skia2/experimental/docs/svgbaseddoc.htm

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HTML

<!DOCTYPE html>
<html lang="en">
<head>
<style>
html {
font-family: Helvetica, Arial, sans-serif;
font-size: 100%;
}
.controls {
margin: 1em 0;
}
button {
display: inline-block;
border-radius: 3px;
border: none;
font-size: 0.9rem;
padding: 0.4rem 0.8em;
background: #69c773;
border-bottom: 1px solid #498b50;
color: white;
-webkit-font-smoothing: antialiased;
font-weight: bold;
margin: 0 0.25rem;
text-align: center;
}
button:hover, button:focus {
opacity: 0.75;
cursor: pointer;
}
button:active {
opacity: 1;
box-shadow: 0 -3px 10px rgba(0, 0, 0, 0.1) inset;
}
</style>
<! set height back to 500 />
<svg id="svg" width="800" height="500"
xmlns="http://www.w3.org/2000/svg" xmlns:xlink="http://www.w3.org/1999/xlink">
<defs>
<radialGradient id="grad1" cx="200" cy="200" r="300" gradientUnits="userSpaceOnUse">
<stop offset="0%" style="stop-color:rgb(0,0,255); stop-opacity:0.3" />
<stop offset="100%" style="stop-color:rgb(0,0,255); stop-opacity:0" />
</radialGradient>
<radialGradient id="grad2" cx="200" cy="200" r="300" gradientUnits="userSpaceOnUse">
<stop offset="0%" style="stop-color:rgb(0,255,0); stop-opacity:0.3" />
<stop offset="100%" style="stop-color:rgb(0,255,0); stop-opacity:0" />
</radialGradient>
<radialGradient id="grad3" cx="200" cy="200" r="300" gradientUnits="userSpaceOnUse">
<stop offset="0%" style="stop-color:rgb(255,0,0); stop-opacity:0.3" />
<stop offset="100%" style="stop-color:rgb(255,0,0); stop-opacity:0" />
</radialGradient>
<radialGradient id="grad4" cx="200" cy="200" r="300" gradientUnits="userSpaceOnUse">
<stop offset="0%" style="stop-color:rgb(192,63,192); stop-opacity:0.3" />
<stop offset="100%" style="stop-color:rgb(192,63,192); stop-opacity:0" />
</radialGradient>
<radialGradient id="grad5" cx="200" cy="200" r="300" gradientUnits="userSpaceOnUse">
<stop offset="0%" style="stop-color:rgb(127,127,0); stop-opacity:0.3" />
<stop offset="100%" style="stop-color:rgb(127,127,0); stop-opacity:0" />
</radialGradient>
<radialGradient id="grad6" cx="200" cy="200" r="300" gradientUnits="userSpaceOnUse">
<stop offset="0%" style="stop-color:rgb(127,0,127); stop-opacity:0.3" />
<stop offset="100%" style="stop-color:rgb(127,0,127); stop-opacity:0" />
</radialGradient>
<radialGradient id="grad7" cx="200" cy="200" r="300" gradientUnits="userSpaceOnUse">
<stop offset="0%" style="stop-color:rgb(0,127,127); stop-opacity:0.3" />
<stop offset="100%" style="stop-color:rgb(0,127,127); stop-opacity:0" />
</radialGradient>
<radialGradient id="grad8" cx="200" cy="200" r="300" gradientUnits="userSpaceOnUse">
<stop offset="0%" style="stop-color:rgb(63,192,63); stop-opacity:0.3" />
<stop offset="100%" style="stop-color:rgb(63,192,63); stop-opacity:0" />
</radialGradient>
</defs>
<path id="circleFill" d="M300,200 A 100,100 0,0,0 300,200" fill="#777" fill-opacity="0" />
<path id="circle" d="M300,200 A 100,100 0,0,0 300,200" fill="none" stroke="black" />
<! elements for keyframe 1 />
<text id="spanWedgeDesc" fill-opacity="0" >
All spans are contained by a wedge.
</text>
<path id="span1" d="M200,200 Q300,300 200,300" fill="none" stroke="black" stroke-opacity="0"/>
<path id="span2" d="M200,200 C100,300 100,400 200,300" fill="none" stroke="black" stroke-opacity="0"/>
<path id="span3" d="M200,200 C300,100 100,400 300,200" fill="none" stroke="black" stroke-opacity="0"/>
<path id="wedge1" d="M200,200 L500,500 A 424.26,424.26 0,0,1 200,624.26 z" fill="url(#grad1)" fill-opacity="0"/>
<path id="wedge2" d="M200,200 L200,624.26 A 424.26,424.26 0,0,1 -100,500 z" fill="url(#grad2)" fill-opacity="0"/>
<path id="wedge3" d="M200,200 L500,-100 A 424.26,424.26 0,0,1 240,622.5 z" fill="url(#grad3)" fill-opacity="0"/>
<! keyframe 2 />
<text id="trivialWedgeDesc1" fill-opacity="0" >
Wedges that don't overlap can be
</text>
<text id="trivialWedgeDesc2" y="240" fill-opacity="0" >
easily sorted.
</text>
<path id="span4" d="M200,200 Q300,300 400,300" fill="none" stroke="black" stroke-opacity="0"/>
<path id="span5" d="M200,200 Q280,320 200,400" fill="none" stroke="black" stroke-opacity="0"/>
<path id="span6" d="M200,200 Q60,340 100,400" fill="none" stroke="black" stroke-opacity="0"/>
<path id="wedge4" d="M200,200 L500,500 A 424.26,424.26 0,0,1 579.47,389.74 z" fill="url(#grad1)" fill-opacity="0"/>
<path id="wedge5" d="M200,200 L389.74,579.47 A 424.26,424.26 0,0,1 200,500 z" fill="url(#grad2)" fill-opacity="0"/>
<path id="wedge6" d="M200,200 L10.26,579.47 A 424.26,424.26 0,0,1 -100,500 z" fill="url(#grad3)" fill-opacity="0"/>
<! keyframe 3 />
<text id="sectorDesc1" fill-opacity="0" >
A sector is a wedge of a circle
</text>
<text id="sectorDesc2" y="240" fill-opacity="0" >
containing a range of points.
</text>
<g id="xaxis" stroke-opacity="0" fill-opacity="0">
<path d="M100,200 L300,200" fill="none" stroke="rgb(191,191,191)"/>
<text x="100" y="220" fill="rgb(191,191,191)">-X</text>
<text x="300" y="220" text-anchor="end" fill="rgb(191,191,191)">+X</text>
</g>
<g id="yaxis" stroke-opacity="0" fill-opacity="0">
<path d="M200,100 L200,300" fill="none" stroke="rgb(191,191,191)"/>
<text x="205" y="100" alignment-baseline="hanging" fill="rgb(191,191,191)">-Y</text>
<text x="205" y="300" fill="rgb(191,191,191)">+Y</text>
</g>
<text id="sectorDescXYA" x="500" y="310" fill="rgb(0,0,255)" fill-opacity="0">
X &gt; 0>&nbsp;&nbsp;Y &gt; 0&nbsp;&nbsp;&nbsp;&nbsp;Y &lt; X</text>
<text id="sectorDescXYB" x="500" y="360" fill="rgb(0,127,0)" fill-opacity="0">
X &lt; 0&nbsp;&nbsp;&nbsp;Y &gt; 0&nbsp;&nbsp;&nbsp;-Y &lt; X</text>
<text id="sectorDescXYC" x="500" y="410" fill="rgb(255,0,0)" fill-opacity="0">
X &lt; 0&nbsp;&nbsp;&nbsp;Y &lt; 0&nbsp;&nbsp;&nbsp;&nbsp;Y &lt; X</text>
<path id="wedgeXY8" d="M200,200 L500,500 A 424.26,424.26 0,0,1 624.26,200 z" fill="url(#grad1)" fill-opacity="0"/>
<path id="wedgeXY6" d="M200,200 L-100,500 A 424.26,424.26 0,0,1 200,624.26 z" fill="url(#grad2)" fill-opacity="0"/>
<path id="wedgeXY3" d="M200,200 L-100,-100 A 424.26,424.26 0,0,1 200,-175.74 z" fill="url(#grad3)" fill-opacity="0"/>
<! keyframe 4 />
<text id="lineSingleDesc" fill-opacity="0" >
Line spans are contained by a single sector.
</text>
<text id="sectorDescXY1" x="500" y="460" fill="rgb(192,63,192)" fill-opacity="0">
X &gt; 0&nbsp;&nbsp;&nbsp;Y &lt; 0&nbsp;&nbsp;&nbsp;-Y &lt; X</text>
<text id="sectorDescXY2" x="500" y="460" fill="rgb(127,127,0)" fill-opacity="0">
X &gt; 0&nbsp;&nbsp;&nbsp;Y &lt; 0&nbsp;&nbsp;&nbsp;-Y &gt; X</text>
<text id="sectorDescXY3" x="500" y="460" fill="rgb(255,0,0)" fill-opacity="0">
X &lt; 0&nbsp;&nbsp;&nbsp;Y &lt; 0&nbsp;&nbsp;&nbsp;&nbsp;Y &lt; X</text>
<text id="sectorDescXY4" x="500" y="460" fill="rgb(127,0,127)" fill-opacity="0">
X &lt; 0&nbsp;&nbsp;&nbsp;Y &lt; 0&nbsp;&nbsp;&nbsp;&nbsp;Y &gt; X</text>
<text id="sectorDescXY5" x="500" y="460" fill="rgb(0,127,127)" fill-opacity="0">
X &lt; 0&nbsp;&nbsp;&nbsp;Y &gt; 0&nbsp;&nbsp;&nbsp;-Y &lt; X</text>
<text id="sectorDescXY6" x="500" y="460" fill="rgb(0,127,0)" fill-opacity="0">
X &lt; 0&nbsp;&nbsp;&nbsp;Y &gt; 0&nbsp;&nbsp;&nbsp;-Y &lt; X</text>
<text id="sectorDescXY7" x="500" y="460" fill="rgb(63,192,63)" fill-opacity="0">
X &gt; 0&nbsp;&nbsp;&nbsp;Y &gt; 0&nbsp;&nbsp;&nbsp;&nbsp;Y &gt; X</text>
<text id="sectorDescXY8" x="500" y="460" fill="rgb(0,0,255)" fill-opacity="0">
X &gt; 0&nbsp;&nbsp;&nbsp;Y &gt; 0&nbsp;&nbsp;&nbsp;&nbsp;Y &lt; X</text>
<path id="wedgeXY1" d="M200,200 L500,-100 A 424.26,424.26 0,0,1 624.26,200 z" fill="url(#grad4)" fill-opacity="0"/>
<path id="wedgeXY2" d="M200,200 L200,-175.74 A 424.26,424.26 0,0,1 500,-100 z" fill="url(#grad5)" fill-opacity="0"/>
<path id="wedgeXY4" d="M200,200 L-175.74,200 A 424.26,424.26 0,0,1 -100,-100 z" fill="url(#grad6)" fill-opacity="0"/>
<path id="wedgeXY5" d="M200,200 L-100,500 A 424.26,424.26 0,0,1 -175.74,200 z" fill="url(#grad7)" fill-opacity="0"/>
<path id="wedgeXY7" d="M200,200 L200,624.26 A 424.26,424.26 0,0,1 500,500 z" fill="url(#grad8)" fill-opacity="0"/>
<path id="lineSegment" d="M200,200 L200,624.26" fill="none" stroke="black" stroke-opacity="0"/>
<! keyframe 5 />
<text id="curveMultipleDesc1" fill-opacity="0" >
A curve span may cover more
</text>
<text id="curveMultipleDesc2" y="240" fill-opacity="0" >
than one sector.
</text>
<path id="curveSegment" d="M200,200 C250,200 300,150 300,100" fill="none" stroke="black" stroke-opacity="0"/>
<path id="curveSegment1" d="M200,200 C250,200 300,150 300,100" fill="none"/>
<path id="curveSegment2" d="M200,200 C250,200 300,150 200,100" fill="none"/>
<path id="curveSegment3" d="M200,200 C350,200 250,-150 170,300" fill="none"/>
<! keyframe 6 />
<text id="line1DDest1" fill-opacity="0" >
Some lines occupy one-dimensional
</text>
<text id="line1DDest2" y="240" fill-opacity="0" >
sectors.
</text>
<text id="sectorDescXY9" x="500" y="460" fill="rgb(192,92,31)" fill-opacity="0">
X &gt; 0&nbsp;&nbsp;&nbsp;Y == 0</text>
<text id="sectorDescXY10" x="500" y="460" fill="rgb(31,92,192)" fill-opacity="0">
Y &gt; 0&nbsp;&nbsp;&nbsp;0 == X</text>
<text id="sectorDescXY11" x="500" y="460" fill="rgb(127,63,127)" fill-opacity="0">
X &lt; 0&nbsp;&nbsp;&nbsp;Y == X</text>
<path id="horzSegment" d="M200,200 L341.4,200" fill="none" stroke="rgb(192,92,31)" stroke-width="2" stroke-opacity="0"/>
<path id="vertSegment" d="M200,200 L200,341.4" fill="none" stroke="rgb(31,92,192)" stroke-width="2" stroke-opacity="0"/>
<path id="diagSegment" d="M200,200 L100,100" fill="none" stroke="rgb(127,63,127)" stroke-width="2" stroke-opacity="0"/>
<! keyframe 7 />
<text id="curve1dDesc1" fill-opacity="0" >
Some curves initially occupy
</text>
<text id="curve1dDesc2" y="240" fill-opacity="0" >
one-dimensional sectors, then diverge.
</text>
<path id="cubicSegment" fill="none" stroke="black" />
<path id="cubicSegment1" d="M200,200 C200,200 200,200 200,200" fill="none" />
<path id="cubicSegment2" d="M200,200 C250,200 300,200 300,100" fill="none"/>
<text id="sectorNumberDesc" fill-opacity="0" >
Each sector is assigned a number.
</text>
<text id="spanSectorDesc" fill-opacity="0" >
Each span has a bit set for one or more sectors.
</text>
<text id="bitOverDesc" fill-opacity="0" >
Span sets allow rough sorting without angle computation.
</text>
</svg>
<! canvas support />
<script>
var keyFrameQueue = [];
var animationsPending = [];
var animationsActive = [];
var displayList = [];
var visibleFinished = [];
var animationState = {};
animationState.reset = function () {
this.start = null;
this.time = 0;
this.requestID = null;
this.paused = false;
this.displayEngine = 'Canvas';
}
circle.center = { x: 200, y: 200 }
circle.radius = 100;
function assert(condition) {
if (!condition) debugger;
}
function CanvasGrads(ctx) {
var grad1 = ctx.createRadialGradient(200, 200, 0, 200, 200, 300);
grad1.addColorStop(0, "rgba(0,0,255, 0.3)");
grad1.addColorStop(1, "rgba(0,0,255, 0)");
var grad2 = ctx.createRadialGradient(200, 200, 0, 200, 200, 300);
grad2.addColorStop(0, "rgba(0,255,0, 0.3)");
grad2.addColorStop(1, "rgba(0,255,0, 0)");
var grad3 = ctx.createRadialGradient(200, 200, 0, 200, 200, 300);
grad3.addColorStop(0, "rgba(255,0,0, 0.3)");
grad3.addColorStop(1, "rgba(255,0,0, 0)");
var grad4 = ctx.createRadialGradient(200, 200, 0, 200, 200, 300);
grad4.addColorStop(0, "rgba(192,63,192, 0.3)");
grad4.addColorStop(1, "rgba(192,63,192, 0)");
var grad5 = ctx.createRadialGradient(200, 200, 0, 200, 200, 300);
grad5.addColorStop(0, "rgba(127,127,0, 0.3)");
grad5.addColorStop(1, "rgba(127,127,0, 0)");
var grad6 = ctx.createRadialGradient(200, 200, 0, 200, 200, 300);
grad6.addColorStop(0, "rgba(127,0,127, 0.3)");
grad6.addColorStop(1, "rgba(127,0,127, 0)");
var grad7 = ctx.createRadialGradient(200, 200, 0, 200, 200, 300);
grad7.addColorStop(0, "rgba(0,127,127, 0.3)");
grad7.addColorStop(1, "rgba(0,127,127, 0)");
var grad8 = ctx.createRadialGradient(200, 200, 0, 200, 200, 300);
grad8.addColorStop(0, "rgba(63,192,63, 0.3)");
grad8.addColorStop(1, "rgba(63,192,63, 0)");
var data = {
grad1: grad1,
grad2: grad2,
grad3: grad3,
grad4: grad4,
grad5: grad5,
grad6: grad6,
grad7: grad7,
grad8: grad8,
};
return data;
}
function skip_sep(data) {
if (!data.length) {
return data;
}
while (data[0] == ' ' || data[0] == ',') {
data = data.substring(1);
}
return data;
}
function find_points(str, value, count, isRelative, relative) {
var numRegEx = /-?\d+\.?\d*(?:e-?\d+)?/g;
var match;
for (var index = 0; index < count; ++index) {
str = skip_sep(str);
match = numRegEx.exec(str);
assert(match);
var x = Number(match[0]);
str = skip_sep(str);
match = numRegEx.exec(str);
assert(match);
var y = Number(match[0]);
value[index] = { x: x, y : y };
}
if (isRelative) {
for (var index = 0; index < count; index++) {
value[index].x += relative.x;
value[index].y += relative.y;
}
}
return str.substring(match.index + match[0].length);
}
function find_scalar(str, obj, isRelative, relative) {
var numRegEx = /-?\d+\.?\d*(?:e-?\d+)?/g;
str = skip_sep(str);
var match = numRegEx.exec(str);
obj.value = Number(match[0]);
if (isRelative) {
obj.value += relative;
}
return str.substring(match.index + match[0].length);
}
function parse_path(data) {
var path = "ctx.beginPath();\n";
var f = {x:0, y:0};
var c = {x:0, y:0};
var lastc = {x:0, y:0};
var points = [];
var op = '\0';
var previousOp = '\0';
var relative = false;
for (;;) {
data = skip_sep(data);
if (!data.length) {
break;
}
var ch = data[0];
if (('0' <= ch && ch <= '9') || ch == '-' || ch == '+') {
assert(op != '\0');
} else if (ch == ' ' || ch == ',') {
data = skip_sep(data);
} else {
op = ch;
relative = false;
if ('a' <= op && op <= 'z') {
op = op.toUpperCase();
relative = true;
}
data = data.substring(1);
data = skip_sep(data);
}
switch (op) {
case 'A':
var radii = [];
data = find_points(data, radii, 1, false, null);
var xaxisObj = {};
data = find_scalar(data, xaxisObj, false, null);
var largeArcObj = {};
data = find_scalar(data, largeArcObj, false, null);
var sweepObj = {};
data = find_scalar(data, sweepObj, false, null);
data = find_points(data, points, 1, relative, c);
var mid = { x: (c.x + points[0].x) / 2, y: (c.y + points[0].y) / 2 };
var midVec = { x: mid.x - c.x, y: mid.y - c.y };
var midLenSqr = midVec.x * midVec.x + midVec.y * midVec.y;
var radius = radii[0].x;
var scale = Math.sqrt(midLenSqr) / Math.sqrt(radius * radius - midLenSqr);
var tangentPt = { x: mid.x + midVec.y * scale,
y: mid.y - midVec.x * scale };
path += "ctx.arcTo(" + tangentPt.x + "," + tangentPt.y + ","
+ points[0].x + "," + points[0].y + "," + radius + ");\n";
c = points[0];
break;
case 'M':
data = find_points(data, points, 1, relative, c);
path += "ctx.moveTo(" + points[0].x + "," + points[0].y + ");\n";
op = 'L';
c = points[0];
break;
case 'L':
data = find_points(data, points, 1, relative, c);
path += "ctx.lineTo(" + points[0].x + "," + points[0].y + ");\n";
c = points[0];
break;
case 'H': {
var xObj = {};
data = find_scalar(data, xObj, relative, c.x);
path += "ctx.lineTo(" + xObj.value + "," + c.y + ");\n";
c.x = xObj.value;
} break;
case 'V': {
var yObj = {};
data = find_scalar(data, y, relative, c.y);
path += "ctx.lineTo(" + c.x + "," + yObj.value+ ");\n";
c.y = yObj.value;
} break;
case 'C':
data = find_points(data, points, 3, relative, c);
path += "ctx.bezierCurveTo(" + points[0].x + "," + points[0].y + ","
+ points[1].x + "," + points[1].y + ","
+ points[2].x + "," + points[2].y + ");\n";
lastc = points[1];
c = points[2];
break;
case 'S':
var pts2_3 = [];
data = find_points(data, pts2_3, 2, relative, c);
points[0] = c;
points[1] = pts2_3[0];
points[2] = pts2_3[1];
if (previousOp == 'C' || previousOp == 'S') {
points[0].x -= lastc.x - c.x;
points[0].y -= lastc.y - c.y;
}
path += "ctx.bezierCurveTo(" + points[0].x + "," + points[0].y + ","
+ points[1].x + "," + points[1].y + ","
+ points[2].x + "," + points[2].y + ");\n";
lastc = points[1];
c = points[2];
break;
case 'Q': // Quadratic Bezier Curve
data = find_points(data, points, 2, relative, c);
path += "ctx.quadraticCurveTo(" + points[0].x + "," + points[0].y + ","
+ points[1].x + "," + points[1].y + ");\n";
lastc = points[0];
c = points[1];
break;
case 'T':
var pts2 = [];
data = find_points(data, pts2, 1, relative, c);
points[0] = pts2[0];
points[1] = pts2[0];
if (previousOp == 'Q' || previousOp == 'T') {
points[0].x = c.x * 2 - lastc.x;
points[0].y = c.y * 2 - lastc.y;
}
path += "ctx.quadraticCurveTo(" + points[0].x + "," + points[0].y + ","
+ points[1].x + "," + points[1].y + ");\n";
path.quadTo(points[0], points[1]);
lastc = points[0];
c = points[1];
break;
case 'Z':
path += "ctx.closePath();\n";
c = f;
op = '\0';
break;
case '~':
var args = [];
data = find_points(data, args, 2, false, null);
path += "moveTo(" + args[0].x + "," + args[0].y + ");\n";
path += "lineTo(" + args[1].x + "," + args[1].y + ");\n";
break;
default:
return false;
}
if (previousOp == 0) {
f = c;
}
previousOp = op;
}
return path;
}
function CanvasPaths(ctx) {
var svgStrs = {
// keyframe 1
span1: "M200,200 Q300,300 200,300",
span2: "M200,200 C100,300 100,400 200,300",
span3: "M200,200 C300,100 100,400 300,200",
wedge1: "M200,200 L500,500 A 424.26,424.26 0,0,1 200,624.26 z",
wedge2: "M200,200 L200,624.26 A 424.26,424.26 0,0,1 -100,500 z",
wedge3: "M200,200 L500,-100 A 424.26,424.26 0,0,1 240,622.5 z",
// keyframe 2
span4: "M200,200 Q300,300 400,300",
span5: "M200,200 Q280,320 200,400",
span6: "M200,200 Q60,340 100,400",
wedge4: "M200,200 L500,500 A 424.26,424.26 0,0,1 579.47,389.74 z",
wedge5: "M200,200 L389.74,579.47 A 424.26,424.26 0,0,1 200,500 z",
wedge6: "M200,200 L10.26,579.47 A 424.26,424.26 0,0,1 -100,500 z",
// keyframe 3
xaxis: "M100,200 L300,200",
yaxis: "M200,100 L200,300",
wedgeXY8: "M200,200 L500,500 A 424.26,424.26 0,0,1 624.26,200 z",
wedgeXY6: "M200,200 L-100,500 A 424.26,424.26 0,0,1 200,624.26 z",
wedgeXY3: "M200,200 L-100,-100 A 424.26,424.26 0,0,1 200,-175.74 z",
// keyframe 4
wedgeXY1: "M200,200 L500,-100 A 424.26,424.26 0,0,1 624.26,200 z",
wedgeXY2: "M200,200 L200,-175.74 A 424.26,424.26 0,0,1 500,-100 z",
wedgeXY4: "M200,200 L-175.74,200 A 424.26,424.26 0,0,1 -100,-100 z",
wedgeXY5: "M200,200 L-100,500 A 424.26,424.26 0,0,1 -175.74,200 z",
wedgeXY7: "M200,200 L200,624.26 A 424.26,424.26 0,0,1 500,500 z",
lineSegment: "M200,200 L200,624.26",
// keyframe 5
curveSegment: "M200,200 C250,200 300,150 300,100",
curveSegment1: "M200,200 C250,200 300,150 300,100",
curveSegment2: "M200,200 C250,200 300,150 200,100",
curveSegment3: "M200,200 C350,200 250,-150 170,300",
// keyframe 6
horzSegment: "M200,200 L341.4,200",
vertSegment: "M200,200 L200,341.4",
diagSegment: "M200,200 L100,100",
// keyframe 7
cubicSegment: "M200,200 C200,200 200,200 200,200",
cubicSegment1: "M200,200 C200,200 200,200 200,200",
cubicSegment2: "M200,200 C250,200 300,200 300,100",
};
var paths = [];
var keys = Object.keys(svgStrs);
for (var index in keys) {
var key = keys[index];
var str = svgStrs[key];
var path = parse_path(str);
var record = [];
paths[key] = {
str: str,
funcBody: path,
};
}
return paths;
}
function canvas_fill_font(record) {
assert(record);
var str = 'ctx.font = "normal 1.3rem Helvetica,Arial";\n';
if (record.fillStyle) {
str += 'ctx.fillStyle = ' + record.fillStyle + ';\n';
}
return str;
}
function canvas_fill_text(record) {
assert(record);
assert(typeof record.fillText == 'string');
return 'ctx.fillText("' + record.fillText + '"';
}
function canvas_xy(record) {
var x = typeof record.x == "number" ? record.x : 400;
var y = typeof record.y == "number" ? record.y : 200;
return ', ' + x + ', ' + y + ');\n';
}
function canvas_text_xy(record) {
return canvas_fill_text(record) + canvas_xy(record);
}
function add_canvas_stroke(paths, data, id, strokeStyle) {
var record = {};
record.data = paths[id].funcBody;
record.style = 'ctx.strokeStyle = ' + (strokeStyle ? strokeStyle : '"black"') + ';\n';
record.draw = 'ctx.stroke();\n';
record.func = new Function('ctx', record.data + record.style + record.draw);
return data[id] = record;
}
function add_canvas_style(record, style) {
record.style += style;
record.func = new Function('ctx', record.data + record.style + record.draw);
}
function add_canvas_fill(paths, data, id, fillStyle) {
var record = {};
record.data = paths[id].funcBody;
record.style = 'ctx.fillStyle = ' + (fillStyle ? fillStyle : '"black"') + ';\n';
record.draw = 'ctx.fill();\n';
record.func = new Function('ctx', record.data + record.style + record.draw);
return data[id] = record;
}
function add_canvas_text(data, id, params) {
var record = {};
record.style = canvas_fill_font(params);
record.draw = canvas_fill_text(params);
record.position = canvas_xy(params);
record.x = params.x;
record.y = params.y;
record.func = new Function('ctx', record.style + record.draw + record.position);
return data[id] = record;
}
function keyframe1(grads, paths) {
var data = [];
add_canvas_text(data, "spanWedgeDesc", { fillText:"All spans are contained by a wedge" } );
add_canvas_stroke(paths, data, "span1");
add_canvas_stroke(paths, data, "span2");
add_canvas_stroke(paths, data, "span3");
add_canvas_fill(paths, data, "wedge1", "grads.grad1");
add_canvas_fill(paths, data, "wedge2", "grads.grad2");
add_canvas_fill(paths, data, "wedge3", "grads.grad3");
return data;
}
function keyframe2(grads, paths) {
var data = [];
add_canvas_text(data, "trivialWedgeDesc1", { fillText:"Wedges that don't overlap can be" } );
add_canvas_text(data, "trivialWedgeDesc2", { fillText:"easily sorted.", y:240 } );
add_canvas_stroke(paths, data, "span4").debug = true;
add_canvas_stroke(paths, data, "span5");
add_canvas_stroke(paths, data, "span6");
add_canvas_fill(paths, data, "wedge4", "grads.grad1");
add_canvas_fill(paths, data, "wedge5", "grads.grad2");
add_canvas_fill(paths, data, "wedge6", "grads.grad3");
return data;
}
function setup_axes(paths, data) {
var color = '"rgb(191,191,191)"';
var xaxis = add_canvas_stroke(paths, data, "xaxis", color);
xaxis.funcBody = canvas_fill_font( { fillStyle:color } );
xaxis.funcBody += canvas_text_xy( { fillText:"-X", x:100, y:220 } );
xaxis.funcBody += "ctx.textAlign = 'right';\n";
xaxis.funcBody += canvas_text_xy( { fillText:"+X", x:300, y:220 } );
xaxis.func = new Function('ctx', xaxis.data + xaxis.style + xaxis.draw + xaxis.funcBody);
var yaxis = add_canvas_stroke(paths, data, "yaxis", color);
yaxis.funcBody = canvas_fill_font( { fillStyle:color } );
yaxis.funcBody += "ctx.textBaseline = 'hanging';\n";
yaxis.funcBody += canvas_text_xy( { fillText:"-Y", x:205, y:100 } );
yaxis.funcBody += "ctx.textBaseline = 'alphabetic';\n";
yaxis.funcBody += canvas_text_xy( { fillText:"+Y", x:205, y:300 } );
yaxis.func = new Function('ctx', yaxis.data + yaxis.style + yaxis.draw + yaxis.funcBody);
}
function keyframe3(grads, paths) {
var data = [];
add_canvas_text(data, "sectorDesc1", { fillText:"A sector is a wedge of a circle" } );
add_canvas_text(data, "sectorDesc2", { fillText:"containing a range of points.", y:240 } );
setup_axes(paths, data);
add_canvas_text(data, "sectorDescXYA",
{ fillText:"X > 0 Y > 0 Y < X", x:500, y:310, fillStyle:'"rgb(0,0,255)"'} );
add_canvas_text(data, "sectorDescXYB",
{ fillText:"X < 0 Y > 0 -Y < X", x:500, y:360, fillStyle:'"rgb(0,127,0)"'} );
add_canvas_text(data, "sectorDescXYC",
{ fillText:"X < 0 Y < 0 Y < X", x:500, y:410, fillStyle:'"rgb(255,0,0)"'} );
add_canvas_fill(paths, data, "wedgeXY8", "grads.grad1");
add_canvas_fill(paths, data, "wedgeXY6", "grads.grad2");
add_canvas_fill(paths, data, "wedgeXY3", "grads.grad3");
return data;
}
function keyframe4(grads, paths) {
var data = [];
setup_axes(paths, data);
add_canvas_text(data, "lineSingleDesc",
{ fillText:"Line spans are contained by a single sector." } );
add_canvas_text(data, "sectorDescXY1",
{ fillText:"X > 0 Y < 0 -Y < X", x:500, y:460, fillStyle:'"rgb(192,63,192)"'} );
add_canvas_text(data, "sectorDescXY2",
{ fillText:"X > 0 Y < 0 -Y > X", x:500, y:460, fillStyle:'"rgb(127,127,0)"'} );
add_canvas_text(data, "sectorDescXY3",
{ fillText:"X < 0 Y < 0 Y < X", x:500, y:460, fillStyle:'"rgb(255,0,0)"'} );
add_canvas_text(data, "sectorDescXY4",
{ fillText:"X < 0 Y < 0 Y > X", x:500, y:460, fillStyle:'"rgb(127,0,127)"'} );
add_canvas_text(data, "sectorDescXY5",
{ fillText:"X < 0 Y > 0 -Y < X", x:500, y:460, fillStyle:'"rgb(0,127,127)"'} );
add_canvas_text(data, "sectorDescXY6",
{ fillText:"X < 0 Y > 0 -Y < X", x:500, y:460, fillStyle:'"rgb(0,127,0)"'} );
add_canvas_text(data, "sectorDescXY7",
{ fillText:"X > 0 Y > 0 Y > X", x:500, y:460, fillStyle:'"rgb(63,192,63)"'} );
add_canvas_text(data, "sectorDescXY8",
{ fillText:"X > 0 Y > 0 Y < X", x:500, y:460, fillStyle:'"rgb(0,0,255)"'} );
add_canvas_fill(paths, data, "wedgeXY1", "grads.grad4");
add_canvas_fill(paths, data, "wedgeXY2", "grads.grad5");
add_canvas_fill(paths, data, "wedgeXY3", "grads.grad3");
add_canvas_fill(paths, data, "wedgeXY4", "grads.grad6");
add_canvas_fill(paths, data, "wedgeXY5", "grads.grad7");
add_canvas_fill(paths, data, "wedgeXY6", "grads.grad2");
add_canvas_fill(paths, data, "wedgeXY7", "grads.grad8");
add_canvas_fill(paths, data, "wedgeXY8", "grads.grad1");
add_canvas_stroke(paths, data, "lineSegment");
return data;
}
function keyframe5(grads, paths) {
var data = [];
setup_axes(paths, data);
add_canvas_text(data, "curveMultipleDesc1",
{ fillText:"A curve span may cover more" } );
add_canvas_text(data, "curveMultipleDesc2",
{ fillText:"than one sector.", y:240 } );
add_canvas_stroke(paths, data, "curveSegment");
add_canvas_text(data, "sectorDescXY1",
{ fillText:"X > 0 Y < 0 -Y < X", x:500, y:460, fillStyle:'"rgb(192,63,192)"'} );
add_canvas_text(data, "sectorDescXY2",
{ fillText:"X > 0 Y < 0 -Y > X", x:500, y:460, fillStyle:'"rgb(127,127,0)"'} );
add_canvas_text(data, "sectorDescXY3",
{ fillText:"X < 0 Y < 0 Y < X", x:500, y:460, fillStyle:'"rgb(255,0,0)"'} );
add_canvas_text(data, "sectorDescXY4",
{ fillText:"X < 0 Y < 0 Y > X", x:500, y:460, fillStyle:'"rgb(127,0,127)"'} );
add_canvas_text(data, "sectorDescXY5",
{ fillText:"X < 0 Y > 0 -Y < X", x:500, y:460, fillStyle:'"rgb(0,127,127)"'} );
add_canvas_text(data, "sectorDescXY6",
{ fillText:"X < 0 Y > 0 -Y < X", x:500, y:460, fillStyle:'"rgb(0,127,0)"'} );
add_canvas_fill(paths, data, "wedgeXY1", "grads.grad4");
add_canvas_fill(paths, data, "wedgeXY2", "grads.grad5");
add_canvas_fill(paths, data, "wedgeXY3", "grads.grad3");
add_canvas_fill(paths, data, "wedgeXY4", "grads.grad6");
add_canvas_fill(paths, data, "wedgeXY5", "grads.grad7");
add_canvas_fill(paths, data, "wedgeXY6", "grads.grad2");
return data;
}
function keyframe6(grads, paths) {
var data = [];
setup_axes(paths, data);
add_canvas_text(data, "line1DDest1",
{ fillText:"Some lines occupy one-dimensional" } );
add_canvas_text(data, "line1DDest2",
{ fillText:"sectors.", y:240 } );
add_canvas_text(data, "sectorDescXY9",
{ fillText:"X > 0 Y == 0", x:500, y:460, fillStyle:'"rgb(192,92,31)"' } );
add_canvas_text(data, "sectorDescXY10",
{ fillText:"Y > 0 0 == X", x:500, y:460, fillStyle:'"rgb(31,92,192)"' } );
add_canvas_text(data, "sectorDescXY11",
{ fillText:"X < 0 Y == X", x:500, y:460, fillStyle:'"rgb(127,63,127)"' } );
var horz = add_canvas_stroke(paths, data, "horzSegment", '"rgb(192,92,31)"');
add_canvas_style(horz, "ctx.lineWidth = " + 2 * animationState.resScale + ";\n");
var vert = add_canvas_stroke(paths, data, "vertSegment", '"rgb(31,92,192)"');
add_canvas_style(vert, "ctx.lineWidth = " + 2 * animationState.resScale + ";\n");
var diag = add_canvas_stroke(paths, data, "diagSegment", '"rgb(127,63,127)"');
add_canvas_style(diag, "ctx.lineWidth = " + 2 * animationState.resScale + ";\n");
return data;
}
function keyframe7(grads, paths) {
var data = [];
setup_axes(paths, data);
add_canvas_text(data, "curve1dDesc1",
{ fillText:"Some curves initially occupy" } );
add_canvas_text(data, "curve1dDesc2",
{ fillText:"one-dimensional sectors, then diverge.", y:240 } );
add_canvas_stroke(paths, data, "cubicSegment");
add_canvas_text(data, "sectorDescXY1",
{ fillText:"X > 0 Y < 0 -Y < X", x:500, y:460, fillStyle:'"rgb(192,63,192)"'} );
add_canvas_text(data, "sectorDescXY9",
{ fillText:"X > 0 Y == 0", x:500, y:460, fillStyle:'"rgb(192,92,31)"' } );
var horz = add_canvas_stroke(paths, data, "horzSegment", '"rgb(192,92,31)"');
add_canvas_style(horz, "ctx.lineWidth = " + 2 * animationState.resScale + ";\n");
add_canvas_fill(paths, data, "wedgeXY1", "grads.grad4");
return data;
}
var canvasData = null;
function CanvasInit(keyframe) {
canvasData = window[keyframe](grads, paths);
}
</script>
<script>
function interp(A, B, t) {
return A + (B - A) * t;
}
function interp_cubic_coords(x1, x2, x3, x4, t)
{
var ab = interp(x1, x2, t);
var bc = interp(x2, x3, t);
var cd = interp(x3, x4, t);
var abc = interp(ab, bc, t);
var bcd = interp(bc, cd, t);
var abcd = interp(abc, bcd, t);
return abcd;
}
function cubic_partial(value, p) {
var x1 = p[0], y1 = p[1], x2 = p[2], y2 = p[3];
var x3 = p[4], y3 = p[5], x4 = p[6], y4 = p[7];
var t1 = 0, t2 = value;
var ax = interp_cubic_coords(x1, x2, x3, x4, t1);
var ay = interp_cubic_coords(y1, y2, y3, y4, t1);
var ex = interp_cubic_coords(x1, x2, x3, x4, (t1*2+t2)/3);
var ey = interp_cubic_coords(y1, y2, y3, y4, (t1*2+t2)/3);
var fx = interp_cubic_coords(x1, x2, x3, x4, (t1+t2*2)/3);
var fy = interp_cubic_coords(y1, y2, y3, y4, (t1+t2*2)/3);
var dx = interp_cubic_coords(x1, x2, x3, x4, t2);
var dy = interp_cubic_coords(y1, y2, y3, y4, t2);
var mx = ex * 27 - ax * 8 - dx;
var my = ey * 27 - ay * 8 - dy;
var nx = fx * 27 - ax - dx * 8;
var ny = fy * 27 - ay - dy * 8;
var bx = (mx * 2 - nx) / 18;
var by = (my * 2 - ny) / 18;
var cx = (nx * 2 - mx) / 18;
var cy = (ny * 2 - my) / 18;
var array = [
ax, ay, bx, by, cx, cy, dx, dy
];
return array;
}
function evaluate_at(value, p) {
var array = [];
for (var index = 0; index < p.length; ++index) {
var func = new Function('value', 'return ' + p[index] + ';');
array[index] = func(value);
}
return array;
}
function interpolate_at(value, p) {
var array = [];
var start = p[0];
var end = p[1];
assert(typeof end == typeof start);
switch (typeof start) {
case 'object':
for (var index = 0; index < start.length; ++index) {
array[index] = interp(start[index], end[index], value);
}
break;
case 'number':
array[index] = interp(start, end, value);
break;
default:
debugger;
}
return array;
}
function AnimationAddCommon(timing, range, attr, inParams) {
var animation = {
timing: timing,
range: range,
attr: attr,
inParams: inParams,
duration: timing[1] - timing[0],
remaining: timing[1] - timing[0],
firstStep: true,
}
animationsPending.push(animation);
return animation;
}
function AnimationAddSVG(timing, element, range, attr, inParams) {
var animation = AnimationAddCommon(timing, range, attr, inParams);
animation.element = element;
return animation;
}
function AnimationAddCanvas(timing, element, range, attr, inParams) {
var animation = AnimationAddCommon(timing, range, attr, inParams);
animation.element = canvasData[element];
assert(animation.element);
animation.firstElement = null;
return animation;
}
function AnimationAdd(timing, e, range, attr, funct, inParams) {
if (!range) {
range = [0, 1];
}
if (!attr) {
attr = 'opacity';
}
if (!funct) {
funct = interpolate_at;
}
var element;
switch (animationState.displayEngine) {
case 'SVG':
element = typeof e == 'string' ? document.getElementById(e) : e;
break;
case 'Canvas':
element = typeof e == 'string' ? e : e.id;
break;
default:
debugger;
}
assert(element);
switch (attr) {
case 'path':
if (!inParams) {
inParams = PathDataArray(element);
}
break;
case 'opacity':
if (!inParams) {
inParams = [0, 1];
}
break;
default:
debugger;
}
var funcBody = 'var outParams = ' + funct.name + '(value, inParams);\n';
switch (animationState.displayEngine) {
case 'SVG':
switch (attr) {
case 'path':
var verbArray = PathVerbArray(element);
funcBody += 'return ';
for (var index = 0; index < inParams.length; ++index) {
funcBody += '"' + verbArray[index] + '"';
funcBody += 'outParams[' + index + '];\n';
}
if (verbArray.length > inParams.length) {
funcBody += '"' + verbArray[verbArray.length - 1] + '"';
}
funcBody += ';\n';
var animation = AnimationAddSVG(timing, element, range, "d", inParams);
animation.func = new Function('value', 'inParams', funcBody);
break;
case 'opacity':
if (animation.element.getAttribute("stroke-opacity")) {
animation = AnimationAddSVG(timing, element, range, "stroke-opacity", inParams);
}
if (animation.element.getAttribute("fill-opacity")) {
animation = AnimationAddSVG(timing, element, range, "fill-opacity", inParams);
}
break;
default:
debugger;
}
case 'Canvas':
switch (attr) {
case 'path':
var verbArray = PathVerbArray(element);
for (var index = 0; index < inParams.length; ++index) {
funcBody += verbArray[index];
funcBody += 'outParams[' + index + ']';
}
if (verbArray.length > inParams.length) {
funcBody += verbArray[verbArray.length - 1];
}
animation = AnimationAddCanvas(timing, element, range, attr, inParams);
funcBody += animation.element.style + animation.element.draw;
animation.func = new Function('ctx', 'value', 'inParams', funcBody);
break;
case 'opacity':
animation = AnimationAddCanvas(timing, element, range, attr, inParams);
break;
default:
debugger;
}
break;
default:
debugger;
}
return animation;
}
function path_data_common(element, getValues) {
var numRegEx = /-?\d+\.?\d*(?:e-?\d+)?/g;
var data = [];
var match;
var path;
switch (animationState.displayEngine) {
case 'SVG': path = element.getAttribute("d"); break;
case 'Canvas': path = paths[element].funcBody; break;
default: debugger;
}
if (getValues) {
while ((match = numRegEx.exec(path))) {
data.push(Number(match[0]));
}
} else {
var sIndex = 0;
while ((match = numRegEx.exec(path))) {
if (sIndex < match.index) {
data.push(path.substring(sIndex, match.index));
}
sIndex = match.index + match[0].length;
}
if (sIndex < path.length) {
data.push(path.substring(sIndex, path.length));
}
}
return data;
}
function PathDataArray(element) {
return path_data_common(element, true);
}
function PathVerbArray(element) {
return path_data_common(element, false);
}
function PathSet(element, funct, value, params) {
var pathVerbs = PathVerbArray(element);
if (funct) {
params = funct(value, params);
}
var setValue = '';
for (var index = 0; index < params.length; ++index) {
setValue += pathVerbs[index];
setValue += params[index];
}
if (pathVerbs.length > params.length) {
setValue += pathVerbs[pathVerbs.length - 1];
}
switch (animationState.displayEngine) {
case 'SVG':
element.setAttribute('d', setValue);
break;
case 'Canvas':
element.func = new Function('ctx', setValue + element.style + element.draw);
break;
default:
debugger;
}
}
function RemoveFromArray(array, element) {
for (var index in array) {
var record = array[index];
if (record.element == element) {
array.splice(index, 1);
break;
}
}
}
function EndAnimationCanvas(animation, visibleFinished) {
var changeAlpha = "opacity" == animation.attr;
if (!changeAlpha || animation.range[1] > 0) {
if (changeAlpha) {
ctx.save();
ctx.globalAlpha = animation.range[1];
}
if (animation.func) {
animation.func(ctx, animation.range[animation.range.length - 1], animation.inParams);
} else {
animation.element.func(ctx);
}
if (changeAlpha) {
ctx.restore();
}
// if (visibleFinished) {
// visibleFinished.push(animation);
// }
} else {
// if (visibleFinished) {
// RemoveFromArray(visibleFinished, animation.element);
// }
}
}
/* start here
canvas:
display list :
for each element (canvas)
save
set global alpha (override)
create geometry (override)
create style (override)
draw
restore
maybe each action should have an override slot
animations write to the slot
each element in display list then iterates overrides once the animations complete the frame
so, first --
active animations update the display list
next --
active animations install themselves in override slots
finally
display list is iterated, calling override slots
----------------
svg:
display list is implicit
active animations write element attributes
*/
function EndAnimationSVG(animation, visibleFinished) {
switch (animation.attr) {
case "opacity":
animation.element.setAttribute(animation.attribute, animation.range[1]);
if (animation.range[1] > 0) {
visibleFinished.push(animation);
} else {
RemoveFromArray(visibleFinished, animation.element);
}
break;
case "path":
var attrStr = animation.func(animation.range[1], animation.inParams);
animation.element.setAttribute(animation.attribute, attrStr);
break;
default:
debugger;
}
}
function StepAnimationCanvas(animation, value) {
var endValue = animation.range[animation.range.length - 1];
var interp = animation.range[0] + (endValue - animation.range[0]) * (1 - value);
if (animation.firstStep) {
RemoveFromArray(visibleFinished, animation.element);
animation.firstStep = false;
}
var changeAlpha = "opacity" == animation.attr;
if (changeAlpha) {
ctx.save();
ctx.globalAlpha = interp;
}
if (animation.func) {
animation.func(ctx, interp, animation.inParams);
} else {
animation.element.func(ctx);
}
if (changeAlpha) {
ctx.restore();
}
}
function StepAnimationSVG(animation, value) {
var interp = animation.range[0] + (animation.range[1] - animation.range[0]) * (1 - value);
switch (animation.attr) {
case "opacity":
animation.element.setAttribute(animation.attribute, interp);
break;
case "path":
var attrStr = animation.func(interp, animation.inParams);
animation.element.setAttribute(animation.attribute, attrStr);
break;
default:
debugger;
}
}
var animate_frame = 0;
function AnimateList(now) {
++animate_frame;
if (animationState.paused) {
return;
}
if (animationState.start == null) {
animationState.start = now - animationState.time;
}
animationState.time = now - animationState.start;
var stillPending = [];
for (var index in animationsPending) {
var animation = animationsPending[index];
var interval = animationState.time - animation.timing[0];
if (interval <= 0) {
stillPending.push(animation);
continue;
}
animationsActive.push(animation);
var inList = false;
for (var dlIndex in displayList) {
var displayable = displayList[dlIndex];
if (displayable == animation.element) {
inList = true;
break;
}
}
if (!inList) {
displayList.push(animation.element);
}
}
animationsPending = stillPending;
var stillAnimating = [];
if ('Canvas' == animationState.displayEngine) {
ctx.clearRect(0, 0, canvas.width, canvas.height);
// for (var index in visibleFinished) {
// var animation = visibleFinished[index];
// animation.endAnimation = false;
// }
}
for (var index in animationsActive) {
var animation = animationsActive[index];
var interval = animationState.time - animation.timing[0];
animation.remaining = animation.duration > interval ? animation.duration - interval : 0;
animation.endAnimation = animation.remaining <= 0;
if (animation.endAnimation) {
switch (animationState.displayEngine) {
case 'SVG': EndAnimationSVG(animation, visibleFinished); break;
case 'Canvas': EndAnimationCanvas(animation, visibleFinished); break;
default: debugger;
}
continue;
}
var value = animation.remaining / animation.duration;
switch (animationState.displayEngine) {
case 'SVG': StepAnimationSVG(animation, value); break;
case 'Canvas':
if (!animation.firstElement || !animation.firstElement.endAnimation) {
StepAnimationCanvas(animation, value);
}
break;
default: debugger;
}
stillAnimating.push(animation);
}
if ('Canvas' == animationState.displayEngine) {
for (var index in visibleFinished) {
var animation = visibleFinished[index];
if (!animation.endAnimation) {
EndAnimationCanvas(animation, null);
}
}
}
animationsActive = stillAnimating;
if (animationsPending.length || animationsActive.length) {
animationState.requestID = requestAnimationFrame(AnimateList);
}
}
function CancelAnimate(now) {
if (animationState.start == null) {
animationState.start = now;
}
var time = now - animationState.start;
var stillAnimating = [];
for (var index in animationsActive) {
var animation = animationsActive[index];
var remaining = animation.remaining - time;
var value = remaining / animation.duration;
switch (animationState.displayEngine) {
case 'SVG': animation.element.setAttribute(animation.attribute, value); break;
case 'Canvas': break;
}
if (remaining <= 0) {
continue;
}
stillAnimating.push(animation);
}
animationsActive = stillAnimating;
if (animationsActive.length) {
animationState.requestID = requestAnimationFrame(CancelAnimate);
return;
}
animationsPending = [];
animationState.reset();
if (keyFrameQueue.length > 0) {
var animationFunc = keyFrameQueue.pop();
animationFunc();
}
}
function CancelAnimation() {
cancelAnimationFrame(animationState.requestID);
for (var index in animationsActive) {
var animation = animationsActive[index];
switch (animation.attr) {
case "opacity":
var tmp = animation.range[0]; animation.range[0] = animation.range[1]; animation[1] = tmp;
animation.remaining = animation.duration - animation.remaining;
animation.remaining /= animation.duration / 1000;
animation.duration = 1000;
break;
case "fadeOut":
RemoveFromArray(visibleFinished, animation.element);
break;
case "path":
break;
default:
debugger;
}
}
for (var index in visibleFinished) {
var animation = visibleFinished[index];
animation.action = "fadeOut";
animation.remaining = animation.duration = 1000;
animationsActive.push(animation);
}
visibleFinished = [];
animationState.reset();
animationState.requestID = requestAnimationFrame(CancelAnimate);
}
function PauseAnimation() {
animationState.paused = true;
}
function QueueAnimation(animationFunc) {
if (null == animationState.requestID) {
animationFunc();
return;
}
keyFrameQueue.push(animationFunc);
}
function UnpauseAnimation() {
animationState.paused = false;
animationState.start = performance.now() - animationState.time;
animationState.requestID = requestAnimationFrame(AnimateList);
}
function SetupTextSVG(t, x, y) {
var text;
if (typeof t == "string") {
text = document.getElementById(t);
} else {
text = t;
}
text.setAttribute("font-family", "Helvetica,Arial");
text.setAttribute("font-size", "1.3rem");
if (typeof x == 'number') {
text.setAttribute("x", x);
} else if (null == text.getAttribute("x")) {
text.setAttribute("x", 400);
}
if (typeof y == 'number') {
text.setAttribute("y", y);
} else if (null == text.getAttribute("y")) {
text.setAttribute("y", 200);
}
}
function SetupTextCanvas(t, x, y) {
var text = typeof t == 'string' ? t : t.id;
var record = canvasData[text];
if (typeof x == 'number') {
record.x = x;
}
if (typeof y == 'number') {
record.y = y;
}
record.position = canvas_xy(record);
record.func = new Function('ctx', record.style + record.draw + record.position);
}
function SetupText(t, x, y) {
switch (animationState.displayEngine) {
case 'SVG':
SetupTextSVG(t, x, y);
break;
case 'Canvas':
SetupTextCanvas(t, x, y);
break;
default:
debugger;
}
}
function FirstText(text) {
SetupText(text);
AnimationAdd([0, 1000], text);
}
function EngineInit(keyframe) {
displayList = [];
switch (animationState.displayEngine) {
case 'SVG': break;
case 'Canvas': CanvasInit(keyframe); break;
default: debugger;
}
}
function EngineStart() {
switch (animationState.displayEngine) {
case 'SVG': break;
case 'Canvas':
// associate fadeIn and fadeOut
for (var outerIndex in animationsPending) {
var outer = animationsPending[outerIndex];
for (var innerIndex in animationsPending) {
if (outerIndex == innerIndex) {
continue;
}
var inner = animationsPending[innerIndex];
if (inner.element == outer.element) {
inner.firstElement = outer;
continue;
}
}
}
break;
default: debugger;
}
animationState.reset();
animationState.requestID = requestAnimationFrame(AnimateList);
}
function AnimateSpanWedge() {
EngineInit('keyframe1');
FirstText(spanWedgeDesc);
AnimationAdd([1000, 2000], span1);
AnimationAdd([1500, 3000], wedge1);
AnimationAdd([3500, 4000], span1, [1, 0]);
AnimationAdd([3500, 4000], wedge1, [1, 0]);
AnimationAdd([4000, 5000], span2);
AnimationAdd([4500, 6000], wedge2);
AnimationAdd([6500, 7000], span2, [1, 0]);
AnimationAdd([6500, 7000], wedge2, [1, 0]);
AnimationAdd([7000, 8000], span3);
AnimationAdd([7500, 9000], wedge3);
EngineStart();
}
function AnimateTrivialWedge() {
EngineInit('keyframe2');
FirstText(trivialWedgeDesc1);
FirstText(trivialWedgeDesc2);
AnimationAdd([2000, 3500], span4);
AnimationAdd([2000, 3500], wedge4);
AnimationAdd([2000, 3500], span5);
AnimationAdd([2000, 3500], wedge5);
AnimationAdd([2000, 3500], span6);
AnimationAdd([2000, 3500], wedge6);
EngineStart();
}
function AnimateSectorDesc() {
EngineInit('keyframe3');
FirstText(sectorDesc1);
FirstText(sectorDesc2);
AnimationAdd([ 0, 1000], xaxis);
AnimationAdd([ 500, 1500], yaxis);
AnimationAdd([2000, 3500], sectorDescXYA);
AnimationAdd([2000, 3500], wedgeXY8);
AnimationAdd([3000, 4500], sectorDescXYB);
AnimationAdd([3000, 4500], wedgeXY6);
AnimationAdd([4000, 5500], sectorDescXYC);
AnimationAdd([4000, 5500], wedgeXY3);
EngineStart();
}
function AnimateLineSingle() {
EngineInit('keyframe4');
FirstText(lineSingleDesc);
for (var i = 1; i <= 8; ++i) {
SetupText("sectorDescXY" + i, 500, 260);
}
AnimationAdd([ 0, 1000], xaxis);
AnimationAdd([ 0, 1000], yaxis);
AnimationAdd([1000, 2000], lineSegment);
AnimationAdd([1000, 3000], lineSegment, [-22.5 * Math.PI / 180], "path", evaluate_at,
[ circle.center.x, circle.center.y,
circle.center.x + " + " + circle.radius + " * Math.cos(value)",
circle.center.y + " + " + circle.radius + " * Math.sin(value)",
]);
AnimationAdd([2000, 3000], sectorDescXY1);
AnimationAdd([2000, 3000], wedgeXY1);
AnimationAdd([3000, 7000], lineSegment, [-22.5 * Math.PI / 180, (-22.5 - 360) * Math.PI / 180],
"path", evaluate_at,
[ circle.center.x, circle.center.y,
circle.center.x + " + " + circle.radius + " * Math.cos(value)",
circle.center.y + " + " + circle.radius + " * Math.sin(value)",
]);
for (var i = 1; i < 8; ++i) {
AnimationAdd([2500 + 500 * i, 3000 + 500 * i], "sectorDescXY" + (i + 1));
AnimationAdd([2500 + 500 * i, 3000 + 500 * i], "wedgeXY" + (i + 1));
AnimationAdd([2500 + 500 * i, 3000 + 500 * i], "sectorDescXY" + i, [1, 0]);
AnimationAdd([2500 + 500 * i, 3000 + 500 * i], "wedgeXY" + i, [1, 0]);
}
AnimationAdd([2500 + 500 * 8, 3000 + 500 * 8], sectorDescXY1);
AnimationAdd([2500 + 500 * 8, 3000 + 500 * 8], wedgeXY1);
AnimationAdd([2500 + 500 * 8, 3000 + 500 * 8], sectorDescXY8, [1, 0]);
AnimationAdd([2500 + 500 * 8, 3000 + 500 * 8], wedgeXY8, [1, 0]);
EngineStart();
}
function AnimateCurveMultiple() {
EngineInit('keyframe5');
var cubicStart = PathDataArray(curveSegment1);
var cubicMid = PathDataArray(curveSegment2);
var cubicEnd = PathDataArray(curveSegment3);
FirstText(curveMultipleDesc1);
FirstText(curveMultipleDesc2);
for (var i = 1; i <= 6; ++i) {
SetupText("sectorDescXY" + i, 500, 260 + i * 25);
}
AnimationAdd([ 0, 1000], xaxis);
AnimationAdd([ 0, 1000], yaxis);
AnimationAdd([1000, 2000], curveSegment);
AnimationAdd([2000, 3000], sectorDescXY1);
AnimationAdd([2000, 3000], wedgeXY1);
AnimationAdd([3000, 4000], curveSegment, [0, 1], "path", interpolate_at, [cubicStart, cubicMid]);
AnimationAdd([4000, 5000], sectorDescXY2);
AnimationAdd([4000, 5000], wedgeXY2);
AnimationAdd([5000, 6000], curveSegment, [0, 1], "path", interpolate_at, [cubicMid, cubicEnd]);
AnimationAdd([6000, 7000], sectorDescXY3);
AnimationAdd([6000, 7000], wedgeXY3);
AnimationAdd([6000, 7000], sectorDescXY4);
AnimationAdd([6000, 7000], wedgeXY4);
AnimationAdd([6000, 7000], sectorDescXY5);
AnimationAdd([6000, 7000], wedgeXY5);
AnimationAdd([6000, 7000], sectorDescXY6);
AnimationAdd([6000, 7000], wedgeXY6);
EngineStart();
}
function AnimateOneDLines() {
EngineInit('keyframe6');
FirstText(line1DDest1);
FirstText(line1DDest2);
for (var i = 9; i <= 11; ++i) {
SetupText("sectorDescXY" + i, 500, 260 + (i - 8) * 25);
}
AnimationAdd([ 0, 1000], xaxis);
AnimationAdd([ 0, 1000], yaxis);
AnimationAdd([2000, 3000], sectorDescXY9);
AnimationAdd([2000, 3000], horzSegment);
AnimationAdd([3000, 4000], sectorDescXY10);
AnimationAdd([3000, 4000], vertSegment);
AnimationAdd([4000, 5000], sectorDescXY11);
AnimationAdd([4000, 5000], diagSegment);
EngineStart();
}
function AnimateDiverging() {
EngineInit('keyframe7');
var cubicData = PathDataArray(cubicSegment2);
FirstText(curve1dDesc1);
FirstText(curve1dDesc2);
SetupText("sectorDescXY9", 500, 285);
SetupText("sectorDescXY1", 500, 320);
AnimationAdd([ 0, 1000], xaxis);
AnimationAdd([ 0, 1000], yaxis);
AnimationAdd([1900, 1900], cubicSegment);
AnimationAdd([2000, 3000], cubicSegment, [0, 1], "path", cubic_partial, cubicData);
AnimationAdd([2000, 3000], sectorDescXY9);
AnimationAdd([2000, 3000], horzSegment);
AnimationAdd([3000, 4000], sectorDescXY1);
AnimationAdd([3000, 4000], wedgeXY1);
EngineStart();
}
circle.animate = AnimateCircle;
circle.start = null;
function AngleToPt(center, radius, degrees) {
var radians = degrees * Math.PI / 180.0;
return {
x: center.x + (radius * Math.cos(radians)),
y: center.y - (radius * Math.sin(radians))
};
}
function PtsToSweep(pt1, pt2, center) { // unused
return {
start: 180 / Math.PI * Math.atan2(pt1.y - center.y, pt1.x - center.x),
end: 180 / Math.PI * Math.atan2(pt2.y - center.y, pt2.x - center.x)
};
}
function ArcStr(center, radius, startAngle, endAngle) {
var endPt = AngleToPt(center, radius, endAngle);
var arcSweep = endAngle - startAngle <= 180 ? "0" : "1";
return ["A", radius, radius, 0, arcSweep, 0, endPt.x, endPt.y].join(" ");
}
function ArcStart(center, radius, startAngle, endAngle) {
var startPt = AngleToPt(center, radius, startAngle);
return [ startPt.x, startPt.y, ArcStr(center, radius, startAngle, endAngle) ].join(" ");
}
function MakeArc(arcStart) {
return "M" + arcStart;
}
function MakeWedge(center, arcStart) {
return ["M", center.x, center.y, "L", arcStart, "z"].join(" ");
}
function Animate(path, now, dur) {
if (path.start == null) {
path.start = now;
// console.log("start=" + now);
}
if (now - path.start < dur) {
requestAnimationFrame(path.animate);
return true;
}
return false;
}
function AnimateCircle(now) {
if (circle.start == null) {
circleFill.setAttribute("fill-opacity", "0.3");
}
var dur = 2 * 1000;
var animating = Animate(circle, now, dur);
// console.log("now=" + now + "circle.start=" + circle.start )
var pathStr = ArcStart(circle.center, circle.radius, 0, (now - circle.start) / (dur / 359.9));
circle.setAttribute("d", MakeArc(pathStr));
circleFill.setAttribute("d", MakeWedge(circle.center, pathStr));
if (!animating) {
var delay = dur - (now - circle.start);
setTimeout(CircleFinal, delay);
}
}
function CircleFinal() {
var firstHalf = ArcStart(circle.center, circle.radius, 0, 180);
var secondHalf = ArcStr(circle.center, circle.radius, 180, 360);
circle.setAttribute("d", "M" + firstHalf + secondHalf + "z");
circleFill.setAttribute("d", "M" + firstHalf + secondHalf + "z");
}
var svgNS = "http://www.w3.org/2000/svg";
function CreateTextLabels()
{
for (var i = 0; i < 32; ++i) {
var text = document.createElementNS(svgNS, "text");
var pt = AngleToPt(circle.center, circle.radius + 80, i * 360 / 32);
text.setAttribute("id", "t" + i);
text.setAttribute("x", pt.x);
text.setAttribute("y", pt.y);
text.setAttribute("text-anchor", "middle");
text.setAttribute("alignment-baseline", "mathematical");
var textNode = document.createTextNode(i);
text.appendChild(textNode);
document.getElementById("svg").appendChild(text);
}
}
// CreateTextLabels();
var keyframeArray = [
AnimateSpanWedge,
AnimateTrivialWedge,
AnimateSectorDesc,
AnimateLineSingle,
AnimateCurveMultiple,
AnimateOneDLines,
AnimateDiverging,
];
var keyframeIndex = 3; // keyframeArray.length - 1; // normally 0 ; set to debug a particular frame
function QueueKeyframe() {
QueueAnimation(keyframeArray[keyframeIndex]);
if (keyframeIndex < keyframeArray.length - 1) {
++keyframeIndex;
}
}
var grads;
var paths;
var canvas;
var ctx;
function canvasSetup() {
canvas = document.getElementById("canvas");
ctx = canvas ? canvas.getContext("2d") : null;
assert(ctx);
var resScale = animationState.resScale = window.devicePixelRatio ? window.devicePixelRatio : 1;
var unscaledWidth = canvas.width;
var unscaledHeight = canvas.height;
canvas.width = unscaledWidth * resScale;
canvas.height = unscaledHeight * resScale;
canvas.style.width = unscaledWidth + 'px';
canvas.style.height = unscaledHeight + 'px';
if (resScale != 1) {
ctx.scale(resScale, resScale);
}
grads = CanvasGrads(ctx);
paths = CanvasPaths(ctx);
}
function Onload() {
canvasSetup();
var startBtn = document.getElementById('startBtn');
var stopBtn = document.getElementById('stopBtn');
var resetBtn = document.getElementById('resetBtn');
startBtn.addEventListener('click', function(e) {
e.preventDefault();
e.srcElement.innerText = "Next";
CancelAnimation();
QueueKeyframe();
});
stopBtn.addEventListener('click', function(e) {
e.preventDefault();
if (!animationState.paused) {
PauseAnimation();
e.srcElement.innerText = "Resume";
} else {
UnpauseAnimation();
e.srcElement.innerText = "Pause";
}
});
resetBtn.addEventListener('click', function(e) {
e.preventDefault();
CancelAnimation();
keyframeIndex = 0;
startBtn.innerText = "Start";
QueueKeyframe();
});
}
</script>
</head>
<body onLoad="Onload()">
<div class="controls">
<button type="button" id="startBtn">Start</button>
<button type="button" id="stopBtn">Pause</button>
<button type="button" id="resetBtn">Restart</button>
</div>
<canvas id="canvas" width="800" height="500" />
</body>
</html>