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test2/source/blender/gpu/vulkan/vk_buffer.cc
Jeroen Bakker 4353b7ffba Vulkan: Remove unused code 
Vulkan backend has recently switched to a render graph approach. Many
code was left so we could develop the render graph beside the previous
implementation. Last week we removed the switch. This PR will remove
most of the unused code. There might be some left and will be removed
when detected.

Pull Request: https://projects.blender.org/blender/blender/pulls/123422
2024-06-20 11:34:19 +02:00

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/* SPDX-FileCopyrightText: 2023 Blender Authors
*
* SPDX-License-Identifier: GPL-2.0-or-later */
/** \file
* \ingroup gpu
*/
#include "vk_buffer.hh"
#include "vk_backend.hh"
#include "vk_context.hh"
namespace blender::gpu {
VKBuffer::~VKBuffer()
{
if (is_allocated()) {
free();
}
}
bool VKBuffer::is_allocated() const
{
return allocation_ != VK_NULL_HANDLE;
}
static VmaAllocationCreateFlags vma_allocation_flags(GPUUsageType usage)
{
switch (usage) {
case GPU_USAGE_STATIC:
case GPU_USAGE_DEVICE_ONLY:
return 0;
case GPU_USAGE_DYNAMIC:
case GPU_USAGE_STREAM:
return VMA_ALLOCATION_CREATE_HOST_ACCESS_RANDOM_BIT | VMA_ALLOCATION_CREATE_MAPPED_BIT;
case GPU_USAGE_FLAG_BUFFER_TEXTURE_ONLY:
break;
}
BLI_assert_msg(false, "Unimplemented GPUUsageType");
return VMA_ALLOCATION_CREATE_HOST_ACCESS_RANDOM_BIT | VMA_ALLOCATION_CREATE_MAPPED_BIT;
}
static VkMemoryPropertyFlags vma_preferred_flags(const bool is_host_visible)
{
return is_host_visible ? VK_MEMORY_PROPERTY_HOST_VISIBLE_BIT :
VK_MEMORY_PROPERTY_DEVICE_LOCAL_BIT;
}
/*
* TODO: Check which memory is selected and adjust the creation flag to add mapping. This way the
* staging buffer can be skipped, or in case of a vertex buffer an intermediate buffer can be
* removed.
*/
bool VKBuffer::create(size_t size_in_bytes,
GPUUsageType usage,
VkBufferUsageFlags buffer_usage,
const bool is_host_visible)
{
BLI_assert(!is_allocated());
BLI_assert(vk_buffer_ == VK_NULL_HANDLE);
BLI_assert(mapped_memory_ == nullptr);
size_in_bytes_ = size_in_bytes;
VKDevice &device = VKBackend::get().device;
VmaAllocator allocator = device.mem_allocator_get();
VkBufferCreateInfo create_info = {};
create_info.sType = VK_STRUCTURE_TYPE_BUFFER_CREATE_INFO;
create_info.flags = 0;
/*
* Vulkan doesn't allow empty buffers but some areas (DrawManager Instance data, PyGPU) create
* them.
*/
create_info.size = max_ii(size_in_bytes, 1);
create_info.usage = buffer_usage;
/* We use the same command queue for the compute and graphics pipeline, so it is safe to use
* exclusive resource handling. */
create_info.sharingMode = VK_SHARING_MODE_EXCLUSIVE;
create_info.queueFamilyIndexCount = 1;
const uint32_t queue_family_indices[1] = {device.queue_family_get()};
create_info.pQueueFamilyIndices = queue_family_indices;
VmaAllocationCreateInfo vma_create_info = {};
vma_create_info.flags = vma_allocation_flags(usage);
vma_create_info.priority = 1.0f;
vma_create_info.preferredFlags = vma_preferred_flags(is_host_visible);
vma_create_info.usage = VMA_MEMORY_USAGE_AUTO;
VkResult result = vmaCreateBuffer(
allocator, &create_info, &vma_create_info, &vk_buffer_, &allocation_, nullptr);
if (result != VK_SUCCESS) {
return false;
}
device.resources.add_buffer(vk_buffer_);
if (is_host_visible) {
return map();
}
return true;
}
void VKBuffer::update(const void *data) const
{
BLI_assert_msg(is_mapped(), "Cannot update a non-mapped buffer.");
memcpy(mapped_memory_, data, size_in_bytes_);
flush();
}
void VKBuffer::flush() const
{
const VKDevice &device = VKBackend::get().device;
VmaAllocator allocator = device.mem_allocator_get();
vmaFlushAllocation(allocator, allocation_, 0, max_ii(size_in_bytes(), 1));
}
void VKBuffer::clear(VKContext &context, uint32_t clear_value)
{
render_graph::VKFillBufferNode::CreateInfo fill_buffer = {};
fill_buffer.vk_buffer = vk_buffer_;
fill_buffer.data = clear_value;
fill_buffer.size = size_in_bytes_;
context.render_graph.add_node(fill_buffer);
}
void VKBuffer::read(VKContext &context, void *data) const
{
BLI_assert_msg(is_mapped(), "Cannot read a non-mapped buffer.");
context.render_graph.submit_buffer_for_read(vk_buffer_);
memcpy(data, mapped_memory_, size_in_bytes_);
}
void *VKBuffer::mapped_memory_get() const
{
BLI_assert_msg(is_mapped(), "Cannot access a non-mapped buffer.");
return mapped_memory_;
}
bool VKBuffer::is_mapped() const
{
return mapped_memory_ != nullptr;
}
bool VKBuffer::map()
{
BLI_assert(!is_mapped());
const VKDevice &device = VKBackend::get().device;
VmaAllocator allocator = device.mem_allocator_get();
VkResult result = vmaMapMemory(allocator, allocation_, &mapped_memory_);
return result == VK_SUCCESS;
}
void VKBuffer::unmap()
{
BLI_assert(is_mapped());
const VKDevice &device = VKBackend::get().device;
VmaAllocator allocator = device.mem_allocator_get();
vmaUnmapMemory(allocator, allocation_);
mapped_memory_ = nullptr;
}
bool VKBuffer::free()
{
if (is_mapped()) {
unmap();
}
VKDevice &device = VKBackend::get().device;
device.discard_buffer(vk_buffer_, allocation_);
allocation_ = VK_NULL_HANDLE;
vk_buffer_ = VK_NULL_HANDLE;
return true;
}
} // namespace blender::gpu
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