The "foreach" binding
Purpose
The foreach
binding duplicates a section of markup for each entry in an array, and binds each copy of that markup to the corresponding array item. This is especially useful for rendering lists or tables.
Assuming your array is an observable array, whenever you later add, remove, or re-order array entries, the binding will efficiently update the UI to match - inserting or removing more copies of the markup, or re-ordering existing DOM elements, without affecting any other DOM elements. This is far faster than regenerating the entire foreach
output after each array change.
Of course, you can arbitrarily nest any number of foreach
bindings along with other control-flow bindings such as if
and with
.
Example 1: Iterating over an array
This example uses foreach
to produce a read-only table with a row for each array entry.
<table>
<thead>
<tr><th>First name</th><th>Last name</th></tr>
</thead>
<tbody data-bind="foreach: people">
<tr>
<td data-bind="text: firstName"></td>
<td data-bind="text: lastName"></td>
</tr>
</tbody>
</table>
<script type="text/javascript">
ko.applyBindings({
people: [
{ firstName: 'Bert', lastName: 'Bertington' },
{ firstName: 'Charles', lastName: 'Charlesforth' },
{ firstName: 'Denise', lastName: 'Dentiste' }
]
});
</script>
Example 2: Live example with add/remove
The following example shows that, if your array is observable, then the UI will be kept in sync with changes to that array.
People
- Name at position : Remove
Source code: View
<h4>People</h4> <ul data-bind="foreach: people"> <li> Name at position <span data-bind="text: $index"> </span>: <span data-bind="text: name"> </span> <a href="#" data-bind="click: $parent.removePerson">Remove</a> </li> </ul> <button data-bind="click: addPerson">Add</button>
Source code: View model
function AppViewModel() { var self = this; self.people = ko.observableArray([ { name: 'Bert' }, { name: 'Charles' }, { name: 'Denise' } ]); self.addPerson = function() { self.people.push({ name: "New at " + new Date() }); }; self.removePerson = function() { self.people.remove(this); } } ko.applyBindings(new AppViewModel());
Parameters
-
Main parameter
Pass the array that you wish to iterate over. The binding will output a section of markup for each entry.
Alternatively, pass a JavaScript object literal with a property called
data
which is the array you wish to iterate over. The object literal may also have other properties, such asafterAdd
orincludeDestroyed
— see below for details of these extra options and examples of their use.If the array you supply is observable, the
foreach
binding will respond to any future changes in the array’s contents by adding or removing corresponding sections of markup in the DOM. -
Additional parameters
- None
Note 1: Referring to each array entry using $data
As shown in the above examples, bindings within the foreach
block can refer to properties on the array entries. For example, Example 1 referenced the firstName
and lastName
properties on each array entry.
But what if you want to refer to the array entry itself (not just one of its properties)? In that case, you can use the special context property $data
. Within a foreach
block, it means “the current item”. For example,
<ul data-bind="foreach: months">
<li>
The current item is: <b data-bind="text: $data"></b>
</li>
</ul>
<script type="text/javascript">
ko.applyBindings({
months: [ 'Jan', 'Feb', 'Mar', 'etc' ]
});
</script>
If you wanted, you could use $data
as a prefix when referencing properties on each entry. For example, you could rewrite part of Example 1 as follows:
<td data-bind="text: $data.firstName"></td>
… but you don’t have to, because firstName
will be evaluated within the context of $data
by default anyway. If the items in the array are observables, $data
will refer to the value of each observable. To refer to the observable itself, use $rawData
.
Note 2: Using $index, $parent, and other context properties
As you can see from Example 2 above, it’s possible to use $index
to refer to the zero-based index of the current array item. $index
is an observable and is updated whenever the index of the item changes (e.g., if items are added to or removed from the array).
Similarly, you can use $parent
to refer to data from outside the foreach
, e.g.:
<h1 data-bind="text: blogPostTitle"></h1>
<ul data-bind="foreach: likes">
<li>
<b data-bind="text: name"></b> likes the blog post <b data-bind="text: $parent.blogPostTitle"></b>
</li>
</ul>
For more information about $index
and other context properties such as $parent
, see documentation for binding context properties.
Note 3: Using “as” to give an alias to “foreach” items
As described in Note 1, you can refer to each array entry using the $data
context variable. In some cases though, it may be useful to give the current item a more descriptive name using the as
option like:
<ul data-bind="foreach: { data: people, as: 'person' }"></ul>
Now anywhere inside this foreach
loop, bindings will be able to refer to person
to access the current array item that is being rendered from the people
array. This can be especially useful in scenarios where you have nested foreach
blocks and you need to refer to an item declared at a higher level in the hierarchy. For example:
<ul data-bind="foreach: { data: categories, as: 'category' }">
<li>
<ul data-bind="foreach: { data: items, as: 'item' }">
<li>
<span data-bind="text: category.name"></span>:
<span data-bind="text: item"></span>
</li>
</ul>
</li>
</ul>
<script>
var viewModel = {
categories: ko.observableArray([
{ name: 'Fruit', items: [ 'Apple', 'Orange', 'Banana' ] },
{ name: 'Vegetables', items: [ 'Celery', 'Corn', 'Spinach' ] }
])
};
ko.applyBindings(viewModel);
</script>
Tip: Remember to pass a string literal value to as
(e.g., as: 'category'
, not as: category
), because you are giving a name for a new variable, not reading the value of a variable that already exists.
The as
option also provides a corresponding index value. For example, if you set as: 'category'
, you can access the index of the current item using categoryIndex
.
Using “as” without creating a child context
The default behavior of the as
option is to add a name for the current item while still also binding the contents to the item. But you may prefer keep the context unchanged and only set the name of the current item. This latter behavior will probably be the default in a future version of Knockout. To turn it on for a specific binding, set the noChildContext
option to true
. When this option is used along with as
, all access to the array items must be through the given name, and $data
will remain set to the outer viewmodel. For example:
<ul data-bind="foreach: { data: categories, as: 'category', noChildContext: true }">
<li>
<ul data-bind="foreach: { data: category.items, as: 'item', noChildContext: true }">
<li>
<span data-bind="text: category.name"></span>:
<span data-bind="text: item"></span>
</li>
</ul>
</li>
</ul>
Note 4: Using foreach without a container element
In some cases, you might want to duplicate a section of markup, but you don’t have any container element on which to put a foreach
binding. For example, you might want to generate the following:
<ul>
<li class="header">Header item</li>
<!-- The following are generated dynamically from an array -->
<li>Item A</li>
<li>Item B</li>
<li>Item C</li>
</ul>
In this example, there isn’t anywhere to put a normal foreach
binding. You can’t put it on the <ul>
(because then you’d be duplicating the header item), nor can you put a further container inside the <ul>
(because only <li>
elements are allowed inside <ul>
s).
To handle this, you can use the containerless control flow syntax, which is based on comment tags. For example,
<ul>
<li class="header">Header item</li>
<!-- ko foreach: myItems -->
<li>Item <span data-bind="text: $data"></span></li>
<!-- /ko -->
</ul>
<script type="text/javascript">
ko.applyBindings({
myItems: [ 'A', 'B', 'C' ]
});
</script>
The <!-- ko -->
and <!-- /ko -->
comments act as start/end markers, defining a “virtual element” that contains the markup inside. Knockout understands this virtual element syntax and binds as if you had a real container element.
Note 5: How array changes are detected and handled
When you modify the contents of your model array (by adding, moving, or deleting its entries), the foreach
binding uses an efficient differencing algorithm to figure out what has changed, so it can then update the DOM to match. This means it can handle arbitrary combinations of simulaneous changes.
- When you add array entries,
foreach
will render new copies of your template and insert them into the existing DOM - When you delete array entries,
foreach
will simply remove the corresponding DOM elements - When you reorder array entries (retaining the same object instances),
foreach
will typically just move the corresponding DOM elements into their new position
Note that reordering detection is not guaranteed: to ensure the algorithm completes quickly, it is optimized to detect “simple” movements of small numbers of array entries. If the algorithm detects too many simultaneous reorderings combined with unrelated insertions and deletions, then for speed it can choose to regard a reordering as an “delete” plus an “add” instead of a single “move”, and in that case the corresponding DOM elements will be torn down and recreated. Most developers won’t encounter this edge case, and even if you do, the end-user experience will usually be identical.
Note 6: Hiding destroyed entries
Sometimes you may want to mark an array entry as deleted without actually losing record of its existence. This is known as a non-destructive delete. For details of how to do this, see the destroy function on observableArray
.
By default, the foreach
binding will show all array entries, even those that are marked as destroyed. If you want to hide destroyed entries, set the includeDestroyed
option to false
. For example,
<div data-bind='foreach: { data: myArray, includeDestroyed: false }'>
...
</div>
Prior to Knockout 3.5.0, the default behavior was to hide destroyed items. To use this behavior as the default in newer versions, you can set a global option: ko.options.foreachHidesDestroyed = true
. Then, if you want to show destroyed items for a specific foreach
binding, you would set includeDestroyed: true
.
Note 7: Post-processing or animating the generated DOM elements
If you need to run some further custom logic on the generated DOM elements, you can use any of the afterRender
/afterAdd
/beforeRemove
/beforeMove
/afterMove
callbacks described below.
Note: These callbacks are only intended for triggering animations related to changes in a list. If your goal is actually to attach other behaviors to new DOM elements when they have been added (e.g., event handlers, or to activate third-party UI controls), then your work will be much easier if you implement that new behavior as a custom binding instead, because then you can use that behavior anywhere, independently of the
foreach
binding.
Here’s a trivial example that uses afterAdd
to apply the classic “yellow fade” effect to newly-added items. It requires the jQuery Color plugin to enable animation of background colors.
<ul data-bind="foreach: { data: myItems, afterAdd: yellowFadeIn }">
<li data-bind="text: $data"></li>
</ul>
<button data-bind="click: addItem">Add</button>
<script type="text/javascript">
ko.applyBindings({
myItems: ko.observableArray([ 'A', 'B', 'C' ]),
yellowFadeIn: function(element, index, data) {
$(element).filter("li")
.animate({ backgroundColor: 'yellow' }, 200)
.animate({ backgroundColor: 'white' }, 800);
},
addItem: function() { this.myItems.push('New item'); }
});
</script>
Full details:
-
afterRender
— is invoked each time theforeach
block is duplicated and inserted into the document, both whenforeach
first initializes, and when new entries are added to the associated array later. Knockout will supply the following parameters to your callback:- An array of the inserted DOM elements
- The data item against which they are being bound
-
afterAdd
— is likeafterRender
, except it is invoked only when new entries are added to your array (and not whenforeach
first iterates over your array’s initial contents). A common use forafterAdd
is to call a method such as jQuery’s$(domNode).fadeIn()
so that you get animated transitions whenever items are added. Knockout will supply the following parameters to your callback:- A DOM node being added to the document
- The index of the added array element
- The added array element
-
beforeRemove
— is invoked when an array item has been removed, but before the corresponding DOM nodes have been removed. If you specify abeforeRemove
callback, then it becomes your responsibility to remove the DOM nodes. The obvious use case here is calling something like jQuery’s$(domNode).fadeOut()
to animate the removal of the corresponding DOM nodes — in this case, Knockout cannot know how soon it is allowed to physically remove the DOM nodes (who knows how long your animation will take?), so it is up to you to remove them. Knockout will supply the following parameters to your callback:- A DOM node that you should remove
- The index of the removed array element
- The removed array element
-
beforeMove
— is invoked when an array item has changed position in the array, but before the corresponding DOM nodes have been moved. Note thatbeforeMove
applies to all array elements whose indexes have changed, so if you insert a new item at the beginning of an array, then the callback (if specified) will fire for all other elements, since their index position has increased by one. You could usebeforeMove
to store the original screen coordinates of the affected elements so that you can animate their movements in theafterMove
callback. Knockout will supply the following parameters to your callback:- A DOM node that may be about to move
- The index of the moved array element
- The moved array element
-
afterMove
— is invoked after an array item has changed position in the array, and afterforeach
has updated the DOM to match. Note thatafterMove
applies to all array elements whose indexes have changed, so if you insert a new item at the beginning of an array, then the callback (if specified) will fire for all other elements, since their index position has increased by one. Knockout will supply the following parameters to your callback:- A DOM node that may have moved
- The index of the moved array element
- The moved array element
For examples of afterAdd
and beforeRemove
see animated transitions.
Dependencies
None, other than the core Knockout library.