Moving widows between monitors with different scale set could flicker
in a feedback loop because the bounds of the window resizing could
cause the bounds of the windows to overlap different monitors.
Now the window is resized immediately, instead of letting the change
to the windows surface scale resize the window.
This change the attribute binding scheme to something similar to the
curves objects. Attributes are now buffer textures sampled per points.
The actual geometry is now rendered using an index buffer that avoid too
many vertex shader invocation.
Drawcall is wrapped in a DRW function to reduce complexity of future
changes.
This led to the color actually looking different on the node body itself
vs. in the panel, also using the colorpicker gave unexpected results.
UI colors should use PROP_COLOR_GAMMA to avoid being affected by scene
color management (clarification by @brecht).
Maniphest Tasks: T99603
Differential Revision: https://developer.blender.org/D16334
As a consequence of this, subsequent box-selection of bones would not
show correctly in Animation Editors (not showing the channels there
because of the lack of an active object).
The bug was caused by rBba6d59a85a38.
Prior to said commit, code logic was relying on the check for `basact`
being NULL to determine if object selection changes need to happen.
After that commit, this was handled by a `handled` variable, but this
was not set correctly if `basact` is actually NULL after the initial
pick (aka deselection by picking).
Maniphest Tasks: T101933
Differential Revision: https://developer.blender.org/D16326
There looks to be an inconsistency between Gnome/KDE here,
match KDE and Gnome applications under X11 (even XWayland)
by making the button closest to the nib MMB, and the other button RMB.
The number of node groups was including the fake user count.
I was ignoring the Fake User, and how it affects the id->us count.
This problem was present since the initial commit: 84825e4ed2.
Avoid top level global pointers, remove the window_manager pointer
and move the clipboard mutex along side the clipboard data.
Also skip updating window DPI if the window doesn't use the output
that changed it's scale.
Using the 3DConnexion Universal Wireless Receiver on MS-Windows caused
a different ID to be reported. While I'm not sure of the cause of this,
adding the ID doesn't conflict with other devices and fixes the problem.
Share logic for adding/removing global objects and freeing them on exit.
Refactor object registration add/remove into an array of callbacks
to localize logic into generic functions for each kind of interface.
Also corrects own error where the primary clipboard manager wasn't
being destroyed on exit.
UI panel may suggest, that disabling "Proxy & timecode" would cause
timecodes not being used, but this was not the case. Now timecodes will
be used only if the checkbox is checked.
The bug has existed since crasy space was implemented.
rBbf8a26b7453d made the error even worse as the
`modifiers_disable_subsurf_temporary` function, which works like a
toggle, did not temporarily re-enable subsurf.
The main problem is that the derived mesh is modified but not marked as
dirty at the end.
Internal links are run-time/derived data. Therefore it is not necessary
to load them from .blend files where invalid internal links may be stored.
They will be regenerated after a node tree is loaded anyway.
This patch tunes the integrator state sizing for Metal (`num_concurrent_states` and `num_concurrent_busy_states`).
On all GPUs architecture, we adjust the busy:total states ratio to be 1:4 which gives better rendering performance than the previous 1:16 ratio (independent of total state count). This gives a small performance uplift (e.g. 2-3% on M1 Ultra).
Additionally for M2 architectures, we double the overall state size if there is available headroom. Inclusive of the first change, we can expect uplift of close to 10% in future, as this results in larger dispatch sizes and minimises work submission overheads. In order to make an accurate determination of available headroom, we defer the calculation of `num_concurrent_states` and `num_concurrent_busy_states` until the time of integrator state allocation (i.e. after all of the scene data has been allocated). We also refactor `alloc_integrator_soa` to calculate an *exact* single-state-size in a first pass, right before allocating the integrator SoA buffers in a second pass.
Reviewed By: brecht
Differential Revision: https://developer.blender.org/D16313
Mistake in own rBb6a35a8153c3 which caused code to always recurse into
bone hierarchies (no matter which collapsed level an armature was
found).
This led to bone counts always being displayed even outside a collapsed
armature (e.g. if an armature was somewhere down a object or collection,
the collapsed object or collection would show this bonecount).
This is inconsistent with other data counting in the Outliner, e.g.
vertexgroups or bonegroups do have their indicator at object level,
however the counter only shows if `Vertex Groups` or `Bone Groups` line
shows (so if the object is not collapsed).
And this also led to the bug reported in T101946 which was that the bone
counts would be treated as collections when further down a collapsed
hierarchy.
Background: The whole concept of `MergedIconRow` is based on the concept
of counting **objects types or collectinons/groups**. If other things
like overrides, vertexgroups or bonegroups are displayed in a counted/
merged manner, then these will always be counted in the array spots that
are usually reserved for groups/collections. But for things this is not
a problem (since these are only displayed below their respective
outliner entry -- and will never be reached otherwise).
So to correct all this, we now only recurse into a bone hierarchy if a
bone is at the "root-level" of a collapsed subtree (direct child of the
collapsed element to merge into).
NOTE: there are certainly other candidates for counted/merged display
further up the hierarchy (not just bones -- constraints come to my mind
here, but that is for another commit)
Maniphest Tasks: T101946
Differential Revision: https://developer.blender.org/D16319
Currently, if an image exceed the texture limit setup by the user or the
GPU backend, it will be scaled down to satisfy the limit. However,
scaling happens independently per axis, that means the aspect ratio of
the image will not be maintained.
This patch corrects the smaller size to maintain the aspect ratio.
Differential Revision: https://developer.blender.org/D16327
Reviews By: Clement Foucault
rBb70bbfadfece allowed scaling of zero-radius points, but as it behaves
differently from other radius, it may not be suitable for multi-point
transformation.
It was too easy accidentally break builds without WITH_GHOST_DEBUG
enabled because the arguments were ignored. Now they are expanded in an
`if (0) {...}` block, so invalid expressions result in errors.
This could result in wrong behavior depending on the order in which the
Image.filepath and Image.source fields are set from within Python for
example.
Caused by rB72ab6faf5d80
Disable libdecor Wayland requirement which would use an X11 fallback.
While the crash could be investigated, using libdecor at all makes
no sense in background mode.
Kind of intentional regression on rB2d1fe736fabd.
But the solution now is (theoretically) better than adding a hard coded
threshold.
For cases with zero radius, the new radius is now the offset of the
ratio projected onto the plane of the origin point.
For the JPG preview, the only thing that was changed in the image
format was the format itself. However, the colorspace code now also
checks the bitdepth through BKE_image_format_is_byte, so the depth
needs to be explicitly set to 8-bit for the JPG preview output.
Error introduced in rB1edebb794b76.
In that commit it was kind of forgotten that the snap to grid is also
used in 3D views.
Also a refactoring and cleanup was applied to simplify the code.
Code adding stash track was clearing out track flags, instead of editing
them as it should have...
Note that there are a lot of other weaknesses in action stash code (like
relying on the (translated!!!!!!) name of the track to know whether it's
a stah or not).
