Advanced ID copying code can now take a `new_owner_id` ID pointer parameter,
and use it to set the relevant 'loopback' pointer to its owner ID by the
copy code itself.
Besides avoiding the need for all code copying embedded IDs to set the
loopback pointer themselves, this also means that `lib_id` copying code
itself does not need to use `IDWALK_IGNORE_MISSING_OWNER_ID` anymore.
This change is not expected to have any effect in current codebase.
The compositor execute functions have a `rendering` argument to specify
if the compositor is executing as part of the render pipeline. But the
render context argument is null if we are not rendering, so the
`rendering` arguement is redundant and can be removed.
Additionally, we no longer use use_file_output as a hack to detect
rendering.
Pull Request: https://projects.blender.org/blender/blender/pulls/120659
For historical reasons, the `multi_input_socket_index` was actually reversed
(large index comes first). This patch renames it to `multi_input_sort_id` and
adds a comment. This new name makes it less confusing that the id is reversed.
Pull Request: https://projects.blender.org/blender/blender/pulls/119652
The depsgraph CoW mechanism is a bit of a misnomer. It creates an
evaluated copy for data-blocks regardless of whether the copy will
actually be written to. The point is to have physical separation between
original and evaluated data. This is in contrast to the commonly used
performance improvement of keeping a user count and copying data
implicitly when it needs to be changed. In Blender code we call this
"implicit sharing" instead. Importantly, the dependency graph has no
idea about the _actual_ CoW behavior in Blender.
Renaming this functionality in the despgraph removes some of the
confusion that comes up when talking about this, and will hopefully
make the depsgraph less confusing to understand initially too. Wording
like "the evaluated copy" (as opposed to the original data-block) has
also become common anyway.
Pull Request: https://projects.blender.org/blender/blender/pulls/118338
The tiled compositor code is mainly still around, which is only
expected to be a short-lived period. Eventually it will also be
removed.
The OpenCL, Group Buffers, and Chunk size options are already removed.
Pull Request: https://projects.blender.org/blender/blender/pulls/118010
Visually it is the same as the execution time implemented for the
geometry nodes, and it is to be enabled in the overlay popover.
The implementation is separate from the geometry nodes, as it is
not easy or practical to re-use the geometry nodes implementation.
The execution time is stored in a run-time hash, indexed by a node
instance key. This is similar to the storage of the mode preview
images, but is stored on the scene runtime data and not on the node
tree. Indexing the storage by key allows to easily copy execution
statistics from localized tree to its original version.
The time is only implemented for full-frame compositor, as for the
tiled compositor it could be tricky to calculate reliable time for
pixel processing nodes which process one pixel at a time.
Pull Request: https://projects.blender.org/blender/blender/pulls/117885
This was caused by 74dd1e044b.
The fix implemented here disables socket picking in the header region of
non-collapsed nodes. This way, resizing always works when on the left
and right side of the header.
This patches refactors the compositor File Output mechanism and
implements the file output node for the Realtime Compositor. The
refactor was done for the following reasons:
1. The existing file output mechanism relied on a global EXR image
resource where the result of each compositor execution for each
view was accumulated and stored in the global resource, until the
last view is executed, when the EXR is finally saved. Aside from
relying on global resources, this can cause effective memory leaks
since the compositor can be interrupted before the EXR is written and
closed.
2. We need common code to share between all compositors since we now
have multiple compositor implementations.
3. We needed to take the opportunity to fix some of the issues with the
existing implementation, like lossy compression of data passes,
and inability to save single values passes.
The refactor first introduced a new structure called the Compositor
Render Context. This context stores compositor information related to
the render pipeline and is persistent across all compositor executions
of all views. Its extended lifetime relative to a single compositor
execution lends itself well to store data that is accumulated across
views. The context currently has a map of File Output objects. Those
objects wrap a Render Result structure and can be used to construct
multi-view images which can then be saved after all views are executed
using the existing BKE_image_render_write function.
Minor adjustments were made to the BKE and RE modules to allow saving
using the BKE_image_render_write function. Namely, the function now
allows the use of a source image format for saving as well as the
ability to not save the render result as a render by introducing two new
default arguments. Further, for multi-layer EXR saving, the existent of
a single unnamed render layer will omit the layer name from the EXR
channel full name, and only the pass, view, and channel ID will remain.
Finally, the Render Result to Image Buffer conversion now take he number
of channels into account, instead of always assuming color channels.
The patch implements the File Output node in the Realtime Compositor
using the aforementioned mechanisms, replaces the implementation of the
CPU compositor using the same Realtime Compositor implementation, and
setup the necessary logic in the render pipeline code.
Pull Request: https://projects.blender.org/blender/blender/pulls/113982
Changes:
- Renamed Split Viewer Node to Split Node
- Split Node is now under `Utilities` (similar to Switch node)
- Versioning: split viewer from 4.0 and before is replaced with the new split node connected to a new viewer node.
Pull Request: https://projects.blender.org/blender/blender/pulls/114245
The experimental GPU compositor crashes when the render size is huge.
This is just due to GPU texture allocation failing. The patch fixes that
by downscaling the render result when reading, then upscaling it again
when writing. Additionally, the render size was adapted to the
downscaled size since it is used by other input nodes. This is not an
ideal solution, but it a good temporary solution to prevent crashes
until we have proper support for huge textures.
Pull Request: https://projects.blender.org/blender/blender/pulls/115299
The goal here is to make it easier to make node links. Previously, it was quite
easy to accidentally start box selection or to trigger the link-drag-search when
that was not intended.
Now, the tolerances are a bit easier to work with. Also, instead of trying to use
the first socket that is close enough, it will find the closest socket instead. It feels
much better in my testing already, but obviously the values can be tuned more
with some testing.
Also we have to make sure to not accidentally make other things like resizing
nodes harder.
Pull Request: https://projects.blender.org/blender/blender/pulls/115010
The compositor currently executes when editing node trees that are not
compositor related, like geometry and shader node trees.
That's because the node space listener always tags the compositor to
execute for any node edit notifier. To fix this, we add the ID of the
edited node tree as a reference to the edit notifier and only tag for
an update when the space tree matches the reference one.
Pull Request: https://projects.blender.org/blender/blender/pulls/114978
Currently nodes are reordered so that the "on top" nodes are last in
the list. Node order changing for simple operations like selection
means we either have to reevaluate the node tree data-block on
selections or accept that the evaluated order can be different from the
original. Currently we do the latter (see d76a0e98ba), but
makes it complex to access nodes by index, and is hard to reason about.
Instead of reordering nodes, store the ui order in the node itself
and sort the nodes before drawing them or doing any processing
that depends on the "depth."
The "selected_nodes" list in the context is no longer ordered by the
recent selection.
Pull Request: https://projects.blender.org/blender/blender/pulls/113419
Move the three current 'status variables' (stop, update and progress)
into a single 'WorkerStatus' struct. This is cleaner and will allow for
future workin this area without having to edit tens of 'startjob'
callbacks signatures all the time.
No functional change expected here.
Note: jobs' specific internal code has been modified as little as
possible, in many cases the job's own data still just store pointers to
these three values. Ideally in the future more refactor will be using a
single pointer to the shared `wmJobWorkerStatus` data instead.
Pull Request: https://projects.blender.org/blender/blender/pulls/113343
Reroute node consists only of a socket, it has no body.
Don't allow hiding sockets of reroutes anymore, since it could make the
node invisible or prevent links from being connected to it.
The versioning ensures that the sockets on reroute nodes are not hidden.
Pull Request: https://projects.blender.org/blender/blender/pulls/112965
This seems to be an issue deep inside UI drawing code. The nodes render
the panel button in the correct place,
but it doesn't correctly update the button state after a redraw, unless
the mouse is moved. The button is still in a `BUTTON_STATE_HIGHLIGHT`
state after drawing, and a mouse press will trigger it regardless of
where the mouse cursor actually is.
A common hack to force a reset of the button state is to add a fake
mouse move event using `WM_event_add_mousemove`.
Pull Request: https://projects.blender.org/blender/blender/pulls/112503
The goal is to reduce redundancy by abstracting over the different types of node
tree zones. This makes it easier to add new zone types and makes the intend of
code more clear. For example, now it is more obvious what code deals with zones
in general and what does simulation specific things.
Pull Request: https://projects.blender.org/blender/blender/pulls/112531
In #112326 the socket visibility functions were updated to take the
open/closed state of panels into account for visibility of the socket
icon. However, in "hidden" (collapsed) nodes the panels should be
ignored entirely, drawing all sockets on the root level. This requires
looking at the node flags to determine socket icon visibility, so a
simple method of `bNodeSocket` is not sufficient.
This patch moves the more complex visibility queries for sockets into
`bNode`, where both node and socket flags can be accessed. These should
be used for actual visibility rather than the plain flag accessors on
`bNodeSocket`.
Renamed `is_visible_or_panel_closed` back to just `is_visible`, the
other `is_visible` variant is now integrated in `bNode::is_socket_drawn`.
Pull Request: https://projects.blender.org/blender/blender/pulls/112520
The hash tables and vector blenlib headers were pulling many more
headers than they actually need, including the C base math header,
our C string API header, and the StringRef header. All of this
potentially slows down compilation and polutes autocomplete
with unrelated information.
Also remove the `ListBase` constructor for `Vector`. It wasn't used
much, and making it easy to use `ListBase` isn't worth it for the
same reasons mentioned above.
It turns out a lot of files depended on indirect includes of
`BLI_string.h` and `BLI_listbase.h`, so those are fixed here.
Pull Request: https://projects.blender.org/blender/blender/pulls/111801
Part 3/3 of #109135, #110272
Switch to new node group interfaces and deprecate old DNA and API.
This completes support for panels in node drawing and in node group
interface declarations in particular.
The new node group interface DNA and RNA code has been added in parts
1 and 2 (#110885, #110952) but has not be enabled yet. This commit
completes the integration by
* enabling the new RNA API
* using the new API in UI
* read/write new interfaces from blend files
* add versioning for backward compatibility
* add forward-compatible writing code to reconstruct old interfaces
All places accessing node group interface declarations should now be
using the new API. A runtime cache has been added that allows simple
linear access to socket inputs and outputs even when a panel hierarchy
is used.
Old DNA has been deprecated and should only be accessed for versioning
(inputs/outputs renamed to inputs_legacy/outputs_legacy to catch
errors). Versioning code ensures both backward and forward
compatibility of existing files.
The API for old interfaces is removed. The new API is very similar but
is defined on the `ntree.interface` instead of the `ntree` directly.
Breaking change notifications and detailed instructions for migrating
will be added.
A python test has been added for the node group API functions. This
includes new functionality such as creating panels and moving items
between different levels.
This patch does not yet contain panel representations in the modifier
UI. This has been tested in a separate branch and will be added with a
later PR (#108565).
Pull Request: https://projects.blender.org/blender/blender/pulls/111348
This was noted in code comments and checked in Python documentation
generation but not at build time.
Since these enums are identifiers that end up included in various places
enforce the `rna_enum_*_items` convention which was noted as
the convention but not followed strictly.
Partially reverts [0], avoids having to deal with multiple prefix types.
[0]: 3ea7117ed1
Listing the "Blender Foundation" as copyright holder implied the Blender
Foundation holds copyright to files which may include work from many
developers.
While keeping copyright on headers makes sense for isolated libraries,
Blender's own code may be refactored or moved between files in a way
that makes the per file copyright holders less meaningful.
Copyright references to the "Blender Foundation" have been replaced with
"Blender Authors", with the exception of `./extern/` since these this
contains libraries which are more isolated, any changed to license
headers there can be handled on a case-by-case basis.
Some directories in `./intern/` have also been excluded:
- `./intern/cycles/` it's own `AUTHORS` file is planned.
- `./intern/opensubdiv/`.
An "AUTHORS" file has been added, using the chromium projects authors
file as a template.
Design task: #110784
Ref !110783.
AOV/group/material output nodes can now be previewed the same way the
other nodes are.
This patch also improves the socket detection of the preview by using
`get_main_socket` which takes care of the priorities of the sockets.
Pull Request: https://projects.blender.org/blender/blender/pulls/110945
When the overlays are hidden or the previews overlays are hidden, it is
more consistent to have the preview toggle button hidden than shown.
This patch also removes the preview rendering when the previews are
hidden.
Pull Request: https://projects.blender.org/blender/blender/pulls/110949
First implementation of node previews in the shader node editor. Using
the same user interface as compositor node previews, most shader nodes
can now be previewed (except group in/output and material output).
This is currently still an experimental feature, as polishing of the
user experience and performance improvements are planned. These will
be easier to do as incremental changes on this implementation.
See #110353 for details on the work that remains to be done and known
limitations.
Implementation notes:
We take advantage of the `RenderResult` available as `ImBuf` images to
store a `Render` for every viewed nested node tree present in a
`SpaceNode`. The computation is initiated at the moment of drawing nodes
overlays.
One render is started for the current nodetree, having a `ViewLayer`
associated with each previewed node. We separate the previewed nodes in
two categories: the shader ones and the non-shader ones.
- For non-shader nodes, we use AOVs which highly speed up the rendering
process by rendering every non-shader nodes at the same time. They are
rendered in the first `ViewLayer`.
- For shader nodes, we render them each in a different `ViewLayer`, by
rerouting the node to the output of the material in the preview scene.
The preview scene takes the same aspect as the Material preview scene,
and the same preview object is used.
At the moment of drawing the node overlay, we take the `Render` of the
viewed node tree and extract the `ImBuf` of the wanted viewlayer/pass
for each previewed node.
Pull Request: https://projects.blender.org/blender/blender/pulls/110065
This feature is going to be replaced with a more thorough refactoring
of the node group interface UI, which has actual node drawing support
and a new API for integration of panels into nodes.
Design task: #109135
Implementation: #110272
Pull Request: https://projects.blender.org/blender/blender/pulls/110803
