Part of overall "improve image filtering situation" (#116980), this PR addresses
two issues:
- Bilinear (default) image filtering makes half a source pixel wide transparent
border around the image. This is very noticeable when scaling images/movies up
in VSE. However, when there is no scaling up but you have slightly rotated
image, this creates a "somewhat nice" anti-aliasing around the edge.
- The other filtering kinds (e.g. cubic) do not have this behavior. So they do
not create unexpected transparency when scaling up (yay), however for slightly
rotated images the edge is "jagged" (oh no).
More detail and images in PR.
Pull Request: https://projects.blender.org/blender/blender/pulls/117717
Store the 'expanded/collapsed' state of the bone collection tree view in
the DNA data of the bone collections themselves. This way the tree state
is restored when loading the file.
This commit also adds some code to the abstract tree view classes, for
supporting synchronisation of the extended/collapsed state between it
and external data. It follows the same approach as the handling of the
active element.
RNA wrappers have been added to make it possible for Python code to
expand/collapse parts of the tree.
Library overrides are supported for this property, so the
expanded/collapsed state of linked armatures can be locally saved. If
there is no override, the `is_expanded` property is still editable;
changes will not be saved to file in that case, though.
Pull Request: https://projects.blender.org/blender/blender/pulls/116940
The function name "operator poll message set" is rather troublesome, as:
- the message is only used when the operator is disabled, and
- the message is shown if the operator is disabled by any means, and not
just limited to the `poll()` function returning `false`.
A better name would be `CTX_wm_operator_disabled_msg_set`, but refactoring
that is for another time. Now at least the behaviour is documented.
No functional changes.
- Adding new repositories now differentiates between "Online" & "Local"
where adding a local repository doesn't prompt for a URL.
- Support removing repositories and their files (uses confirmation
defaulting to "Cancel" to avoid accidents).
- Show an error icon next to repositories that have invalid settings,
these repositories are now ignored until the settings are corrected,
required fields are highlighted red when they're unset & required.
- Rename "directory" to "custom_directory" since an automatic path is
used when not set - created in the users scripts directory.
- Use toggles for custom-directory & remote URL instead of relying on
the value to be left an empty string for alternative behavior.
Bake items are generally identified by their (generated) identifier.
This allows changing the name and reordering sockets without breaking
baked data.
In the future we want to have some kind of Import Bake node that
ideally automatically creates its output sockets and names them correctly.
For that to work, the baked data has to contain the user-defined names
for each socket. Those names are not used yet.
* For materials with UDIM tiles support, get array and mapping in one call
* For viewers that can use render results, add a dedicated function
* Fix potential use of render results in stencil overlay and grease pencil
Pull Request: https://projects.blender.org/blender/blender/pulls/117563
`BKE_image_scale` -- which is only used for the python API -- was
getting the `ImBuf` without providing an `ImageUser`.
This is fine, but always gets the first tile (and the current frame for sequences).
To resolve this, add an optional "frame" & "tile_index" argument so these can be specified explicitly (similar to layer_index and pass_index already used for some other API functions).
Fixes#117539 : Scaling UDIM images via Image.scale() only scales one tile
Pull Request: https://projects.blender.org/blender/blender/pulls/117549
With this patch, materials are kept intact in simulation zones and bake nodes
without any additional user action.
This implements the design proposed in #108410 to support referencing
data-blocks (only materials for now) in the baked data. The task also describes
why this is not a trivial issue. A previous attempt was implemented in #109703
but it didn't work well-enough.
The solution is to have an explicit `name (+ library name) -> data-block`
mapping that is stored in the modifier for each bake node and simulation zone.
The `library name` is necessary for it to be unique within a .blend file. Note
that this refers to the name of the `Library` data-block and not a file path.
The baked data only contains the names of the used data-blocks. When the baked
data is loaded, the correct material data-block is looked up from the mapping.
### Automatic Mapping Generation
The most tricky aspect of this approach is to make it feel mostly automatic.
From the user point-of-view, it should just work. Therefore, we don't want the
user to have to create the mapping manually in the majority of cases. Creating
the mapping automatically is difficult because the data-blocks that should
become part of the mapping are only known during depsgraph evaluation. So we
somehow have to gather the missing data blocks during evaluation and then write
the new mappings back to the original data.
While writing back to original data is something we do in some cases already,
the situation here is different, because we are actually creating new relations
between data-blocks. This also means that we'll have to do user-counting. Since
user counts in data-blocks are *not* atomic, we can't do that from multiple
threads at the same time. Also, under some circumstances, it may be necessary to
trigger depsgraph evaluation again after the write-back because it actually
affects the result.
To solve this, a small new API is added in `DEG_depsgraph_writeback_sync.hh`. It
allows gathering tasks which write back to original data in a synchronous way
which may also require a reevaluation.
### Accessing the Mapping
A new `BakeDataBlockMap` is passed to geometry nodes evaluation by the modifier.
This map allows getting the `ID` pointer that should be used for a specific
data-block name that is stored in baked data. It's also used to gather all the
missing data mappings during evaluation.
### Weak ID References
The baked/cached geometries may have references to other data-blocks (currently
only materials, but in the future also e.g. instanced objects/collections).
However, the pointers of these data-blocks are not stable over time. That is
especially true when storing/loading the data from disk, but also just when
playing back the animation. Therefore, the used data-blocks have to referenced
in a different way at run-time.
This is solved by adding `std::unique_ptr<bake::BakeMaterialsList>` to the
run-time data of various geometry data-blocks. If the data-block is cached over
a longer period of time (such that material pointers can't be used directly), it
stores the material name (+ library name) used by each material slot. When the
geometry is used again, the material pointers are restored using these weak name
references and the `BakeDataBlockMap`.
### Manual Mapping Management
There is a new `Data-Blocks` panel in the bake settings in the node editor
sidebar that allows inspecting and modifying the data-blocks that are used when
baking. The user can change what data-block a specific name is mapped to.
Pull Request: https://projects.blender.org/blender/blender/pulls/117043
Use an optional string instead of a manually allocated char pointer.
Optional is used because sometimes `nullptr` was returned. It's
still inconsistent though, because often "" or ".." was returned
instead.
This was caused by global variable `sound_cfra` not being updated when
rendering sequencer data. This global variable could cause problems in
other cases though, so it is removed. Functions that are used to set
anomation buffers now accept frame as argument.
Pull Request: https://projects.blender.org/blender/blender/pulls/117345
Adds vertex groups and basic operator support to the `GreasePencil` data
block.
Vertex groups in the `GreasePencil` ID are used as the source of truth
for vertex groups names and ordering in the UI. Individual drawings also
have vertex group lists, but they should not be modified directly by
users or the API. The main purpose of storing vertex group names in in a
drawing's `CurveGeometry` is to make it self-contained, so that vertex
weights can be associated with names without requiring the
`GreasePencil` parent data.
Vertex group operators are implemented generically for some ID types.
Grease Pencil needs its own handling in these operators. After
manipulating `vertex_group_names` the `validate_drawing_vertex_groups`
utility function should be called to ensure that drawings only contain a
true subset of the `GreasePencil` data block.
Operators for assigning/removing/selecting/deselecting vertices are also
implemented here. To avoid putting grease pencil logic into the generic
`object_deform.cc` file a number of utility functions have been added in
`BKE_grease_pencil_vgroup.hh`.
Fixes#117337
Pull Request: https://projects.blender.org/blender/blender/pulls/117476
This significantly simplifies memory management, mostly by avoiding
the need to free the memory manually. It may also improve performance,
since std::string has an inline buffer that can prevent heap
allocations and it stores the size.
Pull Request: https://projects.blender.org/blender/blender/pulls/117695
Simplify `animviz_verify_motionpaths()` as the current code structure
got in the way of me reviewing an addition to it.
Some conditions and calculations are reordered so that they don't have
to be repeated. This allowed me to reduce nesting of the code, and make
it easier to understand when exactly a motion path is reused
cache-and-all, when it's reused but gets a new cache, and when it's
freshly allocated.
I also think this removes a theoretical memory leak, as there was a code
path that would allocate a new cache without freeing the old one. This
would require a somewhat invalid data structure to begin with, but the
code path now simply doesn't exist any more. I don't think this
problematic code path was ever hit in normal use, though.
No actual functional changes.
This pull request adds the ability for users to specify input samples
on a per brush basis. The existing field in the main `Paint` struct
forces all brushes of a particular tool type to use the same value.
A new field was added to the `Brush` struct to allow for this value
to be specified there instead, and a corresponding unified value in
`UnifiedPaintSettings` has been created to allow users to use the
same value across all brushes.
Addresses #108109
Pull Request: https://projects.blender.org/blender/blender/pulls/117080
Add separate functions that deal with the vertex domain and copy vertex
groups without using the attribute API which has a large overhead when
abstracting the access of many vertex groups.
In a 1m vertex mesh with 20 vertex groups, I observed an improvement
in the node's runtime from 399 ms to 64 ms.
Also resolves#117553. That was an error when adding weight data to a
mesh without any weight data would invalidate custom data layers. That
is solved more simply now by just doing nothing in that case.
There is extra one user of shared enum definition in case this is new one
so already exist user is enough. Also using of `new` operator to construct
enum definition make this impossible to catch such leask for trivial type.
`Vector` have 4-element inline buffer so this was trivial case for <=4 items.
Pull Request: https://projects.blender.org/blender/blender/pulls/117599
This pull request adds the ability for the `propagation_steps` value
for certain automasking settings to be applied globally instead of
using the per-brush attribute.
Previously, while the flag settings were stored at the brush and global
level, the `propagation_steps` value would always change the brush
attribute even when using the global menu.
Addresses #102377
Pull Request: https://projects.blender.org/blender/blender/pulls/117316
Based on an instrumented set of our container classes, this code path
was found to be producing an excessive number of Set resizes that are
trivial to remove.
The Set's inline buffer size was tuned from 4 to 16 which eliminates all
allocations, about 77k of them, during FBX import of the Zero-Day
"Measure One" scene[1]. It also eliminates ~90% of allocations, about
844k of them, when loading the Charge demo scene. For additional
context, using a size of 8 would reduce allocs by ~65% for Zero-Day.
[1] Zero-Day, Open Research Content Archive (ORCA):
https://developer.nvidia.com/orca/beeple-zero-day
Pull Request: https://projects.blender.org/blender/blender/pulls/117432
Based on an instrumented set of our container classes, it was found that
an excessive number of Vector reallocations were occurring in the corner
normals code path.
The allocations were reduced by increasing inline buffer sizes for the
Vectors in question. The total number of reallocs falls from 433k to
194k when importing the Zero-Day FBX scene[1]. Profiling time spent in
`MEM_lockfree_mallocN_aligned` falls from ~1.3% to ~1.15%
[1] Zero-Day, Open Research Content Archive (ORCA):
https://developer.nvidia.com/orca/beeple-zero-day
Pull Request: https://projects.blender.org/blender/blender/pulls/117431
This was the case for custom normals.
There was an optimization in 91b4f9f1f6 that was skipping computation of
existing normals if the Mix Factor in the UI was at 1.0 (under the
assumption that in this case no old normals would be needed.
Problem is that the resulting mix factor is the product of the Mix
Factor in the UI and the weights, so just doing the check as in the
culprit commit is not enough.
Need to consider if weights are used.
Pull Request: https://projects.blender.org/blender/blender/pulls/117538
This patch adds support for _Menu Switch_ nodes and enum definitions in
node trees more generally. The design is based on the outcome of the
[2022 Nodes Workshop](https://code.blender.org/2022/11/geometry-nodes-workshop-2022/#menu-switch).
The _Menu Switch_ node is an advanced version of the _Switch_ node which
has a customizable **menu input socket** instead of a simple boolean.
The _items_ of this menu are owned by the node itself. Each item has a
name and description and unique identifier that is used internally. A
menu _socket_ represents a concrete value out of the list of items.
To enable selection of an enum value for unconnected sockets the menu is
presented as a dropdown list like built-in enums. When the socket is
connected a shared pointer to the enum definition is propagated along
links and stored in socket default values. This allows node groups to
expose a menu from an internal menu switch as a parameter. The enum
definition is a runtime copy of the enum items in DNA that allows
sharing.
A menu socket can have multiple connections, which can lead to
ambiguity. If two or more different menu source nodes are connected to a
socket it gets marked as _undefined_. Any connection to an undefined
menu socket is invalid as a hint to users that there is a problem. A
warning/error is also shown on nodes with undefined menu sockets.
At runtime the value of a menu socket is the simple integer identifier.
This can also be a field in geometry nodes. The identifier is unique
within each enum definition, and it is persistent even when items are
added, removed, or changed. Changing the name of an item does not affect
the internal identifier, so users can rename enum items without breaking
existing input values. This also persists if, for example, a linked node
group is temporarily unavailable.
Pull Request: https://projects.blender.org/blender/blender/pulls/113445
Add the 'solo' flag to bone collections, effectively adding another
layer of visibility controls.
If there is _any_ bone collection with this flag enabled, only this
collection (and others with this flag enabled) will be visible.
In RNA, the following properties are exposed:
- `bone_collection.is_solo`: writable property to manage the solo flag.
- `armature.is_solo_active`: read-only property that is `True` when any
bone collection has `is_solo = True`.
The RNA property `bone_collection.is_visible_effectively` now also takes
the solo flag into account.
Pull Request: https://projects.blender.org/blender/blender/pulls/117414
Rename `BoneCollection::is_visible_effectively()` to
`is_visible_with_ancestors()`. Soon a "solo" flag will be introduced,
and the effective visibility of the bone collection will depend on that
too. This particular function doesn't take that into account, though,
and thus needs a rename.
Note that this does NOT rename the RNA property
`is_visible_effectively`. That will be updated when the "solo" flag is
introduced to also take that into account.
No functional changes.
Pull Request: https://projects.blender.org/blender/blender/pulls/117414
Boolean ID property support was added in ef68a37e5d, but the JSON
serializer for ID properties was not updated for it. This would be a
forward compatibility issue, if future json files containing boolean
properties would be read with old versions. Such properties are added
in #106303, for example.
The CPU implementation had the following downsides:
- The kernels sizes below 3 did not make much sense, often leading
to a full white image.
- The way how the total number of pixels in the kernel was calculated
quite strangely.
From these points of view the GPU compositor behaves more user friendly.
There is a versioning code which lowers the kernel size, to match the
result prior to these tweaks.
Pull Request: https://projects.blender.org/blender/blender/pulls/117505
There exist a bunch of "give me a (filtered) image pixel at this location"
functions, some with duplicated functionality, some with almost the same but
not quite, some that look similar but behave slightly differently, etc.
Some of them were in BLI, some were in ImBuf.
This commit tries to improve the situation by:
* Adding low level interpolation functions to `BLI_math_interp.hh`
- With documentation on their behavior,
- And with more unit tests.
* At `ImBuf` level, there are only convenience inline wrappers to the above BLI
functions (split off into a separate header `IMB_interp.hh`). However, since
these wrappers are inline, some things get a tiny bit faster as a side
effect. E.g. VSE image strip, scaling to 4K resolution (Windows/Ryzen5950X):
- Nearest filter: 2.33 -> 1.94ms
- Bilinear filter: 5.83 -> 5.69ms
- Subsampled3x3 filter: 28.6 -> 22.4ms
Details on the functions:
- All of them have `_byte` and `_fl` suffixes.
- They exist in 4-channel byte (uchar4) and float (float4), as well as
explicitly passed amount of channels for other float images.
- New functions in BLI `blender::math` namespace:
- `interpolate_nearest`
- `interpolate_bilinear`
- `interpolate_bilinear_wrap`. Note that unlike previous "wrap" function,
this one no longer requires the caller to do their own wrapping.
- `interpolate_cubic_bspline`. Previous similar function was called just
"bicubic" which could mean many different things.
- Same functions exist in `IMB_interp.hh`, they are just convenience that takes
ImBuf and uses data pointer, width, height from that.
Other bits:
- Renamed `mod_f_positive` to `floored_fmod` (better matches `safe_floored_modf`
and `floored_modulo` that exist elsewhere), made it branchless and added more
unit tests.
- `interpolate_bilinear_wrap_fl` no longer clamps result to 0..1 range. Instead,
moved the clamp to be outside of the call in `paint_image_proj.cc` and
`paint_utils.cc`. Though the need for clamping in there is also questionable.
Pull Request: https://projects.blender.org/blender/blender/pulls/117387
