mirror of
https://github.com/GPUOpen-LibrariesAndSDKs/VulkanMemoryAllocator.git
synced 2024-11-22 15:04:34 +00:00
More implementation and first tests.
Crashing for now - need more refactoring.
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@ -2194,6 +2194,30 @@ struct VmaVirtualBlockCreateInfo
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const VkAllocationCallbacks* VMA_NULLABLE pAllocationCallbacks;
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};
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/// TODO
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typedef enum VmaVirtualAllocationCreateFlagBits {
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/** Allocation will be created from upper stack in a double stack pool.
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This flag is only allowed for virtual blocks created with #VMA_VIRTUAL_BLOCK_CREATE_LINEAR_ALGORITHM_BIT flag.
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*/
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VMA_VIRTUAL_ALLOCATION_CREATE_UPPER_ADDRESS_BIT = VMA_ALLOCATION_CREATE_UPPER_ADDRESS_BIT,
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/** Allocation strategy that tries to minimize memory usage.
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*/
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VMA_VIRTUAL_ALLOCATION_CREATE_STRATEGY_MIN_MEMORY_BIT = VMA_ALLOCATION_CREATE_STRATEGY_MIN_MEMORY_BIT,
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/** Allocation strategy that tries to minimize allocation time.
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*/
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VMA_VIRTUAL_ALLOCATION_CREATE_STRATEGY_MIN_TIME_BIT = VMA_ALLOCATION_CREATE_STRATEGY_MIN_TIME_BIT,
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/** Allocation strategy that tries to minimize memory fragmentation.
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*/
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VMA_VIRTUAL_ALLOCATION_CREATE_STRATEGY_MIN_FRAGMENTATION_BIT = VMA_ALLOCATION_CREATE_STRATEGY_MIN_FRAGMENTATION_BIT,
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/** A bit mask to extract only `STRATEGY` bits from entire set of flags.
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*/
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VMA_VIRTUAL_ALLOCATION_CREATE_STRATEGY_MASK = VMA_ALLOCATION_CREATE_STRATEGY_MASK,
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VMA_VIRTUAL_ALLOCATION_CREATE_FLAG_BITS_MAX_ENUM = 0x7FFFFFFF
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} VmaVirtualAllocationCreateFlagBits;
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typedef VkFlags VmaVirtualAllocationCreateFlags;
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/// Parameters of created virtual allocation to be passed to vma TODO.
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struct VmaVirtualAllocationCreateInfo
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{
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@ -2207,6 +2231,10 @@ struct VmaVirtualAllocationCreateInfo
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Must be power of two. Special value 0 has the same meaning as 1 - means no special alignment is required, so allocation can start at any offset.
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*/
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VkDeviceSize alignment;
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/** \brief TODO
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*/
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VmaVirtualAllocationCreateFlags flags;
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/** \brief Custom pointer to be associated with the allocation.
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It can be fetched or changed later.
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@ -6831,22 +6859,43 @@ public:
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const VkAllocationCallbacks m_AllocationCallbacks;
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VmaVirtualBlock_T(const VmaVirtualBlockCreateInfo& createInfo);
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~VmaVirtualBlock_T();
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VkResult Init();
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~VmaVirtualBlock_T()
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{
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vma_delete(GetAllocationCallbacks(), m_Metadata);
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}
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VkResult Init()
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{
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return VK_SUCCESS;
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}
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const VkAllocationCallbacks* GetAllocationCallbacks() const
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{
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return m_AllocationCallbacksSpecified ? &m_AllocationCallbacks : VMA_NULL;
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}
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bool IsEmpty() const;
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void GetAllocationInfo(VkDeviceSize offset, VmaVirtualAllocationInfo& outInfo) const;
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bool IsEmpty() const
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{
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return m_Metadata->IsEmpty();
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}
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void GetAllocationInfo(VkDeviceSize offset, VmaVirtualAllocationInfo& outInfo) const
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{
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m_Metadata->GetAllocationInfo(offset, outInfo);
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}
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VkResult Allocate(const VmaVirtualAllocationCreateInfo& createInfo, VkDeviceSize& outOffset);
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void Free(VkDeviceSize offset);
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void Clear();
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void SetAllocationUserData(VkDeviceSize offset, void* userData);
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void Free(VkDeviceSize offset)
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{
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m_Metadata->FreeAtOffset(offset);
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}
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void Clear()
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{
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m_Metadata->Clear();
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}
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void SetAllocationUserData(VkDeviceSize offset, void* userData)
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{
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m_Metadata->SetAllocationUserData(offset, userData);
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}
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private:
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VmaBlockMetadata* m_Metadata;
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};
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////////////////////////////////////////////////////////////////////////////////
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@ -16596,48 +16645,49 @@ VmaVirtualBlock_T::VmaVirtualBlock_T(const VmaVirtualBlockCreateInfo& createInfo
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m_AllocationCallbacksSpecified(createInfo.pAllocationCallbacks != VMA_NULL),
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m_AllocationCallbacks(createInfo.pAllocationCallbacks != VMA_NULL ? *createInfo.pAllocationCallbacks : VmaEmptyAllocationCallbacks)
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{
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//TODO
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}
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const uint32_t algorithm = createInfo.flags & VMA_VIRTUAL_BLOCK_CREATE_ALGORITHM_MASK;
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switch(algorithm)
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{
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case 0:
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m_Metadata = vma_new(GetAllocationCallbacks(), VmaBlockMetadata_Generic)(VK_NULL_HANDLE, true);
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break;
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case VMA_VIRTUAL_BLOCK_CREATE_BUDDY_ALGORITHM_BIT:
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m_Metadata = vma_new(GetAllocationCallbacks(), VmaBlockMetadata_Buddy)(VK_NULL_HANDLE, true);
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break;
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case VMA_VIRTUAL_BLOCK_CREATE_LINEAR_ALGORITHM_BIT:
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m_Metadata = vma_new(GetAllocationCallbacks(), VmaBlockMetadata_Linear)(VK_NULL_HANDLE, true);
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break;
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default:
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VMA_ASSERT(0);
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}
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VmaVirtualBlock_T::~VmaVirtualBlock_T()
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{
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//TODO
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}
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VkResult VmaVirtualBlock_T::Init()
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{
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//TODO
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return VK_SUCCESS;
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}
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bool VmaVirtualBlock_T::IsEmpty() const
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{
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return true;//TODO
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}
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void VmaVirtualBlock_T::GetAllocationInfo(VkDeviceSize offset, VmaVirtualAllocationInfo& outInfo) const
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{
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//TODO
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m_Metadata->Init(createInfo.size);
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}
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VkResult VmaVirtualBlock_T::Allocate(const VmaVirtualAllocationCreateInfo& createInfo, VkDeviceSize& outOffset)
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{
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return VK_ERROR_DEVICE_LOST;//TODO
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}
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void VmaVirtualBlock_T::Free(VkDeviceSize offset)
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{
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//TODO
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}
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void VmaVirtualBlock_T::Clear()
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{
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//TODO
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}
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void VmaVirtualBlock_T::SetAllocationUserData(VkDeviceSize offset, void* userData)
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{
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//TODO
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outOffset = VK_WHOLE_SIZE;
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VmaAllocationRequest request = {};
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if(m_Metadata->CreateAllocationRequest(
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0, // currentFrameIndex - unimportant
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0, // frameInUseCount - unimportant
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1, // bufferImageGranularity
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createInfo.size, // allocSize
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VMA_MAX(createInfo.alignment, 1llu), // allocAlignment
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(createInfo.flags & VMA_VIRTUAL_ALLOCATION_CREATE_UPPER_ADDRESS_BIT) != 0, // upperAddress
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VMA_SUBALLOCATION_TYPE_UNKNOWN, // allocType - unimportant
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false, // canMakeOthersLost
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createInfo.flags & VMA_VIRTUAL_ALLOCATION_CREATE_STRATEGY_MASK, // strategy
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&request))
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{
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m_Metadata->Alloc(request,
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VMA_SUBALLOCATION_TYPE_UNKNOWN, // type - unimportant
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createInfo.size, // allocSize
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createInfo.pUserData);
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outOffset = request.offset;
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return VK_SUCCESS;
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}
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return VK_ERROR_OUT_OF_DEVICE_MEMORY;
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}
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////////////////////////////////////////////////////////////////////////////////
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125
src/Tests.cpp
125
src/Tests.cpp
@ -31,6 +31,7 @@
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#ifdef _WIN32
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static const char* CODE_DESCRIPTION = "Foo";
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static constexpr VkDeviceSize MEGABYTE = 1024 * 1024;
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extern VkCommandBuffer g_hTemporaryCommandBuffer;
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extern const VkAllocationCallbacks* g_Allocs;
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@ -2686,6 +2687,126 @@ static void TestBasics()
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TestInvalidAllocations();
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}
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static void TestVirtualBlocks()
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{
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wprintf(L"Test virtual blocks\n");
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const VkDeviceSize blockSize = 16 * MEGABYTE;
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const VkDeviceSize alignment = 256;
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// # Create block 16 MB
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VmaVirtualBlockCreateInfo blockCreateInfo = {};
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blockCreateInfo.pAllocationCallbacks = g_Allocs;
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blockCreateInfo.size = blockSize;
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VmaVirtualBlock block;
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TEST(vmaCreateVirtualBlock(&blockCreateInfo, &block) == VK_SUCCESS && block);
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// # Allocate 8 MB
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VmaVirtualAllocationCreateInfo allocCreateInfo = {};
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allocCreateInfo.alignment = alignment;
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allocCreateInfo.pUserData = (void*)(uintptr_t)1;
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allocCreateInfo.size = 8 * MEGABYTE;
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VkDeviceSize alloc0Offset;
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TEST(vmaVirtualAllocate(block, &allocCreateInfo, &alloc0Offset) == VK_SUCCESS && alloc0Offset < blockSize);
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#if 0
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// # Validate the allocation
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VIRTUAL_ALLOCATION_INFO allocInfo = {};
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block->GetAllocationInfo(alloc0Offset, &allocInfo);
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CHECK_BOOL( allocInfo.size == allocDesc.Size );
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CHECK_BOOL( allocInfo.pUserData == allocDesc.pUserData );
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// # Check SetUserData
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block->SetAllocationUserData(alloc0Offset, (void*)(uintptr_t)2);
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block->GetAllocationInfo(alloc0Offset, &allocInfo);
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CHECK_BOOL( allocInfo.pUserData == (void*)(uintptr_t)2 );
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// # Allocate 4 MB
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allocDesc.Size = 4 * MEGABYTE;
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allocDesc.Alignment = alignment;
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UINT64 alloc1Offset;
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CHECK_HR( block->Allocate(&allocDesc, &alloc1Offset) );
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CHECK_BOOL( alloc1Offset < blockSize );
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CHECK_BOOL( alloc1Offset + 4 * MEGABYTE <= alloc0Offset || alloc0Offset + 8 * MEGABYTE <= alloc1Offset ); // Check if they don't overlap.
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// # Allocate another 8 MB - it should fail
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allocDesc.Size = 8 * MEGABYTE;
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allocDesc.Alignment = alignment;
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UINT64 alloc2Offset;
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CHECK_BOOL( FAILED(block->Allocate(&allocDesc, &alloc2Offset)) );
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CHECK_BOOL( alloc2Offset == UINT64_MAX );
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// # Free the 4 MB block. Now allocation of 8 MB should succeed.
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block->FreeAllocation(alloc1Offset);
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CHECK_HR( block->Allocate(&allocDesc, &alloc2Offset) );
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CHECK_BOOL( alloc2Offset < blockSize );
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CHECK_BOOL( alloc2Offset + 4 * MEGABYTE <= alloc0Offset || alloc0Offset + 8 * MEGABYTE <= alloc2Offset ); // Check if they don't overlap.
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// # Calculate statistics
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StatInfo statInfo = {};
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block->CalculateStats(&statInfo);
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CHECK_BOOL(statInfo.AllocationCount == 2);
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CHECK_BOOL(statInfo.BlockCount == 1);
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CHECK_BOOL(statInfo.UsedBytes == blockSize);
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CHECK_BOOL(statInfo.UnusedBytes + statInfo.UsedBytes == blockSize);
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// # Generate JSON dump
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WCHAR* json = nullptr;
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block->BuildStatsString(&json);
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{
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std::wstring str(json);
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CHECK_BOOL( str.find(L"\"UserData\": 1") != std::wstring::npos );
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CHECK_BOOL( str.find(L"\"UserData\": 2") != std::wstring::npos );
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}
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block->FreeStatsString(json);
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#endif
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// # Free alloc0, leave alloc2 unfreed.
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vmaVirtualFree(block, alloc0Offset);
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#if 0
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// # Test alignment
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{
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constexpr size_t allocCount = 10;
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UINT64 allocOffset[allocCount] = {};
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for(size_t i = 0; i < allocCount; ++i)
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{
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const bool alignment0 = i == allocCount - 1;
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allocDesc.Size = i * 3 + 15;
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allocDesc.Alignment = alignment0 ? 0 : 8;
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CHECK_HR(block->Allocate(&allocDesc, &allocOffset[i]));
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if(!alignment0)
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{
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CHECK_BOOL(allocOffset[i] % allocDesc.Alignment == 0);
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}
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}
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for(size_t i = allocCount; i--; )
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{
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block->FreeAllocation(allocOffset[i]);
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}
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}
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// # Final cleanup
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block->FreeAllocation(alloc2Offset);
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#endif
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//vmaClearVirtualBlock(block);
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vmaDestroyVirtualBlock(block);
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}
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static void TestAllocationVersusResourceSize()
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{
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wprintf(L"Test allocation versus resource size\n");
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@ -6561,16 +6682,18 @@ void Test()
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{
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wprintf(L"TESTING:\n");
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if(false)
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if(true)
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{
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////////////////////////////////////////////////////////////////////////////////
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// Temporarily insert custom tests here:
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TestVirtualBlocks();
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return;
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}
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// # Simple tests
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TestBasics();
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TestVirtualBlocks();
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TestAllocationVersusResourceSize();
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//TestGpuData(); // Not calling this because it's just testing the testing environment.
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#if VMA_DEBUG_MARGIN
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