framework/delibs/debase/deInt32Test.c - third_party/vulkan-cts - Git at Google

 /*-------------------------------------------------------------------------
  * drawElements Base Portability Library
  * -------------------------------------
  *
  * Copyright 2014 The Android Open Source Project
  *
  * Licensed under the Apache License, Version 2.0 (the "License");
  * you may not use this file except in compliance with the License.
  * You may obtain a copy of the License at
  *
  *      http://www.apache.org/licenses/LICENSE-2.0
  *
  * Unless required by applicable law or agreed to in writing, software
  * distributed under the License is distributed on an "AS IS" BASIS,
  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
  * See the License for the specific language governing permissions and
  * limitations under the License.
  *
  *//*!
  * \file
  * \brief Testing of deInt32 functions.
  *//*--------------------------------------------------------------------*/

 #include "deInt32.h"
 #include "deRandom.h"

 #include <stdio.h> /* printf() */

 DE_BEGIN_EXTERN_C

 void deInt32_computeLUTs (void)
 {
 	enum
 	{
 		RCP_LUT_BITS = 8
 	};

 	int ndx;

 	printf("enum { RCP_LUT_BITS = %d };\n", RCP_LUT_BITS);
 	printf("static const deUint32 s_rcpLUT[1<<RCP_LUT_BITS] =\n");
 	printf("{\n");

 	for (ndx = 0; ndx < (1<<RCP_LUT_BITS); ndx++)
 	{
 		deUint32	val = (1u << RCP_LUT_BITS) | (deUint32)ndx;
 		deUint32	rcp = (deUint32)((1u << DE_RCP_FRAC_BITS) / ((double)val / (1<<RCP_LUT_BITS)));

 		if ((ndx & 3) == 0)
 			printf("\t");

 		printf("0x%08x", rcp);

 		if ((ndx & 3) == 3)
 		{
 			if (ndx != (1<<RCP_LUT_BITS)-1)
 				printf(",");
 			printf("\n");
 		}
 		else
 			printf(", ");
 	}

 	printf("};\n");
 }

 void deInt32_selfTest (void)
 {
 	const int	NUM_ACCURATE_BITS	= 29;

 	deRandom	rnd;
 	deUint32	rcp;
 	int			exp;
 	int			numBits;

 	deRandom_init(&rnd, 0xdeadbeefu-1);

 	/* Test deClz32(). */
 	{
 		int i;
 		for (i = 0; i < 32; i++)
 		{
 			DE_TEST_ASSERT(deClz32(1u << i) == 31-i);
 			DE_TEST_ASSERT(deClz32((1u << i) | ((1u << i)-1u)) == 31-i);
 		}
 	}

 	DE_TEST_ASSERT(deClz32(0) == 32);
 	DE_TEST_ASSERT(deClz32(1) == 31);
 	DE_TEST_ASSERT(deClz32(0xF1) == 24);
 	DE_TEST_ASSERT(deClz32(0xBC12) == 16);
 	DE_TEST_ASSERT(deClz32(0xABBACD) == 8);
 	DE_TEST_ASSERT(deClz32(0x10000000) == 3);
 	DE_TEST_ASSERT(deClz32(0x20000000) == 2);
 	DE_TEST_ASSERT(deClz32(0x40000000) == 1);
 	DE_TEST_ASSERT(deClz32(0x80000000) == 0);

 	/* Test deCtz32(). */
 	{
 		int i;
 		for (i = 0; i < 32; i++)
 		{
 			DE_TEST_ASSERT(deCtz32(1u << i) == i);
 			DE_TEST_ASSERT(deCtz32(~((1u << i)-1u)) == i);
 		}
 	}

 	DE_TEST_ASSERT(deCtz32(0) == 32);
 	DE_TEST_ASSERT(deCtz32(1) == 0);
 	DE_TEST_ASSERT(deCtz32(0x3F4) == 2);
 	DE_TEST_ASSERT(deCtz32(0x3F40) == 6);
 	DE_TEST_ASSERT(deCtz32(0xFFFFFFFF) == 0);

 	/* Test simple inputs for dePop32(). */
 	DE_TEST_ASSERT(dePop32(0u) == 0);
 	DE_TEST_ASSERT(dePop32(~0u) == 32);
 	DE_TEST_ASSERT(dePop32(0xFF) == 8);
 	DE_TEST_ASSERT(dePop32(0xFF00FF) == 16);
 	DE_TEST_ASSERT(dePop32(0x3333333) == 14);
 	DE_TEST_ASSERT(dePop32(0x33333333) == 16);

 	/* dePop32(): Check exp2(N) values and inverses. */
 	for (numBits = 0; numBits < 32; numBits++)
 	{
 		DE_TEST_ASSERT(dePop32(1u<<numBits) == 1);
 		DE_TEST_ASSERT(dePop32(~(1u<<numBits)) == 31);
 	}

 	/* Check exp2(N) values. */
 	for (numBits = 0; numBits < 32; numBits++)
 	{
 		deUint32 val = (1u<<numBits);
 		deRcp32(val, &rcp, &exp);

 		DE_TEST_ASSERT(rcp == (1u<<DE_RCP_FRAC_BITS));
 		DE_TEST_ASSERT(exp == numBits);
 	}

 	/* Check random values. */
 	for (numBits = 0; numBits < 32; numBits++)
 	{
 		int NUM_ITERS = deMax32(16, 1 << (numBits/2));
 		int iter;

 		for (iter = 0; iter < NUM_ITERS; iter++)
 		{
 			const deUint32	EPS = 1u << (DE_RCP_FRAC_BITS - NUM_ACCURATE_BITS);

 			deUint32		val = (deRandom_getUint32(&rnd) & ((1u<<numBits)-1)) | (1u<<numBits);
 			deUint32		ref = (deUint32)(((1.0f / (double)val) * (double)(1<<DE_RCP_FRAC_BITS)) * (double)(1u<<numBits));

 			deRcp32(val, &rcp, &exp);

 			DE_TEST_ASSERT(rcp >= ref-EPS && rcp < ref+EPS);
 			DE_TEST_ASSERT(exp == numBits);
 		}
 	}

 	DE_TEST_ASSERT(deBitMask32(0, 0) == 0);
 	DE_TEST_ASSERT(deBitMask32(8, 0) == 0);
 	DE_TEST_ASSERT(deBitMask32(16, 0) == 0);
 	DE_TEST_ASSERT(deBitMask32(31, 0) == 0);
 	DE_TEST_ASSERT(deBitMask32(32, 0) == 0);

 	DE_TEST_ASSERT(deBitMask32(0, 2) == 3);
 	DE_TEST_ASSERT(deBitMask32(0, 32) == 0xFFFFFFFFu);

 	DE_TEST_ASSERT(deBitMask32(16, 16) == 0xFFFF0000u);
 	DE_TEST_ASSERT(deBitMask32(31, 1) == 0x80000000u);
 	DE_TEST_ASSERT(deBitMask32(8, 4) == 0xF00u);

 	DE_TEST_ASSERT(deUintMaxValue32(1) == 1);
 	DE_TEST_ASSERT(deUintMaxValue32(2) == 3);
 	DE_TEST_ASSERT(deUintMaxValue32(32) == 0xFFFFFFFFu);

 	DE_TEST_ASSERT(deIntMaxValue32(1) == 0);
 	DE_TEST_ASSERT(deIntMaxValue32(2) == 1);
 	DE_TEST_ASSERT(deIntMaxValue32(32) == 0x7FFFFFFF);

 	DE_TEST_ASSERT(deIntMinValue32(1) == -1);
 	DE_TEST_ASSERT(deIntMinValue32(2) == -2);
 	DE_TEST_ASSERT(deIntMinValue32(32) == -0x7FFFFFFF - 1);

 	DE_TEST_ASSERT(deSignExtendTo32((int)0x0, 1) == 0);
 	DE_TEST_ASSERT(deSignExtendTo32((int)0x1, 1) == (int)0xFFFFFFFF);
 	DE_TEST_ASSERT(deSignExtendTo32((int)0x3, 3) == 3);
 	DE_TEST_ASSERT(deSignExtendTo32((int)0x6, 3) == (int)0xFFFFFFFE);
 	DE_TEST_ASSERT(deSignExtendTo32((int)0x3, 4) == 3);
 	DE_TEST_ASSERT(deSignExtendTo32((int)0xC, 4) == (int)0xFFFFFFFC);
 	DE_TEST_ASSERT(deSignExtendTo32((int)0x7FC3, 16) == (int)0x7FC3);
 	DE_TEST_ASSERT(deSignExtendTo32((int)0x84A0, 16) == (int)0xFFFF84A0);
 	DE_TEST_ASSERT(deSignExtendTo32((int)0xFFC3, 17) == (int)0xFFC3);
 	DE_TEST_ASSERT(deSignExtendTo32((int)0x184A0, 17) == (int)0xFFFF84A0);
 	DE_TEST_ASSERT(deSignExtendTo32((int)0x7A016601, 32) == (int)0x7A016601);
 	DE_TEST_ASSERT(deSignExtendTo32((int)0x8A016601, 32) == (int)0x8A016601);

 	DE_TEST_ASSERT(deReverseBytes32(0x11223344) == 0x44332211);
 	DE_TEST_ASSERT(deReverseBytes32(0xfecddeef) == 0xefdecdfe);
 	DE_TEST_ASSERT(deReverseBytes16(0x1122) == 0x2211);
 	DE_TEST_ASSERT(deReverseBytes16(0xdeef) == 0xefde);

 	DE_TEST_ASSERT(deInt64InInt32Range((deInt64)0x7FFFFFF));
 	DE_TEST_ASSERT(deInt64InInt32Range(0));
 	DE_TEST_ASSERT(deInt64InInt32Range(1));
 	DE_TEST_ASSERT(deInt64InInt32Range(-1));
 	DE_TEST_ASSERT(deInt64InInt32Range(-((deInt64)0x7FFFFFF)));
 	DE_TEST_ASSERT(deInt64InInt32Range(-((deInt64)0x8000 << 16)));
 	DE_TEST_ASSERT(deInt64InInt32Range((deInt64)deIntMinValue32(32)));

 	DE_TEST_ASSERT(!deInt64InInt32Range((((deInt64)0x7FFFFFF) << 32) | (deInt64)0xFFFFFFFF));
 	DE_TEST_ASSERT(!deInt64InInt32Range((deInt64)0x7FFFFFFF + 1));
 	DE_TEST_ASSERT(!deInt64InInt32Range(-((deInt64)0x7FFFFFFF + 2)));
 	DE_TEST_ASSERT(!deInt64InInt32Range(-((((deInt64)0x7FFFFFF) << 32) | (deInt64)0xFFFFFFFF)));
 	DE_TEST_ASSERT(!deInt64InInt32Range((deInt64)deIntMinValue32(32) - 1));
 }

 DE_END_EXTERN_C
	/*-------------------------------------------------------------------------
	* drawElements Base Portability Library
	* -------------------------------------
	*
	* Copyright 2014 The Android Open Source Project
	*
	* Licensed under the Apache License, Version 2.0 (the "License");
	* you may not use this file except in compliance with the License.
	* You may obtain a copy of the License at
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing, software
	* distributed under the License is distributed on an "AS IS" BASIS,
	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	* See the License for the specific language governing permissions and
	* limitations under the License.
	*
	//!
	* \file
	* \brief Testing of deInt32 functions.
	//--------------------------------------------------------------------*/

	#include "deInt32.h"
	#include "deRandom.h"

	#include <stdio.h> /* printf() */

	DE_BEGIN_EXTERN_C

	void deInt32_computeLUTs (void)
	{
	enum
	{
	RCP_LUT_BITS = 8
	};

	int ndx;

	printf("enum { RCP_LUT_BITS = %d };\n", RCP_LUT_BITS);
	printf("static const deUint32 s_rcpLUT[1<<RCP_LUT_BITS] =\n");
	printf("{\n");

	for (ndx = 0; ndx < (1<<RCP_LUT_BITS); ndx++)
	{
	deUint32 val = (1u << RCP_LUT_BITS) \| (deUint32)ndx;
	deUint32 rcp = (deUint32)((1u << DE_RCP_FRAC_BITS) / ((double)val / (1<<RCP_LUT_BITS)));

	if ((ndx & 3) == 0)
	printf("\t");

	printf("0x%08x", rcp);

	if ((ndx & 3) == 3)
	{
	if (ndx != (1<<RCP_LUT_BITS)-1)
	printf(",");
	printf("\n");
	}
	else
	printf(", ");
	}

	printf("};\n");
	}

	void deInt32_selfTest (void)
	{
	const int NUM_ACCURATE_BITS = 29;

	deRandom rnd;
	deUint32 rcp;
	int exp;
	int numBits;

	deRandom_init(&rnd, 0xdeadbeefu-1);

	/* Test deClz32(). */
	{
	int i;
	for (i = 0; i < 32; i++)
	{
	DE_TEST_ASSERT(deClz32(1u << i) == 31-i);
	DE_TEST_ASSERT(deClz32((1u << i) \| ((1u << i)-1u)) == 31-i);
	}
	}

	DE_TEST_ASSERT(deClz32(0) == 32);
	DE_TEST_ASSERT(deClz32(1) == 31);
	DE_TEST_ASSERT(deClz32(0xF1) == 24);
	DE_TEST_ASSERT(deClz32(0xBC12) == 16);
	DE_TEST_ASSERT(deClz32(0xABBACD) == 8);
	DE_TEST_ASSERT(deClz32(0x10000000) == 3);
	DE_TEST_ASSERT(deClz32(0x20000000) == 2);
	DE_TEST_ASSERT(deClz32(0x40000000) == 1);
	DE_TEST_ASSERT(deClz32(0x80000000) == 0);

	/* Test deCtz32(). */
	{
	int i;
	for (i = 0; i < 32; i++)
	{
	DE_TEST_ASSERT(deCtz32(1u << i) == i);
	DE_TEST_ASSERT(deCtz32(~((1u << i)-1u)) == i);
	}
	}

	DE_TEST_ASSERT(deCtz32(0) == 32);
	DE_TEST_ASSERT(deCtz32(1) == 0);
	DE_TEST_ASSERT(deCtz32(0x3F4) == 2);
	DE_TEST_ASSERT(deCtz32(0x3F40) == 6);
	DE_TEST_ASSERT(deCtz32(0xFFFFFFFF) == 0);

	/* Test simple inputs for dePop32(). */
	DE_TEST_ASSERT(dePop32(0u) == 0);
	DE_TEST_ASSERT(dePop32(~0u) == 32);
	DE_TEST_ASSERT(dePop32(0xFF) == 8);
	DE_TEST_ASSERT(dePop32(0xFF00FF) == 16);
	DE_TEST_ASSERT(dePop32(0x3333333) == 14);
	DE_TEST_ASSERT(dePop32(0x33333333) == 16);

	/* dePop32(): Check exp2(N) values and inverses. */
	for (numBits = 0; numBits < 32; numBits++)
	{
	DE_TEST_ASSERT(dePop32(1u<<numBits) == 1);
	DE_TEST_ASSERT(dePop32(~(1u<<numBits)) == 31);
	}

	/* Check exp2(N) values. */
	for (numBits = 0; numBits < 32; numBits++)
	{
	deUint32 val = (1u<<numBits);
	deRcp32(val, &rcp, &exp);

	DE_TEST_ASSERT(rcp == (1u<<DE_RCP_FRAC_BITS));
	DE_TEST_ASSERT(exp == numBits);
	}

	/* Check random values. */
	for (numBits = 0; numBits < 32; numBits++)
	{
	int NUM_ITERS = deMax32(16, 1 << (numBits/2));
	int iter;

	for (iter = 0; iter < NUM_ITERS; iter++)
	{
	const deUint32 EPS = 1u << (DE_RCP_FRAC_BITS - NUM_ACCURATE_BITS);

	deUint32 val = (deRandom_getUint32(&rnd) & ((1u<<numBits)-1)) \| (1u<<numBits);
	deUint32 ref = (deUint32)(((1.0f / (double)val) * (double)(1<<DE_RCP_FRAC_BITS)) * (double)(1u<<numBits));

	deRcp32(val, &rcp, &exp);

	DE_TEST_ASSERT(rcp >= ref-EPS && rcp < ref+EPS);
	DE_TEST_ASSERT(exp == numBits);
	}
	}

	DE_TEST_ASSERT(deBitMask32(0, 0) == 0);
	DE_TEST_ASSERT(deBitMask32(8, 0) == 0);
	DE_TEST_ASSERT(deBitMask32(16, 0) == 0);
	DE_TEST_ASSERT(deBitMask32(31, 0) == 0);
	DE_TEST_ASSERT(deBitMask32(32, 0) == 0);

	DE_TEST_ASSERT(deBitMask32(0, 2) == 3);
	DE_TEST_ASSERT(deBitMask32(0, 32) == 0xFFFFFFFFu);

	DE_TEST_ASSERT(deBitMask32(16, 16) == 0xFFFF0000u);
	DE_TEST_ASSERT(deBitMask32(31, 1) == 0x80000000u);
	DE_TEST_ASSERT(deBitMask32(8, 4) == 0xF00u);

	DE_TEST_ASSERT(deUintMaxValue32(1) == 1);
	DE_TEST_ASSERT(deUintMaxValue32(2) == 3);
	DE_TEST_ASSERT(deUintMaxValue32(32) == 0xFFFFFFFFu);

	DE_TEST_ASSERT(deIntMaxValue32(1) == 0);
	DE_TEST_ASSERT(deIntMaxValue32(2) == 1);
	DE_TEST_ASSERT(deIntMaxValue32(32) == 0x7FFFFFFF);

	DE_TEST_ASSERT(deIntMinValue32(1) == -1);
	DE_TEST_ASSERT(deIntMinValue32(2) == -2);
	DE_TEST_ASSERT(deIntMinValue32(32) == -0x7FFFFFFF - 1);

	DE_TEST_ASSERT(deSignExtendTo32((int)0x0, 1) == 0);
	DE_TEST_ASSERT(deSignExtendTo32((int)0x1, 1) == (int)0xFFFFFFFF);
	DE_TEST_ASSERT(deSignExtendTo32((int)0x3, 3) == 3);
	DE_TEST_ASSERT(deSignExtendTo32((int)0x6, 3) == (int)0xFFFFFFFE);
	DE_TEST_ASSERT(deSignExtendTo32((int)0x3, 4) == 3);
	DE_TEST_ASSERT(deSignExtendTo32((int)0xC, 4) == (int)0xFFFFFFFC);
	DE_TEST_ASSERT(deSignExtendTo32((int)0x7FC3, 16) == (int)0x7FC3);
	DE_TEST_ASSERT(deSignExtendTo32((int)0x84A0, 16) == (int)0xFFFF84A0);
	DE_TEST_ASSERT(deSignExtendTo32((int)0xFFC3, 17) == (int)0xFFC3);
	DE_TEST_ASSERT(deSignExtendTo32((int)0x184A0, 17) == (int)0xFFFF84A0);
	DE_TEST_ASSERT(deSignExtendTo32((int)0x7A016601, 32) == (int)0x7A016601);
	DE_TEST_ASSERT(deSignExtendTo32((int)0x8A016601, 32) == (int)0x8A016601);

	DE_TEST_ASSERT(deReverseBytes32(0x11223344) == 0x44332211);
	DE_TEST_ASSERT(deReverseBytes32(0xfecddeef) == 0xefdecdfe);
	DE_TEST_ASSERT(deReverseBytes16(0x1122) == 0x2211);
	DE_TEST_ASSERT(deReverseBytes16(0xdeef) == 0xefde);

	DE_TEST_ASSERT(deInt64InInt32Range((deInt64)0x7FFFFFF));
	DE_TEST_ASSERT(deInt64InInt32Range(0));
	DE_TEST_ASSERT(deInt64InInt32Range(1));
	DE_TEST_ASSERT(deInt64InInt32Range(-1));
	DE_TEST_ASSERT(deInt64InInt32Range(-((deInt64)0x7FFFFFF)));
	DE_TEST_ASSERT(deInt64InInt32Range(-((deInt64)0x8000 << 16)));
	DE_TEST_ASSERT(deInt64InInt32Range((deInt64)deIntMinValue32(32)));

	DE_TEST_ASSERT(!deInt64InInt32Range((((deInt64)0x7FFFFFF) << 32) \| (deInt64)0xFFFFFFFF));
	DE_TEST_ASSERT(!deInt64InInt32Range((deInt64)0x7FFFFFFF + 1));
	DE_TEST_ASSERT(!deInt64InInt32Range(-((deInt64)0x7FFFFFFF + 2)));
	DE_TEST_ASSERT(!deInt64InInt32Range(-((((deInt64)0x7FFFFFF) << 32) \| (deInt64)0xFFFFFFFF)));
	DE_TEST_ASSERT(!deInt64InInt32Range((deInt64)deIntMinValue32(32) - 1));
	}

	DE_END_EXTERN_C