// deno-fmt-ignore-file // deno-lint-ignore-file // This code was bundled using `deno bundle` and it's not recommended to edit it manually const axisAlignedContains = (aa1, aa2)=>{ return aa1.x < aa2.x && aa1.y < aa2.y && aa1.x + aa1.w > aa2.x + aa2.w && aa1.y + aa1.h > aa2.y + aa2.h; }; const Constants = { TWO_PI: Math.PI * 2 }; class Vector { x; y; z; constructor(x = 0, y = 0, z = 0){ if (typeof x === "number") { this.x = x; this.y = y; this.z = z; } else { this.x = x.x; this.y = x.y || y; this.z = x.z || z; } } set(v, y, z) { if (arguments.length === 1 && typeof v !== "number") { this.set(v.x || v[0] || 0, v.y || v[1] || 0, v.z || v[2] || 0); } else { this.x = v; this.y = y || 0; this.z = z || 0; } } get() { return new Vector(this.x, this.y, this.z); } mag() { const x = this.x, y = this.y, z = this.z; return Math.sqrt(x * x + y * y + z * z); } magSq() { const x = this.x, y = this.y, z = this.z; return x * x + y * y + z * z; } setMag(v_or_len, len) { if (len === undefined) { len = v_or_len; this.normalize(); this.mult(len); } else { const v = v_or_len; v.normalize(); v.mult(len); return v; } } add(v, y, z) { if (arguments.length === 1 && typeof v !== "number") { this.x += v.x; this.y += v.y; this.z += v.z; } else if (arguments.length === 2) { this.x += v; this.y += y ?? 0; } else { this.x += v; this.y += y ?? 0; this.z += z ?? 0; } return this; } sub(v, y, z) { if (arguments.length === 1 && typeof v !== "number") { this.x -= v.x; this.y -= v.y; this.z -= v.z; } else if (arguments.length === 2) { this.x -= v; this.y -= y ?? 0; } else { this.x -= v; this.y -= y ?? 0; this.z -= z ?? 0; } return this; } mult(v) { if (typeof v === "number") { this.x *= v; this.y *= v; this.z *= v; } else { this.x *= v.x; this.y *= v.y; this.z *= v.z; } return this; } div(v) { if (typeof v === "number") { this.x /= v; this.y /= v; this.z /= v; } else { this.x /= v.x; this.y /= v.y; this.z /= v.z; } return this; } rotate(angle) { const prev_x = this.x; const c = Math.cos(angle); const s = Math.sin(angle); this.x = c * this.x - s * this.y; this.y = s * prev_x + c * this.y; return this; } dist(v) { const dx = this.x - v.x, dy = this.y - v.y, dz = this.z - v.z; return Math.sqrt(dx * dx + dy * dy + dz * dz); } dot(v, y, z) { if (arguments.length === 1 && typeof v !== "number") { return this.x * v.x + this.y * v.y + this.z * v.z; } return this.x * v + this.y * y + this.z * z; } cross(v) { const x = this.x, y = this.y, z = this.z; return new Vector(y * v.z - v.y * z, z * v.x - v.z * x, x * v.y - v.x * y); } lerp(v_or_x, amt_or_y, z, amt) { const lerp_val = (start, stop, amt)=>{ return start + (stop - start) * amt; }; let x, y; if (arguments.length === 2 && typeof v_or_x !== "number") { amt = amt_or_y; x = v_or_x.x; y = v_or_x.y; z = v_or_x.z; } else { x = v_or_x; y = amt_or_y; } this.x = lerp_val(this.x, x, amt); this.y = lerp_val(this.y, y, amt); this.z = lerp_val(this.z, z, amt); return this; } normalize() { const m = this.mag(); if (m > 0) { this.div(m); } return this; } limit(high) { if (this.mag() > high) { this.normalize(); this.mult(high); } return this; } heading() { return -Math.atan2(-this.y, this.x); } heading2D() { return this.heading(); } toString() { return "[" + this.x + ", " + this.y + ", " + this.z + "]"; } array() { return [ this.x, this.y, this.z ]; } copy() { return new Vector(this.x, this.y, this.z); } drawDot(color) { if (!doodler) return; doodler.dot(this, { weight: 2, color: color || "red" }); } draw() { if (!doodler) return; const startPoint = new Vector(); doodler.dot(new Vector(), { weight: 4, color: "orange" }); doodler.line(startPoint, startPoint.copy().add(this.copy().normalize().mult(700))); doodler.line(startPoint, startPoint.copy().sub(this.copy().normalize().mult(700))); } normal(v) { const dx = v.x - this.x; const dy = v.y - this.y; return new Vector(-dy, dx); } static fromAngle(angle, v) { if (v === undefined || v === null) { v = new Vector(); } v.x = Math.cos(angle); v.y = Math.sin(angle); return v; } static random2D(v) { return Vector.fromAngle(Math.random() * (Math.PI * 2), v); } static random3D(v) { const angle = Math.random() * Constants.TWO_PI; const vz = Math.random() * 2 - 1; const mult = Math.sqrt(1 - vz * vz); const vx = mult * Math.cos(angle); const vy = mult * Math.sin(angle); if (v === undefined || v === null) { v = new Vector(vx, vy, vz); } else { v.set(vx, vy, vz); } return v; } static dist(v1, v2) { return v1.dist(v2); } static dot(v1, v2) { return v1.dot(v2); } static cross(v1, v2) { return v1.cross(v2); } static add(v1, v2) { return new Vector(v1.x + v2.x, v1.y + v2.y, v1.z + v2.z); } static sub(v1, v2) { return new Vector(v1.x - v2.x, v1.y - v2.y, v1.z - v2.z); } static angleBetween(v1, v2) { return Math.acos(v1.dot(v2) / Math.sqrt(v1.magSq() * v2.magSq())); } static lerp(v1, v2, amt) { const val = new Vector(v1.x, v1.y, v1.z); val.lerp(v2, amt); return val; } static vectorProjection(v1, v2) { v2 = v2.copy(); v2.normalize(); const sp = v1.dot(v2); v2.mult(sp); return v2; } static vectorProjectionAndDot(v1, v2) { v2 = v2.copy(); v2.normalize(); const sp = v1.dot(v2); v2.mult(sp); return [ v2, sp ]; } static hypot2(a, b) { return Vector.dot(Vector.sub(a, b), Vector.sub(a, b)); } } class OriginVector extends Vector { origin; get halfwayPoint() { return { x: this.mag() / 2 * Math.sin(this.heading()) + this.origin.x, y: this.mag() / 2 * Math.cos(this.heading()) + this.origin.y }; } constructor(origin, p){ super(p.x, p.y, p.z); this.origin = origin; } static from(origin, p) { const v = { x: p.x - origin.x, y: p.y - origin.y }; return new OriginVector(origin, v); } } const satCollision = (s1, s2)=>{ const shape1 = s1.points.map((p)=>new Vector(p).add(s1.center)); const shape2 = s2.points.map((p)=>new Vector(p).add(s2.center)); if (shape1.length < 2 || shape2.length < 2) { throw "Insufficient shape data in satCollision"; } new Vector(s1.center).sub(s2.center); for(let i = 0; i < shape1.length; i++){ const axis = shape1[i].normal(shape1.at(i - 1)); let [p1min, p1minDot] = Vector.vectorProjectionAndDot(shape1[0], axis); let [p1max, p1maxDot] = [ p1min, p1minDot ]; for (const point of shape1){ const [projected, dot] = Vector.vectorProjectionAndDot(point, axis); p1min = dot < p1minDot ? projected : p1min; p1minDot = Math.min(dot, p1minDot); p1max = dot > p1maxDot ? projected : p1max; p1maxDot = Math.max(dot, p1maxDot); } let [p2min, p2minDot] = Vector.vectorProjectionAndDot(shape2[0], axis); let [p2max, p2maxDot] = [ p2min, p2minDot ]; for (const point of shape2){ const [projected, dot] = Vector.vectorProjectionAndDot(point, axis); p2min = dot < p2minDot ? projected : p2min; p2minDot = Math.min(dot, p2minDot); p2max = dot > p2maxDot ? projected : p2max; p2maxDot = Math.max(dot, p2maxDot); } if (p1minDot - p2maxDot > 0 || p2minDot - p1maxDot > 0) { return false; } [ axis, p1max, p1min, p2max, p2min ]; } for(let i = 0; i < shape2.length; i++){ const axis = shape2[i].normal(shape2.at(i - 1)); let [p1min, p1minDot] = Vector.vectorProjectionAndDot(shape2[0], axis); let [p1max, p1maxDot] = [ p1min, p1minDot ]; for (const point of shape2){ const [projected, dot] = Vector.vectorProjectionAndDot(point, axis); p1min = dot < p1minDot ? projected : p1min; p1minDot = Math.min(dot, p1minDot); p1max = dot > p1maxDot ? projected : p1max; p1maxDot = Math.max(dot, p1maxDot); } let [p2min, p2minDot] = Vector.vectorProjectionAndDot(shape1[0], axis); let [p2max, p2maxDot] = [ p2min, p2minDot ]; for (const point of shape1){ const [projected, dot] = Vector.vectorProjectionAndDot(point, axis); p2min = dot < p2minDot ? projected : p2min; p2minDot = Math.min(dot, p2minDot); p2max = dot > p2maxDot ? projected : p2max; p2maxDot = Math.max(dot, p2maxDot); } if (p1minDot - p2maxDot > 0 || p2minDot - p1maxDot > 0) { return false; } [ axis, p1max, p1min, p2max, p2min ]; } return true; }; const easeInOut = (x)=>x < 0.5 ? 4 * x * x * x : 1 - Math.pow(-2 * x + 2, 3) / 2; const map = (value, x1, y1, x2, y2)=>(value - x1) * (y2 - x2) / (y1 - x1) + x2; class Doodler { ctx; _canvas; layers = []; bg; framerate; get width() { return this.ctx.canvas.width; } get height() { return this.ctx.canvas.height; } draggables = []; clickables = []; dragTarget; constructor({ width, height, canvas, bg, framerate }, postInit){ if (!canvas) { canvas = document.createElement("canvas"); document.body.append(canvas); } this.bg = bg || "white"; this.framerate = framerate || 60; canvas.width = width; canvas.height = height; this._canvas = canvas; const ctx = canvas.getContext("2d"); if (!ctx) throw "Unable to initialize Doodler: Canvas context not found"; this.ctx = ctx; postInit?.(this.ctx); } init() { this._canvas.addEventListener("mousedown", (e)=>this.onClick(e)); this._canvas.addEventListener("mouseup", (e)=>this.offClick(e)); this._canvas.addEventListener("mousemove", (e)=>this.onDrag(e)); this.startDrawLoop(); } timer; startDrawLoop() { this.timer = setInterval(()=>this.draw(), 1000 / this.framerate); } draw() { this.ctx.clearRect(0, 0, this.width, this.height); this.ctx.fillStyle = this.bg; this.ctx.fillRect(0, 0, this.width, this.height); for (const [i, l] of (this.layers || []).entries()){ l(this.ctx, i); this.drawDeferred(); } this.drawUI(); } createLayer(layer) { this.layers.push(layer); } deleteLayer(layer) { this.layers = this.layers.filter((l)=>l !== layer); } moveLayer(layer, index) { let temp = this.layers.filter((l)=>l !== layer); temp = [ ...temp.slice(0, index), layer, ...temp.slice(index) ]; this.layers = temp; } line(start, end, style) { this.setStyle(style); this.ctx.beginPath(); this.ctx.moveTo(start.x, start.y); this.ctx.lineTo(end.x, end.y); this.ctx.stroke(); } dot(at, style) { this.setStyle({ ...style, weight: 1 }); this.ctx.beginPath(); this.ctx.arc(at.x, at.y, style?.weight || 1, 0, Constants.TWO_PI); this.ctx.fill(); } drawCircle(at, radius, style) { this.setStyle(style); this.ctx.beginPath(); this.ctx.arc(at.x, at.y, radius, 0, Constants.TWO_PI); this.ctx.stroke(); } fillCircle(at, radius, style) { this.setStyle(style); this.ctx.beginPath(); this.ctx.arc(at.x, at.y, radius, 0, Constants.TWO_PI); this.ctx.fill(); } drawRect(at, width, height, style) { this.setStyle(style); this.ctx.strokeRect(at.x, at.y, width, height); } fillRect(at, width, height, style) { this.setStyle(style); this.ctx.fillRect(at.x, at.y, width, height); } drawSquare(at, size, style) { this.drawRect(at, size, size, style); } fillSquare(at, size, style) { this.fillRect(at, size, size, style); } drawCenteredRect(at, width, height, style) { this.ctx.save(); this.ctx.translate(-width / 2, -height / 2); this.drawRect(at, width, height, style); this.ctx.restore(); } fillCenteredRect(at, width, height, style) { this.ctx.save(); this.ctx.translate(-width / 2, -height / 2); this.fillRect(at, width, height, style); this.ctx.restore(); } drawCenteredSquare(at, size, style) { this.drawCenteredRect(at, size, size, style); } fillCenteredSquare(at, size, style) { this.fillCenteredRect(at, size, size, style); } drawBezier(a, b, c, d, style) { this.setStyle(style); this.ctx.beginPath(); this.ctx.moveTo(a.x, a.y); this.ctx.bezierCurveTo(b.x, b.y, c.x, c.y, d.x, d.y); this.ctx.stroke(); } drawRotated(origin, angle, cb) { this.ctx.save(); this.ctx.translate(origin.x, origin.y); this.ctx.rotate(angle); this.ctx.translate(-origin.x, -origin.y); cb(); this.ctx.restore(); } drawScaled(scale, cb) { this.ctx.save(); this.ctx.transform(scale, 0, 0, scale, 0, 0); cb(); this.ctx.restore(); } drawWithAlpha(alpha, cb) { this.ctx.save(); this.ctx.globalAlpha = Math.min(Math.max(alpha, 0), 1); cb(); this.ctx.restore(); } drawImage(img, at, w, h) { w && h ? this.ctx.drawImage(img, at.x, at.y, w, h) : this.ctx.drawImage(img, at.x, at.y); } drawImageWithOutline(img, at, w, h, style) { this.ctx.save(); const s = (typeof w === "number" || !w ? style?.weight : w.weight) || 1; this.ctx.shadowColor = (typeof w === "number" || !w ? style?.color || style?.fillColor : w.color || w.strokeColor) || "red"; this.ctx.shadowBlur = 0; for(let x = -s; x <= s; x++){ for(let y = -s; y <= s; y++){ this.ctx.shadowOffsetX = x; this.ctx.shadowOffsetY = y; typeof w === "number" && h ? this.ctx.drawImage(img, at.x, at.y, w, h) : this.ctx.drawImage(img, at.x, at.y); } } this.ctx.restore(); } drawSprite(img, spritePos, sWidth, sHeight, at, width, height) { this.ctx.drawImage(img, spritePos.x, spritePos.y, sWidth, sHeight, at.x, at.y, width, height); } deferredDrawings = []; deferDrawing(cb) { this.deferredDrawings.push(cb); } drawDeferred() { while(this.deferredDrawings.length){ this.deferredDrawings.pop()?.(); } } setStyle(style) { const ctx = this.ctx; ctx.fillStyle = style?.color || style?.fillColor || "black"; ctx.strokeStyle = style?.color || style?.strokeColor || "black"; ctx.lineWidth = style?.weight || 1; ctx.textAlign = style?.textAlign || ctx.textAlign; ctx.textBaseline = style?.textBaseline || ctx.textBaseline; } fillText(text, pos, maxWidth, style) { this.setStyle(style); this.ctx.fillText(text, pos.x, pos.y, maxWidth); } strokeText(text, pos, maxWidth, style) { this.setStyle(style); this.ctx.strokeText(text, pos.x, pos.y, maxWidth); } clearRect(at, width, height) { this.ctx.clearRect(at.x, at.y, width, height); } mouseX = 0; mouseY = 0; registerDraggable(point, radius, style) { if (this.draggables.find((d)=>d.point === point)) return; const id = this.addUIElement("circle", point, radius, { fillColor: "#5533ff50", strokeColor: "#5533ff50" }); this.draggables.push({ point, radius, style, id }); } unregisterDraggable(point) { for (const d of this.draggables){ if (d.point === point) { this.removeUIElement(d.id); } } this.draggables = this.draggables.filter((d)=>d.point !== point); } registerClickable(p1, p2, cb) { const top = Math.min(p1.y, p2.y); const left = Math.min(p1.x, p2.x); const bottom = Math.max(p1.y, p2.y); const right = Math.max(p1.x, p2.x); this.clickables.push({ onClick: cb, checkBound: (p)=>p.y >= top && p.x >= left && p.y <= bottom && p.x <= right }); } unregisterClickable(cb) { this.clickables = this.clickables.filter((c)=>c.onClick !== cb); } addDragEvents({ onDragEnd, onDragStart, onDrag, point }) { const d = this.draggables.find((d)=>d.point === point); if (d) { d.onDragEnd = onDragEnd; d.onDragStart = onDragStart; d.onDrag = onDrag; } } onClick(e) { const mouse = new Vector(this.mouseX, this.mouseY); for (const d of this.draggables){ if (d.point.dist(mouse) <= d.radius) { d.beingDragged = true; d.onDragStart?.call(null); this.dragTarget = d; } else d.beingDragged = false; } for (const c of this.clickables){ if (c.checkBound(mouse)) { c.onClick(); } } } offClick(e) { for (const d of this.draggables){ d.beingDragged = false; d.onDragEnd?.call(null); } this.dragTarget = undefined; } onDrag(e) { this._canvas.getBoundingClientRect(); this.mouseX = e.offsetX; this.mouseY = e.offsetY; for (const d of this.draggables.filter((d)=>d.beingDragged)){ d.point.add(e.movementX, e.movementY); d.onDrag && d.onDrag({ x: e.movementX, y: e.movementY }); } } uiElements = new Map(); uiDrawing = { rectangle: (...args)=>{ !args[3].noFill && this.fillRect(args[0], args[1], args[2], args[3]); !args[3].noStroke && this.drawRect(args[0], args[1], args[2], args[3]); }, square: (...args)=>{ !args[2].noFill && this.fillSquare(args[0], args[1], args[2]); !args[2].noStroke && this.drawSquare(args[0], args[1], args[2]); }, circle: (...args)=>{ !args[2].noFill && this.fillCircle(args[0], args[1], args[2]); !args[2].noStroke && this.drawCircle(args[0], args[1], args[2]); } }; drawUI() { for (const [shape, ...args] of this.uiElements.values()){ this.uiDrawing[shape].apply(null, args); } } addUIElement(shape, ...args) { const id = crypto.randomUUID(); for (const arg of args){ delete arg.color; } this.uiElements.set(id, [ shape, ...args ]); return id; } removeUIElement(id) { this.uiElements.delete(id); } } class ZoomableDoodler extends Doodler { scale = 1; dragging = false; origin = { x: 0, y: 0 }; mouse = { x: 0, y: 0 }; previousTouchLength; touchTimer; hasDoubleTapped = false; zooming = false; scaleAround = { x: 0, y: 0 }; maxScale = 4; constructor(options, postInit){ super(options, postInit); this._canvas.addEventListener("wheel", (e)=>{ this.scaleAtMouse(e.deltaY < 0 ? 1.1 : .9); if (this.scale === 1) { this.origin.x = 0; this.origin.y = 0; } }); this._canvas.addEventListener("dblclick", (e)=>{ e.preventDefault(); this.scale = 1; this.origin.x = 0; this.origin.y = 0; this.ctx.setTransform(1, 0, 0, 1, 0, 0); }); this._canvas.addEventListener("mousedown", (e)=>{ e.preventDefault(); this.dragging = true; }); this._canvas.addEventListener("mouseup", (e)=>{ e.preventDefault(); this.dragging = false; }); this._canvas.addEventListener("mouseleave", (_e)=>{ this.dragging = false; }); this._canvas.addEventListener("mousemove", (e)=>{ const prev = this.mouse; this.mouse = { x: e.offsetX, y: e.offsetY }; if (this.dragging && !this.dragTarget) this.drag(prev); }); this._canvas.addEventListener("touchstart", (e)=>{ e.preventDefault(); if (e.touches.length === 1) { const t1 = e.touches.item(0); if (t1) { this.mouse = this.getTouchOffset({ x: t1.clientX, y: t1.clientY }); } } else { clearTimeout(this.touchTimer); } }); this._canvas.addEventListener("touchend", (e)=>{ if (e.touches.length !== 2) { this.previousTouchLength = undefined; } switch(e.touches.length){ case 1: break; case 0: if (!this.zooming) { this.events.get("touchend")?.map((cb)=>cb(e)); } break; } this.dragging = e.touches.length === 1; clearTimeout(this.touchTimer); }); this._canvas.addEventListener("touchmove", (e)=>{ e.preventDefault(); if (e.touches.length === 2) { const t1 = e.touches.item(0); const t2 = e.touches.item(1); if (t1 && t2) { const vect = OriginVector.from(this.getTouchOffset({ x: t1.clientX, y: t1.clientY }), { x: t2.clientX, y: t2.clientY }); if (this.previousTouchLength) { const diff = this.previousTouchLength - vect.mag(); this.scaleAt(vect.halfwayPoint, diff < 0 ? 1.01 : .99); this.scaleAround = { ...vect.halfwayPoint }; } this.previousTouchLength = vect.mag(); } } if (e.touches.length === 1) { this.dragging === true; const t1 = e.touches.item(0); if (t1) { const prev = this.mouse; this.mouse = this.getTouchOffset({ x: t1.clientX, y: t1.clientY }); this.drag(prev); } } }); this._canvas.addEventListener("touchstart", (e)=>{ if (e.touches.length !== 1) return false; if (!this.hasDoubleTapped) { this.hasDoubleTapped = true; setTimeout(()=>this.hasDoubleTapped = false, 300); return false; } console.log(this.mouse); if (this.scale > 1) { this.frameCounter = map(this.scale, this.maxScale, 1, 0, 59); this.zoomDirection = -1; } else { this.frameCounter = 0; this.zoomDirection = 1; } if (this.zoomDirection > 0) { this.scaleAround = { ...this.mouse }; } this.events.get("doubletap")?.map((cb)=>cb(e)); }); } worldToScreen(x, y) { x = x * this.scale + this.origin.x; y = y * this.scale + this.origin.y; return { x, y }; } screenToWorld(x, y) { x = (x - this.origin.x) / this.scale; y = (y - this.origin.y) / this.scale; return { x, y }; } scaleAtMouse(scaleBy) { if (this.scale === this.maxScale && scaleBy > 1) return; this.scaleAt({ x: this.mouse.x, y: this.mouse.y }, scaleBy); } scaleAt(p, scaleBy) { this.scale = Math.min(Math.max(this.scale * scaleBy, 1), this.maxScale); this.origin.x = p.x - (p.x - this.origin.x) * scaleBy; this.origin.y = p.y - (p.y - this.origin.y) * scaleBy; this.constrainOrigin(); } moveOrigin(motion) { if (this.scale > 1) { this.origin.x += motion.x; this.origin.y += motion.y; this.constrainOrigin(); } } drag(prev) { if (this.scale > 1) { const xOffset = this.mouse.x - prev.x; const yOffset = this.mouse.y - prev.y; this.origin.x += xOffset; this.origin.y += yOffset; this.constrainOrigin(); } } constrainOrigin() { this.origin.x = Math.min(Math.max(this.origin.x, -this._canvas.width * this.scale + this._canvas.width), 0); this.origin.y = Math.min(Math.max(this.origin.y, -this._canvas.height * this.scale + this._canvas.height), 0); } draw() { this.ctx.setTransform(this.scale, 0, 0, this.scale, this.origin.x, this.origin.y); this.animateZoom(); this.ctx.fillStyle = this.bg; this.ctx.fillRect(0, 0, this.width / this.scale, this.height / this.scale); super.draw(); } getTouchOffset(p) { const { x, y } = this._canvas.getBoundingClientRect(); const offsetX = p.x - x; const offsetY = p.y - y; return { x: offsetX, y: offsetY }; } onDrag(e) { const d = { ...e, movementX: e.movementX / this.scale, movementY: e.movementY / this.scale }; super.onDrag(d); const { x, y } = this.screenToWorld(e.offsetX, e.offsetY); this.mouseX = x; this.mouseY = y; } zoomDirection = -1; frameCounter = 60; animateZoom() { if (this.frameCounter < 60) { const frame = easeInOut(map(this.frameCounter, 0, 59, 0, 1)); switch(this.zoomDirection){ case 1: { this.scale = map(frame, 0, 1, 1, this.maxScale); } break; case -1: { this.scale = map(frame, 0, 1, this.maxScale, 1); } break; } this.origin.x = this.scaleAround.x - this.scaleAround.x * this.scale; this.origin.y = this.scaleAround.y - this.scaleAround.y * this.scale; this.constrainOrigin(); this.frameCounter++; } } events = new Map(); registerEvent(eventName, cb) { let events = this.events.get(eventName); if (!events) events = this.events.set(eventName, []).get(eventName); events.push(cb); } } const init = (opt, zoomable, postInit)=>{ if (window.doodler) { throw "Doodler has already been initialized in this window"; } window.doodler = zoomable ? new ZoomableDoodler(opt, postInit) : new Doodler(opt, postInit); window.doodler.init(); }; class Polygon { points; center; constructor(points){ this.points = points.map((p)=>new Vector(p)); this.center = this.calcCenter(); } draw(color) { for(let i = 0; i < this.points.length; i++){ const p1 = this.points[i]; const p2 = this.points.at(i - this.points.length + 1); doodler.line(p1.copy().add(this.center), p2.copy().add(this.center), { color }); } } calcCenter() { if (!this.points.length) return new Vector(); const center = new Vector(); for (const point of this.points){ center.add(point); } center.div(this.points.length); return center; } get circularHitbox() { let greatestDistance = 0; for (const p of this.points){ greatestDistance = Math.max(p.copy().add(this.center).dist(this.center), greatestDistance); } return { center: this.center.copy(), radius: greatestDistance }; } get aaHitbox() { let smallestX, biggestX, smallestY, biggestY; smallestX = smallestY = Infinity; biggestX = biggestY = -Infinity; for (const p of this.points){ const temp = p.copy().add(this.center); smallestX = Math.min(temp.x, smallestX); biggestX = Math.max(temp.x, biggestX); smallestY = Math.min(temp.y, smallestY); biggestY = Math.max(temp.y, biggestY); } return { x: smallestX, y: smallestY, w: biggestX - smallestX, h: biggestY - smallestY }; } static createPolygon(sides = 3, radius = 100) { sides = Math.round(sides); if (sides < 3) { throw "You need at least 3 sides for a polygon"; } const poly = new Polygon([]); const rotangle = Math.PI * 2 / sides; let angle = 0; for(let i = 0; i < sides; i++){ angle = i * rotangle + (Math.PI - rotangle) * 0.5; const pt = new Vector(Math.cos(angle) * radius, Math.sin(angle) * radius); poly.points.push(pt); } poly.center = poly.calcCenter(); return poly; } } init({ width: 2400, height: 1200, bg: "#333" }, true, (ctx)=>{ ctx.imageSmoothingEnabled = false; }); const img = new Image(); img.src = "./skeleton.png"; img.hidden; document.body.append(img); const p = new Vector(500, 500); const poly = new Polygon([ { x: -25, y: -25 }, { x: 25, y: -25 }, { x: 25, y: 25 }, { x: -25, y: 25 } ]); const poly2 = Polygon.createPolygon(5, 75); poly2.center = p.copy().add(100, 100); poly.center.add(p); doodler.createLayer((c)=>{ for(let i = 0; i < c.canvas.width; i += 50){ for(let j = 0; j < c.canvas.height; j += 50){ doodler.drawSquare(new Vector(i, j), 50, { color: "#00000010" }); } } const color = satCollision(poly, poly2) ? "red" : "aqua"; poly.draw(color); poly2.draw(color); const [gamepad] = navigator.getGamepads(); if (gamepad) { const leftX = gamepad.axes[0]; const leftY = gamepad.axes[1]; const rightX = gamepad.axes[2]; const rightY = gamepad.axes[3]; if (axisAlignedContains(poly2.aaHitbox, poly.aaHitbox)) { poly.center.add(new Vector(Math.min(Math.max(rightX - 0.05, 0), rightX + 0.05), Math.min(Math.max(rightY - 0.05, 0), rightY + 0.05)).mult(10)); poly2.center.add(new Vector(Math.min(Math.max(leftX - 0.05, 0), leftX + 0.05), Math.min(Math.max(leftY - 0.05, 0), leftY + 0.05)).mult(10)); } poly.center.add(new Vector(Math.min(Math.max(leftX - 0.05, 0), leftX + 0.05), Math.min(Math.max(leftY - 0.05, 0), leftY + 0.05)).mult(10)); poly2.center.add(new Vector(Math.min(Math.max(rightX - 0.05, 0), rightX + 0.05), Math.min(Math.max(rightY - 0.05, 0), rightY + 0.05)).mult(10)); } });