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# This file defines a set of methods that are useful for various
# Relative Keying Set (RKS) related operations, such as: callbacks
# for polling, iterator callbacks, and also generate callbacks.
# All of these can be used in conjunction with the others.
import bpy
###########################
# General Utilities
# Append the specified property name on the the existing path
def path_add_property(path, prop):
if len(path):
return path + "." + prop;
else:
return prop;
###########################
# Poll Callbacks
# selected objects
def RKS_POLL_selected_objects(ksi, context):
return context.active_object or len(context.selected_objects);
# selected bones
def RKS_POLL_selected_bones(ksi, context):
# we must be in Pose Mode, and there must be some bones selected
if (context.active_object) and (context.active_object.mode == 'POSE'):
if context.active_pose_bone or len(context.selected_pose_bones):
return True;
# nothing selected
return False;
# selected bones or objects
def RKS_POLL_selected_items(ksi, context):
return RKS_POLL_selected_bones(ksi, context) or RKS_POLL_selected_objects(ksi, context);
###########################
# Iterator Callbacks
# all selected objects or pose bones, depending on which we've got
def RKS_ITER_selected_item(ksi, context, ks):
if (context.active_object) and (context.active_object.mode == 'POSE'):
for bone in context.selected_pose_bones:
ksi.generate(context, ks, bone)
else:
for ob in context.selected_objects:
ksi.generate(context, ks, ob)
###########################
# Generate Callbacks
# 'Available' F-Curves
def RKS_GEN_available(ksi, context, ks, data):
# try to get the animation data associated with the closest
# ID-block to the data (neither of which may exist/be easy to find)
id_block = data.id_data
adt = getattr(id_block, "animation_data", None)
# there must also be an active action...
if adt is None or adt.action is None:
return;
# for each F-Curve, include an path to key it
# NOTE: we don't need to set the group settings here
for fcu in adt.action.fcurves:
ks.paths.add(id_block, fcu.data_path, index=fcu.array_index)
# ------
# get ID block and based ID path for transform generators
def get_transform_generators_base_info(data):
# ID-block for the data
id_block = data.id_data
# get base path and grouping method/name
if isinstance(data, bpy.types.ID):
# no path in this case
path = ""
# data on ID-blocks directly should get grouped by the KeyingSet
grouping = None
else:
# get the path to the ID-block
path = data.path_from_id()
# try to use the name of the data element to group the F-Curve
# else fallback on the KeyingSet name
grouping = getattr(data, "name", None)
# return the ID-block and the path
return id_block, path, grouping
# Location
def RKS_GEN_location(ksi, context, ks, data):
# get id-block and path info
id_block, base_path, grouping= get_transform_generators_base_info(data)
# add the property name to the base path
path = path_add_property(base_path, "location")
# add Keying Set entry for this...
if grouping:
ks.paths.add(id_block, path, grouping_method='NAMED', group_name=grouping)
else:
ks.paths.add(id_block, path)
# Rotation
def RKS_GEN_rotation(ksi, context, ks, data):
# get id-block and path info
id_block, base_path, grouping= get_transform_generators_base_info(data)
# add the property name to the base path
# rotation mode affects the property used
if data.rotation_mode == 'QUATERNION':
path = path_add_property(base_path, "rotation_quaternion")
elif data.rotation_mode == 'AXISANGLE':
path = path_add_property(base_path, "rotation_axis_angle")
else:
path = path_add_property(base_path, "rotation_euler")
# add Keying Set entry for this...
if grouping:
ks.paths.add(id_block, path, grouping_method='NAMED', group_name=grouping)
else:
ks.paths.add(id_block, path)
# Scaling
def RKS_GEN_scaling(ksi, context, ks, data):
# get id-block and path info
id_block, base_path, grouping= get_transform_generators_base_info(data)
# add the property name to the base path
path = path_add_property(base_path, "scale")
# add Keying Set entry for this...
if grouping:
ks.paths.add(id_block, path, grouping_method='NAMED', group_name=grouping)
else:
ks.paths.add(id_block, path)
###########################
# Un-needed stuff which is here to just shut up the warnings...
classes = []
def register():
register = bpy.types.register
for cls in classes:
register(cls)
def unregister():
unregister = bpy.types.unregister
for cls in classes:
unregister(cls)
if __name__ == "__main__":
register()
###########################
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