You can not select more than 25 topics Topics must start with a letter or number, can include dashes ('-') and can be up to 35 characters long.

244 lines
6.8 KiB

// TODO(kjlubick)
// The remaining functions here are deprecated and should be removed eventually.
// Caching the Float32Arrays can save having to reallocate them
// over and over again.
var Float32ArrayCache = {};
// Takes a 2D array of commands and puts them into the WASM heap
// as a 1D array. This allows them to referenced from the C++ code.
// Returns a 2 element array, with the first item being essentially a
// pointer to the array and the second item being the length of
// the new 1D array.
//
// Example usage:
// let cmds = [
// [CanvasKit.MOVE_VERB, 0, 10],
// [CanvasKit.LINE_VERB, 30, 40],
// [CanvasKit.QUAD_VERB, 20, 50, 45, 60],
// ];
// TODO(kjlubick) remove this and Float32ArrayCache (superceded by Malloc).
function loadCmdsTypedArray(arr) {
var len = 0;
for (var r = 0; r < arr.length; r++) {
len += arr[r].length;
}
var ta;
if (Float32ArrayCache[len]) {
ta = Float32ArrayCache[len];
} else {
ta = new Float32Array(len);
Float32ArrayCache[len] = ta;
}
// Flatten into a 1d array
var i = 0;
for (var r = 0; r < arr.length; r++) {
for (var c = 0; c < arr[r].length; c++) {
var item = arr[r][c];
ta[i] = item;
i++;
}
}
var ptr = copy1dArray(ta, 'HEAPF32');
return [ptr, len];
}
// TODO(kjlubick) remove Builders - no longer needed now that Malloc is a thing.
/**
* Generic helper for dealing with an array of four floats.
*/
CanvasKit.FourFloatArrayHelper = function() {
this._floats = [];
this._ptr = null;
Object.defineProperty(this, 'length', {
enumerable: true,
get: function() {
return this._floats.length / 4;
},
});
};
/**
* push the four floats onto the end of the array - if build() has already
* been called, the call will return without modifying anything.
*/
CanvasKit.FourFloatArrayHelper.prototype.push = function(f1, f2, f3, f4) {
if (this._ptr) {
Debug('Cannot push more points - already built');
return;
}
this._floats.push(f1, f2, f3, f4);
};
/**
* Set the four floats at a given index - if build() has already
* been called, the WASM memory will be written to directly.
*/
CanvasKit.FourFloatArrayHelper.prototype.set = function(idx, f1, f2, f3, f4) {
if (idx < 0 || idx >= this._floats.length/4) {
Debug('Cannot set index ' + idx + ', it is out of range', this._floats.length/4);
return;
}
idx *= 4;
var BYTES_PER_ELEMENT = 4;
if (this._ptr) {
// convert this._ptr from uint8_t* to SkScalar* by dividing by 4
var floatPtr = (this._ptr / BYTES_PER_ELEMENT) + idx;
CanvasKit.HEAPF32[floatPtr] = f1;
CanvasKit.HEAPF32[floatPtr + 1] = f2;
CanvasKit.HEAPF32[floatPtr + 2] = f3;
CanvasKit.HEAPF32[floatPtr + 3] = f4;
return;
}
this._floats[idx] = f1;
this._floats[idx + 1] = f2;
this._floats[idx + 2] = f3;
this._floats[idx + 3] = f4;
};
/**
* Copies the float data to the WASM memory and returns a pointer
* to that allocated memory. Once build has been called, this
* float array cannot be made bigger.
*/
CanvasKit.FourFloatArrayHelper.prototype.build = function() {
if (this._ptr) {
return this._ptr;
}
this._ptr = copy1dArray(this._floats, 'HEAPF32');
return this._ptr;
};
/**
* Frees the wasm memory associated with this array. Of note,
* the points are not removed, so push/set/build can all
* be called to make a newly allocated (possibly bigger)
* float array.
*/
CanvasKit.FourFloatArrayHelper.prototype.delete = function() {
if (this._ptr) {
CanvasKit._free(this._ptr);
this._ptr = null;
}
};
/**
* Generic helper for dealing with an array of unsigned ints.
*/
CanvasKit.OneUIntArrayHelper = function() {
this._uints = [];
this._ptr = null;
Object.defineProperty(this, 'length', {
enumerable: true,
get: function() {
return this._uints.length;
},
});
};
/**
* push the unsigned int onto the end of the array - if build() has already
* been called, the call will return without modifying anything.
*/
CanvasKit.OneUIntArrayHelper.prototype.push = function(u) {
if (this._ptr) {
Debug('Cannot push more points - already built');
return;
}
this._uints.push(u);
};
/**
* Set the uint at a given index - if build() has already
* been called, the WASM memory will be written to directly.
*/
CanvasKit.OneUIntArrayHelper.prototype.set = function(idx, u) {
if (idx < 0 || idx >= this._uints.length) {
Debug('Cannot set index ' + idx + ', it is out of range', this._uints.length);
return;
}
idx *= 4;
var BYTES_PER_ELEMENT = 4;
if (this._ptr) {
// convert this._ptr from uint8_t* to SkScalar* by dividing by 4
var uintPtr = (this._ptr / BYTES_PER_ELEMENT) + idx;
CanvasKit.HEAPU32[uintPtr] = u;
return;
}
this._uints[idx] = u;
};
/**
* Copies the uint data to the WASM memory and returns a pointer
* to that allocated memory. Once build has been called, this
* unit array cannot be made bigger.
*/
CanvasKit.OneUIntArrayHelper.prototype.build = function() {
if (this._ptr) {
return this._ptr;
}
this._ptr = copy1dArray(this._uints, 'HEAPU32');
return this._ptr;
};
/**
* Frees the wasm memory associated with this array. Of note,
* the points are not removed, so push/set/build can all
* be called to make a newly allocated (possibly bigger)
* uint array.
*/
CanvasKit.OneUIntArrayHelper.prototype.delete = function() {
if (this._ptr) {
CanvasKit._free(this._ptr);
this._ptr = null;
}
};
/**
* Helper for building an array of Rects (which are just structs
* of 4 floats).
*
* It can be more performant to use this helper, as
* the C++-side array is only allocated once (on the first call)
* to build. Subsequent set() operations operate directly on
* the C++-side array, avoiding having to re-allocate (and free)
* the array every time.
*
* Input points are taken as left, top, right, bottom
*/
CanvasKit.RectBuilder = CanvasKit.FourFloatArrayHelper;
/**
* Helper for building an array of RSXForms (which are just structs
* of 4 floats).
*
* It can be more performant to use this helper, as
* the C++-side array is only allocated once (on the first call)
* to build. Subsequent set() operations operate directly on
* the C++-side array, avoiding having to re-allocate (and free)
* the array every time.
*
* An RSXForm is a compressed form of a rotation+scale matrix.
*
* [ scos -ssin tx ]
* [ ssin scos ty ]
* [ 0 0 1 ]
*
* Input points are taken as scos, ssin, tx, ty
*/
CanvasKit.RSXFormBuilder = CanvasKit.FourFloatArrayHelper;
/**
* Helper for building an array of Color
*
* It can be more performant to use this helper, as
* the C++-side array is only allocated once (on the first call)
* to build. Subsequent set() operations operate directly on
* the C++-side array, avoiding having to re-allocate (and free)
* the array every time.
*/
CanvasKit.ColorBuilder = CanvasKit.OneUIntArrayHelper;