Age | Commit message (Collapse) | Author |
|
Use a property to store even-offset option.
|
|
|
|
|
|
There are a few things here which are not so nice:
* Position of proportional edit circle is not centered on data
(difficult to predict positions here since those are completely custom,
will probably be positioned at center of area later instead)
* Result is flushed to curve handles only at the end of the transform,
so if people have the graph editor open they will see handles lagging behind.
|
|
|
|
|
|
connected parents radius could get out of sync with child.
|
|
|
|
de-duplicate active center calc between transform & snap-to-selected.
|
|
|
|
Translated strings didn't check fixed length for PET id's
|
|
Similar to 'Root' but without noticeable spike/pinch in the center.
|
|
This merge-commit brings in a number of new features and workflow/UI improvements for
working with Grease Pencil. While these were originally targetted at improving
the workflow for creating 3D storyboards in Blender using the Grease Pencil,
many of these changes should also prove useful in other workflows too.
The main highlights here are:
1) It is now possible to edit Grease Pencil strokes
- Use D Tab, or toggle the "Enable Editing" toggles in the Toolbar/Properties regions
to enter "Stroke Edit Mode". In this mode, many common editing tools will
operate on Grease Pencil stroke points instead.
- Tools implemented include Select, Select All/Border/Circle/Linked/More/Less,
Grab, Rotate, Scale, Bend, Shear, To Sphere, Mirror, Duplicate, Delete.
- Proportional Editing works when using the transform tools
2) Grease Pencil stroke settings can now be animated
NOTE: Currently drivers don't work, but if time allows, this may still be
added before the release.
3) Strokes can be drawn with "filled" interiors, using a separate set of
colour/opacity settings to the ones used for the lines themselves.
This makes use of OpenGL filled polys, which has the limitation of only
being able to fill convex shapes. Some artifacts may be visible on concave
shapes (e.g. pacman's mouth will be overdrawn)
4) "Volumetric Strokes" - An alternative drawing technique for stroke drawing
has been added which draws strokes as a series of screen-aligned discs.
While this was originally a partial experimental technique at getting better
quality 3D lines, the effects possible using this technique were interesting
enough to warrant making this a dedicated feature. Best results when partial
opacity and large stroke widths are used.
5) Improved Onion Skinning Support
- Different colours can be selected for the before/after ghosts. To do so,
enable the "colour wheel" toggle beside the Onion Skinning toggle, and set
the colours accordingly.
- Different numbers of ghosts can be shown before/after the current frame
6) Grease Pencil datablocks are now attached to the scene by default instead of
the active object.
- For a long time, the object-attachment has proved to be quite problematic
for users to keep track of. Now that this is done at scene level, it is
easier for most users to use.
- An exception for old files (and for any addons which may benefit from object
attachment instead), is that if the active object has a Grease Pencil datablock,
that will be used instead.
- It is not currently possible to choose object-attachment from the UI, but
it is simple to do this from the console instead, by doing:
context.active_object.grease_pencil = bpy.data.grease_pencil["blah"]
7) Various UI Cleanups
- The layers UI has been cleaned up to use a list instead of the nested-panels
design. Apart from saving space, this is also much nicer to look at now.
- The UI code is now all defined in Python. To support this, it has been necessary
to add some new context properties to make it easier to access these settings.
e.g. "gpencil_data" for the datablock
"active_gpencil_layer" and "active_gpencil_frame" for active data,
"editable_gpencil_strokes" for the strokes that can be edited
- The "stroke placement/alignment" settings (previously "Drawing Settings" at the
bottom of the Grease Pencil panel in the Properties Region) is now located in
the toolbar. These were more toolsettings than properties for how GPencil got drawn.
- "Use Sketching Sessions" has been renamed "Continuous Drawing", as per a
suggestion for an earlier discussion on developer.blender.org
- By default, the painting operator will wait for a mouse button to be pressed
before it starts creating the stroke. This is to make it easier to include
this operator in various toolbars/menus/etc. To get it immediately starting
(as when you hold down DKEy to draw), set "wait_for_input" to False.
- GPencil Layers can be rearranged in the "Grease Pencil" mode of the Action Editor
- Toolbar panels have been added to all the other editors which support these.
8) Pie menus for quick-access to tools
A set of experimental pie menus has been included for quick access to many
tools and settings. It is not necessary to use these to get things done,
but they have been designed to help make certain common tasks easier.
- Ctrl-D = The main pie menu. Reveals tools in a context sensitive and
spatially stable manner.
- D Q = "Quick Settings" pie. This allows quick access to the active
layer's settings. Notably, colours, thickness, and turning
onion skinning on/off.
|
|
This doesn't currently do anything clever when a single vertex is shared by multiple islands
(uses closest only).
|
|
|
|
Old code only worked for faces.
|
|
When resetting edit bones on cancel, they also have to reset connected
parent and child bone tips and heads respectively, since these can be
modified during the transform.
|
|
wrong values.
From soc-2014-shapekey branch, with minor edits by mont29 (Bastien Montagne).
|
|
Yep, at last it's here!
There are a few minor issues remaining but development can go on in
master after discussion at blender institute.
For full list of features see:
http://wiki.blender.org/index.php/Dev:Ref/Release_Notes/2.72/Painting
Thanks to Sergey and Campbell for the extensive review and to the
countless artists that have given their input and reported issues during
development.
|
|
|
|
Issue here is that we force mirroring even if original armature is not
mirrored.
We could be smart and store only unselected mirrored bones here (since
those will get restored from transdata), however not all properties were
getting stored and restored; rolling bones still suffered from the bug
for instance.
To fix this we need to restore all properties that armature mirroring
overrides. Transdata obviously does not offer a lot of space here, so I
used TransInfo->customdata to store an array of initial parameters of
the mirrored bones.
|
|
Requires some more intense testing.
|
|
|
|
also add snap-active support for armatures, pose & metas
|
|
Opted to keep includes if they are used indirectly (even if removing is possible).
|
|
|
|
to original state
Since autosnap was being applied during the flushing step for various practical reasons,
it wasn't possible to restore keyframes and handles to their original values, as these
would always get overwritten before getting a chance to be written back to the keyframes.
|
|
|
|
Since the NLA was also using the standard transform mode by default, this meant that
no frame/second step-snapping was happening here (i.e. like for the Graph Editor).
The actual differences between doing true stepping vs nearest here are quite small
(and don't really make much sense with NLA Strips), so for now, it should be fine that
these are the same.
|
|
The previous behaviour for nearest second meant that transforming the strips often
caused their lengths to change (sometimes drastically), since strip lengths aren't
always uniformly x-seconds long. Now, it only snaps the start frame value, and adjusts
the end of the strip to follow.
This works well for most cases, apart from negatively scaling the strip, where it will
get "stuck" as a 0.001 frame long strip (and the viewport drawing will be a bit weird
during this time). Nevertheless, negative scaling of strips isn't something that's exactly
recommended.
|
|
Split off handling for nearest second from nearest frame
|
|
|
|
This was only set when the camera was active, however non active cameras
can be transformed too.
|
|
Just remove that rotation special case for now, at least fixes the glitch along Z axis when rotating around Y axis in report.
Anyway, there is no reason for such special handling, we do not have real rotation in editbone...
|
|
This reverts commit f72acc38d 65c5be967 eff6b385e 3fe487217
|
|
|
|
This commit hopefully fixes all glitches we had when bone was Z-aligned. Note that when you init a transform
with a Z-aligned bone and change it to be non-Z-aligned, you will still get some brutal roll change,
there is not much things we can do here afaik...
|
|
|
|
Basic idea is now to have the transformes bones keep "facing" the armature's Z axis, see comments in code for details.
That might not be ideal, but at least we now have humanly predictable and consistent results.
|
|
|
|
|
|
positions.
It computed the roll compatible with the previous mouse position roll value,
now it uses the initial roll value.
|
|
|
|
Changed curve active point from pointer to index. Allows curve active point to be saved to file and retained between modes for free. Also some small optimisations by removing pointer look up code.
- Made active point access functions into BKE API calls.
- Fixes operators where curve de-selection resulted in unsel-active point.
- Split curve delete into 2 functions
|
|
|
|
- use (const char *) for the 'name'
- use bool where possible.
- remove unused return value for initTransInfo
|
|
|
|
Remove usages of ANIM_unit_mapping_apply_fcurve in favor of
runtime scale factor apply.
There're still calls to ANIM_nla_mapping_apply_fcurve are
hanging around, they're the next t be cleaned up!
|
|
|
|
redraw flag were mixing up types - int/char/bool, add enum type to use instead.
|