Mostly the same as the recently added editmode tool with some extras.
* Options to disable filling in the rim between inner and outer surface, since its faster not to detect this in cases where its not needed.
* Option to disable high quality normal calculation, mostly noticable when operating on building walls, not needed for cloth or more organic shapes.
* Option to disable 'even thickness', again, not needed in some cases.
Also options for creasing inner/outer and rim edges, need this for makign Sintels cloths solid since zero crease looks far too soft.
note:
* UVs and VCols etc are copied to the new skin however rim faces dont get the UVs or vcols set from the faces they are created from yet.
* Normals are assumed to be pointing outwards
* used patch from Uncle Entity as a template since it added the DNA and RNA entries but the actual modifier from the patch wasnt used.
Until we have proper multi-object editing, this adds a Copy To Selected
option to the right mouse button menu for Object and Bone properties, to
copy the value from the active object to the selected objects.
Also includes some implementation changes to reset to default operator.
Added a new operator for properties which resets RNA-based settings to their 'default' values, as defined in RNA. This currently only works for floats, ints, enums, and booleans (strings and pointers still need to be implemented).
The current extensions to the RNA API that I've made here seem a bit excessive, and can be toned down if necessary. In short, I've just added accessor functions for the default-values of the property definitions.
For this to be really useful, many properties in RNA will need to get defaults defined, since the current defaults for quite a few properties tested were less than ideal.
* Property update functions no longer get context, instead they get only
Main and Scene. The RNA api was intended to be as context-less as
possible, since it doesn't really matter who is changing the property,
everything that uses the property should be updated.
* There's still one exception case that use it now, screen operations
still depend on context too much. It also revealed a few places using
context where they shouldn't.
* Ideally Scene shouldn't be passed, but much of Blender still depends on
it, should be dropped when we try to support multiple scene editing.
Change was planned for a while, but need this now to be able to call
update without a context pointer.
After the merge operation, running the diff command showed that the
branch had a significant amount of differences from the trunk revision
25149. I had no idea where these differences came from. To resolve
them and make the branch up-to-date, I just copied the following files
from the trunk:
release/scripts/io/import_anim_bvh.py
release/scripts/io/import_scene_obj.py
release/scripts/ui/space_image.py
release/scripts/ui/space_view3d.py
source/blender/blenkernel/intern/object.c
source/blender/blenlib/BLI_math_base.h
source/blender/blenlib/intern/math_base.c
source/blender/editors/animation/anim_markers.c
source/blender/editors/armature/armature_intern.h
source/blender/editors/armature/armature_ops.c
source/blender/editors/armature/editarmature.c
source/blender/editors/curve/curve_intern.h
source/blender/editors/curve/curve_ops.c
source/blender/editors/include/ED_mesh.h
source/blender/editors/include/ED_object.h
source/blender/editors/include/ED_particle.h
source/blender/editors/mesh/editface.c
source/blender/editors/mesh/editmesh_mods.c
source/blender/editors/mesh/mesh_intern.h
source/blender/editors/mesh/mesh_ops.c
source/blender/editors/metaball/mball_edit.c
source/blender/editors/metaball/mball_intern.h
source/blender/editors/metaball/mball_ops.c
source/blender/editors/object/object_intern.h
source/blender/editors/object/object_lattice.c
source/blender/editors/object/object_ops.c
source/blender/editors/object/object_select.c
source/blender/editors/physics/particle_edit.c
source/blender/editors/physics/physics_intern.h
source/blender/editors/physics/physics_ops.c
source/blender/editors/sculpt_paint/paint_intern.h
source/blender/editors/sculpt_paint/paint_ops.c
source/blender/editors/sculpt_paint/paint_utils.c
source/blender/editors/space_view3d/view3d_select.c
source/blender/editors/uvedit/uvedit_ops.c
source/blender/windowmanager/WM_api.h
source/blender/windowmanager/intern/wm_operators.c
Basic definition works like a python operator but you derive from "bpy.types.Macro" instead.
Operators are added to the macro after it has been added with "bpy.ops.add_macro" through the class method "define" which takes an operator id and returns an OperatorMacroType (new RNA type) for which properties can then be defined to be passed to the operator when run.
Example: http://blenderartists.org/~theeth/bf/macro.py
Using this system, it should be easy to add an operator to the console that converts selected lines into a macro or even a more generic record macro system.
The following files were according to the Math Lib reorganization
(see the commit log of revision 24464 for more information):
source/blender/freestyle/intern/blender_interface/BlenderFileLoader.cpp
source/blender/freestyle/intern/blender_interface/BlenderFileLoader.h
The file release/scripts/ui/properties_render.py was also updated
according the RNA UI API renaming in revision 24795.
This patch, by Elia Sarti (vekoon), simply adds the possibility to specify the final array component of the RNA path in the path itself,
e.g. using location[0] or location["x"] or even location.x,
instead of specifying this using an "array_index"
This should be easier for users to understand the driver system. The array-indices have been kept (but hidden from the UI under standard situations) since they are theoretically a tad faster than the in-path lookups still, and are easier for internal-tools to set for now...
The Animation System now respects the Transform Locks too (i.e. lock x-location, etc.) when writing settings. This means that it is no longer necessary to set up "constant drivers" to make sure some values don't get accidentally animated.
Internally, added a new callback for properties in RNA, which is responsible for checking if the item at some array-index is editable. This needs to be manually called for each place which uses rna to set settings for arrays (see the code changes in anim_sys.c for changes how to do this; the same thing needs to be done in the UI code too, and probably in py-api too)
The advantage with this is that global property definitions are not needed to add a property to an object.
to avoid confusion these are accessed like a dictionary (closely matching how the BGE accesses properties)
ob["mySetting"] = 1.0
bone["foo"] = {"one":1, "two":2.1, "three":"Three"}
if "foo" in bone: print("prop found...")
At the moment these can also be accessed as attributes, will be changed shortly. eg.
bone.foo == bone["foo"]
eg.
scene.objects.link()
object.constraints.new()
mesh.verts.transform(...)
mesh.faces.active
PropertyRNA stores an StructRNA pointer where these can be defined.
Added a group example
C = bpy.context
ob = C.active_object
bpy.data.groups[0].objects.add(ob)
- add_to_group and rem_from_group now take optional scene and base flags and deal with updating the object & base flags
- operators that add objects to groups were setting ob->recalc= OB_RECALC_OB; looks like its not needed.
- previously add() ignored python args, now add and remove are called like any other FunctionRNA from python.
- made the pyrna api use tp_getset's for collestions active/add()/remove()
This allows you to set and animate the values of socket inputs and outputs, for example the value node.
It's also a step on the way to manipulating node trees via python (i.e. linking node sockets to each other).
This fixes [#19841] RGB Node in compositor not working
At last, this commit introduces the Spline IK Constraint to Blender. Spline IK is a constraint that makes n bones follow the shape of a specified curve.
Simply add a chain of bones, add a curve, add a Spline IK Constraint to the tip bone and set the number of bones in the chain to make it work. Or, try the following test file:
http://download.blender.org/ftp/incoming/250_splineik_spine01.blend
Screenshots of this in action (as proof):
http://download.blender.org/ftp/incoming/b250_splineik_001_before.pnghttp://download.blender.org/ftp/incoming/b250_splineik_001_after.png
I've implemented this in a similar way to how standard IK solvers are done. However, this code is currently not an IK plugin, since I imagine that it would be useful to be able to combine the 2 types of IK. This can be easily changed though :)
Finally, a few notes on what to expect still:
* Constraint blending currently doesn't affect this. Getting that to work correctly will take a bit more work still.
* Options for not affecting the root joint (to make it easier to attach the chain to a stump or whatever), and non-uniform scaling options have yet to be added. I've marked the places where they can be added though
* Control over the twisting of the chain still needs investigation.
Have fun!
This is effectively a C-port of Nathan Vegdahl's "No Twist" TrackTo PyConstraint, and has been added as a separate type of constraint to be consistent with the existing constraints (Locked Track, and Track To).
In general, this works considerably better than the existing "Track To" constraint, since it works by determining the smallest rotation necessary to get the current orientation of the owner to an orientation which would be tracking the target. It is also a much more straightforward approach than the weird old method the old Track To uses.
I've made a few tweaks to the code to deal with the (hopefully rare) cases where the target and the constrained are coincident. These don't appear to cause too much trouble in general.
TODO:
- Probably the naming of the constraints will change, to better convey their purposes. Naming suggestions welcome.
This first part of the fix makes it possible to animate ramp settings by making sure that the paths for ramps and their elements can be determined. While the code for constructing the path to the ramps is relatively simple, the code for the elements is a bit more involved :/
However, this commit only fixes the paths, but most of the ramp settings still cannot be keyframed directly from the UI buttons/widgets (i.e. from Material/Texture buttons) since the buttons still use the old layouts.
- Generated and uploaded api docs - http://www.blender.org/documentation/250PythonDoc
- Added Edit docs menu item & operators as discussed with Mindrones, Brecht, Stani & Letterip @ bconf, needs some web backend. python operator can aparently use xml/rpc to upload docstrings.
- Added operator invoke function - context.manager.invoke_props_popup(self.__operator__, event)
this calls a popup for invoke by default (which intern calls execute())
- Own recent commit to game framing applied to non-camera views too.
- v3d->persp is deprecated but still used in some places.
- Transforming strips could overlap 1 frame if moving them below frame 0
- Transforming overlapping strips could go into an eternal loop (though overlapping strips should not exist)
* Now the old/new names get tagged with [" "] before the search and replace operation, which should alleviate problems with searching for 'bone' and ending up with all instances of 'boney' 'boney.r' etc. also getting renamed.
* Cleaned up some compiler warnings, and removed an unused function from an earlier attempt at this work.
RNA Paths used in F-Curve, Drivers, etc. now get renamed when some data that they use gets renamed. This only works when things like Bones, Constraints, Shape Keys, and Modifiers get renamed, but other cases can get added easily.
The code here only performs simple string replacements, so there is the potential for problems when several sets of data with the same names are present. For example, if there are multiple armatures with bones that have the same names, renaming a bone on one armature (with a bone on another armature having the same name) will break all the drivers on the other one, even though they aren't really connected. However, I don't expect the aforementioned scenario to really be a problem in most production scenarios.
Keymaps are now saveable and configurable from the user preferences, note
that editing one item in a keymap means the whole keymap is now defined by
the user and will not be updated by Blender, an option for syncing might be
added later. The outliner interface is still there, but I will probably
remove it.
There's actually 3 levels now:
* Default builtin key configuration.
* Key configuration loaded from .py file, for configs like Blender 2.4x
or other 3D applications.
* Keymaps edited by the user and saved in .B.blend. These can be saved
to .py files as well to make creating distributable configurations
easier.
Also, user preferences sections were reorganized a bit, now there is:
Interface, Editing, Input, Files and System.
Implementation notes:
* wmKeyConfig was added which represents a key configuration containing
keymaps.
* wmKeymapItem was renamed to wmKeyMapItem for consistency with wmKeyMap.
* Modal maps are not wrapped yet.
* User preferences DNA file reading did not support newdataadr() yet,
added this now for reading keymaps.
* Key configuration related settings are now RNA wrapped.
* is_property_set and is_property_hidden python methods were added.
Added a utility function to check which transforms for an object or bone are animated, returning these as bitflags and/or optionally retrieving the relevant F-Curves too. Beware that this method may not be working correctly yet, but it shouldn't hurt anyone in the meantime :)
Also, split RNA-path building function up into a version which only creates the path up to the given struct, with the other parts being added later.
* PROP_NEVER_NULL is now a flag instead of a subtype.
* It works for function parameters too now, so setting
this flag can help avoid NULL checks in the function.
* Renamed LocalLamp to PointLamp, making it consistent
with the UI name.
* Set icons for the different lamp struct types.
- updated python api to check for array types rather then the length since a variable length array can be 1 or 0 length.
- python docgen added .0 to the end of floats which messed up values like 1e-05
* Disable setting array length of dynamic array for now, this was not
implemented correct, and it's not really needed now.
* Allow all dimensions to be dynamic size, not just the first.
* Change storage of multidimensional to be simpler.
* Rename API functions to be more compact.
* Fix some bugs in the implementation.
* RenderLayer.rect and RenderPass.rect use a multidimensional
dynamic array now.
Multidim. arrays can now be modified at any level, for example:
struc.arrayprop = x
struc.arrayprop[i] = x
struc.arrayprop[i][j] = x
struc.arrayprop[i][j][k] = x
etc...
Approriate rvalue type/length checking is done.
To ensure all works correctly, I wrote automated tests in release/test/rna_array.py.
These tests cover: array/item access, assignment on different levels, tests that proper exceptions are thrown on invalid item access/assignment.
The tests use properties of the RNA Test struct defined in rna_test.c. This struct is only compiled when building with BF_UNIT_TEST=1 scons arg.
Currently unit tests are run manually by loading the script in the Text Editor.
Here's the output I have: http://www.pasteall.org/7644
Things to improve here:
- better exception messages when multidim. array assignment fails. Those we have currently are not very useful for multidim.
- add tests for slice assignment
* Wrapped Grease Pencil datatypes in RNA.
* Hooked up Grease Pencil access in RNA (i.e. via Main, ID, and Scene)
TODO:
Updates to properties are currently lacking property-update calls, since there's no good notifier for this.
Example code: http://www.pasteall.org/7332/c.
New API functions: http://www.pasteall.org/7330/c.
Maximum number of dimensions is currently limited to 3, but can be increased arbitrarily if needed.
What this means for ID property access:
* MeshFace.verts - dynamic array, size 3 or 4 depending on MFace.v4
* MeshTextureFace.uv - dynamic, 2-dimensional array, size depends on MFace.v4
* Object.matrix - 2-dimensional array
What this means for functions:
* more intuitive API possibility, for example:
Mesh.add_vertices([(x, y, z), (x, y, z), ...])
Mesh.add_faces([(1, 2, 3), (4, 5, 6), ...])
Python part is not complete yet, e.g. it is possible to:
MeshFace.verts = (1, 2, 3) # even if Mesh.verts is (1, 2, 3, 4) and vice-versa
MeshTextureFace.uv = [(0.0, 0.0)] * 4 # only if a corresponding MFace is a quad
but the following won't work:
MeshTextureFace.uv[3] = (0.0, 0.0) # setting uv[3] modifies MTFace.uv[1][0] instead of MTFace.uv[3]
* cache for low res (deactivating high res for now)
* new way of view3d rendering of smoke (no longer 3 axes) -using 3dtexture now (introduced into gpu/intern)
* introducing LZO and LZMA libs into extern (makefiles missing for now)
* reducing memory usage after simulating for the frame ended (freeing temporary buffers)
* splitting smoke into 2 modifier for the cache-sake (it cannot handle more than 1 cache on the same modifier-index)
* no color on gui anymore
* fixing non-power-of-2 resolutions (hopefully)
* fixing select-deselect of domain drawing bug
* fixing drawobject.c coding style (making Ton happy) ;-)
HINT #1: If scons doesn't work -> cmakefiles are up-to-date, couldn't test scons (but i tried to mantain them, too)
CODERS HINT #1: we really need a way to disable adding all modifiers through "Add Modifiers" dropdown!
WARNING #1: before applying this commit, deactivate your SMOKE DOMAIN in your old files and save them then. You can open them then savely after that.
WARNING #2: File and cache format of smoke can be changed, this is not final!
