experimental/docs/interpolatorFunctions.js - skia - Git at Google

 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;
 }

 // FIXME : only works for path with single cubic
 function path_partial(value, path) {
     assert(isArray(path));
     var out = [];
     for (var cIndex = 0; cIndex < path.length; ++cIndex) {
         out[cIndex] = {};
         var curveKey = Object.keys(path[cIndex])[0];
         var curve = path[cIndex][curveKey];
         var outArray;
         switch (curveKey) {
             case "cubic":
                 var x1 = curve[0], y1 = curve[1], x2 = curve[2], y2 = curve[3];
                 var x3 = curve[4], y3 = curve[5], x4 = curve[6], y4 = curve[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;
                 outArray = [
                     ax, ay, bx, by, cx, cy, dx, dy
                 ];
                 break;
             default:
                 assert(0);  // unimplemented
         }
         out[cIndex][curveKey] = outArray;
     }
     return out;
 }

 function interp_paths(value, paths) {
     assert(isArray(paths));
     assert(paths.length == 2);
     var curves0 = paths[0];
     assert(isArray(curves0));
     var curves1 = paths[1];
     assert(isArray(curves1));
     assert(curves0.length == curves1.length);
     var out = [];
     for (var cIndex = 0; cIndex < curves0.length; ++cIndex) {
         out[cIndex] = {};
         var curve0Key = Object.keys(curves0[cIndex])[0];
         var curve1Key = Object.keys(curves1[cIndex])[0];
         assert(curve0Key == curve1Key);
         var curve0 = curves0[cIndex][curve0Key];
         var curve1 = curves1[cIndex][curve1Key];
         assert(isArray(curve0));
         assert(isArray(curve1));
         assert(curve0.length == curve1.length);
         var outArray = [];
         for (var i = 0; i < curve1.length; ++i) {
             outArray[i] = curve0[i] + (curve1[i] - curve0[i]) * value;
         }
         out[cIndex][curve0Key] = outArray;
     }
     return out;
 }
	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;
	}

	// FIXME : only works for path with single cubic
	function path_partial(value, path) {
	assert(isArray(path));
	var out = [];
	for (var cIndex = 0; cIndex < path.length; ++cIndex) {
	out[cIndex] = {};
	var curveKey = Object.keys(path[cIndex])[0];
	var curve = path[cIndex][curveKey];
	var outArray;
	switch (curveKey) {
	case "cubic":
	var x1 = curve[0], y1 = curve[1], x2 = curve[2], y2 = curve[3];
	var x3 = curve[4], y3 = curve[5], x4 = curve[6], y4 = curve[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;
	outArray = [
	ax, ay, bx, by, cx, cy, dx, dy
	];
	break;
	default:
	assert(0); // unimplemented
	}
	out[cIndex][curveKey] = outArray;
	}
	return out;
	}

	function interp_paths(value, paths) {
	assert(isArray(paths));
	assert(paths.length == 2);
	var curves0 = paths[0];
	assert(isArray(curves0));
	var curves1 = paths[1];
	assert(isArray(curves1));
	assert(curves0.length == curves1.length);
	var out = [];
	for (var cIndex = 0; cIndex < curves0.length; ++cIndex) {
	out[cIndex] = {};
	var curve0Key = Object.keys(curves0[cIndex])[0];
	var curve1Key = Object.keys(curves1[cIndex])[0];
	assert(curve0Key == curve1Key);
	var curve0 = curves0[cIndex][curve0Key];
	var curve1 = curves1[cIndex][curve1Key];
	assert(isArray(curve0));
	assert(isArray(curve1));
	assert(curve0.length == curve1.length);
	var outArray = [];
	for (var i = 0; i < curve1.length; ++i) {
	outArray[i] = curve0[i] + (curve1[i] - curve0[i]) * value;
	}
	out[cIndex][curve0Key] = outArray;
	}
	return out;
	}