/** * @license Angular v17.1.3 * (c) 2010-2022 Google LLC. https://angular.io/ * License: MIT */ import { DOCUMENT } from '@angular/common'; import * as i0 from '@angular/core'; import { inject, Injectable, ANIMATION_MODULE_TYPE, ViewEncapsulation, ɵRuntimeError, Inject } from '@angular/core'; /** * @description Constants for the categories of parameters that can be defined for animations. * * A corresponding function defines a set of parameters for each category, and * collects them into a corresponding `AnimationMetadata` object. * * @publicApi */ var AnimationMetadataType; (function (AnimationMetadataType) { /** * Associates a named animation state with a set of CSS styles. * See [`state()`](api/animations/state) */ AnimationMetadataType[AnimationMetadataType["State"] = 0] = "State"; /** * Data for a transition from one animation state to another. * See `transition()` */ AnimationMetadataType[AnimationMetadataType["Transition"] = 1] = "Transition"; /** * Contains a set of animation steps. * See `sequence()` */ AnimationMetadataType[AnimationMetadataType["Sequence"] = 2] = "Sequence"; /** * Contains a set of animation steps. * See `{@link animations/group group()}` */ AnimationMetadataType[AnimationMetadataType["Group"] = 3] = "Group"; /** * Contains an animation step. * See `animate()` */ AnimationMetadataType[AnimationMetadataType["Animate"] = 4] = "Animate"; /** * Contains a set of animation steps. * See `keyframes()` */ AnimationMetadataType[AnimationMetadataType["Keyframes"] = 5] = "Keyframes"; /** * Contains a set of CSS property-value pairs into a named style. * See `style()` */ AnimationMetadataType[AnimationMetadataType["Style"] = 6] = "Style"; /** * Associates an animation with an entry trigger that can be attached to an element. * See `trigger()` */ AnimationMetadataType[AnimationMetadataType["Trigger"] = 7] = "Trigger"; /** * Contains a re-usable animation. * See `animation()` */ AnimationMetadataType[AnimationMetadataType["Reference"] = 8] = "Reference"; /** * Contains data to use in executing child animations returned by a query. * See `animateChild()` */ AnimationMetadataType[AnimationMetadataType["AnimateChild"] = 9] = "AnimateChild"; /** * Contains animation parameters for a re-usable animation. * See `useAnimation()` */ AnimationMetadataType[AnimationMetadataType["AnimateRef"] = 10] = "AnimateRef"; /** * Contains child-animation query data. * See `query()` */ AnimationMetadataType[AnimationMetadataType["Query"] = 11] = "Query"; /** * Contains data for staggering an animation sequence. * See `stagger()` */ AnimationMetadataType[AnimationMetadataType["Stagger"] = 12] = "Stagger"; })(AnimationMetadataType || (AnimationMetadataType = {})); /** * Specifies automatic styling. * * @publicApi */ const AUTO_STYLE = '*'; /** * Creates a named animation trigger, containing a list of [`state()`](api/animations/state) * and `transition()` entries to be evaluated when the expression * bound to the trigger changes. * * @param name An identifying string. * @param definitions An animation definition object, containing an array of * [`state()`](api/animations/state) and `transition()` declarations. * * @return An object that encapsulates the trigger data. * * @usageNotes * Define an animation trigger in the `animations` section of `@Component` metadata. * In the template, reference the trigger by name and bind it to a trigger expression that * evaluates to a defined animation state, using the following format: * * `[@triggerName]="expression"` * * Animation trigger bindings convert all values to strings, and then match the * previous and current values against any linked transitions. * Booleans can be specified as `1` or `true` and `0` or `false`. * * ### Usage Example * * The following example creates an animation trigger reference based on the provided * name value. * The provided animation value is expected to be an array consisting of state and * transition declarations. * * ```typescript * @Component({ * selector: "my-component", * templateUrl: "my-component-tpl.html", * animations: [ * trigger("myAnimationTrigger", [ * state(...), * state(...), * transition(...), * transition(...) * ]) * ] * }) * class MyComponent { * myStatusExp = "something"; * } * ``` * * The template associated with this component makes use of the defined trigger * by binding to an element within its template code. * * ```html * *
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* ``` * * ### Using an inline function * The `transition` animation method also supports reading an inline function which can decide * if its associated animation should be run. * * ```typescript * // this method is run each time the `myAnimationTrigger` trigger value changes. * function myInlineMatcherFn(fromState: string, toState: string, element: any, params: {[key: string]: any}): boolean { * // notice that `element` and `params` are also available here * return toState == 'yes-please-animate'; * } * * @Component({ * selector: 'my-component', * templateUrl: 'my-component-tpl.html', * animations: [ * trigger('myAnimationTrigger', [ * transition(myInlineMatcherFn, [ * // the animation sequence code * ]), * ]) * ] * }) * class MyComponent { * myStatusExp = "yes-please-animate"; * } * ``` * * ### Disabling Animations * When true, the special animation control binding `@.disabled` binding prevents * all animations from rendering. * Place the `@.disabled` binding on an element to disable * animations on the element itself, as well as any inner animation triggers * within the element. * * The following example shows how to use this feature: * * ```typescript * @Component({ * selector: 'my-component', * template: ` *
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* `, * animations: [ * trigger("childAnimation", [ * // ... * ]) * ] * }) * class MyComponent { * isDisabled = true; * exp = '...'; * } * ``` * * When `@.disabled` is true, it prevents the `@childAnimation` trigger from animating, * along with any inner animations. * * ### Disable animations application-wide * When an area of the template is set to have animations disabled, * **all** inner components have their animations disabled as well. * This means that you can disable all animations for an app * by placing a host binding set on `@.disabled` on the topmost Angular component. * * ```typescript * import {Component, HostBinding} from '@angular/core'; * * @Component({ * selector: 'app-component', * templateUrl: 'app.component.html', * }) * class AppComponent { * @HostBinding('@.disabled') * public animationsDisabled = true; * } * ``` * * ### Overriding disablement of inner animations * Despite inner animations being disabled, a parent animation can `query()` * for inner elements located in disabled areas of the template and still animate * them if needed. This is also the case for when a sub animation is * queried by a parent and then later animated using `animateChild()`. * * ### Detecting when an animation is disabled * If a region of the DOM (or the entire application) has its animations disabled, the animation * trigger callbacks still fire, but for zero seconds. When the callback fires, it provides * an instance of an `AnimationEvent`. If animations are disabled, * the `.disabled` flag on the event is true. * * @publicApi */ function trigger(name, definitions) { return { type: AnimationMetadataType.Trigger, name, definitions, options: {} }; } /** * Defines an animation step that combines styling information with timing information. * * @param timings Sets `AnimateTimings` for the parent animation. * A string in the format "duration [delay] [easing]". * - Duration and delay are expressed as a number and optional time unit, * such as "1s" or "10ms" for one second and 10 milliseconds, respectively. * The default unit is milliseconds. * - The easing value controls how the animation accelerates and decelerates * during its runtime. Value is one of `ease`, `ease-in`, `ease-out`, * `ease-in-out`, or a `cubic-bezier()` function call. * If not supplied, no easing is applied. * * For example, the string "1s 100ms ease-out" specifies a duration of * 1000 milliseconds, and delay of 100 ms, and the "ease-out" easing style, * which decelerates near the end of the duration. * @param styles Sets AnimationStyles for the parent animation. * A function call to either `style()` or `keyframes()` * that returns a collection of CSS style entries to be applied to the parent animation. * When null, uses the styles from the destination state. * This is useful when describing an animation step that will complete an animation; * see "Animating to the final state" in `transitions()`. * @returns An object that encapsulates the animation step. * * @usageNotes * Call within an animation `sequence()`, `{@link animations/group group()}`, or * `transition()` call to specify an animation step * that applies given style data to the parent animation for a given amount of time. * * ### Syntax Examples * **Timing examples** * * The following examples show various `timings` specifications. * - `animate(500)` : Duration is 500 milliseconds. * - `animate("1s")` : Duration is 1000 milliseconds. * - `animate("100ms 0.5s")` : Duration is 100 milliseconds, delay is 500 milliseconds. * - `animate("5s ease-in")` : Duration is 5000 milliseconds, easing in. * - `animate("5s 10ms cubic-bezier(.17,.67,.88,.1)")` : Duration is 5000 milliseconds, delay is 10 * milliseconds, easing according to a bezier curve. * * **Style examples** * * The following example calls `style()` to set a single CSS style. * ```typescript * animate(500, style({ background: "red" })) * ``` * The following example calls `keyframes()` to set a CSS style * to different values for successive keyframes. * ```typescript * animate(500, keyframes( * [ * style({ background: "blue" }), * style({ background: "red" }) * ]) * ``` * * @publicApi */ function animate(timings, styles = null) { return { type: AnimationMetadataType.Animate, styles, timings }; } /** * @description Defines a list of animation steps to be run in parallel. * * @param steps An array of animation step objects. * - When steps are defined by `style()` or `animate()` * function calls, each call within the group is executed instantly. * - To specify offset styles to be applied at a later time, define steps with * `keyframes()`, or use `animate()` calls with a delay value. * For example: * * ```typescript * group([ * animate("1s", style({ background: "black" })), * animate("2s", style({ color: "white" })) * ]) * ``` * * @param options An options object containing a delay and * developer-defined parameters that provide styling defaults and * can be overridden on invocation. * * @return An object that encapsulates the group data. * * @usageNotes * Grouped animations are useful when a series of styles must be * animated at different starting times and closed off at different ending times. * * When called within a `sequence()` or a * `transition()` call, does not continue to the next * instruction until all of the inner animation steps have completed. * * @publicApi */ function group(steps, options = null) { return { type: AnimationMetadataType.Group, steps, options }; } /** * Defines a list of animation steps to be run sequentially, one by one. * * @param steps An array of animation step objects. * - Steps defined by `style()` calls apply the styling data immediately. * - Steps defined by `animate()` calls apply the styling data over time * as specified by the timing data. * * ```typescript * sequence([ * style({ opacity: 0 }), * animate("1s", style({ opacity: 1 })) * ]) * ``` * * @param options An options object containing a delay and * developer-defined parameters that provide styling defaults and * can be overridden on invocation. * * @return An object that encapsulates the sequence data. * * @usageNotes * When you pass an array of steps to a * `transition()` call, the steps run sequentially by default. * Compare this to the `{@link animations/group group()}` call, which runs animation steps in *parallel. * * When a sequence is used within a `{@link animations/group group()}` or a `transition()` call, * execution continues to the next instruction only after each of the inner animation * steps have completed. * * @publicApi **/ function sequence(steps, options = null) { return { type: AnimationMetadataType.Sequence, steps, options }; } /** * Declares a key/value object containing CSS properties/styles that * can then be used for an animation [`state`](api/animations/state), within an animation *`sequence`, or as styling data for calls to `animate()` and `keyframes()`. * * @param tokens A set of CSS styles or HTML styles associated with an animation state. * The value can be any of the following: * - A key-value style pair associating a CSS property with a value. * - An array of key-value style pairs. * - An asterisk (*), to use auto-styling, where styles are derived from the element * being animated and applied to the animation when it starts. * * Auto-styling can be used to define a state that depends on layout or other * environmental factors. * * @return An object that encapsulates the style data. * * @usageNotes * The following examples create animation styles that collect a set of * CSS property values: * * ```typescript * // string values for CSS properties * style({ background: "red", color: "blue" }) * * // numerical pixel values * style({ width: 100, height: 0 }) * ``` * * The following example uses auto-styling to allow an element to animate from * a height of 0 up to its full height: * * ``` * style({ height: 0 }), * animate("1s", style({ height: "*" })) * ``` * * @publicApi **/ function style(tokens) { return { type: AnimationMetadataType.Style, styles: tokens, offset: null }; } /** * Declares an animation state within a trigger attached to an element. * * @param name One or more names for the defined state in a comma-separated string. * The following reserved state names can be supplied to define a style for specific use * cases: * * - `void` You can associate styles with this name to be used when * the element is detached from the application. For example, when an `ngIf` evaluates * to false, the state of the associated element is void. * - `*` (asterisk) Indicates the default state. You can associate styles with this name * to be used as the fallback when the state that is being animated is not declared * within the trigger. * * @param styles A set of CSS styles associated with this state, created using the * `style()` function. * This set of styles persists on the element once the state has been reached. * @param options Parameters that can be passed to the state when it is invoked. * 0 or more key-value pairs. * @return An object that encapsulates the new state data. * * @usageNotes * Use the `trigger()` function to register states to an animation trigger. * Use the `transition()` function to animate between states. * When a state is active within a component, its associated styles persist on the element, * even when the animation ends. * * @publicApi **/ function state(name, styles, options) { return { type: AnimationMetadataType.State, name, styles, options }; } /** * Defines a set of animation styles, associating each style with an optional `offset` value. * * @param steps A set of animation styles with optional offset data. * The optional `offset` value for a style specifies a percentage of the total animation * time at which that style is applied. * @returns An object that encapsulates the keyframes data. * * @usageNotes * Use with the `animate()` call. Instead of applying animations * from the current state * to the destination state, keyframes describe how each style entry is applied and at what point * within the animation arc. * Compare [CSS Keyframe Animations](https://www.w3schools.com/css/css3_animations.asp). * * ### Usage * * In the following example, the offset values describe * when each `backgroundColor` value is applied. The color is red at the start, and changes to * blue when 20% of the total time has elapsed. * * ```typescript * // the provided offset values * animate("5s", keyframes([ * style({ backgroundColor: "red", offset: 0 }), * style({ backgroundColor: "blue", offset: 0.2 }), * style({ backgroundColor: "orange", offset: 0.3 }), * style({ backgroundColor: "black", offset: 1 }) * ])) * ``` * * If there are no `offset` values specified in the style entries, the offsets * are calculated automatically. * * ```typescript * animate("5s", keyframes([ * style({ backgroundColor: "red" }) // offset = 0 * style({ backgroundColor: "blue" }) // offset = 0.33 * style({ backgroundColor: "orange" }) // offset = 0.66 * style({ backgroundColor: "black" }) // offset = 1 * ])) *``` * @publicApi */ function keyframes(steps) { return { type: AnimationMetadataType.Keyframes, steps }; } /** * Declares an animation transition which is played when a certain specified condition is met. * * @param stateChangeExpr A string with a specific format or a function that specifies when the * animation transition should occur (see [State Change Expression](#state-change-expression)). * * @param steps One or more animation objects that represent the animation's instructions. * * @param options An options object that can be used to specify a delay for the animation or provide * custom parameters for it. * * @returns An object that encapsulates the transition data. * * @usageNotes * * ### State Change Expression * * The State Change Expression instructs Angular when to run the transition's animations, it can *either be * - a string with a specific syntax * - or a function that compares the previous and current state (value of the expression bound to * the element's trigger) and returns `true` if the transition should occur or `false` otherwise * * The string format can be: * - `fromState => toState`, which indicates that the transition's animations should occur then the * expression bound to the trigger's element goes from `fromState` to `toState` * * _Example:_ * ```typescript * transition('open => closed', animate('.5s ease-out', style({ height: 0 }) )) * ``` * * - `fromState <=> toState`, which indicates that the transition's animations should occur then * the expression bound to the trigger's element goes from `fromState` to `toState` or vice versa * * _Example:_ * ```typescript * transition('enabled <=> disabled', animate('1s cubic-bezier(0.8,0.3,0,1)')) * ``` * * - `:enter`/`:leave`, which indicates that the transition's animations should occur when the * element enters or exists the DOM * * _Example:_ * ```typescript * transition(':enter', [ * style({ opacity: 0 }), * animate('500ms', style({ opacity: 1 })) * ]) * ``` * * - `:increment`/`:decrement`, which indicates that the transition's animations should occur when * the numerical expression bound to the trigger's element has increased in value or decreased * * _Example:_ * ```typescript * transition(':increment', query('@counter', animateChild())) * ``` * * - a sequence of any of the above divided by commas, which indicates that transition's animations * should occur whenever one of the state change expressions matches * * _Example:_ * ```typescript * transition(':increment, * => enabled, :enter', animate('1s ease', keyframes([ * style({ transform: 'scale(1)', offset: 0}), * style({ transform: 'scale(1.1)', offset: 0.7}), * style({ transform: 'scale(1)', offset: 1}) * ]))), * ``` * * Also note that in such context: * - `void` can be used to indicate the absence of the element * - asterisks can be used as wildcards that match any state * - (as a consequence of the above, `void => *` is equivalent to `:enter` and `* => void` is * equivalent to `:leave`) * - `true` and `false` also match expression values of `1` and `0` respectively (but do not match * _truthy_ and _falsy_ values) * *
* * Be careful about entering end leaving elements as their transitions present a common * pitfall for developers. * * Note that when an element with a trigger enters the DOM its `:enter` transition always * gets executed, but its `:leave` transition will not be executed if the element is removed * alongside its parent (as it will be removed "without warning" before its transition has * a chance to be executed, the only way that such transition can occur is if the element * is exiting the DOM on its own). * * *
* * ### Animating to a Final State * * If the final step in a transition is a call to `animate()` that uses a timing value * with no `style` data, that step is automatically considered the final animation arc, * for the element to reach the final state, in such case Angular automatically adds or removes * CSS styles to ensure that the element is in the correct final state. * * * ### Usage Examples * * - Transition animations applied based on * the trigger's expression value * * ```HTML *
* ... *
* ``` * * ```typescript * trigger("myAnimationTrigger", [ * ..., // states * transition("on => off, open => closed", animate(500)), * transition("* <=> error", query('.indicator', animateChild())) * ]) * ``` * * - Transition animations applied based on custom logic dependent * on the trigger's expression value and provided parameters * * ```HTML *
* ... *
* ``` * * ```typescript * trigger("myAnimationTrigger", [ * ..., // states * transition( * (fromState, toState, _element, params) => * ['firststep', 'laststep'].includes(fromState.toLowerCase()) * && toState === params?.['target'], * animate('1s') * ) * ]) * ``` * * @publicApi **/ function transition(stateChangeExpr, steps, options = null) { return { type: AnimationMetadataType.Transition, expr: stateChangeExpr, animation: steps, options }; } /** * Produces a reusable animation that can be invoked in another animation or sequence, * by calling the `useAnimation()` function. * * @param steps One or more animation objects, as returned by the `animate()` * or `sequence()` function, that form a transformation from one state to another. * A sequence is used by default when you pass an array. * @param options An options object that can contain a delay value for the start of the * animation, and additional developer-defined parameters. * Provided values for additional parameters are used as defaults, * and override values can be passed to the caller on invocation. * @returns An object that encapsulates the animation data. * * @usageNotes * The following example defines a reusable animation, providing some default parameter * values. * * ```typescript * var fadeAnimation = animation([ * style({ opacity: '{{ start }}' }), * animate('{{ time }}', * style({ opacity: '{{ end }}'})) * ], * { params: { time: '1000ms', start: 0, end: 1 }}); * ``` * * The following invokes the defined animation with a call to `useAnimation()`, * passing in override parameter values. * * ```js * useAnimation(fadeAnimation, { * params: { * time: '2s', * start: 1, * end: 0 * } * }) * ``` * * If any of the passed-in parameter values are missing from this call, * the default values are used. If one or more parameter values are missing before a step is * animated, `useAnimation()` throws an error. * * @publicApi */ function animation(steps, options = null) { return { type: AnimationMetadataType.Reference, animation: steps, options }; } /** * Executes a queried inner animation element within an animation sequence. * * @param options An options object that can contain a delay value for the start of the * animation, and additional override values for developer-defined parameters. * @return An object that encapsulates the child animation data. * * @usageNotes * Each time an animation is triggered in Angular, the parent animation * has priority and any child animations are blocked. In order * for a child animation to run, the parent animation must query each of the elements * containing child animations, and run them using this function. * * Note that this feature is designed to be used with `query()` and it will only work * with animations that are assigned using the Angular animation library. CSS keyframes * and transitions are not handled by this API. * * @publicApi */ function animateChild(options = null) { return { type: AnimationMetadataType.AnimateChild, options }; } /** * Starts a reusable animation that is created using the `animation()` function. * * @param animation The reusable animation to start. * @param options An options object that can contain a delay value for the start of * the animation, and additional override values for developer-defined parameters. * @return An object that contains the animation parameters. * * @publicApi */ function useAnimation(animation, options = null) { return { type: AnimationMetadataType.AnimateRef, animation, options }; } /** * Finds one or more inner elements within the current element that is * being animated within a sequence. Use with `animate()`. * * @param selector The element to query, or a set of elements that contain Angular-specific * characteristics, specified with one or more of the following tokens. * - `query(":enter")` or `query(":leave")` : Query for newly inserted/removed elements (not * all elements can be queried via these tokens, see * [Entering and Leaving Elements](#entering-and-leaving-elements)) * - `query(":animating")` : Query all currently animating elements. * - `query("@triggerName")` : Query elements that contain an animation trigger. * - `query("@*")` : Query all elements that contain an animation triggers. * - `query(":self")` : Include the current element into the animation sequence. * * @param animation One or more animation steps to apply to the queried element or elements. * An array is treated as an animation sequence. * @param options An options object. Use the 'limit' field to limit the total number of * items to collect. * @return An object that encapsulates the query data. * * @usageNotes * * ### Multiple Tokens * * Tokens can be merged into a combined query selector string. For example: * * ```typescript * query(':self, .record:enter, .record:leave, @subTrigger', [...]) * ``` * * The `query()` function collects multiple elements and works internally by using * `element.querySelectorAll`. Use the `limit` field of an options object to limit * the total number of items to be collected. For example: * * ```js * query('div', [ * animate(...), * animate(...) * ], { limit: 1 }) * ``` * * By default, throws an error when zero items are found. Set the * `optional` flag to ignore this error. For example: * * ```js * query('.some-element-that-may-not-be-there', [ * animate(...), * animate(...) * ], { optional: true }) * ``` * * ### Entering and Leaving Elements * * Not all elements can be queried via the `:enter` and `:leave` tokens, the only ones * that can are those that Angular assumes can enter/leave based on their own logic * (if their insertion/removal is simply a consequence of that of their parent they * should be queried via a different token in their parent's `:enter`/`:leave` transitions). * * The only elements Angular assumes can enter/leave based on their own logic (thus the only * ones that can be queried via the `:enter` and `:leave` tokens) are: * - Those inserted dynamically (via `ViewContainerRef`) * - Those that have a structural directive (which, under the hood, are a subset of the above ones) * *
* * Note that elements will be successfully queried via `:enter`/`:leave` even if their * insertion/removal is not done manually via `ViewContainerRef`or caused by their structural * directive (e.g. they enter/exit alongside their parent). * *
* *
* * There is an exception to what previously mentioned, besides elements entering/leaving based on * their own logic, elements with an animation trigger can always be queried via `:leave` when * their parent is also leaving. * *
* * ### Usage Example * * The following example queries for inner elements and animates them * individually using `animate()`. * * ```typescript * @Component({ * selector: 'inner', * template: ` *
*

Title

*
* Blah blah blah *
*
* `, * animations: [ * trigger('queryAnimation', [ * transition('* => goAnimate', [ * // hide the inner elements * query('h1', style({ opacity: 0 })), * query('.content', style({ opacity: 0 })), * * // animate the inner elements in, one by one * query('h1', animate(1000, style({ opacity: 1 }))), * query('.content', animate(1000, style({ opacity: 1 }))), * ]) * ]) * ] * }) * class Cmp { * exp = ''; * * goAnimate() { * this.exp = 'goAnimate'; * } * } * ``` * * @publicApi */ function query(selector, animation, options = null) { return { type: AnimationMetadataType.Query, selector, animation, options }; } /** * Use within an animation `query()` call to issue a timing gap after * each queried item is animated. * * @param timings A delay value. * @param animation One ore more animation steps. * @returns An object that encapsulates the stagger data. * * @usageNotes * In the following example, a container element wraps a list of items stamped out * by an `ngFor`. The container element contains an animation trigger that will later be set * to query for each of the inner items. * * Each time items are added, the opacity fade-in animation runs, * and each removed item is faded out. * When either of these animations occur, the stagger effect is * applied after each item's animation is started. * * ```html * * *
*
*
* {{ item }} *
*
* ``` * * Here is the component code: * * ```typescript * import {trigger, transition, style, animate, query, stagger} from '@angular/animations'; * @Component({ * templateUrl: 'list.component.html', * animations: [ * trigger('listAnimation', [ * ... * ]) * ] * }) * class ListComponent { * items = []; * * showItems() { * this.items = [0,1,2,3,4]; * } * * hideItems() { * this.items = []; * } * * toggle() { * this.items.length ? this.hideItems() : this.showItems(); * } * } * ``` * * Here is the animation trigger code: * * ```typescript * trigger('listAnimation', [ * transition('* => *', [ // each time the binding value changes * query(':leave', [ * stagger(100, [ * animate('0.5s', style({ opacity: 0 })) * ]) * ]), * query(':enter', [ * style({ opacity: 0 }), * stagger(100, [ * animate('0.5s', style({ opacity: 1 })) * ]) * ]) * ]) * ]) * ``` * * @publicApi */ function stagger(timings, animation) { return { type: AnimationMetadataType.Stagger, timings, animation }; } /** * An injectable service that produces an animation sequence programmatically within an * Angular component or directive. * Provided by the `BrowserAnimationsModule` or `NoopAnimationsModule`. * * @usageNotes * * To use this service, add it to your component or directive as a dependency. * The service is instantiated along with your component. * * Apps do not typically need to create their own animation players, but if you * do need to, follow these steps: * * 1. Use the [AnimationBuilder.build](api/animations/AnimationBuilder#build)() method * to create a programmatic animation. The method returns an `AnimationFactory` instance. * * 2. Use the factory object to create an `AnimationPlayer` and attach it to a DOM element. * * 3. Use the player object to control the animation programmatically. * * For example: * * ```ts * // import the service from BrowserAnimationsModule * import {AnimationBuilder} from '@angular/animations'; * // require the service as a dependency * class MyCmp { * constructor(private _builder: AnimationBuilder) {} * * makeAnimation(element: any) { * // first define a reusable animation * const myAnimation = this._builder.build([ * style({ width: 0 }), * animate(1000, style({ width: '100px' })) * ]); * * // use the returned factory object to create a player * const player = myAnimation.create(element); * * player.play(); * } * } * ``` * * @publicApi */ class AnimationBuilder { static { this.ɵfac = i0.ɵɵngDeclareFactory({ minVersion: "12.0.0", version: "17.1.3", ngImport: i0, type: AnimationBuilder, deps: [], target: i0.ɵɵFactoryTarget.Injectable }); } static { this.ɵprov = i0.ɵɵngDeclareInjectable({ minVersion: "12.0.0", version: "17.1.3", ngImport: i0, type: AnimationBuilder, providedIn: 'root', useFactory: () => inject(BrowserAnimationBuilder) }); } } i0.ɵɵngDeclareClassMetadata({ minVersion: "12.0.0", version: "17.1.3", ngImport: i0, type: AnimationBuilder, decorators: [{ type: Injectable, args: [{ providedIn: 'root', useFactory: () => inject(BrowserAnimationBuilder) }] }] }); /** * A factory object returned from the * [AnimationBuilder.build](api/animations/AnimationBuilder#build)() * method. * * @publicApi */ class AnimationFactory { } class BrowserAnimationBuilder extends AnimationBuilder { constructor(rootRenderer, doc) { super(); this.animationModuleType = inject(ANIMATION_MODULE_TYPE, { optional: true }); this._nextAnimationId = 0; const typeData = { id: '0', encapsulation: ViewEncapsulation.None, styles: [], data: { animation: [] }, }; this._renderer = rootRenderer.createRenderer(doc.body, typeData); if (this.animationModuleType === null && !isAnimationRenderer(this._renderer)) { // We only support AnimationRenderer & DynamicDelegationRenderer for this AnimationBuilder throw new ɵRuntimeError(3600 /* RuntimeErrorCode.BROWSER_ANIMATION_BUILDER_INJECTED_WITHOUT_ANIMATIONS */, (typeof ngDevMode === 'undefined' || ngDevMode) && 'Angular detected that the `AnimationBuilder` was injected, but animation support was not enabled. ' + 'Please make sure that you enable animations in your application by calling `provideAnimations()` or `provideAnimationsAsync()` function.'); } } build(animation) { const id = this._nextAnimationId; this._nextAnimationId++; const entry = Array.isArray(animation) ? sequence(animation) : animation; issueAnimationCommand(this._renderer, null, id, 'register', [entry]); return new BrowserAnimationFactory(id, this._renderer); } static { this.ɵfac = i0.ɵɵngDeclareFactory({ minVersion: "12.0.0", version: "17.1.3", ngImport: i0, type: BrowserAnimationBuilder, deps: [{ token: i0.RendererFactory2 }, { token: DOCUMENT }], target: i0.ɵɵFactoryTarget.Injectable }); } static { this.ɵprov = i0.ɵɵngDeclareInjectable({ minVersion: "12.0.0", version: "17.1.3", ngImport: i0, type: BrowserAnimationBuilder, providedIn: 'root' }); } } i0.ɵɵngDeclareClassMetadata({ minVersion: "12.0.0", version: "17.1.3", ngImport: i0, type: BrowserAnimationBuilder, decorators: [{ type: Injectable, args: [{ providedIn: 'root' }] }], ctorParameters: () => [{ type: i0.RendererFactory2 }, { type: Document, decorators: [{ type: Inject, args: [DOCUMENT] }] }] }); class BrowserAnimationFactory extends AnimationFactory { constructor(_id, _renderer) { super(); this._id = _id; this._renderer = _renderer; } create(element, options) { return new RendererAnimationPlayer(this._id, element, options || {}, this._renderer); } } class RendererAnimationPlayer { constructor(id, element, options, _renderer) { this.id = id; this.element = element; this._renderer = _renderer; this.parentPlayer = null; this._started = false; this.totalTime = 0; this._command('create', options); } _listen(eventName, callback) { return this._renderer.listen(this.element, `@@${this.id}:${eventName}`, callback); } _command(command, ...args) { issueAnimationCommand(this._renderer, this.element, this.id, command, args); } onDone(fn) { this._listen('done', fn); } onStart(fn) { this._listen('start', fn); } onDestroy(fn) { this._listen('destroy', fn); } init() { this._command('init'); } hasStarted() { return this._started; } play() { this._command('play'); this._started = true; } pause() { this._command('pause'); } restart() { this._command('restart'); } finish() { this._command('finish'); } destroy() { this._command('destroy'); } reset() { this._command('reset'); this._started = false; } setPosition(p) { this._command('setPosition', p); } getPosition() { return unwrapAnimationRenderer(this._renderer)?.engine?.players[this.id]?.getPosition() ?? 0; } } function issueAnimationCommand(renderer, element, id, command, args) { renderer.setProperty(element, `@@${id}:${command}`, args); } /** * The following 2 methods cannot reference their correct types (AnimationRenderer & * DynamicDelegationRenderer) since this would introduce a import cycle. */ function unwrapAnimationRenderer(renderer) { const type = renderer.ɵtype; if (type === 0 /* AnimationRendererType.Regular */) { return renderer; } else if (type === 1 /* AnimationRendererType.Delegated */) { return renderer.animationRenderer; } return null; } function isAnimationRenderer(renderer) { const type = renderer.ɵtype; return type === 0 /* AnimationRendererType.Regular */ || type === 1 /* AnimationRendererType.Delegated */; } /** * An empty programmatic controller for reusable animations. * Used internally when animations are disabled, to avoid * checking for the null case when an animation player is expected. * * @see {@link animate} * @see {@link AnimationPlayer} * @see {@link ɵAnimationGroupPlayer AnimationGroupPlayer} * * @publicApi */ class NoopAnimationPlayer { constructor(duration = 0, delay = 0) { this._onDoneFns = []; this._onStartFns = []; this._onDestroyFns = []; this._originalOnDoneFns = []; this._originalOnStartFns = []; this._started = false; this._destroyed = false; this._finished = false; this._position = 0; this.parentPlayer = null; this.totalTime = duration + delay; } _onFinish() { if (!this._finished) { this._finished = true; this._onDoneFns.forEach((fn) => fn()); this._onDoneFns = []; } } onStart(fn) { this._originalOnStartFns.push(fn); this._onStartFns.push(fn); } onDone(fn) { this._originalOnDoneFns.push(fn); this._onDoneFns.push(fn); } onDestroy(fn) { this._onDestroyFns.push(fn); } hasStarted() { return this._started; } init() { } play() { if (!this.hasStarted()) { this._onStart(); this.triggerMicrotask(); } this._started = true; } /** @internal */ triggerMicrotask() { queueMicrotask(() => this._onFinish()); } _onStart() { this._onStartFns.forEach((fn) => fn()); this._onStartFns = []; } pause() { } restart() { } finish() { this._onFinish(); } destroy() { if (!this._destroyed) { this._destroyed = true; if (!this.hasStarted()) { this._onStart(); } this.finish(); this._onDestroyFns.forEach((fn) => fn()); this._onDestroyFns = []; } } reset() { this._started = false; this._finished = false; this._onStartFns = this._originalOnStartFns; this._onDoneFns = this._originalOnDoneFns; } setPosition(position) { this._position = this.totalTime ? position * this.totalTime : 1; } getPosition() { return this.totalTime ? this._position / this.totalTime : 1; } /** @internal */ triggerCallback(phaseName) { const methods = phaseName == 'start' ? this._onStartFns : this._onDoneFns; methods.forEach((fn) => fn()); methods.length = 0; } } /** * A programmatic controller for a group of reusable animations. * Used internally to control animations. * * @see {@link AnimationPlayer} * @see {@link animations/group group} * */ class AnimationGroupPlayer { constructor(_players) { this._onDoneFns = []; this._onStartFns = []; this._finished = false; this._started = false; this._destroyed = false; this._onDestroyFns = []; this.parentPlayer = null; this.totalTime = 0; this.players = _players; let doneCount = 0; let destroyCount = 0; let startCount = 0; const total = this.players.length; if (total == 0) { queueMicrotask(() => this._onFinish()); } else { this.players.forEach((player) => { player.onDone(() => { if (++doneCount == total) { this._onFinish(); } }); player.onDestroy(() => { if (++destroyCount == total) { this._onDestroy(); } }); player.onStart(() => { if (++startCount == total) { this._onStart(); } }); }); } this.totalTime = this.players.reduce((time, player) => Math.max(time, player.totalTime), 0); } _onFinish() { if (!this._finished) { this._finished = true; this._onDoneFns.forEach((fn) => fn()); this._onDoneFns = []; } } init() { this.players.forEach((player) => player.init()); } onStart(fn) { this._onStartFns.push(fn); } _onStart() { if (!this.hasStarted()) { this._started = true; this._onStartFns.forEach((fn) => fn()); this._onStartFns = []; } } onDone(fn) { this._onDoneFns.push(fn); } onDestroy(fn) { this._onDestroyFns.push(fn); } hasStarted() { return this._started; } play() { if (!this.parentPlayer) { this.init(); } this._onStart(); this.players.forEach((player) => player.play()); } pause() { this.players.forEach((player) => player.pause()); } restart() { this.players.forEach((player) => player.restart()); } finish() { this._onFinish(); this.players.forEach((player) => player.finish()); } destroy() { this._onDestroy(); } _onDestroy() { if (!this._destroyed) { this._destroyed = true; this._onFinish(); this.players.forEach((player) => player.destroy()); this._onDestroyFns.forEach((fn) => fn()); this._onDestroyFns = []; } } reset() { this.players.forEach((player) => player.reset()); this._destroyed = false; this._finished = false; this._started = false; } setPosition(p) { const timeAtPosition = p * this.totalTime; this.players.forEach((player) => { const position = player.totalTime ? Math.min(1, timeAtPosition / player.totalTime) : 1; player.setPosition(position); }); } getPosition() { const longestPlayer = this.players.reduce((longestSoFar, player) => { const newPlayerIsLongest = longestSoFar === null || player.totalTime > longestSoFar.totalTime; return newPlayerIsLongest ? player : longestSoFar; }, null); return longestPlayer != null ? longestPlayer.getPosition() : 0; } beforeDestroy() { this.players.forEach((player) => { if (player.beforeDestroy) { player.beforeDestroy(); } }); } /** @internal */ triggerCallback(phaseName) { const methods = phaseName == 'start' ? this._onStartFns : this._onDoneFns; methods.forEach((fn) => fn()); methods.length = 0; } } const ɵPRE_STYLE = '!'; /** * @module * @description * Entry point for all animation APIs of the animation package. */ /** * @module * @description * Entry point for all public APIs of this package. */ // This file is not used to build this module. It is only used during editing /** * Generated bundle index. Do not edit. */ export { AUTO_STYLE, AnimationBuilder, AnimationFactory, AnimationMetadataType, NoopAnimationPlayer, animate, animateChild, animation, group, keyframes, query, sequence, stagger, state, style, transition, trigger, useAnimation, AnimationGroupPlayer as ɵAnimationGroupPlayer, BrowserAnimationBuilder as ɵBrowserAnimationBuilder, ɵPRE_STYLE }; //# sourceMappingURL=animations.mjs.map