[dygraphs.git] / gallery / linear-regression.js

Gallery.register(
  'linear-regression',
  {
    name: 'Linear Regressions',
    title: 'Linear Regression Demo',
    setup: function(parent) {
      parent.innerHTML = [
        "<p>Click the buttons to generate linear regressions over either data ",
        "series. If you zoom in and then click the regression button, the regression ",
        "will only be run over visible points. Zoom back out to see what the local ",
        "regression looks like over the full data.</p> ",
        "<div id='demodiv' style='width: 480px; height: 320px;'></div>",
        "<div style='text-align:center; width: 480px'>",
        "<button style='color: green;' id='ry1'>Regression (Y1)</button> ",
        "<button style='color: blue;' id='ry2'>Regression (Y2)</button> ",
        "<button id='clear'>Clear Lines</button>",
        "</div>"].join("\n");
    },
    run: function() {
      document.getElementById("ry1").onclick = function() { regression(1) };
      document.getElementById("ry2").onclick = function() { regression(2) };
      document.getElementById("clear").onclick = function() { clearLines() };

      var data = [];
      for (var i = 0; i < 120; i++) {
        data.push([i,
                   i / 5.0 + 10.0 * Math.sin(i / 3.0),
                   30.0 - i / 5.0 - 10.0 * Math.sin(i / 3.0 + 1.0)]);
      }

      // coefficients of regression for each series.
      // if coeffs = [ null, [1, 2], null ] then we draw a regression for series 1
      // only. The regression line is y = 1 + 2 * x.
      var coeffs = [ null, null, null ];
      function regression(series) {
        // Only run the regression over visible points.
        var range = g.xAxisRange();

        var sum_xy = 0.0, sum_x = 0.0, sum_y = 0.0, sum_x2 = 0.0, num = 0;
        for (var i = 0; i < g.numRows(); i++) {
          var x = g.getValue(i, 0);
          if (x < range[0] || x > range[1]) continue;

          var y = g.getValue(i, series);
          if (y == null) continue;
          if (y.length == 2) {
            // using fractions
            y = y[0] / y[1];
          }

          num++;
          sum_x += x;
          sum_y += y;
          sum_xy += x * y;
          sum_x2 += x * x;
        }

        var a = (sum_xy - sum_x * sum_y / num) / (sum_x2 - sum_x * sum_x / num);
        var b = (sum_y - a * sum_x) / num;

        coeffs[series] = [b, a];
        if (typeof(console) != 'undefined') {
          console.log("coeffs(" + series + "): [" + b + ", " + a + "]");
        }

        g.updateOptions({});  // forces a redraw.
      }

      function clearLines() {
        for (var i = 0; i < coeffs.length; i++) coeffs[i] = null;
        g.updateOptions({});
      }

      function drawLines(ctx, area, layout) {
        if (typeof(g) == 'undefined') return;  // won't be set on the initial draw.

        var range = g.xAxisRange();
        for (var i = 0; i < coeffs.length; i++) {
          if (!coeffs[i]) continue;
          var a = coeffs[i][1];
          var b = coeffs[i][0];

          var x1 = range[0];
          var y1 = a * x1 + b;
          var x2 = range[1];
          var y2 = a * x2 + b;

          var p1 = g.toDomCoords(x1, y1);
          var p2 = g.toDomCoords(x2, y2);

          var c = new RGBColor(g.getColors()[i - 1]);
          c.r = Math.floor(255 - 0.5 * (255 - c.r));
          c.g = Math.floor(255 - 0.5 * (255 - c.g));
          c.b = Math.floor(255 - 0.5 * (255 - c.b));
          var color = c.toHex();
          ctx.save();
          ctx.strokeStyle = color;
          ctx.lineWidth = 1.0;
          ctx.beginPath();
          ctx.moveTo(p1[0], p1[1]);
          ctx.lineTo(p2[0], p2[1]);
          ctx.closePath();
          ctx.stroke();
          ctx.restore();
        }
      }
      
      g = new Dygraph(
              document.getElementById("demodiv"),
              data,
              {
                labels: ['X', 'Y1', 'Y2'],
                underlayCallback: drawLines,
                drawPoints: true,
                drawAxesAtZero: true,
                strokeWidth: 0.0
              }
          );
    }
  });
Commit	Line	Data
d53954c3 RK	1	Gallery.register(
	2	'linear-regression',
	3	{
	4	name: 'Linear Regressions',
	5	title: 'Linear Regression Demo',
	6	setup: function(parent) {
605b6119 RK	7	parent.innerHTML = [
	8	"<p>Click the buttons to generate linear regressions over either data ",
	9	"series. If you zoom in and then click the regression button, the regression ",
	10	"will only be run over visible points. Zoom back out to see what the local ",
	11	"regression looks like over the full data.</p> ",
	12	"<div id='demodiv' style='width: 480px; height: 320px;'></div>",
	13	"<div style='text-align:center; width: 480px'>",
	14	"<button style='color: green;' id='ry1'>Regression (Y1)</button> ",
	15	"<button style='color: blue;' id='ry2'>Regression (Y2)</button> ",
	16	"<button id='clear'>Clear Lines</button>",
	17	"</div>"].join("\n");
d53954c3 RK	18	},
	19	run: function() {
	20	document.getElementById("ry1").onclick = function() { regression(1) };
	21	document.getElementById("ry2").onclick = function() { regression(2) };
	22	document.getElementById("clear").onclick = function() { clearLines() };
	23
	24	var data = [];
	25	for (var i = 0; i < 120; i++) {
	26	data.push([i,
	27	i / 5.0 + 10.0 * Math.sin(i / 3.0),
	28	30.0 - i / 5.0 - 10.0 * Math.sin(i / 3.0 + 1.0)]);
	29	}
	30
d53954c3 RK	31	// coefficients of regression for each series.
	32	// if coeffs = [ null, [1, 2], null ] then we draw a regression for series 1
	33	// only. The regression line is y = 1 + 2 * x.
	34	var coeffs = [ null, null, null ];
	35	function regression(series) {
	36	// Only run the regression over visible points.
	37	var range = g.xAxisRange();
	38
	39	var sum_xy = 0.0, sum_x = 0.0, sum_y = 0.0, sum_x2 = 0.0, num = 0;
	40	for (var i = 0; i < g.numRows(); i++) {
	41	var x = g.getValue(i, 0);
	42	if (x < range[0] \|\| x > range[1]) continue;
	43
	44	var y = g.getValue(i, series);
	45	if (y == null) continue;
	46	if (y.length == 2) {
	47	// using fractions
	48	y = y[0] / y[1];
	49	}
	50
	51	num++;
	52	sum_x += x;
	53	sum_y += y;
	54	sum_xy += x * y;
	55	sum_x2 += x * x;
	56	}
	57
	58	var a = (sum_xy - sum_x * sum_y / num) / (sum_x2 - sum_x * sum_x / num);
	59	var b = (sum_y - a * sum_x) / num;
	60
	61	coeffs[series] = [b, a];
	62	if (typeof(console) != 'undefined') {
	63	console.log("coeffs(" + series + "): [" + b + ", " + a + "]");
	64	}
	65
	66	g.updateOptions({}); // forces a redraw.
	67	}
	68
	69	function clearLines() {
	70	for (var i = 0; i < coeffs.length; i++) coeffs[i] = null;
	71	g.updateOptions({});
	72	}
	73
	74	function drawLines(ctx, area, layout) {
	75	if (typeof(g) == 'undefined') return; // won't be set on the initial draw.
	76
	77	var range = g.xAxisRange();
	78	for (var i = 0; i < coeffs.length; i++) {
	79	if (!coeffs[i]) continue;
	80	var a = coeffs[i][1];
	81	var b = coeffs[i][0];
	82
	83	var x1 = range[0];
	84	var y1 = a * x1 + b;
	85	var x2 = range[1];
	86	var y2 = a * x2 + b;
	87
	88	var p1 = g.toDomCoords(x1, y1);
	89	var p2 = g.toDomCoords(x2, y2);
	90
	91	var c = new RGBColor(g.getColors()[i - 1]);
	92	c.r = Math.floor(255 - 0.5 * (255 - c.r));
	93	c.g = Math.floor(255 - 0.5 * (255 - c.g));
	94	c.b = Math.floor(255 - 0.5 * (255 - c.b));
95	var color = c.toHex();
96	ctx.save();
97	ctx.strokeStyle = color;
98	ctx.lineWidth = 1.0;
99	ctx.beginPath();
100	ctx.moveTo(p1[0], p1[1]);
101	ctx.lineTo(p2[0], p2[1]);
102	ctx.closePath();
103	ctx.stroke();
104	ctx.restore();
105	}
106	}
3c10a0f3 RK	107
	108	g = new Dygraph(
	109	document.getElementById("demodiv"),
	110	data,
	111	{
	112	labels: ['X', 'Y1', 'Y2'],
	113	underlayCallback: drawLines,
	114	drawPoints: true,
f4b87da2	115	drawAxesAtZero: true,
3c10a0f3 RK	116	strokeWidth: 0.0
	117	}
	118	);
d53954c3 RK	119	}
d53954c3 RK	120	});