JSTests/ChakraCore/test/SIMD.float32x4/testConversions.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.
 //-------------------------------------------------------------------------------------------------------

 function equal(a, b) {
     if (a == b)
     {
         print("Correct");
     }
     else
     {
         print(">> Fail!");
     }
 }

 function testInt32x4BitConversion() {
     print("Float32x4 Int32x4 bit conversion");
     var m = SIMD.Int32x4(0x3F800000, 0x40000000, 0x40400000, 0x40800000);
     var n = SIMD.Float32x4.fromInt32x4Bits(m);
     equal(1.0, SIMD.Float32x4.extractLane(n, 0));
     equal(2.0, SIMD.Float32x4.extractLane(n, 1));
     equal(3.0, SIMD.Float32x4.extractLane(n, 2));
     equal(4.0, SIMD.Float32x4.extractLane(n, 3));
     n = SIMD.Float32x4(5.0, 6.0, 7.0, 8.0);
     m = SIMD.Int32x4.fromFloat32x4Bits(n);
     equal(0x40A00000, SIMD.Int32x4.extractLane(m, 0));
     equal(0x40C00000, SIMD.Int32x4.extractLane(m, 1));
     equal(0x40E00000, SIMD.Int32x4.extractLane(m, 2));
     equal(0x41000000, SIMD.Int32x4.extractLane(m, 3));
     // Flip sign using bit-wise operators.
     n = SIMD.Float32x4(9.0, 10.0, 11.0, 12.0);
     m = SIMD.Int32x4(0x80000000, 0x80000000, 0x80000000, 0x80000000);
     var nMask = SIMD.Int32x4.fromFloat32x4Bits(n);
     nMask = SIMD.Int32x4.xor(nMask, m); // flip sign.
     n = SIMD.Float32x4.fromInt32x4Bits(nMask);
     equal(-9.0, SIMD.Float32x4.extractLane(n, 0));
     equal(-10.0, SIMD.Float32x4.extractLane(n, 1));
     equal(-11.0, SIMD.Float32x4.extractLane(n, 2));
     equal(-12.0, SIMD.Float32x4.extractLane(n, 3));
     nMask = SIMD.Int32x4.fromFloat32x4Bits(n);
     nMask = SIMD.Int32x4.xor(nMask, m); // flip sign.
     n = SIMD.Float32x4.fromInt32x4Bits(nMask);
     equal(9.0, SIMD.Float32x4.extractLane(n, 0));
     equal(10.0, SIMD.Float32x4.extractLane(n, 1));
     equal(11.0, SIMD.Float32x4.extractLane(n, 2));
     equal(12.0, SIMD.Float32x4.extractLane(n, 3));
     // Should stay unmodified across bit conversions
     m = SIMD.Int32x4(0xFFFFFFFF, 0xFFFF0000, 0x80000000, 0x0);
     var m2 = SIMD.Int32x4.fromFloat32x4Bits(SIMD.Float32x4.fromInt32x4Bits(m));
     equal(SIMD.Int32x4.extractLane(m, 0), SIMD.Int32x4.extractLane(m2, 0));
     equal(SIMD.Int32x4.extractLane(m, 1), SIMD.Int32x4.extractLane(m2, 1));
     equal(SIMD.Int32x4.extractLane(m, 2), SIMD.Int32x4.extractLane(m2, 2));
     equal(SIMD.Int32x4.extractLane(m, 3), SIMD.Int32x4.extractLane(m2, 3));
 }

 testInt32x4BitConversion();
 testInt32x4BitConversion();
 testInt32x4BitConversion();
 testInt32x4BitConversion();
 testInt32x4BitConversion();
 testInt32x4BitConversion();
 testInt32x4BitConversion();
	//-------------------------------------------------------------------------------------------------------
	// Copyright (C) Microsoft. All rights reserved.
	// Licensed under the MIT license. See LICENSE.txt file in the project root for full license information.
	//-------------------------------------------------------------------------------------------------------

	function equal(a, b) {
	if (a == b)
	{
	print("Correct");
	}
	else
	{
	print(">> Fail!");
	}
	}

	function testInt32x4BitConversion() {
	print("Float32x4 Int32x4 bit conversion");
	var m = SIMD.Int32x4(0x3F800000, 0x40000000, 0x40400000, 0x40800000);
	var n = SIMD.Float32x4.fromInt32x4Bits(m);
	equal(1.0, SIMD.Float32x4.extractLane(n, 0));
	equal(2.0, SIMD.Float32x4.extractLane(n, 1));
	equal(3.0, SIMD.Float32x4.extractLane(n, 2));
	equal(4.0, SIMD.Float32x4.extractLane(n, 3));
	n = SIMD.Float32x4(5.0, 6.0, 7.0, 8.0);
	m = SIMD.Int32x4.fromFloat32x4Bits(n);
	equal(0x40A00000, SIMD.Int32x4.extractLane(m, 0));
	equal(0x40C00000, SIMD.Int32x4.extractLane(m, 1));
	equal(0x40E00000, SIMD.Int32x4.extractLane(m, 2));
	equal(0x41000000, SIMD.Int32x4.extractLane(m, 3));
	// Flip sign using bit-wise operators.
	n = SIMD.Float32x4(9.0, 10.0, 11.0, 12.0);
	m = SIMD.Int32x4(0x80000000, 0x80000000, 0x80000000, 0x80000000);
	var nMask = SIMD.Int32x4.fromFloat32x4Bits(n);
	nMask = SIMD.Int32x4.xor(nMask, m); // flip sign.
	n = SIMD.Float32x4.fromInt32x4Bits(nMask);
	equal(-9.0, SIMD.Float32x4.extractLane(n, 0));
	equal(-10.0, SIMD.Float32x4.extractLane(n, 1));
	equal(-11.0, SIMD.Float32x4.extractLane(n, 2));
	equal(-12.0, SIMD.Float32x4.extractLane(n, 3));
	nMask = SIMD.Int32x4.fromFloat32x4Bits(n);
	nMask = SIMD.Int32x4.xor(nMask, m); // flip sign.
	n = SIMD.Float32x4.fromInt32x4Bits(nMask);
	equal(9.0, SIMD.Float32x4.extractLane(n, 0));
	equal(10.0, SIMD.Float32x4.extractLane(n, 1));
	equal(11.0, SIMD.Float32x4.extractLane(n, 2));
	equal(12.0, SIMD.Float32x4.extractLane(n, 3));
	// Should stay unmodified across bit conversions
	m = SIMD.Int32x4(0xFFFFFFFF, 0xFFFF0000, 0x80000000, 0x0);
	var m2 = SIMD.Int32x4.fromFloat32x4Bits(SIMD.Float32x4.fromInt32x4Bits(m));
	equal(SIMD.Int32x4.extractLane(m, 0), SIMD.Int32x4.extractLane(m2, 0));
	equal(SIMD.Int32x4.extractLane(m, 1), SIMD.Int32x4.extractLane(m2, 1));
	equal(SIMD.Int32x4.extractLane(m, 2), SIMD.Int32x4.extractLane(m2, 2));
	equal(SIMD.Int32x4.extractLane(m, 3), SIMD.Int32x4.extractLane(m2, 3));
	}

	testInt32x4BitConversion();
	testInt32x4BitConversion();
	testInt32x4BitConversion();
	testInt32x4BitConversion();
	testInt32x4BitConversion();
	testInt32x4BitConversion();
	testInt32x4BitConversion();