def rig(self):
if super(Arm,self).rig():
return True
'''
if common.isValid(self.clavicleJoint.replace('_%s' % common.JOINT,common.CONTROL)):
return True
'''
#create pelvis control
clavicleCtrl = control.create(
name = self.clavicleJoint.replace('_%s' % common.JOINT,''),
type = 'cube',
parent = self.controlsGrp,
color = common.SIDE_COLOR[self._getSide()])
common.setColor(clavicleCtrl, color = common.SIDE_COLOR[self._getSide()])
clavicleCtrlZero = common.getParent(clavicleCtrl)
transform.matchXform(self.clavicleJoint, clavicleCtrlZero, type = 'pose')
cmds.parentConstraint(clavicleCtrl, self.clavicleJoint, mo = True)
#parent fkCtrls under the pelvis control
cmds.parent(common.getParent(self.controls['fk'][0]), clavicleCtrl)
#parent constraint ik/fk joints to the pelvis control
cmds.parentConstraint(self.clavicleJoint,self.joints['ik'][0], mo = True)
cmds.parentConstraint(self.clavicleJoint, self.joints['target'][0], mo = True)
#add joints to the joints dictionary
self.joints['fk'].insert(0, self.clavicleJoint)
#add controls to the control dictionary
self.controls['fk'].insert(0,clavicleCtrl)
self.hookRoot.pop(0)
self.hookRoot.insert(0, clavicleCtrlZero)
def rig(self):
if super(Leg,self).rig():
return True
#create pelvis control
pelvisCtrl = \
control.create(name = self.pelvisJoint.replace('_%s' % common.JOINT, ''),
type = 'cube',
parent = self.controlsGrp,
color = common.SIDE_COLOR[self._getSide()])
#end loop
common.setColor(pelvisCtrl, color = common.SIDE_COLOR[self._getSide()])
pelvisCtrlZero = common.getParent(pelvisCtrl)
transform.matchXform(self.pelvisJoint, pelvisCtrlZero, type = 'pose')
cmds.parentConstraint(pelvisCtrl, self.pelvisJoint, mo = True)
#parent fkCtrls under the pelvis control
cmds.parent(common.getParent(self.controls['fk'][0]), pelvisCtrl)
#parent constraint ik/fk joints to the pelvis control
cmds.parentConstraint(self.pelvisJoint,self.joints['ik'][0], mo = True)
cmds.parentConstraint(self.pelvisJoint, self.joints['target'][0], mo = True)
#add joints to the joints dictionary
self.joints['fk'].insert(0, self.pelvisJoint)
#add controls to the control dictionary
self.controls['fk'].insert(0,pelvisCtrl)
self.hookRoot.pop(0)
self.hookRoot.insert(0, pelvisCtrlZero)
def _ikControlSetup(self, drivers):
'''
Takes driver joints that drive the IK spine and create controls for them
@param drivers: list of drivers you want to put controls on
@type drivers: *list* or *tuple* or *str*
@return: IK controls which were created to drive the driver joints passed in
@rtype: *list*
'''
#create an empty list to store ik controls in so we can return them
ikControls = list()
drivers = common.toList(drivers)
for i,driver in enumerate(drivers):
nameDescription = common.getDescription(driver)
ctrlName = '%s_%s_%s' % (self._getSide(),nameDescription,common.IK)
ctrl = control.create(ctrlName, type = 'cube',
parent = self.controlsGrp,
color = common.SIDE_COLOR[self._getSide()])
ctrlZero = common.getParent(ctrl)
#driverParent = common.getParent(driver)
#move control in to position of driver jnt
transform.matchXform(driver, ctrlZero, 'pose')
#cmds.parent(ctrlZero, driverParent)
#cmds.parent(driver, ctrl)
cmds.parentConstraint(ctrl, driver,mo = True)
#connect ik/fk attr from group to visibility of shapes
reverse = cmds.createNode('reverse', n = '%s_%s_%s' % (self.name(),
common.IK,
common.REVERSE
))
attribute.connect('%s.ikfk' % self.ikFkGroup,'%s.inputX' % reverse)
for shape in common.getShapes(ctrl):
if self.ikFkGroup:
attribute.connect('%s.outputX' % reverse,
'%s.v' % shape)
#end if
#end loop
ikControls.append(ctrl)
#end loop
return ikControls
def _fkControlSetup(self, joints):
'''
Creates FK control setup on the input joints
Example:
...python:
self._fkControlSetup(["jnt1", "jnt2", "jnt3"])
#Return: ["ctrl1", "ctrl2", "ctrl3"]
:param joints: Joints to have controls drive
:type joints: *list* or *tupple* or *str*
'''
joints = common.toList(joints)
if not isinstance(joints, list) and not isinstance(joints, tuple):
raise RuntimeError('%s must be a *list* or *tuple*' % joints)
fkCtrls = list()
parent = self.controlsGrp
for jnt in joints:
ctrl = control.create(name= jnt.split('_%s' % common.JOINT)[0],
type = 'circle',
parent = parent,
color = common.SIDE_COLOR[self._getSide()])
ctrlParent = common.getParent(ctrl)
transform.matchXform(jnt, ctrlParent, type = 'pose')
cmds.parentConstraint(ctrl, jnt, mo = True) #----> might change this to connect rotations and not use translation
#connect visibility of shapes to foot control
for shape in common.getShapes(ctrl):
if self.ikFkGroup:
attribute.connect('%s.ikfk' % self.ikFkGroup,
'%s.v' % shape)
#end if
#end loop
parent = ctrl
fkCtrls.append(ctrl)
#end loop
return fkCtrls
def addSpace( self , target, name=None, mode='parent'):
'''Adds new space.
@param target: New target for spaces.
@type target: *str*
@param name: Name of the target in the enum attribute.
@type name: *str*
@param mode: 'orient' or 'parent'
@type mode: *str*
'''
# get attribute node
if name == None:
name = target
# --------------------------------------------------------------------------
# EDIT ENUM ATTRIBUTE
# get new spaces
existingSpaces = cmds.attributeQuery( 'space', node=self.spaceAttrNode, listEnum=True)[0].split(':')
if name in existingSpaces or target in existingSpaces:
raise RuntimeError, 'There is a space with that name in "%s.%s"' % (self.spaceAttrNode,'space')
# edit enum attribute
cmds.addAttr( '%s.%s' % (self.spaceAttrNode,'space'), e=True, enumName=':'.join(existingSpaces+[name]) )
# --------------------------------------------------------------------------
# create new space
newSpace = cmds.createNode('transform', name='%s_%s' % (self.spaceGrp, name), parent=self.spaceGrp)
transform.matchXform( newSpace, self.spaceNode, 'pose')
#cmds.setAttr( '%s.%s' % (newSpace, 'displayLocalAxis') , True)
if mode == 'orient':
cmds.orientConstraint( target, newSpace, mo=True )
else:
cmds.parentConstraint( target, newSpace, mo=True )
# create constraint
constraint = cmds.parentConstraint( newSpace, self.spaceNode, mo=True )[0]
# connect spaces
self.__connect__()
def rig(self):
if not self._puppetNode:
self.runSetupRig()
#TODO: Place build code for fingers here
for obj in self.fingers:
self.__fingers[obj].rig()
if super(Hand, self).rig():
return True
#TODO: Put build code here
control.create(self.handCtrl.replace('_%s' % common.CONTROL, ''),
type = 'implicitSphere',
parent = self.controlsGrp,
color = common.SIDE_COLOR[self._getSide()])
for i in range(len(common.getShapes(self.handCtrl))):
control.scaleShape (self.handCtrl,scale = [.3,.3,.3],index = i)
#end loop
handCtrlZero = common.getParent(self.handCtrl)
transform.matchXform(self.handJoint,handCtrlZero, 'pose')
#cmds.xform(handCtrlZero, ws = True, t = self.handPosition)
cmds.xform(handCtrlZero, ws = True, r = True, t = [0,1,0])
def setupRig(self):
if super(Chain, self).setupRig():
return True
self.skinClusterJnts = [self.startJoint, self.endJoint]
if self._getSide() == common.LEFT:
positions = (
[self.position[0] + 2, self.position[1], self.position[2]],
[self.position[0] + 9, self.position[1], self.position[2]]
)
aimCtrlPosition = [positions[0][0],
positions[0][1] + 5,
positions[0][2]]
#end if
elif self._getSide() == common.RIGHT:
positions = (
[self.position[0] - 2, self.position[1], self.position[2]],
[self.position[0] - 9, self.position[1], self.position[2]]
)
aimCtrlPosition = [positions[0][0],
positions[0][1] + 5,
positions[0][2]]
#end elif
else:
positions = (
[self.position[0], self.position[1], self.position[2]],
[self.position[0], self.position[1] + 9, self.position[2]]
)
aimCtrlPosition = [positions[0][0],
positions[0][1],
positions[0][2] + 5]
#end elif
for i,jnt in enumerate(self.skinClusterJnts):
if not common.isValid(jnt):
cmds.joint(n = jnt,position = positions[i])
if i == 0:
cmds.parent(jnt, self.skeletonGrp)
#place Master Guide control in the same position
# as the first joint
transform.matchXform(jnt,
common.getParent(self.masterGuide),
type = 'position')
else:
cmds.parent(jnt, self.skinClusterJnts[i - 1])
#end if/else
ctrl = self.setupCtrl(jnt.replace('_%s' % common.JOINT, ''),jnt)
#create template control
#control.createTemplate(ctrl)
cmds.select(cl = True)
#end loop
# ----------------------------------------------------------------------
# CREATE GUIDES
startJointGuide = self.startJoint.replace(common.JOINT, common.GUIDES)
endJointGuide = self.endJoint.replace(common.JOINT, common.GUIDES)
# ----------------------------------------------------------------------
# ORIENTATION
#
if self._getSide() == common.RIGHT:
aimVectorAttr = attribute.switch ('aimVector',
node= self.masterGuide,
value=4,
choices=['x','y','z','-x','-y','-z'],
outputs=[(1,0,0),(0,1,0),(0,0,1),(-1,0,0),(0,-1,0),(0,0,-1)])
upVectorAttr = attribute.switch ('upVector',
node=self.masterGuide,
value=3,
choices=['x','y','z','-x','-y','-z'],
outputs=[(1,0,0),(0,1,0),(0,0,1),(-1,0,0),(0,-1,0),(0,0,-1)])
else:
aimVectorAttr = attribute.switch ('aimVector',
node=self.masterGuide,
value=1,
choices=['x','y','z','-x','-y','-z'],
outputs=[(1,0,0),(0,1,0),(0,0,1),(-1,0,0),(0,-1,0),(0,0,-1)])
upVectorAttr = attribute.switch ('upVector',
node=self.masterGuide,
value=3,
choices=['x','y','z','-x','-y','-z'],
outputs=[(1,0,0),(0,1,0),(0,0,1),(-1,0,0),(0,-1,0),(0,0,-1)])
#create in-between joints and guides and make connections
step = 1.0 / (self.numJoints - 1)
parent = self.startJoint
for i in range( 1, self.numJoints - 1 ):
j = '%s_%s_%s_%s_%s' % (self._getPrefix(),
common.getDescription(self.name()),
common.padNumber(i,3),
common.SKINCLUSTER,
common.JOINT)
if not common.isValid(j):
joint.create( name= j)
transform.matchXform( self.startJoint,j, type='rotate' )
ctrl = self.setupCtrl(j.replace('_%s' % common.JOINT, ''),j)
ctrlParent = common.getParent(ctrl)
#create point constraint and figure out percentage for position
constraint = cmds.pointConstraint( self.startJoint,
endJointGuide, ctrlParent )[0]
weightAliasList = cmds.pointConstraint( constraint,
q=True,
weightAliasList=True)
cmds.setAttr( '%s.%s' % (constraint, weightAliasList[0]), 1-(step*i) )
cmds.setAttr( '%s.%s' % (constraint, weightAliasList[1]), step*i )
#adding the joint to skincluster joints list
self.skinClusterJnts.insert(-1, j)
relatives = cmds.listRelatives(j, p = True)
if not relatives:
cmds.parent(j, parent)
parent = j
if i == self.numJoints - 2:
cmds.parent(self.endJoint, j)
constraint = cmds.orientConstraint(j, self.endJoint)[0]
#add constraints to setup constraint list
self._addSetupConstraints(constraint)
#create aim control
aimLocator = self._createAimLocator(aimCtrlPosition,
color = common.SIDE_COLOR_SECONDARY[self._getSide()])
#create aim constraints
for i, jnt in enumerate(self.skinClusterJnts):
if jnt == self.endJoint:
break
constraint = cmds.aimConstraint(
self.skinClusterJnts[i+1].replace('_%s' % common.JOINT, '_%s' % common.GUIDES),
jnt,
worldUpType = "object",
worldUpObject = aimLocator)[0]
attribute.connect(aimVectorAttr, '%s.aimVector' % constraint)
attribute.connect(upVectorAttr, '%s.upVector' % constraint)
#add constraints to setup constraint list
self._addSetupConstraints(constraint)
def setupRig(self):
if super(Limb,self).setupRig():
return True
self.skinClusterJnts = [ self.startJoint,
self.midJoint,
self.tipJoint,
self.endJoint ]
if self._getSide() == common.LEFT:
positions = (
[self.position[0] + 2, self.position[1], self.position[2]],
[self.position[0] + 5, self.position[1], self.position[2] - 1],
[self.position[0] + 8, self.position[1], self.position[2]],
[self.position[0] + 9, self.position[1], self.position[2]]
)
elif self._getSide() == common.RIGHT:
positions = (
[self.position[0] - 2, self.position[1], self.position[2]],
[self.position[0] - 5, self.position[1], self.position[2] - 1],
[self.position[0] - 8, self.position[1], self.position[2]],
[self.position[0] - 9, self.position[1], self.position[2]]
)
else:
positions = (
[self.position[0] - 2, self.position[1], self.position[2]],
[self.position[0] - 5, self.position[1], self.position[2] - 1],
[self.position[0] - 8, self.position[1], self.position[2]],
[self.position[0] - 9, self.position[1], self.position[2]]
)
for i,jnt in enumerate(self.skinClusterJnts):
if not common.isValid(jnt):
cmds.joint(n = jnt,position = positions[i])
if i == 0:
cmds.parent(jnt, self.skeletonGrp)
#place Master Guide control in the same position as the first joint
transform.matchXform(jnt, common.getParent(self.masterGuide), type = 'position')
else:
cmds.parent(jnt, self.skinClusterJnts[i - 1])
ctrl = self.setupCtrl(jnt.replace('_%s' % common.JOINT, ''),jnt)
#create template control
#control.createTemplate(ctrl)
cmds.select(cl = True)
# ----------------------------------------------------------------------
# CREATE GUIDES
startJointGuide = self.startJoint.replace(common.JOINT, common.GUIDES)
midJointGuide = self.midJoint.replace(common.JOINT, common.GUIDES)
tipJointGuide = self.tipJoint.replace(common.JOINT, common.GUIDES)
endJointGuide = self.endJoint.replace(common.JOINT, common.GUIDES)
#templateNullGroup = cmds.createNode('transform', n = endJointGuide.replace(common.GUIDES, common.GROUP))
#transform.matchXform(locator, endJointGuide, type = 'position')
#cmds.pointConstraint(tipJointGuide, templateNullGroup)
#cmds.parent(templateNullGroup, self.guidesGrp)
#control.createTemplate(templateNullGroup, defaultType = 'implicitSphere')
# ----------------------------------------------------------------------
# ORIENTATION
#
if self._getSide() == common.RIGHT:
aimVectorAttr = \
attribute.switch ('aimVector',
node= self.masterGuide,
value=4,
choices=['x','y','z','-x','-y','-z'],
outputs=[(1,0,0),(0,1,0),(0,0,1),(-1,0,0),(0,-1,0),(0,0,-1)])
upVectorAttr = \
attribute.switch ('upVector',
node=self.masterGuide,
value=3,
choices=['x','y','z','-x','-y','-z'],
outputs=[(1,0,0),(0,1,0),(0,0,1),(-1,0,0),(0,-1,0),(0,0,-1)])
else:
aimVectorAttr = \
attribute.switch ('aimVector',
node=self.masterGuide,
value=1,
choices=['x','y','z','-x','-y','-z'],
outputs=[(1,0,0),(0,1,0),(0,0,1),(-1,0,0),(0,-1,0),(0,0,-1)])
upVectorAttr = \
attribute.switch ('upVector',
node=self.masterGuide,
value=3,
choices=['x','y','z','-x','-y','-z'],
outputs=[(1,0,0),(0,1,0),(0,0,1),(-1,0,0),(0,-1,0),(0,0,-1)])
#Get Vectors for the cross product
#Decompose matrix nodes
startJointDcm = \
cmds.createNode('decomposeMatrix',
name = self.startJoint.replace('%s_%s' % (common.SKINCLUSTER, common.JOINT), common.DECOMPOSEMATRIX ))
attribute.connect('%s.worldMatrix' % startJointGuide,'%s.inputMatrix' % startJointDcm)
midJointDcm = \
cmds.createNode('decomposeMatrix', name = self.midJoint.replace('%s_%s' % (common.SKINCLUSTER, common.JOINT), common.DECOMPOSEMATRIX ))
attribute.connect('%s.worldMatrix' % midJointGuide, '%s.inputMatrix' % midJointDcm)
tipJointDcm = \
cmds.createNode('decomposeMatrix', name = self.tipJoint.replace('%s_%s' % (common.SKINCLUSTER, common.JOINT), common.DECOMPOSEMATRIX ))
attribute.connect('%s.worldMatrix' % tipJointGuide, '%s.inputMatrix' % tipJointDcm)
#plus minus average nodes
v1Node = cmds.createNode('plusMinusAverage')
v2Node = cmds.createNode('plusMinusAverage')
cmds.setAttr('%s.operation' % v1Node, 2)
cmds.setAttr('%s.operation' % v2Node, 2)
#connect Decompose Matrix and Plus Minus Average nodes
attribute.connect('%s.outputTranslate' % tipJointDcm, '%s.input3D[0]' % v1Node)
attribute.connect('%s.outputTranslate' % startJointDcm, '%s.input3D[1]' % v1Node)
attribute.connect('%s.outputTranslate' % midJointDcm, '%s.input3D[0]' % v2Node)
attribute.connect('%s.outputTranslate' % startJointDcm, '%s.input3D[1]' % v2Node)
#Get the cross product
crossNode = cmds.createNode('vectorProduct')
cmds.setAttr( '%s.%s' % (crossNode,'operation') , 2 )
attribute.connect( '%s.%s' % (v1Node,'output3D'), '%s.%s' % (crossNode,'input1') )
attribute.connect( '%s.%s' % (v2Node,'output3D'), '%s.%s' % (crossNode,'input2') )
crossVectorAttr = '%s.%s' % (crossNode,'output')
#Aim start joint to the middle joint
constraint = \
cmds.aimConstraint(midJointGuide,
self.startJoint,
aimVector = (1,0,0),
upVector = (0,1,0),
worldUpType = 'vector',
worldUpVector = (0,1,0))[0]
attribute.connect(aimVectorAttr, '%s.aimVector' % constraint)
attribute.connect(upVectorAttr, '%s.upVector' % constraint)
attribute.connect(crossVectorAttr, '%s.worldUpVector' % constraint)
self.setupConstraints.append(constraint)
#Aim middle joint to the tip joint
constraint = \
cmds.aimConstraint(tipJointGuide,
self.midJoint,
aimVector = (1,0,0),
upVector = (0,1,0),
worldUpType = 'vector',
worldUpVector = (0,1,0))[0]
attribute.connect(aimVectorAttr, '%s.aimVector' % constraint)
attribute.connect(upVectorAttr, '%s.upVector' % constraint)
attribute.connect(crossVectorAttr, '%s.worldUpVector' % constraint)
self.setupConstraints.append(constraint)
constraint = cmds.orientConstraint(self.midJoint, self.tipJoint)[0]
self.setupConstraints.append(constraint)
cmds.setAttr('%s.normalizeOutput' % crossNode, True)
self.upTwistJnts = list()
step = 1.0 / (self.numSegments + 1)
parent = self.startJoint
for i in range( 1, self.numSegments + 1 ):
j = joint.create( name='%s' % (self.startJoint.replace('_%s' % common.SKINCLUSTER, 'Twist_%s_%s' % (common.padNumber(i,3), common.SKINCLUSTER))), parent=parent )
transform.matchXform( self.startJoint,j, type='rotate' )
constraint = cmds.pointConstraint( self.startJoint, self.midJoint, j )[0]
weightAliasList = cmds.pointConstraint( constraint, q=True, weightAliasList=True )
cmds.setAttr( '%s.%s' % (constraint, weightAliasList[0]), 1-(step*i) )
cmds.setAttr( '%s.%s' % (constraint, weightAliasList[1]), step*i )
self.upTwistJnts.append(j)
self.skinClusterJnts.append(j) #adding the joint to skincluster joints list
# Create MiddleJoint Segments
self.loTwistJnts = list()
parent = self.midJoint
for i in range( 1, self.numSegments + 1):
j = joint.create( name='%s' % (self.midJoint.replace('_%s' % common.SKINCLUSTER, 'Twist_%s_%s' % (common.padNumber(i,3), common.SKINCLUSTER))), parent=parent )
transform.matchXform( self.midJoint,j, type='rotate' )
constraint = cmds.pointConstraint( self.midJoint, self.tipJoint, j )[0]
weightAliasList = cmds.pointConstraint( constraint, q=True, weightAliasList=True )
cmds.setAttr( '%s.%s' % (constraint, weightAliasList[0]), 1-(step*i) )
cmds.setAttr( '%s.%s' % (constraint, weightAliasList[1]), step*i )
self.loTwistJnts.append(j)
self.skinClusterJnts.append(j) #adding the joint to skincluster joints list
def rig(self):
if not self._puppetNode:
self.runSetupRig()
if cmds.objExists('%s.master_guide' % self.setupRigGrp):
self.masterGuide = attribute.getConnections('master_guide', self.setupRigGrp)[0].split('.')[0]
if common.isValid(self.masterGuide):
#get orientations for controls
fkOrient = self.__fkOrient()
ikOrient = self.__ikOrient()
upVector = self.upVector
aimVector = self.aimVector
#call parent class rig function
if super(Limb, self).rig():
return True
#create ik fk switch
ikfkDict = ikfk.create(jointChain = [self.startJoint, self.midJoint, self.tipJoint], stretch = self.stretch)
ikfkDict['group'] = cmds.rename(ikfkDict['group'], '%s_%s' % (self.name(),ikfkDict['group']))
#set the visibility on the ik/fk/blend joints to off
cmds.setAttr('%s.v' % ikfkDict['fkJoints'][0], 0)
cmds.setAttr('%s.v' % ikfkDict['ikJoints'][0], 0)
cmds.setAttr('%s.v' % ikfkDict['blendJoints'][0], 0)
ikfkAttr = attribute.addAttr(self.rigGrp, attr = 'ikfk', attrType = 'enum', defValue = ['off','on'],value = 0)
cmds.connectAttr(ikfkAttr, '%s.ikfk' % ikfkDict['group'], l = True, f = True)
#parent ikfk group under joints group
cmds.parent(ikfkDict['group'], self.jointsGrp)
#rename all ik and blend joints
for i,jnt in enumerate(ikfkDict['ikJoints']):
jnt = cmds.rename(jnt, jnt.replace('%s_%s_%s' % (common.SKINCLUSTER,common.JOINT, common.IK), '%s_%s' % (common.IK, common.JOINT)))
ikfkDict['ikJoints'][i] = jnt
for i,jnt in enumerate(ikfkDict['blendJoints']):
jnt = cmds.rename(jnt, jnt.replace('%s_%s_%s' % (common.SKINCLUSTER,common.JOINT, common.BLEND), '%s_%s' % (common.BLEND, common.JOINT)))
ikfkDict['blendJoints'][i] = jnt
#create ik setup
ikCtrl = control.create(name = ikfkDict['ikJoints'][2].replace('_%s' % common.JOINT, ''),type = 'cube', parent = self.controlsGrp, color = common.SIDE_COLOR[self._getSide()])
ikCtrlZero = common.getParent(ikCtrl)
attribute.copy('stretch', ikfkDict['group'], destination = ikCtrl, connect = True,reverseConnect = False)
attribute.copy('stretchTop', ikfkDict['group'], destination = ikCtrl, connect = True,reverseConnect = False)
attribute.copy('stretchBottom', ikfkDict['group'], destination = ikCtrl, connect = True,reverseConnect = False)
if ikOrient == 'Local':
transform.matchXform(ikfkDict['ikJoints'][2], ikCtrlZero, type = 'pose')
else:
transform.matchXform(ikfkDict['ikJoints'][2], ikCtrlZero, type = 'position')
cmds.orientConstraint(ikCtrl, ikfkDict['ikJoints'][2], mo = True)
common.setColor(ikCtrl, common.SIDE_COLOR[self._getSide()])
#setup poleVector
pvCtrl = control.create(name = ikfkDict['ikJoints'][2].replace('_%s' % common.JOINT, '_%s' % common.POLEVECTOR),type = 'cube', parent = self.controlsGrp, color = common.SIDE_COLOR[self._getSide()])
#size polevector control
for i in range(len(common.getShapes(pvCtrl))):
control.scaleShape(pvCtrl, scale = [self.controlScale * .5, self.controlScale * .5, self.controlScale * .5], index = i)
pvCtrlZero = common.getParent(pvCtrl)
pvDisplayLineAttr = attribute.addAttr(pvCtrl, attr = 'pvLine', attrType = 'enum', defValue = 'off:on', value = 1)
transform.matchXform(ikfkDict['ikJoints'][1], pvCtrlZero, type = 'position')
#cmds.parent(ikfkDict['ikHandle'], w = True)
pvPos = ikfk.getPoleVectorPosition(ikfkDict['ikJoints'][1], ikfkDict['ikHandle'])
cmds.xform(pvCtrlZero, ws = True, t = pvPos)
common.setColor(pvCtrlZero, common.SIDE_COLOR[self._getSide()])
#create polevector constraint and parent under control
cmds.poleVectorConstraint(pvCtrl, ikfkDict['ikHandle'])
targetConstraint = cmds.pointConstraint(ikCtrl, ikfkDict['targetJnts'][1], mo = True) #ikhandle is under target joint
pvDisplayLine = control.displayLine(ikfkDict['ikJoints'][0], pvCtrl, name = pvCtrl.replace(common.CONTROL, common.DISPLAYLINE), parent = self.controlsGrp)
cmds.orientConstraint(ikCtrl,ikfkDict['ikJoints'][0], mo = True)
#adding attribute to ik ctrl
ikTwistAttr = attribute.addAttr(ikCtrl, attr = 'twist')
cmds.connectAttr(ikTwistAttr, '%s.twist' % ikfkDict['ikHandle'], f = True)
#connecting to shapes
ikfkReverse = cmds.createNode('reverse', n = ikCtrl.replace('%s_%s' % (common.IK, common.CONTROL), '%s_%s' % (common.REVERSE, common.UTILITY)))
attribute.connect('%s.ikfk' % ikfkDict['group'], '%s.inputX' % ikfkReverse)
for shape in common.getShapes(ikCtrl):
attribute.connect('%s.outputX' % ikfkReverse,'%s.v' % shape)
for shape in common.getShapes(pvCtrl):
attribute.connect('%s.outputX' % ikfkReverse,'%s.v' % shape)
#connect pvDisplayLineAttr in pvDisplayLine visibility
displayLineMultiply = cmds.createNode('multiplyDivide', n = pvDisplayLine.replace(common.DISPLAYLINE, common.MULTIPLYDIVIDE))
attribute.connect(pvDisplayLineAttr, '%s.input1X' % displayLineMultiply)
attribute.connect('%s.outputX' % ikfkReverse, '%s.input2X' % displayLineMultiply)
attribute.connect('%s.outputX' % displayLineMultiply, '%s.v' % common.getChildren(pvDisplayLine)[0])
#create fk setup
fkCtrls = list()
parent = self.controlsGrp
for i,jnt in enumerate(ikfkDict['fkJoints']):
cmds.select(cl = True)
#rename fk joint
jnt = cmds.rename(jnt,jnt.replace('%s_%s_%s' % (common.SKINCLUSTER,common.JOINT,common.FK), '%s_%s' % (common.FK,common.JOINT)))
ikfkDict['fkJoints'][i] = jnt #re-assign fk joint intop ikfkDict
#create controls, set color, and make connections
fkCtrl = control.create(name = jnt.replace('_%s' % common.JOINT, ''),type = 'circle', parent = parent, color = common.SIDE_COLOR[self._getSide()])
fkCtrlZero = common.getParent(fkCtrl)
if fkOrient == 'Local':
transform.matchXform(jnt, fkCtrlZero, type = 'pose')
#end if
else:
transform.matchXform(jnt, fkCtrlZero, type = 'position')
#end else
cmds.connectAttr('%s.ikfk' % ikfkDict['group'], '%s.v' % common.getShapes(fkCtrl)[0], f = True)
cmds.parentConstraint(fkCtrl, jnt, mo = True)
attribute.lockAndHide('t', fkCtrl)
attribute.lockAndHide('s', fkCtrl)
attribute.lockAndHide('v', fkCtrl)
#get joint rotate order and apply to control and parent group
rotateOrder = attribute.getValue('rotateOrder', jnt)
for node in [fkCtrl, fkCtrlZero]:
cmds.setAttr('%s.rotateOrder' % node, rotateOrder)
fkCtrls.append(fkCtrl)
parent = fkCtrl
#end loop
#end loop
aimAxis = transform.getAimAxis(ikfkDict['blendJoints'][0], allowNegative = False)
#Up Twist Joint Setup
if self.upTwistJnts:
noTwistJnt = common.duplicate(self.startJoint, name = self.startJoint.replace('%s' % common.SKINCLUSTER, 'NoTwist_%s' % common.SKINCLUSTER), parent = self.startJoint)
inverseMultNode = cmds.createNode('multiplyDivide', n = noTwistJnt.replace('%s_%s' % (common.SKINCLUSTER,common.JOINT), '%s_%s' % (common.UTILITY, common.MULTIPLYDIVIDE)))
cmds.connectAttr('%s.r%s' % (ikfkDict['blendJoints'][0], aimAxis), '%s.input1X' % inverseMultNode, f = True)
cmds.setAttr('%s.input2X' % inverseMultNode, -1)
cmds.connectAttr('%s.outputX' % inverseMultNode, '%s.r%s' % (noTwistJnt, aimAxis), f = True)
step = 1.0 / (len(self.upTwistJnts) +1)
for i in range( 1, (len(self.upTwistJnts)+1) ):
twsitMultNode = cmds.createNode('multiplyDivide', n = self.upTwistJnts[i - 1].replace('%s_%s' % (common.SKINCLUSTER,common.JOINT), '%s_%s' % (common.UTILITY, common.MULTIPLYDIVIDE)))
cmds.connectAttr('%s.r%s' % (ikfkDict['blendJoints'][0], aimAxis), '%s.input1X' % twsitMultNode, f = True)
cmds.setAttr('%s.input2X' % twsitMultNode, -(1-(step*i)) )
cmds.connectAttr('%s.outputX' % twsitMultNode, '%s.r%s' % (self.upTwistJnts[i -1], aimAxis),f = True)
#end loop
self.upTwistJnts.insert(0, noTwistJnt)
#end if
if self.loTwistJnts:
twistJnt = common.duplicate(self.midJoint,name = self.midJoint.replace('%s' % common.SKINCLUSTER, 'loTwist_%s' % common.SKINCLUSTER), parent = self.midJoint)
constraint = cmds.aimConstraint(ikfkDict['blendJoints'][2],twistJnt,aimVector = aimVector, upVector = upVector, worldUpType ="objectrotation", worldUpVector = upVector, worldUpObject = self.tipJoint)
cmds.setAttr('%s.v' % twistJnt, 0)
#end if
step = 1.0 / (len(self.loTwistJnts) +1)
for i in range( 1, (len(self.loTwistJnts)+1) ):
twsitMultNode = cmds.createNode('multiplyDivide', n = self.loTwistJnts[i - 1].replace('%s_%s' % (common.SKINCLUSTER,common.JOINT), '%s_%s' % (common.UTILITY, common.MULTIPLYDIVIDE)))
cmds.connectAttr('%s.r%s' % (ikfkDict['blendJoints'][2], aimAxis), '%s.input1X' % twsitMultNode, f = True)
cmds.setAttr('%s.input2X' % twsitMultNode, 1-(step*i) )
cmds.connectAttr('%s.outputX' % twsitMultNode, '%s.r%s' % (self.loTwistJnts[i -1], aimAxis),f = True)
#end loop
#------------------------
#Add to class variables
#------------------------
#assign joints to the joints list
self.joints = {'ik' : ikfkDict['ikJoints'], 'fk' : ikfkDict['fkJoints'], 'blend' : ikfkDict['blendJoints'], 'target' : ikfkDict['targetJnts']}
#assign controls to the controls list
#assign fkCtrls into the controls dictionary
self.controls = {'ik' : [ikCtrl, pvCtrl],'fk' : fkCtrls }
self.ikfkGroup = ikfkDict['group']
#assign hooks
self.hookRoot = [ikfkDict['ikJoints'][0], common.getParent(fkCtrls[0]), ikCtrl, ikfkDict['targetJnts'][-1]]
self.hookPoint = [ikfkDict['blendJoints'][-1]]
#add no twist joint to the skincluster list
self.skinClusterJnts.append(noTwistJnt)
def setupRig(self):
if super(Foot, self).setupRig():
return True
self.skinClusterJnts = [ self.ankleJoint,
self.ballJoint,
self.toeJoint ]
if self._getSide() == common.LEFT:
positions = (
[self.position[0] + 2, self.position[1] + 2, self.position[2]],
[self.position[0] + 2, self.position[1], self.position[2] + 2],
[self.position[0] + 2, self.position[1], self.position[2] + 4]
)
#create offset position depending on which side it's on
bankInOffset = -1
bankOutOffset = 1
elif self._getSide() == common.RIGHT:
positions = (
[self.position[0] - 2, self.position[1] + 2, self.position[2]],
[self.position[0] - 2, self.position[1], self.position[2] + 2],
[self.position[0] - 2, self.position[1], self.position[2] + 4]
)
#create offset position depending on which side it's on
bankInOffset = 1
bankOutOffset = -1
else:
positions = (
[self.position[0], self.position[1] + 2, self.position[2]],
[self.position[0], self.position[1], self.position[2] + 2],
[self.position[0], self.position[1], self.position[2] + 4]
)
#create offset position depending on which side it's on
bankInOffset = -1
bankOutOffset = 1
#end elif
for i,jnt in enumerate(self.skinClusterJnts):
cmds.joint(n = jnt,position = positions[i])
if i == 0:
cmds.parent(jnt, self.skeletonGrp)
#place Master Guide control in the same position as the first joint
transform.matchXform(jnt,
common.getParent(self.masterGuide),
type = 'position')
else:
cmds.parent(jnt, self.skinClusterJnts[i - 1])
#end else
ctrl = self.setupCtrl(jnt.replace('_%s' % common.JOINT, ''),jnt)
#create template control
#control.createTemplate(ctrl)
cmds.select(cl = True)
#end loop
#create pivots for setup
self.__bankInPivot = cmds.createNode('joint',
n = '%s_bankIn_%s' % (self._getPrefix(),
common.PIVOT))
self.__bankOutPivot = cmds.createNode('joint',
n = '%s_bankOut_%s' % (self._getPrefix(),
common.PIVOT))
self.__heelPivot = cmds.createNode('joint',
n = '%s_heel_%s' % (self._getPrefix(),
common.PIVOT))
#move pivots into position
x,y,z = positions[1]
cmds.xform(self.__bankInPivot, ws = True, t = [x + bankInOffset, y, z])
cmds.xform(self.__bankOutPivot, ws = True, t = [x + bankOutOffset, y, z])
cmds.xform(self.__heelPivot, ws = True, t = [x, y, z - 4])
#parent pivots
for pivot in [self.__bankInPivot, self.__bankOutPivot, self.__heelPivot]:
cmds.parent(pivot, self.skeletonGrp)
#end loop
# ----------------------------------------------------------------------
# CREATE GUIDES
ankleJointGuide = self.ankleJoint.replace(common.JOINT, common.GUIDES)
ballointGuide = self.ballJoint.replace(common.JOINT, common.GUIDES)
toeJointGuide = self.toeJoint.replace(common.JOINT, common.GUIDES)
bankInPivotGuide = \
self.setupCtrl(self.__bankInPivot.replace('_%s' % common.JOINT, ''),
self.__bankInPivot,
color = common.SIDE_COLOR_SECONDARY[self._getSide()])
bankOutPivotGuide = \
self.setupCtrl(self.__bankOutPivot.replace('_%s' % common.JOINT,''),
self.__bankOutPivot,
color = common.SIDE_COLOR_SECONDARY[self._getSide()])
heelPivotGuide = \
self.setupCtrl(self.__heelPivot.replace('_%s' % common.JOINT, ''),
self.__heelPivot,
color = common.SIDE_COLOR_SECONDARY[self._getSide()])
cmds.pointConstraint(self.ballJoint,
common.getParent(bankOutPivotGuide), mo = True)
cmds.pointConstraint(self.ballJoint,
common.getParent(bankInPivotGuide), mo = True)
#resize pivot controls
for ctrl in [heelPivotGuide, bankOutPivotGuide, bankInPivotGuide]:
cmds.setAttr('%s.radius' % common.getShapes(ctrl)[0],
self.controlScale * .5)
def rig(self):
if not self._puppetNode:
self.runSetupRig()
if common.isValid('%s_%s%s' % (self.name(), common.IK, common.FK)):
return True
cmds.parent([self.__bankInPivot,
self.__bankOutPivot,
self.__heelPivot],
w = True)
if super(Foot,self).rig():
return True
#create foot ik/fk chain and parent group to joints group
self.__footIkFk = \
ikfk.IkFkFoot(self.ankleJoint,
self.toeJoint,
name = self.name())
#list the groups for the foot ik setup
self.__footRollGroups.insert(0, 'anklePivot')
footRollGrpList = self.__footRollGroups
#create foot setup
self.__footIkFk.create(searchReplace = '%s' % common.SKINCLUSTER,
footRollGrpList = footRollGrpList)
#parent to joints group
cmds.parent(self.__footIkFk.group, self.jointsGrp)
#get position of joints
anklePosition = \
cmds.xform(self.ankleJoint, q = True, ws = True, rp = True)
ballPosition = \
cmds.xform(self.ballJoint, q = True, ws = True, rp = True)
toePosition = \
cmds.xform(self.toeJoint, q = True, ws = True, rp = True)
bankInPosition = \
cmds.xform(self.__bankInPivot, q = True, ws = True, rp = True)
bankOutPosition = \
cmds.xform(self.__bankOutPivot, q = True, ws = True, rp = True)
heelPosition = \
cmds.xform(self.__heelPivot, q = True, ws = True, rp = True)
#delete pivot joints
for jnt in (self.__heelPivot,self.__bankOutPivot, self.__bankInPivot):
cmds.delete(jnt)
#end loop
#get foot roll groups
footRollGroups = self.__footIkFk.getFootRolls()
handles = self.__footIkFk.getIkHandles()
#position foot roll groups
for grp in footRollGroups:
if grp in ['ballRoll', 'toeBend']:
cmds.xform(footRollGroups[grp], ws = True, rp = ballPosition)
elif grp in ['heelRoll', 'heelPivot']:
if grp == self.__heelPivotName:
cmds.setAttr('%s.rotateOrder' % footRollGroups[grp], 2)
cmds.xform(footRollGroups[grp], ws = True, rp = heelPosition)
elif grp in ['toeRoll', 'toePivot']:
cmds.xform(footRollGroups[grp], ws = True, rp = toePosition)
elif grp in ['bankIn', self.__bankInZero]:
cmds.xform(footRollGroups[grp], ws = True, rp = bankInPosition)
elif grp in ['bankOut', self.__bankOutZero]:
cmds.xform(footRollGroups[grp], ws = True, rp = bankOutPosition)
cmds.setAttr('%s.rotateOrder' % footRollGroups[grp], 2)
elif grp in ['anklePivot']:
cmds.xform(footRollGroups[grp], ws = True, rp = anklePosition)
#end loop
#create controls
self.__footCtrl = \
control.create(name= self.name(),
type = 'implicitSphere',
parent = self.controlsGrp,
color = common.SIDE_COLOR[self._getSide()])
self.__bankInCtrl = \
control.create(name= footRollGroups[self.__bankIn] ,
type = 'implicitSphere',
parent = self.controlsGrp,
color = common.SIDE_COLOR_SECONDARY[self._getSide()])
self.__bankOutCtrl = \
control.create(name= footRollGroups[self.__bankOut] ,
type = 'implicitSphere',
parent = self.controlsGrp,
color = common.SIDE_COLOR_SECONDARY[self._getSide()])
self.__heelPivotCtrl = \
control.create(name= footRollGroups[self.__heelPivotName] ,
type = 'implicitSphere',
parent = self.controlsGrp,
color = common.SIDE_COLOR_SECONDARY[self._getSide()])
#parent of controls
parentBankOutCtrl = common.getParent(self.__bankOutCtrl)
parentBankInCtrl = common.getParent(self.__bankInCtrl)
parentHeelPivotCtrl = common.getParent(self.__heelPivotCtrl)
#scale controls
for ctrl in [self.__footCtrl,self.__bankOutCtrl, self.__bankInCtrl, self.__heelPivotCtrl]:
for i in range(len(common.getShapes(ctrl))):
control.scaleShape (ctrl, scale = [.3, .3, .3], index = i)
#place controls in correct positions
transform.matchXform(self.ankleJoint,
common.getParent(self.__footCtrl),
type = 'pose')
cmds.xform(common.getParent(self.__footCtrl),
ws = True,
r = True,
t = [0,0,-2])
cmds.delete(cmds.parentConstraint(footRollGroups['bankIn'],
parentBankInCtrl))
cmds.delete(cmds.parentConstraint(footRollGroups['bankOut'],
parentBankOutCtrl))
cmds.delete(cmds.parentConstraint(footRollGroups['heelPivot'],
parentHeelPivotCtrl))
#Decompose matrix nodes for pivots and connect the controls to them
for ctrl, grp in zip([self.__bankInCtrl, self.__bankOutCtrl, self.__heelPivotCtrl] , [footRollGroups['bankIn'], footRollGroups['bankOut'], footRollGroups[self.__heelRoll]]):
grpZero = common.getChildren(grp)[0]
dcm = cmds.createNode('decomposeMatrix',
n = '%s_%s' % (grp, common.DECOMPOSEMATRIX))
mdn = cmds.createNode('multiplyDivide',
n = '%s_%s' % (grp, common.MULTIPLYDIVIDE))
attribute.connect('%s.worldMatrix[0]' % ctrl, '%s.inputMatrix' % dcm)
#connect controls to pivots
attribute.connect('%s.outputTranslate' % dcm, '%s.rotatePivot' % grp)
attribute.connect('%s.outputTranslate' % dcm, '%s.rotatePivot' % grpZero)
#Change attributes on Multiply divide node and make connections
cmds.setAttr('%s.input2Y' % mdn, -1)
attribute.connect('%s.ry' % ctrl, '%s.input1Y' % mdn)
attribute.connect('%s.outputY' % mdn, '%s.ry' % grpZero)
attribute.connect('%s.ry' % ctrl, '%s.ry' % grp)
#parent constrain the foot control to the ankle joint
for node in [self.__footCtrl,parentBankOutCtrl, parentBankInCtrl, parentHeelPivotCtrl]:
cmds.parentConstraint(footRollGroups['anklePivot'], node, mo = True)
#add attributes to the foot control and connect them to the pivots
ikfkAttr = \
attribute.addAttr(self.__footCtrl,
'ikfk' ,
attrType = 'enum',
defValue = ['off', 'on'],
value = 0)
bankAttr = \
attribute.addAttr(self.__footCtrl,
'bank' ,
attrType = 'double',
defValue = 0,
min = -10,
max = 10)
ballRollAttr = \
attribute.addAttr(self.__footCtrl,
self.__ballRoll ,
attrType = 'double',
defValue = 0,
min = 0,
max = 10)
toeRollAttr = \
attribute.addAttr(self.__footCtrl,
self.__toeRoll ,
attrType = 'double',
defValue = 0,
min = 0,
max = 10)
toePivotAttr = \
attribute.addAttr(self.__footCtrl,
self.__toePivot ,
attrType = 'double',
defValue = 0,
min = -10,
max = 10)
toeBendAttr = \
attribute.addAttr(self.__footCtrl,
self.__toeBend ,
attrType = 'double',
defValue = 0,
min = -10,
max = 10)
heelRollAttr = \
attribute.addAttr(self.__footCtrl,
self.__heelRoll ,
attrType = 'double',
defValue = 0,
min = -10,
max = 0)
heelPivotAttr = \
attribute.addAttr(self.__footCtrl,
self.__heelPivotName ,
attrType = 'double',
defValue = 0,
min = -10,
max = 10)
self.__footRollAttrs.extend([ikfkAttr,
bankAttr,
ballRollAttr,
toeRollAttr ,
toePivotAttr,
toeBendAttr,
heelRollAttr,
heelPivotAttr])
#create remap dictionary to place remap nodes in based on foot roll group names
ramapNodes = dict()
#create remap nodes and connect them to foot roll groups
for attr in [bankAttr,toePivotAttr,toeBendAttr,heelPivotAttr]:
node, attrName = attr.split('.')
ramapNodes[attrName] = \
cmds.createNode('remapValue',
n = '%s_%s_%s' % (node, attrName, common.REMAP))
attribute.connect(attr, '%s.inputValue' % ramapNodes[attrName])
cmds.setAttr('%s.outputMax' % ramapNodes[attrName], 100)
cmds.setAttr('%s.outputMin' % ramapNodes[attrName], -100)
cmds.setAttr('%s.inputMax' % ramapNodes[attrName], 10)
cmds.setAttr('%s.inputMin' % ramapNodes[attrName], -10)
#end loop
for attr in [ballRollAttr,toeRollAttr, heelRollAttr]:
node, attrName = attr.split('.')
ramapNodes[attrName] = \
cmds.createNode('remapValue',
n = '%s_%s_%s' % (node, attrName, common.REMAP))
attribute.connect(attr, '%s.inputValue' % ramapNodes[attrName])
cmds.setAttr('%s.outputMax' % ramapNodes[attrName], 100)
cmds.setAttr('%s.outputMin' % ramapNodes[attrName], 0)
cmds.setAttr('%s.inputMax' % ramapNodes[attrName], 10)
cmds.setAttr('%s.inputMin' % ramapNodes[attrName], 0)
if attr == heelRollAttr:
cmds.setAttr('%s.outputMax' % ramapNodes[attrName], 0)
cmds.setAttr('%s.outputMin' % ramapNodes[attrName], -100)
cmds.setAttr('%s.inputMax' % ramapNodes[attrName], 0)
cmds.setAttr('%s.inputMin' % ramapNodes[attrName], -10)
#end if
#end loop
#connect remap nodes to roll groups
#---Bank In/Out---
if self._getSide() == common.LEFT:
attribute.connect('%s.outValue' % ramapNodes['bank'],
'%s.rz' % footRollGroups[self.__bankIn])
attribute.connect('%s.outValue' % ramapNodes['bank'],
'%s.rz' % footRollGroups[self.__bankOut])
cmds.transformLimits(footRollGroups[self.__bankIn],
rz =[0, 100],
erz = [1, 1])
cmds.transformLimits(footRollGroups[self.__bankOut],
rz =[-100, 0],
erz = [1, 1])
elif self._getSide() == common.RIGHT:
invertMDN = \
cmds.createNode('multiplyDivide',
n = '%s_bankInvert_%s' % (self._getSide(),
common.MULTIPLYDIVIDE))
cmds.setAttr('%s.input2X' % invertMDN, -1)
attribute.connect('%s.outValue' % ramapNodes['bank'],
'%s.input1X' % invertMDN)
attribute.connect('%s.outputX' % invertMDN,
'%s.rz' % footRollGroups[self.__bankIn])
attribute.connect('%s.outputX' % invertMDN,
'%s.rz' % footRollGroups[self.__bankOut])
cmds.transformLimits(footRollGroups[self.__bankIn],
rz =[-100, 0],
erz = [1, 1])
cmds.transformLimits(footRollGroups[self.__bankOut],
rz =[0, 100],
erz = [1, 1])
#---Ball Roll---
attribute.connect('%s.outValue' % ramapNodes[self.__ballRoll],
'%s.rx' % footRollGroups[self.__ballRoll])
#---Toe Roll---
attribute.connect('%s.outValue' % ramapNodes[self.__toeRoll],
'%s.rx' % footRollGroups[self.__toeRoll])
#---Toe Pivot---
attribute.connect('%s.outValue' % ramapNodes[self.__toePivot],
'%s.ry' % footRollGroups[self.__toePivot])
#---Heel Roll---
attribute.connect('%s.outValue' % ramapNodes[self.__heelRoll],
'%s.rx' % footRollGroups[self.__heelRoll])
#---Heel Pivot---
attribute.connect('%s.outValue' % ramapNodes[self.__heelPivotName],
'%s.ry' % footRollGroups[self.__heelPivotName])
#---IK/FK---
attribute.connect(ikfkAttr,
'%s.ikfk' % self.__footIkFk.group)
#---Ball Roll---
attribute.connect('%s.outValue' % ramapNodes[self.__toeBend],
'%s.rx' % footRollGroups[self.__toeBend])
#connect fk joints to the ankle pivot
#cmds.parentConstraint(footRollGroups['anklePivot'], self.__footIkFk.fkJoints[0], mo = True)
#connecting visibility of control shapes to the controls
ikfkReverse = \
cmds.createNode('reverse', n = '%s_%s' % (self.name(),common.REVERSE))
attribute.connect(ikfkAttr, '%s.inputX' % ikfkReverse)
for ikCtrl in [self.__bankInCtrl,self.__bankOutCtrl,self.__heelPivotCtrl]:
cmds.setAttr('%s.rotateOrder' % ikCtrl, 2)
for shape in common.getShapes(ikCtrl):
if shape:
attribute.connect('%s.outputX' % ikfkReverse, '%s.v' % shape)
#----FK Setup---
fkCtrls = list()
parent = self.controlsGrp
for jnt in self.__footIkFk.fkJoints:
if jnt == self.__footIkFk.fkJoints[-1]:
continue
#end if
ctrl = \
control.create(name= jnt.split('_%s' % common.JOINT)[0],
type = 'circle',
parent = parent,
color = common.SIDE_COLOR[self._getSide()])
ctrlParent = common.getParent(ctrl)
transform.matchXform(jnt, ctrlParent, type = 'pose')
cmds.parentConstraint(ctrl, jnt, mo = True) #----> might change this to connect rotations and not use translation
if jnt == self.__footIkFk.fkJoints[0]:
cmds.parentConstraint(footRollGroups['anklePivot'],
ctrlParent,
mo = True)
#end if
#connect visibility of shapes to foot control
for shape in common.getShapes(ctrl):
attribute.connect(ikfkAttr, '%s.v' % shape)
#end for
parent = ctrl
fkCtrls.append(ctrl)
#assign hooks
self.hookRoot.extend([footRollGroups['anklePivot'], common.getParent(fkCtrls[0])])
self.hookPoint.extend([footRollGroups['ballRoll']])
def create( spaceNode, spaceAttrNode = None , parent=None ):
'''
Create space switcher
:param spaceNode: Transform node to be constrained.
:type spaceNode: *str*
:param spaceAttrNode: Node where the 'space' attribute is going to be created.
:type spaceAttrNode: *str*
:param parent: Parent for the spaces group.
:type parent: *str*
:return: Spaces group
:rtype: *str*
'''
# Load decompose matrix plugin
# get attribute spaceNode
if spaceAttrNode == None:
spaceAttrNode = spaceNode
# check if exists
if cmds.objExists( '%s.spaceGrp' % spaceNode ):
raise RuntimeError, 'This node has spaces already. Use addSpace instead'
# --------------------------------------------------------------------------
# CREATE GROUP
#
grp = cmds.createNode('transform',n='%s%s' % (spaceNode,'Spaces'), parent=parent )
cmds.setAttr('%s.%s' % (grp,'inheritsTransform'),False)
decomMatrixNode = cmds.createNode('decomposeMatrix')
cmds.connectAttr( '%s.%s' % (spaceNode,'parentMatrix'), '%s.%s' % (decomMatrixNode,'inputMatrix') )
cmds.connectAttr( '%s.%s' % (decomMatrixNode,'outputTranslate'), '%s.%s' % (grp,'translate') )
cmds.connectAttr( '%s.%s' % (decomMatrixNode,'outputRotate'), '%s.%s' % (grp,'rotate') )
cmds.connectAttr( '%s.%s' % (decomMatrixNode,'outputScale'), '%s.%s' % (grp,'scale') )
# --------------------------------------------------------------------------
# CREATE LOCAL SPACE
#
attribute.addAttr( spaceAttrNode, 'space', attrType='enum', defValue=['local'] )
localSpace = cmds.createNode('transform', name='%s_%s' % (grp,'local'), parent=grp)
transform.matchXform( localSpace, spaceNode, 'pose' )
attribute.lockAndHide( ['t','r','s','v'], localSpace )
# --------------------------------------------------------------------------
# CREATE CONSTRAINT
#
constraint = cmds.parentConstraint( localSpace, spaceNode )[0]
# --------------------------------------------------------------------------
# CREATE MESSAGE ATTRIBUTES
#
# spaceAttrNode
cmds.addAttr( spaceNode, k=True, ln='spaceAttrNode', at='message' )
cmds.connectAttr( '%s.%s' % (spaceAttrNode,'space'), '%s.%s' % (spaceNode,'spaceAttrNode') )
# spaceNode
cmds.addAttr( spaceAttrNode, k=True, ln='spaceNode', at='message' )
cmds.connectAttr( '%s.%s' % (spaceNode,'message'), '%s.%s' % (spaceAttrNode,'spaceNode') )
# spaceGrp
cmds.addAttr( spaceNode, k=True, ln='spaceGrp', at='message' )
cmds.connectAttr( '%s.%s' % (grp,'message'), '%s.%s' % (spaceNode,'spaceGrp') )
# spaceConstraint
cmds.addAttr( spaceNode, k=True, ln='spaceConstraint', at='message' )
cmds.connectAttr( '%s.%s' % (constraint,'message'), '%s.%s' % (spaceNode,'spaceConstraint') )
# --------------------------------------------------------------------------
return grp
