Age | Commit message (Collapse) | Author |
|
|
|
|
|
|
|
|
|
real user.
|
|
Some IDs (like text ones) can be linked and only kept around thanks to
editors, allow making such IDs local in `BKE_lib_id_make_local_generic`.
Also refactor logic checking whether ID should be made directly local or
copied into its own util function, so that we can remain sure all
special-cases 'make local' code still uses the same logic here.
|
|
The "Relative" input isn't immediately obvious unless one is familar
with that naming pattern, so an explicit description may be helpful.
|
|
Currently there are many function declarations in `BKE_node.h` that
don't actually have implementations in blenkernel. This commit moves
the declarations to `NOD_composite.h`, `NOD_texture.h`, and
`NOD_shader.h` instead. This helps to clarify the purpose of the
different modules.
Differential Revision: https://developer.blender.org/D13869
|
|
To avoid the issue we search using the name in the `name_buffer_` which
already have the array suffix stripped out.
|
|
This is because the `glUniform1i` calls were not preceeded by `glUseProgram`
which made parameters not stick.
|
|
4400 and 4600
Fixes T93680
For current drivers of Intel HD Graphics 4400 and 4600, various Program Introspection functions appear broken and return incorrect values, causing crashes in the current handling of SSBOs. Disable use of this feature on those devices. Add checks to features that use SSBOs (Hair and Subdivision Modifier).
Reviewed By: fclem, jbakker
Maniphest Tasks: T93680
Differential Revision: https://developer.blender.org/D13806
|
|
The point IBO should only have data for coarse vertices (or in general,
the vertices in the original mesh). As it used for displaying the
vertices for selection in edit mode, and as it indexes into the VBOs for
the positions and edit data, it is itself only indexed by coarse/
original vertex index.
For the subdivision case, this would allocate space for the final
subdivision vertex and reallocate to make room for loose geometry,
although only the first coarse vertex count amount of data would be.
Now just allocate for the required memory. Also reuse index buffer APIs
instead of doing manual work.
|
|
|
|
This is so it will be easier to keep the logic to toggle on/off in sync
because they are declared close to eachother.
|
|
Previously weight paint wasn't hooked up to the "Smooth" and "Invert" modes.
With this patch it is not possible to use the "Smooth" and "Invert"
modifiers for the draw keybindings.
Reviewed By: Campbell Barton
Differential Revision: http://developer.blender.org/D13857
|
|
Same fix as for {rBc09f61a9157ddee0e186db52fb7ac0f4cdae09da}
|
|
The `SCULPT_TRANSFORM_DISPLACEMENT_INCREMENTAL` value is not actually
being used.
Keeping it in the code only complicates its readability.
|
|
Some drivers/glsl compilers will not warn about multiple resources using
the same binding, creating silent errors.
This patch checks for this case and outputs a descriptive error message if
a particular createInfo merge error is founds.
Other validation can be added later.
|
|
|
|
iDuring sprite fright loading of complex scenes would spend a long time in remapping ID's
The remapping process is done on a per ID instance that resulted in a very time consuming
process that goes over every possible ID reference to find out if it needs to be updated.
If there are N of references to ID blocks and there are M ID blocks that needed to be remapped
it would take N*M checks. These checks are scattered around the place and memory.
Each reference would only be updated at most once, but most of the time no update is needed at all.
Idea: By grouping the changes together will reduce the number of checks resulting in improved performance.
This would only require N checks. Additional benefits is improved data locality as data is only loaded once
in the L2 cache.
It has be implemented for the resyncing process and UI editors.
On an Intel(R) Core(TM) i7-6700 CPU @ 3.40GHz 16Gig the resyncing process went
from 170 seconds to 145 seconds (during hotspot recording).
After this patch has been applied we could add similar approach
to references (references between data blocks) and functionality (tagged deletion).
In my understanding this could reduce the resyncing process to less than a second.
Opening the village production file between 10 and 20 seconds.
Flame graphs showing that UI remapping isn't visible anymore (`WM_main_remap_editor_id_reference`)
* Master {F12769210 size=full}
* This patch {F12769211 size=full}
|
|
|
|
|
|
|
|
iDuring sprite fright loading of complex scenes would spend a long time in remapping ID's
The remapping process is done on a per ID instance that resulted in a very time consuming
process that goes over every possible ID reference to find out if it needs to be updated.
If there are N of references to ID blocks and there are M ID blocks that needed to be remapped
it would take N*M checks. These checks are scattered around the place and memory.
Each reference would only be updated at most once, but most of the time no update is needed at all.
Idea: By grouping the changes together will reduce the number of checks resulting in improved performance.
This would only require N checks. Additional benefits is improved data locality as data is only loaded once
in the L2 cache.
It has be implemented for the resyncing process and UI editors.
On an Intel(R) Core(TM) i7-6700 CPU @ 3.40GHz 16Gig the resyncing process went
from 170 seconds to 145 seconds (during hotspot recording).
After this patch has been applied we could add similar approach
to references (references between data blocks) and functionality (tagged deletion).
In my understanding this could reduce the resyncing process to less than a second.
Opening the village production file between 10 and 20 seconds.
Flame graphs showing that UI remapping isn't visible anymore (`WM_main_remap_editor_id_reference`)
* Master {F12769210 size=full}
* This patch {F12769211 size=full}
|
|
This patch introduces an extrude node with three modes. The vertex mode
is quite simple, and just attaches new edges to the selected vertices.
The edge mode attaches new faces to the selected edges. The faces mode
extrudes patches of selected faces, or each selected face individually,
depending on the "Individual" boolean input.
The default value of the "Offset" input is the mesh's normals, which
can be scaled with the "Offset Scale" input.
**Attribute Propagation**
Attributes are transferred to the new elements with specific rules.
Attributes will never change domains for interpolations. Generally
boolean attributes are propagated with "or", meaning any connected
"true" value that is mixed in for other types will cause the new value
to be "true" as well. The `"id"` attribute does not have any special
handling currently.
Vertex Mode
- Vertex: Copied values of selected vertices.
- Edge: Averaged values of selected edges. For booleans, edges are
selected if any connected edges are selected.
Edge Mode
- Vertex: Copied values of extruded vertices.
- Connecting edges (vertical): Average values of connected extruded
edges. For booleans, the edges are selected if any connected
extruded edges are selected.
- Duplicate edges: Copied values of selected edges.
- Face: Averaged values of all faces connected to the selected edge.
For booleans, faces are selected if any connected original faces
are selected.
- Corner: Averaged values of corresponding corners in all faces
connected to selected edges. For booleans, corners are selected
if one of those corners are selected.
Face Mode
- Vertex: Copied values of extruded vertices.
- Connecting edges (vertical): Average values of connected selected
edges, not including the edges "on top" of extruded regions.
For booleans, edges are selected when any connected extruded edges
were selected.
- Duplicate edges: Copied values of extruded edges.
- Face: Copied values of the corresponding selected faces.
- Corner: Copied values of corresponding corners in selected faces.
Individual Face Mode
- Vertex: Copied values of extruded vertices.
- Connecting edges (vertical): Average values of the two neighboring
edges on each extruded face. For booleans, edges are selected
when at least one neighbor on the extruded face was selected.
- Duplicate edges: Copied values of extruded edges.
- Face: Copied values of the corresponding selected faces.
- Corner: Copied values of corresponding corners in selected faces.
**Differences from edit mode**
In face mode (non-individual), the behavior can be different than the
extrude tools in edit mode-- this node doesn't handle keeping the back-
faces around in the cases that the edit mode tools do. The planned
"Solidify" node will handle that use case instead. Keeping this node
simpler and faster is preferable at this point, especially because that
sort of "smart" behavior is not that predictable and makes less sense
in a procedural context.
In the future, an "Even Offset" option could be added to this node
hopefully fairly simply. For now it is left out in order to keep
the patch simpler.
**Implementation**
For the implementation, the `Mesh` data structure is used directly
rather than converting to `BMesh` and back like D12224. This optimizes
for large extrusion operations rather than many sequential extrusions.
While this is potentially more verbose, it has some important benefits:
First, there is no conversion to and from `BMesh`. The code only has
to fill arrays and it can do that all at once, making each component of
the algorithm much easier to optimize. It also makes the attribute
interpolation more explicit, and likely faster. Only limited topology
maps must be created in most cases.
While there are some necessary loops and allocations with the size of
the entire mesh, I tried to keep everything I could on the order of the
size of the selection rather than the size of the mesh. In that respect,
the individual faces mode is the best, since there is no topology
information necessary, and the amount of work just depends on the size
of the selection.
Modifying an existing mesh instead of generating a new one was a bit
of a toss-up, but has a few potential benefits:
- Avoids manually copying over attribute data for original elements.
- Avoids some overhead of creating a new mesh.
- Can potentially take advantage of future ammortized mesh growth.
This could be changed easily if it turns out to be the wrong choice.
Differential Revision: https://developer.blender.org/D13709
|
|
|
|
|
|
When moving to C++ field for initialization was removed.
Favor assignments to field names as it reads better and avoids bugs if
files are ever re-arranged as well as mistakes (see T94784).
Note that the generated optimized output is identical with GCC11.
|
|
This adds a selection field input to the node, faces that are selected and
meet the minimum vertex count threshold will be triangulated.
Differential Revision: https://developer.blender.org/D13804
|
|
Add a boolean option to have the Curve Handle Position input node return the
position of the handle relative to each point position.
Differential Revision: https://developer.blender.org/D12947
|
|
|
|
- Use `Array` and `Span` instead of raw pointers.
- Declare variables in smaller scope.
- Use references instead of pointers.
|
|
A large polygon in the file from the report caused `alloca`
to exceed the maximum stack size, causing a crash. Instead
of using `alloca`, use `blender::Array` with an inline buffer.
Based on a patch by Germano Cavalcante (@mano-wii).
Differential Revision: https://developer.blender.org/D13898
|
|
When enabled, it will keep contour around the object instead of hide them by rule of face mark,
so the object can always have full contour while filtering out some of the feature lines inside certain regions.
Reviewed By: Antonio Vazquez (antoniov), Aleš Jelovčan (frogstomp)
Differential Revision: https://developer.blender.org/D13847
|
|
Option to discard back faced triangles, this speeds up calculation especially for when you only want to show visible feature lines.
Reviewed By: Antonio Vazquez (antoniov), Aleš Jelovčan (frogstomp)
Differential Revision: https://developer.blender.org/D13848
|
|
Instead of splitting it at each occlusion change, it tolerates short segments of "zig-zag" occlusion incoherence and doesn't split the chain at these points, thus creating a much smoother result.
Reviewed By: Antonio Vazquez (antoniov), Aleš Jelovčan (frogstomp)
Differential Revision: https://developer.blender.org/D13851
|
|
This gives a modest speedup as calculating tessellation and face
normals at the same time can be more efficiently multi-threaded.
Also avoids calculating face normals twice,
oversight in d590e223daf6e20d462f2b197d32606d69873051.
|
|
b7878a4d457a59d4a42f8ac0f428ea336562d75a seems to have caused linking
issues building debug mode on Linux.
Using extern "C" resolves.
|
|
Useful for a simpler bug fix, code clarity,
and easier possible optimizations in the future.
|
|
Need to use BLI_fopen instead of fopen.
|
|
|
|
This commit improves NURBS knot generation by adding proper support
for the combination of the Bezier and cyclic options. In other cases
the resulting knot doesn't change. This cyclic Bezier knot is used to
create accurate accurate "Nurbs Circle", "Nurbs Cylinder" primitives.
"Nurbs Sphere" and "Nurbs Torus" primitives are also improved by
tweaking the spin operator.
The knot vector in 3rd order NURBS curve with Bezier option turned on
(without cyclic) is changed in comparison to previous calculations,
although it doesn't change the curve shape itself.
The accuracy of the of NURBS circle is fixed, which can be checked by
comparing with mesh circle. Tessellation spacing differences in
circular NURBS is also fixed, which is observable with the NURBS
cylinder and sphere primitives. These were causing seam-like effects.
This commit contains comments from Piotr Makal (@pmakal).
Differential Revision: https://developer.blender.org/D11664
|
|
Normal layers currently aren't stored in the undo step
mesh storage, since they are not stored in files at all.
However, the edit mesh expects normals to be fully
calculated, and does not keep track of a dirty state.
This patch updates the normals in the BMesh created
by loading an undo step.
Another option would be calculating the normals on
the undo mesh first, which might be better if Mesh
normal calculation is faster than BMesh calculation,
but the preferred method to access vertex normals fails
in this case, because the mesh runtime mutexes are not
initialized for undo-state meshes.
Differential Revision: https://developer.blender.org/D13859
|
|
From an error in rBcfa53e0fbeed, the vertex normals in `SculptSession`
seem to be used, but in the case when no "pbvh" is used, the value of
the pointer is never assigned.
Normals were not generally dirty before this "ensure" function with
regular sculpting operations, so this addition shouldn't have any cost.
Differential Revision: https://developer.blender.org/D13854
|
|
All other nodes with data type and domain choices have the domain
below the data type. Generally that order makes sense, because it's
consistent with nodes that have no domain drop-down.
|
|
Because this operator is used on original objects, it's best to tag
the normals dirty instead of explicitly calculating them, to avoid
unnecessarily storing normal layers on an original object (since
they might have to be recalculated during evaluation anyway).
There may be other places this change is helpful, but being
conservative is likely better for now.
Related to T95125
|
|
No longer happens on the buildbot, but for users building with an older
Xcode we still need to avoid using value().
|
|
Negative number density is not a part of this reality.
|
|
The new OBJ exporter did not handle object instances.
The fix is to use a dependency graph iterator, asking for instances.
Unfortunately that iterator makes a temporary copy of instance objects
that does not persist past the iteration, but we need to save all the
objects and meshes to write later, so the Object has to be copied now.
This changed some unit tests. Even though the tests don't have instancing,
the iterator also picks up some Text objects as Mesh ones (which is a good
thing), resulting in two more objects in the all_objects.obj file output.
|
|
The UI team requested adding woff2 support to freetype.
this required a new dependency brotli.
This changes adds brotili to the builder and bumps
freetype to version 2.11.0
As freetype now depends on other libraries, for consistency
all use of ${FREETYPE_LIBRARY} in cmake has been updated to
use ${FREETYPE_LIBRARIES} adjustments have been made in the
windows platform file, all other platforms use cmake's
FindFreeType.cmake which already sets this variable.
reviewed by: brecht
Differential Revision: https://developer.blender.org/D13448
|