this is too arbitrary and could break if roperty order is changed.
store the property in the operator type that is to be used for menu and enum search func's.
python function for searching operator enums on invoke. (just need dynamic python enums now)
wm.invoke_search_popup(self)
Converted Command+LMB to send a RMB click event on Mac OS X, if Emulate 3 Button Mouse is switched on.
Also fixes for previous commit, didn't all go through.
RNA notifiers don't have a window and didn't get picked up correctly by the animation redraw system. If there's no window defined in a scene notifier, handle it anyway if the scene matches (or if there aren't any).
Was caused by event emulation (numpad and mmb) happening separately at each level of the keymap, so brush selection was latching on the event before it had time to test emulated values with view navigation entries (at a lower level in the hierarchy).
After discussion with Matt, decided that event emulation should be done at the root of the event loop, replacing the event with the emulated values. This is much more predictable and more logical as far as event emulation goes.
Seemed simple but actually turned out to be quite complex.
ND_MODE notifier was being misused, changed to ND_TOOLSETTINGS
Note: Although the fix itself doesn't involve this much, debugging uncovered
that listeners can't rely on notifier->swinid to be correct, since notifiers can
now be added from RNA without a region context.
Fileselect handlers are added to window's modalhandlers, and contain references to
other areas/regions/etc... Still seems a little bit dodgy, but fixes file selectors for now.
Fun bug, took me the better part of the day to track down.
Happens because maximizing swaps spacedata lists between the old area and the newly created maximized area (this one being empty) while ui handlers are still hanging with references to the first area (then trying to access spacedata when handled). And then only if a maximizing operator was run before the UI realign timer event from the previous maximize was handled (fun, I told you).
After discussion with Matt on irc, we decided the best way to deal with that was to remove ui handlers that reference areas of a screen that is no longer used. That solution reflects the fact that the bug is more general that the reproducing steps would lead to believe. There's also absolutely no reason to run UI handlers on invisible areas.
- 2 fingers scroll (MOUSEPAN / GHOST_kTrackpadEventScroll event) pans/scrolls the view
- 2 fingers pinch (MOUSEZOOM / GHOST_kTrackpadEventMagnify event) zooms the view
And in 3D view:
- alt + 2 fingers scroll rotates the view
- 2 fingers rotation (MOUSEROTATE / GHOST_kTrackpadEventRotate) orbits the view.
The implementation uses a new GHOST event type: GHOST_kEventTrackpad, that is then dispatched as Blender MOUSEPAN, MOUSEZOOM
or MOUSEROTATE events.
This is currently fully implemented for OSX (GHOST Cocoa fires the new events), with auto-detection of the source peripheral, so that a regular mouse still sends MOUSEWHEEL events.
NVidia (at least) GL drivers don't provide correct picking through GL_SELECT when the GL context is initialized with sample buffers.
So we can't have FSAA on for now as it breaks border,lasso,.. select.
Added GHOST_TUns16 numOfAASamples parameter to GHOST_CreateWindow to specify the number of AA samples (null if no AA wanted)
Implemented it in the cascade of GHOST classes.
Full implementation currently done for OSX/Cocoa, stubs for other OSes.
Moguri : it's ready for your win32 implementation !
Note that fallback to a non AA window (if gfx card doesn't support AA) is done inside GHOST OS specific layer, so that blender windowmanager still gets its window created properly.
Highlights:
* Support for Multi-Target Variables
This was the main reason for this recode. Previously, variables could only be used to give some RNA property used as an input source to the driver a name. However, this meant that effects such as Rotational Difference couldn't be used in conjunction with other effects and/or settings to achieve the powerful results. Now, a variable can take several input targets, perform some interesting operations on them, and spit out a representative value based on that.
* New Variable Types
With the introduction of multi-target variables, there are now 3 types of variable that can be used: single property (i.e. the only type previously), Rotational Difference (angle between two bones), and Distance (distance between two objects or bones).
* New Driver Types
In addition to the existing 'Average', 'Sum', and 'Expression' types, there is now the additional options of 'Minimum' and 'Maximum'. These take the smallest/largest value that one of the variables evaluates to.
* Fix for Driver F-Curve colouring bug
Newly added drivers did not get automatically coloured in the Graph Editor properly. Was caused by inappropriate notifiers being used.
Notes:
* This commit breaks existing 2.5 files with drivers (in other words, they are lost forever).
* Rigify has been corrected to work with the new system. The PyAPI for accessing targets used for the variables could still be made nicer (using subclassing to directly access?), but that is left for later.
* Version patching for 2.49 files still needs to be put back in place.
This changes how textures are accessed from Brushes, with the intention of simplifying
the workflow, and reducing the amount of clicking. Rather than the previous texture slots
(which didn't work as a stack anyway), brushes now have a single texture linked. Rather
than taking time having to set up your slots in advance, you can now select and change
textures directly as you sculpt/paint on the fly. For complex brushes, node textures can
be used, or for fast access, it's easy to make a duplicate of your brush with the texture
you like and assign a hotkey.
Brush textures can now be chosen from a new Textures panel in the brush tool
properties - click on the thumbnail to open a texture selector. This is done using a new
variation on the ID template - the number of rows and columns to display in the popup
can be customised in the UI scripts.
bpy.types.register(MacroClass)
instead of
bpy.ops.add_macro(MacroClass)
The rest is unchanged.
Also remove some now unused code for the old registration methods (there's still some remaining).
