euler-golf/css/styles.css

@@ -4,16 +4,24 @@ body {
   overflow: scroll;
   font-family: Lucida Console, Lucida Sans Typewriter, monaco,
     Bitstream Vera Sans Mono, monospace;
+  width: 100vw;
+  height: 100vh;
+  background: rgb(238, 174, 202);
+  background: radial-gradient(
+    circle,
+    rgba(238, 174, 202, 1) 0%,
+    rgba(148, 187, 233, 1) 100%
+  );
 }
 
-.canvas-holder canvas {
+.canvas {
   padding: 0;
   margin: auto;
   display: block;
-  height: 70vh;
-  width: auto;
-  max-width: 100%;
   border: 1px solid black;
+
+  width: 100vw;
+  height: 100vw;
 }
 
 .button {
@@ -22,3 +30,15 @@ body {
   padding: 5px;
   cursor: pointer;
 }
+
+.controls {
+  padding: 12px;
+  position: fixed;
+  bottom: 0;
+  right: 0;
+  background-color: rgba(255, 255, 255, 0.5);
+  border: 1px solid white;
+  border-radius: 8px;
+  margin-right: 6px;
+  margin-bottom: 6px;
+}

euler-golf/index.html

@@ -5,8 +5,10 @@
     <link rel="stylesheet" type="text/css" href="css/styles.css" />
   </head>
   <body>
-    <div class="canvas-holder">
-      <canvas id="canvas" width="1000" height="1000"></canvas>
+    <canvas id="canvas"></canvas>
+
+    <div class="controls">
+      <span id="iteration-count"></span>
     </div>
 
     <script src="js/cx.js"></script>

euler-golf/js/game.js

@@ -1,31 +1,23 @@
-const CANVAS_ID = "myCanvas";
 const DEFAULTS = {
-  rows: 15,
-  cols: 15,
-  grid_padding: 10,
+  max_rows: 80,
+  max_cols: 80,
+  min_gap: 40,
+  angle_multiplier: 0.0005,
 };
+const CANVAS = document.getElementById("canvas");
 
 let state = {
-  ...DEFAULTS,
-  canvas: document.getElementById("canvas"),
-  ctx: document.getElementById("canvas").getContext("2d"),
+  grid_padding: 10,
+  canvas: CANVAS,
+  ctx: CANVAS.getContext("2d"),
   last_render: 0,
-  changes: {
-    width: document.body.clientWidth,
-    height: document.body.clientHeight,
-  },
-};
-
-const rand_between = (min, max) =>
-  Math.floor(Math.random() * (max - min + 1)) + min;
-
-const rand_target = (cols, rows) => {
-  const res = new cx(rand_between(0, cols), rand_between(0, rows));
-  if (res.re % 2 || res.im % 2) return rand_target(cols, rows);
-
-  return res;
+  path: [new cx(0, 0), new cx(1, 0)],
+  angle: new cx(0, 0),
+  keys: {},
+  changes: {},
 };
 
+// Rendering
 CanvasRenderingContext2D.prototype.circle = function (x, y, r, color) {
   this.beginPath();
   this.arc(x, y, r, 0, Math.PI * 2);
@@ -35,22 +27,35 @@ CanvasRenderingContext2D.prototype.circle = function (x, y, r, color) {
 };
 
 CanvasRenderingContext2D.prototype.line = function (
-  { x: x1, y: y1 },
-  { x: x2, y: y2 },
+  { x_pos: x1, y_pos: y1 },
+  { x_pos: x2, y_pos: y2 },
   width,
   color,
   cap = "round"
 ) {
-  this.beginPath();
-  this.moveTo(x1, y1);
-  this.lineTo(x2, y2);
   this.lineWidth = width;
   this.strokeStyle = color;
   this.lineCap = cap;
+
+  this.beginPath();
+  this.moveTo(x1, y1);
+  this.lineTo(x2, y2);
   this.stroke();
   this.closePath();
 };
 
+CanvasRenderingContext2D.prototype.draw_cartesian_path = function (
+  grid_spec,
+  cartesian_path,
+  width = 2,
+  color = "#000"
+) {
+  const path = cartesian_path.map((coord) => grid_to_canvas(coord, grid_spec));
+  path.slice(1).forEach((coord, i) => {
+    this.line(path[i], coord, width, color);
+  });
+};
+
 CanvasRenderingContext2D.prototype.do_grid = function (
   rows,
   cols,
@@ -66,33 +71,92 @@ CanvasRenderingContext2D.prototype.do_grid = function (
 CanvasRenderingContext2D.prototype.cartesian_grid = function (
   rows,
   cols,
-  width,
-  height,
-  grid_padding,
-  circle_spec_at_coords = (x, y) => ({ radius: 5, color: "#000" })
+  grid_spec,
+  circle_spec_at_coords = (_x, _y) => ({ radius: 5, color: "#000" })
 ) {
-  const center = { x: Math.floor(cols / 2), y: Math.floor(rows / 2) };
-
-  const dx = (width - 2 * grid_padding) / cols;
-  const dy = (height - 2 * grid_padding) / rows;
-
-  const start_x = grid_padding + dx / 2;
-  const start_y = grid_padding + dy / 2;
-
   this.do_grid(rows, cols, (ctx, x, y) => {
-    const x_pos = x * dx + start_x;
-    const y_pos = y * dy + start_y;
+    const { x_pos, y_pos } = grid_to_canvas({ x, y }, grid_spec);
     const { radius, color } = circle_spec_at_coords(x, y);
 
     ctx.circle(x_pos, y_pos, radius, color);
   });
 };
 
-const render = ({ canvas, ctx, rows, cols, grid_padding }) => {
-  const { width, height } = canvas;
+// Utilities
+const move = (prev, curr, c) => cx.add(prev, cx.mult(c, cx.sub(curr, prev)));
 
+const rand_between = (min, max) =>
+  Math.floor(Math.random() * (max - min + 1)) + min;
+
+const rand_target = (cols, rows) => {
+  const res = new cx(rand_between(0, cols), rand_between(0, rows));
+  if (res.re % 2 || res.im % 2) return rand_target(cols, rows);
+
+  return res;
+};
+
+const calculate_grid_spec = ({ rows, cols, width, height, grid_padding }) => {
+  const dx = (width - 2 * grid_padding) / cols;
+  const dy = (height - 2 * grid_padding) / rows;
+
+  return {
+    dx,
+    dy,
+    start_x: grid_padding + dx / 2,
+    start_y: grid_padding + dy / 2,
+  };
+};
+
+const grid_to_canvas = ({ x, y }, { dx, dy, start_x, start_y }) => ({
+  x_pos: x * dx + start_x,
+  y_pos: y * dy + start_y,
+});
+
+const complex_to_grid = (c, rows, cols) => {
+  const { re, im } = c;
+  return {
+    x: re + Math.floor(cols / 2),
+    y: Math.floor(rows / 2) - im,
+  };
+};
+
+// Game loop
+const handle_input = (state, dt) => {
+  if (state.keys.ArrowLeft) {
+    state.angle.im += DEFAULTS.angle_multiplier * dt;
+  } else if (state.keys.ArrowRight) {
+    state.angle.im -= DEFAULTS.angle_multiplier * dt;
+  }
+
+  if (state.angle.im <= -1 || state.angle.im >= 1) {
+    state.angle.im = state.angle.im <= -1 ? -1 : 1;
+    state.path.push(move(state.path.at(-2), state.path.at(-1), state.angle));
+    state.angle = new cx(0, 0);
+  }
+};
+
+const render = ({ width, height, ctx, rows, cols } = state) => {
   ctx.clearRect(0, 0, width, height);
-  ctx.cartesian_grid(rows, cols, width, height, grid_padding, (x, y) => {
+  ctx.fillStyle = "rgba(255, 255, 255, 0)";
+  ctx.fillRect(0, 0, width, height);
+
+  const grid_spec = calculate_grid_spec(state);
+
+  const curr = state.path.at(-1);
+  const prev = state.path.at(-2);
+
+  const v_diff = cx.sub(curr, prev);
+  const theta = (state.angle.im * Math.PI) / 2;
+
+  const angle_re = Math.cos(theta) * v_diff.re - Math.sin(theta) * v_diff.im;
+  const angle_im = Math.sin(theta) * v_diff.re + Math.cos(theta) * v_diff.im;
+
+  ctx.draw_cartesian_path(grid_spec, [
+    ...state.path.map((c) => complex_to_grid(c, rows, cols)),
+    complex_to_grid(cx.add(new cx(angle_re, angle_im), prev), rows, cols),
+  ]);
+
+  ctx.cartesian_grid(rows, cols, grid_spec, (x, y) => {
     if (x == Math.floor(cols / 2) && y == Math.floor(rows / 2)) {
       return {
         radius: 7,
@@ -101,7 +165,7 @@ const render = ({ canvas, ctx, rows, cols, grid_padding }) => {
     } else {
       return {
         radius: 3,
-        color: "#000",
+        color: `rgb(${255 * (x / cols)}, 100, 100)`, // todo: animate with last_render
       };
     }
   });
@@ -110,14 +174,48 @@ const render = ({ canvas, ctx, rows, cols, grid_padding }) => {
 const loop = (now) => {
   const dt = now - state.last_render;
   state.changes.last_render = now;
+
   if (Object.keys(state.changes).length > 0) {
+    if (state.changes.width || state.changes.height) {
+      state.changes.rows = Math.min(
+        DEFAULTS.max_rows,
+        state.changes.height / DEFAULTS.min_gap
+      );
+      state.changes.cols = Math.min(
+        DEFAULTS.max_cols,
+        state.changes.width / DEFAULTS.min_gap
+      );
+    }
+
     state = { ...state, ...state.changes };
     state.changes = {};
-
-    render(state);
   }
 
+  handle_input(state, dt);
+  render(state);
   requestAnimationFrame(loop);
 };
 
+// DOM
+const on_resize = () => {
+  CANVAS.width = document.body.clientWidth;
+  CANVAS.height = document.body.clientHeight;
+  state.changes.width = CANVAS.width;
+  state.changes.height = CANVAS.height;
+};
+
+const on_keyup = (e) => {
+  delete state.keys[e.key];
+};
+
+const on_keydown = (e) => {
+  state.keys[e.key] = true;
+};
+
+window.addEventListener("resize", on_resize);
+window.addEventListener("keydown", on_keydown);
+window.addEventListener("keyup", on_keyup);
+
+// main
+on_resize();
 requestAnimationFrame(loop);

euler-golf/js/sol.js

@@ -5,8 +5,6 @@ const DIRECTION = {
   1: new cx(0, -1),
 };
 
-const move = (prev, curr, c) => cx.add(prev, cx.mult(c, cx.sub(curr, prev)));
-
 const construct_moves = (curr, prev) =>
   Object.keys(DIRECTION).map((x) => move(curr, prev, DIRECTION[x]));