# Template syntax
The Angular application manages what the user sees and can do, achieving this through the interaction of a component class instance (the *component*) and its user-facing template.
You may be familiar with the component/template duality from your experience with model-view-controller (MVC) or model-view-viewmodel (MVVM).
In Angular, the component plays the part of the controller/viewmodel, and the template represents the view.
This page is a comprehensive technical reference to the Angular template language.
It explains basic principles of the template language and describes most of the syntax that you'll encounter elsewhere in the documentation.
Many code snippets illustrate the points and concepts, all of them available
in the .
{@a html}
## HTML in templates
HTML is the language of the Angular template.
Almost all HTML syntax is valid template syntax.
The ` Syntax" is the interpolated evil title.
"Template alert("evil never sleeps")Syntax" is the property bound evil title.
{@a other-bindings}
## Attribute, class, and style bindings
The template syntax provides specialized one-way bindings for scenarios less well-suited to property binding.
To see attribute, class, and style bindings in a functioning app, see the especially for this section.
### Attribute binding
Set the value of an attribute directly with an **attribute binding**. This is the only exception to the rule that a binding sets a target property and the only binding that creates and sets an attribute.
Usually, setting an element property with a [property binding](guide/template-syntax#property-binding)
is preferable to setting the attribute with a string. However, sometimes
there is no element property to bind, so attribute binding is the solution.
Consider the [ARIA](https://developer.mozilla.org/en-US/docs/Web/Accessibility/ARIA) and
[SVG](https://developer.mozilla.org/en-US/docs/Web/SVG). They are purely attributes, don't correspond to element properties, and don't set element properties. In these cases, there are no property targets to bind to.
Attribute binding syntax resembles property binding, but
instead of an element property between brackets, start with the prefix `attr`,
followed by a dot (`.`), and the name of the attribute.
You then set the attribute value, using an expression that resolves to a string,
or remove the attribute when the expression resolves to `null`.
One of the primary use cases for attribute binding
is to set ARIA attributes, as in this example:
#### `colspan` and `colSpan`
Notice the difference between the `colspan` attribute and the `colSpan` property.
If you wrote something like this:
<tr><td colspan="{{1 + 1}}">Three-Four</td></tr>
You'd get this error:
Template parse errors:
Can't bind to 'colspan' since it isn't a known native property
As the message says, the `
` element does not have a `colspan` property. This is true
because `colspan` is an attribute—`colSpan`, with a capital `S`, is the
corresponding property. Interpolation and property binding can set only *properties*, not attributes.
Instead, you'd use property binding and write it like this:
### Class binding
Add and remove CSS class names from an element's `class` attribute with
a **class binding**.
Here's how to set the attribute without binding in plain HTML:
```html
Item clearance special
```
Class binding syntax resembles property binding, but instead of an element property between brackets, start with the prefix `class`,
optionally followed by a dot (`.`) and the name of a CSS class: `[class.class-name]`.
You can replace that with a binding to a string of the desired class names; this is an all-or-nothing, replacement binding.
You can also add a class to an element without overwriting the classes already on the element:
Finally, you can bind to a specific class name.
Angular adds the class when the template expression evaluates to truthy.
It removes the class when the expression is falsy.
While this technique is suitable for toggling a single class name,
consider the [`NgClass`](guide/template-syntax#ngClass) directive when
managing multiple class names at the same time.
### Style binding
You can set inline styles with a **style binding**.
Style binding syntax resembles property binding.
Instead of an element property between brackets, start with the prefix `style`,
followed by a dot (`.`) and the name of a CSS style property: `[style.style-property]`.
Some style binding styles have a unit extension.
The following example conditionally sets the font size in “em” and “%” units.
This technique is suitable for setting a single style, but consider
the [`NgStyle`](guide/template-syntax#ngStyle) directive when setting several inline styles at the same time.
Note that a _style property_ name can be written in either
[dash-case](guide/glossary#dash-case), as shown above, or
[camelCase](guide/glossary#camelcase), such as `fontSize`.
{@a event-binding}
## Event binding `(event)`
Event binding allows you to listen for certain events such as
keystrokes, mouse movements, clicks, and touches. For an example
demonstrating all of the points in this section, see the event binding example.
Angular event binding syntax consists of a **target event** name
within parentheses on the left of an equal sign, and a quoted
template statement on the right.
The following event binding listens for the button's click events, calling
the component's `onSave()` method whenever a click occurs:
### Target event
As above, the target is the button's click event.
Alternatively, use the `on-` prefix, known as the canonical form:
Element events may be the more common targets, but Angular looks first to see if the name matches an event property
of a known directive, as it does in the following example:
If the name fails to match an element event or an output property of a known directive,
Angular reports an “unknown directive” error.
### *$event* and event handling statements
In an event binding, Angular sets up an event handler for the target event.
When the event is raised, the handler executes the template statement.
The template statement typically involves a receiver, which performs an action
in response to the event, such as storing a value from the HTML control
into a model.
The binding conveys information about the event. This information can include data values such as an event object, string, or number named `$event`.
The target event determines the shape of the `$event` object.
If the target event is a native DOM element event, then `$event` is a
[DOM event object](https://developer.mozilla.org/en-US/docs/Web/Events),
with properties such as `target` and `target.value`.
Consider this example:
This code sets the `` `value` property by binding to the `name` property.
To listen for changes to the value, the code binds to the `input`
event of the `` element.
When the user makes changes, the `input` event is raised, and the binding executes
the statement within a context that includes the DOM event object, `$event`.
To update the `name` property, the changed text is retrieved by following the path `$event.target.value`.
If the event belongs to a directive—recall that components
are directives—`$event` has whatever shape the directive produces.
### Custom events with `EventEmitter`
Directives typically raise custom events with an Angular [EventEmitter](api/core/EventEmitter).
The directive creates an `EventEmitter` and exposes it as a property.
The directive calls `EventEmitter.emit(payload)` to fire an event, passing in a message payload, which can be anything.
Parent directives listen for the event by binding to this property and accessing the payload through the `$event` object.
Consider an `ItemDetailComponent` that presents item information and responds to user actions.
Although the `ItemDetailComponent` has a delete button, it doesn't know how to delete the hero. It can only raise an event reporting the user's delete request.
Here are the pertinent excerpts from that `ItemDetailComponent`:
The component defines a `deleteRequest` property that returns an `EventEmitter`.
When the user clicks *delete*, the component invokes the `delete()` method,
telling the `EventEmitter` to emit an `Item` object.
Now imagine a hosting parent component that binds to the `deleteRequest` event
of the `ItemDetailComponent`.
When the `deleteRequest` event fires, Angular calls the parent component's
`deleteItem()` method, passing the *item-to-delete* (emitted by `ItemDetail`)
in the `$event` variable.
### Template statements have side effects
Though [template expressions](guide/template-syntax#template-expressions) shouldn't have [side effects](guide/template-syntax#avoid-side-effects), template
statements usually do. The `deleteItem()` method does have
a side effect: it deletes an item.
Deleting an item updates the model, and depending on your code, triggers
other changes including queries and saving to a remote server.
These changes propagate through the system and ultimately display in this and other views.
{@a two-way}
## Two-way binding `[(...)]`
Two-way binding gives your app a way to share data between a component class and
its template.
For a demonstration of the syntax and code snippets in this section, see the two-way binding example.
### Basics of two-way binding
Two-way binding does two things:
1. Sets a specific element property.
1. Listens for an element change event.
Angular offers a special _two-way data binding_ syntax for this purpose, `[()]`.
The `[()]` syntax combines the brackets
of property binding, `[]`, with the parentheses of event binding, `()`.
[( )] = banana in a box
Visualize a *banana in a box* to remember that the parentheses go _inside_ the brackets.
The `[()]` syntax is easy to demonstrate when the element has a settable
property called `x` and a corresponding event named `xChange`.
Here's a `SizerComponent` that fits this pattern.
It has a `size` value property and a companion `sizeChange` event:
The initial `size` is an input value from a property binding.
Clicking the buttons increases or decreases the `size`, within
min/max value constraints,
and then raises, or emits, the `sizeChange` event with the adjusted size.
Here's an example in which the `AppComponent.fontSizePx` is two-way bound to the `SizerComponent`:
The `AppComponent.fontSizePx` establishes the initial `SizerComponent.size` value.
Clicking the buttons updates the `AppComponent.fontSizePx` via the two-way binding.
The revised `AppComponent.fontSizePx` value flows through to the _style_ binding,
making the displayed text bigger or smaller.
The two-way binding syntax is really just syntactic sugar for a _property_ binding and an _event_ binding.
Angular desugars the `SizerComponent` binding into this:
The `$event` variable contains the payload of the `SizerComponent.sizeChange` event.
Angular assigns the `$event` value to the `AppComponent.fontSizePx` when the user clicks the buttons.
### Two-way binding in forms
The two-way binding syntax is a great convenience compared to
separate property and event bindings. It would be convenient to
use two-way binding with HTML form elements like `` and
`