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car_rig.py
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car_rig.py
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# ##### 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 3
# 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
import math
import bpy_extras
import mathutils
import re
from math import inf
from rna_prop_ui import rna_idprop_ui_create
CUSTOM_SHAPE_LAYER = 13
MCH_BONE_EXTENSION_LAYER = 14
DEF_BONE_LAYER = 15
MCH_BONE_LAYER = 31
def deselect_edit_bones(ob):
for b in ob.data.edit_bones:
b.select = False
b.select_head = False
b.select_tail = False
def create_constraint_influence_driver(ob, cns, driver_data_path, base_influence=1.0):
fcurve = cns.driver_add('influence')
drv = fcurve.driver
drv.type = 'AVERAGE'
var = drv.variables.new()
var.name = 'influence'
var.type = 'SINGLE_PROP'
targ = var.targets[0]
targ.id_type = 'OBJECT'
targ.id = ob
targ.data_path = driver_data_path
if base_influence != 1.0:
fmod = fcurve.modifiers[0]
fmod.mode = 'POLYNOMIAL'
fmod.poly_order = 1
fmod.coefficients = (0, base_influence)
def create_rotation_euler_x_driver(ob, bone, driver_data_path):
fcurve = bone.driver_add('rotation_euler', 0)
drv = fcurve.driver
drv.type = 'AVERAGE'
var = drv.variables.new()
var.name = 'rotationAngle'
var.type = 'SINGLE_PROP'
targ = var.targets[0]
targ.id_type = 'OBJECT'
targ.id = ob
targ.data_path = driver_data_path
def create_translation_x_driver(ob, bone, driver_data_path):
fcurve = bone.driver_add('location', 0)
drv = fcurve.driver
drv.type = 'AVERAGE'
var = drv.variables.new()
var.name = 'rotationAngle'
var.type = 'SINGLE_PROP'
targ = var.targets[0]
targ.id_type = 'OBJECT'
targ.id = ob
targ.data_path = driver_data_path
def create_bone_group(pose, group_name, color_set, bone_names):
group = pose.bone_groups.new(name=group_name)
group.color_set = color_set
for bone_name in bone_names:
bone = pose.bones.get(bone_name)
if bone is not None:
bone.bone_group = group
def name_range(prefix, nb=1000):
if nb > 0:
yield prefix
for i in range(1, nb):
yield '%s.%03d' % (prefix, i)
def get_widget(name):
widget = bpy.data.objects.get(name)
if widget is None:
from . import widgets
widgets.create()
widget = bpy.data.objects.get(name)
return widget
def define_custom_property(target, name, value, description=None, overridable=True):
rna_idprop_ui_create(target, name, default=value, description=description, overridable=overridable, min=-inf, max=inf)
def dispatch_bones_to_armature_layers(ob):
re_mch_bone = re.compile(r'^MCH-Wheel(Brake)?\.(Ft|Bk)\.[LR](\.\d+)?$')
default_visible_layers = [False] * 32
for b in ob.data.bones:
layers = [False] * 32
if b.name.startswith('DEF-'):
layers[DEF_BONE_LAYER] = True
elif b.name.startswith('MCH-'):
layers[MCH_BONE_LAYER] = True
if b.name in ('MCH-Body', 'MCH-Steering') or re_mch_bone.match(b.name):
layers[MCH_BONE_EXTENSION_LAYER] = True
else:
layer_num = ob.pose.bones[b.name].bone_group_index
layers[layer_num] = True
default_visible_layers[layer_num] = True
b.layers = layers
ob.data.layers = default_visible_layers
shape_bone_layers = [False] * 32
shape_bone_layers[CUSTOM_SHAPE_LAYER] = True
for b in ob.pose.bones:
if b.custom_shape:
if b.custom_shape_transform:
ob.pose.bones[b.custom_shape_transform.name].custom_shape = b.custom_shape
ob.data.bones[b.custom_shape_transform.name].layers = shape_bone_layers
else:
ob.data.bones[b.name].layers[CUSTOM_SHAPE_LAYER] = True
class NameSuffix(object):
def __init__(self, position, side, index=0):
self.position = position
self.side = side
self.index = index
if index == 0:
self.value = '%s.%s' % (position, side)
else:
self.value = '%s.%s.%03d' % (position, side, index)
def name(self, base_name=None):
return '%s.%s' % (base_name, self.value) if base_name else self.value
@property
def is_front(self):
return self.position == 'Ft'
@property
def is_left(self):
return self.side == 'L'
@property
def is_first(self):
return self.index == 0
def __str__(self):
return self.value
class BoundingBox(object):
def __init__(self, armature, bone_name):
objs = [o for o in armature.children if o.parent_bone == bone_name]
bone = armature.data.bones[bone_name]
self.__center = bone.head.copy()
if not objs:
self.__xyz = [bone.head.x - bone.length / 2, bone.head.x + bone.length / 2, bone.head.y - bone.length, bone.head.y + bone.length, .0, bone.head.z * 2]
else:
self.__xyz = [inf, -inf, inf, -inf, inf, -inf]
self.__compute(mathutils.Matrix(), *objs)
def __compute(self, pmatrix, *objs):
for obj in objs:
omatrix = pmatrix @ obj.matrix_world
if obj.instance_type == 'COLLECTION':
self.__compute(omatrix, *obj.instance_collection.all_objects)
elif obj.bound_box:
for p in obj.bound_box:
world_p = omatrix @ mathutils.Vector(p)
self.__xyz[0] = min(world_p.x, self.__xyz[0])
self.__xyz[1] = max(world_p.x, self.__xyz[1])
self.__xyz[2] = min(world_p.y, self.__xyz[2])
self.__xyz[3] = max(world_p.y, self.__xyz[3])
self.__xyz[4] = min(world_p.z, self.__xyz[4])
self.__xyz[5] = max(world_p.z, self.__xyz[5])
self.__compute(pmatrix, *obj.children)
@property
def center(self):
return self.__center
@property
def box_center(self):
return mathutils.Vector((self.max_x + self.min_x, self.max_y + self.min_y, self.max_z + self.min_z)) / 2
@property
def min_x(self):
return self.__xyz[0]
@property
def max_x(self):
return self.__xyz[1]
@property
def min_y(self):
return self.__xyz[2]
@property
def max_y(self):
return self.__xyz[3]
@property
def min_z(self):
return self.__xyz[4]
@property
def max_z(self):
return self.__xyz[5]
@property
def width(self):
return abs(self.__xyz[0] - self.__xyz[1])
@property
def length(self):
return abs(self.__xyz[2] - self.__xyz[3])
@property
def height(self):
return abs(self.__xyz[4] - self.__xyz[5])
class WheelBoundingBox(BoundingBox):
def __init__(self, armature, bone_name, side):
super().__init__(armature, bone_name)
self.side = side
def compute_outer_x(self, delta=0):
if self.side == 'L':
return self.max_x + delta
else:
return self.min_x - delta
class WheelsDimension(object):
def __init__(self, armature, position, side_position, default):
self.default = default
self.position = position
self.side_position = side_position
self.wheels = []
wheel_bones = (armature.data.edit_bones.get(name) for name in name_range('DEF-Wheel.%s.%s' % (self.position, self.side_position)))
for wheel_bone in wheel_bones:
if wheel_bone is None:
break
self.wheels.append(WheelBoundingBox(armature, wheel_bone.name, side_position))
def name_suffixes(self):
for i in range(len(self.wheels)):
yield NameSuffix(self.position, self.side_position, i)
def names(self, base_name=None):
for name_suffix in name_range('%s.%s' % (self.position, self.side_position), self.nb):
yield '%s.%s' % (base_name, name_suffix) if base_name else name_suffix
def name(self, base_name=None):
suffix = '%s.%s' % (self.position, self.side_position)
return '%s.%s' % (base_name, suffix) if base_name else suffix
@property
def nb(self):
return len(self.wheels)
@property
def min_position(self):
if self.nb == 0:
return self.default
return min(self.wheels, key=lambda w: w.center.y).center
@property
def max_position(self):
if self.nb == 0:
return self.default
return max(self.wheels, key=lambda w: w.center.y).center
@property
def medium_position(self):
if self.nb == 0:
return self.min_position
return (self.min_position + self.max_position) / 2.0
def compute_outer_x(self, delta=0):
if self.side_position == 'L':
x = max(map(lambda w: w.max_x, self.wheels))
x += delta
else:
x = min(map(lambda w: w.min_x, self.wheels))
x -= delta
return x
@property
def outer_z(self):
return max(map(lambda w: w.max_z, self.wheels))
@property
def outer_front(self):
return min(map(lambda w: w.min_y, self.wheels))
@property
def outer_back(self):
return max(map(lambda w: w.max_y, self.wheels))
class CarDimension(object):
def __init__(self, armature):
body = armature.data.edit_bones['DEF-Body']
self.bb_body = BoundingBox(armature, 'DEF-Body')
self.wheels_front_left = WheelsDimension(armature, 'Ft', 'L', default=body.head)
self.wheels_front_right = WheelsDimension(armature, 'Ft', 'R', default=body.head)
self.wheels_back_left = WheelsDimension(armature, 'Bk', 'L', default=body.tail)
self.wheels_back_right = WheelsDimension(armature, 'Bk', 'R', default=body.tail)
@property
def body_center(self):
return self.bb_body.center
@property
def car_center(self):
center = self.bb_body.box_center.copy()
center.y = (self.max_y + self.min_y) / 2
return center
@property
def width(self):
return max([self.bb_body.width] + [abs(w.compute_outer_x() - self.bb_body.center.x) * 2 for w in self.wheels_dimensions])
@property
def height(self):
return max([self.bb_body.max_z] + [w.outer_z for w in self.wheels_dimensions])
@property
def length(self):
return abs(self.max_y - self.min_y)
@property
def min_y(self):
return min([self.bb_body.min_y] + [w.outer_front for w in self.wheels_dimensions])
@property
def max_y(self):
return max([self.bb_body.max_y] + [w.outer_back for w in self.wheels_dimensions])
@property
def wheels_front_position(self):
position = (self.wheels_front_left.min_position + self.wheels_front_right.min_position) / 2
position.x = self.bb_body.center.x
return position
@property
def wheels_back_position(self):
position = (self.wheels_back_left.max_position + self.wheels_back_right.max_position) / 2
position.x = self.bb_body.center.x
return position
@property
def suspension_front_position(self):
position = (self.wheels_front_left.medium_position + self.wheels_front_right.medium_position) / 2
position.x = self.bb_body.center.x
return position
@property
def suspension_back_position(self):
position = (self.wheels_back_left.medium_position + self.wheels_back_right.medium_position) / 2
position.x = self.bb_body.center.x
return position
@property
def has_wheels(self):
return self.has_front_wheels or self.has_back_wheels
@property
def has_front_wheels(self):
return self.nb_front_wheels > 0
@property
def has_back_wheels(self):
return self.nb_back_wheels > 0
@property
def nb_front_wheels(self):
return max(self.wheels_front_left.nb, self.wheels_front_right.nb)
@property
def nb_back_wheels(self):
return max(self.wheels_back_left.nb, self.wheels_back_right.nb)
@property
def wheels_dimensions(self):
return filter(lambda w: w.nb, (self.wheels_front_left, self.wheels_front_right, self.wheels_back_left, self.wheels_back_right))
def create_wheel_brake_bone(wheel_brake, parent_bone, wheel_bone):
wheel_brake.use_deform = False
wheel_brake.parent = parent_bone
wheel_brake.head = wheel_bone.head
wheel_brake.tail = wheel_bone.tail
def generate_constraint_on_wheel_brake_bone(wheel_brake_pose_bone, wheel_pose_bone):
wheel_brake_pose_bone.lock_location = (True, True, True)
wheel_brake_pose_bone.lock_rotation = (True, True, True)
wheel_brake_pose_bone.lock_rotation_w = True
wheel_brake_pose_bone.lock_scale = (True, False, False)
wheel_brake_pose_bone.custom_shape = get_widget('WGT-CarRig.WheelBrake')
wheel_brake_pose_bone.bone.show_wire = True
wheel_brake_pose_bone.bone_group = wheel_pose_bone.bone_group
wheel_brake_pose_bone.bone.layers = wheel_pose_bone.bone.layers
cns = wheel_brake_pose_bone.constraints.new('LIMIT_SCALE')
cns.name = 'Brakes'
cns.use_transform_limit = True
cns.owner_space = 'LOCAL'
cns.use_max_x = True
cns.use_min_x = True
cns.min_x = 1.0
cns.max_x = 1.0
cns.use_max_y = True
cns.use_min_y = True
cns.min_y = .5
cns.max_y = 1.0
cns.use_max_z = True
cns.use_min_z = True
cns.min_z = .5
cns.max_z = 1.0
class ArmatureGenerator(object):
def __init__(self, ob):
self.ob = ob
def generate(self, scene, adjust_origin):
define_custom_property(self.ob,
name='wheels_on_y_axis',
value=False,
description="Activate wheels rotation when moving the root bone along the Y axis")
define_custom_property(self.ob,
name='suspension_factor',
value=.5,
description="Influence of the dampers over the pitch of the body")
define_custom_property(self.ob,
name='suspension_rolling_factor',
value=.5,
description="Influence of the dampers over the roll of the body")
location = self.ob.location.copy()
self.ob.location = (0, 0, 0)
try:
bpy.ops.object.mode_set(mode='EDIT')
self.dimension = CarDimension(self.ob)
self.generate_animation_rig()
self.ob.data['Car Rig'] = True
deselect_edit_bones(self.ob)
if adjust_origin:
bpy.ops.object.mode_set(mode='OBJECT')
self.set_origin(scene)
bpy.ops.object.mode_set(mode='POSE')
self.generate_constraints_on_rig()
self.ob.display_type = 'WIRE'
self.generate_bone_groups()
dispatch_bones_to_armature_layers(self.ob)
finally:
self.ob.location += location
def generate_animation_rig(self):
amt = self.ob.data
body = amt.edit_bones['DEF-Body']
root = amt.edit_bones.new('Root')
if self.dimension.has_back_wheels:
root.head = self.dimension.wheels_back_position
elif self.dimension.has_front_wheels:
root.head = self.dimension.wheels_front_position
else:
root.head = self.dimension.body_center
root.head.z = 0
root.tail = root.head
root.tail.y += max(self.dimension.length / 1.95, self.dimension.width * 1.1)
root.use_deform = False
shape_root = amt.edit_bones.new('SHP-Root')
shape_root.head = self.dimension.car_center
shape_root.head.z = 0.01
shape_root.tail = shape_root.head
shape_root.tail.y += root.length
shape_root.use_deform = False
shape_root.parent = root
drift = amt.edit_bones.new('Drift')
drift.head = self.dimension.wheels_front_position
drift.head.z = self.dimension.wheels_back_position.z
drift.tail = drift.head
drift.tail.y -= self.dimension.width * .95
drift.roll = math.pi
drift.use_deform = False
drift.parent = root
base_bone_parent = drift
if self.dimension.has_front_wheels:
groundsensor_axle_front = amt.edit_bones.new('GroundSensor.Axle.Ft')
groundsensor_axle_front.head = self.dimension.wheels_front_position
groundsensor_axle_front.tail = groundsensor_axle_front.head
groundsensor_axle_front.tail.y += self.dimension.length / 16
groundsensor_axle_front.parent = root
shp_groundsensor_axle_front = amt.edit_bones.new('SHP-GroundSensor.Axle.Ft')
shp_groundsensor_axle_front.head = groundsensor_axle_front.head
shp_groundsensor_axle_front.tail = groundsensor_axle_front.tail
shp_groundsensor_axle_front.head.z = shp_groundsensor_axle_front.tail.z = 0.001
shp_groundsensor_axle_front.parent = groundsensor_axle_front
mch_root_axle_front = amt.edit_bones.new('MCH-Root.Axle.Ft')
mch_root_axle_front.head = self.dimension.wheels_front_position
mch_root_axle_front.head.z = 0.001
mch_root_axle_front.tail = mch_root_axle_front.head
mch_root_axle_front.tail.y += self.dimension.length / 6
mch_root_axle_front.parent = groundsensor_axle_front
if not self.dimension.has_back_wheels:
drift.parent = mch_root_axle_front
if self.dimension.has_back_wheels:
groundsensor_axle_back = amt.edit_bones.new('GroundSensor.Axle.Bk')
groundsensor_axle_back.head = self.dimension.wheels_back_position
groundsensor_axle_back.tail = groundsensor_axle_back.head
groundsensor_axle_back.tail.y += self.dimension.length / 16
groundsensor_axle_back.parent = drift
shp_groundsensor_axle_back = amt.edit_bones.new('SHP-GroundSensor.Axle.Bk')
shp_groundsensor_axle_back.head = groundsensor_axle_back.head
shp_groundsensor_axle_back.tail = groundsensor_axle_back.tail
shp_groundsensor_axle_back.head.z = shp_groundsensor_axle_back.tail.z = 0.001
shp_groundsensor_axle_back.parent = groundsensor_axle_back
mch_root_axle_back = amt.edit_bones.new('MCH-Root.Axle.Bk')
mch_root_axle_back.head = self.dimension.wheels_back_position
mch_root_axle_back.head.z = 0
mch_root_axle_back.tail = mch_root_axle_back.head
mch_root_axle_back.tail.y += self.dimension.length / 6
mch_root_axle_back.parent = groundsensor_axle_back
base_bone_parent = mch_root_axle_back
shape_drift = amt.edit_bones.new('SHP-Drift')
shape_drift.head = self.dimension.body_center
shape_drift.head.y = self.dimension.max_y + drift.length * .2
shape_drift.head.z = self.dimension.wheels_back_position.z
shape_drift.tail = shape_drift.head
shape_drift.tail.y += drift.length
shape_drift.use_deform = False
shape_drift.parent = base_bone_parent
for wheel_dimension in self.dimension.wheels_dimensions:
for name_suffix, wheel_bounding_box in zip(wheel_dimension.name_suffixes(), wheel_dimension.wheels):
self.generate_animation_wheel_bones(name_suffix, wheel_bounding_box, base_bone_parent)
self.generate_wheel_damper(wheel_dimension, base_bone_parent)
if self.dimension.has_front_wheels:
wheel_ft_r = amt.edit_bones.get('DEF-Wheel.Ft.R')
wheelFtL = amt.edit_bones.get('DEF-Wheel.Ft.L')
axis_ft = amt.edit_bones.new('MCH-Axis.Ft')
axis_ft.head = wheel_ft_r.head
axis_ft.tail = wheelFtL.head
axis_ft.use_deform = False
axis_ft.parent = base_bone_parent
mch_steering = amt.edit_bones.new('MCH-Steering')
mch_steering.head = self.dimension.wheels_front_position
mch_steering.tail = self.dimension.wheels_front_position
mch_steering.tail.y += self.dimension.width / 2
mch_steering.use_deform = False
mch_steering.parent = groundsensor_axle_front if groundsensor_axle_front else root
steering_rotation = amt.edit_bones.new('MCH-Steering.rotation')
steering_rotation.head = mch_steering.head
steering_rotation.tail = mch_steering.tail
steering_rotation.tail.y += 1
steering_rotation.use_deform = False
steering = amt.edit_bones.new('Steering')
steering.head = steering_rotation.head
steering.head.y = self.dimension.min_y - 4 * wheelFtL.length
steering.tail = steering.head
steering.tail.y -= self.dimension.width / 2
steering.use_deform = False
steering.parent = steering_rotation
if self.dimension.has_back_wheels:
wheel_bk_r = amt.edit_bones.get('DEF-Wheel.Bk.R')
wheel_bk_l = amt.edit_bones.get('DEF-Wheel.Bk.L')
axisBk = amt.edit_bones.new('MCH-Axis.Bk')
axisBk.head = wheel_bk_r.head
axisBk.tail = wheel_bk_l.head
axisBk.use_deform = False
axisBk.parent = base_bone_parent
suspension_bk = amt.edit_bones.new('MCH-Suspension.Bk')
suspension_bk.head = self.dimension.suspension_back_position
suspension_bk.tail = self.dimension.suspension_back_position
suspension_bk.tail.y += 2
suspension_bk.use_deform = False
suspension_bk.parent = base_bone_parent
suspension_ft = amt.edit_bones.new('MCH-Suspension.Ft')
suspension_ft.head = self.dimension.suspension_front_position
align_vector = suspension_bk.head - suspension_ft.head
align_vector.magnitude = 2
suspension_ft.tail = self.dimension.suspension_front_position + align_vector
suspension_ft.use_deform = False
suspension_ft.parent = base_bone_parent
axis = amt.edit_bones.new('MCH-Axis')
axis.head = suspension_ft.head
axis.tail = suspension_bk.head
axis.use_deform = False
axis.parent = suspension_ft
mch_body = amt.edit_bones.new('MCH-Body')
mch_body.head = body.head
mch_body.tail = body.tail
mch_body.tail.y += 1
mch_body.use_deform = False
mch_body.parent = axis
suspension = amt.edit_bones.new('Suspension')
suspension.head = self.dimension.body_center
suspension.head.z = self.dimension.height + self.dimension.width * .25
suspension.tail = suspension.head
suspension.tail.y += root.length * .5
suspension.use_deform = False
suspension.parent = axis
def generate_animation_wheel_bones(self, name_suffix, wheel_bounding_box, parent_bone):
amt = self.ob.data
def_wheel_bone = amt.edit_bones.get(name_suffix.name('DEF-Wheel'))
if def_wheel_bone is None:
return
ground_sensor = amt.edit_bones.new(name_suffix.name('GroundSensor'))
ground_sensor.head = wheel_bounding_box.box_center
ground_sensor.head.z = def_wheel_bone.head.z
ground_sensor.tail = ground_sensor.head
ground_sensor.tail.y += max(max(wheel_bounding_box.height, ground_sensor.head.z) / 2.5, wheel_bounding_box.width * 1.02)
ground_sensor.use_deform = False
ground_sensor.parent = parent_bone
shp_ground_sensor = amt.edit_bones.new(name_suffix.name('SHP-GroundSensor'))
shp_ground_sensor.head = ground_sensor.head
shp_ground_sensor.tail = ground_sensor.tail
shp_ground_sensor.head.z = shp_ground_sensor.tail.z = .001
shp_ground_sensor.use_deform = False
shp_ground_sensor.parent = ground_sensor
mch_wheel = amt.edit_bones.new(name_suffix.name('MCH-Wheel'))
mch_wheel.head = def_wheel_bone.head
mch_wheel.tail = def_wheel_bone.tail
mch_wheel.tail.y += .5
mch_wheel.use_deform = False
mch_wheel.parent = ground_sensor
define_custom_property(self.ob,
name=name_suffix.name('Wheel.rotation'),
value=.0,
description="Animation property for wheel spinning")
mch_wheel_rotation = amt.edit_bones.new(name_suffix.name('MCH-Wheel.rotation'))
mch_wheel_rotation.head = def_wheel_bone.head
mch_wheel_rotation.tail = def_wheel_bone.head
mch_wheel_rotation.tail.y += mch_wheel_rotation.tail.z
mch_wheel_rotation.use_deform = False
def_wheel_brake_bone = amt.edit_bones.get(name_suffix.name('DEF-WheelBrake'))
if def_wheel_brake_bone is not None:
mch_wheel = amt.edit_bones.new(name_suffix.name('MCH-WheelBrake'))
mch_wheel.head = def_wheel_brake_bone.head
mch_wheel.tail = def_wheel_brake_bone.tail
mch_wheel.tail.y += .5
mch_wheel.use_deform = False
mch_wheel.parent = ground_sensor
wheel = amt.edit_bones.new(name_suffix.name('Wheel'))
wheel.use_deform = False
wheel.parent = ground_sensor
wheel.head = def_wheel_bone.head
wheel.head.x = wheel_bounding_box.compute_outer_x(wheel_bounding_box.length * .05)
wheel.tail = wheel.head
wheel.tail.y += wheel.tail.z * .9
if name_suffix.is_left and name_suffix.is_first:
wheel_brake = amt.edit_bones.new(name_suffix.name('WheelBrake'))
create_wheel_brake_bone(wheel_brake, mch_wheel, wheel)
def generate_wheel_damper(self, wheel_dimension, parent_bone):
amt = self.ob.data
if wheel_dimension.nb == 1:
wheel_damper_parent = amt.edit_bones[wheel_dimension.name('GroundSensor')]
else:
wheel_damper_parent = amt.edit_bones.new(wheel_dimension.name('MCH-GroundSensor'))
wheel_damper_parent.head = wheel_dimension.medium_position
wheel_damper_parent.tail = wheel_dimension.medium_position
wheel_damper_parent.tail.y += 1.0
wheel_damper_parent.head.z = 0
wheel_damper_parent.tail.z = 0
wheel_damper_parent.use_deform = False
wheel_damper_parent.parent = parent_bone
wheel_damper = amt.edit_bones.new(wheel_dimension.name('WheelDamper'))
wheel_damper.head = wheel_dimension.medium_position
wheel_damper_scale_ratio = abs(wheel_damper.head.z)
wheel_damper.head.x = wheel_dimension.compute_outer_x(wheel_damper_scale_ratio * .25)
wheel_damper.head.z *= 1.5
wheel_damper.tail = wheel_damper.head
wheel_damper.tail.y += wheel_damper_scale_ratio
wheel_damper.use_deform = False
wheel_damper.parent = wheel_damper_parent
mch_wheel_damper = amt.edit_bones.new(wheel_dimension.name('MCH-WheelDamper'))
mch_wheel_damper.head = wheel_dimension.medium_position
mch_wheel_damper.tail = wheel_dimension.medium_position
mch_wheel_damper.tail.y += 2
mch_wheel_damper.use_deform = False
mch_wheel_damper.parent = wheel_damper
def generate_constraints_on_rig(self):
pose = self.ob.pose
amt = self.ob.data
for b in pose.bones:
if b.name.startswith('DEF-') or b.name.startswith('MCH-') or b.name.startswith('SHP-'):
b.lock_location = (True, True, True)
b.lock_rotation = (True, True, True)
b.lock_scale = (True, True, True)
b.lock_rotation_w = True
for wheel_dimension in self.dimension.wheels_dimensions:
for name_suffix in wheel_dimension.name_suffixes():
self.generate_constraints_on_wheel_bones(name_suffix)
self.generate_constraints_on_wheel_damper(wheel_dimension)
self.generate_constraints_on_axle_bones('Ft')
self.generate_constraints_on_axle_bones('Bk')
mch_axis = pose.bones.get('MCH-Axis')
if mch_axis is not None:
for axis_pos, influence in (('Ft', 1), ('Bk', .5)):
subtarget = 'MCH-Axis.%s' % axis_pos
if subtarget in pose.bones:
cns = mch_axis.constraints.new('TRANSFORM')
cns.name = 'Rotation from %s' % subtarget
cns.target = self.ob
cns.subtarget = subtarget
cns.map_from = 'ROTATION'
cns.from_min_x_rot = math.radians(-180)
cns.from_max_x_rot = math.radians(180)
cns.map_to_y_from = 'X'
cns.map_to = 'ROTATION'
cns.to_min_y_rot = math.radians(180)
cns.to_max_y_rot = math.radians(-180)
cns.owner_space = 'LOCAL'
cns.target_space = 'LOCAL'
create_constraint_influence_driver(self.ob, cns, '["suspension_rolling_factor"]', base_influence=influence)
root = pose.bones['Root']
root.lock_scale = (True, True, True)
root.custom_shape = get_widget('WGT-CarRig.Root')
root.custom_shape_transform = pose.bones['SHP-Root']
root.bone.show_wire = True
for ground_sensor_axle_name in ('GroundSensor.Axle.Ft', 'GroundSensor.Axle.Bk'):
groundsensor_axle = pose.bones.get(ground_sensor_axle_name)
if groundsensor_axle:
groundsensor_axle.lock_location = (True, True, False)
groundsensor_axle.lock_rotation = (True, True, True)
groundsensor_axle.lock_scale = (True, True, True)
groundsensor_axle.custom_shape = get_widget('WGT-CarRig.GroundSensor.Axle')
groundsensor_axle.lock_rotation_w = True
groundsensor_axle.custom_shape_transform = pose.bones['SHP-%s' % groundsensor_axle.name]
groundsensor_axle.bone.show_wire = True
self.generate_ground_projection_constraint(groundsensor_axle)
if groundsensor_axle.name == 'GroundSensor.Axle.Ft' and 'GroundSensor.Axle.Bk' in pose.bones:
cns = groundsensor_axle.constraints.new('LIMIT_DISTANCE')
cns.name = 'Limit distance from Root'
cns.limit_mode = 'LIMITDIST_ONSURFACE'
cns.target = self.ob
cns.subtarget = 'GroundSensor.Axle.Bk'
cns.use_transform_limit = True
cns.owner_space = 'POSE'
cns.target_space = 'POSE'
mch_root_axle_front = pose.bones.get('MCH-Root.Axle.Ft')
mch_root_axle_back = pose.bones.get('MCH-Root.Axle.Bk')
if mch_root_axle_front and mch_root_axle_back:
cns = mch_root_axle_back.constraints.new('DAMPED_TRACK')
cns.name = 'Track front axle'
cns.target = self.ob
cns.subtarget = mch_root_axle_front.name
cns.track_axis = 'TRACK_NEGATIVE_Y'
drift = pose.bones['Drift']
drift.lock_location = (True, True, True)
drift.lock_rotation = (True, True, False)
drift.lock_scale = (True, True, True)
drift.rotation_mode = 'ZYX'
drift.custom_shape = get_widget('WGT-CarRig.DriftHandle')
drift.custom_shape_transform = pose.bones['SHP-Drift']
drift.bone.show_wire = True
suspension = pose.bones['Suspension']
suspension.lock_rotation = (True, True, True)
suspension.lock_scale = (True, True, True)
suspension.lock_rotation_w = True
suspension.custom_shape = get_widget('WGT-CarRig.Suspension')
suspension.bone.show_wire = True
steering = pose.bones.get('Steering')
if steering is not None:
steering.lock_location = (False, True, True)
steering.lock_rotation = (True, True, True)
steering.lock_scale = (True, True, True)
steering.lock_rotation_w = True
steering.custom_shape = get_widget('WGT-CarRig.Steering')
steering.bone.show_wire = True
mch_steering_rotation = pose.bones['MCH-Steering.rotation']
mch_steering_rotation.rotation_mode = 'QUATERNION'
define_custom_property(self.ob,
name='Steering.rotation',
value=.0,
description="Animation property for steering")
create_translation_x_driver(self.ob, mch_steering_rotation, '["Steering.rotation"]')
if mch_root_axle_back:
cns = mch_steering_rotation.constraints.new('COPY_ROTATION')
cns.name = 'Copy back axle rotation'
cns.target = self.ob
cns.subtarget = mch_root_axle_back.name
cns.use_x = True
cns.use_y = False
cns.use_z = False
cns.owner_space = 'LOCAL'
cns.target_space = 'LOCAL'
self.generate_childof_constraint(mch_steering_rotation, mch_root_axle_front if mch_root_axle_front else root)
mch_steering = pose.bones['MCH-Steering']
cns = mch_steering.constraints.new('DAMPED_TRACK')
cns.name = 'Track steering bone'
cns.target = self.ob
cns.subtarget = 'Steering'
cns.track_axis = 'TRACK_NEGATIVE_Y'
cns = mch_steering.constraints.new('COPY_ROTATION')
cns.name = 'Drift counter animation'
cns.target = self.ob
cns.subtarget = 'Drift'
cns.use_x = False
cns.use_y = False
cns.use_z = True
cns.use_offset = True
cns.owner_space = 'LOCAL'
cns.target_space = 'LOCAL'
mch_body = self.ob.pose.bones['MCH-Body']
cns = mch_body.constraints.new('TRANSFORM')
cns.name = 'Suspension on rollover'
cns.target = self.ob
cns.subtarget = 'Suspension'
cns.map_from = 'LOCATION'
cns.from_min_x = -2
cns.from_max_x = 2
cns.from_min_y = -2
cns.from_max_y = 2
cns.map_to_x_from = 'Y'
cns.map_to_y_from = 'X'
cns.map_to = 'ROTATION'
cns.to_min_x_rot = math.radians(6)
cns.to_max_x_rot = math.radians(-6)
cns.to_min_y_rot = math.radians(-7)
cns.to_max_y_rot = math.radians(7)
cns.owner_space = 'LOCAL'
cns.target_space = 'LOCAL'
cns = mch_body.constraints.new('TRANSFORM')
cns.name = 'Suspension on vertical'
cns.target = self.ob
cns.subtarget = 'Suspension'
cns.map_from = 'LOCATION'
cns.from_min_z = -0.5
cns.from_max_z = 0.5
cns.map_to_z_from = 'Z'
cns.map_to = 'LOCATION'
cns.to_min_z = -0.1
cns.to_max_z = 0.1
cns.owner_space = 'LOCAL'
cns.target_space = 'LOCAL'
body = self.ob.pose.bones['DEF-Body']
cns = body.constraints.new('COPY_TRANSFORMS')
cns.target = self.ob
cns.subtarget = 'MCH-Body'
def generate_ground_projection_constraint(self, bone):
cns = bone.constraints.new('SHRINKWRAP')
cns.name = 'Ground projection'
cns.shrinkwrap_type = 'NEAREST_SURFACE'
cns.project_axis_space = 'LOCAL'
cns.project_axis = 'NEG_Z'
cns.distance = abs(bone.head.z)
def generate_childof_constraint(self, child, parent):
cns = child.constraints.new('CHILD_OF')
cns.target = self.ob
cns.subtarget = parent.name
cns.inverse_matrix = self.ob.data.bones[parent.name].matrix_local.inverted()
cns.use_location_x = True
cns.use_location_y = True
cns.use_location_z = True
cns.use_rotation_x = True
cns.use_rotation_y = True
cns.use_rotation_z = True
return cns
def generate_constraints_on_axle_bones(self, position):
pose = self.ob.pose
subtarget = 'MCH-Axis.%s' % position
if subtarget in pose.bones:
mch_suspension = pose.bones['MCH-Suspension.%s' % position]
cns = mch_suspension.constraints.new('COPY_LOCATION')
cns.name = 'Location from %s' % subtarget
cns.target = self.ob
cns.subtarget = subtarget
cns.head_tail = .5
cns.use_x = False
cns.use_y = False
cns.use_z = True
cns.owner_space = 'WORLD'
cns.target_space = 'WORLD'
create_constraint_influence_driver(self.ob, cns, '["suspension_factor"]')
if position == 'Ft':
cns = mch_suspension.constraints.new('DAMPED_TRACK')
cns.name = 'Track suspension back'
cns.target = self.ob
cns.subtarget = 'MCH-Suspension.Bk'
cns.track_axis = 'TRACK_Y'
mch_axis = pose.bones.get('MCH-Axis.%s' % position)
if mch_axis is not None:
cns = mch_axis.constraints.new('COPY_LOCATION')
cns.name = 'Copy location from right wheel'
cns.target = self.ob
cns.subtarget = 'MCH-WheelDamper.%s.R' % position
cns.use_x = True
cns.use_y = True
cns.use_z = True
cns.owner_space = 'WORLD'
cns.target_space = 'WORLD'
mch_axis = pose.bones['MCH-Axis.%s' % position]
cns = mch_axis.constraints.new('DAMPED_TRACK')
cns.name = 'Track Left Wheel'