theread.me/js/tiling-shapes.js

(function() {
  var tilingTriangle = document.getElementById('tiling-triangle');
  var c = tilingTriangle.getContext('2d');
  
  function TriangleCanvas(id) {
    this.element = document.getElementById(id);
    this.context = this.element.getContext('2d');
  }

  function modifyColor(c, p) {
    var e = document.createElement('i');
    e.style.background = c;
    var r = getComputedStyle(e).backgroundColor.slice(4, -1).split(',').map(parseFloat);
    return 'rgb(' + [r[0] + p, r[1] + p, r[2] + p].join(',') + ')';
  }

  function dedup(list) {
    return list.reduce(function(newList, item) {
      if (!newList.some(function(a) { return deepCompare(a, item) })) {
        return newList.concat(item);
      }
      return newList;
    }, []);
  }

  function deepCompare () {
    var i, l, leftChain, rightChain;

    function compare2Objects (x, y) {
      var p;

      // remember that NaN === NaN returns false
      // and isNaN(undefined) returns true
      if (isNaN(x) && isNaN(y) && typeof x === 'number' && typeof y === 'number') {
          return true;
      }

      // Compare primitives and functions.     
      // Check if both arguments link to the same object.
      // Especially useful on the step where we compare prototypes
      if (x === y) {
          return true;
      }

      // Works in case when functions are created in constructor.
      // Comparing dates is a common scenario. Another built-ins?
      // We can even handle functions passed across iframes
      if ((typeof x === 'function' && typeof y === 'function') ||
        (x instanceof Date && y instanceof Date) ||
        (x instanceof RegExp && y instanceof RegExp) ||
        (x instanceof String && y instanceof String) ||
        (x instanceof Number && y instanceof Number)) {
          return x.toString() === y.toString();
      }

      // At last checking prototypes as good as we can
      if (!(x instanceof Object && y instanceof Object)) {
          return false;
      }

      if (x.isPrototypeOf(y) || y.isPrototypeOf(x)) {
          return false;
      }

      if (x.constructor !== y.constructor) {
          return false;
      }

      if (x.prototype !== y.prototype) {
          return false;
      }

      // Check for infinitive linking loops
      if (leftChain.indexOf(x) > -1 || rightChain.indexOf(y) > -1) {
          return false;
      }

      // Quick checking of one object being a subset of another.
      // todo: cache the structure of arguments[0] for performance
      for (p in y) {
          if (y.hasOwnProperty(p) !== x.hasOwnProperty(p)) {
              return false;
          }
          else if (typeof y[p] !== typeof x[p]) {
              return false;
          }
      }

      for (p in x) {
          if (y.hasOwnProperty(p) !== x.hasOwnProperty(p)) {
              return false;
          }
          else if (typeof y[p] !== typeof x[p]) {
              return false;
          }

          switch (typeof (x[p])) {
              case 'object':
              case 'function':

                  leftChain.push(x);
                  rightChain.push(y);

                  if (!compare2Objects (x[p], y[p])) {
                      return false;
                  }

                  leftChain.pop();
                  rightChain.pop();
                  break;

              default:
                  if (x[p] !== y[p]) {
                      return false;
                  }
                  break;
          }
      }

      return true;
    }

    if (arguments.length < 1) {
      return true; //Die silently? Don't know how to handle such case, please help...
      // throw "Need two or more arguments to compare";
    }

    for (i = 1, l = arguments.length; i < l; i++) {

        leftChain = []; //Todo: this can be cached
        rightChain = [];

        if (!compare2Objects(arguments[0], arguments[i])) {
            return false;
        }
    }

    return true;
  }

  TriangleCanvas.prototype.drawTriangle = function(x, y, size, fill, reversed) {
    var c = this.context;
    var corners = [{
      x: x,
      y: y,
    }, {
      x: x - size / 2,
      y: y + size,
    }, {
      x: x + size / 2,
      y: y + size,
    }];

    if (reversed) {
      corners = [{
        x: x + size / 2,
        y: y,
      }, {
        x: x - size / 2,
        y: y,
      }, {
        x: x,
        y: y + size
      }];
    }

    if (fill) {
      this.drawShape(corners, modifyColor(fill, 20), fill);
    } else {
      this.drawShape(corners);
    }
  }

  TriangleCanvas.prototype.drawTrapezoid = function(tiles, size, strokeStyle, fillStyle) {
    var corners = tiles
                  .map(function(o) {
                    return { x: o[0] * size, y: o[1] * size };
                  });

    console.log(corners);

    this.drawShape(corners, strokeStyle, fillStyle);
  }

  TriangleCanvas.prototype.drawShape = function(corners, strokeStyle, fillStyle) {
    var c = this.context;
    c.beginPath();

    c.moveTo(corners[0].x, corners[0].y);
    corners.slice(1).concat([corners[0]]).forEach(function(object, index) {
      c.lineTo(object.x, object.y);
    }); 

    c.closePath();
    if (fillStyle) {
      c.fillStyle = fillStyle;
      c.fill();
    }
    if (strokeStyle) c.strokeStyle = strokeStyle;
    c.stroke();
  }

  TriangleCanvas.prototype.drawSplittedTriangle = function(x, y, size, split, blocks, rest) {
    var c = this.context;

    var rows = Math.sqrt(split);
    var rowHeight = size / rows;
    var triangleSize = size / rows;

    for (var i = 0; i < rows * 2; i += 2) {
      var row = Math.floor(i / 2);

      for (var j = 0; j < i + 1; j++) {
        var position = {
          x: x + triangleSize * j / 2 - (row * triangleSize / 2),
          y: y + row * rowHeight,
        };

        var block = blocks.reduce(function(c, a) {
          return (a[0] === row && a[1] === j) ? (a[2] || 'black') : c;
        }, null);

        this.drawTriangle(position.x, position.y, triangleSize, block || rest, j % 2 == 1);
      }
    }
  }
  
  var c1 = new TriangleCanvas('tiling-triangle');
  c1.drawSplittedTriangle(100, 0, 200, Math.pow(4, 2), [[0, 0, '#435062']], '#92afd7');

  var c2 = new TriangleCanvas('base-case');
  c2.drawSplittedTriangle(50, 0, 100, 4, [[0, 0, '#435062']], '#92afd7');

  var c3 = new TriangleCanvas('n-2');
  c3.drawSplittedTriangle(100, 0, 200, Math.pow(4, 2), [[0, 0, '#435062']], '#92afd7');

  var c4 = new TriangleCanvas('n-2-grouped');
  var groups = [
    [0, 0, '#809bce'], [1, 0, '#809bce'], [1, 1, '#809bce'], [1, 2, '#809bce'], 
    [2, 0, '#95b8d1'], [3, 0, '#95b8d1'], [3, 1, '#95b8d1'], [3, 2, '#95b8d1'], 
    [2, 1, '#b8e0d2'], [2, 2, '#b8e0d2'], [2, 3, '#b8e0d2'], [3, 3, '#b8e0d2'], 
    [2, 4, '#d6eadf'], [3, 4, '#d6eadf'], [3, 5, '#d6eadf'], [3, 6, '#d6eadf'], 
  ];
  c4.drawSplittedTriangle(100, 0, 200, Math.pow(4, 2), groups);

  var c5 = new TriangleCanvas('n-2-grouped-removed');
  var groups = [
    [0, 0, 'rgb(90, 90, 90)'], [1, 0, '#809bce'], [1, 1, '#809bce'], [1, 2, '#809bce'], 
    [2, 0, '#95b8d1'], [3, 0, '#95b8d1'], [3, 1, '#95b8d1'], [3, 2, '#95b8d1'], 
    [2, 1, '#b8e0d2'], [2, 2, '#b8e0d2'], [2, 3, '#b8e0d2'], [3, 3, '#b8e0d2'], 
    [2, 4, '#d6eadf'], [3, 4, '#d6eadf'], [3, 5, '#d6eadf'], [3, 6, '#d6eadf'], 
  ];
  c5.drawSplittedTriangle(100, 0, 200, Math.pow(4, 2), groups);
  c5.context.strokeStyle = '#ff7777';
  c5.context.lineWidth = 3;
  c5.drawTriangle(100, 0, 100);

  var c6 = new TriangleCanvas('n-2-grouped-neighbours');
  var groups = [
    [0, 0, '#e7ecf6'], [1, 0, '#e7ecf6'], [1, 1, '#e7ecf6'], [1, 2, '#e7ecf6'], 
    [2, 0, '#95b8d1'], [3, 0, '#95b8d1'], [3, 1, '#95b8d1'], [3, 2, '#6d8699'], 
    [2, 1, '#b8e0d2'], [2, 2, '#b8e0d2'], [2, 3, '#b8e0d2'], [3, 3, '#657b73'], 
    [2, 4, '#d6eadf'], [3, 4, '#89958e'], [3, 5, '#d6eadf'], [3, 6, '#d6eadf'], 
  ];
  c6.drawSplittedTriangle(100, 0, 200, Math.pow(4, 2), groups);
  
  var trapezoids = [
    [[1, 2], [3, 2], [2.5, 3], [1.5, 3]],
    [[1, 2], [1.5, 3], [1, 4], [0, 4]],
    [[3, 2], [4, 4], [3, 4], [2.5, 3]],
  ];
  c6.drawTrapezoid(trapezoids[0], 200 / 4, '#ff7777');
  c6.drawTrapezoid(trapezoids[1], 200 / 4, '#ff7777');
  c6.drawTrapezoid(trapezoids[2], 200 / 4, '#ff7777');

  var c7 = new TriangleCanvas('final');
  var groups = [
    [0, 0, '#435062'], [1, 0, '#92afd7'], [1, 1, '#92afd7'], [1, 2, '#92afd7'], 
    [2, 0, '#95b8d1'], [3, 0, '#95b8d1'], [3, 1, '#95b8d1'], [3, 2, '#95b8d1'], 
    [2, 1, '#b8e0d2'], [2, 2, '#b8e0d2'], [2, 3, '#b8e0d2'], [3, 3, '#b8e0d2'], 
    [2, 4, '#d6eadf'], [3, 4, '#d6eadf'], [3, 5, '#d6eadf'], [3, 6, '#d6eadf'], 
  ];
  c7.drawSplittedTriangle(100, 0, 200, Math.pow(4, 2), groups);
  
  var trapezoids = [
    [[1.5, 1], [2.5, 1], [3, 2], [1, 2]],
    [[1, 2], [3, 2], [2.5, 3], [1.5, 3]],
    [[1, 2], [1.5, 3], [1, 4], [0, 4]],
    [[3, 2], [4, 4], [3, 4], [2.5, 3]],
    [[1.5, 3], [1, 4], [3, 4], [2.5, 3]],
  ];
  trapezoids.forEach(function(el) {
    c7.drawTrapezoid(el, 200 / 4, '#ff7777');
  });
}());
fix tiling shapes js 2022-07-27 13:31:04 +00:00			`(function() {`
			`var tilingTriangle = document.getElementById('tiling-triangle');`
			`var c = tilingTriangle.getContext('2d');`

			`function TriangleCanvas(id) {`
			`this.element = document.getElementById(id);`
			`this.context = this.element.getContext('2d');`
			`}`

			`function modifyColor(c, p) {`
			`var e = document.createElement('i');`
			`e.style.background = c;`
			`var r = getComputedStyle(e).backgroundColor.slice(4, -1).split(',').map(parseFloat);`
			`return 'rgb(' + [r[0] + p, r[1] + p, r[2] + p].join(',') + ')';`
			`}`

			`function dedup(list) {`
			`return list.reduce(function(newList, item) {`
			`if (!newList.some(function(a) { return deepCompare(a, item) })) {`
			`return newList.concat(item);`
			`}`
			`return newList;`
			`}, []);`
			`}`

			`function deepCompare () {`
			`var i, l, leftChain, rightChain;`

			`function compare2Objects (x, y) {`
			`var p;`

			`// remember that NaN === NaN returns false`
			`// and isNaN(undefined) returns true`
			`if (isNaN(x) && isNaN(y) && typeof x === 'number' && typeof y === 'number') {`
			`return true;`
			`}`

			`// Compare primitives and functions.`
			`// Check if both arguments link to the same object.`
			`// Especially useful on the step where we compare prototypes`
			`if (x === y) {`
			`return true;`
			`}`

			`// Works in case when functions are created in constructor.`
			`// Comparing dates is a common scenario. Another built-ins?`
			`// We can even handle functions passed across iframes`
			`if ((typeof x === 'function' && typeof y === 'function') \|\|`
			`(x instanceof Date && y instanceof Date) \|\|`
			`(x instanceof RegExp && y instanceof RegExp) \|\|`
			`(x instanceof String && y instanceof String) \|\|`
			`(x instanceof Number && y instanceof Number)) {`
			`return x.toString() === y.toString();`
			`}`

			`// At last checking prototypes as good as we can`
			`if (!(x instanceof Object && y instanceof Object)) {`
			`return false;`
			`}`

			`if (x.isPrototypeOf(y) \|\| y.isPrototypeOf(x)) {`
			`return false;`
			`}`

			`if (x.constructor !== y.constructor) {`
			`return false;`
			`}`

			`if (x.prototype !== y.prototype) {`
			`return false;`
			`}`

			`// Check for infinitive linking loops`
			`if (leftChain.indexOf(x) > -1 \|\| rightChain.indexOf(y) > -1) {`
			`return false;`
			`}`

			`// Quick checking of one object being a subset of another.`
			`// todo: cache the structure of arguments[0] for performance`
			`for (p in y) {`
			`if (y.hasOwnProperty(p) !== x.hasOwnProperty(p)) {`
			`return false;`
			`}`
			`else if (typeof y[p] !== typeof x[p]) {`
			`return false;`
			`}`
			`}`

			`for (p in x) {`
			`if (y.hasOwnProperty(p) !== x.hasOwnProperty(p)) {`
			`return false;`
			`}`
			`else if (typeof y[p] !== typeof x[p]) {`
			`return false;`
			`}`

			`switch (typeof (x[p])) {`
			`case 'object':`
			`case 'function':`

			`leftChain.push(x);`
			`rightChain.push(y);`

			`if (!compare2Objects (x[p], y[p])) {`
			`return false;`
			`}`

			`leftChain.pop();`
			`rightChain.pop();`
			`break;`

			`default:`
			`if (x[p] !== y[p]) {`
			`return false;`
			`}`
			`break;`
			`}`
			`}`

			`return true;`
			`}`

			`if (arguments.length < 1) {`
			`return true; //Die silently? Don't know how to handle such case, please help...`
			`// throw "Need two or more arguments to compare";`
			`}`

			`for (i = 1, l = arguments.length; i < l; i++) {`

			`leftChain = []; //Todo: this can be cached`
			`rightChain = [];`

			`if (!compare2Objects(arguments[0], arguments[i])) {`
			`return false;`
			`}`
			`}`

			`return true;`
			`}`

			`TriangleCanvas.prototype.drawTriangle = function(x, y, size, fill, reversed) {`
			`var c = this.context;`
			`var corners = [{`
			`x: x,`
			`y: y,`
			`}, {`
			`x: x - size / 2,`
			`y: y + size,`
			`}, {`
			`x: x + size / 2,`
			`y: y + size,`
			`}];`

			`if (reversed) {`
			`corners = [{`
			`x: x + size / 2,`
			`y: y,`
			`}, {`
			`x: x - size / 2,`
			`y: y,`
			`}, {`
			`x: x,`
			`y: y + size`
			`}];`
			`}`

			`if (fill) {`
			`this.drawShape(corners, modifyColor(fill, 20), fill);`
			`} else {`
			`this.drawShape(corners);`
			`}`
			`}`

			`TriangleCanvas.prototype.drawTrapezoid = function(tiles, size, strokeStyle, fillStyle) {`
			`var corners = tiles`
			`.map(function(o) {`
			`return { x: o[0] * size, y: o[1] * size };`
			`});`

			`console.log(corners);`

			`this.drawShape(corners, strokeStyle, fillStyle);`
			`}`

			`TriangleCanvas.prototype.drawShape = function(corners, strokeStyle, fillStyle) {`
			`var c = this.context;`
			`c.beginPath();`

			`c.moveTo(corners[0].x, corners[0].y);`
			`corners.slice(1).concat([corners[0]]).forEach(function(object, index) {`
			`c.lineTo(object.x, object.y);`
			`});`

			`c.closePath();`
			`if (fillStyle) {`
			`c.fillStyle = fillStyle;`
			`c.fill();`
			`}`
			`if (strokeStyle) c.strokeStyle = strokeStyle;`
			`c.stroke();`
			`}`

			`TriangleCanvas.prototype.drawSplittedTriangle = function(x, y, size, split, blocks, rest) {`
			`var c = this.context;`

			`var rows = Math.sqrt(split);`
			`var rowHeight = size / rows;`
			`var triangleSize = size / rows;`

			`for (var i = 0; i < rows * 2; i += 2) {`
			`var row = Math.floor(i / 2);`

			`for (var j = 0; j < i + 1; j++) {`
			`var position = {`
			`x: x + triangleSize * j / 2 - (row * triangleSize / 2),`
			`y: y + row * rowHeight,`
			`};`

			`var block = blocks.reduce(function(c, a) {`
			`return (a[0] === row && a[1] === j) ? (a[2] \|\| 'black') : c;`
			`}, null);`

			`this.drawTriangle(position.x, position.y, triangleSize, block \|\| rest, j % 2 == 1);`
			`}`
			`}`
			`}`

			`var c1 = new TriangleCanvas('tiling-triangle');`
			`c1.drawSplittedTriangle(100, 0, 200, Math.pow(4, 2), [[0, 0, '#435062']], '#92afd7');`

			`var c2 = new TriangleCanvas('base-case');`
			`c2.drawSplittedTriangle(50, 0, 100, 4, [[0, 0, '#435062']], '#92afd7');`

			`var c3 = new TriangleCanvas('n-2');`
			`c3.drawSplittedTriangle(100, 0, 200, Math.pow(4, 2), [[0, 0, '#435062']], '#92afd7');`

			`var c4 = new TriangleCanvas('n-2-grouped');`
			`var groups = [`
			`[0, 0, '#809bce'], [1, 0, '#809bce'], [1, 1, '#809bce'], [1, 2, '#809bce'],`
			`[2, 0, '#95b8d1'], [3, 0, '#95b8d1'], [3, 1, '#95b8d1'], [3, 2, '#95b8d1'],`
			`[2, 1, '#b8e0d2'], [2, 2, '#b8e0d2'], [2, 3, '#b8e0d2'], [3, 3, '#b8e0d2'],`
			`[2, 4, '#d6eadf'], [3, 4, '#d6eadf'], [3, 5, '#d6eadf'], [3, 6, '#d6eadf'],`
			`];`
			`c4.drawSplittedTriangle(100, 0, 200, Math.pow(4, 2), groups);`

			`var c5 = new TriangleCanvas('n-2-grouped-removed');`
			`var groups = [`
			`[0, 0, 'rgb(90, 90, 90)'], [1, 0, '#809bce'], [1, 1, '#809bce'], [1, 2, '#809bce'],`
			`[2, 0, '#95b8d1'], [3, 0, '#95b8d1'], [3, 1, '#95b8d1'], [3, 2, '#95b8d1'],`
			`[2, 1, '#b8e0d2'], [2, 2, '#b8e0d2'], [2, 3, '#b8e0d2'], [3, 3, '#b8e0d2'],`
			`[2, 4, '#d6eadf'], [3, 4, '#d6eadf'], [3, 5, '#d6eadf'], [3, 6, '#d6eadf'],`
			`];`
			`c5.drawSplittedTriangle(100, 0, 200, Math.pow(4, 2), groups);`
			`c5.context.strokeStyle = '#ff7777';`
			`c5.context.lineWidth = 3;`
			`c5.drawTriangle(100, 0, 100);`

			`var c6 = new TriangleCanvas('n-2-grouped-neighbours');`
			`var groups = [`
			`[0, 0, '#e7ecf6'], [1, 0, '#e7ecf6'], [1, 1, '#e7ecf6'], [1, 2, '#e7ecf6'],`
			`[2, 0, '#95b8d1'], [3, 0, '#95b8d1'], [3, 1, '#95b8d1'], [3, 2, '#6d8699'],`
			`[2, 1, '#b8e0d2'], [2, 2, '#b8e0d2'], [2, 3, '#b8e0d2'], [3, 3, '#657b73'],`
			`[2, 4, '#d6eadf'], [3, 4, '#89958e'], [3, 5, '#d6eadf'], [3, 6, '#d6eadf'],`
			`];`
			`c6.drawSplittedTriangle(100, 0, 200, Math.pow(4, 2), groups);`

			`var trapezoids = [`
			`[[1, 2], [3, 2], [2.5, 3], [1.5, 3]],`
			`[[1, 2], [1.5, 3], [1, 4], [0, 4]],`
			`[[3, 2], [4, 4], [3, 4], [2.5, 3]],`
			`];`
			`c6.drawTrapezoid(trapezoids[0], 200 / 4, '#ff7777');`
			`c6.drawTrapezoid(trapezoids[1], 200 / 4, '#ff7777');`
			`c6.drawTrapezoid(trapezoids[2], 200 / 4, '#ff7777');`

			`var c7 = new TriangleCanvas('final');`
			`var groups = [`
			`[0, 0, '#435062'], [1, 0, '#92afd7'], [1, 1, '#92afd7'], [1, 2, '#92afd7'],`
			`[2, 0, '#95b8d1'], [3, 0, '#95b8d1'], [3, 1, '#95b8d1'], [3, 2, '#95b8d1'],`
			`[2, 1, '#b8e0d2'], [2, 2, '#b8e0d2'], [2, 3, '#b8e0d2'], [3, 3, '#b8e0d2'],`
			`[2, 4, '#d6eadf'], [3, 4, '#d6eadf'], [3, 5, '#d6eadf'], [3, 6, '#d6eadf'],`
			`];`
			`c7.drawSplittedTriangle(100, 0, 200, Math.pow(4, 2), groups);`

			`var trapezoids = [`
			`[[1.5, 1], [2.5, 1], [3, 2], [1, 2]],`
			`[[1, 2], [3, 2], [2.5, 3], [1.5, 3]],`
			`[[1, 2], [1.5, 3], [1, 4], [0, 4]],`
			`[[3, 2], [4, 4], [3, 4], [2.5, 3]],`
			`[[1.5, 3], [1, 4], [3, 4], [2.5, 3]],`
			`];`
			`trapezoids.forEach(function(el) {`
			`c7.drawTrapezoid(el, 200 / 4, '#ff7777');`
			`});`
			`}());`