/** * Implementation of a simple Oberver Pattern for custom event handling */ function Observer() { this.handlers = new Set(); } Observer.prototype = { // Adds handler for this message on(callback) { this.handlers.add(callback); return callback; }, clear(callback) { return this.handlers.delete(callback); }, emit(msg) { this.handlers.forEach(async (handler) => { try { await handler(msg); } catch (e) { console.warn("Observer failed to run handler"); console.warn(e); } }); }, }; /** * Generates unique id */ const guid = (size = 3) => { const s4 = () => { return Math.floor((1 + Math.random()) * 0x10000) .toString(16) .substring(1); }; // returns id of format 'aaaaaaaa'-'aaaa'-'aaaa'-'aaaa'-'aaaaaaaaaaaa' let id = ""; for (var i = 0; i < size - 1; i++) id += s4() + "-"; id += s4(); return id; }; /** * Default option set */ function defaultOpt(options, defaults) { Object.keys(defaults).forEach((key) => { if (options[key] === undefined) options[key] = defaults[key]; }); } /** * Bounding box Calculation */ function snap(i, scaled = true, gridSize = 64) { // very cheap test proof of concept but it works surprisingly well var scaleOffset = 0; if (scaled) { if (scaleFactor % 2 != 0) { // odd number, snaps to center of cell, oops scaleOffset = gridSize / 2; } } const modulus = i % gridSize; var snapOffset = modulus - scaleOffset; if (modulus > gridSize / 2) snapOffset = modulus - gridSize; if (snapOffset == 0) { return snapOffset; } return -snapOffset; } function getBoundingBox(cx, cy, w, h, gridSnap = null) { const offset = {x: 0, y: 0}; const box = {x: 0, y: 0}; if (gridSnap) { offset.x = snap(cx, true, gridSnap); offset.y = snap(cy, true, gridSnap); } box.x = offset.x + cx; box.y = offset.y + cy; return { x: Math.floor(box.x - w / 2), y: Math.floor(box.y - h / 2), w, h, }; } /** * Triggers Canvas Download */ function cropCanvas(sourceCanvas) { var w = sourceCanvas.width; var h = sourceCanvas.height; var pix = {x: [], y: []}; var imageData = sourceCanvas.getContext("2d").getImageData(0, 0, w, h); var x, y, index; for (y = 0; y < h; y++) { for (x = 0; x < w; x++) { // lol i need to learn what this part does index = (y * w + x) * 4; // OHHH OK this is setting the imagedata.data uint8clampeddataarray index for the specified x/y coords //this part i get, this is checking that 4th RGBA byte for opacity if (imageData.data[index + 3] > 0) { pix.x.push(x); pix.y.push(y); } } } // ...need to learn what this part does too :badpokerface: // is this just determining the boundaries of non-transparent pixel data? pix.x.sort(function (a, b) { return a - b; }); pix.y.sort(function (a, b) { return a - b; }); var n = pix.x.length - 1; w = pix.x[n] - pix.x[0] + 1; h = pix.y[n] - pix.y[0] + 1; // yup sure looks like it try { var cut = sourceCanvas .getContext("2d") .getImageData(pix.x[0], pix.y[0], w, h); var cutCanvas = document.createElement("canvas"); cutCanvas.width = w; cutCanvas.height = h; cutCanvas.getContext("2d").putImageData(cut, 0, 0); } catch (ex) { // probably empty image //TODO confirm edge cases? cutCanvas = null; } return cutCanvas; } function downloadCanvas(options) { defaultOpt(options, { cropToContent: true, canvas: imgCanvas, filename: new Date() .toISOString() .slice(0, 19) .replace("T", " ") .replace(":", " ") + " openOutpaint image.png", }); var link = document.createElement("a"); link.download = options.filename; var croppedCanvas = options.cropToContent ? cropCanvas(options.canvas) : options.canvas; if (croppedCanvas != null) { link.href = croppedCanvas.toDataURL("image/png"); link.click(); } }