- removed some unused functions.
- renamed vars to make more sense paint_vertex.c 'flags' --> 'lock_flags'
- some odd modifications were made in unrealted, commented code, copy these back from trunk.
- rename vertex_group_fix 'cp' property to 'accuracy'
- make style more consistant with trunk.
- remove 'Radish' comments.
- merge object.vertex_group_lock_all / object.vertex_group_invert_locks / "object.vertex_group_unlock_all into one operator.
- change lock button from a checkbox to a lock icon.
--it's still really simplistic (and slow!) so don't try fixing an entire mesh! xD
Also, don't use it on a mesh with a mirror modifier yet, just noticed that it does both vertices instead of one.
Minor UI text update for Vertex Masking
Multires interpolation. It's quite usable yet; I wanted to avoid
subsurfing the multires data and ray tracing original/new
topology. The result is kindof like trunk's interpolation.
I'll see how much better I can get it. I might have to go with
the full-on ray tracing solution. Right now, it's not very good.
Also made it so trunk files with multires open correctly.
* Before the different simulations all had a panel with an "add this" button making the whole tab look really messy. It also rarely makes sense to have more than one or two physics things enabled for a single object, so having all the panels in the tab just added a great deal of visual clutter.
* Now there is a single "enable physics for" panel at the top that allows for enable/disable of any simulation. All actual physics panels are hidden until a simulation is enabled.
* There was no "add" button for force fields before, but I added a toggle between "none" and "force" to unify the ui even further.
This adds the "Apply Base" feature from my gsoc2010 branch.
Apply Base partially applies the modifier, in that the mesh is
reshaped to more closely match the deformed mesh. The upper-level
displacements are recalculated so that the highest multires level
appears unchanged.
Multires does not currently deal well with too large displacements.
An easy-to-reproduce example: create any mesh type, add multires,
subdivide a few times, then use the sculpt grab brush to drag the
entire mesh over a few units. At the highest level, and at level 0,
the mesh looks fine, but all of the intervening levels will have ugly
spikes on them.
This patch doesn't help with situations where you can't modify the
base mesh, but otherwise works around the problem fairly well (albeit
with a heuristic, not an exact solution.)
- modified conversion process to take into account changes caused by mesh editing
Note: conversion to dtStatNavMesh in KX_NavMeshObject hasn't worked correctly yet
These are not animated and are best not change names like this too late in the release.
ActionGroup.selected -> select: boolean Action Group is selected
BezierSplinePoint.hidden -> hide: boolean Visibility status
BezierSplinePoint.selected_control_point -> select_control_point: boolean Control point selection status
BezierSplinePoint.selected_handle1 -> select_left_handle: boolean Handle 1 selection status
BezierSplinePoint.selected_handle2 -> select_right_handle: boolean Handle 2 selection status
Bone.restrict_select -> hide_select: boolean Bone is able to be selected
Bone.selected -> select: boolean
CurveMapPoint.selected -> select: boolean Selection state of the curve point
EditBone.restrict_select -> hide_select: boolean Bone is able to be selected
EditBone.selected -> select: boolean
EditBone.selected_head -> select_head: boolean
EditBone.selected_tail -> select_tail: boolean
EditBone.locked -> lock: boolean Bone is not able to be transformed when in Edit Mode
EditBone.hidden -> hide: boolean Bone is not visible when in Edit Mode
NEGATE * FCurve.disabled -> enabled: boolean F-Curve could not be evaluated in past, so should be skipped when evaluating
FCurve.locked -> lock: boolean F-Curve's settings cannot be edited
FCurve.muted -> mute: boolean F-Curve is not evaluated
FCurve.selected -> select: boolean F-Curve is selected for editing
NEGATE * FCurve.visible -> hide: boolean F-Curve and its keyframes are shown in the Graph Editor graphs
FCurveSample.selected -> select: boolean Selection status
GPencilFrame.selected -> select: boolean Frame is selected for editing in the DopeSheet
GPencilLayer.locked -> lock: boolean Protect layer from further editing and/or frame changes
GPencilLayer.selected -> select: boolean Layer is selected for editing in the DopeSheet
Keyframe.selected -> select: boolean Control point selection status
Keyframe.selected_handle1 -> select_left_handle: boolean Handle 1 selection status
Keyframe.selected_handle2 -> select_right_handle: boolean Handle 2 selection status
MeshEdge.selected -> select: boolean
MeshEdge.hidden -> hide: boolean
MeshFace.hidden -> hide: boolean
MeshFace.selected -> select: boolean
MeshVertex.hidden -> hide: boolean
MeshVertex.selected -> select: boolean
MotionPathVert.selected -> select: boolean Path point is selected for editing
NlaStrip.selected -> select: boolean NLA Strip is selected
NlaTrack.locked -> lock: boolean NLA Track is locked
NlaTrack.muted -> mute: boolean NLA Track is not evaluated
NlaTrack.selected -> select: boolean NLA Track is selected
Object.restrict_render -> hide_render: boolean Restrict renderability
Object.restrict_select -> hide_select: boolean Restrict selection in the viewport
Object.restrict_view -> hide: boolean Restrict visibility in the viewport
Object.selected -> select: boolean Object selection state
ObjectBase.selected -> select: boolean Object base selection state
PoseBone.selected -> select: boolean
Sequence.right_handle_selected -> select_right_handle: boolean
Sequence.selected -> select: boolean
SplinePoint.selected -> select_control_point: boolean Selection status
TimelineMarker.selected -> select: boolean Marker selection state
Sequence.left_handle_selected -> select_left_handle: boolean
ActionGroup.locked -> lock: boolean Action Group is locked
Bone.hidden -> hide: boolean Bone is not visible when it is not in Edit Mode (i.e. in Object or Pose Modes)
SplinePoint.hidden -> hide: boolean Visibility status
FModifier.muted -> mute: boolean F-Curve Modifier will not be evaluated
note: rebaned uv_select to select_uv
- added relative option to saving external multires data
- renamed multires external functiosn to have save / pack as suffix.
- added TODO's for file select operators that should support relative paths but dont.
- also disable openmp on linux cross compile, mingw currently isnt linking -lgomp
clear properties operator
- now it's not part of the copy properties anymore (Matt's suggestion).
If anyone want to change the menu, please help yourself (renaming, putting in it's own submenu, making it invisible when mode is not Game ..)
1) Fixed some weird formatting introduced during math-lib cleanups, and some other inconsistencies
2) Optimised the Maintain Volume constraint by taking the value calculations out
Copy All Constraints Operators:
* Added one for bones too
* These are now included in the menus
* Removed some weird/extra code copying/changing/bleh the actcol/totcol stuff...
* adjusts on Layout:
- in order to avoid much changes when copying Logics, it's nice to have the logic s/c/a always displaying even though it's not valid (e.g. edit mesh used from a camera object).
Now a message shows in the s/c/a alerting to the problem.
* logic operators under OBJECT_OT - copy properties and logics
Matt, is it possible to have the object game properties listed as a submenu from "Copy Properties" ?
So from the "Copy Game Property" menu we would have three options:
"Copy a property" -> (submenu) prop1, prop2, prop3
"Replace all Properties"
"Merge all Properties"
For the current task list in Logic Editor:
http://www.pasteall.org/13245
when the object have more that one group.
I put a XXX because the selection function use G.main to
get the group, probably we need a CTX_DATA_BEGIN for
groups ? Brecht ? Campbell ?
I make a new operator for the pupmenu, it's only for the
selection menu, so don't have any key binding.
Matt, can you check ?
- link now brings up a search box so when there are 100's of groups its less annoying.
- utility functions for id-enums so only local objects can be displayed in a search list (used for group_link)
- renamed operator properties from typle to scene, group, action etc.
the C code to copy the constraint was already there (same as 2.49) so this operator simply exposes it.
I'm using the name Copy Constraints to Others based on what we have in material operators (e.g. Copy Material to Others).
If we bring back the whole Copy Attributes menu (old Ctrl+C) having the individual operators is still important for scripts. Nevertheless I'm not comfortable with the name (to Others sounds unnecessary verbose) but so far having the functionality back is important (request from Caju Studio). I'll be glad to make any change later if needed.
(no shortcut for that, to use it go to userpref->keymap and assign a shortcut for this operator or add it to the toolshelf)
Blender too now! :)
** Drag works as follows:
- drag-able items are defined by the standard interface ui toolkit
- each button can get this feature, via uiButSetDragXXX(but, ...).
There are calls to define drag-able images, ID blocks, RNA paths,
file paths, and so on. By default you drag an icon, exceptionally
an ImBuf
- Drag items are registered centrally in the WM, it allows more drag
items simultaneous too, but not implemented
** Drop works as follows:
- On mouse release, and if drag items exist in the WM, it converts
the mouse event to an EVT_DROP type. This event then gets the full
drag info as customdata
- drop regions are defined with WM_dropbox_add(), similar to keymaps
you can make a "drop map" this way, which become 'drop map handlers'
in the queues.
- next to that the UI kit handles some common button types (like
accepting ID or names) to be catching a drop event too.
- Every "drop box" has two callbacks:
- poll() = check if the event drag data is relevant for this box
- copy() = fill in custom properties in the dropbox to initialize
an operator
- The dropbox handler then calls its standard Operator with its
dropbox properties.
** Currently implemented
Drag items:
- ID icons in browse buttons
- ID icons in context menu of properties region
- ID icons in outliner and rna viewer
- FileBrowser icons
- FileBrowser preview images
Drag-able icons are subtly visualized by making them brighter a bit
on mouse-over. In case the icon is a button or UI element too (most
cases), the drag-able feature will make the item react to
mouse-release instead of mouse-press.
Drop options:
- UI buttons: ID and text buttons (paste name)
- View3d: Object ID drop copies object
- View3d: Material ID drop assigns to object under cursor
- View3d: Image ID drop assigns to object UV texture under cursor
- Sequencer: Path drop will add either Image or Movie strip
- Image window: Path drop will open image
** Drag and drop Notes:
- Dropping into another Blender window (from same application) works
too. I've added code that passes on mousemoves and clicks to other
windows, without activating them though. This does make using multi-window
Blender a bit friendler.
- Dropping a file path to an image, is not the same as dropping an
Image ID... keep this in mind. Sequencer for example wants paths to
be dropped, textures in 3d window wants an Image ID.
- Although drop boxes could be defined via Python, I suggest they're
part of the UI and editor design (= how we want an editor to work), and
not default offered configurable like keymaps.
- At the moment only one item can be dragged at a time. This is for
several reasons.... For one, Blender doesn't have a well defined
uniform way to define "what is selected" (files, outliner items, etc).
Secondly there's potential conflicts on what todo when you drop mixed
drag sets on spots. All undefined stuff... nice for later.
- Example to bypass the above: a collection of images that form a strip,
should be represented in filewindow as a single sequence anyway.
This then will fit well and gets handled neatly by design.
- Another option to check is to allow multiple options per drop... it
could show the operator as a sort of menu, allowing arrow or scrollwheel
to choose. For time being I'd prefer to try to design a singular drop
though, just offer only one drop action per data type on given spots.
- What does work already, but a tad slow, is to use a function that
detects an object (type) under cursor, so a drag item's option can be
further refined (like drop object on object = parent). (disabled)
** More notes
- Added saving for Region layouts (like split points for toolbar)
- Label buttons now handle mouse over
- File list: added full path entry for drop feature.
- Filesel bugfix: wm_operator_exec() got called there and fully handled,
while WM event code tried same. Added new OPERATOR_HANDLED flag for this.
Maybe python needs it too?
- Cocoa: added window move event, so multi-win setups work OK (didnt save).
- Interface_handlers.c: removed win->active
- Severe area copy bug: area handlers were not set to NULL
- Filesel bugfix: next/prev folder list was not copied on area copies
** Leftover todos
- Cocoa windows seem to hang on cases still... needs check
- Cocoa 'draw overlap' swap doesn't work
- Cocoa window loses focus permanently on using Spotlight
(for these reasons, makefile building has Carbon as default atm)
- ListView templates in UI cannot become dragged yet, needs review...
it consists of two overlapping UI elements, preventing handling icon clicks.
- There's already Ghost library code to handle dropping from OS
into Blender window. I've noticed this code is unfinished for Macs, but
seems to be complete for Windows. Needs test... currently, an external
drop event will print in console when succesfully delivered to Blender's WM.
