blender/release/scripts/modules/rigify/arm_biped.py
Campbell Barton 4f5f868a52 rna data path names which are more likely to break animations.
Added an operator "Update Animation Data",
access from the search menu to update drivers and fcurves.
2010-08-20 06:09:58 +00:00

397 lines
13 KiB
Python

# ##### BEGIN GPL LICENSE BLOCK #####
#
# This program is free software; you can redistribute it and/or
# modify it under the terms of the GNU General Public License
# as published by the Free Software Foundation; either version 2
# of the License, or (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program; if not, write to the Free Software Foundation,
# Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
#
# ##### END GPL LICENSE BLOCK #####
# <pep8 compliant>
import bpy
from math import radians, pi
from rigify import RigifyError, ORG_PREFIX
from rigify_utils import bone_class_instance, copy_bone_simple, add_pole_target_bone, add_stretch_to, blend_bone_list, get_side_name, get_base_name
from rna_prop_ui import rna_idprop_ui_prop_get
from mathutils import Vector
METARIG_NAMES = "shoulder", "arm", "forearm", "hand"
def metarig_template():
# generated by rigify.write_meta_rig
bpy.ops.object.mode_set(mode='EDIT')
obj = bpy.context.active_object
arm = obj.data
bone = arm.edit_bones.new('shoulder')
bone.head[:] = 0.0000, -0.0425, 0.0000
bone.tail[:] = 0.0942, -0.0075, 0.0333
bone.roll = -0.2227
bone.use_connect = False
bone = arm.edit_bones.new('upper_arm')
bone.head[:] = 0.1066, -0.0076, -0.0010
bone.tail[:] = 0.2855, 0.0206, -0.0104
bone.roll = 1.6152
bone.use_connect = False
bone.parent = arm.edit_bones['shoulder']
bone = arm.edit_bones.new('forearm')
bone.head[:] = 0.2855, 0.0206, -0.0104
bone.tail[:] = 0.4550, -0.0076, -0.0023
bone.roll = 1.5153
bone.use_connect = True
bone.parent = arm.edit_bones['upper_arm']
bone = arm.edit_bones.new('hand')
bone.head[:] = 0.4550, -0.0076, -0.0023
bone.tail[:] = 0.5423, -0.0146, -0.0131
bone.roll = -3.0083
bone.use_connect = True
bone.parent = arm.edit_bones['forearm']
bpy.ops.object.mode_set(mode='OBJECT')
pbone = obj.pose.bones['upper_arm']
pbone['type'] = 'arm_biped'
def metarig_definition(obj, orig_bone_name):
mt = bone_class_instance(obj, METARIG_NAMES) # meta
mt.arm = orig_bone_name
mt.update()
mt.shoulder_p = mt.arm_p.parent
if not mt.shoulder_p:
raise RigifyError("could not find '%s' parent, skipping:" % orig_bone_name)
mt.shoulder = mt.shoulder_p.name
# We could have some bones attached, find the bone that has this as its 2nd parent
hands = []
for pbone in obj.pose.bones:
index = pbone.parent_index(mt.arm_p)
if index == 2 and pbone.bone.use_connect and pbone.bone.parent.use_connect:
hands.append(pbone)
if len(hands) != 1:
raise RigifyError("Found %s possible hands attached to this arm, expected 1 from bone: %s" % ([pbone.name for pbone in hands], orig_bone_name))
# first add the 2 new bones
mt.hand_p = hands[0]
mt.hand = mt.hand_p.name
mt.forearm_p = mt.hand_p.parent
mt.forearm = mt.forearm_p.name
return mt.names()
def ik(obj, definitions, base_names, options):
arm = obj.data
mt = bone_class_instance(obj, METARIG_NAMES)
mt.shoulder, mt.arm, mt.forearm, mt.hand = definitions
mt.update()
ik = bone_class_instance(obj, ["pole", "pole_vis", "hand_vis"])
ik_chain = mt.copy(to_fmt="MCH-%s_ik", base_names=base_names, exclude_attrs=["shoulder"])
# IK needs no parent_index
ik_chain.hand_e.use_connect = False
ik_chain.hand_e.parent = None
ik_chain.hand_e.use_local_location = False
ik_chain.rename("hand", get_base_name(base_names[mt.hand]) + "_ik" + get_side_name(mt.hand))
ik_chain.arm_e.use_connect = False
ik_chain.arm_e.parent = mt.shoulder_e
# Add the bone used for the arms poll target
#ik.pole = add_pole_target_bone(obj, mt.forearm, get_base_name(base_names[mt.forearm]) + "_target" + get_side_name(mt.forearm), mode='ZAVERAGE')
ik.pole = add_pole_target_bone(obj, mt.forearm, "elbow_target" + get_side_name(mt.forearm), mode='ZAVERAGE')
ik.update()
ik.pole_e.use_local_location = False
# option: elbow_parent
elbow_parent_name = options.get("elbow_parent", "")
if elbow_parent_name:
try:
elbow_parent_e = arm.edit_bones[ORG_PREFIX + elbow_parent_name]
except:
# TODO, old/new parent mapping
raise RigifyError("parent bone from property 'arm_biped_generic.elbow_parent' not found '%s'" % elbow_parent_name)
ik.pole_e.parent = elbow_parent_e
# update bones after this!
ik.hand_vis = add_stretch_to(obj, mt.hand, ik_chain.hand, "VIS-%s_ik" % base_names[mt.hand])
ik.pole_vis = add_stretch_to(obj, mt.forearm, ik.pole, "VIS-%s_ik" % base_names[mt.forearm])
ik.update()
ik.hand_vis_e.hide_select = True
ik.pole_vis_e.hide_select = True
bpy.ops.object.mode_set(mode='OBJECT')
mt.update()
ik.update()
ik_chain.update()
# Set IK dof
ik_chain.forearm_p.lock_ik_x = False
ik_chain.forearm_p.lock_ik_y = True
ik_chain.forearm_p.lock_ik_z = True
con = ik_chain.forearm_p.constraints.new('IK')
con.target = obj
con.subtarget = ik_chain.hand
con.pole_target = obj
con.pole_subtarget = ik.pole
con.use_tail = True
con.use_stretch = True
con.use_target = True
con.use_rotation = False
con.chain_count = 2
con.pole_angle = -pi/2
# last step setup layers
if "ik_layer" in options:
layer = [n==options["ik_layer"] for n in range(0,32)]
else:
layer = list(mt.arm_b.layers)
ik_chain.hand_b.layers = layer
ik.hand_vis_b.layers = layer
ik.pole_b.layers = layer
ik.pole_vis_b.layers = layer
bpy.ops.object.mode_set(mode='EDIT')
# don't blend the shoulder
return [None] + ik_chain.names()
def fk(obj, definitions, base_names, options):
arm = obj.data
mt = bone_class_instance(obj, METARIG_NAMES)
mt.shoulder, mt.arm, mt.forearm, mt.hand = definitions
mt.update()
ex = bone_class_instance(obj, ["socket", "hand_delta"])
fk_chain = mt.copy(base_names=base_names)
# shoulder is used as a hinge
fk_chain.rename("shoulder", "MCH-%s_hinge" % base_names[mt.arm])
fk_chain.shoulder_e.translate(Vector((0.0, fk_chain.shoulder_e.length / 2, 0.0)))
# upper arm constrains to this.
ex.socket_e = copy_bone_simple(arm, mt.arm, "MCH-%s_socket" % base_names[mt.arm])
ex.socket = ex.socket_e.name
ex.socket_e.use_connect = False
ex.socket_e.parent = mt.shoulder_e
ex.socket_e.length *= 0.5
# insert the 'MCH-delta_hand', between the forearm and the hand
# copies forarm rotation
ex.hand_delta_e = copy_bone_simple(arm, fk_chain.hand, "MCH-delta_%s" % base_names[mt.hand], parent=True)
ex.hand_delta = ex.hand_delta_e.name
ex.hand_delta_e.length *= 0.5
ex.hand_delta_e.use_connect = False
if "hand_roll" in options:
ex.hand_delta_e.roll += radians(options["hand_roll"])
fk_chain.hand_e.use_connect = False
fk_chain.hand_e.parent = ex.hand_delta_e
bpy.ops.object.mode_set(mode='OBJECT')
mt.update()
ex.update()
fk_chain.update()
# Set rotation modes and axis locks
fk_chain.forearm_p.rotation_mode = 'XYZ'
fk_chain.forearm_p.lock_rotation = (False, True, True)
fk_chain.hand_p.rotation_mode = 'ZXY'
fk_chain.arm_p.lock_location = True, True, True
con = fk_chain.arm_p.constraints.new('COPY_LOCATION')
con.target = obj
con.subtarget = ex.socket
fk_chain.hand_p.lock_location = True, True, True
con = ex.hand_delta_p.constraints.new('COPY_ROTATION')
con.target = obj
con.subtarget = fk_chain.forearm
def hinge_setup():
# Hinge constraint & driver
con = fk_chain.shoulder_p.constraints.new('COPY_ROTATION')
con.name = "hinge"
con.target = obj
con.subtarget = mt.shoulder
driver_fcurve = con.driver_add("influence")
driver = driver_fcurve.driver
controller_path = fk_chain.arm_p.path_from_id()
# add custom prop
fk_chain.arm_p["hinge"] = 0.0
prop = rna_idprop_ui_prop_get(fk_chain.arm_p, "hinge", create=True)
prop["soft_min"] = 0.0
prop["soft_max"] = 1.0
# *****
driver = driver_fcurve.driver
driver.type = 'AVERAGE'
var = driver.variables.new()
var.name = "hinge"
var.targets[0].id_type = 'OBJECT'
var.targets[0].id = obj
var.targets[0].data_path = controller_path + '["hinge"]'
mod = driver_fcurve.modifiers[0]
mod.poly_order = 1
mod.coefficients[0] = 1.0
mod.coefficients[1] = -1.0
hinge_setup()
# last step setup layers
if "fk_layer" in options:
layer = [n==options["fk_layer"] for n in range(0,32)]
else:
layer = list(mt.arm_b.layers)
fk_chain.arm_b.layers = layer
fk_chain.forearm_b.layers = layer
fk_chain.hand_b.layers = layer
# Forearm was getting wrong roll somehow. Hack to fix that.
bpy.ops.object.mode_set(mode='EDIT')
fk_chain.update()
mt.update()
fk_chain.forearm_e.roll = mt.forearm_e.roll
bpy.ops.object.mode_set(mode='OBJECT')
bpy.ops.object.mode_set(mode='EDIT')
return None, fk_chain.arm, fk_chain.forearm, fk_chain.hand
def deform(obj, definitions, base_names, options):
bpy.ops.object.mode_set(mode='EDIT')
# Create upper arm bones: two bones, each half of the upper arm.
uarm1 = copy_bone_simple(obj.data, definitions[1], "DEF-%s.01" % base_names[definitions[1]], parent=True)
uarm2 = copy_bone_simple(obj.data, definitions[1], "DEF-%s.02" % base_names[definitions[1]], parent=True)
uarm1.use_connect = False
uarm2.use_connect = False
uarm2.parent = uarm1
center = uarm1.center
uarm1.tail = center
uarm2.head = center
# Create forearm bones: two bones, each half of the forearm.
farm1 = copy_bone_simple(obj.data, definitions[2], "DEF-%s.01" % base_names[definitions[2]], parent=True)
farm2 = copy_bone_simple(obj.data, definitions[2], "DEF-%s.02" % base_names[definitions[2]], parent=True)
farm1.use_connect = False
farm2.use_connect = False
farm2.parent = farm1
center = farm1.center
farm1.tail = center
farm2.head = center
# Create twist bone
twist = copy_bone_simple(obj.data, definitions[2], "MCH-arm_twist")
twist.use_connect = False
twist.parent = obj.data.edit_bones[definitions[3]]
twist.length /= 2
# Create hand bone
hand = copy_bone_simple(obj.data, definitions[3], "DEF-%s" % base_names[definitions[3]], parent=True)
# Store names before leaving edit mode
uarm1_name = uarm1.name
uarm2_name = uarm2.name
farm1_name = farm1.name
farm2_name = farm2.name
twist_name = twist.name
hand_name = hand.name
# Leave edit mode
bpy.ops.object.mode_set(mode='OBJECT')
# Get the pose bones
uarm1 = obj.pose.bones[uarm1_name]
uarm2 = obj.pose.bones[uarm2_name]
farm1 = obj.pose.bones[farm1_name]
farm2 = obj.pose.bones[farm2_name]
twist = obj.pose.bones[twist_name]
hand = obj.pose.bones[hand_name]
# Upper arm constraints
con = uarm1.constraints.new('DAMPED_TRACK')
con.name = "trackto"
con.target = obj
con.subtarget = definitions[2]
con = uarm1.constraints.new('COPY_SCALE')
con.name = "trackto"
con.target = obj
con.subtarget = definitions[1]
con = uarm2.constraints.new('COPY_ROTATION')
con.name = "copy_rot"
con.target = obj
con.subtarget = definitions[1]
# Forearm constraints
con = farm1.constraints.new('COPY_ROTATION')
con.name = "copy_rot"
con.target = obj
con.subtarget = definitions[2]
con = farm1.constraints.new('COPY_SCALE')
con.name = "copy_rot"
con.target = obj
con.subtarget = definitions[2]
con = farm2.constraints.new('COPY_ROTATION')
con.name = "copy_rot"
con.target = obj
con.subtarget = twist.name
con = farm2.constraints.new('DAMPED_TRACK')
con.name = "trackto"
con.target = obj
con.subtarget = definitions[3]
# Hand constraint
con = hand.constraints.new('COPY_ROTATION')
con.name = "copy_rot"
con.target = obj
con.subtarget = definitions[3]
bpy.ops.object.mode_set(mode='EDIT')
return (uarm1_name, uarm2_name, farm1_name, farm2_name, hand_name)
def main(obj, bone_definition, base_names, options):
bones_fk = fk(obj, bone_definition, base_names, options)
bones_ik = ik(obj, bone_definition, base_names, options)
bones_deform = deform(obj, bone_definition, base_names, options)
bpy.ops.object.mode_set(mode='OBJECT')
blend_bone_list(obj, bone_definition, bones_fk, bones_ik, target_bone=bones_ik[3], target_prop="ik", blend_default=0.0)