189 lines
6 KiB
JavaScript
189 lines
6 KiB
JavaScript
const { createCanvas, loadImage } = require("canvas");
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const fs = require("fs");
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const tempDir = "./temp";
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const imagesDir = "./images";
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// load images
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let initialized = false;
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let images = [];
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let imgPromises = [];
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fs.promises.readdir(imagesDir).then(filenames =>
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{
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for (var filename of filenames)
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imgPromises.push(loadImage(path.join(imagesDir, filename)).then(data => images.push(data)));
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Promise.all(imgPromises).then(() => initialized = true);
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});
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async function generateFrames (sourceImagePath, duration)
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{
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if (!initialized)
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return null;
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let outputPath = path.join(tempDir, "frames_" + Math.floor(Math.random() * 10000).toString().padStart(4, "0"));
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let sourceImage;
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await Promise.all([
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fs.promises.mkdir(outputPath),
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loadImage(sourceImagePath).then(data => sourceImage = data)
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]);
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// settings
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const fps = 20;
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const res = 256;
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const totalFrames = fps * duration;
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// init timeline
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let objects = [];
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// define classes
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class Object
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{
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constructor(arg = {})
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{
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this.imageId = arg.imageId || -1;
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this.spawnFrame = arg.spawnFrame || 0;
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this.lifetime = fps * duration;
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this.pos = arg.pos || [0.5, 0.5];
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this.scale = arg.scale || [1, 1];
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this.pivot = arg.pivot || [0.5, 0.5];
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this.rot = arg.rot || 0;
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this.blink = false;
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this.sineDur = 0;
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this.actions = arg.actions || [];
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objects.push(this);
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}
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}
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class Action
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{
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constructor(arg = {})
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{
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this.type = arg.type;
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this.delta = arg.delta;
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this.start = arg.start || 0;
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}
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}
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// generate timeline
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const base = new Object();
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if (randomChance(80)) base.actions.push(new Action({ type: "scale", delta: [randomRange(0, 0.1), randomRange(0, 0.05)] }));
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for (i = 0; i < randomRange(2, 12); i++)
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{
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const obj = new Object();
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obj.pos = [Math.random(), Math.random()];
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const uniformScale = randomRange(0.1, 0.7);
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obj.scale = [uniformScale + Math.random() * 0.01, uniformScale + Math.random() * 0.01];
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obj.imageId = Math.floor(Math.random() * images.length);
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obj.spawnFrame = Math.floor(Math.random() * totalFrames);
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obj.lifetime = randomRange(fps * 0.25, fps * 3);
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obj.pivot = [Math.random(), Math.random()];
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if (randomChance(25))
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obj.actions.push(new Action({ type: "rotate", delta: randomRange(-8, 8) }))
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if (randomChance(25))
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obj.actions.push(new Action({ type: "scale", delta: [randomRange(0, 0.05), 0] }))
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if (randomChance(25))
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obj.blink = true;
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else if (randomChance(25))
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obj.actions.push(new Action({ type: "move", delta: [randomRange(-0.05, 0.05), randomRange(-0.05, 0.05)] }))
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if (randomChance(75))
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obj.sineDur = randomRange(1, 5);
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}
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// sort by spawnframe
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objects.sort((a, b) => (a.spawnFrame > b.spawnFrame) ? 1 : -1);
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// render frames
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let framePromises = [];
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for (var _f = 0; _f < totalFrames; _f++)
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{
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const f = _f;
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framePromises.push(async () =>
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{
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const canvas = createCanvas(res, res);
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const ctx = canvas.getContext("2d");
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// draw objects
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for (var object of objects)
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{
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var life = f - object.spawnFrame; // frames passed since init
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if (life < 0) continue;
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if (life > object.lifetime) continue;
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if (object.blink && life % 2 == 1) continue;
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var pos = object.pos;
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var rot = object.rot;
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var scale = object.scale;
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var image = object.imageId == -1 ? sourceImage : images[object.imageId];
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// process actions
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for (var action of object.actions)
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{
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if (f < object.spawnFrame + action.start + 1 || ((action.dur > 0) && (f > object.spawnFrame + action.start + action.dur))) continue; // ignore
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const progress = object.sineDur > 0 ? 10 * Math.sin(life * object.sineDur) : life;
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switch (action.type)
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{
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case "move":
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pos = [object.pos[0] + action.delta[0] * progress, object.pos[1] + action.delta[1] * progress];
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break;
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case "scale":
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scale = [object.scale[0] + action.delta[0] * progress, object.scale[1] + action.delta[1] * progress];
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break;
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case "rotate":
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rot = object.rot + action.delta * life;
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break;
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}
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}
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var size = [scale[0] * res, scale[1] * res]; // size in pixels
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var cpos = [pos[0] * res, pos[1] * res]; // center pos
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var blpos = [cpos[0] - size[0] * object.pivot[0], cpos[1] - size[1] * object.pivot[1]] // bottom left pos
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// save base canvas transform
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ctx.save();
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// rotate canvas to match object rotation
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ctx.translate(cpos[0], cpos[1]);
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ctx.rotate(rot * Math.PI / 180);
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ctx.translate(-cpos[0], -cpos[1]);
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// draw
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ctx.drawImage(image, blpos[0], blpos[1], size[0], size[1])
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// restore transform
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ctx.restore();
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// save the frame
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const buffer = canvas.toBuffer("image/png");
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await fs.promises.writeFile(path.join(outputPath, `${f}.png"`), buffer);
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}
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});
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}
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await Promise.all(framePromises.map(fn => fn()));
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return outputPath;
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}
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function randomRange (x, y)
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{
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return Math.random() * (y - x) + x;
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}
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function randomChance (percent)
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{
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return (Math.random() * 100) <= percent;
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}
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module.exports = { generateFrames };
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