6aea33f92c
at minimum, the unit tests in SimplyNew_Test pass git-svn-id: http://skia.googlecode.com/svn/trunk@5860 2bbb7eff-a529-9590-31e7-b0007b416f81
444 lines
12 KiB
HTML
444 lines
12 KiB
HTML
<!-- bezier clip visualizer -->
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<html>
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<head>
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<div style="height:0">
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<div id="clip1">
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(gdb) p smaller
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$2 = {{
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x = 0.91292418204644155,
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y = 0.41931201426549197
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}, {
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x = 0.70491388044579517,
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y = 0.64754305977710236
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}, {
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x = 0,
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y = 1
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}}
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(gdb) p larger
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$3 = {{
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x = 0.21875,
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y = 0.765625
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}, {
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x = 0.125,
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y = 0.875
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}, {
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x = 0,
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y = 1
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}}
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(gdb) p distance2y
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$1 = {{
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x = 0,
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y = 0.080355482722450078
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}, {
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x = 0.5,
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y = 0.038383741101172597
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}, {
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x = 1,
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y = 0
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}}
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</div>
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<div id="quad21a">
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bezier_clip q1=(0,0 1,0 0,2) q2=(0.5,0.25 0.5,0.5 0,1) minT=0 maxT=1
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</div>
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<div id="quad21b">
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bezier_clip q1=(0.5,0.25 0.5,0.375 0.375,0.5625) q2=(0,0 1,0 0,2) minT=0.3 maxT=0.78125
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</div>
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<div id="quad21c">
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bezier_clip q1=(0.42,0.18 0.6125,0.46875 0.341796875,1.22070312) q2=(0.5,0.25 0.5,0.375 0.375,0.5625) minT=0 maxT=0.926710098
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</div>
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<div id="quad21d">
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bezier_clip q1=(0.5,0.25 0.5,0.307919381 0.473162762,0.379257381) q2=(0.42,0.18 0.6125,0.46875 0.341796875,1.22070312) minT=0.187231244 maxT=0.729263299
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</div>
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<div id="quad21e">
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bezier_clip q1=(0.475846194,0.304363878 0.53317904,0.507883959 0.454423387,0.847492538) q2=(0.5,0.25 0.5,0.307919381 0.473162762,0.379257381) minT=0 maxT=1
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</div>
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<div id="quad21f">
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bezier_clip q1=(0.493290691,0.311274036 0.486581381,0.343588381 0.473162762,0.379257381) q2=(0.475846194,0.304363878 0.53317904,0.507883959 0.454423387,0.847492538) minT=0.0828748517 maxT=0.150086861
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</div>
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<div id="quad21g">
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(gdb) p smaller
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$1 = {{
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x = 0.48441440743366754,
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y = 0.33903196011243797
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}, {
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x = 0.48750982503868118,
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y = 0.35346899178071778
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}, {
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x = 0.48999046908865357,
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y = 0.368520797004039
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}}
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(gdb) p larger
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$2 = {{
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x = 0.49329069058425024,
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y = 0.31127403581536672
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}, {
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x = 0.48658138116850047,
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y = 0.34358838107698753
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}, {
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x = 0.47316276233700094,
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y = 0.37925738104648321
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}}
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</div>
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<div id="quad36">
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(gdb) p fQ
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$2 = {{
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x = 1.8883839294261275,
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y = 2.1108590606904345
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}, {
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x = 1.888463903363252,
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y = 2.1111576060205435
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}, {
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x = 1.8885438199983176,
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y = 2.1114561800016824
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}}
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(gdb) p rh.fQ
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$3 = {{
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x = 1.8883839294260976,
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y = 2.1108590606903377
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}, {
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x = 1.8886366953645748,
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y = 2.1109850143489544
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}, {
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x = 1.8888888888888888,
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y = 2.1111111111111112
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}}
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(gdb)
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</div>
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<div id="quad37">
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{{x = 360.048828125, y = 229.2578125}, {x = 360.048828125, y = 224.4140625}, {x = 362.607421875, y = 221.3671875}}
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{{x = 362.607421875, y = 221.3671875}, {x = 365.166015625, y = 218.3203125}, {x = 369.228515625, y = 218.3203125}}
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</div>
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</div>
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<script type="text/javascript">
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var testDivs = [
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quad37,
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quad36,
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quad21g,
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quad21a,
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quad21b,
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quad21c,
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quad21d,
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quad21e,
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quad21f,
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clip1,
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];
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var scale, columns, rows, xStart, yStart;
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var ticks = 10;
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var at_x = 13 + 0.5;
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var at_y = 13 + 0.5;
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var init_decimal_places = 1; // make this 3 to show more precision
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var decimal_places;
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var tests = [];
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var testTitles = [];
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var testIndex = 0;
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var ctx;
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var fat1 = true;
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var fat2 = false;
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var ctl1 = true;
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var ctl2 = false;
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var ctlPts1 = true;
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var ctlPts2 = false;
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var minScale = 1;
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var subscale = 1;
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function parse(test, title) {
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var curveStrs = test.split("{{");
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if (curveStrs.length == 1)
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curveStrs = test.split("=(");
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var pattern = /[a-z$=]?-?\d+\.*\d*/g;
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var curves = [];
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for (var c in curveStrs) {
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var curveStr = curveStrs[c];
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var points = curveStr.match(pattern);
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var pts = [];
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for (var wd in points) {
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var num = parseFloat(points[wd]);
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if (isNaN(num)) continue;
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pts.push(num);
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}
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if (pts.length > 0)
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curves.push(pts);
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}
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if (curves.length >= 2) {
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tests.push(curves);
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testTitles.push(title);
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}
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}
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function init(test) {
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var canvas = document.getElementById('canvas');
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if (!canvas.getContext) return;
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canvas.width = window.innerWidth - at_x;
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canvas.height = window.innerHeight - at_y;
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ctx = canvas.getContext('2d');
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var xmin = Infinity;
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var xmax = -Infinity;
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var ymin = Infinity;
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var ymax = -Infinity;
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for (var curves in test) {
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var curve = test[curves];
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var last = curve.length;
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for (var idx = 0; idx < last; idx += 2) {
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xmin = Math.min(xmin, curve[idx]);
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xmax = Math.max(xmax, curve[idx]);
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ymin = Math.min(ymin, curve[idx + 1]);
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ymax = Math.max(ymax, curve[idx + 1]);
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}
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}
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subscale = 1;
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decimal_places = init_decimal_places;
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if (xmax != xmin && ymax != ymin) {
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while ((xmax - xmin) * subscale < 0.1 && (ymax - ymin) * subscale < 0.1) {
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subscale *= 10;
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decimal_places += 1;
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// if (subscale > 100000) {
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// break;
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// }
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}
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}
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columns = Math.ceil(xmax * subscale) - Math.floor(xmin * subscale) + 1;
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rows = Math.ceil(ymax * subscale) - Math.floor(ymin * subscale) + 1;
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xStart = Math.floor(xmin * subscale) / subscale;
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yStart = Math.floor(ymin * subscale) / subscale;
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var hscale = ctx.canvas.width / columns / ticks;
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var vscale = ctx.canvas.height / rows / ticks;
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minScale = Math.floor(Math.min(hscale, vscale));
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scale = minScale * subscale;
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// while (columns < 1000 && rows < 1000) {
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// columns *= 2;
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// rows *= 2;
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// }
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}
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function drawPoint(px, py, xoffset, yoffset, unit) {
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var label = px.toFixed(decimal_places) + ", " + py.toFixed(decimal_places);
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var _px = px * unit + xoffset;
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var _py = py * unit + yoffset;
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ctx.beginPath();
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ctx.arc(_px, _py, 3, 0, Math.PI*2, true);
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ctx.closePath();
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ctx.fill();
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ctx.fillText(label, _px + 5, _py);
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}
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function draw(test, title, _at_x, _at_y, scale) {
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ctx.fillStyle = "rgba(0,0,0, 0.1)";
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ctx.font = "normal 50px Arial";
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ctx.fillText(title, 50, 50);
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ctx.font = "normal 10px Arial";
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var unit = scale * ticks;
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ctx.lineWidth = 1;
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var i;
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for (i = 0; i <= rows * ticks; ++i) {
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ctx.strokeStyle = (i % ticks) != 0 ? "rgb(160,160,160)" : "black";
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ctx.beginPath();
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ctx.moveTo(_at_x + 0, _at_y + i * minScale);
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ctx.lineTo(_at_x + unit * columns, _at_y + i * minScale);
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ctx.stroke();
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}
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for (i = 0; i <= columns * ticks; ++i) {
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ctx.strokeStyle = (i % ticks) != 0 ? "rgb(160,160,160)" : "black";
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ctx.beginPath();
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ctx.moveTo(_at_x + i * minScale, _at_y + 0);
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ctx.lineTo(_at_x + i * minScale, _at_y + unit * rows);
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ctx.stroke();
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}
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var xoffset = xStart * -unit + _at_x;
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var yoffset = yStart * -unit + _at_y;
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ctx.fillStyle = "rgb(40,80,60)"
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for (i = 0; i <= columns; i += (1 / ticks))
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{
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num = xStart + i / subscale;
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ctx.fillText(num.toFixed(decimal_places), xoffset + num * unit - 5, 10);
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}
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for (i = 0; i <= rows; i += (1 / ticks))
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{
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num = yStart + i / subscale;
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ctx.fillText(num.toFixed(decimal_places), 0, yoffset + num * unit + 0);
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}
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// draw curve 1 and 2
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var curves, pts;
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for (curves in test) {
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var curve = test[curves];
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ctx.beginPath();
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ctx.moveTo(xoffset + curve[0] * unit, yoffset + curve[1] * unit);
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switch (curve.length) {
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case 6:
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ctx.quadraticCurveTo(
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xoffset + curve[2] * unit, yoffset + curve[3] * unit,
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xoffset + curve[4] * unit, yoffset + curve[5] * unit);
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break;
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case 8:
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ctx.bezierCurveTo(
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xoffset + curve[2] * unit, yoffset + curve[3] * unit,
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xoffset + curve[4] * unit, yoffset + curve[5] * unit,
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xoffset + curve[6] * unit, yoffset + curve[7] * unit);
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break;
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}
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if (curves == 2) ctx.strokeStyle = curves ? "red" : "blue";
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ctx.stroke();
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ctx.strokeStyle = "rgba(0,0,0, 0.3)";
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ctx.beginPath();
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ctx.moveTo(xoffset + curve[0] * unit, yoffset + curve[1] * unit);
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ctx.lineTo(xoffset + curve[2] * unit, yoffset + curve[3] * unit);
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ctx.lineTo(xoffset + curve[4] * unit, yoffset + curve[5] * unit);
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if (curve.length == 8)
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ctx.lineTo(xoffset + curve[6] * unit, yoffset + curve[7] * unit);
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ctx.stroke();
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}
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// optionally draw fat lines for curve
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if (fat1)
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drawFat(test[0], xoffset, yoffset, unit);
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if (fat2)
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drawFat(test[1], xoffset, yoffset, unit);
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if (ctl1)
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drawCtl(test[0], xoffset, yoffset, unit);
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if (ctl2)
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drawCtl(test[1], xoffset, yoffset, unit);
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if (ctlPts1)
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drawCtlPts(test[0], xoffset, yoffset, unit);
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if (ctlPts2)
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drawCtlPts(test[1], xoffset, yoffset, unit);
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}
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function drawCtl(curve, xoffset, yoffset, unit) {
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var last = curve.length - 2;
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ctx.strokeStyle = "rgba(0,0,0, 0.5)";
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ctx.beginPath();
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ctx.moveTo(xoffset + curve[0] * unit, yoffset + curve[1] * unit);
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ctx.lineTo(xoffset + curve[2] * unit, yoffset + curve[3] * unit);
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ctx.lineTo(xoffset + curve[4] * unit, yoffset + curve[5] * unit);
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ctx.stroke();
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}
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function drawCtlPts(curve, xoffset, yoffset, unit) {
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drawPoint(curve[0], curve[1], xoffset, yoffset, unit);
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drawPoint(curve[2], curve[3], xoffset, yoffset, unit);
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drawPoint(curve[4], curve[5], xoffset, yoffset, unit);
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}
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function drawFat(curve, xoffset, yoffset, unit) {
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var last = curve.length - 2;
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ctx.strokeStyle = "rgba(0,0,0, 0.5)";
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ctx.beginPath();
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ctx.moveTo(xoffset + curve[0] * unit, yoffset + curve[1] * unit);
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ctx.lineTo(xoffset + curve[last] * unit, yoffset + curve[last + 1] * unit);
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ctx.stroke();
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// draw line parallel to end points through control points
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var dx = curve[last] - curve[0];
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var dy = curve[last + 1] - curve[1];
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drawParallelLine(curve[2], curve[3], dx, dy, xoffset, yoffset, unit);
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if (curve.length == 8)
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drawParallelLine(curve[4], curve[5], dx, dy, xoffset, yoffset, unit);
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}
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function drawParallelLine(x, y, dx, dy, xoffset, yoffset, unit) {
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var x1 = x - dx;
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var y1 = y - dy;
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var x2 = x + dx;
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var y2 = y + dy;
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ctx.beginPath();
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ctx.moveTo(xoffset + x1 * unit, yoffset + y1 * unit);
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ctx.lineTo(xoffset + x2 * unit, yoffset + y2 * unit);
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ctx.stroke();
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}
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function drawTop() {
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init(tests[testIndex]);
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redraw();
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}
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function redraw() {
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ctx.beginPath();
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ctx.rect(0, 0, ctx.canvas.width, ctx.canvas.height);
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ctx.fillStyle="white";
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ctx.fill();
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draw(tests[testIndex], testTitles[testIndex], at_x, at_y, scale);
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}
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function doKeyPress(evt) {
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var char = String.fromCharCode(evt.charCode);
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switch (char) {
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case 'c':
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ctl2 ^= true;
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if (ctl2 == false)
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ctl1 ^= true;
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drawTop();
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break;
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case 'd':
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ctlPts2 ^= true;
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if (ctlPts2 == false)
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ctlPts1 ^= true;
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drawTop();
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break;
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case 'f':
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fat2 ^= true;
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if (fat2 == false)
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fat1 ^= true;
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drawTop();
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break;
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case 'N':
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testIndex += 9;
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case 'n':
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if (++testIndex >= tests.length)
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testIndex = 0;
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mouseX = Infinity;
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drawTop();
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break;
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case 'P':
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testIndex -= 9;
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case 'p':
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if (--testIndex < 0)
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testIndex = tests.length - 1;
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mouseX = Infinity;
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drawTop();
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break;
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}
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}
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function handleMouseClick() {
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}
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function handleMouseOver() {
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}
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function start() {
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for (i = 0; i < testDivs.length; ++i) {
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var title = testDivs[i].id.toString();
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var str = testDivs[i].firstChild.data;
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parse(str, title);
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}
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drawTop();
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window.addEventListener('keypress', doKeyPress, true);
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window.onresize = function() {
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drawTop();
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}
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}
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</script>
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</head>
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<body onLoad="start();">
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<canvas id="canvas" width="750" height="500"
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onmousemove="handleMouseOver()"
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onclick="handleMouseClick()"
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></canvas >
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</body>
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</html>
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