element-call-Github/src/grid/CallLayout.ts

/*
Copyright 2024 New Vector Ltd

Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at

    http://www.apache.org/licenses/LICENSE-2.0

Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.
*/

import { BehaviorSubject, Observable } from "rxjs";
import { ComponentType } from "react";

import { MediaViewModel } from "../state/MediaViewModel";
import { LayoutProps } from "./Grid";

export interface Bounds {
  width: number;
  height: number;
}

export interface Alignment {
  inline: "start" | "end";
  block: "start" | "end";
}

export const defaultSpotlightAlignment: Alignment = {
  inline: "end",
  block: "end",
};
export const defaultPipAlignment: Alignment = { inline: "end", block: "start" };

export interface CallLayoutInputs {
  /**
   * The minimum bounds of the layout area.
   */
  minBounds: Observable<Bounds>;
  /**
   * The alignment of the floating spotlight tile, if present.
   */
  spotlightAlignment: BehaviorSubject<Alignment>;
  /**
   * The alignment of the small picture-in-picture tile, if present.
   */
  pipAlignment: BehaviorSubject<Alignment>;
}

export interface GridTileModel {
  type: "grid";
  vm: MediaViewModel;
}

export interface SpotlightTileModel {
  type: "spotlight";
  vms: MediaViewModel[];
  maximised: boolean;
}

export type TileModel = GridTileModel | SpotlightTileModel;

export interface CallLayoutOutputs<Model> {
  /**
   * The visually fixed (non-scrolling) layer of the layout.
   */
  fixed: ComponentType<LayoutProps<Model, TileModel, HTMLDivElement>>;
  /**
   * The layer of the layout that can overflow and be scrolled.
   */
  scrolling: ComponentType<LayoutProps<Model, TileModel, HTMLDivElement>>;
}

/**
 * A layout system for media tiles.
 */
export type CallLayout<Model> = (
  inputs: CallLayoutInputs,
) => CallLayoutOutputs<Model>;

export interface GridArrangement {
  tileWidth: number;
  tileHeight: number;
  gap: number;
  columns: number;
}

const tileMinHeight = 130;
const tileMaxAspectRatio = 17 / 9;
const tileMinAspectRatio = 4 / 3;

/**
 * Determine the ideal arrangement of tiles into a grid of a particular size.
 */
export function arrangeTiles(
  width: number,
  minHeight: number,
  tileCount: number,
): GridArrangement {
  // The goal here is to determine the grid size and padding that maximizes
  // use of screen space for n tiles without making those tiles too small or
  // too cropped (having an extreme aspect ratio)
  const gap = width < 800 ? 16 : 20;
  const tileMinWidth = width < 500 ? 150 : 180;

  let columns = Math.min(
    // Don't create more columns than we have items for
    tileCount,
    // The ideal number of columns is given by a packing of equally-sized
    // squares into a grid.
    // width / column = height / row.
    // columns * rows = number of squares.
    // ∴ columns = sqrt(width / height * number of squares).
    // Except we actually want 16:9-ish tiles rather than squares, so we
    // divide the width-to-height ratio by the target aspect ratio.
    Math.ceil(Math.sqrt((width / minHeight / tileMaxAspectRatio) * tileCount)),
  );
  let rows = Math.ceil(tileCount / columns);

  let tileWidth = (width - (columns - 1) * gap) / columns;
  let tileHeight = (minHeight - (rows - 1) * gap) / rows;

  // Impose a minimum width and height on the tiles
  if (tileWidth < tileMinWidth) {
    // In this case we want the tile width to determine the number of columns,
    // not the other way around. If we take the above equation for the tile
    // width (w = (W - (c - 1) * g) / c) and solve for c, we get
    // c = (W + g) / (w + g).
    columns = Math.floor((width + gap) / (tileMinWidth + gap));
    rows = Math.ceil(tileCount / columns);
    tileWidth = (width - (columns - 1) * gap) / columns;
    tileHeight = (minHeight - (rows - 1) * gap) / rows;
  }
  if (tileHeight < tileMinHeight) tileHeight = tileMinHeight;
  // Impose a minimum and maximum aspect ratio on the tiles
  const tileAspectRatio = tileWidth / tileHeight;
  if (tileAspectRatio > tileMaxAspectRatio)
    tileWidth = tileHeight * tileMaxAspectRatio;
  else if (tileAspectRatio < tileMinAspectRatio)
    tileHeight = tileWidth / tileMinAspectRatio;
  // TODO: We might now be hitting the minimum height or width limit again

  return { tileWidth, tileHeight, gap, columns };
}
Implement the new spotlight layout 2024-05-18 04:38:00 +08:00			`/*`
			`Copyright 2024 New Vector Ltd`

			`Licensed under the Apache License, Version 2.0 (the "License");`
			`you may not use this file except in compliance with the License.`
			`You may obtain a copy of the License at`

			`http://www.apache.org/licenses/LICENSE-2.0`

			`Unless required by applicable law or agreed to in writing, software`
			`distributed under the License is distributed on an "AS IS" BASIS,`
			`WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.`
			`See the License for the specific language governing permissions and`
			`limitations under the License.`
			`*/`

			`import { BehaviorSubject, Observable } from "rxjs";`
Add indicators to spotlight tile and make spotlight layout responsive 2024-05-31 01:06:24 +08:00			`import { ComponentType } from "react";`
Implement the new spotlight layout 2024-05-18 04:38:00 +08:00
			`import { MediaViewModel } from "../state/MediaViewModel";`
Add indicators to spotlight tile and make spotlight layout responsive 2024-05-31 01:06:24 +08:00			`import { LayoutProps } from "./Grid";`
Implement the new spotlight layout 2024-05-18 04:38:00 +08:00
			`export interface Bounds {`
			`width: number;`
			`height: number;`
			`}`

Implement the new one-on-one layout 2024-06-08 04:59:56 +08:00			`export interface Alignment {`
			`inline: "start" \| "end";`
			`block: "start" \| "end";`
			`}`

			`export const defaultSpotlightAlignment: Alignment = {`
			`inline: "end",`
			`block: "end",`
			`};`
			`export const defaultPipAlignment: Alignment = { inline: "end", block: "start" };`

Implement the new spotlight layout 2024-05-18 04:38:00 +08:00			`export interface CallLayoutInputs {`
			`/**`
			`* The minimum bounds of the layout area.`
			`*/`
			`minBounds: Observable<Bounds>;`
			`/**`
Implement the new one-on-one layout 2024-06-08 04:59:56 +08:00			`* The alignment of the floating spotlight tile, if present.`
			`*/`
			`spotlightAlignment: BehaviorSubject<Alignment>;`
			`/**`
			`* The alignment of the small picture-in-picture tile, if present.`
Implement the new spotlight layout 2024-05-18 04:38:00 +08:00			`*/`
Implement the new one-on-one layout 2024-06-08 04:59:56 +08:00			`pipAlignment: BehaviorSubject<Alignment>;`
Implement the new spotlight layout 2024-05-18 04:38:00 +08:00			`}`

Add indicators to spotlight tile and make spotlight layout responsive 2024-05-31 01:06:24 +08:00			`export interface GridTileModel {`
			`type: "grid";`
			`vm: MediaViewModel;`
			`}`

			`export interface SpotlightTileModel {`
			`type: "spotlight";`
			`vms: MediaViewModel[];`
			`maximised: boolean;`
			`}`

			`export type TileModel = GridTileModel \| SpotlightTileModel;`

Implement the new spotlight layout 2024-05-18 04:38:00 +08:00			`export interface CallLayoutOutputs<Model> {`
			`/**`
			`* The visually fixed (non-scrolling) layer of the layout.`
			`*/`
Add indicators to spotlight tile and make spotlight layout responsive 2024-05-31 01:06:24 +08:00			`fixed: ComponentType<LayoutProps<Model, TileModel, HTMLDivElement>>;`
Implement the new spotlight layout 2024-05-18 04:38:00 +08:00			`/**`
			`* The layer of the layout that can overflow and be scrolled.`
			`*/`
Add indicators to spotlight tile and make spotlight layout responsive 2024-05-31 01:06:24 +08:00			`scrolling: ComponentType<LayoutProps<Model, TileModel, HTMLDivElement>>;`
Implement the new spotlight layout 2024-05-18 04:38:00 +08:00			`}`

			`/**`
			`* A layout system for media tiles.`
			`*/`
			`export type CallLayout<Model> = (`
			`inputs: CallLayoutInputs,`
			`) => CallLayoutOutputs<Model>;`
Implement the new one-on-one layout 2024-06-08 04:59:56 +08:00
			`export interface GridArrangement {`
			`tileWidth: number;`
			`tileHeight: number;`
			`gap: number;`
			`columns: number;`
			`}`

			`const tileMinHeight = 130;`
			`const tileMaxAspectRatio = 17 / 9;`
			`const tileMinAspectRatio = 4 / 3;`

			`/**`
			`* Determine the ideal arrangement of tiles into a grid of a particular size.`
			`*/`
			`export function arrangeTiles(`
			`width: number,`
			`minHeight: number,`
			`tileCount: number,`
			`): GridArrangement {`
			`// The goal here is to determine the grid size and padding that maximizes`
			`// use of screen space for n tiles without making those tiles too small or`
			`// too cropped (having an extreme aspect ratio)`
			`const gap = width < 800 ? 16 : 20;`
			`const tileMinWidth = width < 500 ? 150 : 180;`

			`let columns = Math.min(`
			`// Don't create more columns than we have items for`
			`tileCount,`
			`// The ideal number of columns is given by a packing of equally-sized`
			`// squares into a grid.`
			`// width / column = height / row.`
			`// columns * rows = number of squares.`
			`// ∴ columns = sqrt(width / height * number of squares).`
			`// Except we actually want 16:9-ish tiles rather than squares, so we`
			`// divide the width-to-height ratio by the target aspect ratio.`
			`Math.ceil(Math.sqrt((width / minHeight / tileMaxAspectRatio) * tileCount)),`
			`);`
			`let rows = Math.ceil(tileCount / columns);`

			`let tileWidth = (width - (columns - 1) * gap) / columns;`
			`let tileHeight = (minHeight - (rows - 1) * gap) / rows;`

			`// Impose a minimum width and height on the tiles`
			`if (tileWidth < tileMinWidth) {`
			`// In this case we want the tile width to determine the number of columns,`
			`// not the other way around. If we take the above equation for the tile`
			`// width (w = (W - (c - 1) * g) / c) and solve for c, we get`
			`// c = (W + g) / (w + g).`
			`columns = Math.floor((width + gap) / (tileMinWidth + gap));`
			`rows = Math.ceil(tileCount / columns);`
			`tileWidth = (width - (columns - 1) * gap) / columns;`
			`tileHeight = (minHeight - (rows - 1) * gap) / rows;`
			`}`
			`if (tileHeight < tileMinHeight) tileHeight = tileMinHeight;`
			`// Impose a minimum and maximum aspect ratio on the tiles`
			`const tileAspectRatio = tileWidth / tileHeight;`
			`if (tileAspectRatio > tileMaxAspectRatio)`
			`tileWidth = tileHeight * tileMaxAspectRatio;`
			`else if (tileAspectRatio < tileMinAspectRatio)`
			`tileHeight = tileWidth / tileMinAspectRatio;`
			`// TODO: We might now be hitting the minimum height or width limit again`

			`return { tileWidth, tileHeight, gap, columns };`
			`}`