/* ======================================================================== The 2022 r/place Atlas An atlas of Reddit's 2022 r/place, with information to each artwork of the canvas provided by the community. Copyright (c) 2017 Roland Rytz Copyright (c) 2022 Place Atlas contributors Licensed under the GNU Affero General Public License Version 3 https://place-atlas.stefanocoding.me/license.txt ======================================================================== */ const innerContainer = document.getElementById("innerContainer") const container = document.getElementById("container") const canvas = document.getElementById("highlightCanvas") const canvasImage = document.getElementById('image') const context = canvas.getContext("2d") canvas.width = canvasSize.x canvas.height = canvasSize.y canvasImage.width = canvasSize.x canvasImage.height = canvasSize.y let zoom = 1 if (window.devicePixelRatio) { zoom = 1 / window.devicePixelRatio } const maxZoom = 128 const minZoom = 0.1 let zoomOrigin = [0, 0] let scaleZoomOrigin = [0, 0] let dragging = false let lastPosition = [0, 0] const viewportSize = [0, 0] function applyView() { //console.log(zoomOrigin, scaleZoomOrigin) //console.log(scaleZoomOrigin[0]) scaleZoomOrigin[0] = Math.max(-1000, Math.min(1000, scaleZoomOrigin[0])) scaleZoomOrigin[1] = Math.max(-1000, Math.min(1000, scaleZoomOrigin[1])) zoomOrigin = [scaleZoomOrigin[0] * zoom, scaleZoomOrigin[1] * zoom] innerContainer.style.height = (~~(zoom * canvasSize.x)) + "px" innerContainer.style.width = (~~(zoom * canvasSize.y)) + "px" innerContainer.style.left = ~~(container.clientWidth / 2 - innerContainer.clientWidth / 2 + zoomOrigin[0] + container.offsetLeft) + "px" innerContainer.style.top = ~~(container.clientHeight / 2 - innerContainer.clientHeight / 2 + zoomOrigin[1] + container.offsetTop) + "px" } let atlas = null window.atlas = atlas let atlasAll = null window.atlasAll = atlasAll if (document.location.host !== prodDomain) document.body.dataset.dev = "" init() async function init() { // For Reviewing Reddit Changes //let resp = await fetch("../tools/temp-atlas.json") const resp = await fetch("./atlas.json") atlas = await resp.json() atlas.sort(function (a, b) { if (a.center[1] < b.center[1]) { return -1 } if (a.center[1] > b.center[1]) { return 1 } // a must be equal to b return 0 }) atlasAll = updateAtlasAll(atlas) let mode = "view" const args = window.location.search const params = new URLSearchParams(args) if (args) { mode = params.get("mode") if (!mode) { mode = "view" } // Backwards compatibility for old links using "search" id arg if (params.has('id') && params.get('mode') !== 'draw') { const id = params.get('id') params.delete('id') const newLocation = new URL(window.location) newLocation.hash = id newLocation.search = params window.history.replaceState({}, '', newLocation) } } const hash = window.location.hash.substring(1) const [, period] = hash.split('/') if (period) { const [, targetPeriod, targetVariation] = parsePeriod(period) await updateTime(targetPeriod, targetVariation) } else { await updateTime(currentPeriod, currentVariation) } //console.log(document.documentElement.clientWidth, document.documentElement.clientHeight) zoomOrigin = [0, 0] applyView() let initialPinchDistance = 0 let initialPinchZoom = 0 let initialPinchZoomOrigin = [0, 0] let desiredZoom let zoomAnimationFrame document.body.dataset.mode = mode initGlobal() if (mode !== "draw") initViewGlobal() if (mode === "draw") { initDraw() } else if (mode === "about") { window.location = "./about.html" } else if (mode === "overlap") { if (initOverlap) { initOverlap() } } else if (mode.startsWith("diff")) { try { const liveResp = await fetch(`https://${prodDomain}/atlas.json`) let liveJson = await liveResp.json() liveJson = updateAtlasAll(liveJson) const liveAtlasReduced = liveJson.reduce(function (a, c) { a[c.id] = c return a }, {}) // Mark added/edited entries atlasAll = atlasAll.map(function (entry) { if (liveAtlasReduced[entry.id] === undefined) { entry.diff = "add" } else if (JSON.stringify(entry) !== JSON.stringify(liveAtlasReduced[entry.id])) { entry.diff = "edit" } return entry }) // Mark removed entries const atlasReduced = atlasAll.reduce(function (a, c) { a[c.id] = c return a }, {}) const removedEntries = liveJson.filter(entry => atlasReduced[entry.id] === undefined ).map(entry => { entry.diff = "delete" return entry }) atlasAll.push(...removedEntries) if (mode.includes("only")) { atlasAll = atlasAll.filter(function (entry) { return typeof entry.diff === "string" }) } } catch (error) { console.warn("Diff mode failed to load, reverting to normal view.", error) } finally { await updateTime() if (initOverlap && mode.includes("overlap")) { initOverlap() } else { initView() } } } else if (mode === "explore") { initExplore() } else { initView() } document.getElementById("loading").classList.add("d-none") document.getElementById("zoomInButton").addEventListener("click", function () { /*if(zoomAnimationFrame){ window.cancelAnimationFrame(zoomAnimationFrame) }*/ const x = container.clientWidth / 2 const y = container.clientHeight / 2 initialPinchZoomOrigin = [ scaleZoomOrigin[0], scaleZoomOrigin[1] ] initialPinchZoom = zoom lastPosition = [x, y] zoom = zoom * 2 zoom = Math.max(minZoom, Math.min(maxZoom, zoom)) applyZoom(x, y, zoom) }) document.getElementById("zoomOutButton").addEventListener("click", function () { /*if(zoomAnimationFrame){ window.cancelAnimationFrame(zoomAnimationFrame) }*/ const x = container.clientWidth / 2 const y = container.clientHeight / 2 initialPinchZoomOrigin = [ scaleZoomOrigin[0], scaleZoomOrigin[1] ] initialPinchZoom = zoom lastPosition = [x, y] zoom /= 2 zoom = Math.max(minZoom, Math.min(maxZoom, zoom)) applyZoom(x, y, zoom) }) document.getElementById("zoomResetButton").addEventListener("click", function () { zoom = 1 zoomOrigin = [0, 0] scaleZoomOrigin = [0, 0] updateLines() applyView() }) container.addEventListener("dblclick", function (e) { /*if(zoomAnimationFrame){ window.cancelAnimationFrame(zoomAnimationFrame) }*/ const x = e.clientX - container.offsetLeft const y = e.clientY - container.offsetTop initialPinchZoomOrigin = [ scaleZoomOrigin[0], scaleZoomOrigin[1] ] initialPinchZoom = zoom lastPosition = [x, y] if (e.ctrlKey) zoom /= 2 else zoom *= 2 zoom = Math.max(minZoom, Math.min(maxZoom, zoom)) applyZoom(x, y, zoom) e.preventDefault() }) container.addEventListener("wheel", function (e) { /*if(zoomAnimationFrame){ window.cancelAnimationFrame(zoomAnimationFrame) }*/ const x = e.clientX - container.offsetLeft const y = e.clientY - container.offsetTop initialPinchZoomOrigin = [ scaleZoomOrigin[0], scaleZoomOrigin[1] ] initialPinchZoom = zoom lastPosition = [x, y] // Check if we are zooming by pixels // https://developer.mozilla.org/en-US/docs/Web/API/WheelEvent/deltaMode if (e.deltaMode === 0) { // Scale the pixel delta by the current zoom factor // We want to zoom faster when closer, and slower when further // This creates a smoother experience zoom -= e.deltaY * (0.001 * zoom) } else { if (e.deltaY > 0) { zoom = zoom / 2 } else if (e.deltaY < 0) { zoom = zoom * 2 } } zoom = Math.max(minZoom, Math.min(maxZoom, zoom)) applyZoom(x, y, zoom) }, { passive: true }) /*function setDesiredZoom(x, y, target){ zoom = (zoom*2 + target)/3 //console.log(zoom) if(Math.abs(1 - zoom/target) <= 0.01){ zoom = target } applyZoom(x, y, zoom) if(zoom != target){ zoomAnimationFrame = window.requestAnimationFrame(function(){ setDesiredZoom(x, y, target) }) } }*/ container.addEventListener("mousedown", function (e) { mousedown(e.clientX, e.clientY) e.preventDefault() }) container.addEventListener("touchstart", function (e) { if (e.touches.length === 2) { e.preventDefault() } touchstart(e) }, { passive: true }) function mousedown(x, y) { lastPosition = [x, y] dragging = true } function touchstart(e) { if (e.touches.length === 1) { mousedown(e.touches[0].clientX, e.touches[0].clientY) } else if (e.touches.length === 2) { initialPinchDistance = Math.sqrt( Math.pow(e.touches[0].clientX - e.touches[1].clientX, 2) + Math.pow(e.touches[0].clientY - e.touches[1].clientY, 2) ) initialPinchZoom = zoom initialPinchZoomOrigin = [ scaleZoomOrigin[0], scaleZoomOrigin[1] ] mousedown( (e.touches[0].clientX + e.touches[1].clientX) / 2, (e.touches[0].clientY + e.touches[1].clientY) / 2 ) } } window.addEventListener("mousemove", function (e) { updateLines() mousemove(e.clientX, e.clientY) if (dragging) { e.preventDefault() } }) window.addEventListener("touchmove", function (e) { if (e.touches.length === 2 || e.scale > 1) { e.preventDefault() } touchmove(e) }, { passive: false } ) function mousemove(x, y) { if (dragging) { container.style.cursor = "move" const deltaX = x - lastPosition[0] const deltaY = y - lastPosition[1] lastPosition = [x, y] zoomOrigin[0] += deltaX zoomOrigin[1] += deltaY scaleZoomOrigin[0] += deltaX / zoom scaleZoomOrigin[1] += deltaY / zoom previousZoomOrigin = [zoomOrigin[0], zoomOrigin[1]] previousScaleZoomOrigin = [scaleZoomOrigin[0], scaleZoomOrigin[1]] updateLines() applyView() } } function touchmove(e) { updateLines() if (e.touches.length === 1) { mousemove(e.touches[0].clientX, e.touches[0].clientY) } else if (e.touches.length === 2) { const newPinchDistance = Math.sqrt( Math.pow(e.touches[0].clientX - e.touches[1].clientX, 2) + Math.pow(e.touches[0].clientY - e.touches[1].clientY, 2) ) zoom = initialPinchZoom * newPinchDistance / initialPinchDistance const x = (e.touches[0].clientX + e.touches[1].clientX) / 2 - container.offsetLeft const y = (e.touches[0].clientY + e.touches[1].clientY) / 2 - container.offsetTop applyZoom(x, y, zoom) } } function applyZoom(x, y, zoom) { const deltaX = x - lastPosition[0] const deltaY = y - lastPosition[1] const pinchTranslateX = (x - container.clientWidth / 2 - deltaX) const pinchTranslateY = (y - container.clientHeight / 2 - deltaY) scaleZoomOrigin[0] = initialPinchZoomOrigin[0] + deltaX / zoom + pinchTranslateX / zoom - pinchTranslateX / initialPinchZoom scaleZoomOrigin[1] = initialPinchZoomOrigin[1] + deltaY / zoom + pinchTranslateY / zoom - pinchTranslateY / initialPinchZoom zoomOrigin[0] = scaleZoomOrigin[0] * zoom zoomOrigin[1] = scaleZoomOrigin[1] * zoom applyView() updateLines() } window.addEventListener("mouseup", function (e) { if (hovered.length > 0) { container.style.cursor = "pointer" } else if (drawing === true) { container.style.cursor = "crosshair" } else { container.style.cursor = "default" } if (dragging) { e.preventDefault() } mouseup(e.clientX, e.clientY) }) window.addEventListener("touchend", touchend) function mouseup(x, y) { if (dragging) { dragging = false } } function touchend(e) { if (e.touches.length === 0) { mouseup() } else if (e.touches.length === 1) { initialPinchZoom = zoom lastPosition = [e.touches[0].clientX, e.touches[0].clientY] } } window.addEventListener("resize", function () { //console.log(document.documentElement.clientWidth, document.documentElement.clientHeight) applyView() }) document.body.dataset.initDone = '' } function updateAtlasAll(atlas = atlasAll) { for (const atlasIndex in atlas) { const currentLinks = atlas[atlasIndex].links atlas[atlasIndex].links = { website: [], subreddit: [], discord: [], wiki: [], ...currentLinks } const currentPath = atlas[atlasIndex].path const currentCenter = atlas[atlasIndex].center for (const key in currentPath) { currentPath[key] = currentPath[key].map(point => point.map(int => int + 0.5)) } for (const key in currentCenter) { currentCenter[key] = currentCenter[key].map(int => int + 0.5) } atlas[atlasIndex].path = currentPath atlas[atlasIndex].center = currentCenter } return atlas }