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blender-archive/source/blender/gpu/intern/gpu_context.cc

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File headers: SPDX License migration Use a shorter/simpler license convention, stops the header taking so much space. Follow the SPDX license specification: https://spdx.org/licenses - C/C++/objc/objc++ - Python - Shell Scripts - CMake, GNUmakefile While most of the source tree has been included - `./extern/` was left out. - `./intern/cycles` & `./intern/atomic` are also excluded because they use different header conventions. doc/license/SPDX-license-identifiers.txt has been added to list SPDX all used identifiers. See P2788 for the script that automated these edits. Reviewed By: brecht, mont29, sergey Ref D14069
2022-02-11 09:07:11 +11:00
/* SPDX-License-Identifier: GPL-2.0-or-later
* Copyright 2016 by Mike Erwin. All rights reserved. */
GWN: Port to GPU module: codestyle & licence
2018-07-17 14:46:44 +02:00
doxygen: add newline after \file While \file doesn't need an argument, it can't have another doxy command after it.
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/** \file
* \ingroup gpu
GWN: Port to GPU module: codestyle & licence
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*
* Manage GL vertex array IDs in a thread-safe way
* Use these instead of glGenBuffers & its friends
* - alloc must be called from a thread that is bound
* to the context that will be used for drawing with
Cleanup: spelling
2021-05-06 08:09:05 +10:00
* this VAO.
GWN: Port to GPU module: codestyle & licence
2018-07-17 14:46:44 +02:00
* - free can be called from any thread
*/
Gawain: Add new context/vao manager. This allows allocation of VAOs from different opengl contexts and thread as long as the drawing happens in the same context. Allocation is thread safe as long as we abide by the "one opengl context per thread" rule. We can still free from any thread and actual freeing will occur at new vao allocation or next context binding.
2018-02-19 23:50:52 +01:00
Cleanup: consistent use of tags: NOTE/TODO/FIXME/XXX Also use doxy style function reference `#` prefix chars when referencing identifiers.
2021-07-03 23:08:40 +10:00
/* TODO: Create cmake option. */
Metal: Initial Implementation of Metal Backend for GPU Module. Adding WITH_METAL option to CMAKE to guard compilation for macOS only. Implemented stub METALBackend to mirror GPUBackend interface and added capabilities initialisation, along with API initialisation paths. Global rendering coordination commands added to backend with GPU_render_begin and GPU_render_end() commands globally wrapping GPU work. This is required for Metal to ensure temporary resources are generated within an NSAutoReleasePool and freed accordingly. Authored by Apple: Michael Parkin-White, Vil Harvey, Marco Giordano, Michael Jones, Morteza Mostajabodaveh, Jason Fielder Ref T96261 Reviewed By: fclem Maniphest Tasks: T96261 Differential Revision: https://developer.blender.org/D14293
2022-03-22 12:38:28 +01:00
#if WITH_OPENGL
#define WITH_OPENGL_BACKEND 1
#endif
GPUBackend: Add new GPUBackend object to manage GL object allocations This just set a global object responsible for allocating new objects in a thread safe way without needing any GPUContext bound to this thread. This also introduce the GLContext which will contain all the GL related functions for the current context.
2020-08-07 17:00:28 +02:00
GPU: Add GC to FBOs and UBOs and centralize all GCs GPUFrameBuffers were being free when no context was attached or in the wrong gl context. This make sure this does not happen again. You can now safely free any gl resource from any thread (well as long as it's not used anymore!).
2018-07-19 15:48:13 +02:00
#include "BLI_assert.h"
#include "BLI_utildefines.h"
GWN: Port to GPU module: Move files to GPU This does not include all the struct and type renaming. Only files were renamed. gwn_batch.c/h was fusioned with GPU_batch.c/h gwn_immediate.c/h was fusioned with GPU_immediate.c/h gwn_imm_util.c/h was fusioned with GPU_immediate_util.c/h
2018-07-17 21:11:23 +02:00
#include "GPU_context.h"
GPU: Add GC to FBOs and UBOs and centralize all GCs GPUFrameBuffers were being free when no context was attached or in the wrong gl context. This make sure this does not happen again. You can now safely free any gl resource from any thread (well as long as it's not used anymore!).
2018-07-19 15:48:13 +02:00
#include "GPU_framebuffer.h"
GPU: Move ghost default framebuffer getter to context creation
2020-08-06 04:30:38 +02:00
#include "GHOST_C-api.h"
GPUBackend: Add new GPUBackend object to manage GL object allocations This just set a global object responsible for allocating new objects in a thread safe way without needing any GPUContext bound to this thread. This also introduce the GLContext which will contain all the GL related functions for the current context.
2020-08-07 17:00:28 +02:00
#include "gpu_backend.hh"
Cleanup: GPUBatch: Move gpu_batch_private.h to CPP header
2020-08-09 01:21:34 +02:00
#include "gpu_batch_private.hh"
Cleanup: GPU: Change gpu_context_private.h to C++ only header
2020-08-08 03:01:45 +02:00
#include "gpu_context_private.hh"
Manage GPU_matrix stacks per GPUContext Previously, we had one global `GPU_matrix` stack, so the API was not thread safe. This patch makes the stack be per `GPUContext`, effectively making it local per thread (`GPUContext` is located in thread local storage). Reviewed By: brecht Differential Revision: https://developer.blender.org/D5405
2019-08-14 15:27:10 +02:00
#include "gpu_matrix_private.h"
GPU: Add GC to FBOs and UBOs and centralize all GCs GPUFrameBuffers were being free when no context was attached or in the wrong gl context. This make sure this does not happen again. You can now safely free any gl resource from any thread (well as long as it's not used anymore!).
2018-07-19 15:48:13 +02:00
GPUBackend: Add new GPUBackend object to manage GL object allocations This just set a global object responsible for allocating new objects in a thread safe way without needing any GPUContext bound to this thread. This also introduce the GLContext which will contain all the GL related functions for the current context.
2020-08-07 17:00:28 +02:00
#ifdef WITH_OPENGL_BACKEND
# include "gl_backend.hh"
# include "gl_context.hh"
#endif
Metal: Initial Implementation of Metal Backend for GPU Module. Adding WITH_METAL option to CMAKE to guard compilation for macOS only. Implemented stub METALBackend to mirror GPUBackend interface and added capabilities initialisation, along with API initialisation paths. Global rendering coordination commands added to backend with GPU_render_begin and GPU_render_end() commands globally wrapping GPU work. This is required for Metal to ensure temporary resources are generated within an NSAutoReleasePool and freed accordingly. Authored by Apple: Michael Parkin-White, Vil Harvey, Marco Giordano, Michael Jones, Morteza Mostajabodaveh, Jason Fielder Ref T96261 Reviewed By: fclem Maniphest Tasks: T96261 Differential Revision: https://developer.blender.org/D14293
2022-03-22 12:38:28 +01:00
#ifdef WITH_METAL_BACKEND
# include "mtl_backend.hh"
#endif
GPUBackend: Add new GPUBackend object to manage GL object allocations This just set a global object responsible for allocating new objects in a thread safe way without needing any GPUContext bound to this thread. This also introduce the GLContext which will contain all the GL related functions for the current context.
2020-08-07 17:00:28 +02:00
Gawain: Add new context/vao manager. This allows allocation of VAOs from different opengl contexts and thread as long as the drawing happens in the same context. Allocation is thread safe as long as we abide by the "one opengl context per thread" rule. We can still free from any thread and actual freeing will occur at new vao allocation or next context binding.
2018-02-19 23:50:52 +01:00
#include <mutex>
Cleanup: `make format` after SortedIncludes change
2020-03-19 09:33:03 +01:00
#include <vector>
Gawain: Add new context/vao manager. This allows allocation of VAOs from different opengl contexts and thread as long as the drawing happens in the same context. Allocation is thread safe as long as we abide by the "one opengl context per thread" rule. We can still free from any thread and actual freeing will occur at new vao allocation or next context binding.
2018-02-19 23:50:52 +01:00
GPUBackend: Add new GPUBackend object to manage GL object allocations This just set a global object responsible for allocating new objects in a thread safe way without needing any GPUContext bound to this thread. This also introduce the GLContext which will contain all the GL related functions for the current context. # Conflicts: # source/blender/gpu/intern/gpu_context.cc
2020-08-08 01:18:18 +02:00
using namespace blender::gpu;
GPU: Add GC to FBOs and UBOs and centralize all GCs GPUFrameBuffers were being free when no context was attached or in the wrong gl context. This make sure this does not happen again. You can now safely free any gl resource from any thread (well as long as it's not used anymore!).
2018-07-19 15:48:13 +02:00
Cleanup: Clang-Tidy modernize-use-nullptr Replace `NULL` with `nullptr` in C++ code. No functional changes.
2020-11-06 17:49:09 +01:00
static thread_local Context *active_ctx = nullptr;
Gawain: Add new context/vao manager. This allows allocation of VAOs from different opengl contexts and thread as long as the drawing happens in the same context. Allocation is thread safe as long as we abide by the "one opengl context per thread" rule. We can still free from any thread and actual freeing will occur at new vao allocation or next context binding.
2018-02-19 23:50:52 +01:00
GPUBackend: Add new GPUBackend object to manage GL object allocations This just set a global object responsible for allocating new objects in a thread safe way without needing any GPUContext bound to this thread. This also introduce the GLContext which will contain all the GL related functions for the current context. # Conflicts: # source/blender/gpu/intern/gpu_context.cc
2020-08-08 01:18:18 +02:00
/* -------------------------------------------------------------------- */
GPUContext: Move GPUContext to gpu::Context for more consistency This makes the GPUContext follow the same naming convention as the rest of the module. Also add a static getter for extra bonus style (no need for casts): - Context::get() - GLContext::get()
2020-09-08 04:12:12 +02:00
/** \name gpu::Context methods
GPUBackend: Add new GPUBackend object to manage GL object allocations This just set a global object responsible for allocating new objects in a thread safe way without needing any GPUContext bound to this thread. This also introduce the GLContext which will contain all the GL related functions for the current context. # Conflicts: # source/blender/gpu/intern/gpu_context.cc
2020-08-08 01:18:18 +02:00
* \{ */
GPU: Add GC to FBOs and UBOs and centralize all GCs GPUFrameBuffers were being free when no context was attached or in the wrong gl context. This make sure this does not happen again. You can now safely free any gl resource from any thread (well as long as it's not used anymore!).
2018-07-19 15:48:13 +02:00
GPUContext: Move GPUContext to gpu::Context for more consistency This makes the GPUContext follow the same naming convention as the rest of the module. Also add a static getter for extra bonus style (no need for casts): - Context::get() - GLContext::get()
2020-09-08 04:12:12 +02:00
namespace blender::gpu {
Context::Context()
GPUBackend: Add new GPUBackend object to manage GL object allocations This just set a global object responsible for allocating new objects in a thread safe way without needing any GPUContext bound to this thread. This also introduce the GLContext which will contain all the GL related functions for the current context. # Conflicts: # source/blender/gpu/intern/gpu_context.cc
2020-08-08 01:18:18 +02:00
{
thread_ = pthread_self();
is_active_ = false;
matrix_state = GPU_matrix_state_create();
GPU: Add GC to FBOs and UBOs and centralize all GCs GPUFrameBuffers were being free when no context was attached or in the wrong gl context. This make sure this does not happen again. You can now safely free any gl resource from any thread (well as long as it's not used anymore!).
2018-07-19 15:48:13 +02:00
}
GPUContext: Move GPUContext to gpu::Context for more consistency This makes the GPUContext follow the same naming convention as the rest of the module. Also add a static getter for extra bonus style (no need for casts): - Context::get() - GLContext::get()
2020-09-08 04:12:12 +02:00
Context::~Context()
GPU: Add GC to FBOs and UBOs and centralize all GCs GPUFrameBuffers were being free when no context was attached or in the wrong gl context. This make sure this does not happen again. You can now safely free any gl resource from any thread (well as long as it's not used anymore!).
2018-07-19 15:48:13 +02:00
{
GPUBackend: Add new GPUBackend object to manage GL object allocations This just set a global object responsible for allocating new objects in a thread safe way without needing any GPUContext bound to this thread. This also introduce the GLContext which will contain all the GL related functions for the current context. # Conflicts: # source/blender/gpu/intern/gpu_context.cc
2020-08-08 01:18:18 +02:00
GPU_matrix_state_discard(matrix_state);
Cleanup: GPUState: Remove stack from the state manager and rename it
2020-08-17 00:34:06 +02:00
delete state_manager;
GLContext: Fix framebuffer deletion to GPUContext This has more meaning as it's the base class who holds the pointer. # Conflicts: # source/blender/gpu/opengl/gl_context.cc
2020-08-31 15:13:26 +02:00
delete front_left;
delete back_left;
delete front_right;
delete back_right;
GPUImmediate: GL backend isolation This is part of the Vulkan backend task T68990. This is mostly a cleanup, however, there is a small change: We don't use a special Vertex Array binding function for Immediate anymore and just reuse the one for batches. This might create a bit more state changes but this could be fixed easily if it causes perf regression. # Conflicts: # source/blender/gpu/intern/gpu_context.cc
2020-08-31 15:14:47 +02:00
delete imm;
GPUBackend: Add new GPUBackend object to manage GL object allocations This just set a global object responsible for allocating new objects in a thread safe way without needing any GPUContext bound to this thread. This also introduce the GLContext which will contain all the GL related functions for the current context. # Conflicts: # source/blender/gpu/intern/gpu_context.cc
2020-08-08 01:18:18 +02:00
}
ClangFormat: apply to source, most of intern Apply clang format as proposed in T53211. For details on usage and instructions for migrating branches without conflicts, see: https://wiki.blender.org/wiki/Tools/ClangFormat
2019-04-17 06:17:24 +02:00
Cleanup: Clang-Tidy, modernize-redundant-void-arg
2020-11-06 13:18:48 +01:00
bool Context::is_active_on_thread()
GPUBackend: Add new GPUBackend object to manage GL object allocations This just set a global object responsible for allocating new objects in a thread safe way without needing any GPUContext bound to this thread. This also introduce the GLContext which will contain all the GL related functions for the current context. # Conflicts: # source/blender/gpu/intern/gpu_context.cc
2020-08-08 01:18:18 +02:00
{
return (this == active_ctx) && pthread_equal(pthread_self(), thread_);
}
ClangFormat: apply to source, most of intern Apply clang format as proposed in T53211. For details on usage and instructions for migrating branches without conflicts, see: https://wiki.blender.org/wiki/Tools/ClangFormat
2019-04-17 06:17:24 +02:00
Cleanup: Clang-Tidy, modernize-redundant-void-arg
2020-11-06 13:18:48 +01:00
Context *Context::get()
GPUContext: Move GPUContext to gpu::Context for more consistency This makes the GPUContext follow the same naming convention as the rest of the module. Also add a static getter for extra bonus style (no need for casts): - Context::get() - GLContext::get()
2020-09-08 04:12:12 +02:00
{
return active_ctx;
}
} // namespace blender::gpu
GPUBackend: Add new GPUBackend object to manage GL object allocations This just set a global object responsible for allocating new objects in a thread safe way without needing any GPUContext bound to this thread. This also introduce the GLContext which will contain all the GL related functions for the current context. # Conflicts: # source/blender/gpu/intern/gpu_context.cc
2020-08-08 01:18:18 +02:00
/** \} */
ClangFormat: apply to source, most of intern Apply clang format as proposed in T53211. For details on usage and instructions for migrating branches without conflicts, see: https://wiki.blender.org/wiki/Tools/ClangFormat
2019-04-17 06:17:24 +02:00
GPUBackend: Add new GPUBackend object to manage GL object allocations This just set a global object responsible for allocating new objects in a thread safe way without needing any GPUContext bound to this thread. This also introduce the GLContext which will contain all the GL related functions for the current context. # Conflicts: # source/blender/gpu/intern/gpu_context.cc
2020-08-08 01:18:18 +02:00
/* -------------------------------------------------------------------- */
Gawain: Add new context/vao manager. This allows allocation of VAOs from different opengl contexts and thread as long as the drawing happens in the same context. Allocation is thread safe as long as we abide by the "one opengl context per thread" rule. We can still free from any thread and actual freeing will occur at new vao allocation or next context binding.
2018-02-19 23:50:52 +01:00
GPU: Move ghost default framebuffer getter to context creation
2020-08-06 04:30:38 +02:00
GPUContext *GPU_context_create(void *ghost_window)
GWN: Port to GPU module: codestyle & licence
2018-07-17 14:46:44 +02:00
{
Cleanup: Clang-Tidy modernize-use-nullptr Replace `NULL` with `nullptr` in C++ code. No functional changes.
2020-11-06 17:49:09 +01:00
if (GPUBackend::get() == nullptr) {
Cleanup: consistent use of tags: NOTE/TODO/FIXME/XXX Also use doxy style function reference `#` prefix chars when referencing identifiers.
2021-07-03 23:08:40 +10:00
/* TODO: move where it make sense. */
GPUBackend: Add new GPUBackend object to manage GL object allocations This just set a global object responsible for allocating new objects in a thread safe way without needing any GPUContext bound to this thread. This also introduce the GLContext which will contain all the GL related functions for the current context.
2020-08-07 17:00:28 +02:00
GPU_backend_init(GPU_BACKEND_OPENGL);
}
GPUContext: Move GPUContext to gpu::Context for more consistency This makes the GPUContext follow the same naming convention as the rest of the module. Also add a static getter for extra bonus style (no need for casts): - Context::get() - GLContext::get()
2020-09-08 04:12:12 +02:00
Context *ctx = GPUBackend::get()->context_alloc(ghost_window);
GPU: Move ghost default framebuffer getter to context creation
2020-08-06 04:30:38 +02:00
GPUContext: Move GPUContext to gpu::Context for more consistency This makes the GPUContext follow the same naming convention as the rest of the module. Also add a static getter for extra bonus style (no need for casts): - Context::get() - GLContext::get()
2020-09-08 04:12:12 +02:00
GPU_context_active_set(wrap(ctx));
return wrap(ctx);
GWN: Port to GPU module: codestyle & licence
2018-07-17 14:46:44 +02:00
}
Gawain: Add new context/vao manager. This allows allocation of VAOs from different opengl contexts and thread as long as the drawing happens in the same context. Allocation is thread safe as long as we abide by the "one opengl context per thread" rule. We can still free from any thread and actual freeing will occur at new vao allocation or next context binding.
2018-02-19 23:50:52 +01:00
GPUContext: Move GPUContext to gpu::Context for more consistency This makes the GPUContext follow the same naming convention as the rest of the module. Also add a static getter for extra bonus style (no need for casts): - Context::get() - GLContext::get()
2020-09-08 04:12:12 +02:00
void GPU_context_discard(GPUContext *ctx_)
GWN: Port to GPU module: codestyle & licence
2018-07-17 14:46:44 +02:00
{
GPUContext: Move GPUContext to gpu::Context for more consistency This makes the GPUContext follow the same naming convention as the rest of the module. Also add a static getter for extra bonus style (no need for casts): - Context::get() - GLContext::get()
2020-09-08 04:12:12 +02:00
Context *ctx = unwrap(ctx_);
GWN: Context: Fix allocation/codestyle and crash on startup.
2018-02-22 14:31:10 +01:00
delete ctx;
Cleanup: Clang-Tidy modernize-use-nullptr Replace `NULL` with `nullptr` in C++ code. No functional changes.
2020-11-06 17:49:09 +01:00
active_ctx = nullptr;
GWN: Port to GPU module: codestyle & licence
2018-07-17 14:46:44 +02:00
}
Gawain: Add new context/vao manager. This allows allocation of VAOs from different opengl contexts and thread as long as the drawing happens in the same context. Allocation is thread safe as long as we abide by the "one opengl context per thread" rule. We can still free from any thread and actual freeing will occur at new vao allocation or next context binding.
2018-02-19 23:50:52 +01:00
GPUContext: Move GPUContext to gpu::Context for more consistency This makes the GPUContext follow the same naming convention as the rest of the module. Also add a static getter for extra bonus style (no need for casts): - Context::get() - GLContext::get()
2020-09-08 04:12:12 +02:00
void GPU_context_active_set(GPUContext *ctx_)
GWN: Port to GPU module: codestyle & licence
2018-07-17 14:46:44 +02:00
{
GPUContext: Move GPUContext to gpu::Context for more consistency This makes the GPUContext follow the same naming convention as the rest of the module. Also add a static getter for extra bonus style (no need for casts): - Context::get() - GLContext::get()
2020-09-08 04:12:12 +02:00
Context *ctx = unwrap(ctx_);
GWN: Port to GPU module: codestyle & licence
2018-07-17 14:46:44 +02:00
if (active_ctx) {
GPUBackend: Add new GPUBackend object to manage GL object allocations This just set a global object responsible for allocating new objects in a thread safe way without needing any GPUContext bound to this thread. This also introduce the GLContext which will contain all the GL related functions for the current context. # Conflicts: # source/blender/gpu/intern/gpu_context.cc
2020-08-08 01:18:18 +02:00
active_ctx->deactivate();
GWN: Port to GPU module: codestyle & licence
2018-07-17 14:46:44 +02:00
}
GPUBackend: Add new GPUBackend object to manage GL object allocations This just set a global object responsible for allocating new objects in a thread safe way without needing any GPUContext bound to this thread. This also introduce the GLContext which will contain all the GL related functions for the current context. # Conflicts: # source/blender/gpu/intern/gpu_context.cc
2020-08-08 01:18:18 +02:00
active_ctx = ctx;
GWN: Port to GPU module: codestyle & licence
2018-07-17 14:46:44 +02:00
if (ctx) {
GPUBackend: Add new GPUBackend object to manage GL object allocations This just set a global object responsible for allocating new objects in a thread safe way without needing any GPUContext bound to this thread. This also introduce the GLContext which will contain all the GL related functions for the current context. # Conflicts: # source/blender/gpu/intern/gpu_context.cc
2020-08-08 01:18:18 +02:00
ctx->activate();
Gawain: Add new context/vao manager. This allows allocation of VAOs from different opengl contexts and thread as long as the drawing happens in the same context. Allocation is thread safe as long as we abide by the "one opengl context per thread" rule. We can still free from any thread and actual freeing will occur at new vao allocation or next context binding.
2018-02-19 23:50:52 +01:00
}
GWN: Port to GPU module: codestyle & licence
2018-07-17 14:46:44 +02:00
}
Gawain: Add new context/vao manager. This allows allocation of VAOs from different opengl contexts and thread as long as the drawing happens in the same context. Allocation is thread safe as long as we abide by the "one opengl context per thread" rule. We can still free from any thread and actual freeing will occur at new vao allocation or next context binding.
2018-02-19 23:50:52 +01:00
Cleanup: Clang-Tidy modernize-redundant-void-arg
2021-12-08 00:31:20 -05:00
GPUContext *GPU_context_active_get()
GWN: Port to GPU module: codestyle & licence
2018-07-17 14:46:44 +02:00
{
GPUContext: Move GPUContext to gpu::Context for more consistency This makes the GPUContext follow the same naming convention as the rest of the module. Also add a static getter for extra bonus style (no need for casts): - Context::get() - GLContext::get()
2020-09-08 04:12:12 +02:00
return wrap(Context::get());
Manage GPU_matrix stacks per GPUContext Previously, we had one global `GPU_matrix` stack, so the API was not thread safe. This patch makes the stack be per `GPUContext`, effectively making it local per thread (`GPUContext` is located in thread local storage). Reviewed By: brecht Differential Revision: https://developer.blender.org/D5405
2019-08-14 15:27:10 +02:00
}
Fix T77346: GPU Workaround Always Render Using Main Context In Blender 2.90 EEVEE materials were refactored that introduced crashes on Intel GPUs on Windows. The crash happened in the `local_context_workaround` that temporary stored compiled materials in a binary form to reload it in the main GL context. It has been tested that the workaround isn't needed anymore for HD6xx GPUs, but it is still needed for HD4000. After several unsuccesfull fixes we came to the conclusion that we could not support the local context workaround and needed to come with a different workaround. The idea of this patch is that in these cases there is only a single context that is used for rendering. Threads that uses these contextes are guarded by a mutex and will block. Impact on User Level: * Due to main mutex lock the UI freezes when rendering or baking or feel less snappy Reviewed By: Clément Foucault, Brecht van Lommel Differential Revision: https://developer.blender.org/D8410
2020-08-05 15:26:49 +02:00
GPUBackend: Add new GPUBackend object to manage GL object allocations This just set a global object responsible for allocating new objects in a thread safe way without needing any GPUContext bound to this thread. This also introduce the GLContext which will contain all the GL related functions for the current context. # Conflicts: # source/blender/gpu/intern/gpu_context.cc
2020-08-08 01:18:18 +02:00
/* -------------------------------------------------------------------- */
/** \name Main context global mutex
*
* Used to avoid crash on some old drivers.
* \{ */
static std::mutex main_context_mutex;
Cleanup: Clang-Tidy modernize-redundant-void-arg
2021-12-08 00:31:20 -05:00
void GPU_context_main_lock()
Fix T77346: GPU Workaround Always Render Using Main Context In Blender 2.90 EEVEE materials were refactored that introduced crashes on Intel GPUs on Windows. The crash happened in the `local_context_workaround` that temporary stored compiled materials in a binary form to reload it in the main GL context. It has been tested that the workaround isn't needed anymore for HD6xx GPUs, but it is still needed for HD4000. After several unsuccesfull fixes we came to the conclusion that we could not support the local context workaround and needed to come with a different workaround. The idea of this patch is that in these cases there is only a single context that is used for rendering. Threads that uses these contextes are guarded by a mutex and will block. Impact on User Level: * Due to main mutex lock the UI freezes when rendering or baking or feel less snappy Reviewed By: Clément Foucault, Brecht van Lommel Differential Revision: https://developer.blender.org/D8410
2020-08-05 15:26:49 +02:00
{
main_context_mutex.lock();
}
Cleanup: Clang-Tidy modernize-redundant-void-arg
2021-12-08 00:31:20 -05:00
void GPU_context_main_unlock()
Fix T77346: GPU Workaround Always Render Using Main Context In Blender 2.90 EEVEE materials were refactored that introduced crashes on Intel GPUs on Windows. The crash happened in the `local_context_workaround` that temporary stored compiled materials in a binary form to reload it in the main GL context. It has been tested that the workaround isn't needed anymore for HD6xx GPUs, but it is still needed for HD4000. After several unsuccesfull fixes we came to the conclusion that we could not support the local context workaround and needed to come with a different workaround. The idea of this patch is that in these cases there is only a single context that is used for rendering. Threads that uses these contextes are guarded by a mutex and will block. Impact on User Level: * Due to main mutex lock the UI freezes when rendering or baking or feel less snappy Reviewed By: Clément Foucault, Brecht van Lommel Differential Revision: https://developer.blender.org/D8410
2020-08-05 15:26:49 +02:00
{
main_context_mutex.unlock();
}
GPUBackend: Add new GPUBackend object to manage GL object allocations This just set a global object responsible for allocating new objects in a thread safe way without needing any GPUContext bound to this thread. This also introduce the GLContext which will contain all the GL related functions for the current context.
2020-08-07 17:00:28 +02:00
GPUBackend: Add new GPUBackend object to manage GL object allocations This just set a global object responsible for allocating new objects in a thread safe way without needing any GPUContext bound to this thread. This also introduce the GLContext which will contain all the GL related functions for the current context. # Conflicts: # source/blender/gpu/intern/gpu_context.cc
2020-08-08 01:18:18 +02:00
/** \} */
Metal: Initial Implementation of Metal Backend for GPU Module. Adding WITH_METAL option to CMAKE to guard compilation for macOS only. Implemented stub METALBackend to mirror GPUBackend interface and added capabilities initialisation, along with API initialisation paths. Global rendering coordination commands added to backend with GPU_render_begin and GPU_render_end() commands globally wrapping GPU work. This is required for Metal to ensure temporary resources are generated within an NSAutoReleasePool and freed accordingly. Authored by Apple: Michael Parkin-White, Vil Harvey, Marco Giordano, Michael Jones, Morteza Mostajabodaveh, Jason Fielder Ref T96261 Reviewed By: fclem Maniphest Tasks: T96261 Differential Revision: https://developer.blender.org/D14293
2022-03-22 12:38:28 +01:00
/* -------------------------------------------------------------------- */
/** \name GPU Begin/end work blocks
*
* Used to explicitly define a per-frame block within which GPU work will happen.
* Used for global autoreleasepool flushing in Metal
* \{ */
void GPU_render_begin() {
GPUBackend* backend = GPUBackend::get();
BLI_assert(backend);
backend->render_begin();
}
void GPU_render_end() {
GPUBackend* backend = GPUBackend::get();
BLI_assert(backend);
backend->render_end();
}
void GPU_render_step() {
GPUBackend* backend = GPUBackend::get();
BLI_assert(backend);
backend->render_step();
}
/** \} */
GPUBackend: Add new GPUBackend object to manage GL object allocations This just set a global object responsible for allocating new objects in a thread safe way without needing any GPUContext bound to this thread. This also introduce the GLContext which will contain all the GL related functions for the current context.
2020-08-07 17:00:28 +02:00
/* -------------------------------------------------------------------- */
/** \name Backend selection
* \{ */
static GPUBackend *g_backend;
Metal: Initial Implementation of Metal Backend for GPU Module. Adding WITH_METAL option to CMAKE to guard compilation for macOS only. Implemented stub METALBackend to mirror GPUBackend interface and added capabilities initialisation, along with API initialisation paths. Global rendering coordination commands added to backend with GPU_render_begin and GPU_render_end() commands globally wrapping GPU work. This is required for Metal to ensure temporary resources are generated within an NSAutoReleasePool and freed accordingly. Authored by Apple: Michael Parkin-White, Vil Harvey, Marco Giordano, Michael Jones, Morteza Mostajabodaveh, Jason Fielder Ref T96261 Reviewed By: fclem Maniphest Tasks: T96261 Differential Revision: https://developer.blender.org/D14293
2022-03-22 12:38:28 +01:00
bool GPU_backend_supported(eGPUBackendType type)
{
switch (type) {
case GPU_BACKEND_OPENGL:
#ifdef WITH_OPENGL_BACKEND
return true;
#else
return false;
#endif
case GPU_BACKEND_METAL:
#ifdef WITH_METAL_BACKEND
return MTLBackend::metal_is_supported();
#else
return false;
#endif
default:
BLI_assert(false && "No backend specified");
return false;
}
}
GPUBackend: Add new GPUBackend object to manage GL object allocations This just set a global object responsible for allocating new objects in a thread safe way without needing any GPUContext bound to this thread. This also introduce the GLContext which will contain all the GL related functions for the current context.
2020-08-07 17:00:28 +02:00
void GPU_backend_init(eGPUBackendType backend_type)
{
Cleanup: Clang-Tidy modernize-use-nullptr Replace `NULL` with `nullptr` in C++ code. No functional changes.
2020-11-06 17:49:09 +01:00
BLI_assert(g_backend == nullptr);
Metal: Initial Implementation of Metal Backend for GPU Module. Adding WITH_METAL option to CMAKE to guard compilation for macOS only. Implemented stub METALBackend to mirror GPUBackend interface and added capabilities initialisation, along with API initialisation paths. Global rendering coordination commands added to backend with GPU_render_begin and GPU_render_end() commands globally wrapping GPU work. This is required for Metal to ensure temporary resources are generated within an NSAutoReleasePool and freed accordingly. Authored by Apple: Michael Parkin-White, Vil Harvey, Marco Giordano, Michael Jones, Morteza Mostajabodaveh, Jason Fielder Ref T96261 Reviewed By: fclem Maniphest Tasks: T96261 Differential Revision: https://developer.blender.org/D14293
2022-03-22 12:38:28 +01:00
BLI_assert(GPU_backend_supported(backend_type));
GPUBackend: Add new GPUBackend object to manage GL object allocations This just set a global object responsible for allocating new objects in a thread safe way without needing any GPUContext bound to this thread. This also introduce the GLContext which will contain all the GL related functions for the current context.
2020-08-07 17:00:28 +02:00
switch (backend_type) {
Metal: Initial Implementation of Metal Backend for GPU Module. Adding WITH_METAL option to CMAKE to guard compilation for macOS only. Implemented stub METALBackend to mirror GPUBackend interface and added capabilities initialisation, along with API initialisation paths. Global rendering coordination commands added to backend with GPU_render_begin and GPU_render_end() commands globally wrapping GPU work. This is required for Metal to ensure temporary resources are generated within an NSAutoReleasePool and freed accordingly. Authored by Apple: Michael Parkin-White, Vil Harvey, Marco Giordano, Michael Jones, Morteza Mostajabodaveh, Jason Fielder Ref T96261 Reviewed By: fclem Maniphest Tasks: T96261 Differential Revision: https://developer.blender.org/D14293
2022-03-22 12:38:28 +01:00
#ifdef WITH_OPENGL_BACKEND
GPUBackend: Add new GPUBackend object to manage GL object allocations This just set a global object responsible for allocating new objects in a thread safe way without needing any GPUContext bound to this thread. This also introduce the GLContext which will contain all the GL related functions for the current context.
2020-08-07 17:00:28 +02:00
case GPU_BACKEND_OPENGL:
g_backend = new GLBackend;
break;
Metal: Initial Implementation of Metal Backend for GPU Module. Adding WITH_METAL option to CMAKE to guard compilation for macOS only. Implemented stub METALBackend to mirror GPUBackend interface and added capabilities initialisation, along with API initialisation paths. Global rendering coordination commands added to backend with GPU_render_begin and GPU_render_end() commands globally wrapping GPU work. This is required for Metal to ensure temporary resources are generated within an NSAutoReleasePool and freed accordingly. Authored by Apple: Michael Parkin-White, Vil Harvey, Marco Giordano, Michael Jones, Morteza Mostajabodaveh, Jason Fielder Ref T96261 Reviewed By: fclem Maniphest Tasks: T96261 Differential Revision: https://developer.blender.org/D14293
2022-03-22 12:38:28 +01:00
#endif
#ifdef WITH_METAL_BACKEND
case GPU_BACKEND_METAL:
g_backend = new MTLBackend;
break;
GPUBackend: Add new GPUBackend object to manage GL object allocations This just set a global object responsible for allocating new objects in a thread safe way without needing any GPUContext bound to this thread. This also introduce the GLContext which will contain all the GL related functions for the current context.
2020-08-07 17:00:28 +02:00
#endif
default:
BLI_assert(0);
break;
}
}
Cleanup: Clang-Tidy modernize-redundant-void-arg
2021-12-08 00:31:20 -05:00
void GPU_backend_exit()
GPUBackend: Add new GPUBackend object to manage GL object allocations This just set a global object responsible for allocating new objects in a thread safe way without needing any GPUContext bound to this thread. This also introduce the GLContext which will contain all the GL related functions for the current context.
2020-08-07 17:00:28 +02:00
{
Cleanup: consistent use of tags: NOTE/TODO/FIXME/XXX Also use doxy style function reference `#` prefix chars when referencing identifiers.
2021-07-03 23:08:40 +10:00
/* TODO: assert no resource left. Currently UI textures are still not freed in their context
Cleanup: Resolve clang tidy warning / error
2020-08-11 14:58:01 -04:00
* correctly. */
delete g_backend;
Cleanup: Clang-Tidy modernize-use-nullptr Replace `NULL` with `nullptr` in C++ code. No functional changes.
2020-11-06 17:49:09 +01:00
g_backend = nullptr;
GPUBackend: Add new GPUBackend object to manage GL object allocations This just set a global object responsible for allocating new objects in a thread safe way without needing any GPUContext bound to this thread. This also introduce the GLContext which will contain all the GL related functions for the current context.
2020-08-07 17:00:28 +02:00
}
OpenSubDiv: add support for an OpenGL evaluator This evaluator is used in order to evaluate subdivision at render time, allowing for faster renders of meshes with a subdivision surface modifier placed at the last position in the modifier list. When evaluating the subsurf modifier, we detect whether we can delegate evaluation to the draw code. If so, the subdivision is first evaluated on the GPU using our own custom evaluator (only the coarse data needs to be initially sent to the GPU), then, buffers for the final `MeshBufferCache` are filled on the GPU using a set of compute shaders. However, some buffers are still filled on the CPU side, if doing so on the GPU is impractical (e.g. the line adjacency buffer used for x-ray, whose logic is hardly GPU compatible). This is done at the mesh buffer extraction level so that the result can be readily used in the various OpenGL engines, without having to write custom geometry or tesselation shaders. We use our own subdivision evaluation shaders, instead of OpenSubDiv's vanilla one, in order to control the data layout, and interpolation. For example, we store vertex colors as compressed 16-bit integers, while OpenSubDiv's default evaluator only work for float types. In order to still access the modified geometry on the CPU side, for use in modifiers or transform operators, a dedicated wrapper type is added `MESH_WRAPPER_TYPE_SUBD`. Subdivision will be lazily evaluated via `BKE_object_get_evaluated_mesh` which will create such a wrapper if possible. If the final subdivision surface is not needed on the CPU side, `BKE_object_get_evaluated_mesh_no_subsurf` should be used. Enabling or disabling GPU subdivision can be done through the user preferences (under Viewport -> Subdivision). See patch description for benchmarks. Reviewed By: campbellbarton, jbakker, fclem, brecht, #eevee_viewport Differential Revision: https://developer.blender.org/D12406
2021-12-27 16:34:47 +01:00
eGPUBackendType GPU_backend_get_type()
{
Metal: Initial Implementation of Metal Backend for GPU Module. Adding WITH_METAL option to CMAKE to guard compilation for macOS only. Implemented stub METALBackend to mirror GPUBackend interface and added capabilities initialisation, along with API initialisation paths. Global rendering coordination commands added to backend with GPU_render_begin and GPU_render_end() commands globally wrapping GPU work. This is required for Metal to ensure temporary resources are generated within an NSAutoReleasePool and freed accordingly. Authored by Apple: Michael Parkin-White, Vil Harvey, Marco Giordano, Michael Jones, Morteza Mostajabodaveh, Jason Fielder Ref T96261 Reviewed By: fclem Maniphest Tasks: T96261 Differential Revision: https://developer.blender.org/D14293
2022-03-22 12:38:28 +01:00
#ifdef WITH_OPENGL_BACKEND
OpenSubDiv: add support for an OpenGL evaluator This evaluator is used in order to evaluate subdivision at render time, allowing for faster renders of meshes with a subdivision surface modifier placed at the last position in the modifier list. When evaluating the subsurf modifier, we detect whether we can delegate evaluation to the draw code. If so, the subdivision is first evaluated on the GPU using our own custom evaluator (only the coarse data needs to be initially sent to the GPU), then, buffers for the final `MeshBufferCache` are filled on the GPU using a set of compute shaders. However, some buffers are still filled on the CPU side, if doing so on the GPU is impractical (e.g. the line adjacency buffer used for x-ray, whose logic is hardly GPU compatible). This is done at the mesh buffer extraction level so that the result can be readily used in the various OpenGL engines, without having to write custom geometry or tesselation shaders. We use our own subdivision evaluation shaders, instead of OpenSubDiv's vanilla one, in order to control the data layout, and interpolation. For example, we store vertex colors as compressed 16-bit integers, while OpenSubDiv's default evaluator only work for float types. In order to still access the modified geometry on the CPU side, for use in modifiers or transform operators, a dedicated wrapper type is added `MESH_WRAPPER_TYPE_SUBD`. Subdivision will be lazily evaluated via `BKE_object_get_evaluated_mesh` which will create such a wrapper if possible. If the final subdivision surface is not needed on the CPU side, `BKE_object_get_evaluated_mesh_no_subsurf` should be used. Enabling or disabling GPU subdivision can be done through the user preferences (under Viewport -> Subdivision). See patch description for benchmarks. Reviewed By: campbellbarton, jbakker, fclem, brecht, #eevee_viewport Differential Revision: https://developer.blender.org/D12406
2021-12-27 16:34:47 +01:00
if (g_backend && dynamic_cast<GLBackend *>(g_backend) != nullptr) {
return GPU_BACKEND_OPENGL;
}
Metal: Initial Implementation of Metal Backend for GPU Module. Adding WITH_METAL option to CMAKE to guard compilation for macOS only. Implemented stub METALBackend to mirror GPUBackend interface and added capabilities initialisation, along with API initialisation paths. Global rendering coordination commands added to backend with GPU_render_begin and GPU_render_end() commands globally wrapping GPU work. This is required for Metal to ensure temporary resources are generated within an NSAutoReleasePool and freed accordingly. Authored by Apple: Michael Parkin-White, Vil Harvey, Marco Giordano, Michael Jones, Morteza Mostajabodaveh, Jason Fielder Ref T96261 Reviewed By: fclem Maniphest Tasks: T96261 Differential Revision: https://developer.blender.org/D14293
2022-03-22 12:38:28 +01:00
#endif
#ifdef WITH_METAL_BACKEND
if (g_backend && dynamic_cast<MTLBackend *>(g_backend) != nullptr) {
return GPU_BACKEND_METAL;
}
#endif
OpenSubDiv: add support for an OpenGL evaluator This evaluator is used in order to evaluate subdivision at render time, allowing for faster renders of meshes with a subdivision surface modifier placed at the last position in the modifier list. When evaluating the subsurf modifier, we detect whether we can delegate evaluation to the draw code. If so, the subdivision is first evaluated on the GPU using our own custom evaluator (only the coarse data needs to be initially sent to the GPU), then, buffers for the final `MeshBufferCache` are filled on the GPU using a set of compute shaders. However, some buffers are still filled on the CPU side, if doing so on the GPU is impractical (e.g. the line adjacency buffer used for x-ray, whose logic is hardly GPU compatible). This is done at the mesh buffer extraction level so that the result can be readily used in the various OpenGL engines, without having to write custom geometry or tesselation shaders. We use our own subdivision evaluation shaders, instead of OpenSubDiv's vanilla one, in order to control the data layout, and interpolation. For example, we store vertex colors as compressed 16-bit integers, while OpenSubDiv's default evaluator only work for float types. In order to still access the modified geometry on the CPU side, for use in modifiers or transform operators, a dedicated wrapper type is added `MESH_WRAPPER_TYPE_SUBD`. Subdivision will be lazily evaluated via `BKE_object_get_evaluated_mesh` which will create such a wrapper if possible. If the final subdivision surface is not needed on the CPU side, `BKE_object_get_evaluated_mesh_no_subsurf` should be used. Enabling or disabling GPU subdivision can be done through the user preferences (under Viewport -> Subdivision). See patch description for benchmarks. Reviewed By: campbellbarton, jbakker, fclem, brecht, #eevee_viewport Differential Revision: https://developer.blender.org/D12406
2021-12-27 16:34:47 +01:00
return GPU_BACKEND_NONE;
}
Cleanup: Clang-Tidy, modernize-redundant-void-arg
2020-11-06 13:18:48 +01:00
GPUBackend *GPUBackend::get()
GPUBackend: Add new GPUBackend object to manage GL object allocations This just set a global object responsible for allocating new objects in a thread safe way without needing any GPUContext bound to this thread. This also introduce the GLContext which will contain all the GL related functions for the current context.
2020-08-07 17:00:28 +02:00
{
return g_backend;
}
/** \} */
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