JSTests/ChakraCore/test/SIMD.uint32x4.asmjs/testCalls.js - WebKit - Git at Google

 //-------------------------------------------------------------------------------------------------------
 // Copyright (C) Microsoft Corporation and contributors. 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) {
     "use asm";

     var i4 = stdlib.SIMD.Int32x4;
     var i4check = i4.check;
     /*
     var i4fromFloat32x4 = i4.fromFloat32x4;
     var i4fromFloat32x4Bits = i4.fromFloat32x4Bits;
     //var i4abs = i4.abs;
     var i4neg = i4.neg;
     var i4add = i4.add;
     var i4sub = i4.sub;
     var i4mul = i4.mul;
     //var i4swizzle = i4.swizzle;
     //var i4shuffle = i4.shuffle;
     var i4lessThan = i4.lessThan;
     var i4equal = i4.equal;
     var i4greaterThan = i4.greaterThan;
     var i4select = i4.select;
     var i4and = i4.and;
     var i4or = i4.or;
     var i4xor = i4.xor;
     var i4not = i4.not;
     //var i4shiftLeftByScalar = i4.shiftLeftByScalar;
     //var i4shiftRightByScalar = i4.shiftRightByScalar;
     //var i4shiftRightArithmeticByScalar = i4.shiftRightArithmeticByScalar;
     */
     var u4 = stdlib.SIMD.Uint32x4;
     var u4check = u4.check;

     var u4extractLane = u4.extractLane;
     var f4 = stdlib.SIMD.Float32x4;
     var f4check = f4.check;
     var f4splat = f4.splat;

     var f4fromInt32x4 = f4.fromInt32x4;
     var f4fromInt32x4Bits = f4.fromInt32x4Bits;
     var f4abs = f4.abs;
     var f4neg = f4.neg;
     var f4add = f4.add;
     var f4sub = f4.sub;
     var f4mul = f4.mul;
     var f4div = f4.div;

     var f4min = f4.min;
     var f4max = f4.max;


     var f4sqrt = f4.sqrt;
     //var f4swizzle = f4.swizzle;
     //var f4shuffle = f4.shuffle;
     var f4lessThan = f4.lessThan;
     var f4lessThanOrEqual = f4.lessThanOrEqual;
     var f4equal = f4.equal;
     var f4notEqual = f4.notEqual;
     var f4greaterThan = f4.greaterThan;
     var f4greaterThanOrEqual = f4.greaterThanOrEqual;

     var f4select = f4.select;


     var fround = stdlib.Math.fround;

     var globImportF4 = f4check(imports.g1);       // global var import
     var globImportU4 = u4check(imports.g2);       // global var import

     var g1 = f4(-5033.2,-3401.0,665.34,32234.1);          // global var initialized
     var g2 = u4(1065353216, -1073741824, -1077936128, 1082130432);          // global var initialized

     var gval = 1234;
     var gval2 = 1234.0;


     var i4fu4 = i4.fromUint32x4Bits;
     var u4fi4 = u4.fromInt32x4Bits;
     var loopCOUNT = 3;

     function func1(a, b)
     {
         a = i4check(a);
         b = i4check(b);
         var x = u4(-1, -2, -3, -4);;

         var loopIndex = 0;
         while ( (loopIndex|0) < (loopCOUNT|0)) {

             x = g2;

             loopIndex = (loopIndex + 1) | 0;
         }
         x = globImportU4;
         g2 = x;

         return i4check(i4fu4(x));
     }

     function func2(a, b, c, d)
     {
         a = i4check(a);
         b = i4check(b);
         c = i4check(c);
         d = i4check(d);
         var x = u4(-1, -2, -3, -4);
         var y = u4(1, 2, 3, 4);
         var loopIndex = 0;
         for (loopIndex = 0; (loopIndex | 0) < (loopCOUNT | 0) ; loopIndex = (loopIndex + 1) | 0)
         {
             x = u4fi4(i4check(func1(a, b)));
             y = u4fi4(i4check(func1(c, d)));
         }

         //return i4check(i8add(x,y));
         return i4check(i4fu4(x));
     }

     function func3(a, b, c, d, e, f, g, h)
     {
         a = i4check(a);
         b = i4check(b);
         c = i4check(c);
         d = i4check(d);
         e = i4check(e);
         f = i4check(f);
         g = i4check(g);
         h = i4check(h);

         var x = u4(-1, -2, -3, -4);
         var y = u4(1, 2, 3, 4);
         var loopIndex = 0;
         for (loopIndex = 0; (loopIndex | 0) < (loopCOUNT | 0) ; loopIndex = (loopIndex + 1) | 0)
         {

             x = u4fi4(i4check(func2(a, b, c, d)))
             y = u4fi4(i4check(func2(e, f, g, h)));

         }

         //return i4check(i8add(x,y));
         return i4check(i4fu4(x));
     }

     function func4() { //Testing for a bug while returning SIMD values from a loop
         var value1 = u4(-1, -2, -3, -4);
         var i = 0;

         for (i = 0; (i | 0) < 1000; i = (i + 1)|0) {
             //value1 = i8add(value1, i8splat(1));
             if ((i | 0) == 300) {
                 return i4check(i4fu4(value1));
             }
         }
     }

     // TODO: Test conversion of returned value
     function value()
     {
         var ret = 1.0;
         var i = 1.0;


         var loopIndex = 0;
         while ( (loopIndex|0) < (loopCOUNT|0)) {

             ret = ret + i;

             loopIndex = (loopIndex + 1) | 0;
         }

         return +ret;
     }

     function fctest(a)
     {
         a = i4check(a);
         return a;
     }
     function fcBug_1()
     {
         var x = i4(1, 2, 3, 4);
         var k = u4(1, 2, 3, 4);
         k = u4fi4(i4check(fctest(i4fu4(k))));
         return i4check(x);
     }
     function fcBug_2()
     {
         var x = i4(1, 2, 3, 4);
         var k = u4(1, 2, 3, 4);
         x = i4check(fcBug_1());
         return i4check(i4fu4(k));
     }

     //Validation will fail with the bug
     function retValueCoercionBug()
     {
         var ret = 0.0;
         var ret1 = 0;
         var a = u4(1, 2, 3, 4);
         ret = +u4extractLane(a, 0);
         ret1 = (u4extractLane(a, 0))|0;
     }

     return {func1:func1, func2:func2, func3:func3, func4:func4, func5:fcBug_1, func6:fcBug_2};
 }

 var m = asmModule(this, {g1:SIMD.Float32x4(90934.2,123.9,419.39,449.0), g2:SIMD.Uint32x4(-1065353216, -1073741824,-1077936128, -1082130432)});

 var s1 = SIMD.Uint32x4(-1.0, 2.0, 3.0, 4.0);
 var s2 = SIMD.Uint32x4(1.0, -2.0, 3.0, 4.0);
 var s3 = SIMD.Uint32x4(1.0, 2.0, -3.0, 4.0);
 var s4 = SIMD.Uint32x4(1.0, 2.0, 3.0, -4.0);
 var s5 = SIMD.Uint32x4(-1.0, 2.0, 3.0, 4.0);
 var s6 = SIMD.Uint32x4(1.0, -2.0, 3.0, 4.0);
 var s7 = SIMD.Uint32x4(1.0, 2.0, -3.0, 4.0);
 var s8 = SIMD.Uint32x4(1.0, 2.0, 3.0, -4.0);

 var i4fu4 = SIMD.Int32x4.fromUint32x4Bits;
 var u4fi4 = SIMD.Uint32x4.fromInt32x4Bits;
 var ret1 = u4fi4(m.func1(i4fu4(s1), i4fu4(s2)));
 var ret2 = u4fi4(m.func2(i4fu4(s1), i4fu4(s2), i4fu4(s3), i4fu4(s4)));
 var ret3 = u4fi4(m.func3(i4fu4(s1), i4fu4(s2), i4fu4(s3), i4fu4(s4), i4fu4(s5), i4fu4(s6), i4fu4(s7), i4fu4(s8)));
 var ret4 = u4fi4(m.func4());
 var ret5 = m.func5();
 var ret6 = u4fi4(m.func6());

 /*
 printSimdBaseline(ret1, "SIMD.Uint32x4", "ret1", "func1");
 printSimdBaseline(ret2, "SIMD.Uint32x4", "ret2", "func2");
 printSimdBaseline(ret3, "SIMD.Uint32x4", "ret3", "func3");
 printSimdBaseline(ret4, "SIMD.Uint32x4", "ret4", "func4");
 */
 equalSimd([3229614080, 3221225472, 3217031168, 3212836864], ret1, SIMD.Uint32x4, "func1")
 equalSimd([3229614080, 3221225472, 3217031168, 3212836864], ret2, SIMD.Uint32x4, "func2")
 equalSimd([3229614080, 3221225472, 3217031168, 3212836864], ret3, SIMD.Uint32x4, "func3")
 equalSimd([4294967295, 4294967294, 4294967293, 4294967292], ret4, SIMD.Uint32x4, "func4")
 equalSimd([1,2,3,4], ret5, SIMD.Int32x4, "func5 - Bug1")
 equalSimd([1,2,3,4], ret6, SIMD.Uint32x4, "func6 - Bug1")


 print("PASS");
	//-------------------------------------------------------------------------------------------------------
	// Copyright (C) Microsoft Corporation and contributors. 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) {
	"use asm";

	var i4 = stdlib.SIMD.Int32x4;
	var i4check = i4.check;
	/*
	var i4fromFloat32x4 = i4.fromFloat32x4;
	var i4fromFloat32x4Bits = i4.fromFloat32x4Bits;
	//var i4abs = i4.abs;
	var i4neg = i4.neg;
	var i4add = i4.add;
	var i4sub = i4.sub;
	var i4mul = i4.mul;
	//var i4swizzle = i4.swizzle;
	//var i4shuffle = i4.shuffle;
	var i4lessThan = i4.lessThan;
	var i4equal = i4.equal;
	var i4greaterThan = i4.greaterThan;
	var i4select = i4.select;
	var i4and = i4.and;
	var i4or = i4.or;
	var i4xor = i4.xor;
	var i4not = i4.not;
	//var i4shiftLeftByScalar = i4.shiftLeftByScalar;
	//var i4shiftRightByScalar = i4.shiftRightByScalar;
	//var i4shiftRightArithmeticByScalar = i4.shiftRightArithmeticByScalar;
	*/
	var u4 = stdlib.SIMD.Uint32x4;
	var u4check = u4.check;

	var u4extractLane = u4.extractLane;
	var f4 = stdlib.SIMD.Float32x4;
	var f4check = f4.check;
	var f4splat = f4.splat;

	var f4fromInt32x4 = f4.fromInt32x4;
	var f4fromInt32x4Bits = f4.fromInt32x4Bits;
	var f4abs = f4.abs;
	var f4neg = f4.neg;
	var f4add = f4.add;
	var f4sub = f4.sub;
	var f4mul = f4.mul;
	var f4div = f4.div;

	var f4min = f4.min;
	var f4max = f4.max;


	var f4sqrt = f4.sqrt;
	//var f4swizzle = f4.swizzle;
	//var f4shuffle = f4.shuffle;
	var f4lessThan = f4.lessThan;
	var f4lessThanOrEqual = f4.lessThanOrEqual;
	var f4equal = f4.equal;
	var f4notEqual = f4.notEqual;
	var f4greaterThan = f4.greaterThan;
	var f4greaterThanOrEqual = f4.greaterThanOrEqual;

	var f4select = f4.select;




	var fround = stdlib.Math.fround;

	var globImportF4 = f4check(imports.g1); // global var import
	var globImportU4 = u4check(imports.g2); // global var import

	var g1 = f4(-5033.2,-3401.0,665.34,32234.1); // global var initialized
	var g2 = u4(1065353216, -1073741824, -1077936128, 1082130432); // global var initialized

	var gval = 1234;
	var gval2 = 1234.0;


	var i4fu4 = i4.fromUint32x4Bits;
	var u4fi4 = u4.fromInt32x4Bits;
	var loopCOUNT = 3;

	function func1(a, b)
	{
	a = i4check(a);
	b = i4check(b);
	var x = u4(-1, -2, -3, -4);;

	var loopIndex = 0;
	while ( (loopIndex\|0) < (loopCOUNT\|0)) {

	x = g2;

	loopIndex = (loopIndex + 1) \| 0;
	}
	x = globImportU4;
	g2 = x;

	return i4check(i4fu4(x));
	}

	function func2(a, b, c, d)
	{
	a = i4check(a);
	b = i4check(b);
	c = i4check(c);
	d = i4check(d);
	var x = u4(-1, -2, -3, -4);
	var y = u4(1, 2, 3, 4);
	var loopIndex = 0;
	for (loopIndex = 0; (loopIndex \| 0) < (loopCOUNT \| 0) ; loopIndex = (loopIndex + 1) \| 0)
	{
	x = u4fi4(i4check(func1(a, b)));
	y = u4fi4(i4check(func1(c, d)));
	}

	//return i4check(i8add(x,y));
	return i4check(i4fu4(x));
	}

	function func3(a, b, c, d, e, f, g, h)
	{
	a = i4check(a);
	b = i4check(b);
	c = i4check(c);
	d = i4check(d);
	e = i4check(e);
	f = i4check(f);
	g = i4check(g);
	h = i4check(h);

	var x = u4(-1, -2, -3, -4);
	var y = u4(1, 2, 3, 4);
	var loopIndex = 0;
	for (loopIndex = 0; (loopIndex \| 0) < (loopCOUNT \| 0) ; loopIndex = (loopIndex + 1) \| 0)
	{

	x = u4fi4(i4check(func2(a, b, c, d)))
	y = u4fi4(i4check(func2(e, f, g, h)));

	}

	//return i4check(i8add(x,y));
	return i4check(i4fu4(x));
	}

	function func4() { //Testing for a bug while returning SIMD values from a loop
	var value1 = u4(-1, -2, -3, -4);
	var i = 0;

	for (i = 0; (i \| 0) < 1000; i = (i + 1)\|0) {
	//value1 = i8add(value1, i8splat(1));
	if ((i \| 0) == 300) {
	return i4check(i4fu4(value1));
	}
	}
	}

	// TODO: Test conversion of returned value
	function value()
	{
	var ret = 1.0;
	var i = 1.0;


	var loopIndex = 0;
	while ( (loopIndex\|0) < (loopCOUNT\|0)) {

	ret = ret + i;

	loopIndex = (loopIndex + 1) \| 0;
	}

	return +ret;
	}

	function fctest(a)
	{
	a = i4check(a);
	return a;
	}
	function fcBug_1()
	{
	var x = i4(1, 2, 3, 4);
	var k = u4(1, 2, 3, 4);
	k = u4fi4(i4check(fctest(i4fu4(k))));
	return i4check(x);
	}
	function fcBug_2()
	{
	var x = i4(1, 2, 3, 4);
	var k = u4(1, 2, 3, 4);
	x = i4check(fcBug_1());
	return i4check(i4fu4(k));
	}

	//Validation will fail with the bug
	function retValueCoercionBug()
	{
	var ret = 0.0;
	var ret1 = 0;
	var a = u4(1, 2, 3, 4);
	ret = +u4extractLane(a, 0);
	ret1 = (u4extractLane(a, 0))\|0;
	}

	return {func1:func1, func2:func2, func3:func3, func4:func4, func5:fcBug_1, func6:fcBug_2};
	}

	var m = asmModule(this, {g1:SIMD.Float32x4(90934.2,123.9,419.39,449.0), g2:SIMD.Uint32x4(-1065353216, -1073741824,-1077936128, -1082130432)});

	var s1 = SIMD.Uint32x4(-1.0, 2.0, 3.0, 4.0);
	var s2 = SIMD.Uint32x4(1.0, -2.0, 3.0, 4.0);
	var s3 = SIMD.Uint32x4(1.0, 2.0, -3.0, 4.0);
	var s4 = SIMD.Uint32x4(1.0, 2.0, 3.0, -4.0);
	var s5 = SIMD.Uint32x4(-1.0, 2.0, 3.0, 4.0);
	var s6 = SIMD.Uint32x4(1.0, -2.0, 3.0, 4.0);
	var s7 = SIMD.Uint32x4(1.0, 2.0, -3.0, 4.0);
	var s8 = SIMD.Uint32x4(1.0, 2.0, 3.0, -4.0);

	var i4fu4 = SIMD.Int32x4.fromUint32x4Bits;
	var u4fi4 = SIMD.Uint32x4.fromInt32x4Bits;
	var ret1 = u4fi4(m.func1(i4fu4(s1), i4fu4(s2)));
	var ret2 = u4fi4(m.func2(i4fu4(s1), i4fu4(s2), i4fu4(s3), i4fu4(s4)));
	var ret3 = u4fi4(m.func3(i4fu4(s1), i4fu4(s2), i4fu4(s3), i4fu4(s4), i4fu4(s5), i4fu4(s6), i4fu4(s7), i4fu4(s8)));
	var ret4 = u4fi4(m.func4());
	var ret5 = m.func5();
	var ret6 = u4fi4(m.func6());

	/*
	printSimdBaseline(ret1, "SIMD.Uint32x4", "ret1", "func1");
	printSimdBaseline(ret2, "SIMD.Uint32x4", "ret2", "func2");
	printSimdBaseline(ret3, "SIMD.Uint32x4", "ret3", "func3");
	printSimdBaseline(ret4, "SIMD.Uint32x4", "ret4", "func4");
	*/
	equalSimd([3229614080, 3221225472, 3217031168, 3212836864], ret1, SIMD.Uint32x4, "func1")
	equalSimd([3229614080, 3221225472, 3217031168, 3212836864], ret2, SIMD.Uint32x4, "func2")
	equalSimd([3229614080, 3221225472, 3217031168, 3212836864], ret3, SIMD.Uint32x4, "func3")
	equalSimd([4294967295, 4294967294, 4294967293, 4294967292], ret4, SIMD.Uint32x4, "func4")
	equalSimd([1,2,3,4], ret5, SIMD.Int32x4, "func5 - Bug1")
	equalSimd([1,2,3,4], ret6, SIMD.Uint32x4, "func6 - Bug1")



	print("PASS");