import { SPACE, BACKSPACE, DELETE, HOME, END, TAB, hasModifierKey, ENTER } from '@angular/cdk/keycodes';
import { Directive, EventEmitter, ElementRef, NgZone, Optional, Inject, ChangeDetectorRef, Attribute, ContentChild, forwardRef, Input, Output, InjectionToken, Component, ViewEncapsulation, ChangeDetectionStrategy, Self, ContentChildren, NgModule } from '@angular/core';
import { mixinTabIndex, mixinColor, mixinDisableRipple, mixinDisabled, RippleRenderer, MAT_RIPPLE_GLOBAL_OPTIONS, mixinErrorState, ErrorStateMatcher } from '@angular/material/core';
import { DOCUMENT } from '@angular/common';
import { coerceBooleanProperty } from '@angular/cdk/coercion';
import { Platform } from '@angular/cdk/platform';
import { Subject, merge } from 'rxjs';
import { take, takeUntil, startWith } from 'rxjs/operators';
import { ANIMATION_MODULE_TYPE } from '@angular/platform-browser/animations';
import { FocusKeyManager } from '@angular/cdk/a11y';
import { Directionality } from '@angular/cdk/bidi';
import { SelectionModel } from '@angular/cdk/collections';
import { NgForm, FormGroupDirective, NgControl } from '@angular/forms';
import { MatFormFieldControl } from '@angular/material/form-field';
/**
* @fileoverview added by tsickle
* Generated from: src/material/chips/chip.ts
* @suppress {checkTypes,constantProperty,extraRequire,missingOverride,missingReturn,unusedPrivateMembers,uselessCode} checked by tsc
*/
/**
* Represents an event fired on an individual `mat-chip`.
* @record
*/
function MatChipEvent() { }
if (false) {
/**
* The chip the event was fired on.
* @type {?}
*/
MatChipEvent.prototype.chip;
}
/**
* Event object emitted by MatChip when selected or deselected.
*/
class MatChipSelectionChange {
/**
* @param {?} source
* @param {?} selected
* @param {?=} isUserInput
*/
constructor(source, selected, isUserInput = false) {
this.source = source;
this.selected = selected;
this.isUserInput = isUserInput;
}
}
if (false) {
/**
* Reference to the chip that emitted the event.
* @type {?}
*/
MatChipSelectionChange.prototype.source;
/**
* Whether the chip that emitted the event is selected.
* @type {?}
*/
MatChipSelectionChange.prototype.selected;
/**
* Whether the selection change was a result of a user interaction.
* @type {?}
*/
MatChipSelectionChange.prototype.isUserInput;
}
// Boilerplate for applying mixins to MatChip.
/**
* \@docs-private
*/
class MatChipBase {
/**
* @param {?} _elementRef
*/
constructor(_elementRef) {
this._elementRef = _elementRef;
}
}
if (false) {
/** @type {?} */
MatChipBase.prototype._elementRef;
}
/** @type {?} */
const _MatChipMixinBase = mixinTabIndex(mixinColor(mixinDisableRipple(mixinDisabled(MatChipBase)), 'primary'), -1);
/**
* Dummy directive to add CSS class to chip avatar.
* \@docs-private
*/
class MatChipAvatar {
}
MatChipAvatar.decorators = [
{ type: Directive, args: [{
selector: 'mat-chip-avatar, [matChipAvatar]',
host: { 'class': 'mat-chip-avatar' }
},] }
];
/**
* Dummy directive to add CSS class to chip trailing icon.
* \@docs-private
*/
class MatChipTrailingIcon {
}
MatChipTrailingIcon.decorators = [
{ type: Directive, args: [{
selector: 'mat-chip-trailing-icon, [matChipTrailingIcon]',
host: { 'class': 'mat-chip-trailing-icon' }
},] }
];
/**
* Material design styled Chip component. Used inside the MatChipList component.
*/
class MatChip extends _MatChipMixinBase {
/**
* @param {?} _elementRef
* @param {?} _ngZone
* @param {?} platform
* @param {?} globalRippleOptions
* @param {?=} animationMode
* @param {?=} _changeDetectorRef
* @param {?=} tabIndex
* @param {?=} _document
*/
constructor(_elementRef, _ngZone, platform, globalRippleOptions,
// @breaking-change 8.0.0 `animationMode` parameter to become required.
animationMode, _changeDetectorRef, tabIndex,
// @breaking-change 11.0.0 `_document` parameter to become required.
_document) {
super(_elementRef);
this._elementRef = _elementRef;
this._ngZone = _ngZone;
this._changeDetectorRef = _changeDetectorRef;
/**
* Whether the chip has focus.
*/
this._hasFocus = false;
/**
* Whether the chip list is selectable
*/
this.chipListSelectable = true;
/**
* Whether the chip list is in multi-selection mode.
*/
this._chipListMultiple = false;
this._selected = false;
this._selectable = true;
this._removable = true;
/**
* Emits when the chip is focused.
*/
this._onFocus = new Subject();
/**
* Emits when the chip is blured.
*/
this._onBlur = new Subject();
/**
* Emitted when the chip is selected or deselected.
*/
this.selectionChange = new EventEmitter();
/**
* Emitted when the chip is destroyed.
*/
this.destroyed = new EventEmitter();
/**
* Emitted when a chip is to be removed.
*/
this.removed = new EventEmitter();
this._addHostClassName();
// Dynamically create the ripple target, append it within the chip, and use it as the
// chip's ripple target. Adding the class '.mat-chip-ripple' ensures that it will have
// the proper styles.
this._chipRippleTarget = (_document || document).createElement('div');
this._chipRippleTarget.classList.add('mat-chip-ripple');
this._elementRef.nativeElement.appendChild(this._chipRippleTarget);
this._chipRipple = new RippleRenderer(this, _ngZone, this._chipRippleTarget, platform);
this._chipRipple.setupTriggerEvents(_elementRef);
this.rippleConfig = globalRippleOptions || {};
this._animationsDisabled = animationMode === 'NoopAnimations';
this.tabIndex = tabIndex != null ? (parseInt(tabIndex) || -1) : -1;
}
/**
* Whether ripples are disabled on interaction
* \@docs-private
* @return {?}
*/
get rippleDisabled() {
return this.disabled || this.disableRipple || !!this.rippleConfig.disabled;
}
/**
* Whether the chip is selected.
* @return {?}
*/
get selected() { return this._selected; }
/**
* @param {?} value
* @return {?}
*/
set selected(value) {
/** @type {?} */
const coercedValue = coerceBooleanProperty(value);
if (coercedValue !== this._selected) {
this._selected = coercedValue;
this._dispatchSelectionChange();
}
}
/**
* The value of the chip. Defaults to the content inside `<mat-chip>` tags.
* @return {?}
*/
get value() {
return this._value !== undefined
? this._value
: this._elementRef.nativeElement.textContent;
}
/**
* @param {?} value
* @return {?}
*/
set value(value) { this._value = value; }
/**
* Whether or not the chip is selectable. When a chip is not selectable,
* changes to its selected state are always ignored. By default a chip is
* selectable, and it becomes non-selectable if its parent chip list is
* not selectable.
* @return {?}
*/
get selectable() { return this._selectable && this.chipListSelectable; }
/**
* @param {?} value
* @return {?}
*/
set selectable(value) {
this._selectable = coerceBooleanProperty(value);
}
/**
* Determines whether or not the chip displays the remove styling and emits (removed) events.
* @return {?}
*/
get removable() { return this._removable; }
/**
* @param {?} value
* @return {?}
*/
set removable(value) {
this._removable = coerceBooleanProperty(value);
}
/**
* The ARIA selected applied to the chip.
* @return {?}
*/
get ariaSelected() {
// Remove the `aria-selected` when the chip is deselected in single-selection mode, because
// it adds noise to NVDA users where "not selected" will be read out for each chip.
return this.selectable && (this._chipListMultiple || this.selected) ?
this.selected.toString() : null;
}
/**
* @return {?}
*/
_addHostClassName() {
/** @type {?} */
const basicChipAttrName = 'mat-basic-chip';
/** @type {?} */
const element = (/** @type {?} */ (this._elementRef.nativeElement));
if (element.hasAttribute(basicChipAttrName) ||
element.tagName.toLowerCase() === basicChipAttrName) {
element.classList.add(basicChipAttrName);
return;
}
else {
element.classList.add('mat-standard-chip');
}
}
/**
* @return {?}
*/
ngOnDestroy() {
this.destroyed.emit({ chip: this });
this._chipRipple._removeTriggerEvents();
}
/**
* Selects the chip.
* @return {?}
*/
select() {
if (!this._selected) {
this._selected = true;
this._dispatchSelectionChange();
this._markForCheck();
}
}
/**
* Deselects the chip.
* @return {?}
*/
deselect() {
if (this._selected) {
this._selected = false;
this._dispatchSelectionChange();
this._markForCheck();
}
}
/**
* Select this chip and emit selected event
* @return {?}
*/
selectViaInteraction() {
if (!this._selected) {
this._selected = true;
this._dispatchSelectionChange(true);
this._markForCheck();
}
}
/**
* Toggles the current selected state of this chip.
* @param {?=} isUserInput
* @return {?}
*/
toggleSelected(isUserInput = false) {
this._selected = !this.selected;
this._dispatchSelectionChange(isUserInput);
this._markForCheck();
return this.selected;
}
/**
* Allows for programmatic focusing of the chip.
* @return {?}
*/
focus() {
if (!this._hasFocus) {
this._elementRef.nativeElement.focus();
this._onFocus.next({ chip: this });
}
this._hasFocus = true;
}
/**
* Allows for programmatic removal of the chip. Called by the MatChipList when the DELETE or
* BACKSPACE keys are pressed.
*
* Informs any listeners of the removal request. Does not remove the chip from the DOM.
* @return {?}
*/
remove() {
if (this.removable) {
this.removed.emit({ chip: this });
}
}
/**
* Handles click events on the chip.
* @param {?} event
* @return {?}
*/
_handleClick(event) {
if (this.disabled) {
event.preventDefault();
}
else {
event.stopPropagation();
}
}
/**
* Handle custom key presses.
* @param {?} event
* @return {?}
*/
_handleKeydown(event) {
if (this.disabled) {
return;
}
switch (event.keyCode) {
case DELETE:
case BACKSPACE:
// If we are removable, remove the focused chip
this.remove();
// Always prevent so page navigation does not occur
event.preventDefault();
break;
case SPACE:
// If we are selectable, toggle the focused chip
if (this.selectable) {
this.toggleSelected(true);
}
// Always prevent space from scrolling the page since the list has focus
event.preventDefault();
break;
}
}
/**
* @return {?}
*/
_blur() {
// When animations are enabled, Angular may end up removing the chip from the DOM a little
// earlier than usual, causing it to be blurred and throwing off the logic in the chip list
// that moves focus not the next item. To work around the issue, we defer marking the chip
// as not focused until the next time the zone stabilizes.
this._ngZone.onStable
.asObservable()
.pipe(take(1))
.subscribe((/**
* @return {?}
*/
() => {
this._ngZone.run((/**
* @return {?}
*/
() => {
this._hasFocus = false;
this._onBlur.next({ chip: this });
}));
}));
}
/**
* @private
* @param {?=} isUserInput
* @return {?}
*/
_dispatchSelectionChange(isUserInput = false) {
this.selectionChange.emit({
source: this,
isUserInput,
selected: this._selected
});
}
/**
* @private
* @return {?}
*/
_markForCheck() {
// @breaking-change 9.0.0 Remove this method once the _changeDetectorRef is a required param.
if (this._changeDetectorRef) {
this._changeDetectorRef.markForCheck();
}
}
}
MatChip.decorators = [
{ type: Directive, args: [{
selector: `mat-basic-chip, [mat-basic-chip], mat-chip, [mat-chip]`,
inputs: ['color', 'disabled', 'disableRipple', 'tabIndex'],
exportAs: 'matChip',
host: {
'class': 'mat-chip mat-focus-indicator',
'[attr.tabindex]': 'disabled ? null : tabIndex',
'role': 'option',
'[class.mat-chip-selected]': 'selected',
'[class.mat-chip-with-avatar]': 'avatar',
'[class.mat-chip-with-trailing-icon]': 'trailingIcon || removeIcon',
'[class.mat-chip-disabled]': 'disabled',
'[class._mat-animation-noopable]': '_animationsDisabled',
'[attr.disabled]': 'disabled || null',
'[attr.aria-disabled]': 'disabled.toString()',
'[attr.aria-selected]': 'ariaSelected',
'(click)': '_handleClick($event)',
'(keydown)': '_handleKeydown($event)',
'(focus)': 'focus()',
'(blur)': '_blur()',
},
},] }
];
/** @nocollapse */
MatChip.ctorParameters = () => [
{ type: ElementRef },
{ type: NgZone },
{ type: Platform },
{ type: undefined, decorators: [{ type: Optional }, { type: Inject, args: [MAT_RIPPLE_GLOBAL_OPTIONS,] }] },
{ type: String, decorators: [{ type: Optional }, { type: Inject, args: [ANIMATION_MODULE_TYPE,] }] },
{ type: ChangeDetectorRef },
{ type: String, decorators: [{ type: Attribute, args: ['tabindex',] }] },
{ type: undefined, decorators: [{ type: Optional }, { type: Inject, args: [DOCUMENT,] }] }
];
MatChip.propDecorators = {
avatar: [{ type: ContentChild, args: [MatChipAvatar,] }],
trailingIcon: [{ type: ContentChild, args: [MatChipTrailingIcon,] }],
removeIcon: [{ type: ContentChild, args: [forwardRef((/**
* @return {?}
*/
() => MatChipRemove)),] }],
selected: [{ type: Input }],
value: [{ type: Input }],
selectable: [{ type: Input }],
removable: [{ type: Input }],
selectionChange: [{ type: Output }],
destroyed: [{ type: Output }],
removed: [{ type: Output }]
};
if (false) {
/** @type {?} */
MatChip.ngAcceptInputType_selected;
/** @type {?} */
MatChip.ngAcceptInputType_selectable;
/** @type {?} */
MatChip.ngAcceptInputType_removable;
/** @type {?} */
MatChip.ngAcceptInputType_disabled;
/** @type {?} */
MatChip.ngAcceptInputType_disableRipple;
/**
* Reference to the RippleRenderer for the chip.
* @type {?}
* @private
*/
MatChip.prototype._chipRipple;
/**
* Reference to the element that acts as the chip's ripple target. This element is
* dynamically added as a child node of the chip. The chip itself cannot be used as the
* ripple target because it must be the host of the focus indicator.
* @type {?}
* @private
*/
MatChip.prototype._chipRippleTarget;
/**
* Ripple configuration for ripples that are launched on pointer down. The ripple config
* is set to the global ripple options since we don't have any configurable options for
* the chip ripples.
* \@docs-private
* @type {?}
*/
MatChip.prototype.rippleConfig;
/**
* Whether the chip has focus.
* @type {?}
*/
MatChip.prototype._hasFocus;
/**
* Whether animations for the chip are enabled.
* @type {?}
*/
MatChip.prototype._animationsDisabled;
/**
* Whether the chip list is selectable
* @type {?}
*/
MatChip.prototype.chipListSelectable;
/**
* Whether the chip list is in multi-selection mode.
* @type {?}
*/
MatChip.prototype._chipListMultiple;
/**
* The chip avatar
* @type {?}
*/
MatChip.prototype.avatar;
/**
* The chip's trailing icon.
* @type {?}
*/
MatChip.prototype.trailingIcon;
/**
* The chip's remove toggler.
* @type {?}
*/
MatChip.prototype.removeIcon;
/**
* @type {?}
* @protected
*/
MatChip.prototype._selected;
/**
* @type {?}
* @protected
*/
MatChip.prototype._value;
/**
* @type {?}
* @protected
*/
MatChip.prototype._selectable;
/**
* @type {?}
* @protected
*/
MatChip.prototype._removable;
/**
* Emits when the chip is focused.
* @type {?}
*/
MatChip.prototype._onFocus;
/**
* Emits when the chip is blured.
* @type {?}
*/
MatChip.prototype._onBlur;
/**
* Emitted when the chip is selected or deselected.
* @type {?}
*/
MatChip.prototype.selectionChange;
/**
* Emitted when the chip is destroyed.
* @type {?}
*/
MatChip.prototype.destroyed;
/**
* Emitted when a chip is to be removed.
* @type {?}
*/
MatChip.prototype.removed;
/** @type {?} */
MatChip.prototype._elementRef;
/**
* @type {?}
* @private
*/
MatChip.prototype._ngZone;
/**
* @type {?}
* @private
*/
MatChip.prototype._changeDetectorRef;
}
/**
* Applies proper (click) support and adds styling for use with the Material Design "cancel" icon
* available at https://material.io/icons/#ic_cancel.
*
* Example:
*
* `<mat-chip>
* <mat-icon matChipRemove>cancel</mat-icon>
* </mat-chip>`
*
* You *may* use a custom icon, but you may need to override the `mat-chip-remove` positioning
* styles to properly center the icon within the chip.
*/
class MatChipRemove {
/**
* @param {?} _parentChip
*/
constructor(_parentChip) {
this._parentChip = _parentChip;
}
/**
* Calls the parent chip's public `remove()` method if applicable.
* @param {?} event
* @return {?}
*/
_handleClick(event) {
/** @type {?} */
const parentChip = this._parentChip;
if (parentChip.removable && !parentChip.disabled) {
parentChip.remove();
}
// We need to stop event propagation because otherwise the event will bubble up to the
// form field and cause the `onContainerClick` method to be invoked. This method would then
// reset the focused chip that has been focused after chip removal. Usually the parent
// the parent click listener of the `MatChip` would prevent propagation, but it can happen
// that the chip is being removed before the event bubbles up.
event.stopPropagation();
}
}
MatChipRemove.decorators = [
{ type: Directive, args: [{
selector: '[matChipRemove]',
host: {
'class': 'mat-chip-remove mat-chip-trailing-icon',
'(click)': '_handleClick($event)',
// Prevent accidental form submissions.
'type': 'button',
}
},] }
];
/** @nocollapse */
MatChipRemove.ctorParameters = () => [
{ type: MatChip }
];
if (false) {
/**
* @type {?}
* @protected
*/
MatChipRemove.prototype._parentChip;
}
/**
* @fileoverview added by tsickle
* Generated from: src/material/chips/chip-default-options.ts
* @suppress {checkTypes,constantProperty,extraRequire,missingOverride,missingReturn,unusedPrivateMembers,uselessCode} checked by tsc
*/
/**
* Default options, for the chips module, that can be overridden.
* @record
*/
function MatChipsDefaultOptions() { }
if (false) {
/**
* The list of key codes that will trigger a chipEnd event.
* @type {?}
*/
MatChipsDefaultOptions.prototype.separatorKeyCodes;
}
/**
* Injection token to be used to override the default options for the chips module.
* @type {?}
*/
const MAT_CHIPS_DEFAULT_OPTIONS = new InjectionToken('mat-chips-default-options');
/**
* @fileoverview added by tsickle
* Generated from: src/material/chips/chip-list.ts
* @suppress {checkTypes,constantProperty,extraRequire,missingOverride,missingReturn,unusedPrivateMembers,uselessCode} checked by tsc
*/
// Boilerplate for applying mixins to MatChipList.
/**
* \@docs-private
*/
class MatChipListBase {
/**
* @param {?} _defaultErrorStateMatcher
* @param {?} _parentForm
* @param {?} _parentFormGroup
* @param {?} ngControl
*/
constructor(_defaultErrorStateMatcher, _parentForm, _parentFormGroup, ngControl) {
this._defaultErrorStateMatcher = _defaultErrorStateMatcher;
this._parentForm = _parentForm;
this._parentFormGroup = _parentFormGroup;
this.ngControl = ngControl;
}
}
if (false) {
/** @type {?} */
MatChipListBase.prototype._defaultErrorStateMatcher;
/** @type {?} */
MatChipListBase.prototype._parentForm;
/** @type {?} */
MatChipListBase.prototype._parentFormGroup;
/**
* \@docs-private
* @type {?}
*/
MatChipListBase.prototype.ngControl;
}
/** @type {?} */
const _MatChipListMixinBase = mixinErrorState(MatChipListBase);
// Increasing integer for generating unique ids for chip-list components.
/** @type {?} */
let nextUniqueId = 0;
/**
* Change event object that is emitted when the chip list value has changed.
*/
class MatChipListChange {
/**
* @param {?} source
* @param {?} value
*/
constructor(source, value) {
this.source = source;
this.value = value;
}
}
if (false) {
/**
* Chip list that emitted the event.
* @type {?}
*/
MatChipListChange.prototype.source;
/**
* Value of the chip list when the event was emitted.
* @type {?}
*/
MatChipListChange.prototype.value;
}
/**
* A material design chips component (named ChipList for its similarity to the List component).
*/
class MatChipList extends _MatChipListMixinBase {
/**
* @param {?} _elementRef
* @param {?} _changeDetectorRef
* @param {?} _dir
* @param {?} _parentForm
* @param {?} _parentFormGroup
* @param {?} _defaultErrorStateMatcher
* @param {?} ngControl
*/
constructor(_elementRef, _changeDetectorRef, _dir, _parentForm, _parentFormGroup, _defaultErrorStateMatcher, ngControl) {
super(_defaultErrorStateMatcher, _parentForm, _parentFormGroup, ngControl);
this._elementRef = _elementRef;
this._changeDetectorRef = _changeDetectorRef;
this._dir = _dir;
this.ngControl = ngControl;
/**
* Implemented as part of MatFormFieldControl.
* \@docs-private
*/
this.controlType = 'mat-chip-list';
/**
* When a chip is destroyed, we store the index of the destroyed chip until the chips
* query list notifies about the update. This is necessary because we cannot determine an
* appropriate chip that should receive focus until the array of chips updated completely.
*/
this._lastDestroyedChipIndex = null;
/**
* Subject that emits when the component has been destroyed.
*/
this._destroyed = new Subject();
/**
* Uid of the chip list
*/
this._uid = `mat-chip-list-${nextUniqueId++}`;
/**
* Tab index for the chip list.
*/
this._tabIndex = 0;
/**
* User defined tab index.
* When it is not null, use user defined tab index. Otherwise use _tabIndex
*/
this._userTabIndex = null;
/**
* Function when touched
*/
this._onTouched = (/**
* @return {?}
*/
() => { });
/**
* Function when changed
*/
this._onChange = (/**
* @return {?}
*/
() => { });
this._multiple = false;
this._compareWith = (/**
* @param {?} o1
* @param {?} o2
* @return {?}
*/
(o1, o2) => o1 === o2);
this._required = false;
this._disabled = false;
/**
* Orientation of the chip list.
*/
this.ariaOrientation = 'horizontal';
this._selectable = true;
/**
* Event emitted when the selected chip list value has been changed by the user.
*/
this.change = new EventEmitter();
/**
* Event that emits whenever the raw value of the chip-list changes. This is here primarily
* to facilitate the two-way binding for the `value` input.
* \@docs-private
*/
this.valueChange = new EventEmitter();
if (this.ngControl) {
this.ngControl.valueAccessor = this;
}
}
/**
* The array of selected chips inside chip list.
* @return {?}
*/
get selected() {
return this.multiple ? this._selectionModel.selected : this._selectionModel.selected[0];
}
/**
* The ARIA role applied to the chip list.
* @return {?}
*/
get role() { return this.empty ? null : 'listbox'; }
/**
* Whether the user should be allowed to select multiple chips.
* @return {?}
*/
get multiple() { return this._multiple; }
/**
* @param {?} value
* @return {?}
*/
set multiple(value) {
this._multiple = coerceBooleanProperty(value);
this._syncChipsState();
}
/**
* A function to compare the option values with the selected values. The first argument
* is a value from an option. The second is a value from the selection. A boolean
* should be returned.
* @return {?}
*/
get compareWith() { return this._compareWith; }
/**
* @param {?} fn
* @return {?}
*/
set compareWith(fn) {
this._compareWith = fn;
if (this._selectionModel) {
// A different comparator means the selection could change.
this._initializeSelection();
}
}
/**
* Implemented as part of MatFormFieldControl.
* \@docs-private
* @return {?}
*/
get value() { return this._value; }
/**
* @param {?} value
* @return {?}
*/
set value(value) {
this.writeValue(value);
this._value = value;
}
/**
* Implemented as part of MatFormFieldControl.
* \@docs-private
* @return {?}
*/
get id() {
return this._chipInput ? this._chipInput.id : this._uid;
}
/**
* Implemented as part of MatFormFieldControl.
* \@docs-private
* @return {?}
*/
get required() { return this._required; }
/**
* @param {?} value
* @return {?}
*/
set required(value) {
this._required = coerceBooleanProperty(value);
this.stateChanges.next();
}
/**
* Implemented as part of MatFormFieldControl.
* \@docs-private
* @return {?}
*/
get placeholder() {
return this._chipInput ? this._chipInput.placeholder : this._placeholder;
}
/**
* @param {?} value
* @return {?}
*/
set placeholder(value) {
this._placeholder = value;
this.stateChanges.next();
}
/**
* Whether any chips or the matChipInput inside of this chip-list has focus.
* @return {?}
*/
get focused() {
return (this._chipInput && this._chipInput.focused) || this._hasFocusedChip();
}
/**
* Implemented as part of MatFormFieldControl.
* \@docs-private
* @return {?}
*/
get empty() {
return (!this._chipInput || this._chipInput.empty) && this.chips.length === 0;
}
/**
* Implemented as part of MatFormFieldControl.
* \@docs-private
* @return {?}
*/
get shouldLabelFloat() { return !this.empty || this.focused; }
/**
* Implemented as part of MatFormFieldControl.
* \@docs-private
* @return {?}
*/
get disabled() { return this.ngControl ? !!this.ngControl.disabled : this._disabled; }
/**
* @param {?} value
* @return {?}
*/
set disabled(value) {
this._disabled = coerceBooleanProperty(value);
this._syncChipsState();
}
/**
* Whether or not this chip list is selectable. When a chip list is not selectable,
* the selected states for all the chips inside the chip list are always ignored.
* @return {?}
*/
get selectable() { return this._selectable; }
/**
* @param {?} value
* @return {?}
*/
set selectable(value) {
this._selectable = coerceBooleanProperty(value);
if (this.chips) {
this.chips.forEach((/**
* @param {?} chip
* @return {?}
*/
chip => chip.chipListSelectable = this._selectable));
}
}
/**
* @param {?} value
* @return {?}
*/
set tabIndex(value) {
this._userTabIndex = value;
this._tabIndex = value;
}
/**
* Combined stream of all of the child chips' selection change events.
* @return {?}
*/
get chipSelectionChanges() {
return merge(...this.chips.map((/**
* @param {?} chip
* @return {?}
*/
chip => chip.selectionChange)));
}
/**
* Combined stream of all of the child chips' focus change events.
* @return {?}
*/
get chipFocusChanges() {
return merge(...this.chips.map((/**
* @param {?} chip
* @return {?}
*/
chip => chip._onFocus)));
}
/**
* Combined stream of all of the child chips' blur change events.
* @return {?}
*/
get chipBlurChanges() {
return merge(...this.chips.map((/**
* @param {?} chip
* @return {?}
*/
chip => chip._onBlur)));
}
/**
* Combined stream of all of the child chips' remove change events.
* @return {?}
*/
get chipRemoveChanges() {
return merge(...this.chips.map((/**
* @param {?} chip
* @return {?}
*/
chip => chip.destroyed)));
}
/**
* @return {?}
*/
ngAfterContentInit() {
this._keyManager = new FocusKeyManager(this.chips)
.withWrap()
.withVerticalOrientation()
.withHorizontalOrientation(this._dir ? this._dir.value : 'ltr');
if (this._dir) {
this._dir.change
.pipe(takeUntil(this._destroyed))
.subscribe((/**
* @param {?} dir
* @return {?}
*/
dir => this._keyManager.withHorizontalOrientation(dir)));
}
this._keyManager.tabOut.pipe(takeUntil(this._destroyed)).subscribe((/**
* @return {?}
*/
() => {
this._allowFocusEscape();
}));
// When the list changes, re-subscribe
this.chips.changes.pipe(startWith(null), takeUntil(this._destroyed)).subscribe((/**
* @return {?}
*/
() => {
if (this.disabled) {
// Since this happens after the content has been
// checked, we need to defer it to the next tick.
Promise.resolve().then((/**
* @return {?}
*/
() => {
this._syncChipsState();
}));
}
this._resetChips();
// Reset chips selected/deselected status
this._initializeSelection();
// Check to see if we need to update our tab index
this._updateTabIndex();
// Check to see if we have a destroyed chip and need to refocus
this._updateFocusForDestroyedChips();
this.stateChanges.next();
}));
}
/**
* @return {?}
*/
ngOnInit() {
this._selectionModel = new SelectionModel(this.multiple, undefined, false);
this.stateChanges.next();
}
/**
* @return {?}
*/
ngDoCheck() {
if (this.ngControl) {
// We need to re-evaluate this on every change detection cycle, because there are some
// error triggers that we can't subscribe to (e.g. parent form submissions). This means
// that whatever logic is in here has to be super lean or we risk destroying the performance.
this.updateErrorState();
}
}
/**
* @return {?}
*/
ngOnDestroy() {
this._destroyed.next();
this._destroyed.complete();
this.stateChanges.complete();
this._dropSubscriptions();
}
/**
* Associates an HTML input element with this chip list.
* @param {?} inputElement
* @return {?}
*/
registerInput(inputElement) {
this._chipInput = inputElement;
}
/**
* Implemented as part of MatFormFieldControl.
* \@docs-private
* @param {?} ids
* @return {?}
*/
setDescribedByIds(ids) { this._ariaDescribedby = ids.join(' '); }
// Implemented as part of ControlValueAccessor.
/**
* @param {?} value
* @return {?}
*/
writeValue(value) {
if (this.chips) {
this._setSelectionByValue(value, false);
}
}
// Implemented as part of ControlValueAccessor.
/**
* @param {?} fn
* @return {?}
*/
registerOnChange(fn) {
this._onChange = fn;
}
// Implemented as part of ControlValueAccessor.
/**
* @param {?} fn
* @return {?}
*/
registerOnTouched(fn) {
this._onTouched = fn;
}
// Implemented as part of ControlValueAccessor.
/**
* @param {?} isDisabled
* @return {?}
*/
setDisabledState(isDisabled) {
this.disabled = isDisabled;
this.stateChanges.next();
}
/**
* Implemented as part of MatFormFieldControl.
* \@docs-private
* @param {?} event
* @return {?}
*/
onContainerClick(event) {
if (!this._originatesFromChip(event)) {
this.focus();
}
}
/**
* Focuses the first non-disabled chip in this chip list, or the associated input when there
* are no eligible chips.
* @param {?=} options
* @return {?}
*/
focus(options) {
if (this.disabled) {
return;
}
// TODO: ARIA says this should focus the first `selected` chip if any are selected.
// Focus on first element if there's no chipInput inside chip-list
if (this._chipInput && this._chipInput.focused) {
// do nothing
}
else if (this.chips.length > 0) {
this._keyManager.setFirstItemActive();
this.stateChanges.next();
}
else {
this._focusInput(options);
this.stateChanges.next();
}
}
/**
* Attempt to focus an input if we have one.
* @param {?=} options
* @return {?}
*/
_focusInput(options) {
if (this._chipInput) {
this._chipInput.focus(options);
}
}
/**
* Pass events to the keyboard manager. Available here for tests.
* @param {?} event
* @return {?}
*/
_keydown(event) {
/** @type {?} */
const target = (/** @type {?} */ (event.target));
// If they are on an empty input and hit backspace, focus the last chip
if (event.keyCode === BACKSPACE && this._isInputEmpty(target)) {
this._keyManager.setLastItemActive();
event.preventDefault();
}
else if (target && target.classList.contains('mat-chip')) {
if (event.keyCode === HOME) {
this._keyManager.setFirstItemActive();
event.preventDefault();
}
else if (event.keyCode === END) {
this._keyManager.setLastItemActive();
event.preventDefault();
}
else {
this._keyManager.onKeydown(event);
}
this.stateChanges.next();
}
}
/**
* Check the tab index as you should not be allowed to focus an empty list.
* @protected
* @return {?}
*/
_updateTabIndex() {
// If we have 0 chips, we should not allow keyboard focus
this._tabIndex = this._userTabIndex || (this.chips.length === 0 ? -1 : 0);
}
/**
* If the amount of chips changed, we need to update the
* key manager state and focus the next closest chip.
* @protected
* @return {?}
*/
_updateFocusForDestroyedChips() {
// Move focus to the closest chip. If no other chips remain, focus the chip-list itself.
if (this._lastDestroyedChipIndex != null) {
if (this.chips.length) {
/** @type {?} */
const newChipIndex = Math.min(this._lastDestroyedChipIndex, this.chips.length - 1);
this._keyManager.setActiveItem(newChipIndex);
}
else {
this.focus();
}
}
this._lastDestroyedChipIndex = null;
}
/**
* Utility to ensure all indexes are valid.
*
* @private
* @param {?} index The index to be checked.
* @return {?} True if the index is valid for our list of chips.
*/
_isValidIndex(index) {
return index >= 0 && index < this.chips.length;
}
/**
* @private
* @param {?} element
* @return {?}
*/
_isInputEmpty(element) {
if (element && element.nodeName.toLowerCase() === 'input') {
/** @type {?} */
let input = (/** @type {?} */ (element));
return !input.value;
}
return false;
}
/**
* @param {?} value
* @param {?=} isUserInput
* @return {?}
*/
_setSelectionByValue(value, isUserInput = true) {
this._clearSelection();
this.chips.forEach((/**
* @param {?} chip
* @return {?}
*/
chip => chip.deselect()));
if (Array.isArray(value)) {
value.forEach((/**
* @param {?} currentValue
* @return {?}
*/
currentValue => this._selectValue(currentValue, isUserInput)));
this._sortValues();
}
else {
/** @type {?} */
const correspondingChip = this._selectValue(value, isUserInput);
// Shift focus to the active item. Note that we shouldn't do this in multiple
// mode, because we don't know what chip the user interacted with last.
if (correspondingChip) {
if (isUserInput) {
this._keyManager.setActiveItem(correspondingChip);
}
}
}
}
/**
* Finds and selects the chip based on its value.
* @private
* @param {?} value
* @param {?=} isUserInput
* @return {?} Chip that has the corresponding value.
*/
_selectValue(value, isUserInput = true) {
/** @type {?} */
const correspondingChip = this.chips.find((/**
* @param {?} chip
* @return {?}
*/
chip => {
return chip.value != null && this._compareWith(chip.value, value);
}));
if (correspondingChip) {
isUserInput ? correspondingChip.selectViaInteraction() : correspondingChip.select();
this._selectionModel.select(correspondingChip);
}
return correspondingChip;
}
/**
* @private
* @return {?}
*/
_initializeSelection() {
// Defer setting the value in order to avoid the "Expression
// has changed after it was checked" errors from Angular.
Promise.resolve().then((/**
* @return {?}
*/
() => {
if (this.ngControl || this._value) {
this._setSelectionByValue(this.ngControl ? this.ngControl.value : this._value, false);
this.stateChanges.next();
}
}));
}
/**
* Deselects every chip in the list.
* @private
* @param {?=} skip Chip that should not be deselected.
* @return {?}
*/
_clearSelection(skip) {
this._selectionModel.clear();
this.chips.forEach((/**
* @param {?} chip
* @return {?}
*/
chip => {
if (chip !== skip) {
chip.deselect();
}
}));
this.stateChanges.next();
}
/**
* Sorts the model values, ensuring that they keep the same
* order that they have in the panel.
* @private
* @return {?}
*/
_sortValues() {
if (this._multiple) {
this._selectionModel.clear();
this.chips.forEach((/**
* @param {?} chip
* @return {?}
*/
chip => {
if (chip.selected) {
this._selectionModel.select(chip);
}
}));
this.stateChanges.next();
}
}
/**
* Emits change event to set the model value.
* @private
* @param {?=} fallbackValue
* @return {?}
*/
_propagateChanges(fallbackValue) {
/** @type {?} */
let valueToEmit = null;
if (Array.isArray(this.selected)) {
valueToEmit = this.selected.map((/**
* @param {?} chip
* @return {?}
*/
chip => chip.value));
}
else {
valueToEmit = this.selected ? this.selected.value : fallbackValue;
}
this._value = valueToEmit;
this.change.emit(new MatChipListChange(this, valueToEmit));
this.valueChange.emit(valueToEmit);
this._onChange(valueToEmit);
this._changeDetectorRef.markForCheck();
}
/**
* When blurred, mark the field as touched when focus moved outside the chip list.
* @return {?}
*/
_blur() {
if (!this._hasFocusedChip()) {
this._keyManager.setActiveItem(-1);
}
if (!this.disabled) {
if (this._chipInput) {
// If there's a chip input, we should check whether the focus moved to chip input.
// If the focus is not moved to chip input, mark the field as touched. If the focus moved
// to chip input, do nothing.
// Timeout is needed to wait for the focus() event trigger on chip input.
setTimeout((/**
* @return {?}
*/
() => {
if (!this.focused) {
this._markAsTouched();
}
}));
}
else {
// If there's no chip input, then mark the field as touched.
this._markAsTouched();
}
}
}
/**
* Mark the field as touched
* @return {?}
*/
_markAsTouched() {
this._onTouched();
this._changeDetectorRef.markForCheck();
this.stateChanges.next();
}
/**
* Removes the `tabindex` from the chip list and resets it back afterwards, allowing the
* user to tab out of it. This prevents the list from capturing focus and redirecting
* it back to the first chip, creating a focus trap, if it user tries to tab away.
* @return {?}
*/
_allowFocusEscape() {
if (this._tabIndex !== -1) {
this._tabIndex = -1;
setTimeout((/**
* @return {?}
*/
() => {
this._tabIndex = this._userTabIndex || 0;
this._changeDetectorRef.markForCheck();
}));
}
}
/**
* @private
* @return {?}
*/
_resetChips() {
this._dropSubscriptions();
this._listenToChipsFocus();
this._listenToChipsSelection();
this._listenToChipsRemoved();
}
/**
* @private
* @return {?}
*/
_dropSubscriptions() {
if (this._chipFocusSubscription) {
this._chipFocusSubscription.unsubscribe();
this._chipFocusSubscription = null;
}
if (this._chipBlurSubscription) {
this._chipBlurSubscription.unsubscribe();
this._chipBlurSubscription = null;
}
if (this._chipSelectionSubscription) {
this._chipSelectionSubscription.unsubscribe();
this._chipSelectionSubscription = null;
}
if (this._chipRemoveSubscription) {
this._chipRemoveSubscription.unsubscribe();
this._chipRemoveSubscription = null;
}
}
/**
* Listens to user-generated selection events on each chip.
* @private
* @return {?}
*/
_listenToChipsSelection() {
this._chipSelectionSubscription = this.chipSelectionChanges.subscribe((/**
* @param {?} event
* @return {?}
*/
event => {
event.source.selected
? this._selectionModel.select(event.source)
: this._selectionModel.deselect(event.source);
// For single selection chip list, make sure the deselected value is unselected.
if (!this.multiple) {
this.chips.forEach((/**
* @param {?} chip
* @return {?}
*/
chip => {
if (!this._selectionModel.isSelected(chip) && chip.selected) {
chip.deselect();
}
}));
}
if (event.isUserInput) {
this._propagateChanges();
}
}));
}
/**
* Listens to user-generated selection events on each chip.
* @private
* @return {?}
*/
_listenToChipsFocus() {
this._chipFocusSubscription = this.chipFocusChanges.subscribe((/**
* @param {?} event
* @return {?}
*/
event => {
/** @type {?} */
let chipIndex = this.chips.toArray().indexOf(event.chip);
if (this._isValidIndex(chipIndex)) {
this._keyManager.updateActiveItem(chipIndex);
}
this.stateChanges.next();
}));
this._chipBlurSubscription = this.chipBlurChanges.subscribe((/**
* @return {?}
*/
() => {
this._blur();
this.stateChanges.next();
}));
}
/**
* @private
* @return {?}
*/
_listenToChipsRemoved() {
this._chipRemoveSubscription = this.chipRemoveChanges.subscribe((/**
* @param {?} event
* @return {?}
*/
event => {
/** @type {?} */
const chip = event.chip;
/** @type {?} */
const chipIndex = this.chips.toArray().indexOf(event.chip);
// In case the chip that will be removed is currently focused, we temporarily store
// the index in order to be able to determine an appropriate sibling chip that will
// receive focus.
if (this._isValidIndex(chipIndex) && chip._hasFocus) {
this._lastDestroyedChipIndex = chipIndex;
}
}));
}
/**
* Checks whether an event comes from inside a chip element.
* @private
* @param {?} event
* @return {?}
*/
_originatesFromChip(event) {
/** @type {?} */
let currentElement = (/** @type {?} */ (event.target));
while (currentElement && currentElement !== this._elementRef.nativeElement) {
if (currentElement.classList.contains('mat-chip')) {
return true;
}
currentElement = currentElement.parentElement;
}
return false;
}
/**
* Checks whether any of the chips is focused.
* @private
* @return {?}
*/
_hasFocusedChip() {
return this.chips.some((/**
* @param {?} chip
* @return {?}
*/
chip => chip._hasFocus));
}
/**
* Syncs the list's state with the individual chips.
* @private
* @return {?}
*/
_syncChipsState() {
if (this.chips) {
this.chips.forEach((/**
* @param {?} chip
* @return {?}
*/
chip => {
chip.disabled = this._disabled;
chip._chipListMultiple = this.multiple;
}));
}
}
}
MatChipList.decorators = [
{ type: Component, args: [{
selector: 'mat-chip-list',
template: `<div class="mat-chip-list-wrapper"><ng-content></ng-content></div>`,
exportAs: 'matChipList',
host: {
'[attr.tabindex]': 'disabled ? null : _tabIndex',
'[attr.aria-describedby]': '_ariaDescribedby || null',
'[attr.aria-required]': 'role ? required : null',
'[attr.aria-disabled]': 'disabled.toString()',
'[attr.aria-invalid]': 'errorState',
'[attr.aria-multiselectable]': 'multiple',
'[attr.role]': 'role',
'[class.mat-chip-list-disabled]': 'disabled',
'[class.mat-chip-list-invalid]': 'errorState',
'[class.mat-chip-list-required]': 'required',
'[attr.aria-orientation]': 'ariaOrientation',
'class': 'mat-chip-list',
'(focus)': 'focus()',
'(blur)': '_blur()',
'(keydown)': '_keydown($event)',
'[id]': '_uid',
},
providers: [{ provide: MatFormFieldControl, useExisting: MatChipList }],
encapsulation: ViewEncapsulation.None,
changeDetection: ChangeDetectionStrategy.OnPush,
styles: [".mat-chip{position:relative;box-sizing:border-box;-webkit-tap-highlight-color:transparent;transform:translateZ(0);border:none;-webkit-appearance:none;-moz-appearance:none}.mat-standard-chip{transition:box-shadow 280ms cubic-bezier(0.4, 0, 0.2, 1);display:inline-flex;padding:7px 12px;border-radius:16px;align-items:center;cursor:default;min-height:32px;height:1px}._mat-animation-noopable.mat-standard-chip{transition:none;animation:none}.mat-standard-chip .mat-chip-remove.mat-icon{width:18px;height:18px}.mat-standard-chip::after{top:0;left:0;right:0;bottom:0;position:absolute;border-radius:inherit;opacity:0;content:\"\";pointer-events:none;transition:opacity 200ms cubic-bezier(0.35, 0, 0.25, 1)}.mat-standard-chip:hover::after{opacity:.12}.mat-standard-chip:focus{outline:none}.mat-standard-chip:focus::after{opacity:.16}.cdk-high-contrast-active .mat-standard-chip{outline:solid 1px}.cdk-high-contrast-active .mat-standard-chip:focus{outline:dotted 2px}.mat-standard-chip.mat-chip-disabled::after{opacity:0}.mat-standard-chip.mat-chip-disabled .mat-chip-remove,.mat-standard-chip.mat-chip-disabled .mat-chip-trailing-icon{cursor:default}.mat-standard-chip.mat-chip-with-trailing-icon.mat-chip-with-avatar,.mat-standard-chip.mat-chip-with-avatar{padding-top:0;padding-bottom:0}.mat-standard-chip.mat-chip-with-trailing-icon.mat-chip-with-avatar{padding-right:8px;padding-left:0}[dir=rtl] .mat-standard-chip.mat-chip-with-trailing-icon.mat-chip-with-avatar{padding-left:8px;padding-right:0}.mat-standard-chip.mat-chip-with-trailing-icon{padding-top:7px;padding-bottom:7px;padding-right:8px;padding-left:12px}[dir=rtl] .mat-standard-chip.mat-chip-with-trailing-icon{padding-left:8px;padding-right:12px}.mat-standard-chip.mat-chip-with-avatar{padding-left:0;padding-right:12px}[dir=rtl] .mat-standard-chip.mat-chip-with-avatar{padding-right:0;padding-left:12px}.mat-standard-chip .mat-chip-avatar{width:24px;height:24px;margin-right:8px;margin-left:4px}[dir=rtl] .mat-standard-chip .mat-chip-avatar{margin-left:8px;margin-right:4px}.mat-standard-chip .mat-chip-remove,.mat-standard-chip .mat-chip-trailing-icon{width:18px;height:18px;cursor:pointer}.mat-standard-chip .mat-chip-remove,.mat-standard-chip .mat-chip-trailing-icon{margin-left:8px;margin-right:0}[dir=rtl] .mat-standard-chip .mat-chip-remove,[dir=rtl] .mat-standard-chip .mat-chip-trailing-icon{margin-right:8px;margin-left:0}.mat-chip-ripple{top:0;left:0;right:0;bottom:0;position:absolute;pointer-events:none;border-radius:inherit;overflow:hidden}.mat-chip-list-wrapper{display:flex;flex-direction:row;flex-wrap:wrap;align-items:center;margin:-4px}.mat-chip-list-wrapper input.mat-input-element,.mat-chip-list-wrapper .mat-standard-chip{margin:4px}.mat-chip-list-stacked .mat-chip-list-wrapper{flex-direction:column;align-items:flex-start}.mat-chip-list-stacked .mat-chip-list-wrapper .mat-standard-chip{width:100%}.mat-chip-avatar{border-radius:50%;justify-content:center;align-items:center;display:flex;overflow:hidden;object-fit:cover}input.mat-chip-input{width:150px;margin:4px;flex:1 0 150px}\n"]
}] }
];
/** @nocollapse */
MatChipList.ctorParameters = () => [
{ type: ElementRef },
{ type: ChangeDetectorRef },
{ type: Directionality, decorators: [{ type: Optional }] },
{ type: NgForm, decorators: [{ type: Optional }] },
{ type: FormGroupDirective, decorators: [{ type: Optional }] },
{ type: ErrorStateMatcher },
{ type: NgControl, decorators: [{ type: Optional }, { type: Self }] }
];
MatChipList.propDecorators = {
errorStateMatcher: [{ type: Input }],
multiple: [{ type: Input }],
compareWith: [{ type: Input }],
value: [{ type: Input }],
required: [{ type: Input }],
placeholder: [{ type: Input }],
disabled: [{ type: Input }],
ariaOrientation: [{ type: Input, args: ['aria-orientation',] }],
selectable: [{ type: Input }],
tabIndex: [{ type: Input }],
change: [{ type: Output }],
valueChange: [{ type: Output }],
chips: [{ type: ContentChildren, args: [MatChip, {
// We need to use `descendants: true`, because Ivy will no longer match
// indirect descendants if it's left as false.
descendants: true
},] }]
};
if (false) {
/** @type {?} */
MatChipList.ngAcceptInputType_multiple;
/** @type {?} */
MatChipList.ngAcceptInputType_required;
/** @type {?} */
MatChipList.ngAcceptInputType_disabled;
/** @type {?} */
MatChipList.ngAcceptInputType_selectable;
/**
* Implemented as part of MatFormFieldControl.
* \@docs-private
* @type {?}
*/
MatChipList.prototype.controlType;
/**
* When a chip is destroyed, we store the index of the destroyed chip until the chips
* query list notifies about the update. This is necessary because we cannot determine an
* appropriate chip that should receive focus until the array of chips updated completely.
* @type {?}
* @private
*/
MatChipList.prototype._lastDestroyedChipIndex;
/**
* Subject that emits when the component has been destroyed.
* @type {?}
* @private
*/
MatChipList.prototype._destroyed;
/**
* Subscription to focus changes in the chips.
* @type {?}
* @private
*/
MatChipList.prototype._chipFocusSubscription;
/**
* Subscription to blur changes in the chips.
* @type {?}
* @private
*/
MatChipList.prototype._chipBlurSubscription;
/**
* Subscription to selection changes in chips.
* @type {?}
* @private
*/
MatChipList.prototype._chipSelectionSubscription;
/**
* Subscription to remove changes in chips.
* @type {?}
* @private
*/
MatChipList.prototype._chipRemoveSubscription;
/**
* The chip input to add more chips
* @type {?}
* @protected
*/
MatChipList.prototype._chipInput;
/**
* Uid of the chip list
* @type {?}
*/
MatChipList.prototype._uid;
/**
* The aria-describedby attribute on the chip list for improved a11y.
* @type {?}
*/
MatChipList.prototype._ariaDescribedby;
/**
* Tab index for the chip list.
* @type {?}
*/
MatChipList.prototype._tabIndex;
/**
* User defined tab index.
* When it is not null, use user defined tab index. Otherwise use _tabIndex
* @type {?}
*/
MatChipList.prototype._userTabIndex;
/**
* The FocusKeyManager which handles focus.
* @type {?}
*/
MatChipList.prototype._keyManager;
/**
* Function when touched
* @type {?}
*/
MatChipList.prototype._onTouched;
/**
* Function when changed
* @type {?}
*/
MatChipList.prototype._onChange;
/** @type {?} */
MatChipList.prototype._selectionModel;
/**
* An object used to control when error messages are shown.
* @type {?}
*/
MatChipList.prototype.errorStateMatcher;
/**
* @type {?}
* @private
*/
MatChipList.prototype._multiple;
/**
* @type {?}
* @private
*/
MatChipList.prototype._compareWith;
/**
* @type {?}
* @protected
*/
MatChipList.prototype._value;
/**
* @type {?}
* @protected
*/
MatChipList.prototype._required;
/**
* @type {?}
* @protected
*/
MatChipList.prototype._placeholder;
/**
* @type {?}
* @protected
*/
MatChipList.prototype._disabled;
/**
* Orientation of the chip list.
* @type {?}
*/
MatChipList.prototype.ariaOrientation;
/**
* @type {?}
* @protected
*/
MatChipList.prototype._selectable;
/**
* Event emitted when the selected chip list value has been changed by the user.
* @type {?}
*/
MatChipList.prototype.change;
/**
* Event that emits whenever the raw value of the chip-list changes. This is here primarily
* to facilitate the two-way binding for the `value` input.
* \@docs-private
* @type {?}
*/
MatChipList.prototype.valueChange;
/**
* The chip components contained within this chip list.
* @type {?}
*/
MatChipList.prototype.chips;
/**
* @type {?}
* @protected
*/
MatChipList.prototype._elementRef;
/**
* @type {?}
* @private
*/
MatChipList.prototype._changeDetectorRef;
/**
* @type {?}
* @private
*/
MatChipList.prototype._dir;
/**
* \@docs-private
* @type {?}
*/
MatChipList.prototype.ngControl;
}
/**
* @fileoverview added by tsickle
* Generated from: src/material/chips/chip-input.ts
* @suppress {checkTypes,constantProperty,extraRequire,missingOverride,missingReturn,unusedPrivateMembers,uselessCode} checked by tsc
*/
/**
* Represents an input event on a `matChipInput`.
* @record
*/
function MatChipInputEvent() { }
if (false) {
/**
* The native `<input>` element that the event is being fired for.
* @type {?}
*/
MatChipInputEvent.prototype.input;
/**
* The value of the input.
* @type {?}
*/
MatChipInputEvent.prototype.value;
}
// Increasing integer for generating unique ids.
/** @type {?} */
let nextUniqueId$1 = 0;
/**
* Directive that adds chip-specific behaviors to an input element inside `<mat-form-field>`.
* May be placed inside or outside of an `<mat-chip-list>`.
*/
class MatChipInput {
/**
* @param {?} _elementRef
* @param {?} _defaultOptions
*/
constructor(_elementRef, _defaultOptions) {
this._elementRef = _elementRef;
this._defaultOptions = _defaultOptions;
/**
* Whether the control is focused.
*/
this.focused = false;
this._addOnBlur = false;
/**
* The list of key codes that will trigger a chipEnd event.
*
* Defaults to `[ENTER]`.
*/
this.separatorKeyCodes = this._defaultOptions.separatorKeyCodes;
/**
* Emitted when a chip is to be added.
*/
this.chipEnd = new EventEmitter();
/**
* The input's placeholder text.
*/
this.placeholder = '';
/**
* Unique id for the input.
*/
this.id = `mat-chip-list-input-${nextUniqueId$1++}`;
this._disabled = false;
this._inputElement = (/** @type {?} */ (this._elementRef.nativeElement));
}
/**
* Register input for chip list
* @param {?} value
* @return {?}
*/
set chipList(value) {
if (value) {
this._chipList = value;
this._chipList.registerInput(this);
}
}
/**
* Whether or not the chipEnd event will be emitted when the input is blurred.
* @return {?}
*/
get addOnBlur() { return this._addOnBlur; }
/**
* @param {?} value
* @return {?}
*/
set addOnBlur(value) { this._addOnBlur = coerceBooleanProperty(value); }
/**
* Whether the input is disabled.
* @return {?}
*/
get disabled() { return this._disabled || (this._chipList && this._chipList.disabled); }
/**
* @param {?} value
* @return {?}
*/
set disabled(value) { this._disabled = coerceBooleanProperty(value); }
/**
* Whether the input is empty.
* @return {?}
*/
get empty() { return !this._inputElement.value; }
/**
* @return {?}
*/
ngOnChanges() {
this._chipList.stateChanges.next();
}
/**
* Utility method to make host definition/tests more clear.
* @param {?=} event
* @return {?}
*/
_keydown(event) {
// Allow the user's focus to escape when they're tabbing forward. Note that we don't
// want to do this when going backwards, because focus should go back to the first chip.
if (event && event.keyCode === TAB && !hasModifierKey(event, 'shiftKey')) {
this._chipList._allowFocusEscape();
}
this._emitChipEnd(event);
}
/**
* Checks to see if the blur should emit the (chipEnd) event.
* @return {?}
*/
_blur() {
if (this.addOnBlur) {
this._emitChipEnd();
}
this.focused = false;
// Blur the chip list if it is not focused
if (!this._chipList.focused) {
this._chipList._blur();
}
this._chipList.stateChanges.next();
}
/**
* @return {?}
*/
_focus() {
this.focused = true;
this._chipList.stateChanges.next();
}
/**
* Checks to see if the (chipEnd) event needs to be emitted.
* @param {?=} event
* @return {?}
*/
_emitChipEnd(event) {
if (!this._inputElement.value && !!event) {
this._chipList._keydown(event);
}
if (!event || this._isSeparatorKey(event)) {
this.chipEnd.emit({ input: this._inputElement, value: this._inputElement.value });
if (event) {
event.preventDefault();
}
}
}
/**
* @return {?}
*/
_onInput() {
// Let chip list know whenever the value changes.
this._chipList.stateChanges.next();
}
/**
* Focuses the input.
* @param {?=} options
* @return {?}
*/
focus(options) {
this._inputElement.focus(options);
}
/**
* Checks whether a keycode is one of the configured separators.
* @private
* @param {?} event
* @return {?}
*/
_isSeparatorKey(event) {
if (hasModifierKey(event)) {
return false;
}
/** @type {?} */
const separators = this.separatorKeyCodes;
/** @type {?} */
const keyCode = event.keyCode;
return Array.isArray(separators) ? separators.indexOf(keyCode) > -1 : separators.has(keyCode);
}
}
MatChipInput.decorators = [
{ type: Directive, args: [{
selector: 'input[matChipInputFor]',
exportAs: 'matChipInput, matChipInputFor',
host: {
'class': 'mat-chip-input mat-input-element',
'(keydown)': '_keydown($event)',
'(blur)': '_blur()',
'(focus)': '_focus()',
'(input)': '_onInput()',
'[id]': 'id',
'[attr.disabled]': 'disabled || null',
'[attr.placeholder]': 'placeholder || null',
'[attr.aria-invalid]': '_chipList && _chipList.ngControl ? _chipList.ngControl.invalid : null',
'[attr.aria-required]': '_chipList && _chipList.required || null',
}
},] }
];
/** @nocollapse */
MatChipInput.ctorParameters = () => [
{ type: ElementRef },
{ type: undefined, decorators: [{ type: Inject, args: [MAT_CHIPS_DEFAULT_OPTIONS,] }] }
];
MatChipInput.propDecorators = {
chipList: [{ type: Input, args: ['matChipInputFor',] }],
addOnBlur: [{ type: Input, args: ['matChipInputAddOnBlur',] }],
separatorKeyCodes: [{ type: Input, args: ['matChipInputSeparatorKeyCodes',] }],
chipEnd: [{ type: Output, args: ['matChipInputTokenEnd',] }],
placeholder: [{ type: Input }],
id: [{ type: Input }],
disabled: [{ type: Input }]
};
if (false) {
/** @type {?} */
MatChipInput.ngAcceptInputType_addOnBlur;
/** @type {?} */
MatChipInput.ngAcceptInputType_disabled;
/**
* Whether the control is focused.
* @type {?}
*/
MatChipInput.prototype.focused;
/** @type {?} */
MatChipInput.prototype._chipList;
/** @type {?} */
MatChipInput.prototype._addOnBlur;
/**
* The list of key codes that will trigger a chipEnd event.
*
* Defaults to `[ENTER]`.
* @type {?}
*/
MatChipInput.prototype.separatorKeyCodes;
/**
* Emitted when a chip is to be added.
* @type {?}
*/
MatChipInput.prototype.chipEnd;
/**
* The input's placeholder text.
* @type {?}
*/
MatChipInput.prototype.placeholder;
/**
* Unique id for the input.
* @type {?}
*/
MatChipInput.prototype.id;
/**
* @type {?}
* @private
*/
MatChipInput.prototype._disabled;
/**
* The native input element to which this directive is attached.
* @type {?}
* @protected
*/
MatChipInput.prototype._inputElement;
/**
* @type {?}
* @protected
*/
MatChipInput.prototype._elementRef;
/**
* @type {?}
* @private
*/
MatChipInput.prototype._defaultOptions;
}
/**
* @fileoverview added by tsickle
* Generated from: src/material/chips/chips-module.ts
* @suppress {checkTypes,constantProperty,extraRequire,missingOverride,missingReturn,unusedPrivateMembers,uselessCode} checked by tsc
*/
/** @type {?} */
const CHIP_DECLARATIONS = [
MatChipList,
MatChip,
MatChipInput,
MatChipRemove,
MatChipAvatar,
MatChipTrailingIcon,
];
const ɵ0 = ({
separatorKeyCodes: [ENTER]
});
class MatChipsModule {
}
MatChipsModule.decorators = [
{ type: NgModule, args: [{
exports: CHIP_DECLARATIONS,
declarations: CHIP_DECLARATIONS,
providers: [
ErrorStateMatcher,
{
provide: MAT_CHIPS_DEFAULT_OPTIONS,
useValue: (/** @type {?} */ (ɵ0))
}
]
},] }
];
/**
* @fileoverview added by tsickle
* Generated from: src/material/chips/public-api.ts
* @suppress {checkTypes,constantProperty,extraRequire,missingOverride,missingReturn,unusedPrivateMembers,uselessCode} checked by tsc
*/
/**
* Generated bundle index. Do not edit.
*/
export { MAT_CHIPS_DEFAULT_OPTIONS, MatChip, MatChipAvatar, MatChipInput, MatChipList, MatChipListChange, MatChipRemove, MatChipSelectionChange, MatChipTrailingIcon, MatChipsModule };
//# sourceMappingURL=chips.js.map