For this to work, we have to take into account handles in TransVert as
well.
Behavior is the same as in legacy curves (meaning that if the control
point itself is selected, the handles are ignores).
Part of #133448 (same thing for grease pencil, which I plan to also make
part of TransVert, but better solve for Curves first, so we can share
code here).
Pull Request: https://projects.blender.org/blender/blender/pulls/134945
Part of #134755 / #134766.
Previously operators to create or remove previews would only work on the
active asset/data-block. From feedback this can be quite an
inconvenience, e.g. when curating asset libraries for sharing or
production environments.
This change makes it so the following operators (all available in the
asset browser side-bar) create or remove the preview on the whole
selection:
- Generate Preview (refresh icon)
- Generate Preview from Object
- Remove Preview
Loading preview images from disk doesn't support this yet.
Pull Request: https://projects.blender.org/blender/blender/pulls/135267
Different object selection modes show custom names like "Select
(Extend)", but this does not happen for "Enumerate" modes. This PR
shows these modes (on the status bar) with specific names and alters
the title of the resulting menu from "Select Menu" to "Select Object",
"Deselect Object", etc.
Pull Request: https://projects.blender.org/blender/blender/pulls/134371
Move the code dealing with converting float3 to GPU normals
out of the vertex format header into a separate header. Use a
proper C++ namespace and remove duplication by only using
the more recently added C++ templated conversions.
Most of the diff comes from the removal of the indirect includes
from GPU_vertex_format.hh. A lot of files ended up mistakenly
depending on that.
Pull Request: https://projects.blender.org/blender/blender/pulls/134873
Though "Point Cloud" written as two words is technically correct and should be used in the UI, as one word it's typically easier to write and parse when reading. We had a mix of both before this patch, so better to unify this as well.
This commit also renames the editor/intern/ files to remove pointcloud_ prefix.
point_cloud was only preserved on the user facing strings:
* is_type_point_cloud
* use_new_point_cloud_type
Pull Request: https://projects.blender.org/blender/blender/pulls/134803
This adds:
- support for snapping for the pointcloud object (selection to cursor/
grid, cursor to selection)
- as usual, "Warp" an "Randomize" operators come along "for free" with
this
Pull Request: https://projects.blender.org/blender/blender/pulls/134799
Restriction of the nodes api to clearly define never-null function arguments.
Side effects: some assertions and null-check (with early return) were removed.
On the caller side is ensured to never derefer null to pass argument (mainly in RNA).
In addition, one pointer argument now actually a return type.
By-reference return types instead of pointers going to be separate kind of
change since also imply of cleaning up variables created from reference.
Also good future improvement would be to mark a copy-constructor as
explicit for DNA node types.
Pull Request: https://projects.blender.org/blender/blender/pulls/134627
Select All operator and boiler plate for future point cloud operators.
The selection code is basically copied/inspired by the curves selection
code. A lot of it could probably be moved to shared attribute selection
functions.
Note, while this patch is working well, there are some caveats
to test it:
* Shortcuts are being defined (you can see them in the Preferences). Yet
they are not working for whatever reason.
* There is no way to visualize the selection. I've been testing it by
using a Nodes tool that changes the material based on selection.
Pull Request: https://projects.blender.org/blender/blender/pulls/134450
Move `Library.runtime` to be a pointer, move the related
`LibraryRuntime` struct to `BKE_library.hh`. Similar to e.g.
Mesh.runtime, that pointer is expected to always be valid, and is
allocated at readtime or when creating a new Library ID.
Related smaller changes:
* Write code now uses standard ID writing codepath for Library IDs too.
* Runtime pointer is reset to nullptr before writing.
* Looking up a library by its absolute path is now handled through a
dedicated utils, `search_filepath_abs`, instead of using
`BLI_findstring`.
Pull Request: https://projects.blender.org/blender/blender/pulls/134188
Allow user to remove the preview of an asset from the asset browser details region.
Additionally, user can now reuse the default icons after adding a preview.
Pull Request: https://projects.blender.org/blender/blender/pulls/132575
The new description for `bNode.type_legacy`:
```
/**
* Legacy integer type for nodes. It does not uniquely identify a node type, only the `idname`
* does that. For example, all custom nodes use #NODE_CUSTOM but do have different idnames.
* This is mainly kept for compatibility reasons.
*
* Currently, this type is also used in many parts of Blender, but that should slowly be phased
* out by either relying on idnames, accessor methods like `node.is_reroute()`.
*
* A main benefit of this integer type over using idnames currently is that integer comparison is
* much cheaper than string comparison, especially if many idnames have the same prefix (e.g.
* "GeometryNode"). Eventually, we could introduce cheap-to-compare runtime identifier for node
* types. That could mean e.g. using `ustring` for idnames (where string comparison is just
* pointer comparison), or using a run-time generated integer that is automatically assigned when
* node types are registered.
*/
```
Pull Request: https://projects.blender.org/blender/blender/pulls/132858
The issue was that the range for the time offset operator
was so large, that the 0.1 increment seemingly had no effect.
The solution is to add functionality to the slider to specify the increment step.
Since the time offset operator deals in frames it made sense to snap to whole numbers.
Also fixes#132187
For that the increment step has been chosen to allow for 10 steps in the slider range.
Pull Request: https://projects.blender.org/blender/blender/pulls/132554
This caused build errors on the docs builder, I can't seem to reproduce
locally, so revert for now and have another look at some point in the
future.
Sadly as these changes usually go, this took 5c515e26bb and
2f0fc7fc9f with it as well.
Pull Request: https://projects.blender.org/blender/blender/pulls/132559
GPUViewport is creating a bunch of framebuffer textures for itself, but
some space types never initialize/use them. E.g. Sequencer, Nodes etc.
only ever use the "overlay" texture. Eventually when viewport is
"drawn", it combines this uninitialized texture data and then only by
luck it happens that most of the time it is black. But not always!
The textures were only cleared (right now) on Metal backend, under
GPU_clear_viewport_workaround as if it was some driver workaround. Stop
doing that, and just clear them always.
However, there was seemingly a performance issue on OpenGL, when this
clear was being done. At least on my machine (Win10, Geforce RTX
3080Ti), the overhead of doing the clears is measurable, and is caused
by usage of GL4.4 glClearTexImage instead of a framebuffer clear. As if
glClearTexImage makes "pixel data to exist" on the CPU side and then
later on binding this framebuffer sends off that data to the GPU, or
somesuch.
More details in the PR.
Pull Request: https://projects.blender.org/blender/blender/pulls/131518
03ae57dd8b extended poll functions to check if a given ID would result
in a non-empty preview using the automatic preview, but covered too many
operators. This check does not make sense for the Load Custom Preview,
or the Render Active Object operators. The former was fixed in
de487a6712, but turns out the same fix needs to be applied for the
latter too.
NOTE: This also required some changes to Cycles code itself, who is now
directly including `BKE_image.hh` instead of declaring a few prototypes
of these functions in its `blender/utils.h` header (due to C++ functions
names mangling, this was not working anymore).
Pull Request: https://projects.blender.org/blender/blender/pulls/130174
This adds a new type of zone to Geometry Nodes that allows executing some nodes
for each element in a geometry.
## Features
* The `Selection` input allows iterating over a subset of elements on the set
domain.
* Fields passed into the input node are available as single values inside of the
zone.
* The input geometry can be split up into separate (completely independent)
geometries for each element (on all domains except face corner).
* New attributes can be created on the input geometry by outputting a single
value from each iteration.
* New geometries can be generated in each iteration.
* All of these geometries are joined to form the final output.
* Attributes from the input geometry are propagated to the output
geometries.
## Evaluation
The evaluation strategy is similar to the one used for repeat zones. Namely, it
dynamically builds a `lazy_function::Graph` once it knows how many iterations
are necessary. It contains a separate node for each iteration. The inputs for
each iteration are hardcoded into the graph. The outputs of each iteration a
passed to a separate lazy-function that reduces all the values down to the final
outputs. This final output can have a huge number of inputs and that is not
ideal for multi-threading yet, but that can still be improved in the future.
## Performance
There is a non-neglilible amount of overhead for each iteration. The overhead is
way larger than the per-element overhead when just doing field evaluation.
Therefore, normal field evaluation should be preferred when possible. That can
partially still be optimized if there is only some number crunching going on in
the zone but that optimization is not implemented yet.
However, processing many small geometries (e.g. each hair of a character
separately) will likely **always be slower** than working on fewer larger
geoemtries. The additional flexibility you get by processing each element
separately comes at the cost that Blender can't optimize the operation as well.
For node groups that need to handle lots of geometry elements, we recommend
trying to design the node setup so that iteration over tiny sub-geometries is
not required.
An opposite point is true as well though. It can be faster to process more
medium sized geometries in parallel than fewer very large geometries because of
more multi-threading opportunities. The exact threshold between tiny, medium and
large geometries depends on a lot of factors though.
Overall, this initial version of the new zone does not implement all
optimization opportunities yet, but the points mentioned above will still hold
true later.
Pull Request: https://projects.blender.org/blender/blender/pulls/127331
This commit adds low-level logic in BKE to support three behaviors in
case of name conflict when renaming an ID:
1. Always tweak new name of the renamed ID (never modify the other ID
name).
2. Always set requested name in renamed ID, modifying as needed the
other ID name.
3. Only modify the other ID name if it shares the same root name with the
current renamed ID's name.
It also adds quite some changes to IDTemplate, Outliner code, and
RNA-defined UILayout code, and the lower-level UI button API, to allow
for the new behavior defined in the design (i.e. option three from above list).
When renaming from the UI either 'fails' (falls back to adjusted name) or forces
renaming another ID, an INFO report is displayed.
This commit also fixes several issues in existing code, especially
regarding undo handling in rename operations (which could lead to saving
the wrong name in undo step, and/or over-generating undo steps).
API wise, the bahavior when directly assigning a name to the `ID.name`
property remains unchanged (option one from the list above). But a new
API call `ID.rename` has been added, which offers all three behaviors.
Unittests were added to cover the new implemented behaviors (both at
BKE level, and the RNA/Py API).
This commit implements #119139 design.
Pull Request: https://projects.blender.org/blender/blender/pulls/126996
Fix a null pointer access in the slider drawing code. Determining the
width of the property label used `std::string::c_str()`, which on a
calloc'ed `std::string` returns `nullptr`.
The fix was to use `MEM_new()` instead of `MEM_callocN()` to allocate
the struct that contains the `std::string`.
Pull Request: https://projects.blender.org/blender/blender/pulls/127760
This commit mainly replaces a lot of `memset(0)` by empty value
initialization of `PointerRNA` and related data.
It also moves a few remaining areas from C alloc/free to C++ new/delete
memory hanlding.
Part of the effort to make PointerRNA non-trivial (#122431).
