// Layering const imageCollection = layers.registerCollection( "image", {w: 2560, h: 1536}, { name: "Image Layers", } ); const bgLayer = imageCollection.registerLayer("bg", { name: "Background", }); const imgLayer = imageCollection.registerLayer("image", { name: "Image", }); const maskPaintLayer = imageCollection.registerLayer("mask", { name: "Mask Paint", }); const ovLayer = imageCollection.registerLayer("overlay", { name: "Overlay", }); const debugLayer = imageCollection.registerLayer("debug", { name: "Debug Layer", }); const imgCanvas = imgLayer.canvas; // where dreams go const imgCtx = imgLayer.ctx; const maskPaintCanvas = maskPaintLayer.canvas; // where mouse cursor renders const maskPaintCtx = maskPaintLayer.ctx; maskPaintCanvas.classList.add("mask-canvas"); const ovCanvas = ovLayer.canvas; // where mouse cursor renders const ovCtx = ovLayer.ctx; const debugCanvas = debugLayer.canvas; // where mouse cursor renders const debugCtx = debugLayer.ctx; /* WIP: Most cursors shouldn't need a zoomable canvas */ /** @type {HTMLCanvasElement} */ const uiCanvas = document.getElementById("layer-overlay"); // where mouse cursor renders uiCanvas.width = uiCanvas.clientWidth; uiCanvas.height = uiCanvas.clientHeight; const uiCtx = uiCanvas.getContext("2d"); debugLayer.hide(); // Hidden by default layers.registerCollection("mask", {name: "Mask Layers", requiresActive: true}); // Where CSS and javascript magic happens to make the canvas viewport work /** * Ended up using a CSS transforms approach due to more flexibility on transformations * and capability to automagically translate input coordinates to layer space. */ mouse.registerContext( "world", (evn, ctx) => { // Fix because in chrome layerX and layerY simply doesnt work /** @type {HTMLDivElement} */ const target = evn.target; // Get element bounding rect const bb = imageCollection.element.getBoundingClientRect(); // Get element width/height (css, cause I don't trust client sizes in chrome anymore) const w = imageCollection.size.w; const h = imageCollection.size.h; // Get cursor position const x = evn.clientX; const y = evn.clientY; // Map to layer space const layerX = ((x - bb.left) / bb.width) * w; const layerY = ((y - bb.top) / bb.height) * h; // ctx.coords.prev.x = ctx.coords.pos.x; ctx.coords.prev.y = ctx.coords.pos.y; ctx.coords.pos.x = layerX; ctx.coords.pos.y = layerY; }, {target: imageCollection.inputElement} ); /** * The global viewport object (may be modularized in the future). All * coordinates given are of the center of the viewport * * cx and cy are the viewport's world coordinates, scaled to zoom level. * _x and _y are actual coordinates in the DOM space * * The transform() function does some transforms and writes them to the * provided element. */ const viewport = { get cx() { return this._x * this.zoom; }, set cx(v) { return (this._x = v / this.zoom); }, _x: 0, get cy() { return this._y * this.zoom; }, set cy(v) { return (this._y = v / this.zoom); }, _y: 0, zoom: 1, rotation: 0, get w() { return (window.innerWidth * 1) / this.zoom; }, get h() { return (window.innerHeight * 1) / this.zoom; }, viewToCanvas(x, y) { return {x, y}; }, canvasToView(x, y) { return { x: window.innerWidth * ((x - this.cx) / this.w) + window.innerWidth / 2, y: window.innerHeight * ((y - this.cy) / this.h) + window.innerHeight / 2, }; }, /** * Apply transformation * * @param {HTMLElement} el Element to apply CSS transform to */ transform(el) { el.style.transformOrigin = `${this.cx}px ${this.cy}px`; el.style.transform = `scale(${this.zoom}) translate(${-( this._x - this.w / 2 )}px, ${-(this._y - this.h / 2)}px)`; }, }; viewport.cx = imageCollection.size.w / 2; viewport.cy = imageCollection.size.h / 2; let worldInit = null; viewport.transform(imageCollection.element); mouse.listen.window.onwheel.on((evn) => { if (evn.evn.ctrlKey) { evn.evn.preventDefault(); const pcx = viewport.cx; const pcy = viewport.cy; if (evn.delta < 0) { viewport.zoom *= 1 + Math.abs(evn.delta * 0.0002); } else { viewport.zoom *= 1 - Math.abs(evn.delta * 0.0002); } viewport.cx = pcx; viewport.cy = pcy; viewport.transform(imageCollection.element); if (debug) { debugCtx.clearRect(0, 0, debugCanvas.width, debugCanvas.height); debugCtx.fillStyle = "#F0F"; debugCtx.beginPath(); debugCtx.arc(viewport.cx, viewport.cy, 5, 0, Math.PI * 2); debugCtx.fill(); } } }); mouse.listen.window.btn.middle.onpaintstart.on((evn) => { worldInit = {x: viewport.cx, y: viewport.cy}; }); mouse.listen.window.btn.middle.onpaint.on((evn) => { if (worldInit) { viewport.cx = worldInit.x + (evn.ix - evn.x) / viewport.zoom; viewport.cy = worldInit.y + (evn.iy - evn.y) / viewport.zoom; // Limits viewport.cx = Math.max(Math.min(viewport.cx, imageCollection.size.w), 0); viewport.cy = Math.max(Math.min(viewport.cy, imageCollection.size.h), 0); // Draw Viewport location } viewport.transform(imageCollection.element); if (debug) { debugCtx.clearRect(0, 0, debugCanvas.width, debugCanvas.height); debugCtx.fillStyle = "#F0F"; debugCtx.beginPath(); debugCtx.arc(viewport.cx, viewport.cy, 5, 0, Math.PI * 2); debugCtx.fill(); } }); mouse.listen.window.btn.middle.onpaintend.on((evn) => { worldInit = null; }); window.addEventListener("resize", () => { viewport.transform(imageCollection.element); uiCanvas.width = uiCanvas.clientWidth; uiCanvas.height = uiCanvas.clientHeight; });