skia2/modules/canvaskit/interface.js

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// Adds JS functions to augment the CanvasKit interface.
// For example, if there is a wrapper around the C++ call or logic to allow
// chaining, it should go here.
// CanvasKit.onRuntimeInitialized is called after the WASM library has loaded.
// Anything that modifies an exposed class (e.g. SkPath) should be set
// after onRuntimeInitialized, otherwise, it can happen outside of that scope.
CanvasKit.onRuntimeInitialized = function() {
// All calls to 'this' need to go in externs.js so closure doesn't minify them away.
// buffer is the underlying ArrayBuffer that is the WASM memory blob.
// It was removed from Emscripten proper in https://github.com/emscripten-core/emscripten/pull/8277
// but it is convenient to have a reference to, so we add it back in.
CanvasKit.buffer = CanvasKit.HEAPU8.buffer;
// Add some helpers for matrices. This is ported from SkMatrix.cpp
// to save complexity and overhead of going back and forth between
// C++ and JS layers.
// I would have liked to use something like DOMMatrix, except it
// isn't widely supported (would need polyfills) and it doesn't
// have a mapPoints() function (which could maybe be tacked on here).
// If DOMMatrix catches on, it would be worth re-considering this usage.
CanvasKit.SkMatrix = {};
function sdot(a, b, c, d, e, f) {
e = e || 0;
f = f || 0;
return a * b + c * d + e * f;
}
CanvasKit.SkMatrix.identity = function() {
return [
1, 0, 0,
0, 1, 0,
0, 0, 1,
];
};
// Return the inverse (if it exists) of this matrix.
// Otherwise, return the identity.
CanvasKit.SkMatrix.invert = function(m) {
var det = m[0]*m[4]*m[8] + m[1]*m[5]*m[6] + m[2]*m[3]*m[7]
- m[2]*m[4]*m[6] - m[1]*m[3]*m[8] - m[0]*m[5]*m[7];
if (!det) {
SkDebug('Warning, uninvertible matrix');
return CanvasKit.SkMatrix.identity();
}
return [
(m[4]*m[8] - m[5]*m[7])/det, (m[2]*m[7] - m[1]*m[8])/det, (m[1]*m[5] - m[2]*m[4])/det,
(m[5]*m[6] - m[3]*m[8])/det, (m[0]*m[8] - m[2]*m[6])/det, (m[2]*m[3] - m[0]*m[5])/det,
(m[3]*m[7] - m[4]*m[6])/det, (m[1]*m[6] - m[0]*m[7])/det, (m[0]*m[4] - m[1]*m[3])/det,
];
};
// Maps the given points according to the passed in matrix.
// Results are done in place.
// See SkMatrix.h::mapPoints for the docs on the math.
CanvasKit.SkMatrix.mapPoints = function(matrix, ptArr) {
if (ptArr.length % 2) {
throw 'mapPoints requires an even length arr';
}
for (var i = 0; i < ptArr.length; i+=2) {
var x = ptArr[i], y = ptArr[i+1];
// Gx+Hy+I
var denom = matrix[6]*x + matrix[7]*y + matrix[8];
// Ax+By+C
var xTrans = matrix[0]*x + matrix[1]*y + matrix[2];
// Dx+Ey+F
var yTrans = matrix[3]*x + matrix[4]*y + matrix[5];
ptArr[i] = xTrans/denom;
ptArr[i+1] = yTrans/denom;
}
return ptArr;
};
CanvasKit.SkMatrix.multiply = function(m1, m2) {
var result = [0,0,0, 0,0,0, 0,0,0];
for (var r = 0; r < 3; r++) {
for (var c = 0; c < 3; c++) {
// m1 and m2 are 1D arrays pretending to be 2D arrays
result[3*r + c] = sdot(m1[3*r + 0], m2[3*0 + c],
m1[3*r + 1], m2[3*1 + c],
m1[3*r + 2], m2[3*2 + c]);
}
}
return result;
}
// Return a matrix representing a rotation by n radians.
// px, py optionally say which point the rotation should be around
// with the default being (0, 0);
CanvasKit.SkMatrix.rotated = function(radians, px, py) {
px = px || 0;
py = py || 0;
var sinV = Math.sin(radians);
var cosV = Math.cos(radians);
return [
cosV, -sinV, sdot( sinV, py, 1 - cosV, px),
sinV, cosV, sdot(-sinV, px, 1 - cosV, py),
0, 0, 1,
];
};
CanvasKit.SkMatrix.scaled = function(sx, sy, px, py) {
px = px || 0;
py = py || 0;
return [
sx, 0, px - sx * px,
0, sy, py - sy * py,
0, 0, 1,
];
};
CanvasKit.SkMatrix.skewed = function(kx, ky, px, py) {
px = px || 0;
py = py || 0;
return [
1, kx, -kx * px,
ky, 1, -ky * py,
0, 0, 1,
];
};
CanvasKit.SkMatrix.translated = function(dx, dy) {
return [
1, 0, dx,
0, 1, dy,
0, 0, 1,
];
};
// An SkColorMatrix is a 4x4 color matrix that transforms the 4 color channels
// with a 1x4 matrix that post-translates those 4 channels.
// For example, the following is the layout with the scale (S) and post-transform
// (PT) items indicated.
// RS, 0, 0, 0 | RPT
// 0, GS, 0, 0 | GPT
// 0, 0, BS, 0 | BPT
// 0, 0, 0, AS | APT
//
// Much of this was hand-transcribed from SkColorMatrix.cpp, because it's easier to
// deal with a Float32Array of length 20 than to try to expose the SkColorMatrix object.
var rScale = 0;
var gScale = 6;
var bScale = 12;
var aScale = 18;
var rPostTrans = 4;
var gPostTrans = 9;
var bPostTrans = 14;
var aPostTrans = 19;
CanvasKit.SkColorMatrix = {};
CanvasKit.SkColorMatrix.identity = function() {
var m = new Float32Array(20);
m[rScale] = 1;
m[gScale] = 1;
m[bScale] = 1;
m[aScale] = 1;
return m;
}
CanvasKit.SkColorMatrix.scaled = function(rs, gs, bs, as) {
var m = new Float32Array(20);
m[rScale] = rs;
m[gScale] = gs;
m[bScale] = bs;
m[aScale] = as;
return m;
}
var rotateIndices = [
[6, 7, 11, 12],
[0, 10, 2, 12],
[0, 1, 5, 6],
];
// axis should be 0, 1, 2 for r, g, b
CanvasKit.SkColorMatrix.rotated = function(axis, sine, cosine) {
var m = CanvasKit.SkColorMatrix.identity();
var indices = rotateIndices[axis];
m[indices[0]] = cosine;
m[indices[1]] = sine;
m[indices[2]] = -sine;
m[indices[3]] = cosine;
return m;
}
// m is a SkColorMatrix (i.e. a Float32Array), and this sets the 4 "special"
// params that will translate the colors after they are multiplied by the 4x4 matrix.
CanvasKit.SkColorMatrix.postTranslate = function(m, dr, dg, db, da) {
m[rPostTrans] += dr;
m[gPostTrans] += dg;
m[bPostTrans] += db;
m[aPostTrans] += da;
return m;
}
// concat returns a new SkColorMatrix that is the result of multiplying outer*inner;
CanvasKit.SkColorMatrix.concat = function(outer, inner) {
var m = new Float32Array(20);
var index = 0;
for (var j = 0; j < 20; j += 5) {
for (var i = 0; i < 4; i++) {
m[index++] = outer[j + 0] * inner[i + 0] +
outer[j + 1] * inner[i + 5] +
outer[j + 2] * inner[i + 10] +
outer[j + 3] * inner[i + 15];
}
m[index++] = outer[j + 0] * inner[4] +
outer[j + 1] * inner[9] +
outer[j + 2] * inner[14] +
outer[j + 3] * inner[19] +
outer[j + 4];
}
return m;
}
CanvasKit.SkPath.prototype.addArc = function(oval, startAngle, sweepAngle) {
// see arc() for the HTMLCanvas version
// note input angles are degrees.
this._addArc(oval, startAngle, sweepAngle);
return this;
};
CanvasKit.SkPath.prototype.addOval = function(oval, isCCW, startIndex) {
if (startIndex === undefined) {
startIndex = 1;
}
this._addOval(oval, !!isCCW, startIndex);
return this;
};
CanvasKit.SkPath.prototype.addPath = function() {
// Takes 1, 2, 7, or 10 required args, where the first arg is always the path.
// The last arg is optional and chooses between add or extend mode.
// The options for the remaining args are:
// - an array of 6 or 9 parameters (perspective is optional)
// - the 9 parameters of a full matrix or
// the 6 non-perspective params of a matrix.
var args = Array.prototype.slice.call(arguments);
var path = args[0];
var extend = false;
if (typeof args[args.length-1] === "boolean") {
extend = args.pop();
}
if (args.length === 1) {
// Add path, unchanged. Use identity matrix
this._addPath(path, 1, 0, 0,
0, 1, 0,
0, 0, 1,
extend);
} else if (args.length === 2) {
// User provided the 9 params of a full matrix as an array.
var a = args[1];
this._addPath(path, a[0], a[1], a[2],
a[3], a[4], a[5],
a[6] || 0, a[7] || 0, a[8] || 1,
extend);
} else if (args.length === 7 || args.length === 10) {
// User provided the 9 params of a (full) matrix directly.
// (or just the 6 non perspective ones)
// These are in the same order as what Skia expects.
var a = args;
this._addPath(path, a[1], a[2], a[3],
a[4], a[5], a[6],
a[7] || 0, a[8] || 0, a[9] || 1,
extend);
} else {
SkDebug('addPath expected to take 1, 2, 7, or 10 required args. Got ' + args.length);
return null;
}
return this;
};
// points is either an array of [x, y] where x and y are numbers or
// a typed array from Malloc where the even indices will be treated
// as x coordinates and the odd indices will be treated as y coordinates.
CanvasKit.SkPath.prototype.addPoly = function(points, close) {
var ptr;
var n;
// This was created with CanvasKit.Malloc, so assume the user has
// already been filled with data.
if (points['_ck']) {
ptr = points.byteOffset;
n = points.length/2;
} else {
ptr = copy2dArray(points, CanvasKit.HEAPF32);
n = points.length;
}
this._addPoly(ptr, n, close);
CanvasKit._free(ptr);
return this;
};
CanvasKit.SkPath.prototype.addRect = function() {
// Takes 1, 2, 4 or 5 args
// - SkRect
// - SkRect, isCCW
// - left, top, right, bottom
// - left, top, right, bottom, isCCW
if (arguments.length === 1 || arguments.length === 2) {
var r = arguments[0];
var ccw = arguments[1] || false;
this._addRect(r.fLeft, r.fTop, r.fRight, r.fBottom, ccw);
} else if (arguments.length === 4 || arguments.length === 5) {
var a = arguments;
this._addRect(a[0], a[1], a[2], a[3], a[4] || false);
} else {
SkDebug('addRect expected to take 1, 2, 4, or 5 args. Got ' + arguments.length);
return null;
}
return this;
};
CanvasKit.SkPath.prototype.addRoundRect = function() {
// Takes 3, 4, 6 or 7 args
// - SkRect, radii, ccw
// - SkRect, rx, ry, ccw
// - left, top, right, bottom, radii, ccw
// - left, top, right, bottom, rx, ry, ccw
var args = arguments;
if (args.length === 3 || args.length === 6) {
var radii = args[args.length-2];
} else if (args.length === 6 || args.length === 7){
// duplicate the given (rx, ry) pairs for each corner.
var rx = args[args.length-3];
var ry = args[args.length-2];
var radii = [rx, ry, rx, ry, rx, ry, rx, ry];
} else {
SkDebug('addRoundRect expected to take 3, 4, 6, or 7 args. Got ' + args.length);
return null;
}
if (radii.length !== 8) {
SkDebug('addRoundRect needs 8 radii provided. Got ' + radii.length);
return null;
}
var rptr = copy1dArray(radii, CanvasKit.HEAPF32);
if (args.length === 3 || args.length === 4) {
var r = args[0];
var ccw = args[args.length - 1];
this._addRoundRect(r.fLeft, r.fTop, r.fRight, r.fBottom, rptr, ccw);
} else if (args.length === 6 || args.length === 7) {
var a = args;
this._addRoundRect(a[0], a[1], a[2], a[3], rptr, ccw);
}
CanvasKit._free(rptr);
return this;
};
CanvasKit.SkPath.prototype.arc = function(x, y, radius, startAngle, endAngle, ccw) {
// emulates the HTMLCanvas behavior. See addArc() for the SkPath version.
// Note input angles are radians.
var bounds = CanvasKit.LTRBRect(x-radius, y-radius, x+radius, y+radius);
var sweep = radiansToDegrees(endAngle - startAngle) - (360 * !!ccw);
var temp = new CanvasKit.SkPath();
temp.addArc(bounds, radiansToDegrees(startAngle), sweep);
this.addPath(temp, true);
temp.delete();
return this;
};
CanvasKit.SkPath.prototype.arcTo = function() {
// takes 4, 5 or 7 args
// - 5 x1, y1, x2, y2, radius
// - 4 oval (as Rect), startAngle, sweepAngle, forceMoveTo
// - 7 rx, ry, xAxisRotate, useSmallArc, isCCW, x, y
var args = arguments;
if (args.length === 5) {
this._arcTo(args[0], args[1], args[2], args[3], args[4]);
} else if (args.length === 4) {
this._arcTo(args[0], args[1], args[2], args[3]);
} else if (args.length === 7) {
this._arcTo(args[0], args[1], args[2], !!args[3], !!args[4], args[5], args[6]);
} else {
throw 'Invalid args for arcTo. Expected 4, 5, or 7, got '+ args.length;
}
return this;
};
CanvasKit.SkPath.prototype.close = function() {
this._close();
return this;
};
CanvasKit.SkPath.prototype.conicTo = function(x1, y1, x2, y2, w) {
this._conicTo(x1, y1, x2, y2, w);
return this;
};
CanvasKit.SkPath.prototype.cubicTo = function(cp1x, cp1y, cp2x, cp2y, x, y) {
this._cubicTo(cp1x, cp1y, cp2x, cp2y, x, y);
return this;
};
CanvasKit.SkPath.prototype.dash = function(on, off, phase) {
if (this._dash(on, off, phase)) {
return this;
}
return null;
};
CanvasKit.SkPath.prototype.lineTo = function(x, y) {
this._lineTo(x, y);
return this;
};
CanvasKit.SkPath.prototype.moveTo = function(x, y) {
this._moveTo(x, y);
return this;
};
CanvasKit.SkPath.prototype.offset = function(dx, dy) {
this._transform(1, 0, dx,
0, 1, dy,
0, 0, 1);
return this;
};
CanvasKit.SkPath.prototype.quadTo = function(cpx, cpy, x, y) {
this._quadTo(cpx, cpy, x, y);
return this;
};
CanvasKit.SkPath.prototype.rArcTo = function(rx, ry, xAxisRotate, useSmallArc, isCCW, dx, dy) {
this._rArcTo(rx, ry, xAxisRotate, useSmallArc, isCCW, dx, dy);
return this;
};
CanvasKit.SkPath.prototype.rConicTo = function(dx1, dy1, dx2, dy2, w) {
this._rConicTo(dx1, dy1, dx2, dy2, w);
return this;
};
// These params are all relative
CanvasKit.SkPath.prototype.rCubicTo = function(cp1x, cp1y, cp2x, cp2y, x, y) {
this._rCubicTo(cp1x, cp1y, cp2x, cp2y, x, y);
return this;
};
CanvasKit.SkPath.prototype.rLineTo = function(dx, dy) {
this._rLineTo(dx, dy);
return this;
};
CanvasKit.SkPath.prototype.rMoveTo = function(dx, dy) {
this._rMoveTo(dx, dy);
return this;
};
// These params are all relative
CanvasKit.SkPath.prototype.rQuadTo = function(cpx, cpy, x, y) {
this._rQuadTo(cpx, cpy, x, y);
return this;
};
CanvasKit.SkPath.prototype.stroke = function(opts) {
// Fill out any missing values with the default values.
/**
* See externs.js for this definition
* @type {StrokeOpts}
*/
opts = opts || {};
opts.width = opts.width || 1;
opts.miter_limit = opts.miter_limit || 4;
opts.cap = opts.cap || CanvasKit.StrokeCap.Butt;
opts.join = opts.join || CanvasKit.StrokeJoin.Miter;
opts.precision = opts.precision || 1;
if (this._stroke(opts)) {
return this;
}
return null;
};
CanvasKit.SkPath.prototype.transform = function() {
// Takes 1 or 9 args
if (arguments.length === 1) {
// argument 1 should be a 6 or 9 element array.
var a = arguments[0];
this._transform(a[0], a[1], a[2],
a[3], a[4], a[5],
a[6] || 0, a[7] || 0, a[8] || 1);
} else if (arguments.length === 6 || arguments.length === 9) {
// these arguments are the 6 or 9 members of the matrix
var a = arguments;
this._transform(a[0], a[1], a[2],
a[3], a[4], a[5],
a[6] || 0, a[7] || 0, a[8] || 1);
} else {
throw 'transform expected to take 1 or 9 arguments. Got ' + arguments.length;
}
return this;
};
// isComplement is optional, defaults to false
CanvasKit.SkPath.prototype.trim = function(startT, stopT, isComplement) {
if (this._trim(startT, stopT, !!isComplement)) {
return this;
}
return null;
};
// bones should be a 3d array.
// Each bone is a 3x2 transformation matrix in column major order:
// | scaleX skewX transX |
// | skewY scaleY transY |
// and bones is an array of those matrices.
// Returns a copy of this (SkVertices) with the bones applied.
CanvasKit.SkVertices.prototype.applyBones = function(bones) {
var bPtr = copy3dArray(bones, CanvasKit.HEAPF32);
var vert = this._applyBones(bPtr, bones.length);
CanvasKit._free(bPtr);
return vert;
}
CanvasKit.SkImage.prototype.encodeToData = function() {
if (!arguments.length) {
return this._encodeToData();
}
if (arguments.length === 2) {
var a = arguments;
return this._encodeToDataWithFormat(a[0], a[1]);
}
throw 'encodeToData expected to take 0 or 2 arguments. Got ' + arguments.length;
}
CanvasKit.SkImage.prototype.makeShader = function(xTileMode, yTileMode, localMatrix) {
if (localMatrix) {
// Add perspective args if not provided.
if (localMatrix.length === 6) {
localMatrix.push(0, 0, 1);
}
return this._makeShader(xTileMode, yTileMode, localMatrix);
} else {
return this._makeShader(xTileMode, yTileMode);
}
}
CanvasKit.SkImage.prototype.readPixels = function(imageInfo, srcX, srcY) {
var rowBytes;
switch (imageInfo.colorType){
case CanvasKit.ColorType.RGBA_8888:
rowBytes = imageInfo.width * 4; // 1 byte per channel == 4 bytes per pixel in 8888
break;
case CanvasKit.ColorType.RGBA_F32:
rowBytes = imageInfo.width * 16; // 4 bytes per channel == 16 bytes per pixel in F32
break;
default:
SkDebug("Colortype not yet supported");
return;
}
var pBytes = rowBytes * imageInfo.height;
var pPtr = CanvasKit._malloc(pBytes);
if (!this._readPixels(imageInfo, pPtr, rowBytes, srcX, srcY)) {
SkDebug("Could not read pixels with the given inputs");
return null;
}
// Put those pixels into a typed array of the right format and then
// make a copy with slice() that we can return.
var retVal = null;
switch (imageInfo.colorType){
case CanvasKit.ColorType.RGBA_8888:
retVal = new Uint8Array(CanvasKit.buffer, pPtr, pBytes).slice();
break;
case CanvasKit.ColorType.RGBA_F32:
retVal = new Float32Array(CanvasKit.buffer, pPtr, pBytes).slice();
break;
}
// Free the allocated pixels in the WASM memory
CanvasKit._free(pPtr);
return retVal;
}
// atlas is an SkImage, e.g. from CanvasKit.MakeImageFromEncoded
// srcRects and dstXforms should be CanvasKit.SkRectBuilder and CanvasKit.RSXFormBuilder
// or just arrays of floats in groups of 4.
// colors, if provided, should be a CanvasKit.SkColorBuilder or array of SkColor
// (from CanvasKit.Color)
CanvasKit.SkCanvas.prototype.drawAtlas = function(atlas, srcRects, dstXforms, paint,
/*optional*/ blendMode, colors) {
if (!atlas || !paint || !srcRects || !dstXforms) {
SkDebug('Doing nothing since missing a required input');
return;
}
if (srcRects.length !== dstXforms.length || (colors && colors.length !== dstXforms.length)) {
SkDebug('Doing nothing since input arrays length mismatches');
}
if (!blendMode) {
blendMode = CanvasKit.BlendMode.SrcOver;
}
var srcRectPtr;
if (srcRects.build) {
srcRectPtr = srcRects.build();
} else {
srcRectPtr = copy1dArray(srcRects, CanvasKit.HEAPF32);
}
var dstXformPtr;
if (dstXforms.build) {
dstXformPtr = dstXforms.build();
} else {
dstXformPtr = copy1dArray(dstXforms, CanvasKit.HEAPF32);
}
var colorPtr = 0; // enscriptem doesn't like undefined for nullptr
if (colors) {
if (colors.build) {
colorPtr = colors.build();
} else {
colorPtr = copy1dArray(colors, CanvasKit.HEAPU32);
}
}
this._drawAtlas(atlas, dstXformPtr, srcRectPtr, colorPtr, dstXforms.length,
blendMode, paint);
if (srcRectPtr && !srcRects.build) {
CanvasKit._free(srcRectPtr);
}
if (dstXformPtr && !dstXforms.build) {
CanvasKit._free(dstXformPtr);
}
if (colorPtr && !colors.build) {
CanvasKit._free(colorPtr);
}
}
// points is either an array of [x, y] where x and y are numbers or
// a typed array from Malloc where the even indices will be treated
// as x coordinates and the odd indices will be treated as y coordinates.
CanvasKit.SkCanvas.prototype.drawPoints = function(mode, points, paint) {
var ptr;
var n;
// This was created with CanvasKit.Malloc, so assume the user has
// already been filled with data.
if (points['_ck']) {
ptr = points.byteOffset;
n = points.length/2;
} else {
ptr = copy2dArray(points, CanvasKit.HEAPF32);
n = points.length;
}
this._drawPoints(mode, ptr, n, paint);
CanvasKit._free(ptr);
}
// returns Uint8Array
CanvasKit.SkCanvas.prototype.readPixels = function(x, y, w, h, alphaType,
colorType, dstRowBytes) {
// supply defaults (which are compatible with HTMLCanvas's getImageData)
alphaType = alphaType || CanvasKit.AlphaType.Unpremul;
colorType = colorType || CanvasKit.ColorType.RGBA_8888;
dstRowBytes = dstRowBytes || (4 * w);
var len = h * dstRowBytes
var pptr = CanvasKit._malloc(len);
var ok = this._readPixels({
'width': w,
'height': h,
'colorType': colorType,
'alphaType': alphaType,
}, pptr, dstRowBytes, x, y);
if (!ok) {
CanvasKit._free(pptr);
return null;
}
// The first typed array is just a view into memory. Because we will
// be free-ing that, we call slice to make a persistent copy.
var pixels = new Uint8Array(CanvasKit.buffer, pptr, len).slice();
CanvasKit._free(pptr);
return pixels;
}
// pixels is a TypedArray. No matter the input size, it will be treated as
// a Uint8Array (essentially, a byte array).
CanvasKit.SkCanvas.prototype.writePixels = function(pixels, srcWidth, srcHeight,
destX, destY, alphaType, colorType) {
if (pixels.byteLength % (srcWidth * srcHeight)) {
throw 'pixels length must be a multiple of the srcWidth * srcHeight';
}
var bytesPerPixel = pixels.byteLength / (srcWidth * srcHeight);
// supply defaults (which are compatible with HTMLCanvas's putImageData)
alphaType = alphaType || CanvasKit.AlphaType.Unpremul;
colorType = colorType || CanvasKit.ColorType.RGBA_8888;
var srcRowBytes = bytesPerPixel * srcWidth;
var pptr = CanvasKit._malloc(pixels.byteLength);
CanvasKit.HEAPU8.set(pixels, pptr);
var ok = this._writePixels({
'width': srcWidth,
'height': srcHeight,
'colorType': colorType,
'alphaType': alphaType,
}, pptr, srcRowBytes, destX, destY);
CanvasKit._free(pptr);
return ok;
}
// colorMatrix is an SkColorMatrix (e.g. Float32Array of length 20)
CanvasKit.SkColorFilter.MakeMatrix = function(colorMatrix) {
if (!colorMatrix || colorMatrix.length !== 20) {
SkDebug('ignoring invalid color matrix');
return;
}
var fptr = copy1dArray(colorMatrix, CanvasKit.HEAPF32);
// We know skia memcopies the floats, so we can free our memory after the call returns.
var m = CanvasKit.SkColorFilter._makeMatrix(fptr);
CanvasKit._free(fptr);
return m;
}
CanvasKit.SkShader.Blend = function(mode, dst, src, localMatrix) {
if (!localMatrix) {
return this._Blend(mode, dst, src);
}
return this._Blend(mode, dst, src, localMatrix);
}
CanvasKit.SkShader.Lerp = function(t, dst, src, localMatrix) {
if (!localMatrix) {
return this._Lerp(t, dst, src);
}
return this._Lerp(t, dst, src, localMatrix);
}
CanvasKit.SkSurface.prototype.captureFrameAsSkPicture = function(drawFrame) {
// Set up SkPictureRecorder
var spr = new CanvasKit.SkPictureRecorder();
var canvas = spr.beginRecording(
CanvasKit.LTRBRect(0, 0, this.width(), this.height()));
drawFrame(canvas);
var pic = spr.finishRecordingAsPicture();
spr.delete();
// TODO: do we need to clean up the memory for canvas?
// If we delete it here, saveAsFile doesn't work correctly.
return pic;
}
CanvasKit.SkSurface.prototype.requestAnimationFrame = function(callback, dirtyRect) {
if (!this._cached_canvas) {
this._cached_canvas = this.getCanvas();
}
window.requestAnimationFrame(function() {
if (this._context !== undefined) {
CanvasKit.setCurrentContext(this._context);
}
callback(this._cached_canvas);
this.flush();
}.bind(this));
}
// Run through the JS files that are added at compile time.
if (CanvasKit._extraInitializations) {
CanvasKit._extraInitializations.forEach(function(init) {
init();
});
}
}; // end CanvasKit.onRuntimeInitialized, that is, anything changing prototypes or dynamic.
CanvasKit.LTRBRect = function(l, t, r, b) {
return {
fLeft: l,
fTop: t,
fRight: r,
fBottom: b,
};
}
CanvasKit.XYWHRect = function(x, y, w, h) {
return {
fLeft: x,
fTop: y,
fRight: x+w,
fBottom: y+h,
};
}
// RRectXY returns an RRect with the given rect and a radiusX and radiusY for
// all 4 corners.
CanvasKit.RRectXY = function(rect, rx, ry) {
return {
rect: rect,
rx1: rx,
ry1: ry,
rx2: rx,
ry2: ry,
rx3: rx,
ry3: ry,
rx4: rx,
ry4: ry,
};
}
CanvasKit.MakePathFromCmds = function(cmds) {
var ptrLen = loadCmdsTypedArray(cmds);
var path = CanvasKit._MakePathFromCmds(ptrLen[0], ptrLen[1]);
CanvasKit._free(ptrLen[0]);
return path;
}
CanvasKit.MakeSkDashPathEffect = function(intervals, phase) {
if (!phase) {
phase = 0;
}
if (!intervals.length || intervals.length % 2 === 1) {
throw 'Intervals array must have even length';
}
var ptr = copy1dArray(intervals, CanvasKit.HEAPF32);
var dpe = CanvasKit._MakeSkDashPathEffect(ptr, intervals.length, phase);
CanvasKit._free(ptr);
return dpe;
}
// data is a TypedArray or ArrayBuffer e.g. from fetch().then(resp.arrayBuffer())
CanvasKit.MakeAnimatedImageFromEncoded = function(data) {
data = new Uint8Array(data);
var iptr = CanvasKit._malloc(data.byteLength);
CanvasKit.HEAPU8.set(data, iptr);
var img = CanvasKit._decodeAnimatedImage(iptr, data.byteLength);
if (!img) {
SkDebug('Could not decode animated image');
return null;
}
return img;
}
// data is a TypedArray or ArrayBuffer e.g. from fetch().then(resp.arrayBuffer())
CanvasKit.MakeImageFromEncoded = function(data) {
data = new Uint8Array(data);
var iptr = CanvasKit._malloc(data.byteLength);
CanvasKit.HEAPU8.set(data, iptr);
var img = CanvasKit._decodeImage(iptr, data.byteLength);
if (!img) {
SkDebug('Could not decode image');
return null;
}
return img;
}
// pixels must be a Uint8Array with bytes representing the pixel values
// (e.g. each set of 4 bytes could represent RGBA values for a single pixel).
CanvasKit.MakeImage = function(pixels, width, height, alphaType, colorType) {
var bytesPerPixel = pixels.length / (width * height);
var info = {
'width': width,
'height': height,
'alphaType': alphaType,
'colorType': colorType,
};
var pptr = copy1dArray(pixels, CanvasKit.HEAPU8);
// No need to _free pptr, Image takes it with SkData::MakeFromMalloc
return CanvasKit._MakeImage(info, pptr, pixels.length, width * bytesPerPixel);
}
CanvasKit.MakeLinearGradientShader = function(start, end, colors, pos, mode, localMatrix, flags) {
var colorPtr = copy1dArray(colors, CanvasKit.HEAPU32);
var posPtr = copy1dArray(pos, CanvasKit.HEAPF32);
flags = flags || 0;
if (localMatrix) {
// Add perspective args if not provided.
if (localMatrix.length === 6) {
localMatrix.push(0, 0, 1);
}
var lgs = CanvasKit._MakeLinearGradientShader(start, end, colorPtr, posPtr,
colors.length, mode, flags, localMatrix);
} else {
var lgs = CanvasKit._MakeLinearGradientShader(start, end, colorPtr, posPtr,
colors.length, mode, flags);
}
CanvasKit._free(colorPtr);
CanvasKit._free(posPtr);
return lgs;
}
CanvasKit.MakeRadialGradientShader = function(center, radius, colors, pos, mode, localMatrix, flags) {
var colorPtr = copy1dArray(colors, CanvasKit.HEAPU32);
var posPtr = copy1dArray(pos, CanvasKit.HEAPF32);
flags = flags || 0;
if (localMatrix) {
// Add perspective args if not provided.
if (localMatrix.length === 6) {
localMatrix.push(0, 0, 1);
}
var rgs = CanvasKit._MakeRadialGradientShader(center, radius, colorPtr, posPtr,
colors.length, mode, flags, localMatrix);
} else {
var rgs = CanvasKit._MakeRadialGradientShader(center, radius, colorPtr, posPtr,
colors.length, mode, flags);
}
CanvasKit._free(colorPtr);
CanvasKit._free(posPtr);
return rgs;
}
CanvasKit.MakeTwoPointConicalGradientShader = function(start, startRadius, end, endRadius,
colors, pos, mode, localMatrix, flags) {
var colorPtr = copy1dArray(colors, CanvasKit.HEAPU32);
var posPtr = copy1dArray(pos, CanvasKit.HEAPF32);
flags = flags || 0;
if (localMatrix) {
// Add perspective args if not provided.
if (localMatrix.length === 6) {
localMatrix.push(0, 0, 1);
}
var rgs = CanvasKit._MakeTwoPointConicalGradientShader(
start, startRadius, end, endRadius,
colorPtr, posPtr, colors.length, mode, flags, localMatrix);
} else {
var rgs = CanvasKit._MakeTwoPointConicalGradientShader(
start, startRadius, end, endRadius,
colorPtr, posPtr, colors.length, mode, flags);
}
CanvasKit._free(colorPtr);
CanvasKit._free(posPtr);
return rgs;
}
CanvasKit.MakeSkVertices = function(mode, positions, textureCoordinates, colors,
boneIndices, boneWeights, indices, isVolatile) {
// Default isVolitile to true if not set
isVolatile = isVolatile === undefined ? true : isVolatile;
var idxCount = (indices && indices.length) || 0;
var flags = 0;
// These flags are from SkVertices.h and should be kept in sync with those.
if (textureCoordinates && textureCoordinates.length) {
flags |= (1 << 0);
}
if (colors && colors.length) {
flags |= (1 << 1);
}
if (boneIndices && boneIndices.length) {
flags |= (1 << 2);
}
if (!isVolatile) {
flags |= (1 << 3);
}
var builder = new CanvasKit._SkVerticesBuilder(mode, positions.length, idxCount, flags);
copy2dArray(positions, CanvasKit.HEAPF32, builder.positions());
if (builder.texCoords()) {
copy2dArray(textureCoordinates, CanvasKit.HEAPF32, builder.texCoords());
}
if (builder.colors()) {
copy1dArray(colors, CanvasKit.HEAPU32, builder.colors());
}
if (builder.boneIndices()) {
copy2dArray(boneIndices, CanvasKit.HEAP32, builder.boneIndices());
}
if (builder.boneWeights()) {
copy2dArray(boneWeights, CanvasKit.HEAPF32, builder.boneWeights());
}
if (builder.indices()) {
copy1dArray(indices, CanvasKit.HEAPU16, builder.indices());
}
var idxCount = (indices && indices.length) || 0;
// Create the vertices, which owns the memory that the builder had allocated.
return builder.detach();
};