skia2/modules/canvaskit/interface.js
Kevin Lubick 0c23120abd [canvaskit] Switch to appropriate WebGL Context for Surface methods
Change-Id: Id829603bafb73d2256e44a9101b4b1669b735e12
Reviewed-on: https://skia-review.googlesource.com/c/skia/+/469534
Reviewed-by: Brian Salomon <bsalomon@google.com>
2021-11-10 13:49:24 +00:00

1261 lines
49 KiB
JavaScript

// 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. Path) 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.
_scratchColor = CanvasKit.Malloc(Float32Array, 4); // 4 color scalars.
_scratchColorPtr = _scratchColor['byteOffset'];
_scratch4x4Matrix = CanvasKit.Malloc(Float32Array, 16); // 16 matrix scalars.
_scratch4x4MatrixPtr = _scratch4x4Matrix['byteOffset'];
_scratch3x3Matrix = CanvasKit.Malloc(Float32Array, 9); // 9 matrix scalars.
_scratch3x3MatrixPtr = _scratch3x3Matrix['byteOffset'];
_scratchRRect = CanvasKit.Malloc(Float32Array, 12); // 4 scalars for rrect, 8 for radii.
_scratchRRectPtr = _scratchRRect['byteOffset'];
_scratchRRect2 = CanvasKit.Malloc(Float32Array, 12); // 4 scalars for rrect, 8 for radii.
_scratchRRect2Ptr = _scratchRRect2['byteOffset'];
_scratchFourFloatsA = CanvasKit.Malloc(Float32Array, 4);
_scratchFourFloatsAPtr = _scratchFourFloatsA['byteOffset'];
_scratchFourFloatsB = CanvasKit.Malloc(Float32Array, 4);
_scratchFourFloatsBPtr = _scratchFourFloatsB['byteOffset'];
_scratchThreeFloatsA = CanvasKit.Malloc(Float32Array, 3); // 3 floats to represent SkVector3
_scratchThreeFloatsAPtr = _scratchThreeFloatsA['byteOffset'];
_scratchThreeFloatsB = CanvasKit.Malloc(Float32Array, 3); // 3 floats to represent SkVector3
_scratchThreeFloatsBPtr = _scratchThreeFloatsB['byteOffset'];
_scratchIRect = CanvasKit.Malloc(Int32Array, 4);
_scratchIRectPtr = _scratchIRect['byteOffset'];
// Create single copies of all three supported color spaces
// These are sk_sp<ColorSpace>
CanvasKit.ColorSpace.SRGB = CanvasKit.ColorSpace._MakeSRGB();
CanvasKit.ColorSpace.DISPLAY_P3 = CanvasKit.ColorSpace._MakeDisplayP3();
CanvasKit.ColorSpace.ADOBE_RGB = CanvasKit.ColorSpace._MakeAdobeRGB();
// Use quotes to tell closure compiler not to minify the names
CanvasKit['GlyphRunFlags'] = {
'IsWhiteSpace': CanvasKit['_GlyphRunFlags_isWhiteSpace'],
};
CanvasKit.Path.MakeFromCmds = function(cmds) {
var cmdPtr = copy1dArray(cmds, 'HEAPF32');
var path = CanvasKit.Path._MakeFromCmds(cmdPtr, cmds.length);
freeArraysThatAreNotMallocedByUsers(cmdPtr, cmds);
return path;
};
// The weights array is optional (only used for conics).
CanvasKit.Path.MakeFromVerbsPointsWeights = function(verbs, pts, weights) {
var verbsPtr = copy1dArray(verbs, 'HEAPU8');
var pointsPtr = copy1dArray(pts, 'HEAPF32');
var weightsPtr = copy1dArray(weights, 'HEAPF32');
var numWeights = (weights && weights.length) || 0;
var path = CanvasKit.Path._MakeFromVerbsPointsWeights(
verbsPtr, verbs.length, pointsPtr, pts.length, weightsPtr, numWeights);
freeArraysThatAreNotMallocedByUsers(verbsPtr, verbs);
freeArraysThatAreNotMallocedByUsers(pointsPtr, pts);
freeArraysThatAreNotMallocedByUsers(weightsPtr, weights);
return path;
};
CanvasKit.Path.prototype.addArc = function(oval, startAngle, sweepAngle) {
// see arc() for the HTMLCanvas version
// note input angles are degrees.
var oPtr = copyRectToWasm(oval);
this._addArc(oPtr, startAngle, sweepAngle);
return this;
};
CanvasKit.Path.prototype.addOval = function(oval, isCCW, startIndex) {
if (startIndex === undefined) {
startIndex = 1;
}
var oPtr = copyRectToWasm(oval);
this._addOval(oPtr, !!isCCW, startIndex);
return this;
};
// TODO(kjlubick) clean up this API - split it apart if necessary
CanvasKit.Path.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 {
Debug('addPath expected to take 1, 2, 7, or 10 required args. Got ' + args.length);
return null;
}
return this;
};
// points is a 1d array of length 2n representing n points where the even indices
// will be treated as x coordinates and the odd indices will be treated as y coordinates.
// Like other APIs, this accepts a malloced type array or malloc obj.
CanvasKit.Path.prototype.addPoly = function(points, close) {
var ptr = copy1dArray(points, 'HEAPF32');
this._addPoly(ptr, points.length / 2, close);
freeArraysThatAreNotMallocedByUsers(ptr, points);
return this;
};
CanvasKit.Path.prototype.addRect = function(rect, isCCW) {
var rPtr = copyRectToWasm(rect);
this._addRect(rPtr, !!isCCW);
return this;
};
CanvasKit.Path.prototype.addRRect = function(rrect, isCCW) {
var rPtr = copyRRectToWasm(rrect);
this._addRRect(rPtr, !!isCCW);
return this;
};
// The weights array is optional (only used for conics).
CanvasKit.Path.prototype.addVerbsPointsWeights = function(verbs, points, weights) {
var verbsPtr = copy1dArray(verbs, 'HEAPU8');
var pointsPtr = copy1dArray(points, 'HEAPF32');
var weightsPtr = copy1dArray(weights, 'HEAPF32');
var numWeights = (weights && weights.length) || 0;
this._addVerbsPointsWeights(verbsPtr, verbs.length, pointsPtr, points.length,
weightsPtr, numWeights);
freeArraysThatAreNotMallocedByUsers(verbsPtr, verbs);
freeArraysThatAreNotMallocedByUsers(pointsPtr, points);
freeArraysThatAreNotMallocedByUsers(weightsPtr, weights);
};
CanvasKit.Path.prototype.arc = function(x, y, radius, startAngle, endAngle, ccw) {
// emulates the HTMLCanvas behavior. See addArc() for the Path 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.Path();
temp.addArc(bounds, radiansToDegrees(startAngle), sweep);
this.addPath(temp, true);
temp.delete();
return this;
};
// Appends arc to Path. Arc added is part of ellipse
// bounded by oval, from startAngle through sweepAngle. Both startAngle and
// sweepAngle are measured in degrees, where zero degrees is aligned with the
// positive x-axis, and positive sweeps extends arc clockwise.
CanvasKit.Path.prototype.arcToOval = function(oval, startAngle, sweepAngle, forceMoveTo) {
var oPtr = copyRectToWasm(oval);
this._arcToOval(oPtr, startAngle, sweepAngle, forceMoveTo);
return this;
};
// Appends arc to Path. Arc is implemented by one or more conics weighted to
// describe part of oval with radii (rx, ry) rotated by xAxisRotate degrees. Arc
// curves from last point to (x, y), choosing one of four possible routes:
// clockwise or counterclockwise, and smaller or larger.
// Arc sweep is always less than 360 degrees. arcTo() appends line to (x, y) if
// either radii are zero, or if last point equals (x, y). arcTo() scales radii
// (rx, ry) to fit last point and (x, y) if both are greater than zero but
// too small.
// arcToRotated() appends up to four conic curves.
// arcToRotated() implements the functionality of SVG arc, although SVG sweep-flag value
// is opposite the integer value of sweep; SVG sweep-flag uses 1 for clockwise,
// while kCW_Direction cast to int is zero.
CanvasKit.Path.prototype.arcToRotated = function(rx, ry, xAxisRotate, useSmallArc, isCCW, x, y) {
this._arcToRotated(rx, ry, xAxisRotate, !!useSmallArc, !!isCCW, x, y);
return this;
};
// Appends arc to Path, after appending line if needed. Arc is implemented by conic
// weighted to describe part of circle. Arc is contained by tangent from
// last Path point to (x1, y1), and tangent from (x1, y1) to (x2, y2). Arc
// is part of circle sized to radius, positioned so it touches both tangent lines.
// If last Path Point does not start Arc, arcTo appends connecting Line to Path.
// The length of Vector from (x1, y1) to (x2, y2) does not affect Arc.
// Arc sweep is always less than 180 degrees. If radius is zero, or if
// tangents are nearly parallel, arcTo appends Line from last Path Point to (x1, y1).
// arcToTangent appends at most one Line and one conic.
// arcToTangent implements the functionality of PostScript arct and HTML Canvas arcTo.
CanvasKit.Path.prototype.arcToTangent = function(x1, y1, x2, y2, radius) {
this._arcToTangent(x1, y1, x2, y2, radius);
return this;
};
CanvasKit.Path.prototype.close = function() {
this._close();
return this;
};
CanvasKit.Path.prototype.conicTo = function(x1, y1, x2, y2, w) {
this._conicTo(x1, y1, x2, y2, w);
return this;
};
// Clients can pass in a Float32Array with length 4 to this and the results
// will be copied into that array. Otherwise, a new TypedArray will be allocated
// and returned.
CanvasKit.Path.prototype.computeTightBounds = function(optionalOutputArray) {
this._computeTightBounds(_scratchFourFloatsAPtr);
var ta = _scratchFourFloatsA['toTypedArray']();
if (optionalOutputArray) {
optionalOutputArray.set(ta);
return optionalOutputArray;
}
return ta.slice();
};
CanvasKit.Path.prototype.cubicTo = function(cp1x, cp1y, cp2x, cp2y, x, y) {
this._cubicTo(cp1x, cp1y, cp2x, cp2y, x, y);
return this;
};
CanvasKit.Path.prototype.dash = function(on, off, phase) {
if (this._dash(on, off, phase)) {
return this;
}
return null;
};
// Clients can pass in a Float32Array with length 4 to this and the results
// will be copied into that array. Otherwise, a new TypedArray will be allocated
// and returned.
CanvasKit.Path.prototype.getBounds = function(optionalOutputArray) {
this._getBounds(_scratchFourFloatsAPtr);
var ta = _scratchFourFloatsA['toTypedArray']();
if (optionalOutputArray) {
optionalOutputArray.set(ta);
return optionalOutputArray;
}
return ta.slice();
};
CanvasKit.Path.prototype.lineTo = function(x, y) {
this._lineTo(x, y);
return this;
};
CanvasKit.Path.prototype.moveTo = function(x, y) {
this._moveTo(x, y);
return this;
};
CanvasKit.Path.prototype.offset = function(dx, dy) {
this._transform(1, 0, dx,
0, 1, dy,
0, 0, 1);
return this;
};
CanvasKit.Path.prototype.quadTo = function(cpx, cpy, x, y) {
this._quadTo(cpx, cpy, x, y);
return this;
};
CanvasKit.Path.prototype.rArcTo = function(rx, ry, xAxisRotate, useSmallArc, isCCW, dx, dy) {
this._rArcTo(rx, ry, xAxisRotate, useSmallArc, isCCW, dx, dy);
return this;
};
CanvasKit.Path.prototype.rConicTo = function(dx1, dy1, dx2, dy2, w) {
this._rConicTo(dx1, dy1, dx2, dy2, w);
return this;
};
// These params are all relative
CanvasKit.Path.prototype.rCubicTo = function(cp1x, cp1y, cp2x, cp2y, x, y) {
this._rCubicTo(cp1x, cp1y, cp2x, cp2y, x, y);
return this;
};
CanvasKit.Path.prototype.rLineTo = function(dx, dy) {
this._rLineTo(dx, dy);
return this;
};
CanvasKit.Path.prototype.rMoveTo = function(dx, dy) {
this._rMoveTo(dx, dy);
return this;
};
// These params are all relative
CanvasKit.Path.prototype.rQuadTo = function(cpx, cpy, x, y) {
this._rQuadTo(cpx, cpy, x, y);
return this;
};
CanvasKit.Path.prototype.stroke = function(opts) {
// Fill out any missing values with the default values.
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;
};
// TODO(kjlubick) Change this to take a 3x3 or 4x4 matrix (optionally malloc'd)
CanvasKit.Path.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.Path.prototype.trim = function(startT, stopT, isComplement) {
if (this._trim(startT, stopT, !!isComplement)) {
return this;
}
return null;
};
// makeShaderCubic returns a shader for a given image, allowing it to be used on
// a paint as well as other purposes. This shader will be higher quality than
// other shader functions. See CubicResampler in SkSamplingOptions.h for more information
// on the cubicResampler params.
CanvasKit.Image.prototype.makeShaderCubic = function(xTileMode, yTileMode,
cubicResamplerB, cubicResamplerC,
localMatrix) {
var localMatrixPtr = copy3x3MatrixToWasm(localMatrix);
return this._makeShaderCubic(xTileMode, yTileMode, cubicResamplerB,
cubicResamplerC, localMatrixPtr);
};
// makeShaderCubic returns a shader for a given image, allowing it to be used on
// a paint as well as other purposes. This shader will draw more quickly than
// other shader functions, but at a lower quality.
CanvasKit.Image.prototype.makeShaderOptions = function(xTileMode, yTileMode,
filterMode, mipmapMode,
localMatrix) {
var localMatrixPtr = copy3x3MatrixToWasm(localMatrix);
return this._makeShaderOptions(xTileMode, yTileMode, filterMode, mipmapMode, localMatrixPtr);
};
function readPixels(source, srcX, srcY, imageInfo, destMallocObj, bytesPerRow) {
if (!bytesPerRow) {
bytesPerRow = 4 * imageInfo['width'];
if (imageInfo['colorType'] === CanvasKit.ColorType.RGBA_F16) {
bytesPerRow *= 2;
}
else if (imageInfo['colorType'] === CanvasKit.ColorType.RGBA_F32) {
bytesPerRow *= 4;
}
}
var pBytes = bytesPerRow * imageInfo.height;
var pPtr;
if (destMallocObj) {
pPtr = destMallocObj['byteOffset'];
} else {
pPtr = CanvasKit._malloc(pBytes);
}
if (!source._readPixels(imageInfo, pPtr, bytesPerRow, srcX, srcY)) {
Debug('Could not read pixels with the given inputs');
if (!destMallocObj) {
CanvasKit._free(pPtr);
}
return null;
}
// If the user provided us a buffer to copy into, we don't need to allocate a new TypedArray.
if (destMallocObj) {
return destMallocObj['toTypedArray'](); // Return the typed array wrapper w/o allocating.
}
// 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:
case CanvasKit.ColorType.RGBA_F16: // there is no half-float JS type, so we return raw bytes.
retVal = new Uint8Array(CanvasKit.HEAPU8.buffer, pPtr, pBytes).slice();
break;
case CanvasKit.ColorType.RGBA_F32:
retVal = new Float32Array(CanvasKit.HEAPU8.buffer, pPtr, pBytes).slice();
break;
default:
Debug('ColorType not yet supported');
return null;
}
// Free the allocated pixels in the WASM memory
CanvasKit._free(pPtr);
return retVal;
}
CanvasKit.Image.prototype.readPixels = function(srcX, srcY, imageInfo, destMallocObj,
bytesPerRow) {
return readPixels(this, srcX, srcY, imageInfo, destMallocObj, bytesPerRow);
};
// Accepts an array of four numbers in the range of 0-1 representing a 4f color
CanvasKit.Canvas.prototype.clear = function(color4f) {
CanvasKit.setCurrentContext(this._context);
var cPtr = copyColorToWasm(color4f);
this._clear(cPtr);
};
CanvasKit.Canvas.prototype.clipRRect = function(rrect, op, antialias) {
CanvasKit.setCurrentContext(this._context);
var rPtr = copyRRectToWasm(rrect);
this._clipRRect(rPtr, op, antialias);
};
CanvasKit.Canvas.prototype.clipRect = function(rect, op, antialias) {
CanvasKit.setCurrentContext(this._context);
var rPtr = copyRectToWasm(rect);
this._clipRect(rPtr, op, antialias);
};
// concat takes a 3x2, a 3x3, or a 4x4 matrix and upscales it (if needed) to 4x4. This is because
// under the hood, SkCanvas uses a 4x4 matrix.
CanvasKit.Canvas.prototype.concat = function(matr) {
CanvasKit.setCurrentContext(this._context);
var matrPtr = copy4x4MatrixToWasm(matr);
this._concat(matrPtr);
};
CanvasKit.Canvas.prototype.drawArc = function(oval, startAngle, sweepAngle, useCenter, paint) {
CanvasKit.setCurrentContext(this._context);
var oPtr = copyRectToWasm(oval);
this._drawArc(oPtr, startAngle, sweepAngle, useCenter, paint);
};
// atlas is an Image, e.g. from CanvasKit.MakeImageFromEncoded
// srcRects, dstXformsshould be arrays of floats of length 4*number of destinations.
// The colors param is optional and is used to tint the drawn images using the optional blend
// mode. Colors can be a Uint32Array of int colors or a flat Float32Array of float colors.
CanvasKit.Canvas.prototype.drawAtlas = function(atlas, srcRects, dstXforms, paint,
/* optional */ blendMode, /* optional */ colors,
/* optional */ sampling) {
if (!atlas || !paint || !srcRects || !dstXforms) {
Debug('Doing nothing since missing a required input');
return;
}
// builder arguments report the length as the number of rects, but when passed as arrays
// their.length attribute is 4x higher because it's the number of total components of all rects.
// colors is always going to report the same length, at least until floats colors are supported
// by this function.
if (srcRects.length !== dstXforms.length) {
Debug('Doing nothing since input arrays length mismatches');
return;
}
CanvasKit.setCurrentContext(this._context);
if (!blendMode) {
blendMode = CanvasKit.BlendMode.SrcOver;
}
var srcRectPtr = copy1dArray(srcRects, 'HEAPF32');
var dstXformPtr = copy1dArray(dstXforms, 'HEAPF32');
var count = dstXforms.length / 4;
var colorPtr = copy1dArray(assureIntColors(colors), 'HEAPU32');
// We require one of these:
// 1. sampling is null (we default to linear/none)
// 2. sampling.B and sampling.C --> CubicResampler
// 3. sampling.filter [and sampling.mipmap] --> FilterOptions
//
// Thus if all fields are available, we will choose cubic (since we search for B,C first)
if (sampling && ('B' in sampling) && ('C' in sampling)) {
this._drawAtlasCubic(atlas, dstXformPtr, srcRectPtr, colorPtr, count, blendMode,
sampling['B'], sampling['C'], paint);
} else {
let filter = CanvasKit.FilterMode.Linear;
let mipmap = CanvasKit.MipmapMode.None;
if (sampling) {
filter = sampling['filter']; // 'filter' is a required field
if ('mipmap' in sampling) { // 'mipmap' is optional
mipmap = sampling['mipmap'];
}
}
this._drawAtlasOptions(atlas, dstXformPtr, srcRectPtr, colorPtr, count, blendMode,
filter, mipmap, paint);
}
freeArraysThatAreNotMallocedByUsers(srcRectPtr, srcRects);
freeArraysThatAreNotMallocedByUsers(dstXformPtr, dstXforms);
freeArraysThatAreNotMallocedByUsers(colorPtr, colors);
};
CanvasKit.Canvas.prototype.drawCircle = function(cx, cy, r, paint) {
CanvasKit.setCurrentContext(this._context);
this._drawCircle(cx, cy, r, paint);
}
CanvasKit.Canvas.prototype.drawColor = function(color4f, mode) {
CanvasKit.setCurrentContext(this._context);
var cPtr = copyColorToWasm(color4f);
if (mode !== undefined) {
this._drawColor(cPtr, mode);
} else {
this._drawColor(cPtr);
}
};
CanvasKit.Canvas.prototype.drawColorInt = function(color, mode) {
CanvasKit.setCurrentContext(this._context);
this._drawColorInt(color, mode || CanvasKit.BlendMode.SrcOver);
}
CanvasKit.Canvas.prototype.drawColorComponents = function(r, g, b, a, mode) {
CanvasKit.setCurrentContext(this._context);
var cPtr = copyColorComponentsToWasm(r, g, b, a);
if (mode !== undefined) {
this._drawColor(cPtr, mode);
} else {
this._drawColor(cPtr);
}
};
CanvasKit.Canvas.prototype.drawDRRect = function(outer, inner, paint) {
CanvasKit.setCurrentContext(this._context);
var oPtr = copyRRectToWasm(outer, _scratchRRectPtr);
var iPtr = copyRRectToWasm(inner, _scratchRRect2Ptr);
this._drawDRRect(oPtr, iPtr, paint);
};
CanvasKit.Canvas.prototype.drawGlyphs = function(glyphs, positions, x, y, font, paint) {
if (!(glyphs.length*2 <= positions.length)) {
throw 'Not enough positions for the array of gyphs';
}
CanvasKit.setCurrentContext(this._context);
const glyphs_ptr = copy1dArray(glyphs, 'HEAPU16');
const positions_ptr = copy1dArray(positions, 'HEAPF32');
this._drawGlyphs(glyphs.length, glyphs_ptr, positions_ptr, x, y, font, paint);
freeArraysThatAreNotMallocedByUsers(positions_ptr, positions);
freeArraysThatAreNotMallocedByUsers(glyphs_ptr, glyphs);
};
CanvasKit.Canvas.prototype.drawImage = function(img, x, y, paint) {
CanvasKit.setCurrentContext(this._context);
this._drawImage(img, x, y, paint || null);
};
CanvasKit.Canvas.prototype.drawImageCubic = function(img, x, y, b, c, paint) {
CanvasKit.setCurrentContext(this._context);
this._drawImageCubic(img, x, y, b, c, paint || null);
};
CanvasKit.Canvas.prototype.drawImageOptions = function(img, x, y, filter, mipmap, paint) {
CanvasKit.setCurrentContext(this._context);
this._drawImageOptions(img, x, y, filter, mipmap, paint || null);
};
CanvasKit.Canvas.prototype.drawImageNine = function(img, center, dest, filter, paint) {
CanvasKit.setCurrentContext(this._context);
var cPtr = copyIRectToWasm(center);
var dPtr = copyRectToWasm(dest);
this._drawImageNine(img, cPtr, dPtr, filter, paint || null);
};
CanvasKit.Canvas.prototype.drawImageRect = function(img, src, dest, paint, fastSample) {
CanvasKit.setCurrentContext(this._context);
copyRectToWasm(src, _scratchFourFloatsAPtr);
copyRectToWasm(dest, _scratchFourFloatsBPtr);
this._drawImageRect(img, _scratchFourFloatsAPtr, _scratchFourFloatsBPtr, paint, !!fastSample);
};
CanvasKit.Canvas.prototype.drawImageRectCubic = function(img, src, dest, B, C, paint) {
CanvasKit.setCurrentContext(this._context);
copyRectToWasm(src, _scratchFourFloatsAPtr);
copyRectToWasm(dest, _scratchFourFloatsBPtr);
this._drawImageRectCubic(img, _scratchFourFloatsAPtr, _scratchFourFloatsBPtr, B, C,
paint || null);
};
CanvasKit.Canvas.prototype.drawImageRectOptions = function(img, src, dest, filter, mipmap, paint) {
CanvasKit.setCurrentContext(this._context);
copyRectToWasm(src, _scratchFourFloatsAPtr);
copyRectToWasm(dest, _scratchFourFloatsBPtr);
this._drawImageRectOptions(img, _scratchFourFloatsAPtr, _scratchFourFloatsBPtr, filter, mipmap,
paint || null);
};
CanvasKit.Canvas.prototype.drawLine = function(x1, y1, x2, y2, paint) {
CanvasKit.setCurrentContext(this._context);
this._drawLine(x1, y1, x2, y2, paint);
}
CanvasKit.Canvas.prototype.drawOval = function(oval, paint) {
CanvasKit.setCurrentContext(this._context);
var oPtr = copyRectToWasm(oval);
this._drawOval(oPtr, paint);
};
CanvasKit.Canvas.prototype.drawPaint = function(paint) {
CanvasKit.setCurrentContext(this._context);
this._drawPaint(paint);
}
CanvasKit.Canvas.prototype.drawParagraph = function(p, x, y) {
CanvasKit.setCurrentContext(this._context);
this._drawParagraph(p, x, y);
}
CanvasKit.Canvas.prototype.drawPatch = function(cubics, colors, texs, mode, paint) {
if (cubics.length < 24) {
throw 'Need 12 cubic points';
}
if (colors && colors.length < 4) {
throw 'Need 4 colors';
}
if (texs && texs.length < 8) {
throw 'Need 4 shader coordinates';
}
CanvasKit.setCurrentContext(this._context);
const cubics_ptr = copy1dArray(cubics, 'HEAPF32');
const colors_ptr = colors ? copy1dArray(assureIntColors(colors), 'HEAPU32') : nullptr;
const texs_ptr = texs ? copy1dArray(texs, 'HEAPF32') : nullptr;
if (!mode) {
mode = CanvasKit.BlendMode.Modulate;
}
this._drawPatch(cubics_ptr, colors_ptr, texs_ptr, mode, paint);
freeArraysThatAreNotMallocedByUsers(texs_ptr, texs);
freeArraysThatAreNotMallocedByUsers(colors_ptr, colors);
freeArraysThatAreNotMallocedByUsers(cubics_ptr, cubics);
};
CanvasKit.Canvas.prototype.drawPath = function(path, paint) {
CanvasKit.setCurrentContext(this._context);
this._drawPath(path, paint);
}
CanvasKit.Canvas.prototype.drawPicture = function(pic) {
CanvasKit.setCurrentContext(this._context);
this._drawPicture(pic);
}
// points is a 1d array of length 2n representing n points where the even indices
// will be treated as x coordinates and the odd indices will be treated as y coordinates.
// Like other APIs, this accepts a malloced type array or malloc obj.
CanvasKit.Canvas.prototype.drawPoints = function(mode, points, paint) {
CanvasKit.setCurrentContext(this._context);
var ptr = copy1dArray(points, 'HEAPF32');
this._drawPoints(mode, ptr, points.length / 2, paint);
freeArraysThatAreNotMallocedByUsers(ptr, points);
};
CanvasKit.Canvas.prototype.drawRRect = function(rrect, paint) {
CanvasKit.setCurrentContext(this._context);
var rPtr = copyRRectToWasm(rrect);
this._drawRRect(rPtr, paint);
};
CanvasKit.Canvas.prototype.drawRect = function(rect, paint) {
CanvasKit.setCurrentContext(this._context);
var rPtr = copyRectToWasm(rect);
this._drawRect(rPtr, paint);
};
CanvasKit.Canvas.prototype.drawRect4f = function(l, t, r, b, paint) {
CanvasKit.setCurrentContext(this._context);
this._drawRect4f(l, t, r, b, paint);
}
CanvasKit.Canvas.prototype.drawShadow = function(path, zPlaneParams, lightPos, lightRadius,
ambientColor, spotColor, flags) {
CanvasKit.setCurrentContext(this._context);
var ambiPtr = copyColorToWasmNoScratch(ambientColor);
var spotPtr = copyColorToWasmNoScratch(spotColor);
// We use the return value from copy1dArray in case the passed in arrays are malloc'd.
var zPlanePtr = copy1dArray(zPlaneParams, 'HEAPF32', _scratchThreeFloatsAPtr);
var lightPosPtr = copy1dArray(lightPos, 'HEAPF32', _scratchThreeFloatsBPtr);
this._drawShadow(path, zPlanePtr, lightPosPtr, lightRadius, ambiPtr, spotPtr, flags);
freeArraysThatAreNotMallocedByUsers(ambiPtr, ambientColor);
freeArraysThatAreNotMallocedByUsers(spotPtr, spotColor);
};
CanvasKit.getShadowLocalBounds = function(ctm, path, zPlaneParams, lightPos, lightRadius,
flags, optOutputRect) {
var ctmPtr = copy3x3MatrixToWasm(ctm);
// We use the return value from copy1dArray in case the passed in arrays are malloc'd.
var zPlanePtr = copy1dArray(zPlaneParams, 'HEAPF32', _scratchThreeFloatsAPtr);
var lightPosPtr = copy1dArray(lightPos, 'HEAPF32', _scratchThreeFloatsBPtr);
var ok = this._getShadowLocalBounds(ctmPtr, path, zPlanePtr, lightPosPtr, lightRadius,
flags, _scratchFourFloatsAPtr);
if (!ok) {
return null;
}
var ta = _scratchFourFloatsA['toTypedArray']();
if (optOutputRect) {
optOutputRect.set(ta);
return optOutputRect;
}
return ta.slice();
};
CanvasKit.Canvas.prototype.drawTextBlob = function(blob, x, y, paint) {
CanvasKit.setCurrentContext(this._context);
this._drawTextBlob(blob, x, y, paint);
}
CanvasKit.Canvas.prototype.drawVertices = function(verts, mode, paint) {
CanvasKit.setCurrentContext(this._context);
this._drawVertices(verts, mode, paint);
}
// getLocalToDevice returns a 4x4 matrix.
CanvasKit.Canvas.prototype.getLocalToDevice = function() {
// _getLocalToDevice will copy the values into the pointer.
this._getLocalToDevice(_scratch4x4MatrixPtr);
return copy4x4MatrixFromWasm(_scratch4x4MatrixPtr);
};
// findMarkedCTM returns a 4x4 matrix, or null if a matrix was not found at
// the provided marker.
CanvasKit.Canvas.prototype.findMarkedCTM = function(marker) {
// _getLocalToDevice will copy the values into the pointer.
var found = this._findMarkedCTM(marker, _scratch4x4MatrixPtr);
if (!found) {
return null;
}
return copy4x4MatrixFromWasm(_scratch4x4MatrixPtr);
};
// getTotalMatrix returns the current matrix as a 3x3 matrix.
CanvasKit.Canvas.prototype.getTotalMatrix = function() {
// _getTotalMatrix will copy the values into the pointer.
this._getTotalMatrix(_scratch3x3MatrixPtr);
// read them out into an array. TODO(kjlubick): If we change Matrix to be
// typedArrays, then we should return a typed array here too.
var rv = new Array(9);
for (var i = 0; i < 9; i++) {
rv[i] = CanvasKit.HEAPF32[_scratch3x3MatrixPtr/4 + i]; // divide by 4 to "cast" to float.
}
return rv;
};
CanvasKit.Canvas.prototype.makeSurface = function(imageInfo) {
var s = this._makeSurface(imageInfo);
s._context = this._context;
return s;
};
CanvasKit.Canvas.prototype.readPixels = function(srcX, srcY, imageInfo, destMallocObj,
bytesPerRow) {
CanvasKit.setCurrentContext(this._context);
return readPixels(this, srcX, srcY, imageInfo, destMallocObj, bytesPerRow);
};
CanvasKit.Canvas.prototype.saveLayer = function(paint, boundsRect, backdrop, flags) {
// bPtr will be 0 (nullptr) if boundsRect is undefined/null.
var bPtr = copyRectToWasm(boundsRect);
// These or clauses help emscripten, which does not deal with undefined well.
return this._saveLayer(paint || null, bPtr, backdrop || null, flags || 0);
};
// pixels should be a Uint8Array or a plain JS array.
CanvasKit.Canvas.prototype.writePixels = function(pixels, srcWidth, srcHeight,
destX, destY, alphaType, colorType, colorSpace) {
if (pixels.byteLength % (srcWidth * srcHeight)) {
throw 'pixels length must be a multiple of the srcWidth * srcHeight';
}
CanvasKit.setCurrentContext(this._context);
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;
colorSpace = colorSpace || CanvasKit.ColorSpace.SRGB;
var srcRowBytes = bytesPerPixel * srcWidth;
var pptr = copy1dArray(pixels, 'HEAPU8');
var ok = this._writePixels({
'width': srcWidth,
'height': srcHeight,
'colorType': colorType,
'alphaType': alphaType,
'colorSpace': colorSpace,
}, pptr, srcRowBytes, destX, destY);
freeArraysThatAreNotMallocedByUsers(pptr, pixels);
return ok;
};
CanvasKit.ColorFilter.MakeBlend = function(color4f, mode) {
var cPtr = copyColorToWasm(color4f);
return CanvasKit.ColorFilter._MakeBlend(cPtr, mode);
};
// colorMatrix is an ColorMatrix (e.g. Float32Array of length 20)
CanvasKit.ColorFilter.MakeMatrix = function(colorMatrix) {
if (!colorMatrix || colorMatrix.length !== 20) {
throw 'invalid color matrix';
}
var fptr = copy1dArray(colorMatrix, 'HEAPF32');
// We know skia memcopies the floats, so we can free our memory after the call returns.
var m = CanvasKit.ColorFilter._makeMatrix(fptr);
freeArraysThatAreNotMallocedByUsers(fptr, colorMatrix);
return m;
};
CanvasKit.ContourMeasure.prototype.getPosTan = function(distance, optionalOutput) {
this._getPosTan(distance, _scratchFourFloatsAPtr);
var ta = _scratchFourFloatsA['toTypedArray']();
if (optionalOutput) {
optionalOutput.set(ta);
return optionalOutput;
}
return ta.slice();
};
CanvasKit.ImageFilter.MakeMatrixTransform = function(matrix, sampling, input) {
var matrPtr = copy3x3MatrixToWasm(matrix);
if ('B' in sampling && 'C' in sampling) {
return CanvasKit.ImageFilter._MakeMatrixTransformCubic(matrPtr,
sampling.B, sampling.C,
input);
} else {
const filter = sampling['filter']; // 'filter' is a required field
let mipmap = CanvasKit.MipmapMode.None;
if ('mipmap' in sampling) { // 'mipmap' is optional
mipmap = sampling['mipmap'];
}
return CanvasKit.ImageFilter._MakeMatrixTransformOptions(matrPtr,
filter, mipmap,
input);
}
};
CanvasKit.Paint.prototype.getColor = function() {
this._getColor(_scratchColorPtr);
return copyColorFromWasm(_scratchColorPtr);
};
CanvasKit.Paint.prototype.setColor = function(color4f, colorSpace) {
colorSpace = colorSpace || null; // null will be replaced with sRGB in the C++ method.
// emscripten wouldn't bind undefined to the sk_sp<ColorSpace> expected here.
var cPtr = copyColorToWasm(color4f);
this._setColor(cPtr, colorSpace);
};
// The color components here are expected to be floating point values (nominally between
// 0.0 and 1.0, but with wider color gamuts, the values could exceed this range). To convert
// between standard 8 bit colors and floats, just divide by 255 before passing them in.
CanvasKit.Paint.prototype.setColorComponents = function(r, g, b, a, colorSpace) {
colorSpace = colorSpace || null; // null will be replaced with sRGB in the C++ method.
// emscripten wouldn't bind undefined to the sk_sp<ColorSpace> expected here.
var cPtr = copyColorComponentsToWasm(r, g, b, a);
this._setColor(cPtr, colorSpace);
};
CanvasKit.Path.prototype.getPoint = function(idx, optionalOutput) {
// This will copy 2 floats into a space for 4 floats
this._getPoint(idx, _scratchFourFloatsAPtr);
var ta = _scratchFourFloatsA['toTypedArray']();
if (optionalOutput) {
// We cannot call optionalOutput.set() because it is an error to call .set() with
// a source bigger than the destination.
optionalOutput[0] = ta[0];
optionalOutput[1] = ta[1];
return optionalOutput;
}
// Be sure to return a copy of just the first 2 values.
return ta.slice(0, 2);
};
CanvasKit.PictureRecorder.prototype.beginRecording = function(bounds) {
var bPtr = copyRectToWasm(bounds);
return this._beginRecording(bPtr);
};
CanvasKit.Surface.prototype.getCanvas = function() {
var c = this._getCanvas();
c._context = this._context;
return c;
};
CanvasKit.Surface.prototype.makeImageSnapshot = function(optionalBoundsRect) {
CanvasKit.setCurrentContext(this._context);
var bPtr = copyIRectToWasm(optionalBoundsRect);
return this._makeImageSnapshot(bPtr);
};
CanvasKit.Surface.prototype.makeSurface = function(imageInfo) {
CanvasKit.setCurrentContext(this._context);
var s = this._makeSurface(imageInfo);
s._context = this._context;
return s;
};
CanvasKit.Surface.prototype.requestAnimationFrame = function(callback, dirtyRect) {
if (!this._cached_canvas) {
this._cached_canvas = this.getCanvas();
}
requestAnimationFrame(function() {
CanvasKit.setCurrentContext(this._context);
callback(this._cached_canvas);
// We do not dispose() of the Surface here, as the client will typically
// call requestAnimationFrame again from within the supplied callback.
// For drawing a single frame, prefer drawOnce().
this.flush(dirtyRect);
}.bind(this));
};
// drawOnce will dispose of the surface after drawing the frame using the provided
// callback.
CanvasKit.Surface.prototype.drawOnce = function(callback, dirtyRect) {
if (!this._cached_canvas) {
this._cached_canvas = this.getCanvas();
}
requestAnimationFrame(function() {
CanvasKit.setCurrentContext(this._context);
callback(this._cached_canvas);
this.flush(dirtyRect);
this.dispose();
}.bind(this));
};
CanvasKit.PathEffect.MakeDash = 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, 'HEAPF32');
var dpe = CanvasKit.PathEffect._MakeDash(ptr, intervals.length, phase);
freeArraysThatAreNotMallocedByUsers(ptr, intervals);
return dpe;
};
CanvasKit.Shader.MakeColor = function(color4f, colorSpace) {
colorSpace = colorSpace || null;
var cPtr = copyColorToWasm(color4f);
return CanvasKit.Shader._MakeColor(cPtr, colorSpace);
};
// TODO(kjlubick) remove deprecated names.
CanvasKit.Shader.Blend = CanvasKit.Shader.MakeBlend;
CanvasKit.Shader.Color = CanvasKit.Shader.MakeColor;
CanvasKit.Shader.MakeLinearGradient = function(start, end, colors, pos, mode, localMatrix, flags, colorSpace) {
colorSpace = colorSpace || null;
var cPtrInfo = copyFlexibleColorArray(colors);
var posPtr = copy1dArray(pos, 'HEAPF32');
flags = flags || 0;
var localMatrixPtr = copy3x3MatrixToWasm(localMatrix);
// Copy start and end to _scratchFourFloatsAPtr.
var startEndPts = _scratchFourFloatsA['toTypedArray']();
startEndPts.set(start);
startEndPts.set(end, 2);
var lgs = CanvasKit.Shader._MakeLinearGradient(_scratchFourFloatsAPtr, cPtrInfo.colorPtr, cPtrInfo.colorType, posPtr,
cPtrInfo.count, mode, flags, localMatrixPtr, colorSpace);
freeArraysThatAreNotMallocedByUsers(cPtrInfo.colorPtr, colors);
pos && freeArraysThatAreNotMallocedByUsers(posPtr, pos);
return lgs;
};
CanvasKit.Shader.MakeRadialGradient = function(center, radius, colors, pos, mode, localMatrix, flags, colorSpace) {
colorSpace = colorSpace || null;
var cPtrInfo = copyFlexibleColorArray(colors);
var posPtr = copy1dArray(pos, 'HEAPF32');
flags = flags || 0;
var localMatrixPtr = copy3x3MatrixToWasm(localMatrix);
var rgs = CanvasKit.Shader._MakeRadialGradient(center[0], center[1], radius, cPtrInfo.colorPtr,
cPtrInfo.colorType, posPtr, cPtrInfo.count, mode,
flags, localMatrixPtr, colorSpace);
freeArraysThatAreNotMallocedByUsers(cPtrInfo.colorPtr, colors);
pos && freeArraysThatAreNotMallocedByUsers(posPtr, pos);
return rgs;
};
CanvasKit.Shader.MakeSweepGradient = function(cx, cy, colors, pos, mode, localMatrix, flags, startAngle, endAngle, colorSpace) {
colorSpace = colorSpace || null;
var cPtrInfo = copyFlexibleColorArray(colors);
var posPtr = copy1dArray(pos, 'HEAPF32');
flags = flags || 0;
startAngle = startAngle || 0;
endAngle = endAngle || 360;
var localMatrixPtr = copy3x3MatrixToWasm(localMatrix);
var sgs = CanvasKit.Shader._MakeSweepGradient(cx, cy, cPtrInfo.colorPtr, cPtrInfo.colorType, posPtr,
cPtrInfo.count, mode,
startAngle, endAngle, flags,
localMatrixPtr, colorSpace);
freeArraysThatAreNotMallocedByUsers(cPtrInfo.colorPtr, colors);
pos && freeArraysThatAreNotMallocedByUsers(posPtr, pos);
return sgs;
};
CanvasKit.Shader.MakeTwoPointConicalGradient = function(start, startRadius, end, endRadius,
colors, pos, mode, localMatrix, flags, colorSpace) {
colorSpace = colorSpace || null;
var cPtrInfo = copyFlexibleColorArray(colors);
var posPtr = copy1dArray(pos, 'HEAPF32');
flags = flags || 0;
var localMatrixPtr = copy3x3MatrixToWasm(localMatrix);
// Copy start and end to _scratchFourFloatsAPtr.
var startEndPts = _scratchFourFloatsA['toTypedArray']();
startEndPts.set(start);
startEndPts.set(end, 2);
var rgs = CanvasKit.Shader._MakeTwoPointConicalGradient(_scratchFourFloatsAPtr,
startRadius, endRadius, cPtrInfo.colorPtr, cPtrInfo.colorType,
posPtr, cPtrInfo.count, mode, flags, localMatrixPtr, colorSpace);
freeArraysThatAreNotMallocedByUsers(cPtrInfo.colorPtr, colors);
pos && freeArraysThatAreNotMallocedByUsers(posPtr, pos);
return rgs;
};
// Clients can pass in a Float32Array with length 4 to this and the results
// will be copied into that array. Otherwise, a new TypedArray will be allocated
// and returned.
CanvasKit.Vertices.prototype.bounds = function(optionalOutputArray) {
this._bounds(_scratchFourFloatsAPtr);
var ta = _scratchFourFloatsA['toTypedArray']();
if (optionalOutputArray) {
optionalOutputArray.set(ta);
return optionalOutputArray;
}
return ta.slice();
};
// 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.
// Accepts an object holding two canvaskit colors.
// {
// ambient: [r, g, b, a],
// spot: [r, g, b, a],
// }
// Returns the same format. Note, if malloced colors are passed in, the memory
// housing the passed in colors passed in will be overwritten with the computed
// tonal colors.
CanvasKit.computeTonalColors = function(tonalColors) {
// copy the colors into WASM
var cPtrAmbi = copyColorToWasmNoScratch(tonalColors['ambient']);
var cPtrSpot = copyColorToWasmNoScratch(tonalColors['spot']);
// The output of this function will be the same pointers we passed in.
this._computeTonalColors(cPtrAmbi, cPtrSpot);
// Read the results out.
var result = {
'ambient': copyColorFromWasm(cPtrAmbi),
'spot': copyColorFromWasm(cPtrSpot),
};
// If the user passed us malloced colors in here, we don't want to clean them up.
freeArraysThatAreNotMallocedByUsers(cPtrAmbi, tonalColors['ambient']);
freeArraysThatAreNotMallocedByUsers(cPtrSpot, tonalColors['spot']);
return result;
};
CanvasKit.LTRBRect = function(l, t, r, b) {
return Float32Array.of(l, t, r, b);
};
CanvasKit.XYWHRect = function(x, y, w, h) {
return Float32Array.of(x, y, x+w, y+h);
};
CanvasKit.LTRBiRect = function(l, t, r, b) {
return Int32Array.of(l, t, r, b);
};
CanvasKit.XYWHiRect = function(x, y, w, h) {
return Int32Array.of(x, y, x+w, y+h);
};
// RRectXY returns a TypedArray representing an RRect with the given rect and a radiusX and
// radiusY for all 4 corners.
CanvasKit.RRectXY = function(rect, rx, ry) {
return Float32Array.of(
rect[0], rect[1], rect[2], rect[3],
rx, ry,
rx, ry,
rx, ry,
rx, ry,
);
};
// 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) {
Debug('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) {
Debug('Could not decode image');
return null;
}
return img;
};
// A variable to hold a canvasElement which can be reused once created the first time.
var memoizedCanvas2dElement = null;
// Alternative to CanvasKit.MakeImageFromEncoded. Allows for CanvasKit users to take advantage of
// browser APIs to decode images instead of using codecs included in the CanvasKit wasm binary.
// Expects that the canvasImageSource has already loaded/decoded.
// CanvasImageSource reference: https://developer.mozilla.org/en-US/docs/Web/API/CanvasImageSource
CanvasKit.MakeImageFromCanvasImageSource = function(canvasImageSource) {
var width = canvasImageSource.width;
var height = canvasImageSource.height;
if (!memoizedCanvas2dElement) {
memoizedCanvas2dElement = document.createElement('canvas');
}
memoizedCanvas2dElement.width = width;
memoizedCanvas2dElement.height = height;
var ctx2d = memoizedCanvas2dElement.getContext('2d');
ctx2d.drawImage(canvasImageSource, 0, 0);
var imageData = ctx2d.getImageData(0, 0, width, height);
return CanvasKit.MakeImage({
'width': width,
'height': height,
'alphaType': CanvasKit.AlphaType.Unpremul,
'colorType': CanvasKit.ColorType.RGBA_8888,
'colorSpace': CanvasKit.ColorSpace.SRGB
}, imageData.data, 4 * width);
};
// pixels may be an array but Uint8Array or Uint8ClampedArray is recommended,
// with the bytes representing the pixel values.
// (e.g. each set of 4 bytes could represent RGBA values for a single pixel).
CanvasKit.MakeImage = function(info, pixels, bytesPerRow) {
var pptr = CanvasKit._malloc(pixels.length);
CanvasKit.HEAPU8.set(pixels, pptr); // We always want to copy the bytes into the WASM heap.
// No need to _free pptr, Image takes it with SkData::MakeFromMalloc
return CanvasKit._MakeImage(info, pptr, pixels.length, bytesPerRow);
};
// Colors may be a Uint32Array of int colors, a Flat Float32Array of float colors
// or a 2d Array of Float32Array(4) (deprecated)
// the underlying Skia function accepts only int colors so it is recommended
// to pass an array of int colors to avoid an extra conversion.
CanvasKit.MakeVertices = function(mode, positions, textureCoordinates, colors,
indices, isVolatile) {
// Default isVolatile 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 (!isVolatile) {
flags |= (1 << 2);
}
var builder = new CanvasKit._VerticesBuilder(mode, positions.length / 2, idxCount, flags);
copy1dArray(positions, 'HEAPF32', builder.positions());
if (builder.texCoords()) {
copy1dArray(textureCoordinates, 'HEAPF32', builder.texCoords());
}
if (builder.colors()) {
copy1dArray(assureIntColors(colors), 'HEAPU32', builder.colors());
}
if (builder.indices()) {
copy1dArray(indices, 'HEAPU16', builder.indices());
}
// Create the vertices, which owns the memory that the builder had allocated.
return builder.detach();
};