pokerogue/src/inputs-controller.ts

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import Phaser, {Time} from "phaser";
import * as Utils from "./utils";
import {initTouchControls} from './touch-controls';
import pad_generic from "./configs/pad_generic";
import pad_unlicensedSNES from "./configs/pad_unlicensedSNES";
import pad_xbox360 from "./configs/pad_xbox360";
import pad_dualshock from "./configs/pad_dualshock";
import {Button} from "./enums/buttons";
export interface GamepadMapping {
[key: string]: number;
}
export interface GamepadConfig {
padID: string;
padType: string;
gamepadMapping: GamepadMapping;
}
export interface ActionGamepadMapping {
[key: string]: Button;
}
const repeatInputDelayMillis = 250;
export class InputsController {
private buttonKeys: Phaser.Input.Keyboard.Key[][];
private gamepads: Array<string> = new Array();
private scene: Phaser.Scene;
// buttonLock ensures only a single movement key is firing repeated inputs
// (i.e. by holding down a button) at a time
private buttonLock: Button;
private buttonLock2: Button;
private interactions: Map<Button, Map<string, boolean>> = new Map();
private time: Time;
private player: Map<String, GamepadMapping> = new Map();
constructor(scene: Phaser.Scene) {
this.scene = scene;
this.time = this.scene.time;
this.buttonKeys = [];
for (const b of Utils.getEnumValues(Button)) {
this.interactions[b] = {
pressTime: false,
isPressed: false,
}
}
// We don't want the menu key to be repeated
delete this.interactions[Button.MENU];
delete this.interactions[Button.STATS];
this.init();
}
init(): void {
this.events = new Phaser.Events.EventEmitter();
// Handle the game losing focus
this.scene.game.events.on(Phaser.Core.Events.BLUR, () => {
this.loseFocus()
})
if (typeof this.scene.input.gamepad !== 'undefined') {
this.scene.input.gamepad.on('connected', function (thisGamepad) {
this.refreshGamepads();
this.setupGamepad(thisGamepad);
}, this);
// Check to see if the gamepad has already been setup by the browser
this.scene.input.gamepad.refreshPads();
if (this.scene.input.gamepad.total) {
this.refreshGamepads();
for (const thisGamepad of this.gamepads) {
this.scene.input.gamepad.emit('connected', thisGamepad);
}
}
this.scene.input.gamepad.on('down', this.gamepadButtonDown, this);
this.scene.input.gamepad.on('up', this.gamepadButtonUp, this);
}
// Keyboard
this.setupKeyboardControls();
}
loseFocus(): void {
this.deactivatePressedKey();
}
update(): void {
// reversed to let the cancel button have a kinda priority on the action button
for (const b of Utils.getEnumValues(Button).reverse()) {
if (!this.interactions.hasOwnProperty(b)) continue;
if (this.repeatInputDurationJustPassed(b) && this.interactions[b].isPressed) {
this.events.emit('input_down', {
controller_type: 'repeated',
button: b,
});
this.setLastProcessedMovementTime(b);
}
}
}
setupGamepad(thisGamepad: Phaser.Input.Gamepad.Gamepad): void {
let gamepadID = thisGamepad.id.toLowerCase();
const mappedPad = this.mapGamepad(gamepadID);
this.player['mapping'] = mappedPad.gamepadMapping;
}
refreshGamepads(): void {
// Sometimes, gamepads are undefined. For some reason.
this.gamepads = this.scene.input.gamepad.gamepads.filter(function (el) {
return el != null;
});
for (const [index, thisGamepad] of this.gamepads.entries()) {
thisGamepad.index = index; // Overwrite the gamepad index, in case we had undefined gamepads earlier
}
}
getActionGamepadMapping(): ActionGamepadMapping {
const gamepadMapping = {};
if (!this.player?.mapping) return gamepadMapping;
gamepadMapping[this.player.mapping.LC_N] = Button.UP;
gamepadMapping[this.player.mapping.LC_S] = Button.DOWN;
gamepadMapping[this.player.mapping.LC_W] = Button.LEFT;
gamepadMapping[this.player.mapping.LC_E] = Button.RIGHT;
gamepadMapping[this.player.mapping.TOUCH] = Button.SUBMIT;
gamepadMapping[this.player.mapping.RC_S] = this.scene.abSwapped ? Button.CANCEL : Button.ACTION;
gamepadMapping[this.player.mapping.RC_E] = this.scene.abSwapped ? Button.ACTION : Button.CANCEL;
gamepadMapping[this.player.mapping.SELECT] = Button.STATS;
gamepadMapping[this.player.mapping.START] = Button.MENU;
gamepadMapping[this.player.mapping.RB] = Button.CYCLE_SHINY;
gamepadMapping[this.player.mapping.LB] = Button.CYCLE_FORM;
gamepadMapping[this.player.mapping.LT] = Button.CYCLE_GENDER;
gamepadMapping[this.player.mapping.RT] = Button.CYCLE_ABILITY;
gamepadMapping[this.player.mapping.RC_W] = Button.CYCLE_NATURE;
gamepadMapping[this.player.mapping.RC_N] = Button.CYCLE_VARIANT;
gamepadMapping[this.player.mapping.LS] = Button.SPEED_UP;
gamepadMapping[this.player.mapping.RS] = Button.SLOW_DOWN;
return gamepadMapping;
}
gamepadButtonDown(pad: Phaser.Input.Gamepad.Gamepad, button: Phaser.Input.Gamepad.Button, value: number): void {
if (!this.scene.gamepadSupport) return;
const actionMapping = this.getActionGamepadMapping();
const buttonDown = actionMapping.hasOwnProperty(button.index) && actionMapping[button.index];
if (buttonDown !== undefined) {
this.events.emit('input_down', {
controller_type: 'gamepad',
button: buttonDown,
});
this.setLastProcessedMovementTime(buttonDown);
}
}
gamepadButtonUp(pad: Phaser.Input.Gamepad.Gamepad, button: Phaser.Input.Gamepad.Button, value: number): void {
if (!this.scene.gamepadSupport) return;
const actionMapping = this.getActionGamepadMapping();
const buttonUp = actionMapping.hasOwnProperty(button.index) && actionMapping[button.index];
if (buttonUp !== undefined) {
this.events.emit('input_up', {
controller_type: 'gamepad',
button: buttonUp,
});
this.delLastProcessedMovementTime(buttonUp);
}
}
setupKeyboardControls(): void {
const keyCodes = Phaser.Input.Keyboard.KeyCodes;
const keyConfig = {
[Button.UP]: [keyCodes.UP, keyCodes.W],
[Button.DOWN]: [keyCodes.DOWN, keyCodes.S],
[Button.LEFT]: [keyCodes.LEFT, keyCodes.A],
[Button.RIGHT]: [keyCodes.RIGHT, keyCodes.D],
[Button.SUBMIT]: [keyCodes.ENTER],
[Button.ACTION]: [keyCodes.SPACE, keyCodes.Z],
[Button.CANCEL]: [keyCodes.BACKSPACE, keyCodes.X],
[Button.MENU]: [keyCodes.ESC, keyCodes.M],
[Button.STATS]: [keyCodes.SHIFT, keyCodes.C],
[Button.CYCLE_SHINY]: [keyCodes.R],
[Button.CYCLE_FORM]: [keyCodes.F],
[Button.CYCLE_GENDER]: [keyCodes.G],
[Button.CYCLE_ABILITY]: [keyCodes.E],
[Button.CYCLE_NATURE]: [keyCodes.N],
[Button.CYCLE_VARIANT]: [keyCodes.V],
[Button.SPEED_UP]: [keyCodes.PLUS],
[Button.SLOW_DOWN]: [keyCodes.MINUS]
};
const mobileKeyConfig = {};
for (const b of Utils.getEnumValues(Button)) {
const keys: Phaser.Input.Keyboard.Key[] = [];
if (keyConfig.hasOwnProperty(b)) {
for (let k of keyConfig[b])
keys.push(this.scene.input.keyboard.addKey(k, false));
mobileKeyConfig[Button[b]] = keys[0];
}
this.buttonKeys[b] = keys;
}
initTouchControls(mobileKeyConfig);
this.listenInputKeyboard();
}
listenInputKeyboard(): void {
this.buttonKeys.forEach((row, index) => {
for (const key of row) {
key.on('down', () => {
this.events.emit('input_down', {
controller_type: 'keyboard',
button: index,
});
this.setLastProcessedMovementTime(index);
});
key.on('up', () => {
this.events.emit('input_up', {
controller_type: 'keyboard',
button: index,
});
this.delLastProcessedMovementTime(index);
});
}
});
}
mapGamepad(id: string): GamepadConfig {
id = id.toLowerCase();
if (id.includes('081f') && id.includes('e401')) {
return pad_unlicensedSNES;
} else if (id.includes('xbox') && id.includes('360')) {
return pad_xbox360;
} else if (id.includes('054c')) {
return pad_dualshock;
}
return pad_generic;
}
/**
* repeatInputDurationJustPassed returns true if @param button has been held down long
* enough to fire a repeated input. A button must claim the buttonLock before
* firing a repeated input - this is to prevent multiple buttons from firing repeatedly.
*/
repeatInputDurationJustPassed(button: Button): boolean {
if (!this.isButtonLocked(button)) return false;
if (this.time.now - this.interactions[button].pressTime >= repeatInputDelayMillis) {
return true;
}
}
setLastProcessedMovementTime(button: Button): void {
if (!this.interactions.hasOwnProperty(button)) return;
this.setButtonLock(button);
this.interactions[button].pressTime = this.time.now;
this.interactions[button].isPressed = true;
}
delLastProcessedMovementTime(button: Button): void {
if (!this.interactions.hasOwnProperty(button)) return;
this.releaseButtonLock(button);
this.interactions[button].pressTime = null;
this.interactions[button].isPressed = false;
}
deactivatePressedKey(): void {
this.releaseButtonLock(this.buttonLock);
this.releaseButtonLock(this.buttonLock2);
for (const b of Utils.getEnumValues(Button)) {
if (!this.interactions.hasOwnProperty(b)) return;
this.interactions[b].pressTime = null;
this.interactions[b].isPressed = false;
}
}
isButtonLocked(button: Button): boolean {
return (this.buttonLock === button || this.buttonLock2 === button);
}
setButtonLock(button: Button): void {
if (this.buttonLock === button || this.buttonLock2 === button) return;
if (this.buttonLock === button) this.buttonLock2 = button;
else if (this.buttonLock2 === button) this.buttonLock = button;
else if(!!this.buttonLock) this.buttonLock2 = button;
else this.buttonLock = button;
}
releaseButtonLock(button: Button): void {
if (this.buttonLock === button) this.buttonLock = null;
else if (this.buttonLock2 === button) this.buttonLock2 = null;
}
}