Merge pull request #201 from GermanAizek/patch

Code refactor (lower scope, local var, default constructor and destructor)
This commit is contained in:
Adam Sawicki 2021-10-19 17:13:53 +02:00 committed by GitHub
commit 2b9ee46c40
No known key found for this signature in database
GPG Key ID: 4AEE18F83AFDEB23

View File

@ -3800,11 +3800,9 @@ VmaRawList<T>::VmaRawList(const VkAllocationCallbacks* pAllocationCallbacks) :
} }
template<typename T> template<typename T>
VmaRawList<T>::~VmaRawList() VmaRawList<T>::~VmaRawList() = default;
{ // Intentionally not calling Clear, because that would be unnecessary
// Intentionally not calling Clear, because that would be unnecessary // computations to return all items to m_ItemAllocator as free.
// computations to return all items to m_ItemAllocator as free.
}
template<typename T> template<typename T>
void VmaRawList<T>::Clear() void VmaRawList<T>::Clear()
@ -4224,7 +4222,7 @@ public:
static ItemType* GetPrev(const ItemType* item) { return ItemTypeTraits::GetPrev(item); } static ItemType* GetPrev(const ItemType* item) { return ItemTypeTraits::GetPrev(item); }
static ItemType* GetNext(const ItemType* item) { return ItemTypeTraits::GetNext(item); } static ItemType* GetNext(const ItemType* item) { return ItemTypeTraits::GetNext(item); }
// Movable, not copyable. // Movable, not copyable.
VmaIntrusiveLinkedList() { } VmaIntrusiveLinkedList() = default;
VmaIntrusiveLinkedList(const VmaIntrusiveLinkedList<ItemTypeTraits>& src) = delete; VmaIntrusiveLinkedList(const VmaIntrusiveLinkedList<ItemTypeTraits>& src) = delete;
VmaIntrusiveLinkedList(VmaIntrusiveLinkedList<ItemTypeTraits>&& src) : VmaIntrusiveLinkedList(VmaIntrusiveLinkedList<ItemTypeTraits>&& src) :
m_Front(src.m_Front), m_Back(src.m_Back), m_Count(src.m_Count) m_Front(src.m_Front), m_Back(src.m_Back), m_Count(src.m_Count)
@ -12225,13 +12223,14 @@ void VmaBlockVector::Defragment(
const VkDeviceSize maxBytesToMove = defragmentOnGpu ? maxGpuBytesToMove : maxCpuBytesToMove; const VkDeviceSize maxBytesToMove = defragmentOnGpu ? maxGpuBytesToMove : maxCpuBytesToMove;
const uint32_t maxAllocationsToMove = defragmentOnGpu ? maxGpuAllocationsToMove : maxCpuAllocationsToMove; const uint32_t maxAllocationsToMove = defragmentOnGpu ? maxGpuAllocationsToMove : maxCpuAllocationsToMove;
pCtx->res = pCtx->GetAlgorithm()->Defragment(pCtx->defragmentationMoves, maxBytesToMove, maxAllocationsToMove, flags); VmaDefragmentationAlgorithm* algo = pCtx->GetAlgorithm();
pCtx->res = algo->Defragment(pCtx->defragmentationMoves, maxBytesToMove, maxAllocationsToMove, flags);
// Accumulate statistics. // Accumulate statistics.
if(pStats != VMA_NULL) if(pStats != VMA_NULL)
{ {
const VkDeviceSize bytesMoved = pCtx->GetAlgorithm()->GetBytesMoved(); const VkDeviceSize bytesMoved = algo->GetBytesMoved();
const uint32_t allocationsMoved = pCtx->GetAlgorithm()->GetAllocationsMoved(); const uint32_t allocationsMoved = algo->GetAllocationsMoved();
pStats->bytesMoved += bytesMoved; pStats->bytesMoved += bytesMoved;
pStats->allocationsMoved += allocationsMoved; pStats->allocationsMoved += allocationsMoved;
VMA_ASSERT(bytesMoved <= maxBytesToMove); VMA_ASSERT(bytesMoved <= maxBytesToMove);
@ -13072,9 +13071,9 @@ void VmaDefragmentationAlgorithm_Fast::PostprocessMetadata()
freeSize, // size freeSize, // size
VMA_NULL, // hAllocation VMA_NULL, // hAllocation
VMA_SUBALLOCATION_TYPE_FREE }; VMA_SUBALLOCATION_TYPE_FREE };
VmaSuballocationList::iterator precedingFreeIt = pMetadata->m_Suballocations.insert(it, suballoc);
if(freeSize >= VMA_MIN_FREE_SUBALLOCATION_SIZE_TO_REGISTER) if(freeSize >= VMA_MIN_FREE_SUBALLOCATION_SIZE_TO_REGISTER)
{ {
VmaSuballocationList::iterator precedingFreeIt = pMetadata->m_Suballocations.insert(it, suballoc);
pMetadata->m_FreeSuballocationsBySize.push_back(precedingFreeIt); pMetadata->m_FreeSuballocationsBySize.push_back(precedingFreeIt);
} }
} }
@ -13094,9 +13093,9 @@ void VmaDefragmentationAlgorithm_Fast::PostprocessMetadata()
VMA_NULL, // hAllocation VMA_NULL, // hAllocation
VMA_SUBALLOCATION_TYPE_FREE }; VMA_SUBALLOCATION_TYPE_FREE };
VMA_ASSERT(it == pMetadata->m_Suballocations.end()); VMA_ASSERT(it == pMetadata->m_Suballocations.end());
VmaSuballocationList::iterator trailingFreeIt = pMetadata->m_Suballocations.insert(it, suballoc);
if(freeSize > VMA_MIN_FREE_SUBALLOCATION_SIZE_TO_REGISTER) if(freeSize > VMA_MIN_FREE_SUBALLOCATION_SIZE_TO_REGISTER)
{ {
VmaSuballocationList::iterator trailingFreeIt = pMetadata->m_Suballocations.insert(it, suballoc);
pMetadata->m_FreeSuballocationsBySize.push_back(trailingFreeIt); pMetadata->m_FreeSuballocationsBySize.push_back(trailingFreeIt);
} }
} }
@ -16633,12 +16632,13 @@ VMA_CALL_PRE VkResult VMA_CALL_POST vmaFindMemoryTypeIndexForBufferInfo(
const VkDevice hDev = allocator->m_hDevice; const VkDevice hDev = allocator->m_hDevice;
VkBuffer hBuffer = VK_NULL_HANDLE; VkBuffer hBuffer = VK_NULL_HANDLE;
VkResult res = allocator->GetVulkanFunctions().vkCreateBuffer( const VmaVulkanFunctions* funcs = &allocator->GetVulkanFunctions();
VkResult res = funcs->vkCreateBuffer(
hDev, pBufferCreateInfo, allocator->GetAllocationCallbacks(), &hBuffer); hDev, pBufferCreateInfo, allocator->GetAllocationCallbacks(), &hBuffer);
if(res == VK_SUCCESS) if(res == VK_SUCCESS)
{ {
VkMemoryRequirements memReq = {}; VkMemoryRequirements memReq = {};
allocator->GetVulkanFunctions().vkGetBufferMemoryRequirements( funcs->vkGetBufferMemoryRequirements(
hDev, hBuffer, &memReq); hDev, hBuffer, &memReq);
res = vmaFindMemoryTypeIndex( res = vmaFindMemoryTypeIndex(
@ -16647,7 +16647,7 @@ VMA_CALL_PRE VkResult VMA_CALL_POST vmaFindMemoryTypeIndexForBufferInfo(
pAllocationCreateInfo, pAllocationCreateInfo,
pMemoryTypeIndex); pMemoryTypeIndex);
allocator->GetVulkanFunctions().vkDestroyBuffer( funcs->vkDestroyBuffer(
hDev, hBuffer, allocator->GetAllocationCallbacks()); hDev, hBuffer, allocator->GetAllocationCallbacks());
} }
return res; return res;
@ -16666,12 +16666,13 @@ VMA_CALL_PRE VkResult VMA_CALL_POST vmaFindMemoryTypeIndexForImageInfo(
const VkDevice hDev = allocator->m_hDevice; const VkDevice hDev = allocator->m_hDevice;
VkImage hImage = VK_NULL_HANDLE; VkImage hImage = VK_NULL_HANDLE;
VkResult res = allocator->GetVulkanFunctions().vkCreateImage( const VmaVulkanFunctions* funcs = &allocator->GetVulkanFunctions();
VkResult res = funcs->vkCreateImage(
hDev, pImageCreateInfo, allocator->GetAllocationCallbacks(), &hImage); hDev, pImageCreateInfo, allocator->GetAllocationCallbacks(), &hImage);
if(res == VK_SUCCESS) if(res == VK_SUCCESS)
{ {
VkMemoryRequirements memReq = {}; VkMemoryRequirements memReq = {};
allocator->GetVulkanFunctions().vkGetImageMemoryRequirements( funcs->vkGetImageMemoryRequirements(
hDev, hImage, &memReq); hDev, hImage, &memReq);
res = vmaFindMemoryTypeIndex( res = vmaFindMemoryTypeIndex(
@ -16680,7 +16681,7 @@ VMA_CALL_PRE VkResult VMA_CALL_POST vmaFindMemoryTypeIndexForImageInfo(
pAllocationCreateInfo, pAllocationCreateInfo,
pMemoryTypeIndex); pMemoryTypeIndex);
allocator->GetVulkanFunctions().vkDestroyImage( funcs->vkDestroyImage(
hDev, hImage, allocator->GetAllocationCallbacks()); hDev, hImage, allocator->GetAllocationCallbacks());
} }
return res; return res;