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animation_add_corrective_shape_key.py
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animation_add_corrective_shape_key.py
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# SPDX-FileCopyrightText: 2010-2022 Blender Foundation
#
# SPDX-License-Identifier: GPL-2.0-or-later
bl_info = {
"name": "Corrective Shape Keys",
"author": "Ivo Grigull (loolarge), Tal Trachtman", "Tokikake"
"version": (1, 1, 1),
"blender": (2, 80, 0),
"location": "Object Data > Shape Keys Specials or Search",
"description": "Creates a corrective shape key for the current pose",
"doc_url": "{BLENDER_MANUAL_URL}/addons/animation/corrective_shape_keys.html",
"category": "Animation",
}
"""
This script transfer the shape from an object (base mesh without
modifiers) to another object with modifiers (i.e. posed Armature).
Only two objects must be selected.
The first selected object will be added to the second selected
object as a new shape key.
- Original 2.4x script by Brecht
- Unpose-function reused from a script by Tal Trachtman in 2007
http://www.apexbow.com/randd.html
- Converted to Blender 2.5 by Ivo Grigull
- Converted to Blender 2.8 by Tokikake
("fast" option was removed, add new "delta" option
which count currently used shape key values of armature mesh when transfer)
Limitations and new delta option for 2.8
- Target mesh may not have any transformation at object level,
it will be set to zero.
- new "delta" option usage, when you hope to make new shape-key with keep currently visible other shape keys value.
it can generate new shape key, with value as 1.00. then deform target shape as source shape with keep other shape key values relative.
- If overwrite shape key,<select active shape key of target as non "base shape">
current shape key value is ignored and turn as 1.00.
then if active shape key was driven (bone rotation etc), you may get un-expected result. When transfer, I recommend, keep set active-shape key as base. so transferred shape key do not "overwrite". but generate new shape key.
if active-shape key have no driver, you can overwrite it (but as 1.00 value )
"""
import bpy
from mathutils import Vector, Matrix
iterations = 20
threshold = 1e-16
def update_mesh(ob):
depth = bpy.context.evaluated_depsgraph_get()
depth.update()
ob.update_tag()
bpy.context.view_layer.update()
ob.data.update()
def reset_transform(ob):
ob.matrix_local.identity()
# this version is for shape_key data
def extract_vert_coords(verts):
return [v.co.copy() for v in verts]
def extract_mapped_coords(ob, shape_verts):
depth = bpy.context.evaluated_depsgraph_get()
eobj = ob.evaluated_get(depth)
mesh = bpy.data.meshes.new_from_object(eobj)
# cheating, the original mapped verts happen
# to be at the end of the vertex array
verts = mesh.vertices
#arr = [verts[i].co.copy() for i in range(len(verts) - totvert, len(verts))]
arr = [verts[i].co.copy() for i in range(0, len(verts))]
mesh.user_clear()
bpy.data.meshes.remove(mesh)
update_mesh(ob)
return arr
def apply_vert_coords(ob, mesh, x):
for i, v in enumerate(mesh):
v.co = x[i]
update_mesh(ob)
def func_add_corrective_pose_shape(source, target, flag):
ob_1 = target
mesh_1 = target.data
ob_2 = source
mesh_2 = source.data
reset_transform(target)
# If target object doesn't have Base shape key, create it.
if not mesh_1.shape_keys:
basis = ob_1.shape_key_add()
basis.name = "Basis"
update_mesh(ob_1)
ob_1.active_shape_key_index = 0
ob_1.show_only_shape_key = False
key_index = ob_1.active_shape_key_index
print(ob_1)
print(ob_1.active_shape_key)
active_key_name = ob_1.active_shape_key.name
if (flag == True):
# Make mix shape key from currently used shape keys
if not key_index == 0:
ob_1.active_shape_key.value = 0
mix_shape = ob_1.shape_key_add(from_mix = True)
mix_shape.name = "Mix_shape"
update_mesh(ob_1)
keys = ob_1.data.shape_keys.key_blocks.keys()
ob_1.active_shape_key_index = keys.index(active_key_name)
print("active_key_name: ", active_key_name)
if key_index == 0:
new_shapekey = ob_1.shape_key_add()
new_shapekey.name = "Shape_" + ob_2.name
update_mesh(ob_1)
keys = ob_1.data.shape_keys.key_blocks.keys()
ob_1.active_shape_key_index = keys.index(new_shapekey.name)
# else, the active shape will be used (updated)
ob_1.show_only_shape_key = True
vgroup = ob_1.active_shape_key.vertex_group
ob_1.active_shape_key.vertex_group = ""
#mesh_1_key_verts = mesh_1.shape_keys.key_blocks[key_index].data
mesh_1_key_verts = ob_1.active_shape_key.data
x = extract_vert_coords(mesh_1_key_verts)
targetx = extract_vert_coords(mesh_2.vertices)
for iteration in range(0, iterations):
dx = [[], [], [], [], [], []]
mapx = extract_mapped_coords(ob_1, mesh_1_key_verts)
# finite differencing in X/Y/Z to get approximate gradient
for i in range(0, len(mesh_1.vertices)):
epsilon = (targetx[i] - mapx[i]).length
if epsilon < threshold:
epsilon = 0.0
dx[0] += [x[i] + 0.5 * epsilon * Vector((1, 0, 0))]
dx[1] += [x[i] + 0.5 * epsilon * Vector((-1, 0, 0))]
dx[2] += [x[i] + 0.5 * epsilon * Vector((0, 1, 0))]
dx[3] += [x[i] + 0.5 * epsilon * Vector((0, -1, 0))]
dx[4] += [x[i] + 0.5 * epsilon * Vector((0, 0, 1))]
dx[5] += [x[i] + 0.5 * epsilon * Vector((0, 0, -1))]
for j in range(0, 6):
apply_vert_coords(ob_1, mesh_1_key_verts, dx[j])
dx[j] = extract_mapped_coords(ob_1, mesh_1_key_verts)
# take a step in the direction of the gradient
for i in range(0, len(mesh_1.vertices)):
epsilon = (targetx[i] - mapx[i]).length
if epsilon >= threshold:
Gx = list((dx[0][i] - dx[1][i]) / epsilon)
Gy = list((dx[2][i] - dx[3][i]) / epsilon)
Gz = list((dx[4][i] - dx[5][i]) / epsilon)
G = Matrix((Gx, Gy, Gz))
Delmorph = (targetx[i] - mapx[i])
x[i] += G @ Delmorph
apply_vert_coords(ob_1, mesh_1_key_verts, x)
ob_1.show_only_shape_key = True
if (flag == True):
# remove delta of mix-shape key values from new shape key
key_index = ob_1.active_shape_key_index
active_key_name = ob_1.active_shape_key.name
shape_data = ob_1.active_shape_key.data
mix_data = mix_shape.data
for i in range(0, len(mesh_1.vertices)):
shape_data[i].co = mesh_1.vertices[i].co + shape_data[i].co - mix_data[i].co
update_mesh(ob_1)
ob_1.active_shape_key_index = ob_1.data.shape_keys.key_blocks.keys().index("Mix_shape")
bpy.ops.object.shape_key_remove()
ob_1.active_shape_key_index = ob_1.data.shape_keys.key_blocks.keys().index(active_key_name)
ob_1.data.update()
ob_1.show_only_shape_key = False
ob_1.active_shape_key.vertex_group = vgroup
# set the new shape key value to 1.0, so we see the result instantly
ob_1.active_shape_key.value = 1.0
update_mesh(ob_1)
class add_corrective_pose_shape(bpy.types.Operator):
"""Adds first object as shape to second object for the current pose """ \
"""while maintaining modifiers """ \
"""(i.e. anisculpt, avoiding crazy space) Beware of slowness!"""
bl_idname = "object.add_corrective_pose_shape"
bl_label = "Add object as corrective pose shape"
@classmethod
def poll(cls, context):
return context.active_object is not None
def execute(self, context):
selection = context.selected_objects
if len(selection) != 2:
self.report({'ERROR'}, "Select source and target objects")
return {'CANCELLED'}
target = context.active_object
if context.active_object == selection[0]:
source = selection[1]
else:
source = selection[0]
delta_flag = False
func_add_corrective_pose_shape(source, target, delta_flag)
return {'FINISHED'}
class add_corrective_pose_shape_delta (bpy.types.Operator):
"""Adds first object as shape to second object for the current pose """ \
"""while maintaining modifiers and currently used other shape keys""" \
"""with keep other shape key value, generate new shape key which deform to source shape """
bl_idname = "object.add_corrective_pose_shape_delta"
bl_label = "Add object as corrective pose shape delta"
@classmethod
def poll(cls, context):
return context.active_object is not None
def execute(self, context):
selection = context.selected_objects
if len(selection) != 2:
self.report({'ERROR'}, "Select source and target objects")
return {'CANCELLED'}
target = context.active_object
if context.active_object == selection[0]:
source = selection[1]
else:
source = selection[0]
delta_flag = True
func_add_corrective_pose_shape(source, target, delta_flag)
return {'FINISHED'}
def func_object_duplicate_flatten_modifiers(context, ob):
depth = bpy.context.evaluated_depsgraph_get()
eobj = ob.evaluated_get(depth)
mesh = bpy.data.meshes.new_from_object(eobj)
name = ob.name + "_clean"
new_object = bpy.data.objects.new(name, mesh)
new_object.data = mesh
bpy.context.collection.objects.link(new_object)
return new_object
class object_duplicate_flatten_modifiers(bpy.types.Operator):
#Duplicates the selected object with modifiers applied
bl_idname = "object.object_duplicate_flatten_modifiers"
bl_label = "Duplicate and apply all"
@classmethod
def poll(cls, context):
return context.active_object is not None
def execute(self, context):
obj_act = context.active_object
new_object = func_object_duplicate_flatten_modifiers(context, obj_act)
# setup the context
bpy.ops.object.select_all(action='DESELECT')
context.view_layer.objects.active = new_object
new_object.select_set(True)
return {'FINISHED'}
#these old functions and class not work correctly just keep code for others try to edit
def unposeMesh(meshObToUnpose, obj, armatureOb):
psdMeshData = meshObToUnpose
psdMesh = psdMeshData
I = Matrix() # identity matrix
meshData =obj.data
mesh = meshData
armData = armatureOb.data
pose = armatureOb.pose
pbones = pose.bones
for index, v in enumerate(mesh.vertices):
# above is python shortcut for:index goes up from 0 to tot num of
# verts in mesh, with index incrementing by 1 each iteration
psdMeshVert = psdMesh[index]
listOfBoneNameWeightPairs = []
for n in mesh.vertices[index].groups:
try:
name = obj.vertex_groups[n.group].name
weight = n.weight
is_bone = False
for i in armData.bones:
if i.name == name:
is_bone = True
break
# ignore non-bone vertex groups
if is_bone:
listOfBoneNameWeightPairs.append([name, weight])
except:
print('error')
pass
weightedAverageDictionary = {}
totalWeight = 0
for pair in listOfBoneNameWeightPairs:
totalWeight += pair[1]
for pair in listOfBoneNameWeightPairs:
if totalWeight > 0: # avoid divide by zero!
weightedAverageDictionary[pair[0]] = pair[1] / totalWeight
else:
weightedAverageDictionary[pair[0]] = 0
# Matrix filled with zeros
sigma = Matrix()
sigma.zero()
list = []
for n in pbones:
list.append(n)
list.reverse()
for pbone in list:
if pbone.name in weightedAverageDictionary:
#~ print("found key %s", pbone.name)
vertexWeight = weightedAverageDictionary[pbone.name]
m = pbone.matrix_channel.copy()
#m.transpose()
sigma += (m - I) * vertexWeight
else:
pass
#~ print("no key for bone " + pbone.name)
sigma = I + sigma
sigma.invert()
psdMeshVert.co = sigma @ psdMeshVert.co
obj.update_tag()
bpy.context.view_layer.update()
def func_add_corrective_pose_shape_fast(source, target):
reset_transform(target)
# If target object doesn't have Basis shape key, create it.
if not target.data.shape_keys:
basis = target.shape_key_add()
basis.name = "Basis"
target.data.update()
key_index = target.active_shape_key_index
if key_index == 0:
# Insert new shape key
new_shapekey = target.shape_key_add()
new_shapekey.name = "Shape_" + source.name
key_index = len(target.data.shape_keys.key_blocks) - 1
target.active_shape_key_index = key_index
# else, the active shape will be used (updated)
target.show_only_shape_key = True
shape_key_verts = target.data.shape_keys.key_blocks[key_index].data
try:
vgroup = target.active_shape_key.vertex_group
target.active_shape_key.vertex_group = ''
except:
pass
# copy the local vertex positions to the new shape
verts = source.data.vertices
for n in range(len(verts)):
shape_key_verts[n].co = verts[n].co
target.update_tag()
bpy.context.view_layer.update()
# go to all armature modifies and unpose the shape
for n in target.modifiers:
if n.type == 'ARMATURE' and n.show_viewport:
#~ print("got one")
n.use_bone_envelopes = False
n.use_deform_preserve_volume = False
n.use_vertex_groups = True
armature = n.object
unposeMesh(shape_key_verts, target, armature)
break
# set the new shape key value to 1.0, so we see the result instantly
target.active_shape_key.value = 1.0
try:
target.active_shape_key.vertex_group = vgroup
except:
pass
target.show_only_shape_key = False
target.update_tag()
bpy.context.view_layer.update()
target.data.update()
class add_corrective_pose_shape_fast(bpy.types.Operator):
#Adds 1st object as shape to 2nd object as pose shape (only 1 armature)
bl_idname = "object.add_corrective_pose_shape_fast"
bl_label = "Add object as corrective shape faster"
@classmethod
def poll(cls, context):
return context.active_object is not None
def execute(self, context):
selection = context.selected_objects
if len(selection) != 2:
self.report({'ERROR'}, "Select source and target objects")
return {'CANCELLED'}
target = context.active_object
if context.active_object == selection[0]:
source = selection[1]
else:
source = selection[0]
func_add_corrective_pose_shape_fast(source, target)
return {'FINISHED'}
# -----------------------------------------------------------------------------
# GUI
def vgroups_draw(self, context):
layout = self.layout
layout.operator("object.object_duplicate_flatten_modifiers",
text='Create duplicate for editing')
layout.operator("object.add_corrective_pose_shape",
text='Add as corrective pose-shape (slow, all modifiers)',
icon='COPY_ID') # icon is not ideal
layout.operator("object.add_corrective_pose_shape_delta",
text='Add as corrective pose-shape delta" (slow, all modifiers + other shape key values)',
icon='COPY_ID') # icon is not ideal
def modifiers_draw(self, context):
pass
classes = (add_corrective_pose_shape, add_corrective_pose_shape_delta, object_duplicate_flatten_modifiers, add_corrective_pose_shape_fast)
def register():
from bpy.utils import register_class
for cls in classes:
register_class(cls)
bpy.types.MESH_MT_shape_key_context_menu.append(vgroups_draw)
bpy.types.DATA_PT_modifiers.append(modifiers_draw)
def unregister():
from bpy.utils import unregister_class
for cls in reversed(classes):
unregister_class(cls)
bpy.types.MESH_MT_shape_key_context_menu.remove(vgroups_draw)
bpy.types.DATA_PT_modifiers.remove(modifiers_draw)
if __name__ == "__main__":
register()