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test2/source/blender/gpu/vulkan/vk_context.cc
Jeroen Bakker 390ca01685 Cleanup: Vulkan: Remove resource ownership 
Images used to be tracked with ownership in order to reset swap chain
images to its original layout. This isn't used anymore as we always mark
them in VK_IMAGE_LAYOUT_UNDEFINED to make the first pipeline barrier a
nop.

This change reduces unneeded complexity and safe a few CPU cycles.

Pull Request: https://projects.blender.org/blender/blender/pulls/133197
2025-01-17 14:46:22 +01:00

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/* SPDX-FileCopyrightText: 2022 Blender Authors
*
* SPDX-License-Identifier: GPL-2.0-or-later */
/** \file
* \ingroup gpu
*/
#include "GPU_debug.hh"
#include "vk_backend.hh"
#include "vk_context.hh"
#include "vk_debug.hh"
#include "vk_framebuffer.hh"
#include "vk_immediate.hh"
#include "vk_shader.hh"
#include "vk_shader_interface.hh"
#include "vk_state_manager.hh"
#include "vk_texture.hh"
#include "GHOST_C-api.h"
namespace blender::gpu {
VKContext::VKContext(void *ghost_window,
void *ghost_context,
render_graph::VKResourceStateTracker &resources)
: render_graph(std::make_unique<render_graph::VKCommandBufferWrapper>(
VKBackend::get().device.workarounds_get()),
resources)
{
ghost_window_ = ghost_window;
ghost_context_ = ghost_context;
state_manager = new VKStateManager();
back_left = new VKFrameBuffer("back_left");
front_left = new VKFrameBuffer("front_left");
active_fb = back_left;
compiler = &VKBackend::get().shader_compiler;
}
VKContext::~VKContext()
{
if (surface_texture_) {
back_left->attachment_remove(GPU_FB_COLOR_ATTACHMENT0);
front_left->attachment_remove(GPU_FB_COLOR_ATTACHMENT0);
GPU_texture_free(surface_texture_);
surface_texture_ = nullptr;
}
free_framebuffers();
VKBackend::get().device.context_unregister(*this);
imm = nullptr;
compiler = nullptr;
}
void VKContext::sync_backbuffer(bool cycle_resource_pool)
{
VKDevice &device = VKBackend::get().device;
if (ghost_window_) {
GHOST_VulkanSwapChainData swap_chain_data = {};
GHOST_GetVulkanSwapChainFormat((GHOST_WindowHandle)ghost_window_, &swap_chain_data);
VKThreadData &thread_data = thread_data_.value().get();
if (cycle_resource_pool) {
thread_data.resource_pool_next();
VKResourcePool &resource_pool = thread_data.resource_pool_get();
imm = &resource_pool.immediate;
resource_pool.discard_pool.destroy_discarded_resources(device);
resource_pool.reset();
resource_pool.discard_pool.move_data(device.orphaned_data);
}
const bool reset_framebuffer = swap_chain_format_.format !=
swap_chain_data.surface_format.format ||
swap_chain_format_.colorSpace !=
swap_chain_data.surface_format.colorSpace ||
vk_extent_.width != swap_chain_data.extent.width ||
vk_extent_.height != swap_chain_data.extent.height;
if (reset_framebuffer) {
if (has_active_framebuffer()) {
deactivate_framebuffer();
}
if (surface_texture_) {
GPU_texture_free(surface_texture_);
surface_texture_ = nullptr;
}
surface_texture_ = GPU_texture_create_2d(
"back-left",
swap_chain_data.extent.width,
swap_chain_data.extent.height,
1,
to_gpu_format(swap_chain_data.surface_format.format),
GPU_TEXTURE_USAGE_ATTACHMENT,
nullptr);
back_left->attachment_set(GPU_FB_COLOR_ATTACHMENT0,
GPU_ATTACHMENT_TEXTURE(surface_texture_));
front_left->attachment_set(GPU_FB_COLOR_ATTACHMENT0,
GPU_ATTACHMENT_TEXTURE(surface_texture_));
back_left->bind(false);
swap_chain_format_ = swap_chain_data.surface_format;
vk_extent_ = swap_chain_data.extent;
}
}
#if 0
else (is_background) {
discard all orphaned data
}
#endif
}
void VKContext::activate()
{
/* Make sure no other context is already bound to this thread. */
BLI_assert(is_active_ == false);
VKDevice &device = VKBackend::get().device;
VKThreadData &thread_data = device.current_thread_data();
thread_data_ = std::reference_wrapper<VKThreadData>(thread_data);
imm = &thread_data.resource_pool_get().immediate;
is_active_ = true;
sync_backbuffer(false);
immActivate();
}
void VKContext::deactivate()
{
flush_render_graph();
immDeactivate();
imm = nullptr;
thread_data_.reset();
is_active_ = false;
}
void VKContext::begin_frame() {}
void VKContext::end_frame() {}
void VKContext::flush() {}
void VKContext::flush_render_graph()
{
if (render_graph.is_empty()) {
return;
}
if (has_active_framebuffer()) {
VKFrameBuffer &framebuffer = *active_framebuffer_get();
if (framebuffer.is_rendering()) {
framebuffer.rendering_end(*this);
}
}
descriptor_set_get().upload_descriptor_sets();
render_graph.submit();
}
void VKContext::finish() {}
void VKContext::memory_statistics_get(int *r_total_mem_kb, int *r_free_mem_kb)
{
const VKDevice &device = VKBackend::get().device;
device.memory_statistics_get(r_total_mem_kb, r_free_mem_kb);
}
/* -------------------------------------------------------------------- */
/** \name State manager
* \{ */
VKDescriptorPools &VKContext::descriptor_pools_get()
{
return thread_data_.value().get().resource_pool_get().descriptor_pools;
}
VKDescriptorSetTracker &VKContext::descriptor_set_get()
{
return thread_data_.value().get().resource_pool_get().descriptor_set;
}
VKStateManager &VKContext::state_manager_get() const
{
return *static_cast<VKStateManager *>(state_manager);
}
void VKContext::debug_unbind_all_ubo()
{
state_manager_get().uniform_buffer_unbind_all();
};
void VKContext::debug_unbind_all_ssbo()
{
state_manager_get().storage_buffer_unbind_all();
};
/** \} */
/* -------------------------------------------------------------------- */
/** \name Frame-buffer
* \{ */
void VKContext::activate_framebuffer(VKFrameBuffer &framebuffer)
{
if (has_active_framebuffer()) {
deactivate_framebuffer();
}
BLI_assert(active_fb == nullptr);
active_fb = &framebuffer;
framebuffer.update_size();
framebuffer.update_srgb();
framebuffer.rendering_reset();
}
VKFrameBuffer *VKContext::active_framebuffer_get() const
{
return unwrap(active_fb);
}
bool VKContext::has_active_framebuffer() const
{
return active_framebuffer_get() != nullptr;
}
void VKContext::deactivate_framebuffer()
{
VKFrameBuffer *framebuffer = active_framebuffer_get();
BLI_assert(framebuffer != nullptr);
if (framebuffer->is_rendering()) {
framebuffer->rendering_end(*this);
}
active_fb = nullptr;
}
void VKContext::rendering_end()
{
VKFrameBuffer *framebuffer = active_framebuffer_get();
if (framebuffer) {
framebuffer->rendering_end(*this);
}
}
/** \} */
/* -------------------------------------------------------------------- */
/** \name Pipeline
* \{ */
void VKContext::update_pipeline_data(GPUPrimType primitive,
VKVertexAttributeObject &vao,
render_graph::VKPipelineData &r_pipeline_data)
{
VKShader &vk_shader = unwrap(*shader);
VKFrameBuffer &framebuffer = *active_framebuffer_get();
update_pipeline_data(
vk_shader,
vk_shader.ensure_and_get_graphics_pipeline(primitive, vao, state_manager_get(), framebuffer),
r_pipeline_data);
}
void VKContext::update_pipeline_data(render_graph::VKPipelineData &r_pipeline_data)
{
VKShader &vk_shader = unwrap(*shader);
update_pipeline_data(vk_shader, vk_shader.ensure_and_get_compute_pipeline(), r_pipeline_data);
}
void VKContext::update_pipeline_data(VKShader &vk_shader,
VkPipeline vk_pipeline,
render_graph::VKPipelineData &r_pipeline_data)
{
r_pipeline_data.vk_pipeline_layout = vk_shader.vk_pipeline_layout;
r_pipeline_data.vk_pipeline = vk_pipeline;
/* Update push constants. */
r_pipeline_data.push_constants_data = nullptr;
r_pipeline_data.push_constants_size = 0;
const VKPushConstants::Layout &push_constants_layout =
vk_shader.interface_get().push_constants_layout_get();
if (push_constants_layout.storage_type_get() == VKPushConstants::StorageType::PUSH_CONSTANTS) {
r_pipeline_data.push_constants_size = push_constants_layout.size_in_bytes();
r_pipeline_data.push_constants_data = vk_shader.push_constants.data();
}
/* Update descriptor set. */
r_pipeline_data.vk_descriptor_set = VK_NULL_HANDLE;
if (vk_shader.has_descriptor_set()) {
VKDescriptorSetTracker &descriptor_set = descriptor_set_get();
descriptor_set.update_descriptor_set(*this, access_info_);
r_pipeline_data.vk_descriptor_set = descriptor_set.vk_descriptor_set;
}
}
render_graph::VKResourceAccessInfo &VKContext::reset_and_get_access_info()
{
access_info_.reset();
return access_info_;
}
/** \} */
/* -------------------------------------------------------------------- */
/** \name Graphics pipeline
* \{ */
void VKContext::swap_buffers_pre_callback(const GHOST_VulkanSwapChainData *swap_chain_data)
{
VKContext *context = VKContext::get();
BLI_assert(context);
context->swap_buffers_pre_handler(*swap_chain_data);
}
void VKContext::swap_buffers_post_callback()
{
VKContext *context = VKContext::get();
BLI_assert(context);
context->swap_buffers_post_handler();
}
void VKContext::swap_buffers_pre_handler(const GHOST_VulkanSwapChainData &swap_chain_data)
{
GPU_debug_group_begin("BackBuffer.Blit");
VKFrameBuffer &framebuffer = *unwrap(back_left);
VKTexture *color_attachment = unwrap(unwrap(framebuffer.color_tex(0)));
render_graph::VKBlitImageNode::CreateInfo blit_image = {};
blit_image.src_image = color_attachment->vk_image_handle();
blit_image.dst_image = swap_chain_data.image;
blit_image.filter = VK_FILTER_NEAREST;
VkImageBlit &region = blit_image.region;
region.srcOffsets[0] = {0, color_attachment->height_get(), 0};
region.srcOffsets[1] = {color_attachment->width_get(), 0, 1};
region.srcSubresource.aspectMask = VK_IMAGE_ASPECT_COLOR_BIT;
region.srcSubresource.mipLevel = 0;
region.srcSubresource.baseArrayLayer = 0;
region.srcSubresource.layerCount = 1;
region.dstOffsets[0] = {0, 0, 0};
region.dstOffsets[1] = {
int32_t(swap_chain_data.extent.width), int32_t(swap_chain_data.extent.height), 1};
region.dstSubresource.aspectMask = VK_IMAGE_ASPECT_COLOR_BIT;
region.dstSubresource.mipLevel = 0;
region.dstSubresource.baseArrayLayer = 0;
region.dstSubresource.layerCount = 1;
/* Swap chain commands are CPU synchronized at this moment, allowing to temporary add the swap
* chain image as device resources. When we move towards GPU swap chain synchronization we need
* to keep track of the swap chain image between frames. */
VKDevice &device = VKBackend::get().device;
device.resources.add_image(swap_chain_data.image, 1, "SwapchainImage");
framebuffer.rendering_end(*this);
render_graph.add_node(blit_image);
GPU_debug_group_end();
descriptor_set_get().upload_descriptor_sets();
render_graph.submit_for_present(swap_chain_data.image);
device.resources.remove_image(swap_chain_data.image);
#if 0
device.debug_print();
#endif
}
void VKContext::swap_buffers_post_handler()
{
sync_backbuffer(true);
}
/** \} */
} // namespace blender::gpu
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