import { InjectionToken, Component, ViewEncapsulation, ChangeDetectionStrategy, ElementRef, Optional, Inject, Input, ContentChildren, Directive, NgModule } from '@angular/core'; import { setLines, MatLine, MatLineModule, MatCommonModule } from '@angular/material/core'; import { coerceNumberProperty } from '@angular/cdk/coercion'; import { Directionality } from '@angular/cdk/bidi'; /** * @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 */ /** * Class for determining, from a list of tiles, the (row, col) position of each of those tiles * in the grid. This is necessary (rather than just rendering the tiles in normal document flow) * because the tiles can have a rowspan. * * The positioning algorithm greedily places each tile as soon as it encounters a gap in the grid * large enough to accommodate it so that the tiles still render in the same order in which they * are given. * * The basis of the algorithm is the use of an array to track the already placed tiles. Each * element of the array corresponds to a column, and the value indicates how many cells in that * column are already occupied; zero indicates an empty cell. Moving "down" to the next row * decrements each value in the tracking array (indicating that the column is one cell closer to * being free). * * @docs-private */ class TileCoordinator { constructor() { /** Index at which the search for the next gap will start. */ this.columnIndex = 0; /** The current row index. */ this.rowIndex = 0; } /** Gets the total number of rows occupied by tiles */ get rowCount() { return this.rowIndex + 1; } /** * Gets the total span of rows occupied by tiles. * Ex: A list with 1 row that contains a tile with rowspan 2 will have a total rowspan of 2. */ get rowspan() { const lastRowMax = Math.max(...this.tracker); // if any of the tiles has a rowspan that pushes it beyond the total row count, // add the difference to the rowcount return lastRowMax > 1 ? this.rowCount + lastRowMax - 1 : this.rowCount; } /** * Updates the tile positions. * @param numColumns Amount of columns in the grid. * @param tiles Tiles to be positioned. */ update(numColumns, tiles) { this.columnIndex = 0; this.rowIndex = 0; this.tracker = new Array(numColumns); this.tracker.fill(0, 0, this.tracker.length); this.positions = tiles.map(tile => this._trackTile(tile)); } /** Calculates the row and col position of a tile. */ _trackTile(tile) { // Find a gap large enough for this tile. const gapStartIndex = this._findMatchingGap(tile.colspan); // Place tile in the resulting gap. this._markTilePosition(gapStartIndex, tile); // The next time we look for a gap, the search will start at columnIndex, which should be // immediately after the tile that has just been placed. this.columnIndex = gapStartIndex + tile.colspan; return new TilePosition(this.rowIndex, gapStartIndex); } /** Finds the next available space large enough to fit the tile. */ _findMatchingGap(tileCols) { if (tileCols > this.tracker.length && (typeof ngDevMode === 'undefined' || ngDevMode)) { throw Error(`mat-grid-list: tile with colspan ${tileCols} is wider than ` + `grid with cols="${this.tracker.length}".`); } // Start index is inclusive, end index is exclusive. let gapStartIndex = -1; let gapEndIndex = -1; // Look for a gap large enough to fit the given tile. Empty spaces are marked with a zero. do { // If we've reached the end of the row, go to the next row. if (this.columnIndex + tileCols > this.tracker.length) { this._nextRow(); gapStartIndex = this.tracker.indexOf(0, this.columnIndex); gapEndIndex = this._findGapEndIndex(gapStartIndex); continue; } gapStartIndex = this.tracker.indexOf(0, this.columnIndex); // If there are no more empty spaces in this row at all, move on to the next row. if (gapStartIndex == -1) { this._nextRow(); gapStartIndex = this.tracker.indexOf(0, this.columnIndex); gapEndIndex = this._findGapEndIndex(gapStartIndex); continue; } gapEndIndex = this._findGapEndIndex(gapStartIndex); // If a gap large enough isn't found, we want to start looking immediately after the current // gap on the next iteration. this.columnIndex = gapStartIndex + 1; // Continue iterating until we find a gap wide enough for this tile. Since gapEndIndex is // exclusive, gapEndIndex is 0 means we didn't find a gap and should continue. } while ((gapEndIndex - gapStartIndex < tileCols) || (gapEndIndex == 0)); // If we still didn't manage to find a gap, ensure that the index is // at least zero so the tile doesn't get pulled out of the grid. return Math.max(gapStartIndex, 0); } /** Move "down" to the next row. */ _nextRow() { this.columnIndex = 0; this.rowIndex++; // Decrement all spaces by one to reflect moving down one row. for (let i = 0; i < this.tracker.length; i++) { this.tracker[i] = Math.max(0, this.tracker[i] - 1); } } /** * Finds the end index (exclusive) of a gap given the index from which to start looking. * The gap ends when a non-zero value is found. */ _findGapEndIndex(gapStartIndex) { for (let i = gapStartIndex + 1; i < this.tracker.length; i++) { if (this.tracker[i] != 0) { return i; } } // The gap ends with the end of the row. return this.tracker.length; } /** Update the tile tracker to account for the given tile in the given space. */ _markTilePosition(start, tile) { for (let i = 0; i < tile.colspan; i++) { this.tracker[start + i] = tile.rowspan; } } } /** * Simple data structure for tile position (row, col). * @docs-private */ class TilePosition { constructor(row, col) { this.row = row; this.col = col; } } /** * @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 */ /** * Injection token used to provide a grid list to a tile and to avoid circular imports. * @docs-private */ const MAT_GRID_LIST = new InjectionToken('MAT_GRID_LIST'); /** * @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 */ class MatGridTile { constructor(_element, _gridList) { this._element = _element; this._gridList = _gridList; this._rowspan = 1; this._colspan = 1; } /** Amount of rows that the grid tile takes up. */ get rowspan() { return this._rowspan; } set rowspan(value) { this._rowspan = Math.round(coerceNumberProperty(value)); } /** Amount of columns that the grid tile takes up. */ get colspan() { return this._colspan; } set colspan(value) { this._colspan = Math.round(coerceNumberProperty(value)); } /** * Sets the style of the grid-tile element. Needs to be set manually to avoid * "Changed after checked" errors that would occur with HostBinding. */ _setStyle(property, value) { this._element.nativeElement.style[property] = value; } } MatGridTile.decorators = [ { type: Component, args: [{ selector: 'mat-grid-tile', exportAs: 'matGridTile', host: { 'class': 'mat-grid-tile', // Ensures that the "rowspan" and "colspan" input value is reflected in // the DOM. This is needed for the grid-tile harness. '[attr.rowspan]': 'rowspan', '[attr.colspan]': 'colspan' }, template: "
\n \n
\n", encapsulation: ViewEncapsulation.None, changeDetection: ChangeDetectionStrategy.OnPush, styles: [".mat-grid-list{display:block;position:relative}.mat-grid-tile{display:block;position:absolute;overflow:hidden}.mat-grid-tile .mat-grid-tile-header,.mat-grid-tile .mat-grid-tile-footer{display:flex;align-items:center;height:48px;color:#fff;background:rgba(0,0,0,.38);overflow:hidden;padding:0 16px;position:absolute;left:0;right:0}.mat-grid-tile .mat-grid-tile-header>*,.mat-grid-tile .mat-grid-tile-footer>*{margin:0;padding:0;font-weight:normal;font-size:inherit}.mat-grid-tile .mat-grid-tile-header.mat-2-line,.mat-grid-tile .mat-grid-tile-footer.mat-2-line{height:68px}.mat-grid-tile .mat-grid-list-text{display:flex;flex-direction:column;flex:auto;box-sizing:border-box;overflow:hidden}.mat-grid-tile .mat-grid-list-text>*{margin:0;padding:0;font-weight:normal;font-size:inherit}.mat-grid-tile .mat-grid-list-text:empty{display:none}.mat-grid-tile .mat-grid-tile-header{top:0}.mat-grid-tile .mat-grid-tile-footer{bottom:0}.mat-grid-tile .mat-grid-avatar{padding-right:16px}[dir=rtl] .mat-grid-tile .mat-grid-avatar{padding-right:0;padding-left:16px}.mat-grid-tile .mat-grid-avatar:empty{display:none}.mat-grid-tile-content{top:0;left:0;right:0;bottom:0;position:absolute;display:flex;align-items:center;justify-content:center;height:100%;padding:0;margin:0}\n"] },] } ]; MatGridTile.ctorParameters = () => [ { type: ElementRef }, { type: undefined, decorators: [{ type: Optional }, { type: Inject, args: [MAT_GRID_LIST,] }] } ]; MatGridTile.propDecorators = { rowspan: [{ type: Input }], colspan: [{ type: Input }] }; class MatGridTileText { constructor(_element) { this._element = _element; } ngAfterContentInit() { setLines(this._lines, this._element); } } MatGridTileText.decorators = [ { type: Component, args: [{ selector: 'mat-grid-tile-header, mat-grid-tile-footer', template: "\n
\n\n", changeDetection: ChangeDetectionStrategy.OnPush, encapsulation: ViewEncapsulation.None },] } ]; MatGridTileText.ctorParameters = () => [ { type: ElementRef } ]; MatGridTileText.propDecorators = { _lines: [{ type: ContentChildren, args: [MatLine, { descendants: true },] }] }; /** * Directive whose purpose is to add the mat- CSS styling to this selector. * @docs-private */ class MatGridAvatarCssMatStyler { } MatGridAvatarCssMatStyler.decorators = [ { type: Directive, args: [{ selector: '[mat-grid-avatar], [matGridAvatar]', host: { 'class': 'mat-grid-avatar' } },] } ]; /** * Directive whose purpose is to add the mat- CSS styling to this selector. * @docs-private */ class MatGridTileHeaderCssMatStyler { } MatGridTileHeaderCssMatStyler.decorators = [ { type: Directive, args: [{ selector: 'mat-grid-tile-header', host: { 'class': 'mat-grid-tile-header' } },] } ]; /** * Directive whose purpose is to add the mat- CSS styling to this selector. * @docs-private */ class MatGridTileFooterCssMatStyler { } MatGridTileFooterCssMatStyler.decorators = [ { type: Directive, args: [{ selector: 'mat-grid-tile-footer', host: { 'class': 'mat-grid-tile-footer' } },] } ]; /** * @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 */ /** * RegExp that can be used to check whether a value will * be allowed inside a CSS `calc()` expression. */ const cssCalcAllowedValue = /^-?\d+((\.\d+)?[A-Za-z%$]?)+$/; /** * Sets the style properties for an individual tile, given the position calculated by the * Tile Coordinator. * @docs-private */ class TileStyler { constructor() { this._rows = 0; this._rowspan = 0; } /** * Adds grid-list layout info once it is available. Cannot be processed in the constructor * because these properties haven't been calculated by that point. * * @param gutterSize Size of the grid's gutter. * @param tracker Instance of the TileCoordinator. * @param cols Amount of columns in the grid. * @param direction Layout direction of the grid. */ init(gutterSize, tracker, cols, direction) { this._gutterSize = normalizeUnits(gutterSize); this._rows = tracker.rowCount; this._rowspan = tracker.rowspan; this._cols = cols; this._direction = direction; } /** * Computes the amount of space a single 1x1 tile would take up (width or height). * Used as a basis for other calculations. * @param sizePercent Percent of the total grid-list space that one 1x1 tile would take up. * @param gutterFraction Fraction of the gutter size taken up by one 1x1 tile. * @return The size of a 1x1 tile as an expression that can be evaluated via CSS calc(). */ getBaseTileSize(sizePercent, gutterFraction) { // Take the base size percent (as would be if evenly dividing the size between cells), // and then subtracting the size of one gutter. However, since there are no gutters on the // edges, each tile only uses a fraction (gutterShare = numGutters / numCells) of the gutter // size. (Imagine having one gutter per tile, and then breaking up the extra gutter on the // edge evenly among the cells). return `(${sizePercent}% - (${this._gutterSize} * ${gutterFraction}))`; } /** * Gets The horizontal or vertical position of a tile, e.g., the 'top' or 'left' property value. * @param offset Number of tiles that have already been rendered in the row/column. * @param baseSize Base size of a 1x1 tile (as computed in getBaseTileSize). * @return Position of the tile as a CSS calc() expression. */ getTilePosition(baseSize, offset) { // The position comes the size of a 1x1 tile plus gutter for each previous tile in the // row/column (offset). return offset === 0 ? '0' : calc(`(${baseSize} + ${this._gutterSize}) * ${offset}`); } /** * Gets the actual size of a tile, e.g., width or height, taking rowspan or colspan into account. * @param baseSize Base size of a 1x1 tile (as computed in getBaseTileSize). * @param span The tile's rowspan or colspan. * @return Size of the tile as a CSS calc() expression. */ getTileSize(baseSize, span) { return `(${baseSize} * ${span}) + (${span - 1} * ${this._gutterSize})`; } /** * Sets the style properties to be applied to a tile for the given row and column index. * @param tile Tile to which to apply the styling. * @param rowIndex Index of the tile's row. * @param colIndex Index of the tile's column. */ setStyle(tile, rowIndex, colIndex) { // Percent of the available horizontal space that one column takes up. let percentWidthPerTile = 100 / this._cols; // Fraction of the vertical gutter size that each column takes up. // For example, if there are 5 columns, each column uses 4/5 = 0.8 times the gutter width. let gutterWidthFractionPerTile = (this._cols - 1) / this._cols; this.setColStyles(tile, colIndex, percentWidthPerTile, gutterWidthFractionPerTile); this.setRowStyles(tile, rowIndex, percentWidthPerTile, gutterWidthFractionPerTile); } /** Sets the horizontal placement of the tile in the list. */ setColStyles(tile, colIndex, percentWidth, gutterWidth) { // Base horizontal size of a column. let baseTileWidth = this.getBaseTileSize(percentWidth, gutterWidth); // The width and horizontal position of each tile is always calculated the same way, but the // height and vertical position depends on the rowMode. let side = this._direction === 'rtl' ? 'right' : 'left'; tile._setStyle(side, this.getTilePosition(baseTileWidth, colIndex)); tile._setStyle('width', calc(this.getTileSize(baseTileWidth, tile.colspan))); } /** * Calculates the total size taken up by gutters across one axis of a list. */ getGutterSpan() { return `${this._gutterSize} * (${this._rowspan} - 1)`; } /** * Calculates the total size taken up by tiles across one axis of a list. * @param tileHeight Height of the tile. */ getTileSpan(tileHeight) { return `${this._rowspan} * ${this.getTileSize(tileHeight, 1)}`; } /** * Calculates the computed height and returns the correct style property to set. * This method can be implemented by each type of TileStyler. * @docs-private */ getComputedHeight() { return null; } } /** * This type of styler is instantiated when the user passes in a fixed row height. * Example `` * @docs-private */ class FixedTileStyler extends TileStyler { constructor(fixedRowHeight) { super(); this.fixedRowHeight = fixedRowHeight; } init(gutterSize, tracker, cols, direction) { super.init(gutterSize, tracker, cols, direction); this.fixedRowHeight = normalizeUnits(this.fixedRowHeight); if (!cssCalcAllowedValue.test(this.fixedRowHeight) && (typeof ngDevMode === 'undefined' || ngDevMode)) { throw Error(`Invalid value "${this.fixedRowHeight}" set as rowHeight.`); } } setRowStyles(tile, rowIndex) { tile._setStyle('top', this.getTilePosition(this.fixedRowHeight, rowIndex)); tile._setStyle('height', calc(this.getTileSize(this.fixedRowHeight, tile.rowspan))); } getComputedHeight() { return [ 'height', calc(`${this.getTileSpan(this.fixedRowHeight)} + ${this.getGutterSpan()}`) ]; } reset(list) { list._setListStyle(['height', null]); if (list._tiles) { list._tiles.forEach(tile => { tile._setStyle('top', null); tile._setStyle('height', null); }); } } } /** * This type of styler is instantiated when the user passes in a width:height ratio * for the row height. Example `` * @docs-private */ class RatioTileStyler extends TileStyler { constructor(value) { super(); this._parseRatio(value); } setRowStyles(tile, rowIndex, percentWidth, gutterWidth) { let percentHeightPerTile = percentWidth / this.rowHeightRatio; this.baseTileHeight = this.getBaseTileSize(percentHeightPerTile, gutterWidth); // Use padding-top and margin-top to maintain the given aspect ratio, as // a percentage-based value for these properties is applied versus the *width* of the // containing block. See http://www.w3.org/TR/CSS2/box.html#margin-properties tile._setStyle('marginTop', this.getTilePosition(this.baseTileHeight, rowIndex)); tile._setStyle('paddingTop', calc(this.getTileSize(this.baseTileHeight, tile.rowspan))); } getComputedHeight() { return [ 'paddingBottom', calc(`${this.getTileSpan(this.baseTileHeight)} + ${this.getGutterSpan()}`) ]; } reset(list) { list._setListStyle(['paddingBottom', null]); list._tiles.forEach(tile => { tile._setStyle('marginTop', null); tile._setStyle('paddingTop', null); }); } _parseRatio(value) { const ratioParts = value.split(':'); if (ratioParts.length !== 2 && (typeof ngDevMode === 'undefined' || ngDevMode)) { throw Error(`mat-grid-list: invalid ratio given for row-height: "${value}"`); } this.rowHeightRatio = parseFloat(ratioParts[0]) / parseFloat(ratioParts[1]); } } /** * This type of styler is instantiated when the user selects a "fit" row height mode. * In other words, the row height will reflect the total height of the container divided * by the number of rows. Example `` * * @docs-private */ class FitTileStyler extends TileStyler { setRowStyles(tile, rowIndex) { // Percent of the available vertical space that one row takes up. let percentHeightPerTile = 100 / this._rowspan; // Fraction of the horizontal gutter size that each column takes up. let gutterHeightPerTile = (this._rows - 1) / this._rows; // Base vertical size of a column. let baseTileHeight = this.getBaseTileSize(percentHeightPerTile, gutterHeightPerTile); tile._setStyle('top', this.getTilePosition(baseTileHeight, rowIndex)); tile._setStyle('height', calc(this.getTileSize(baseTileHeight, tile.rowspan))); } reset(list) { if (list._tiles) { list._tiles.forEach(tile => { tile._setStyle('top', null); tile._setStyle('height', null); }); } } } /** Wraps a CSS string in a calc function */ function calc(exp) { return `calc(${exp})`; } /** Appends pixels to a CSS string if no units are given. */ function normalizeUnits(value) { return value.match(/([A-Za-z%]+)$/) ? value : `${value}px`; } /** * @license * Copyright Google LLC All Rights Reserved. * * Use of this source code is governed by an MIT-style license that can be * found in the LICENSE file at https://angular.io/license */ // TODO(kara): Conditional (responsive) column count / row size. // TODO(kara): Re-layout on window resize / media change (debounced). // TODO(kara): gridTileHeader and gridTileFooter. const MAT_FIT_MODE = 'fit'; class MatGridList { constructor(_element, _dir) { this._element = _element; this._dir = _dir; /** The amount of space between tiles. This will be something like '5px' or '2em'. */ this._gutter = '1px'; } /** Amount of columns in the grid list. */ get cols() { return this._cols; } set cols(value) { this._cols = Math.max(1, Math.round(coerceNumberProperty(value))); } /** Size of the grid list's gutter in pixels. */ get gutterSize() { return this._gutter; } set gutterSize(value) { this._gutter = `${value == null ? '' : value}`; } /** Set internal representation of row height from the user-provided value. */ get rowHeight() { return this._rowHeight; } set rowHeight(value) { const newValue = `${value == null ? '' : value}`; if (newValue !== this._rowHeight) { this._rowHeight = newValue; this._setTileStyler(this._rowHeight); } } ngOnInit() { this._checkCols(); this._checkRowHeight(); } /** * The layout calculation is fairly cheap if nothing changes, so there's little cost * to run it frequently. */ ngAfterContentChecked() { this._layoutTiles(); } /** Throw a friendly error if cols property is missing */ _checkCols() { if (!this.cols && (typeof ngDevMode === 'undefined' || ngDevMode)) { throw Error(`mat-grid-list: must pass in number of columns. ` + `Example: `); } } /** Default to equal width:height if rowHeight property is missing */ _checkRowHeight() { if (!this._rowHeight) { this._setTileStyler('1:1'); } } /** Creates correct Tile Styler subtype based on rowHeight passed in by user */ _setTileStyler(rowHeight) { if (this._tileStyler) { this._tileStyler.reset(this); } if (rowHeight === MAT_FIT_MODE) { this._tileStyler = new FitTileStyler(); } else if (rowHeight && rowHeight.indexOf(':') > -1) { this._tileStyler = new RatioTileStyler(rowHeight); } else { this._tileStyler = new FixedTileStyler(rowHeight); } } /** Computes and applies the size and position for all children grid tiles. */ _layoutTiles() { if (!this._tileCoordinator) { this._tileCoordinator = new TileCoordinator(); } const tracker = this._tileCoordinator; const tiles = this._tiles.filter(tile => !tile._gridList || tile._gridList === this); const direction = this._dir ? this._dir.value : 'ltr'; this._tileCoordinator.update(this.cols, tiles); this._tileStyler.init(this.gutterSize, tracker, this.cols, direction); tiles.forEach((tile, index) => { const pos = tracker.positions[index]; this._tileStyler.setStyle(tile, pos.row, pos.col); }); this._setListStyle(this._tileStyler.getComputedHeight()); } /** Sets style on the main grid-list element, given the style name and value. */ _setListStyle(style) { if (style) { this._element.nativeElement.style[style[0]] = style[1]; } } } MatGridList.decorators = [ { type: Component, args: [{ selector: 'mat-grid-list', exportAs: 'matGridList', template: "
\n \n
", host: { 'class': 'mat-grid-list', // Ensures that the "cols" input value is reflected in the DOM. This is // needed for the grid-list harness. '[attr.cols]': 'cols', }, providers: [{ provide: MAT_GRID_LIST, useExisting: MatGridList }], changeDetection: ChangeDetectionStrategy.OnPush, encapsulation: ViewEncapsulation.None, styles: [".mat-grid-list{display:block;position:relative}.mat-grid-tile{display:block;position:absolute;overflow:hidden}.mat-grid-tile .mat-grid-tile-header,.mat-grid-tile .mat-grid-tile-footer{display:flex;align-items:center;height:48px;color:#fff;background:rgba(0,0,0,.38);overflow:hidden;padding:0 16px;position:absolute;left:0;right:0}.mat-grid-tile .mat-grid-tile-header>*,.mat-grid-tile .mat-grid-tile-footer>*{margin:0;padding:0;font-weight:normal;font-size:inherit}.mat-grid-tile .mat-grid-tile-header.mat-2-line,.mat-grid-tile .mat-grid-tile-footer.mat-2-line{height:68px}.mat-grid-tile .mat-grid-list-text{display:flex;flex-direction:column;flex:auto;box-sizing:border-box;overflow:hidden}.mat-grid-tile .mat-grid-list-text>*{margin:0;padding:0;font-weight:normal;font-size:inherit}.mat-grid-tile .mat-grid-list-text:empty{display:none}.mat-grid-tile .mat-grid-tile-header{top:0}.mat-grid-tile .mat-grid-tile-footer{bottom:0}.mat-grid-tile .mat-grid-avatar{padding-right:16px}[dir=rtl] .mat-grid-tile .mat-grid-avatar{padding-right:0;padding-left:16px}.mat-grid-tile .mat-grid-avatar:empty{display:none}.mat-grid-tile-content{top:0;left:0;right:0;bottom:0;position:absolute;display:flex;align-items:center;justify-content:center;height:100%;padding:0;margin:0}\n"] },] } ]; MatGridList.ctorParameters = () => [ { type: ElementRef }, { type: Directionality, decorators: [{ type: Optional }] } ]; MatGridList.propDecorators = { _tiles: [{ type: ContentChildren, args: [MatGridTile, { descendants: true },] }], cols: [{ type: Input }], gutterSize: [{ type: Input }], rowHeight: [{ type: Input }] }; /** * @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 */ class MatGridListModule { } MatGridListModule.decorators = [ { type: NgModule, args: [{ imports: [MatLineModule, MatCommonModule], exports: [ MatGridList, MatGridTile, MatGridTileText, MatLineModule, MatCommonModule, MatGridTileHeaderCssMatStyler, MatGridTileFooterCssMatStyler, MatGridAvatarCssMatStyler ], declarations: [ MatGridList, MatGridTile, MatGridTileText, MatGridTileHeaderCssMatStyler, MatGridTileFooterCssMatStyler, MatGridAvatarCssMatStyler ], },] } ]; /** * @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 */ // Privately exported for the grid-list harness. const ɵTileCoordinator = TileCoordinator; /** * Generated bundle index. Do not edit. */ export { MatGridAvatarCssMatStyler, MatGridList, MatGridListModule, MatGridTile, MatGridTileFooterCssMatStyler, MatGridTileHeaderCssMatStyler, MatGridTileText, ɵTileCoordinator, MAT_GRID_LIST as ɵangular_material_src_material_grid_list_grid_list_a }; //# sourceMappingURL=grid-list.js.map