Icard/angular-clarity-master(work.../node_modules/@angular/cdk/testing/index.d.ts

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/** An async function that returns a promise when called. */
export declare type AsyncFactoryFn<T> = () => Promise<T>;
/** An async function that takes an item and an option value and returns a boolean promise. */
export declare type AsyncOptionPredicate<T, O> = (item: T, option: O) => Promise<boolean>;
/** An async function that takes an item and returns a boolean promise */
export declare type AsyncPredicate<T> = (item: T) => Promise<boolean>;
/** Represents the status of auto change detection. */
export declare interface AutoChangeDetectionStatus {
/** Whether auto change detection is disabled. */
isDisabled: boolean;
/**
* An optional callback, if present it indicates that change detection should be run immediately,
* while handling the status change. The callback should then be called as soon as change
* detection is done.
*/
onDetectChangesNow?: () => void;
}
/** A set of criteria that can be used to filter a list of `ComponentHarness` instances. */
export declare interface BaseHarnessFilters {
/** Only find instances whose host element matches the given selector. */
selector?: string;
/** Only find instances that are nested under an element with the given selector. */
ancestor?: string;
}
/**
* Base class for component harnesses that all component harness authors should extend. This base
* component harness provides the basic ability to locate element and sub-component harness. It
* should be inherited when defining user's own harness.
*/
export declare abstract class ComponentHarness {
protected readonly locatorFactory: LocatorFactory;
constructor(locatorFactory: LocatorFactory);
/** Gets a `Promise` for the `TestElement` representing the host element of the component. */
host(): Promise<TestElement>;
/**
* Gets a `LocatorFactory` for the document root element. This factory can be used to create
* locators for elements that a component creates outside of its own root element. (e.g. by
* appending to document.body).
*/
protected documentRootLocatorFactory(): LocatorFactory;
/**
* Creates an asynchronous locator function that can be used to find a `ComponentHarness` instance
* or element under the host element of this `ComponentHarness`.
* @param queries A list of queries specifying which harnesses and elements to search for:
* - A `string` searches for elements matching the CSS selector specified by the string.
* - A `ComponentHarness` constructor searches for `ComponentHarness` instances matching the
* given class.
* - A `HarnessPredicate` searches for `ComponentHarness` instances matching the given
* predicate.
* @return An asynchronous locator function that searches for and returns a `Promise` for the
* first element or harness matching the given search criteria. Matches are ordered first by
* order in the DOM, and second by order in the queries list. If no matches are found, the
* `Promise` rejects. The type that the `Promise` resolves to is a union of all result types for
* each query.
*
* e.g. Given the following DOM: `<div id="d1" /><div id="d2" />`, and assuming
* `DivHarness.hostSelector === 'div'`:
* - `await ch.locatorFor(DivHarness, 'div')()` gets a `DivHarness` instance for `#d1`
* - `await ch.locatorFor('div', DivHarness)()` gets a `TestElement` instance for `#d1`
* - `await ch.locatorFor('span')()` throws because the `Promise` rejects.
*/
protected locatorFor<T extends (HarnessQuery<any> | string)[]>(...queries: T): AsyncFactoryFn<LocatorFnResult<T>>;
/**
* Creates an asynchronous locator function that can be used to find a `ComponentHarness` instance
* or element under the host element of this `ComponentHarness`.
* @param queries A list of queries specifying which harnesses and elements to search for:
* - A `string` searches for elements matching the CSS selector specified by the string.
* - A `ComponentHarness` constructor searches for `ComponentHarness` instances matching the
* given class.
* - A `HarnessPredicate` searches for `ComponentHarness` instances matching the given
* predicate.
* @return An asynchronous locator function that searches for and returns a `Promise` for the
* first element or harness matching the given search criteria. Matches are ordered first by
* order in the DOM, and second by order in the queries list. If no matches are found, the
* `Promise` is resolved with `null`. The type that the `Promise` resolves to is a union of all
* result types for each query or null.
*
* e.g. Given the following DOM: `<div id="d1" /><div id="d2" />`, and assuming
* `DivHarness.hostSelector === 'div'`:
* - `await ch.locatorForOptional(DivHarness, 'div')()` gets a `DivHarness` instance for `#d1`
* - `await ch.locatorForOptional('div', DivHarness)()` gets a `TestElement` instance for `#d1`
* - `await ch.locatorForOptional('span')()` gets `null`.
*/
protected locatorForOptional<T extends (HarnessQuery<any> | string)[]>(...queries: T): AsyncFactoryFn<LocatorFnResult<T> | null>;
/**
* Creates an asynchronous locator function that can be used to find `ComponentHarness` instances
* or elements under the host element of this `ComponentHarness`.
* @param queries A list of queries specifying which harnesses and elements to search for:
* - A `string` searches for elements matching the CSS selector specified by the string.
* - A `ComponentHarness` constructor searches for `ComponentHarness` instances matching the
* given class.
* - A `HarnessPredicate` searches for `ComponentHarness` instances matching the given
* predicate.
* @return An asynchronous locator function that searches for and returns a `Promise` for all
* elements and harnesses matching the given search criteria. Matches are ordered first by
* order in the DOM, and second by order in the queries list. If an element matches more than
* one `ComponentHarness` class, the locator gets an instance of each for the same element. If
* an element matches multiple `string` selectors, only one `TestElement` instance is returned
* for that element. The type that the `Promise` resolves to is an array where each element is
* the union of all result types for each query.
*
* e.g. Given the following DOM: `<div id="d1" /><div id="d2" />`, and assuming
* `DivHarness.hostSelector === 'div'` and `IdIsD1Harness.hostSelector === '#d1'`:
* - `await ch.locatorForAll(DivHarness, 'div')()` gets `[
* DivHarness, // for #d1
* TestElement, // for #d1
* DivHarness, // for #d2
* TestElement // for #d2
* ]`
* - `await ch.locatorForAll('div', '#d1')()` gets `[
* TestElement, // for #d1
* TestElement // for #d2
* ]`
* - `await ch.locatorForAll(DivHarness, IdIsD1Harness)()` gets `[
* DivHarness, // for #d1
* IdIsD1Harness, // for #d1
* DivHarness // for #d2
* ]`
* - `await ch.locatorForAll('span')()` gets `[]`.
*/
protected locatorForAll<T extends (HarnessQuery<any> | string)[]>(...queries: T): AsyncFactoryFn<LocatorFnResult<T>[]>;
/**
* Flushes change detection and async tasks in the Angular zone.
* In most cases it should not be necessary to call this manually. However, there may be some edge
* cases where it is needed to fully flush animation events.
*/
protected forceStabilize(): Promise<void>;
/**
* Waits for all scheduled or running async tasks to complete. This allows harness
* authors to wait for async tasks outside of the Angular zone.
*/
protected waitForTasksOutsideAngular(): Promise<void>;
}
/** Constructor for a ComponentHarness subclass. */
export declare interface ComponentHarnessConstructor<T extends ComponentHarness> {
new (locatorFactory: LocatorFactory): T;
/**
* `ComponentHarness` subclasses must specify a static `hostSelector` property that is used to
* find the host element for the corresponding component. This property should match the selector
* for the Angular component.
*/
hostSelector: string;
}
/**
* Base class for component harnesses that authors should extend if they anticipate that consumers
* of the harness may want to access other harnesses within the `<ng-content>` of the component.
*/
export declare abstract class ContentContainerComponentHarness<S extends string = string> extends ComponentHarness implements HarnessLoader {
getChildLoader(selector: S): Promise<HarnessLoader>;
getAllChildLoaders(selector: S): Promise<HarnessLoader[]>;
getHarness<T extends ComponentHarness>(query: HarnessQuery<T>): Promise<T>;
getHarnessOrNull<T extends ComponentHarness>(query: HarnessQuery<T>): Promise<T | null>;
getAllHarnesses<T extends ComponentHarness>(query: HarnessQuery<T>): Promise<T[]>;
hasHarness<T extends ComponentHarness>(query: HarnessQuery<T>): Promise<boolean>;
/**
* Gets the root harness loader from which to start
* searching for content contained by this harness.
*/
protected getRootHarnessLoader(): Promise<HarnessLoader>;
}
/**
* Dimensions for element size and its position relative to the viewport.
*/
export declare interface ElementDimensions {
top: number;
left: number;
width: number;
height: number;
}
/** Data that can be attached to a custom event dispatched from a `TestElement`. */
export declare type EventData = string | number | boolean | Function | undefined | null | EventData[] | {
[key: string]: EventData;
};
/**
* Returns an error which reports that no keys have been specified.
* @docs-private
*/
export declare function getNoKeysSpecifiedError(): Error;
/**
* Gets text of element excluding certain selectors within the element.
* @param element Element to get text from,
* @param excludeSelector Selector identifying which elements to exclude,
*/
export declare function _getTextWithExcludedElements(element: Element, excludeSelector: string): string;
/**
* Allows a test `HarnessEnvironment` to install its own handler for auto change detection status
* changes.
* @param handler The handler for the auto change detection status.
*/
export declare function handleAutoChangeDetectionStatus(handler: (status: AutoChangeDetectionStatus) => void): void;
/**
* Base harness environment class that can be extended to allow `ComponentHarness`es to be used in
* different test environments (e.g. testbed, protractor, etc.). This class implements the
* functionality of both a `HarnessLoader` and `LocatorFactory`. This class is generic on the raw
* element type, `E`, used by the particular test environment.
*/
export declare abstract class HarnessEnvironment<E> implements HarnessLoader, LocatorFactory {
protected rawRootElement: E;
get rootElement(): TestElement;
set rootElement(element: TestElement);
private _rootElement;
protected constructor(rawRootElement: E);
documentRootLocatorFactory(): LocatorFactory;
locatorFor<T extends (HarnessQuery<any> | string)[]>(...queries: T): AsyncFactoryFn<LocatorFnResult<T>>;
locatorForOptional<T extends (HarnessQuery<any> | string)[]>(...queries: T): AsyncFactoryFn<LocatorFnResult<T> | null>;
locatorForAll<T extends (HarnessQuery<any> | string)[]>(...queries: T): AsyncFactoryFn<LocatorFnResult<T>[]>;
rootHarnessLoader(): Promise<HarnessLoader>;
harnessLoaderFor(selector: string): Promise<HarnessLoader>;
harnessLoaderForOptional(selector: string): Promise<HarnessLoader | null>;
harnessLoaderForAll(selector: string): Promise<HarnessLoader[]>;
getHarness<T extends ComponentHarness>(query: HarnessQuery<T>): Promise<T>;
getHarnessOrNull<T extends ComponentHarness>(query: HarnessQuery<T>): Promise<T | null>;
getAllHarnesses<T extends ComponentHarness>(query: HarnessQuery<T>): Promise<T[]>;
hasHarness<T extends ComponentHarness>(query: HarnessQuery<T>): Promise<boolean>;
getChildLoader(selector: string): Promise<HarnessLoader>;
getAllChildLoaders(selector: string): Promise<HarnessLoader[]>;
/** Creates a `ComponentHarness` for the given harness type with the given raw host element. */
protected createComponentHarness<T extends ComponentHarness>(harnessType: ComponentHarnessConstructor<T>, element: E): T;
abstract forceStabilize(): Promise<void>;
abstract waitForTasksOutsideAngular(): Promise<void>;
/** Gets the root element for the document. */
protected abstract getDocumentRoot(): E;
/** Creates a `TestElement` from a raw element. */
protected abstract createTestElement(element: E): TestElement;
/** Creates a `HarnessLoader` rooted at the given raw element. */
protected abstract createEnvironment(element: E): HarnessEnvironment<E>;
/**
* Gets a list of all elements matching the given selector under this environment's root element.
*/
protected abstract getAllRawElements(selector: string): Promise<E[]>;
/**
* Matches the given raw elements with the given list of element and harness queries to produce a
* list of matched harnesses and test elements.
*/
private _getAllHarnessesAndTestElements;
/**
* Check whether the given query matches the given element, if it does return the matched
* `TestElement` or `ComponentHarness`, if it does not, return null. In cases where the caller
* knows for sure that the query matches the element's selector, `skipSelectorCheck` can be used
* to skip verification and optimize performance.
*/
private _getQueryResultForElement;
}
/**
* Interface used to load ComponentHarness objects. This interface is used by test authors to
* instantiate `ComponentHarness`es.
*/
export declare interface HarnessLoader {
/**
* Searches for an element with the given selector under the current instances's root element,
* and returns a `HarnessLoader` rooted at the matching element. If multiple elements match the
* selector, the first is used. If no elements match, an error is thrown.
* @param selector The selector for the root element of the new `HarnessLoader`
* @return A `HarnessLoader` rooted at the element matching the given selector.
* @throws If a matching element can't be found.
*/
getChildLoader(selector: string): Promise<HarnessLoader>;
/**
* Searches for all elements with the given selector under the current instances's root element,
* and returns an array of `HarnessLoader`s, one for each matching element, rooted at that
* element.
* @param selector The selector for the root element of the new `HarnessLoader`
* @return A list of `HarnessLoader`s, one for each matching element, rooted at that element.
*/
getAllChildLoaders(selector: string): Promise<HarnessLoader[]>;
/**
* Searches for an instance of the component corresponding to the given harness type under the
* `HarnessLoader`'s root element, and returns a `ComponentHarness` for that instance. If multiple
* matching components are found, a harness for the first one is returned. If no matching
* component is found, an error is thrown.
* @param query A query for a harness to create
* @return An instance of the given harness type
* @throws If a matching component instance can't be found.
*/
getHarness<T extends ComponentHarness>(query: HarnessQuery<T>): Promise<T>;
/**
* Searches for an instance of the component corresponding to the given harness type under the
* `HarnessLoader`'s root element, and returns a `ComponentHarness` for that instance. If multiple
* matching components are found, a harness for the first one is returned. If no matching
* component is found, null is returned.
* @param query A query for a harness to create
* @return An instance of the given harness type (or null if not found).
*/
getHarnessOrNull<T extends ComponentHarness>(query: HarnessQuery<T>): Promise<T | null>;
/**
* Searches for all instances of the component corresponding to the given harness type under the
* `HarnessLoader`'s root element, and returns a list `ComponentHarness` for each instance.
* @param query A query for a harness to create
* @return A list instances of the given harness type.
*/
getAllHarnesses<T extends ComponentHarness>(query: HarnessQuery<T>): Promise<T[]>;
/**
* Searches for an instance of the component corresponding to the given harness type under the
* `HarnessLoader`'s root element, and returns a boolean indicating if any were found.
* @param query A query for a harness to create
* @return A boolean indicating if an instance was found.
*/
hasHarness<T extends ComponentHarness>(query: HarnessQuery<T>): Promise<boolean>;
}
/**
* A class used to associate a ComponentHarness class with predicates functions that can be used to
* filter instances of the class.
*/
export declare class HarnessPredicate<T extends ComponentHarness> {
harnessType: ComponentHarnessConstructor<T>;
private _predicates;
private _descriptions;
private _ancestor;
constructor(harnessType: ComponentHarnessConstructor<T>, options: BaseHarnessFilters);
/**
* Checks if the specified nullable string value matches the given pattern.
* @param value The nullable string value to check, or a Promise resolving to the
* nullable string value.
* @param pattern The pattern the value is expected to match. If `pattern` is a string,
* `value` is expected to match exactly. If `pattern` is a regex, a partial match is
* allowed. If `pattern` is `null`, the value is expected to be `null`.
* @return Whether the value matches the pattern.
*/
static stringMatches(value: string | null | Promise<string | null>, pattern: string | RegExp | null): Promise<boolean>;
/**
* Adds a predicate function to be run against candidate harnesses.
* @param description A description of this predicate that may be used in error messages.
* @param predicate An async predicate function.
* @return this (for method chaining).
*/
add(description: string, predicate: AsyncPredicate<T>): this;
/**
* Adds a predicate function that depends on an option value to be run against candidate
* harnesses. If the option value is undefined, the predicate will be ignored.
* @param name The name of the option (may be used in error messages).
* @param option The option value.
* @param predicate The predicate function to run if the option value is not undefined.
* @return this (for method chaining).
*/
addOption<O>(name: string, option: O | undefined, predicate: AsyncOptionPredicate<T, O>): this;
/**
* Filters a list of harnesses on this predicate.
* @param harnesses The list of harnesses to filter.
* @return A list of harnesses that satisfy this predicate.
*/
filter(harnesses: T[]): Promise<T[]>;
/**
* Evaluates whether the given harness satisfies this predicate.
* @param harness The harness to check
* @return A promise that resolves to true if the harness satisfies this predicate,
* and resolves to false otherwise.
*/
evaluate(harness: T): Promise<boolean>;
/** Gets a description of this predicate for use in error messages. */
getDescription(): string;
/** Gets the selector used to find candidate elements. */
getSelector(): string;
/** Adds base options common to all harness types. */
private _addBaseOptions;
}
/**
* A query for a `ComponentHarness`, which is expressed as either a `ComponentHarnessConstructor` or
* a `HarnessPredicate`.
*/
export declare type HarnessQuery<T extends ComponentHarness> = ComponentHarnessConstructor<T> | HarnessPredicate<T>;
/**
* Interface used to create asynchronous locator functions used find elements and component
* harnesses. This interface is used by `ComponentHarness` authors to create locator functions for
* their `ComponentHarness` subclass.
*/
export declare interface LocatorFactory {
/** Gets a locator factory rooted at the document root. */
documentRootLocatorFactory(): LocatorFactory;
/** The root element of this `LocatorFactory` as a `TestElement`. */
rootElement: TestElement;
/**
* Creates an asynchronous locator function that can be used to find a `ComponentHarness` instance
* or element under the root element of this `LocatorFactory`.
* @param queries A list of queries specifying which harnesses and elements to search for:
* - A `string` searches for elements matching the CSS selector specified by the string.
* - A `ComponentHarness` constructor searches for `ComponentHarness` instances matching the
* given class.
* - A `HarnessPredicate` searches for `ComponentHarness` instances matching the given
* predicate.
* @return An asynchronous locator function that searches for and returns a `Promise` for the
* first element or harness matching the given search criteria. Matches are ordered first by
* order in the DOM, and second by order in the queries list. If no matches are found, the
* `Promise` rejects. The type that the `Promise` resolves to is a union of all result types for
* each query.
*
* e.g. Given the following DOM: `<div id="d1" /><div id="d2" />`, and assuming
* `DivHarness.hostSelector === 'div'`:
* - `await lf.locatorFor(DivHarness, 'div')()` gets a `DivHarness` instance for `#d1`
* - `await lf.locatorFor('div', DivHarness)()` gets a `TestElement` instance for `#d1`
* - `await lf.locatorFor('span')()` throws because the `Promise` rejects.
*/
locatorFor<T extends (HarnessQuery<any> | string)[]>(...queries: T): AsyncFactoryFn<LocatorFnResult<T>>;
/**
* Creates an asynchronous locator function that can be used to find a `ComponentHarness` instance
* or element under the root element of this `LocatorFactory`.
* @param queries A list of queries specifying which harnesses and elements to search for:
* - A `string` searches for elements matching the CSS selector specified by the string.
* - A `ComponentHarness` constructor searches for `ComponentHarness` instances matching the
* given class.
* - A `HarnessPredicate` searches for `ComponentHarness` instances matching the given
* predicate.
* @return An asynchronous locator function that searches for and returns a `Promise` for the
* first element or harness matching the given search criteria. Matches are ordered first by
* order in the DOM, and second by order in the queries list. If no matches are found, the
* `Promise` is resolved with `null`. The type that the `Promise` resolves to is a union of all
* result types for each query or null.
*
* e.g. Given the following DOM: `<div id="d1" /><div id="d2" />`, and assuming
* `DivHarness.hostSelector === 'div'`:
* - `await lf.locatorForOptional(DivHarness, 'div')()` gets a `DivHarness` instance for `#d1`
* - `await lf.locatorForOptional('div', DivHarness)()` gets a `TestElement` instance for `#d1`
* - `await lf.locatorForOptional('span')()` gets `null`.
*/
locatorForOptional<T extends (HarnessQuery<any> | string)[]>(...queries: T): AsyncFactoryFn<LocatorFnResult<T> | null>;
/**
* Creates an asynchronous locator function that can be used to find `ComponentHarness` instances
* or elements under the root element of this `LocatorFactory`.
* @param queries A list of queries specifying which harnesses and elements to search for:
* - A `string` searches for elements matching the CSS selector specified by the string.
* - A `ComponentHarness` constructor searches for `ComponentHarness` instances matching the
* given class.
* - A `HarnessPredicate` searches for `ComponentHarness` instances matching the given
* predicate.
* @return An asynchronous locator function that searches for and returns a `Promise` for all
* elements and harnesses matching the given search criteria. Matches are ordered first by
* order in the DOM, and second by order in the queries list. If an element matches more than
* one `ComponentHarness` class, the locator gets an instance of each for the same element. If
* an element matches multiple `string` selectors, only one `TestElement` instance is returned
* for that element. The type that the `Promise` resolves to is an array where each element is
* the union of all result types for each query.
*
* e.g. Given the following DOM: `<div id="d1" /><div id="d2" />`, and assuming
* `DivHarness.hostSelector === 'div'` and `IdIsD1Harness.hostSelector === '#d1'`:
* - `await lf.locatorForAll(DivHarness, 'div')()` gets `[
* DivHarness, // for #d1
* TestElement, // for #d1
* DivHarness, // for #d2
* TestElement // for #d2
* ]`
* - `await lf.locatorForAll('div', '#d1')()` gets `[
* TestElement, // for #d1
* TestElement // for #d2
* ]`
* - `await lf.locatorForAll(DivHarness, IdIsD1Harness)()` gets `[
* DivHarness, // for #d1
* IdIsD1Harness, // for #d1
* DivHarness // for #d2
* ]`
* - `await lf.locatorForAll('span')()` gets `[]`.
*/
locatorForAll<T extends (HarnessQuery<any> | string)[]>(...queries: T): AsyncFactoryFn<LocatorFnResult<T>[]>;
/** @return A `HarnessLoader` rooted at the root element of this `LocatorFactory`. */
rootHarnessLoader(): Promise<HarnessLoader>;
/**
* Gets a `HarnessLoader` instance for an element under the root of this `LocatorFactory`.
* @param selector The selector for the root element.
* @return A `HarnessLoader` rooted at the first element matching the given selector.
* @throws If no matching element is found for the given selector.
*/
harnessLoaderFor(selector: string): Promise<HarnessLoader>;
/**
* Gets a `HarnessLoader` instance for an element under the root of this `LocatorFactory`
* @param selector The selector for the root element.
* @return A `HarnessLoader` rooted at the first element matching the given selector, or null if
* no matching element is found.
*/
harnessLoaderForOptional(selector: string): Promise<HarnessLoader | null>;
/**
* Gets a list of `HarnessLoader` instances, one for each matching element.
* @param selector The selector for the root element.
* @return A list of `HarnessLoader`, one rooted at each element matching the given selector.
*/
harnessLoaderForAll(selector: string): Promise<HarnessLoader[]>;
/**
* Flushes change detection and async tasks captured in the Angular zone.
* In most cases it should not be necessary to call this manually. However, there may be some edge
* cases where it is needed to fully flush animation events.
*/
forceStabilize(): Promise<void>;
/**
* Waits for all scheduled or running async tasks to complete. This allows harness
* authors to wait for async tasks outside of the Angular zone.
*/
waitForTasksOutsideAngular(): Promise<void>;
}
/**
* The result type obtained when searching using a particular list of queries. This type depends on
* the particular items being queried.
* - If one of the queries is for a `ComponentHarnessConstructor<C1>`, it means that the result
* might be a harness of type `C1`
* - If one of the queries is for a `HarnessPredicate<C2>`, it means that the result might be a
* harness of type `C2`
* - If one of the queries is for a `string`, it means that the result might be a `TestElement`.
*
* Since we don't know for sure which query will match, the result type if the union of the types
* for all possible results.
*
* e.g.
* The type:
* `LocatorFnResult&lt;[
* ComponentHarnessConstructor&lt;MyHarness&gt;,
* HarnessPredicate&lt;MyOtherHarness&gt;,
* string
* ]&gt;`
* is equivalent to:
* `MyHarness | MyOtherHarness | TestElement`.
*/
export declare type LocatorFnResult<T extends (HarnessQuery<any> | string)[]> = {
[I in keyof T]: T[I] extends new (...args: any[]) => infer C ? C : T[I] extends {
harnessType: new (...args: any[]) => infer C;
} ? C : T[I] extends string ? TestElement : never;
}[number];
/**
* Disables the harness system's auto change detection for the duration of the given function.
* @param fn The function to disable auto change detection for.
* @return The result of the given function.
*/
export declare function manualChangeDetection<T>(fn: () => Promise<T>): Promise<T>;
/** Modifier keys that may be held while typing. */
export declare interface ModifierKeys {
control?: boolean;
alt?: boolean;
shift?: boolean;
meta?: boolean;
}
/**
* Resolves the given list of async values in parallel (i.e. via Promise.all) while batching change
* detection over the entire operation such that change detection occurs exactly once before
* resolving the values and once after.
* @param values A getter for the async values to resolve in parallel with batched change detection.
* @return The resolved values.
*/
export declare function parallel<T1, T2, T3, T4, T5>(values: () => [
T1 | PromiseLike<T1>,
T2 | PromiseLike<T2>,
T3 | PromiseLike<T3>,
T4 | PromiseLike<T4>,
T5 | PromiseLike<T5>
]): Promise<[T1, T2, T3, T4, T5]>;
/**
* Resolves the given list of async values in parallel (i.e. via Promise.all) while batching change
* detection over the entire operation such that change detection occurs exactly once before
* resolving the values and once after.
* @param values A getter for the async values to resolve in parallel with batched change detection.
* @return The resolved values.
*/
export declare function parallel<T1, T2, T3, T4>(values: () => [
T1 | PromiseLike<T1>,
T2 | PromiseLike<T2>,
T3 | PromiseLike<T3>,
T4 | PromiseLike<T4>
]): Promise<[T1, T2, T3, T4]>;
/**
* Resolves the given list of async values in parallel (i.e. via Promise.all) while batching change
* detection over the entire operation such that change detection occurs exactly once before
* resolving the values and once after.
* @param values A getter for the async values to resolve in parallel with batched change detection.
* @return The resolved values.
*/
export declare function parallel<T1, T2, T3>(values: () => [T1 | PromiseLike<T1>, T2 | PromiseLike<T2>, T3 | PromiseLike<T3>]): Promise<[T1, T2, T3]>;
/**
* Resolves the given list of async values in parallel (i.e. via Promise.all) while batching change
* detection over the entire operation such that change detection occurs exactly once before
* resolving the values and once after.
* @param values A getter for the async values to resolve in parallel with batched change detection.
* @return The resolved values.
*/
export declare function parallel<T1, T2>(values: () => [T1 | PromiseLike<T1>, T2 | PromiseLike<T2>]): Promise<[T1, T2]>;
/**
* Resolves the given list of async values in parallel (i.e. via Promise.all) while batching change
* detection over the entire operation such that change detection occurs exactly once before
* resolving the values and once after.
* @param values A getter for the async values to resolve in parallel with batched change detection.
* @return The resolved values.
*/
export declare function parallel<T>(values: () => (T | PromiseLike<T>)[]): Promise<T[]>;
/** Allows a `HarnessEnvironment` to stop handling auto change detection status changes. */
export declare function stopHandlingAutoChangeDetectionStatus(): void;
/**
* This acts as a common interface for DOM elements across both unit and e2e tests. It is the
* interface through which the ComponentHarness interacts with the component's DOM.
*/
export declare interface TestElement {
/** Blur the element. */
blur(): Promise<void>;
/** Clear the element's input (for input and textarea elements only). */
clear(): Promise<void>;
/**
* Click the element at the default location for the current environment. If you need to guarantee
* the element is clicked at a specific location, consider using `click('center')` or
* `click(x, y)` instead.
*/
click(modifiers?: ModifierKeys): Promise<void>;
/** Click the element at the element's center. */
click(location: 'center', modifiers?: ModifierKeys): Promise<void>;
/**
* Click the element at the specified coordinates relative to the top-left of the element.
* @param relativeX Coordinate within the element, along the X-axis at which to click.
* @param relativeY Coordinate within the element, along the Y-axis at which to click.
* @param modifiers Modifier keys held while clicking
*/
click(relativeX: number, relativeY: number, modifiers?: ModifierKeys): Promise<void>;
/**
* Right clicks on the element at the specified coordinates relative to the top-left of it.
* @param relativeX Coordinate within the element, along the X-axis at which to click.
* @param relativeY Coordinate within the element, along the Y-axis at which to click.
* @param modifiers Modifier keys held while clicking
*/
rightClick(relativeX: number, relativeY: number, modifiers?: ModifierKeys): Promise<void>;
/** Focus the element. */
focus(): Promise<void>;
/** Get the computed value of the given CSS property for the element. */
getCssValue(property: string): Promise<string>;
/** Hovers the mouse over the element. */
hover(): Promise<void>;
/** Moves the mouse away from the element. */
mouseAway(): Promise<void>;
/**
* Sends the given string to the input as a series of key presses. Also fires input events
* and attempts to add the string to the Element's value. Note that some environments cannot
* reproduce native browser behavior for keyboard shortcuts such as Tab, Ctrl + A, etc.
* @throws An error if no keys have been specified.
*/
sendKeys(...keys: (string | TestKey)[]): Promise<void>;
/**
* Sends the given string to the input as a series of key presses. Also fires input
* events and attempts to add the string to the Element's value.
* @throws An error if no keys have been specified.
*/
sendKeys(modifiers: ModifierKeys, ...keys: (string | TestKey)[]): Promise<void>;
/**
* Gets the text from the element.
* @param options Options that affect what text is included.
*/
text(options?: TextOptions): Promise<string>;
/**
* Sets the value of a `contenteditable` element.
* @param value Value to be set on the element.
* @breaking-change 16.0.0 Will become a required method.
*/
setContenteditableValue?(value: string): Promise<void>;
/** Gets the value for the given attribute from the element. */
getAttribute(name: string): Promise<string | null>;
/** Checks whether the element has the given class. */
hasClass(name: string): Promise<boolean>;
/** Gets the dimensions of the element. */
getDimensions(): Promise<ElementDimensions>;
/** Gets the value of a property of an element. */
getProperty<T = any>(name: string): Promise<T>;
/** Checks whether this element matches the given selector. */
matchesSelector(selector: string): Promise<boolean>;
/** Checks whether the element is focused. */
isFocused(): Promise<boolean>;
/** Sets the value of a property of an input. */
setInputValue(value: string): Promise<void>;
/** Selects the options at the specified indexes inside of a native `select` element. */
selectOptions(...optionIndexes: number[]): Promise<void>;
/**
* Dispatches an event with a particular name.
* @param name Name of the event to be dispatched.
*/
dispatchEvent(name: string, data?: Record<string, EventData>): Promise<void>;
}
/** An enum of non-text keys that can be used with the `sendKeys` method. */
export declare enum TestKey {
BACKSPACE = 0,
TAB = 1,
ENTER = 2,
SHIFT = 3,
CONTROL = 4,
ALT = 5,
ESCAPE = 6,
PAGE_UP = 7,
PAGE_DOWN = 8,
END = 9,
HOME = 10,
LEFT_ARROW = 11,
UP_ARROW = 12,
RIGHT_ARROW = 13,
DOWN_ARROW = 14,
INSERT = 15,
DELETE = 16,
F1 = 17,
F2 = 18,
F3 = 19,
F4 = 20,
F5 = 21,
F6 = 22,
F7 = 23,
F8 = 24,
F9 = 25,
F10 = 26,
F11 = 27,
F12 = 28,
META = 29,
COMMA = 30
}
export declare interface TextOptions {
/** Optional selector for elements to exclude. */
exclude?: string;
}
export { }