JSTests/ChakraCore/test/SIMD.workloads.asmjs/test2DMatrixAddition.js - WebKit - Git at Google

 //-------------------------------------------------------------------------------------------------------
 // Copyright (C) Microsoft. All rights reserved.
 // Licensed under the MIT license. See LICENSE.txt file in the project root for full license information.
 //-------------------------------------------------------------------------------------------------------
 this.WScript.LoadScriptFile("..\\UnitTestFramework\\SimdJsHelpers.js");

 function asmModule(stdlib, imports, buffer) {
     "use asm";

     var log = stdlib.Math.log;
     var toF = stdlib.Math.fround;
     var imul = stdlib.Math.imul;

     var i4 = stdlib.SIMD.Int32x4;
     var i4store = i4.store;
     var i4swizzle = i4.swizzle;
     var i4check = i4.check;

     var f4 = stdlib.SIMD.Float32x4;
     var f4equal = f4.equal;
     var f4lessThan = f4.lessThan;
     var f4splat = f4.splat;
     var f4store = f4.store;
     var f4load = f4.load;
     var f4check = f4.check;
     var f4abs = f4.abs;
     var f4add = f4.add;
     var f4sub = f4.sub;

     var Float32Heap = new stdlib.Float32Array(buffer);
     var Int32Heap = new stdlib.Int32Array(buffer);
     var BLOCK_SIZE = 4;

     function matrixAddition(aIndex, bIndex, cIndex) {
         aIndex = aIndex | 0;
         bIndex = bIndex | 0;
         cIndex = cIndex | 0;

         var i = 0, dim1 = 0, dim2 = 0, matrixSize = 0;
         var aPiece = f4(0.0, 0.0, 0.0, 0.0), bPiece = f4(0.0, 0.0, 0.0, 0.0);

         dim1 = Int32Heap[aIndex << 2 >> 2] | 0;
         dim2 = Int32Heap[aIndex + 1 << 2 >> 2] | 0;
         matrixSize = imul(dim1, dim2);

         //array dimensions don't match
         if (((dim2 | 0) != (Int32Heap[bIndex + 1 << 2 >> 2] | 0)) | ((dim1 | 0) != (Int32Heap[bIndex << 2 >> 2] | 0))) {
             return -1;
         }

         Int32Heap[cIndex << 2 >> 2] = dim1;
         Int32Heap[cIndex + 1 << 2 >> 2] = dim2;

         while ((i|0) < (matrixSize|0)) {
             aPiece = f4load(Float32Heap, aIndex + 2 + i << 2 >> 2);
             bPiece = f4load(Float32Heap, bIndex + 2 + i << 2 >> 2);
             f4store(Float32Heap, cIndex + 2 + i << 2 >> 2, f4add(aPiece, bPiece));

             i = (i + BLOCK_SIZE)|0;
         }

         return 0;
     }

     function new2DMatrix(startIndex, dim1, dim2) {
         startIndex = startIndex | 0;
         dim1 = dim1 | 0;
         dim2 = dim2 | 0;

         var i = 0, matrixSize = 0;
         matrixSize = imul(dim1, dim2);
         Int32Heap[startIndex << 2 >> 2] = dim1;
         Int32Heap[startIndex + 1 << 2 >> 2] = dim2;
         for (i = 0; (i|0) < ((matrixSize - BLOCK_SIZE)|0); i = (i + BLOCK_SIZE)|0) {
             f4store(Float32Heap, startIndex + 2 + i << 2 >> 2, f4(toF((i + 1)|0), toF((i + 2)|0), toF((i + 3)|0), toF((i + 4)|0)));
         }
         for (; (i|0) < (matrixSize|0); i = (i + 1)|0) {
             Float32Heap[(startIndex + 2 + i) << 2 >> 2] = toF((i + 1)|0);
         }
         return (startIndex + 2 + i) | 0;
     }

     return {
         new2DMatrix: new2DMatrix,
         matrixAddition: matrixAddition
     };
 }

 function verify_results(type, results_ex, buffer, count)
 {
     var i4;
         for (var i = 0, idx = 0; i < count/* * 16*/; i += 4)
     {
         i4 = type.load(buffer, i);
                 equalSimd(results_ex[idx++], i4, type, "Matrix Add" );
         }
 }

 var exp_results = [
 SIMD.Float32x4(2,4,6,8),
 SIMD.Float32x4(10,12,14,16),
 SIMD.Float32x4(18,20,22,24),
 SIMD.Float32x4(26,28,30,32),
 SIMD.Float32x4(34,36,38,40),
 SIMD.Float32x4(42,44,46,48),
 SIMD.Float32x4(50,52,54,56),
 SIMD.Float32x4(58,60,62,64),
 SIMD.Float32x4(66,68,70,72),
 SIMD.Float32x4(74,76,78,80),
 SIMD.Float32x4(82,84,86,88),
 SIMD.Float32x4(90,92,94,96),
 SIMD.Float32x4(98,100,102,104),
 SIMD.Float32x4(106,108,110,112),
 SIMD.Float32x4(114,116,118,120),
 SIMD.Float32x4(122,124,126,128),
 SIMD.Float32x4(130,132,134,136),
 SIMD.Float32x4(138,140,142,144),
 SIMD.Float32x4(146,148,150,152),
 SIMD.Float32x4(154,156,158,160),
 SIMD.Float32x4(162,164,166,168),
 SIMD.Float32x4(170,172,174,176),
 SIMD.Float32x4(178,180,182,184),
 SIMD.Float32x4(186,188,190,192),
 SIMD.Float32x4(194,196,198,200),
 SIMD.Float32x4(202,204,206,208),
 SIMD.Float32x4(210,212,214,216),
 SIMD.Float32x4(218,220,222,224),
 SIMD.Float32x4(226,228,230,232),
 SIMD.Float32x4(234,236,238,240),
 SIMD.Float32x4(242,244,246,248),
 SIMD.Float32x4(250,252,254,256),
 SIMD.Float32x4(258,260,262,264),
 SIMD.Float32x4(266,268,270,272),
 SIMD.Float32x4(274,276,278,280),
 SIMD.Float32x4(282,284,286,288),
 SIMD.Float32x4(290,292,294,296),
 SIMD.Float32x4(298,300,302,304),
 SIMD.Float32x4(306,308,310,312),
 SIMD.Float32x4(314,316,318,320),
 SIMD.Float32x4(322,324,326,328),
 SIMD.Float32x4(330,332,334,336),
 SIMD.Float32x4(338,340,342,344),
 SIMD.Float32x4(346,348,350,352),
 SIMD.Float32x4(354,356,358,360),
 SIMD.Float32x4(362,364,366,368),
 SIMD.Float32x4(370,372,374,376),
 SIMD.Float32x4(378,380,382,384),
 SIMD.Float32x4(386,388,390,392),
 SIMD.Float32x4(394,396,398,400),
 SIMD.Float32x4(402,404,406,408),
 SIMD.Float32x4(410,412,414,416),
 SIMD.Float32x4(418,420,422,424),
 SIMD.Float32x4(426,428,430,432)
 ];


 var buffer = new ArrayBuffer(16 * 1024 * 1024);
 var m = asmModule(this, null, buffer);

 m.new2DMatrix(0, 18, 12);
 m.new2DMatrix(500, 18, 12);
 m.matrixAddition(0, 500, 1000);

 var values = new Float32Array(buffer).subarray(1000 + 2);

 verify_results(SIMD.Float32x4, exp_results, values, 54*4);
 print("PASS");
	//-------------------------------------------------------------------------------------------------------
	// Copyright (C) Microsoft. All rights reserved.
	// Licensed under the MIT license. See LICENSE.txt file in the project root for full license information.
	//-------------------------------------------------------------------------------------------------------
	this.WScript.LoadScriptFile("..\\UnitTestFramework\\SimdJsHelpers.js");

	function asmModule(stdlib, imports, buffer) {
	"use asm";

	var log = stdlib.Math.log;
	var toF = stdlib.Math.fround;
	var imul = stdlib.Math.imul;

	var i4 = stdlib.SIMD.Int32x4;
	var i4store = i4.store;
	var i4swizzle = i4.swizzle;
	var i4check = i4.check;

	var f4 = stdlib.SIMD.Float32x4;
	var f4equal = f4.equal;
	var f4lessThan = f4.lessThan;
	var f4splat = f4.splat;
	var f4store = f4.store;
	var f4load = f4.load;
	var f4check = f4.check;
	var f4abs = f4.abs;
	var f4add = f4.add;
	var f4sub = f4.sub;

	var Float32Heap = new stdlib.Float32Array(buffer);
	var Int32Heap = new stdlib.Int32Array(buffer);
	var BLOCK_SIZE = 4;

	function matrixAddition(aIndex, bIndex, cIndex) {
	aIndex = aIndex \| 0;
	bIndex = bIndex \| 0;
	cIndex = cIndex \| 0;

	var i = 0, dim1 = 0, dim2 = 0, matrixSize = 0;
	var aPiece = f4(0.0, 0.0, 0.0, 0.0), bPiece = f4(0.0, 0.0, 0.0, 0.0);

	dim1 = Int32Heap[aIndex << 2 >> 2] \| 0;
	dim2 = Int32Heap[aIndex + 1 << 2 >> 2] \| 0;
	matrixSize = imul(dim1, dim2);

	//array dimensions don't match
	if (((dim2 \| 0) != (Int32Heap[bIndex + 1 << 2 >> 2] \| 0)) \| ((dim1 \| 0) != (Int32Heap[bIndex << 2 >> 2] \| 0))) {
	return -1;
	}

	Int32Heap[cIndex << 2 >> 2] = dim1;
	Int32Heap[cIndex + 1 << 2 >> 2] = dim2;

	while ((i\|0) < (matrixSize\|0)) {
	aPiece = f4load(Float32Heap, aIndex + 2 + i << 2 >> 2);
	bPiece = f4load(Float32Heap, bIndex + 2 + i << 2 >> 2);
	f4store(Float32Heap, cIndex + 2 + i << 2 >> 2, f4add(aPiece, bPiece));

	i = (i + BLOCK_SIZE)\|0;
	}

	return 0;
	}

	function new2DMatrix(startIndex, dim1, dim2) {
	startIndex = startIndex \| 0;
	dim1 = dim1 \| 0;
	dim2 = dim2 \| 0;

	var i = 0, matrixSize = 0;
	matrixSize = imul(dim1, dim2);
	Int32Heap[startIndex << 2 >> 2] = dim1;
	Int32Heap[startIndex + 1 << 2 >> 2] = dim2;
	for (i = 0; (i\|0) < ((matrixSize - BLOCK_SIZE)\|0); i = (i + BLOCK_SIZE)\|0) {
	f4store(Float32Heap, startIndex + 2 + i << 2 >> 2, f4(toF((i + 1)\|0), toF((i + 2)\|0), toF((i + 3)\|0), toF((i + 4)\|0)));
	}
	for (; (i\|0) < (matrixSize\|0); i = (i + 1)\|0) {
	Float32Heap[(startIndex + 2 + i) << 2 >> 2] = toF((i + 1)\|0);
	}
	return (startIndex + 2 + i) \| 0;
	}

	return {
	new2DMatrix: new2DMatrix,
	matrixAddition: matrixAddition
	};
	}

	function verify_results(type, results_ex, buffer, count)
	{
	var i4;
	for (var i = 0, idx = 0; i < count/* * 16*/; i += 4)
	{
	i4 = type.load(buffer, i);
	equalSimd(results_ex[idx++], i4, type, "Matrix Add" );
	}
	}

	var exp_results = [
	SIMD.Float32x4(2,4,6,8),
	SIMD.Float32x4(10,12,14,16),
	SIMD.Float32x4(18,20,22,24),
	SIMD.Float32x4(26,28,30,32),
	SIMD.Float32x4(34,36,38,40),
	SIMD.Float32x4(42,44,46,48),
	SIMD.Float32x4(50,52,54,56),
	SIMD.Float32x4(58,60,62,64),
	SIMD.Float32x4(66,68,70,72),
	SIMD.Float32x4(74,76,78,80),
	SIMD.Float32x4(82,84,86,88),
	SIMD.Float32x4(90,92,94,96),
	SIMD.Float32x4(98,100,102,104),
	SIMD.Float32x4(106,108,110,112),
	SIMD.Float32x4(114,116,118,120),
	SIMD.Float32x4(122,124,126,128),
	SIMD.Float32x4(130,132,134,136),
	SIMD.Float32x4(138,140,142,144),
	SIMD.Float32x4(146,148,150,152),
	SIMD.Float32x4(154,156,158,160),
	SIMD.Float32x4(162,164,166,168),
	SIMD.Float32x4(170,172,174,176),
	SIMD.Float32x4(178,180,182,184),
	SIMD.Float32x4(186,188,190,192),
	SIMD.Float32x4(194,196,198,200),
	SIMD.Float32x4(202,204,206,208),
	SIMD.Float32x4(210,212,214,216),
	SIMD.Float32x4(218,220,222,224),
	SIMD.Float32x4(226,228,230,232),
	SIMD.Float32x4(234,236,238,240),
	SIMD.Float32x4(242,244,246,248),
	SIMD.Float32x4(250,252,254,256),
	SIMD.Float32x4(258,260,262,264),
	SIMD.Float32x4(266,268,270,272),
	SIMD.Float32x4(274,276,278,280),
	SIMD.Float32x4(282,284,286,288),
	SIMD.Float32x4(290,292,294,296),
	SIMD.Float32x4(298,300,302,304),
	SIMD.Float32x4(306,308,310,312),
	SIMD.Float32x4(314,316,318,320),
	SIMD.Float32x4(322,324,326,328),
	SIMD.Float32x4(330,332,334,336),
	SIMD.Float32x4(338,340,342,344),
	SIMD.Float32x4(346,348,350,352),
	SIMD.Float32x4(354,356,358,360),
	SIMD.Float32x4(362,364,366,368),
	SIMD.Float32x4(370,372,374,376),
	SIMD.Float32x4(378,380,382,384),
	SIMD.Float32x4(386,388,390,392),
	SIMD.Float32x4(394,396,398,400),
	SIMD.Float32x4(402,404,406,408),
	SIMD.Float32x4(410,412,414,416),
	SIMD.Float32x4(418,420,422,424),
	SIMD.Float32x4(426,428,430,432)
	];


	var buffer = new ArrayBuffer(16 * 1024 * 1024);
	var m = asmModule(this, null, buffer);

	m.new2DMatrix(0, 18, 12);
	m.new2DMatrix(500, 18, 12);
	m.matrixAddition(0, 500, 1000);

	var values = new Float32Array(buffer).subarray(1000 + 2);

	verify_results(SIMD.Float32x4, exp_results, values, 54*4);
	print("PASS");