mirror of
https://github.com/GPUOpen-LibrariesAndSDKs/VulkanMemoryAllocator.git
synced 2024-11-22 15:04:34 +00:00
Refactoring: Added function VmaAddStatInfoAllocation, VmaAddStatInfoUnusedRange
Submitting improved tests.
This commit is contained in:
parent
455823fcbf
commit
41296759b9
@ -5091,6 +5091,7 @@ public:
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virtual bool IsEmpty() const = 0;
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virtual bool IsEmpty() const = 0;
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virtual void GetAllocationInfo(VkDeviceSize offset, VmaVirtualAllocationInfo& outInfo) = 0;
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virtual void GetAllocationInfo(VkDeviceSize offset, VmaVirtualAllocationInfo& outInfo) = 0;
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// Must set blockCount to 1.
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virtual void CalcAllocationStatInfo(VmaStatInfo& outInfo) const = 0;
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virtual void CalcAllocationStatInfo(VmaStatInfo& outInfo) const = 0;
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// Shouldn't modify blockCount.
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// Shouldn't modify blockCount.
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virtual void AddPoolStats(VmaPoolStats& inoutStats) const = 0;
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virtual void AddPoolStats(VmaPoolStats& inoutStats) const = 0;
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@ -5603,7 +5604,7 @@ private:
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bool ValidateNode(ValidationContext& ctx, const Node* parent, const Node* curr, uint32_t level, VkDeviceSize levelNodeSize) const;
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bool ValidateNode(ValidationContext& ctx, const Node* parent, const Node* curr, uint32_t level, VkDeviceSize levelNodeSize) const;
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uint32_t AllocSizeToLevel(VkDeviceSize allocSize) const;
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uint32_t AllocSizeToLevel(VkDeviceSize allocSize) const;
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inline VkDeviceSize LevelToNodeSize(uint32_t level) const { return m_UsableSize >> level; }
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inline VkDeviceSize LevelToNodeSize(uint32_t level) const { return m_UsableSize >> level; }
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void CalcAllocationStatInfoNode(VmaStatInfo& outInfo, const Node* node, VkDeviceSize levelNodeSize) const;
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void CalcAllocationStatInfoNode(VmaStatInfo& inoutInfo, const Node* node, VkDeviceSize levelNodeSize) const;
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// Adds node to the front of FreeList at given level.
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// Adds node to the front of FreeList at given level.
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// node->type must be FREE.
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// node->type must be FREE.
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// node->free.prev, next can be undefined.
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// node->free.prev, next can be undefined.
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@ -6869,7 +6870,7 @@ private:
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class VmaStringBuilder;
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class VmaStringBuilder;
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static void InitStatInfo(VmaStatInfo& outInfo)
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static void VmaInitStatInfo(VmaStatInfo& outInfo)
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{
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{
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memset(&outInfo, 0, sizeof(outInfo));
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memset(&outInfo, 0, sizeof(outInfo));
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outInfo.allocationSizeMin = UINT64_MAX;
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outInfo.allocationSizeMin = UINT64_MAX;
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@ -6890,6 +6891,34 @@ static void VmaAddStatInfo(VmaStatInfo& inoutInfo, const VmaStatInfo& srcInfo)
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inoutInfo.unusedRangeSizeMax = VMA_MAX(inoutInfo.unusedRangeSizeMax, srcInfo.unusedRangeSizeMax);
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inoutInfo.unusedRangeSizeMax = VMA_MAX(inoutInfo.unusedRangeSizeMax, srcInfo.unusedRangeSizeMax);
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}
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}
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static void VmaAddStatInfoAllocation(VmaStatInfo& inoutInfo, VkDeviceSize size)
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{
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++inoutInfo.allocationCount;
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inoutInfo.usedBytes += size;
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if(size < inoutInfo.allocationSizeMin)
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{
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inoutInfo.allocationSizeMin = size;
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}
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if(size > inoutInfo.allocationSizeMax)
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{
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inoutInfo.allocationSizeMax = size;
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}
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}
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static void VmaAddStatInfoUnusedRange(VmaStatInfo& inoutInfo, VkDeviceSize size)
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{
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++inoutInfo.unusedRangeCount;
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inoutInfo.unusedBytes += size;
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if(size < inoutInfo.unusedRangeSizeMin)
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{
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inoutInfo.unusedRangeSizeMin = size;
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}
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if(size > inoutInfo.unusedRangeSizeMax)
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{
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inoutInfo.unusedRangeSizeMax = size;
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}
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}
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static void VmaPostprocessCalcStatInfo(VmaStatInfo& inoutInfo)
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static void VmaPostprocessCalcStatInfo(VmaStatInfo& inoutInfo)
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{
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{
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inoutInfo.allocationSizeAvg = (inoutInfo.allocationCount > 0) ?
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inoutInfo.allocationSizeAvg = (inoutInfo.allocationCount > 0) ?
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@ -7941,31 +7970,19 @@ bool VmaBlockMetadata_Generic::IsEmpty() const
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void VmaBlockMetadata_Generic::CalcAllocationStatInfo(VmaStatInfo& outInfo) const
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void VmaBlockMetadata_Generic::CalcAllocationStatInfo(VmaStatInfo& outInfo) const
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{
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{
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outInfo.blockCount = 1;
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const uint32_t rangeCount = (uint32_t)m_Suballocations.size();
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const uint32_t rangeCount = (uint32_t)m_Suballocations.size();
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outInfo.allocationCount = rangeCount - m_FreeCount;
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VmaInitStatInfo(outInfo);
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outInfo.unusedRangeCount = m_FreeCount;
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outInfo.blockCount = 1;
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outInfo.unusedBytes = m_SumFreeSize;
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outInfo.usedBytes = GetSize() - outInfo.unusedBytes;
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outInfo.allocationSizeMin = UINT64_MAX;
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outInfo.allocationSizeMax = 0;
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outInfo.unusedRangeSizeMin = UINT64_MAX;
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outInfo.unusedRangeSizeMax = 0;
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for(const auto& suballoc : m_Suballocations)
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for(const auto& suballoc : m_Suballocations)
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{
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{
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if(suballoc.type != VMA_SUBALLOCATION_TYPE_FREE)
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if(suballoc.type != VMA_SUBALLOCATION_TYPE_FREE)
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{
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{
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outInfo.allocationSizeMin = VMA_MIN(outInfo.allocationSizeMin, suballoc.size);
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VmaAddStatInfoAllocation(outInfo, suballoc.size);
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outInfo.allocationSizeMax = VMA_MAX(outInfo.allocationSizeMax, suballoc.size);
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}
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}
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else
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else
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{
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{
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outInfo.unusedRangeSizeMin = VMA_MIN(outInfo.unusedRangeSizeMin, suballoc.size);
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VmaAddStatInfoUnusedRange(outInfo, suballoc.size);
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outInfo.unusedRangeSizeMax = VMA_MAX(outInfo.unusedRangeSizeMax, suballoc.size);
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}
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}
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}
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}
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}
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}
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@ -9077,14 +9094,8 @@ void VmaBlockMetadata_Linear::CalcAllocationStatInfo(VmaStatInfo& outInfo) const
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const size_t suballoc1stCount = suballocations1st.size();
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const size_t suballoc1stCount = suballocations1st.size();
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const size_t suballoc2ndCount = suballocations2nd.size();
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const size_t suballoc2ndCount = suballocations2nd.size();
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VmaInitStatInfo(outInfo);
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outInfo.blockCount = 1;
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outInfo.blockCount = 1;
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outInfo.allocationCount = (uint32_t)GetAllocationCount();
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outInfo.unusedRangeCount = 0;
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outInfo.usedBytes = 0;
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outInfo.allocationSizeMin = UINT64_MAX;
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outInfo.allocationSizeMax = 0;
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outInfo.unusedRangeSizeMin = UINT64_MAX;
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outInfo.unusedRangeSizeMax = 0;
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VkDeviceSize lastOffset = 0;
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VkDeviceSize lastOffset = 0;
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@ -9111,17 +9122,12 @@ void VmaBlockMetadata_Linear::CalcAllocationStatInfo(VmaStatInfo& outInfo) const
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{
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{
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// There is free space from lastOffset to suballoc.offset.
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// There is free space from lastOffset to suballoc.offset.
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const VkDeviceSize unusedRangeSize = suballoc.offset - lastOffset;
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const VkDeviceSize unusedRangeSize = suballoc.offset - lastOffset;
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++outInfo.unusedRangeCount;
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VmaAddStatInfoUnusedRange(outInfo, unusedRangeSize);
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outInfo.unusedBytes += unusedRangeSize;
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outInfo.unusedRangeSizeMin = VMA_MIN(outInfo.unusedRangeSizeMin, unusedRangeSize);
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outInfo.unusedRangeSizeMax = VMA_MAX(outInfo.unusedRangeSizeMax, unusedRangeSize);
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}
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}
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// 2. Process this allocation.
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// 2. Process this allocation.
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// There is allocation with suballoc.offset, suballoc.size.
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// There is allocation with suballoc.offset, suballoc.size.
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outInfo.usedBytes += suballoc.size;
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VmaAddStatInfoAllocation(outInfo, suballoc.size);
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outInfo.allocationSizeMin = VMA_MIN(outInfo.allocationSizeMin, suballoc.size);
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outInfo.allocationSizeMax = VMA_MAX(outInfo.allocationSizeMax, suballoc.size);
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// 3. Prepare for next iteration.
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// 3. Prepare for next iteration.
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lastOffset = suballoc.offset + suballoc.size;
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lastOffset = suballoc.offset + suballoc.size;
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@ -9134,10 +9140,7 @@ void VmaBlockMetadata_Linear::CalcAllocationStatInfo(VmaStatInfo& outInfo) const
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if(lastOffset < freeSpace2ndTo1stEnd)
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if(lastOffset < freeSpace2ndTo1stEnd)
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{
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{
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const VkDeviceSize unusedRangeSize = freeSpace2ndTo1stEnd - lastOffset;
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const VkDeviceSize unusedRangeSize = freeSpace2ndTo1stEnd - lastOffset;
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++outInfo.unusedRangeCount;
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VmaAddStatInfoUnusedRange(outInfo, unusedRangeSize);
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outInfo.unusedBytes += unusedRangeSize;
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outInfo.unusedRangeSizeMin = VMA_MIN(outInfo.unusedRangeSizeMin, unusedRangeSize);
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outInfo.unusedRangeSizeMax = VMA_MAX(outInfo.unusedRangeSizeMax, unusedRangeSize);
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}
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}
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// End of loop.
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// End of loop.
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@ -9168,17 +9171,12 @@ void VmaBlockMetadata_Linear::CalcAllocationStatInfo(VmaStatInfo& outInfo) const
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{
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{
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// There is free space from lastOffset to suballoc.offset.
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// There is free space from lastOffset to suballoc.offset.
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const VkDeviceSize unusedRangeSize = suballoc.offset - lastOffset;
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const VkDeviceSize unusedRangeSize = suballoc.offset - lastOffset;
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++outInfo.unusedRangeCount;
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VmaAddStatInfoUnusedRange(outInfo, unusedRangeSize);
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outInfo.unusedBytes += unusedRangeSize;
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outInfo.unusedRangeSizeMin = VMA_MIN(outInfo.unusedRangeSizeMin, unusedRangeSize);
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outInfo.unusedRangeSizeMax = VMA_MAX(outInfo.unusedRangeSizeMax, unusedRangeSize);
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}
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}
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// 2. Process this allocation.
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// 2. Process this allocation.
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// There is allocation with suballoc.offset, suballoc.size.
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// There is allocation with suballoc.offset, suballoc.size.
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outInfo.usedBytes += suballoc.size;
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VmaAddStatInfoAllocation(outInfo, suballoc.size);
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outInfo.allocationSizeMin = VMA_MIN(outInfo.allocationSizeMin, suballoc.size);
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outInfo.allocationSizeMax = VMA_MAX(outInfo.allocationSizeMax, suballoc.size);
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// 3. Prepare for next iteration.
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// 3. Prepare for next iteration.
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lastOffset = suballoc.offset + suballoc.size;
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lastOffset = suballoc.offset + suballoc.size;
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@ -9191,10 +9189,7 @@ void VmaBlockMetadata_Linear::CalcAllocationStatInfo(VmaStatInfo& outInfo) const
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if(lastOffset < freeSpace1stTo2ndEnd)
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if(lastOffset < freeSpace1stTo2ndEnd)
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{
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{
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const VkDeviceSize unusedRangeSize = freeSpace1stTo2ndEnd - lastOffset;
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const VkDeviceSize unusedRangeSize = freeSpace1stTo2ndEnd - lastOffset;
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++outInfo.unusedRangeCount;
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VmaAddStatInfoUnusedRange(outInfo, unusedRangeSize);
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outInfo.unusedBytes += unusedRangeSize;
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outInfo.unusedRangeSizeMin = VMA_MIN(outInfo.unusedRangeSizeMin, unusedRangeSize);
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outInfo.unusedRangeSizeMax = VMA_MAX(outInfo.unusedRangeSizeMax, unusedRangeSize);
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}
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}
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// End of loop.
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// End of loop.
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@ -9224,17 +9219,12 @@ void VmaBlockMetadata_Linear::CalcAllocationStatInfo(VmaStatInfo& outInfo) const
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{
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{
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// There is free space from lastOffset to suballoc.offset.
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// There is free space from lastOffset to suballoc.offset.
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const VkDeviceSize unusedRangeSize = suballoc.offset - lastOffset;
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const VkDeviceSize unusedRangeSize = suballoc.offset - lastOffset;
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++outInfo.unusedRangeCount;
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VmaAddStatInfoUnusedRange(outInfo, unusedRangeSize);
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outInfo.unusedBytes += unusedRangeSize;
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outInfo.unusedRangeSizeMin = VMA_MIN(outInfo.unusedRangeSizeMin, unusedRangeSize);
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outInfo.unusedRangeSizeMax = VMA_MAX(outInfo.unusedRangeSizeMax, unusedRangeSize);
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}
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}
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// 2. Process this allocation.
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// 2. Process this allocation.
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// There is allocation with suballoc.offset, suballoc.size.
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// There is allocation with suballoc.offset, suballoc.size.
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outInfo.usedBytes += suballoc.size;
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VmaAddStatInfoAllocation(outInfo, suballoc.size);
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outInfo.allocationSizeMin = VMA_MIN(outInfo.allocationSizeMin, suballoc.size);
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outInfo.allocationSizeMax = VMA_MAX(outInfo.allocationSizeMax, suballoc.size);
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// 3. Prepare for next iteration.
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// 3. Prepare for next iteration.
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lastOffset = suballoc.offset + suballoc.size;
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lastOffset = suballoc.offset + suballoc.size;
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@ -9247,10 +9237,7 @@ void VmaBlockMetadata_Linear::CalcAllocationStatInfo(VmaStatInfo& outInfo) const
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if(lastOffset < size)
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if(lastOffset < size)
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{
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{
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const VkDeviceSize unusedRangeSize = size - lastOffset;
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const VkDeviceSize unusedRangeSize = size - lastOffset;
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++outInfo.unusedRangeCount;
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VmaAddStatInfoUnusedRange(outInfo, unusedRangeSize);
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outInfo.unusedBytes += unusedRangeSize;
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outInfo.unusedRangeSizeMin = VMA_MIN(outInfo.unusedRangeSizeMin, unusedRangeSize);
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outInfo.unusedRangeSizeMax = VMA_MAX(outInfo.unusedRangeSizeMax, unusedRangeSize);
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}
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}
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// End of loop.
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// End of loop.
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@ -10761,24 +10748,15 @@ VkDeviceSize VmaBlockMetadata_Buddy::GetUnusedRangeSizeMax() const
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void VmaBlockMetadata_Buddy::CalcAllocationStatInfo(VmaStatInfo& outInfo) const
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void VmaBlockMetadata_Buddy::CalcAllocationStatInfo(VmaStatInfo& outInfo) const
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{
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{
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VmaInitStatInfo(outInfo);
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outInfo.blockCount = 1;
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outInfo.blockCount = 1;
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outInfo.allocationCount = outInfo.unusedRangeCount = 0;
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outInfo.usedBytes = outInfo.unusedBytes = 0;
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outInfo.allocationSizeMax = outInfo.unusedRangeSizeMax = 0;
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outInfo.allocationSizeMin = outInfo.unusedRangeSizeMin = UINT64_MAX;
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outInfo.allocationSizeAvg = outInfo.unusedRangeSizeAvg = 0; // Unused.
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CalcAllocationStatInfoNode(outInfo, m_Root, LevelToNodeSize(0));
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CalcAllocationStatInfoNode(outInfo, m_Root, LevelToNodeSize(0));
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const VkDeviceSize unusableSize = GetUnusableSize();
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const VkDeviceSize unusableSize = GetUnusableSize();
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if(unusableSize > 0)
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if(unusableSize > 0)
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{
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{
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++outInfo.unusedRangeCount;
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VmaAddStatInfoUnusedRange(outInfo, unusableSize);
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outInfo.unusedBytes += unusableSize;
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outInfo.unusedRangeSizeMax = VMA_MAX(outInfo.unusedRangeSizeMax, unusableSize);
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outInfo.unusedRangeSizeMin = VMA_MIN(outInfo.unusedRangeSizeMin, unusableSize);
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}
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}
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}
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}
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@ -11135,29 +11113,23 @@ void VmaBlockMetadata_Buddy::FreeAtOffset(VkDeviceSize offset)
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AddToFreeListFront(level, node);
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AddToFreeListFront(level, node);
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}
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}
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void VmaBlockMetadata_Buddy::CalcAllocationStatInfoNode(VmaStatInfo& outInfo, const Node* node, VkDeviceSize levelNodeSize) const
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void VmaBlockMetadata_Buddy::CalcAllocationStatInfoNode(VmaStatInfo& inoutInfo, const Node* node, VkDeviceSize levelNodeSize) const
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{
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{
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switch(node->type)
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switch(node->type)
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{
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{
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case Node::TYPE_FREE:
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case Node::TYPE_FREE:
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++outInfo.unusedRangeCount;
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VmaAddStatInfoUnusedRange(inoutInfo, levelNodeSize);
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outInfo.unusedBytes += levelNodeSize;
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outInfo.unusedRangeSizeMax = VMA_MAX(outInfo.unusedRangeSizeMax, levelNodeSize);
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outInfo.unusedRangeSizeMin = VMA_MIN(outInfo.unusedRangeSizeMin, levelNodeSize);
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break;
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break;
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case Node::TYPE_ALLOCATION:
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case Node::TYPE_ALLOCATION:
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++outInfo.allocationCount;
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VmaAddStatInfoAllocation(inoutInfo, levelNodeSize);
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outInfo.usedBytes += levelNodeSize;
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outInfo.allocationSizeMax = VMA_MAX(outInfo.allocationSizeMax, levelNodeSize);
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outInfo.allocationSizeMin = VMA_MIN(outInfo.allocationSizeMin, levelNodeSize);
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break;
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break;
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case Node::TYPE_SPLIT:
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case Node::TYPE_SPLIT:
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{
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{
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const VkDeviceSize childrenNodeSize = levelNodeSize / 2;
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const VkDeviceSize childrenNodeSize = levelNodeSize / 2;
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const Node* const leftChild = node->split.leftChild;
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const Node* const leftChild = node->split.leftChild;
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CalcAllocationStatInfoNode(outInfo, leftChild, childrenNodeSize);
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CalcAllocationStatInfoNode(inoutInfo, leftChild, childrenNodeSize);
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const Node* const rightChild = leftChild->buddy;
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const Node* const rightChild = leftChild->buddy;
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CalcAllocationStatInfoNode(outInfo, rightChild, childrenNodeSize);
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CalcAllocationStatInfoNode(inoutInfo, rightChild, childrenNodeSize);
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}
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}
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break;
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break;
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default:
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default:
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@ -15658,11 +15630,11 @@ void VmaAllocator_T::FreeMemory(
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void VmaAllocator_T::CalculateStats(VmaStats* pStats)
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void VmaAllocator_T::CalculateStats(VmaStats* pStats)
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{
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{
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// Initialize.
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// Initialize.
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InitStatInfo(pStats->total);
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VmaInitStatInfo(pStats->total);
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for(size_t i = 0; i < VK_MAX_MEMORY_TYPES; ++i)
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for(size_t i = 0; i < VK_MAX_MEMORY_TYPES; ++i)
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InitStatInfo(pStats->memoryType[i]);
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VmaInitStatInfo(pStats->memoryType[i]);
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for(size_t i = 0; i < VK_MAX_MEMORY_HEAPS; ++i)
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for(size_t i = 0; i < VK_MAX_MEMORY_HEAPS; ++i)
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InitStatInfo(pStats->memoryHeap[i]);
|
VmaInitStatInfo(pStats->memoryHeap[i]);
|
||||||
|
|
||||||
// Process default pools.
|
// Process default pools.
|
||||||
for(uint32_t memTypeIndex = 0; memTypeIndex < GetMemoryTypeCount(); ++memTypeIndex)
|
for(uint32_t memTypeIndex = 0; memTypeIndex < GetMemoryTypeCount(); ++memTypeIndex)
|
||||||
|
@ -2824,7 +2824,7 @@ static void TestVirtualBlocksAlgorithms()
|
|||||||
RandomNumberGenerator rand{3454335};
|
RandomNumberGenerator rand{3454335};
|
||||||
auto calcRandomAllocSize = [&rand]() -> VkDeviceSize { return rand.Generate() % 20 + 5; };
|
auto calcRandomAllocSize = [&rand]() -> VkDeviceSize { return rand.Generate() % 20 + 5; };
|
||||||
|
|
||||||
for(size_t algorithmIndex = 0; algorithmIndex < 1/*3*/; ++algorithmIndex)
|
for(size_t algorithmIndex = 0; algorithmIndex < 3; ++algorithmIndex)
|
||||||
{
|
{
|
||||||
// Create the block
|
// Create the block
|
||||||
VmaVirtualBlockCreateInfo blockCreateInfo = {};
|
VmaVirtualBlockCreateInfo blockCreateInfo = {};
|
||||||
@ -2841,7 +2841,7 @@ static void TestVirtualBlocksAlgorithms()
|
|||||||
|
|
||||||
struct AllocData
|
struct AllocData
|
||||||
{
|
{
|
||||||
VkDeviceSize offset, size;
|
VkDeviceSize offset, requestedSize, allocationSize;
|
||||||
};
|
};
|
||||||
std::vector<AllocData> allocations;
|
std::vector<AllocData> allocations;
|
||||||
|
|
||||||
@ -2858,9 +2858,15 @@ static void TestVirtualBlocksAlgorithms()
|
|||||||
else if(i < 18 && algorithmIndex == 1) allocCreateInfo.flags = VMA_VIRTUAL_ALLOCATION_CREATE_UPPER_ADDRESS_BIT;
|
else if(i < 18 && algorithmIndex == 1) allocCreateInfo.flags = VMA_VIRTUAL_ALLOCATION_CREATE_UPPER_ADDRESS_BIT;
|
||||||
|
|
||||||
AllocData alloc = {};
|
AllocData alloc = {};
|
||||||
alloc.size = allocCreateInfo.size;
|
alloc.requestedSize = allocCreateInfo.size;
|
||||||
res = vmaVirtualAllocate(block, &allocCreateInfo, &alloc.offset);
|
res = vmaVirtualAllocate(block, &allocCreateInfo, &alloc.offset);
|
||||||
TEST(res == VK_SUCCESS);
|
TEST(res == VK_SUCCESS);
|
||||||
|
|
||||||
|
VmaVirtualAllocationInfo allocInfo;
|
||||||
|
vmaGetVirtualAllocationInfo(block, alloc.offset, &allocInfo);
|
||||||
|
TEST(allocInfo.size >= allocCreateInfo.size);
|
||||||
|
alloc.allocationSize = allocInfo.size;
|
||||||
|
|
||||||
allocations.push_back(alloc);
|
allocations.push_back(alloc);
|
||||||
}
|
}
|
||||||
|
|
||||||
@ -2880,9 +2886,15 @@ static void TestVirtualBlocksAlgorithms()
|
|||||||
allocCreateInfo.pUserData = (void*)(uintptr_t)(allocCreateInfo.size * 10);
|
allocCreateInfo.pUserData = (void*)(uintptr_t)(allocCreateInfo.size * 10);
|
||||||
|
|
||||||
AllocData alloc = {};
|
AllocData alloc = {};
|
||||||
alloc.size = allocCreateInfo.size;
|
alloc.requestedSize = allocCreateInfo.size;
|
||||||
res = vmaVirtualAllocate(block, &allocCreateInfo, &alloc.offset);
|
res = vmaVirtualAllocate(block, &allocCreateInfo, &alloc.offset);
|
||||||
TEST(res == VK_SUCCESS);
|
TEST(res == VK_SUCCESS);
|
||||||
|
|
||||||
|
VmaVirtualAllocationInfo allocInfo;
|
||||||
|
vmaGetVirtualAllocationInfo(block, alloc.offset, &allocInfo);
|
||||||
|
TEST(allocInfo.size >= allocCreateInfo.size);
|
||||||
|
alloc.allocationSize = allocInfo.size;
|
||||||
|
|
||||||
allocations.push_back(alloc);
|
allocations.push_back(alloc);
|
||||||
}
|
}
|
||||||
|
|
||||||
@ -2895,10 +2907,16 @@ static void TestVirtualBlocksAlgorithms()
|
|||||||
allocCreateInfo.pUserData = (void*)(uintptr_t)(allocCreateInfo.size * 10);
|
allocCreateInfo.pUserData = (void*)(uintptr_t)(allocCreateInfo.size * 10);
|
||||||
|
|
||||||
AllocData alloc = {};
|
AllocData alloc = {};
|
||||||
alloc.size = allocCreateInfo.size;
|
alloc.requestedSize = allocCreateInfo.size;
|
||||||
res = vmaVirtualAllocate(block, &allocCreateInfo, &alloc.offset);
|
res = vmaVirtualAllocate(block, &allocCreateInfo, &alloc.offset);
|
||||||
TEST(res == VK_SUCCESS);
|
TEST(res == VK_SUCCESS);
|
||||||
TEST(alloc.offset % 16 == 0);
|
TEST(alloc.offset % 16 == 0);
|
||||||
|
|
||||||
|
VmaVirtualAllocationInfo allocInfo;
|
||||||
|
vmaGetVirtualAllocationInfo(block, alloc.offset, &allocInfo);
|
||||||
|
TEST(allocInfo.size >= allocCreateInfo.size);
|
||||||
|
alloc.allocationSize = allocInfo.size;
|
||||||
|
|
||||||
allocations.push_back(alloc);
|
allocations.push_back(alloc);
|
||||||
}
|
}
|
||||||
|
|
||||||
@ -2907,7 +2925,7 @@ static void TestVirtualBlocksAlgorithms()
|
|||||||
return lhs.offset < rhs.offset; });
|
return lhs.offset < rhs.offset; });
|
||||||
for(size_t i = 0; i < allocations.size() - 1; ++i)
|
for(size_t i = 0; i < allocations.size() - 1; ++i)
|
||||||
{
|
{
|
||||||
TEST(allocations[i+1].offset >= allocations[i].offset + allocations[i].size);
|
TEST(allocations[i+1].offset >= allocations[i].offset + allocations[i].allocationSize);
|
||||||
}
|
}
|
||||||
|
|
||||||
// Check pUserData
|
// Check pUserData
|
||||||
@ -2915,7 +2933,7 @@ static void TestVirtualBlocksAlgorithms()
|
|||||||
const AllocData& alloc = allocations.back();
|
const AllocData& alloc = allocations.back();
|
||||||
VmaVirtualAllocationInfo allocInfo = {};
|
VmaVirtualAllocationInfo allocInfo = {};
|
||||||
vmaGetVirtualAllocationInfo(block, alloc.offset, &allocInfo);
|
vmaGetVirtualAllocationInfo(block, alloc.offset, &allocInfo);
|
||||||
TEST((uintptr_t)allocInfo.pUserData == alloc.size * 10);
|
TEST((uintptr_t)allocInfo.pUserData == alloc.requestedSize * 10);
|
||||||
|
|
||||||
vmaSetVirtualAllocationUserData(block, alloc.offset, (void*)(uintptr_t)666);
|
vmaSetVirtualAllocationUserData(block, alloc.offset, (void*)(uintptr_t)666);
|
||||||
vmaGetVirtualAllocationInfo(block, alloc.offset, &allocInfo);
|
vmaGetVirtualAllocationInfo(block, alloc.offset, &allocInfo);
|
||||||
@ -2924,11 +2942,11 @@ static void TestVirtualBlocksAlgorithms()
|
|||||||
|
|
||||||
// Calculate statistics
|
// Calculate statistics
|
||||||
{
|
{
|
||||||
VkDeviceSize allocSizeMin = VK_WHOLE_SIZE, allocSizeMax = 0, allocSizeSum = 0;
|
VkDeviceSize actualAllocSizeMin = VK_WHOLE_SIZE, actualAllocSizeMax = 0, actualAllocSizeSum = 0;
|
||||||
std::for_each(allocations.begin(), allocations.end(), [&](const AllocData& a) {
|
std::for_each(allocations.begin(), allocations.end(), [&](const AllocData& a) {
|
||||||
allocSizeMin = std::min(allocSizeMin, a.size);
|
actualAllocSizeMin = std::min(actualAllocSizeMin, a.allocationSize);
|
||||||
allocSizeMax = std::max(allocSizeMax, a.size);
|
actualAllocSizeMax = std::max(actualAllocSizeMax, a.allocationSize);
|
||||||
allocSizeSum += a.size;
|
actualAllocSizeSum += a.allocationSize;
|
||||||
});
|
});
|
||||||
|
|
||||||
VmaStatInfo statInfo = {};
|
VmaStatInfo statInfo = {};
|
||||||
@ -2936,9 +2954,9 @@ static void TestVirtualBlocksAlgorithms()
|
|||||||
TEST(statInfo.allocationCount == allocations.size());
|
TEST(statInfo.allocationCount == allocations.size());
|
||||||
TEST(statInfo.blockCount == 1);
|
TEST(statInfo.blockCount == 1);
|
||||||
TEST(statInfo.usedBytes + statInfo.unusedBytes == blockCreateInfo.size);
|
TEST(statInfo.usedBytes + statInfo.unusedBytes == blockCreateInfo.size);
|
||||||
TEST(statInfo.allocationSizeMax == allocSizeMax);
|
TEST(statInfo.allocationSizeMax == actualAllocSizeMax);
|
||||||
TEST(statInfo.allocationSizeMin == allocSizeMin);
|
TEST(statInfo.allocationSizeMin == actualAllocSizeMin);
|
||||||
TEST(statInfo.usedBytes >= allocSizeSum);
|
TEST(statInfo.usedBytes >= actualAllocSizeSum);
|
||||||
}
|
}
|
||||||
|
|
||||||
// Build JSON dump string
|
// Build JSON dump string
|
||||||
@ -6834,6 +6852,7 @@ void Test()
|
|||||||
{
|
{
|
||||||
////////////////////////////////////////////////////////////////////////////////
|
////////////////////////////////////////////////////////////////////////////////
|
||||||
// Temporarily insert custom tests here:
|
// Temporarily insert custom tests here:
|
||||||
|
TestVirtualBlocks();
|
||||||
TestVirtualBlocksAlgorithms();
|
TestVirtualBlocksAlgorithms();
|
||||||
return;
|
return;
|
||||||
}
|
}
|
||||||
@ -6842,6 +6861,7 @@ void Test()
|
|||||||
|
|
||||||
TestBasics();
|
TestBasics();
|
||||||
TestVirtualBlocks();
|
TestVirtualBlocks();
|
||||||
|
TestVirtualBlocksAlgorithms();
|
||||||
TestAllocationVersusResourceSize();
|
TestAllocationVersusResourceSize();
|
||||||
//TestGpuData(); // Not calling this because it's just testing the testing environment.
|
//TestGpuData(); // Not calling this because it's just testing the testing environment.
|
||||||
#if VMA_DEBUG_MARGIN
|
#if VMA_DEBUG_MARGIN
|
||||||
|
Loading…
Reference in New Issue
Block a user