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mirror of https://github.com/Jermolene/TiddlyWiki5 synced 2024-11-06 01:56:20 +00:00
TiddlyWiki5/plugins/tiddlywiki/confetti/files/confetti.js

627 lines
17 KiB
JavaScript
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Introduce Tour Plugin and Confetti Plugin, improve Dynannotate Plugin (#7734) * First commit * Typo * Add support for delay parameter * Add confetti widget * Add tour plugin * Add element spotlight to dynannotate plugin Useful for highlighting on screen elements for the user * More and bigger confetti by default * Use new element spotlight to provide hints * Adjust hint selectors for create tiddler tour step * Include confetti plugin in prerelease * Clarify wording of confetti demo * Don't link TiddlyWiki in the tour panel * Tweaks to tour buttons * Mark dependents of the tour plugin * Add full screen section of tour and tour edition * Remove Anna Freud references from welcome tiddler * Build the tour edition in the preview * Fix typo in build script * Populate tour edition with solar system data From Simple English Wikipedia * Missing tag * Add page control button to start tour Also make the tour controls visible in full screen mode * Refactor to use global procedures to control the tour * Change "startup-actions" field to "enter-actions" to avoid confusion * Add a tour logo * Refactor to allow multiple tours to be loaded at once * Remove wikification from welcome tour step * Update docs * Simplify styles for top bar * Tours should have a $:/tags/Tour tag * Tour should autostart in the tour edition, but not in the main wiki * Better labelling for the main preview * Fix build process We build a separate tour.html wiki, but can include the tour in other wikis too * Remove obsolete text * Add "using tags" as a separate tour * Remove old debugging code * Add tour chooser * Ensure that the current tour isn't listed as an option in the final step * Use whitespace trim Note that the setting is inherited by procedure and widget definitions * Simplify tour step format * Remove obsolete state tiddler Not needed because now we initialise it in startup actions * Fix gap between navigation buttons * Clean up tiddler titles within the introduction tour * Finish allowing the name "TiddlyWiki" to be customised Some of the code was in the previous commit. Next we'll wire up the user interface * Clarify docs * Add a settings pane giving a birds eye view of a tour * Avoid having to embed confetti in the final step * Update docs * Tweak styling of tour chooser dropdown * Add a button to launch tour steps directly, and give them captions * Expose custom tour settings * Use the tour step caption as the heading * Fix initialisation when jumping to a tour step * Introduce step about tags * Improve wording * Improve styling of task call-to-action and nav buttons * Adopt new conditional shortcut syntax * Wording and ordering tweaks * Fix typos Thanks @pmario * Simplify styling of tour overlay * Use custom palette colours Makes it easier for people to use their own colour scheme for the tour * More custom colours * Tour wording tweaks * Extends the tour plugin with a condition field (#7861) * feat: support condition field to determine whether a step should be shown * feat: add support for overriding the hint text using the field 'hint' from the step tiddler * fix: roll back tour display procedure for now until an override mechanism has been discussed * fix: renamed advance-criterion field and associated variables to step-success-filter * fix: renamed hint field to hint-text and selector to hint-selector * refactor: to create function to get all tour tiddlers filtered by their condition field * refactor: rename globals tiddlers to variables and avoid making any of the tour procedures global * fix: also rename globals.tid file to variables.tid * docs: cover all tour steps tiddler fields * fix: improve spacing in Tour HUD * WIP --------- Co-authored-by: Jeremy Ruston <174761+Jermolene@users.noreply.github.com> Co-authored-by: Saq Imtiaz <saq.imtiaz@gmail.com>
2024-01-25 12:53:35 +00:00
(function main(global, module, isWorker, workerSize) {
var canUseWorker = !!(
global.Worker &&
global.Blob &&
global.Promise &&
global.OffscreenCanvas &&
global.OffscreenCanvasRenderingContext2D &&
global.HTMLCanvasElement &&
global.HTMLCanvasElement.prototype.transferControlToOffscreen &&
global.URL &&
global.URL.createObjectURL);
function noop() {}
// create a promise if it exists, otherwise, just
// call the function directly
function promise(func) {
var ModulePromise = module.exports.Promise;
var Prom = ModulePromise !== void 0 ? ModulePromise : global.Promise;
if (typeof Prom === 'function') {
return new Prom(func);
}
func(noop, noop);
return null;
}
var raf = (function () {
var TIME = Math.floor(1000 / 60);
var frame, cancel;
var frames = {};
var lastFrameTime = 0;
if (typeof requestAnimationFrame === 'function' && typeof cancelAnimationFrame === 'function') {
frame = function (cb) {
var id = Math.random();
frames[id] = requestAnimationFrame(function onFrame(time) {
if (lastFrameTime === time || lastFrameTime + TIME - 1 < time) {
lastFrameTime = time;
delete frames[id];
cb();
} else {
frames[id] = requestAnimationFrame(onFrame);
}
});
return id;
};
cancel = function (id) {
if (frames[id]) {
cancelAnimationFrame(frames[id]);
}
};
} else {
frame = function (cb) {
return setTimeout(cb, TIME);
};
cancel = function (timer) {
return clearTimeout(timer);
};
}
return { frame: frame, cancel: cancel };
}());
var getWorker = (function () {
var worker;
var prom;
var resolves = {};
function decorate(worker) {
function execute(options, callback) {
worker.postMessage({ options: options || {}, callback: callback });
}
worker.init = function initWorker(canvas) {
var offscreen = canvas.transferControlToOffscreen();
worker.postMessage({ canvas: offscreen }, [offscreen]);
};
worker.fire = function fireWorker(options, size, done) {
if (prom) {
execute(options, null);
return prom;
}
var id = Math.random().toString(36).slice(2);
prom = promise(function (resolve) {
function workerDone(msg) {
if (msg.data.callback !== id) {
return;
}
delete resolves[id];
worker.removeEventListener('message', workerDone);
prom = null;
done();
resolve();
}
worker.addEventListener('message', workerDone);
execute(options, id);
resolves[id] = workerDone.bind(null, { data: { callback: id }});
});
return prom;
};
worker.reset = function resetWorker() {
worker.postMessage({ reset: true });
for (var id in resolves) {
resolves[id]();
delete resolves[id];
}
};
}
return function () {
if (worker) {
return worker;
}
if (!isWorker && canUseWorker) {
var code = [
'var CONFETTI, SIZE = {}, module = {};',
'(' + main.toString() + ')(this, module, true, SIZE);',
'onmessage = function(msg) {',
' if (msg.data.options) {',
' CONFETTI(msg.data.options).then(function () {',
' if (msg.data.callback) {',
' postMessage({ callback: msg.data.callback });',
' }',
' });',
' } else if (msg.data.reset) {',
' CONFETTI && CONFETTI.reset();',
' } else if (msg.data.resize) {',
' SIZE.width = msg.data.resize.width;',
' SIZE.height = msg.data.resize.height;',
' } else if (msg.data.canvas) {',
' SIZE.width = msg.data.canvas.width;',
' SIZE.height = msg.data.canvas.height;',
' CONFETTI = module.exports.create(msg.data.canvas);',
' }',
'}',
].join('\n');
try {
worker = new Worker(URL.createObjectURL(new Blob([code])));
} catch (e) {
// eslint-disable-next-line no-console
typeof console !== undefined && typeof console.warn === 'function' ? console.warn('🎊 Could not load worker', e) : null;
return null;
}
decorate(worker);
}
return worker;
};
})();
var defaults = {
particleCount: 50,
angle: 90,
spread: 45,
startVelocity: 45,
decay: 0.9,
gravity: 1,
drift: 0,
ticks: 200,
x: 0.5,
y: 0.5,
shapes: ['square', 'circle'],
zIndex: 100,
colors: [
'#26ccff',
'#a25afd',
'#ff5e7e',
'#88ff5a',
'#fcff42',
'#ffa62d',
'#ff36ff'
],
// probably should be true, but back-compat
disableForReducedMotion: false,
scalar: 1
};
function convert(val, transform) {
return transform ? transform(val) : val;
}
function isOk(val) {
return !(val === null || val === undefined);
}
function prop(options, name, transform) {
return convert(
options && isOk(options[name]) ? options[name] : defaults[name],
transform
);
}
function onlyPositiveInt(number){
return number < 0 ? 0 : Math.floor(number);
}
function randomInt(min, max) {
// [min, max)
return Math.floor(Math.random() * (max - min)) + min;
}
function toDecimal(str) {
return parseInt(str, 16);
}
function colorsToRgb(colors) {
return colors.map(hexToRgb);
}
function hexToRgb(str) {
var val = String(str).replace(/[^0-9a-f]/gi, '');
if (val.length < 6) {
val = val[0]+val[0]+val[1]+val[1]+val[2]+val[2];
}
return {
r: toDecimal(val.substring(0,2)),
g: toDecimal(val.substring(2,4)),
b: toDecimal(val.substring(4,6))
};
}
function getOrigin(options) {
var origin = prop(options, 'origin', Object);
origin.x = prop(origin, 'x', Number);
origin.y = prop(origin, 'y', Number);
return origin;
}
function setCanvasWindowSize(canvas) {
canvas.width = document.documentElement.clientWidth;
canvas.height = document.documentElement.clientHeight;
}
function setCanvasRectSize(canvas) {
var rect = canvas.getBoundingClientRect();
canvas.width = rect.width;
canvas.height = rect.height;
}
function getCanvas(zIndex) {
var canvas = document.createElement('canvas');
canvas.style.position = 'fixed';
canvas.style.top = '0px';
canvas.style.left = '0px';
canvas.style.pointerEvents = 'none';
canvas.style.zIndex = zIndex;
return canvas;
}
function ellipse(context, x, y, radiusX, radiusY, rotation, startAngle, endAngle, antiClockwise) {
context.save();
context.translate(x, y);
context.rotate(rotation);
context.scale(radiusX, radiusY);
context.arc(0, 0, 1, startAngle, endAngle, antiClockwise);
context.restore();
}
function randomPhysics(opts) {
var radAngle = opts.angle * (Math.PI / 180);
var radSpread = opts.spread * (Math.PI / 180);
return {
x: opts.x,
y: opts.y,
wobble: Math.random() * 10,
wobbleSpeed: Math.min(0.11, Math.random() * 0.1 + 0.05),
velocity: (opts.startVelocity * 0.5) + (Math.random() * opts.startVelocity),
angle2D: -radAngle + ((0.5 * radSpread) - (Math.random() * radSpread)),
tiltAngle: (Math.random() * (0.75 - 0.25) + 0.25) * Math.PI,
color: opts.color,
shape: opts.shape,
tick: 0,
totalTicks: opts.ticks,
decay: opts.decay,
drift: opts.drift,
random: Math.random() + 2,
tiltSin: 0,
tiltCos: 0,
wobbleX: 0,
wobbleY: 0,
gravity: opts.gravity * 3,
ovalScalar: 0.6,
scalar: opts.scalar
};
}
function updateFetti(context, fetti) {
fetti.x += Math.cos(fetti.angle2D) * fetti.velocity + fetti.drift;
fetti.y += Math.sin(fetti.angle2D) * fetti.velocity + fetti.gravity;
fetti.wobble += fetti.wobbleSpeed;
fetti.velocity *= fetti.decay;
fetti.tiltAngle += 0.1;
fetti.tiltSin = Math.sin(fetti.tiltAngle);
fetti.tiltCos = Math.cos(fetti.tiltAngle);
fetti.random = Math.random() + 2;
fetti.wobbleX = fetti.x + ((10 * fetti.scalar) * Math.cos(fetti.wobble));
fetti.wobbleY = fetti.y + ((10 * fetti.scalar) * Math.sin(fetti.wobble));
var progress = (fetti.tick++) / fetti.totalTicks;
var x1 = fetti.x + (fetti.random * fetti.tiltCos);
var y1 = fetti.y + (fetti.random * fetti.tiltSin);
var x2 = fetti.wobbleX + (fetti.random * fetti.tiltCos);
var y2 = fetti.wobbleY + (fetti.random * fetti.tiltSin);
context.fillStyle = 'rgba(' + fetti.color.r + ', ' + fetti.color.g + ', ' + fetti.color.b + ', ' + (1 - progress) + ')';
context.beginPath();
if (fetti.shape === 'circle') {
context.ellipse ?
context.ellipse(fetti.x, fetti.y, Math.abs(x2 - x1) * fetti.ovalScalar, Math.abs(y2 - y1) * fetti.ovalScalar, Math.PI / 10 * fetti.wobble, 0, 2 * Math.PI) :
ellipse(context, fetti.x, fetti.y, Math.abs(x2 - x1) * fetti.ovalScalar, Math.abs(y2 - y1) * fetti.ovalScalar, Math.PI / 10 * fetti.wobble, 0, 2 * Math.PI);
} else if (fetti.shape === 'star') {
var rot = Math.PI / 2 * 3;
var innerRadius = 4 * fetti.scalar;
var outerRadius = 8 * fetti.scalar;
var x = fetti.x;
var y = fetti.y;
var spikes = 5;
var step = Math.PI / spikes;
while (spikes--) {
x = fetti.x + Math.cos(rot) * outerRadius;
y = fetti.y + Math.sin(rot) * outerRadius;
context.lineTo(x, y);
rot += step;
x = fetti.x + Math.cos(rot) * innerRadius;
y = fetti.y + Math.sin(rot) * innerRadius;
context.lineTo(x, y);
rot += step;
}
} else {
context.moveTo(Math.floor(fetti.x), Math.floor(fetti.y));
context.lineTo(Math.floor(fetti.wobbleX), Math.floor(y1));
context.lineTo(Math.floor(x2), Math.floor(y2));
context.lineTo(Math.floor(x1), Math.floor(fetti.wobbleY));
}
context.closePath();
context.fill();
return fetti.tick < fetti.totalTicks;
}
function animate(canvas, fettis, resizer, size, done) {
var animatingFettis = fettis.slice();
var context = canvas.getContext('2d');
var animationFrame;
var destroy;
var prom = promise(function (resolve) {
function onDone() {
animationFrame = destroy = null;
context.clearRect(0, 0, size.width, size.height);
done();
resolve();
}
function update() {
if (isWorker && !(size.width === workerSize.width && size.height === workerSize.height)) {
size.width = canvas.width = workerSize.width;
size.height = canvas.height = workerSize.height;
}
if (!size.width && !size.height) {
resizer(canvas);
size.width = canvas.width;
size.height = canvas.height;
}
context.clearRect(0, 0, size.width, size.height);
animatingFettis = animatingFettis.filter(function (fetti) {
return updateFetti(context, fetti);
});
if (animatingFettis.length) {
animationFrame = raf.frame(update);
} else {
onDone();
}
}
animationFrame = raf.frame(update);
destroy = onDone;
});
return {
addFettis: function (fettis) {
animatingFettis = animatingFettis.concat(fettis);
return prom;
},
canvas: canvas,
promise: prom,
reset: function () {
if (animationFrame) {
raf.cancel(animationFrame);
}
if (destroy) {
destroy();
}
}
};
}
function confettiCannon(canvas, globalOpts) {
var isLibCanvas = !canvas;
var allowResize = !!prop(globalOpts || {}, 'resize');
var globalDisableForReducedMotion = prop(globalOpts, 'disableForReducedMotion', Boolean);
var shouldUseWorker = canUseWorker && !!prop(globalOpts || {}, 'useWorker');
var worker = shouldUseWorker ? getWorker() : null;
var resizer = isLibCanvas ? setCanvasWindowSize : setCanvasRectSize;
var initialized = (canvas && worker) ? !!canvas.__confetti_initialized : false;
var preferLessMotion = typeof matchMedia === 'function' && matchMedia('(prefers-reduced-motion)').matches;
var animationObj;
function fireLocal(options, size, done) {
var particleCount = prop(options, 'particleCount', onlyPositiveInt);
var angle = prop(options, 'angle', Number);
var spread = prop(options, 'spread', Number);
var startVelocity = prop(options, 'startVelocity', Number);
var decay = prop(options, 'decay', Number);
var gravity = prop(options, 'gravity', Number);
var drift = prop(options, 'drift', Number);
var colors = prop(options, 'colors', colorsToRgb);
var ticks = prop(options, 'ticks', Number);
var shapes = prop(options, 'shapes');
var scalar = prop(options, 'scalar');
var origin = getOrigin(options);
var temp = particleCount;
var fettis = [];
var startX = canvas.width * origin.x;
var startY = canvas.height * origin.y;
while (temp--) {
fettis.push(
randomPhysics({
x: startX,
y: startY,
angle: angle,
spread: spread,
startVelocity: startVelocity,
color: colors[temp % colors.length],
shape: shapes[randomInt(0, shapes.length)],
ticks: ticks,
decay: decay,
gravity: gravity,
drift: drift,
scalar: scalar
})
);
}
// if we have a previous canvas already animating,
// add to it
if (animationObj) {
return animationObj.addFettis(fettis);
}
animationObj = animate(canvas, fettis, resizer, size , done);
return animationObj.promise;
}
function fire(options) {
var disableForReducedMotion = globalDisableForReducedMotion || prop(options, 'disableForReducedMotion', Boolean);
var zIndex = prop(options, 'zIndex', Number);
if (disableForReducedMotion && preferLessMotion) {
return promise(function (resolve) {
resolve();
});
}
if (isLibCanvas && animationObj) {
// use existing canvas from in-progress animation
canvas = animationObj.canvas;
} else if (isLibCanvas && !canvas) {
// create and initialize a new canvas
canvas = getCanvas(zIndex);
document.body.appendChild(canvas);
}
if (allowResize && !initialized) {
// initialize the size of a user-supplied canvas
resizer(canvas);
}
var size = {
width: canvas.width,
height: canvas.height
};
if (worker && !initialized) {
worker.init(canvas);
}
initialized = true;
if (worker) {
canvas.__confetti_initialized = true;
}
function onResize() {
if (worker) {
// TODO this really shouldn't be immediate, because it is expensive
var obj = {
getBoundingClientRect: function () {
if (!isLibCanvas) {
return canvas.getBoundingClientRect();
}
}
};
resizer(obj);
worker.postMessage({
resize: {
width: obj.width,
height: obj.height
}
});
return;
}
// don't actually query the size here, since this
// can execute frequently and rapidly
size.width = size.height = null;
}
function done() {
animationObj = null;
if (allowResize) {
global.removeEventListener('resize', onResize);
}
if (isLibCanvas && canvas) {
document.body.removeChild(canvas);
canvas = null;
initialized = false;
}
}
if (allowResize) {
global.addEventListener('resize', onResize, false);
}
if (worker) {
return worker.fire(options, size, done);
}
return fireLocal(options, size, done);
}
fire.reset = function () {
if (worker) {
worker.reset();
}
if (animationObj) {
animationObj.reset();
}
};
return fire;
}
// Make default export lazy to defer worker creation until called.
var defaultFire;
function getDefaultFire() {
if (!defaultFire) {
defaultFire = confettiCannon(null, { useWorker: true, resize: true });
}
return defaultFire;
}
module.exports = function() {
return getDefaultFire().apply(this, arguments);
};
module.exports.reset = function() {
getDefaultFire().reset();
};
module.exports.create = confettiCannon;
}((function () {
if (typeof window !== 'undefined') {
return window;
}
if (typeof self !== 'undefined') {
return self;
}
return this || {};
})(), module, false));