {Object} object The object to remove from the enumerable.
@return {Object} the passed object
*/
removeObject: Ember.required(Function),
/**
Removes each object in the passed enumerable from the receiver.
@method removeObjects
@param {Ember.Enumerable} objects the objects to remove
@return {Object} receiver
*/
removeObjects: function(objects) {
Ember.beginPropertyChanges(this);
forEach(objects, function(obj) { this.removeObject(obj); }, this);
Ember.endPropertyChanges(this);
return this;
}
});
})();
(function() {
/**
@module ember
@submodule ember-runtime
*/
// ..........................................................
// CONSTANTS
//
var OUT_OF_RANGE_EXCEPTION = "Index out of range" ;
var EMPTY = [];
// ..........................................................
// HELPERS
//
var get = Ember.get, set = Ember.set;
/**
This mixin defines the API for modifying array-like objects. These methods
can be applied only to a collection that keeps its items in an ordered set.
It builds upon the Array mixin and adds methods to modify the array.
Concrete implementations of this class include ArrayProxy and ArrayController.
It is important to use the methods in this class to modify arrays so that
changes are observable. This allows the binding system in Ember to function
correctly.
Note that an Array can change even if it does not implement this mixin.
For example, one might implement a SparseArray that cannot be directly
modified, but if its underlying enumerable changes, it will change also.
@class MutableArray
@namespace Ember
@uses Ember.Array
@uses Ember.MutableEnumerable
*/
Ember.MutableArray = Ember.Mixin.create(Ember.Array, Ember.MutableEnumerable, {
/**
__Required.__ You must implement this method to apply this mixin.
This is one of the primitives you must implement to support `Ember.Array`.
You should replace amt objects started at idx with the objects in the
passed array. You should also call `this.enumerableContentDidChange()`
@method replace
@param {Number} idx Starting index in the array to replace. If
idx >= length, then append to the end of the array.
@param {Number} amt Number of elements that should be removed from
the array, starting at *idx*.
@param {Array} objects An array of zero or more objects that should be
inserted into the array at *idx*
*/
replace: Ember.required(),
/**
Remove all elements from self. This is useful if you
want to reuse an existing array without having to recreate it.
```javascript
var colors = ["red", "green", "blue"];
color.length(); // 3
colors.clear(); // []
colors.length(); // 0
```
@method clear
@return {Ember.Array} An empty Array.
*/
clear: function () {
var len = get(this, 'length');
if (len === 0) return this;
this.replace(0, len, EMPTY);
return this;
},
/**
This will use the primitive `replace()` method to insert an object at the
specified index.
```javascript
var colors = ["red", "green", "blue"];
colors.insertAt(2, "yellow"); // ["red", "green", "yellow", "blue"]
colors.insertAt(5, "orange"); // Error: Index out of range
```
@method insertAt
@param {Number} idx index of insert the object at.
@param {Object} object object to insert
@return this
*/
insertAt: function(idx, object) {
if (idx > get(this, 'length')) throw new Ember.Error(OUT_OF_RANGE_EXCEPTION) ;
this.replace(idx, 0, [object]) ;
return this ;
},
/**
Remove an object at the specified index using the `replace()` primitive
method. You can pass either a single index, or a start and a length.
If you pass a start and length that is beyond the
length this method will throw an `OUT_OF_RANGE_EXCEPTION`.
```javascript
var colors = ["red", "green", "blue", "yellow", "orange"];
colors.removeAt(0); // ["green", "blue", "yellow", "orange"]
colors.removeAt(2, 2); // ["green", "blue"]
colors.removeAt(4, 2); // Error: Index out of range
```
@method removeAt
@param {Number} start index, start of range
@param {Number} len length of passing range
@return {Object} receiver
*/
removeAt: function(start, len) {
if ('number' === typeof start) {
if ((start < 0) || (start >= get(this, 'length'))) {
throw new Ember.Error(OUT_OF_RANGE_EXCEPTION);
}
// fast case
if (len === undefined) len = 1;
this.replace(start, len, EMPTY);
}
return this ;
},
/**
Push the object onto the end of the array. Works just like `push()` but it
is KVO-compliant.
```javascript
var colors = ["red", "green"];
colors.pushObject("black"); // ["red", "green", "black"]
colors.pushObject(["yellow"]); // ["red", "green", ["yellow"]]
```
@method pushObject
@param {*} obj object to push
@return The same obj passed as param
*/
pushObject: function(obj) {
this.insertAt(get(this, 'length'), obj) ;
return obj;
},
/**
Add the objects in the passed numerable to the end of the array. Defers
notifying observers of the change until all objects are added.
```javascript
var colors = ["red"];
colors.pushObjects(["yellow", "orange"]); // ["red", "yellow", "orange"]
```
@method pushObjects
@param {Ember.Enumerable} objects the objects to add
@return {Ember.Array} receiver
*/
pushObjects: function(objects) {
if (!(Ember.Enumerable.detect(objects) || Ember.isArray(objects))) {
throw new TypeError("Must pass Ember.Enumerable to Ember.MutableArray#pushObjects");
}
this.replace(get(this, 'length'), 0, objects);
return this;
},
/**
Pop object from array or nil if none are left. Works just like `pop()` but
it is KVO-compliant.
```javascript
var colors = ["red", "green", "blue"];
colors.popObject(); // "blue"
console.log(colors); // ["red", "green"]
```
@method popObject
@return object
*/
popObject: function() {
var len = get(this, 'length') ;
if (len === 0) return null ;
var ret = this.objectAt(len-1) ;
this.removeAt(len-1, 1) ;
return ret ;
},
/**
Shift an object from start of array or nil if none are left. Works just
like `shift()` but it is KVO-compliant.
```javascript
var colors = ["red", "green", "blue"];
colors.shiftObject(); // "red"
console.log(colors); // ["green", "blue"]
```
@method shiftObject
@return object
*/
shiftObject: function() {
if (get(this, 'length') === 0) return null ;
var ret = this.objectAt(0) ;
this.removeAt(0) ;
return ret ;
},
/**
Unshift an object to start of array. Works just like `unshift()` but it is
KVO-compliant.
```javascript
var colors = ["red"];
colors.unshiftObject("yellow"); // ["yellow", "red"]
colors.unshiftObject(["black"]); // [["black"], "yellow", "red"]
```
@method unshiftObject
@param {*} obj object to unshift
@return The same obj passed as param
*/
unshiftObject: function(obj) {
this.insertAt(0, obj) ;
return obj ;
},
/**
Adds the named objects to the beginning of the array. Defers notifying
observers until all objects have been added.
```javascript
var colors = ["red"];
colors.unshiftObjects(["black", "white"]); // ["black", "white", "red"]
colors.unshiftObjects("yellow"); // Type Error: 'undefined' is not a function
```
@method unshiftObjects
@param {Ember.Enumerable} objects the objects to add
@return {Ember.Array} receiver
*/
unshiftObjects: function(objects) {
this.replace(0, 0, objects);
return this;
},
/**
Reverse objects in the array. Works just like `reverse()` but it is
KVO-compliant.
@method reverseObjects
@return {Ember.Array} receiver
*/
reverseObjects: function() {
var len = get(this, 'length');
if (len === 0) return this;
var objects = this.toArray().reverse();
this.replace(0, len, objects);
return this;
},
/**
Replace all the the receiver's content with content of the argument.
If argument is an empty array receiver will be cleared.
```javascript
var colors = ["red", "green", "blue"];
colors.setObjects(["black", "white"]); // ["black", "white"]
colors.setObjects([]); // []
```
@method setObjects
@param {Ember.Array} objects array whose content will be used for replacing
the content of the receiver
@return {Ember.Array} receiver with the new content
*/
setObjects: function(objects) {
if (objects.length === 0) return this.clear();
var len = get(this, 'length');
this.replace(0, len, objects);
return this;
},
// ..........................................................
// IMPLEMENT Ember.MutableEnumerable
//
removeObject: function(obj) {
var loc = get(this, 'length') || 0;
while(--loc >= 0) {
var curObject = this.objectAt(loc) ;
if (curObject === obj) this.removeAt(loc) ;
}
return this ;
},
addObject: function(obj) {
if (!this.contains(obj)) this.pushObject(obj);
return this ;
}
});
})();
(function() {
/**
@module ember
@submodule ember-runtime
*/
var get = Ember.get, set = Ember.set;
/**
`Ember.TargetActionSupport` is a mixin that can be included in a class
to add a `triggerAction` method with semantics similar to the Handlebars
`{{action}}` helper. In normal Ember usage, the `{{action}}` helper is
usually the best choice. This mixin is most often useful when you are
doing more complex event handling in View objects.
See also `Ember.ViewTargetActionSupport`, which has
view-aware defaults for target and actionContext.
@class TargetActionSupport
@namespace Ember
@extends Ember.Mixin
*/
Ember.TargetActionSupport = Ember.Mixin.create({
target: null,
action: null,
actionContext: null,
targetObject: Ember.computed(function() {
var target = get(this, 'target');
if (Ember.typeOf(target) === "string") {
var value = get(this, target);
if (value === undefined) { value = get(Ember.lookup, target); }
return value;
} else {
return target;
}
}).property('target'),
actionContextObject: Ember.computed(function() {
var actionContext = get(this, 'actionContext');
if (Ember.typeOf(actionContext) === "string") {
var value = get(this, actionContext);
if (value === undefined) { value = get(Ember.lookup, actionContext); }
return value;
} else {
return actionContext;
}
}).property('actionContext'),
/**
Send an `action` with an `actionContext` to a `target`. The action, actionContext
and target will be retrieved from properties of the object. For example:
```javascript
App.SaveButtonView = Ember.View.extend(Ember.TargetActionSupport, {
target: Ember.computed.alias('controller'),
action: 'save',
actionContext: Ember.computed.alias('context'),
click: function() {
this.triggerAction(); // Sends the `save` action, along with the current context
// to the current controller
}
});
```
The `target`, `action`, and `actionContext` can be provided as properties of
an optional object argument to `triggerAction` as well.
```javascript
App.SaveButtonView = Ember.View.extend(Ember.TargetActionSupport, {
click: function() {
this.triggerAction({
action: 'save',
target: this.get('controller'),
actionContext: this.get('context'),
}); // Sends the `save` action, along with the current context
// to the current controller
}
});
```
The `actionContext` defaults to the object you mixing `TargetActionSupport` into.
But `target` and `action` must be specified either as properties or with the argument
to `triggerAction`, or a combination:
```javascript
App.SaveButtonView = Ember.View.extend(Ember.TargetActionSupport, {
target: Ember.computed.alias('controller'),
click: function() {
this.triggerAction({
action: 'save'
}); // Sends the `save` action, along with a reference to `this`,
// to the current controller
}
});
```
@method triggerAction
@param opts {Hash} (optional, with the optional keys action, target and/or actionContext)
@return {Boolean} true if the action was sent successfully and did not return false
*/
triggerAction: function(opts) {
opts = opts || {};
var action = opts.action || get(this, 'action'),
target = opts.target || get(this, 'targetObject'),
actionContext = opts.actionContext;
function args(options, actionName) {
var ret = [];
if (actionName) { ret.push(actionName); }
return ret.concat(options);
}
if (typeof actionContext === 'undefined') {
actionContext = get(this, 'actionContextObject') || this;
}
if (target && action) {
var ret;
if (target.send) {
ret = target.send.apply(target, args(actionContext, action));
} else {
Ember.assert("The action '" + action + "' did not exist on " + target, typeof target[action] === 'function');
ret = target[action].apply(target, args(actionContext));
}
if (ret !== false) ret = true;
return ret;
} else {
return false;
}
}
});
})();
(function() {
/**
@module ember
@submodule ember-runtime
*/
/**
This mixin allows for Ember objects to subscribe to and emit events.
```javascript
App.Person = Ember.Object.extend(Ember.Evented, {
greet: function() {
// ...
this.trigger('greet');
}
});
var person = App.Person.create();
person.on('greet', function() {
console.log('Our person has greeted');
});
person.greet();
// outputs: 'Our person has greeted'
```
You can also chain multiple event subscriptions:
```javascript
person.on('greet', function() {
console.log('Our person has greeted');
}).one('greet', function() {
console.log('Offer one-time special');
}).off('event', this, forgetThis);
```
@class Evented
@namespace Ember
*/
Ember.Evented = Ember.Mixin.create({
/**
Subscribes to a named event with given function.
```javascript
person.on('didLoad', function() {
// fired once the person has loaded
});
```
An optional target can be passed in as the 2nd argument that will
be set as the "this" for the callback. This is a good way to give your
function access to the object triggering the event. When the target
parameter is used the callback becomes the third argument.
@method on
@param {String} name The name of the event
@param {Object} [target] The "this" binding for the callback
@param {Function} method The callback to execute
@return this
*/
on: function(name, target, method) {
Ember.addListener(this, name, target, method);
return this;
},
/**
Subscribes a function to a named event and then cancels the subscription
after the first time the event is triggered. It is good to use ``one`` when
you only care about the first time an event has taken place.
This function takes an optional 2nd argument that will become the "this"
value for the callback. If this argument is passed then the 3rd argument
becomes the function.
@method one
@param {String} name The name of the event
@param {Object} [target] The "this" binding for the callback
@param {Function} method The callback to execute
@return this
*/
one: function(name, target, method) {
if (!method) {
method = target;
target = null;
}
Ember.addListener(this, name, target, method, true);
return this;
},
/**
Triggers a named event for the object. Any additional arguments
will be passed as parameters to the functions that are subscribed to the
event.
```javascript
person.on('didEat', function(food) {
console.log('person ate some ' + food);
});
person.trigger('didEat', 'broccoli');
// outputs: person ate some broccoli
```
@method trigger
@param {String} name The name of the event
@param {Object...} args Optional arguments to pass on
*/
trigger: function(name) {
var args = [], i, l;
for (i = 1, l = arguments.length; i < l; i++) {
args.push(arguments[i]);
}
Ember.sendEvent(this, name, args);
},
/**
Cancels subscription for given name, target, and method.
@method off
@param {String} name The name of the event
@param {Object} target The target of the subscription
@param {Function} method The function of the subscription
@return this
*/
off: function(name, target, method) {
Ember.removeListener(this, name, target, method);
return this;
},
/**
Checks to see if object has any subscriptions for named event.
@method has
@param {String} name The name of the event
@return {Boolean} does the object have a subscription for event
*/
has: function(name) {
return Ember.hasListeners(this, name);
}
});
})();
(function() {
var RSVP = requireModule("rsvp");
if (Ember.FEATURES['ember-runtime-test-friendly-promises']) {
var asyncStart = function() {
if (Ember.Test && Ember.Test.adapter) {
Ember.Test.adapter.asyncStart();
}
};
var asyncEnd = function() {
if (Ember.Test && Ember.Test.adapter) {
Ember.Test.adapter.asyncEnd();
}
};
RSVP.configure('async', function(callback, promise) {
var async = !Ember.run.currentRunLoop;
if (Ember.testing && async) { asyncStart(); }
Ember.run.backburner.schedule('actions', function(){
if (Ember.testing && async) { asyncEnd(); }
callback(promise);
});
});
} else {
RSVP.configure('async', function(callback, promise) {
Ember.run.backburner.schedule('actions', function(){
callback(promise);
});
});
}
RSVP.Promise.prototype.fail = function(callback, label){
Ember.deprecate('RSVP.Promise.fail has been renamed as RSVP.Promise.catch');
return this['catch'](callback, label);
};
/**
@module ember
@submodule ember-runtime
*/
var get = Ember.get;
/**
@class Deferred
@namespace Ember
*/
Ember.DeferredMixin = Ember.Mixin.create({
/**
Add handlers to be called when the Deferred object is resolved or rejected.
@method then
@param {Function} resolve a callback function to be called when done
@param {Function} reject a callback function to be called when failed
*/
then: function(resolve, reject, label) {
var deferred, promise, entity;
entity = this;
deferred = get(this, '_deferred');
promise = deferred.promise;
function fulfillmentHandler(fulfillment) {
if (fulfillment === promise) {
return resolve(entity);
} else {
return resolve(fulfillment);
}
}
return promise.then(resolve && fulfillmentHandler, reject, label);
},
/**
Resolve a Deferred object and call any `doneCallbacks` with the given args.
@method resolve
*/
resolve: function(value) {
var deferred, promise;
deferred = get(this, '_deferred');
promise = deferred.promise;
if (value === this) {
deferred.resolve(promise);
} else {
deferred.resolve(value);
}
},
/**
Reject a Deferred object and call any `failCallbacks` with the given args.
@method reject
*/
reject: function(value) {
get(this, '_deferred').reject(value);
},
_deferred: Ember.computed(function() {
return RSVP.defer('Ember: DeferredMixin - ' + this);
})
});
})();
(function() {
/**
@module ember
@submodule ember-runtime
*/
var get = Ember.get, typeOf = Ember.typeOf;
/**
The `Ember.ActionHandler` mixin implements support for moving an `actions`
property to an `_actions` property at extend time, and adding `_actions`
to the object's mergedProperties list.
`Ember.ActionHandler` is available on some familiar classes including
`Ember.Route`, `Ember.View`, `Ember.Component`, and controllers such as
`Ember.Controller` and `Ember.ObjectController`.
(Internally the mixin is used by `Ember.CoreView`, `Ember.ControllerMixin`,
and `Ember.Route` and available to the above classes through
inheritance.)
@class ActionHandler
@namespace Ember
*/
Ember.ActionHandler = Ember.Mixin.create({
mergedProperties: ['_actions'],
/**
The collection of functions, keyed by name, available on this
`ActionHandler` as action targets.
These functions will be invoked when a matching `{{action}}` is triggered
from within a template and the application's current route is this route.
Actions can also be invoked from other parts of your application
via `ActionHandler#send`.
The `actions` hash will inherit action handlers from
the `actions` hash defined on extended parent classes
or mixins rather than just replace the entire hash, e.g.:
```js
App.CanDisplayBanner = Ember.Mixin.create({
actions: {
displayBanner: function(msg) {
// ...
}
}
});
App.WelcomeRoute = Ember.Route.extend(App.CanDisplayBanner, {
actions: {
playMusic: function() {
// ...
}
}
});
// `WelcomeRoute`, when active, will be able to respond
// to both actions, since the actions hash is merged rather
// then replaced when extending mixins / parent classes.
this.send('displayBanner');
this.send('playMusic');
```
Within a Controller, Route, View or Component's action handler,
the value of the `this` context is the Controller, Route, View or
Component object:
```js
App.SongRoute = Ember.Route.extend({
actions: {
myAction: function() {
this.controllerFor("song");
this.transitionTo("other.route");
...
}
}
});
```
It is also possible to call `this._super()` from within an
action handler if it overrides a handler defined on a parent
class or mixin:
Take for example the following routes:
```js
App.DebugRoute = Ember.Mixin.create({
actions: {
debugRouteInformation: function() {
console.debug("trololo");
}
}
});
App.AnnoyingDebugRoute = Ember.Route.extend(App.DebugRoute, {
actions: {
debugRouteInformation: function() {
// also call the debugRouteInformation of mixed in App.DebugRoute
this._super();
// show additional annoyance
window.alert(...);
}
}
});
```
## Bubbling
By default, an action will stop bubbling once a handler defined
on the `actions` hash handles it. To continue bubbling the action,
you must return `true` from the handler:
```js
App.Router.map(function() {
this.resource("album", function() {
this.route("song");
});
});
App.AlbumRoute = Ember.Route.extend({
actions: {
startPlaying: function() {
}
}
});
App.AlbumSongRoute = Ember.Route.extend({
actions: {
startPlaying: function() {
// ...
if (actionShouldAlsoBeTriggeredOnParentRoute) {
return true;
}
}
}
});
```
@property actions
@type Hash
@default null
*/
/**
Moves `actions` to `_actions` at extend time. Note that this currently
modifies the mixin themselves, which is technically dubious but
is practically of little consequence. This may change in the future.
@private
@method willMergeMixin
*/
willMergeMixin: function(props) {
var hashName;
if (!props._actions) {
Ember.assert("'actions' should not be a function", typeof(props.actions) !== 'function');
if (typeOf(props.actions) === 'object') {
hashName = 'actions';
} else if (typeOf(props.events) === 'object') {
Ember.deprecate('Action handlers contained in an `events` object are deprecated in favor of putting them in an `actions` object', false);
hashName = 'events';
}
if (hashName) {
props._actions = Ember.merge(props._actions || {}, props[hashName]);
}
delete props[hashName];
}
},
/**
Triggers a named action on the `ActionHandler`. Any parameters
supplied after the `actionName` string will be passed as arguments
to the action target function.
If the `ActionHandler` has its `target` property set, actions may
bubble to the `target`. Bubbling happens when an `actionName` can
not be found in the `ActionHandler`'s `actions` hash or if the
action target function returns `true`.
Example
```js
App.WelcomeRoute = Ember.Route.extend({
actions: {
playTheme: function() {
this.send('playMusic', 'theme.mp3');
},
playMusic: function(track) {
// ...
}
}
});
```
@method send
@param {String} actionName The action to trigger
@param {*} context a context to send with the action
*/
send: function(actionName) {
var args = [].slice.call(arguments, 1), target;
if (this._actions && this._actions[actionName]) {
if (this._actions[actionName].apply(this, args) === true) {
// handler returned true, so this action will bubble
} else {
return;
}
} else if (!Ember.FEATURES.isEnabled('ember-routing-drop-deprecated-action-style') && this.deprecatedSend && this.deprecatedSendHandles && this.deprecatedSendHandles(actionName)) {
Ember.warn("The current default is deprecated but will prefer to handle actions directly on the controller instead of a similarly named action in the actions hash. To turn off this deprecated feature set: Ember.FEATURES['ember-routing-drop-deprecated-action-style'] = true");
if (this.deprecatedSend.apply(this, [].slice.call(arguments)) === true) {
// handler return true, so this action will bubble
} else {
return;
}
}
if (target = get(this, 'target')) {
Ember.assert("The `target` for " + this + " (" + target + ") does not have a `send` method", typeof target.send === 'function');
target.send.apply(target, arguments);
}
}
});
})();
(function() {
var set = Ember.set, get = Ember.get,
not = Ember.computed.not,
or = Ember.computed.or;
/**
@module ember
@submodule ember-runtime
*/
function tap(proxy, promise) {
set(proxy, 'isFulfilled', false);
set(proxy, 'isRejected', false);
return promise.then(function(value) {
set(proxy, 'isFulfilled', true);
set(proxy, 'content', value);
return value;
}, function(reason) {
set(proxy, 'isRejected', true);
set(proxy, 'reason', reason);
throw reason;
}, "Ember: PromiseProxy");
}
/**
A low level mixin making ObjectProxy, ObjectController or ArrayController's promise aware.
```javascript
var ObjectPromiseController = Ember.ObjectController.extend(Ember.PromiseProxyMixin);
var controller = ObjectPromiseController.create({
promise: $.getJSON('/some/remote/data.json')
});
controller.then(function(json){
// the json
}, function(reason) {
// the reason why you have no json
});
```
the controller has bindable attributes which
track the promises life cycle
```javascript
controller.get('isPending') //=> true
controller.get('isSettled') //=> false
controller.get('isRejected') //=> false
controller.get('isFulfilled') //=> false
```
When the the $.getJSON completes, and the promise is fulfilled
with json, the life cycle attributes will update accordingly.
```javascript
controller.get('isPending') //=> false
controller.get('isSettled') //=> true
controller.get('isRejected') //=> false
controller.get('isFulfilled') //=> true
```
As the controller is an ObjectController, and the json now its content,
all the json properties will be available directly from the controller.
```javascript
// Assuming the following json:
{
firstName: 'Stefan',
lastName: 'Penner'
}
// both properties will accessible on the controller
controller.get('firstName') //=> 'Stefan'
controller.get('lastName') //=> 'Penner'
```
If the controller is backing a template, the attributes are
bindable from within that template
```handlebars
{{#if isPending}}
loading...
{{else}}
firstName: {{firstName}}
lastName: {{lastName}}
{{/if}}
```
@class Ember.PromiseProxyMixin
*/
Ember.PromiseProxyMixin = Ember.Mixin.create({
/**
If the proxied promise is rejected this will contain the reason
provided.
@property reason
@default null
*/
reason: null,
/**
Once the proxied promise has settled this will become `false`.
@property isPending
@default true
*/
isPending: not('isSettled').readOnly(),
/**
Once the proxied promise has settled this will become `true`.
@property isSettled
@default false
*/
isSettled: or('isRejected', 'isFulfilled').readOnly(),
/**
Will become `true` if the proxied promise is rejected.
@property isRejected
@default false
*/
isRejected: false,
/**
Will become `true` if the proxied promise is fulfilled.
@property isFullfilled
@default false
*/
isFulfilled: false,
/**
The promise whose fulfillment value is being proxied by this object.
This property must be specified upon creation, and should not be
changed once created.
Example:
```javascript
Ember.ObjectController.extend(Ember.PromiseProxyMixin).create({
promise: <thenable>
});
```
@property promise
*/
promise: Ember.computed(function(key, promise) {
if (arguments.length === 2) {
return tap(this, promise);
} else {
throw new Ember.Error("PromiseProxy's promise must be set");
}
}),
/**
An alias to the proxied promise's `then`.
See RSVP.Promise.then.
@method then
@param {Function} callback
@return {RSVP.Promise}
*/
then: promiseAlias('then'),
/**
An alias to the proxied promise's `catch`.
See RSVP.Promise.catch.
@method catch
@param {Function} callback
@return {RSVP.Promise}
*/
'catch': promiseAlias('catch'),
/**
An alias to the proxied promise's `finally`.
See RSVP.Promise.finally.
@method finally
@param {Function} callback
@return {RSVP.Promise}
*/
'finally': promiseAlias('finally')
});
function promiseAlias(name) {
return function () {
var promise = get(this, 'promise');
return promise[name].apply(promise, arguments);
};
}
})();
(function() {
})();
(function() {
var get = Ember.get,
forEach = Ember.EnumerableUtils.forEach,
RETAIN = 'r',
INSERT = 'i',
DELETE = 'd';
/**
An `Ember.TrackedArray` tracks array operations. It's useful when you want to
lazily compute the indexes of items in an array after they've been shifted by
subsequent operations.
@class TrackedArray
@namespace Ember
@param {array} [items=[]] The array to be tracked. This is used just to get
the initial items for the starting state of retain:n.
*/
Ember.TrackedArray = function (items) {
if (arguments.length < 1) { items = []; }
var length = get(items, 'length');
if (length) {
this._operations = [new ArrayOperation(RETAIN, length, items)];
} else {
this._operations = [];
}
};
Ember.TrackedArray.RETAIN = RETAIN;
Ember.TrackedArray.INSERT = INSERT;
Ember.TrackedArray.DELETE = DELETE;
Ember.TrackedArray.prototype = {
/**
Track that `newItems` were added to the tracked array at `index`.
@method addItems
@param index
@param newItems
*/
addItems: function (index, newItems) {
var count = get(newItems, 'length');
if (count < 1) { return; }
var match = this._findArrayOperation(index),
arrayOperation = match.operation,
arrayOperationIndex = match.index,
arrayOperationRangeStart = match.rangeStart,
composeIndex,
splitIndex,
splitItems,
splitArrayOperation,
newArrayOperation;
newArrayOperation = new ArrayOperation(INSERT, count, newItems);
if (arrayOperation) {
if (!match.split) {
// insert left of arrayOperation
this._operations.splice(arrayOperationIndex, 0, newArrayOperation);
composeIndex = arrayOperationIndex;
} else {
this._split(arrayOperationIndex, index - arrayOperationRangeStart, newArrayOperation);
composeIndex = arrayOperationIndex + 1;
}
} else {
// insert at end
this._operations.push(newArrayOperation);
composeIndex = arrayOperationIndex;
}
this._composeInsert(composeIndex);
},
/**
Track that `count` items were removed at `index`.
@method removeItems
@param index
@param count
*/
removeItems: function (index, count) {
if (count < 1) { return; }
var match = this._findArrayOperation(index),
arrayOperation = match.operation,
arrayOperationIndex = match.index,
arrayOperationRangeStart = match.rangeStart,
newArrayOperation,
composeIndex;
newArrayOperation = new ArrayOperation(DELETE, count);
if (!match.split) {
// insert left of arrayOperation
this._operations.splice(arrayOperationIndex, 0, newArrayOperation);
composeIndex = arrayOperationIndex;
} else {
this._split(arrayOperationIndex, index - arrayOperationRangeStart, newArrayOperation);
composeIndex = arrayOperationIndex + 1;
}
return this._composeDelete(composeIndex);
},
/**
Apply all operations, reducing them to retain:n, for `n`, the number of
items in the array.
`callback` will be called for each operation and will be passed the following arguments:
* {array} items The items for the given operation
* {number} offset The computed offset of the items, ie the index in the
array of the first item for this operation.
* {string} operation The type of the operation. One of
`Ember.TrackedArray.{RETAIN, DELETE, INSERT}`
@method apply
@param {function} callback
*/
apply: function (callback) {
var items = [],
offset = 0;
forEach(this._operations, function (arrayOperation) {
callback(arrayOperation.items, offset, arrayOperation.type);
if (arrayOperation.type !== DELETE) {
offset += arrayOperation.count;
items = items.concat(arrayOperation.items);
}
});
this._operations = [new ArrayOperation(RETAIN, items.length, items)];
},
/**
Return an `ArrayOperationMatch` for the operation that contains the item at `index`.
@method _findArrayOperation
@param {number} index the index of the item whose operation information
should be returned.
@private
*/
_findArrayOperation: function (index) {
var arrayOperationIndex,
len,
split = false,
arrayOperation,
arrayOperationRangeStart,
arrayOperationRangeEnd;
// OPTIMIZE: we could search these faster if we kept a balanced tree.
// find leftmost arrayOperation to the right of `index`
for (arrayOperationIndex = arrayOperationRangeStart = 0, len = this._operations.length; arrayOperationIndex < len; ++arrayOperationIndex) {
arrayOperation = this._operations[arrayOperationIndex];
if (arrayOperation.type === DELETE) { continue; }
arrayOperationRangeEnd = arrayOperationRangeStart + arrayOperation.count - 1;
if (index === arrayOperationRangeStart) {
break;
} else if (index > arrayOperationRangeStart && index <= arrayOperationRangeEnd) {
split = true;
break;
} else {
arrayOperationRangeStart = arrayOperationRangeEnd + 1;
}
}
return new ArrayOperationMatch(arrayOperation, arrayOperationIndex, split, arrayOperationRangeStart);
},
_split: function (arrayOperationIndex, splitIndex, newArrayOperation) {
var arrayOperation = this._operations[arrayOperationIndex],
splitItems = arrayOperation.items.slice(splitIndex),
splitArrayOperation = new ArrayOperation(arrayOperation.type, splitItems.length, splitItems);
// truncate LHS
arrayOperation.count = splitIndex;
arrayOperation.items = arrayOperation.items.slice(0, splitIndex);
this._operations.splice(arrayOperationIndex + 1, 0, newArrayOperation, splitArrayOperation);
},
// see SubArray for a better implementation.
_composeInsert: function (index) {
var newArrayOperation = this._operations[index],
leftArrayOperation = this._operations[index-1], // may be undefined
rightArrayOperation = this._operations[index+1], // may be undefined
leftOp = leftArrayOperation && leftArrayOperation.type,
rightOp = rightArrayOperation && rightArrayOperation.type;
if (leftOp === INSERT) {
// merge left
leftArrayOperation.count += newArrayOperation.count;
leftArrayOperation.items = leftArrayOperation.items.concat(newArrayOperation.items);
if (rightOp === INSERT) {
// also merge right (we have split an insert with an insert)
leftArrayOperation.count += rightArrayOperation.count;
leftArrayOperation.items = leftArrayOperation.items.concat(rightArrayOperation.items);
this._operations.splice(index, 2);
} else {
// only merge left
this._operations.splice(index, 1);
}
} else if (rightOp === INSERT) {
// merge right
newArrayOperation.count += rightArrayOperation.count;
newArrayOperation.items = newArrayOperation.items.concat(rightArrayOperation.items);
this._operations.splice(index + 1, 1);
}
},
_composeDelete: function (index) {
var arrayOperation = this._operations[index],
deletesToGo = arrayOperation.count,
leftArrayOperation = this._operations[index-1], // may be undefined
leftOp = leftArrayOperation && leftArrayOperation.type,
nextArrayOperation,
nextOp,
nextCount,
removeNewAndNextOp = false,
removedItems = [];
if (leftOp === DELETE) {
arrayOperation = leftArrayOperation;
index -= 1;
}
for (var i = index + 1; deletesToGo > 0; ++i) {
nextArrayOperation = this._operations[i];
nextOp = nextArrayOperation.type;
nextCount = nextArrayOperation.count;
if (nextOp === DELETE) {
arrayOperation.count += nextCount;
continue;
}
if (nextCount > deletesToGo) {
// d:2 {r,i}:5 we reduce the retain or insert, but it stays
removedItems = removedItems.concat(nextArrayOperation.items.splice(0, deletesToGo));
nextArrayOperation.count -= deletesToGo;
// In the case where we truncate the last arrayOperation, we don't need to
// remove it; also the deletesToGo reduction is not the entirety of
// nextCount
i -= 1;
nextCount = deletesToGo;
deletesToGo = 0;
} else {
if (nextCount === deletesToGo) {
// Handle edge case of d:2 i:2 in which case both operations go away
// during composition.
removeNewAndNextOp = true;
}
removedItems = removedItems.concat(nextArrayOperation.items);
deletesToGo -= nextCount;
}
if (nextOp === INSERT) {
// d:2 i:3 will result in delete going away
arrayOperation.count -= nextCount;
}
}
if (arrayOperation.count > 0) {
// compose our new delete with possibly several operations to the right of
// disparate types
this._operations.splice(index+1, i-1-index);
} else {
// The delete operation can go away; it has merely reduced some other
// operation, as in d:3 i:4; it may also have eliminated that operation,
// as in d:3 i:3.
this._operations.splice(index, removeNewAndNextOp ? 2 : 1);
}
return removedItems;
},
toString: function () {
var str = "";
forEach(this._operations, function (operation) {
str += " " + operation.type + ":" + operation.count;
});
return str.substring(1);
}
};
/**
Internal data structure to represent an array operation.
@method ArrayOperation
@private
@param {string} type The type of the operation. One of
`Ember.TrackedArray.{RETAIN, INSERT, DELETE}`
@param {number} count The number of items in this operation.
@param {array} items The items of the operation, if included. RETAIN and
INSERT include their items, DELETE does not.
*/
function ArrayOperation (operation, count, items) {
this.type = operation; // RETAIN | INSERT | DELETE
this.count = count;
this.items = items;
}
/**
Internal data structure used to include information when looking up operations
by item index.
@method ArrayOperationMatch
@private
@param {ArrayOperation} operation
@param {number} index The index of `operation` in the array of operations.
@param {boolean} split Whether or not the item index searched for would
require a split for a new operation type.
@param {number} rangeStart The index of the first item in the operation,
with respect to the tracked array. The index of the last item can be computed
from `rangeStart` and `operation.count`.
*/
function ArrayOperationMatch(operation, index, split, rangeStart) {
this.operation = operation;
this.index = index;
this.split = split;
this.rangeStart = rangeStart;
}
})();
(function() {
var get = Ember.get,
forEach = Ember.EnumerableUtils.forEach,
RETAIN = 'r',
FILTER = 'f';
function Operation (type, count) {
this.type = type;
this.count = count;
}
/**
An `Ember.SubArray` tracks an array in a way similar to, but more specialized
than, `Ember.TrackedArray`. It is useful for keeping track of the indexes of
items within a filtered array.
@class SubArray
@namespace Ember
*/
Ember.SubArray = function (length) {
if (arguments.length < 1) { length = 0; }
if (length > 0) {
this._operations = [new Operation(RETAIN, length)];
} else {
this._operations = [];
}
};
Ember.SubArray.prototype = {
/**
Track that an item was added to the tracked array.
@method addItem
@param {number} index The index of the item in the tracked array.
@param {boolean} match `true` iff the item is included in the subarray.
@return {number} The index of the item in the subarray.
*/
addItem: function(index, match) {
var returnValue = -1,
itemType = match ? RETAIN : FILTER,
self = this;
this._findOperation(index, function(operation, operationIndex, rangeStart, rangeEnd, seenInSubArray) {
var newOperation, splitOperation;
if (itemType === operation.type) {
++operation.count;
} else if (index === rangeStart) {
// insert to the left of `operation`
self._operations.splice(operationIndex, 0, new Operation(itemType, 1));
} else {
newOperation = new Operation(itemType, 1);
splitOperation = new Operation(operation.type, rangeEnd - index + 1);
operation.count = index - rangeStart;
self._operations.splice(operationIndex + 1, 0, newOperation, splitOperation);
}
if (match) {
if (operation.type === RETAIN) {
returnValue = seenInSubArray + (index - rangeStart);
} else {
returnValue = seenInSubArray;
}
}
self._composeAt(operationIndex);
}, function(seenInSubArray) {
self._operations.push(new Operation(itemType, 1));
if (match) {
returnValue = seenInSubArray;
}
self._composeAt(self._operations.length-1);
});
return returnValue;
},
/**
Track that an item was removed from the tracked array.
@method removeItem
@param {number} index The index of the item in the tracked array.
@return {number} The index of the item in the subarray, or `-1` if the item
was not in the subarray.
*/
removeItem: function(index) {
var returnValue = -1,
self = this;
this._findOperation(index, function (operation, operationIndex, rangeStart, rangeEnd, seenInSubArray) {
if (operation.type === RETAIN) {
returnValue = seenInSubArray + (index - rangeStart);
}
if (operation.count > 1) {
--operation.count;
} else {
self._operations.splice(operationIndex, 1);
self._composeAt(operationIndex);
}
}, function() {
throw new Ember.Error("Can't remove an item that has never been added.");
});
return returnValue;
},
_findOperation: function (index, foundCallback, notFoundCallback) {
var operationIndex,
len,
operation,
rangeStart,
rangeEnd,
seenInSubArray = 0;
// OPTIMIZE: change to balanced tree
// find leftmost operation to the right of `index`
for (operationIndex = rangeStart = 0, len = this._operations.length; operationIndex < len; rangeStart = rangeEnd + 1, ++operationIndex) {
operation = this._operations[operationIndex];
rangeEnd = rangeStart + operation.count - 1;
if (index >= rangeStart && index <= rangeEnd) {
foundCallback(operation, operationIndex, rangeStart, rangeEnd, seenInSubArray);
return;
} else if (operation.type === RETAIN) {
seenInSubArray += operation.count;
}
}
notFoundCallback(seenInSubArray);
},
_composeAt: function(index) {
var op = this._operations[index],
otherOp;
if (!op) {
// Composing out of bounds is a no-op, as when removing the last operation
// in the list.
return;
}
if (index > 0) {
otherOp = this._operations[index-1];
if (otherOp.type === op.type) {
op.count += otherOp.count;
this._operations.splice(index-1, 1);
--index;
}
}
if (index < this._operations.length-1) {
otherOp = this._operations[index+1];
if (otherOp.type === op.type) {
op.count += otherOp.count;
this._operations.splice(index+1, 1);
}
}
},
toString: function () {
var str = "";
forEach(this._operations, function (operation) {
str += " " + operation.type + ":" + operation.count;
});
return str.substring(1);
}
};
})();
(function() {
Ember.Container = requireModule('container')['default'];
Ember.Container.set = Ember.set;
})();
(function() {
Ember.Application = Ember.Namespace.extend();
})();
(function() {
/**
@module ember
@submodule ember-runtime
*/
var OUT_OF_RANGE_EXCEPTION = "Index out of range";
var EMPTY = [];
var get = Ember.get, set = Ember.set;
/**
An ArrayProxy wraps any other object that implements `Ember.Array` and/or
`Ember.MutableArray,` forwarding all requests. This makes it very useful for
a number of binding use cases or other cases where being able to swap
out the underlying array is useful.
A simple example of usage:
```javascript
var pets = ['dog', 'cat', 'fish'];
var ap = Ember.ArrayProxy.create({ content: Ember.A(pets) });
ap.get('firstObject'); // 'dog'
ap.set('content', ['amoeba', 'paramecium']);
ap.get('firstObject'); // 'amoeba'
```
This class can also be useful as a layer to transform the contents of
an array, as they are accessed. This can be done by overriding
`objectAtContent`:
```javascript
var pets = ['dog', 'cat', 'fish'];
var ap = Ember.ArrayProxy.create({
content: Ember.A(pets),
objectAtContent: function(idx) {
return this.get('content').objectAt(idx).toUpperCase();
}
});
ap.get('firstObject'); // . 'DOG'
```
@class ArrayProxy
@namespace Ember
@extends Ember.Object
@uses Ember.MutableArray
*/
Ember.ArrayProxy = Ember.Object.extend(Ember.MutableArray, {
/**
The content array. Must be an object that implements `Ember.Array` and/or
`Ember.MutableArray.`
@property content
@type Ember.Array
*/
content: null,
/**
The array that the proxy pretends to be. In the default `ArrayProxy`
implementation, this and `content` are the same. Subclasses of `ArrayProxy`
can override this property to provide things like sorting and filtering.
@property arrangedContent
*/
arrangedContent: Ember.computed.alias('content'),
/**
Should actually retrieve the object at the specified index from the
content. You can override this method in subclasses to transform the
content item to something new.
This method will only be called if content is non-`null`.
@method objectAtContent
@param {Number} idx The index to retrieve.
@return {Object} the value or undefined if none found
*/
objectAtContent: function(idx) {
return get(this, 'arrangedContent').objectAt(idx);
},
/**
Should actually replace the specified objects on the content array.
You can override this method in subclasses to transform the content item
into something new.
This method will only be called if content is non-`null`.
@method replaceContent
@param {Number} idx The starting index
@param {Number} amt The number of items to remove from the content.
@param {Array} objects Optional array of objects to insert or null if no
objects.
@return {void}
*/
replaceContent: function(idx, amt, objects) {
get(this, 'content').replace(idx, amt, objects);
},
/**
Invoked when the content property is about to change. Notifies observers that the
entire array content will change.
@private
@method _contentWillChange
*/
_contentWillChange: Ember.beforeObserver('content', function() {
this._teardownContent();
}),
_teardownContent: function() {
var content = get(this, 'content');
if (content) {
content.removeArrayObserver(this, {
willChange: 'contentArrayWillChange',
didChange: 'contentArrayDidChange'
});
}
},
contentArrayWillChange: Ember.K,
contentArrayDidChange: Ember.K,
/**
Invoked when the content property changes. Notifies observers that the
entire array content has changed.
@private
@method _contentDidChange
*/
_contentDidChange: Ember.observer('content', function() {
var content = get(this, 'content');
Ember.assert("Can't set ArrayProxy's content to itself", content !== this);
this._setupContent();
}),
_setupContent: function() {
var content = get(this, 'content');
if (content) {
Ember.assert(Ember.String.fmt('ArrayProxy expects an Array or ' +
'Ember.ArrayProxy, but you passed %@', [typeof content]),
Ember.isArray(content) || content.isDestroyed);
content.addArrayObserver(this, {
willChange: 'contentArrayWillChange',
didChange: 'contentArrayDidChange'
});
}
},
_arrangedContentWillChange: Ember.beforeObserver('arrangedContent', function() {
var arrangedContent = get(this, 'arrangedContent'),
len = arrangedContent ? get(arrangedContent, 'length') : 0;
this.arrangedContentArrayWillChange(this, 0, len, undefined);
this.arrangedContentWillChange(this);
this._teardownArrangedContent(arrangedContent);
}),
_arrangedContentDidChange: Ember.observer('arrangedContent', function() {
var arrangedContent = get(this, 'arrangedContent'),
len = arrangedContent ? get(arrangedContent, 'length') : 0;
Ember.assert("Can't set ArrayProxy's content to itself", arrangedContent !== this);
this._setupArrangedContent();
this.arrangedContentDidChange(this);
this.arrangedContentArrayDidChange(this, 0, undefined, len);
}),
_setupArrangedContent: function() {
var arrangedContent = get(this, 'arrangedContent');
if (arrangedContent) {
Ember.assert(Ember.String.fmt('ArrayProxy expects an Array or ' +
'Ember.ArrayProxy, but you passed %@', [typeof arrangedContent]),
Ember.isArray(arrangedContent) || arrangedContent.isDestroyed);
arrangedContent.addArrayObserver(this, {
willChange: 'arrangedContentArrayWillChange',
didChange: 'arrangedContentArrayDidChange'
});
}
},
_teardownArrangedContent: function() {
var arrangedContent = get(this, 'arrangedContent');
if (arrangedContent) {
arrangedContent.removeArrayObserver(this, {
willChange: 'arrangedContentArrayWillChange',
didChange: 'arrangedContentArrayDidChange'
});
}
},
arrangedContentWillChange: Ember.K,
arrangedContentDidChange: Ember.K,
objectAt: function(idx) {
return get(this, 'content') && this.objectAtContent(idx);
},
length: Ember.computed(function() {
var arrangedContent = get(this, 'arrangedContent');
return arrangedContent ? get(arrangedContent, 'length') : 0;
// No dependencies since Enumerable notifies length of change
}),
_replace: function(idx, amt, objects) {
var content = get(this, 'content');
Ember.assert('The content property of '+ this.constructor + ' should be set before modifying it', content);
if (content) this.replaceContent(idx, amt, objects);
return this;
},
replace: function() {
if (get(this, 'arrangedContent') === get(this, 'content')) {
this._replace.apply(this, arguments);
} else {
throw new Ember.Error("Using replace on an arranged ArrayProxy is not allowed.");
}
},
_insertAt: function(idx, object) {
if (idx > get(this, 'content.length')) throw new Ember.Error(OUT_OF_RANGE_EXCEPTION);
this._replace(idx, 0, [object]);
return this;
},
insertAt: function(idx, object) {
if (get(this, 'arrangedContent') === get(this, 'content')) {
return this._insertAt(idx, object);
} else {
throw new Ember.Error("Using insertAt on an arranged ArrayProxy is not allowed.");
}
},
removeAt: function(start, len) {
if ('number' === typeof start) {
var content = get(this, 'content'),
arrangedContent = get(this, 'arrangedContent'),
indices = [], i;
if ((start < 0) || (start >= get(this, 'length'))) {
throw new Ember.Error(OUT_OF_RANGE_EXCEPTION);
}
if (len === undefined) len = 1;
// Get a list of indices in original content to remove
for (i=start; i<start+len; i++) {
// Use arrangedContent here so we avoid confusion with objects transformed by objectAtContent
indices.push(content.indexOf(arrangedContent.objectAt(i)));
}
// Replace in reverse order since indices will change
indices.sort(function(a,b) { return b - a; });
Ember.beginPropertyChanges();
for (i=0; i<indices.length; i++) {
this._replace(indices[i], 1, EMPTY);
}
Ember.endPropertyChanges();
}
return this ;
},
pushObject: function(obj) {
this._insertAt(get(this, 'content.length'), obj) ;
return obj ;
},
pushObjects: function(objects) {
if (!(Ember.Enumerable.detect(objects) || Ember.isArray(objects))) {
throw new TypeError("Must pass Ember.Enumerable to Ember.MutableArray#pushObjects");
}
this._replace(get(this, 'length'), 0, objects);
return this;
},
setObjects: function(objects) {
if (objects.length === 0) return this.clear();
var len = get(this, 'length');
this._replace(0, len, objects);
return this;
},
unshiftObject: function(obj) {
this._insertAt(0, obj) ;
return obj ;
},
unshiftObjects: function(objects) {
this._replace(0, 0, objects);
return this;
},
slice: function() {
var arr = this.toArray();
return arr.slice.apply(arr, arguments);
},
arrangedContentArrayWillChange: function(item, idx, removedCnt, addedCnt) {
this.arrayContentWillChange(idx, removedCnt, addedCnt);
},
arrangedContentArrayDidChange: function(item, idx, removedCnt, addedCnt) {
this.arrayContentDidChange(idx, removedCnt, addedCnt);
},
init: function() {
this._super();
this._setupContent();
this._setupArrangedContent();
},
willDestroy: function() {
this._teardownArrangedContent();
this._teardownContent();
}
});
})();
(function() {
/**
@module ember
@submodule ember-runtime
*/
var set = Ember.set, get = Ember.get, guidFor = Ember.guidFor;
var forEach = Ember.EnumerableUtils.forEach,
indexOf = Ember.ArrayPolyfills.indexOf;
var EachArray = Ember.Object.extend(Ember.Array, {
init: function(content, keyName, owner) {
this._super();
this._keyName = keyName;
this._owner = owner;
this._content = content;
},
objectAt: function(idx) {
var item = this._content.objectAt(idx);
return item && get(item, this._keyName);
},
length: Ember.computed(function() {
var content = this._content;
return content ? get(content, 'length') : 0;
})
});
var IS_OBSERVER = /^.+:(before|change)$/;
function addObserverForContentKey(content, keyName, proxy, idx, loc) {
var objects = proxy._objects, guid;
if (!objects) objects = proxy._objects = {};
while(--loc>=idx) {
var item = content.objectAt(loc);
if (item) {
Ember.assert('When using @each to observe the array ' + content + ', the array must return an object', Ember.typeOf(item) === 'instance' || Ember.typeOf(item) === 'object');
Ember.addBeforeObserver(item, keyName, proxy, 'contentKeyWillChange');
Ember.addObserver(item, keyName, proxy, 'contentKeyDidChange');
// keep track of the index each item was found at so we can map
// it back when the obj changes.
guid = guidFor(item);
if (!objects[guid]) objects[guid] = [];
objects[guid].push(loc);
}
}
}
function removeObserverForContentKey(content, keyName, proxy, idx, loc) {
var objects = proxy._objects;
if (!objects) objects = proxy._objects = {};
var indicies, guid;
while(--loc>=idx) {
var item = content.objectAt(loc);
if (item) {
Ember.removeBeforeObserver(item, keyName, proxy, 'contentKeyWillChange');
Ember.removeObserver(item, keyName, proxy, 'contentKeyDidChange');
guid = guidFor(item);
indicies = objects[guid];
indicies[indexOf.call(indicies, loc)] = null;
}
}
}
/**
This is the object instance returned when you get the `@each` property on an
array. It uses the unknownProperty handler to automatically create
EachArray instances for property names.
@private
@class EachProxy
@namespace Ember
@extends Ember.Object
*/
Ember.EachProxy = Ember.Object.extend({
init: function(content) {
this._super();
this._content = content;
content.addArrayObserver(this);
// in case someone is already observing some keys make sure they are
// added
forEach(Ember.watchedEvents(this), function(eventName) {
this.didAddListener(eventName);
}, this);
},
/**
You can directly access mapped properties by simply requesting them.
The `unknownProperty` handler will generate an EachArray of each item.
@method unknownProperty
@param keyName {String}
@param value {*}
*/
unknownProperty: function(keyName, value) {
var ret;
ret = new EachArray(this._content, keyName, this);
Ember.defineProperty(this, keyName, null, ret);
this.beginObservingContentKey(keyName);
return ret;
},
// ..........................................................
// ARRAY CHANGES
// Invokes whenever the content array itself changes.
arrayWillChange: function(content, idx, removedCnt, addedCnt) {
var keys = this._keys, key, lim;
lim = removedCnt>0 ? idx+removedCnt : -1;
Ember.beginPropertyChanges(this);
for(key in keys) {
if (!keys.hasOwnProperty(key)) { continue; }
if (lim>0) { removeObserverForContentKey(content, key, this, idx, lim); }
Ember.propertyWillChange(this, key);
}
Ember.propertyWillChange(this._content, '@each');
Ember.endPropertyChanges(this);
},
arrayDidChange: function(content, idx, removedCnt, addedCnt) {
var keys = this._keys, lim;
lim = addedCnt>0 ? idx+addedCnt : -1;
Ember.changeProperties(function() {
for(var key in keys) {
if (!keys.hasOwnProperty(key)) { continue; }
if (lim>0) { addObserverForContentKey(content, key, this, idx, lim); }
Ember.propertyDidChange(this, key);
}
Ember.propertyDidChange(this._content, '@each');
}, this);
},
// ..........................................................
// LISTEN FOR NEW OBSERVERS AND OTHER EVENT LISTENERS
// Start monitoring keys based on who is listening...
didAddListener: function(eventName) {
if (IS_OBSERVER.test(eventName)) {
this.beginObservingContentKey(eventName.slice(0, -7));
}
},
didRemoveListener: function(eventName) {
if (IS_OBSERVER.test(eventName)) {
this.stopObservingContentKey(eventName.slice(0, -7));
}
},
// ..........................................................
// CONTENT KEY OBSERVING
// Actual watch keys on the source content.
beginObservingContentKey: function(keyName) {
var keys = this._keys;
if (!keys) keys = this._keys = {};
if (!keys[keyName]) {
keys[keyName] = 1;
var content = this._content,
len = get(content, 'length');
addObserverForContentKey(content, keyName, this, 0, len);
} else {
keys[keyName]++;
}
},
stopObservingContentKey: function(keyName) {
var keys = this._keys;
if (keys && (keys[keyName]>0) && (--keys[keyName]<=0)) {
var content = this._content,
len = get(content, 'length');
removeObserverForContentKey(content, keyName, this, 0, len);
}
},
contentKeyWillChange: function(obj, keyName) {
Ember.propertyWillChange(this, keyName);
},
contentKeyDidChange: function(obj, keyName) {
Ember.propertyDidChange(this, keyName);
}
});
})();
(function() {
/**
@module ember
@submodule ember-runtime
*/
var get = Ember.get, set = Ember.set, replace = Ember.EnumerableUtils._replace;
// Add Ember.Array to Array.prototype. Remove methods with native
// implementations and supply some more optimized versions of generic methods
// because they are so common.
var NativeArray = Ember.Mixin.create(Ember.MutableArray, Ember.Observable, Ember.Copyable, {
// because length is a built-in property we need to know to just get the
// original property.
get: function(key) {
if (key==='length') return this.length;
else if ('number' === typeof key) return this[key];
else return this._super(key);
},
objectAt: function(idx) {
return this[idx];
},
// primitive for array support.
replace: function(idx, amt, objects) {
if (this.isFrozen) throw Ember.FROZEN_ERROR;
// if we replaced exactly the same number of items, then pass only the
// replaced range. Otherwise, pass the full remaining array length
// since everything has shifted
var len = objects ? get(objects, 'length') : 0;
this.arrayContentWillChange(idx, amt, len);
if (len === 0) {
this.splice(idx, amt);
} else {
replace(this, idx, amt, objects);
}
this.arrayContentDidChange(idx, amt, len);
return this;
},
// If you ask for an unknown property, then try to collect the value
// from member items.
unknownProperty: function(key, value) {
var ret;// = this.reducedProperty(key, value) ;
if ((value !== undefined) && ret === undefined) {
ret = this[key] = value;
}
return ret ;
},
// If browser did not implement indexOf natively, then override with
// specialized version
indexOf: function(object, startAt) {
var idx, len = this.length;
if (startAt === undefined) startAt = 0;
else startAt = (startAt < 0) ? Math.ceil(startAt) : Math.floor(startAt);
if (startAt < 0) startAt += len;
for(idx=startAt;idx<len;idx++) {
if (this[idx] === object) return idx ;
}
return -1;
},
lastIndexOf: function(object, startAt) {
var idx, len = this.length;
if (startAt === undefined) startAt = len-1;
else startAt = (startAt < 0) ? Math.ceil(startAt) : Math.floor(startAt);
if (startAt < 0) startAt += len;
for(idx=startAt;idx>=0;idx--) {
if (this[idx] === object) return idx ;
}
return -1;
},
copy: function(deep) {
if (deep) {
return this.map(function(item) { return Ember.copy(item, true); });
}
return this.slice();
}
});
// Remove any methods implemented natively so we don't override them
var ignore = ['length'];
Ember.EnumerableUtils.forEach(NativeArray.keys(), function(methodName) {
if (Array.prototype[methodName]) ignore.push(methodName);
});
if (ignore.length>0) {
NativeArray = NativeArray.without.apply(NativeArray, ignore);
}
/**
The NativeArray mixin contains the properties needed to to make the native
Array support Ember.MutableArray and all of its dependent APIs. Unless you
have `Ember.EXTEND_PROTOTYPES` or `Ember.EXTEND_PROTOTYPES.Array` set to
false, this will be applied automatically. Otherwise you can apply the mixin
at anytime by calling `Ember.NativeArray.activate`.
@class NativeArray
@namespace Ember
@uses Ember.MutableArray
@uses Ember.Observable
@uses Ember.Copyable
*/
Ember.NativeArray = NativeArray;
/**
Creates an `Ember.NativeArray` from an Array like object.
Does not modify the original object. Ember.A is not needed if
`Ember.EXTEND_PROTOTYPES` is `true` (the default value). However,
it is recommended that you use Ember.A when creating addons for
ember or when you can not guarantee that `Ember.EXTEND_PROTOTYPES`
will be `true`.
Example
```js
var Pagination = Ember.CollectionView.extend({
tagName: 'ul',
classNames: ['pagination'],
init: function() {
this._super();
if (!this.get('content')) {
this.set('content', Ember.A([]));
}
}
});
```
@method A
@for Ember
@return {Ember.NativeArray}
*/
Ember.A = function(arr) {
if (arr === undefined) { arr = []; }
return Ember.Array.detect(arr) ? arr : Ember.NativeArray.apply(arr);
};
/**
Activates the mixin on the Array.prototype if not already applied. Calling
this method more than once is safe. This will be called when ember is loaded
unless you have `Ember.EXTEND_PROTOTYPES` or `Ember.EXTEND_PROTOTYPES.Array`
set to `false`.
Example
```js
if (Ember.EXTEND_PROTOTYPES === true || Ember.EXTEND_PROTOTYPES.Array) {
Ember.NativeArray.activate();
}
```
@method activate
@for Ember.NativeArray
@static
@return {void}
*/
Ember.NativeArray.activate = function() {
NativeArray.apply(Array.prototype);
Ember.A = function(arr) { return arr || []; };
};
if (Ember.EXTEND_PROTOTYPES === true || Ember.EXTEND_PROTOTYPES.Array) {
Ember.NativeArray.activate();
}
})();
(function() {
/**
@module ember
@submodule ember-runtime
*/
var get = Ember.get, set = Ember.set, guidFor = Ember.guidFor, isNone = Ember.isNone, fmt = Ember.String.fmt;
/**
An unordered collection of objects.
A Set works a bit like an array except that its items are not ordered. You
can create a set to efficiently test for membership for an object. You can
also iterate through a set just like an array, even accessing objects by
index, however there is no guarantee as to their order.
All Sets are observable via the Enumerable Observer API - which works
on any enumerable object including both Sets and Arrays.
## Creating a Set
You can create a set like you would most objects using
`new Ember.Set()`. Most new sets you create will be empty, but you can
also initialize the set with some content by passing an array or other
enumerable of objects to the constructor.
Finally, you can pass in an existing set and the set will be copied. You
can also create a copy of a set by calling `Ember.Set#copy()`.
```javascript
// creates a new empty set
var foundNames = new Ember.Set();
// creates a set with four names in it.
var names = new Ember.Set(["Charles", "Tom", "Juan", "Alex"]); // :P
// creates a copy of the names set.
var namesCopy = new Ember.Set(names);
// same as above.
var anotherNamesCopy = names.copy();
```
## Adding/Removing Objects
You generally add or remove objects from a set using `add()` or
`remove()`. You can add any type of object including primitives such as
numbers, strings, and booleans.
Unlike arrays, objects can only exist one time in a set. If you call `add()`
on a set with the same object multiple times, the object will only be added
once. Likewise, calling `remove()` with the same object multiple times will
remove the object the first time and have no effect on future calls until
you add the object to the set again.
NOTE: You cannot add/remove `null` or `undefined` to a set. Any attempt to do
so will be ignored.
In addition to add/remove you can also call `push()`/`pop()`. Push behaves
just like `add()` but `pop()`, unlike `remove()` will pick an arbitrary
object, remove it and return it. This is a good way to use a set as a job
queue when you don't care which order the jobs are executed in.
## Testing for an Object
To test for an object's presence in a set you simply call
`Ember.Set#contains()`.
## Observing changes
When using `Ember.Set`, you can observe the `"[]"` property to be
alerted whenever the content changes. You can also add an enumerable
observer to the set to be notified of specific objects that are added and
removed from the set. See [Ember.Enumerable](/api/classes/Ember.Enumerable.html)
for more information on enumerables.
This is often unhelpful. If you are filtering sets of objects, for instance,
it is very inefficient to re-filter all of the items each time the set
changes. It would be better if you could just adjust the filtered set based
on what was changed on the original set. The same issue applies to merging
sets, as well.
## Other Methods
`Ember.Set` primary implements other mixin APIs. For a complete reference
on the methods you will use with `Ember.Set`, please consult these mixins.
The most useful ones will be `Ember.Enumerable` and
`Ember.MutableEnumerable` which implement most of the common iterator
methods you are used to on Array.
Note that you can also use the `Ember.Copyable` and `Ember.Freezable`
APIs on `Ember.Set` as well. Once a set is frozen it can no longer be
modified. The benefit of this is that when you call `frozenCopy()` on it,
Ember will avoid making copies of the set. This allows you to write
code that can know with certainty when the underlying set data will or
will not be modified.
@class Set
@namespace Ember
@extends Ember.CoreObject
@uses Ember.MutableEnumerable
@uses Ember.Copyable
@uses Ember.Freezable
@since Ember 0.9
*/
Ember.Set = Ember.CoreObject.extend(Ember.MutableEnumerable, Ember.Copyable, Ember.Freezable,
{
// ..........................................................
// IMPLEMENT ENUMERABLE APIS
//
/**
This property will change as the number of objects in the set changes.
@property length
@type number
@default 0
*/
length: 0,
/**
Clears the set. This is useful if you want to reuse an existing set
without having to recreate it.
```javascript
var colors = new Ember.Set(["red", "green", "blue"]);
colors.length; // 3
colors.clear();
colors.length; // 0
```
@method clear
@return {Ember.Set} An empty Set
*/
clear: function() {
if (this.isFrozen) { throw new Ember.Error(Ember.FROZEN_ERROR); }
var len = get(this, 'length');
if (len === 0) { return this; }
var guid;
this.enumerableContentWillChange(len, 0);
Ember.propertyWillChange(this, 'firstObject');
Ember.propertyWillChange(this, 'lastObject');
for (var i=0; i < len; i++) {
guid = guidFor(this[i]);
delete this[guid];
delete this[i];
}
set(this, 'length', 0);
Ember.propertyDidChange(this, 'firstObject');
Ember.propertyDidChange(this, 'lastObject');
this.enumerableContentDidChange(len, 0);
return this;
},
/**
Returns true if the passed object is also an enumerable that contains the
same objects as the receiver.
```javascript
var colors = ["red", "green", "blue"],
same_colors = new Ember.Set(colors);
same_colors.isEqual(colors); // true
same_colors.isEqual(["purple", "brown"]); // false
```
@method isEqual
@param {Ember.Set} obj the other object.
@return {Boolean}
*/
isEqual: function(obj) {
// fail fast
if (!Ember.Enumerable.detect(obj)) return false;
var loc = get(this, 'length');
if (get(obj, 'length') !== loc) return false;
while(--loc >= 0) {
if (!obj.contains(this[loc])) return false;
}
return true;
},
/**
Adds an object to the set. Only non-`null` objects can be added to a set
and those can only be added once. If the object is already in the set or
the passed value is null this method will have no effect.
This is an alias for `Ember.MutableEnumerable.addObject()`.
```javascript
var colors = new Ember.Set();
colors.add("blue"); // ["blue"]
colors.add("blue"); // ["blue"]
colors.add("red"); // ["blue", "red"]
colors.add(null); // ["blue", "red"]
colors.add(undefined); // ["blue", "red"]
```
@method add
@param {Object} obj The object to add.
@return {Ember.Set} The set itself.
*/
add: Ember.aliasMethod('addObject'),
/**
Removes the object from the set if it is found. If you pass a `null` value
or an object that is already not in the set, this method will have no
effect. This is an alias for `Ember.MutableEnumerable.removeObject()`.
```javascript
var colors = new Ember.Set(["red", "green", "blue"]);
colors.remove("red"); // ["blue", "green"]
colors.remove("purple"); // ["blue", "green"]
colors.remove(null); // ["blue", "green"]
```
@method remove
@param {Object} obj The object to remove
@return {Ember.Set} The set itself.
*/
remove: Ember.aliasMethod('removeObject'),
/**
Removes the last element from the set and returns it, or `null` if it's empty.
```javascript
var colors = new Ember.Set(["green", "blue"]);
colors.pop(); // "blue"
colors.pop(); // "green"
colors.pop(); // null
```
@method pop
@return {Object} The removed object from the set or null.
*/
pop: function() {
if (get(this, 'isFrozen')) throw new Ember.Error(Ember.FROZEN_ERROR);
var obj = this.length > 0 ? this[this.length-1] : null;
this.remove(obj);
return obj;
},
/**
Inserts the given object on to the end of the set. It returns
the set itself.
This is an alias for `Ember.MutableEnumerable.addObject()`.
```javascript
var colors = new Ember.Set();
colors.push("red"); // ["red"]
colors.push("green"); // ["red", "green"]
colors.push("blue"); // ["red", "green", "blue"]
```
@method push
@return {Ember.Set} The set itself.
*/
push: Ember.aliasMethod('addObject'),
/**
Removes the last element from the set and returns it, or `null` if it's empty.
This is an alias for `Ember.Set.pop()`.
```javascript
var colors = new Ember.Set(["green", "blue"]);
colors.shift(); // "blue"
colors.shift(); // "green"
colors.shift(); // null
```
@method shift
@return {Object} The removed object from the set or null.
*/
shift: Ember.aliasMethod('pop'),
/**
Inserts the given object on to the end of the set. It returns
the set itself.
This is an alias of `Ember.Set.push()`
```javascript
var colors = new Ember.Set();
colors.unshift("red"); // ["red"]
colors.unshift("green"); // ["red", "green"]
colors.unshift("blue"); // ["red", "green", "blue"]
```
@method unshift
@return {Ember.Set} The set itself.
*/
unshift: Ember.aliasMethod('push'),
/**
Adds each object in the passed enumerable to the set.
This is an alias of `Ember.MutableEnumerable.addObjects()`
```javascript
var colors = new Ember.Set();
colors.addEach(["red", "green", "blue"]); // ["red", "green", "blue"]
```
@method addEach
@param {Ember.Enumerable} objects the objects to add.
@return {Ember.Set} The set itself.
*/
addEach: Ember.aliasMethod('addObjects'),
/**
Removes each object in the passed enumerable to the set.
This is an alias of `Ember.MutableEnumerable.removeObjects()`
```javascript
var colors = new Ember.Set(["red", "green", "blue"]);
colors.removeEach(["red", "blue"]); // ["green"]
```
@method removeEach
@param {Ember.Enumerable} objects the objects to remove.
@return {Ember.Set} The set itself.
*/
removeEach: Ember.aliasMethod('removeObjects'),
// ..........................................................
// PRIVATE ENUMERABLE SUPPORT
//
init: function(items) {
this._super();
if (items) this.addObjects(items);
},
// implement Ember.Enumerable
nextObject: function(idx) {
return this[idx];
},
// more optimized version
firstObject: Ember.computed(function() {
return this.length > 0 ? this[0] : undefined;
}),
// more optimized version
lastObject: Ember.computed(function() {
return this.length > 0 ? this[this.length-1] : undefined;
}),
// implements Ember.MutableEnumerable
addObject: function(obj) {
if (get(this, 'isFrozen')) throw new Ember.Error(Ember.FROZEN_ERROR);
if (isNone(obj)) return this; // nothing to do
var guid = guidFor(obj),
idx = this[guid],
len = get(this, 'length'),
added ;
if (idx>=0 && idx<len && (this[idx] === obj)) return this; // added
added = [obj];
this.enumerableContentWillChange(null, added);
Ember.propertyWillChange(this, 'lastObject');
len = get(this, 'length');
this[guid] = len;
this[len] = obj;
set(this, 'length', len+1);
Ember.propertyDidChange(this, 'lastObject');
this.enumerableContentDidChange(null, added);
return this;
},
// implements Ember.MutableEnumerable
removeObject: function(obj) {
if (get(this, 'isFrozen')) throw new Ember.Error(Ember.FROZEN_ERROR);
if (isNone(obj)) return this; // nothing to do
var guid = guidFor(obj),
idx = this[guid],
len = get(this, 'length'),
isFirst = idx === 0,
isLast = idx === len-1,
last, removed;
if (idx>=0 && idx<len && (this[idx] === obj)) {
removed = [obj];
this.enumerableContentWillChange(removed, null);
if (isFirst) { Ember.propertyWillChange(this, 'firstObject'); }
if (isLast) { Ember.propertyWillChange(this, 'lastObject'); }
// swap items - basically move the item to the end so it can be removed
if (idx < len-1) {
last = this[len-1];
this[idx] = last;
this[guidFor(last)] = idx;
}
delete this[guid];
delete this[len-1];
set(this, 'length', len-1);
if (isFirst) { Ember.propertyDidChange(this, 'firstObject'); }
if (isLast) { Ember.propertyDidChange(this, 'lastObject'); }
this.enumerableContentDidChange(removed, null);
}
return this;
},
// optimized version
contains: function(obj) {
return this[guidFor(obj)]>=0;
},
copy: function() {
var C = this.constructor, ret = new C(), loc = get(this, 'length');
set(ret, 'length', loc);
while(--loc>=0) {
ret[loc] = this[loc];
ret[guidFor(this[loc])] = loc;
}
return ret;
},
toString: function() {
var len = this.length, idx, array = [];
for(idx = 0; idx < len; idx++) {
array[idx] = this[idx];
}
return fmt("Ember.Set<%@>", [array.join(',')]);
}
});
})();
(function() {
var DeferredMixin = Ember.DeferredMixin, // mixins/deferred
get = Ember.get;
var Deferred = Ember.Object.extend(DeferredMixin);
Deferred.reopenClass({
promise: function(callback, binding) {
var deferred = Deferred.create();
callback.call(binding, deferred);
return deferred;
}
});
Ember.Deferred = Deferred;
})();
(function() {
/*globals CustomEvent */
var forEach = Ember.ArrayPolyfills.forEach;
/**
@module ember
@submodule ember-runtime
*/
var loadHooks = Ember.ENV.EMBER_LOAD_HOOKS || {};
var loaded = {};
/**
Detects when a specific package of Ember (e.g. 'Ember.Handlebars')
has fully loaded and is available for extension.
The provided `callback` will be called with the `name` passed
resolved from a string into the object:
``` javascript
Ember.onLoad('Ember.Handlebars' function(hbars){
hbars.registerHelper(...);
});
```
@method onLoad
@for Ember
@param name {String} name of hook
@param callback {Function} callback to be called
*/
Ember.onLoad = function(name, callback) {
var object;
loadHooks[name] = loadHooks[name] || Ember.A();
loadHooks[name].pushObject(callback);
if (object = loaded[name]) {
callback(object);
}
};
/**
Called when an Ember.js package (e.g Ember.Handlebars) has finished
loading. Triggers any callbacks registered for this event.
@method runLoadHooks
@for Ember
@param name {String} name of hook
@param object {Object} object to pass to callbacks
*/
Ember.runLoadHooks = function(name, object) {
loaded[name] = object;
if (typeof window === 'object' && typeof window.dispatchEvent === 'function' && typeof CustomEvent === "function") {
var event = new CustomEvent(name, {detail: object, name: name});
window.dispatchEvent(event);
}
if (loadHooks[name]) {
forEach.call(loadHooks[name], function(callback) {
callback(object);
});
}
};
})();
(function() {
})();
(function() {
var get = Ember.get;
/**
@module ember
@submodule ember-runtime
*/
/**
`Ember.ControllerMixin` provides a standard interface for all classes that
compose Ember's controller layer: `Ember.Controller`,
`Ember.ArrayController`, and `Ember.ObjectController`.
@class ControllerMixin
@namespace Ember
@uses Ember.ActionHandler
*/
Ember.ControllerMixin = Ember.Mixin.create(Ember.ActionHandler, {
/* ducktype as a controller */
isController: true,
/**
The object to which actions from the view should be sent.
For example, when a Handlebars template uses the `{{action}}` helper,
it will attempt to send the action to the view's controller's `target`.
By default, a controller's `target` is set to the router after it is
instantiated by `Ember.Application#initialize`.
@property target
@default null
*/
target: null,
container: null,
parentController: null,
store: null,
model: Ember.computed.alias('content'),
deprecatedSendHandles: function(actionName) {
return !!this[actionName];
},
deprecatedSend: function(actionName) {
var args = [].slice.call(arguments, 1);
Ember.assert('' + this + " has the action " + actionName + " but it is not a function", typeof this[actionName] === 'function');
Ember.deprecate('Action handlers implemented directly on controllers are deprecated in favor of action handlers on an `actions` object ( action: `' + actionName + '` on ' + this + ')', false);
this[actionName].apply(this, args);
return;
}
});
/**
@class Controller
@namespace Ember
@extends Ember.Object
@uses Ember.ControllerMixin
*/
Ember.Controller = Ember.Object.extend(Ember.ControllerMixin);
})();
(function() {
/**
@module ember
@submodule ember-runtime
*/
var get = Ember.get, set = Ember.set, forEach = Ember.EnumerableUtils.forEach;
/**
`Ember.SortableMixin` provides a standard interface for array proxies
to specify a sort order and maintain this sorting when objects are added,
removed, or updated without changing the implicit order of their underlying
content array:
```javascript
songs = [
{trackNumber: 4, title: 'Ob-La-Di, Ob-La-Da'},
{trackNumber: 2, title: 'Back in the U.S.S.R.'},
{trackNumber: 3, title: 'Glass Onion'},
];
songsController = Ember.ArrayController.create({
content: songs,
sortProperties: ['trackNumber'],
sortAscending: true
});
songsController.get('firstObject'); // {trackNumber: 2, title: 'Back in the U.S.S.R.'}
songsController.addObject({trackNumber: 1, title: 'Dear Prudence'});
songsController.get('firstObject'); // {trackNumber: 1, title: 'Dear Prudence'}
```
If you add or remove the properties to sort by or change the sort direction the content
sort order will be automatically updated.
```javascript
songsController.set('sortProperties', ['title']);
songsController.get('firstObject'); // {trackNumber: 2, title: 'Back in the U.S.S.R.'}
songsController.toggleProperty('sortAscending');
songsController.get('firstObject'); // {trackNumber: 4, title: 'Ob-La-Di, Ob-La-Da'}
```
SortableMixin works by sorting the arrangedContent array, which is the array that
arrayProxy displays. Due to the fact that the underlying 'content' array is not changed, that
array will not display the sorted list:
```javascript
songsController.get('content').get('firstObject'); // Returns the unsorted original content
songsController.get('firstObject'); // Returns the sorted content.
```
Although the sorted content can also be accessed through the arrangedContent property,
it is preferable to use the proxied class and not the arrangedContent array directly.
@class SortableMixin
@namespace Ember
@uses Ember.MutableEnumerable
*/
Ember.SortableMixin = Ember.Mixin.create(Ember.MutableEnumerable, {
/**
Specifies which properties dictate the arrangedContent's sort order.
When specifying multiple properties the sorting will use properties
from the `sortProperties` array prioritized from first to last.
@property {Array} sortProperties
*/
sortProperties: null,
/**
Specifies the arrangedContent's sort direction
@property {Boolean} sortAscending
*/
sortAscending: true,
/**
The function used to compare two values. You can override this if you
want to do custom comparisons. Functions must be of the type expected by
Array#sort, i.e.
return 0 if the two parameters are equal,
return a negative value if the first parameter is smaller than the second or
return a positive value otherwise:
```javascript
function(x,y) { // These are assumed to be integers
if (x === y)
return 0;
return x < y ? -1 : 1;
}
```
@property sortFunction
@type {Function}
@default Ember.compare
*/
sortFunction: Ember.compare,
orderBy: function(item1, item2) {
var result = 0,
sortProperties = get(this, 'sortProperties'),
sortAscending = get(this, 'sortAscending'),
sortFunction = get(this, 'sortFunction');
Ember.assert("you need to define `sortProperties`", !!sortProperties);
forEach(sortProperties, function(propertyName) {
if (result === 0) {
result = sortFunction(get(item1, propertyName), get(item2, propertyName));
if ((result !== 0) && !sortAscending) {
result = (-1) * result;
}
}
});
return result;
},
destroy: function() {
var content = get(this, 'content'),
sortProperties = get(this, 'sortProperties');
if (content && sortProperties) {
forEach(content, function(item) {
forEach(sortProperties, function(sortProperty) {
Ember.removeObserver(item, sortProperty, this, 'contentItemSortPropertyDidChange');
}, this);
}, this);
}
return this._super();
},
isSorted: Ember.computed.bool('sortProperties'),
/**
Overrides the default arrangedContent from arrayProxy in order to sort by sortFunction.
Also sets up observers for each sortProperty on each item in the content Array.
@property arrangedContent
*/
arrangedContent: Ember.computed('content', 'sortProperties.@each', function(key, value) {
var content = get(this, 'content'),
isSorted = get(this, 'isSorted'),
sortProperties = get(this, 'sortProperties'),
self = this;
if (content && isSorted) {
content = content.slice();
content.sort(function(item1, item2) {
return self.orderBy(item1, item2);
});
forEach(content, function(item) {
forEach(sortProperties, function(sortProperty) {
Ember.addObserver(item, sortProperty, this, 'contentItemSortPropertyDidChange');
}, this);
}, this);
return Ember.A(content);
}
return content;
}),
_contentWillChange: Ember.beforeObserver('content', function() {
var content = get(this, 'content'),
sortProperties = get(this, 'sortProperties');
if (content && sortProperties) {
forEach(content, function(item) {
forEach(sortProperties, function(sortProperty) {
Ember.removeObserver(item, sortProperty, this, 'contentItemSortPropertyDidChange');
}, this);
}, this);
}
this._super();
}),
sortAscendingWillChange: Ember.beforeObserver('sortAscending', function() {
this._lastSortAscending = get(this, 'sortAscending');
}),
sortAscendingDidChange: Ember.observer('sortAscending', function() {
if (get(this, 'sortAscending') !== this._lastSortAscending) {
var arrangedContent = get(this, 'arrangedContent');
arrangedContent.reverseObjects();
}
}),
contentArrayWillChange: function(array, idx, removedCount, addedCount) {
var isSorted = get(this, 'isSorted');
if (isSorted) {
var arrangedContent = get(this, 'arrangedContent');
var removedObjects = array.slice(idx, idx+removedCount);
var sortProperties = get(this, 'sortProperties');
forEach(removedObjects, function(item) {
arrangedContent.removeObject(item);
forEach(sortProperties, function(sortProperty) {
Ember.removeObserver(item, sortProperty, this, 'contentItemSortPropertyDidChange');
}, this);
}, this);
}
return this._super(array, idx, removedCount, addedCount);
},
contentArrayDidChange: function(array, idx, removedCount, addedCount) {
var isSorted = get(this, 'isSorted'),
sortProperties = get(this, 'sortProperties');
if (isSorted) {
var addedObjects = array.slice(idx, idx+addedCount);
forEach(addedObjects, function(item) {
this.insertItemSorted(item);
forEach(sortProperties, function(sortProperty) {
Ember.addObserver(item, sortProperty, this, 'contentItemSortPropertyDidChange');
}, this);
}, this);
}
return this._super(array, idx, removedCount, addedCount);
},
insertItemSorted: function(item) {
var arrangedContent = get(this, 'arrangedContent');
var length = get(arrangedContent, 'length');
var idx = this._binarySearch(item, 0, length);
arrangedContent.insertAt(idx, item);
},
contentItemSortPropertyDidChange: function(item) {
var arrangedContent = get(this, 'arrangedContent'),
oldIndex = arrangedContent.indexOf(item),
leftItem = arrangedContent.objectAt(oldIndex - 1),
rightItem = arrangedContent.objectAt(oldIndex + 1),
leftResult = leftItem && this.orderBy(item, leftItem),
rightResult = rightItem && this.orderBy(item, rightItem);
if (leftResult < 0 || rightResult > 0) {
arrangedContent.removeObject(item);
this.insertItemSorted(item);
}
},
_binarySearch: function(item, low, high) {
var mid, midItem, res, arrangedContent;
if (low === high) {
return low;
}
arrangedContent = get(this, 'arrangedContent');
mid = low + Math.floor((high - low) / 2);
midItem = arrangedContent.objectAt(mid);
res = this.orderBy(midItem, item);
if (res < 0) {
return this._binarySearch(item, mid+1, high);
} else if (res > 0) {
return this._binarySearch(item, low, mid);
}
return mid;
}
});
})();
(function() {
/**
@module ember
@submodule ember-runtime
*/
var get = Ember.get, set = Ember.set, forEach = Ember.EnumerableUtils.forEach,
replace = Ember.EnumerableUtils.replace;
/**
`Ember.ArrayController` provides a way for you to publish a collection of
objects so that you can easily bind to the collection from a Handlebars
`#each` helper, an `Ember.CollectionView`, or other controllers.
The advantage of using an `ArrayController` is that you only have to set up
your view bindings once; to change what's displayed, simply swap out the
`content` property on the controller.
For example, imagine you wanted to display a list of items fetched via an XHR
request. Create an `Ember.ArrayController` and set its `content` property:
```javascript
MyApp.listController = Ember.ArrayController.create();
$.get('people.json', function(data) {
MyApp.listController.set('content', data);
});
```
Then, create a view that binds to your new controller:
```handlebars
{{#each MyApp.listController}}
{{firstName}} {{lastName}}
{{/each}}
```
Although you are binding to the controller, the behavior of this controller
is to pass through any methods or properties to the underlying array. This
capability comes from `Ember.ArrayProxy`, which this class inherits from.
Sometimes you want to display computed properties within the body of an
`#each` helper that depend on the underlying items in `content`, but are not
present on those items. To do this, set `itemController` to the name of a
controller (probably an `ObjectController`) that will wrap each individual item.
For example:
```handlebars
{{#each post in controller}}
<li>{{title}} ({{titleLength}} characters)</li>
{{/each}}
```
```javascript
App.PostsController = Ember.ArrayController.extend({
itemController: 'post'
});
App.PostController = Ember.ObjectController.extend({
// the `title` property will be proxied to the underlying post.
titleLength: function() {
return this.get('title').length;
}.property('title')
});
```
In some cases it is helpful to return a different `itemController` depending
on the particular item. Subclasses can do this by overriding
`lookupItemController`.
For example:
```javascript
App.MyArrayController = Ember.ArrayController.extend({
lookupItemController: function( object ) {
if (object.get('isSpecial')) {
return "special"; // use App.SpecialController
} else {
return "regular"; // use App.RegularController
}
}
});
```
The itemController instances will have a `parentController` property set to
the `ArrayController` instance.
@class ArrayController
@namespace Ember
@extends Ember.ArrayProxy
@uses Ember.SortableMixin
@uses Ember.ControllerMixin
*/
Ember.ArrayController = Ember.ArrayProxy.extend(Ember.ControllerMixin,
Ember.SortableMixin, {
/**
The controller used to wrap items, if any.
@property itemController
@type String
@default null
*/
itemController: null,
/**
Return the name of the controller to wrap items, or `null` if items should
be returned directly. The default implementation simply returns the
`itemController` property, but subclasses can override this method to return
different controllers for different objects.
For example:
```javascript
App.MyArrayController = Ember.ArrayController.extend({
lookupItemController: function( object ) {
if (object.get('isSpecial')) {
return "special"; // use App.SpecialController
} else {
return "regular"; // use App.RegularController
}
}
});
```
@method lookupItemController
@param {Object} object
@return {String}
*/
lookupItemController: function(object) {
return get(this, 'itemController');
},
objectAtContent: function(idx) {
var length = get(this, 'length'),
arrangedContent = get(this,'arrangedContent'),
object = arrangedContent && arrangedContent.objectAt(idx);
if (idx >= 0 && idx < length) {
var controllerClass = this.lookupItemController(object);
if (controllerClass) {
return this.controllerAt(idx, object, controllerClass);
}
}
// When `controllerClass` is falsy, we have not opted in to using item
// controllers, so return the object directly.
// When the index is out of range, we want to return the "out of range"
// value, whatever that might be. Rather than make assumptions
// (e.g. guessing `null` or `undefined`) we defer this to `arrangedContent`.
return object;
},
arrangedContentDidChange: function() {
this._super();
this._resetSubControllers();
},
arrayContentDidChange: function(idx, removedCnt, addedCnt) {
var subControllers = get(this, '_subControllers'),
subControllersToRemove = subControllers.slice(idx, idx+removedCnt);
forEach(subControllersToRemove, function(subController) {
if (subController) { subController.destroy(); }
});
replace(subControllers, idx, removedCnt, new Array(addedCnt));
// The shadow array of subcontrollers must be updated before we trigger
// observers, otherwise observers will get the wrong subcontainer when
// calling `objectAt`
this._super(idx, removedCnt, addedCnt);
},
init: function() {
this._super();
this.set('_subControllers', Ember.A());
},
content: Ember.computed(function () {
return Ember.A();
}),
/**
* Flag to mark as being "virtual". Used to keep this instance
* from participating in the parentController hierarchy.
*
* @private
* @type Boolean
*/
_isVirtual: false,
controllerAt: function(idx, object, controllerClass) {
var container = get(this, 'container'),
subControllers = get(this, '_subControllers'),
subController = subControllers[idx],
fullName;
if (subController) { return subController; }
fullName = "controller:" + controllerClass;
if (!container.has(fullName)) {
throw new Ember.Error('Could not resolve itemController: "' + controllerClass + '"');
}
var parentController;
if (this._isVirtual) {
parentController = get(this, 'parentController');
}
parentController = parentController || this;
subController = container.lookupFactory(fullName).create({
target: this,
parentController: parentController,
content: object
});
subControllers[idx] = subController;
return subController;
},
_subControllers: null,
_resetSubControllers: function() {
var subControllers = get(this, '_subControllers');
if (subControllers) {
forEach(subControllers, function(subController) {
if (subController) { subController.destroy(); }
});
}
this.set('_subControllers', Ember.A());
}
});
})();
(function() {
/**
@module ember
@submodule ember-runtime
*/
/**
`Ember.ObjectController` is part of Ember's Controller layer. It is intended
to wrap a single object, proxying unhandled attempts to `get` and `set` to the underlying
content object, and to forward unhandled action attempts to its `target`.
`Ember.ObjectController` derives this functionality from its superclass
`Ember.ObjectProxy` and the `Ember.ControllerMixin` mixin.
@class ObjectController
@namespace Ember
@extends Ember.ObjectProxy
@uses Ember.ControllerMixin
**/
Ember.ObjectController = Ember.ObjectProxy.extend(Ember.ControllerMixin);
})();
(function() {
})();
(function() {
/**
Ember Runtime
@module ember
@submodule ember-runtime
@requires ember-metal
*/
})();
(function() {
/**
@module ember
@submodule ember-views
*/
var jQuery = (Ember.imports && Ember.imports.jQuery) || (this && this.jQuery);
if (!jQuery && typeof require === 'function') {
jQuery = require('jquery');
}
Ember.assert("Ember Views require jQuery between 1.7 and 2.1", jQuery && (jQuery().jquery.match(/^((1\.(7|8|9|10|11))|(2\.(0|1)))(\.\d+)?(pre|rc\d?)?/) || Ember.ENV.FORCE_JQUERY));
/**
Alias for jQuery
@method $
@for Ember
*/
Ember.$ = jQuery;
})();
(function() {
/**
@module ember
@submodule ember-views
*/
if (Ember.$) {
// http://www.whatwg.org/specs/web-apps/current-work/multipage/dnd.html#dndevents
var dragEvents = Ember.String.w('dragstart drag dragenter dragleave dragover drop dragend');
// Copies the `dataTransfer` property from a browser event object onto the
// jQuery event object for the specified events
Ember.EnumerableUtils.forEach(dragEvents, function(eventName) {
Ember.$.event.fixHooks[eventName] = { props: ['dataTransfer'] };
});
}
})();
(function() {
/**
@module ember
@submodule ember-views
*/
/* BEGIN METAMORPH HELPERS */
// Internet Explorer prior to 9 does not allow setting innerHTML if the first element
// is a "zero-scope" element. This problem can be worked around by making
// the first node an invisible text node. We, like Modernizr, use &shy;
var needsShy = typeof document !== 'undefined' && (function() {
var testEl = document.createElement('div');
testEl.innerHTML = "<div></div>";
testEl.firstChild.innerHTML = "<script></script>";
return testEl.firstChild.innerHTML === '';
})();
// IE 8 (and likely earlier) likes to move whitespace preceeding
// a script tag to appear after it. This means that we can
// accidentally remove whitespace when updating a morph.
var movesWhitespace = typeof document !== 'undefined' && (function() {
var testEl = document.createElement('div');
testEl.innerHTML = "Test: <script type='text/x-placeholder'></script>Value";
return testEl.childNodes[0].nodeValue === 'Test:' &&
testEl.childNodes[2].nodeValue === ' Value';
})();
// Use this to find children by ID instead of using jQuery
var findChildById = function(element, id) {
if (element.getAttribute('id') === id) { return element; }
var len = element.childNodes.length, idx, node, found;
for (idx=0; idx<len; idx++) {
node = element.childNodes[idx];
found = node.nodeType === 1 && findChildById(node, id);
if (found) { return found; }
}
};
var setInnerHTMLWithoutFix = function(element, html) {
if (needsShy) {
html = '&shy;' + html;
}
var matches = [];
if (movesWhitespace) {
// Right now we only check for script tags with ids with the
// goal of targeting morphs.
html = html.replace(/(\s+)(<script id='([^']+)')/g, function(match, spaces, tag, id) {
matches.push([id, spaces]);
return tag;
});
}
element.innerHTML = html;
// If we have to do any whitespace adjustments do them now
if (matches.length > 0) {
var len = matches.length, idx;
for (idx=0; idx<len; idx++) {
var script = findChildById(element, matches[idx][0]),
node = document.createTextNode(matches[idx][1]);
script.parentNode.insertBefore(node, script);
}
}
if (needsShy) {
var shyElement = element.firstChild;
while (shyElement.nodeType === 1 && !shyElement.nodeName) {
shyElement = shyElement.firstChild;
}
if (shyElement.nodeType === 3 && shyElement.nodeValue.charAt(0) === "\u00AD") {
shyElement.nodeValue = shyElement.nodeValue.slice(1);
}
}
};
/* END METAMORPH HELPERS */
var innerHTMLTags = {};
var canSetInnerHTML = function(tagName) {
if (innerHTMLTags[tagName] !== undefined) {
return innerHTMLTags[tagName];
}
var canSet = true;
// IE 8 and earlier don't allow us to do innerHTML on select
if (tagName.toLowerCase() === 'select') {
var el = document.createElement('select');
setInnerHTMLWithoutFix(el, '<option value="test">Test</option>');
canSet = el.options.length === 1;
}
innerHTMLTags[tagName] = canSet;
return canSet;
};
var setInnerHTML = function(element, html) {
var tagName = element.tagName;
if (canSetInnerHTML(tagName)) {
setInnerHTMLWithoutFix(element, html);
} else {
// Firefox versions < 11 do not have support for element.outerHTML.
var outerHTML = element.outerHTML || new XMLSerializer().serializeToString(element);
Ember.assert("Can't set innerHTML on "+element.tagName+" in this browser", outerHTML);
var startTag = outerHTML.match(new RegExp("<"+tagName+"([^>]*)>", 'i'))[0],
endTag = '</'+tagName+'>';
var wrapper = document.createElement('div');
setInnerHTMLWithoutFix(wrapper, startTag + html + endTag);
element = wrapper.firstChild;
while (element.tagName !== tagName) {
element = element.nextSibling;
}
}
return element;
};
function isSimpleClick(event) {
var modifier = event.shiftKey || event.metaKey || event.altKey || event.ctrlKey,
secondaryClick = event.which > 1; // IE9 may return undefined
return !modifier && !secondaryClick;
}
Ember.ViewUtils = {
setInnerHTML: setInnerHTML,
isSimpleClick: isSimpleClick
};
})();
(function() {
/**
@module ember
@submodule ember-views
*/
var get = Ember.get, set = Ember.set;
var ClassSet = function() {
this.seen = {};
this.list = [];
};
ClassSet.prototype = {
add: function(string) {
if (string in this.seen) { return; }
this.seen[string] = true;
this.list.push(string);
},
toDOM: function() {
return this.list.join(" ");
}
};
var BAD_TAG_NAME_TEST_REGEXP = /[^a-zA-Z0-9\-]/;
var BAD_TAG_NAME_REPLACE_REGEXP = /[^a-zA-Z0-9\-]/g;
function stripTagName(tagName) {
if (!tagName) {
return tagName;
}
if (!BAD_TAG_NAME_TEST_REGEXP.test(tagName)) {
return tagName;
}
return tagName.replace(BAD_TAG_NAME_REPLACE_REGEXP, '');
}
var BAD_CHARS_REGEXP = /&(?!\w+;)|[<>"'`]/g;
var POSSIBLE_CHARS_REGEXP = /[&<>"'`]/;
function escapeAttribute(value) {
// Stolen shamelessly from Handlebars
var escape = {
"<": "&lt;",
">": "&gt;",
'"': "&quot;",
"'": "&#x27;",
"`": "&#x60;"
};
var escapeChar = function(chr) {
return escape[chr] || "&amp;";
};
var string = value.toString();
if(!POSSIBLE_CHARS_REGEXP.test(string)) { return string; }
return string.replace(BAD_CHARS_REGEXP, escapeChar);
}
// IE 6/7 have bugs around setting names on inputs during creation.
// From http://msdn.microsoft.com/en-us/library/ie/ms536389(v=vs.85).aspx:
// "To include the NAME attribute at run time on objects created with the createElement method, use the eTag."
var canSetNameOnInputs = (function() {
var div = document.createElement('div'),
el = document.createElement('input');
el.setAttribute('name', 'foo');
div.appendChild(el);
return !!div.innerHTML.match('foo');
})();
/**
`Ember.RenderBuffer` gathers information regarding the a view and generates the
final representation. `Ember.RenderBuffer` will generate HTML which can be pushed
to the DOM.
```javascript
var buffer = Ember.RenderBuffer('div');
```
@class RenderBuffer
@namespace Ember
@constructor
@param {String} tagName tag name (such as 'div' or 'p') used for the buffer
*/
Ember.RenderBuffer = function(tagName) {
return new Ember._RenderBuffer(tagName);
};
Ember._RenderBuffer = function(tagName) {
this.tagNames = [tagName || null];
this.buffer = "";
};
Ember._RenderBuffer.prototype = {
// The root view's element
_element: null,
_hasElement: true,
/**
An internal set used to de-dupe class names when `addClass()` is
used. After each call to `addClass()`, the `classes` property
will be updated.
@private
@property elementClasses
@type Array
@default []
*/
elementClasses: null,
/**
Array of class names which will be applied in the class attribute.
You can use `setClasses()` to set this property directly. If you
use `addClass()`, it will be maintained for you.
@property classes
@type Array
@default []
*/
classes: null,
/**
The id in of the element, to be applied in the id attribute.
You should not set this property yourself, rather, you should use
the `id()` method of `Ember.RenderBuffer`.
@property elementId
@type String
@default null
*/
elementId: null,
/**
A hash keyed on the name of the attribute and whose value will be
applied to that attribute. For example, if you wanted to apply a
`data-view="Foo.bar"` property to an element, you would set the
elementAttributes hash to `{'data-view':'Foo.bar'}`.
You should not maintain this hash yourself, rather, you should use
the `attr()` method of `Ember.RenderBuffer`.
@property elementAttributes
@type Hash
@default {}
*/
elementAttributes: null,
/**
A hash keyed on the name of the properties and whose value will be
applied to that property. For example, if you wanted to apply a
`checked=true` property to an element, you would set the
elementProperties hash to `{'checked':true}`.
You should not maintain this hash yourself, rather, you should use
the `prop()` method of `Ember.RenderBuffer`.
@property elementProperties
@type Hash
@default {}
*/
elementProperties: null,
/**
The tagname of the element an instance of `Ember.RenderBuffer` represents.
Usually, this gets set as the first parameter to `Ember.RenderBuffer`. For
example, if you wanted to create a `p` tag, then you would call
```javascript
Ember.RenderBuffer('p')
```
@property elementTag
@type String
@default null
*/
elementTag: null,
/**
A hash keyed on the name of the style attribute and whose value will
be applied to that attribute. For example, if you wanted to apply a
`background-color:black;` style to an element, you would set the
elementStyle hash to `{'background-color':'black'}`.
You should not maintain this hash yourself, rather, you should use
the `style()` method of `Ember.RenderBuffer`.
@property elementStyle
@type Hash
@default {}
*/
elementStyle: null,
/**
Nested `RenderBuffers` will set this to their parent `RenderBuffer`
instance.
@property parentBuffer
@type Ember._RenderBuffer
*/
parentBuffer: null,
/**
Adds a string of HTML to the `RenderBuffer`.
@method push
@param {String} string HTML to push into the buffer
@chainable
*/
push: function(string) {
this.buffer += string;
return this;
},
/**
Adds a class to the buffer, which will be rendered to the class attribute.
@method addClass
@param {String} className Class name to add to the buffer
@chainable
*/
addClass: function(className) {
// lazily create elementClasses
this.elementClasses = (this.elementClasses || new ClassSet());
this.elementClasses.add(className);
this.classes = this.elementClasses.list;
return this;
},
setClasses: function(classNames) {
this.elementClasses = null;
var len = classNames.length, i;
for (i = 0; i < len; i++) {
this.addClass(classNames[i]);
}
},
/**
Sets the elementID to be used for the element.
@method id
@param {String} id
@chainable
*/
id: function(id) {
this.elementId = id;
return this;
},
// duck type attribute functionality like jQuery so a render buffer
// can be used like a jQuery object in attribute binding scenarios.
/**
Adds an attribute which will be rendered to the element.
@method attr
@param {String} name The name of the attribute
@param {String} value The value to add to the attribute
@chainable
@return {Ember.RenderBuffer|String} this or the current attribute value
*/
attr: function(name, value) {
var attributes = this.elementAttributes = (this.elementAttributes || {});
if (arguments.length === 1) {
return attributes[name];
} else {
attributes[name] = value;
}
return this;
},
/**
Remove an attribute from the list of attributes to render.
@method removeAttr
@param {String} name The name of the attribute
@chainable
*/
removeAttr: function(name) {
var attributes = this.elementAttributes;
if (attributes) { delete attributes[name]; }
return this;
},
/**
Adds a property which will be rendered to the element.
@method prop
@param {String} name The name of the property
@param {String} value The value to add to the property
@chainable
@return {Ember.RenderBuffer|String} this or the current property value
*/
prop: function(name, value) {
var properties = this.elementProperties = (this.elementProperties || {});
if (arguments.length === 1) {
return properties[name];
} else {
properties[name] = value;
}
return this;
},
/**
Remove an property from the list of properties to render.
@method removeProp
@param {String} name The name of the property
@chainable
*/
removeProp: function(name) {
var properties = this.elementProperties;
if (properties) { delete properties[name]; }
return this;
},
/**
Adds a style to the style attribute which will be rendered to the element.
@method style
@param {String} name Name of the style
@param {String} value
@chainable
*/
style: function(name, value) {
this.elementStyle = (this.elementStyle || {});
this.elementStyle[name] = value;
return this;
},
begin: function(tagName) {
this.tagNames.push(tagName || null);
return this;
},
pushOpeningTag: function() {
var tagName = this.currentTagName();
if (!tagName) { return; }
if (this._hasElement && !this._element && this.buffer.length === 0) {
this._element = this.generateElement();
return;
}
var buffer = this.buffer,
id = this.elementId,
classes = this.classes,
attrs = this.elementAttributes,
props = this.elementProperties,
style = this.elementStyle,
attr, prop;
buffer += '<' + stripTagName(tagName);
if (id) {
buffer += ' id="' + escapeAttribute(id) + '"';
this.elementId = null;
}
if (classes) {
buffer += ' class="' + escapeAttribute(classes.join(' ')) + '"';
this.classes = null;
this.elementClasses = null;
}
if (style) {
buffer += ' style="';
for (prop in style) {
if (style.hasOwnProperty(prop)) {
buffer += prop + ':' + escapeAttribute(style[prop]) + ';';
}
}
buffer += '"';
this.elementStyle = null;
}
if (attrs) {
for (attr in attrs) {
if (attrs.hasOwnProperty(attr)) {
buffer += ' ' + attr + '="' + escapeAttribute(attrs[attr]) + '"';
}
}
this.elementAttributes = null;
}
if (props) {
for (prop in props) {
if (props.hasOwnProperty(prop)) {
var value = props[prop];
if (value || typeof(value) === 'number') {
if (value === true) {
buffer += ' ' + prop + '="' + prop + '"';
} else {
buffer += ' ' + prop + '="' + escapeAttribute(props[prop]) + '"';
}
}
}
}
this.elementProperties = null;
}
buffer += '>';
this.buffer = buffer;
},
pushClosingTag: function() {
var tagName = this.tagNames.pop();
if (tagName) { this.buffer += '</' + stripTagName(tagName) + '>'; }
},
currentTagName: function() {
return this.tagNames[this.tagNames.length-1];
},
generateElement: function() {
var tagName = this.tagNames.pop(), // pop since we don't need to close
id = this.elementId,
classes = this.classes,
attrs = this.elementAttributes,
props = this.elementProperties,
style = this.elementStyle,
styleBuffer = '', attr, prop, tagString;
if (attrs && attrs.name && !canSetNameOnInputs) {
// IE allows passing a tag to createElement. See note on `canSetNameOnInputs` above as well.
tagString = '<'+stripTagName(tagName)+' name="'+escapeAttribute(attrs.name)+'">';
} else {
tagString = tagName;
}
var element = document.createElement(tagString),
$element = Ember.$(element);
if (id) {
$element.attr('id', id);
this.elementId = null;
}
if (classes) {
$element.attr('class', classes.join(' '));
this.classes = null;
this.elementClasses = null;
}
if (style) {
for (prop in style) {
if (style.hasOwnProperty(prop)) {
styleBuffer += (prop + ':' + style[prop] + ';');
}
}
$element.attr('style', styleBuffer);
this.elementStyle = null;
}
if (attrs) {
for (attr in attrs) {
if (attrs.hasOwnProperty(attr)) {
$element.attr(attr, attrs[attr]);
}
}
this.elementAttributes = null;
}
if (props) {
for (prop in props) {
if (props.hasOwnProperty(prop)) {
$element.prop(prop, props[prop]);
}
}
this.elementProperties = null;
}
return element;
},
/**
@method element
@return {DOMElement} The element corresponding to the generated HTML
of this buffer
*/
element: function() {
var html = this.innerString();
if (html) {
this._element = Ember.ViewUtils.setInnerHTML(this._element, html);
}
return this._element;
},
/**
Generates the HTML content for this buffer.
@method string
@return {String} The generated HTML
*/
string: function() {
if (this._hasElement && this._element) {
// Firefox versions < 11 do not have support for element.outerHTML.
var thisElement = this.element(), outerHTML = thisElement.outerHTML;
if (typeof outerHTML === 'undefined') {
return Ember.$('<div/>').append(thisElement).html();
}
return outerHTML;
} else {
return this.innerString();
}
},
innerString: function() {
return this.buffer;
}
};
})();
(function() {
/**
@module ember
@submodule ember-views
*/
var get = Ember.get, set = Ember.set, fmt = Ember.String.fmt;
/**
`Ember.EventDispatcher` handles delegating browser events to their
corresponding `Ember.Views.` For example, when you click on a view,
`Ember.EventDispatcher` ensures that that view's `mouseDown` method gets
called.
@class EventDispatcher
@namespace Ember
@private
@extends Ember.Object
*/
Ember.EventDispatcher = Ember.Object.extend({
/**
The set of events names (and associated handler function names) to be setup
and dispatched by the `EventDispatcher`. Custom events can added to this list at setup
time, generally via the `Ember.Application.customEvents` hash. Only override this
default set to prevent the EventDispatcher from listening on some events all together.
This set will be modified by `setup` to also include any events added at that time.
@property events
@type Object
*/
events: {
touchstart : 'touchStart',
touchmove : 'touchMove',
touchend : 'touchEnd',
touchcancel : 'touchCancel',
keydown : 'keyDown',
keyup : 'keyUp',
keypress : 'keyPress',
mousedown : 'mouseDown',
mouseup : 'mouseUp',
contextmenu : 'contextMenu',
click : 'click',
dblclick : 'doubleClick',
mousemove : 'mouseMove',
focusin : 'focusIn',
focusout : 'focusOut',
mouseenter : 'mouseEnter',
mouseleave : 'mouseLeave',
submit : 'submit',
input : 'input',
change : 'change',
dragstart : 'dragStart',
drag : 'drag',
dragenter : 'dragEnter',
dragleave : 'dragLeave',
dragover : 'dragOver',
drop : 'drop',
dragend : 'dragEnd'
},
/**
The root DOM element to which event listeners should be attached. Event
listeners will be attached to the document unless this is overridden.
Can be specified as a DOMElement or a selector string.
The default body is a string since this may be evaluated before document.body
exists in the DOM.
@private
@property rootElement
@type DOMElement
@default 'body'
*/
rootElement: 'body',
/**
Sets up event listeners for standard browser events.
This will be called after the browser sends a `DOMContentReady` event. By
default, it will set up all of the listeners on the document body. If you
would like to register the listeners on a different element, set the event
dispatcher's `root` property.
@private
@method setup
@param addedEvents {Hash}
*/
setup: function(addedEvents, rootElement) {
var event, events = get(this, 'events');
Ember.$.extend(events, addedEvents || {});
if (!Ember.isNone(rootElement)) {
set(this, 'rootElement', rootElement);
}
rootElement = Ember.$(get(this, 'rootElement'));
Ember.assert(fmt('You cannot use the same root element (%@) multiple times in an Ember.Application', [rootElement.selector || rootElement[0].tagName]), !rootElement.is('.ember-application'));
Ember.assert('You cannot make a new Ember.Application using a root element that is a descendent of an existing Ember.Application', !rootElement.closest('.ember-application').length);
Ember.assert('You cannot make a new Ember.Application using a root element that is an ancestor of an existing Ember.Application', !rootElement.find('.ember-application').length);
rootElement.addClass('ember-application');
Ember.assert('Unable to add "ember-application" class to rootElement. Make sure you set rootElement to the body or an element in the body.', rootElement.is('.ember-application'));
for (event in events) {
if (events.hasOwnProperty(event)) {
this.setupHandler(rootElement, event, events[event]);
}
}
},
/**
Registers an event listener on the document. If the given event is
triggered, the provided event handler will be triggered on the target view.
If the target view does not implement the event handler, or if the handler
returns `false`, the parent view will be called. The event will continue to
bubble to each successive parent view until it reaches the top.
For example, to have the `mouseDown` method called on the target view when
a `mousedown` event is received from the browser, do the following:
```javascript
setupHandler('mousedown', 'mouseDown');
```
@private
@method setupHandler
@param {Element} rootElement
@param {String} event the browser-originated event to listen to
@param {String} eventName the name of the method to call on the view
*/
setupHandler: function(rootElement, event, eventName) {
var self = this;
rootElement.on(event + '.ember', '.ember-view', function(evt, triggeringManager) {
var view = Ember.View.views[this.id],
result = true, manager = null;
manager = self._findNearestEventManager(view, eventName);
if (manager && manager !== triggeringManager) {
result = self._dispatchEvent(manager, evt, eventName, view);
} else if (view) {
result = self._bubbleEvent(view, evt, eventName);
} else {
evt.stopPropagation();
}
return result;
});
rootElement.on(event + '.ember', '[data-ember-action]', function(evt) {
var actionId = Ember.$(evt.currentTarget).attr('data-ember-action'),
action = Ember.Handlebars.ActionHelper.registeredActions[actionId];
// We have to check for action here since in some cases, jQuery will trigger
// an event on `removeChild` (i.e. focusout) after we've already torn down the
// action handlers for the view.
if (action && action.eventName === eventName) {
return action.handler(evt);
}
});
},
_findNearestEventManager: function(view, eventName) {
var manager = null;
while (view) {
manager = get(view, 'eventManager');
if (manager && manager[eventName]) { break; }
view = get(view, 'parentView');
}
return manager;
},
_dispatchEvent: function(object, evt, eventName, view) {
var result = true;
var handler = object[eventName];
if (Ember.typeOf(handler) === 'function') {
result = Ember.run(object, handler, evt, view);
// Do not preventDefault in eventManagers.
evt.stopPropagation();
}
else {
result = this._bubbleEvent(view, evt, eventName);
}
return result;
},
_bubbleEvent: function(view, evt, eventName) {
return Ember.run(view, view.handleEvent, eventName, evt);
},
destroy: function() {
var rootElement = get(this, 'rootElement');
Ember.$(rootElement).off('.ember', '**').removeClass('ember-application');
return this._super();
}
});
})();
(function() {
/**
@module ember
@submodule ember-views
*/
// Add a new named queue for rendering views that happens
// after bindings have synced, and a queue for scheduling actions
// that that should occur after view rendering.
var queues = Ember.run.queues,
indexOf = Ember.ArrayPolyfills.indexOf;
queues.splice(indexOf.call(queues, 'actions')+1, 0, 'render', 'afterRender');
})();
(function() {
})();
(function() {
var states = {};
/**
@module ember
@submodule ember-views
*/
var get = Ember.get, set = Ember.set,
guidFor = Ember.guidFor,
a_forEach = Ember.EnumerableUtils.forEach,
a_addObject = Ember.EnumerableUtils.addObject,
meta = Ember.meta,
defineProperty = Ember.defineProperty;
function nullViewsBuffer(view) {
view.buffer = null;
}
var childViewsProperty = Ember.computed(function() {
var childViews = this._childViews, ret = Ember.A(), view = this;
a_forEach(childViews, function(view) {
var currentChildViews;
if (view.isVirtual) {
if (currentChildViews = get(view, 'childViews')) {
ret.pushObjects(currentChildViews);
}
} else {
ret.push(view);
}
});
ret.replace = function (idx, removedCount, addedViews) {
if (view instanceof Ember.ContainerView) {
Ember.deprecate("Manipulating an Ember.ContainerView through its childViews property is deprecated. Please use the ContainerView instance itself as an Ember.MutableArray.");
return view.replace(idx, removedCount, addedViews);
}
throw new Ember.Error("childViews is immutable");
};
return ret;
});
Ember.warn("The VIEW_PRESERVES_CONTEXT flag has been removed and the functionality can no longer be disabled.", Ember.ENV.VIEW_PRESERVES_CONTEXT !== false);
/**
Global hash of shared templates. This will automatically be populated
by the build tools so that you can store your Handlebars templates in
separate files that get loaded into JavaScript at buildtime.
@property TEMPLATES
@for Ember
@type Hash
*/
Ember.TEMPLATES = {};
/**
`Ember.CoreView` is an abstract class that exists to give view-like behavior
to both Ember's main view class `Ember.View` and other classes like
`Ember._SimpleMetamorphView` that don't need the fully functionaltiy of
`Ember.View`.
Unless you have specific needs for `CoreView`, you will use `Ember.View`
in your applications.
@class CoreView
@namespace Ember
@extends Ember.Object
@uses Ember.Evented
@uses Ember.ActionHandler
*/
Ember.CoreView = Ember.Object.extend(Ember.Evented, Ember.ActionHandler, {
isView: true,
states: states,
init: function() {
this._super();
this.transitionTo('preRender');
this._isVisible = get(this, 'isVisible');
},
/**
If the view is currently inserted into the DOM of a parent view, this
property will point to the parent of the view.
@property parentView
@type Ember.View
@default null
*/
parentView: Ember.computed('_parentView', function() {
var parent = this._parentView;
if (parent && parent.isVirtual) {
return get(parent, 'parentView');
} else {
return parent;
}
}),
state: null,
_parentView: null,
// return the current view, not including virtual views
concreteView: Ember.computed('parentView', function() {
if (!this.isVirtual) { return this; }
else { return get(this, 'parentView'); }
}),
instrumentName: 'core_view',
instrumentDetails: function(hash) {
hash.object = this.toString();
},
/**
Invoked by the view system when this view needs to produce an HTML
representation. This method will create a new render buffer, if needed,
then apply any default attributes, such as class names and visibility.
Finally, the `render()` method is invoked, which is responsible for
doing the bulk of the rendering.
You should not need to override this method; instead, implement the
`template` property, or if you need more control, override the `render`
method.
@method renderToBuffer
@param {Ember.RenderBuffer} buffer the render buffer. If no buffer is
passed, a default buffer, using the current view's `tagName`, will
be used.
@private
*/
renderToBuffer: function(parentBuffer, bufferOperation) {
var name = 'render.' + this.instrumentName,
details = {};
this.instrumentDetails(details);
return Ember.instrument(name, details, function instrumentRenderToBuffer() {
return this._renderToBuffer(parentBuffer, bufferOperation);
}, this);
},
_renderToBuffer: function(parentBuffer, bufferOperation) {
// If this is the top-most view, start a new buffer. Otherwise,
// create a new buffer relative to the original using the
// provided buffer operation (for example, `insertAfter` will
// insert a new buffer after the "parent buffer").
var tagName = this.tagName;
if (tagName === null || tagName === undefined) {
tagName = 'div';
}
var buffer = this.buffer = parentBuffer && parentBuffer.begin(tagName) || Ember.RenderBuffer(tagName);
this.transitionTo('inBuffer', false);
this.beforeRender(buffer);
this.render(buffer);
this.afterRender(buffer);
return buffer;
},
/**
Override the default event firing from `Ember.Evented` to
also call methods with the given name.
@method trigger
@param name {String}
@private
*/
trigger: function(name) {
this._super.apply(this, arguments);
var method = this[name];
if (method) {
var args = [], i, l;
for (i = 1, l = arguments.length; i < l; i++) {
args.push(arguments[i]);
}
return method.apply(this, args);
}
},
deprecatedSendHandles: function(actionName) {
return !!this[actionName];
},
deprecatedSend: function(actionName) {
var args = [].slice.call(arguments, 1);
Ember.assert('' + this + " has the action " + actionName + " but it is not a function", typeof this[actionName] === 'function');
Ember.deprecate('Action handlers implemented directly on views are deprecated in favor of action handlers on an `actions` object ( action: `' + actionName + '` on ' + this + ')', false);
this[actionName].apply(this, args);
return;
},
has: function(name) {
return Ember.typeOf(this[name]) === 'function' || this._super(name);
},
destroy: function() {
var parent = this._parentView;
if (!this._super()) { return; }
// destroy the element -- this will avoid each child view destroying
// the element over and over again...
if (!this.removedFromDOM) { this.destroyElement(); }
// remove from parent if found. Don't call removeFromParent,
// as removeFromParent will try to remove the element from
// the DOM again.
if (parent) { parent.removeChild(this); }
this.transitionTo('destroying', false);
return this;
},
clearRenderedChildren: Ember.K,
triggerRecursively: Ember.K,
invokeRecursively: Ember.K,
transitionTo: Ember.K,
destroyElement: Ember.K
});
var ViewCollection = Ember._ViewCollection = function(initialViews) {
var views = this.views = initialViews || [];
this.length = views.length;
};
ViewCollection.prototype = {
length: 0,
trigger: function(eventName) {
var views = this.views, view;
for (var i = 0, l = views.length; i < l; i++) {
view = views[i];
if (view.trigger) { view.trigger(eventName); }
}
},
triggerRecursively: function(eventName) {
var views = this.views;
for (var i = 0, l = views.length; i < l; i++) {
views[i].triggerRecursively(eventName);
}
},
invokeRecursively: function(fn) {
var views = this.views, view;
for (var i = 0, l = views.length; i < l; i++) {
view = views[i];
fn(view);
}
},
transitionTo: function(state, children) {
var views = this.views;
for (var i = 0, l = views.length; i < l; i++) {
views[i].transitionTo(state, children);
}
},
push: function() {
this.length += arguments.length;
var views = this.views;
return views.push.apply(views, arguments);
},
objectAt: function(idx) {
return this.views[idx];
},
forEach: function(callback) {
var views = this.views;
return a_forEach(views, callback);
},
clear: function() {
this.length = 0;
this.views.length = 0;
}
};
var EMPTY_ARRAY = [];
/**
`Ember.View` is the class in Ember responsible for encapsulating templates of
HTML content, combining templates with data to render as sections of a page's
DOM, and registering and responding to user-initiated events.
## HTML Tag
The default HTML tag name used for a view's DOM representation is `div`. This
can be customized by setting the `tagName` property. The following view
class:
```javascript
ParagraphView = Ember.View.extend({
tagName: 'em'
});
```
Would result in instances with the following HTML:
```html
<em id="ember1" class="ember-view"></em>
```
## HTML `class` Attribute
The HTML `class` attribute of a view's tag can be set by providing a
`classNames` property that is set to an array of strings:
```javascript
MyView = Ember.View.extend({
classNames: ['my-class', 'my-other-class']
});
```
Will result in view instances with an HTML representation of:
```html
<div id="ember1" class="ember-view my-class my-other-class"></div>
```
`class` attribute values can also be set by providing a `classNameBindings`
property set to an array of properties names for the view. The return value
of these properties will be added as part of the value for the view's `class`
attribute. These properties can be computed properties:
```javascript
MyView = Ember.View.extend({
classNameBindings: ['propertyA', 'propertyB'],
propertyA: 'from-a',
propertyB: function() {
if (someLogic) { return 'from-b'; }
}.property()
});
```
Will result in view instances with an HTML representation of:
```html
<div id="ember1" class="ember-view from-a from-b"></div>
```
If the value of a class name binding returns a boolean the property name
itself will be used as the class name if the property is true. The class name
will not be added if the value is `false` or `undefined`.
```javascript
MyView = Ember.View.extend({
classNameBindings: ['hovered'],
hovered: true
});
```
Will result in view instances with an HTML representation of:
```html
<div id="ember1" class="ember-view hovered"></div>
```
When using boolean class name bindings you can supply a string value other
than the property name for use as the `class` HTML attribute by appending the
preferred value after a ":" character when defining the binding:
```javascript
MyView = Ember.View.extend({
classNameBindings: ['awesome:so-very-cool'],
awesome: true
});
```
Will result in view instances with an HTML representation of:
```html
<div id="ember1" class="ember-view so-very-cool"></div>
```
Boolean value class name bindings whose property names are in a
camelCase-style format will be converted to a dasherized format:
```javascript
MyView = Ember.View.extend({
classNameBindings: ['isUrgent'],
isUrgent: true
});
```
Will result in view instances with an HTML representation of:
```html
<div id="ember1" class="ember-view is-urgent"></div>
```
Class name bindings can also refer to object values that are found by
traversing a path relative to the view itself:
```javascript
MyView = Ember.View.extend({
classNameBindings: ['messages.empty']
messages: Ember.Object.create({
empty: true
})
});
```
Will result in view instances with an HTML representation of:
```html
<div id="ember1" class="ember-view empty"></div>
```
If you want to add a class name for a property which evaluates to true and
and a different class name if it evaluates to false, you can pass a binding
like this:
```javascript
// Applies 'enabled' class when isEnabled is true and 'disabled' when isEnabled is false
Ember.View.extend({
classNameBindings: ['isEnabled:enabled:disabled']
isEnabled: true
});
```
Will result in view instances with an HTML representation of:
```html
<div id="ember1" class="ember-view enabled"></div>
```
When isEnabled is `false`, the resulting HTML reprensentation looks like
this:
```html
<div id="ember1" class="ember-view disabled"></div>
```
This syntax offers the convenience to add a class if a property is `false`:
```javascript
// Applies no class when isEnabled is true and class 'disabled' when isEnabled is false
Ember.View.extend({
classNameBindings: ['isEnabled::disabled']
isEnabled: true
});
```
Will result in view instances with an HTML representation of:
```html
<div id="ember1" class="ember-view"></div>
```
When the `isEnabled` property on the view is set to `false`, it will result
in view instances with an HTML representation of:
```html
<div id="ember1" class="ember-view disabled"></div>
```
Updates to the the value of a class name binding will result in automatic
update of the HTML `class` attribute in the view's rendered HTML
representation. If the value becomes `false` or `undefined` the class name
will be removed.
Both `classNames` and `classNameBindings` are concatenated properties. See
[Ember.Object](/api/classes/Ember.Object.html) documentation for more
information about concatenated properties.
## HTML Attributes
The HTML attribute section of a view's tag can be set by providing an
`attributeBindings` property set to an array of property names on the view.
The return value of these properties will be used as the value of the view's
HTML associated attribute:
```javascript
AnchorView = Ember.View.extend({
tagName: 'a',
attributeBindings: ['href'],
href: 'http://google.com'
});
```
Will result in view instances with an HTML representation of:
```html
<a id="ember1" class="ember-view" href="http://google.com"></a>
```
If the return value of an `attributeBindings` monitored property is a boolean
the property will follow HTML's pattern of repeating the attribute's name as
its value:
```javascript
MyTextInput = Ember.View.extend({
tagName: 'input',
attributeBindings: ['disabled'],
disabled: true
});
```
Will result in view instances with an HTML representation of:
```html
<input id="ember1" class="ember-view" disabled="disabled" />
```
`attributeBindings` can refer to computed properties:
```javascript
MyTextInput = Ember.View.extend({
tagName: 'input',
attributeBindings: ['disabled'],
disabled: function() {
if (someLogic) {
return true;
} else {
return false;
}
}.property()
});
```
Updates to the the property of an attribute binding will result in automatic
update of the HTML attribute in the view's rendered HTML representation.
`attributeBindings` is a concatenated property. See [Ember.Object](/api/classes/Ember.Object.html)
documentation for more information about concatenated properties.
## Templates
The HTML contents of a view's rendered representation are determined by its
template. Templates can be any function that accepts an optional context
parameter and returns a string of HTML that will be inserted within the
view's tag. Most typically in Ember this function will be a compiled
`Ember.Handlebars` template.
```javascript
AView = Ember.View.extend({
template: Ember.Handlebars.compile('I am the template')
});
```
Will result in view instances with an HTML representation of:
```html
<div id="ember1" class="ember-view">I am the template</div>
```
Within an Ember application is more common to define a Handlebars templates as
part of a page:
```html
<script type='text/x-handlebars' data-template-name='some-template'>
Hello
</script>
```
And associate it by name using a view's `templateName` property:
```javascript
AView = Ember.View.extend({
templateName: 'some-template'
});
```
If you have nested resources, your Handlebars template will look like this:
```html
<script type='text/x-handlebars' data-template-name='posts/new'>
<h1>New Post</h1>
</script>
```
And `templateName` property:
```javascript
AView = Ember.View.extend({
templateName: 'posts/new'
});
```
Using a value for `templateName` that does not have a Handlebars template
with a matching `data-template-name` attribute will throw an error.
For views classes that may have a template later defined (e.g. as the block
portion of a `{{view}}` Handlebars helper call in another template or in
a subclass), you can provide a `defaultTemplate` property set to compiled
template function. If a template is not later provided for the view instance
the `defaultTemplate` value will be used:
```javascript
AView = Ember.View.extend({
defaultTemplate: Ember.Handlebars.compile('I was the default'),
template: null,
templateName: null
});
```
Will result in instances with an HTML representation of:
```html
<div id="ember1" class="ember-view">I was the default</div>
```
If a `template` or `templateName` is provided it will take precedence over
`defaultTemplate`:
```javascript
AView = Ember.View.extend({
defaultTemplate: Ember.Handlebars.compile('I was the default')
});
aView = AView.create({
template: Ember.Handlebars.compile('I was the template, not default')
});
```
Will result in the following HTML representation when rendered:
```html
<div id="ember1" class="ember-view">I was the template, not default</div>
```
## View Context
The default context of the compiled template is the view's controller:
```javascript
AView = Ember.View.extend({
template: Ember.Handlebars.compile('Hello {{excitedGreeting}}')
});
aController = Ember.Object.create({
firstName: 'Barry',
excitedGreeting: function() {
return this.get("content.firstName") + "!!!"
}.property()
});
aView = AView.create({
controller: aController,
});
```
Will result in an HTML representation of:
```html
<div id="ember1" class="ember-view">Hello Barry!!!</div>
```
A context can also be explicitly supplied through the view's `context`
property. If the view has neither `context` nor `controller` properties, the
`parentView`'s context will be used.
## Layouts
Views can have a secondary template that wraps their main template. Like
primary templates, layouts can be any function that accepts an optional
context parameter and returns a string of HTML that will be inserted inside
view's tag. Views whose HTML element is self closing (e.g. `<input />`)
cannot have a layout and this property will be ignored.
Most typically in Ember a layout will be a compiled `Ember.Handlebars`
template.
A view's layout can be set directly with the `layout` property or reference
an existing Handlebars template by name with the `layoutName` property.
A template used as a layout must contain a single use of the Handlebars
`{{yield}}` helper. The HTML contents of a view's rendered `template` will be
inserted at this location:
```javascript
AViewWithLayout = Ember.View.extend({
layout: Ember.Handlebars.compile("<div class='my-decorative-class'>{{yield}}</div>")
template: Ember.Handlebars.compile("I got wrapped"),
});
```
Will result in view instances with an HTML representation of:
```html
<div id="ember1" class="ember-view">
<div class="my-decorative-class">
I got wrapped
</div>
</div>
```
See [Ember.Handlebars.helpers.yield](/api/classes/Ember.Handlebars.helpers.html#method_yield)
for more information.
## Responding to Browser Events
Views can respond to user-initiated events in one of three ways: method
implementation, through an event manager, and through `{{action}}` helper use
in their template or layout.
### Method Implementation
Views can respond to user-initiated events by implementing a method that
matches the event name. A `jQuery.Event` object will be passed as the
argument to this method.
```javascript
AView = Ember.View.extend({
click: function(event) {
// will be called when when an instance's
// rendered element is clicked
}
});
```
### Event Managers
Views can define an object as their `eventManager` property. This object can
then implement methods that match the desired event names. Matching events
that occur on the view's rendered HTML or the rendered HTML of any of its DOM
descendants will trigger this method. A `jQuery.Event` object will be passed
as the first argument to the method and an `Ember.View` object as the
second. The `Ember.View` will be the view whose rendered HTML was interacted
with. This may be the view with the `eventManager` property or one of its
descendent views.
```javascript
AView = Ember.View.extend({
eventManager: Ember.Object.create({
doubleClick: function(event, view) {
// will be called when when an instance's
// rendered element or any rendering
// of this views's descendent
// elements is clicked
}
})
});
```
An event defined for an event manager takes precedence over events of the
same name handled through methods on the view.
```javascript
AView = Ember.View.extend({
mouseEnter: function(event) {
// will never trigger.
},
eventManager: Ember.Object.create({
mouseEnter: function(event, view) {
// takes precedence over AView#mouseEnter
}
})
});
```
Similarly a view's event manager will take precedence for events of any views
rendered as a descendent. A method name that matches an event name will not
be called if the view instance was rendered inside the HTML representation of
a view that has an `eventManager` property defined that handles events of the
name. Events not handled by the event manager will still trigger method calls
on the descendent.
```javascript
OuterView = Ember.View.extend({
template: Ember.Handlebars.compile("outer {{#view InnerView}}inner{{/view}} outer"),
eventManager: Ember.Object.create({
mouseEnter: function(event, view) {
// view might be instance of either
// OuterView or InnerView depending on
// where on the page the user interaction occured
}
})
});
InnerView = Ember.View.extend({
click: function(event) {
// will be called if rendered inside
// an OuterView because OuterView's
// eventManager doesn't handle click events
},
mouseEnter: function(event) {
// will never be called if rendered inside
// an OuterView.
}
});
```
### Handlebars `{{action}}` Helper
See [Handlebars.helpers.action](/api/classes/Ember.Handlebars.helpers.html#method_action).
### Event Names
All of the event handling approaches described above respond to the same set
of events. The names of the built-in events are listed below. (The hash of
built-in events exists in `Ember.EventDispatcher`.) Additional, custom events
can be registered by using `Ember.Application.customEvents`.
Touch events:
* `touchStart`
* `touchMove`
* `touchEnd`
* `touchCancel`
Keyboard events
* `keyDown`
* `keyUp`
* `keyPress`
Mouse events
* `mouseDown`
* `mouseUp`
* `contextMenu`
* `click`
* `doubleClick`
* `mouseMove`
* `focusIn`
* `focusOut`
* `mouseEnter`
* `mouseLeave`
Form events:
* `submit`
* `change`
* `focusIn`
* `focusOut`
* `input`
HTML5 drag and drop events:
* `dragStart`
* `drag`
* `dragEnter`
* `dragLeave`
* `drop`
* `dragEnd`
## Handlebars `{{view}}` Helper
Other `Ember.View` instances can be included as part of a view's template by
using the `{{view}}` Handlebars helper. See [Ember.Handlebars.helpers.view](/api/classes/Ember.Handlebars.helpers.html#method_view)
for additional information.
@class View
@namespace Ember
@extends Ember.CoreView
*/
Ember.View = Ember.CoreView.extend({
concatenatedProperties: ['classNames', 'classNameBindings', 'attributeBindings'],
/**
@property isView
@type Boolean
@default true
@static
*/
isView: true,
// ..........................................................
// TEMPLATE SUPPORT
//
/**
The name of the template to lookup if no template is provided.
By default `Ember.View` will lookup a template with this name in
`Ember.TEMPLATES` (a shared global object).
@property templateName
@type String
@default null
*/
templateName: null,
/**
The name of the layout to lookup if no layout is provided.
By default `Ember.View` will lookup a template with this name in
`Ember.TEMPLATES` (a shared global object).
@property layoutName
@type String
@default null
*/
layoutName: null,
/**
The template used to render the view. This should be a function that
accepts an optional context parameter and returns a string of HTML that
will be inserted into the DOM relative to its parent view.
In general, you should set the `templateName` property instead of setting
the template yourself.
@property template
@type Function
*/
template: Ember.computed('templateName', function(key, value) {
if (value !== undefined) { return value; }
var templateName = get(this, 'templateName'),
template = this.templateForName(templateName, 'template');
Ember.assert("You specified the templateName " + templateName + " for " + this + ", but it did not exist.", !templateName || template);
return template || get(this, 'defaultTemplate');
}),
/**
The controller managing this view. If this property is set, it will be
made available for use by the template.
@property controller
@type Object
*/
controller: Ember.computed('_parentView', function(key) {
var parentView = get(this, '_parentView');
return parentView ? get(parentView, 'controller') : null;
}),
/**
A view may contain a layout. A layout is a regular template but
supersedes the `template` property during rendering. It is the
responsibility of the layout template to retrieve the `template`
property from the view (or alternatively, call `Handlebars.helpers.yield`,
`{{yield}}`) to render it in the correct location.
This is useful for a view that has a shared wrapper, but which delegates
the rendering of the contents of the wrapper to the `template` property
on a subclass.
@property layout
@type Function
*/
layout: Ember.computed(function(key) {
var layoutName = get(this, 'layoutName'),
layout = this.templateForName(layoutName, 'layout');
Ember.assert("You specified the layoutName " + layoutName + " for " + this + ", but it did not exist.", !layoutName || layout);
return layout || get(this, 'defaultLayout');
}).property('layoutName'),
_yield: function(context, options) {
var template = get(this, 'template');
if (template) { template(context, options); }
},
templateForName: function(name, type) {
if (!name) { return; }
Ember.assert("templateNames are not allowed to contain periods: "+name, name.indexOf('.') === -1);
// the defaultContainer is deprecated
var container = this.container || (Ember.Container && Ember.Container.defaultContainer);
return container && container.lookup('template:' + name);
},
/**
The object from which templates should access properties.
This object will be passed to the template function each time the render
method is called, but it is up to the individual function to decide what
to do with it.
By default, this will be the view's controller.
@property context
@type Object
*/
context: Ember.computed(function(key, value) {
if (arguments.length === 2) {
set(this, '_context', value);
return value;
} else {
return get(this, '_context');
}
}).volatile(),
/**
Private copy of the view's template context. This can be set directly
by Handlebars without triggering the observer that causes the view
to be re-rendered.
The context of a view is looked up as follows:
1. Supplied context (usually by Handlebars)
2. Specified controller
3. `parentView`'s context (for a child of a ContainerView)
The code in Handlebars that overrides the `_context` property first
checks to see whether the view has a specified controller. This is
something of a hack and should be revisited.
@property _context
@private
*/
_context: Ember.computed(function(key) {
var parentView, controller;
if (controller = get(this, 'controller')) {
return controller;
}
parentView = this._parentView;
if (parentView) {
return get(parentView, '_context');
}
return null;
}),
/**
If a value that affects template rendering changes, the view should be
re-rendered to reflect the new value.
@method _contextDidChange
@private
*/
_contextDidChange: Ember.observer('context', function() {
this.rerender();
}),
/**
If `false`, the view will appear hidden in DOM.
@property isVisible
@type Boolean
@default null
*/
isVisible: true,
/**
Array of child views. You should never edit this array directly.
Instead, use `appendChild` and `removeFromParent`.
@property childViews
@type Array
@default []
@private
*/
childViews: childViewsProperty,
_childViews: EMPTY_ARRAY,
// When it's a virtual view, we need to notify the parent that their
// childViews will change.
_childViewsWillChange: Ember.beforeObserver('childViews', function() {
if (this.isVirtual) {
var parentView = get(this, 'parentView');
if (parentView) { Ember.propertyWillChange(parentView, 'childViews'); }
}
}),
// When it's a virtual view, we need to notify the parent that their
// childViews did change.
_childViewsDidChange: Ember.observer('childViews', function() {
if (this.isVirtual) {
var parentView = get(this, 'parentView');
if (parentView) { Ember.propertyDidChange(parentView, 'childViews'); }
}
}),
/**
Return the nearest ancestor that is an instance of the provided
class.
@method nearestInstanceOf
@param {Class} klass Subclass of Ember.View (or Ember.View itself)
@return Ember.View
@deprecated
*/
nearestInstanceOf: function(klass) {
Ember.deprecate("nearestInstanceOf is deprecated and will be removed from future releases. Use nearestOfType.");
var view = get(this, 'parentView');
while (view) {
if (view instanceof klass) { return view; }
view = get(view, 'parentView');
}
},
/**
Return the nearest ancestor that is an instance of the provided
class or mixin.
@method nearestOfType
@param {Class,Mixin} klass Subclass of Ember.View (or Ember.View itself),
or an instance of Ember.Mixin.
@return Ember.View
*/
nearestOfType: function(klass) {
var view = get(this, 'parentView'),
isOfType = klass instanceof Ember.Mixin ?
function(view) { return klass.detect(view); } :
function(view) { return klass.detect(view.constructor); };
while (view) {
if (isOfType(view)) { return view; }
view = get(view, 'parentView');
}
},
/**
Return the nearest ancestor that has a given property.
@function nearestWithProperty
@param {String} property A property name
@return Ember.View
*/
nearestWithProperty: function(property) {
var view = get(this, 'parentView');
while (view) {
if (property in view) { return view; }
view = get(view, 'parentView');
}
},
/**
Return the nearest ancestor whose parent is an instance of
`klass`.
@method nearestChildOf
@param {Class} klass Subclass of Ember.View (or Ember.View itself)
@return Ember.View
*/
nearestChildOf: function(klass) {
var view = get(this, 'parentView');
while (view) {
if (get(view, 'parentView') instanceof klass) { return view; }
view = get(view, 'parentView');
}
},
/**
When the parent view changes, recursively invalidate `controller`
@method _parentViewDidChange
@private
*/
_parentViewDidChange: Ember.observer('_parentView', function() {
if (this.isDestroying) { return; }
this.trigger('parentViewDidChange');
if (get(this, 'parentView.controller') && !get(this, 'controller')) {
this.notifyPropertyChange('controller');
}
}),
_controllerDidChange: Ember.observer('controller', function() {
if (this.isDestroying) { return; }
this.rerender();
this.forEachChildView(function(view) {
view.propertyDidChange('controller');
});
}),
cloneKeywords: function() {
var templateData = get(this, 'templateData');
var keywords = templateData ? Ember.copy(templateData.keywords) : {};
set(keywords, 'view', get(this, 'concreteView'));
set(keywords, '_view', this);
set(keywords, 'controller', get(this, 'controller'));
return keywords;
},
/**
Called on your view when it should push strings of HTML into a
`Ember.RenderBuffer`. Most users will want to override the `template`
or `templateName` properties instead of this method.
By default, `Ember.View` will look for a function in the `template`
property and invoke it with the value of `context`. The value of
`context` will be the view's controller unless you override it.
@method render
@param {Ember.RenderBuffer} buffer The render buffer
*/
render: function(buffer) {
// If this view has a layout, it is the responsibility of the
// the layout to render the view's template. Otherwise, render the template
// directly.
var template = get(this, 'layout') || get(this, 'template');
if (template) {
var context = get(this, 'context');
var keywords = this.cloneKeywords();
var output;
var data = {
view: this,
buffer: buffer,
isRenderData: true,
keywords: keywords,
insideGroup: get(this, 'templateData.insideGroup')
};
// Invoke the template with the provided template context, which
// is the view's controller by default. A hash of data is also passed that provides
// the template with access to the view and render buffer.
Ember.assert('template must be a function. Did you mean to call Ember.Handlebars.compile("...") or specify templateName instead?', typeof template === 'function');
// The template should write directly to the render buffer instead
// of returning a string.
output = template(context, { data: data });
// If the template returned a string instead of writing to the buffer,
// push the string onto the buffer.
if (output !== undefined) { buffer.push(output); }
}
},
/**
Renders the view again. This will work regardless of whether the
view is already in the DOM or not. If the view is in the DOM, the
rendering process will be deferred to give bindings a chance
to synchronize.
If children were added during the rendering process using `appendChild`,
`rerender` will remove them, because they will be added again
if needed by the next `render`.
In general, if the display of your view changes, you should modify
the DOM element directly instead of manually calling `rerender`, which can
be slow.
@method rerender
*/
rerender: function() {
return this.currentState.rerender(this);
},
clearRenderedChildren: function() {
var lengthBefore = this.lengthBeforeRender,
lengthAfter = this.lengthAfterRender;
// If there were child views created during the last call to render(),
// remove them under the assumption that they will be re-created when
// we re-render.
// VIEW-TODO: Unit test this path.
var childViews = this._childViews;
for (var i=lengthAfter-1; i>=lengthBefore; i--) {
if (childViews[i]) { childViews[i].destroy(); }
}
},
/**
Iterates over the view's `classNameBindings` array, inserts the value
of the specified property into the `classNames` array, then creates an
observer to update the view's element if the bound property ever changes
in the future.
@method _applyClassNameBindings
@private
*/
_applyClassNameBindings: function(classBindings) {
var classNames = this.classNames,
elem, newClass, dasherizedClass;
// Loop through all of the configured bindings. These will be either
// property names ('isUrgent') or property paths relative to the view
// ('content.isUrgent')
a_forEach(classBindings, function(binding) {
Ember.assert("classNameBindings must not have spaces in them. Multiple class name bindings can be provided as elements of an array, e.g. ['foo', ':bar']", binding.indexOf(' ') === -1);
// Variable in which the old class value is saved. The observer function
// closes over this variable, so it knows which string to remove when
// the property changes.
var oldClass;
// Extract just the property name from bindings like 'foo:bar'
var parsedPath = Ember.View._parsePropertyPath(binding);
// Set up an observer on the context. If the property changes, toggle the
// class name.
var observer = function() {
// Get the current value of the property
newClass = this._classStringForProperty(binding);
elem = this.$();
// If we had previously added a class to the element, remove it.
if (oldClass) {
elem.removeClass(oldClass);
// Also remove from classNames so that if the view gets rerendered,
// the class doesn't get added back to the DOM.
classNames.removeObject(oldClass);
}
// If necessary, add a new class. Make sure we keep track of it so
// it can be removed in the future.
if (newClass) {
elem.addClass(newClass);
oldClass = newClass;
} else {
oldClass = null;
}
};
// Get the class name for the property at its current value
dasherizedClass = this._classStringForProperty(binding);
if (dasherizedClass) {
// Ensure that it gets into the classNames array
// so it is displayed when we render.
a_addObject(classNames, dasherizedClass);
// Save a reference to the class name so we can remove it
// if the observer fires. Remember that this variable has
// been closed over by the observer.
oldClass = dasherizedClass;
}
this.registerObserver(this, parsedPath.path, observer);
// Remove className so when the view is rerendered,
// the className is added based on binding reevaluation
this.one('willClearRender', function() {
if (oldClass) {
classNames.removeObject(oldClass);
oldClass = null;
}
});
}, this);
},
_unspecifiedAttributeBindings: null,
/**
Iterates through the view's attribute bindings, sets up observers for each,
then applies the current value of the attributes to the passed render buffer.
@method _applyAttributeBindings
@param {Ember.RenderBuffer} buffer
@private
*/
_applyAttributeBindings: function(buffer, attributeBindings) {
var attributeValue,
unspecifiedAttributeBindings = this._unspecifiedAttributeBindings = this._unspecifiedAttributeBindings || {};
a_forEach(attributeBindings, function(binding) {
var split = binding.split(':'),
property = split[0],
attributeName = split[1] || property;
if (property in this) {
this._setupAttributeBindingObservation(property, attributeName);
// Determine the current value and add it to the render buffer
// if necessary.
attributeValue = get(this, property);
Ember.View.applyAttributeBindings(buffer, attributeName, attributeValue);
} else {
unspecifiedAttributeBindings[property] = attributeName;
}
}, this);
// Lazily setup setUnknownProperty after attributeBindings are initially applied
this.setUnknownProperty = this._setUnknownProperty;
},
_setupAttributeBindingObservation: function(property, attributeName) {
var attributeValue, elem;
// Create an observer to add/remove/change the attribute if the
// JavaScript property changes.
var observer = function() {
elem = this.$();
attributeValue = get(this, property);
Ember.View.applyAttributeBindings(elem, attributeName, attributeValue);
};
this.registerObserver(this, property, observer);
},
/**
We're using setUnknownProperty as a hook to setup attributeBinding observers for
properties that aren't defined on a view at initialization time.
Note: setUnknownProperty will only be called once for each property.
@method setUnknownProperty
@param key
@param value
@private
*/
setUnknownProperty: null, // Gets defined after initialization by _applyAttributeBindings
_setUnknownProperty: function(key, value) {
var attributeName = this._unspecifiedAttributeBindings && this._unspecifiedAttributeBindings[key];
if (attributeName) {
this._setupAttributeBindingObservation(key, attributeName);
}
defineProperty(this, key);
return set(this, key, value);
},
/**
Given a property name, returns a dasherized version of that
property name if the property evaluates to a non-falsy value.
For example, if the view has property `isUrgent` that evaluates to true,
passing `isUrgent` to this method will return `"is-urgent"`.
@method _classStringForProperty
@param property
@private
*/
_classStringForProperty: function(property) {
var parsedPath = Ember.View._parsePropertyPath(property);
var path = parsedPath.path;
var val = get(this, path);
if (val === undefined && Ember.isGlobalPath(path)) {
val = get(Ember.lookup, path);
}
return Ember.View._classStringForValue(path, val, parsedPath.className, parsedPath.falsyClassName);
},
// ..........................................................
// ELEMENT SUPPORT
//
/**
Returns the current DOM element for the view.
@property element
@type DOMElement
*/
element: Ember.computed('_parentView', function(key, value) {
if (value !== undefined) {
return this.currentState.setElement(this, value);
} else {
return this.currentState.getElement(this);
}
}),
/**
Returns a jQuery object for this view's element. If you pass in a selector
string, this method will return a jQuery object, using the current element
as its buffer.
For example, calling `view.$('li')` will return a jQuery object containing
all of the `li` elements inside the DOM element of this view.
@method $
@param {String} [selector] a jQuery-compatible selector string
@return {jQuery} the jQuery object for the DOM node
*/
$: function(sel) {
return this.currentState.$(this, sel);
},
mutateChildViews: function(callback) {
var childViews = this._childViews,
idx = childViews.length,
view;
while(--idx >= 0) {
view = childViews[idx];
callback(this, view, idx);
}
return this;
},
forEachChildView: function(callback) {
var childViews = this._childViews;
if (!childViews) { return this; }
var len = childViews.length,
view, idx;
for (idx = 0; idx < len; idx++) {
view = childViews[idx];
callback(view);
}
return this;
},
/**
Appends the view's element to the specified parent element.
If the view does not have an HTML representation yet, `createElement()`
will be called automatically.
Note that this method just schedules the view to be appended; the DOM
element will not be appended to the given element until all bindings have
finished synchronizing.
This is not typically a function that you will need to call directly when
building your application. You might consider using `Ember.ContainerView`
instead. If you do need to use `appendTo`, be sure that the target element
you are providing is associated with an `Ember.Application` and does not
have an ancestor element that is associated with an Ember view.
@method appendTo
@param {String|DOMElement|jQuery} A selector, element, HTML string, or jQuery object
@return {Ember.View} receiver
*/
appendTo: function(target) {
// Schedule the DOM element to be created and appended to the given
// element after bindings have synchronized.
this._insertElementLater(function() {
Ember.assert("You tried to append to (" + target + ") but that isn't in the DOM", Ember.$(target).length > 0);
Ember.assert("You cannot append to an existing Ember.View. Consider using Ember.ContainerView instead.", !Ember.$(target).is('.ember-view') && !Ember.$(target).parents().is('.ember-view'));
this.$().appendTo(target);
});
return this;
},
/**
Replaces the content of the specified parent element with this view's
element. If the view does not have an HTML representation yet,
`createElement()` will be called automatically.
Note that this method just schedules the view to be appended; the DOM
element will not be appended to the given element until all bindings have
finished synchronizing
@method replaceIn
@param {String|DOMElement|jQuery} target A selector, element, HTML string, or jQuery object
@return {Ember.View} received
*/
replaceIn: function(target) {
Ember.assert("You tried to replace in (" + target + ") but that isn't in the DOM", Ember.$(target).length > 0);
Ember.assert("You cannot replace an existing Ember.View. Consider using Ember.ContainerView instead.", !Ember.$(target).is('.ember-view') && !Ember.$(target).parents().is('.ember-view'));
this._insertElementLater(function() {
Ember.$(target).empty();
this.$().appendTo(target);
});
return this;
},
/**
Schedules a DOM operation to occur during the next render phase. This
ensures that all bindings have finished synchronizing before the view is
rendered.
To use, pass a function that performs a DOM operation.
Before your function is called, this view and all child views will receive
the `willInsertElement` event. After your function is invoked, this view
and all of its child views will receive the `didInsertElement` event.
```javascript
view._insertElementLater(function() {
this.createElement();
this.$().appendTo('body');
});
```
@method _insertElementLater
@param {Function} fn the function that inserts the element into the DOM
@private
*/
_insertElementLater: function(fn) {
this._scheduledInsert = Ember.run.scheduleOnce('render', this, '_insertElement', fn);
},
_insertElement: function (fn) {
this._scheduledInsert = null;
this.currentState.insertElement(this, fn);
},
/**
Appends the view's element to the document body. If the view does
not have an HTML representation yet, `createElement()` will be called
automatically.
If your application uses the `rootElement` property, you must append
the view within that element. Rendering views outside of the `rootElement`
is not supported.
Note that this method just schedules the view to be appended; the DOM
element will not be appended to the document body until all bindings have
finished synchronizing.
@method append
@return {Ember.View} receiver
*/
append: function() {
return this.appendTo(document.body);
},
/**
Removes the view's element from the element to which it is attached.
@method remove
@return {Ember.View} receiver
*/
remove: function() {
// What we should really do here is wait until the end of the run loop
// to determine if the element has been re-appended to a different
// element.
// In the interim, we will just re-render if that happens. It is more
// important than elements get garbage collected.
if (!this.removedFromDOM) { this.destroyElement(); }
this.invokeRecursively(function(view) {
if (view.clearRenderedChildren) { view.clearRenderedChildren(); }
});
},
elementId: null,
/**
Attempts to discover the element in the parent element. The default
implementation looks for an element with an ID of `elementId` (or the
view's guid if `elementId` is null). You can override this method to
provide your own form of lookup. For example, if you want to discover your
element using a CSS class name instead of an ID.
@method findElementInParentElement
@param {DOMElement} parentElement The parent's DOM element
@return {DOMElement} The discovered element
*/
findElementInParentElement: function(parentElem) {
var id = "#" + this.elementId;
return Ember.$(id)[0] || Ember.$(id, parentElem)[0];
},
/**
Creates a DOM representation of the view and all of its
child views by recursively calling the `render()` method.
After the element has been created, `didInsertElement` will
be called on this view and all of its child views.
@method createElement
@return {Ember.View} receiver
*/
createElement: function() {
if (get(this, 'element')) { return this; }
var buffer = this.renderToBuffer();
set(this, 'element', buffer.element());
return this;
},
/**
Called when a view is going to insert an element into the DOM.
@event willInsertElement
*/
willInsertElement: Ember.K,
/**
Called when the element of the view has been inserted into the DOM
or after the view was re-rendered. Override this function to do any
set up that requires an element in the document body.
@event didInsertElement
*/
didInsertElement: Ember.K,
/**
Called when the view is about to rerender, but before anything has
been torn down. This is a good opportunity to tear down any manual
observers you have installed based on the DOM state
@event willClearRender
*/
willClearRender: Ember.K,
/**
Run this callback on the current view (unless includeSelf is false) and recursively on child views.
@method invokeRecursively
@param fn {Function}
@param includeSelf {Boolean} Includes itself if true.
@private
*/
invokeRecursively: function(fn, includeSelf) {
var childViews = (includeSelf === false) ? this._childViews : [this];
var currentViews, view, currentChildViews;
while (childViews.length) {
currentViews = childViews.slice();
childViews = [];
for (var i=0, l=currentViews.length; i<l; i++) {
view = currentViews[i];
currentChildViews = view._childViews ? view._childViews.slice(0) : null;
fn(view);
if (currentChildViews) {
childViews.push.apply(childViews, currentChildViews);
}
}
}
},
triggerRecursively: function(eventName) {
var childViews = [this], currentViews, view, currentChildViews;
while (childViews.length) {
currentViews = childViews.slice();
childViews = [];
for (var i=0, l=currentViews.length; i<l; i++) {
view = currentViews[i];
currentChildViews = view._childViews ? view._childViews.slice(0) : null;
if (view.trigger) { view.trigger(eventName); }
if (currentChildViews) {
childViews.push.apply(childViews, currentChildViews);
}
}
}
},
viewHierarchyCollection: function() {
var currentView, viewCollection = new ViewCollection([this]);
for (var i = 0; i < viewCollection.length; i++) {
currentView = viewCollection.objectAt(i);
if (currentView._childViews) {
viewCollection.push.apply(viewCollection, currentView._childViews);
}
}
return viewCollection;
},
/**
Destroys any existing element along with the element for any child views
as well. If the view does not currently have a element, then this method
will do nothing.
If you implement `willDestroyElement()` on your view, then this method will
be invoked on your view before your element is destroyed to give you a
chance to clean up any event handlers, etc.
If you write a `willDestroyElement()` handler, you can assume that your
`didInsertElement()` handler was called earlier for the same element.
You should not call or override this method yourself, but you may
want to implement the above callbacks.
@method destroyElement
@return {Ember.View} receiver
*/
destroyElement: function() {
return this.currentState.destroyElement(this);
},
/**
Called when the element of the view is going to be destroyed. Override
this function to do any teardown that requires an element, like removing
event listeners.
@event willDestroyElement
*/
willDestroyElement: Ember.K,
/**
Triggers the `willDestroyElement` event (which invokes the
`willDestroyElement()` method if it exists) on this view and all child
views.
Before triggering `willDestroyElement`, it first triggers the
`willClearRender` event recursively.
@method _notifyWillDestroyElement
@private
*/
_notifyWillDestroyElement: function() {
var viewCollection = this.viewHierarchyCollection();
viewCollection.trigger('willClearRender');
viewCollection.trigger('willDestroyElement');
return viewCollection;
},
/**
If this view's element changes, we need to invalidate the caches of our
child views so that we do not retain references to DOM elements that are
no longer needed.
@method _elementDidChange
@private
*/
_elementDidChange: Ember.observer('element', function() {
this.forEachChildView(function(view) {
delete meta(view).cache.element;
});
}),
/**
Called when the parentView property has changed.
@event parentViewDidChange
*/
parentViewDidChange: Ember.K,
instrumentName: 'view',
instrumentDetails: function(hash) {
hash.template = get(this, 'templateName');
this._super(hash);
},
_renderToBuffer: function(parentBuffer, bufferOperation) {
this.lengthBeforeRender = this._childViews.length;
var buffer = this._super(parentBuffer, bufferOperation);
this.lengthAfterRender = this._childViews.length;
return buffer;
},
renderToBufferIfNeeded: function (buffer) {
return this.currentState.renderToBufferIfNeeded(this, buffer);
},
beforeRender: function(buffer) {
this.applyAttributesToBuffer(buffer);
buffer.pushOpeningTag();
},
afterRender: function(buffer) {
buffer.pushClosingTag();
},
applyAttributesToBuffer: function(buffer) {
// Creates observers for all registered class name and attribute bindings,
// then adds them to the element.
var classNameBindings = get(this, 'classNameBindings');
if (classNameBindings.length) {
this._applyClassNameBindings(classNameBindings);
}
// Pass the render buffer so the method can apply attributes directly.
// This isn't needed for class name bindings because they use the
// existing classNames infrastructure.
var attributeBindings = get(this, 'attributeBindings');
if (attributeBindings.length) {
this._applyAttributeBindings(buffer, attributeBindings);
}
buffer.setClasses(this.classNames);
buffer.id(this.elementId);
var role = get(this, 'ariaRole');
if (role) {
buffer.attr('role', role);
}
if (get(this, 'isVisible') === false) {
buffer.style('display', 'none');
}
},
// ..........................................................
// STANDARD RENDER PROPERTIES
//
/**
Tag name for the view's outer element. The tag name is only used when an
element is first created. If you change the `tagName` for an element, you
must destroy and recreate the view element.
By default, the render buffer will use a `<div>` tag for views.
@property tagName
@type String
@default null
*/
// We leave this null by default so we can tell the difference between
// the default case and a user-specified tag.
tagName: null,
/**
The WAI-ARIA role of the control represented by this view. For example, a
button may have a role of type 'button', or a pane may have a role of
type 'alertdialog'. This property is used by assistive software to help
visually challenged users navigate rich web applications.
The full list of valid WAI-ARIA roles is available at:
[http://www.w3.org/TR/wai-aria/roles#roles_categorization](http://www.w3.org/TR/wai-aria/roles#roles_categorization)
@property ariaRole
@type String
@default null
*/
ariaRole: null,
/**
Standard CSS class names to apply to the view's outer element. This
property automatically inherits any class names defined by the view's
superclasses as well.
@property classNames
@type Array
@default ['ember-view']
*/
classNames: ['ember-view'],
/**
A list of properties of the view to apply as class names. If the property
is a string value, the value of that string will be applied as a class
name.
```javascript
// Applies the 'high' class to the view element
Ember.View.extend({
classNameBindings: ['priority']
priority: 'high'
});
```
If the value of the property is a Boolean, the name of that property is
added as a dasherized class name.
```javascript
// Applies the 'is-urgent' class to the view element
Ember.View.extend({
classNameBindings: ['isUrgent']
isUrgent: true
});
```
If you would prefer to use a custom value instead of the dasherized
property name, you can pass a binding like this:
```javascript
// Applies the 'urgent' class to the view element
Ember.View.extend({
classNameBindings: ['isUrgent:urgent']
isUrgent: true
});
```
This list of properties is inherited from the view's superclasses as well.
@property classNameBindings
@type Array
@default []
*/
classNameBindings: EMPTY_ARRAY,
/**
A list of properties of the view to apply as attributes. If the property is
a string value, the value of that string will be applied as the attribute.
```javascript
// Applies the type attribute to the element
// with the value "button", like <div type="button">
Ember.View.extend({
attributeBindings: ['type'],
type: 'button'
});
```
If the value of the property is a Boolean, the name of that property is
added as an attribute.
```javascript
// Renders something like <div enabled="enabled">
Ember.View.extend({
attributeBindings: ['enabled'],
enabled: true
});
```
@property attributeBindings
*/
attributeBindings: EMPTY_ARRAY,
// .......................................................
// CORE DISPLAY METHODS
//
/**
Setup a view, but do not finish waking it up.
* configure `childViews`
* register the view with the global views hash, which is used for event
dispatch
@method init
@private
*/
init: function() {
this.elementId = this.elementId || guidFor(this);
this._super();
// setup child views. be sure to clone the child views array first
this._childViews = this._childViews.slice();
Ember.assert("Only arrays are allowed for 'classNameBindings'", Ember.typeOf(this.classNameBindings) === 'array');
this.classNameBindings = Ember.A(this.classNameBindings.slice());
Ember.assert("Only arrays are allowed for 'classNames'", Ember.typeOf(this.classNames) === 'array');
this.classNames = Ember.A(this.classNames.slice());
},
appendChild: function(view, options) {
return this.currentState.appendChild(this, view, options);
},
/**
Removes the child view from the parent view.
@method removeChild
@param {Ember.View} view
@return {Ember.View} receiver
*/
removeChild: function(view) {
// If we're destroying, the entire subtree will be
// freed, and the DOM will be handled separately,
// so no need to mess with childViews.
if (this.isDestroying) { return; }
// update parent node
set(view, '_parentView', null);
// remove view from childViews array.
var childViews = this._childViews;
Ember.EnumerableUtils.removeObject(childViews, view);
this.propertyDidChange('childViews'); // HUH?! what happened to will change?
return this;
},
/**
Removes all children from the `parentView`.
@method removeAllChildren
@return {Ember.View} receiver
*/
removeAllChildren: function() {
return this.mutateChildViews(function(parentView, view) {
parentView.removeChild(view);
});
},
destroyAllChildren: function() {
return this.mutateChildViews(function(parentView, view) {
view.destroy();
});
},
/**
Removes the view from its `parentView`, if one is found. Otherwise
does nothing.
@method removeFromParent
@return {Ember.View} receiver
*/
removeFromParent: function() {
var parent = this._parentView;
// Remove DOM element from parent
this.remove();
if (parent) { parent.removeChild(this); }
return this;
},
/**
You must call `destroy` on a view to destroy the view (and all of its
child views). This will remove the view from any parent node, then make
sure that the DOM element managed by the view can be released by the
memory manager.
@method destroy
*/
destroy: function() {
var childViews = this._childViews,
// get parentView before calling super because it'll be destroyed
nonVirtualParentView = get(this, 'parentView'),
viewName = this.viewName,
childLen, i;
if (!this._super()) { return; }
childLen = childViews.length;
for (i=childLen-1; i>=0; i--) {
childViews[i].removedFromDOM = true;
}
// remove from non-virtual parent view if viewName was specified
if (viewName && nonVirtualParentView) {
nonVirtualParentView.set(viewName, null);
}
childLen = childViews.length;
for (i=childLen-1; i>=0; i--) {
childViews[i].destroy();
}
return this;
},
/**
Instantiates a view to be added to the childViews array during view
initialization. You generally will not call this method directly unless
you are overriding `createChildViews()`. Note that this method will
automatically configure the correct settings on the new view instance to
act as a child of the parent.
@method createChildView
@param {Class|String} viewClass
@param {Hash} [attrs] Attributes to add
@return {Ember.View} new instance
*/
createChildView: function(view, attrs) {
if (!view) {
throw new TypeError("createChildViews first argument must exist");
}
if (view.isView && view._parentView === this && view.container === this.container) {
return view;
}
attrs = attrs || {};
attrs._parentView = this;
if (Ember.CoreView.detect(view)) {
attrs.templateData = attrs.templateData || get(this, 'templateData');
attrs.container = this.container;
view = view.create(attrs);
// don't set the property on a virtual view, as they are invisible to
// consumers of the view API
if (view.viewName) {
set(get(this, 'concreteView'), view.viewName, view);
}
} else if ('string' === typeof view) {
var fullName = 'view:' + view;
var View = this.container.lookupFactory(fullName);
Ember.assert("Could not find view: '" + fullName + "'", !!View);
attrs.templateData = get(this, 'templateData');
view = View.create(attrs);
} else {
Ember.assert('You must pass instance or subclass of View', view.isView);
attrs.container = this.container;
if (!get(view, 'templateData')) {
attrs.templateData = get(this, 'templateData');
}
Ember.setProperties(view, attrs);
}
return view;
},
becameVisible: Ember.K,
becameHidden: Ember.K,
/**
When the view's `isVisible` property changes, toggle the visibility
element of the actual DOM element.
@method _isVisibleDidChange
@private
*/
_isVisibleDidChange: Ember.observer('isVisible', function() {
if (this._isVisible === get(this, 'isVisible')) { return ; }
Ember.run.scheduleOnce('render', this, this._toggleVisibility);
}),
_toggleVisibility: function() {
var $el = this.$();
if (!$el) { return; }
var isVisible = get(this, 'isVisible');
if (this._isVisible === isVisible) { return ; }
$el.toggle(isVisible);
this._isVisible = isVisible;
if (this._isAncestorHidden()) { return; }
if (isVisible) {
this._notifyBecameVisible();
} else {
this._notifyBecameHidden();
}
},
_notifyBecameVisible: function() {
this.trigger('becameVisible');
this.forEachChildView(function(view) {
var isVisible = get(view, 'isVisible');
if (isVisible || isVisible === null) {
view._notifyBecameVisible();
}
});
},
_notifyBecameHidden: function() {
this.trigger('becameHidden');
this.forEachChildView(function(view) {
var isVisible = get(view, 'isVisible');
if (isVisible || isVisible === null) {
view._notifyBecameHidden();
}
});
},
_isAncestorHidden: function() {
var parent = get(this, 'parentView');
while (parent) {
if (get(parent, 'isVisible') === false) { return true; }
parent = get(parent, 'parentView');
}
return false;
},
clearBuffer: function() {
this.invokeRecursively(nullViewsBuffer);
},
transitionTo: function(state, children) {
var priorState = this.currentState,
currentState = this.currentState = this.states[state];
this.state = state;
if (priorState && priorState.exit) { priorState.exit(this); }
if (currentState.enter) { currentState.enter(this); }
if (state === 'inDOM') { delete Ember.meta(this).cache.element; }
if (children !== false) {
this.forEachChildView(function(view) {
view.transitionTo(state);
});
}
},
// .......................................................
// EVENT HANDLING
//
/**
Handle events from `Ember.EventDispatcher`
@method handleEvent
@param eventName {String}
@param evt {Event}
@private
*/
handleEvent: function(eventName, evt) {
return this.currentState.handleEvent(this, eventName, evt);
},
registerObserver: function(root, path, target, observer) {
if (!observer && 'function' === typeof target) {
observer = target;
target = null;
}
if (!root || typeof root !== 'object') {
return;
}
var view = this,
stateCheckedObserver = function() {
view.currentState.invokeObserver(this, observer);
},
scheduledObserver = function() {
Ember.run.scheduleOnce('render', this, stateCheckedObserver);
};
Ember.addObserver(root, path, target, scheduledObserver);
this.one('willClearRender', function() {
Ember.removeObserver(root, path, target, scheduledObserver);
});
}
});
/*
Describe how the specified actions should behave in the various
states that a view can exist in. Possible states:
* preRender: when a view is first instantiated, and after its
element was destroyed, it is in the preRender state
* inBuffer: once a view has been rendered, but before it has
been inserted into the DOM, it is in the inBuffer state
* hasElement: the DOM representation of the view is created,
and is ready to be inserted
* inDOM: once a view has been inserted into the DOM it is in
the inDOM state. A view spends the vast majority of its
existence in this state.
* destroyed: once a view has been destroyed (using the destroy
method), it is in this state. No further actions can be invoked
on a destroyed view.
*/
// in the destroyed state, everything is illegal
// before rendering has begun, all legal manipulations are noops.
// inside the buffer, legal manipulations are done on the buffer
// once the view has been inserted into the DOM, legal manipulations
// are done on the DOM element.
function notifyMutationListeners() {
Ember.run.once(Ember.View, 'notifyMutationListeners');
}
var DOMManager = {
prepend: function(view, html) {
view.$().prepend(html);
notifyMutationListeners();
},
after: function(view, html) {
view.$().after(html);
notifyMutationListeners();
},
html: function(view, html) {
view.$().html(html);
notifyMutationListeners();
},
replace: function(view) {
var element = get(view, 'element');
set(view, 'element', null);
view._insertElementLater(function() {
Ember.$(element).replaceWith(get(view, 'element'));
notifyMutationListeners();
});
},
remove: function(view) {
view.$().remove();
notifyMutationListeners();
},
empty: function(view) {
view.$().empty();
notifyMutationListeners();
}
};
Ember.View.reopen({
domManager: DOMManager
});
Ember.View.reopenClass({
/**
Parse a path and return an object which holds the parsed properties.
For example a path like "content.isEnabled:enabled:disabled" will return the
following object:
```javascript
{
path: "content.isEnabled",
className: "enabled",
falsyClassName: "disabled",
classNames: ":enabled:disabled"
}
```
@method _parsePropertyPath
@static
@private
*/
_parsePropertyPath: function(path) {
var split = path.split(':'),
propertyPath = split[0],
classNames = "",
className,
falsyClassName;
// check if the property is defined as prop:class or prop:trueClass:falseClass
if (split.length > 1) {
className = split[1];
if (split.length === 3) { falsyClassName = split[2]; }
classNames = ':' + className;
if (falsyClassName) { classNames += ":" + falsyClassName; }
}
return {
path: propertyPath,
classNames: classNames,
className: (className === '') ? undefined : className,
falsyClassName: falsyClassName
};
},
/**
Get the class name for a given value, based on the path, optional
`className` and optional `falsyClassName`.
- if a `className` or `falsyClassName` has been specified:
- if the value is truthy and `className` has been specified,
`className` is returned
- if the value is falsy and `falsyClassName` has been specified,
`falsyClassName` is returned
- otherwise `null` is returned
- if the value is `true`, the dasherized last part of the supplied path
is returned
- if the value is not `false`, `undefined` or `null`, the `value`
is returned
- if none of the above rules apply, `null` is returned
@method _classStringForValue
@param path
@param val
@param className
@param falsyClassName
@static
@private
*/
_classStringForValue: function(path, val, className, falsyClassName) {
// When using the colon syntax, evaluate the truthiness or falsiness
// of the value to determine which className to return
if (className || falsyClassName) {
if (className && !!val) {
return className;
} else if (falsyClassName && !val) {
return falsyClassName;
} else {
return null;
}
// If value is a Boolean and true, return the dasherized property
// name.
} else if (val === true) {
// Normalize property path to be suitable for use
// as a class name. For exaple, content.foo.barBaz
// becomes bar-baz.
var parts = path.split('.');
return Ember.String.dasherize(parts[parts.length-1]);
// If the value is not false, undefined, or null, return the current
// value of the property.
} else if (val !== false && val != null) {
return val;
// Nothing to display. Return null so that the old class is removed
// but no new class is added.
} else {
return null;
}
}
});
var mutation = Ember.Object.extend(Ember.Evented).create();
Ember.View.addMutationListener = function(callback) {
mutation.on('change', callback);
};
Ember.View.removeMutationListener = function(callback) {
mutation.off('change', callback);
};
Ember.View.notifyMutationListeners = function() {
mutation.trigger('change');
};
/**
Global views hash
@property views
@static
@type Hash
*/
Ember.View.views = {};
// If someone overrides the child views computed property when
// defining their class, we want to be able to process the user's
// supplied childViews and then restore the original computed property
// at view initialization time. This happens in Ember.ContainerView's init
// method.
Ember.View.childViewsProperty = childViewsProperty;
Ember.View.applyAttributeBindings = function(elem, name, value) {
var type = Ember.typeOf(value);
// if this changes, also change the logic in ember-handlebars/lib/helpers/binding.js
if (name !== 'value' && (type === 'string' || (type === 'number' && !isNaN(value)))) {
if (value !== elem.attr(name)) {
elem.attr(name, value);
}
} else if (name === 'value' || type === 'boolean') {
if (Ember.isNone(value) || value === false) {
// `null`, `undefined` or `false` should remove attribute
elem.removeAttr(name);
elem.prop(name, '');
} else if (value !== elem.prop(name)) {
// value should always be properties
elem.prop(name, value);
}
} else if (!value) {
elem.removeAttr(name);
}
};
Ember.View.states = states;
})();
(function() {
/**
@module ember
@submodule ember-views
*/
var get = Ember.get, set = Ember.set;
Ember.View.states._default = {
// appendChild is only legal while rendering the buffer.
appendChild: function() {
throw "You can't use appendChild outside of the rendering process";
},
$: function() {
return undefined;
},
getElement: function() {
return null;
},
// Handle events from `Ember.EventDispatcher`
handleEvent: function() {
return true; // continue event propagation
},
destroyElement: function(view) {
set(view, 'element', null);
if (view._scheduledInsert) {
Ember.run.cancel(view._scheduledInsert);
view._scheduledInsert = null;
}
return view;
},
renderToBufferIfNeeded: function () {
return false;
},
rerender: Ember.K,
invokeObserver: Ember.K
};
})();
(function() {
/**
@module ember
@submodule ember-views
*/
var preRender = Ember.View.states.preRender = Ember.create(Ember.View.states._default);
Ember.merge(preRender, {
// a view leaves the preRender state once its element has been
// created (createElement).
insertElement: function(view, fn) {
view.createElement();
var viewCollection = view.viewHierarchyCollection();
viewCollection.trigger('willInsertElement');
fn.call(view);
// We transition to `inDOM` if the element exists in the DOM
var element = view.get('element');
if (document.body.contains(element)) {
viewCollection.transitionTo('inDOM', false);
viewCollection.trigger('didInsertElement');
}
},
renderToBufferIfNeeded: function(view, buffer) {
view.renderToBuffer(buffer);
return true;
},
empty: Ember.K,
setElement: function(view, value) {
if (value !== null) {
view.transitionTo('hasElement');
}
return value;
}
});
})();
(function() {
/**
@module ember
@submodule ember-views
*/
var get = Ember.get, set = Ember.set;
var inBuffer = Ember.View.states.inBuffer = Ember.create(Ember.View.states._default);
Ember.merge(inBuffer, {
$: function(view, sel) {
// if we don't have an element yet, someone calling this.$() is
// trying to update an element that isn't in the DOM. Instead,
// rerender the view to allow the render method to reflect the
// changes.
view.rerender();
return Ember.$();
},
// when a view is rendered in a buffer, rerendering it simply
// replaces the existing buffer with a new one
rerender: function(view) {
throw new Ember.Error("Something you did caused a view to re-render after it rendered but before it was inserted into the DOM.");
},
// when a view is rendered in a buffer, appending a child
// view will render that view and append the resulting
// buffer into its buffer.
appendChild: function(view, childView, options) {
var buffer = view.buffer, _childViews = view._childViews;
childView = view.createChildView(childView, options);
if (!_childViews.length) { _childViews = view._childViews = _childViews.slice(); }
_childViews.push(childView);
childView.renderToBuffer(buffer);
view.propertyDidChange('childViews');
return childView;
},
// when a view is rendered in a buffer, destroying the
// element will simply destroy the buffer and put the
// state back into the preRender state.
destroyElement: function(view) {
view.clearBuffer();
var viewCollection = view._notifyWillDestroyElement();
viewCollection.transitionTo('preRender', false);
return view;
},
empty: function() {
Ember.assert("Emptying a view in the inBuffer state is not allowed and " +
"should not happen under normal circumstances. Most likely " +
"there is a bug in your application. This may be due to " +
"excessive property change notifications.");
},
renderToBufferIfNeeded: function (view, buffer) {
return false;
},
// It should be impossible for a rendered view to be scheduled for
// insertion.
insertElement: function() {
throw "You can't insert an element that has already been rendered";
},
setElement: function(view, value) {
if (value === null) {
view.transitionTo('preRender');
} else {
view.clearBuffer();
view.transitionTo('hasElement');
}
return value;
},
invokeObserver: function(target, observer) {
observer.call(target);
}
});
})();
(function() {
/**
@module ember
@submodule ember-views
*/
var get = Ember.get, set = Ember.set;
var hasElement = Ember.View.states.hasElement = Ember.create(Ember.View.states._default);
Ember.merge(hasElement, {
$: function(view, sel) {
var elem = get(view, 'element');
return sel ? Ember.$(sel, elem) : Ember.$(elem);
},
getElement: function(view) {
var parent = get(view, 'parentView');
if (parent) { parent = get(parent, 'element'); }
if (parent) { return view.findElementInParentElement(parent); }
return Ember.$("#" + get(view, 'elementId'))[0];
},
setElement: function(view, value) {
if (value === null) {
view.transitionTo('preRender');
} else {
throw "You cannot set an element to a non-null value when the element is already in the DOM.";
}
return value;
},
// once the view has been inserted into the DOM, rerendering is
// deferred to allow bindings to synchronize.
rerender: function(view) {
view.triggerRecursively('willClearRender');
view.clearRenderedChildren();
view.domManager.replace(view);
return view;
},
// once the view is already in the DOM, destroying it removes it
// from the DOM, nukes its element, and puts it back into the
// preRender state if inDOM.
destroyElement: function(view) {
view._notifyWillDestroyElement();
view.domManager.remove(view);
set(view, 'element', null);
if (view._scheduledInsert) {
Ember.run.cancel(view._scheduledInsert);
view._scheduledInsert = null;
}
return view;
},
empty: function(view) {
var _childViews = view._childViews, len, idx;
if (_childViews) {
len = _childViews.length;
for (idx = 0; idx < len; idx++) {
_childViews[idx]._notifyWillDestroyElement();
}
}
view.domManager.empty(view);
},
// Handle events from `Ember.EventDispatcher`
handleEvent: function(view, eventName, evt) {
if (view.has(eventName)) {
// Handler should be able to re-dispatch events, so we don't
// preventDefault or stopPropagation.
return view.trigger(eventName, evt);
} else {
return true; // continue event propagation
}
},
invokeObserver: function(target, observer) {
observer.call(target);
}
});
})();
(function() {
/**
@module ember
@submodule ember-views
*/
var hasElement = Ember.View.states.hasElement;
var inDOM = Ember.View.states.inDOM = Ember.create(hasElement);
Ember.merge(inDOM, {
enter: function(view) {
// Register the view for event handling. This hash is used by
// Ember.EventDispatcher to dispatch incoming events.
if (!view.isVirtual) {
Ember.assert("Attempted to register a view with an id already in use: "+view.elementId, !Ember.View.views[view.elementId]);
Ember.View.views[view.elementId] = view;
}
view.addBeforeObserver('elementId', function() {
throw new Ember.Error("Changing a view's elementId after creation is not allowed");
});
},
exit: function(view) {
if (!this.isVirtual) delete Ember.View.views[view.elementId];
},
insertElement: function(view, fn) {
throw "You can't insert an element into the DOM that has already been inserted";
}
});
})();
(function() {
/**
@module ember
@submodule ember-views
*/
var destroyingError = "You can't call %@ on a view being destroyed", fmt = Ember.String.fmt;
var destroying = Ember.View.states.destroying = Ember.create(Ember.View.states._default);
Ember.merge(destroying, {
appendChild: function() {
throw fmt(destroyingError, ['appendChild']);
},
rerender: function() {
throw fmt(destroyingError, ['rerender']);
},
destroyElement: function() {
throw fmt(destroyingError, ['destroyElement']);
},
empty: function() {
throw fmt(destroyingError, ['empty']);
},
setElement: function() {
throw fmt(destroyingError, ["set('element', ...)"]);
},
renderToBufferIfNeeded: function() {
return false;
},
// Since element insertion is scheduled, don't do anything if
// the view has been destroyed between scheduling and execution
insertElement: Ember.K
});
})();
(function() {
Ember.View.cloneStates = function(from) {
var into = {};
into._default = {};
into.preRender = Ember.create(into._default);
into.destroying = Ember.create(into._default);
into.inBuffer = Ember.create(into._default);
into.hasElement = Ember.create(into._default);
into.inDOM = Ember.create(into.hasElement);
for (var stateName in from) {
if (!from.hasOwnProperty(stateName)) { continue; }
Ember.merge(into[stateName], from[stateName]);
}
return into;
};
})();
(function() {
var states = Ember.View.cloneStates(Ember.View.states);
/**
@module ember
@submodule ember-views
*/
var get = Ember.get, set = Ember.set;
var forEach = Ember.EnumerableUtils.forEach;
var ViewCollection = Ember._ViewCollection;
/**
A `ContainerView` is an `Ember.View` subclass that implements `Ember.MutableArray`
allowing programmatic management of its child views.
## Setting Initial Child Views
The initial array of child views can be set in one of two ways. You can
provide a `childViews` property at creation time that contains instance of
`Ember.View`:
```javascript
aContainer = Ember.ContainerView.create({
childViews: [Ember.View.create(), Ember.View.create()]
});
```
You can also provide a list of property names whose values are instances of
`Ember.View`:
```javascript
aContainer = Ember.ContainerView.create({
childViews: ['aView', 'bView', 'cView'],
aView: Ember.View.create(),
bView: Ember.View.create(),
cView: Ember.View.create()
});
```
The two strategies can be combined:
```javascript
aContainer = Ember.ContainerView.create({
childViews: ['aView', Ember.View.create()],
aView: Ember.View.create()
});
```
Each child view's rendering will be inserted into the container's rendered
HTML in the same order as its position in the `childViews` property.
## Adding and Removing Child Views
The container view implements `Ember.MutableArray` allowing programmatic management of its child views.
To remove a view, pass that view into a `removeObject` call on the container view.
Given an empty `<body>` the following code
```javascript
aContainer = Ember.ContainerView.create({
classNames: ['the-container'],
childViews: ['aView', 'bView'],
aView: Ember.View.create({
template: Ember.Handlebars.compile("A")
}),
bView: Ember.View.create({
template: Ember.Handlebars.compile("B")
})
});
aContainer.appendTo('body');
```
Results in the HTML
```html
<div class="ember-view the-container">
<div class="ember-view">A</div>
<div class="ember-view">B</div>
</div>
```
Removing a view
```javascript
aContainer.toArray(); // [aContainer.aView, aContainer.bView]
aContainer.removeObject(aContainer.get('bView'));
aContainer.toArray(); // [aContainer.aView]
```
Will result in the following HTML
```html
<div class="ember-view the-container">
<div class="ember-view">A</div>
</div>
```
Similarly, adding a child view is accomplished by adding `Ember.View` instances to the
container view.
Given an empty `<body>` the following code
```javascript
aContainer = Ember.ContainerView.create({
classNames: ['the-container'],
childViews: ['aView', 'bView'],
aView: Ember.View.create({
template: Ember.Handlebars.compile("A")
}),
bView: Ember.View.create({
template: Ember.Handlebars.compile("B")
})
});
aContainer.appendTo('body');
```
Results in the HTML
```html
<div class="ember-view the-container">
<div class="ember-view">A</div>
<div class="ember-view">B</div>
</div>
```
Adding a view
```javascript
AnotherViewClass = Ember.View.extend({
template: Ember.Handlebars.compile("Another view")
});
aContainer.toArray(); // [aContainer.aView, aContainer.bView]
aContainer.pushObject(AnotherViewClass.create());
aContainer.toArray(); // [aContainer.aView, aContainer.bView, <AnotherViewClass instance>]
```
Will result in the following HTML
```html
<div class="ember-view the-container">
<div class="ember-view">A</div>
<div class="ember-view">B</div>
<div class="ember-view">Another view</div>
</div>
```
## Templates and Layout
A `template`, `templateName`, `defaultTemplate`, `layout`, `layoutName` or
`defaultLayout` property on a container view will not result in the template
or layout being rendered. The HTML contents of a `Ember.ContainerView`'s DOM
representation will only be the rendered HTML of its child views.
@class ContainerView
@namespace Ember
@extends Ember.View
*/
Ember.ContainerView = Ember.View.extend(Ember.MutableArray, {
states: states,
init: function() {
this._super();
var childViews = get(this, 'childViews');
// redefine view's childViews property that was obliterated
Ember.defineProperty(this, 'childViews', Ember.View.childViewsProperty);
var _childViews = this._childViews;
forEach(childViews, function(viewName, idx) {
var view;
if ('string' === typeof viewName) {
view = get(this, viewName);
view = this.createChildView(view);
set(this, viewName, view);
} else {
view = this.createChildView(viewName);
}
_childViews[idx] = view;
}, this);
var currentView = get(this, 'currentView');
if (currentView) {
if (!_childViews.length) { _childViews = this._childViews = this._childViews.slice(); }
_childViews.push(this.createChildView(currentView));
}
},
replace: function(idx, removedCount, addedViews) {
var addedCount = addedViews ? get(addedViews, 'length') : 0;
var self = this;
Ember.assert("You can't add a child to a container that is already a child of another view", Ember.A(addedViews).every(function(item) { return !get(item, '_parentView') || get(item, '_parentView') === self; }));
this.arrayContentWillChange(idx, removedCount, addedCount);
this.childViewsWillChange(this._childViews, idx, removedCount);
if (addedCount === 0) {
this._childViews.splice(idx, removedCount) ;
} else {
var args = [idx, removedCount].concat(addedViews);
if (addedViews.length && !this._childViews.length) { this._childViews = this._childViews.slice(); }
this._childViews.splice.apply(this._childViews, args);
}
this.arrayContentDidChange(idx, removedCount, addedCount);
this.childViewsDidChange(this._childViews, idx, removedCount, addedCount);
return this;
},
objectAt: function(idx) {
return this._childViews[idx];
},
length: Ember.computed(function () {
return this._childViews.length;
}).volatile(),
/**
Instructs each child view to render to the passed render buffer.
@private
@method render
@param {Ember.RenderBuffer} buffer the buffer to render to
*/
render: function(buffer) {
this.forEachChildView(function(view) {
view.renderToBuffer(buffer);
});
},
instrumentName: 'container',
/**
When a child view is removed, destroy its element so that
it is removed from the DOM.
The array observer that triggers this action is set up in the
`renderToBuffer` method.
@private
@method childViewsWillChange
@param {Ember.Array} views the child views array before mutation
@param {Number} start the start position of the mutation
@param {Number} removed the number of child views removed
**/
childViewsWillChange: function(views, start, removed) {
this.propertyWillChange('childViews');
if (removed > 0) {
var changedViews = views.slice(start, start+removed);
// transition to preRender before clearing parentView
this.currentState.childViewsWillChange(this, views, start, removed);
this.initializeViews(changedViews, null, null);
}
},
removeChild: function(child) {
this.removeObject(child);
return this;
},
/**
When a child view is added, make sure the DOM gets updated appropriately.
If the view has already rendered an element, we tell the child view to
create an element and insert it into the DOM. If the enclosing container
view has already written to a buffer, but not yet converted that buffer
into an element, we insert the string representation of the child into the
appropriate place in the buffer.
@private
@method childViewsDidChange
@param {Ember.Array} views the array of child views afte the mutation has occurred
@param {Number} start the start position of the mutation
@param {Number} removed the number of child views removed
@param {Number} the number of child views added
*/
childViewsDidChange: function(views, start, removed, added) {
if (added > 0) {
var changedViews = views.slice(start, start+added);
this.initializeViews(changedViews, this, get(this, 'templateData'));
this.currentState.childViewsDidChange(this, views, start, added);
}
this.propertyDidChange('childViews');
},
initializeViews: function(views, parentView, templateData) {
forEach(views, function(view) {
set(view, '_parentView', parentView);
if (!view.container && parentView) {
set(view, 'container', parentView.container);
}
if (!get(view, 'templateData')) {
set(view, 'templateData', templateData);
}
});
},
currentView: null,
_currentViewWillChange: Ember.beforeObserver('currentView', function() {
var currentView = get(this, 'currentView');
if (currentView) {
currentView.destroy();
}
}),
_currentViewDidChange: Ember.observer('currentView', function() {
var currentView = get(this, 'currentView');
if (currentView) {
Ember.assert("You tried to set a current view that already has a parent. Make sure you don't have multiple outlets in the same view.", !get(currentView, '_parentView'));
this.pushObject(currentView);
}
}),
_ensureChildrenAreInDOM: function () {
this.currentState.ensureChildrenAreInDOM(this);
}
});
Ember.merge(states._default, {
childViewsWillChange: Ember.K,
childViewsDidChange: Ember.K,
ensureChildrenAreInDOM: Ember.K
});
Ember.merge(states.inBuffer, {
childViewsDidChange: function(parentView, views, start, added) {
throw new Ember.Error('You cannot modify child views while in the inBuffer state');
}
});
Ember.merge(states.hasElement, {
childViewsWillChange: function(view, views, start, removed) {
for (var i=start; i<start+removed; i++) {
views[i].remove();
}
},
childViewsDidChange: function(view, views, start, added) {
Ember.run.scheduleOnce('render', view, '_ensureChildrenAreInDOM');
},
ensureChildrenAreInDOM: function(view) {
var childViews = view._childViews, i, len, childView, previous, buffer, viewCollection = new ViewCollection();
for (i = 0, len = childViews.length; i < len; i++) {
childView = childViews[i];
if (!buffer) { buffer = Ember.RenderBuffer(); buffer._hasElement = false; }
if (childView.renderToBufferIfNeeded(buffer)) {
viewCollection.push(childView);
} else if (viewCollection.length) {
insertViewCollection(view, viewCollection, previous, buffer);
buffer = null;
previous = childView;
viewCollection.clear();
} else {
previous = childView;
}
}
if (viewCollection.length) {
insertViewCollection(view, viewCollection, previous, buffer);
}
}
});
function insertViewCollection(view, viewCollection, previous, buffer) {
viewCollection.triggerRecursively('willInsertElement');
if (previous) {
previous.domManager.after(previous, buffer.string());
} else {
view.domManager.prepend(view, buffer.string());
}
viewCollection.forEach(function(v) {
v.transitionTo('inDOM');
v.propertyDidChange('element');
v.triggerRecursively('didInsertElement');
});
}
})();
(function() {
/**
@module ember
@submodule ember-views
*/
var get = Ember.get, set = Ember.set, fmt = Ember.String.fmt;
/**
`Ember.CollectionView` is an `Ember.View` descendent responsible for managing
a collection (an array or array-like object) by maintaining a child view object
and associated DOM representation for each item in the array and ensuring
that child views and their associated rendered HTML are updated when items in
the array are added, removed, or replaced.
## Setting content
The managed collection of objects is referenced as the `Ember.CollectionView`
instance's `content` property.
```javascript
someItemsView = Ember.CollectionView.create({
content: ['A', 'B','C']
})
```
The view for each item in the collection will have its `content` property set
to the item.
## Specifying itemViewClass
By default the view class for each item in the managed collection will be an
instance of `Ember.View`. You can supply a different class by setting the
`CollectionView`'s `itemViewClass` property.
Given an empty `<body>` and the following code:
```javascript
someItemsView = Ember.CollectionView.create({
classNames: ['a-collection'],
content: ['A','B','C'],
itemViewClass: Ember.View.extend({
template: Ember.Handlebars.compile("the letter: {{view.content}}")
})
});
someItemsView.appendTo('body');
```
Will result in the following HTML structure
```html
<div class="ember-view a-collection">
<div class="ember-view">the letter: A</div>
<div class="ember-view">the letter: B</div>
<div class="ember-view">the letter: C</div>
</div>
```
## Automatic matching of parent/child tagNames
Setting the `tagName` property of a `CollectionView` to any of
"ul", "ol", "table", "thead", "tbody", "tfoot", "tr", or "select" will result
in the item views receiving an appropriately matched `tagName` property.
Given an empty `<body>` and the following code:
```javascript
anUnorderedListView = Ember.CollectionView.create({
tagName: 'ul',
content: ['A','B','C'],
itemViewClass: Ember.View.extend({
template: Ember.Handlebars.compile("the letter: {{view.content}}")
})
});
anUnorderedListView.appendTo('body');
```
Will result in the following HTML structure
```html
<ul class="ember-view a-collection">
<li class="ember-view">the letter: A</li>
<li class="ember-view">the letter: B</li>
<li class="ember-view">the letter: C</li>
</ul>
```
Additional `tagName` pairs can be provided by adding to
`Ember.CollectionView.CONTAINER_MAP `
```javascript
Ember.CollectionView.CONTAINER_MAP['article'] = 'section'
```
## Programmatic creation of child views
For cases where additional customization beyond the use of a single
`itemViewClass` or `tagName` matching is required CollectionView's
`createChildView` method can be overidden:
```javascript
CustomCollectionView = Ember.CollectionView.extend({
createChildView: function(viewClass, attrs) {
if (attrs.content.kind == 'album') {
viewClass = App.AlbumView;
} else {
viewClass = App.SongView;
}
return this._super(viewClass, attrs);
}
});
```
## Empty View
You can provide an `Ember.View` subclass to the `Ember.CollectionView`
instance as its `emptyView` property. If the `content` property of a
`CollectionView` is set to `null` or an empty array, an instance of this view
will be the `CollectionView`s only child.
```javascript
aListWithNothing = Ember.CollectionView.create({
classNames: ['nothing']
content: null,
emptyView: Ember.View.extend({
template: Ember.Handlebars.compile("The collection is empty")
})
});
aListWithNothing.appendTo('body');
```
Will result in the following HTML structure
```html
<div class="ember-view nothing">
<div class="ember-view">
The collection is empty
</div>
</div>
```
## Adding and Removing items
The `childViews` property of a `CollectionView` should not be directly
manipulated. Instead, add, remove, replace items from its `content` property.
This will trigger appropriate changes to its rendered HTML.
@class CollectionView
@namespace Ember
@extends Ember.ContainerView
@since Ember 0.9
*/
Ember.CollectionView = Ember.ContainerView.extend({
/**
A list of items to be displayed by the `Ember.CollectionView`.
@property content
@type Ember.Array
@default null
*/
content: null,
/**
This provides metadata about what kind of empty view class this
collection would like if it is being instantiated from another
system (like Handlebars)
@private
@property emptyViewClass
*/
emptyViewClass: Ember.View,
/**
An optional view to display if content is set to an empty array.
@property emptyView
@type Ember.View
@default null
*/
emptyView: null,
/**
@property itemViewClass
@type Ember.View
@default Ember.View
*/
itemViewClass: Ember.View,
/**
Setup a CollectionView
@method init
*/
init: function() {
var ret = this._super();
this._contentDidChange();
return ret;
},
/**
Invoked when the content property is about to change. Notifies observers that the
entire array content will change.
@private
@method _contentWillChange
*/
_contentWillChange: Ember.beforeObserver('content', function() {
var content = this.get('content');
if (content) { content.removeArrayObserver(this); }
var len = content ? get(content, 'length') : 0;
this.arrayWillChange(content, 0, len);
}),
/**
Check to make sure that the content has changed, and if so,
update the children directly. This is always scheduled
asynchronously, to allow the element to be created before
bindings have synchronized and vice versa.
@private
@method _contentDidChange
*/
_contentDidChange: Ember.observer('content', function() {
var content = get(this, 'content');
if (content) {
this._assertArrayLike(content);
content.addArrayObserver(this);
}
var len = content ? get(content, 'length') : 0;
this.arrayDidChange(content, 0, null, len);
}),
/**
Ensure that the content implements Ember.Array
@private
@method _assertArrayLike
*/
_assertArrayLike: function(content) {
Ember.assert(fmt("an Ember.CollectionView's content must implement Ember.Array. You passed %@", [content]), Ember.Array.detect(content));
},
/**
Removes the content and content observers.
@method destroy
*/
destroy: function() {
if (!this._super()) { return; }
var content = get(this, 'content');
if (content) { content.removeArrayObserver(this); }
if (this._createdEmptyView) {
this._createdEmptyView.destroy();
}
return this;
},
/**
Called when a mutation to the underlying content array will occur.
This method will remove any views that are no longer in the underlying
content array.
Invokes whenever the content array itself will change.
@method arrayWillChange
@param {Array} content the managed collection of objects
@param {Number} start the index at which the changes will occurr
@param {Number} removed number of object to be removed from content
*/
arrayWillChange: function(content, start, removedCount) {
// If the contents were empty before and this template collection has an
// empty view remove it now.
var emptyView = get(this, 'emptyView');
if (emptyView && emptyView instanceof Ember.View) {
emptyView.removeFromParent();
}
// Loop through child views that correspond with the removed items.
// Note that we loop from the end of the array to the beginning because
// we are mutating it as we go.
var childViews = this._childViews, childView, idx, len;
len = this._childViews.length;
var removingAll = removedCount === len;
if (removingAll) {
this.currentState.empty(this);
this.invokeRecursively(function(view) {
view.removedFromDOM = true;
}, false);
}
for (idx = start + removedCount - 1; idx >= start; idx--) {
childView = childViews[idx];
childView.destroy();
}
},
/**
Called when a mutation to the underlying content array occurs.
This method will replay that mutation against the views that compose the
`Ember.CollectionView`, ensuring that the view reflects the model.
This array observer is added in `contentDidChange`.
@method arrayDidChange
@param {Array} content the managed collection of objects
@param {Number} start the index at which the changes occurred
@param {Number} removed number of object removed from content
@param {Number} added number of object added to content
*/
arrayDidChange: function(content, start, removed, added) {
var addedViews = [], view, item, idx, len, itemViewClass,
emptyView;
len = content ? get(content, 'length') : 0;
if (len) {
itemViewClass = get(this, 'itemViewClass');
if ('string' === typeof itemViewClass) {
itemViewClass = get(itemViewClass) || itemViewClass;
}
Ember.assert(fmt("itemViewClass must be a subclass of Ember.View, not %@",
[itemViewClass]),
'string' === typeof itemViewClass || Ember.View.detect(itemViewClass));
for (idx = start; idx < start+added; idx++) {
item = content.objectAt(idx);
view = this.createChildView(itemViewClass, {
content: item,
contentIndex: idx
});
addedViews.push(view);
}
} else {
emptyView = get(this, 'emptyView');
if (!emptyView) { return; }
if ('string' === typeof emptyView) {
emptyView = get(emptyView) || emptyView;
}
emptyView = this.createChildView(emptyView);
addedViews.push(emptyView);
set(this, 'emptyView', emptyView);
if (Ember.CoreView.detect(emptyView)) {
this._createdEmptyView = emptyView;
}
}
this.replace(start, 0, addedViews);
},
/**
Instantiates a view to be added to the childViews array during view
initialization. You generally will not call this method directly unless
you are overriding `createChildViews()`. Note that this method will
automatically configure the correct settings on the new view instance to
act as a child of the parent.
The tag name for the view will be set to the tagName of the viewClass
passed in.
@method createChildView
@param {Class} viewClass
@param {Hash} [attrs] Attributes to add
@return {Ember.View} new instance
*/
createChildView: function(view, attrs) {
view = this._super(view, attrs);
var itemTagName = get(view, 'tagName');
if (itemTagName === null || itemTagName === undefined) {
itemTagName = Ember.CollectionView.CONTAINER_MAP[get(this, 'tagName')];
set(view, 'tagName', itemTagName);
}
return view;
}
});
/**
A map of parent tags to their default child tags. You can add
additional parent tags if you want collection views that use
a particular parent tag to default to a child tag.
@property CONTAINER_MAP
@type Hash
@static
@final
*/
Ember.CollectionView.CONTAINER_MAP = {
ul: 'li',
ol: 'li',
table: 'tr',
thead: 'tr',
tbody: 'tr',
tfoot: 'tr',
tr: 'td',
select: 'option'
};
})();
(function() {
var get = Ember.get;
/**
The ComponentTemplateDeprecation mixin is used to provide a useful
deprecation warning when using either `template` or `templateName` with
a component. The `template` and `templateName` properties specified at
extend time are moved to `layout` and `layoutName` respectively.
`Ember.ComponentTemplateDeprecation` is used internally by Ember in
`Ember.Component`.
@class ComponentTemplateDeprecation
@namespace Ember
*/
Ember.ComponentTemplateDeprecation = Ember.Mixin.create({
/**
@private
Moves `templateName` to `layoutName` and `template` to `layout` at extend
time if a layout is not also specified.
Note that this currently modifies the mixin themselves, which is technically
dubious but is practically of little consequence. This may change in the
future.
@method willMergeMixin
*/
willMergeMixin: function(props) {
// must call _super here to ensure that the ActionHandler
// mixin is setup properly (moves actions -> _actions)
//
// Calling super is only OK here since we KNOW that
// there is another Mixin loaded first.
this._super.apply(this, arguments);
var deprecatedProperty, replacementProperty,
layoutSpecified = (props.layoutName || props.layout || get(this, 'layoutName'));
if (props.templateName && !layoutSpecified) {
deprecatedProperty = 'templateName';
replacementProperty = 'layoutName';
props.layoutName = props.templateName;
delete props['templateName'];
}
if (props.template && !layoutSpecified) {
deprecatedProperty = 'template';
replacementProperty = 'layout';
props.layout = props.template;
delete props['template'];
}
if (deprecatedProperty) {
Ember.deprecate('Do not specify ' + deprecatedProperty + ' on a Component, use ' + replacementProperty + ' instead.', false);
}
}
});
})();
(function() {
var get = Ember.get, set = Ember.set, isNone = Ember.isNone,
a_slice = Array.prototype.slice;
/**
@module ember
@submodule ember-views
*/
/**
An `Ember.Component` is a view that is completely
isolated. Property access in its templates go
to the view object and actions are targeted at
the view object. There is no access to the
surrounding context or outer controller; all
contextual information must be passed in.
The easiest way to create an `Ember.Component` is via
a template. If you name a template
`components/my-foo`, you will be able to use
`{{my-foo}}` in other templates, which will make
an instance of the isolated component.
```handlebars
{{app-profile person=currentUser}}
```
```handlebars
<!-- app-profile template -->
<h1>{{person.title}}</h1>
<img {{bind-attr src=person.avatar}}>
<p class='signature'>{{person.signature}}</p>
```
You can use `yield` inside a template to
include the **contents** of any block attached to
the component. The block will be executed in the
context of the surrounding context or outer controller:
```handlebars
{{#app-profile person=currentUser}}
<p>Admin mode</p>
{{! Executed in the controller's context. }}
{{/app-profile}}
```
```handlebars
<!-- app-profile template -->
<h1>{{person.title}}</h1>
{{! Executed in the components context. }}
{{yield}} {{! block contents }}
```
If you want to customize the component, in order to
handle events or actions, you implement a subclass
of `Ember.Component` named after the name of the
component. Note that `Component` needs to be appended to the name of
your subclass like `AppProfileComponent`.
For example, you could implement the action
`hello` for the `app-profile` component:
```javascript
App.AppProfileComponent = Ember.Component.extend({
actions: {
hello: function(name) {
console.log("Hello", name);
}
}
});
```
And then use it in the component's template:
```handlebars
<!-- app-profile template -->
<h1>{{person.title}}</h1>
{{yield}} <!-- block contents -->
<button {{action 'hello' person.name}}>
Say Hello to {{person.name}}
</button>
```
Components must have a `-` in their name to avoid
conflicts with built-in controls that wrap HTML
elements. This is consistent with the same
requirement in web components.
@class Component
@namespace Ember
@extends Ember.View
*/
Ember.Component = Ember.View.extend(Ember.TargetActionSupport, Ember.ComponentTemplateDeprecation, {
init: function() {
this._super();
set(this, 'context', this);
set(this, 'controller', this);
},
defaultLayout: function(context, options){
Ember.Handlebars.helpers['yield'].call(context, options);
},
/**
A components template property is set by passing a block
during its invocation. It is executed within the parent context.
Example:
```handlebars
{{#my-component}}
// something that is run in the context
// of the parent context
{{/my-component}}
```
Specifying a template directly to a component is deprecated without
also specifying the layout property.
@deprecated
@property template
*/
template: Ember.computed(function(key, value) {
if (value !== undefined) { return value; }
var templateName = get(this, 'templateName'),
template = this.templateForName(templateName, 'template');
Ember.assert("You specified the templateName " + templateName + " for " + this + ", but it did not exist.", !templateName || template);
return template || get(this, 'defaultTemplate');
}).property('templateName'),
/**
Specifying a components `templateName` is deprecated without also
providing the `layout` or `layoutName` properties.
@deprecated
@property templateName
*/
templateName: null,
// during render, isolate keywords
cloneKeywords: function() {
return {
view: this,
controller: this
};
},
_yield: function(context, options) {
var view = options.data.view,
parentView = this._parentView,
template = get(this, 'template');
if (template) {
Ember.assert("A Component must have a parent view in order to yield.", parentView);
view.appendChild(Ember.View, {
isVirtual: true,
tagName: '',
_contextView: parentView,
template: template,
context: get(parentView, 'context'),
controller: get(parentView, 'controller'),
templateData: { keywords: parentView.cloneKeywords() }
});
}
},
/**
If the component is currently inserted into the DOM of a parent view, this
property will point to the controller of the parent view.
@property targetObject
@type Ember.Controller
@default null
*/
targetObject: Ember.computed(function(key) {
var parentView = get(this, '_parentView');
return parentView ? get(parentView, 'controller') : null;
}).property('_parentView'),
/**
Triggers a named action on the controller context where the component is used if
this controller has registered for notifications of the action.
For example a component for playing or pausing music may translate click events
into action notifications of "play" or "stop" depending on some internal state
of the component:
```javascript
App.PlayButtonComponent = Ember.Component.extend({
click: function(){
if (this.get('isPlaying')) {
this.sendAction('play');
} else {
this.sendAction('stop');
}
}
});
```
When used inside a template these component actions are configured to
trigger actions in the outer application context:
```handlebars
{{! application.hbs }}
{{play-button play="musicStarted" stop="musicStopped"}}
```
When the component receives a browser `click` event it translate this
interaction into application-specific semantics ("play" or "stop") and
triggers the specified action name on the controller for the template
where the component is used:
```javascript
App.ApplicationController = Ember.Controller.extend({
actions: {
musicStarted: function(){
// called when the play button is clicked
// and the music started playing
},
musicStopped: function(){
// called when the play button is clicked
// and the music stopped playing
}
}
});
```
If no action name is passed to `sendAction` a default name of "action"
is assumed.
```javascript
App.NextButtonComponent = Ember.Component.extend({
click: function(){
this.sendAction();
}
});
```
```handlebars
{{! application.hbs }}
{{next-button action="playNextSongInAlbum"}}
```
```javascript
App.ApplicationController = Ember.Controller.extend({
actions: {
playNextSongInAlbum: function(){
...
}
}
});
```
@method sendAction
@param [action] {String} the action to trigger
@param [context] {*} a context to send with the action
*/
sendAction: function(action) {
var actionName,
contexts = a_slice.call(arguments, 1);
// Send the default action
if (action === undefined) {
actionName = get(this, 'action');
Ember.assert("The default action was triggered on the component " + this.toString() +
", but the action name (" + actionName + ") was not a string.",
isNone(actionName) || typeof actionName === 'string');
} else {
actionName = get(this, action);
Ember.assert("The " + action + " action was triggered on the component " +
this.toString() + ", but the action name (" + actionName +
") was not a string.",
isNone(actionName) || typeof actionName === 'string');
}
// If no action name for that action could be found, just abort.
if (actionName === undefined) { return; }
this.triggerAction({
action: actionName,
actionContext: contexts
});
}
});
})();
(function() {
})();
(function() {
/**
`Ember.ViewTargetActionSupport` is a mixin that can be included in a
view class to add a `triggerAction` method with semantics similar to
the Handlebars `{{action}}` helper. It provides intelligent defaults
for the action's target: the view's controller; and the context that is
sent with the action: the view's context.
Note: In normal Ember usage, the `{{action}}` helper is usually the best
choice. This mixin is most often useful when you are doing more complex
event handling in custom View subclasses.
For example:
```javascript
App.SaveButtonView = Ember.View.extend(Ember.ViewTargetActionSupport, {
action: 'save',
click: function() {
this.triggerAction(); // Sends the `save` action, along with the current context
// to the current controller
}
});
```
The `action` can be provided as properties of an optional object argument
to `triggerAction` as well.
```javascript
App.SaveButtonView = Ember.View.extend(Ember.ViewTargetActionSupport, {
click: function() {
this.triggerAction({
action: 'save'
}); // Sends the `save` action, along with the current context
// to the current controller
}
});
```
@class ViewTargetActionSupport
@namespace Ember
@extends Ember.TargetActionSupport
*/
Ember.ViewTargetActionSupport = Ember.Mixin.create(Ember.TargetActionSupport, {
/**
@property target
*/
target: Ember.computed.alias('controller'),
/**
@property actionContext
*/
actionContext: Ember.computed.alias('context')
});
})();
(function() {
})();
(function() {
/**
Ember Views
@module ember
@submodule ember-views
@requires ember-runtime
@main ember-views
*/
})();
(function() {
define("metamorph",
[],
function() {
"use strict";
// ==========================================================================
// Project: metamorph
// Copyright: ©2014 Tilde, Inc. All rights reserved.
// ==========================================================================
var K = function() {},
guid = 0,
disableRange = (function(){
if ('undefined' !== typeof MetamorphENV) {
return MetamorphENV.DISABLE_RANGE_API;
} else if ('undefined' !== ENV) {
return ENV.DISABLE_RANGE_API;
} else {
return false;
}
})(),
// Feature-detect the W3C range API, the extended check is for IE9 which only partially supports ranges
supportsRange = (!disableRange) && typeof document !== 'undefined' && ('createRange' in document) && (typeof Range !== 'undefined') && Range.prototype.createContextualFragment,
// Internet Explorer prior to 9 does not allow setting innerHTML if the first element
// is a "zero-scope" element. This problem can be worked around by making
// the first node an invisible text node. We, like Modernizr, use &shy;
needsShy = typeof document !== 'undefined' && (function() {
var testEl = document.createElement('div');
testEl.innerHTML = "<div></div>";
testEl.firstChild.innerHTML = "<script></script>";
return testEl.firstChild.innerHTML === '';
})(),
// IE 8 (and likely earlier) likes to move whitespace preceeding
// a script tag to appear after it. This means that we can
// accidentally remove whitespace when updating a morph.
movesWhitespace = document && (function() {
var testEl = document.createElement('div');
testEl.innerHTML = "Test: <script type='text/x-placeholder'></script>Value";
return testEl.childNodes[0].nodeValue === 'Test:' &&
testEl.childNodes[2].nodeValue === ' Value';
})();
// Constructor that supports either Metamorph('foo') or new
// Metamorph('foo');
//
// Takes a string of HTML as the argument.
var Metamorph = function(html) {
var self;
if (this instanceof Metamorph) {
self = this;
} else {
self = new K();
}
self.innerHTML = html;
var myGuid = 'metamorph-'+(guid++);
self.start = myGuid + '-start';
self.end = myGuid + '-end';
return self;
};
K.prototype = Metamorph.prototype;
var rangeFor, htmlFunc, removeFunc, outerHTMLFunc, appendToFunc, afterFunc, prependFunc, startTagFunc, endTagFunc;
outerHTMLFunc = function() {
return this.startTag() + this.innerHTML + this.endTag();
};
startTagFunc = function() {
/*
* We replace chevron by its hex code in order to prevent escaping problems.
* Check this thread for more explaination:
* http://stackoverflow.com/questions/8231048/why-use-x3c-instead-of-when-generating-html-from-javascript
*/
return "<script id='" + this.start + "' type='text/x-placeholder'>\x3C/script>";
};
endTagFunc = function() {
/*
* We replace chevron by its hex code in order to prevent escaping problems.
* Check this thread for more explaination:
* http://stackoverflow.com/questions/8231048/why-use-x3c-instead-of-when-generating-html-from-javascript
*/
return "<script id='" + this.end + "' type='text/x-placeholder'>\x3C/script>";
};
// If we have the W3C range API, this process is relatively straight forward.
if (supportsRange) {
// Get a range for the current morph. Optionally include the starting and
// ending placeholders.
rangeFor = function(morph, outerToo) {
var range = document.createRange();
var before = document.getElementById(morph.start);
var after = document.getElementById(morph.end);
if (outerToo) {
range.setStartBefore(before);
range.setEndAfter(after);
} else {
range.setStartAfter(before);
range.setEndBefore(after);
}
return range;
};
htmlFunc = function(html, outerToo) {
// get a range for the current metamorph object
var range = rangeFor(this, outerToo);
// delete the contents of the range, which will be the
// nodes between the starting and ending placeholder.
range.deleteContents();
// create a new document fragment for the HTML
var fragment = range.createContextualFragment(html);
// insert the fragment into the range
range.insertNode(fragment);
};
/**
* @public
*
* Remove this object (including starting and ending
* placeholders).
*
* @method remove
*/
removeFunc = function() {
// get a range for the current metamorph object including
// the starting and ending placeholders.
var range = rangeFor(this, true);
// delete the entire range.
range.deleteContents();
};
appendToFunc = function(node) {
var range = document.createRange();
range.setStart(node);
range.collapse(false);
var frag = range.createContextualFragment(this.outerHTML());
node.appendChild(frag);
};
afterFunc = function(html) {
var range = document.createRange();
var after = document.getElementById(this.end);
range.setStartAfter(after);
range.setEndAfter(after);
var fragment = range.createContextualFragment(html);
range.insertNode(fragment);
};
prependFunc = function(html) {
var range = document.createRange();
var start = document.getElementById(this.start);
range.setStartAfter(start);
range.setEndAfter(start);
var fragment = range.createContextualFragment(html);
range.insertNode(fragment);
};
} else {
/*
* This code is mostly taken from jQuery, with one exception. In jQuery's case, we
* have some HTML and we need to figure out how to convert it into some nodes.
*
* In this case, jQuery needs to scan the HTML looking for an opening tag and use
* that as the key for the wrap map. In our case, we know the parent node, and
* can use its type as the key for the wrap map.
**/
var wrapMap = {
select: [ 1, "<select multiple='multiple'>", "</select>" ],
fieldset: [ 1, "<fieldset>", "</fieldset>" ],
table: [ 1, "<table>", "</table>" ],
tbody: [ 2, "<table><tbody>", "</tbody></table>" ],
tr: [ 3, "<table><tbody><tr>", "</tr></tbody></table>" ],
colgroup: [ 2, "<table><tbody></tbody><colgroup>", "</colgroup></table>" ],
map: [ 1, "<map>", "</map>" ],
_default: [ 0, "", "" ]
};
var findChildById = function(element, id) {
if (element.getAttribute('id') === id) { return element; }
var len = element.childNodes.length, idx, node, found;
for (idx=0; idx<len; idx++) {
node = element.childNodes[idx];
found = node.nodeType === 1 && findChildById(node, id);
if (found) { return found; }
}
};
var setInnerHTML = function(element, html) {
var matches = [];
if (movesWhitespace) {
// Right now we only check for script tags with ids with the
// goal of targeting morphs.
html = html.replace(/(\s+)(<script id='([^']+)')/g, function(match, spaces, tag, id) {
matches.push([id, spaces]);
return tag;
});
}
element.innerHTML = html;
// If we have to do any whitespace adjustments do them now
if (matches.length > 0) {
var len = matches.length, idx;
for (idx=0; idx<len; idx++) {
var script = findChildById(element, matches[idx][0]),
node = document.createTextNode(matches[idx][1]);
script.parentNode.insertBefore(node, script);
}
}
};
/*
* Given a parent node and some HTML, generate a set of nodes. Return the first
* node, which will allow us to traverse the rest using nextSibling.
*
* We need to do this because innerHTML in IE does not really parse the nodes.
*/
var firstNodeFor = function(parentNode, html) {
var arr = wrapMap[parentNode.tagName.toLowerCase()] || wrapMap._default;
var depth = arr[0], start = arr[1], end = arr[2];
if (needsShy) { html = '&shy;'+html; }
var element = document.createElement('div');
setInnerHTML(element, start + html + end);
for (var i=0; i<=depth; i++) {
element = element.firstChild;
}
// Look for &shy; to remove it.
if (needsShy) {
var shyElement = element;
// Sometimes we get nameless elements with the shy inside
while (shyElement.nodeType === 1 && !shyElement.nodeName) {
shyElement = shyElement.firstChild;
}
// At this point it's the actual unicode character.
if (shyElement.nodeType === 3 && shyElement.nodeValue.charAt(0) === "\u00AD") {
shyElement.nodeValue = shyElement.nodeValue.slice(1);
}
}
return element;
};
/*
* In some cases, Internet Explorer can create an anonymous node in
* the hierarchy with no tagName. You can create this scenario via:
*
* div = document.createElement("div");
* div.innerHTML = "<table>&shy<script></script><tr><td>hi</td></tr></table>";
* div.firstChild.firstChild.tagName //=> ""
*
* If our script markers are inside such a node, we need to find that
* node and use *it* as the marker.
*/
var realNode = function(start) {
while (start.parentNode.tagName === "") {
start = start.parentNode;
}
return start;
};
/*
* When automatically adding a tbody, Internet Explorer inserts the
* tbody immediately before the first <tr>. Other browsers create it
* before the first node, no matter what.
*
* This means the the following code:
*
* div = document.createElement("div");
* div.innerHTML = "<table><script id='first'></script><tr><td>hi</td></tr><script id='last'></script></table>
*
* Generates the following DOM in IE:
*
* + div
* + table
* - script id='first'
* + tbody
* + tr
* + td
* - "hi"
* - script id='last'
*
* Which means that the two script tags, even though they were
* inserted at the same point in the hierarchy in the original
* HTML, now have different parents.
*
* This code reparents the first script tag by making it the tbody's
* first child.
*
*/
var fixParentage = function(start, end) {
if (start.parentNode !== end.parentNode) {
end.parentNode.insertBefore(start, end.parentNode.firstChild);
}
};
htmlFunc = function(html, outerToo) {
// get the real starting node. see realNode for details.
var start = realNode(document.getElementById(this.start));
var end = document.getElementById(this.end);
var parentNode = end.parentNode;
var node, nextSibling, last;
// make sure that the start and end nodes share the same
// parent. If not, fix it.
fixParentage(start, end);
// remove all of the nodes after the starting placeholder and
// before the ending placeholder.
node = start.nextSibling;
while (node) {
nextSibling = node.nextSibling;
last = node === end;
// if this is the last node, and we want to remove it as well,
// set the `end` node to the next sibling. This is because
// for the rest of the function, we insert the new nodes
// before the end (note that insertBefore(node, null) is
// the same as appendChild(node)).
//
// if we do not want to remove it, just break.
if (last) {
if (outerToo) { end = node.nextSibling; } else { break; }
}
node.parentNode.removeChild(node);
// if this is the last node and we didn't break before
// (because we wanted to remove the outer nodes), break
// now.
if (last) { break; }
node = nextSibling;
}
// get the first node for the HTML string, even in cases like
// tables and lists where a simple innerHTML on a div would
// swallow some of the content.
node = firstNodeFor(start.parentNode, html);
if (outerToo) {
start.parentNode.removeChild(start);
}
// copy the nodes for the HTML between the starting and ending
// placeholder.
while (node) {
nextSibling = node.nextSibling;
parentNode.insertBefore(node, end);
node = nextSibling;
}
};
// remove the nodes in the DOM representing this metamorph.
//
// this includes the starting and ending placeholders.
removeFunc = function() {
var start = realNode(document.getElementById(this.start));
var end = document.getElementById(this.end);
this.html('');
start.parentNode.removeChild(start);
end.parentNode.removeChild(end);
};
appendToFunc = function(parentNode) {
var node = firstNodeFor(parentNode, this.outerHTML());
var nextSibling;
while (node) {
nextSibling = node.nextSibling;
parentNode.appendChild(node);
node = nextSibling;
}
};
afterFunc = function(html) {
// get the real starting node. see realNode for details.
var end = document.getElementById(this.end);
var insertBefore = end.nextSibling;
var parentNode = end.parentNode;
var nextSibling;
var node;
// get the first node for the HTML string, even in cases like
// tables and lists where a simple innerHTML on a div would
// swallow some of the content.
node = firstNodeFor(parentNode, html);
// copy the nodes for the HTML between the starting and ending
// placeholder.
while (node) {
nextSibling = node.nextSibling;
parentNode.insertBefore(node, insertBefore);
node = nextSibling;
}
};
prependFunc = function(html) {
var start = document.getElementById(this.start);
var parentNode = start.parentNode;
var nextSibling;
var node;
node = firstNodeFor(parentNode, html);
var insertBefore = start.nextSibling;
while (node) {
nextSibling = node.nextSibling;
parentNode.insertBefore(node, insertBefore);
node = nextSibling;
}
};
}
Metamorph.prototype.html = function(html) {
this.checkRemoved();
if (html === undefined) { return this.innerHTML; }
htmlFunc.call(this, html);
this.innerHTML = html;
};
Metamorph.prototype.replaceWith = function(html) {
this.checkRemoved();
htmlFunc.call(this, html, true);
};
Metamorph.prototype.remove = removeFunc;
Metamorph.prototype.outerHTML = outerHTMLFunc;
Metamorph.prototype.appendTo = appendToFunc;
Metamorph.prototype.after = afterFunc;
Metamorph.prototype.prepend = prependFunc;
Metamorph.prototype.startTag = startTagFunc;
Metamorph.prototype.endTag = endTagFunc;
Metamorph.prototype.isRemoved = function() {
var before = document.getElementById(this.start);
var after = document.getElementById(this.end);
return !before || !after;
};
Metamorph.prototype.checkRemoved = function() {
if (this.isRemoved()) {
throw new Error("Cannot perform operations on a Metamorph that is not in the DOM.");
}
};
return Metamorph;
});
})();
(function() {
/**
@module ember
@submodule ember-handlebars-compiler
*/
// Eliminate dependency on any Ember to simplify precompilation workflow
var objectCreate = Object.create || function(parent) {
function F() {}
F.prototype = parent;
return new F();
};
var Handlebars = (Ember.imports && Ember.imports.Handlebars) || (this && this.Handlebars);
if (!Handlebars && typeof require === 'function') {
Handlebars = require('handlebars');
}
Ember.assert("Ember Handlebars requires Handlebars version 1.0 or 1.1. Include " +
"a SCRIPT tag in the HTML HEAD linking to the Handlebars file " +
"before you link to Ember.", Handlebars);
Ember.assert("Ember Handlebars requires Handlebars version 1.0 or 1.1, " +
"COMPILER_REVISION expected: 4, got: " + Handlebars.COMPILER_REVISION +
" - Please note: Builds of master may have other COMPILER_REVISION values.",
Handlebars.COMPILER_REVISION === 4);
/**
Prepares the Handlebars templating library for use inside Ember's view
system.
The `Ember.Handlebars` object is the standard Handlebars library, extended to
use Ember's `get()` method instead of direct property access, which allows
computed properties to be used inside templates.
To create an `Ember.Handlebars` template, call `Ember.Handlebars.compile()`.
This will return a function that can be used by `Ember.View` for rendering.
@class Handlebars
@namespace Ember
*/
Ember.Handlebars = objectCreate(Handlebars);
/**
Register a bound helper or custom view helper.
## Simple bound helper example
```javascript
Ember.Handlebars.helper('capitalize', function(value) {
return value.toUpperCase();
});
```
The above bound helper can be used inside of templates as follows:
```handlebars
{{capitalize name}}
```
In this case, when the `name` property of the template's context changes,
the rendered value of the helper will update to reflect this change.
For more examples of bound helpers, see documentation for
`Ember.Handlebars.registerBoundHelper`.
## Custom view helper example
Assuming a view subclass named `App.CalendarView` were defined, a helper
for rendering instances of this view could be registered as follows:
```javascript
Ember.Handlebars.helper('calendar', App.CalendarView):
```
The above bound helper can be used inside of templates as follows:
```handlebars
{{calendar}}
```
Which is functionally equivalent to:
```handlebars
{{view App.CalendarView}}
```
Options in the helper will be passed to the view in exactly the same
manner as with the `view` helper.
@method helper
@for Ember.Handlebars
@param {String} name
@param {Function|Ember.View} function or view class constructor
@param {String} dependentKeys*
*/
Ember.Handlebars.helper = function(name, value) {
Ember.assert("You tried to register a component named '" + name + "', but component names must include a '-'", !Ember.Component.detect(value) || name.match(/-/));
if (Ember.View.detect(value)) {
Ember.Handlebars.registerHelper(name, Ember.Handlebars.makeViewHelper(value));
} else {
Ember.Handlebars.registerBoundHelper.apply(null, arguments);
}
};
/**
Returns a helper function that renders the provided ViewClass.
Used internally by Ember.Handlebars.helper and other methods
involving helper/component registration.
@private
@method makeViewHelper
@for Ember.Handlebars
@param {Function} ViewClass view class constructor
*/
Ember.Handlebars.makeViewHelper = function(ViewClass) {
return function(options) {
Ember.assert("You can only pass attributes (such as name=value) not bare values to a helper for a View found in '" + ViewClass.toString() + "'", arguments.length < 2);
return Ember.Handlebars.helpers.view.call(this, ViewClass, options);
};
};
/**
@class helpers
@namespace Ember.Handlebars
*/
Ember.Handlebars.helpers = objectCreate(Handlebars.helpers);
/**
Override the the opcode compiler and JavaScript compiler for Handlebars.
@class Compiler
@namespace Ember.Handlebars
@private
@constructor
*/
Ember.Handlebars.Compiler = function() {};
// Handlebars.Compiler doesn't exist in runtime-only
if (Handlebars.Compiler) {
Ember.Handlebars.Compiler.prototype = objectCreate(Handlebars.Compiler.prototype);
}
Ember.Handlebars.Compiler.prototype.compiler = Ember.Handlebars.Compiler;
/**
@class JavaScriptCompiler
@namespace Ember.Handlebars
@private
@constructor
*/
Ember.Handlebars.JavaScriptCompiler = function() {};
// Handlebars.JavaScriptCompiler doesn't exist in runtime-only
if (Handlebars.JavaScriptCompiler) {
Ember.Handlebars.JavaScriptCompiler.prototype = objectCreate(Handlebars.JavaScriptCompiler.prototype);
Ember.Handlebars.JavaScriptCompiler.prototype.compiler = Ember.Handlebars.JavaScriptCompiler;
}
Ember.Handlebars.JavaScriptCompiler.prototype.namespace = "Ember.Handlebars";
Ember.Handlebars.JavaScriptCompiler.prototype.initializeBuffer = function() {
return "''";
};
/**
Override the default buffer for Ember Handlebars. By default, Handlebars
creates an empty String at the beginning of each invocation and appends to
it. Ember's Handlebars overrides this to append to a single shared buffer.
@private
@method appendToBuffer
@param string {String}
*/
Ember.Handlebars.JavaScriptCompiler.prototype.appendToBuffer = function(string) {
return "data.buffer.push("+string+");";
};
// Hacks ahead:
// Handlebars presently has a bug where the `blockHelperMissing` hook
// doesn't get passed the name of the missing helper name, but rather
// gets passed the value of that missing helper evaluated on the current
// context, which is most likely `undefined` and totally useless.
//
// So we alter the compiled template function to pass the name of the helper
// instead, as expected.
//
// This can go away once the following is closed:
// https://github.com/wycats/handlebars.js/issues/634
var DOT_LOOKUP_REGEX = /helpers\.(.*?)\)/,
BRACKET_STRING_LOOKUP_REGEX = /helpers\['(.*?)'/,
INVOCATION_SPLITTING_REGEX = /(.*blockHelperMissing\.call\(.*)(stack[0-9]+)(,.*)/;
Ember.Handlebars.JavaScriptCompiler.stringifyLastBlockHelperMissingInvocation = function(source) {
var helperInvocation = source[source.length - 1],
helperName = (DOT_LOOKUP_REGEX.exec(helperInvocation) || BRACKET_STRING_LOOKUP_REGEX.exec(helperInvocation))[1],
matches = INVOCATION_SPLITTING_REGEX.exec(helperInvocation);
source[source.length - 1] = matches[1] + "'" + helperName + "'" + matches[3];
};
var stringifyBlockHelperMissing = Ember.Handlebars.JavaScriptCompiler.stringifyLastBlockHelperMissingInvocation;
var originalBlockValue = Ember.Handlebars.JavaScriptCompiler.prototype.blockValue;
Ember.Handlebars.JavaScriptCompiler.prototype.blockValue = function() {
originalBlockValue.apply(this, arguments);
stringifyBlockHelperMissing(this.source);
};
var originalAmbiguousBlockValue = Ember.Handlebars.JavaScriptCompiler.prototype.ambiguousBlockValue;
Ember.Handlebars.JavaScriptCompiler.prototype.ambiguousBlockValue = function() {
originalAmbiguousBlockValue.apply(this, arguments);
stringifyBlockHelperMissing(this.source);
};
/**
Rewrite simple mustaches from `{{foo}}` to `{{bind "foo"}}`. This means that
all simple mustaches in Ember's Handlebars will also set up an observer to
keep the DOM up to date when the underlying property changes.
@private
@method mustache
@for Ember.Handlebars.Compiler
@param mustache
*/
Ember.Handlebars.Compiler.prototype.mustache = function(mustache) {
if (!(mustache.params.length || mustache.hash)) {
var id = new Handlebars.AST.IdNode([{ part: '_triageMustache' }]);
// Update the mustache node to include a hash value indicating whether the original node
// was escaped. This will allow us to properly escape values when the underlying value
// changes and we need to re-render the value.
if (!mustache.escaped) {
mustache.hash = mustache.hash || new Handlebars.AST.HashNode([]);
mustache.hash.pairs.push(["unescaped", new Handlebars.AST.StringNode("true")]);
}
mustache = new Handlebars.AST.MustacheNode([id].concat([mustache.id]), mustache.hash, !mustache.escaped);
}
return Handlebars.Compiler.prototype.mustache.call(this, mustache);
};
/**
Used for precompilation of Ember Handlebars templates. This will not be used
during normal app execution.
@method precompile
@for Ember.Handlebars
@static
@param {String} string The template to precompile
*/
Ember.Handlebars.precompile = function(string) {
var ast = Handlebars.parse(string);
var options = {
knownHelpers: {
action: true,
unbound: true,
'bind-attr': true,
template: true,
view: true,
_triageMustache: true
},
data: true,
stringParams: true
};
var environment = new Ember.Handlebars.Compiler().compile(ast, options);
return new Ember.Handlebars.JavaScriptCompiler().compile(environment, options, undefined, true);
};
// We don't support this for Handlebars runtime-only
if (Handlebars.compile) {
/**
The entry point for Ember Handlebars. This replaces the default
`Handlebars.compile` and turns on template-local data and String
parameters.
@method compile
@for Ember.Handlebars
@static
@param {String} string The template to compile
@return {Function}
*/
Ember.Handlebars.compile = function(string) {
var ast = Handlebars.parse(string);
var options = { data: true, stringParams: true };
var environment = new Ember.Handlebars.Compiler().compile(ast, options);
var templateSpec = new Ember.Handlebars.JavaScriptCompiler().compile(environment, options, undefined, true);
var template = Ember.Handlebars.template(templateSpec);
template.isMethod = false; //Make sure we don't wrap templates with ._super
return template;
};
}
})();
(function() {
var slice = Array.prototype.slice,
originalTemplate = Ember.Handlebars.template;
/**
If a path starts with a reserved keyword, returns the root
that should be used.
@private
@method normalizePath
@for Ember
@param root {Object}
@param path {String}
@param data {Hash}
*/
var normalizePath = Ember.Handlebars.normalizePath = function(root, path, data) {
var keywords = (data && data.keywords) || {},
keyword, isKeyword;
// Get the first segment of the path. For example, if the
// path is "foo.bar.baz", returns "foo".
keyword = path.split('.', 1)[0];
// Test to see if the first path is a keyword that has been
// passed along in the view's data hash. If so, we will treat
// that object as the new root.
if (keywords.hasOwnProperty(keyword)) {
// Look up the value in the template's data hash.
root = keywords[keyword];
isKeyword = true;
// Handle cases where the entire path is the reserved
// word. In that case, return the object itself.
if (path === keyword) {
path = '';
} else {
// Strip the keyword from the path and look up
// the remainder from the newly found root.
path = path.substr(keyword.length+1);
}
}
return { root: root, path: path, isKeyword: isKeyword };
};
/**
Lookup both on root and on window. If the path starts with
a keyword, the corresponding object will be looked up in the
template's data hash and used to resolve the path.
@method get
@for Ember.Handlebars
@param {Object} root The object to look up the property on
@param {String} path The path to be lookedup
@param {Object} options The template's option hash
*/
var handlebarsGet = Ember.Handlebars.get = function(root, path, options) {
var data = options && options.data,
normalizedPath = normalizePath(root, path, data),
value;
root = normalizedPath.root;
path = normalizedPath.path;
value = Ember.get(root, path);
if (value === undefined && root !== Ember.lookup && Ember.isGlobalPath(path)) {
value = Ember.get(Ember.lookup, path);
}
return value;
};
/**
This method uses `Ember.Handlebars.get` to lookup a value, then ensures
that the value is escaped properly.
If `unescaped` is a truthy value then the escaping will not be performed.
@method getEscaped
@for Ember.Handlebars
@param {Object} root The object to look up the property on
@param {String} path The path to be lookedup
@param {Object} options The template's option hash
*/
Ember.Handlebars.getEscaped = function(root, path, options) {
var result = handlebarsGet(root, path, options);
if (result === null || result === undefined) {
result = "";
} else if (!(result instanceof Handlebars.SafeString)) {
result = String(result);
}
if (!options.hash.unescaped){
result = Handlebars.Utils.escapeExpression(result);
}
return result;
};
Ember.Handlebars.resolveParams = function(context, params, options) {
var resolvedParams = [], types = options.types, param, type;
for (var i=0, l=params.length; i<l; i++) {
param = params[i];
type = types[i];
if (type === 'ID') {
resolvedParams.push(handlebarsGet(context, param, options));
} else {
resolvedParams.push(param);
}
}
return resolvedParams;
};
Ember.Handlebars.resolveHash = function(context, hash, options) {
var resolvedHash = {}, types = options.hashTypes, type;
for (var key in hash) {
if (!hash.hasOwnProperty(key)) { continue; }
type = types[key];
if (type === 'ID') {
resolvedHash[key] = handlebarsGet(context, hash[key], options);
} else {
resolvedHash[key] = hash[key];
}
}
return resolvedHash;
};
/**
Registers a helper in Handlebars that will be called if no property with the
given name can be found on the current context object, and no helper with
that name is registered.
This throws an exception with a more helpful error message so the user can
track down where the problem is happening.
@private
@method helperMissing
@for Ember.Handlebars.helpers
@param {String} path
@param {Hash} options
*/
Ember.Handlebars.registerHelper('helperMissing', function(path) {
var error, view = "";
var options = arguments[arguments.length - 1];
var helper = Ember.Handlebars.resolveHelper(options.data.view.container, path);
if (helper) {
return helper.apply(this, slice.call(arguments, 1));
}
error = "%@ Handlebars error: Could not find property '%@' on object %@.";
if (options.data) {
view = options.data.view;
}
throw new Ember.Error(Ember.String.fmt(error, [view, path, this]));
});
/**
Registers a helper in Handlebars that will be called if no property with the
given name can be found on the current context object, and no helper with
that name is registered.
This throws an exception with a more helpful error message so the user can
track down where the problem is happening.
@private
@method helperMissing
@for Ember.Handlebars.helpers
@param {String} path
@param {Hash} options
*/
Ember.Handlebars.registerHelper('blockHelperMissing', function(path) {
var options = arguments[arguments.length - 1];
Ember.assert("`blockHelperMissing` was invoked without a helper name, which " +
"is most likely due to a mismatch between the version of " +
"Ember.js you're running now and the one used to precompile your " +
"templates. Please make sure the version of " +
"`ember-handlebars-compiler` you're using is up to date.", path);
var helper = Ember.Handlebars.resolveHelper(options.data.view.container, path);
if (helper) {
return helper.apply(this, slice.call(arguments, 1));
} else {
return Handlebars.helpers.helperMissing.call(this, path);
}
return Handlebars.helpers.blockHelperMissing.apply(this, arguments);
});
/**
Register a bound handlebars helper. Bound helpers behave similarly to regular
handlebars helpers, with the added ability to re-render when the underlying data
changes.
## Simple example
```javascript
Ember.Handlebars.registerBoundHelper('capitalize', function(value) {
return value.toUpperCase();
});
```
The above bound helper can be used inside of templates as follows:
```handlebars
{{capitalize name}}
```
In this case, when the `name` property of the template's context changes,
the rendered value of the helper will update to reflect this change.
## Example with options
Like normal handlebars helpers, bound helpers have access to the options
passed into the helper call.
```javascript
Ember.Handlebars.registerBoundHelper('repeat', function(value, options) {
var count = options.hash.count;
var a = [];
while(a.length < count) {
a.push(value);
}
return a.join('');
});
```
This helper could be used in a template as follows:
```handlebars
{{repeat text count=3}}
```
## Example with bound options
Bound hash options are also supported. Example:
```handlebars
{{repeat text countBinding="numRepeats"}}
```
In this example, count will be bound to the value of
the `numRepeats` property on the context. If that property
changes, the helper will be re-rendered.
## Example with extra dependencies
The `Ember.Handlebars.registerBoundHelper` method takes a variable length
third parameter which indicates extra dependencies on the passed in value.
This allows the handlebars helper to update when these dependencies change.
```javascript
Ember.Handlebars.registerBoundHelper('capitalizeName', function(value) {
return value.get('name').toUpperCase();
}, 'name');
```
## Example with multiple bound properties
`Ember.Handlebars.registerBoundHelper` supports binding to
multiple properties, e.g.:
```javascript
Ember.Handlebars.registerBoundHelper('concatenate', function() {
var values = Array.prototype.slice.call(arguments, 0, -1);
return values.join('||');
});
```
Which allows for template syntax such as `{{concatenate prop1 prop2}}` or
`{{concatenate prop1 prop2 prop3}}`. If any of the properties change,
the helpr will re-render. Note that dependency keys cannot be
using in conjunction with multi-property helpers, since it is ambiguous
which property the dependent keys would belong to.
## Use with unbound helper
The `{{unbound}}` helper can be used with bound helper invocations
to render them in their unbound form, e.g.
```handlebars
{{unbound capitalize name}}
```
In this example, if the name property changes, the helper
will not re-render.
## Use with blocks not supported
Bound helpers do not support use with Handlebars blocks or
the addition of child views of any kind.
@method registerBoundHelper
@for Ember.Handlebars
@param {String} name
@param {Function} function
@param {String} dependentKeys*
*/
Ember.Handlebars.registerBoundHelper = function(name, fn) {
var boundHelperArgs = slice.call(arguments, 1),
boundFn = Ember.Handlebars.makeBoundHelper.apply(this, boundHelperArgs);
Ember.Handlebars.registerHelper(name, boundFn);
};
/**
A (mostly) private helper function to `registerBoundHelper`. Takes the
provided Handlebars helper function fn and returns it in wrapped
bound helper form.
The main use case for using this outside of `registerBoundHelper`
is for registering helpers on the container:
```js
var boundHelperFn = Ember.Handlebars.makeBoundHelper(function(word) {
return word.toUpperCase();
});
container.register('helper:my-bound-helper', boundHelperFn);
```
In the above example, if the helper function hadn't been wrapped in
`makeBoundHelper`, the registered helper would be unbound.
@private
@method makeBoundHelper
@for Ember.Handlebars
@param {Function} function
@param {String} dependentKeys*
*/
Ember.Handlebars.makeBoundHelper = function(fn) {
var dependentKeys = slice.call(arguments, 1);
function helper() {
var properties = slice.call(arguments, 0, -1),
numProperties = properties.length,
options = arguments[arguments.length - 1],
normalizedProperties = [],
data = options.data,
types = data.isUnbound ? slice.call(options.types, 1) : options.types,
hash = options.hash,
view = data.view,
contexts = options.contexts,
currentContext = (contexts && contexts.length) ? contexts[0] : this,
prefixPathForDependentKeys = '',
loc, len, hashOption,
boundOption, property,
normalizedValue = Ember._SimpleHandlebarsView.prototype.normalizedValue;
Ember.assert("registerBoundHelper-generated helpers do not support use with Handlebars blocks.", !options.fn);
// Detect bound options (e.g. countBinding="otherCount")
var boundOptions = hash.boundOptions = {};
for (hashOption in hash) {
if (Ember.IS_BINDING.test(hashOption)) {
// Lop off 'Binding' suffix.
boundOptions[hashOption.slice(0, -7)] = hash[hashOption];
}
}
// Expose property names on data.properties object.
var watchedProperties = [];
data.properties = [];
for (loc = 0; loc < numProperties; ++loc) {
data.properties.push(properties[loc]);
if (types[loc] === 'ID') {
var normalizedProp = normalizePath(currentContext, properties[loc], data);
normalizedProperties.push(normalizedProp);
watchedProperties.push(normalizedProp);
} else {
if(data.isUnbound) {
normalizedProperties.push({path: properties[loc]});
}else {
normalizedProperties.push(null);
}
}
}
// Handle case when helper invocation is preceded by `unbound`, e.g.
// {{unbound myHelper foo}}
if (data.isUnbound) {
return evaluateUnboundHelper(this, fn, normalizedProperties, options);
}
var bindView = new Ember._SimpleHandlebarsView(null, null, !options.hash.unescaped, options.data);
// Override SimpleHandlebarsView's method for generating the view's content.
bindView.normalizedValue = function() {
var args = [], boundOption;
// Copy over bound hash options.
for (boundOption in boundOptions) {
if (!boundOptions.hasOwnProperty(boundOption)) { continue; }
property = normalizePath(currentContext, boundOptions[boundOption], data);
bindView.path = property.path;
bindView.pathRoot = property.root;
hash[boundOption] = normalizedValue.call(bindView);
}
for (loc = 0; loc < numProperties; ++loc) {
property = normalizedProperties[loc];
if (property) {
bindView.path = property.path;
bindView.pathRoot = property.root;
args.push(normalizedValue.call(bindView));
} else {
args.push(properties[loc]);
}
}
args.push(options);
// Run the supplied helper function.
return fn.apply(currentContext, args);
};
view.appendChild(bindView);
// Assemble list of watched properties that'll re-render this helper.
for (boundOption in boundOptions) {
if (boundOptions.hasOwnProperty(boundOption)) {
watchedProperties.push(normalizePath(currentContext, boundOptions[boundOption], data));
}
}
// Observe each property.
for (loc = 0, len = watchedProperties.length; loc < len; ++loc) {
property = watchedProperties[loc];
view.registerObserver(property.root, property.path, bindView, bindView.rerender);
}
if (types[0] !== 'ID' || normalizedProperties.length === 0) {
return;
}
// Add dependent key observers to the first param
var normalized = normalizedProperties[0],
pathRoot = normalized.root,
path = normalized.path;
if(!Ember.isEmpty(path)) {
prefixPathForDependentKeys = path + '.';
}
for (var i=0, l=dependentKeys.length; i<l; i++) {
view.registerObserver(pathRoot, prefixPathForDependentKeys + dependentKeys[i], bindView, bindView.rerender);
}
}
helper._rawFunction = fn;
return helper;
};
/**
Renders the unbound form of an otherwise bound helper function.
@private
@method evaluateUnboundHelper
@param {Function} fn
@param {Object} context
@param {Array} normalizedProperties
@param {String} options
*/
function evaluateUnboundHelper(context, fn, normalizedProperties, options) {
var args = [],
hash = options.hash,
boundOptions = hash.boundOptions,
types = slice.call(options.types, 1),
loc,
len,
property,
propertyType,
boundOption;
for (boundOption in boundOptions) {
if (!boundOptions.hasOwnProperty(boundOption)) { continue; }
hash[boundOption] = Ember.Handlebars.get(context, boundOptions[boundOption], options);
}
for(loc = 0, len = normalizedProperties.length; loc < len; ++loc) {
property = normalizedProperties[loc];
propertyType = types[loc];
if(propertyType === "ID") {
args.push(Ember.Handlebars.get(property.root, property.path, options));
} else {
args.push(property.path);
}
}
args.push(options);
return fn.apply(context, args);
}
/**
Overrides Handlebars.template so that we can distinguish
user-created, top-level templates from inner contexts.
@private
@method template
@for Ember.Handlebars
@param {String} spec
*/
Ember.Handlebars.template = function(spec) {
var t = originalTemplate(spec);
t.isTop = true;
return t;
};
})();
(function() {
/**
Mark a string as safe for unescaped output with Handlebars. If you
return HTML from a Handlebars helper, use this function to
ensure Handlebars does not escape the HTML.
```javascript
Ember.String.htmlSafe('<div>someString</div>')
```
@method htmlSafe
@for Ember.String
@static
@return {Handlebars.SafeString} a string that will not be html escaped by Handlebars
*/
Ember.String.htmlSafe = function(str) {
return new Handlebars.SafeString(str);
};
var htmlSafe = Ember.String.htmlSafe;
if (Ember.EXTEND_PROTOTYPES === true || Ember.EXTEND_PROTOTYPES.String) {
/**
Mark a string as being safe for unescaped output with Handlebars.
```javascript
'<div>someString</div>'.htmlSafe()
```
See [Ember.String.htmlSafe](/api/classes/Ember.String.html#method_htmlSafe).
@method htmlSafe
@for String
@return {Handlebars.SafeString} a string that will not be html escaped by Handlebars
*/
String.prototype.htmlSafe = function() {
return htmlSafe(this);
};
}
})();
(function() {
Ember.Handlebars.resolvePaths = function(options) {
var ret = [],
contexts = options.contexts,
roots = options.roots,
data = options.data;
for (var i=0, l=contexts.length; i<l; i++) {
ret.push( Ember.Handlebars.get(roots[i], contexts[i], { data: data }) );
}
return ret;
};
})();
(function() {
/*jshint newcap:false*/
/**
@module ember
@submodule ember-handlebars
*/
var set = Ember.set, get = Ember.get;
var Metamorph = requireModule('metamorph');
function notifyMutationListeners() {
Ember.run.once(Ember.View, 'notifyMutationListeners');
}
// DOMManager should just abstract dom manipulation between jquery and metamorph
var DOMManager = {
remove: function(view) {
view.morph.remove();
notifyMutationListeners();
},
prepend: function(view, html) {
view.morph.prepend(html);
notifyMutationListeners();
},
after: function(view, html) {
view.morph.after(html);
notifyMutationListeners();
},
html: function(view, html) {
view.morph.html(html);
notifyMutationListeners();
},
// This is messed up.
replace: function(view) {
var morph = view.morph;
view.transitionTo('preRender');
Ember.run.schedule('render', this, function renderMetamorphView() {
if (view.isDestroying) { return; }
view.clearRenderedChildren();
var buffer = view.renderToBuffer();
view.invokeRecursively(function(view) {
view.propertyWillChange('element');
});
view.triggerRecursively('willInsertElement');
morph.replaceWith(buffer.string());
view.transitionTo('inDOM');
view.invokeRecursively(function(view) {
view.propertyDidChange('element');
});
view.triggerRecursively('didInsertElement');
notifyMutationListeners();
});
},
empty: function(view) {
view.morph.html("");
notifyMutationListeners();
}
};
// The `morph` and `outerHTML` properties are internal only
// and not observable.
/**
@class _Metamorph
@namespace Ember
@private
*/
Ember._Metamorph = Ember.Mixin.create({
isVirtual: true,
tagName: '',
instrumentName: 'metamorph',
init: function() {
this._super();
this.morph = Metamorph();
Ember.deprecate('Supplying a tagName to Metamorph views is unreliable and is deprecated. You may be setting the tagName on a Handlebars helper that creates a Metamorph.', !this.tagName);
},
beforeRender: function(buffer) {
buffer.push(this.morph.startTag());
buffer.pushOpeningTag();
},
afterRender: function(buffer) {
buffer.pushClosingTag();
buffer.push(this.morph.endTag());
},
createElement: function() {
var buffer = this.renderToBuffer();
this.outerHTML = buffer.string();
this.clearBuffer();
},
domManager: DOMManager
});
/**
@class _MetamorphView
@namespace Ember
@extends Ember.View
@uses Ember._Metamorph
@private
*/
Ember._MetamorphView = Ember.View.extend(Ember._Metamorph);
/**
@class _SimpleMetamorphView
@namespace Ember
@extends Ember.CoreView
@uses Ember._Metamorph
@private
*/
Ember._SimpleMetamorphView = Ember.CoreView.extend(Ember._Metamorph);
})();
(function() {
/*globals Handlebars */
/*jshint newcap:false*/
/**
@module ember
@submodule ember-handlebars
*/
var get = Ember.get, set = Ember.set, handlebarsGet = Ember.Handlebars.get;
var Metamorph = requireModule('metamorph');
function SimpleHandlebarsView(path, pathRoot, isEscaped, templateData) {
this.path = path;
this.pathRoot = pathRoot;
this.isEscaped = isEscaped;
this.templateData = templateData;
this.morph = Metamorph();
this.state = 'preRender';
this.updateId = null;
this._parentView = null;
this.buffer = null;
}
Ember._SimpleHandlebarsView = SimpleHandlebarsView;
SimpleHandlebarsView.prototype = {
isVirtual: true,
isView: true,
destroy: function () {
if (this.updateId) {
Ember.run.cancel(this.updateId);
this.updateId = null;
}
if (this._parentView) {
this._parentView.removeChild(this);
}
this.morph = null;
this.state = 'destroyed';
},
propertyWillChange: Ember.K,
propertyDidChange: Ember.K,
normalizedValue: function() {
var path = this.path,
pathRoot = this.pathRoot,
result, templateData;
// Use the pathRoot as the result if no path is provided. This
// happens if the path is `this`, which gets normalized into
// a `pathRoot` of the current Handlebars context and a path
// of `''`.
if (path === '') {
result = pathRoot;
} else {
templateData = this.templateData;
result = handlebarsGet(pathRoot, path, { data: templateData });
}
return result;
},
renderToBuffer: function(buffer) {
var string = '';
string += this.morph.startTag();
string += this.render();
string += this.morph.endTag();
buffer.push(string);
},
render: function() {
// If not invoked via a triple-mustache ({{{foo}}}), escape
// the content of the template.
var escape = this.isEscaped;
var result = this.normalizedValue();
if (result === null || result === undefined) {
result = "";
} else if (!(result instanceof Handlebars.SafeString)) {
result = String(result);
}
if (escape) { result = Handlebars.Utils.escapeExpression(result); }
return result;
},
rerender: function() {
switch(this.state) {
case 'preRender':
case 'destroyed':
break;
case 'inBuffer':
throw new Ember.Error("Something you did tried to replace an {{expression}} before it was inserted into the DOM.");
case 'hasElement':
case 'inDOM':
this.updateId = Ember.run.scheduleOnce('render', this, 'update');
break;
}
return this;
},
update: function () {
this.updateId = null;
this.morph.html(this.render());
},
transitionTo: function(state) {
this.state = state;
}
};
var states = Ember.View.cloneStates(Ember.View.states), merge = Ember.merge;
merge(states._default, {
rerenderIfNeeded: Ember.K
});
merge(states.inDOM, {
rerenderIfNeeded: function(view) {
if (view.normalizedValue() !== view._lastNormalizedValue) {
view.rerender();
}
}
});
/**
`Ember._HandlebarsBoundView` is a private view created by the Handlebars
`{{bind}}` helpers that is used to keep track of bound properties.
Every time a property is bound using a `{{mustache}}`, an anonymous subclass
of `Ember._HandlebarsBoundView` is created with the appropriate sub-template
and context set up. When the associated property changes, just the template
for this view will re-render.
@class _HandlebarsBoundView
@namespace Ember
@extends Ember._MetamorphView
@private
*/
Ember._HandlebarsBoundView = Ember._MetamorphView.extend({
instrumentName: 'boundHandlebars',
states: states,
/**
The function used to determine if the `displayTemplate` or
`inverseTemplate` should be rendered. This should be a function that takes
a value and returns a Boolean.
@property shouldDisplayFunc
@type Function
@default null
*/
shouldDisplayFunc: null,
/**
Whether the template rendered by this view gets passed the context object
of its parent template, or gets passed the value of retrieving `path`
from the `pathRoot`.
For example, this is true when using the `{{#if}}` helper, because the
template inside the helper should look up properties relative to the same
object as outside the block. This would be `false` when used with `{{#with
foo}}` because the template should receive the object found by evaluating
`foo`.
@property preserveContext
@type Boolean
@default false
*/
preserveContext: false,
/**
If `preserveContext` is true, this is the object that will be used
to render the template.
@property previousContext
@type Object
*/
previousContext: null,
/**
The template to render when `shouldDisplayFunc` evaluates to `true`.
@property displayTemplate
@type Function
@default null
*/
displayTemplate: null,
/**
The template to render when `shouldDisplayFunc` evaluates to `false`.
@property inverseTemplate
@type Function
@default null
*/
inverseTemplate: null,
/**
The path to look up on `pathRoot` that is passed to
`shouldDisplayFunc` to determine which template to render.
In addition, if `preserveContext` is `false,` the object at this path will
be passed to the template when rendering.
@property path
@type String
@default null
*/
path: null,
/**
The object from which the `path` will be looked up. Sometimes this is the
same as the `previousContext`, but in cases where this view has been
generated for paths that start with a keyword such as `view` or
`controller`, the path root will be that resolved object.
@property pathRoot
@type Object
*/
pathRoot: null,
normalizedValue: function() {
var path = get(this, 'path'),
pathRoot = get(this, 'pathRoot'),
valueNormalizer = get(this, 'valueNormalizerFunc'),
result, templateData;
// Use the pathRoot as the result if no path is provided. This
// happens if the path is `this`, which gets normalized into
// a `pathRoot` of the current Handlebars context and a path
// of `''`.
if (path === '') {
result = pathRoot;
} else {
templateData = get(this, 'templateData');
result = handlebarsGet(pathRoot, path, { data: templateData });
}
return valueNormalizer ? valueNormalizer(result) : result;
},
rerenderIfNeeded: function() {
this.currentState.rerenderIfNeeded(this);
},
/**
Determines which template to invoke, sets up the correct state based on
that logic, then invokes the default `Ember.View` `render` implementation.
This method will first look up the `path` key on `pathRoot`,
then pass that value to the `shouldDisplayFunc` function. If that returns
`true,` the `displayTemplate` function will be rendered to DOM. Otherwise,
`inverseTemplate`, if specified, will be rendered.
For example, if this `Ember._HandlebarsBoundView` represented the `{{#with
foo}}` helper, it would look up the `foo` property of its context, and
`shouldDisplayFunc` would always return true. The object found by looking
up `foo` would be passed to `displayTemplate`.
@method render
@param {Ember.RenderBuffer} buffer
*/
render: function(buffer) {
// If not invoked via a triple-mustache ({{{foo}}}), escape
// the content of the template.
var escape = get(this, 'isEscaped');
var shouldDisplay = get(this, 'shouldDisplayFunc'),
preserveContext = get(this, 'preserveContext'),
context = get(this, 'previousContext');
var _contextController = get(this, '_contextController');
var inverseTemplate = get(this, 'inverseTemplate'),
displayTemplate = get(this, 'displayTemplate');
var result = this.normalizedValue();
this._lastNormalizedValue = result;
// First, test the conditional to see if we should
// render the template or not.
if (shouldDisplay(result)) {
set(this, 'template', displayTemplate);
// If we are preserving the context (for example, if this
// is an #if block, call the template with the same object.
if (preserveContext) {
set(this, '_context', context);
} else {
// Otherwise, determine if this is a block bind or not.
// If so, pass the specified object to the template
if (displayTemplate) {
if (_contextController) {
set(_contextController, 'content', result);
result = _contextController;
}
set(this, '_context', result);
} else {
// This is not a bind block, just push the result of the
// expression to the render context and return.
if (result === null || result === undefined) {
result = "";
} else if (!(result instanceof Handlebars.SafeString)) {
result = String(result);
}
if (escape) { result = Handlebars.Utils.escapeExpression(result); }
buffer.push(result);
return;
}
}
} else if (inverseTemplate) {
set(this, 'template', inverseTemplate);
if (preserveContext) {
set(this, '_context', context);
} else {
set(this, '_context', result);
}
} else {
set(this, 'template', function() { return ''; });
}
return this._super(buffer);
}
});
})();
(function() {
/**
@module ember
@submodule ember-handlebars
*/
var get = Ember.get, set = Ember.set, fmt = Ember.String.fmt;
var handlebarsGet = Ember.Handlebars.get, normalizePath = Ember.Handlebars.normalizePath;
var handlebarsGetEscaped = Ember.Handlebars.getEscaped;
var forEach = Ember.ArrayPolyfills.forEach;
var o_create = Ember.create;
var EmberHandlebars = Ember.Handlebars, helpers = EmberHandlebars.helpers;
function exists(value) {
return !Ember.isNone(value);
}
// Binds a property into the DOM. This will create a hook in DOM that the
// KVO system will look for and update if the property changes.
function bind(property, options, preserveContext, shouldDisplay, valueNormalizer, childProperties) {
var data = options.data,
fn = options.fn,
inverse = options.inverse,
view = data.view,
currentContext = this,
normalized, observer, i;
normalized = normalizePath(currentContext, property, data);
// Set up observers for observable objects
if ('object' === typeof this) {
if (data.insideGroup) {
observer = function() {
Ember.run.once(view, 'rerender');
};
var template, context, result = handlebarsGet(currentContext, property, options);
result = valueNormalizer ? valueNormalizer(result) : result;
context = preserveContext ? currentContext : result;
if (shouldDisplay(result)) {
template = fn;
} else if (inverse) {
template = inverse;
}
template(context, { data: options.data });
} else {
// Create the view that will wrap the output of this template/property
// and add it to the nearest view's childViews array.
// See the documentation of Ember._HandlebarsBoundView for more.
var bindView = view.createChildView(Ember._HandlebarsBoundView, {
preserveContext: preserveContext,
shouldDisplayFunc: shouldDisplay,
valueNormalizerFunc: valueNormalizer,
displayTemplate: fn,
inverseTemplate: inverse,
path: property,
pathRoot: currentContext,
previousContext: currentContext,
isEscaped: !options.hash.unescaped,
templateData: options.data
});
if (options.hash.controller) {
bindView.set('_contextController', this.container.lookupFactory('controller:'+options.hash.controller).create({
container: currentContext.container,
parentController: currentContext,
target: currentContext
}));
}
view.appendChild(bindView);
observer = function() {
Ember.run.scheduleOnce('render', bindView, 'rerenderIfNeeded');
};
}
// Observes the given property on the context and
// tells the Ember._HandlebarsBoundView to re-render. If property
// is an empty string, we are printing the current context
// object ({{this}}) so updating it is not our responsibility.
if (normalized.path !== '') {
view.registerObserver(normalized.root, normalized.path, observer);
if (childProperties) {
for (i=0; i<childProperties.length; i++) {
view.registerObserver(normalized.root, normalized.path+'.'+childProperties[i], observer);
}
}
}
} else {
// The object is not observable, so just render it out and
// be done with it.
data.buffer.push(handlebarsGetEscaped(currentContext, property, options));
}
}
EmberHandlebars.bind = bind;
function simpleBind(currentContext, property, options) {
var data = options.data,
view = data.view,
normalized, observer, pathRoot, output;
normalized = normalizePath(currentContext, property, data);
pathRoot = normalized.root;
// Set up observers for observable objects
if (pathRoot && ('object' === typeof pathRoot)) {
if (data.insideGroup) {
observer = function() {
Ember.run.once(view, 'rerender');
};
output = handlebarsGetEscaped(currentContext, property, options);
data.buffer.push(output);
} else {
var bindView = new Ember._SimpleHandlebarsView(
property, currentContext, !options.hash.unescaped, options.data
);
bindView._parentView = view;
view.appendChild(bindView);
observer = function() {
Ember.run.scheduleOnce('render', bindView, 'rerender');
};
}
// Observes the given property on the context and
// tells the Ember._HandlebarsBoundView to re-render. If property
// is an empty string, we are printing the current context
// object ({{this}}) so updating it is not our responsibility.
if (normalized.path !== '') {
view.registerObserver(normalized.root, normalized.path, observer);
}
} else {
// The object is not observable, so just render it out and
// be done with it.
output = handlebarsGetEscaped(currentContext, property, options);
data.buffer.push(output);
}
}
function shouldDisplayIfHelperContent(result) {
var truthy = result && get(result, 'isTruthy');
if (typeof truthy === 'boolean') { return truthy; }
if (Ember.isArray(result)) {
return get(result, 'length') !== 0;
} else {
return !!result;
}
}
/**
'_triageMustache' is used internally select between a binding, helper, or component for
the given context. Until this point, it would be hard to determine if the
mustache is a property reference or a regular helper reference. This triage
helper resolves that.
This would not be typically invoked by directly.
@private
@method _triageMustache
@for Ember.Handlebars.helpers
@param {String} property Property/helperID to triage
@param {Object} options hash of template/rendering options
@return {String} HTML string
*/
EmberHandlebars.registerHelper('_triageMustache', function(property, options) {
Ember.assert("You cannot pass more than one argument to the _triageMustache helper", arguments.length <= 2);
if (helpers[property]) {
return helpers[property].call(this, options);
}
var helper = Ember.Handlebars.resolveHelper(options.data.view.container, property);
if (helper) {
return helper.call(this, options);
}
return helpers.bind.call(this, property, options);
});
Ember.Handlebars.resolveHelper = function(container, name) {
if (!container || name.indexOf('-') === -1) {
return;
}
var helper = container.lookup('helper:' + name);
if (!helper) {
var componentLookup = container.lookup('component-lookup:main');
Ember.assert("Could not find 'component-lookup:main' on the provided container, which is necessary for performing component lookups", componentLookup);
var Component = componentLookup.lookupFactory(name, container);
if (Component) {
helper = EmberHandlebars.makeViewHelper(Component);
container.register('helper:' + name, helper);
}
}
return helper;
};
/**
`bind` can be used to display a value, then update that value if it
changes. For example, if you wanted to print the `title` property of
`content`:
```handlebars
{{bind "content.title"}}
```
This will return the `title` property as a string, then create a new observer
at the specified path. If it changes, it will update the value in DOM. Note
that if you need to support IE7 and IE8 you must modify the model objects
properties using `Ember.get()` and `Ember.set()` for this to work as it
relies on Ember's KVO system. For all other browsers this will be handled for
you automatically.
@private
@method bind
@for Ember.Handlebars.helpers
@param {String} property Property to bind
@param {Function} fn Context to provide for rendering
@return {String} HTML string
*/
EmberHandlebars.registerHelper('bind', function bindHelper(property, options) {
Ember.assert("You cannot pass more than one argument to the bind helper", arguments.length <= 2);
var context = (options.contexts && options.contexts.length) ? options.contexts[0] : this;
if (!options.fn) {
return simpleBind(context, property, options);
}
return bind.call(context, property, options, false, exists);
});
/**
Use the `boundIf` helper to create a conditional that re-evaluates
whenever the truthiness of the bound value changes.
```handlebars
{{#boundIf "content.shouldDisplayTitle"}}
{{content.title}}
{{/boundIf}}
```
@private
@method boundIf
@for Ember.Handlebars.helpers
@param {String} property Property to bind
@param {Function} fn Context to provide for rendering
@return {String} HTML string
*/
EmberHandlebars.registerHelper('boundIf', function boundIfHelper(property, fn) {
var context = (fn.contexts && fn.contexts.length) ? fn.contexts[0] : this;
return bind.call(context, property, fn, true, shouldDisplayIfHelperContent, shouldDisplayIfHelperContent, ['isTruthy', 'length']);
});
/**
@private
Use the `unboundIf` helper to create a conditional that evaluates once.
```handlebars
{{#unboundIf "content.shouldDisplayTitle"}}
{{content.title}}
{{/unboundIf}}
```
@method unboundIf
@for Ember.Handlebars.helpers
@param {String} property Property to bind
@param {Function} fn Context to provide for rendering
@return {String} HTML string
*/
EmberHandlebars.registerHelper('unboundIf', function unboundIfHelper(property, fn) {
var context = (fn.contexts && fn.contexts.length) ? fn.contexts[0] : this,
data = fn.data,
template = fn.fn,
inverse = fn.inverse,
normalized, propertyValue, result;
normalized = normalizePath(context, property, data);
propertyValue = handlebarsGet(context, property, fn);
if (!shouldDisplayIfHelperContent(propertyValue)) {
template = inverse;
}
template(context, { data: data });
});
/**
Use the `{{with}}` helper when you want to scope context. Take the following code as an example:
```handlebars
<h5>{{user.name}}</h5>
<div class="role">
<h6>{{user.role.label}}</h6>
<span class="role-id">{{user.role.id}}</span>
<p class="role-desc">{{user.role.description}}</p>
</div>
```
`{{with}}` can be our best friend in these cases,
instead of writing `user.role.*` over and over, we use `{{#with user.role}}`.
Now the context within the `{{#with}} .. {{/with}}` block is `user.role` so you can do the following:
```handlebars
<h5>{{user.name}}</h5>
<div class="role">
{{#with user.role}}
<h6>{{label}}</h6>
<span class="role-id">{{id}}</span>
<p class="role-desc">{{description}}</p>
{{/with}}
</div>
```
### `as` operator
This operator aliases the scope to a new name. It's helpful for semantic clarity and to retain
default scope or to reference from another `{{with}}` block.
```handlebars
// posts might not be
{{#with user.posts as blogPosts}}
<div class="notice">
There are {{blogPosts.length}} blog posts written by {{user.name}}.
</div>
{{#each post in blogPosts}}
<li>{{post.title}}</li>
{{/each}}
{{/with}}
```
Without the `as` operator, it would be impossible to reference `user.name` in the example above.
NOTE: The alias should not reuse a name from the bound property path.
For example: `{{#with foo.bar as foo}}` is not supported because it attempts to alias using
the first part of the property path, `foo`. Instead, use `{{#with foo.bar as baz}}`.
### `controller` option
Adding `controller='something'` instructs the `{{with}}` helper to create and use an instance of
the specified controller with the new context as its content.
This is very similar to using an `itemController` option with the `{{each}}` helper.
```handlebars
{{#with users.posts controller='userBlogPosts'}}
{{!- The current context is wrapped in our controller instance }}
{{/with}}
```
In the above example, the template provided to the `{{with}}` block is now wrapped in the
`userBlogPost` controller, which provides a very elegant way to decorate the context with custom
functions/properties.
@method with
@for Ember.Handlebars.helpers
@param {Function} context
@param {Hash} options
@return {String} HTML string
*/
EmberHandlebars.registerHelper('with', function withHelper(context, options) {
if (arguments.length === 4) {
var keywordName, path, rootPath, normalized, contextPath;
Ember.assert("If you pass more than one argument to the with helper, it must be in the form #with foo as bar", arguments[1] === "as");
options = arguments[3];
keywordName = arguments[2];
path = arguments[0];
Ember.assert("You must pass a block to the with helper", options.fn && options.fn !== Handlebars.VM.noop);
var localizedOptions = o_create(options);
localizedOptions.data = o_create(options.data);
localizedOptions.data.keywords = o_create(options.data.keywords || {});
if (Ember.isGlobalPath(path)) {
contextPath = path;
} else {
normalized = normalizePath(this, path, options.data);
path = normalized.path;
rootPath = normalized.root;
// This is a workaround for the fact that you cannot bind separate objects
// together. When we implement that functionality, we should use it here.
var contextKey = Ember.$.expando + Ember.guidFor(rootPath);
localizedOptions.data.keywords[contextKey] = rootPath;
// if the path is '' ("this"), just bind directly to the current context
contextPath = path ? contextKey + '.' + path : contextKey;
}
Ember.bind(localizedOptions.data.keywords, keywordName, contextPath);
return bind.call(this, path, localizedOptions, true, exists);
} else {
Ember.assert("You must pass exactly one argument to the with helper", arguments.length === 2);
Ember.assert("You must pass a block to the with helper", options.fn && options.fn !== Handlebars.VM.noop);
return helpers.bind.call(options.contexts[0], context, options);
}
});
/**
See [boundIf](/api/classes/Ember.Handlebars.helpers.html#method_boundIf)
and [unboundIf](/api/classes/Ember.Handlebars.helpers.html#method_unboundIf)
@method if
@for Ember.Handlebars.helpers
@param {Function} context
@param {Hash} options
@return {String} HTML string
*/
EmberHandlebars.registerHelper('if', function ifHelper(context, options) {
Ember.assert("You must pass exactly one argument to the if helper", arguments.length === 2);
Ember.assert("You must pass a block to the if helper", options.fn && options.fn !== Handlebars.VM.noop);
if (options.data.isUnbound) {
return helpers.unboundIf.call(options.contexts[0], context, options);
} else {
return helpers.boundIf.call(options.contexts[0], context, options);
}
});
/**
@method unless
@for Ember.Handlebars.helpers
@param {Function} context
@param {Hash} options
@return {String} HTML string
*/
EmberHandlebars.registerHelper('unless', function unlessHelper(context, options) {
Ember.assert("You must pass exactly one argument to the unless helper", arguments.length === 2);
Ember.assert("You must pass a block to the unless helper", options.fn && options.fn !== Handlebars.VM.noop);
var fn = options.fn, inverse = options.inverse;
options.fn = inverse;
options.inverse = fn;
if (options.data.isUnbound) {
return helpers.unboundIf.call(options.contexts[0], context, options);
} else {
return helpers.boundIf.call(options.contexts[0], context, options);
}
});
/**
`bind-attr` allows you to create a binding between DOM element attributes and
Ember objects. For example:
```handlebars
<img {{bind-attr src="imageUrl" alt="imageTitle"}}>
```
The above handlebars template will fill the `<img>`'s `src` attribute will
the value of the property referenced with `"imageUrl"` and its `alt`
attribute with the value of the property referenced with `"imageTitle"`.
If the rendering context of this template is the following object:
```javascript
{
imageUrl: 'http://lolcats.info/haz-a-funny',
imageTitle: 'A humorous image of a cat'
}
```
The resulting HTML output will be:
```html
<img src="http://lolcats.info/haz-a-funny" alt="A humorous image of a cat">
```
`bind-attr` cannot redeclare existing DOM element attributes. The use of `src`
in the following `bind-attr` example will be ignored and the hard coded value
of `src="/failwhale.gif"` will take precedence:
```handlebars
<img src="/failwhale.gif" {{bind-attr src="imageUrl" alt="imageTitle"}}>
```
### `bind-attr` and the `class` attribute
`bind-attr` supports a special syntax for handling a number of cases unique
to the `class` DOM element attribute. The `class` attribute combines
multiple discrete values into a single attribute as a space-delimited
list of strings. Each string can be:
* a string return value of an object's property.
* a boolean return value of an object's property
* a hard-coded value
A string return value works identically to other uses of `bind-attr`. The
return value of the property will become the value of the attribute. For
example, the following view and template:
```javascript
AView = Ember.View.extend({
someProperty: function() {
return "aValue";
}.property()
})
```
```handlebars
<img {{bind-attr class="view.someProperty}}>
```
Result in the following rendered output:
```html
<img class="aValue">
```
A boolean return value will insert a specified class name if the property
returns `true` and remove the class name if the property returns `false`.
A class name is provided via the syntax
`somePropertyName:class-name-if-true`.
```javascript
AView = Ember.View.extend({
someBool: true
})
```
```handlebars
<img {{bind-attr class="view.someBool:class-name-if-true"}}>
```
Result in the following rendered output:
```html
<img class="class-name-if-true">
```
An additional section of the binding can be provided if you want to
replace the existing class instead of removing it when the boolean
value changes:
```handlebars
<img {{bind-attr class="view.someBool:class-name-if-true:class-name-if-false"}}>
```
A hard-coded value can be used by prepending `:` to the desired
class name: `:class-name-to-always-apply`.
```handlebars
<img {{bind-attr class=":class-name-to-always-apply"}}>
```
Results in the following rendered output:
```html
<img class="class-name-to-always-apply">
```
All three strategies - string return value, boolean return value, and
hard-coded value – can be combined in a single declaration:
```handlebars
<img {{bind-attr class=":class-name-to-always-apply view.someBool:class-name-if-true view.someProperty"}}>
```
@method bind-attr
@for Ember.Handlebars.helpers
@param {Hash} options
@return {String} HTML string
*/
EmberHandlebars.registerHelper('bind-attr', function bindAttrHelper(options) {
var attrs = options.hash;
Ember.assert("You must specify at least one hash argument to bind-attr", !!Ember.keys(attrs).length);
var view = options.data.view;
var ret = [];
var ctx = this;
// Generate a unique id for this element. This will be added as a
// data attribute to the element so it can be looked up when
// the bound property changes.
var dataId = ++Ember.uuid;
// Handle classes differently, as we can bind multiple classes
var classBindings = attrs['class'];
if (classBindings != null) {
var classResults = EmberHandlebars.bindClasses(this, classBindings, view, dataId, options);
ret.push('class="' + Handlebars.Utils.escapeExpression(classResults.join(' ')) + '"');
delete attrs['class'];
}
var attrKeys = Ember.keys(attrs);
// For each attribute passed, create an observer and emit the
// current value of the property as an attribute.
forEach.call(attrKeys, function(attr) {
var path = attrs[attr],
normalized;
Ember.assert(fmt("You must provide an expression as the value of bound attribute. You specified: %@=%@", [attr, path]), typeof path === 'string');
normalized = normalizePath(ctx, path, options.data);
var value = (path === 'this') ? normalized.root : handlebarsGet(ctx, path, options),
type = Ember.typeOf(value);
Ember.assert(fmt("Attributes must be numbers, strings or booleans, not %@", [value]), value === null || value === undefined || type === 'number' || type === 'string' || type === 'boolean');
var observer, invoker;
observer = function observer() {
var result = handlebarsGet(ctx, path, options);
Ember.assert(fmt("Attributes must be numbers, strings or booleans, not %@", [result]),
result === null || result === undefined || typeof result === 'number' ||
typeof result === 'string' || typeof result === 'boolean');
var elem = view.$("[data-bindattr-" + dataId + "='" + dataId + "']");
// If we aren't able to find the element, it means the element
// to which we were bound has been removed from the view.
// In that case, we can assume the template has been re-rendered
// and we need to clean up the observer.
if (!elem || elem.length === 0) {
Ember.removeObserver(normalized.root, normalized.path, invoker);
return;
}
Ember.View.applyAttributeBindings(elem, attr, result);
};
// Add an observer to the view for when the property changes.
// When the observer fires, find the element using the
// unique data id and update the attribute to the new value.
// Note: don't add observer when path is 'this' or path
// is whole keyword e.g. {{#each x in list}} ... {{bind-attr attr="x"}}
if (path !== 'this' && !(normalized.isKeyword && normalized.path === '' )) {
view.registerObserver(normalized.root, normalized.path, observer);
}
// if this changes, also change the logic in ember-views/lib/views/view.js
if ((type === 'string' || (type === 'number' && !isNaN(value)))) {
ret.push(attr + '="' + Handlebars.Utils.escapeExpression(value) + '"');
} else if (value && type === 'boolean') {
// The developer controls the attr name, so it should always be safe
ret.push(attr + '="' + attr + '"');
}
}, this);
// Add the unique identifier
// NOTE: We use all lower-case since Firefox has problems with mixed case in SVG
ret.push('data-bindattr-' + dataId + '="' + dataId + '"');
return new EmberHandlebars.SafeString(ret.join(' '));
});
/**
See `bind-attr`
@method bindAttr
@for Ember.Handlebars.helpers
@deprecated
@param {Function} context
@param {Hash} options
@return {String} HTML string
*/
EmberHandlebars.registerHelper('bindAttr', function bindAttrHelper() {
Ember.warn("The 'bindAttr' view helper is deprecated in favor of 'bind-attr'");
return EmberHandlebars.helpers['bind-attr'].apply(this, arguments);
});
/**
Helper that, given a space-separated string of property paths and a context,
returns an array of class names. Calling this method also has the side
effect of setting up observers at those property paths, such that if they
change, the correct class name will be reapplied to the DOM element.
For example, if you pass the string "fooBar", it will first look up the
"fooBar" value of the context. If that value is true, it will add the
"foo-bar" class to the current element (i.e., the dasherized form of
"fooBar"). If the value is a string, it will add that string as the class.
Otherwise, it will not add any new class name.
@private
@method bindClasses
@for Ember.Handlebars
@param {Ember.Object} context The context from which to lookup properties
@param {String} classBindings A string, space-separated, of class bindings
to use
@param {Ember.View} view The view in which observers should look for the
element to update
@param {Srting} bindAttrId Optional bindAttr id used to lookup elements
@return {Array} An array of class names to add
*/
EmberHandlebars.bindClasses = function(context, classBindings, view, bindAttrId, options) {
var ret = [], newClass, value, elem;
// Helper method to retrieve the property from the context and
// determine which class string to return, based on whether it is
// a Boolean or not.
var classStringForPath = function(root, parsedPath, options) {
var val,
path = parsedPath.path;
if (path === 'this') {
val = root;
} else if (path === '') {
val = true;
} else {
val = handlebarsGet(root, path, options);
}
return Ember.View._classStringForValue(path, val, parsedPath.className, parsedPath.falsyClassName);
};
// For each property passed, loop through and setup
// an observer.
forEach.call(classBindings.split(' '), function(binding) {
// Variable in which the old class value is saved. The observer function
// closes over this variable, so it knows which string to remove when
// the property changes.
var oldClass;
var observer, invoker;
var parsedPath = Ember.View._parsePropertyPath(binding),
path = parsedPath.path,
pathRoot = context,
normalized;
if (path !== '' && path !== 'this') {
normalized = normalizePath(context, path, options.data);
pathRoot = normalized.root;
path = normalized.path;
}
// Set up an observer on the context. If the property changes, toggle the
// class name.
observer = function() {
// Get the current value of the property
newClass = classStringForPath(context, parsedPath, options);
elem = bindAttrId ? view.$("[data-bindattr-" + bindAttrId + "='" + bindAttrId + "']") : view.$();
// If we can't find the element anymore, a parent template has been
// re-rendered and we've been nuked. Remove the observer.
if (!elem || elem.length === 0) {
Ember.removeObserver(pathRoot, path, invoker);
} else {
// If we had previously added a class to the element, remove it.
if (oldClass) {
elem.removeClass(oldClass);
}
// If necessary, add a new class. Make sure we keep track of it so
// it can be removed in the future.
if (newClass) {
elem.addClass(newClass);
oldClass = newClass;
} else {
oldClass = null;
}
}
};
if (path !== '' && path !== 'this') {
view.registerObserver(pathRoot, path, observer);
}
// We've already setup the observer; now we just need to figure out the
// correct behavior right now on the first pass through.
value = classStringForPath(context, parsedPath, options);
if (value) {
ret.push(value);
// Make sure we save the current value so that it can be removed if the
// observer fires.
oldClass = value;
}
});
return ret;
};
})();
(function() {
/*globals Handlebars */
// TODO: Don't require the entire module
/**
@module ember
@submodule ember-handlebars
*/
var get = Ember.get, set = Ember.set;
var EmberHandlebars = Ember.Handlebars;
var LOWERCASE_A_Z = /^[a-z]/;
var VIEW_PREFIX = /^view\./;
function makeBindings(thisContext, options) {
var hash = options.hash,
hashType = options.hashTypes;
for (var prop in hash) {
if (hashType[prop] === 'ID') {
var value = hash[prop];
if (Ember.IS_BINDING.test(prop)) {
Ember.warn("You're attempting to render a view by passing " + prop + "=" + value + " to a view helper, but this syntax is ambiguous. You should either surround " + value + " in quotes or remove `Binding` from " + prop + ".");
} else {
hash[prop + 'Binding'] = value;
hashType[prop + 'Binding'] = 'STRING';
delete hash[prop];
delete hashType[prop];
}
}
}
if (hash.hasOwnProperty('idBinding')) {
// id can't be bound, so just perform one-time lookup.
hash.id = EmberHandlebars.get(thisContext, hash.idBinding, options);
hashType.id = 'STRING';
delete hash.idBinding;
delete hashType.idBinding;
}
}
EmberHandlebars.ViewHelper = Ember.Object.create({
propertiesFromHTMLOptions: function(options) {
var hash = options.hash, data = options.data;
var extensions = {},
classes = hash['class'],
dup = false;
if (hash.id) {
extensions.elementId = hash.id;
dup = true;
}
if (hash.tag) {
extensions.tagName = hash.tag;
dup = true;
}
if (classes) {
classes = classes.split(' ');
extensions.classNames = classes;
dup = true;
}
if (hash.classBinding) {
extensions.classNameBindings = hash.classBinding.split(' ');
dup = true;
}
if (hash.classNameBindings) {
if (extensions.classNameBindings === undefined) extensions.classNameBindings = [];
extensions.classNameBindings = extensions.classNameBindings.concat(hash.classNameBindings.split(' '));
dup = true;
}
if (hash.attributeBindings) {
Ember.assert("Setting 'attributeBindings' via Handlebars is not allowed. Please subclass Ember.View and set it there instead.");
extensions.attributeBindings = null;
dup = true;
}
if (dup) {
hash = Ember.$.extend({}, hash);
delete hash.id;
delete hash.tag;
delete hash['class'];
delete hash.classBinding;
}
// Set the proper context for all bindings passed to the helper. This applies to regular attribute bindings
// as well as class name bindings. If the bindings are local, make them relative to the current context
// instead of the view.
var path;
// Evaluate the context of regular attribute bindings:
for (var prop in hash) {
if (!hash.hasOwnProperty(prop)) { continue; }
// Test if the property ends in "Binding"
if (Ember.IS_BINDING.test(prop) && typeof hash[prop] === 'string') {
path = this.contextualizeBindingPath(hash[prop], data);
if (path) { hash[prop] = path; }
}
}
// Evaluate the context of class name bindings:
if (extensions.classNameBindings) {
for (var b in extensions.classNameBindings) {
var full = extensions.classNameBindings[b];
if (typeof full === 'string') {
// Contextualize the path of classNameBinding so this:
//
// classNameBinding="isGreen:green"
//
// is converted to this:
//
// classNameBinding="_parentView.context.isGreen:green"
var parsedPath = Ember.View._parsePropertyPath(full);
path = this.contextualizeBindingPath(parsedPath.path, data);
if (path) { extensions.classNameBindings[b] = path + parsedPath.classNames; }
}
}
}
return Ember.$.extend(hash, extensions);
},
// Transform bindings from the current context to a context that can be evaluated within the view.
// Returns null if the path shouldn't be changed.
//
// TODO: consider the addition of a prefix that would allow this method to return `path`.
contextualizeBindingPath: function(path, data) {
var normalized = Ember.Handlebars.normalizePath(null, path, data);
if (normalized.isKeyword) {
return 'templateData.keywords.' + path;
} else if (Ember.isGlobalPath(path)) {
return null;
} else if (path === 'this' || path === '') {
return '_parentView.context';
} else {
return '_parentView.context.' + path;
}
},
helper: function(thisContext, path, options) {
var data = options.data,
fn = options.fn,
newView;
makeBindings(thisContext, options);
if ('string' === typeof path) {
// TODO: this is a lame conditional, this should likely change
// but something along these lines will likely need to be added
// as deprecation warnings
//
if (options.types[0] === 'STRING' && LOWERCASE_A_Z.test(path) && !VIEW_PREFIX.test(path)) {
Ember.assert("View requires a container", !!data.view.container);
newView = data.view.container.lookupFactory('view:' + path);
} else {
newView = EmberHandlebars.get(thisContext, path, options);
}
Ember.assert("Unable to find view at path '" + path + "'", !!newView);
} else {
newView = path;
}
Ember.assert(Ember.String.fmt('You must pass a view to the #view helper, not %@ (%@)', [path, newView]), Ember.View.detect(newView) || Ember.View.detectInstance(newView));
var viewOptions = this.propertiesFromHTMLOptions(options, thisContext);
var currentView = data.view;
viewOptions.templateData = data;
var newViewProto = newView.proto ? newView.proto() : newView;
if (fn) {
Ember.assert("You cannot provide a template block if you also specified a templateName", !get(viewOptions, 'templateName') && !get(newViewProto, 'templateName'));
viewOptions.template = fn;
}
// We only want to override the `_context` computed property if there is
// no specified controller. See View#_context for more information.
if (!newViewProto.controller && !newViewProto.controllerBinding && !viewOptions.controller && !viewOptions.controllerBinding) {
viewOptions._context = thisContext;
}
currentView.appendChild(newView, viewOptions);
}
});
/**
`{{view}}` inserts a new instance of `Ember.View` into a template passing its
options to the `Ember.View`'s `create` method and using the supplied block as
the view's own template.
An empty `<body>` and the following template:
```handlebars
A span:
{{#view tagName="span"}}
hello.
{{/view}}
```
Will result in HTML structure:
```html
<body>
<!-- Note: the handlebars template script
also results in a rendered Ember.View
which is the outer <div> here -->
<div class="ember-view">
A span:
<span id="ember1" class="ember-view">
Hello.
</span>
</div>
</body>
```
### `parentView` setting
The `parentView` property of the new `Ember.View` instance created through
`{{view}}` will be set to the `Ember.View` instance of the template where
`{{view}}` was called.
```javascript
aView = Ember.View.create({
template: Ember.Handlebars.compile("{{#view}} my parent: {{parentView.elementId}} {{/view}}")
});
aView.appendTo('body');
```
Will result in HTML structure:
```html
<div id="ember1" class="ember-view">
<div id="ember2" class="ember-view">
my parent: ember1
</div>
</div>
```
### Setting CSS id and class attributes
The HTML `id` attribute can be set on the `{{view}}`'s resulting element with
the `id` option. This option will _not_ be passed to `Ember.View.create`.
```handlebars
{{#view tagName="span" id="a-custom-id"}}
hello.
{{/view}}
```
Results in the following HTML structure:
```html
<div class="ember-view">
<span id="a-custom-id" class="ember-view">
hello.
</span>
</div>
```
The HTML `class` attribute can be set on the `{{view}}`'s resulting element
with the `class` or `classNameBindings` options. The `class` option will
directly set the CSS `class` attribute and will not be passed to
`Ember.View.create`. `classNameBindings` will be passed to `create` and use
`Ember.View`'s class name binding functionality:
```handlebars
{{#view tagName="span" class="a-custom-class"}}
hello.
{{/view}}
```
Results in the following HTML structure:
```html
<div class="ember-view">
<span id="ember2" class="ember-view a-custom-class">
hello.
</span>
</div>
```
### Supplying a different view class
`{{view}}` can take an optional first argument before its supplied options to
specify a path to a custom view class.
```handlebars
{{#view "MyApp.CustomView"}}
hello.
{{/view}}
```
The first argument can also be a relative path accessible from the current
context.
```javascript
MyApp = Ember.Application.create({});
MyApp.OuterView = Ember.View.extend({
innerViewClass: Ember.View.extend({
classNames: ['a-custom-view-class-as-property']
}),
template: Ember.Handlebars.compile('{{#view "view.innerViewClass"}} hi {{/view}}')
});
MyApp.OuterView.create().appendTo('body');
```
Will result in the following HTML:
```html
<div id="ember1" class="ember-view">
<div id="ember2" class="ember-view a-custom-view-class-as-property">
hi
</div>
</div>
```
### Blockless use
If you supply a custom `Ember.View` subclass that specifies its own template
or provide a `templateName` option to `{{view}}` it can be used without
supplying a block. Attempts to use both a `templateName` option and supply a
block will throw an error.
```handlebars
{{view "MyApp.ViewWithATemplateDefined"}}
```
### `viewName` property
You can supply a `viewName` option to `{{view}}`. The `Ember.View` instance
will be referenced as a property of its parent view by this name.
```javascript
aView = Ember.View.create({
template: Ember.Handlebars.compile('{{#view viewName="aChildByName"}} hi {{/view}}')
});
aView.appendTo('body');
aView.get('aChildByName') // the instance of Ember.View created by {{view}} helper
```
@method view
@for Ember.Handlebars.helpers
@param {String} path
@param {Hash} options
@return {String} HTML string
*/
EmberHandlebars.registerHelper('view', function viewHelper(path, options) {
Ember.assert("The view helper only takes a single argument", arguments.length <= 2);
// If no path is provided, treat path param as options.
if (path && path.data && path.data.isRenderData) {
options = path;
path = "Ember.View";
}
return EmberHandlebars.ViewHelper.helper(this, path, options);
});
})();
(function() {
// TODO: Don't require all of this module
/**
@module ember
@submodule ember-handlebars
*/
var get = Ember.get, handlebarsGet = Ember.Handlebars.get, fmt = Ember.String.fmt;
/**
`{{collection}}` is a `Ember.Handlebars` helper for adding instances of
`Ember.CollectionView` to a template. See [Ember.CollectionView](/api/classes/Ember.CollectionView.html)
for additional information on how a `CollectionView` functions.
`{{collection}}`'s primary use is as a block helper with a `contentBinding`
option pointing towards an `Ember.Array`-compatible object. An `Ember.View`
instance will be created for each item in its `content` property. Each view
will have its own `content` property set to the appropriate item in the
collection.
The provided block will be applied as the template for each item's view.
Given an empty `<body>` the following template:
```handlebars
{{#collection contentBinding="App.items"}}
Hi {{view.content.name}}
{{/collection}}
```
And the following application code
```javascript
App = Ember.Application.create()
App.items = [
Ember.Object.create({name: 'Dave'}),
Ember.Object.create({name: 'Mary'}),
Ember.Object.create({name: 'Sara'})
]
```
Will result in the HTML structure below
```html
<div class="ember-view">
<div class="ember-view">Hi Dave</div>
<div class="ember-view">Hi Mary</div>
<div class="ember-view">Hi Sara</div>
</div>
```
### Blockless use in a collection
If you provide an `itemViewClass` option that has its own `template` you can
omit the block.
The following template:
```handlebars
{{collection contentBinding="App.items" itemViewClass="App.AnItemView"}}
```
And application code
```javascript
App = Ember.Application.create();
App.items = [
Ember.Object.create({name: 'Dave'}),
Ember.Object.create({name: 'Mary'}),
Ember.Object.create({name: 'Sara'})
];
App.AnItemView = Ember.View.extend({
template: Ember.Handlebars.compile("Greetings {{view.content.name}}")
});
```
Will result in the HTML structure below
```html
<div class="ember-view">
<div class="ember-view">Greetings Dave</div>
<div class="ember-view">Greetings Mary</div>
<div class="ember-view">Greetings Sara</div>
</div>
```
### Specifying a CollectionView subclass
By default the `{{collection}}` helper will create an instance of
`Ember.CollectionView`. You can supply a `Ember.CollectionView` subclass to
the helper by passing it as the first argument:
```handlebars
{{#collection App.MyCustomCollectionClass contentBinding="App.items"}}
Hi {{view.content.name}}
{{/collection}}
```
### Forwarded `item.*`-named Options
As with the `{{view}}`, helper options passed to the `{{collection}}` will be
set on the resulting `Ember.CollectionView` as properties. Additionally,
options prefixed with `item` will be applied to the views rendered for each
item (note the camelcasing):
```handlebars
{{#collection contentBinding="App.items"
itemTagName="p"
itemClassNames="greeting"}}
Howdy {{view.content.name}}
{{/collection}}
```
Will result in the following HTML structure:
```html
<div class="ember-view">
<p class="ember-view greeting">Howdy Dave</p>
<p class="ember-view greeting">Howdy Mary</p>
<p class="ember-view greeting">Howdy Sara</p>
</div>
```
@method collection
@for Ember.Handlebars.helpers
@param {String} path
@param {Hash} options
@return {String} HTML string
@deprecated Use `{{each}}` helper instead.
*/
Ember.Handlebars.registerHelper('collection', function collectionHelper(path, options) {
Ember.deprecate("Using the {{collection}} helper without specifying a class has been deprecated as the {{each}} helper now supports the same functionality.", path !== 'collection');
// If no path is provided, treat path param as options.
if (path && path.data && path.data.isRenderData) {
options = path;
path = undefined;
Ember.assert("You cannot pass more than one argument to the collection helper", arguments.length === 1);
} else {
Ember.assert("You cannot pass more than one argument to the collection helper", arguments.length === 2);
}
var fn = options.fn;
var data = options.data;
var inverse = options.inverse;
var view = options.data.view;
var controller, container;
// If passed a path string, convert that into an object.
// Otherwise, just default to the standard class.
var collectionClass;
if (path) {
controller = data.keywords.controller;
container = controller && controller.container;
collectionClass = handlebarsGet(this, path, options) || container.lookupFactory('view:' + path);
Ember.assert(fmt("%@ #collection: Could not find collection class %@", [data.view, path]), !!collectionClass);
}
else {
collectionClass = Ember.CollectionView;
}
var hash = options.hash, itemHash = {}, match;
// Extract item view class if provided else default to the standard class
var collectionPrototype = collectionClass.proto(),
itemViewClass;
if (hash.itemView) {
controller = data.keywords.controller;
Ember.assert('You specified an itemView, but the current context has no ' +
'container to look the itemView up in. This probably means ' +
'that you created a view manually, instead of through the ' +
'container. Instead, use container.lookup("view:viewName"), ' +
'which will properly instantiate your view.',
controller && controller.container);
container = controller.container;
itemViewClass = container.lookupFactory('view:' + hash.itemView);
Ember.assert('You specified the itemView ' + hash.itemView + ", but it was " +
"not found at " + container.describe("view:" + hash.itemView) +
" (and it was not registered in the container)", !!itemViewClass);
} else if (hash.itemViewClass) {
itemViewClass = handlebarsGet(collectionPrototype, hash.itemViewClass, options);
} else {
itemViewClass = collectionPrototype.itemViewClass;
}
Ember.assert(fmt("%@ #collection: Could not find itemViewClass %@", [data.view, itemViewClass]), !!itemViewClass);
delete hash.itemViewClass;
delete hash.itemView;
// Go through options passed to the {{collection}} helper and extract options
// that configure item views instead of the collection itself.
for (var prop in hash) {
if (hash.hasOwnProperty(prop)) {
match = prop.match(/^item(.)(.*)$/);
if (match && prop !== 'itemController') {
// Convert itemShouldFoo -> shouldFoo
itemHash[match[1].toLowerCase() + match[2]] = hash[prop];
// Delete from hash as this will end up getting passed to the
// {{view}} helper method.
delete hash[prop];
}
}
}
if (fn) {
itemHash.template = fn;
delete options.fn;
}
var emptyViewClass;
if (inverse && inverse !== Ember.Handlebars.VM.noop) {
emptyViewClass = get(collectionPrototype, 'emptyViewClass');
emptyViewClass = emptyViewClass.extend({
template: inverse,
tagName: itemHash.tagName
});
} else if (hash.emptyViewClass) {
emptyViewClass = handlebarsGet(this, hash.emptyViewClass, options);
}
if (emptyViewClass) { hash.emptyView = emptyViewClass; }
if (!hash.keyword) {
itemHash._context = Ember.computed.alias('content');
}
var viewOptions = Ember.Handlebars.ViewHelper.propertiesFromHTMLOptions({ data: data, hash: itemHash }, this);
hash.itemViewClass = itemViewClass.extend(viewOptions);
return Ember.Handlebars.helpers.view.call(this, collectionClass, options);
});
})();
(function() {
/*globals Handlebars */
/**
@module ember
@submodule ember-handlebars
*/
var handlebarsGet = Ember.Handlebars.get;
/**
`unbound` allows you to output a property without binding. *Important:* The
output will not be updated if the property changes. Use with caution.
```handlebars
<div>{{unbound somePropertyThatDoesntChange}}</div>
```
`unbound` can also be used in conjunction with a bound helper to
render it in its unbound form:
```handlebars
<div>{{unbound helperName somePropertyThatDoesntChange}}</div>
```
@method unbound
@for Ember.Handlebars.helpers
@param {String} property
@return {String} HTML string
*/
Ember.Handlebars.registerHelper('unbound', function unboundHelper(property, fn) {
var options = arguments[arguments.length - 1], helper, context, out;
if (arguments.length > 2) {
// Unbound helper call.
options.data.isUnbound = true;
helper = Ember.Handlebars.helpers[arguments[0]] || Ember.Handlebars.helpers.helperMissing;
out = helper.apply(this, Array.prototype.slice.call(arguments, 1));
delete options.data.isUnbound;
return out;
}
context = (fn.contexts && fn.contexts.length) ? fn.contexts[0] : this;
return handlebarsGet(context, property, fn);
});
})();
(function() {
/*jshint debug:true*/
/**
@module ember
@submodule ember-handlebars
*/
var get = Ember.get;
var handlebarsGet = Ember.Handlebars.get, normalizePath = Ember.Handlebars.normalizePath;
var a_slice = [].slice;
/**
`log` allows you to output the value of variables in the current rendering
context. `log` also accepts primitive types such as strings or numbers.
```handlebars
{{log "myVariable:" myVariable }}
```
@method log
@for Ember.Handlebars.helpers
@param {String} property
*/
Ember.Handlebars.registerHelper('log', function logHelper() {
var params = a_slice.call(arguments, 0, -1),
options = arguments[arguments.length - 1],
logger = Ember.Logger.log,
values = [],
allowPrimitives = false;
allowPrimitives = true;
for (var i = 0; i < params.length; i++) {
var type = options.types[i];
if (type === 'ID' || !allowPrimitives) {
var context = (options.contexts && options.contexts[i]) || this,
normalized = normalizePath(context, params[i], options.data);
if (normalized.path === 'this') {
values.push(normalized.root);
} else {
values.push(handlebarsGet(normalized.root, normalized.path, options));
}
} else {
values.push(params[i]);
}
}
logger.apply(logger, values);
});
/**
Execute the `debugger` statement in the current context.
```handlebars
{{debugger}}
```
Before invoking the `debugger` statement, there
are a few helpful variables defined in the
body of this helper that you can inspect while
debugging that describe how and where this
helper was invoked:
- templateContext: this is most likely a controller
from which this template looks up / displays properties
- typeOfTemplateContext: a string description of
what the templateContext is
For example, if you're wondering why a value `{{foo}}`
isn't rendering as expected within a template, you
could place a `{{debugger}}` statement, and when
the `debugger;` breakpoint is hit, you can inspect
`templateContext`, determine if it's the object you
expect, and/or evaluate expressions in the console
to perform property lookups on the `templateContext`:
```
> templateContext.get('foo') // -> "<value of {{foo}}>"
```
@method debugger
@for Ember.Handlebars.helpers
@param {String} property
*/
Ember.Handlebars.registerHelper('debugger', function debuggerHelper(options) {
// These are helpful values you can inspect while debugging.
var templateContext = this;
var typeOfTemplateContext = Ember.inspect(templateContext);
debugger;
});
})();
(function() {
/**
@module ember
@submodule ember-handlebars
*/
var get = Ember.get, set = Ember.set;
var fmt = Ember.String.fmt;
Ember.Handlebars.EachView = Ember.CollectionView.extend(Ember._Metamorph, {
init: function() {
var itemController = get(this, 'itemController');
var binding;
if (itemController) {
var controller = get(this, 'controller.container').lookupFactory('controller:array').create({
_isVirtual: true,
parentController: get(this, 'controller'),
itemController: itemController,
target: get(this, 'controller'),
_eachView: this
});
this.disableContentObservers(function() {
set(this, 'content', controller);
binding = new Ember.Binding('content', '_eachView.dataSource').oneWay();
binding.connect(controller);
});
set(this, '_arrayController', controller);
} else {
this.disableContentObservers(function() {
binding = new Ember.Binding('content', 'dataSource').oneWay();
binding.connect(this);
});
}
return this._super();
},
_assertArrayLike: function(content) {
Ember.assert(fmt("The value that #each loops over must be an Array. You " +
"passed %@, but it should have been an ArrayController",
[content.constructor]),
!Ember.ControllerMixin.detect(content) ||
(content && content.isGenerated) ||
content instanceof Ember.ArrayController);
Ember.assert(fmt("The value that #each loops over must be an Array. You passed %@", [(Ember.ControllerMixin.detect(content) && content.get('model') !== undefined) ? fmt("'%@' (wrapped in %@)", [content.get('model'), content]) : content]), Ember.Array.detect(content));
},
disableContentObservers: function(callback) {
Ember.removeBeforeObserver(this, 'content', null, '_contentWillChange');
Ember.removeObserver(this, 'content', null, '_contentDidChange');
callback.call(this);
Ember.addBeforeObserver(this, 'content', null, '_contentWillChange');
Ember.addObserver(this, 'content', null, '_contentDidChange');
},
itemViewClass: Ember._MetamorphView,
emptyViewClass: Ember._MetamorphView,
createChildView: function(view, attrs) {
view = this._super(view, attrs);
// At the moment, if a container view subclass wants
// to insert keywords, it is responsible for cloning
// the keywords hash. This will be fixed momentarily.
var keyword = get(this, 'keyword');
var content = get(view, 'content');
if (keyword) {
var data = get(view, 'templateData');
data = Ember.copy(data);
data.keywords = view.cloneKeywords();
set(view, 'templateData', data);
// In this case, we do not bind, because the `content` of
// a #each item cannot change.
data.keywords[keyword] = content;
}
// If {{#each}} is looping over an array of controllers,
// point each child view at their respective controller.
if (content && content.isController) {
set(view, 'controller', content);
}
return view;
},
destroy: function() {
if (!this._super()) { return; }
var arrayController = get(this, '_arrayController');
if (arrayController) {
arrayController.destroy();
}
return this;
}
});
// Defeatureify doesn't seem to like nested functions that need to be removed
function _addMetamorphCheck() {
Ember.Handlebars.EachView.reopen({
_checkMetamorph: Ember.on('didInsertElement', function() {
Ember.assert("The metamorph tags, " +
this.morph.start + " and " + this.morph.end +
", have different parents.\nThe browser has fixed your template to output valid HTML (for example, check that you have properly closed all tags and have used a TBODY tag when creating a table with '{{#each}}')",
document.getElementById( this.morph.start ).parentNode ===
document.getElementById( this.morph.end ).parentNode
);
})
});
}
Ember.runInDebug( function() {
_addMetamorphCheck();
});
var GroupedEach = Ember.Handlebars.GroupedEach = function(context, path, options) {
var self = this,
normalized = Ember.Handlebars.normalizePath(context, path, options.data);
this.context = context;
this.path = path;
this.options = options;
this.template = options.fn;
this.containingView = options.data.view;
this.normalizedRoot = normalized.root;
this.normalizedPath = normalized.path;
this.content = this.lookupContent();
this.addContentObservers();
this.addArrayObservers();
this.containingView.on('willClearRender', function() {
self.destroy();
});
};
GroupedEach.prototype = {
contentWillChange: function() {
this.removeArrayObservers();
},
contentDidChange: function() {
this.content = this.lookupContent();
this.addArrayObservers();
this.rerenderContainingView();
},
contentArrayWillChange: Ember.K,
contentArrayDidChange: function() {
this.rerenderContainingView();
},
lookupContent: function() {
return Ember.Handlebars.get(this.normalizedRoot, this.normalizedPath, this.options);
},
addArrayObservers: function() {
if (!this.content) { return; }
this.content.addArrayObserver(this, {
willChange: 'contentArrayWillChange',
didChange: 'contentArrayDidChange'
});
},
removeArrayObservers: function() {
if (!this.content) { return; }
this.content.removeArrayObserver(this, {
willChange: 'contentArrayWillChange',
didChange: 'contentArrayDidChange'
});
},
addContentObservers: function() {
Ember.addBeforeObserver(this.normalizedRoot, this.normalizedPath, this, this.contentWillChange);
Ember.addObserver(this.normalizedRoot, this.normalizedPath, this, this.contentDidChange);
},
removeContentObservers: function() {
Ember.removeBeforeObserver(this.normalizedRoot, this.normalizedPath, this.contentWillChange);
Ember.removeObserver(this.normalizedRoot, this.normalizedPath, this.contentDidChange);
},
render: function() {
if (!this.content) { return; }
var content = this.content,
contentLength = get(content, 'length'),
data = this.options.data,
template = this.template;
data.insideEach = true;
for (var i = 0; i < contentLength; i++) {
template(content.objectAt(i), { data: data });
}
},
rerenderContainingView: function() {
var self = this;
Ember.run.scheduleOnce('render', this, function() {
// It's possible it's been destroyed after we enqueued a re-render call.
if (!self.destroyed) {
self.containingView.rerender();
}
});
},
destroy: function() {
this.removeContentObservers();
if (this.content) {
this.removeArrayObservers();
}
this.destroyed = true;
}
};
/**
The `{{#each}}` helper loops over elements in a collection, rendering its
block once for each item. It is an extension of the base Handlebars `{{#each}}`
helper:
```javascript
Developers = [{name: 'Yehuda'},{name: 'Tom'}, {name: 'Paul'}];
```
```handlebars
{{#each Developers}}
{{name}}
{{/each}}
```
`{{each}}` supports an alternative syntax with element naming:
```handlebars
{{#each person in Developers}}
{{person.name}}
{{/each}}
```
When looping over objects that do not have properties, `{{this}}` can be used
to render the object:
```javascript
DeveloperNames = ['Yehuda', 'Tom', 'Paul']
```
```handlebars
{{#each DeveloperNames}}
{{this}}
{{/each}}
```
### {{else}} condition
`{{#each}}` can have a matching `{{else}}`. The contents of this block will render
if the collection is empty.
```
{{#each person in Developers}}
{{person.name}}
{{else}}
<p>Sorry, nobody is available for this task.</p>
{{/each}}
```
### Specifying a View class for items
If you provide an `itemViewClass` option that references a view class
with its own `template` you can omit the block.
The following template:
```handlebars
{{#view App.MyView }}
{{each view.items itemViewClass="App.AnItemView"}}
{{/view}}
```
And application code
```javascript
App = Ember.Application.create({
MyView: Ember.View.extend({
items: [
Ember.Object.create({name: 'Dave'}),
Ember.Object.create({name: 'Mary'}),
Ember.Object.create({name: 'Sara'})
]
})
});
App.AnItemView = Ember.View.extend({
template: Ember.Handlebars.compile("Greetings {{name}}")
});
```
Will result in the HTML structure below
```html
<div class="ember-view">
<div class="ember-view">Greetings Dave</div>
<div class="ember-view">Greetings Mary</div>
<div class="ember-view">Greetings Sara</div>
</div>
```
If an `itemViewClass` is defined on the helper, and therefore the helper is not
being used as a block, an `emptyViewClass` can also be provided optionally.
The `emptyViewClass` will match the behavior of the `{{else}}` condition
described above. That is, the `emptyViewClass` will render if the collection
is empty.
### Representing each item with a Controller.
By default the controller lookup within an `{{#each}}` block will be
the controller of the template where the `{{#each}}` was used. If each
item needs to be presented by a custom controller you can provide a
`itemController` option which references a controller by lookup name.
Each item in the loop will be wrapped in an instance of this controller
and the item itself will be set to the `content` property of that controller.
This is useful in cases where properties of model objects need transformation
or synthesis for display:
```javascript
App.DeveloperController = Ember.ObjectController.extend({
isAvailableForHire: function() {
return !this.get('content.isEmployed') && this.get('content.isSeekingWork');
}.property('isEmployed', 'isSeekingWork')
})
```
```handlebars
{{#each person in developers itemController="developer"}}
{{person.name}} {{#if person.isAvailableForHire}}Hire me!{{/if}}
{{/each}}
```
Each itemController will receive a reference to the current controller as
a `parentController` property.
### (Experimental) Grouped Each
When used in conjunction with the experimental [group helper](https://github.com/emberjs/group-helper),
you can inform Handlebars to re-render an entire group of items instead of
re-rendering them one at a time (in the event that they are changed en masse
or an item is added/removed).
```handlebars
{{#group}}
{{#each people}}
{{firstName}} {{lastName}}
{{/each}}
{{/group}}
```
This can be faster than the normal way that Handlebars re-renders items
in some cases.
If for some reason you have a group with more than one `#each`, you can make
one of the collections be updated in normal (non-grouped) fashion by setting
the option `groupedRows=true` (counter-intuitive, I know).
For example,
```handlebars
{{dealershipName}}
{{#group}}
{{#each dealers}}
{{firstName}} {{lastName}}
{{/each}}
{{#each car in cars groupedRows=true}}
{{car.make}} {{car.model}} {{car.color}}
{{/each}}
{{/group}}
```
Any change to `dealershipName` or the `dealers` collection will cause the
entire group to be re-rendered. However, changes to the `cars` collection
will be re-rendered individually (as normal).
Note that `group` behavior is also disabled by specifying an `itemViewClass`.
@method each
@for Ember.Handlebars.helpers
@param [name] {String} name for item (used with `in`)
@param [path] {String} path
@param [options] {Object} Handlebars key/value pairs of options
@param [options.itemViewClass] {String} a path to a view class used for each item
@param [options.itemController] {String} name of a controller to be created for each item
@param [options.groupedRows] {boolean} enable normal item-by-item rendering when inside a `#group` helper
*/
Ember.Handlebars.registerHelper('each', function eachHelper(path, options) {
if (arguments.length === 4) {
Ember.assert("If you pass more than one argument to the each helper, it must be in the form #each foo in bar", arguments[1] === "in");
var keywordName = arguments[0];
options = arguments[3];
path = arguments[2];
if (path === '') { path = "this"; }
options.hash.keyword = keywordName;
}
if (arguments.length === 1) {
options = path;
path = 'this';
}
options.hash.dataSourceBinding = path;
// Set up emptyView as a metamorph with no tag
//options.hash.emptyViewClass = Ember._MetamorphView;
if (options.data.insideGroup && !options.hash.groupedRows && !options.hash.itemViewClass) {
new Ember.Handlebars.GroupedEach(this, path, options).render();
} else {
return Ember.Handlebars.helpers.collection.call(this, 'Ember.Handlebars.EachView', options);
}
});
})();
(function() {
/**
@module ember
@submodule ember-handlebars
*/
/**
`template` allows you to render a template from inside another template.
This allows you to re-use the same template in multiple places. For example:
```html
<script type="text/x-handlebars" data-template-name="logged_in_user">
{{#with loggedInUser}}
Last Login: {{lastLogin}}
User Info: {{template "user_info"}}
{{/with}}
</script>
```
```html
<script type="text/x-handlebars" data-template-name="user_info">
Name: <em>{{name}}</em>
Karma: <em>{{karma}}</em>
</script>
```
```handlebars
{{#if isUser}}
{{template "user_info"}}
{{else}}
{{template "unlogged_user_info"}}
{{/if}}
```
This helper looks for templates in the global `Ember.TEMPLATES` hash. If you
add `<script>` tags to your page with the `data-template-name` attribute set,
they will be compiled and placed in this hash automatically.
You can also manually register templates by adding them to the hash:
```javascript
Ember.TEMPLATES["my_cool_template"] = Ember.Handlebars.compile('<b>{{user}}</b>');
```
@deprecated
@method template
@for Ember.Handlebars.helpers
@param {String} templateName the template to render
*/
Ember.Handlebars.registerHelper('template', function(name, options) {
Ember.deprecate("The `template` helper has been deprecated in favor of the `partial` helper. Please use `partial` instead, which will work the same way.");
return Ember.Handlebars.helpers.partial.apply(this, arguments);
});
})();
(function() {
/**
@module ember
@submodule ember-handlebars
*/
/**
The `partial` helper renders another template without
changing the template context:
```handlebars
{{foo}}
{{partial "nav"}}
```
The above example template will render a template named
"_nav", which has the same context as the parent template
it's rendered into, so if the "_nav" template also referenced
`{{foo}}`, it would print the same thing as the `{{foo}}`
in the above example.
If a "_nav" template isn't found, the `partial` helper will
fall back to a template named "nav".
## Bound template names
The parameter supplied to `partial` can also be a path
to a property containing a template name, e.g.:
```handlebars
{{partial someTemplateName}}
```
The above example will look up the value of `someTemplateName`
on the template context (e.g. a controller) and use that
value as the name of the template to render. If the resolved
value is falsy, nothing will be rendered. If `someTemplateName`
changes, the partial will be re-rendered using the new template
name.
## Setting the partial's context with `with`
The `partial` helper can be used in conjunction with the `with`
helper to set a context that will be used by the partial:
```handlebars
{{#with currentUser}}
{{partial "user_info"}}
{{/with}}
```
@method partial
@for Ember.Handlebars.helpers
@param {String} partialName the name of the template to render minus the leading underscore
*/
Ember.Handlebars.registerHelper('partial', function partialHelper(name, options) {
var context = (options.contexts && options.contexts.length) ? options.contexts[0] : this;
if (options.types[0] === "ID") {
// Helper was passed a property path; we need to
// create a binding that will re-render whenever
// this property changes.
options.fn = function(context, fnOptions) {
var partialName = Ember.Handlebars.get(context, name, fnOptions);
renderPartial(context, partialName, fnOptions);
};
return Ember.Handlebars.bind.call(context, name, options, true, exists);
} else {
// Render the partial right into parent template.
renderPartial(context, name, options);
}
});
function exists(value) {
return !Ember.isNone(value);
}
function renderPartial(context, name, options) {
var nameParts = name.split("/"),
lastPart = nameParts[nameParts.length - 1];
nameParts[nameParts.length - 1] = "_" + lastPart;
var view = options.data.view,
underscoredName = nameParts.join("/"),
template = view.templateForName(underscoredName),
deprecatedTemplate = !template && view.templateForName(name);
Ember.assert("Unable to find partial with name '"+name+"'.", template || deprecatedTemplate);
template = template || deprecatedTemplate;
template(context, { data: options.data });
}
})();
(function() {
/**
@module ember
@submodule ember-handlebars
*/
var get = Ember.get, set = Ember.set;
/**
`{{yield}}` denotes an area of a template that will be rendered inside
of another template. It has two main uses:
### Use with `layout`
When used in a Handlebars template that is assigned to an `Ember.View`
instance's `layout` property Ember will render the layout template first,
inserting the view's own rendered output at the `{{yield}}` location.
An empty `<body>` and the following application code:
```javascript
AView = Ember.View.extend({
classNames: ['a-view-with-layout'],
layout: Ember.Handlebars.compile('<div class="wrapper">{{yield}}</div>'),
template: Ember.Handlebars.compile('<span>I am wrapped</span>')
});
aView = AView.create();
aView.appendTo('body');
```
Will result in the following HTML output:
```html
<body>
<div class='ember-view a-view-with-layout'>
<div class="wrapper">
<span>I am wrapped</span>
</div>
</div>
</body>
```
The `yield` helper cannot be used outside of a template assigned to an
`Ember.View`'s `layout` property and will throw an error if attempted.
```javascript
BView = Ember.View.extend({
classNames: ['a-view-with-layout'],
template: Ember.Handlebars.compile('{{yield}}')
});
bView = BView.create();
bView.appendTo('body');
// throws
// Uncaught Error: assertion failed:
// You called yield in a template that was not a layout
```
### Use with Ember.Component
When designing components `{{yield}}` is used to denote where, inside the component's
template, an optional block passed to the component should render:
```handlebars
<!-- application.hbs -->
{{#labeled-textfield value=someProperty}}
First name:
{{/labeled-textfield}}
```
```handlebars
<!-- components/labeled-textfield.hbs -->
<label>
{{yield}} {{input value=value}}
</label>
```
Result:
```html
<label>
First name: <input type="text" />
<label>
```
@method yield
@for Ember.Handlebars.helpers
@param {Hash} options
@return {String} HTML string
*/
Ember.Handlebars.registerHelper('yield', function yieldHelper(options) {
var view = options.data.view;
while (view && !get(view, 'layout')) {
if (view._contextView) {
view = view._contextView;
} else {
view = get(view, 'parentView');
}
}
Ember.assert("You called yield in a template that was not a layout", !!view);
view._yield(this, options);
});
})();
(function() {
/**
@module ember
@submodule ember-handlebars
*/
/**
`loc` looks up the string in the localized strings hash.
This is a convenient way to localize text. For example:
```html
<script type="text/x-handlebars" data-template-name="home">
{{loc "welcome"}}
</script>
```
Take note that `"welcome"` is a string and not an object
reference.
@method loc
@for Ember.Handlebars.helpers
@param {String} str The string to format
*/
Ember.Handlebars.registerHelper('loc', function locHelper(str) {
return Ember.String.loc(str);
});
})();
(function() {
})();
(function() {
})();
(function() {
/**
@module ember
@submodule ember-handlebars
*/
var set = Ember.set, get = Ember.get;
/**
The internal class used to create text inputs when the `{{input}}`
helper is used with `type` of `checkbox`.
See [handlebars.helpers.input](/api/classes/Ember.Handlebars.helpers.html#method_input) for usage details.
## Direct manipulation of `checked`
The `checked` attribute of an `Ember.Checkbox` object should always be set
through the Ember object or by interacting with its rendered element
representation via the mouse, keyboard, or touch. Updating the value of the
checkbox via jQuery will result in the checked value of the object and its
element losing synchronization.
## Layout and LayoutName properties
Because HTML `input` elements are self closing `layout` and `layoutName`
properties will not be applied. See [Ember.View](/api/classes/Ember.View.html)'s
layout section for more information.
@class Checkbox
@namespace Ember
@extends Ember.View
*/
Ember.Checkbox = Ember.View.extend({
classNames: ['ember-checkbox'],
tagName: 'input',
attributeBindings: ['type', 'checked', 'indeterminate', 'disabled', 'tabindex', 'name',
'autofocus', 'form'],
type: "checkbox",
checked: false,
disabled: false,
indeterminate: false,
init: function() {
this._super();
this.on("change", this, this._updateElementValue);
},
didInsertElement: function() {
this._super();
this.get('element').indeterminate = !!this.get('indeterminate');
},
_updateElementValue: function() {
set(this, 'checked', this.$().prop('checked'));
}
});
})();
(function() {
/**
@module ember
@submodule ember-handlebars
*/
var get = Ember.get, set = Ember.set;
/**
Shared mixin used by `Ember.TextField` and `Ember.TextArea`.
@class TextSupport
@namespace Ember
@uses Ember.TargetActionSupport
@extends Ember.Mixin
@private
*/
Ember.TextSupport = Ember.Mixin.create(Ember.TargetActionSupport, {
value: "",
attributeBindings: ['placeholder', 'disabled', 'maxlength', 'tabindex', 'readonly',
'autofocus', 'form', 'selectionDirection', 'spellcheck', 'required'],
placeholder: null,
disabled: false,
maxlength: null,
init: function() {
this._super();
this.on("focusOut", this, this._elementValueDidChange);
this.on("change", this, this._elementValueDidChange);
this.on("paste", this, this._elementValueDidChange);
this.on("cut", this, this._elementValueDidChange);
this.on("input", this, this._elementValueDidChange);
this.on("keyUp", this, this.interpretKeyEvents);
},
/**
The action to be sent when the user presses the return key.
This is similar to the `{{action}}` helper, but is fired when
the user presses the return key when editing a text field, and sends
the value of the field as the context.
@property action
@type String
@default null
*/
action: null,
/**
The event that should send the action.
Options are:
* `enter`: the user pressed enter
* `keyPress`: the user pressed a key
@property onEvent
@type String
@default enter
*/
onEvent: 'enter',
/**
Whether they `keyUp` event that triggers an `action` to be sent continues
propagating to other views.
By default, when the user presses the return key on their keyboard and
the text field has an `action` set, the action will be sent to the view's
controller and the key event will stop propagating.
If you would like parent views to receive the `keyUp` event even after an
action has been dispatched, set `bubbles` to true.
@property bubbles
@type Boolean
@default false
*/
bubbles: false,
interpretKeyEvents: function(event) {
var map = Ember.TextSupport.KEY_EVENTS;
var method = map[event.keyCode];
this._elementValueDidChange();
if (method) { return this[method](event); }
},
_elementValueDidChange: function() {
set(this, 'value', this.$().val());
},
/**
The action to be sent when the user inserts a new line.
Called by the `Ember.TextSupport` mixin on keyUp if keycode matches 13.
Uses sendAction to send the `enter` action to the controller.
@method insertNewline
@param {Event} event
*/
insertNewline: function(event) {
sendAction('enter', this, event);
sendAction('insert-newline', this, event);
},
/**
Called when the user hits escape.
Called by the `Ember.TextSupport` mixin on keyUp if keycode matches 27.
Uses sendAction to send the `escape-press` action to the controller.
@method cancel
@param {Event} event
*/
cancel: function(event) {
sendAction('escape-press', this, event);
},
/**
Called when the text area is focused.
@method focusIn
@param {Event} event
*/
focusIn: function(event) {
sendAction('focus-in', this, event);
},
/**
Called when the text area is blurred.
@method focusOut
@param {Event} event
*/
focusOut: function(event) {
sendAction('focus-out', this, event);
},
/**
The action to be sent when the user presses a key. Enabled by setting
the `onEvent` property to `keyPress`.
Uses sendAction to send the `keyPress` action to the controller.
@method keyPress
@param {Event} event
*/
keyPress: function(event) {
sendAction('key-press', this, event);
}
});
Ember.TextSupport.KEY_EVENTS = {
13: 'insertNewline',
27: 'cancel'
};
// In principle, this shouldn't be necessary, but the legacy
// sectionAction semantics for TextField are different from
// the component semantics so this method normalizes them.
function sendAction(eventName, view, event) {
var action = get(view, eventName),
on = get(view, 'onEvent'),
value = get(view, 'value');
// back-compat support for keyPress as an event name even though
// it's also a method name that consumes the event (and therefore
// incompatible with sendAction semantics).
if (on === eventName || (on === 'keyPress' && eventName === 'key-press')) {
view.sendAction('action', value);
}
view.sendAction(eventName, value);
if (action || on === eventName) {
if(!get(view, 'bubbles')) {
event.stopPropagation();
}
}
}
})();
(function() {
/**
@module ember
@submodule ember-handlebars
*/
var get = Ember.get, set = Ember.set;
/**
The internal class used to create text inputs when the `{{input}}`
helper is used with `type` of `text`.
See [Handlebars.helpers.input](/api/classes/Ember.Handlebars.helpers.html#method_input) for usage details.
## Layout and LayoutName properties
Because HTML `input` elements are self closing `layout` and `layoutName`
properties will not be applied. See [Ember.View](/api/classes/Ember.View.html)'s
layout section for more information.
@class TextField
@namespace Ember
@extends Ember.Component
@uses Ember.TextSupport
*/
Ember.TextField = Ember.Component.extend(Ember.TextSupport, {
classNames: ['ember-text-field'],
tagName: "input",
attributeBindings: ['type', 'value', 'size', 'pattern', 'name', 'min', 'max',
'accept', 'autocomplete', 'autosave', 'formaction',
'formenctype', 'formmethod', 'formnovalidate', 'formtarget',
'height', 'inputmode', 'list', 'multiple', 'pattern', 'step',
'width'],
/**
The `value` attribute of the input element. As the user inputs text, this
property is updated live.
@property value
@type String
@default ""
*/
value: "",
/**
The `type` attribute of the input element.
@property type
@type String
@default "text"
*/
type: "text",
/**
The `size` of the text field in characters.
@property size
@type String
@default null
*/
size: null,
/**
The `pattern` attribute of input element.
@property pattern
@type String
@default null
*/
pattern: null,
/**
The `min` attribute of input element used with `type="number"` or `type="range"`.
@property min
@type String
@default null
*/
min: null,
/**
The `max` attribute of input element used with `type="number"` or `type="range"`.
@property max
@type String
@default null
*/
max: null
});
})();
(function() {
/**
@module ember
@submodule ember-handlebars
*/
var get = Ember.get, set = Ember.set;
/**
The internal class used to create textarea element when the `{{textarea}}`
helper is used.
See [handlebars.helpers.textarea](/api/classes/Ember.Handlebars.helpers.html#method_textarea) for usage details.
## Layout and LayoutName properties
Because HTML `textarea` elements do not contain inner HTML the `layout` and
`layoutName` properties will not be applied. See [Ember.View](/api/classes/Ember.View.html)'s
layout section for more information.
@class TextArea
@namespace Ember
@extends Ember.Component
@uses Ember.TextSupport
*/
Ember.TextArea = Ember.Component.extend(Ember.TextSupport, {
classNames: ['ember-text-area'],
tagName: "textarea",
attributeBindings: ['rows', 'cols', 'name', 'selectionEnd', 'selectionStart', 'wrap'],
rows: null,
cols: null,
_updateElementValue: Ember.observer('value', function() {
// We do this check so cursor position doesn't get affected in IE
var value = get(this, 'value'),
$el = this.$();
if ($el && value !== $el.val()) {
$el.val(value);
}
}),
init: function() {
this._super();
this.on("didInsertElement", this, this._updateElementValue);
}
});
})();
(function() {
/*jshint eqeqeq:false */
/**
@module ember
@submodule ember-handlebars
*/
var set = Ember.set,
get = Ember.get,
indexOf = Ember.EnumerableUtils.indexOf,
indexesOf = Ember.EnumerableUtils.indexesOf,
forEach = Ember.EnumerableUtils.forEach,
replace = Ember.EnumerableUtils.replace,
isArray = Ember.isArray,
precompileTemplate = Ember.Handlebars.compile;
Ember.SelectOption = Ember.View.extend({
tagName: 'option',
attributeBindings: ['value', 'selected'],
defaultTemplate: function(context, options) {
options = { data: options.data, hash: {} };
Ember.Handlebars.helpers.bind.call(context, "view.label", options);
},
init: function() {
this.labelPathDidChange();
this.valuePathDidChange();
this._super();
},
selected: Ember.computed(function() {
var content = get(this, 'content'),
selection = get(this, 'parentView.selection');
if (get(this, 'parentView.multiple')) {
return selection && indexOf(selection, content.valueOf()) > -1;
} else {
// Primitives get passed through bindings as objects... since
// `new Number(4) !== 4`, we use `==` below
return content == selection;
}
}).property('content', 'parentView.selection'),
labelPathDidChange: Ember.observer('parentView.optionLabelPath', function() {
var labelPath = get(this, 'parentView.optionLabelPath');
if (!labelPath) { return; }
Ember.defineProperty(this, 'label', Ember.computed(function() {
return get(this, labelPath);
}).property(labelPath));
}),
valuePathDidChange: Ember.observer('parentView.optionValuePath', function() {
var valuePath = get(this, 'parentView.optionValuePath');
if (!valuePath) { return; }
Ember.defineProperty(this, 'value', Ember.computed(function() {
return get(this, valuePath);
}).property(valuePath));
})
});
Ember.SelectOptgroup = Ember.CollectionView.extend({
tagName: 'optgroup',
attributeBindings: ['label'],
selectionBinding: 'parentView.selection',
multipleBinding: 'parentView.multiple',
optionLabelPathBinding: 'parentView.optionLabelPath',
optionValuePathBinding: 'parentView.optionValuePath',
itemViewClassBinding: 'parentView.optionView'
});
/**
The `Ember.Select` view class renders a
[select](https://developer.mozilla.org/en/HTML/Element/select) HTML element,
allowing the user to choose from a list of options.
The text and `value` property of each `<option>` element within the
`<select>` element are populated from the objects in the `Element.Select`'s
`content` property. The underlying data object of the selected `<option>` is
stored in the `Element.Select`'s `value` property.
## The Content Property (array of strings)
The simplest version of an `Ember.Select` takes an array of strings as its
`content` property. The string will be used as both the `value` property and
the inner text of each `<option>` element inside the rendered `<select>`.
Example:
```javascript
App.ApplicationController = Ember.Controller.extend({
names: ["Yehuda", "Tom"]
});
```
```handlebars
{{view Ember.Select content=names}}
```
Would result in the following HTML:
```html
<select class="ember-select">
<option value="Yehuda">Yehuda</option>
<option value="Tom">Tom</option>
</select>
```
You can control which `<option>` is selected through the `Ember.Select`'s
`value` property:
```javascript
App.ApplicationController = Ember.Controller.extend({
selectedName: 'Tom',
names: ["Yehuda", "Tom"]
});
```
```handlebars
{{view Ember.Select
content=names
value=selectedName
}}
```
Would result in the following HTML with the `<option>` for 'Tom' selected:
```html
<select class="ember-select">
<option value="Yehuda">Yehuda</option>
<option value="Tom" selected="selected">Tom</option>
</select>
```
A user interacting with the rendered `<select>` to choose "Yehuda" would
update the value of `selectedName` to "Yehuda".
## The Content Property (array of Objects)
An `Ember.Select` can also take an array of JavaScript or Ember objects as
its `content` property.
When using objects you need to tell the `Ember.Select` which property should
be accessed on each object to supply the `value` attribute of the `<option>`
and which property should be used to supply the element text.
The `optionValuePath` option is used to specify the path on each object to
the desired property for the `value` attribute. The `optionLabelPath`
specifies the path on each object to the desired property for the
element's text. Both paths must reference each object itself as `content`:
```javascript
App.ApplicationController = Ember.Controller.extend({
programmers: [
{firstName: "Yehuda", id: 1},
{firstName: "Tom", id: 2}
]
});
```
```handlebars
{{view Ember.Select
content=programmers
optionValuePath="content.id"
optionLabelPath="content.firstName"}}
```
Would result in the following HTML:
```html
<select class="ember-select">
<option value="1">Yehuda</option>
<option value="2">Tom</option>
</select>
```
The `value` attribute of the selected `<option>` within an `Ember.Select`
can be bound to a property on another object:
```javascript
App.ApplicationController = Ember.Controller.extend({
programmers: [
{firstName: "Yehuda", id: 1},
{firstName: "Tom", id: 2}
],
currentProgrammer: {
id: 2
}
});
```
```handlebars
{{view Ember.Select
content=programmers
optionValuePath="content.id"
optionLabelPath="content.firstName"
value=currentProgrammer.id}}
```
Would result in the following HTML with a selected option:
```html
<select class="ember-select">
<option value="1">Yehuda</option>
<option value="2" selected="selected">Tom</option>
</select>
```
Interacting with the rendered element by selecting the first option
('Yehuda') will update the `id` of `currentProgrammer`
to match the `value` property of the newly selected `<option>`.
Alternatively, you can control selection through the underlying objects
used to render each object by binding the `selection` option. When the selected
`<option>` is changed, the property path provided to `selection`
will be updated to match the content object of the rendered `<option>`
element:
```javascript
App.ApplicationController = Ember.Controller.extend({
selectedPerson: null,
programmers: [
{firstName: "Yehuda", id: 1},
{firstName: "Tom", id: 2}
]
});
```
```handlebars
{{view Ember.Select
content=programmers
optionValuePath="content.id"
optionLabelPath="content.firstName"
selection=selectedPerson}}
```
Would result in the following HTML with a selected option:
```html
<select class="ember-select">
<option value="1">Yehuda</option>
<option value="2" selected="selected">Tom</option>
</select>
```
Interacting with the rendered element by selecting the first option
('Yehuda') will update the `selectedPerson` to match the object of
the newly selected `<option>`. In this case it is the first object
in the `programmers`
## Supplying a Prompt
A `null` value for the `Ember.Select`'s `value` or `selection` property
results in there being no `<option>` with a `selected` attribute:
```javascript
App.ApplicationController = Ember.Controller.extend({
selectedProgrammer: null,
programmers: [
"Yehuda",
"Tom"
]
});
```
``` handlebars
{{view Ember.Select
content=programmers
value=selectedProgrammer
}}
```
Would result in the following HTML:
```html
<select class="ember-select">
<option value="Yehuda">Yehuda</option>
<option value="Tom">Tom</option>
</select>
```
Although `selectedProgrammer` is `null` and no `<option>`
has a `selected` attribute the rendered HTML will display the
first item as though it were selected. You can supply a string
value for the `Ember.Select` to display when there is no selection
with the `prompt` option:
```javascript
App.ApplicationController = Ember.Controller.extend({
selectedProgrammer: null,
programmers: [
"Yehuda",
"Tom"
]
});
```
```handlebars
{{view Ember.Select
content=programmers
value=selectedProgrammer
prompt="Please select a name"
}}
```
Would result in the following HTML:
```html
<select class="ember-select">
<option>Please select a name</option>
<option value="Yehuda">Yehuda</option>
<option value="Tom">Tom</option>
</select>
```
@class Select
@namespace Ember
@extends Ember.View
*/
Ember.Select = Ember.View.extend({
tagName: 'select',
classNames: ['ember-select'],
defaultTemplate: Ember.Handlebars.template(function anonymous(Handlebars,depth0,helpers,partials,data) {
this.compilerInfo = [4,'>= 1.0.0'];
helpers = this.merge(helpers, Ember.Handlebars.helpers); data = data || {};
var buffer = '', stack1, escapeExpression=this.escapeExpression, self=this;
function program1(depth0,data) {
var buffer = '', stack1;
data.buffer.push("<option value=\"\">");
stack1 = helpers._triageMustache.call(depth0, "view.prompt", {hash:{},hashTypes:{},hashContexts:{},contexts:[depth0],types:["ID"],data:data});
if(stack1 || stack1 === 0) { data.buffer.push(stack1); }
data.buffer.push("</option>");
return buffer;
}
function program3(depth0,data) {
var stack1;
stack1 = helpers.each.call(depth0, "view.groupedContent", {hash:{},hashTypes:{},hashContexts:{},inverse:self.noop,fn:self.program(4, program4, data),contexts:[depth0],types:["ID"],data:data});
if(stack1 || stack1 === 0) { data.buffer.push(stack1); }
else { data.buffer.push(''); }
}
function program4(depth0,data) {
data.buffer.push(escapeExpression(helpers.view.call(depth0, "view.groupView", {hash:{
'content': ("content"),
'label': ("label")
},hashTypes:{'content': "ID",'label': "ID"},hashContexts:{'content': depth0,'label': depth0},contexts:[depth0],types:["ID"],data:data})));
}
function program6(depth0,data) {
var stack1;
stack1 = helpers.each.call(depth0, "view.content", {hash:{},hashTypes:{},hashContexts:{},inverse:self.noop,fn:self.program(7, program7, data),contexts:[depth0],types:["ID"],data:data});
if(stack1 || stack1 === 0) { data.buffer.push(stack1); }
else { data.buffer.push(''); }
}
function program7(depth0,data) {
data.buffer.push(escapeExpression(helpers.view.call(depth0, "view.optionView", {hash:{
'content': ("")
},hashTypes:{'content': "ID"},hashContexts:{'content': depth0},contexts:[depth0],types:["ID"],data:data})));
}
stack1 = helpers['if'].call(depth0, "view.prompt", {hash:{},hashTypes:{},hashContexts:{},inverse:self.noop,fn:self.program(1, program1, data),contexts:[depth0],types:["ID"],data:data});
if(stack1 || stack1 === 0) { data.buffer.push(stack1); }
stack1 = helpers['if'].call(depth0, "view.optionGroupPath", {hash:{},hashTypes:{},hashContexts:{},inverse:self.program(6, program6, data),fn:self.program(3, program3, data),contexts:[depth0],types:["ID"],data:data});
if(stack1 || stack1 === 0) { data.buffer.push(stack1); }
return buffer;
}),
attributeBindings: ['multiple', 'disabled', 'tabindex', 'name', 'required', 'autofocus',
'form', 'size'],
/**
The `multiple` attribute of the select element. Indicates whether multiple
options can be selected.
@property multiple
@type Boolean
@default false
*/
multiple: false,
/**
The `disabled` attribute of the select element. Indicates whether
the element is disabled from interactions.
@property disabled
@type Boolean
@default false
*/
disabled: false,
/**
The `required` attribute of the select element. Indicates whether
a selected option is required for form validation.
@property required
@type Boolean
@default false
*/
required: false,
/**
The list of options.
If `optionLabelPath` and `optionValuePath` are not overridden, this should
be a list of strings, which will serve simultaneously as labels and values.
Otherwise, this should be a list of objects. For instance:
```javascript
Ember.Select.create({
content: Ember.A([
{ id: 1, firstName: 'Yehuda' },
{ id: 2, firstName: 'Tom' }
]),
optionLabelPath: 'content.firstName',
optionValuePath: 'content.id'
});
```
@property content
@type Array
@default null
*/
content: null,
/**
When `multiple` is `false`, the element of `content` that is currently
selected, if any.
When `multiple` is `true`, an array of such elements.
@property selection
@type Object or Array
@default null
*/
selection: null,
/**
In single selection mode (when `multiple` is `false`), value can be used to
get the current selection's value or set the selection by it's value.
It is not currently supported in multiple selection mode.
@property value
@type String
@default null
*/
value: Ember.computed(function(key, value) {
if (arguments.length === 2) { return value; }
var valuePath = get(this, 'optionValuePath').replace(/^content\.?/, '');
return valuePath ? get(this, 'selection.' + valuePath) : get(this, 'selection');
}).property('selection'),
/**
If given, a top-most dummy option will be rendered to serve as a user
prompt.
@property prompt
@type String
@default null
*/
prompt: null,
/**
The path of the option labels. See [content](/api/classes/Ember.Select.html#property_content).
@property optionLabelPath
@type String
@default 'content'
*/
optionLabelPath: 'content',
/**
The path of the option values. See [content](/api/classes/Ember.Select.html#property_content).
@property optionValuePath
@type String
@default 'content'
*/
optionValuePath: 'content',
/**
The path of the option group.
When this property is used, `content` should be sorted by `optionGroupPath`.
@property optionGroupPath
@type String
@default null
*/
optionGroupPath: null,
/**
The view class for optgroup.
@property groupView
@type Ember.View
@default Ember.SelectOptgroup
*/
groupView: Ember.SelectOptgroup,
groupedContent: Ember.computed(function() {
var groupPath = get(this, 'optionGroupPath');
var groupedContent = Ember.A();
var content = get(this, 'content') || [];
forEach(content, function(item) {
var label = get(item, groupPath);
if (get(groupedContent, 'lastObject.label') !== label) {
groupedContent.pushObject({
label: label,
content: Ember.A()
});
}
get(groupedContent, 'lastObject.content').push(item);
});
return groupedContent;
}).property('optionGroupPath', 'content.@each'),
/**
The view class for option.
@property optionView
@type Ember.View
@default Ember.SelectOption
*/
optionView: Ember.SelectOption,
_change: function() {
if (get(this, 'multiple')) {
this._changeMultiple();
} else {
this._changeSingle();
}
},
selectionDidChange: Ember.observer('selection.@each', function() {
var selection = get(this, 'selection');
if (get(this, 'multiple')) {
if (!isArray(selection)) {
set(this, 'selection', Ember.A([selection]));
return;
}
this._selectionDidChangeMultiple();
} else {
this._selectionDidChangeSingle();
}
}),
valueDidChange: Ember.observer('value', function() {
var content = get(this, 'content'),
value = get(this, 'value'),
valuePath = get(this, 'optionValuePath').replace(/^content\.?/, ''),
selectedValue = (valuePath ? get(this, 's
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