modules/canvaskit/memory.js - skia - Git at Google

 /*
  * This file houses utilities for copying blocks of memory to and from
  * the WASM heap.
  */

 /**
  * Malloc returns a TypedArray backed by the C++ memory of the
  * given length. It should only be used by advanced users who
  * can manage memory and initialize values properly. When used
  * correctly, it can save copying of data between JS and C++.
  * When used incorrectly, it can lead to memory leaks.
  * Any memory allocated by CanvasKit.Malloc needs to be released with CanvasKit.Free.
  *
  * const mObj = CanvasKit.Malloc(Float32Array, 20);
  * Get a TypedArray view around the malloc'd memory (this does not copy anything).
  * const ta = mObj.toTypedArray();
  * // store data into ta
  * const cf = CanvasKit.ColorFilter.MakeMatrix(ta); // mObj could also be used.
  *
  * // eventually...
  * CanvasKit.Free(mObj);
  *
  * @param {TypedArray} typedArray - constructor for the typedArray.
  * @param {number} len - number of *elements* to store.
  */
 CanvasKit.Malloc = function(typedArray, len) {
   var byteLen = len * typedArray.BYTES_PER_ELEMENT;
   var ptr = CanvasKit._malloc(byteLen);
   return {
     '_ck': true,
     'length': len,
     'byteOffset': ptr,
     typedArray: null,
     'subarray': function(start, end) {
       var sa = this['toTypedArray']().subarray(start, end);
       sa['_ck'] = true;
       return sa;
     },
     'toTypedArray': function() {
       // Check if the previously allocated array is still usable.
       // If it's falsy, then we haven't created an array yet.
       // If it's empty, then WASM resized memory and emptied the array.
       if (this.typedArray && this.typedArray.length) {
         return this.typedArray;
       }
       this.typedArray = new typedArray(CanvasKit.HEAPU8.buffer, ptr, len);
       // add a marker that this was allocated in C++ land
       this.typedArray['_ck'] = true;
       return this.typedArray;
     },
   };
 };

 /**
  * Free frees the memory returned by Malloc.
  * Any memory allocated by CanvasKit.Malloc needs to be released with CanvasKit.Free.
  */
 CanvasKit.Free = function(mallocObj) {
   CanvasKit._free(mallocObj['byteOffset']);
   mallocObj['byteOffset'] = nullptr;
   // Set these to null to make sure the TypedArrays can be garbage collected.
   mallocObj['toTypedArray'] = null;
   mallocObj.typedArray = null;
 };

 // This helper will free the given pointer unless the provided array is one
 // that was returned by CanvasKit.Malloc.
 function freeArraysThatAreNotMallocedByUsers(ptr, arr) {
   if (!wasMalloced(arr)) {
     CanvasKit._free(ptr);
   }
 }

 // wasMalloced returns true if the object was created by a call to Malloc. This is determined
 // by looking at a property that was added to our Malloc obj and typed arrays.
 function wasMalloced(obj) {
   return obj && obj['_ck'];
 }

 // We define some "scratch" variables which will house both the pointer to
 // memory we allocate at startup as well as a Malloc object, which we can
 // use to get a TypedArray view of that memory.

 var _scratch3x3MatrixPtr = nullptr;
 var _scratch3x3Matrix;  // the result from CanvasKit.Malloc

 var _scratch4x4MatrixPtr = nullptr;
 var _scratch4x4Matrix;

 var _scratchColorPtr = nullptr;
 var _scratchColor;

 var _scratchFourFloatsA;
 var _scratchFourFloatsAPtr = nullptr;

 var _scratchFourFloatsB;
 var _scratchFourFloatsBPtr = nullptr;

 var _scratchThreeFloatsA;
 var _scratchThreeFloatsAPtr = nullptr;

 var _scratchThreeFloatsB;
 var _scratchThreeFloatsBPtr = nullptr;

 var _scratchIRect;
 var _scratchIRectPtr = nullptr;

 var _scratchRRect;
 var _scratchRRectPtr = nullptr;

 var _scratchRRect2;
 var _scratchRRect2Ptr = nullptr;

 // arr can be a normal JS array or a TypedArray
 // dest is a string like 'HEAPU32' that specifies the type the src array
 // should be copied into.
 // ptr can be optionally provided if the memory was already allocated.
 // Callers should eventually free the data unless the C++ object owns the memory,
 // or the provided pointer is a scratch pointer or a user-malloced value.
 // see also freeArraysThatAreNotMallocedByUsers().
 function copy1dArray(arr, dest, ptr) {
   if (!arr || !arr.length) {
     return nullptr;
   }
   // This was created with CanvasKit.Malloc, so it's already been copied.
   if (wasMalloced(arr)) {
     return arr.byteOffset;
   }
   var bytesPerElement = CanvasKit[dest].BYTES_PER_ELEMENT;
   if (!ptr) {
     ptr = CanvasKit._malloc(arr.length * bytesPerElement);
   }
   // In c++ terms, the WASM heap is a uint8_t*, a long buffer/array of single
   // byte elements. When we run _malloc, we always get an offset/pointer into
   // that block of memory.
   // CanvasKit exposes some different views to make it easier to work with
   // different types. HEAPF32 for example, exposes it as a float*
   // However, to make the ptr line up, we have to do some pointer arithmetic.
   // Concretely, we need to convert ptr to go from an index into a 1-byte-wide
   // buffer to an index into a 4-byte-wide buffer (in the case of HEAPF32)
   // and thus we divide ptr by 4.
   // It is important to make sure we are grabbing the freshest view of the
   // memory possible because if we call _malloc and the heap needs to grow,
   // the TypedArrayView will no longer be valid.
   CanvasKit[dest].set(arr, ptr / bytesPerElement);
   return ptr;
 }

 // Copies an array of colors to wasm, returning an object with the pointer
 // and info necessary to use the copied colors.
 // Accepts either a flat Float32Array, flat Uint32Array or Array of Float32Arrays.
 // If color is an object that was allocated with CanvasKit.Malloc, its pointer is
 // returned and no extra copy is performed.
 // TODO(nifong): have this accept color builders.
 function copyFlexibleColorArray(colors) {
   var result = {
     colorPtr: nullptr,
     count: colors.length,
     colorType: CanvasKit.ColorType.RGBA_F32,
   };
   if (colors instanceof Float32Array) {
     result.colorPtr = copy1dArray(colors, 'HEAPF32');
     result.count = colors.length / 4;

   } else if (colors instanceof Uint32Array) {
     result.colorPtr = copy1dArray(colors, 'HEAPU32');
     result.colorType = CanvasKit.ColorType.RGBA_8888;

   } else if (colors instanceof Array) {
     result.colorPtr = copyColorArray(colors);
   } else {
     throw('Invalid argument to copyFlexibleColorArray, Not a color array '+typeof(colors));
   }
   return result;
 }

 function copyColorArray(arr) {
   if (!arr || !arr.length) {
     return nullptr;
   }
   // 4 floats per color, 4 bytes per float.
   var ptr = CanvasKit._malloc(arr.length * 4 * 4);

   var idx = 0;
   var adjustedPtr = ptr / 4; // cast the byte pointer into a float pointer.
   for (var r = 0; r < arr.length; r++) {
     for (var c = 0; c < 4; c++) {
       CanvasKit.HEAPF32[adjustedPtr + idx] = arr[r][c];
       idx++;
     }
   }
   return ptr;
 }

 var defaultPerspective = Float32Array.of(0, 0, 1);

 // Copies the given DOMMatrix/Array/TypedArray to the CanvasKit heap and
 // returns a pointer to the memory. This memory is a float* of length 9.
 // If the passed in matrix is null/undefined, we return 0 (nullptr). The
 // returned pointer should NOT be freed, as it is either null or a scratch
 // pointer.
 function copy3x3MatrixToWasm(matr) {
   if (!matr) {
     return nullptr;
   }

   if (matr.length) {
     if (matr.length === 6 || matr.length === 9) {
       // matr should be an array or typed array.
       copy1dArray(matr, 'HEAPF32', _scratch3x3MatrixPtr);
       if (matr.length === 6) {
         // Overwrite the last 3 floats with the default perspective. The divide
         // by 4 casts the pointer into a float pointer.
         CanvasKit.HEAPF32.set(defaultPerspective, 6 + _scratch3x3MatrixPtr / 4);
       }
       return _scratch3x3MatrixPtr;
     } else if (matr.length === 16) {
       // Downsample the 4x4 matrix into a 3x3
       var wasm3x3Matrix = _scratch3x3Matrix['toTypedArray']();
       wasm3x3Matrix[0] = matr[0];
       wasm3x3Matrix[1] = matr[1];
       wasm3x3Matrix[2] = matr[3];

       wasm3x3Matrix[3] = matr[4];
       wasm3x3Matrix[4] = matr[5];
       wasm3x3Matrix[5] = matr[7];

       wasm3x3Matrix[6] = matr[12];
       wasm3x3Matrix[7] = matr[13];
       wasm3x3Matrix[8] = matr[15];
       return _scratch3x3MatrixPtr;
     }
     throw 'invalid matrix size';
   }
   var wasm3x3Matrix = _scratch3x3Matrix['toTypedArray']();
   // Try as if it's a DOMMatrix. Reminder that DOMMatrix is column-major.
   wasm3x3Matrix[0] = matr.m11;
   wasm3x3Matrix[1] = matr.m21;
   wasm3x3Matrix[2] = matr.m41;

   wasm3x3Matrix[3] = matr.m12;
   wasm3x3Matrix[4] = matr.m22;
   wasm3x3Matrix[5] = matr.m42;

   wasm3x3Matrix[6] = matr.m14;
   wasm3x3Matrix[7] = matr.m24;
   wasm3x3Matrix[8] = matr.m44;
   return _scratch3x3MatrixPtr;
 }


 // Copies the given DOMMatrix/Array/TypedArray to the CanvasKit heap and
 // returns a pointer to the memory. This memory is a float* of length 16.
 // If the passed in matrix is null/undefined, we return 0 (nullptr). The
 // returned pointer should NOT be freed, as it is either null or a scratch
 // pointer.
 function copy4x4MatrixToWasm(matr) {
   if (!matr) {
     return nullptr;
   }
   var wasm4x4Matrix = _scratch4x4Matrix['toTypedArray']();
   if (matr.length) {
     if (matr.length !== 16 && matr.length !== 6 && matr.length !== 9) {
       throw 'invalid matrix size';
     }
     if (matr.length === 16) {
       // matr should be an array or typed array.
       return copy1dArray(matr, 'HEAPF32', _scratch4x4MatrixPtr);
     }
     // Upscale the row-major 3x3 or 3x2 matrix into a 4x4 row-major matrix
     // TODO(skbug.com/10108) This will need to change when we convert our
     //   JS 4x4 to be column-major.
     // When upscaling, we need to overwrite the 3rd column and the 3rd row with
     // 0s. It's easiest to just do that with a fill command.
     wasm4x4Matrix.fill(0);
     wasm4x4Matrix[0] = matr[0];
     wasm4x4Matrix[1] = matr[1];
     // skip col 2
     wasm4x4Matrix[3] = matr[2];

     wasm4x4Matrix[4] = matr[3];
     wasm4x4Matrix[5] = matr[4];
     // skip col 2
     wasm4x4Matrix[7] = matr[5];

     // skip row 2

     wasm4x4Matrix[12] = matr[6];
     wasm4x4Matrix[13] = matr[7];
     // skip col 2
     wasm4x4Matrix[15] = matr[8];

     if (matr.length === 6) {
       // fix perspective for the 3x2 case (from above, they will be undefined).
       wasm4x4Matrix[12]=0;
       wasm4x4Matrix[13]=0;
       wasm4x4Matrix[15]=1;
     }
     return _scratch4x4MatrixPtr;
   }
   // Try as if it's a DOMMatrix. Reminder that DOMMatrix is column-major.
   wasm4x4Matrix[0] = matr.m11;
   wasm4x4Matrix[1] = matr.m21;
   wasm4x4Matrix[2] = matr.m31;
   wasm4x4Matrix[3] = matr.m41;

   wasm4x4Matrix[4] = matr.m12;
   wasm4x4Matrix[5] = matr.m22;
   wasm4x4Matrix[6] = matr.m32;
   wasm4x4Matrix[7] = matr.m42;

   wasm4x4Matrix[8] = matr.m13;
   wasm4x4Matrix[9] = matr.m23;
   wasm4x4Matrix[10] = matr.m33;
   wasm4x4Matrix[11] = matr.m43;

   wasm4x4Matrix[12] = matr.m14;
   wasm4x4Matrix[13] = matr.m24;
   wasm4x4Matrix[14] = matr.m34;
   wasm4x4Matrix[15] = matr.m44;
   return _scratch4x4MatrixPtr;
 }

 // copies a 4x4 matrix at the given pointer into a JS array.
 function copy4x4MatrixFromWasm(matrPtr) {
   // 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(16);
   for (var i = 0; i < 16; i++) {
     rv[i] = CanvasKit.HEAPF32[matrPtr/4 + i]; // divide by 4 to cast to float.
   }
   return rv;
 }

 // copies the given floats into the wasm heap as an SkColor4f. Unless a non-scratch pointer is
 // passed into ptr, callers do NOT need to free the returned pointer.
 function copyColorToWasm(color4f, ptr) {
   return copy1dArray(color4f, 'HEAPF32', ptr || _scratchColorPtr);
 }

 // copies the given color into the wasm heap. Callers do not need to free the returned pointer.
 function copyColorComponentsToWasm(r, g, b, a) {
   var colors = _scratchColor['toTypedArray']();
   colors[0] = r;
   colors[1] = g;
   colors[2] = b;
   colors[3] = a;
   return _scratchColorPtr;
 }

 // copies the given color into the wasm heap. Callers must free the returned pointer.
 function copyColorToWasmNoScratch(color4f) {
   // TODO(kjlubick): accept 4 floats or int color
   return copy1dArray(color4f, 'HEAPF32');
 }

 // copies the four floats at the given pointer in a js Float32Array
 function copyColorFromWasm(colorPtr) {
   var rv = new Float32Array(4);
   for (var i = 0; i < 4; i++) {
     rv[i] = CanvasKit.HEAPF32[colorPtr/4 + i]; // divide by 4 to cast to float.
   }
   return rv;
 }

 // copies the given floats into the wasm heap as an SkRect. Unless a non-scratch pointer is
 // passed into ptr, callers do NOT need to free the returned pointer.
 function copyRectToWasm(fourFloats, ptr) {
   return copy1dArray(fourFloats, 'HEAPF32', ptr || _scratchFourFloatsAPtr);
 }

 // copies the given ints into the wasm heap as an SkIRect. Unless a non-scratch pointer is
 // passed into ptr, callers do NOT need to free the returned pointer.
 function copyIRectToWasm(fourInts, ptr) {
   return copy1dArray(fourInts, 'HEAP32', ptr || _scratchIRectPtr);
 }

 // copies the given floats into the wasm heap as an SkRRect. Unless a non-scratch pointer is
 // passed into ptr, callers do NOT need to free the returned pointer.
 function copyRRectToWasm(twelveFloats, ptr) {
   return copy1dArray(twelveFloats, 'HEAPF32', ptr || _scratchRRectPtr);
 }
	/*
	* This file houses utilities for copying blocks of memory to and from
	* the WASM heap.
	*/

	/**
	* Malloc returns a TypedArray backed by the C++ memory of the
	* given length. It should only be used by advanced users who
	* can manage memory and initialize values properly. When used
	* correctly, it can save copying of data between JS and C++.
	* When used incorrectly, it can lead to memory leaks.
	* Any memory allocated by CanvasKit.Malloc needs to be released with CanvasKit.Free.
	*
	* const mObj = CanvasKit.Malloc(Float32Array, 20);
	* Get a TypedArray view around the malloc'd memory (this does not copy anything).
	* const ta = mObj.toTypedArray();
	* // store data into ta
	* const cf = CanvasKit.ColorFilter.MakeMatrix(ta); // mObj could also be used.
	*
	* // eventually...
	* CanvasKit.Free(mObj);
	*
	* @param {TypedArray} typedArray - constructor for the typedArray.
	* @param {number} len - number of elements to store.
	*/
	CanvasKit.Malloc = function(typedArray, len) {
	var byteLen = len * typedArray.BYTES_PER_ELEMENT;
	var ptr = CanvasKit._malloc(byteLen);
	return {
	'_ck': true,
	'length': len,
	'byteOffset': ptr,
	typedArray: null,
	'subarray': function(start, end) {
	var sa = this['toTypedArray']().subarray(start, end);
	sa['_ck'] = true;
	return sa;
	},
	'toTypedArray': function() {
	// Check if the previously allocated array is still usable.
	// If it's falsy, then we haven't created an array yet.
	// If it's empty, then WASM resized memory and emptied the array.
	if (this.typedArray && this.typedArray.length) {
	return this.typedArray;
	}
	this.typedArray = new typedArray(CanvasKit.HEAPU8.buffer, ptr, len);
	// add a marker that this was allocated in C++ land
	this.typedArray['_ck'] = true;
	return this.typedArray;
	},
	};
	};

	/**
	* Free frees the memory returned by Malloc.
	* Any memory allocated by CanvasKit.Malloc needs to be released with CanvasKit.Free.
	*/
	CanvasKit.Free = function(mallocObj) {
	CanvasKit._free(mallocObj['byteOffset']);
	mallocObj['byteOffset'] = nullptr;
	// Set these to null to make sure the TypedArrays can be garbage collected.
	mallocObj['toTypedArray'] = null;
	mallocObj.typedArray = null;
	};

	// This helper will free the given pointer unless the provided array is one
	// that was returned by CanvasKit.Malloc.
	function freeArraysThatAreNotMallocedByUsers(ptr, arr) {
	if (!wasMalloced(arr)) {
	CanvasKit._free(ptr);
	}
	}

	// wasMalloced returns true if the object was created by a call to Malloc. This is determined
	// by looking at a property that was added to our Malloc obj and typed arrays.
	function wasMalloced(obj) {
	return obj && obj['_ck'];
	}

	// We define some "scratch" variables which will house both the pointer to
	// memory we allocate at startup as well as a Malloc object, which we can
	// use to get a TypedArray view of that memory.

	var _scratch3x3MatrixPtr = nullptr;
	var _scratch3x3Matrix; // the result from CanvasKit.Malloc

	var _scratch4x4MatrixPtr = nullptr;
	var _scratch4x4Matrix;

	var _scratchColorPtr = nullptr;
	var _scratchColor;

	var _scratchFourFloatsA;
	var _scratchFourFloatsAPtr = nullptr;

	var _scratchFourFloatsB;
	var _scratchFourFloatsBPtr = nullptr;

	var _scratchThreeFloatsA;
	var _scratchThreeFloatsAPtr = nullptr;

	var _scratchThreeFloatsB;
	var _scratchThreeFloatsBPtr = nullptr;

	var _scratchIRect;
	var _scratchIRectPtr = nullptr;

	var _scratchRRect;
	var _scratchRRectPtr = nullptr;

	var _scratchRRect2;
	var _scratchRRect2Ptr = nullptr;

	// arr can be a normal JS array or a TypedArray
	// dest is a string like 'HEAPU32' that specifies the type the src array
	// should be copied into.
	// ptr can be optionally provided if the memory was already allocated.
	// Callers should eventually free the data unless the C++ object owns the memory,
	// or the provided pointer is a scratch pointer or a user-malloced value.
	// see also freeArraysThatAreNotMallocedByUsers().
	function copy1dArray(arr, dest, ptr) {
	if (!arr \|\| !arr.length) {
	return nullptr;
	}
	// This was created with CanvasKit.Malloc, so it's already been copied.
	if (wasMalloced(arr)) {
	return arr.byteOffset;
	}
	var bytesPerElement = CanvasKit[dest].BYTES_PER_ELEMENT;
	if (!ptr) {
	ptr = CanvasKit._malloc(arr.length * bytesPerElement);
	}
	// In c++ terms, the WASM heap is a uint8_t*, a long buffer/array of single
	// byte elements. When we run _malloc, we always get an offset/pointer into
	// that block of memory.
	// CanvasKit exposes some different views to make it easier to work with
	// different types. HEAPF32 for example, exposes it as a float*
	// However, to make the ptr line up, we have to do some pointer arithmetic.
	// Concretely, we need to convert ptr to go from an index into a 1-byte-wide
	// buffer to an index into a 4-byte-wide buffer (in the case of HEAPF32)
	// and thus we divide ptr by 4.
	// It is important to make sure we are grabbing the freshest view of the
	// memory possible because if we call _malloc and the heap needs to grow,
	// the TypedArrayView will no longer be valid.
	CanvasKit[dest].set(arr, ptr / bytesPerElement);
	return ptr;
	}

	// Copies an array of colors to wasm, returning an object with the pointer
	// and info necessary to use the copied colors.
	// Accepts either a flat Float32Array, flat Uint32Array or Array of Float32Arrays.
	// If color is an object that was allocated with CanvasKit.Malloc, its pointer is
	// returned and no extra copy is performed.
	// TODO(nifong): have this accept color builders.
	function copyFlexibleColorArray(colors) {
	var result = {
	colorPtr: nullptr,
	count: colors.length,
	colorType: CanvasKit.ColorType.RGBA_F32,
	};
	if (colors instanceof Float32Array) {
	result.colorPtr = copy1dArray(colors, 'HEAPF32');
	result.count = colors.length / 4;

	} else if (colors instanceof Uint32Array) {
	result.colorPtr = copy1dArray(colors, 'HEAPU32');
	result.colorType = CanvasKit.ColorType.RGBA_8888;

	} else if (colors instanceof Array) {
	result.colorPtr = copyColorArray(colors);
	} else {
	throw('Invalid argument to copyFlexibleColorArray, Not a color array '+typeof(colors));
	}
	return result;
	}

	function copyColorArray(arr) {
	if (!arr \|\| !arr.length) {
	return nullptr;
	}
	// 4 floats per color, 4 bytes per float.
	var ptr = CanvasKit._malloc(arr.length * 4 * 4);

	var idx = 0;
	var adjustedPtr = ptr / 4; // cast the byte pointer into a float pointer.
	for (var r = 0; r < arr.length; r++) {
	for (var c = 0; c < 4; c++) {
	CanvasKit.HEAPF32[adjustedPtr + idx] = arr[r][c];
	idx++;
	}
	}
	return ptr;
	}

	var defaultPerspective = Float32Array.of(0, 0, 1);

	// Copies the given DOMMatrix/Array/TypedArray to the CanvasKit heap and
	// returns a pointer to the memory. This memory is a float* of length 9.
	// If the passed in matrix is null/undefined, we return 0 (nullptr). The
	// returned pointer should NOT be freed, as it is either null or a scratch
	// pointer.
	function copy3x3MatrixToWasm(matr) {
	if (!matr) {
	return nullptr;
	}

	if (matr.length) {
	if (matr.length === 6 \|\| matr.length === 9) {
	// matr should be an array or typed array.
	copy1dArray(matr, 'HEAPF32', _scratch3x3MatrixPtr);
	if (matr.length === 6) {
	// Overwrite the last 3 floats with the default perspective. The divide
	// by 4 casts the pointer into a float pointer.
	CanvasKit.HEAPF32.set(defaultPerspective, 6 + _scratch3x3MatrixPtr / 4);
	}
	return _scratch3x3MatrixPtr;
	} else if (matr.length === 16) {
	// Downsample the 4x4 matrix into a 3x3
	var wasm3x3Matrix = _scratch3x3Matrix['toTypedArray']();
	wasm3x3Matrix[0] = matr[0];
	wasm3x3Matrix[1] = matr[1];
	wasm3x3Matrix[2] = matr[3];

	wasm3x3Matrix[3] = matr[4];
	wasm3x3Matrix[4] = matr[5];
	wasm3x3Matrix[5] = matr[7];

	wasm3x3Matrix[6] = matr[12];
	wasm3x3Matrix[7] = matr[13];
	wasm3x3Matrix[8] = matr[15];
	return _scratch3x3MatrixPtr;
	}
	throw 'invalid matrix size';
	}
	var wasm3x3Matrix = _scratch3x3Matrix['toTypedArray']();
	// Try as if it's a DOMMatrix. Reminder that DOMMatrix is column-major.
	wasm3x3Matrix[0] = matr.m11;
	wasm3x3Matrix[1] = matr.m21;
	wasm3x3Matrix[2] = matr.m41;

	wasm3x3Matrix[3] = matr.m12;
	wasm3x3Matrix[4] = matr.m22;
	wasm3x3Matrix[5] = matr.m42;

	wasm3x3Matrix[6] = matr.m14;
	wasm3x3Matrix[7] = matr.m24;
	wasm3x3Matrix[8] = matr.m44;
	return _scratch3x3MatrixPtr;
	}


	// Copies the given DOMMatrix/Array/TypedArray to the CanvasKit heap and
	// returns a pointer to the memory. This memory is a float* of length 16.
	// If the passed in matrix is null/undefined, we return 0 (nullptr). The
	// returned pointer should NOT be freed, as it is either null or a scratch
	// pointer.
	function copy4x4MatrixToWasm(matr) {
	if (!matr) {
	return nullptr;
	}
	var wasm4x4Matrix = _scratch4x4Matrix['toTypedArray']();
	if (matr.length) {
	if (matr.length !== 16 && matr.length !== 6 && matr.length !== 9) {
	throw 'invalid matrix size';
	}
	if (matr.length === 16) {
	// matr should be an array or typed array.
	return copy1dArray(matr, 'HEAPF32', _scratch4x4MatrixPtr);
	}
	// Upscale the row-major 3x3 or 3x2 matrix into a 4x4 row-major matrix
	// TODO(skbug.com/10108) This will need to change when we convert our
	// JS 4x4 to be column-major.
	// When upscaling, we need to overwrite the 3rd column and the 3rd row with
	// 0s. It's easiest to just do that with a fill command.
	wasm4x4Matrix.fill(0);
	wasm4x4Matrix[0] = matr[0];
	wasm4x4Matrix[1] = matr[1];
	// skip col 2
	wasm4x4Matrix[3] = matr[2];

	wasm4x4Matrix[4] = matr[3];
	wasm4x4Matrix[5] = matr[4];
	// skip col 2
	wasm4x4Matrix[7] = matr[5];

	// skip row 2

	wasm4x4Matrix[12] = matr[6];
	wasm4x4Matrix[13] = matr[7];
	// skip col 2
	wasm4x4Matrix[15] = matr[8];

	if (matr.length === 6) {
	// fix perspective for the 3x2 case (from above, they will be undefined).
	wasm4x4Matrix[12]=0;
	wasm4x4Matrix[13]=0;
	wasm4x4Matrix[15]=1;
	}
	return _scratch4x4MatrixPtr;
	}
	// Try as if it's a DOMMatrix. Reminder that DOMMatrix is column-major.
	wasm4x4Matrix[0] = matr.m11;
	wasm4x4Matrix[1] = matr.m21;
	wasm4x4Matrix[2] = matr.m31;
	wasm4x4Matrix[3] = matr.m41;

	wasm4x4Matrix[4] = matr.m12;
	wasm4x4Matrix[5] = matr.m22;
	wasm4x4Matrix[6] = matr.m32;
	wasm4x4Matrix[7] = matr.m42;

	wasm4x4Matrix[8] = matr.m13;
	wasm4x4Matrix[9] = matr.m23;
	wasm4x4Matrix[10] = matr.m33;
	wasm4x4Matrix[11] = matr.m43;

	wasm4x4Matrix[12] = matr.m14;
	wasm4x4Matrix[13] = matr.m24;
	wasm4x4Matrix[14] = matr.m34;
	wasm4x4Matrix[15] = matr.m44;
	return _scratch4x4MatrixPtr;
	}

	// copies a 4x4 matrix at the given pointer into a JS array.
	function copy4x4MatrixFromWasm(matrPtr) {
	// 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(16);
	for (var i = 0; i < 16; i++) {
	rv[i] = CanvasKit.HEAPF32[matrPtr/4 + i]; // divide by 4 to cast to float.
	}
	return rv;
	}

	// copies the given floats into the wasm heap as an SkColor4f. Unless a non-scratch pointer is
	// passed into ptr, callers do NOT need to free the returned pointer.
	function copyColorToWasm(color4f, ptr) {
	return copy1dArray(color4f, 'HEAPF32', ptr \|\| _scratchColorPtr);
	}

	// copies the given color into the wasm heap. Callers do not need to free the returned pointer.
	function copyColorComponentsToWasm(r, g, b, a) {
	var colors = _scratchColor['toTypedArray']();
	colors[0] = r;
	colors[1] = g;
	colors[2] = b;
	colors[3] = a;
	return _scratchColorPtr;
	}

	// copies the given color into the wasm heap. Callers must free the returned pointer.
	function copyColorToWasmNoScratch(color4f) {
	// TODO(kjlubick): accept 4 floats or int color
	return copy1dArray(color4f, 'HEAPF32');
	}

	// copies the four floats at the given pointer in a js Float32Array
	function copyColorFromWasm(colorPtr) {
	var rv = new Float32Array(4);
	for (var i = 0; i < 4; i++) {
	rv[i] = CanvasKit.HEAPF32[colorPtr/4 + i]; // divide by 4 to cast to float.
	}
	return rv;
	}

	// copies the given floats into the wasm heap as an SkRect. Unless a non-scratch pointer is
	// passed into ptr, callers do NOT need to free the returned pointer.
	function copyRectToWasm(fourFloats, ptr) {
	return copy1dArray(fourFloats, 'HEAPF32', ptr \|\| _scratchFourFloatsAPtr);
	}

	// copies the given ints into the wasm heap as an SkIRect. Unless a non-scratch pointer is
	// passed into ptr, callers do NOT need to free the returned pointer.
	function copyIRectToWasm(fourInts, ptr) {
	return copy1dArray(fourInts, 'HEAP32', ptr \|\| _scratchIRectPtr);
	}

	// copies the given floats into the wasm heap as an SkRRect. Unless a non-scratch pointer is
	// passed into ptr, callers do NOT need to free the returned pointer.
	function copyRRectToWasm(twelveFloats, ptr) {
	return copy1dArray(twelveFloats, 'HEAPF32', ptr \|\| _scratchRRectPtr);
	}