framework/delibs/decpp/deArrayBuffer.cpp - third_party/vulkan-cts - Git at Google

 /*-------------------------------------------------------------------------
  * drawElements C++ Base 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 Array buffer
  *//*--------------------------------------------------------------------*/

 #include "deArrayBuffer.hpp"

 #if defined(DE_VALGRIND_BUILD) && defined(HAVE_VALGRIND_MEMCHECK_H)
 #	include <valgrind/memcheck.h>
 #endif

 namespace de
 {
 namespace detail
 {

 void* ArrayBuffer_AlignedMalloc (size_t numBytes, size_t alignment)
 {
 	const int	sizeAsInt	= (int)numBytes;
 	void*		ptr;

 	// int overflow
 	if (sizeAsInt < 0 || numBytes != (size_t)sizeAsInt)
 		throw std::bad_alloc();

 	// alloc
 	ptr = deAlignedMalloc(sizeAsInt, (int)alignment);
 	if (!ptr)
 		throw std::bad_alloc();

 	// mark area as undefined for valgrind
 #if defined(DE_VALGRIND_BUILD) && defined(HAVE_VALGRIND_MEMCHECK_H)
 	if (RUNNING_ON_VALGRIND)
 	{
 		VALGRIND_MAKE_MEM_UNDEFINED(ptr, numBytes);
 	}
 #endif

 	return ptr;
 }

 void ArrayBuffer_AlignedFree (void* ptr)
 {
 	deAlignedFree(ptr);
 }

 } // detail

 void ArrayBuffer_selfTest (void)
 {
 	// default constructor
 	{
 		de::ArrayBuffer<int> buf;
 		DE_TEST_ASSERT(buf.size() == 0);
 		DE_TEST_ASSERT(buf.getPtr() == DE_NULL);
 	}

 	// sized constructor
 	{
 		de::ArrayBuffer<int> buf(4);
 		DE_TEST_ASSERT(buf.size() == 4);
 		DE_TEST_ASSERT(buf.getPtr() != DE_NULL);
 	}

 	// copy constructor
 	{
 		de::ArrayBuffer<int> originalBuf(4);
 		*originalBuf.getElementPtr(0) = 1;
 		*originalBuf.getElementPtr(1) = 2;
 		*originalBuf.getElementPtr(2) = 3;
 		*originalBuf.getElementPtr(3) = 4;

 		de::ArrayBuffer<int> targetBuf(originalBuf);

 		DE_TEST_ASSERT(*originalBuf.getElementPtr(0) == 1);
 		DE_TEST_ASSERT(*originalBuf.getElementPtr(1) == 2);
 		DE_TEST_ASSERT(*originalBuf.getElementPtr(2) == 3);
 		DE_TEST_ASSERT(*originalBuf.getElementPtr(3) == 4);

 		DE_TEST_ASSERT(*targetBuf.getElementPtr(0) == 1);
 		DE_TEST_ASSERT(*targetBuf.getElementPtr(1) == 2);
 		DE_TEST_ASSERT(*targetBuf.getElementPtr(2) == 3);
 		DE_TEST_ASSERT(*targetBuf.getElementPtr(3) == 4);
 	}

 	// assignment
 	{
 		de::ArrayBuffer<int> originalBuf(4);
 		*originalBuf.getElementPtr(0) = 1;
 		*originalBuf.getElementPtr(1) = 2;
 		*originalBuf.getElementPtr(2) = 3;
 		*originalBuf.getElementPtr(3) = 4;

 		de::ArrayBuffer<int> targetBuf(1);

 		targetBuf = originalBuf;

 		DE_TEST_ASSERT(*originalBuf.getElementPtr(0) == 1);
 		DE_TEST_ASSERT(*originalBuf.getElementPtr(1) == 2);
 		DE_TEST_ASSERT(*originalBuf.getElementPtr(2) == 3);
 		DE_TEST_ASSERT(*originalBuf.getElementPtr(3) == 4);

 		DE_TEST_ASSERT(*targetBuf.getElementPtr(0) == 1);
 		DE_TEST_ASSERT(*targetBuf.getElementPtr(1) == 2);
 		DE_TEST_ASSERT(*targetBuf.getElementPtr(2) == 3);
 		DE_TEST_ASSERT(*targetBuf.getElementPtr(3) == 4);
 	}

 	// clear
 	{
 		de::ArrayBuffer<int> buf(4);
 		buf.clear();
 		DE_TEST_ASSERT(buf.size() == 0);
 		DE_TEST_ASSERT(buf.getPtr() == DE_NULL);
 	}

 	// setStorage
 	{
 		de::ArrayBuffer<int> buf(4);
 		buf.setStorage(12);
 		DE_TEST_ASSERT(buf.size() == 12);
 		DE_TEST_ASSERT(buf.getPtr() != DE_NULL);
 	}

 	// setStorage, too large
 	{
 		de::ArrayBuffer<int> buf(4);
 		*buf.getElementPtr(0) = 1;
 		*buf.getElementPtr(1) = 2;
 		*buf.getElementPtr(2) = 3;
 		*buf.getElementPtr(3) = 4;

 		try
 		{
 			buf.setStorage((size_t)-1);

 			// setStorage succeeded, all ok
 		}
 		catch (std::bad_alloc&)
 		{
 			// alloc failed, check storage not changed

 			DE_TEST_ASSERT(buf.size() == 4);
 			DE_TEST_ASSERT(*buf.getElementPtr(0) == 1);
 			DE_TEST_ASSERT(*buf.getElementPtr(1) == 2);
 			DE_TEST_ASSERT(*buf.getElementPtr(2) == 3);
 			DE_TEST_ASSERT(*buf.getElementPtr(3) == 4);
 		}
 	}

 	// swap
 	{
 		de::ArrayBuffer<int> buf;
 		de::ArrayBuffer<int> source(4);
 		*source.getElementPtr(0) = 1;
 		*source.getElementPtr(1) = 2;
 		*source.getElementPtr(2) = 3;
 		*source.getElementPtr(3) = 4;

 		buf.swap(source);

 		DE_TEST_ASSERT(source.size() == 0);
 		DE_TEST_ASSERT(buf.size() == 4);
 		DE_TEST_ASSERT(*buf.getElementPtr(0) == 1);
 		DE_TEST_ASSERT(*buf.getElementPtr(1) == 2);
 		DE_TEST_ASSERT(*buf.getElementPtr(2) == 3);
 		DE_TEST_ASSERT(*buf.getElementPtr(3) == 4);
 	}

 	// default
 	{
 		de::ArrayBuffer<int> source(4);
 		int dst;
 		*source.getElementPtr(1) = 2;

 		deMemcpy(&dst, (int*)source.getPtr() + 1, sizeof(int));

 		DE_TEST_ASSERT(dst == 2);
 	}

 	// Aligned
 	{
 		de::ArrayBuffer<int, 64, sizeof(int)> source(4);
 		int dst;
 		*source.getElementPtr(1) = 2;

 		deMemcpy(&dst, (int*)source.getPtr() + 1, sizeof(int));

 		DE_TEST_ASSERT(dst == 2);
 	}

 	// Strided
 	{
 		de::ArrayBuffer<int, 4, 64> source(4);
 		int dst;
 		*source.getElementPtr(1) = 2;

 		deMemcpy(&dst, (deUint8*)source.getPtr() + 64, sizeof(int));

 		DE_TEST_ASSERT(dst == 2);
 	}

 	// Aligned, Strided
 	{
 		de::ArrayBuffer<int, 32, 64> source(4);
 		int dst;
 		*source.getElementPtr(1) = 2;

 		deMemcpy(&dst, (deUint8*)source.getPtr() + 64, sizeof(int));

 		DE_TEST_ASSERT(dst == 2);
 	}
 }

 } // de
	/*-------------------------------------------------------------------------
	* drawElements C++ Base 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 Array buffer
	//--------------------------------------------------------------------*/

	#include "deArrayBuffer.hpp"

	#if defined(DE_VALGRIND_BUILD) && defined(HAVE_VALGRIND_MEMCHECK_H)
	# include <valgrind/memcheck.h>
	#endif

	namespace de
	{
	namespace detail
	{

	void* ArrayBuffer_AlignedMalloc (size_t numBytes, size_t alignment)
	{
	const int sizeAsInt = (int)numBytes;
	void* ptr;

	// int overflow
	if (sizeAsInt < 0 \|\| numBytes != (size_t)sizeAsInt)
	throw std::bad_alloc();

	// alloc
	ptr = deAlignedMalloc(sizeAsInt, (int)alignment);
	if (!ptr)
	throw std::bad_alloc();

	// mark area as undefined for valgrind
	#if defined(DE_VALGRIND_BUILD) && defined(HAVE_VALGRIND_MEMCHECK_H)
	if (RUNNING_ON_VALGRIND)
	{
	VALGRIND_MAKE_MEM_UNDEFINED(ptr, numBytes);
	}
	#endif

	return ptr;
	}

	void ArrayBuffer_AlignedFree (void* ptr)
	{
	deAlignedFree(ptr);
	}

	} // detail

	void ArrayBuffer_selfTest (void)
	{
	// default constructor
	{
	de::ArrayBuffer<int> buf;
	DE_TEST_ASSERT(buf.size() == 0);
	DE_TEST_ASSERT(buf.getPtr() == DE_NULL);
	}

	// sized constructor
	{
	de::ArrayBuffer<int> buf(4);
	DE_TEST_ASSERT(buf.size() == 4);
	DE_TEST_ASSERT(buf.getPtr() != DE_NULL);
	}

	// copy constructor
	{
	de::ArrayBuffer<int> originalBuf(4);
	*originalBuf.getElementPtr(0) = 1;
	*originalBuf.getElementPtr(1) = 2;
	*originalBuf.getElementPtr(2) = 3;
	*originalBuf.getElementPtr(3) = 4;

	de::ArrayBuffer<int> targetBuf(originalBuf);

	DE_TEST_ASSERT(*originalBuf.getElementPtr(0) == 1);
	DE_TEST_ASSERT(*originalBuf.getElementPtr(1) == 2);
	DE_TEST_ASSERT(*originalBuf.getElementPtr(2) == 3);
	DE_TEST_ASSERT(*originalBuf.getElementPtr(3) == 4);

	DE_TEST_ASSERT(*targetBuf.getElementPtr(0) == 1);
	DE_TEST_ASSERT(*targetBuf.getElementPtr(1) == 2);
	DE_TEST_ASSERT(*targetBuf.getElementPtr(2) == 3);
	DE_TEST_ASSERT(*targetBuf.getElementPtr(3) == 4);
	}

	// assignment
	{
	de::ArrayBuffer<int> originalBuf(4);
	*originalBuf.getElementPtr(0) = 1;
	*originalBuf.getElementPtr(1) = 2;
	*originalBuf.getElementPtr(2) = 3;
	*originalBuf.getElementPtr(3) = 4;

	de::ArrayBuffer<int> targetBuf(1);

	targetBuf = originalBuf;

	DE_TEST_ASSERT(*originalBuf.getElementPtr(0) == 1);
	DE_TEST_ASSERT(*originalBuf.getElementPtr(1) == 2);
	DE_TEST_ASSERT(*originalBuf.getElementPtr(2) == 3);
	DE_TEST_ASSERT(*originalBuf.getElementPtr(3) == 4);

	DE_TEST_ASSERT(*targetBuf.getElementPtr(0) == 1);
	DE_TEST_ASSERT(*targetBuf.getElementPtr(1) == 2);
	DE_TEST_ASSERT(*targetBuf.getElementPtr(2) == 3);
	DE_TEST_ASSERT(*targetBuf.getElementPtr(3) == 4);
	}

	// clear
	{
	de::ArrayBuffer<int> buf(4);
	buf.clear();
	DE_TEST_ASSERT(buf.size() == 0);
	DE_TEST_ASSERT(buf.getPtr() == DE_NULL);
	}

	// setStorage
	{
	de::ArrayBuffer<int> buf(4);
	buf.setStorage(12);
	DE_TEST_ASSERT(buf.size() == 12);
	DE_TEST_ASSERT(buf.getPtr() != DE_NULL);
	}

	// setStorage, too large
	{
	de::ArrayBuffer<int> buf(4);
	*buf.getElementPtr(0) = 1;
	*buf.getElementPtr(1) = 2;
	*buf.getElementPtr(2) = 3;
	*buf.getElementPtr(3) = 4;

	try
	{
	buf.setStorage((size_t)-1);

	// setStorage succeeded, all ok
	}
	catch (std::bad_alloc&)
	{
	// alloc failed, check storage not changed

	DE_TEST_ASSERT(buf.size() == 4);
	DE_TEST_ASSERT(*buf.getElementPtr(0) == 1);
	DE_TEST_ASSERT(*buf.getElementPtr(1) == 2);
	DE_TEST_ASSERT(*buf.getElementPtr(2) == 3);
	DE_TEST_ASSERT(*buf.getElementPtr(3) == 4);
	}
	}

	// swap
	{
	de::ArrayBuffer<int> buf;
	de::ArrayBuffer<int> source(4);
	*source.getElementPtr(0) = 1;
	*source.getElementPtr(1) = 2;
	*source.getElementPtr(2) = 3;
	*source.getElementPtr(3) = 4;

	buf.swap(source);

	DE_TEST_ASSERT(source.size() == 0);
	DE_TEST_ASSERT(buf.size() == 4);
	DE_TEST_ASSERT(*buf.getElementPtr(0) == 1);
	DE_TEST_ASSERT(*buf.getElementPtr(1) == 2);
	DE_TEST_ASSERT(*buf.getElementPtr(2) == 3);
	DE_TEST_ASSERT(*buf.getElementPtr(3) == 4);
	}

	// default
	{
	de::ArrayBuffer<int> source(4);
	int dst;
	*source.getElementPtr(1) = 2;

	deMemcpy(&dst, (int*)source.getPtr() + 1, sizeof(int));

	DE_TEST_ASSERT(dst == 2);
	}

	// Aligned
	{
	de::ArrayBuffer<int, 64, sizeof(int)> source(4);
	int dst;
	*source.getElementPtr(1) = 2;

	deMemcpy(&dst, (int*)source.getPtr() + 1, sizeof(int));

	DE_TEST_ASSERT(dst == 2);
	}

	// Strided
	{
	de::ArrayBuffer<int, 4, 64> source(4);
	int dst;
	*source.getElementPtr(1) = 2;

	deMemcpy(&dst, (deUint8*)source.getPtr() + 64, sizeof(int));

	DE_TEST_ASSERT(dst == 2);
	}

	// Aligned, Strided
	{
	de::ArrayBuffer<int, 32, 64> source(4);
	int dst;
	*source.getElementPtr(1) = 2;

	deMemcpy(&dst, (deUint8*)source.getPtr() + 64, sizeof(int));

	DE_TEST_ASSERT(dst == 2);
	}
	}

	} // de