678 lines
22 KiB
Markdown
678 lines
22 KiB
Markdown
@title
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Pipes
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@intro
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Pipes transform displayed values within a template.
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@description
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Every application starts out with what seems like a simple task: get data, transform them, and show them to users.
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Getting data could be as simple as creating a local variable or as complex as streaming data over a WebSocket.
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Once data arrive, you could push their raw `toString` values directly to the view,
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but that rarely makes for a good user experience.
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For example, in most use cases, users prefer to see a date in a simple format like
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<samp>April 15, 1988</samp> rather than the raw string format
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<samp>Fri Apr 15 1988 00:00:00 GMT-0700 (Pacific Daylight Time)</samp>.
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Clearly, some values benefit from a bit of editing. You may notice that you
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desire many of the same transformations repeatedly, both within and across many applications.
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You can almost think of them as styles.
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In fact, you might like to apply them in your HTML templates as you do styles.
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Introducing Angular pipes, a way to write display-value transformations that you can declare in your HTML.
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You can run the <live-example></live-example> in Plunker and download the code from there.
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## Using pipes
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A pipe takes in data as input and transforms it to a desired output.
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In this page, you'll use pipes to transform a component's birthday property into
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a human-friendly date.
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<code-example path="pipes/src/app/hero-birthday1.component.ts" title="src/app/hero-birthday1.component.ts" linenums="false">
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</code-example>
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Focus on the component's template.
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<code-example path="pipes/src/app/app.component.html" region="hero-birthday-template" title="src/app/app.component.html" linenums="false">
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</code-example>
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Inside the interpolation expression, you flow the component's `birthday` value through the
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[pipe operator](guide/template-syntax#pipe) ( | ) to the [Date pipe](api/common/index/DatePipe-pipe)
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function on the right. All pipes work this way.
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<div class="l-sub-section">
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The `Date` and `Currency` pipes need the *ECMAScript Internationalization API*.
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Safari and other older browsers don't support it. You can add support with a polyfill.
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<code-example language="html">
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<script src="https://cdn.polyfill.io/v2/polyfill.min.js?features=Intl.~locale.en"></script>
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</code-example>
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</div>
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## Built-in pipes
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Angular comes with a stock of pipes such as
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`DatePipe`, `UpperCasePipe`, `LowerCasePipe`, `CurrencyPipe`, and `PercentPipe`.
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They are all available for use in any template.
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<div class="l-sub-section">
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Read more about these and many other built-in pipes in the [pipes topics](api/#!?query=pipe) of the
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[API Reference](api); filter for entries that include the word "pipe".
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Angular doesn't have a `FilterPipe` or an `OrderByPipe` for reasons explained in the [Appendix](guide/pipes#no-filter-pipe) of this page.
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</div>
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## Parameterizing a pipe
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A pipe can accept any number of optional parameters to fine-tune its output.
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To add parameters to a pipe, follow the pipe name with a colon ( : ) and then the parameter value
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(such as `currency:'EUR'`). If the pipe accepts multiple parameters, separate the values with colons (such as `slice:1:5`)
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Modify the birthday template to give the date pipe a format parameter.
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After formatting the hero's April 15th birthday, it renders as **<samp>04/15/88</samp>**:
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<code-example path="pipes/src/app/app.component.html" region="format-birthday" title="src/app/app.component.html" linenums="false">
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</code-example>
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The parameter value can be any valid template expression,
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(see the [Template expressions](guide/template-syntax#template-expressions) section of the
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[Template Syntax](guide/template-syntax) page)
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such as a string literal or a component property.
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In other words, you can control the format through a binding the same way you control the birthday value through a binding.
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Write a second component that *binds* the pipe's format parameter
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to the component's `format` property. Here's the template for that component:
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<code-example path="pipes/src/app/hero-birthday2.component.ts" region="template" title="src/app/hero-birthday2.component.ts (template)" linenums="false">
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</code-example>
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You also added a button to the template and bound its click event to the component's `toggleFormat()` method.
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That method toggles the component's `format` property between a short form
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(`'shortDate'`) and a longer form (`'fullDate'`).
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<code-example path="pipes/src/app/hero-birthday2.component.ts" region="class" title="src/app/hero-birthday2.component.ts (class)" linenums="false">
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</code-example>
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As you click the button, the displayed date alternates between
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"**<samp>04/15/1988</samp>**" and
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"**<samp>Friday, April 15, 1988</samp>**".
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<figure class='image-display'>
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<img src='content/images/guide/pipes/date-format-toggle-anim.gif' alt="Date Format Toggle"></img>
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</figure>
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<div class="l-sub-section">
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Read more about the `DatePipe` format options in the [Date Pipe](api/common/index/DatePipe-pipe)
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API Reference page.
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</div>
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## Chaining pipes
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You can chain pipes together in potentially useful combinations.
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In the following example, to display the birthday in uppercase,
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the birthday is chained to the `DatePipe` and on to the `UpperCasePipe`.
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The birthday displays as **<samp>APR 15, 1988</samp>**.
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<code-example path="pipes/src/app/app.component.html" region="chained-birthday" title="src/app/app.component.html" linenums="false">
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</code-example>
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This example—which displays **<samp>FRIDAY, APRIL 15, 1988</samp>**—chains
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the same pipes as above, but passes in a parameter to `date` as well.
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<code-example path="pipes/src/app/app.component.html" region="chained-parameter-birthday" title="src/app/app.component.html" linenums="false">
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</code-example>
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## Custom pipes
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You can write your own custom pipes.
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Here's a custom pipe named `ExponentialStrengthPipe` that can boost a hero's powers:
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<code-example path="pipes/src/app/exponential-strength.pipe.ts" title="src/app/exponential-strength.pipe.ts" linenums="false">
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</code-example>
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This pipe definition reveals the following key points:
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* A pipe is a class decorated with pipe metadata.
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* The pipe class implements the `PipeTransform` interface's `transform` method that
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accepts an input value followed by optional parameters and returns the transformed value.
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* There will be one additional argument to the `transform` method for each parameter passed to the pipe.
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Your pipe has one such parameter: the `exponent`.
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* To tell Angular that this is a pipe, you apply the
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`@Pipe` decorator, which you import from the core Angular library.
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* The `@Pipe` decorator allows you to define the
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pipe name that you'll use within template expressions. It must be a valid JavaScript identifier.
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Your pipe's name is `exponentialStrength`.
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<div class="l-sub-section">
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### The *PipeTransform* interface
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The `transform` method is essential to a pipe.
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The `PipeTransform` *interface* defines that method and guides both tooling and the compiler.
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Technically, it's optional; Angular looks for and executes the `transform` method regardless.
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</div>
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Now you need a component to demonstrate the pipe.
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<code-example path="pipes/src/app/power-booster.component.ts" title="src/app/power-booster.component.ts" linenums="false">
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</code-example>
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<figure class='image-display'>
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<img src='content/images/guide/pipes/power-booster.png' alt="Power Booster"></img>
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</figure>
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Note the following:
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* You use your custom pipe the same way you use built-in pipes.
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* You must include your pipe in the `declarations` array of the `AppModule`.
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<div class="callout is-helpful">
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<header>
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Remember the declarations array
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</header>
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You must manually register custom pipes.
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If you don't, Angular reports an error.
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In the previous example, you didn't list the `DatePipe` because all
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Angular built-in pipes are pre-registered.
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</div>
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To probe the behavior in the <live-example></live-example>,
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change the value and optional exponent in the template.
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## Power Boost Calculator
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It's not much fun updating the template to test the custom pipe.
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Upgrade the example to a "Power Boost Calculator" that combines
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your pipe and two-way data binding with `ngModel`.
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<code-example path="pipes/src/app/power-boost-calculator.component.ts" title="src/app/power-boost-calculator.component.ts">
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</code-example>
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<figure class='image-display'>
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<img src='content/images/guide/pipes/power-boost-calculator-anim.gif' alt="Power Boost Calculator"></img>
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</figure>
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{@a change-detection}
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## Pipes and change detection
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Angular looks for changes to data-bound values through a *change detection* process that runs after every DOM event:
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every keystroke, mouse move, timer tick, and server response. This could be expensive.
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Angular strives to lower the cost whenever possible and appropriate.
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Angular picks a simpler, faster change detection algorithm when you use a pipe.
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### No pipe
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In the next example, the component uses the default, aggressive change detection strategy to monitor and update
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its display of every hero in the `heroes` array. Here's the template:
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<code-example path="pipes/src/app/flying-heroes.component.html" region="template-1" title="src/app/flying-heroes.component.html (v1)" linenums="false">
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</code-example>
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The companion component class provides heroes, adds heroes into the array, and can reset the array.
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<code-example path="pipes/src/app/flying-heroes.component.ts" region="v1" title="src/app/flying-heroes.component.ts (v1)" linenums="false">
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</code-example>
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You can add heroes and Angular updates the display when you do.
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If you click the `reset` button, Angular replaces `heroes` with a new array of the original heroes and updates the display.
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If you added the ability to remove or change a hero, Angular would detect those changes and update the display as well.
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### Flying-heroes pipe
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Add a `FlyingHeroesPipe` to the `*ngFor` repeater that filters the list of heroes to just those heroes who can fly.
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<code-example path="pipes/src/app/flying-heroes.component.html" region="template-flying-heroes" title="src/app/flying-heroes.component.html (flyers)" linenums="false">
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</code-example>
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Here's the `FlyingHeroesPipe` implementation, which follows the pattern for custom pipes described earlier.
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<code-example path="pipes/src/app/flying-heroes.pipe.ts" region="pure" title="src/app/flying-heroes.pipe.ts" linenums="false">
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</code-example>
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Notice the odd behavior in the <live-example></live-example>:
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when you add flying heroes, none of them are displayed under "Heroes who fly."
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Although you're not getting the behavior you want, Angular isn't broken.
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It's just using a different change-detection algorithm that ignores changes to the list or any of its items.
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Notice how a hero is added:
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<code-example path="pipes/src/app/flying-heroes.component.ts" region="push" title="src/app/flying-heroes.component.ts" linenums="false">
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</code-example>
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You add the hero into the `heroes` array. The reference to the array hasn't changed.
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It's the same array. That's all Angular cares about. From its perspective, *same array, no change, no display update*.
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To fix that, create an array with the new hero appended and assign that to `heroes`.
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This time Angular detects that the array reference has changed.
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It executes the pipe and updates the display with the new array, which includes the new flying hero.
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If you *mutate* the array, no pipe is invoked and the display isn't updated;
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if you *replace* the array, the pipe executes and the display is updated.
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The Flying Heroes application extends the
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code with checkbox switches and additional displays to help you experience these effects.
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<figure class='image-display'>
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<img src='content/images/guide/pipes/flying-heroes-anim.gif' alt="Flying Heroes"></img>
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</figure>
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Replacing the array is an efficient way to signal Angular to update the display.
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When do you replace the array? When the data change.
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That's an easy rule to follow in *this* example
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where the only way to change the data is by adding a hero.
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More often, you don't know when the data have changed,
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especially in applications that mutate data in many ways,
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perhaps in application locations far away.
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A component in such an application usually can't know about those changes.
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Moreover, it's unwise to distort the component design to accommodate a pipe.
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Strive to keep the component class independent of the HTML.
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The component should be unaware of pipes.
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For filtering flying heroes, consider an *impure pipe*.
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## Pure and impure pipes
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There are two categories of pipes: *pure* and *impure*.
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Pipes are pure by default. Every pipe you've seen so far has been pure.
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You make a pipe impure by setting its pure flag to false. You could make the `FlyingHeroesPipe`
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impure like this:
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<code-example path="pipes/src/app/flying-heroes.pipe.ts" region="pipe-decorator" title="src/app/flying-heroes.pipe.ts" linenums="false">
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</code-example>
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Before doing that, understand the difference between pure and impure, starting with a pure pipe.
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### Pure pipes
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Angular executes a *pure pipe* only when it detects a *pure change* to the input value.
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A pure change is either a change to a primitive input value (`String`, `Number`, `Boolean`, `Symbol`)
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or a changed object reference (`Date`, `Array`, `Function`, `Object`).
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Angular ignores changes within (composite) objects.
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It won't call a pure pipe if you change an input month, add to an input array, or update an input object property.
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This may seem restrictive but it's also fast.
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An object reference check is fast—much faster than a deep check for
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differences—so Angular can quickly determine if it can skip both the
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pipe execution and a view update.
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For this reason, a pure pipe is preferable when you can live with the change detection strategy.
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When you can't, you *can* use the impure pipe.
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<div class="l-sub-section">
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Or you might not use a pipe at all.
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It may be better to pursue the pipe's purpose with a property of the component,
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a point that's discussed later in this page.
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</div>
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### Impure pipes
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Angular executes an *impure pipe* during every component change detection cycle.
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An impure pipe is called often, as often as every keystroke or mouse-move.
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With that concern in mind, implement an impure pipe with great care.
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An expensive, long-running pipe could destroy the user experience.
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{@a impure-flying-heroes}
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### An impure *FlyingHeroesPipe*
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A flip of the switch turns the `FlyingHeroesPipe` into a `FlyingHeroesImpurePipe`.
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The complete implementation is as follows:
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<code-tabs>
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<code-pane title="FlyingHeroesImpurePipe" path="pipes/src/app/flying-heroes.pipe.ts" region="impure">
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</code-pane>
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<code-pane title="FlyingHeroesPipe" path="pipes/src/app/flying-heroes.pipe.ts" region="pure">
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</code-pane>
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</code-tabs>
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You inherit from `FlyingHeroesPipe` to prove the point that nothing changed internally.
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The only difference is the `pure` flag in the pipe metadata.
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This is a good candidate for an impure pipe because the `transform` function is trivial and fast.
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<code-example path="pipes/src/app/flying-heroes.pipe.ts" linenums="false" title="src/app/flying-heroes.pipe.ts (filter)" region="filter">
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</code-example>
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You can derive a `FlyingHeroesImpureComponent` from `FlyingHeroesComponent`.
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<code-example path="pipes/src/app/flying-heroes-impure.component.html" linenums="false" title="src/app/flying-heroes-impure.component.html (excerpt)" region="template-flying-heroes">
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</code-example>
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The only substantive change is the pipe in the template.
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You can confirm in the <live-example></live-example> that the _flying heroes_
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display updates as you add heroes, even when you mutate the `heroes` array.
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<h3 id='async-pipe'>
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The impure <i>AsyncPipe</i>
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</h3>
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The Angular `AsyncPipe` is an interesting example of an impure pipe.
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The `AsyncPipe` accepts a `Promise` or `Observable` as input
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and subscribes to the input automatically, eventually returning the emitted values.
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The `AsyncPipe` is also stateful.
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The pipe maintains a subscription to the input `Observable` and
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keeps delivering values from that `Observable` as they arrive.
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This next example binds an `Observable` of message strings
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(`message$`) to a view with the `async` pipe.
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<code-example path="pipes/src/app/hero-async-message.component.ts" title="src/app/hero-async-message.component.ts">
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</code-example>
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The Async pipe saves boilerplate in the component code.
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The component doesn't have to subscribe to the async data source,
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extract the resolved values and expose them for binding,
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and have to unsubscribe when it's destroyed
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(a potent source of memory leaks).
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### An impure caching pipe
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Write one more impure pipe, a pipe that makes an HTTP request.
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Remember that impure pipes are called every few milliseconds.
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If you're not careful, this pipe will punish the server with requests.
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In the following code, the pipe only calls the server when the request URL changes and it caches the server response.
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The code uses the [Angular http](guide/http) client to retrieve data</span>:
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<code-example path="pipes/src/app/fetch-json.pipe.ts" title="src/app/fetch-json.pipe.ts">
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</code-example>
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Now demonstrate it in a harness component whose template defines two bindings to this pipe,
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both requesting the heroes from the `heroes.json` file.
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<code-example path="pipes/src/app/hero-list.component.ts" title="src/app/hero-list.component.ts">
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</code-example>
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The component renders as the following:
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<figure class='image-display'>
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<img src='content/images/guide/pipes/hero-list.png' alt="Hero List"></img>
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</figure>
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A breakpoint on the pipe's request for data shows the following:
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* Each binding gets its own pipe instance.
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* Each pipe instance caches its own URL and data.
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* Each pipe instance only calls the server once.
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### *JsonPipe*
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In the previous code sample, the second `fetch` pipe binding demonstrates more pipe chaining.
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It displays the same hero data in JSON format by chaining through to the built-in `JsonPipe`.
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<div class="callout is-helpful">
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<header>
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Debugging with the json pipe
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</header>
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The [JsonPipe](api/common/index/JsonPipe-pipe)
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provides an easy way to diagnosis a mysteriously failing data binding or
|
|
inspect an object for future binding.
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</div>
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{@a pure-pipe-pure-fn}
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### Pure pipes and pure functions
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A pure pipe uses pure functions.
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Pure functions process inputs and return values without detectable side effects.
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Given the same input, they should always return the same output.
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|
|
The pipes discussed earlier in this page are implemented with pure functions.
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|
The built-in `DatePipe` is a pure pipe with a pure function implementation.
|
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So are the `ExponentialStrengthPipe` and `FlyingHeroesPipe`.
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A few steps back, you reviewed the `FlyingHeroesImpurePipe`—an impure pipe with a pure function.
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|
But always implement a *pure pipe* with a *pure function*.
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Otherwise, you'll see many console errors regarding expressions that changed after they were checked.
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## Next steps
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|
Pipes are a great way to encapsulate and share common display-value
|
|
transformations. Use them like styles, dropping them
|
|
into your template's expressions to enrich the appeal and usability
|
|
of your views.
|
|
|
|
Explore Angular's inventory of built-in pipes in the [API Reference](api/#!?query=pipe).
|
|
Try writing a custom pipe and perhaps contributing it to the community.
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|
{@a no-filter-pipe}
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|
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|
|
## Appendix: No *FilterPipe* or *OrderByPipe*
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|
|
Angular doesn't provide pipes for filtering or sorting lists.
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|
Developers familiar with AngularJS know these as `filter` and `orderBy`.
|
|
There are no equivalents in Angular.
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|
|
|
This isn't an oversight. Angular doesn't offer such pipes because
|
|
they perform poorly and prevent aggressive minification.
|
|
Both `filter` and `orderBy` require parameters that reference object properties.
|
|
Earlier in this page, you learned that such pipes must be [impure](guide/pipes#pure-and-impure-pipes) and that
|
|
Angular calls impure pipes in almost every change-detection cycle.
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|
|
|
Filtering and especially sorting are expensive operations.
|
|
The user experience can degrade severely for even moderate-sized lists when Angular calls these pipe methods many times per second.
|
|
`filter` and `orderBy` have often been abused in AngularJS apps, leading to complaints that Angular itself is slow.
|
|
That charge is fair in the indirect sense that AngularJS prepared this performance trap
|
|
by offering `filter` and `orderBy` in the first place.
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|
|
|
The minification hazard is also compelling, if less obvious. Imagine a sorting pipe applied to a list of heroes.
|
|
The list might be sorted by hero `name` and `planet` of origin properties in the following way:
|
|
|
|
<code-example language="html">
|
|
<!-- NOT REAL CODE! -->
|
|
<div *ngFor="let hero of heroes | orderBy:'name,planet'"></div>
|
|
</code-example>
|
|
|
|
|
|
|
|
You identify the sort fields by text strings, expecting the pipe to reference a property value by indexing
|
|
(such as `hero['name']`).
|
|
Unfortunately, aggressive minification manipulates the `Hero` property names so that `Hero.name` and `Hero.planet`
|
|
become something like `Hero.a` and `Hero.b`. Clearly `hero['name']` doesn't work.
|
|
|
|
While some may not care to minify this aggressively,
|
|
the Angular product shouldn't prevent anyone from minifying aggressively.
|
|
Therefore, the Angular team decided that everything Angular provides will minify safely.
|
|
|
|
The Angular team and many experienced Angular developers strongly recommend moving
|
|
filtering and sorting logic into the component itself.
|
|
The component can expose a `filteredHeroes` or `sortedHeroes` property and take control
|
|
over when and how often to execute the supporting logic.
|
|
Any capabilities that you would have put in a pipe and shared across the app can be
|
|
written in a filtering/sorting service and injected into the component.
|
|
|
|
If these performance and minification considerations don't apply to you, you can always create your own such pipes
|
|
(similar to the [FlyingHeroesPipe](guide/pipes#impure-flying-heroes)) or find them in the community.
|