GB_Presentation/Untitled/build/web/js/script.js

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JavaScript
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2023-02-04 12:15:31 -08:00
/*
* Copyright (C) 2017 Ben Smith
*
* This software may be modified and distributed under the terms
* of the MIT license. See the LICENSE file for details.
*/
"use strict";
// User configurable.
const ROM_FILENAME = "rom/game.gb";
const ENABLE_REWIND = true;
const ENABLE_PAUSE = false;
const ENABLE_SWITCH_PALETTES = true;
const OSGP_DEADZONE = 0.1; // On screen gamepad deadzone range
const CGB_COLOR_CURVE = 2; // 0: none, 1: Sameboy "Emulate Hardware" 2: Gambatte/Gameboy Online
// List of DMG palettes to switch between. By default it includes all 84
// built-in palettes. If you want to restrict this, change it to an array of
// the palettes you want to use and change DEFAULT_PALETTE_IDX to the index of the
// default palette in that list.
//
// Example: (only allow one palette with index 16):
// const DEFAULT_PALETTE_IDX = 0;
// const PALETTES = [16];
//
// Example: (allow three palettes, 16, 32, 64, with default 32):
// const DEFAULT_PALETTE_IDX = 1;
// const PALETTES = [16, 32, 64];
//
const DEFAULT_PALETTE_IDX = 83;
const PALETTES = [
0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21,
22, 23, 24, 25, 26, 27, 28, 29, 30, 31, 32, 33, 34, 35, 36, 37, 38, 39, 40,
41, 42, 43, 44, 45, 46, 47, 48, 49, 50, 51, 52, 53, 54, 55, 56, 57, 58, 59,
60, 61, 62, 63, 64, 65, 66, 67, 68, 69, 70, 71, 72, 73, 74, 75, 76, 77, 78,
79, 80, 81, 82, 83,
];
const RESULT_OK = 0;
const RESULT_ERROR = 1;
const SCREEN_WIDTH = 160;
const SCREEN_HEIGHT = 144;
const SGB_SCREEN_WIDTH = 256;
const SGB_SCREEN_HEIGHT = 224;
const SGB_SCREEN_LEFT = (SGB_SCREEN_WIDTH - SCREEN_WIDTH) >> 1;
const SGB_SCREEN_RIGHT = (SGB_SCREEN_WIDTH + SCREEN_WIDTH) >> 1;
const SGB_SCREEN_TOP = (SGB_SCREEN_HEIGHT - SCREEN_HEIGHT) >> 1;
const SGB_SCREEN_BOTTOM = (SGB_SCREEN_HEIGHT + SCREEN_HEIGHT) >> 1;
const AUDIO_FRAMES = 4096;
const AUDIO_LATENCY_SEC = 0.1;
const MAX_UPDATE_SEC = 5 / 60;
const CPU_TICKS_PER_SECOND = 4194304;
const EVENT_NEW_FRAME = 1;
const EVENT_AUDIO_BUFFER_FULL = 2;
const EVENT_UNTIL_TICKS = 4;
const REWIND_FRAMES_PER_BASE_STATE = 45;
const REWIND_BUFFER_CAPACITY = 4 * 1024 * 1024;
const REWIND_FACTOR = 1.5;
const REWIND_UPDATE_MS = 16;
const GAMEPAD_POLLING_INTERVAL = 1000 / 60 / 4; // When activated, poll for gamepad input about ~4 times per gameboy frame (~240 times second)
const GAMEPAD_KEYMAP_STANDARD_STR = "standard"; // Try to use "standard" HTML5 mapping config if available
const $ = document.querySelector.bind(document);
let emulator = null;
const controllerEl = $("#controller");
const dpadEl = $("#controller_dpad");
const selectEl = $("#controller_select");
const startEl = $("#controller_start");
const bEl = $("#controller_b");
const aEl = $("#controller_a");
const binjgbPromise = Binjgb();
const sgbEnabled = window.location.href.includes("sgb=true");
if (sgbEnabled) {
$("canvas").width = SGB_SCREEN_WIDTH;
$("canvas").height = SGB_SCREEN_HEIGHT;
} else {
$("canvas").width = SCREEN_WIDTH;
$("canvas").height = SCREEN_HEIGHT;
}
// Extract stuff from the vue.js implementation in demo.js.
class VM {
constructor() {
this.ticks = 0;
this.extRamUpdated = false;
this.paused_ = false;
this.volume = 0.5;
this.palIdx = DEFAULT_PALETTE_IDX;
this.canvas = {
show: true,
useSgbBorder: sgbEnabled,
scale: 3,
};
this.rewind = {
minTicks: 0,
maxTicks: 0,
};
setInterval(() => {
if (this.extRamUpdated) {
this.updateExtRam();
this.extRamUpdated = false;
}
}, 1000);
}
get paused() {
return this.paused_;
}
set paused(newPaused) {
let oldPaused = this.paused_;
this.paused_ = newPaused;
if (!emulator) return;
if (newPaused == oldPaused) return;
if (newPaused) {
emulator.pause();
this.ticks = emulator.ticks;
this.rewind.minTicks = emulator.rewind.oldestTicks;
this.rewind.maxTicks = emulator.rewind.newestTicks;
} else {
emulator.resume();
}
}
togglePause() {
this.paused = !this.paused;
}
updateExtRam() {
if (!emulator) return;
const extram = emulator.getExtRam();
localStorage.setItem("extram", JSON.stringify(Array.from(extram)));
}
}
const vm = new VM();
// Load a ROM.
(async function go() {
let response = await fetch(ROM_FILENAME);
let romBuffer = await response.arrayBuffer();
const extRam = new Uint8Array(JSON.parse(localStorage.getItem("extram")));
Emulator.start(await binjgbPromise, romBuffer, extRam);
emulator.setBuiltinPalette(vm.palIdx);
})();
function makeWasmBuffer(module, ptr, size) {
return new Uint8Array(module.HEAP8.buffer, ptr, size);
}
class Emulator {
static start(module, romBuffer, extRamBuffer) {
Emulator.stop();
emulator = new Emulator(module, romBuffer, extRamBuffer);
emulator.run();
}
static stop() {
if (emulator) {
emulator.destroy();
emulator = null;
}
}
constructor(module, romBuffer, extRamBuffer) {
this.module = module;
this.romDataPtr = this.module._malloc(romBuffer.byteLength);
makeWasmBuffer(this.module, this.romDataPtr, romBuffer.byteLength).set(
new Uint8Array(romBuffer)
);
this.e = this.module._emulator_new_simple(
this.romDataPtr,
romBuffer.byteLength,
Audio.ctx.sampleRate,
AUDIO_FRAMES,
CGB_COLOR_CURVE
);
if (this.e == 0) {
throw new Error("Invalid ROM.");
}
this.gamepad = new Gamepad(module, this.e);
this.audio = new Audio(module, this.e);
this.video = new Video(module, this.e, $("canvas"));
this.rewind = new Rewind(module, this.e);
this.rewindIntervalId = 0;
this.lastRafSec = 0;
this.leftoverTicks = 0;
this.fps = 60;
if (extRamBuffer) {
this.loadExtRam(extRamBuffer);
}
this.bindKeys();
this.bindTouch();
this.touchEnabled = "ontouchstart" in document.documentElement;
this.updateOnscreenGamepad();
this.gamepad.init();
}
destroy() {
this.gamepad.shutdown();
this.unbindTouch();
this.unbindKeys();
this.cancelAnimationFrame();
clearInterval(this.rewindIntervalId);
this.rewind.destroy();
this.module._emulator_delete(this.e);
this.module._free(this.romDataPtr);
}
withNewFileData(cb) {
const fileDataPtr = this.module._ext_ram_file_data_new(this.e);
const buffer = makeWasmBuffer(
this.module,
this.module._get_file_data_ptr(fileDataPtr),
this.module._get_file_data_size(fileDataPtr)
);
const result = cb(fileDataPtr, buffer);
this.module._file_data_delete(fileDataPtr);
return result;
}
loadExtRam(extRamBuffer) {
this.withNewFileData((fileDataPtr, buffer) => {
if (buffer.byteLength === extRamBuffer.byteLength) {
buffer.set(new Uint8Array(extRamBuffer));
this.module._emulator_read_ext_ram(this.e, fileDataPtr);
}
});
}
getExtRam() {
return this.withNewFileData((fileDataPtr, buffer) => {
this.module._emulator_write_ext_ram(this.e, fileDataPtr);
return new Uint8Array(buffer);
});
}
get isPaused() {
return this.rafCancelToken === null;
}
pause() {
if (!this.isPaused) {
this.cancelAnimationFrame();
this.audio.pause();
this.beginRewind();
}
}
resume() {
if (this.isPaused) {
this.endRewind();
this.requestAnimationFrame();
this.audio.resume();
}
}
setBuiltinPalette(palIdx) {
this.module._emulator_set_builtin_palette(this.e, PALETTES[palIdx]);
}
get isRewinding() {
return this.rewind.isRewinding;
}
beginRewind() {
this.rewind.beginRewind();
}
rewindToTicks(ticks) {
if (this.rewind.rewindToTicks(ticks)) {
this.runUntil(ticks);
this.video.renderTexture();
}
}
endRewind() {
this.rewind.endRewind();
this.lastRafSec = 0;
this.leftoverTicks = 0;
this.audio.startSec = 0;
}
set autoRewind(enabled) {
if (enabled) {
this.rewindIntervalId = setInterval(() => {
const oldest = this.rewind.oldestTicks;
const start = this.ticks;
const delta =
((REWIND_FACTOR * REWIND_UPDATE_MS) / 1000) * CPU_TICKS_PER_SECOND;
const rewindTo = Math.max(oldest, start - delta);
this.rewindToTicks(rewindTo);
vm.ticks = emulator.ticks;
}, REWIND_UPDATE_MS);
} else {
clearInterval(this.rewindIntervalId);
this.rewindIntervalId = 0;
}
}
requestAnimationFrame() {
this.rafCancelToken = requestAnimationFrame(this.rafCallback.bind(this));
}
cancelAnimationFrame() {
cancelAnimationFrame(this.rafCancelToken);
this.rafCancelToken = null;
}
run() {
this.requestAnimationFrame();
}
get ticks() {
return this.module._emulator_get_ticks_f64(this.e);
}
runUntil(ticks) {
while (true) {
const event = this.module._emulator_run_until_f64(this.e, ticks);
if (event & EVENT_NEW_FRAME) {
this.rewind.pushBuffer();
this.video.uploadTexture();
}
if (event & EVENT_AUDIO_BUFFER_FULL && !this.isRewinding) {
this.audio.pushBuffer();
}
if (event & EVENT_UNTIL_TICKS) {
break;
}
}
if (this.module._emulator_was_ext_ram_updated(this.e)) {
vm.extRamUpdated = true;
}
}
rafCallback(startMs) {
this.requestAnimationFrame();
let deltaSec = 0;
if (!this.isRewinding) {
const startSec = startMs / 1000;
deltaSec = Math.max(startSec - (this.lastRafSec || startSec), 0);
const startTicks = this.ticks;
const deltaTicks =
Math.min(deltaSec, MAX_UPDATE_SEC) * CPU_TICKS_PER_SECOND;
const runUntilTicks = startTicks + deltaTicks - this.leftoverTicks;
this.runUntil(runUntilTicks);
this.leftoverTicks = (this.ticks - runUntilTicks) | 0;
this.lastRafSec = startSec;
}
const lerp = (from, to, alpha) => alpha * from + (1 - alpha) * to;
this.fps = lerp(this.fps, Math.min(1 / deltaSec, 10000), 0.3);
this.video.renderTexture();
}
updateOnscreenGamepad() {
$("#controller").style.display = this.touchEnabled ? "block" : "none";
}
bindTouch() {
this.touchFuncs = {
controller_b: this.setJoypB.bind(this),
controller_a: this.setJoypA.bind(this),
controller_start: this.setJoypStart.bind(this),
controller_select: this.setJoypSelect.bind(this),
};
this.boundButtonTouchStart = this.buttonTouchStart.bind(this);
this.boundButtonTouchEnd = this.buttonTouchEnd.bind(this);
selectEl.addEventListener("touchstart", this.boundButtonTouchStart);
selectEl.addEventListener("touchend", this.boundButtonTouchEnd);
startEl.addEventListener("touchstart", this.boundButtonTouchStart);
startEl.addEventListener("touchend", this.boundButtonTouchEnd);
bEl.addEventListener("touchstart", this.boundButtonTouchStart);
bEl.addEventListener("touchend", this.boundButtonTouchEnd);
aEl.addEventListener("touchstart", this.boundButtonTouchStart);
aEl.addEventListener("touchend", this.boundButtonTouchEnd);
this.boundDpadTouchStartMove = this.dpadTouchStartMove.bind(this);
this.boundDpadTouchEnd = this.dpadTouchEnd.bind(this);
dpadEl.addEventListener("touchstart", this.boundDpadTouchStartMove);
dpadEl.addEventListener("touchmove", this.boundDpadTouchStartMove);
dpadEl.addEventListener("touchend", this.boundDpadTouchEnd);
this.boundTouchRestore = this.touchRestore.bind(this);
window.addEventListener("touchstart", this.boundTouchRestore);
}
unbindTouch() {
selectEl.removeEventListener("touchstart", this.boundButtonTouchStart);
selectEl.removeEventListener("touchend", this.boundButtonTouchEnd);
startEl.removeEventListener("touchstart", this.boundButtonTouchStart);
startEl.removeEventListener("touchend", this.boundButtonTouchEnd);
bEl.removeEventListener("touchstart", this.boundButtonTouchStart);
bEl.removeEventListener("touchend", this.boundButtonTouchEnd);
aEl.removeEventListener("touchstart", this.boundButtonTouchStart);
aEl.removeEventListener("touchend", this.boundButtonTouchEnd);
dpadEl.removeEventListener("touchstart", this.boundDpadTouchStartMove);
dpadEl.removeEventListener("touchmove", this.boundDpadTouchStartMove);
dpadEl.removeEventListener("touchend", this.boundDpadTouchEnd);
window.removeEventListener("touchstart", this.boundTouchRestore);
}
buttonTouchStart(event) {
if (event.currentTarget.id in this.touchFuncs) {
this.touchFuncs[event.currentTarget.id](true);
event.currentTarget.classList.add("btnPressed");
event.preventDefault();
}
}
buttonTouchEnd(event) {
if (event.currentTarget.id in this.touchFuncs) {
this.touchFuncs[event.currentTarget.id](false);
event.currentTarget.classList.remove("btnPressed");
event.preventDefault();
}
}
dpadTouchStartMove(event) {
const rect = event.currentTarget.getBoundingClientRect();
const x =
(2 * (event.targetTouches[0].clientX - rect.left)) / rect.width - 1;
const y =
(2 * (event.targetTouches[0].clientY - rect.top)) / rect.height - 1;
if (Math.abs(x) > OSGP_DEADZONE) {
if (y > x && y < -x) {
this.setJoypLeft(true);
this.setJoypRight(false);
} else if (y < x && y > -x) {
this.setJoypLeft(false);
this.setJoypRight(true);
}
} else {
this.setJoypLeft(false);
this.setJoypRight(false);
}
if (Math.abs(y) > OSGP_DEADZONE) {
if (x > y && x < -y) {
this.setJoypUp(true);
this.setJoypDown(false);
} else if (x < y && x > -y) {
this.setJoypUp(false);
this.setJoypDown(true);
}
} else {
this.setJoypUp(false);
this.setJoypDown(false);
}
event.preventDefault();
}
dpadTouchEnd(event) {
this.setJoypLeft(false);
this.setJoypRight(false);
this.setJoypUp(false);
this.setJoypDown(false);
event.preventDefault();
}
touchRestore() {
this.touchEnabled = true;
this.updateOnscreenGamepad();
}
bindKeys() {
this.keyFuncs = {
Backspace: this.keyRewind.bind(this),
" ": this.keyPause.bind(this),
"[": this.keyPrevPalette.bind(this),
"]": this.keyNextPalette.bind(this),
};
if (customControls.down && customControls.down.length > 0) {
customControls.down.forEach((k) => {
this.keyFuncs[k] = this.setJoypDown.bind(this);
});
} else {
this.keyFuncs["ArrowDown"] = this.setJoypDown.bind(this);
this.keyFuncs["s"] = this.setJoypDown.bind(this);
}
if (customControls.left && customControls.left.length > 0) {
customControls.left.forEach((k) => {
this.keyFuncs[k] = this.setJoypLeft.bind(this);
});
} else {
this.keyFuncs["ArrowLeft"] = this.setJoypLeft.bind(this);
this.keyFuncs["a"] = this.setJoypLeft.bind(this);
}
if (customControls.right && customControls.right.length > 0) {
customControls.right.forEach((k) => {
this.keyFuncs[k] = this.setJoypRight.bind(this);
});
} else {
this.keyFuncs["ArrowRight"] = this.setJoypRight.bind(this);
this.keyFuncs["d"] = this.setJoypRight.bind(this);
}
if (customControls.up && customControls.up.length > 0) {
customControls.up.forEach((k) => {
this.keyFuncs[k] = this.setJoypUp.bind(this);
});
} else {
this.keyFuncs["ArrowUp"] = this.setJoypUp.bind(this);
this.keyFuncs["w"] = this.setJoypUp.bind(this);
}
if (customControls.a && customControls.a.length > 0) {
customControls.a.forEach((k) => {
this.keyFuncs[k] = this.setJoypA.bind(this);
});
} else {
this.keyFuncs["z"] = this.setJoypA.bind(this);
this.keyFuncs["j"] = this.setJoypA.bind(this);
this.keyFuncs["Alt"] = this.setJoypA.bind(this);
}
if (customControls.b && customControls.b.length > 0) {
customControls.b.forEach((k) => {
this.keyFuncs[k] = this.setJoypB.bind(this);
});
} else {
this.keyFuncs["x"] = this.setJoypB.bind(this);
this.keyFuncs["k"] = this.setJoypB.bind(this);
this.keyFuncs["Control"] = this.setJoypB.bind(this);
}
if (customControls.start && customControls.start.length > 0) {
customControls.start.forEach((k) => {
this.keyFuncs[k] = this.setJoypStart.bind(this);
});
} else {
this.keyFuncs["Enter"] = this.setJoypStart.bind(this);
}
if (customControls.select && customControls.select.length > 0) {
customControls.select.forEach((k) => {
this.keyFuncs[k] = this.setJoypSelect.bind(this);
});
} else {
this.keyFuncs["Shift"] = this.setJoypSelect.bind(this);
}
this.boundKeyDown = this.keyDown.bind(this);
this.boundKeyUp = this.keyUp.bind(this);
window.addEventListener("keydown", this.boundKeyDown);
window.addEventListener("keyup", this.boundKeyUp);
}
unbindKeys() {
window.removeEventListener("keydown", this.boundKeyDown);
window.removeEventListener("keyup", this.boundKeyUp);
}
keyDown(event) {
if (event.key === "w" && (event.metaKey || event.ctrlKey)) {
return;
}
if (event.key in this.keyFuncs) {
if (this.touchEnabled) {
this.touchEnabled = false;
this.updateOnscreenGamepad();
}
this.keyFuncs[event.key](true);
event.preventDefault();
}
}
keyUp(event) {
if (event.key in this.keyFuncs) {
this.keyFuncs[event.key](false);
event.preventDefault();
}
}
keyRewind(isKeyDown) {
if (!ENABLE_REWIND) {
return;
}
if (this.isRewinding !== isKeyDown) {
if (isKeyDown) {
vm.paused = true;
this.autoRewind = true;
} else {
this.autoRewind = false;
vm.paused = false;
}
}
}
keyPause(isKeyDown) {
if (!ENABLE_PAUSE) {
return;
}
if (isKeyDown) vm.togglePause();
}
keyPrevPalette(isKeyDown) {
if (!ENABLE_SWITCH_PALETTES) {
return;
}
if (isKeyDown) {
vm.palIdx = (vm.palIdx + PALETTES.length - 1) % PALETTES.length;
emulator.setBuiltinPalette(vm.palIdx);
}
}
keyNextPalette(isKeyDown) {
if (!ENABLE_SWITCH_PALETTES) {
return;
}
if (isKeyDown) {
vm.palIdx = (vm.palIdx + 1) % PALETTES.length;
emulator.setBuiltinPalette(vm.palIdx);
}
}
setJoypDown(set) {
this.module._set_joyp_down(this.e, set);
}
setJoypUp(set) {
this.module._set_joyp_up(this.e, set);
}
setJoypLeft(set) {
this.module._set_joyp_left(this.e, set);
}
setJoypRight(set) {
this.module._set_joyp_right(this.e, set);
}
setJoypSelect(set) {
this.module._set_joyp_select(this.e, set);
}
setJoypStart(set) {
this.module._set_joyp_start(this.e, set);
}
setJoypB(set) {
this.module._set_joyp_B(this.e, set);
}
setJoypA(set) {
this.module._set_joyp_A(this.e, set);
}
}
class Gamepad {
constructor(module, e) {
this.module = module;
this.e = e;
}
// Load a key map for gamepad-to-gameboy buttons
bindKeys(strMapping) {
this.GAMEPAD_KEYMAP_STANDARD = [
{
gb_key: "b",
gp_button: 0,
type: "button",
gp_bind: this.module._set_joyp_B.bind(null, this.e),
},
{
gb_key: "a",
gp_button: 1,
type: "button",
gp_bind: this.module._set_joyp_A.bind(null, this.e),
},
{
gb_key: "select",
gp_button: 8,
type: "button",
gp_bind: this.module._set_joyp_select.bind(null, this.e),
},
{
gb_key: "start",
gp_button: 9,
type: "button",
gp_bind: this.module._set_joyp_start.bind(null, this.e),
},
{
gb_key: "up",
gp_button: 12,
type: "button",
gp_bind: this.module._set_joyp_up.bind(null, this.e),
},
{
gb_key: "down",
gp_button: 13,
type: "button",
gp_bind: this.module._set_joyp_down.bind(null, this.e),
},
{
gb_key: "left",
gp_button: 14,
type: "button",
gp_bind: this.module._set_joyp_left.bind(null, this.e),
},
{
gb_key: "right",
gp_button: 15,
type: "button",
gp_bind: this.module._set_joyp_right.bind(null, this.e),
},
];
this.GAMEPAD_KEYMAP_DEFAULT = [
{
gb_key: "a",
gp_button: 0,
type: "button",
gp_bind: this.module._set_joyp_A.bind(null, this.e),
},
{
gb_key: "b",
gp_button: 1,
type: "button",
gp_bind: this.module._set_joyp_B.bind(null, this.e),
},
{
gb_key: "select",
gp_button: 2,
type: "button",
gp_bind: this.module._set_joyp_select.bind(null, this.e),
},
{
gb_key: "start",
gp_button: 3,
type: "button",
gp_bind: this.module._set_joyp_start.bind(null, this.e),
},
{
gb_key: "up",
gp_button: 2,
type: "axis",
gp_bind: this.module._set_joyp_up.bind(null, this.e),
},
{
gb_key: "down",
gp_button: 3,
type: "axis",
gp_bind: this.module._set_joyp_down.bind(null, this.e),
},
{
gb_key: "left",
gp_button: 0,
type: "axis",
gp_bind: this.module._set_joyp_left.bind(null, this.e),
},
{
gb_key: "right",
gp_button: 1,
type: "axis",
gp_bind: this.module._set_joyp_right.bind(null, this.e),
},
];
// Try to use the w3c "standard" gamepad mapping if available
// (Chrome/V8 seems to do that better than Firefox)
//
// Otherwise use a default mapping that assigns
// A/B/Select/Start to the first four buttons,
// and U/D/L/R to the first two axes.
if (strMapping === GAMEPAD_KEYMAP_STANDARD_STR) {
this.gp.keybinds = this.GAMEPAD_KEYMAP_STANDARD;
} else {
this.gp.keybinds = this.GAMEPAD_KEYMAP_DEFAULT;
}
}
cacheValues(gamepad) {
// Read Buttons
for (let k = 0; k < gamepad.buttons.length; k++) {
// .value is for analog, .pressed is for boolean buttons
this.gp.buttons.cur[k] =
gamepad.buttons[k].value > 0 || gamepad.buttons[k].pressed == true;
// Update state changed if not on first input pass
if (this.gp.buttons.last !== undefined) {
this.gp.buttons.changed[k] =
this.gp.buttons.cur[k] != this.gp.buttons.last[k];
}
}
// Read Axes
for (let k = 0; k < gamepad.axes.length; k++) {
// Decode each dpad axis into two buttons, one for each direction
this.gp.axes.cur[k * 2] = gamepad.axes[k] < 0;
this.gp.axes.cur[k * 2 + 1] = gamepad.axes[k] > 0;
// Update state changed if not on first input pass
if (this.gp.axes.last !== undefined) {
this.gp.axes.changed[k * 2] =
this.gp.axes.cur[k * 2] != this.gp.axes.last[k * 2];
this.gp.axes.changed[k * 2 + 1] =
this.gp.axes.cur[k * 2 + 1] != this.gp.axes.last[k * 2 + 1];
}
}
// Save current state for comparison on next input
this.gp.axes.last = this.gp.axes.cur.slice(0);
this.gp.buttons.last = this.gp.buttons.cur.slice(0);
}
handleButton(keyBind) {
let buttonCache;
// Select button / axis cache based on key bind type
if (keyBind.type === "button") {
buttonCache = this.gp.buttons;
} else if (keyBind.type === "axis") {
buttonCache = this.gp.axes;
}
// Make sure the button exists in the cache array
if (keyBind.gp_button < buttonCache.changed.length) {
// Send the button state if it's changed
if (buttonCache.changed[keyBind.gp_button]) {
if (buttonCache.cur[keyBind.gp_button]) {
// Gamepad Button Down
keyBind.gp_bind(true);
} else {
// Gamepad Button Up
keyBind.gp_bind(false);
}
}
}
}
getCurrent() {
// Chrome requires retrieving a new gamepad object
// every time button state is queried (the existing object
// will have stale button state). Just do that for all browsers
let gamepad = navigator.getGamepads()[this.gp.apiID];
if (gamepad) {
if (gamepad.connected) {
return gamepad;
}
}
return undefined;
}
update() {
let gamepad = this.getCurrent();
if (gamepad !== undefined) {
// Cache gamepad input values
this.cacheValues(gamepad);
// Loop through buttons and send changes if needed
for (let i = 0; i < this.gp.keybinds.length; i++) {
this.handleButton(this.gp.keybinds[i]);
}
} else {
// Gamepad is no longer present, disconnect
this.releaseGamepad();
}
}
startGamepad(gamepad) {
// Make sure it has enough buttons and axes
if (
gamepad.mapping === GAMEPAD_KEYMAP_STANDARD_STR ||
(gamepad.axes.length >= 2 && gamepad.buttons.length >= 4)
) {
// Save API index for polling (required by Chrome/V8)
this.gp.apiID = gamepad.index;
// Assign gameboy keys to the gamepad
this.bindKeys(gamepad.mapping);
// Start polling the gamepad for input
this.gp.timerID = setInterval(
() => this.update(),
GAMEPAD_POLLING_INTERVAL
);
}
}
releaseGamepad() {
// Stop polling the gamepad for input
if (this.gp.timerID !== undefined) {
clearInterval(this.gp.timerID);
}
// Clear previous button history and controller info
this.gp.axes.last = undefined;
this.gp.buttons.last = undefined;
this.gp.keybinds = undefined;
this.gp.apiID = undefined;
}
// If a gamepad was already connected on this page
// and released, it won't fire another connect event.
// So try to find any that might be present
checkAlreadyConnected() {
let gamepads = navigator.getGamepads();
// If any gamepads are already attached to the page,
// use the first one that is connected
for (let idx = 0; idx < gamepads.length; idx++) {
if (gamepads[idx] !== undefined && gamepads[idx] !== null) {
if (gamepads[idx].connected === true) {
this.startGamepad(gamepads[idx]);
}
}
}
}
// Event handler for when a gamepad is connected
eventConnected(event) {
this.startGamepad(navigator.getGamepads()[event.gamepad.index]);
}
// Event handler for when a gamepad is disconnected
eventDisconnected(event) {
this.releaseGamepad();
}
// Register event connection handlers for gamepads
init() {
// gamepad related vars
this.gp = {
apiID: undefined,
timerID: undefined,
keybinds: undefined,
axes: { last: undefined, cur: [], changed: [] },
buttons: { last: undefined, cur: [], changed: [] },
};
// Check for previously attached gamepads that might
// not emit a gamepadconnected() event
this.checkAlreadyConnected();
this.boundGamepadConnected = this.eventConnected.bind(this);
this.boundGamepadDisconnected = this.eventDisconnected.bind(this);
// When a gamepad connects, start polling it for input
window.addEventListener("gamepadconnected", this.boundGamepadConnected);
// When a gamepad disconnects, shut down polling for input
window.addEventListener(
"gamepaddisconnected",
this.boundGamepadDisconnected
);
}
// Release event connection handlers and settings
shutdown() {
this.releaseGamepad();
window.removeEventListener("gamepadconnected", this.boundGamepadConnected);
window.removeEventListener(
"gamepaddisconnected",
this.boundGamepadDisconnected
);
}
}
class Audio {
constructor(module, e) {
this.started = false;
this.module = module;
this.buffer = makeWasmBuffer(
this.module,
this.module._get_audio_buffer_ptr(e),
this.module._get_audio_buffer_capacity(e)
);
this.startSec = 0;
this.resume();
this.boundStartPlayback = this.startPlayback.bind(this);
window.addEventListener("keydown", this.boundStartPlayback, true);
window.addEventListener("click", this.boundStartPlayback, true);
window.addEventListener("touchend", this.boundStartPlayback, true);
}
startPlayback() {
window.removeEventListener("touchend", this.boundStartPlayback, true);
window.removeEventListener("keydown", this.boundStartPlayback, true);
window.removeEventListener("click", this.boundStartPlayback, true);
this.started = true;
this.resume();
}
get sampleRate() {
return Audio.ctx.sampleRate;
}
pushBuffer() {
if (!this.started) {
return;
}
const nowSec = Audio.ctx.currentTime;
const nowPlusLatency = nowSec + AUDIO_LATENCY_SEC;
const volume = vm.volume;
this.startSec = this.startSec || nowPlusLatency;
if (this.startSec >= nowSec) {
const buffer = Audio.ctx.createBuffer(2, AUDIO_FRAMES, this.sampleRate);
const channel0 = buffer.getChannelData(0);
const channel1 = buffer.getChannelData(1);
for (let i = 0; i < AUDIO_FRAMES; i++) {
channel0[i] = (this.buffer[2 * i] * volume) / 255;
channel1[i] = (this.buffer[2 * i + 1] * volume) / 255;
}
const bufferSource = Audio.ctx.createBufferSource();
bufferSource.buffer = buffer;
bufferSource.connect(Audio.ctx.destination);
bufferSource.start(this.startSec);
const bufferSec = AUDIO_FRAMES / this.sampleRate;
this.startSec += bufferSec;
} else {
console.log(
"Resetting audio (" +
this.startSec.toFixed(2) +
" < " +
nowSec.toFixed(2) +
")"
);
this.startSec = nowPlusLatency;
}
}
pause() {
if (!this.started) {
return;
}
Audio.ctx.suspend();
}
resume() {
if (!this.started) {
return;
}
Audio.ctx.resume();
}
}
Audio.ctx = new AudioContext();
class Video {
constructor(module, e, el) {
this.module = module;
// Both iPhone and Desktop Safari dont't upscale using image-rendering: pixelated
// on webgl canvases. See https://bugs.webkit.org/show_bug.cgi?id=193895.
// For now, default to Canvas2D.
if (window.navigator.userAgent.match(/iPhone|iPad|15.[0-9] Safari/)) {
this.renderer = new Canvas2DRenderer(el);
} else {
try {
this.renderer = new WebGLRenderer(el);
} catch (error) {
console.log(`Error creating WebGLRenderer: ${error}`);
this.renderer = new Canvas2DRenderer(el);
}
}
this.buffer = makeWasmBuffer(
this.module,
this.module._get_frame_buffer_ptr(e),
this.module._get_frame_buffer_size(e)
);
this.sgbBuffer = makeWasmBuffer(
this.module,
this.module._get_sgb_frame_buffer_ptr(e),
this.module._get_sgb_frame_buffer_size(e)
);
}
uploadTexture() {
this.renderer.uploadTextures(this.buffer, this.sgbBuffer);
}
renderTexture() {
this.renderer.renderTextures();
}
}
class Canvas2DRenderer {
constructor(el) {
this.ctx = el.getContext("2d");
this.imageData = this.ctx.createImageData(SCREEN_WIDTH, SCREEN_HEIGHT);
this.sgbImageData = this.ctx.createImageData(
SGB_SCREEN_WIDTH,
SGB_SCREEN_HEIGHT
);
this.overlayCanvas = document.createElement("canvas");
this.overlayCanvas.width = SGB_SCREEN_WIDTH;
this.overlayCanvas.height = SGB_SCREEN_HEIGHT;
this.overlayCtx = this.overlayCanvas.getContext("2d");
}
uploadTextures(buffer, sgbBuffer) {
this.imageData.data.set(buffer);
this.sgbImageData.data.set(sgbBuffer);
}
renderTextures() {
if (vm.canvas.useSgbBorder) {
this.ctx.putImageData(this.imageData, SGB_SCREEN_LEFT, SGB_SCREEN_TOP);
this.overlayCtx.putImageData(this.sgbImageData, 0, 0);
this.ctx.drawImage(this.overlayCanvas, 0, 0);
} else {
this.ctx.putImageData(this.imageData, 0, 0);
}
}
}
class WebGLRenderer {
constructor(el) {
const gl = (this.gl = el.getContext("webgl", {
preserveDrawingBuffer: true,
}));
if (gl === null) {
throw new Error("unable to create webgl context");
}
function compileShader(type, source) {
const shader = gl.createShader(type);
gl.shaderSource(shader, source);
gl.compileShader(shader);
if (!gl.getShaderParameter(shader, gl.COMPILE_STATUS)) {
throw new Error(`compileShader failed: ${gl.getShaderInfoLog(shader)}`);
}
return shader;
}
const vertexShader = compileShader(
gl.VERTEX_SHADER,
`attribute vec2 aPos;
attribute vec2 aTexCoord;
varying highp vec2 vTexCoord;
void main(void) {
gl_Position = vec4(aPos, 0.0, 1.0);
vTexCoord = aTexCoord;
}`
);
const fragmentShader = compileShader(
gl.FRAGMENT_SHADER,
`varying highp vec2 vTexCoord;
uniform sampler2D uSampler;
void main(void) {
gl_FragColor = texture2D(uSampler, vTexCoord);
}`
);
const program = gl.createProgram();
gl.attachShader(program, vertexShader);
gl.attachShader(program, fragmentShader);
gl.linkProgram(program);
if (!gl.getProgramParameter(program, gl.LINK_STATUS)) {
throw new Error(`program link failed: ${gl.getProgramInfoLog(program)}`);
}
gl.useProgram(program);
this.aPos = gl.getAttribLocation(program, "aPos");
this.aTexCoord = gl.getAttribLocation(program, "aTexCoord");
this.uSampler = gl.getUniformLocation(program, "uSampler");
this.fbTexture = this.createTexture();
this.sgbFbTexture = this.createTexture();
const invLerpClipSpace = (x, max) => 2 * (x / max) - 1;
const l = invLerpClipSpace(SGB_SCREEN_LEFT, SGB_SCREEN_WIDTH);
const r = invLerpClipSpace(SGB_SCREEN_RIGHT, SGB_SCREEN_WIDTH);
const t = -invLerpClipSpace(SGB_SCREEN_TOP, SGB_SCREEN_HEIGHT);
const b = -invLerpClipSpace(SGB_SCREEN_BOTTOM, SGB_SCREEN_HEIGHT);
const w = SCREEN_WIDTH / 256,
sw = SGB_SCREEN_WIDTH / 256;
const h = SCREEN_HEIGHT / 256,
sh = SGB_SCREEN_HEIGHT / 256;
const verts = new Float32Array([
// fb only
-1,
-1,
0,
h,
+1,
-1,
w,
h,
-1,
+1,
0,
0,
+1,
+1,
w,
0,
// sgb fb
l,
b,
0,
h,
r,
b,
w,
h,
l,
t,
0,
0,
r,
t,
w,
0,
// sgb border
-1,
-1,
0,
sh,
+1,
-1,
sw,
sh,
-1,
+1,
0,
0,
+1,
+1,
sw,
0,
]);
const buffer = gl.createBuffer();
this.gl.bindBuffer(gl.ARRAY_BUFFER, buffer);
gl.bufferData(gl.ARRAY_BUFFER, verts, gl.STATIC_DRAW);
gl.enableVertexAttribArray(this.aPos);
gl.enableVertexAttribArray(this.aTexCoord);
gl.vertexAttribPointer(this.aPos, 2, gl.FLOAT, gl.FALSE, 16, 0);
gl.vertexAttribPointer(this.aTexCoord, 2, gl.FLOAT, gl.FALSE, 16, 8);
gl.uniform1i(this.uSampler, 0);
}
createTexture() {
const gl = this.gl;
const texture = gl.createTexture();
gl.bindTexture(gl.TEXTURE_2D, texture);
gl.texImage2D(
gl.TEXTURE_2D,
0,
gl.RGBA,
256,
256,
0,
gl.RGBA,
gl.UNSIGNED_BYTE,
null
);
gl.texParameteri(gl.TEXTURE_2D, gl.TEXTURE_MAG_FILTER, gl.NEAREST);
gl.texParameteri(gl.TEXTURE_2D, gl.TEXTURE_MIN_FILTER, gl.NEAREST);
return texture;
}
uploadTextures(buffer, sgbBuffer) {
const gl = this.gl;
gl.bindTexture(gl.TEXTURE_2D, this.fbTexture);
gl.texSubImage2D(
gl.TEXTURE_2D,
0,
0,
0,
SCREEN_WIDTH,
SCREEN_HEIGHT,
gl.RGBA,
gl.UNSIGNED_BYTE,
buffer
);
gl.bindTexture(gl.TEXTURE_2D, this.sgbFbTexture);
gl.texSubImage2D(
gl.TEXTURE_2D,
0,
0,
0,
SGB_SCREEN_WIDTH,
SGB_SCREEN_HEIGHT,
gl.RGBA,
gl.UNSIGNED_BYTE,
sgbBuffer
);
}
renderTextures() {
const gl = this.gl;
gl.viewport(0, 0, gl.drawingBufferWidth, gl.drawingBufferHeight);
gl.clearColor(0.5, 0.5, 0.5, 1.0);
gl.clear(gl.COLOR_BUFFER_BIT);
if (vm.canvas.useSgbBorder) {
gl.bindTexture(gl.TEXTURE_2D, this.fbTexture);
gl.drawArrays(gl.TRIANGLE_STRIP, 4, 4);
gl.enable(gl.BLEND);
gl.blendFunc(gl.SRC_ALPHA, gl.ONE_MINUS_SRC_ALPHA);
gl.bindTexture(gl.TEXTURE_2D, this.sgbFbTexture);
gl.drawArrays(gl.TRIANGLE_STRIP, 8, 4);
gl.disable(gl.BLEND);
} else {
gl.bindTexture(gl.TEXTURE_2D, this.fbTexture);
gl.drawArrays(gl.TRIANGLE_STRIP, 0, 4);
}
}
}
class Rewind {
constructor(module, e) {
this.module = module;
this.e = e;
this.joypadBufferPtr = this.module._joypad_new();
this.statePtr = 0;
this.bufferPtr = this.module._rewind_new_simple(
e,
REWIND_FRAMES_PER_BASE_STATE,
REWIND_BUFFER_CAPACITY
);
this.module._emulator_set_default_joypad_callback(e, this.joypadBufferPtr);
}
destroy() {
this.module._rewind_delete(this.bufferPtr);
this.module._joypad_delete(this.joypadBufferPtr);
}
get oldestTicks() {
return this.module._rewind_get_oldest_ticks_f64(this.bufferPtr);
}
get newestTicks() {
return this.module._rewind_get_newest_ticks_f64(this.bufferPtr);
}
pushBuffer() {
if (!this.isRewinding) {
this.module._rewind_append(this.bufferPtr, this.e);
}
}
get isRewinding() {
return this.statePtr !== 0;
}
beginRewind() {
if (this.isRewinding) return;
this.statePtr = this.module._rewind_begin(
this.e,
this.bufferPtr,
this.joypadBufferPtr
);
}
rewindToTicks(ticks) {
if (!this.isRewinding) return;
return (
this.module._rewind_to_ticks_wrapper(this.statePtr, ticks) === RESULT_OK
);
}
endRewind() {
if (!this.isRewinding) return;
this.module._emulator_set_default_joypad_callback(
this.e,
this.joypadBufferPtr
);
this.module._rewind_end(this.statePtr);
this.statePtr = 0;
}
}