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This allows using instancing in other ways, like resources indexing.
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Previously, the Blender video renderer did not have support for
encoding video to AV1 (not to be confused with the container AVI).
The proposed solution is to leverage the existing FFMpeg renderer
to encode to AV1.
Note that avcodec_find_encoder(AV_CODEC_ID_AV1) usually returns
"libaom-av1" which is the "reference implementation" for AV1 encoding
(the default for FFMpeg, and is slow). "libsvtav1" is faster and
preferred so there is extra handling when fetching the AV1 codec for
encoding such that "libsvtav1" is used when possible.
This commit should only affect the options available for video
rendering, which includes the additional AV1 codec to choose from, and
setting "-crf".
Also note that the current release of FFMpeg for ArchLinux does not
support "-crf" for "libsvtav1", but the equivalent option "-qp" is
supported and used as a fallback when "libsvtav1" is used (as
mentioned here: https://trac.ffmpeg.org/wiki/Encode/AV1#SVT-AV1 ).
(Actually, both "-crf" and "-qp" is specified with the same value in
the code. When a release of FFMpeg obtains support for "-crf" for
"libsvtav1" is released, the code shouldn't be needed to change.)
The usage of the AV1 codec should be very similar to the usage of the
H264 codec, but is limited to the "mp4" and "mkv" containers.
This patch pertains to the "VFX & Video" module, as its main purpose
is to supplement the Video Sequencer tool with the additional AV1
codec for encoded video output.
Differential Revision: https://developer.blender.org/D14920
Reviewed By: sergey , ISS, zeddb
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This patch implements the tone map node for the realtime compositor
based on the two papers:
Reinhard, Erik, et al. "Photographic tone reproduction for digital
images." Proceedings of the 29th annual conference on Computer graphics
and interactive techniques. 2002.
Reinhard, Erik, and Kate Devlin. "Dynamic range reduction inspired by
photoreceptor physiology." IEEE transactions on visualization and
computer graphics 11.1 (2005): 13-24.
The original implementation should be revisited later due to apparent
incompatibilities with the reference papers, which makes the operation
less useful.
Differential Revision: https://developer.blender.org/D16306
Reviewed By: Clement Foucault
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Remove redundant separators & redundant references to parent paths.
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When the File (or Asset) Browser would display data-blocks without
previews in a heavy .blend file, there would be a drastic slowdown.
See patch for details and comparison videos.
Differential Revision: https://developer.blender.org/D16273
Reviewed by: Bastien Montagne
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Missed changing the DNA brush default in rBdb40b6
Thanks to SteffenD for reporting in blender.chat!
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There were quite a few issues here:
* Bad usage of nagic number leading to confusing code
* Forgetting to take into accoun final `NULL` char
* RNA code thinkin `bl_idname` is python version, when it is actually
BL/C version.
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This operator (Alt + D) allows users to explicitly create a linked copy
of a group node (same current behaviour for the Duplicate operator).
The duplicate operator (Shift + D) now takes the new User Preference
duplicate data option for Node Tree into account. It is by default
disabled, leading to no functional change for users.
Although we could make in the future make this option "on" by default,
to make it consistent with the rest of Blender we do not at the time.
Differential Revision: https://developer.blender.org/D16210
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This commit replaces the `Mesh_Runtime` struct embedded in `Mesh`
with `blender::bke::MeshRuntime`. This has quite a few benefits:
- It's possible to use C++ types like `std::mutex`, `Array`,
`BitVector`, etc. more easily
- Meshes saved in files are slightly smaller
- Copying and writing meshes is a bit more obvious without
clearing of runtime data, etc.
The first is by far the most important. It will allows us to avoid a
bunch of manual memory management boilerplate that is error-prone and
annoying. It should also simplify future CoW improvements for runtime
data.
This patch doesn't change anything besides changing `mesh.runtime.data`
to `mesh.runtime->data`. The cleanups above will happen separately.
Differential Revision: https://developer.blender.org/D16180
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Last used in 62421470ee09fb70f343e.
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This change is part of a wider set of changes to implement Grid and Pixel
snapping in the UV Editor. This particular change adds a new third option,
`pixel grid`, to the previous grid options, `dynamic grid` and `fixed grid`.
Maniphest Tasks : T78391
Differential Revision: https://developer.blender.org/D16197
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This patch implements generic parallel reduction for the realtime
compositor and implements the Levels operation as an example. This patch
also introduces the notion of a "Compositor Algorithm", which is a
reusable operation that can be used to construct other operations.
Differential Revision: https://developer.blender.org/D16184
Reviewed By: Clement Foucault
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The attribute node already allows accessing attributes associated
with objects and meshes, which allows changing the behavior of the
same material between different objects or instances. The same idea
can be extended to an even more global level of layers and scenes.
Currently view layers provide an option to replace all materials
with a different one. However, since the same material will be applied
to all objects in the layer, varying the behavior between layers while
preserving distinct materials requires duplicating objects.
Providing access to properties of layers and scenes via the attribute
node enables making materials with built-in switches or settings that
can be controlled globally at the view layer level. This is probably
most useful for complex NPR shading and compositing. Like with objects,
the node can also access built-in scene properties, like render resolution
or FOV of the active camera. Lookup is also attempted in World, similar
to how the Object mode checks the Mesh datablock.
In Cycles this mode is implemented by replacing the attribute node with
the attribute value during sync, allowing constant folding to take the
values into account. This means however that materials that use this
feature have to be re-synced upon any changes to scene, world or camera.
The Eevee version uses a new uniform buffer containing a sorted array
mapping name hashes to values, with binary search lookup. The array
is limited to 512 entries, which is effectively limitless even
considering it is shared by all materials in the scene; it is also
just 16KB of memory so no point trying to optimize further.
The buffer has to be rebuilt when new attributes are detected in a
material, so the draw engine keeps a table of recently seen attribute
names to minimize the chance of extra rebuilds mid-draw.
Differential Revision: https://developer.blender.org/D15941
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Previously it would bake viewed from above the surface. The new option can be
useful when the baked result is meant to be viewed from a fixed viewpoint or
with limited camera motion.
Some effort is made to give a continuous reflection on parts of the surface
invisible to the camera, but this is necessarily only a rough approximation.
Differential Revision: https://developer.blender.org/D15921
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This value worked better for artists.
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Re-order members and remove pad members,
reducing it's size by 24 bytes on 64 bit systems.
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Historically, caching these values may have had some advantages,
simplifying drawing object centers and selecting by object center.
Now the only uses of these values would calculate the projection
before use, so there is no reason to store run-time projection in DNA.
This also quiets a `-Wstring-overflow` warning.
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Also replace "dm" for evaluated mesh in some comments.
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After a lot of testing, this option is not required and
now this is managed by stroke_collsion.
If the stroke_collision is enabled, only collide strokes
are used.
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Two new normal-based automasking modes.
The first mode, "brush", compares vertex normals with the initial
normal at the beginning of the brush stroke.
The second, "view", compares vertex normals with the view normal.
If "occlusion" is on then rays will be shot from each vertex to test
if it is occluded by other geometry (note: this can be very slow).\
Only geometry inside the sculpt mesh is considered.
Each mode has an associated angular limit and a falloff.
Reviewed by: Julien Kaspar and Jeroen Bakker
Differential Revision: https://developer.blender.org/D15297
Ref D15297
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Add new cavity automasking mode based on local mesh
curvature. Cavity masking is a great way to quickly add
detail in crevices and the like. It's meant to be used
with the Paint brush in color attribute mode. It does
work with other brushes but the results can be unpredictable.
{F13131497}
The old "dirty mask" operator has been replace with a new
"mask from cavity" operator that shares the same code with
cavity automasking.
Differences from the sculpt-dev implementation:
* It uses the word "cavity." When I first implemented
this I wasn't aware
this feature existed in other software (and other
paint modes in Blender),
and for reasons that escape me today I initially
decided to call it a concave or
concavity mask.
* The cavity factor works a bit differently. It's
no longer non-linear and functions as a simple
scale around 0.5f.
* Supports custom curves.
* Supports blurring.
Reviewed By: Julian Kaspar, Jeroen Bakker and Campbell Barton
Differential Revision: https://developer.blender.org/D15122
Ref D15122
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This adds support for showing geometry passed to the Viewer in the 3d
viewport (instead of just in the spreadsheet). The "viewer geometry"
bypasses the group output. So it is not necessary to change the final
output of the node group to be able to see the intermediate geometry.
**Activation and deactivation of a viewer node**
* A viewer node is activated by clicking on it.
* Ctrl+shift+click on any node/socket connects it to the viewer and
makes it active.
* Ctrl+shift+click in empty space deactivates the active viewer.
* When the active viewer is not visible anymore (e.g. another object
is selected, or the current node group is exit), it is deactivated.
* Clicking on the icon in the header of the Viewer node toggles whether
its active or not.
**Pinning**
* The spreadsheet still allows pinning the active viewer as before.
When pinned, the spreadsheet still references the viewer node even
when it becomes inactive.
* The viewport does not support pinning at the moment. It always shows
the active viewer.
**Attribute**
* When a field is linked to the second input of the viewer node it is
displayed as an overlay in the viewport.
* When possible the correct domain for the attribute is determined
automatically. This does not work in all cases. It falls back to the
face corner domain on meshes and the point domain on curves. When
necessary, the domain can be picked manually.
* The spreadsheet now only shows the "Viewer" column for the domain
that is selected in the Viewer node.
* Instance attributes are visualized as a constant color per instance.
**Viewport Options**
* The attribute overlay opacity can be controlled with the "Viewer Node"
setting in the overlays popover.
* A viewport can be configured not to show intermediate viewer-geometry
by disabling the "Viewer Node" option in the "View" menu.
**Implementation Details**
* The "spreadsheet context path" was generalized to a "viewer path" that
is used in more places now.
* The viewer node itself determines the attribute domain, evaluates the
field and stores the result in a `.viewer` attribute.
* A new "viewer attribute' overlay displays the data from the `.viewer`
attribute.
* The ground truth for the active viewer node is stored in the workspace
now. Node editors, spreadsheets and viewports retrieve the active
viewer from there unless they are pinned.
* The depsgraph object iterator has a new "viewer path" setting. When set,
the viewed geometry of the corresponding object is part of the iterator
instead of the final evaluated geometry.
* To support the instance attribute overlay `DupliObject` was extended
to contain the information necessary for drawing the overlay.
* The ctrl+shift+click operator has been refactored so that it can make
existing links to viewers active again.
* The auto-domain-detection in the Viewer node works by checking the
"preferred domain" for every field input. If there is not exactly one
preferred domain, the fallback is used.
Known limitations:
* Loose edges of meshes don't have the attribute overlay. This could be
added separately if necessary.
* Some attributes are hard to visualize as a color directly. For example,
the values might have to be normalized or some should be drawn as arrays.
For now, we encourage users to build node groups that generate appropriate
viewer-geometry. We might include some of that functionality in future versions.
Support for displaying attribute values as text in the viewport is planned as well.
* There seems to be an issue with the attribute overlay for pointclouds on
nvidia gpus, to be investigated.
Differential Revision: https://developer.blender.org/D15954
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This commit is an improvement in the previous fill tool
changes in order to improve how the extended strokes
are managed.
* Now, the algorithm checks if the extend cross a standard stroke, not only extend strokes.
* Option to enable or disable the stroke cross checking
because this can be slow in very complex scenes.
* Added `D` key to toggle stroke cross option.
* Option to use only collide strokes to be used as fill limit.
If the option to use only collide strokes is enabled, the
open extensions are in different color.
* Status text now shows mode and the actual extend factor.
This commits also contains a refactor of the loops
to use arrays as much as possible.
Reviewed By: mendio, pepeland
Differential Revision: https://developer.blender.org/D16052
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Also add missing task ID.
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This patch adds 5th mode to Time offset modifier, which should allow
to create time segments list.
This will allow users to chain together multiple time ranges in 4 modes:
- Forward
- Backwards
- Pingpong
- Reverse Pingpong
It also comes with additional Repeat parameter which specifies number
of times particular segment should run.
The mechanic of it is transforming initial parameters into array of frames which
are mapped to existing cfra (current frame) value.
Prototype : https://jsfiddle.net/ha2sjw8p/3/
This is also closely aligned to community request:
https://blender.community/c/rightclickselect/Txhbbc/
This should allow creation of complex animations like dancing,
which consists of repeating loops and transitions to the next.
One important side effect of this is dramatically reduced
file sizes, as user no longer needs to copy paste keyframes.
Reviewed By: antoniov, mendio, pepeland
Differential Revision: https://developer.blender.org/D15052
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This modifier converts any stroke (no fill strokes) into perimeter
from camera view. Also, it's possible to define an alternative
material for the outline.
There is an option to include a target object to manipulate the start
point of the strokes. The start point will be the nearest point
to the target object.
Reviewed By: mendio, frogstomp
Maniphest Tasks: T100826
Differential Revision: https://developer.blender.org/D15882
Note: Icon will be updated in T101155
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Available on Windows and macOS, where such gestures are supported.
For Windows, disabling this option restores touchpad behavior to
match Blender 3.2.
Ref T97925
Differential Revision: https://developer.blender.org/D16005
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This also simplifies using function style casts when moving to C++.
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To use function style cast '(unsigned char)x' can't be replaced by
'unsigned char(x)'.
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This patch replaces the existing transfer attribute node with three
nodes, "Sample Nearest Surface", "Sample Index", and "Sample Nearest".
This follows the design in T100010, allowing for new nodes like UV
sampling in the future. There is versioning so the new nodes replace
the old ones and are relinked as necessary.
The "Sample Nearest Surface" node is meant for the more complex
sampling algorithms that only work on meshes and interpolate
values inside of faces.
The new "Sample Index" just retrieves attributes from a geometry at
specific indices. It doesn't have implicit behavior like the old
transfer mode, which should make it more predictable. In order to not
change the behavior from existing files, the node has a has a "Clamp",
which is off by default for consistency with the "Field at Index" node.
The "Sample Nearest" node returns the index of the nearest element
on a geometry. It can be combined with the "Sample Index" node for
the same functionality as the old transfer node. This node can support
curves in the future.
Backwards compatibility is handled by versioning, but old versions can
not understand these nodes. The warning from 680fa8a523e0 should make
this explicit in 3.3 and earlier.
Differential Revision: https://developer.blender.org/D15909
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* Improve how the extend lines collision is calculated.
* Added `S` key to switch between modes.
* Now extend factor does not disable visual aids (thi sis done with checkbox).
* Reduce the use of linked list and now memory array is used.
* Refactor Radius functions.
* Fixed bug of Radius mode when object is rotated.
* Cleanup code.
Differential Revision: https://developer.blender.org/D16022
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12becbf0dffe06b6f28c4 changed to `flag_legacy` but didn't use a rename.
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Using the attribute name semantics from T97452, this patch moves the
selection status of mesh elements from the `SELECT` of vertices, and
edges, and the `ME_FACE_SEL` of faces to generic boolean attribute
Storing this data as generic attributes can significantly simplify and
improve code, as described in T95965.
The attributes are called `.select_vert`, `.select_edge`, and
`.select_poly`. The `.` prefix means they are "UI attributes",so they
still contain original data edited by users, but they aren't meant to
be accessed procedurally by the user in arbitrary situations. They are
also be hidden in the spreadsheet and the attribute list.
Until 4.0, the attributes are still written to and read from the mesh
in the old way, so neither forward nor backward compatibility are
affected. This means memory requirements will be increased by one byte
per element when selection is used. When the flags are removed
completely, requirements will decrease.
Further notes:
* The `MVert` flag is empty at runtime now, so it can be ignored.
* `BMesh` is unchanged, otherwise the change would be much larger.
* Many tests have slightly different results, since the selection
attribute uses more generic propagation. Previously you couldn't
really rely on edit mode selections being propagated procedurally.
Now it mostly works as expected.
Similar to 2480b55f216c
Ref T95965
Differential Revision: https://developer.blender.org/D15795
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This is very similar to D14077. There are two differences though.
First is that vertex creases are already stored in a separate layer,
and second is that we can now completely remove use of `Mesh.cd_flag`,
since that information is now inherent to whether the layers exist.
There are two functional differences here:
* Operators are used to add and remove layers instead of a property.
* The "crease" attribute can be created and removed by geometry nodes.
The second change should make various geometry nodes slightly faster,
since the "crease" attribute was always processed before. Creases are
now interpolated generically in the CustomData API too, which should
help maintain the values across edits better.
Meshes get an `edge_creases` RNA property like the existing vertex
property, to provide more efficient access to the data in Cycles.
One test failure is expected, where different rounding between float
the old char storage means that 5 additional points are scattered in
a geometry nodes test.
Differential Revision: https://developer.blender.org/D15927
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Similar to the other refactors from T95965, this commit moves sculpt
face sets to use a generic integer attribute named `".sculpt_face_set"`.
This makes face sets accessible in the Python API.
The attribute is not visible in the attributes list or the spreadsheet
because it is meant for internal use, though that could be an option
in the future along with other similar attributes. Currently the change
is small, but in the future this could simplify code by allowing use
of more generic attribute APIs.
Differential Revision: https://developer.blender.org/D16045
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In UV editor, previously unable to see grid and image at same time.
Maniphest Tasks: T78391
Differential Revision: https://developer.blender.org/D16038
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I'm adding some asset APIs/types in C++ that the file-listing code would
use. I prefer porting this code to C++ over adding a C-API for the asset
code.
Includes some minor cleanups that shouldn't change behavior, like using
`MEM_new()`/`MEM_cnew()`, C++ style C-library includes,
`LISTBASE_FOREACH()`, removing unnecessary typedefs, etc.
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There were undocumented limitations in the current modifier handling
that came to my attention while investigating related issues.
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Links that are linked to unavailable sockets should be ignored.
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For example, allows a custom UV grid size of 4 x 12.
TODO: Fix snapping with custom UV grid sizes.
Manifest Tasks: T78391
Differential Revision: https://developer.blender.org/D16000
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This commit adds a node to distribute points inside of volume grids.
The "Random" mode usese OpenVDB's "point scatter" implementation, and
there is also a "Grid" mode for uniform distributions. Both methods
operate on all of the float grids in the volume, using every voxel with
a value higher than the threshold. The random method is not stable as
the input volume deforms.
Based on a patch by Angus Stanton (@abstanton), which was based on a
patch by Kenzie (@kenziemac130).
Differential Revision: https://developer.blender.org/D15375
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Before, the lines could be extended endless, but this added too noise.
Now, the lines are not extended more if collide.
Before:
{F13504186}
After:
{F13504187}
Reviewed By: mendio, frogstomp
Differential Revision: https://developer.blender.org/D15992
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Switch to target_ functions to avoid this.
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