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test2/source/blender/render/intern/compositor.cc
Sergey Sharybin e1b60fdb91 Remove Z Buffer from ImBuf 
It was only used by OpenEXR and Iris images, and saving the Z Buffer
in those formats was disabled by default. This option comes from the
times prior to the addition of the Multilayer EXR.

It also worth noting that it was not possible to save Iris with Depth
pass from Blender as internally it is called IRIZ format and it was
not exposed. But even after exposing this format option something still
was missing as saving and loading ITIZ did not show up the Depth pass.

The reason of removal is to make it a more clear match of the ImBuf
with a render pass, and use it instead of a custom type in the render
result and render pass API. This will simplify the API and also avoid
stealing buffers and making shallow copies when showing the render
result.

For the cases when Depth is needed a Multilayer EXR is to be used,
as most likely more than just the Depth will be needed.

On a user level this change:

- Removes the "Z Buffer" option from the interface.

- It preserves existing sockets in compositor nodes, but it will
  output black image. Also changing the image data-block will
  remove the socket unless a Multilayer EXR with Depth pass image
  is selected.

- Removes "Depth" socket of the Viewer and Composite nodes.

Ref #108618

Pull Request: https://projects.blender.org/blender/blender/pulls/109687
2023-07-04 17:03:02 +02:00

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/* SPDX-FileCopyrightText: 2023 Blender Foundation
*
* SPDX-License-Identifier: GPL-2.0-or-later */
#include <cstring>
#include <string>
#include "BLI_threads.h"
#include "BLI_vector.hh"
#include "MEM_guardedalloc.h"
#include "BKE_global.h"
#include "BKE_image.h"
#include "BKE_node.hh"
#include "BKE_scene.h"
#include "DRW_engine.h"
#include "IMB_colormanagement.h"
#include "IMB_imbuf.h"
#include "DEG_depsgraph_query.h"
#include "COM_context.hh"
#include "COM_evaluator.hh"
#include "RE_compositor.hh"
#include "RE_pipeline.h"
#include "render_types.h"
namespace blender::render {
/* Render Texture Pool */
class TexturePool : public realtime_compositor::TexturePool {
public:
Vector<GPUTexture *> textures_;
virtual ~TexturePool()
{
for (GPUTexture *texture : textures_) {
GPU_texture_free(texture);
}
}
GPUTexture *allocate_texture(int2 size, eGPUTextureFormat format) override
{
/* TODO: should share pool with draw manager. It needs some globals
* initialization figured out there first. */
#if 0
DrawEngineType *owner = (DrawEngineType *)this;
return DRW_texture_pool_query_2d(size.x, size.y, format, owner);
#else
GPUTexture *texture = GPU_texture_create_2d(
"compositor_texture_pool", size.x, size.y, 1, format, GPU_TEXTURE_USAGE_GENERAL, nullptr);
textures_.append(texture);
return texture;
#endif
}
};
/* Render Context Data
*
* Stored separately from the context so we can update it without losing any cached
* data from the context. */
class ContextInputData {
public:
const Scene *scene;
const RenderData *render_data;
const bNodeTree *node_tree;
bool use_file_output;
std::string view_name;
ContextInputData(const Scene &scene,
const RenderData &render_data,
const bNodeTree &node_tree,
const bool use_file_output,
const char *view_name)
: scene(&scene),
render_data(&render_data),
node_tree(&node_tree),
use_file_output(use_file_output),
view_name(view_name)
{
}
};
/* Render Context Data */
class Context : public realtime_compositor::Context {
private:
/* Input data. */
ContextInputData input_data_;
/* Output combined texture. */
GPUTexture *output_texture_ = nullptr;
/* Viewer output texture. */
GPUTexture *viewer_output_texture_ = nullptr;
/* Texture pool. */
TexturePool &render_texture_pool_;
public:
Context(const ContextInputData &input_data, TexturePool &texture_pool)
: realtime_compositor::Context(texture_pool),
input_data_(input_data),
render_texture_pool_(texture_pool)
{
}
virtual ~Context()
{
GPU_TEXTURE_FREE_SAFE(output_texture_);
GPU_TEXTURE_FREE_SAFE(viewer_output_texture_);
}
void update_input_data(const ContextInputData &input_data)
{
input_data_ = input_data;
}
const Scene &get_scene() const override
{
return *input_data_.scene;
}
const bNodeTree &get_node_tree() const override
{
return *input_data_.node_tree;
}
bool use_file_output() const override
{
return input_data_.use_file_output;
}
bool use_composite_output() const override
{
return true;
}
bool use_texture_color_management() const override
{
return BKE_scene_check_color_management_enabled(input_data_.scene);
}
const RenderData &get_render_data() const override
{
return *(input_data_.render_data);
}
int2 get_render_size() const override
{
int width, height;
BKE_render_resolution(input_data_.render_data, false, &width, &height);
return int2(width, height);
}
rcti get_compositing_region() const override
{
const int2 render_size = get_render_size();
const rcti render_region = rcti{0, render_size.x, 0, render_size.y};
return render_region;
}
GPUTexture *get_output_texture() override
{
/* TODO: support outputting for previews.
* TODO: just a temporary hack, needs to get stored in RenderResult,
* once that supports GPU buffers. */
if (output_texture_ == nullptr) {
const int2 size = get_render_size();
output_texture_ = GPU_texture_create_2d("compositor_output_texture",
size.x,
size.y,
1,
GPU_RGBA16F,
GPU_TEXTURE_USAGE_GENERAL,
nullptr);
}
return output_texture_;
}
GPUTexture *get_viewer_output_texture() override
{
/* TODO: support outputting previews.
* TODO: just a temporary hack, needs to get stored in RenderResult,
* once that supports GPU buffers. */
if (viewer_output_texture_ == nullptr) {
const int2 size = get_render_size();
viewer_output_texture_ = GPU_texture_create_2d("compositor_viewer_output_texture",
size.x,
size.y,
1,
GPU_RGBA16F,
GPU_TEXTURE_USAGE_GENERAL,
nullptr);
}
return viewer_output_texture_;
}
GPUTexture *get_input_texture(const Scene *scene,
int view_layer_id,
const char *pass_name) override
{
Render *re = RE_GetSceneRender(scene);
RenderResult *rr = nullptr;
GPUTexture *input_texture = nullptr;
if (re) {
rr = RE_AcquireResultRead(re);
}
if (rr) {
ViewLayer *view_layer = (ViewLayer *)BLI_findlink(&scene->view_layers, view_layer_id);
if (view_layer) {
RenderLayer *rl = RE_GetRenderLayer(rr, view_layer->name);
if (rl) {
RenderPass *rpass = (RenderPass *)BLI_findstring(
&rl->passes, pass_name, offsetof(RenderPass, name));
if (rpass && rpass->buffer.data) {
input_texture = RE_pass_ensure_gpu_texture_cache(re, rpass);
if (input_texture) {
/* Don't assume render keeps texture around, add our own reference. */
GPU_texture_ref(input_texture);
render_texture_pool_.textures_.append(input_texture);
}
}
}
}
}
if (re) {
RE_ReleaseResult(re);
re = nullptr;
}
return input_texture;
}
StringRef get_view_name() override
{
return input_data_.view_name;
}
void set_info_message(StringRef /* message */) const override
{
/* TODO: ignored for now. Currently only used to communicate incomplete node support
* which is already shown on the node itself.
*
* Perhaps this overall info message could be replaced by a boolean indicating
* incomplete support, and leave more specific message to individual nodes? */
}
IDRecalcFlag query_id_recalc_flag(ID * /* id */) const override
{
/* TODO: implement? */
return IDRecalcFlag(0);
}
void output_to_render_result()
{
if (!output_texture_) {
return;
}
Render *re = RE_GetSceneRender(input_data_.scene);
RenderResult *rr = RE_AcquireResultWrite(re);
if (rr) {
RenderView *rv = RE_RenderViewGetByName(rr, input_data_.view_name.c_str());
GPU_memory_barrier(GPU_BARRIER_TEXTURE_UPDATE);
float *output_buffer = (float *)GPU_texture_read(output_texture_, GPU_DATA_FLOAT, 0);
if (output_buffer) {
RE_RenderBuffer_assign_data(&rv->combined_buffer, output_buffer);
}
/* TODO: z-buffer output. */
rr->have_combined = true;
}
if (re) {
RE_ReleaseResult(re);
re = nullptr;
}
Image *image = BKE_image_ensure_viewer(G.main, IMA_TYPE_R_RESULT, "Render Result");
BKE_image_partial_update_mark_full_update(image);
BLI_thread_lock(LOCK_DRAW_IMAGE);
BKE_image_signal(G.main, image, nullptr, IMA_SIGNAL_FREE);
BLI_thread_unlock(LOCK_DRAW_IMAGE);
}
void viewer_output_to_viewer_image()
{
if (!viewer_output_texture_) {
return;
}
Image *image = BKE_image_ensure_viewer(G.main, IMA_TYPE_COMPOSITE, "Viewer Node");
ImageUser image_user = {0};
image_user.multi_index = BKE_scene_multiview_view_id_get(input_data_.render_data,
input_data_.view_name.c_str());
if (BKE_scene_multiview_is_render_view_first(input_data_.render_data,
input_data_.view_name.c_str()))
{
BKE_image_ensure_viewer_views(input_data_.render_data, image, &image_user);
}
BLI_thread_lock(LOCK_DRAW_IMAGE);
void *lock;
ImBuf *image_buffer = BKE_image_acquire_ibuf(image, &image_user, &lock);
const int2 render_size = get_render_size();
if (image_buffer->x != render_size.x || image_buffer->y != render_size.y) {
imb_freerectImBuf(image_buffer);
imb_freerectfloatImBuf(image_buffer);
image_buffer->x = render_size.x;
image_buffer->y = render_size.y;
imb_addrectfloatImBuf(image_buffer, 4);
image_buffer->userflags |= IB_DISPLAY_BUFFER_INVALID;
}
BKE_image_release_ibuf(image, image_buffer, lock);
BLI_thread_unlock(LOCK_DRAW_IMAGE);
GPU_memory_barrier(GPU_BARRIER_TEXTURE_UPDATE);
float *output_buffer = (float *)GPU_texture_read(viewer_output_texture_, GPU_DATA_FLOAT, 0);
std::memcpy(image_buffer->float_buffer.data,
output_buffer,
render_size.x * render_size.y * 4 * sizeof(float));
MEM_freeN(output_buffer);
BKE_image_partial_update_mark_full_update(image);
if (input_data_.node_tree->runtime->update_draw) {
input_data_.node_tree->runtime->update_draw(input_data_.node_tree->runtime->udh);
}
}
};
/* Render Realtime Compositor */
class RealtimeCompositor {
private:
/* Render instance for GPU context to run compositor in. */
Render &render_;
std::unique_ptr<TexturePool> texture_pool_;
std::unique_ptr<Context> context_;
public:
RealtimeCompositor(Render &render, const ContextInputData &input_data) : render_(render)
{
BLI_assert(!BLI_thread_is_main());
/* Create resources with GPU context enabled. */
DRW_render_context_enable(&render_);
texture_pool_ = std::make_unique<TexturePool>();
context_ = std::make_unique<Context>(input_data, *texture_pool_);
DRW_render_context_disable(&render_);
}
~RealtimeCompositor()
{
/* Free resources with GPU context enabled. Cleanup may happen from the
* main thread, and we must use the main context there. */
if (BLI_thread_is_main()) {
DRW_gpu_context_enable();
}
else {
DRW_render_context_enable(&render_);
}
context_.reset();
texture_pool_.reset();
if (BLI_thread_is_main()) {
DRW_gpu_context_disable();
}
else {
DRW_render_context_disable(&render_);
}
}
/* Evaluate the compositor and output to the scene render result. */
void execute(const ContextInputData &input_data)
{
BLI_assert(!BLI_thread_is_main());
DRW_render_context_enable(&render_);
context_->update_input_data(input_data);
/* Always recreate the evaluator, as this only runs on compositing node changes and
* there is no reason to cache this. Unlike the viewport where it helps for navigation. */
{
realtime_compositor::Evaluator evaluator(*context_);
evaluator.evaluate();
}
context_->output_to_render_result();
context_->viewer_output_to_viewer_image();
DRW_render_context_disable(&render_);
}
};
} // namespace blender::render
void RE_compositor_execute(Render &render,
const Scene &scene,
const RenderData &render_data,
const bNodeTree &node_tree,
const bool use_file_output,
const char *view_name)
{
BLI_mutex_lock(&render.gpu_compositor_mutex);
blender::render::ContextInputData input_data(
scene, render_data, node_tree, use_file_output, view_name);
if (render.gpu_compositor == nullptr) {
render.gpu_compositor = new blender::render::RealtimeCompositor(render, input_data);
}
render.gpu_compositor->execute(input_data);
BLI_mutex_unlock(&render.gpu_compositor_mutex);
}
void RE_compositor_free(Render &render)
{
BLI_mutex_lock(&render.gpu_compositor_mutex);
if (render.gpu_compositor) {
delete render.gpu_compositor;
render.gpu_compositor = nullptr;
}
BLI_mutex_unlock(&render.gpu_compositor_mutex);
}
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