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@angular/material

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Angular Material

github.com/angular/components

angular/components

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/** * @license * Copyright Google LLC All Rights Reserved. * * Use of this source code is governed by an MIT-style license that can be * found in the LICENSE file at https://angular.io/license */ import { DOWN_ARROW, END, ENTER, HOME, LEFT_ARROW, PAGE_DOWN, PAGE_UP, RIGHT_ARROW, UP_ARROW, SPACE, } from '@angular/cdk/keycodes'; import { ChangeDetectionStrategy, ChangeDetectorRef, Component, EventEmitter, Input, Optional, Output, ViewChild, ViewEncapsulation, } from '@angular/core'; import { DateAdapter } from '@angular/material/core'; import { Directionality } from '@angular/cdk/bidi'; import { MatCalendarBody, MatCalendarCell } from './calendar-body'; import { createMissingDateImplError } from './datepicker-errors'; import { Subscription } from 'rxjs'; import { startWith } from 'rxjs/operators'; import { DateRange } from './date-selection-model'; export const yearsPerPage = 24; export const yearsPerRow = 4; /** * An internal component used to display a year selector in the datepicker. * @docs-private */ export class MatMultiYearView { constructor(_changeDetectorRef, _dateAdapter, _dir) { this._changeDetectorRef = _changeDetectorRef; this._dateAdapter = _dateAdapter; this._dir = _dir; this._rerenderSubscription = Subscription.EMPTY; /** Emits when a new year is selected. */ this.selectedChange = new EventEmitter(); /** Emits the selected year. This doesn't imply a change on the selected date */ this.yearSelected = new EventEmitter(); /** Emits when any date is activated. */ this.activeDateChange = new EventEmitter(); if (!this._dateAdapter) { throw createMissingDateImplError('DateAdapter'); } this._activeDate = this._dateAdapter.today(); } /** The date to display in this multi-year view (everything other than the year is ignored). */ get activeDate() { return this._activeDate; } set activeDate(value) { let oldActiveDate = this._activeDate; const validDate = this._getValidDateOrNull(this._dateAdapter.deserialize(value)) || this._dateAdapter.today(); this._activeDate = this._dateAdapter.clampDate(validDate, this.minDate, this.maxDate); if (!isSameMultiYearView(this._dateAdapter, oldActiveDate, this._activeDate, this.minDate, this.maxDate)) { this._init(); } } /** The currently selected date. */ get selected() { return this._selected; } set selected(value) { if (value instanceof DateRange) { this._selected = value; } else { this._selected = this._getValidDateOrNull(this._dateAdapter.deserialize(value)); } this._setSelectedYear(value); } /** The minimum selectable date. */ get minDate() { return this._minDate; } set minDate(value) { this._minDate = this._getValidDateOrNull(this._dateAdapter.deserialize(value)); } /** The maximum selectable date. */ get maxDate() { return this._maxDate; } set maxDate(value) { this._maxDate = this._getValidDateOrNull(this._dateAdapter.deserialize(value)); } ngAfterContentInit() { this._rerenderSubscription = this._dateAdapter.localeChanges .pipe(startWith(null)) .subscribe(() => this._init()); } ngOnDestroy() { this._rerenderSubscription.unsubscribe(); } /** Initializes this multi-year view. */ _init() { this._todayYear = this._dateAdapter.getYear(this._dateAdapter.today()); // We want a range years such that we maximize the number of // enabled dates visible at once. This prevents issues where the minimum year // is the last item of a page OR the maximum year is the first item of a page. // The offset from the active year to the "slot" for the starting year is the // *actual* first rendered year in the multi-year view. const activeYear = this._dateAdapter.getYear(this._activeDate); const minYearOfPage = activeYear - getActiveOffset(this._dateAdapter, this.activeDate, this.minDate, this.maxDate); this._years = []; for (let i = 0, row = []; i < yearsPerPage; i++) { row.push(minYearOfPage + i); if (row.length == yearsPerRow) { this._years.push(row.map(year => this._createCellForYear(year))); row = []; } } this._changeDetectorRef.markForCheck(); } /** Handles when a new year is selected. */ _yearSelected(event) { const year = event.value; this.yearSelected.emit(this._dateAdapter.createDate(year, 0, 1)); let month = this._dateAdapter.getMonth(this.activeDate); let daysInMonth = this._dateAdapter.getNumDaysInMonth(this._dateAdapter.createDate(year, month, 1)); this.selectedChange.emit(this._dateAdapter.createDate(year, month, Math.min(this._dateAdapter.getDate(this.activeDate), daysInMonth))); } /** Handles keydown events on the calendar body when calendar is in multi-year view. */ _handleCalendarBodyKeydown(event) { const oldActiveDate = this._activeDate; const isRtl = this._isRtl(); switch (event.keyCode) { case LEFT_ARROW: this.activeDate = this._dateAdapter.addCalendarYears(this._activeDate, isRtl ? 1 : -1); break; case RIGHT_ARROW: this.activeDate = this._dateAdapter.addCalendarYears(this._activeDate, isRtl ? -1 : 1); break; case UP_ARROW: this.activeDate = this._dateAdapter.addCalendarYears(this._activeDate, -yearsPerRow); break; case DOWN_ARROW: this.activeDate = this._dateAdapter.addCalendarYears(this._activeDate, yearsPerRow); break; case HOME: this.activeDate = this._dateAdapter.addCalendarYears(this._activeDate, -getActiveOffset(this._dateAdapter, this.activeDate, this.minDate, this.maxDate)); break; case END: this.activeDate = this._dateAdapter.addCalendarYears(this._activeDate, yearsPerPage - getActiveOffset(this._dateAdapter, this.activeDate, this.minDate, this.maxDate) - 1); break; case PAGE_UP: this.activeDate = this._dateAdapter.addCalendarYears(this._activeDate, event.altKey ? -yearsPerPage * 10 : -yearsPerPage); break; case PAGE_DOWN: this.activeDate = this._dateAdapter.addCalendarYears(this._activeDate, event.altKey ? yearsPerPage * 10 : yearsPerPage); break; case ENTER: case SPACE: this._yearSelected({ value: this._dateAdapter.getYear(this._activeDate), event }); break; default: // Don't prevent default or focus active cell on keys that we don't explicitly handle. return; } if (this._dateAdapter.compareDate(oldActiveDate, this.activeDate)) { this.activeDateChange.emit(this.activeDate); } this._focusActiveCell(); // Prevent unexpected default actions such as form submission. event.preventDefault(); } _getActiveCell() { return getActiveOffset(this._dateAdapter, this.activeDate, this.minDate, this.maxDate); } /** Focuses the active cell after the microtask queue is empty. */ _focusActiveCell() { this._matCalendarBody._focusActiveCell(); } /** Creates an MatCalendarCell for the given year. */ _createCellForYear(year) { let yearName = this._dateAdapter.getYearName(this._dateAdapter.createDate(year, 0, 1)); return new MatCalendarCell(year, yearName, yearName, this._shouldEnableYear(year)); } /** Whether the given year is enabled. */ _shouldEnableYear(year) { // disable if the year is greater than maxDate lower than minDate if (year === undefined || year === null || (this.maxDate && year > this._dateAdapter.getYear(this.maxDate)) || (this.minDate && year < this._dateAdapter.getYear(this.minDate))) { return false; } // enable if it reaches here and there's no filter defined if (!this.dateFilter) { return true; } const firstOfYear = this._dateAdapter.createDate(year, 0, 1); // If any date in the year is enabled count the year as enabled. for (let date = firstOfYear; this._dateAdapter.getYear(date) == year; date = this._dateAdapter.addCalendarDays(date, 1)) { if (this.dateFilter(date)) { return true; } } return false; } /** * @param obj The object to check. * @returns The given object if it is both a date instance and valid, otherwise null. */ _getValidDateOrNull(obj) { return (this._dateAdapter.isDateInstance(obj) && this._dateAdapter.isValid(obj)) ? obj : null; } /** Determines whether the user has the RTL layout direction. */ _isRtl() { return this._dir && this._dir.value === 'rtl'; } /** Sets the currently-highlighted year based on a model value. */ _setSelectedYear(value) { this._selectedYear = null; if (value instanceof DateRange) { const displayValue = value.start || value.end; if (displayValue) { this._selectedYear = this._dateAdapter.getYear(displayValue); } } else if (value) { this._selectedYear = this._dateAdapter.getYear(value); } } } MatMultiYearView.decorators = [ { type: Component, args: [{ selector: 'mat-multi-year-view', template: "<table class=\"mat-calendar-table\" role=\"presentation\">\n <thead class=\"mat-calendar-table-header\">\n <tr><th class=\"mat-calendar-table-header-divider\" colspan=\"4\"></th></tr>\n </thead>\n <tbody mat-calendar-body\n [rows]=\"_years\"\n [todayValue]=\"_todayYear\"\n [startValue]=\"_selectedYear!\"\n [endValue]=\"_selectedYear!\"\n [numCols]=\"4\"\n [cellAspectRatio]=\"4 / 7\"\n [activeCell]=\"_getActiveCell()\"\n (selectedValueChange)=\"_yearSelected($event)\"\n (keydown)=\"_handleCalendarBodyKeydown($event)\">\n </tbody>\n</table>\n", exportAs: 'matMultiYearView', encapsulation: ViewEncapsulation.None, changeDetection: ChangeDetectionStrategy.OnPush },] } ]; MatMultiYearView.ctorParameters = () => [ { type: ChangeDetectorRef }, { type: DateAdapter, decorators: [{ type: Optional }] }, { type: Directionality, decorators: [{ type: Optional }] } ]; MatMultiYearView.propDecorators = { activeDate: [{ type: Input }], selected: [{ type: Input }], minDate: [{ type: Input }], maxDate: [{ type: Input }], dateFilter: [{ type: Input }], selectedChange: [{ type: Output }], yearSelected: [{ type: Output }], activeDateChange: [{ type: Output }], _matCalendarBody: [{ type: ViewChild, args: [MatCalendarBody,] }] }; export function isSameMultiYearView(dateAdapter, date1, date2, minDate, maxDate) { const year1 = dateAdapter.getYear(date1); const year2 = dateAdapter.getYear(date2); const startingYear = getStartingYear(dateAdapter, minDate, maxDate); return Math.floor((year1 - startingYear) / yearsPerPage) === Math.floor((year2 - startingYear) / yearsPerPage); } /** * When the multi-year view is first opened, the active year will be in view. * So we compute how many years are between the active year and the *slot* where our * "startingYear" will render when paged into view. */ export function getActiveOffset(dateAdapter, activeDate, minDate, maxDate) { const activeYear = dateAdapter.getYear(activeDate); return euclideanModulo((activeYear - getStartingYear(dateAdapter, minDate, maxDate)), yearsPerPage); } /** * We pick a "starting" year such that either the maximum year would be at the end * or the minimum year would be at the beginning of a page. */ function getStartingYear(dateAdapter, minDate, maxDate) { let startingYear = 0; if (maxDate) { const maxYear = dateAdapter.getYear(maxDate); startingYear = maxYear - yearsPerPage + 1; } else if (minDate) { startingYear = dateAdapter.getYear(minDate); } return startingYear; } /** Gets remainder that is non-negative, even if first number is negative */ function euclideanModulo(a, b) { return (a % b + b) % b; } //# 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* @license\n * Copyright Google LLC All Rights Reserved.\n *\n * Use of this source code is governed by an MIT-style license that can be\n * found in the LICENSE file at https://angular.io/license\n */\n\nimport {\n  DOWN_ARROW,\n  END,\n  ENTER,\n  HOME,\n  LEFT_ARROW,\n  PAGE_DOWN,\n  PAGE_UP,\n  RIGHT_ARROW,\n  UP_ARROW,\n  SPACE,\n} from '@angular/cdk/keycodes';\nimport {\n  AfterContentInit,\n  ChangeDetectionStrategy,\n  ChangeDetectorRef,\n  Component,\n  EventEmitter,\n  Input,\n  Optional,\n  Output,\n  ViewChild,\n  ViewEncapsulation,\n  OnDestroy,\n} from '@angular/core';\nimport {DateAdapter} from '@angular/material/core';\nimport {Directionality} from '@angular/cdk/bidi';\nimport {MatCalendarBody, MatCalendarCell, MatCalendarUserEvent} from './calendar-body';\nimport {createMissingDateImplError} from './datepicker-errors';\nimport {Subscription} from 'rxjs';\nimport {startWith} from 'rxjs/operators';\nimport {DateRange} from './date-selection-model';\n\nexport const yearsPerPage = 24;\n\nexport const yearsPerRow = 4;\n\n/**\n * An internal component used to display a year selector in the datepicker.\n * @docs-private\n */\n@Component({\n  selector: 'mat-multi-year-view',\n  templateUrl: 'multi-year-view.html',\n  exportAs: 'matMultiYearView',\n  encapsulation: ViewEncapsulation.None,\n  changeDetection: ChangeDetectionStrategy.OnPush\n})\nexport class MatMultiYearView<D> implements AfterContentInit, OnDestroy {\n  private _rerenderSubscription = Subscription.EMPTY;\n\n  /** The date to display in this multi-year view (everything other than the year is ignored). */\n  @Input()\n  get activeDate(): D { return this._activeDate; }\n  set activeDate(value: D) {\n    let oldActiveDate = this._activeDate;\n    const validDate =\n        this._getValidDateOrNull(this._dateAdapter.deserialize(value)) || this._dateAdapter.today();\n    this._activeDate = this._dateAdapter.clampDate(validDate, this.minDate, this.maxDate);\n\n    if (!isSameMultiYearView(\n      this._dateAdapter, oldActiveDate, this._activeDate, this.minDate, this.maxDate)) {\n      this._init();\n    }\n  }\n  private _activeDate: D;\n\n  /** The currently selected date. */\n  @Input()\n  get selected(): DateRange<D> | D | null { return this._selected; }\n  set selected(value: DateRange<D> | D | null) {\n    if (value instanceof DateRange) {\n      this._selected = value;\n    } else {\n      this._selected = this._getValidDateOrNull(this._dateAdapter.deserialize(value));\n    }\n\n    this._setSelectedYear(value);\n  }\n  private _selected: DateRange<D> | D | null;\n\n\n  /** The minimum selectable date. */\n  @Input()\n  get minDate(): D | null { return this._minDate; }\n  set minDate(value: D | null) {\n    this._minDate = this._getValidDateOrNull(this._dateAdapter.deserialize(value));\n  }\n  private _minDate: D | null;\n\n  /** The maximum selectable date. */\n  @Input()\n  get maxDate(): D | null { return this._maxDate; }\n  set maxDate(value: D | null) {\n    this._maxDate = this._getValidDateOrNull(this._dateAdapter.deserialize(value));\n  }\n  private _maxDate: D | null;\n\n  /** A function used to filter which dates are selectable. */\n  @Input() dateFilter: (date: D) => boolean;\n\n  /** Emits when a new year is selected. */\n  @Output() readonly selectedChange: EventEmitter<D> = new EventEmitter<D>();\n\n  /** Emits the selected year. This doesn't imply a change on the selected date */\n  @Output() readonly yearSelected: EventEmitter<D> = new EventEmitter<D>();\n\n  /** Emits when any date is activated. */\n  @Output() readonly activeDateChange: EventEmitter<D> = new EventEmitter<D>();\n\n  /** The body of calendar table */\n  @ViewChild(MatCalendarBody) _matCalendarBody: MatCalendarBody;\n\n  /** Grid of calendar cells representing the currently displayed years. */\n  _years: MatCalendarCell[][];\n\n  /** The year that today falls on. */\n  _todayYear: number;\n\n  /** The year of the selected date. Null if the selected date is null. */\n  _selectedYear: number | null;\n\n  constructor(private _changeDetectorRef: ChangeDetectorRef,\n              @Optional() public _dateAdapter: DateAdapter<D>,\n              @Optional() private _dir?: Directionality) {\n    if (!this._dateAdapter) {\n      throw createMissingDateImplError('DateAdapter');\n    }\n\n    this._activeDate = this._dateAdapter.today();\n  }\n\n  ngAfterContentInit() {\n    this._rerenderSubscription = this._dateAdapter.localeChanges\n      .pipe(startWith(null))\n      .subscribe(() => this._init());\n  }\n\n  ngOnDestroy() {\n    this._rerenderSubscription.unsubscribe();\n  }\n\n  /** Initializes this multi-year view. */\n  _init() {\n    this._todayYear = this._dateAdapter.getYear(this._dateAdapter.today());\n\n    // We want a range years such that we maximize the number of\n    // enabled dates visible at once. This prevents issues where the minimum year\n    // is the last item of a page OR the maximum year is the first item of a page.\n\n    // The offset from the active year to the \"slot\" for the starting year is the\n    // *actual* first rendered year in the multi-year view.\n    const activeYear = this._dateAdapter.getYear(this._activeDate);\n    const minYearOfPage = activeYear - getActiveOffset(\n      this._dateAdapter, this.activeDate, this.minDate, this.maxDate);\n\n    this._years = [];\n    for (let i = 0, row: number[] = []; i < yearsPerPage; i++) {\n      row.push(minYearOfPage + i);\n      if (row.length == yearsPerRow) {\n        this._years.push(row.map(year => this._createCellForYear(year)));\n        row = [];\n      }\n    }\n    this._changeDetectorRef.markForCheck();\n  }\n\n  /** Handles when a new year is selected. */\n  _yearSelected(event: MatCalendarUserEvent<number>) {\n    const year = event.value;\n    this.yearSelected.emit(this._dateAdapter.createDate(year, 0, 1));\n    let month = this._dateAdapter.getMonth(this.activeDate);\n    let daysInMonth =\n        this._dateAdapter.getNumDaysInMonth(this._dateAdapter.createDate(year, month, 1));\n    this.selectedChange.emit(this._dateAdapter.createDate(year, month,\n        Math.min(this._dateAdapter.getDate(this.activeDate), daysInMonth)));\n  }\n\n  /** Handles keydown events on the calendar body when calendar is in multi-year view. */\n  _handleCalendarBodyKeydown(event: KeyboardEvent): void {\n    const oldActiveDate = this._activeDate;\n    const isRtl = this._isRtl();\n\n    switch (event.keyCode) {\n      case LEFT_ARROW:\n        this.activeDate = this._dateAdapter.addCalendarYears(this._activeDate, isRtl ? 1 : -1);\n        break;\n      case RIGHT_ARROW:\n        this.activeDate = this._dateAdapter.addCalendarYears(this._activeDate, isRtl ? -1 : 1);\n        break;\n      case UP_ARROW:\n        this.activeDate = this._dateAdapter.addCalendarYears(this._activeDate, -yearsPerRow);\n        break;\n      case DOWN_ARROW:\n        this.activeDate = this._dateAdapter.addCalendarYears(this._activeDate, yearsPerRow);\n        break;\n      case HOME:\n        this.activeDate = this._dateAdapter.addCalendarYears(this._activeDate,\n          -getActiveOffset(this._dateAdapter, this.activeDate, this.minDate, this.maxDate));\n        break;\n      case END:\n        this.activeDate = this._dateAdapter.addCalendarYears(this._activeDate,\n          yearsPerPage - getActiveOffset(\n            this._dateAdapter, this.activeDate, this.minDate, this.maxDate) - 1);\n        break;\n      case PAGE_UP:\n        this.activeDate =\n            this._dateAdapter.addCalendarYears(\n                this._activeDate, event.altKey ? -yearsPerPage * 10 : -yearsPerPage);\n        break;\n      case PAGE_DOWN:\n        this.activeDate =\n            this._dateAdapter.addCalendarYears(\n                this._activeDate, event.altKey ? yearsPerPage * 10 : yearsPerPage);\n        break;\n      case ENTER:\n      case SPACE:\n        this._yearSelected({value: this._dateAdapter.getYear(this._activeDate), event});\n        break;\n      default:\n        // Don't prevent default or focus active cell on keys that we don't explicitly handle.\n        return;\n    }\n    if (this._dateAdapter.compareDate(oldActiveDate, this.activeDate)) {\n      this.activeDateChange.emit(this.activeDate);\n    }\n\n    this._focusActiveCell();\n    // Prevent unexpected default actions such as form submission.\n    event.preventDefault();\n  }\n\n  _getActiveCell(): number {\n    return getActiveOffset(this._dateAdapter, this.activeDate, this.minDate, this.maxDate);\n  }\n\n  /** Focuses the active cell after the microtask queue is empty. */\n  _focusActiveCell() {\n    this._matCalendarBody._focusActiveCell();\n  }\n\n  /** Creates an MatCalendarCell for the given year. */\n  private _createCellForYear(year: number) {\n    let yearName = this._dateAdapter.getYearName(this._dateAdapter.createDate(year, 0, 1));\n    return new MatCalendarCell(year, yearName, yearName, this._shouldEnableYear(year));\n  }\n\n  /** Whether the given year is enabled. */\n  private _shouldEnableYear(year: number) {\n    // disable if the year is greater than maxDate lower than minDate\n    if (year === undefined || year === null ||\n        (this.maxDate && year > this._dateAdapter.getYear(this.maxDate)) ||\n        (this.minDate && year < this._dateAdapter.getYear(this.minDate))) {\n      return false;\n    }\n\n    // enable if it reaches here and there's no filter defined\n    if (!this.dateFilter) {\n      return true;\n    }\n\n    const firstOfYear = this._dateAdapter.createDate(year, 0, 1);\n\n    // If any date in the year is enabled count the year as enabled.\n    for (let date = firstOfYear; this._dateAdapter.getYear(date) == year;\n      date = this._dateAdapter.addCalendarDays(date, 1)) {\n      if (this.dateFilter(date)) {\n        return true;\n      }\n    }\n\n    return false;\n  }\n\n  /**\n   * @param obj The object to check.\n   * @returns The given object if it is both a date instance and valid, otherwise null.\n   */\n  private _getValidDateOrNull(obj: any): D | null {\n    return (this._dateAdapter.isDateInstance(obj) && this._dateAdapter.isValid(obj)) ? obj : null;\n  }\n\n  /** Determines whether the user has the RTL layout direction. */\n  private _isRtl() {\n    return this._dir && this._dir.value === 'rtl';\n  }\n\n  /** Sets the currently-highlighted year based on a model value. */\n  private _setSelectedYear(value: DateRange<D> | D | null) {\n    this._selectedYear = null;\n\n    if (value instanceof DateRange) {\n      const displayValue = value.start || value.end;\n\n      if (displayValue) {\n        this._selectedYear = this._dateAdapter.getYear(displayValue);\n      }\n    } else if (value) {\n      this._selectedYear = this._dateAdapter.getYear(value);\n    }\n  }\n}\n\nexport function isSameMultiYearView<D>(\n  dateAdapter: DateAdapter<D>, date1: D, date2: D, minDate: D | null, maxDate: D | null): boolean {\n  const year1 = dateAdapter.getYear(date1);\n  const year2 = dateAdapter.getYear(date2);\n  const startingYear = getStartingYear(dateAdapter, minDate, maxDate);\n  return Math.floor((year1 - startingYear) / yearsPerPage) ===\n          Math.floor((year2 - startingYear) / yearsPerPage);\n}\n\n/**\n * When the multi-year view is first opened, the active year will be in view.\n * So we compute how many years are between the active year and the *slot* where our\n * \"startingYear\" will render when paged into view.\n */\nexport function getActiveOffset<D>(\n  dateAdapter: DateAdapter<D>, activeDate: D, minDate: D | null, maxDate: D | null): number {\n  const activeYear = dateAdapter.getYear(activeDate);\n  return euclideanModulo((activeYear - getStartingYear(dateAdapter, minDate, maxDate)),\n    yearsPerPage);\n}\n\n/**\n * We pick a \"starting\" year such that either the maximum year would be at the end\n * or the minimum year would be at the beginning of a page.\n */\nfunction getStartingYear<D>(\n  dateAdapter: DateAdapter<D>, minDate: D | null, maxDate: D | null): number {\n  let startingYear = 0;\n  if (maxDate) {\n    const maxYear = dateAdapter.getYear(maxDate);\n    startingYear = maxYear - yearsPerPage + 1;\n  } else if (minDate) {\n    startingYear = dateAdapter.getYear(minDate);\n  }\n  return startingYear;\n}\n\n/** Gets remainder that is non-negative, even if first number is negative */\nfunction euclideanModulo (a: number, b: number): number {\n  return (a % b + b) % b;\n}\n"]}