This moves all multi-function related code in the `functions` module
into a new `multi_function` namespace. This is similar to how there
is a `lazy_function` namespace.
The main benefit of this is that many types names that were prefixed
with `MF` (for "multi function") can be simplified.
There is also a common shorthand for the `multi_function` namespace: `mf`.
This is also similar to lazy-functions where the shortened namespace
is called `lf`.
* `depends_on_context` was not used for a long time already.
* `param_data_indices` is not used since rB42b88c008861b6.
* The remaining data is moved to a single `Vector` to avoid
having to do two allocations when the size signature becomes
larger than fits into the inline buffer.
This avoids a move of the signature after building it. Tthe value had
to be moved out of `MFSignatureBuilder` in the `build` method.
This also makes the naming a bit less confusing where sometimes
both the `MFSignature` and `MFSignatureBuilder` were referred
to as "signature".
* New `build_mf` namespace for the multi-function builders.
* The type name of the created multi-functions is now "private",
i.e. the caller has to use `auto`. This has the benefit that the
implementation can change more freely without affecting
the caller.
* `CustomMF` does not use `std::function` internally anymore.
This reduces some overhead during code generation and at
run-time.
* `CustomMF` now supports single-mutable parameters.
This refactors how devirtualization is done in general and how
multi-functions use it.
* The old `Devirtualizer` class has been removed in favor of a simpler
solution. It is also more general in the sense that it is not coupled
with `IndexMask` and `VArray`. Instead there is a function that has
inputs which control how different types are devirtualized. The
new implementation is currently less general with regard to the number
of parameters it supports. This can be changed in the future, but
does not seem necessary now and would make the code less obvious.
* Devirtualizers for different types are now defined in their respective
headers.
* The multi-function builder works with the `GVArray` stored in `MFParams`
directly now, instead of first converting it to a `VArray<T>`. This reduces
some constant overhead, which makes the multi-function slightly
faster. This is only noticable when very few elements are processed though.
No functional changes or performance regressions are expected.
This implement most of the functions provided by the BLI math library.
This is part of the effort to unify GLSL and C++ syntax. Ref T103026.
This also adds some infrastructure to make it possible to run GLSL shader unit
test.
Some code already present in other libs is being copied to the new libs.
This patch does not make use of the new libs outside of the tests.
Note that the test is still crashing when using metal.
This was limiting the use of the templates with other non internal types
like Ceres types, xithout defining thing like that:
`template<> inline constexpr bool is_math_float_type<mpq_class> = true;`
This patch implements the matrix types (i.e:float4x4) by making heavy
usage of templating. All matrix functions are now outside of the vector
classes (inside the blender::math namespace) and are not vector size
dependent for the most part.
###Motivations
The goal/motivations of this rewrite are the same as the Vector C++ API (D13791):
- Template everything for making it work with any types and avoid code duplication.
- Use functional style instead of Object Oriented function call to allow a simple compatibility layer with GLSL syntax (see T103026 for more details).
- Allow most convenient constructor syntax and accessors (array subscript `matrix[c][r]`, or component alias `matrix.y.z`).
- Make it cover all features the current C API supports for adoption.
- Keep compilation time and debug performance somehow acceptable.
###Consideration:
- The new `MatView` class can be generated by `my_float.view<NumCol, NumRow, StartCol, StartRow>()` (with the last 2 being optionnal). This one allows modifying parts of the source matrix in place. It isn't pretty and duplicates a lot of code, but it is needed mainly to replace `normalize_m4`. At least I think it is a good starting point that can refined further.
- An exhaustive list of missing `BLI_math_matrix.h` functions from the new API can be found here P3373.
- This adds new Rotation types in order to have a clean API. This will be extended when we port the full Rotation API. The types are made so that they don't allow implicit down-casting to their vector representation.
- Some functions make direct use of the Eigen library, bypassing the Eigen C API defined in `intern/eigen`. Its use is contained inside `math_matrix.cc`. There is conflicting opinion wether we should use it more so I contained its usage to almost the tasks as in the C API for now.
Reviewed By: sergey, JacquesLucke, HooglyBoogly, Severin, brecht
Differential Revision: https://developer.blender.org/D16625
Profiling shows that this computation consumes a noticeable amount
of time, so it is worth moving it to an earlier part of the code
that is executed less frequently and is multithreaded.
Differential Revision: https://developer.blender.org/D16933
Both cloth object collision and self collision use a BVH tree
representing the current cloth shape. The only difference between
them is the epsilon threshold value.
If these values are the same, it is possible to use the same tree
for both uses, thus easily reducing the overhead in the case when
both collision modes are used by the same cloth object.
Differential Revision: https://developer.blender.org/D16914
Caused by f1c0249f34, which filled the wrong value.
I have noticed several problems:
- Using a full array as single result.
- Checking single material index for 0. If we have a list of all slots,
then we must check this in the list.
- The result was filled false. Simple fix.
- Fixed problem with incorrect recording by mask indices, not polygons.
- Added domain specifics to names to avoid confusion.
Differential Revision: https://developer.blender.org/D16926
Previously you had to use a workaround with the Object info node to get
evaluated data from the new curves object to an original editable mesh.
This commit makes it so that a curves object can be converted directly
to a mesh object if it has evaluated curves or an evaluated mesh.
Differential Revision: https://developer.blender.org/D16930
Socket locations are set while drawing the node tree in the editor.
They can always be recalculated this way based on the node position and
other factors. Storing them in the socket is misleading. Plus, ideally
sockets would be quite small to store, this helps us move in that
direction.
Now the socket locations are stored as runtime data of the node editor,
making use of the new node topology cache's `index_in_tree` function
to make a SoA layout possible.
Differential Revision: https://developer.blender.org/D15874
Improve animation playback performance in EEVEE for materials using Mix
nodes. Socket availability was being set and reset on every evaluation
of Mix nodes, during animation playback, this was causing the graph to
be marked dirty, and the whole graph being re-evaluated on every frame,
causing performance issues during playback.
Additionally, do a bit of cleanup, traversing the node sockets with
the next link to improve clarity and reduce errors. Also refactoring
`nodeSetSocketAvailability` to early out and increase clarity on no-op.
Differential Revision: https://developer.blender.org/D16929
The reported backtrace in T102766 strongly points at some
concurrency issues within exisitng liboverride diffing code that
restores forbidden changes to reference linked data values.
This commit instead add tags to mark liboverrides/properties that need
to be restored, and do so in a separate new step of diffing, from the
main thread only.
This patch moves the realtime compositor out of experimental. See
T99210.
The first milestone is finished with regards to implementing most
essential nodes for single pass compositing. It is also now documented
in the manual and no major issues are known.
Differential Revision: https://developer.blender.org/D16891
Reviewed By: Clement Foucault
This patch allows the realtime compositor to be limited to a specific
compositing region that is a subset of the full render region. In the
context of the viewport compositor, when the viewport is in camera view
and has a completely opaque passepartout, the compositing region will be
limited to the visible camera region.
On the user-level, this gives the user the ability to make the result of
the compositor invariant of the aspect ratio, shift, and zoom of the
viewport, making the result in the viewport identical to the final
render compositor assuming size relative operations.
It should be noted that compositing region is the *visible* camera
region, that is, the result of the intersection of the camera region and
the render region. So the user should be careful not to shift or zoom
the view such that the camera border extends outside of the viewport to
have the aforementioned benefits. While we could implement logic to fill
the areas outside of the render region with zeros in some cases, there
are many other ambiguous cases where such a solution wouldn't work,
including the problematic case where the user zooms in very close,
making the camera region much bigger than that of the render region.
Differential Revision: https://developer.blender.org/D16899
Reviewed By: Clement Foucault
Previously when on frame 2.5 and trying to jump to a
keyframe that was on frame 2, it would instead jump past it.
Now it properly respects the subframes for that.
Reviewed by: Sybren A. Stüvel
Differential Revision: https://developer.blender.org/D16651
Ref: D16651
The "While Held" option from the Pose Propagate Operator
doesn't do anything meaningful.
After talking with the Animation Module it was decided to remove it.
In code it was called `POSE_PROPAGATE_SMART_HOLDS`
Reviewed by: Sybren A. Stüvel
Differential Revision: https://developer.blender.org/D16771
Ref: D16771
Using negative blend factors for blending in flipped poses was undesirable.
Instead, the pose blending operator now uses CTRL to flip the pose.
Negative blend values are still allowed, and cause the pose asset to be
subtracted from the current pose. It can quickly break the rig, but for
small adjustments it can be useful.
The slider component can now be told to not use CTRL for toggling stepped
10% increments. This is useful when the operator that uses the slider needs
that modifier key for its own purposes.
Initial error caused by 1efc94bb2f and fixed in 6a7917162c. However
the empty index files (empty as in, they contain the version number but
no assets) will have to be fixed somehow, since otherwise assets don't
show up at all for people who saved asset files in a broken version.
Delete empty index files if the modification timestamp indicates a time
when the bug was present (plus a day before and after, to address
possible time zone differences). This will basically make Blender skip
the optimization for .blend files without assets for one load, but even
then the index should still produce faster results than a completely
non-index read.
This can be removed after a while, it's just a (much needed) fix for
people who were using alpha/beta builds.
Differential Revision: https://developer.blender.org/D16678
Reviewed by: Jeroen Bakker
The use of `std::variant` allows combining the four vectors
into one which more closely matches the intend and avoids
a workaround used before.
Note that this uses `std::get_if` instead of `std::get` because
`std::get` is only available since macOS 10.14.
Issue comes from the fact that some of the image updates are handled
outside of depsgraph context (through the signal system), and therefore
completely ignored by the undo/redo code.
Now that undo/redo tries to update as little data as possible, it needs
to be aware of these changes.
As a temporary workaround, until image update is fully handled through depsgraph,
consider that IDs tagged with `ID_RECALC_SOURCE` should get their caches
cleared on undo/redo, and tag some RNA property updates of
Image/ColorSpace as such.
Reviewed By: sergey
Maniphest Tasks: T103242
Differential Revision: https://developer.blender.org/D16927
This workaround is no longer needed and prevents our OCIO configuration
from being loaded if Blender is unpacked under a Unicode path.
Differential Revision: https://developer.blender.org/D16818
Multiple improvements to UV Cylinder and UV Sphere projection including:
* New option "Pinch" or "Fan" to improve unwrap of faces at the poles.
* Support for "Polar ZY" option on "View On Equator" and "Align To Object"
* Better handling of inputs with round-off error.
* Improved handling of faces touching the unit square border.
* Improved handling of very wide quads spanning the right hand border.
* Improved accuracy near to (0, 0).
* Code cleanup and simplification.
Differential Revision: https://developer.blender.org/D16869
