203 lines
8.4 KiB
Python
203 lines
8.4 KiB
Python
import bpy
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import mathutils
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def getArmatureData(context):
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try:
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arm_object = context.active_object
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if arm_object and arm_object.type == "ARMATURE":
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return arm_object, getattr(arm_object, "pose_library", None)
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elif arm_object and arm_object.parent and arm_object.parent.type == "ARMATURE":
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return arm_object.parent, getattr(arm_object.parent, "pose_library", None)
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else:
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return None, None
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except:
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return None, None
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def getArmatureAction(context):
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try:
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arm_object, pose_library = getArmatureData(context)
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if getattr(arm_object.animation_data.action, "pose_markers", None):
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return getattr(arm_object.animation_data, "action", None)
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except:
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pass
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def searchPoseMarker(context, posename, type):
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try:
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arm_object, pose_library = getArmatureData(context)
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if type == "marker":
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return pose_library.pose_markers.get(posename, None)
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if type == "frame":
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return pose_library.pose_markers.get(posename, None).frame
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if type == "index":
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return pose_library.pose_markers.find(posename)
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except:
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pass
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def selectBonesinPose(context, posename, active_marker):
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try:
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arm_object, pose_library = getArmatureData(context)
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for bone in arm_object.pose.bones:
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bone.bone.select = False
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if findKeyframe(context, bone, active_marker.frame):
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bone.bone.select = True
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except:
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pass
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def findFcurve(context, bone_name, transform, index_int):
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arm_object, pose_library = getArmatureData(context)
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pose_markers = pose_library.pose_markers
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active_frame = pose_markers.active.frame
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fcurve_object = pose_library.fcurves.find(
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'pose.bones["'+bone_name+'"].'+transform+'', index=index_int)
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if hasattr(fcurve_object, 'evaluate'):
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return fcurve_object.evaluate(active_frame)
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else:
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return None
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def createFcurve(context, bone_name, transform, index_int):
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arm_object, pose_library = getArmatureData(context)
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pose_markers = pose_library.pose_markers
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try:
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pose_library.fcurves.new(
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'pose.bones["'+bone_name+'"].'+transform+'', index=index_int, action_group=bone_name)
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return
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except:
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pass
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def findKeyframe(context, bone, active_frame):
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arm_object, pose_library = getArmatureData(context)
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for fcu in pose_library.fcurves:
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if fcu.data_path.startswith('pose.bones["'+bone.name+'"]'):
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for kp in fcu.keyframe_points:
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if kp.co.x == active_frame:
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return fcu.data_path
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def createKeyframe(context, bone_name, transform, index_int, new_marker, loc):
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arm_object, pose_library = getArmatureData(context)
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pose_markers = pose_library.pose_markers
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try:
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pose_library.fcurves.find(
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'pose.bones["'+bone_name+'"].'+transform+'', index=index_int).keyframe_points.insert(new_marker, loc)
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return
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except:
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pass
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def setKeyframesFromBones(context, arm_object, new_marker):
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none_selected = True
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for bone in arm_object.pose.bones:
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if bone.bone.select:
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none_selected = False
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for bone in arm_object.pose.bones:
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if bone.bone.select or none_selected == True:
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bone_name = bone.name
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if bone.rotation_mode in ("XYZ", "XZY", "YXZ", "YZX", "ZXY", "ZYX"):
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rot_mode = "rotation_euler"
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elif bone.rotation_mode == "QUATERNION":
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rot_mode = "rotation_quaternion"
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else:
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self.report({'WARNING'}, "DSPL: Unsupported bone: " + bone.name + ": " + bone.rotation_mode)
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rot_mode = None
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loc_x = bone.location[0]
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loc_y = bone.location[1]
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loc_z = bone.location[2]
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createFcurve(context, bone_name, "location", 0)
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createFcurve(context, bone_name, "location", 1)
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createFcurve(context, bone_name, "location", 2)
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createKeyframe(context, bone_name, "location", 0, new_marker, loc_x)
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createKeyframe(context, bone_name, "location", 1, new_marker, loc_y)
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createKeyframe(context, bone_name, "location", 2, new_marker, loc_z)
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if rot_mode == "rotation_quaternion":
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rot_w = bone.rotation_quaternion[0]
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rot_x = bone.rotation_quaternion[1]
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rot_y = bone.rotation_quaternion[2]
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rot_z = bone.rotation_quaternion[3]
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createFcurve(context, bone_name, rot_mode, 0)
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createFcurve(context, bone_name, rot_mode, 1)
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createFcurve(context, bone_name, rot_mode, 2)
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createFcurve(context, bone_name, rot_mode, 3)
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createKeyframe(context, bone_name, rot_mode, 0, new_marker, rot_w)
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createKeyframe(context, bone_name, rot_mode, 1, new_marker, rot_x)
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createKeyframe(context, bone_name, rot_mode, 2, new_marker, rot_y)
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createKeyframe(context, bone_name, rot_mode, 3, new_marker, rot_z)
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elif rot_mode == "rotation_euler":
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rot_x = bone.rotation_euler[0]
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rot_y = bone.rotation_euler[1]
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rot_z = bone.rotation_euler[2]
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createFcurve(context, bone_name, rot_mode, 0)
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createFcurve(context, bone_name, rot_mode, 1)
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createFcurve(context, bone_name, rot_mode, 2)
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createKeyframe(context, bone_name, rot_mode, 0, new_marker, rot_x)
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createKeyframe(context, bone_name, rot_mode, 1, new_marker, rot_y)
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createKeyframe(context, bone_name, rot_mode, 2, new_marker, rot_z)
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scl_x = bone.scale[0]
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scl_y = bone.scale[1]
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scl_z = bone.scale[2]
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createFcurve(context, bone_name, "scale", 0)
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createFcurve(context, bone_name, "scale", 1)
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createFcurve(context, bone_name, "scale", 2)
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createKeyframe(context, bone_name, "scale", 0, new_marker, scl_x)
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createKeyframe(context, bone_name, "scale", 1, new_marker, scl_y)
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createKeyframe(context, bone_name, "scale", 2, new_marker, scl_z)
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def setBonesfromKeyframes(context, arm_object, active_marker):
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none_selected = True
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for bone in arm_object.pose.bones:
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if bone.bone.select:
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none_selected = False
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for bone in arm_object.pose.bones:
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if bone.bone.select or none_selected == True:
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bone_name = bone.name
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if findKeyframe(context, bone, active_marker.frame) is None:
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continue
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if bone.rotation_mode in ("XYZ", "XZY", "YXZ", "YZX", "ZXY", "ZYX"):
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rot_mode = "rotation_euler"
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elif bone.rotation_mode == "QUATERNION":
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rot_mode = "rotation_quaternion"
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else:
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self.report({'WARNING'}, "DSPL: Unsupported bone: " + bone.name + ": " + bone.rotation_mode)
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rot_mode = None
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loc_x = findFcurve(context, bone_name, "location", 0) or 0.0
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loc_y = findFcurve(context, bone_name, "location", 1) or 0.0
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loc_z = findFcurve(context, bone_name, "location", 2) or 0.0
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if rot_mode == "rotation_quaternion":
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rot_w = findFcurve(context, bone_name, rot_mode, 0) or 1.0
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rot_x = findFcurve(context, bone_name, rot_mode, 1) or 0.0
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rot_y = findFcurve(context, bone_name, rot_mode, 2) or 0.0
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rot_z = findFcurve(context, bone_name, rot_mode, 3) or 0.0
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elif rot_mode == "rotation_euler":
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rot_x = findFcurve(context, bone_name, rot_mode, 0) or 0.0
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rot_y = findFcurve(context, bone_name, rot_mode, 1) or 0.0
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rot_z = findFcurve(context, bone_name, rot_mode, 2) or 0.0
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scl_x = findFcurve(context, bone_name, "scale", 0) or 1.0
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scl_y = findFcurve(context, bone_name, "scale", 1) or 1.0
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scl_z = findFcurve(context, bone_name, "scale", 2) or 1.0
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bone.location = mathutils.Vector((loc_x, loc_y, loc_z))
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if rot_mode == "rotation_euler":
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bone.rotation_euler = mathutils.Euler(
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(rot_x, rot_y, rot_z))
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elif rot_mode == "rotation_quaternion":
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bone.rotation_quaternion = mathutils.Quaternion(
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(rot_w, rot_x, rot_y, rot_z))
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bone.scale = mathutils.Vector((scl_x, scl_y, scl_z)) |