Project setup
Vulkan Memory Allocator comes in form of a "stb-style" single header file. You don't need to build it as a separate library project. You can add this file directly to your project and submit it to code repository next to your other source files.
"Single header" doesn't mean that everything is contained in C/C++ declarations, like it tends to be in case of inline functions or C++ templates. It means that implementation is bundled with interface in a single file and needs to be extracted using preprocessor macro. If you don't do it properly, you will get linker errors.
To do it properly:
- Include "vk_mem_alloc.h" file in each CPP file where you want to use the library. This includes declarations of all members of the library.
- In exactly one CPP file define following macro before this include. It enables also internal definitions.
#define VMA_IMPLEMENTATION
#include "vk_mem_alloc.h"
It may be a good idea to create dedicated CPP file just for this purpose.
This library includes header <vulkan/vulkan.h>
, which in turn includes <windows.h>
on Windows. If you need some specific macros defined before including these headers (like WIN32_LEAN_AND_MEAN
or WINVER
for Windows, VK_USE_PLATFORM_WIN32_KHR
for Vulkan), you must define them before every #include
of this library.
- Note
- This library is written in C++, but has C-compatible interface. Thus you can include and use vk_mem_alloc.h in C or C++ code, but full implementation with
VMA_IMPLEMENTATION
macro must be compiled as C++, NOT as C.
Initialization
At program startup:
- Initialize Vulkan to have
VkPhysicalDevice
, VkDevice
and VkInstance
object.
- Fill VmaAllocatorCreateInfo structure and create VmaAllocator object by calling vmaCreateAllocator().
Only members physicalDevice
, device
, instance
are required. However, you should inform the library which Vulkan version do you use by setting VmaAllocatorCreateInfo::vulkanApiVersion and which extensions did you enable by setting VmaAllocatorCreateInfo::flags (like VMA_ALLOCATOR_CREATE_BUFFER_DEVICE_ADDRESS_BIT for VK_KHR_buffer_device_address). Otherwise, VMA would use only features of Vulkan 1.0 core with no extensions.
You may need to configure importing Vulkan functions. There are 3 ways to do this:
- If you link with Vulkan static library (e.g. "vulkan-1.lib" on Windows):
- You don't need to do anything.
- VMA will use these, as macro
VMA_STATIC_VULKAN_FUNCTIONS
is defined to 1 by default.
- If you want VMA to fetch pointers to Vulkan functions dynamically using
vkGetInstanceProcAddr
, vkGetDeviceProcAddr
(this is the option presented in the example below):
- If you fetch pointers to all Vulkan functions in a custom way, e.g. using some loader like Volk:
- Define
VMA_STATIC_VULKAN_FUNCTIONS
and VMA_DYNAMIC_VULKAN_FUNCTIONS
to 0.
- Pass these pointers via structure VmaVulkanFunctions.
allocatorCreateInfo.
device = device;
allocatorCreateInfo.
instance = instance;
VkResult vmaCreateAllocator(const VmaAllocatorCreateInfo *pCreateInfo, VmaAllocator *pAllocator)
Creates VmaAllocator object.
Description of a Allocator to be created.
Definition: vk_mem_alloc.h:1000
VkPhysicalDevice physicalDevice
Vulkan physical device.
Definition: vk_mem_alloc.h:1005
const VmaVulkanFunctions * pVulkanFunctions
Pointers to Vulkan functions. Can be null.
Definition: vk_mem_alloc.h:1048
VkInstance instance
Handle to Vulkan instance object.
Definition: vk_mem_alloc.h:1053
VkDevice device
Vulkan device.
Definition: vk_mem_alloc.h:1008
uint32_t vulkanApiVersion
Optional. The highest version of Vulkan that the application is designed to use.
Definition: vk_mem_alloc.h:1062
Represents main object of this library initialized.
Pointers to some Vulkan functions - a subset used by the library.
Definition: vk_mem_alloc.h:953
PFN_vkGetInstanceProcAddr vkGetInstanceProcAddr
Required when using VMA_DYNAMIC_VULKAN_FUNCTIONS.
Definition: vk_mem_alloc.h:955
PFN_vkGetDeviceProcAddr vkGetDeviceProcAddr
Required when using VMA_DYNAMIC_VULKAN_FUNCTIONS.
Definition: vk_mem_alloc.h:957
Resource allocation
When you want to create a buffer or image:
- Fill
VkBufferCreateInfo
/ VkImageCreateInfo
structure.
- Fill VmaAllocationCreateInfo structure.
- Call vmaCreateBuffer() / vmaCreateImage() to get
VkBuffer
/VkImage
with memory already allocated and bound to it, plus VmaAllocation objects that represents its underlying memory.
VkBufferCreateInfo bufferInfo = { VK_STRUCTURE_TYPE_BUFFER_CREATE_INFO };
bufferInfo.size = 65536;
bufferInfo.usage = VK_BUFFER_USAGE_VERTEX_BUFFER_BIT | VK_BUFFER_USAGE_TRANSFER_DST_BIT;
VkBuffer buffer;
vmaCreateBuffer(allocator, &bufferInfo, &allocInfo, &buffer, &allocation,
nullptr);
VkResult vmaCreateBuffer(VmaAllocator allocator, const VkBufferCreateInfo *pBufferCreateInfo, const VmaAllocationCreateInfo *pAllocationCreateInfo, VkBuffer *pBuffer, VmaAllocation *pAllocation, VmaAllocationInfo *pAllocationInfo)
@ VMA_MEMORY_USAGE_AUTO
Definition: vk_mem_alloc.h:492
Definition: vk_mem_alloc.h:1174
VmaMemoryUsage usage
Intended usage of memory.
Definition: vk_mem_alloc.h:1182
Represents single memory allocation.
Don't forget to destroy your objects when no longer needed:
void vmaDestroyBuffer(VmaAllocator allocator, VkBuffer buffer, VmaAllocation allocation)
Destroys Vulkan buffer and frees allocated memory.
void vmaDestroyAllocator(VmaAllocator allocator)
Destroys allocator object.