This was an old issue, but recent image partial update changes made this more
likely to happen in some cases. Now ensure that whenever the rendered scene
switches the image is updated.
The problem was that the code for sorting polygons around a vertex
assumed that it was a manifold or boundary vertex. However in some cases
the vertex could still be nonmanifold causing the crash. The cases where
the sorting fails are now detected and these vertices are then marked as
nonmanifold.
Differential Revision: https://developer.blender.org/D14065
The "Fill Caps" option on the Curve to Mesh node introduced in
rBbc2f4dd8b408ee makes it possible to fill the open ends of the sweep
to create a manifold mesh.
This patch fixes an edge case, where caps were created even when the
rail curve (the curve used in the "Curve" input socket) was cyclic
making the resulting mesh non-manifold.
Differential Revision: https://developer.blender.org/D14124
In ffmpeg 5.0, several variables were made const to try to prevent bad API usage.
Removed some dead code that wasn't used anymore as well.
Reviewed By: Richard Antalik
Differential Revision: http://developer.blender.org/D14063
Fix boundary error in `BLI_str_unescape_ex`. The `dst_maxncpy` parameter
indicates the maximum buffer size, not the maximum number of characters.
As these are strings, the loop has to stop one byte early to allow space
for the trailing zero byte.
Thanks @mano-wii for the patch!
When new display driver is given to the PathTrace ensure that there are
no GPU resources used from it by the work. This solves graphics interop
descriptors leak.
This aqlso fixes Invalid graphics context in cuGraphicsUnregisterResource
error when doing final render on the display GPU.
Fixes T95837: Regression: GPU memory accumulation in Cycles render
Fixes T95733: Cycles Cuda/Optix error message with multi GPU devices. (Invalid graphics context in cuGraphicsUnregisterResource)
Fixes T95651: GPU error (Invalid graphics context in cuGraphicsUnregisterResource)
Fixes T95631: VRAM is not being freed when rendering (Invalid graphics context in cuGraphicsUnregisterResource)
Fixes T89747: Cycles Render - Textures Disappear then Crashes the Render
Maniphest Tasks: T95837, T95733, T95651, T95631, T89747
Differential Revision: https://developer.blender.org/D14146
Add check for `NULL` `from` pointer to `BLO_main_validate_shapekeys`,
and delete these shapekeys, as they are fully invalid and impossible to
recover.
Found in a studio production file (`animation
test/snow_parkour/shots/0040/0040.lighting.blend`, svn rev `1111`).
Would be nice to know how this was generated too...
Previous implementation had a copy of the image user, which doesn't
contain all the data to identify changes. This patch introduces a new
struct to store the data and can be extended with other data as well
(color spaces, alpha settings).
For the attribute search button, the tooltip was missing
if the input socket type has attribute toggle activated.
Differential Revision: https://developer.blender.org/D14142
This affected loading of EXR files with set to Linear ACES colorspace, as
well as the sky texture for in some custom OpenColorIO configurations.
Use the builtin OpenColorIO transform from ACES AP0 to XYZ D65 to fix this.
I noticed that there were a few variables that should not be visible per default.
It seems to me to simply be an oversight, so I went ahead and cleaned them up.
Reviewed By: Sybren, Ray molenkamp
Differential Revision: http://developer.blender.org/D14132
This is a bug on the Blender side, where the depsgraph does not have proper
relations for text object duplis and fails to include the required materials
in the dependency graph. But at least Cycles should not crash.
FindOpenImageIO was updated to link to separate OpenImageIO_Util for new
versions, where it is required. For older versions, we can not link to it
because there will be duplicated symbols.
Ref D14128
FindOpenEXR was updated to find new lib names and separate Imath. It's all
added to the list of OpenEXR include dirs and libs.
This keeps it compatible with both version 2 and 3 for now, and doesn't
require changes outside the find module.
Ref D14128
Coarse meshes with high polycount would show as corrupted when GPU
subdivision is used with AMD cards This was caused by the OpenSubdiv
library not taking `GL_MAX_COMPUTE_WORK_GROUP_COUNT` into account when
dispatching computes. AMD drivers tend to set the limit lower than
NVidia ones (2^16 for the former, and 2^32 for the latter, at least
on my machine).
This moves the `GLComputeEvaluator` from the OpenSubdiv library into
`intern/opensubdiv` and modifies it to compute a dispatch size in a
similar way as for the draw code: we split the dispatch size into a 2
dimensional value based on `GL_MAX_COMPUTE_WORK_GROUP_COUNT` and
manually compute an index in the shader.
We could have patched the OpenSubdiv library and sent the fix upstream
(which can still be done), however, moving it to our side allows us to
better control the `GLComputeEvaluator` and in the future remove some
redundant work that it does compared to Blender (see T94644) and
probably prepare the ground for Vulkan support. As a matter of fact,
this patch also removes the OpenGL initialization that OpenSubdiv would
do here. This removal is not related to the bug fix, but necessary to not
have to copy more files/code over.
Differential Revision: https://developer.blender.org/D14131
This fixes VR pink screen issues when using the DirectX backend, caused
by `wglDXRegisterObjectNV()` failing to register the shared
OpenGL-DirectX render buffer. The issue is mainly present on AMD
graphics, however, there have been reports on NVIDIA as well.
A limited workaround for the SteamVR runtime (AMD only) was provided
in rB82ab2c167844, however this patch provides a more complete solution
that should apply to all OpenXR runtimes. For example, with this patch,
the Windows Mixed Reality runtime that exclusively uses DirectX can now
be used with AMD graphics cards.
Implementation-wise, a `GL_TEXTURE_2D` render target is used as a
fallback for the shared OpenGL-DirectX resource in the case that
registering a render buffer (`GL_RENDERBUFFER`) fails. While using a
texture render target may be less optimal than a render buffer, it
enables proper display in VR using the OpenGL/DirectX interop (tested
on AMD Vega 64).
Reviewed By: Severin
Differential Revision: https://developer.blender.org/D14100
StringGrid has been deprecated in openvdb 9.0.0 and will be removed soon
Reviewed By: Brecht
Differential Revision: http://developer.blender.org/D14133
GLUT does not support offscreen contexts, which is required for the new
display driver. So we use SDL instead. Note that this requires using a
system SDL package, the Blender precompiled SDL does not include the video
subsystem.
There is currently no text display support, instead info is printed to
the terminal. This would require adding an embedded font and GLSL shaders,
or using GUI library.
Another improvement to be made is supporting OpenColorIO display transforms,
right now we assume Rec.709 scene linear and display.
All OpenGL, GLEW and SDL code was move out of core cycles and into
app/opengl. This serves as a template for apps that want to integrate
Cycles interactive rendering, with a simple OpenGLDisplayDriver example.
In general this would be adapted to the graphics API and color management
used by the app.
Ref T91846
Due to recent changes there have been reports of incorrect loading of
GPU textures. This fix reverts a part of {D13238} that might be the
source of the issue.
This does not happen with **any** image, but with images that have ID
properties.
ID properties are used to store view projection matrices (e.g. for
reprojection with `Image from View` or `Quick Edit` -- these are the
ones we are interested in), but of course they can be used for anything
else, too. The images in the file from the report have ID properties from
an Addon for example.
So the crash can reliably be reproduced with **any** image doing the
following:
```
bpy.data.images['myImage']['myIDprop'] = "foo"
```
This would lead code in `texture_paint_camera_project_exec` to think the
needed `view_data` is on the image (but in reality it was just some
other IDprop).
Solution is simple: just check `view_data` is really valid after getting
it from the IDprops.
Maniphest Tasks: T95787
Differential Revision: https://developer.blender.org/D14116
Although rB56407432a6a did fix missing subdivision in some cases, in
other cases it did not return the mesh wrapper (like when using
autosmooth, which requires a copy of the mesh), so the non-subdivided
mesh was still returned.
Not all coarse vertices were used to compute the center value (off by
one), and the interpolation for the current would always start at the
base corner for the base face instead of the base corner for the current
patch.
Set "view2d_edge_pan" to true for the NODE_OT_translate_attach operator,
which is used by the duplication operator. This is done in the keymap so
that it's not hard-coded.
Differential Revision: https://developer.blender.org/D13934
The root issue was caused by a mistake in modifier copy data which was
wrongly re-generating source modifier data identifier.
The c8cca88851 simply exposed a bug in code which always was there
since the modifiers session UUID was introduced.
Shows an importance of const qualifier :)
Since now we delegate the evaluation of the last subsurf modifier in the stack
to the draw code, Cycles does not get a subdivided mesh anymore. This is because
the subdivision wrapper for generating a CPU side subdivision is never created
as it is only ever created via `BKE_object_get_evaluated_mesh` which Cycles does
not call (rather, it accesses the Mesh either via `object.data()`, or via
`object.to_mesh()`).
This ensures that a subdivision wrapper is created when accessing the object data
or converting an Object to a Mesh via the RNA/Python API.
Reviewed by: brecht
Differential Revision: https://developer.blender.org/D14048
The crash is caused as we did not check that the RNA pointer is null
before trying to use it. This moves the existing checks from the
modifier panels into the template functions so the logic is a bit
centralized.
The issue has two causes: on one hand origin indices were not handled
properly, on the other hand the extraction type (Mesh, BMesh, or mapped)
was not detected correctly.
For the second case reuse the MeshRenderData creation from the coarse
code path so that we make the same decisions. Loose geometry extraction
had to be updated to properly handle the BMesh cases.
For the origin indices, in some cases (for edges and faces), the arrays
used by the subdivision code already have the origin indices baked into
them, so mapping them a second time through the origin index layer is
wrong, and could cause out of bounds accesses.
For vertices especially, we would use two arrays: one for mapping
subdivision vertices to coarse vertices, and another one to map coarse
vertices to subdivision loops used for the selection index buffer. The
second one is now removed (which saves a bit of memory) as it is did not
have the proper data setup for use with the origin indices and we can
easily compute it using the first array anyway.
Fix segfault when calling `some_id.id_properties_ui("propname").update()`,
i.e. call the `update()` function without any keyword arguments. In such
a case, Python passes `kwargs = NULL`, but `PyDict_Contains()` is not
`NULL`-safe.
