miti.sh/html/images/space.svg

<?xml version="1.0" encoding="UTF-8" standalone="no"?>
<!-- <svg viewBox="-200 -150 400 300" version="1.1" xmlns="http://www.w3.org/2000/svg"> -->
<svg viewBox="-10 -10 60 60" version="1.1" xmlns="http://www.w3.org/2000/svg">
  <style>
    foreignObject {
      font-size: 4pt;
      font-family: courier;
      color: white;
    }

    #info {
      position: absolute;
      right: 0px;
      padding: 1px;
    }

    #pointer {
      position: absolute;
      right: 0px;
      bottom: 0px;
      padding: 1px;
    }

    rect#bg {
      fill: gray;
    }

    .ship circle {
      fill: white;
    }

    circle.bullet {
      fill: yellow;
    }

    #triangles polygon {
      fill-opacity: 0.2;
      stroke-width: 1px;
      fill: none;
      stroke: none;
    }

    #triangles polygon.clockwise-orientation {
      fill: white;
      stroke: red;
    }

    #triangles polygon.obtuse {
      stroke: orangered;
      stroke-dasharray: 5 10;
    }

    #triangles polygon.anti-clockwise {
      stroke: orange;
      stroke-dasharray: 1 5;
    }

    #edges line {
      stroke: gold;
    }

    #legs {
      display: none;
    }

    .wall {
      opacity: 0.5;
    }

    .wall.inverse {
      fill: gray;
    }

    line:not(#cannon) {
      stroke: green;
      stroke-width: 0.5px;
    }

    line#velocity-indicator {
      stroke: blue;
      /* stroke-width: 1px; */
    }

    line#acceleration-indicator {
      stroke: maroon;
      /* stroke-width: 0.5px; */
    }

    #lines circle {
      fill: purple;
      opacity: 0.2;
      r: 5px;
    }
  </style>

  <rect id="bg" x="-200" y="-150" width="400" height="300"/>
  <!-- <polygon class="wall inverse" points="-180,-40 -170,-120 40,-130 170,-120 180,40 170,130 -40,130 -170,120" /> -->
  <!-- <polygon class="wall inverse" points="-160,-40 -170,-120 40,-110 170,-120 160,40 170,130 -40,110 -170,120" /> -->

  <g class="ship">
    <line id="cannon" x1="0" y1="0" x2="0" y2="8" stroke="black"/>
    <circle id="body" cx="0" cy="0" r="5"/>
    <line id="velocity-indicator" x1="0" y1="0" x2="0" y2="0"/>
    <line id="acceleration-indicator" x1="0" y1="0" x2="0" y2="0"/>
    <g id="legs">
      <path d="M 3 2 l 2 2 v 2 m -2 0 h 4" stroke="black" fill="none" />
      <path d="M -3 2 l -2 2 v 2 m -2 0 h 4" stroke="black" fill="none" />
    </g>
  </g>

  <!-- <polygon class="wall" points="20,20 30,20 40,40 20,40" /> -->
  <!-- <polygon class="wall" points="20,20 20,10 30,10 30,20 40,40 10,40" /> -->
  <polygon class="wall" points="-10,20 10,10 10,20" />
  <!-- <polygon class="wall" points="20,20 40,20 40,40 20,40" /> -->
  <!-- <polygon class="wall" points="10,10 20,10 20,20 10,20" /> -->
  <!-- <polygon class="wall" points="20,-50 -50,-50 -60,-70 -50,-100 80,-100 80,-90 -20,-90 -20,-60 40,-60 40,40 20,40" /> -->
  <!-- <polygon class="wall" points="-10,-30 -10,-40 30,-50 60,-30 80,0 150,0 150,10 60,50 -10,40 -20,20 20,20 20,-20" /> -->
  <!-- <g> -->
  <!--   <polygon class="wall" points="-130,-80 -40,-70 -70,-10" /> -->
  <!--   <polygon class="wall" points="50,70 90,-10 130,70" /> -->
  <!-- </g> -->
  <!-- <g> -->
  <!--   <polygon class="wall" points="-130,-80 -40,-70 -70,-10" /> -->
  <!--   <polygon class="wall" points="50,70 90,-10 130,70" /> -->
  <!--   <polygon class="wall" points="-130,100 -70,50 -40,110" /> -->
  <!-- </g> -->
  <!-- <g> -->
  <!--   <polygon class="wall" points="-5,-25 -20,-40 20,-40 5,-25" /> -->
  <!--   <polygon class="wall" points="-30,20 -20,30 -20,50 -50,20" /> -->
  <!--   <polygon class="wall" points="20,30 30,20 50,20 20,50" /> -->
  <!-- </g> -->

  <g id="triangles"></g>
  <g id="edges"></g>
  <g id="lines"></g>
  <g id="bullets"></g>

  <foreignObject x="-200" y="-150" width="100%" height="100%">
    <div id="info" xmlns="http://www.w3.org/1999/xhtml">
      <span id="time" xmlns="http://www.w3.org/1999/xhtml">0</span> s
      <span id="fps" xmlns="http://www.w3.org/1999/xhtml">-</span> fps
    </div>
    <ul xmlns="http://www.w3.org/1999/xhtml">
      <li xmlns="http://www.w3.org/1999/xhtml">bounce from collisions</li>
      <li xmlns="http://www.w3.org/1999/xhtml">gravity</li>
      <li xmlns="http://www.w3.org/1999/xhtml">fall off screen after crash</li>
      <li xmlns="http://www.w3.org/1999/xhtml">make ship a helicopter</li>
      <li xmlns="http://www.w3.org/1999/xhtml">use paths for walls</li>
      <li xmlns="http://www.w3.org/1999/xhtml">no walls</li>
      <li xmlns="http://www.w3.org/1999/xhtml">stop reading data from elements</li>
      <li xmlns="http://www.w3.org/1999/xhtml">ability to land</li>
      <li xmlns="http://www.w3.org/1999/xhtml">limited fuel</li>
      <li xmlns="http://www.w3.org/1999/xhtml">additional cannon firing modes</li>
      <li xmlns="http://www.w3.org/1999/xhtml">only light up the collided wall</li>
      <li xmlns="http://www.w3.org/1999/xhtml">keep ship position at 0,0 actual</li>
      <li xmlns="http://www.w3.org/1999/xhtml">only start on movement not just any keypress</li>
    </ul>
    <pre id="debug" xmlns="http://www.w3.org/1999/xhtml"></pre>
    <div id="pointer" xmlns="http://www.w3.org/1999/xhtml">
      x: <span class="x" xmlns="http://www.w3.org/1999/xhtml">-</span>,
      y: <span class="y" xmlns="http://www.w3.org/1999/xhtml">-</span>
    </div>
  </foreignObject>

  <script type="text/javascript">//<![CDATA[
    const namespaceURIsvg = 'http://www.w3.org/2000/svg';
    const degsRegex = /(-?\d*\.{0,1}\d+)deg/g;
    const regex = /(-?\d*\.{0,1}\d+)px/g;
    const bullets = [];
    const halfPi = Math.PI / 2;
    const maxSpeed = 100;

    const drawCollisionLines = false;

    let previous, zero, frameCount = 0;
    // let position = [0, 0]; // meters
    // let velocity = [0, 0]; // meters per second
    // let acceleration = [0, 0]; // meters per second per second
    let position; // meters
    let velocity; // meters per second
    let acceleration; // meters per second per second
    let rotate = 0;

    let mult = 20;

    const s = {
      position: { x: 0, y: 0 },
      // velocity: { x: 0.25 * mult, y: 1 * mult },
      velocity: { x: 0, y: 1 * mult },
      acceleration: { x: 0, y: 0 },
      rotate: 0,
      collision: null,
      isLanded: false,
      node: null
    };

    let friction = 0;
    let rotationSpeed = 0.25;
    let started = false;
    let restart = false;
    let isReadingKeys = true;

    const svg = document.querySelector('svg');
    const bg = svg.querySelector('#bg');
    const fps = document.querySelector("#fps");
    const time = document.querySelector("#time");
    const debug = document.querySelector("#debug");
    const ship = document.querySelector(".ship");
    s.node = ship;
    const gun = ship.querySelector('#cannon');
    const shipBody = ship.querySelector("#body");
    // const walls = document.querySelectorAll('.wall:not(.inverse)');
    const walls = document.querySelectorAll('.wall');
    const bulletsContainer = document.querySelector("#bullets");
    const triangleContainer = document.querySelector('#triangles');
    const linesContainer = document.querySelector("#lines");
    const edgeContainer = document.querySelector('#edges');
    const velIndic = document.querySelector('#velocity-indicator');
    const acclIndic = document.querySelector('#acceleration-indicator');

    const bulletPt = svg.createSVGPoint();
    const cornerPt = svg.createSVGPoint();

    const allWallCorners = [...walls].map(wall => {
      const cs = wall.getAttribute('points').split(' ').map(coords => {
        const [x, y] = coords.split(',');
        return [+x, +y];
      });

      return wall.classList.contains("inverse") ? cs.reverse() : cs;
    });

    const edgeszz = [...walls].map(wall => {
      const es = wall.getAttribute('points').split(' ').map((coords, i, arr) => {
        const [x, y] = coords.split(',');
        // return [+x, +y];
        // const [xb, yb] = arr[i]++;
        const [xb, yb] = arr[(i + 1) % arr.length].split(',');
        // console.log("coords", { xa: +x, ya: +y, xb: +xb, yb: +yb, inverse: wall.classList.contains("inverse") });

        // return `${+x},${+y} ${+xb},${+yb}`;
        return {
          xa: +x,
          ya: +y,
          xb: +xb,
          yb: +yb,
        };
      });

      // return wall.classList.contains("inverse") ? cs.reverse() : cs;
      return { node: wall, edges: es };
    });


    // console.log("edgeszz", edgeszz);
    // console.log("wall corners", allWallCorners);

    const allEdgePts = allWallCorners.map(w =>
      w.map((pt, i, arr) => [pt, arr[(i + 1) % arr.length]])
    );

    // console.log("all edge points", allEdgePts);

    let allStartingEdges;
    init(allEdgePts);

    function distance(x1, y1, x2, y2) {
      return Math.sqrt((x2 - x1) ** 2 + (y2 - y1) ** 2);
    }

    function drawAllEdges(walls) {
      walls.forEach(edges => drawEdges(edges));
    }

    function drawEdges(pts) {
      let edges = pts.map(e => e.join(' '));

      edges.forEach(e => {
        const [x, y] = e.split(' ');
        const [x1, y1] = x.split(',');
        const [x2, y2] = y.split(',');
        const el = document.createElementNS(namespaceURIsvg, 'line');

        el.setAttribute('x1', x1);
        el.setAttribute('y1', y1);
        el.setAttribute('x2', x2);
        el.setAttribute('y2', y2);
        edgeContainer.appendChild(el)
      });
    }

    function drawTriangles(container, walls, [positionX, positionY]) {
      walls.forEach(pts =>
        pts.forEach(([[x1, y1], [x2, y2]]) => {
          const el = document.createElementNS(namespaceURIsvg, 'polygon');
          const attr = `${x1},${y1} ${x2},${y2} ${positionX},${positionY}`
          el.setAttribute('points', attr);
          container.appendChild(el);
        })
      );
    }

    // Triangle has a clockwise orientation
    function isClockwise([xa, ya], [xb, yb], [xc, yc]) {
      // https://en.wikipedia.org/wiki/Curve_orientation#Practical_considerations
      // Determinant for a convex polygon
      const det = (+xb - +xa) * (+yc - +ya) - (+xc - +xa) * (+yb - +ya);
      return det < 0;
    }

    function isAcute([xa, ya], [xb, yb], [xc, yc]) {
      const da = distance(xa, ya, xc, yc);
      const db = distance(xb, yb, xc, yc);
      const dc = distance(xa, ya, xb, yb);

      // https://en.wikipedia.org/wiki/Law_of_cosines
      // Solve for angles alpha and beta with inverse cosine (arccosine)
      const alpha = Math.acos((db ** 2 + dc ** 2 - da ** 2) / (2 * db * dc));
      const beta = Math.acos((da ** 2 + dc ** 2 - db ** 2) / (2 * da * dc));
      return alpha < halfPi && beta < halfPi;
    }

    function findEdges(verts, [xc, yc]) {
      return verts.reduce((acc, [a, b]) => {
        const isFound = [isClockwise, isAcute].every(c => c(a, b, [xc, yc]));
        // return isFound ? [...acc, `${xa},${ya} ${xb},${yb}`] : acc;
        return isFound ? [...acc, `${a[0]},${a[1]} ${b[0]},${b[1]}`] : acc;
      }, []);
    }

    // function findAllEdges(verts, [xc, yc] = [0, 0]) {
    function findAllEdges(verts, [xc, yc]) {
      return verts.reduce((acc, points) => {
        points.forEach(([a, b]) => {
          const isFound = [isClockwise, isAcute].every(c => c(a, b, [xc, yc]));
          if (isFound) acc.push(`${a[0]},${a[1]} ${b[0]},${b[1]}`);
        });

        return acc;
      }, []);
    }

    function getCollisionEdges(walls, [xc, yc]) {
      return walls.reduce((acc, wall) => {
        return [...acc, ...wall.edges.filter(({ xa, ya, xb, yb }) => {
          return [isClockwise, isAcute].every(c => c([xa, ya], [xb, yb], [xc, yc]));
        }).map(e => { return { edge: e, node: wall }; })];
      }, []);
    }

    function updateTriangles([positionX, positionY]) {
      const delim = ' ';
      const className = 'clockwise-orientation';

      if (!triangleContainer.childElementCount)
        drawTriangles(triangleContainer, allEdgePts, position);

      const triangles = triangleContainer.querySelectorAll('polygon');

      triangles.forEach(t => {
        const attr = t.getAttribute('points').split(delim);
        const [a, b,] = attr.map(t => t.split(','));

        const cw = isClockwise(a, b, [positionX, positionY]);
        const acute = isAcute(a, b, [positionX, positionY]);
        const pos = `${positionX},${positionY}`;

        if (pos !== attr.pop()) {
          attr.push(pos);
          t.setAttribute('points', attr.join(delim));
        }

        t.classList[cw && acute ? "add" : "remove"](className);
        t.classList[cw && !acute ? "add" : "remove"]("obtuse");
        t.classList[!cw ? "add" : "remove"]("anti-clockwise");
      });
    }

    function wrapPos(positionX, positionY) {
      let x, y;

      if (positionY > 150) y = positionY - 300;
      else if (positionY < -150) y = positionY + 300;
      else y = positionY;

      if (positionX > 200) x = positionX - 400;
      else if (positionX < -200) x = positionX + 400;
      else x = positionX;

      return [x, y];
    }

    function fireBullet(x, y, velocity) {
      const speed = 200; // meters per second
      const degrees = getRotate(gun);
      const radians = degrees * Math.PI / 180; // toFixed(15)?
      const vx = -Math.sin(radians);
      const vy = Math.cos(radians);
      const bulletTimeout = 5000; // miliseconds
      const cannonLength = 8;

      const el = document.createElementNS(namespaceURIsvg, 'circle');
      el.classList.add('bullet');
      el.setAttribute('r', 1);
      el.setAttribute('cx', 0);
      el.setAttribute('cy', 0);

      const bullet = {
        x: x + vx * cannonLength,
        y: y + vy * cannonLength,
        vx: vx * speed + velocity[0],
        vy: vy * speed + velocity[1],
        time: bulletTimeout,
        node: bulletsContainer.appendChild(el)
      }

      bullets.push(bullet);
    }

    function getTranslate(el) {
      let x, y;

      if (el.style.transform.length === 0) {
        x = 0;
        y = 0;
      } else {
        [[, x], [, y] = ["0px", "0"]] = [...el.style.transform.matchAll(regex)];
      }

      return [+x, +y];
    }

    function getRotate(el) {
      let [[, degrees] = ["0deg", "0"]] = [...el.style.transform.matchAll(degsRegex)];
      return +degrees;
    }

    function updateBullets(elapsed) {
      const deleteCount = 1;

      [...bullets].forEach((bullet, index) => {
        bullet.time -= elapsed;
        const x = bullet.x + 0.001 * elapsed * bullet.vx;
        const y = bullet.y + 0.001 * elapsed * bullet.vy;
        bulletPt.x = x;
        bulletPt.y = y;

        if (bullet.time > 0 && ![...walls].some(w => w.isPointInFill(bulletPt))) {
          [bullet.x, bullet.y] = wrapPos(x, y);
          bullet.node.style.transform = `translate(${bullet.x}px, ${bullet.y}px)`;
        } else {
          bullet.node.remove();
          bullets.splice(index, deleteCount);
        }
      });
    }

    function perpIntxn(baseSlope, xa, ya, xc, yc) {
      const altitudeSlope = 1 / -baseSlope;
      const isx = (-altitudeSlope * xc + yc + baseSlope * xa - ya) / (baseSlope - altitudeSlope);
      const isy = altitudeSlope * isx - altitudeSlope * xc + yc;
      return { x: isx, y: isy };
    }

    function drawLine(xa, ya, xb, yb) {
      const el = document.createElementNS(namespaceURIsvg, 'line');
      el.setAttribute('x1', xa);
      el.setAttribute('y1', ya);
      el.setAttribute('x2', xb);
      el.setAttribute('y2', yb);
      svg.appendChild(el);
      return el;
    }

    function slope({ xa, ya, xb, yb }) {
      // const [[xa, ya], [xb, yb]] = edge.split(' ').map(n => n.split(',').map(n => +n));
      return (yb - ya) / (xb - xa);
    }

    function isLandable(edge) {
      // console.log("edge", edge, "slope", slope(edge));
      return Object.is(slope(edge), +0);
    }

    function detectEdgeCollision([xc, yc], { xa, ya, xb, yb }) {
      const shipRadius = 5;

      const da = distance(xa, ya, xc, yc);
      const db = distance(xb, yb, xc, yc);
      // TODO: calculate this one ahead of time
      const dc = distance(xa, ya, xb, yb);

      // https://en.wikipedia.org/wiki/Altitude_(triangle)#Altitude_in_terms_of_the_sides
      // Find altitude of side c (the base)
      const s = (1 / 2) * (da + db + dc);
      const hc = (2 / dc) * Math.sqrt(s * (s - da) * (s - db) * (s - dc));

      return +hc.toFixed(2) <= shipRadius;
    }

    function detectCornerCollision([xc, yc], [x, y]) {
      cornerPt.x = x - xc;
      cornerPt.y = y - yc;

      return shipBody.isPointInFill(cornerPt);
    }

    function detectCollisions(position, walls, edges, z) {
      // console.log("edges to test for collision", edgesToCheck);
      // console.log("walls", walls);
      // this returns the wall with the corner, no the corner
      let actualCorner;
      const corner = walls.find(wall => {
        // console.log("checking corners on wall", wall);
        const c = wall.find(corner => detectCornerCollision(position, corner));
        // console.log("corner", c);
        actualCorner = c;
        // console.log("c", c);
        return c;
      });

      // console.log("actual corner", actualCorner);
      // if (corner) console.log("corner collision", corner);

      const edge = z.find(({ edge: pts, node: ee }) => {
        const str = `${pts.xa},${pts.ya} ${pts.xb},${pts.yb}`;
          return detectEdgeCollision(position, pts);
        }
      );


      // if (found) console.log("found", found.node, found.node.node.classList.contains("inverse"));

      // return [
      //   [walls, wall => wall.some(corner => detectCornerCollision(position, corner))],
      //   [edges, edge => {
      //     const coll = detectEdgeCollision(position, edge);
      //     if (coll) console.log(edge, slope(edge) == -0);
      //     return coll;
      //   }]
      // ].some(([t, f]) => t.some(f))

      return edge || actualCorner;
    }

    function lineIntxnPt({ x1, y1, x2, y2 }, {x1: x3, y1: y3, x2: x4, y2: y4 }) {
      // https://en.wikipedia.org/wiki/Line%E2%80%93line_intersection#Given_two_points_on_each_line
      const x = ((x1*y2-y1*x2)*(x3-x4)-(x1-x2)*(x3*y4-y3*x4))/((x1-x2)*(y3-y4)-(y1-y2)*(x3-x4));
      const y = ((x1*y2-y1*x2)*(y3-y4)-(y1-y2)*(x3*y4-y3*x4))/((x1-x2)*(y3-y4)-(y1-y2)*(x3-x4));
      // const y = (() * () - () * ()) / (() * () - () * ());
      return { x: x, y: y };
    }

    function updateShip(s, elapsed, collE) {
      const degrees = getRotate(gun);
      if (rotate > 0) gun.style.transform = `rotate(${(+degrees + rotationSpeed * elapsed) % 360}deg)`;
      else if (rotate < 0) gun.style.transform = `rotate(${(+degrees - rotationSpeed * elapsed) % 360}deg)`;

      // let [velocityX, velocityY] = restart ? [0, 0] : velocity;
      let { x: velocityX, y: velocityY } = s.velocity;
      // let [accelerationX, accelerationY] = restart ? [0, 0] : acceleration;
      let { x: accelerationX, y: accelerationY } = s.acceleration;

      // if (velocityX > 0) accelerationX += -friction;
      // else if (velocityX < 0) accelerationX += friction;
      //
      // if (velocityY > 0) accelerationY += -friction;
      // else if (velocityY < 0) accelerationY += friction;

      velocityX = velocityX > 0 && velocityX + accelerationX < 0 ? 0 : velocityX + accelerationX;
      velocityY = velocityY > 0 && velocityY + accelerationY < 0 ? 0 : velocityY + accelerationY;

      s.velocity = { x: velocityX, y: velocityY };
      // if (velocity[0] > maxSpeed) velocity[0] = maxSpeed;
      // else if (velocity[0] < -maxSpeed) velocity[0] = -maxSpeed
      //
      // if (velocity[1] > maxSpeed) velocity[1] = maxSpeed;
      // else if (velocity[1] < -maxSpeed) velocity[1] = -maxSpeed
      velIndic.setAttribute('x2', s.velocity.x);
      velIndic.setAttribute('y2', s.velocity.y);
      acclIndic.setAttribute('x2', s.acceleration.x);
      acclIndic.setAttribute('y2', s.acceleration.y);

      const changeX = 0.001 * elapsed * velocityX;
      const changeY = 0.001 * elapsed * velocityY;
      // console.log("ship position", s.position);

      let { x, y } = s.position;
      console.log("current position", x, y);
      let position = [positionX, positionY] = restart ? [0, 0] : wrapPos(changeX + x, changeY + y);
      let [xc, yc] = position;
      // const collE = getCollisionEdges(edgeszz, position);
      // console.log("collision edges", collE);
      s.collision = detectCollisions(position, allWallCorners, findAllEdges(allEdgePts, position), collE);

      console.log("future position", xc, yc);

      // if (s.collision) {
        // find final position of ship

        // const baseSlope = slope(s.collision.edge);
        // const { xa, ya, xb, yb } = s.collision.edge;
        // const baseSlope = slope(s.collision.edge);

        // console.log("slope of base", baseSlope);

        // if (baseSlope === -Infinity) {
          // (↤) Vertical, normal left
          // console.log("foot", xa + shipRadius, yc);
        // } else if (baseSlope === Infinity) {
          // (↦) Vertical, normal right

          // console.log("foot", xa - shipRadius, yc);
        // } else if (Object.is(baseSlope, 0)) {
          // (↥) Horizontal, normal up
          // const el = document.createElementNS(namespaceURIsvg, 'line');
          // el.setAttribute('x1', xc);
          // el.setAttribute('y1', ya);
          // el.setAttribute('x2', xc);
          // el.setAttribute('y2', yc);
          // this point should be the position of the ship to make it
          // adjacent to the collision edge without overlapping it
          // console.log(el.getPointAtLength(5));
          // const collPt = el.getPointAtLength(5);
          // drawLine(xc, ya, collPt.x, collPt.y);

          // console.log("foot", xc, ya - shipRadius);
        // } else if (Object.is(baseSlope, -0)) {
          // (↧) Horizontal, normal down

          // console.log("foot", xc, ya + shipRadius);
        // } else {
        //   const foot = perpIntxn(baseSlope, xa, ya, xc, yc);
          // console.log("foot", foot);
          // drawLine(foot.x, foot.y, xc, yc)
          // const el = document.createElementNS(namespaceURIsvg, 'line');
          // el.setAttribute('x1', foot.x);
          // el.setAttribute('y1', foot.y);
          // el.setAttribute('x2', xc);
          // el.setAttribute('y2', yc);
          // this point should be the position of the ship to make it
          // adjacent to the collision edge without overlapping it
          // console.log(el.getPointAtLength(5));
        //   const collPt = el.getPointAtLength(5);
        //   drawLine(foot.x, foot.y, collPt.x, collPt.y);
        // }
      // }

      // if (s.collision && !isLandable(s.collision.edge)) {
      //   console.log("a", "position", position, s.position);
      //   s.velocity = { x: 0, y: 0 };
      // } else if (s.collision) {
      //   console.log("b", s.position, s.collision);
      //
      //   s.velocity = { x: 0, y: 0 };
      //   s.position.y = Math.trunc(s.collision.edge.ya - 5);
      //   s.isLanded = true;
      //   s.node.style.transform = `translate(${s.position.x}px, ${s.position.y}px)`;
        // console.log("ship landed", s, "edge", s.collision.edge.ya);
      if (s.collision) {
        // console.log("a");
        const baseSlope = slope(s.collision.edge);
        const { xa, ya, xb, yb } = s.collision.edge;
        const baseLine = { x1: xa, y1: ya, x2: xb, y2: yb };

        const velocityLine = {
          x1: s.position.x,
          y1: s.position.y,
          x2: s.position.x + s.velocity.x,
          y2: s.position.y + s.velocity.y
        };

        const baseNrmlIntxn = perpIntxn(baseSlope, xa, ya, s.position.x, s.position.y);
        const baseVelIntxn = lineIntxnPt(baseLine, velocityLine);
        const baseSegLength = distance(baseNrmlIntxn.x, baseNrmlIntxn.y , baseVelIntxn.x, baseVelIntxn.y);
        const normalSegLength = distance(baseNrmlIntxn.x, baseNrmlIntxn.y, s.position.x, s.position.y);
        const theta = Math.atan(normalSegLength / baseSegLength);
        const h = 5 / Math.sin(theta);
        const cl = document.createElementNS(namespaceURIsvg, 'line');
        cl.setAttribute('x1', baseVelIntxn.x);
        cl.setAttribute('y1', baseVelIntxn.y);
        cl.setAttribute('x2', s.position.x);
        cl.setAttribute('y2', s.position.y);
        console.log("h", h);

        const clPt = cl.getPointAtLength(h);
        console.log("clPt", clPt);

        const normalSlope = 1 / -baseSlope;
        const radAngle = Math.atan(normalSlope);
        const foot = perpIntxn(baseSlope, xa, ya, xc, yc);
        const el = document.createElementNS(namespaceURIsvg, 'line');
        el.setAttribute('x1', foot.x);
        el.setAttribute('y1', foot.y);
        el.setAttribute('x2', s.position.x);
        el.setAttribute('y2', s.position.y);

        // console.log("future position", el, el.getTotalLength());


        el.setAttribute('x2', xc);
        el.setAttribute('y2', yc);

        // console.log("current position", el, el.getTotalLength());


        // console.log("foot", foot, "line", el, "length", el.getTotalLength());
        svg.appendChild(el);
        // console.log(el, el.getTotalLength());
        // const collPt = el.getPointAtLength(5);
        // let l = drawLine(foot.x, foot.y, foot.x - posX, foot.y - posY);
        // let l = drawLine(foot.x, foot.y, foot.x - posY, foot.y - posX);
        // s.position = { x: foot.x - posY, y: foot.y - posX };
        // s.position = { x: collPt.x, y: collPt.y };
        // console.log("ship position", s.position);
        // console.log("line length", l.getTotalLength(), l, foot.x - posY, foot.y - posX);

        s.velocity = { x: 0, y: 0 };
        // s.position = { x: xc, y: yc }
        s.position = { x: clPt.x, y: clPt.y }
        console.log("s.position", s.position);
        s.node.style.transform = `translate(${s.position.x}px, ${s.position.y}px)`;
      } else {
        // console.log("c");

        s.position = { x: positionX, y: positionY }
        s.node.style.transform = `translate(${positionX}px, ${positionY}px)`;
      }
    }

    function updateEdges(position) {
      const collisionEdges = findAllEdges(allEdgePts, position);

      [...edgeContainer.children].forEach(l => {
        const x1 = l.getAttribute('x1');
        const y1 = l.getAttribute('y1');
        const x2 = l.getAttribute('x2');
        const y2 = l.getAttribute('y2');
        const edge = `${x1},${y1} ${x2},${y2}`;

        if (collisionEdges.includes(edge))
          if ([
            edgeContainer.childElementCount <= allStartingEdges.length,
            !allStartingEdges.includes(edge)
          ].some(c => c))
            l.remove();
      });
    }

    function updateLines(elapsed, edges, currentPos, futurePos) {
      // console.log("velocity", s.velocity);
      // console.log("collision", s.collision);
      // console.log("edges", edges);

      // const edgeIds = [...linesContainer.children].map(c => c.id);
      const edgeIds = edges.map(({edge: { xa, ya, xb, yb }}) => `normal${xa}-${ya}-${xb}-${yb}`);
      const nodes = [...linesContainer.children];

      // console.log("EDGE IDS", edgeIds, "NODES", nodes);

      nodes.forEach(n => {
        if (!edgeIds.includes(n.id)) n.remove();
      });

      console.log("update lines", currentPos, futurePos);

      edges.forEach(({ edge: { xa, ya, xb, yb }}) => {
        const id = `normal${xa}-${ya}-${xb}-${yb}`;
        const g = linesContainer.querySelector(`#${id}`) || document.createElementNS(namespaceURIsvg, 'g');
        const el = g.querySelector('line') || document.createElementNS(namespaceURIsvg, 'line');
        const star = g.querySelector('circle') || document.createElementNS(namespaceURIsvg, 'circle');
        star.setAttribute('r', 1);
        const baseSlope = slope({ xa, ya, xb, yb });
        const intx = perpIntxn(baseSlope, xa, ya, s.position.x, s.position.y);
        const baseNrmlIntxn = perpIntxn(baseSlope, xa, ya, s.position.x, s.position.y);

        // make sure this is using the calculated future velocity, not the current
        const baseLine = { x1: xa, y1: ya, x2: xb, y2: yb };

        const velocityLine = {
          x1: s.position.x,
          y1: s.position.y,
          x2: s.position.x + s.velocity.x,
          y2: s.position.y + s.velocity.y
        };

        const baseVelIntxn = lineIntxnPt(baseLine, velocityLine);
        const baseSegLength = distance(baseNrmlIntxn.x, baseNrmlIntxn.y , baseVelIntxn.x, baseVelIntxn.y);
        const normalSegLength = distance(baseNrmlIntxn.x, baseNrmlIntxn.y, s.position.x, s.position.y);
        console.log("distance", baseSegLength);
        const theta = Math.atan(normalSegLength / baseSegLength);
        console.log("theta", theta);
        // const contactPos = { x: Math.acos() }
        const h = 5 / Math.sin(theta);
        console.log("h", 5 / Math.sin(theta));
        console.log("cos(theta)", Math.cos(theta));
        el.setAttribute('x2', intx.x);
        el.setAttribute('y2', intx.y);
        el.setAttribute('x1', currentPos.x);
        el.setAttribute('y1', currentPos.y);

        console.log("normal line length at current position", el.getTotalLength());
        el.setAttribute('x1', futurePos.x);
        el.setAttribute('y1', futurePos.y);

        console.log("normal line length at future position", el.getTotalLength());

        el.setAttribute('x1', s.position.x);
        el.setAttribute('y1', s.position.y);

        star.setAttribute('cx', s.position.x);
        star.setAttribute('cy', baseVelIntxn.y - h);

        el.setAttribute('id', `normal${xa}-${ya}-${xb}-${yb}`);
        g.appendChild(el);
        g.appendChild(star);
        linesContainer.appendChild(g);

        const cl = document.createElementNS(namespaceURIsvg, 'line');
        cl.setAttribute('x1', baseVelIntxn.x);
        cl.setAttribute('y1', baseVelIntxn.y);
        cl.setAttribute('x2', s.position.x);
        cl.setAttribute('y2', s.position.y);
        const clPt = cl.getPointAtLength(h);
        console.log(clPt);

        star.setAttribute('cx', clPt.x);
        star.setAttribute('cy', clPt.y);


        return g;
      });
    }

    function init(edgePts) {
      started = false;
      position = [0, 0]; // meters
      velocity = [0, 0]; // meters per second
      acceleration = [0, 0]; // meters per second per second
      rotate = 0;

      [...edgeContainer.children].forEach(c => c.remove());;
      // drawAllEdges(edgePts);
      allStartingEdges = findAllEdges(edgePts, position);
      ship.style.transform = "";
      walls.forEach(w => w.setAttribute('fill', 'black'));
      // bg.style.fill = 'black';
      time.innerText = "0";
    }

    function firstFrame(timestamp) {
      zero = timestamp;
      zeroForTimer = timestamp;
      previous = timestamp;
      animate(timestamp);
    }

    function animate(timestamp) {
      console.log("current timestamp", timestamp, "previous", previous);

      const elapsed = timestamp - previous;
      const delta = timestamp - zero;
      let degrees = getRotate(gun);
      previous = timestamp;

      if (delta >= 1000) {
        fps.innerText = frameCount;

        // debug.innerText = `velocity ${velocity}\n`
        //   + 'bullets\nx\ty\tvx\tvy\n'
        //   + bullets.map(b => {
        //     return `${b.x.toFixed(2)}\t${b.y.toFixed(2)}\t${b.vx.toFixed(2)}\t${b.vy.toFixed(2)}`;
        //   }).join("\n");

        zero = timestamp;
        frameCount = 0;
      } else {
        frameCount++;
      }


      // position = updateShip(s, elapsed);
      const collE = getCollisionEdges(edgeszz, position);

      const { x, y } = s.position;
      updateShip(s, elapsed, collE);
      // console.log("S POSITION", s.position);
      updateBullets(elapsed);
      // updateEdges(position);
      if (!s.collision) updateLines(elapsed, collE, {x, y}, s.position);
      if (drawCollisionLines) updateTriangles(position);

      // const collision = detectCollisions(position, allWallCorners, findAllEdges(allEdgePts, position), getCollisionEdges(edgeszz, position));

      // console.log("collision", collision && collision.hasOwnProperty("edge"));
      // console.log("landable?", isLandable(collision));

      // console.log("collision", s.collision);
      if (s.collision && !s.isLanded) {
        started = false;
        isReadingKeys = false;
        walls.forEach(w => w.setAttribute('fill', 'red'));
        // bg.style.fill = 'red';
      }

      if (restart) {
        started = false;
        restart = false;
        init(allEdgePts);
        time.innerText = 0;
      }

      // const finished = edgeContainer.childElementCount <= 0;
      // if (finished) started = false;

      if (started) {
        time.innerText = ((timestamp - zeroForTimer) * 0.001).toFixed(3);
        // requestAnimationFrame(t => animate(t));
        requestAnimationFrame(animate);
      }
    }

    let force = 1;
    let spacePressed = false;
    let restartPressed = false;
    let upPressed = false;
    let downPressed = false;
    let leftPressed = false;
    let rightPressed = false;
    let rotateCWPressed = false;
    let rotateCCWPressed = false;

    document.addEventListener("keydown", function(e) {
      if (!isReadingKeys) return;

      if (!started) {
        started = true;
        frameCount = 0;
        requestAnimationFrame(firstFrame);
      }

      switch (e.code) {
        case "Space":
          if (!spacePressed) {
            spacePressed = true;
            const [x, y] = getTranslate(ship);
            fireBullet(x, y, velocity);
          }
          break;
        case "KeyW":
        case "ArrowUp":
          if (!upPressed) {
            upPressed = true;
            s.acceleration.y += -force;
          }
          break;
        case "KeyS":
        case "ArrowDown":
          if (!downPressed) {
            downPressed = true;
            s.acceleration.y += force;
          }
          break;
        case "KeyA":
        case "ArrowLeft":
          if (!leftPressed) {
            leftPressed = true;
            s.acceleration.x += -force;
          }
          break;
        case "KeyD":
        case "ArrowRight":
          if (!rightPressed) {
            rightPressed = true;
            s.acceleration.x += force;
          }
          break;
        case "KeyQ":
        case "Comma":
          if (!rotateCCWPressed) {
            rotateCCWPressed = true;
            rotate += -1;
          }
          break;
        case "KeyE":
        case "Period":
          if (!rotateCWPressed) {
            rotateCWPressed = true;
            rotate += 1;
          }
          break;
        case "KeyP": // Pause
          started = !started;
          break;
      }
    });

    document.addEventListener("keyup", function(e) {
      switch (e.code) {
        case "Space":
          spacePressed = false;
          break;
        case "KeyR":
          isReadingKeys = true;
          !started ? init(allEdgePts) : restart = true;
          break;
        case "KeyW":
        case "ArrowUp":
          if (upPressed) {
            upPressed = false;
            s.acceleration.y -= -force;
          }
          break;
        case "KeyS":
        case "ArrowDown":
          if (downPressed) {
            downPressed = false;
            s.acceleration.y -= force;
          }
          break;
        case "KeyA":
        case "ArrowLeft":
          if (leftPressed) {
            leftPressed = false;
            s.acceleration.x -= -force;
          }
          break;
        case "KeyD":
        case "ArrowRight":
          if (rightPressed) {
            rightPressed = false;
            s.acceleration.x -= force;
          }
          break;
        case "KeyQ":
        case "Comma":
          if (rotateCCWPressed) {
            rotateCCWPressed = false;
            rotate -= -1;
          }
          break;
        case "KeyE":
        case "Period":
          if (rotateCWPressed) {
            rotateCWPressed = false;
            rotate -= 1;
          }
          break;
      }
    });

    const pointer = svg.querySelector('#pointer');
    const xp = pointer.querySelector('.x');
    const yp = pointer.querySelector('.y');
    const pointerPt = svg.createSVGPoint();

    svg.addEventListener("pointermove", function({ clientX, clientY }) {
      pointerPt.x = clientX;
      pointerPt.y = clientY;
      // https://www.sitepoint.com/how-to-translate-from-dom-to-svg-coordinates-and-back-again/
      const svgP = pointerPt.matrixTransform(svg.getScreenCTM().inverse());

      if (bg.isPointInFill(svgP)) {
        console.log(Math.trunc(svgP.x), Math.trunc(svgP.y));

        xp.innerText = Math.trunc(svgP.x);
        yp.innerText = Math.trunc(svgP.y);
      }
    });

  //]]></script>
</svg>