def __init__(self, name='mainSrt', parent=None):
Profiler.getInstance().push("Construct MainSrt Guide Component:" + name)
super(MainSrtComponentGuide, self).__init__(name, parent)
# =========
# Attributes
# =========
# Add Component Params to IK control
guideSettingsAttrGrp = AttributeGroup("GuideSettings", parent=self)
self.mainSrtSizeInputAttr = ScalarAttribute('mainSrtSize', value=5.0, minValue=1.0, maxValue=50.0, parent=guideSettingsAttrGrp)
# =========
# Controls
# =========
# Guide Controls
self.mainSrtCtrl = Control('mainSrt', parent=self.ctrlCmpGrp, shape="circle")
data = {
"location": 'M',
"mainSrtSize": self.mainSrtSizeInputAttr.getValue(),
"mainSrtXfo": Xfo(tr=Vec3(0.0, 0.0, 0.0))
}
self.loadData(data)
Profiler.getInstance().pop()
def createOutput(self, name, dataType, **kwargs):
"""Creates an output object and also a connected target object that matches
the data type that is passed.
Args:
name (str): Name of the output to create.
dataType (str): Data type of the output.
Returns:
Object: The connected target object for the output.
"""
componentOutputPort = self.addOutput(name, dataType)
if dataType.endswith('[]'):
newOutputTgt = []
else:
# Create object
if dataType.startswith('Xfo'):
newOutputTgt = ComponentOutput(name)
elif dataType.startswith('Boolean'):
newOutputTgt = BoolAttribute(name)
elif dataType.startswith('Float'):
newOutputTgt = ScalarAttribute(name)
elif dataType.startswith('Integer'):
newOutputTgt = IntegerAttribute(name)
elif dataType.startswith('String'):
newOutputTgt = StringAttribute(name)
# Handle keyword arguments
for k, v in kwargs.iteritems():
if k == 'value':
newOutputTgt.setValue(v)
elif k == 'minValue':
newOutputTgt.setMin(v)
elif k == 'maxValue':
newOutputTgt.setMax(v)
elif k == 'parent':
if isinstance(newOutputTgt, list):
raise Exception(
"Array outputs cannot be assigned to a parent. Each element in the array must be parented individually: "
+ name + ".")
if dataType.startswith('Xfo'):
v.addChild(newOutputTgt)
else:
v.addAttribute(newOutputTgt)
else:
logger.warning(
"Keyword '%s' is not supported with createOutput method!" %
k)
componentOutputPort.setTarget(newOutputTgt)
return componentOutputPort
def createInput(self, name, dataType, **kwargs):
"""Creates an input object and also a connected target object that matches
the data type that is passed.
Args:
name (str): Name of the input to create.
dataType (str): Data type of the input.
Returns:
Object: The connected target object for the input.
"""
componentInputPort = self.addInput(name, dataType)
# Create object
if dataType.startswith('Xfo'):
newInputTgt = ComponentInput(name)
elif dataType.startswith('Boolean'):
newInputTgt = BoolAttribute(name)
elif dataType.startswith('Float'):
newInputTgt = ScalarAttribute(name)
elif dataType.startswith('Integer'):
newInputTgt = IntegerAttribute(name)
elif dataType.startswith('String'):
newInputTgt = StringAttribute(name)
# Handle keyword arguments
for k, v in kwargs.iteritems():
if k == 'value':
newInputTgt.setValue(v)
elif k == 'minValue':
newInputTgt.setMin(v)
newInputTgt.setUIMin(v)
elif k == 'maxValue':
newInputTgt.setMax(v)
newInputTgt.setUIMax(v)
elif k == 'parent':
if dataType.startswith('Xfo'):
v.addChild(newInputTgt)
else:
v.addAttribute(newInputTgt)
else:
logger.warning(
"Keyword '%s' is not supported with createInput method!" %
k)
componentInputPort.setTarget(newInputTgt)
return componentInputPort
def __init__(self, name='twist', parent=None):
Profiler.getInstance().push('Construct Spine Guide Component:' + name)
super(TwistComponentGuide, self).__init__(name, parent)
# =========
# Controls
# ========
guideSettingsAttrGrp = AttributeGroup('GuideSettings', parent=self)
self.numDeformersAttr = IntegerAttribute('numDeformers',
value=1,
minValue=0,
maxValue=20,
parent=guideSettingsAttrGrp)
self.blendBiasAttr = ScalarAttribute('blendBias',
value=0.0,
minValue=0,
maxValue=1.0,
parent=guideSettingsAttrGrp)
# Guide Controls
triangleCtrl = Control('triangle', shape='triangle')
triangleCtrl.rotatePoints(90, 0, 0)
triangleCtrl.scalePoints(Vec3(0.25, 0.25, 0.25))
triangleCtrl.scalePoints(Vec3(1.0, 0.5, 1.0))
triangleCtrl.translatePoints(Vec3(0.0, 1.25, 0.0))
triangleCtrl.rotatePoints(0, 90, 0)
self.originCtrl = Control('origin',
parent=self.ctrlCmpGrp,
shape='circle')
self.originCtrl.rotatePoints(90, 0, 0)
self.originCtrl.rotatePoints(0, 90, 0)
self.originCtrl.appendCurveData(triangleCtrl.getCurveData())
self.insertCtrl = Control('insert',
parent=self.ctrlCmpGrp,
shape='circle')
self.insertCtrl.rotatePoints(90, 0, 0)
self.insertCtrl.rotatePoints(0, 90, 0)
self.insertCtrl.appendCurveData(triangleCtrl.getCurveData())
self.default_data = {
'name': name,
'location': 'M',
'blendBias': 0.5,
'originXfo': Xfo(Vec3(0.0, 0.0, 0.0)),
'insertXfo': Xfo(Vec3(5.0, 0.0, 0.0)),
'numDeformers': 5
}
self.loadData(self.default_data)
Profiler.getInstance().pop()
def __init__(self, name='SimpleControl', parent=None):
Profiler.getInstance().push(
"Construct Simple Control Guide Component:" + name)
super(SimpleControlComponentGuide, self).__init__(name, parent)
# =========
# Attributes
# =========
# Add Component Params to IK control
guideSettingsAttrGrp = AttributeGroup("GuideSettings", parent=self)
self.ctrlSizeInputAttr = ScalarAttribute('ctrlSize',
value=5.0,
minValue=1.0,
maxValue=50.0,
parent=guideSettingsAttrGrp)
self.ctrlSizeInputAttr.setValueChangeCallback(self.resizeMainCtrl)
# =========
# Controls
# =========
# Guide Controls
self.mainCtrl = Control('main', parent=self.ctrlCmpGrp, shape='square')
self.mainCtrl.rotatePoints(90, 0, 0)
data = {
"location": 'M',
"ctrlSize": self.ctrlSizeInputAttr.getValue(),
"ctrlXfo": Xfo(tr=Vec3(0.0, 0.0, 0.0))
}
self.loadData(data)
Profiler.getInstance().pop()
def __init__(self, name='SimpleControl', parent=None):
Profiler.getInstance().push("Construct Simple Control Rig Component:" +
name)
super(SimpleControlComponentRig, self).__init__(name, parent)
# =========
# Controls
# =========
# Add Controls
self.mainCtrl = Control('main', shape='square', parent=self.ctrlCmpGrp)
self.mainCtrlSpace = self.mainCtrl.insertCtrlSpace()
self.mainCtrl.lockScale(x=True, y=True, z=True)
# Add Component Params to Main control
mainSrtSettingsAttrGrp = AttributeGroup('DisplayInfo_MainSrtSettings',
parent=self.mainCtrl)
self.rigScaleAttr = ScalarAttribute('rigScale',
value=1.0,
parent=mainSrtSettingsAttrGrp,
minValue=0.1,
maxValue=100.0)
self.rigScaleOutputAttr.connect(self.rigScaleAttr)
# ==========
# Deformers
# ==========
deformersLayer = self.getOrCreateLayer('deformers')
self.defCmpGrp = ComponentGroup(self.getName(),
self,
parent=deformersLayer)
self.addItem('defCmpGrp', self.defCmpGrp)
self.mainDef = Joint('main', parent=self.defCmpGrp)
self.mainDef.setComponent(self)
# ==============
# Constrain I/O
# ==============
# Constrain inputs
self.mainInputConstraint = PoseConstraint('_'.join(
[self.mainCtrlSpace.getName(), 'To',
self.mainInputTgt.getName()]))
self.mainInputConstraint.setMaintainOffset(True)
self.mainInputConstraint.addConstrainer(self.mainInputTgt)
self.mainCtrlSpace.addConstraint(self.mainInputConstraint)
# Constrain outputs
self.mainOutputConstraint = PoseConstraint('_'.join(
[self.outputTgt.getName(), 'To',
self.mainCtrl.getName()]))
self.mainOutputConstraint.addConstrainer(self.mainCtrl)
self.outputTgt.addConstraint(self.mainOutputConstraint)
# Constrain deformers
self.mainDefConstraint = PoseConstraint('_'.join(
[self.mainDef.getName(), 'To',
self.mainCtrl.getName()]))
self.mainDefConstraint.addConstrainer(self.mainCtrl)
self.mainDef.addConstraint(self.mainDefConstraint)
# ===============
# Add Canvas Ops
# ===============
Profiler.getInstance().pop()
def __init__(self, name='mainSrt', parent=None):
Profiler.getInstance().push("Construct MainSrt Rig Component:" + name)
super(MainSrtComponentRig, self).__init__(name, parent)
# =========
# Controls
# =========
# Add Controls
self.mainSRTCtrlSpace = CtrlSpace('SRT', parent=self.ctrlCmpGrp)
self.mainSRTCtrl = Control('SRT',
shape='circle',
parent=self.mainSRTCtrlSpace)
self.mainSRTCtrl.lockScale(x=True, y=True, z=True)
self.offsetCtrlSpace = CtrlSpace('Offset', parent=self.mainSRTCtrl)
self.offsetCtrl = Control('Offset',
shape='circle',
parent=self.offsetCtrlSpace)
self.offsetCtrl.setColor("orange")
self.offsetCtrl.lockScale(x=True, y=True, z=True)
# Add Component Params to IK control
mainSrtSettingsAttrGrp = AttributeGroup('DisplayInfo_MainSrtSettings',
parent=self.mainSRTCtrl)
self.rigScaleAttr = ScalarAttribute('rigScale',
value=1.0,
parent=mainSrtSettingsAttrGrp,
minValue=0.1,
maxValue=100.0)
self.rigScaleOutputAttr.connect(self.rigScaleAttr)
# ==========
# Deformers
# ==========
# ==============
# Constrain I/O
# ==============
# Constraint inputs
# Constraint outputs
srtConstraint = PoseConstraint('_'.join(
[self.srtOutputTgt.getName(), 'To',
self.mainSRTCtrl.getName()]))
srtConstraint.addConstrainer(self.mainSRTCtrl)
self.srtOutputTgt.addConstraint(srtConstraint)
offsetConstraint = PoseConstraint('_'.join(
[self.offsetOutputTgt.getName(), 'To',
self.mainSRTCtrl.getName()]))
offsetConstraint.addConstrainer(self.offsetCtrl)
self.offsetOutputTgt.addConstraint(offsetConstraint)
# ===============
# Add Splice Ops
# ===============
#Add Rig Scale Splice Op
self.rigScaleSpliceOp = SpliceOperator('rigScaleSpliceOp',
'RigScaleSolver', 'Kraken')
self.addOperator(self.rigScaleSpliceOp)
# Add Att Inputs
self.rigScaleSpliceOp.setInput('drawDebug', self.drawDebugInputAttr)
self.rigScaleSpliceOp.setInput('rigScale', self.rigScaleOutputAttr)
# Add Xfo Inputs
# Add Xfo Outputs
self.rigScaleSpliceOp.setOutput('target', self.mainSRTCtrlSpace)
Profiler.getInstance().pop()
def __init__(self, name='InsectLeg', parent=None):
Profiler.getInstance().push("Construct InsectLeg Rig Component:" +
name)
super(InsectLegComponentRig, self).__init__(name, parent)
# =========
# Controls
# =========
# Chain Base
self.chainBase = Locator('ChainBase', parent=self.ctrlCmpGrp)
self.chainBase.setShapeVisibility(False)
# FK
self.fkCtrlSpaces = []
self.fkCtrls = []
self.setNumControls(4)
# IK Control
self.legIKCtrlSpace = CtrlSpace('IK', parent=self.ctrlCmpGrp)
self.legIKCtrl = Control('IK', parent=self.legIKCtrlSpace, shape="pin")
if self.getLocation() == 'R':
self.legIKCtrl.rotatePoints(0, 90, 0)
self.legIKCtrl.translatePoints(Vec3(-1.0, 0.0, 0.0))
else:
self.legIKCtrl.rotatePoints(0, -90, 0)
self.legIKCtrl.translatePoints(Vec3(1.0, 0.0, 0.0))
# Add Component Params to IK control
legSettingsAttrGrp = AttributeGroup("DisplayInfo_LegSettings",
parent=self.legIKCtrl)
legdrawDebugInputAttr = BoolAttribute('drawDebug',
value=False,
parent=legSettingsAttrGrp)
legUseInitPoseInputAttr = BoolAttribute('useInitPose',
value=True,
parent=legSettingsAttrGrp)
self.rootIndexInputAttr = IntegerAttribute('rootIndex',
value=0,
parent=legSettingsAttrGrp)
legFkikInputAttr = ScalarAttribute('fkik',
value=1.0,
minValue=0.0,
maxValue=1.0,
parent=legSettingsAttrGrp)
# Connect IO to controls
self.drawDebugInputAttr.connect(legdrawDebugInputAttr)
# UpV
self.legUpVCtrlSpace = CtrlSpace('UpV', parent=self.ctrlCmpGrp)
self.legUpVCtrl = Control('UpV',
parent=self.legUpVCtrlSpace,
shape="triangle")
self.legUpVCtrl.alignOnZAxis()
self.legUpVCtrl.rotatePoints(0, 90, 0)
# ==========
# Deformers
# ==========
deformersLayer = self.getOrCreateLayer('deformers')
self.defCmpGrp = ComponentGroup(self.getName(),
self,
parent=deformersLayer)
self.addItem('defCmpGrp', self.defCmpGrp)
self.deformerJoints = []
self.boneOutputsTgt = []
self.setNumDeformers(4)
# =====================
# Create Component I/O
# =====================
# Set IO Targets
self.boneOutputs.setTarget(self.boneOutputsTgt)
# ==============
# Constrain I/O
# ==============
# Constraint inputs
legRootInputConstraint = PoseConstraint('_'.join([
self.fkCtrlSpaces[0].getName(), 'To',
self.rootInputTgt.getName()
]))
legRootInputConstraint.setMaintainOffset(True)
legRootInputConstraint.addConstrainer(self.rootInputTgt)
self.fkCtrlSpaces[0].addConstraint(legRootInputConstraint)
chainBaseInputConstraint = PoseConstraint('_'.join(
[self.chainBase.getName(), 'To',
self.rootInputTgt.getName()]))
chainBaseInputConstraint.setMaintainOffset(True)
chainBaseInputConstraint.addConstrainer(self.rootInputTgt)
self.chainBase.addConstraint(chainBaseInputConstraint)
# ===============
# Add Canvas Ops
# ===============
# Add Canvas Op
self.nBoneSolverKLOp = KLOperator('leg', 'NBoneIKSolver', 'Kraken')
self.addOperator(self.nBoneSolverKLOp)
# # Add Att Inputs
self.nBoneSolverKLOp.setInput('drawDebug', self.drawDebugInputAttr)
self.nBoneSolverKLOp.setInput('rigScale', self.rigScaleInputAttr)
self.nBoneSolverKLOp.setInput('useInitPose', legUseInitPoseInputAttr)
self.nBoneSolverKLOp.setInput('ikblend', legFkikInputAttr)
self.nBoneSolverKLOp.setInput('rootIndex', self.rootIndexInputAttr)
self.nBoneSolverKLOp.setInput('tipBoneLen', self.tipBoneLenInputAttr)
# Add Xfo Inputs
self.nBoneSolverKLOp.setInput('chainBase', self.chainBase)
self.nBoneSolverKLOp.setInput('ikgoal', self.legIKCtrl)
self.nBoneSolverKLOp.setInput('upVector', self.legUpVCtrl)
self.nBoneSolverKLOp.setInput('fkcontrols', self.fkCtrls)
# Add Xfo Outputs
self.nBoneSolverKLOp.setOutput('pose', self.boneOutputsTgt)
self.nBoneSolverKLOp.setOutput('legEnd', self.legEndPosOutputTgt)
# Add Deformer Canvas Op
self.outputsToDeformersKLOp = KLOperator('defConstraint',
'MultiPoseConstraintSolver',
'Kraken')
self.addOperator(self.outputsToDeformersKLOp)
# Add Att Inputs
self.outputsToDeformersKLOp.setInput('drawDebug',
self.drawDebugInputAttr)
self.outputsToDeformersKLOp.setInput('rigScale',
self.rigScaleInputAttr)
# Add Xfo Inputs
self.outputsToDeformersKLOp.setInput('constrainers',
self.boneOutputsTgt)
# Add Xfo Outputs
self.outputsToDeformersKLOp.setOutput('constrainees',
self.deformerJoints)
Profiler.getInstance().pop()
def __init__(self, name='Tentacle', parent=None):
Profiler.getInstance().push("Construct Tentacle Rig Component:" + name)
super(TentacleComponentRig, self).__init__(name, parent)
# =========
# Controls
# =========
# Chain Base
self.chainBase = Locator('ChainBase', parent=self.ctrlCmpGrp)
self.chainBase.setShapeVisibility(False)
# FK
self.fkCtrlSpaces = []
self.fkCtrls = []
self.setNumControls(2)
# IK Control
self.tentacleIKCtrlSpace = CtrlSpace('IK', parent=self.ctrlCmpGrp)
self.tentacleIKCtrl = Control('IK',
parent=self.tentacleIKCtrlSpace,
shape="sphere")
self.tentacleIKCtrl.scalePoints(Vec3(0.25, 0.25, 0.25))
self.tentacleIKCtrl.lockScale(x=True, y=True, z=True)
self.tentacleIKCtrl.lockRotation(x=True, y=True, z=True)
# Add Component Params to IK control
tentacleSettingsAttrGrp = AttributeGroup("DisplayInfo_LegSettings",
parent=self.tentacleIKCtrl)
tentacledrawDebugInputAttr = BoolAttribute(
'drawDebug', value=False, parent=tentacleSettingsAttrGrp)
fkikInputAttr = ScalarAttribute('fkik',
value=0.0,
minValue=0.0,
maxValue=1.0,
parent=tentacleSettingsAttrGrp)
waveLength_YInputAttr = ScalarAttribute('waveLength_Y',
value=1.0,
minValue=0.0,
maxValue=5.0,
parent=tentacleSettingsAttrGrp)
waveAmplitude_YInputAttr = ScalarAttribute(
'waveAmplitude_Y',
value=0.0,
minValue=-3.0,
maxValue=3.0,
parent=tentacleSettingsAttrGrp)
waveFrequency_YInputAttr = ScalarAttribute(
'waveFrequency_Y',
value=2.0,
minValue=0.0,
maxValue=10.0,
parent=tentacleSettingsAttrGrp)
waveLength_ZInputAttr = ScalarAttribute('waveLength_Z',
value=2.329,
minValue=0.0,
maxValue=5.0,
parent=tentacleSettingsAttrGrp)
waveAmplitude_ZInputAttr = ScalarAttribute(
'waveAmplitude_Z',
value=0.0,
minValue=-3.0,
maxValue=3.0,
parent=tentacleSettingsAttrGrp)
waveFrequency_ZInputAttr = ScalarAttribute(
'waveFrequency_Z',
value=3.354,
minValue=0.0,
maxValue=10.0,
parent=tentacleSettingsAttrGrp)
tipBiasInputAttr = ScalarAttribute('tipBias',
value=1.0,
minValue=0.0,
maxValue=1.0,
parent=tentacleSettingsAttrGrp)
springStrengthInputAttr = ScalarAttribute(
'springStrength',
value=0.3,
minValue=0.0,
maxValue=1.0,
parent=tentacleSettingsAttrGrp)
dampeningInputAttr = ScalarAttribute('dampening',
value=0.03,
minValue=0.0,
maxValue=1.0,
parent=tentacleSettingsAttrGrp)
simulationWeightInputAttr = ScalarAttribute(
'simulationWeight',
value=1.0,
minValue=0.0,
maxValue=1.0,
parent=tentacleSettingsAttrGrp)
softLimitBoundsInputAttr = ScalarAttribute(
'softLimitBounds',
value=5.0,
minValue=0.0,
maxValue=10.0,
parent=tentacleSettingsAttrGrp)
# Connect IO to controls
self.drawDebugInputAttr.connect(tentacledrawDebugInputAttr)
# ==========
# Deformers
# ==========
deformersLayer = self.getOrCreateLayer('deformers')
self.defCmpGrp = ComponentGroup(self.getName(),
self,
parent=deformersLayer)
self.addItem('defCmpGrp', self.defCmpGrp)
self.deformerJoints = []
self.boneOutputsTgt = []
self.setNumDeformers(4)
# =====================
# Create Component I/O
# =====================
# Set IO Targets
self.boneOutputs.setTarget(self.boneOutputsTgt)
# ==============
# Constrain I/O
# ==============
# Constraint inputs
tentacleRootInputConstraint = PoseConstraint('_'.join([
self.fkCtrlSpaces[0].getName(), 'To',
self.rootInputTgt.getName()
]))
tentacleRootInputConstraint.setMaintainOffset(True)
tentacleRootInputConstraint.addConstrainer(self.rootInputTgt)
self.fkCtrlSpaces[0].addConstraint(tentacleRootInputConstraint)
tentacleRootInputConstraint = PoseConstraint('_'.join([
self.tentacleIKCtrlSpace.getName(), 'To',
self.rootInputTgt.getName()
]))
tentacleRootInputConstraint.setMaintainOffset(True)
tentacleRootInputConstraint.addConstrainer(self.rootInputTgt)
self.tentacleIKCtrlSpace.addConstraint(tentacleRootInputConstraint)
chainBaseInputConstraint = PoseConstraint('_'.join(
[self.chainBase.getName(), 'To',
self.rootInputTgt.getName()]))
chainBaseInputConstraint.setMaintainOffset(True)
chainBaseInputConstraint.addConstrainer(self.rootInputTgt)
self.chainBase.addConstraint(chainBaseInputConstraint)
# ===============
# Add Canvas Ops
# ===============
# Add Canvas Op
self.tentacleSolverKLOp = KLOperator('tentacle', 'TentacleSolver',
'Kraken')
self.addOperator(self.tentacleSolverKLOp)
# # Add Att Inputs
self.tentacleSolverKLOp.setInput('drawDebug', self.drawDebugInputAttr)
self.tentacleSolverKLOp.setInput('rigScale', self.rigScaleInputAttr)
self.tentacleSolverKLOp.setInput('ikblend', fkikInputAttr)
self.tentacleSolverKLOp.setInput('waveLength_Y', waveLength_YInputAttr)
self.tentacleSolverKLOp.setInput('waveAmplitude_Y',
waveAmplitude_YInputAttr)
self.tentacleSolverKLOp.setInput('waveFrequency_Y',
waveFrequency_YInputAttr)
self.tentacleSolverKLOp.setInput('waveLength_Z', waveLength_ZInputAttr)
self.tentacleSolverKLOp.setInput('waveAmplitude_Z',
waveAmplitude_ZInputAttr)
self.tentacleSolverKLOp.setInput('waveFrequency_Z',
waveFrequency_ZInputAttr)
self.tentacleSolverKLOp.setInput('tipBias', tipBiasInputAttr)
self.tentacleSolverKLOp.setInput('springStrength',
springStrengthInputAttr)
self.tentacleSolverKLOp.setInput('dampening', dampeningInputAttr)
self.tentacleSolverKLOp.setInput('simulationWeight',
simulationWeightInputAttr)
self.tentacleSolverKLOp.setInput('softLimitBounds',
softLimitBoundsInputAttr)
self.tentacleSolverKLOp.setInput('tipBoneLen',
self.tipBoneLenInputAttr)
# Add Xfo Inputs
self.tentacleSolverKLOp.setInput('chainBase', self.chainBase)
self.tentacleSolverKLOp.setInput('ikgoal', self.tentacleIKCtrl)
self.tentacleSolverKLOp.setInput('fkcontrols', self.fkCtrls)
# Add Xfo Outputs
self.tentacleSolverKLOp.setOutput('pose', self.boneOutputsTgt)
self.tentacleSolverKLOp.setOutput('tentacleEnd',
self.tentacleEndXfoOutputTgt)
# Add Deformer Canvas Op
self.outputsToDeformersKLOp = KLOperator('defConstraint',
'MultiPoseConstraintSolver',
'Kraken')
self.addOperator(self.outputsToDeformersKLOp)
# Add Att Inputs
self.outputsToDeformersKLOp.setInput('drawDebug',
self.drawDebugInputAttr)
self.outputsToDeformersKLOp.setInput('rigScale',
self.rigScaleInputAttr)
# Add Xfo Inputs
self.outputsToDeformersKLOp.setInput('constrainers',
self.boneOutputsTgt)
# Add Xfo Outputs
self.outputsToDeformersKLOp.setOutput('constrainees',
self.deformerJoints)
Profiler.getInstance().pop()
def __init__(self, name='MultiSpring', parent=None):
Profiler.getInstance().push("Construct Multi Spring Rig Component:" +
name)
super(MultiSpringComponentRig, self).__init__(name, parent)
# =========
# Controls
# =========
# Spring Ctrls
self.mainSpringCtrl = Control('springSettings',
parent=self.ctrlCmpGrp,
shape='pin')
self.springCtrlSpaces = []
self.springCtrls = []
self.setNumControls(1)
# Add Component Params to FK control
springSettingsAttrGrp = AttributeGroup("DisplayInfo_SpringSettings",
parent=self.mainSpringCtrl)
self.springDrawDebugInputAttr = BoolAttribute(
'drawDebug', value=False, parent=springSettingsAttrGrp)
self.springtargetOffsetXInputAttr = ScalarAttribute(
'targetOffset_X',
value=3.0,
minValue=0.0,
maxValue=10.0,
parent=springSettingsAttrGrp)
self.springtargetOffsetYInputAttr = ScalarAttribute(
'targetOffset_Y',
value=0.0,
minValue=0.0,
maxValue=10.0,
parent=springSettingsAttrGrp)
self.springtargetOffsetZInputAttr = ScalarAttribute(
'targetOffset_Z',
value=0.0,
minValue=0.0,
maxValue=10.0,
parent=springSettingsAttrGrp)
self.springFrameInputAttr = IntegerAttribute(
'frame', value=1, parent=springSettingsAttrGrp)
self.springResetFrameInputAttr = IntegerAttribute(
'reset_frame', value=1, parent=springSettingsAttrGrp)
self.springMassInputAttr = ScalarAttribute(
'mass',
value=0.5,
minValue=0.0,
maxValue=20.0,
parent=springSettingsAttrGrp)
self.springSpringStrengthInputAttr = ScalarAttribute(
'springStrength',
value=6.0,
minValue=0.0,
maxValue=20.0,
parent=springSettingsAttrGrp)
self.springDampingInputAttr = ScalarAttribute(
'damping',
value=0.125,
minValue=0.0,
maxValue=5.0,
parent=springSettingsAttrGrp)
# Connect IO to controls
self.drawDebugInputAttr.connect(self.springDrawDebugInputAttr)
# ==========
# Deformers
# ==========
deformersLayer = self.getOrCreateLayer('deformers')
self.defCmpGrp = ComponentGroup(self.getName(),
self,
parent=deformersLayer)
self.addItem('defCmpGrp', self.defCmpGrp)
self.deformerJoints = []
self.boneOutputsTgt = []
self.setNumDeformers(4)
# =====================
# Create Component I/O
# =====================
# Set IO Targets
self.boneOutputs.setTarget(self.boneOutputsTgt)
# ==============
# Constrain I/O
# ==============
# Constraint inputs
self.rootInputConstraint = PoseConstraint('_'.join([
self.springCtrlSpaces[0].getName(), 'To',
self.rootInputTgt.getName()
]))
self.rootInputConstraint.setMaintainOffset(True)
self.rootInputConstraint.addConstrainer(self.rootInputTgt)
self.springCtrlSpaces[0].addConstraint(self.rootInputConstraint)
# ===============
# Add Splice Ops
# ===============
# Add Solver Canvas Op
self.springOp = CanvasOperator('springSolverOp',
'Kraken.Solvers.SpringOffsetSolver')
self.addOperator(self.springOp)
# Add Att Inputs
self.springOp.setInput('drawDebug', self.drawDebugInputAttr)
self.springOp.setInput('rigScale', self.rigScaleInputAttr)
self.springOp.setInput('targetOffset_X',
self.springtargetOffsetXInputAttr)
self.springOp.setInput('targetOffset_Y',
self.springtargetOffsetYInputAttr)
self.springOp.setInput('targetOffset_Z',
self.springtargetOffsetZInputAttr)
self.springOp.setInput('frame', self.springFrameInputAttr)
self.springOp.setInput('reset_frame', self.springResetFrameInputAttr)
self.springOp.setInput('mass', self.springMassInputAttr)
self.springOp.setInput('spring_strength',
self.springSpringStrengthInputAttr)
self.springOp.setInput('damping', self.springDampingInputAttr)
# Add Xfo Inputs
self.springOp.setInput('inputs', self.springCtrls)
# Add Xfo Outputs
self.springOp.setOutput('outputs', self.boneOutputsTgt)
# Add Deformer Splice Op
self.deformersToOutputsKLOp = KLOperator('springDeformerKLOp',
'MultiPoseConstraintSolver',
'Kraken')
self.addOperator(self.deformersToOutputsKLOp)
# Add Att Inputs
self.deformersToOutputsKLOp.setInput('drawDebug', False)
self.deformersToOutputsKLOp.setInput('rigScale',
self.rigScaleInputAttr)
# Add Xfo Inputs
self.deformersToOutputsKLOp.setInput('constrainers',
self.boneOutputsTgt)
# Add Xfo Outputs
self.deformersToOutputsKLOp.setOutput('constrainees',
self.deformerJoints)
Profiler.getInstance().pop()
def __init__(self, name='leg', parent=None):
Profiler.getInstance().push("Construct Leg Rig Component:" + name)
super(LegComponentRig, self).__init__(name, parent)
# =========
# Controls
# =========
# Femur
self.femurFKCtrlSpace = CtrlSpace('femurFK', parent=self.ctrlCmpGrp)
self.femurFKCtrl = Control('femurFK', parent=self.femurFKCtrlSpace, shape="cube")
self.femurFKCtrl.alignOnXAxis()
# Shin
self.shinFKCtrlSpace = CtrlSpace('shinFK', parent=self.femurFKCtrl)
self.shinFKCtrl = Control('shinFK', parent=self.shinFKCtrlSpace, shape="cube")
self.shinFKCtrl.alignOnXAxis()
# Ankle
self.legIKCtrlSpace = CtrlSpace('IK', parent=self.ctrlCmpGrp)
self.legIKCtrl = Control('IK', parent=self.legIKCtrlSpace, shape="pin")
# FK Foot
self.footCtrlSpace = CtrlSpace('foot', parent=self.ctrlCmpGrp)
self.footCtrl = Control('foot', parent=self.footCtrlSpace, shape="cube")
self.footCtrl.alignOnXAxis()
# FK Toe
self.toeCtrlSpace = CtrlSpace('toe', parent=self.footCtrl)
self.toeCtrl = Control('toe', parent=self.toeCtrlSpace, shape="cube")
self.toeCtrl.alignOnXAxis()
# Rig Ref objects
self.footRefSrt = Locator('footRef', parent=self.ctrlCmpGrp)
# Add Component Params to IK control
footSettingsAttrGrp = AttributeGroup("DisplayInfo_FootSettings", parent=self.footCtrl)
footLinkToWorldInputAttr = ScalarAttribute('linkToWorld', 1.0, maxValue=1.0, parent=footSettingsAttrGrp)
# Add Component Params to IK control
legSettingsAttrGrp = AttributeGroup("DisplayInfo_LegSettings", parent=self.legIKCtrl)
legDrawDebugInputAttr = BoolAttribute('drawDebug', value=False, parent=legSettingsAttrGrp)
self.legBone0LenInputAttr = ScalarAttribute('bone0Len', value=1.0, parent=legSettingsAttrGrp)
self.legBone1LenInputAttr = ScalarAttribute('bone1Len', value=1.0, parent=legSettingsAttrGrp)
legIKBlendInputAttr = ScalarAttribute('ikblend', value=1.0, minValue=0.0, maxValue=1.0, parent=legSettingsAttrGrp)
legSoftIKInputAttr = BoolAttribute('softIK', value=True, parent=legSettingsAttrGrp)
legSoftDistInputAttr = ScalarAttribute('softDist', value=0.0, minValue=0.0, parent=legSettingsAttrGrp)
legStretchInputAttr = BoolAttribute('stretch', value=True, parent=legSettingsAttrGrp)
legStretchBlendInputAttr = ScalarAttribute('stretchBlend', value=0.0, minValue=0.0, maxValue=1.0, parent=legSettingsAttrGrp)
self.drawDebugInputAttr.connect(legDrawDebugInputAttr)
# UpV
self.legUpVCtrlSpace = CtrlSpace('UpV', parent=self.ctrlCmpGrp)
self.legUpVCtrl = Control('UpV', parent=self.legUpVCtrlSpace, shape="triangle")
self.legUpVCtrl.alignOnZAxis()
# ==========
# Deformers
# ==========
deformersLayer = self.getOrCreateLayer('deformers')
self.defCmpGrp = ComponentGroup(self.getName(), self, parent=deformersLayer)
femurDef = Joint('femur', parent=self.defCmpGrp)
femurDef.setComponent(self)
shinDef = Joint('shin', parent=self.defCmpGrp)
shinDef.setComponent(self)
ankleDef = Joint('ankle', parent=self.defCmpGrp)
ankleDef.setComponent(self)
self.footDef = Joint('foot', parent=self.defCmpGrp)
self.footDef.setComponent(self)
self.toeDef = Joint('toe', parent=self.defCmpGrp)
self.toeDef.setComponent(self)
# ==============
# Constrain I/O
# ==============
# Constraint inputs
self.legIKCtrlSpaceInputConstraint = PoseConstraint('_'.join([self.legIKCtrlSpace.getName(), 'To', self.globalSRTInputTgt.getName()]))
self.legIKCtrlSpaceInputConstraint.setMaintainOffset(True)
self.legIKCtrlSpaceInputConstraint.addConstrainer(self.globalSRTInputTgt)
self.legIKCtrlSpace.addConstraint(self.legIKCtrlSpaceInputConstraint)
self.legUpVCtrlSpaceInputConstraint = PoseConstraint('_'.join([self.legUpVCtrlSpace.getName(), 'To', self.globalSRTInputTgt.getName()]))
self.legUpVCtrlSpaceInputConstraint.setMaintainOffset(True)
self.legUpVCtrlSpaceInputConstraint.addConstrainer(self.globalSRTInputTgt)
self.legUpVCtrlSpace.addConstraint(self.legUpVCtrlSpaceInputConstraint)
self.legRootInputConstraint = PoseConstraint('_'.join([self.legIKCtrl.getName(), 'To', self.legPelvisInputTgt.getName()]))
self.legRootInputConstraint.setMaintainOffset(True)
self.legRootInputConstraint.addConstrainer(self.legPelvisInputTgt)
self.femurFKCtrlSpace.addConstraint(self.legRootInputConstraint)
# Constraint outputs
self.footOutputConstraint = PoseConstraint('_'.join([self.footOutputTgt.getName(), 'To', self.footCtrl.getName()]))
self.footOutputConstraint.addConstrainer(self.footCtrl)
self.footOutputTgt.addConstraint(self.footOutputConstraint)
self.toeOutputConstraint = PoseConstraint('_'.join([self.toeOutputTgt.getName(), 'To', self.toeCtrl.getName()]))
self.toeOutputConstraint.addConstrainer(self.toeCtrl)
self.toeOutputTgt.addConstraint(self.toeOutputConstraint)
# ===============
# Add Splice Ops
# ===============
# Add Leg Splice Op
self.legIKSpliceOp = SpliceOperator('legSpliceOp', 'TwoBoneIKSolver', 'Kraken')
self.addOperator(self.legIKSpliceOp)
# Add Att Inputs
self.legIKSpliceOp.setInput('drawDebug', self.drawDebugInputAttr)
self.legIKSpliceOp.setInput('rigScale', self.rigScaleInputAttr)
self.legIKSpliceOp.setInput('bone0Len', self.legBone0LenInputAttr)
self.legIKSpliceOp.setInput('bone1Len', self.legBone1LenInputAttr)
self.legIKSpliceOp.setInput('ikblend', legIKBlendInputAttr)
self.legIKSpliceOp.setInput('softIK', legSoftIKInputAttr)
self.legIKSpliceOp.setInput('softDist', legSoftDistInputAttr)
self.legIKSpliceOp.setInput('stretch', legStretchInputAttr)
self.legIKSpliceOp.setInput('stretchBlend', legStretchBlendInputAttr)
self.legIKSpliceOp.setInput('rightSide', self.rightSideInputAttr)
# Add Xfo Inputs
self.legIKSpliceOp.setInput('root', self.legPelvisInputTgt)
self.legIKSpliceOp.setInput('bone0FK', self.femurFKCtrl)
self.legIKSpliceOp.setInput('bone1FK', self.shinFKCtrl)
self.legIKSpliceOp.setInput('ikHandle', self.legIKCtrl)
self.legIKSpliceOp.setInput('upV', self.legUpVCtrl)
# Add Xfo Outputs
self.legIKSpliceOp.setOutput('bone0Out', self.femurOutputTgt)
self.legIKSpliceOp.setOutput('bone1Out', self.shinOutputTgt)
self.legIKSpliceOp.setOutput('bone2Out', self.legEndXfoOutputTgt)
# Add Leg Deformer Splice Op
self.outputsToDeformersSpliceOp = SpliceOperator('legDeformerSpliceOp', 'MultiPoseConstraintSolver', 'Kraken')
self.addOperator(self.outputsToDeformersSpliceOp)
# Add Att Inputs
self.outputsToDeformersSpliceOp.setInput('drawDebug', self.drawDebugInputAttr)
self.outputsToDeformersSpliceOp.setInput('rigScale', self.rigScaleInputAttr)
# Add Xfo Inputs
self.outputsToDeformersSpliceOp.setInput('constrainers', [self.femurOutputTgt, self.shinOutputTgt, self.legEndXfoOutputTgt])
# Add Xfo Outputs
self.outputsToDeformersSpliceOp.setOutput('constrainees', [femurDef, shinDef, ankleDef])
# Add Foot Deformer Splice Op
self.footDefSpliceOp = SpliceOperator('footDeformerSpliceOp', 'PoseConstraintSolver', 'Kraken')
self.addOperator(self.footDefSpliceOp)
# Add Att Inputs
self.footDefSpliceOp.setInput('drawDebug', self.drawDebugInputAttr)
self.footDefSpliceOp.setInput('rigScale', self.rigScaleInputAttr)
# Add Xfo Inputs)
self.footDefSpliceOp.setInput('constrainer', self.footOutputTgt)
# Add Xfo Outputs
self.footDefSpliceOp.setOutput('constrainee', self.footDef)
# Add Toe Deformer Splice Op
self.toeDefSpliceOp = SpliceOperator('toeDeformerSpliceOp', 'PoseConstraintSolver', 'Kraken')
self.addOperator(self.toeDefSpliceOp)
# Add Att Inputs
self.toeDefSpliceOp.setInput('drawDebug', self.drawDebugInputAttr)
self.toeDefSpliceOp.setInput('rigScale', self.rigScaleInputAttr)
# Add Xfo Inputs
self.toeDefSpliceOp.setInput('constrainer', self.toeOutputTgt)
# Add Xfo Outputs
self.toeDefSpliceOp.setOutput('constrainee', self.toeDef)
Profiler.getInstance().pop()
def __init__(self, name='mjEyelid', parent=None):
Profiler.getInstance().push("Construct Eyelid Rig Component:" + name)
super(mjEyelidComponentRig, self).__init__(name, parent)
# =========
# Controls // Get the Guide Xfos data and create the final controllers, offset them if needed.
# =========
# Inputs
self.eyelidCtrlSpace = CtrlSpace('eyelid', parent=self.ctrlCmpGrp)
self.eyeballLocator = Locator('eyeball', parent=self.ctrlCmpGrp)
self.eyeballLocator.setShapeVisibility(False)
self.eyelidUpVLocator = Locator('eyelid_Upv',
parent=self.eyelidCtrlSpace)
self.eyelidUpVLocator.setShapeVisibility(False)
# Lid Sides
self.lidMedialLocator = Locator('lid_Medial',
parent=self.eyelidCtrlSpace)
self.lidMedialLocator.setShapeVisibility(False)
self.lidLateralLocator = Locator('lid_Lateral',
parent=self.eyelidCtrlSpace)
self.lidLateralLocator.setShapeVisibility(False)
# Lid Upper
self.lidUpCtrlSpace = CtrlSpace('lid_Up', parent=self.eyelidCtrlSpace)
self.lidUpCtrl = Control('lid_Up',
parent=self.lidUpCtrlSpace,
shape="cube")
self.lidUpCtrl.scalePoints(Vec3(0.05, 0.05, 0.05))
self.lidUpCtrl.lockTranslation(x=True, y=False, z=True)
self.lidUpCtrl.setColor("yellow")
self.lipUpMedialLocator = Locator('lid_Up_Medial',
parent=self.eyelidCtrlSpace)
self.lipUpMedialLocator.setShapeVisibility(False)
self.lipUpLateralLocator = Locator('lid_Up_Lateral',
parent=self.eyelidCtrlSpace)
self.lipUpLateralLocator.setShapeVisibility(False)
# Lid Lower
self.lidLowCtrlSpace = CtrlSpace('lid_Low',
parent=self.eyelidCtrlSpace)
self.lidLowCtrl = Control('lid_Low',
parent=self.lidLowCtrlSpace,
shape="cube")
self.lidLowCtrl.scalePoints(Vec3(0.05, 0.05, 0.05))
self.lidLowCtrl.lockTranslation(x=True, y=False, z=True)
self.lidLowCtrl.setColor("yellow")
self.lidLowMedialLocator = Locator('lid_Low_Medial',
parent=self.eyelidCtrlSpace)
self.lidLowMedialLocator.setShapeVisibility(False)
self.lidLowLateralLocator = Locator('lid_Low_Lateral',
parent=self.eyelidCtrlSpace)
self.lidLowLateralLocator.setShapeVisibility(False)
# Lid Attributes
lidUp_AttrGrp = AttributeGroup("Eyelid_Settings",
parent=self.lidUpCtrl)
lidLow_AttrGrp = AttributeGroup("Eyelid_Settings",
parent=self.lidLowCtrl)
self.lidUp_OffsetInputAttr = BoolAttribute('Eyeball_Offset',
value=True,
parent=lidUp_AttrGrp)
self.lidUp_FollowFactorInputAttr = ScalarAttribute(
'Eyeball_Follow_Factor', value=1.0, parent=lidUp_AttrGrp)
self.lidUp_DebugInputAttr = BoolAttribute('DrawDebug',
value=False,
parent=lidUp_AttrGrp)
self.lidUp_MedialBlinkInputAttr = ScalarAttribute(
'Medial_Blink_Factor', value=0.25, parent=lidUp_AttrGrp)
self.lidUp_LateralBlinkInputAttr = ScalarAttribute(
'Lateral_Blink_Factor', value=0.65, parent=lidUp_AttrGrp)
self.lidUp_DefCountInputAttr = IntegerAttribute('numDeformers',
value=10,
parent=lidUp_AttrGrp)
self.lidLow_OffsetInputAttr = BoolAttribute('Eyeball_Offset',
value=True,
parent=lidLow_AttrGrp)
self.lidLow_FollowFactorInputAttr = ScalarAttribute(
'Eyeball_Follow_Factor', value=0.8, parent=lidLow_AttrGrp)
self.lidLow_DebugInputAttr = BoolAttribute('DrawDebug',
value=False,
parent=lidLow_AttrGrp)
self.lidLow_MedialBlinkInputAttr = ScalarAttribute(
'Medial_Blink_Factor', value=0.25, parent=lidLow_AttrGrp)
self.lidLow_LateralBlinkInputAttr = ScalarAttribute(
'Lateral_Blink_Factor', value=0.65, parent=lidLow_AttrGrp)
self.lidLow_DefCountInputAttr = IntegerAttribute('numDeformers',
value=10,
parent=lidLow_AttrGrp)
self.lidUp_DebugInputAttr.connect(self.drawDebugInputAttr)
self.lidLow_DebugInputAttr.connect(self.drawDebugInputAttr)
self.lidUp_DefCountInputAttr.connect(self.numUpDeformersInputAttr)
self.lidLow_DefCountInputAttr.connect(self.numLowDeformersInputAttr)
# ==========
# Deformers
# ==========
deformersLayer = self.getOrCreateLayer('deformers')
self.defCmpGrp = ComponentGroup(self.getName(),
self,
parent=deformersLayer)
# Lid Sides
lidMedialDef = Joint('lid_Medial', parent=self.defCmpGrp)
lidMedialDef.setComponent(self)
lidLateralDef = Joint('lid_Lateral', parent=self.defCmpGrp)
lidLateralDef.setComponent(self)
# Lid Up
self.eyelidUpDef = []
self.eyelidUpOutputs = []
self.setNumUpDeformers(1)
# Lid Low
self.eyelidLowDef = []
self.eyelidLowOutputs = []
self.setNumLowDeformers(1)
# =====================
# Create Component I/O
# =====================
# Setup component Xfo I/O's
self.eyelidUpOutput.setTarget(self.eyelidUpOutputs)
self.eyelidLowOutput.setTarget(self.eyelidLowOutputs)
# ==============
# Constrain I/O
# ==============
# Constraint inputs
self.headInputConstraint = PoseConstraint('_'.join([
self.eyelidCtrlSpace.getName(), 'To',
self.headInputTgt.getName()
]))
self.headInputConstraint.addConstrainer(self.headInputTgt)
self.eyelidCtrlSpace.addConstraint(self.headInputConstraint)
self.eyeballInputConstraint = PoseConstraint('_'.join([
self.eyeballLocator.getName(), 'To',
self.eyeballInputTgt.getName()
]))
self.eyeballInputConstraint.setMaintainOffset(True)
self.eyeballInputConstraint.addConstrainer(self.eyeballInputTgt)
self.eyeballLocator.addConstraint(self.eyeballInputConstraint)
# ===============
# Add Splice Ops
# ===============
# Add MultiPoseConstraint Joints Splice Op
self.outputsToDeformersKLOp = KLOperator('Canvas_Eyelid_Side_Op',
'MultiPoseConstraintSolver',
'Kraken')
self.addOperator(self.outputsToDeformersKLOp)
# Add Att Inputs
self.outputsToDeformersKLOp.setInput('drawDebug',
self.drawDebugInputAttr)
self.outputsToDeformersKLOp.setInput('rigScale',
self.rigScaleInputAttr)
# Add Xfo Inputs
self.outputsToDeformersKLOp.setInput('constrainers', [
self.lidMedialLocator,
self.lidLateralLocator,
])
# Add Xfo Outputs
self.outputsToDeformersKLOp.setOutput('constrainees', [
lidMedialDef,
lidLateralDef,
])
# Add Lid Up Canvas Op
self.lidUpCanvasOp = CanvasOperator(
'Canvas_Eyelid_Up_Op', 'MJCG.Solvers.mjEyelidConstraintSolver')
self.addOperator(self.lidUpCanvasOp)
# Add Attributes Inputs
self.lidUpCanvasOp.setInput('drawDebug', self.lidUp_DebugInputAttr)
self.lidUpCanvasOp.setInput('rigScale', self.rigScaleInputAttr)
self.lidUpCanvasOp.setInput('Eyeball_Offset',
self.lidUp_OffsetInputAttr)
self.lidUpCanvasOp.setInput('Eyeball_Follow_Factor',
self.lidUp_FollowFactorInputAttr)
self.lidUpCanvasOp.setInput('Medial_Blink_Factor',
self.lidUp_MedialBlinkInputAttr)
self.lidUpCanvasOp.setInput('Lateral_Blink_Factor',
self.lidUp_LateralBlinkInputAttr)
self.lidUpCanvasOp.setInput('Deformer_Count',
self.lidUp_DefCountInputAttr)
# Add Xfo Inputs
self.lidUpCanvasOp.setInput('Eye_Center', self.eyeballLocator)
self.lidUpCanvasOp.setInput('Lid_Global', self.eyelidCtrlSpace)
self.lidUpCanvasOp.setInput('Lid_UpV', self.eyelidUpVLocator)
self.lidUpCanvasOp.setInput('Lid_Medial', self.lidMedialLocator)
self.lidUpCanvasOp.setInput('Lid_MedialCen', self.lipUpMedialLocator)
self.lidUpCanvasOp.setInput('Lid_Center_Ref', self.lidUpCtrlSpace)
self.lidUpCanvasOp.setInput('Lid_Center_Ctrl', self.lidUpCtrl)
self.lidUpCanvasOp.setInput('Lid_LateralCen', self.lipUpLateralLocator)
self.lidUpCanvasOp.setInput('Lid_Lateral', self.lidLateralLocator)
#Add Xfo Outputs
self.lidUpCanvasOp.setOutput('result', self.eyelidUpDef)
# Add Lid Low Canvas Op
self.lidLowCanvasOp = CanvasOperator(
'Canvas_Eyelid_Low_Op', 'MJCG.Solvers.mjEyelidConstraintSolver')
self.addOperator(self.lidLowCanvasOp)
# Add Attributes Inputs
self.lidLowCanvasOp.setInput('drawDebug', self.lidLow_DebugInputAttr)
self.lidLowCanvasOp.setInput('rigScale', self.rigScaleInputAttr)
self.lidLowCanvasOp.setInput('Eyeball_Offset',
self.lidLow_OffsetInputAttr)
self.lidLowCanvasOp.setInput('Eyeball_Follow_Factor',
self.lidLow_FollowFactorInputAttr)
self.lidLowCanvasOp.setInput('Medial_Blink_Factor',
self.lidLow_MedialBlinkInputAttr)
self.lidLowCanvasOp.setInput('Lateral_Blink_Factor',
self.lidLow_LateralBlinkInputAttr)
self.lidLowCanvasOp.setInput('Deformer_Count',
self.lidLow_DefCountInputAttr)
# Add Xfo Inputs
self.lidLowCanvasOp.setInput('Eye_Center', self.eyeballLocator)
self.lidLowCanvasOp.setInput('Lid_Global', self.eyelidCtrlSpace)
self.lidLowCanvasOp.setInput('Lid_UpV', self.eyelidUpVLocator)
self.lidLowCanvasOp.setInput('Lid_Medial', self.lidMedialLocator)
self.lidLowCanvasOp.setInput('Lid_MedialCen', self.lidLowMedialLocator)
self.lidLowCanvasOp.setInput('Lid_Center_Ref', self.lidLowCtrlSpace)
self.lidLowCanvasOp.setInput('Lid_Center_Ctrl', self.lidLowCtrl)
self.lidLowCanvasOp.setInput('Lid_LateralCen',
self.lidLowLateralLocator)
self.lidLowCanvasOp.setInput('Lid_Lateral', self.lidLateralLocator)
#Add Xfo Outputs
self.lidLowCanvasOp.setOutput('result', self.eyelidLowDef)
Profiler.getInstance().pop()
def construct(self, jsonData):
"""Returns a constructed scene item based on the provided json data.
Args:
jsondata (dict): the JSON data to use to decode into a Math value.
Returns:
object: The constructed scene item.
"""
if '__typeHierarchy__' not in jsonData or 'name' not in jsonData:
raise Exception("Invalid JSON data for constructing scene item:" +
str(jsonData))
# =========
# Controls
# =========
if "Control" in jsonData['__typeHierarchy__']:
item = Control(jsonData['name'])
# ===========
# Attributes
# ===========
elif "AttributeGroup" in jsonData['__typeHierarchy__']:
item = AttributeGroup(jsonData['name'])
elif "BoolAttribute" in jsonData['__typeHierarchy__']:
item = BoolAttribute(jsonData['name'])
elif "ScalarAttribute" in jsonData['__typeHierarchy__']:
item = ScalarAttribute(jsonData['name'])
elif "IntegerAttribute" in jsonData['__typeHierarchy__']:
item = IntegerAttribute(jsonData['name'])
elif "StringAttribute" in jsonData['__typeHierarchy__']:
item = StringAttribute(jsonData['name'])
elif "ComponentInput" in jsonData['__typeHierarchy__']:
item = ComponentInput(jsonData['name'])
elif "ComponentOutput" in jsonData['__typeHierarchy__']:
item = ComponentOutput(jsonData['name'])
# ============
# Constraints
# ============
elif "OrientationConstraint" in jsonData['__typeHierarchy__']:
item = OrientationConstraint(jsonData['name'])
elif "PoseConstraint" in jsonData['__typeHierarchy__']:
item = PoseConstraint(jsonData['name'])
elif "PositionConstraint" in jsonData['__typeHierarchy__']:
item = PositionConstraint(jsonData['name'])
elif "ScaleConstraint" in jsonData['__typeHierarchy__']:
item = ScaleConstraint(jsonData['name'])
elif "BaseConstraint" in jsonData['__typeHierarchy__']:
item = BaseConstraint(jsonData['name'])
# ==========
# Operators
# ==========
elif "KLOperator" in jsonData['__typeHierarchy__']:
item = KLOperator(jsonData['name'])
# ============
# Scene Items
# ============
elif "Group" in jsonData['__typeHierarchy__']:
item = Group(jsonData['name'])
elif "Null" in jsonData['__typeHierarchy__']:
item = Null(jsonData['name'])
elif "Chain" in jsonData['__typeHierarchy__']:
item = Chain(jsonData['name'])
elif "Joint" in jsonData['__typeHierarchy__']:
item = Joint(jsonData['name'])
elif "Container" in jsonData['__typeHierarchy__']:
item = Container(jsonData['name'])
elif "Curve" in jsonData['__typeHierarchy__']:
item = Curve(jsonData['name'])
elif "HierarchyGroup" in jsonData['__typeHierarchy__']:
item = HierarchyGroup(jsonData['name'])
elif "Joint" in jsonData['__typeHierarchy__']:
item = Joint(jsonData['name'])
elif "Layer" in jsonData['__typeHierarchy__']:
item = Layer(jsonData['name'])
elif "Locator" in jsonData['__typeHierarchy__']:
item = Locator(jsonData['name'])
elif "SceneItem" in jsonData['__typeHierarchy__']:
item = SceneItem(jsonData['name'])
else:
raise Exception("KrakenLoader does not support the given type:" +
jsonData['__typeHierarchy__'])
# Before registering or decoding, set the parent so that the full name contains the entire path.
if len(self.parentItems) > 0:
item.setParent(self.parentItems[-1])
self.registerItem(item)
# Store the item as the parent item before decoding the object
# which in turn decodes the children items.
self.parentItems.append(item)
item.jsonDecode(self, jsonData)
# Pop the parent item stack, which reverts the current parent item
# to the previous value.
self.parentItems.pop()
return item
def __init__(self, name='limb', parent=None):
Profiler.getInstance().push("Construct StretchyLimb Rig Component:" +
name)
super(StretchyLimbComponentRig, self).__init__(name, parent)
# =========
# Controls
# =========
# Upper (FK)
self.upperFKCtrlSpace = CtrlSpace('upperFK', parent=self.ctrlCmpGrp)
self.upperFKCtrl = Control('upperFK',
parent=self.upperFKCtrlSpace,
shape="cube")
self.upperFKCtrl.alignOnXAxis()
# Lower (FK)
self.lowerFKCtrlSpace = CtrlSpace('lowerFK', parent=self.upperFKCtrl)
self.lowerFKCtrl = Control('lowerFK',
parent=self.lowerFKCtrlSpace,
shape="cube")
self.lowerFKCtrl.alignOnXAxis()
# End (IK)
self.limbIKCtrlSpace = CtrlSpace('IK', parent=self.ctrlCmpGrp)
self.limbIKCtrl = Control('IK',
parent=self.limbIKCtrlSpace,
shape="pin")
# Add Component Params to IK control
# TODO: Move these separate control
limbSettingsAttrGrp = AttributeGroup(
"DisplayInfo_StretchyLimbSettings", parent=self.limbIKCtrl)
limbDrawDebugInputAttr = BoolAttribute('drawDebug',
value=False,
parent=limbSettingsAttrGrp)
self.limbBone0LenInputAttr = ScalarAttribute(
'bone0Len', value=1.0, parent=limbSettingsAttrGrp)
self.limbBone1LenInputAttr = ScalarAttribute(
'bone1Len', value=1.0, parent=limbSettingsAttrGrp)
limbIKBlendInputAttr = ScalarAttribute('ikblend',
value=1.0,
minValue=0.0,
maxValue=1.0,
parent=limbSettingsAttrGrp)
limbSoftIKInputAttr = BoolAttribute('softIK',
value=True,
parent=limbSettingsAttrGrp)
limbSoftRatioInputAttr = ScalarAttribute('softRatio',
value=0.0,
minValue=0.0,
maxValue=1.0,
parent=limbSettingsAttrGrp)
limbStretchInputAttr = BoolAttribute('stretch',
value=True,
parent=limbSettingsAttrGrp)
limbStretchBlendInputAttr = ScalarAttribute('stretchBlend',
value=0.0,
minValue=0.0,
maxValue=1.0,
parent=limbSettingsAttrGrp)
limbSlideInputAttr = ScalarAttribute('slide',
value=0.0,
minValue=-1.0,
maxValue=1.0,
parent=limbSettingsAttrGrp)
limbPinInputAttr = ScalarAttribute('pin',
value=0.0,
minValue=0.0,
maxValue=1.0,
parent=limbSettingsAttrGrp)
self.rightSideInputAttr = BoolAttribute('rightSide',
value=False,
parent=limbSettingsAttrGrp)
self.drawDebugInputAttr.connect(limbDrawDebugInputAttr)
# UpV (IK Pole Vector)
self.limbUpVCtrlSpace = CtrlSpace('UpV', parent=self.ctrlCmpGrp)
self.limbUpVCtrl = Control('UpV',
parent=self.limbUpVCtrlSpace,
shape="triangle")
self.limbUpVCtrl.alignOnZAxis()
# ==========
# Deformers
# ==========
deformersLayer = self.getOrCreateLayer('deformers')
self.defCmpGrp = ComponentGroup(self.getName(),
self,
parent=deformersLayer)
self.addItem('defCmpGrp', self.defCmpGrp)
upperDef = Joint('upper', parent=self.defCmpGrp)
upperDef.setComponent(self)
lowerDef = Joint('lower', parent=self.defCmpGrp)
lowerDef.setComponent(self)
endDef = Joint('end', parent=self.defCmpGrp)
endDef.setComponent(self)
# ==============
# Constrain I/O
# ==============
# Constraint inputs
self.limbIKCtrlSpaceInputConstraint = PoseConstraint('_'.join([
self.limbIKCtrlSpace.getName(), 'To',
self.globalSRTInputTgt.getName()
]))
self.limbIKCtrlSpaceInputConstraint.setMaintainOffset(True)
self.limbIKCtrlSpaceInputConstraint.addConstrainer(
self.globalSRTInputTgt)
self.limbIKCtrlSpace.addConstraint(self.limbIKCtrlSpaceInputConstraint)
self.limbUpVCtrlSpaceInputConstraint = PoseConstraint('_'.join([
self.limbUpVCtrlSpace.getName(), 'To',
self.globalSRTInputTgt.getName()
]))
self.limbUpVCtrlSpaceInputConstraint.setMaintainOffset(True)
self.limbUpVCtrlSpaceInputConstraint.addConstrainer(
self.globalSRTInputTgt)
self.limbUpVCtrlSpace.addConstraint(
self.limbUpVCtrlSpaceInputConstraint)
self.limbRootInputConstraint = PoseConstraint('_'.join([
self.limbIKCtrl.getName(), 'To',
self.limbParentInputTgt.getName()
]))
self.limbRootInputConstraint.setMaintainOffset(True)
self.limbRootInputConstraint.addConstrainer(self.limbParentInputTgt)
self.upperFKCtrlSpace.addConstraint(self.limbRootInputConstraint)
# ===============
# Add Splice Ops
# ===============
# Add StretchyLimb Splice Op
self.limbIKKLOp = KLOperator('limbKLOp', 'TwoBoneStretchyIKSolver',
'Kraken')
self.addOperator(self.limbIKKLOp)
# Add Att Inputs
self.limbIKKLOp.setInput('drawDebug', self.drawDebugInputAttr)
self.limbIKKLOp.setInput('rigScale', self.rigScaleInputAttr)
self.limbIKKLOp.setInput('bone0Len', self.limbBone0LenInputAttr)
self.limbIKKLOp.setInput('bone1Len', self.limbBone1LenInputAttr)
self.limbIKKLOp.setInput('ikblend', limbIKBlendInputAttr)
self.limbIKKLOp.setInput('softIK', limbSoftIKInputAttr)
self.limbIKKLOp.setInput('softRatio', limbSoftRatioInputAttr)
self.limbIKKLOp.setInput('stretch', limbStretchInputAttr)
self.limbIKKLOp.setInput('stretchBlend', limbStretchBlendInputAttr)
self.limbIKKLOp.setInput('slide', limbSlideInputAttr)
self.limbIKKLOp.setInput('pin', limbPinInputAttr)
self.limbIKKLOp.setInput('rightSide', self.rightSideInputAttr)
# Add Xfo Inputs
self.limbIKKLOp.setInput('root', self.limbParentInputTgt)
self.limbIKKLOp.setInput('bone0FK', self.upperFKCtrl)
self.limbIKKLOp.setInput('bone1FK', self.lowerFKCtrl)
self.limbIKKLOp.setInput('ikHandle', self.limbIKCtrl)
self.limbIKKLOp.setInput('upV', self.limbUpVCtrl)
# Add Xfo Outputs
self.limbIKKLOp.setOutput('bone0Out', self.limbUpperOutputTgt)
self.limbIKKLOp.setOutput('bone1Out', self.limbLowerOutputTgt)
self.limbIKKLOp.setOutput('bone2Out', self.limbEndOutputTgt)
# =====================
# Connect the deformers
# =====================
# Add StretchyLimb Deformer Splice Op
self.outputsToDeformersKLOp = KLOperator('limbDeformerKLOp',
'MultiPoseConstraintSolver',
'Kraken')
self.addOperator(self.outputsToDeformersKLOp)
# Add Att Inputs
self.outputsToDeformersKLOp.setInput('drawDebug',
self.drawDebugInputAttr)
self.outputsToDeformersKLOp.setInput('rigScale',
self.rigScaleInputAttr)
# Add Xfo Inputs
self.outputsToDeformersKLOp.setInput('constrainers', [
self.limbUpperOutputTgt, self.limbLowerOutputTgt,
self.limbEndOutputTgt
])
# Add Xfo Outputs
self.outputsToDeformersKLOp.setOutput('constrainees',
[upperDef, lowerDef, endDef])
Profiler.getInstance().pop()
def __init__(self, name='FKCollision', parent=None):
Profiler.getInstance().push("Construct FK Collision Rig Component:" +
name)
super(FKCollisionComponentRig, self).__init__(name, parent)
# =========
# Controls
# =========
# Ground
self.groundCtrl = Control('ground',
parent=self.ctrlCmpGrp,
shape='square')
self.groundCtrl.insertCtrlSpace()
groundSettingsAttrGrp = AttributeGroup("DisplayInfo_ChainSettings",
parent=self.groundCtrl)
self.groundOffsetYInputAttr = ScalarAttribute(
'ground_offsetY',
0.0,
minValue=0.0,
maxValue=10.0,
parent=groundSettingsAttrGrp)
# FK
self.fkCtrlSpaces = []
self.fkCtrls = []
self.transforms = []
self.setNumControls(4)
self.setNumTransforms(4)
# Add Component Params to FK control
chainSettingsAttrGrp = AttributeGroup("DisplayInfo_ChainSettings",
parent=self.fkCtrls[0])
chainDrawDebugInputAttr = BoolAttribute('drawDebug',
value=False,
parent=chainSettingsAttrGrp)
# Connect IO to controls
self.drawDebugInputAttr.connect(chainDrawDebugInputAttr)
# ==========
# Deformers
# ==========
deformersLayer = self.getOrCreateLayer('deformers')
self.defCmpGrp = ComponentGroup(self.getName(),
self,
parent=deformersLayer)
self.addItem('defCmpGrp', self.defCmpGrp)
self.deformerJoints = []
self.boneOutputsTgt = []
self.setNumDeformers(4)
# =====================
# Create Component I/O
# =====================
# Set IO Targets
self.boneOutputs.setTarget(self.boneOutputsTgt)
# ==============
# Constrain I/O
# ==============
# Constrain inputs
self.rootInputConstraint = PoseConstraint('_'.join([
self.fkCtrlSpaces[0].getName(), 'To',
self.rootInputTgt.getName()
]))
self.rootInputConstraint.setMaintainOffset(True)
self.rootInputConstraint.addConstrainer(self.rootInputTgt)
self.fkCtrlSpaces[0].addConstraint(self.rootInputConstraint)
# ===============
# Add Canvas Ops
# ===============
# Add Output Canvas Op
self.collisionCanvasOp = CanvasOperator(
'collisionCanvasOp', 'Kraken.Solvers.CollideChainSolver')
self.addOperator(self.collisionCanvasOp)
# Add Att Inputs
self.collisionCanvasOp.setInput('drawDebug', self.drawDebugInputAttr)
self.collisionCanvasOp.setInput('rigScale', self.rigScaleInputAttr)
self.collisionCanvasOp.setInput('ground_offsetY',
self.groundOffsetYInputAttr)
# Add Xfo Inputs
self.collisionCanvasOp.setInput('ground', self.groundCtrl)
self.collisionCanvasOp.setInput('joints', self.transforms)
# Add Xfo Outputs
self.collisionCanvasOp.setOutput('outputs', self.boneOutputsTgt)
# Add Deformer Canvas Op
self.deformersToOutputsKLOp = KLOperator('fkChainDeformerKLOp',
'MultiPoseConstraintSolver',
'Kraken')
self.addOperator(self.deformersToOutputsKLOp)
# Add Att Inputs
self.deformersToOutputsKLOp.setInput('drawDebug', False)
self.deformersToOutputsKLOp.setInput('rigScale',
self.rigScaleInputAttr)
# Add Xfo Inputs
self.deformersToOutputsKLOp.setInput('constrainers',
self.boneOutputsTgt)
# Add Xfo Outputs
self.deformersToOutputsKLOp.setOutput('constrainees',
self.deformerJoints)
Profiler.getInstance().pop()
def __init__(self, name='arm', parent=None):
Profiler.getInstance().push("Construct Arm Guide Component:" + name)
super(ArmComponentGuide, self).__init__(name, parent)
# ===========
# Attributes
# ===========
# Add Component Params to IK control
guideSettingsAttrGrp = AttributeGroup("GuideSettings", parent=self)
self.bicepFKCtrlSizeInputAttr = ScalarAttribute(
'bicepFKCtrlSize',
value=1.75,
minValue=0.0,
maxValue=10.0,
parent=guideSettingsAttrGrp)
self.forearmFKCtrlSizeInputAttr = ScalarAttribute(
'forearmFKCtrlSize',
value=1.5,
minValue=0.0,
maxValue=10.0,
parent=guideSettingsAttrGrp)
# =========
# Controls
# =========
# Guide Controls
self.bicepCtrl = Control('bicepFK',
parent=self.ctrlCmpGrp,
shape="sphere")
self.bicepCtrl.setColor('blue')
self.forearmCtrl = Control('forearmFK',
parent=self.ctrlCmpGrp,
shape="sphere")
self.forearmCtrl.setColor('blue')
self.wristCtrl = Control('wristFK',
parent=self.ctrlCmpGrp,
shape="sphere")
self.wristCtrl.setColor('blue')
self.handCtrl = Control('hand', parent=self.ctrlCmpGrp, shape="cube")
self.handCtrl.setColor('blue')
data = {
"name":
name,
"location":
"L",
"bicepXfo":
Xfo(Vec3(2.27, 15.295, -0.753)),
"forearmXfo":
Xfo(Vec3(5.039, 13.56, -0.859)),
"wristXfo":
Xfo(Vec3(7.1886, 12.2819, 0.4906)),
"handXfo":
Xfo(tr=Vec3(7.1886, 12.2819, 0.4906),
ori=Quat(Vec3(-0.0865, -0.2301, -0.2623), 0.9331)),
"bicepFKCtrlSize":
1.75,
"forearmFKCtrlSize":
1.5
}
self.loadData(data)
Profiler.getInstance().pop()
def __init__(self, name='arm', parent=None):
Profiler.getInstance().push("Construct Arm Rig Component:" + name)
super(ArmComponentRig, self).__init__(name, parent)
# =========
# Controls
# =========
# Bicep
self.bicepFKCtrlSpace = CtrlSpace('bicepFK', parent=self.ctrlCmpGrp)
self.bicepFKCtrl = Control('bicepFK',
parent=self.bicepFKCtrlSpace,
shape="cube")
self.bicepFKCtrl.alignOnXAxis()
# Forearm
self.forearmFKCtrlSpace = CtrlSpace('forearmFK',
parent=self.bicepFKCtrl)
self.forearmFKCtrl = Control('forearmFK',
parent=self.forearmFKCtrlSpace,
shape="cube")
self.forearmFKCtrl.alignOnXAxis()
self.handCtrlSpace = CtrlSpace('hand', parent=self.ctrlCmpGrp)
self.handCtrl = Control('hand',
parent=self.handCtrlSpace,
shape="circle")
self.handCtrl.rotatePoints(0, 0, 90)
self.handCtrl.scalePoints(Vec3(1.0, 0.75, 0.75))
# Arm IK
self.armIKCtrlSpace = CtrlSpace('IK', parent=self.ctrlCmpGrp)
self.armIKCtrl = Control('IK', parent=self.armIKCtrlSpace, shape="pin")
# Add Params to IK control
armSettingsAttrGrp = AttributeGroup("DisplayInfo_ArmSettings",
parent=self.armIKCtrl)
armDebugInputAttr = BoolAttribute('drawDebug',
value=False,
parent=armSettingsAttrGrp)
self.armBone0LenInputAttr = ScalarAttribute('bone1Len',
value=0.0,
parent=armSettingsAttrGrp)
self.armBone1LenInputAttr = ScalarAttribute('bone2Len',
value=0.0,
parent=armSettingsAttrGrp)
armIKBlendInputAttr = ScalarAttribute('fkik',
value=0.0,
minValue=0.0,
maxValue=1.0,
parent=armSettingsAttrGrp)
armSoftIKInputAttr = BoolAttribute('softIK',
value=True,
parent=armSettingsAttrGrp)
armSoftDistInputAttr = ScalarAttribute('softDist',
value=0.0,
minValue=0.0,
parent=armSettingsAttrGrp)
armStretchInputAttr = BoolAttribute('stretch',
value=True,
parent=armSettingsAttrGrp)
armStretchBlendInputAttr = ScalarAttribute('stretchBlend',
value=0.0,
minValue=0.0,
maxValue=1.0,
parent=armSettingsAttrGrp)
# Hand Params
handSettingsAttrGrp = AttributeGroup("DisplayInfo_HandSettings",
parent=self.handCtrl)
handLinkToWorldInputAttr = ScalarAttribute('linkToWorld',
0.0,
maxValue=1.0,
parent=handSettingsAttrGrp)
self.drawDebugInputAttr.connect(armDebugInputAttr)
# UpV
self.armUpVCtrlSpace = CtrlSpace('UpV', parent=self.ctrlCmpGrp)
self.armUpVCtrl = Control('UpV',
parent=self.armUpVCtrlSpace,
shape="triangle")
self.armUpVCtrl.alignOnZAxis()
self.armUpVCtrl.rotatePoints(180, 0, 0)
# ==========
# Deformers
# ==========
deformersLayer = self.getOrCreateLayer('deformers')
defCmpGrp = ComponentGroup(self.getName(), self, parent=deformersLayer)
bicepDef = Joint('bicep', parent=defCmpGrp)
bicepDef.setComponent(self)
forearmDef = Joint('forearm', parent=defCmpGrp)
forearmDef.setComponent(self)
wristDef = Joint('wrist', parent=defCmpGrp)
wristDef.setComponent(self)
handDef = Joint('hand', parent=defCmpGrp)
handDef.setComponent(self)
# ==============
# Constrain I/O
# ==============
# Constraint inputs
self.armIKCtrlSpaceInputConstraint = PoseConstraint('_'.join([
self.armIKCtrlSpace.getName(), 'To',
self.globalSRTInputTgt.getName()
]))
self.armIKCtrlSpaceInputConstraint.setMaintainOffset(True)
self.armIKCtrlSpaceInputConstraint.addConstrainer(
self.globalSRTInputTgt)
self.armIKCtrlSpace.addConstraint(self.armIKCtrlSpaceInputConstraint)
self.armUpVCtrlSpaceInputConstraint = PoseConstraint('_'.join([
self.armUpVCtrlSpace.getName(), 'To',
self.globalSRTInputTgt.getName()
]))
self.armUpVCtrlSpaceInputConstraint.setMaintainOffset(True)
self.armUpVCtrlSpaceInputConstraint.addConstrainer(
self.globalSRTInputTgt)
self.armUpVCtrlSpace.addConstraint(self.armUpVCtrlSpaceInputConstraint)
self.armRootInputConstraint = PoseConstraint('_'.join([
self.bicepFKCtrlSpace.getName(), 'To',
self.clavicleEndInputTgt.getName()
]))
self.armRootInputConstraint.setMaintainOffset(True)
self.armRootInputConstraint.addConstrainer(self.clavicleEndInputTgt)
self.bicepFKCtrlSpace.addConstraint(self.armRootInputConstraint)
# Constraint outputs
self.handConstraint = PoseConstraint('_'.join(
[self.handOutputTgt.getName(), 'To',
self.handCtrl.getName()]))
self.handConstraint.addConstrainer(self.handCtrl)
self.handOutputTgt.addConstraint(self.handConstraint)
self.handCtrlSpaceConstraint = PoseConstraint('_'.join([
self.handCtrlSpace.getName(), 'To',
self.armEndXfoOutputTgt.getName()
]))
self.handCtrlSpaceConstraint.setMaintainOffset(True)
self.handCtrlSpaceConstraint.addConstrainer(self.armEndXfoOutputTgt)
self.handCtrlSpace.addConstraint(self.handCtrlSpaceConstraint)
# ===============
# Add Splice Ops
# ===============
# Add Splice Op
self.spliceOp = KLOperator('armKLOp', 'TwoBoneIKSolver', 'Kraken')
self.addOperator(self.spliceOp)
# Add Att Inputs
self.spliceOp.setInput('drawDebug', self.drawDebugInputAttr)
self.spliceOp.setInput('rigScale', self.rigScaleInputAttr)
self.spliceOp.setInput('bone0Len', self.armBone0LenInputAttr)
self.spliceOp.setInput('bone1Len', self.armBone1LenInputAttr)
self.spliceOp.setInput('ikblend', armIKBlendInputAttr)
self.spliceOp.setInput('softIK', armSoftIKInputAttr)
self.spliceOp.setInput('softDist', armSoftDistInputAttr)
self.spliceOp.setInput('stretch', armStretchInputAttr)
self.spliceOp.setInput('stretchBlend', armStretchBlendInputAttr)
self.spliceOp.setInput('rightSide', self.rightSideInputAttr)
# Add Xfo Inputs
self.spliceOp.setInput('root', self.clavicleEndInputTgt)
self.spliceOp.setInput('bone0FK', self.bicepFKCtrl)
self.spliceOp.setInput('bone1FK', self.forearmFKCtrl)
self.spliceOp.setInput('ikHandle', self.armIKCtrl)
self.spliceOp.setInput('upV', self.armUpVCtrl)
# Add Xfo Outputs
self.spliceOp.setOutput('bone0Out', self.bicepOutputTgt)
self.spliceOp.setOutput('bone1Out', self.forearmOutputTgt)
self.spliceOp.setOutput('bone2Out', self.armEndXfoOutputTgt)
# Add Deformer Splice Op
self.outputsToDeformersKLOp = KLOperator('armDeformerKLOp',
'MultiPoseConstraintSolver',
'Kraken')
self.addOperator(self.outputsToDeformersKLOp)
# Add Att Inputs
self.outputsToDeformersKLOp.setInput('drawDebug',
self.drawDebugInputAttr)
self.outputsToDeformersKLOp.setInput('rigScale',
self.rigScaleInputAttr)
# Add Xfo Inputs
self.outputsToDeformersKLOp.setInput('constrainers', [
self.bicepOutputTgt, self.forearmOutputTgt,
self.armEndXfoOutputTgt, self.handOutputTgt
])
# Add Xfo Outputs
self.outputsToDeformersKLOp.setOutput(
'constrainees', [bicepDef, forearmDef, wristDef, handDef])
Profiler.getInstance().pop()
def __init__(self, name='FKChain', parent=None):
Profiler.getInstance().push("Construct FK Chain Rig Component:" + name)
super(DyanmicChainComponentRig, self).__init__(name, parent)
# =========
# Controls
# =========
# FK
self.fkCtrlSpaces = []
self.fkCtrls = []
self.setNumControls(4)
# Add Component Params to FK control
chainSettingsAttrGrp = AttributeGroup("DisplayInfo_ChainSettings",
parent=self.fkCtrls[0])
chainDrawDebugInputAttr = BoolAttribute('drawDebug',
value=False,
parent=chainSettingsAttrGrp)
self.simulateInputAttr = BoolAttribute('simulate',
value=False,
parent=chainSettingsAttrGrp)
self.resetframeInputAttr = ScalarAttribute('resetframe',
value=1,
parent=chainSettingsAttrGrp)
self.frameInputAttr = ScalarAttribute('frame',
value=0,
parent=chainSettingsAttrGrp)
self.simBlendStartInputAttr = ScalarAttribute(
'simBlendStart',
value=0.7,
minValue=0.0,
maxValue=1.0,
parent=chainSettingsAttrGrp)
self.simBlendEndInputAttr = ScalarAttribute(
'simBlendEnd',
value=1.0,
minValue=0.0,
maxValue=1.0,
parent=chainSettingsAttrGrp)
self.dampeningInputAttr = ScalarAttribute('dampening',
value=0.3,
minValue=0.0,
maxValue=1.0,
parent=chainSettingsAttrGrp)
self.gravityInputAttr = ScalarAttribute('gravity',
value=-9.8,
parent=chainSettingsAttrGrp)
self.massStartInputAttr = ScalarAttribute('massStart',
value=0.35,
minValue=0.0,
maxValue=10.0,
parent=chainSettingsAttrGrp)
self.massEndInputAttr = ScalarAttribute('massEnd',
value=1.0,
minValue=0.0,
maxValue=10.0,
parent=chainSettingsAttrGrp)
# Connect IO to controls
self.drawDebugInputAttr.connect(chainDrawDebugInputAttr)
# ==========
# Deformers
# ==========
deformersLayer = self.getOrCreateLayer('deformers')
self.defCmpGrp = ComponentGroup(self.getName(),
self,
parent=deformersLayer)
self.addItem('defCmpGrp', self.defCmpGrp)
self.deformerJoints = []
self.boneOutputsTgt = []
self.setNumDeformers(4)
# =====================
# Create Component I/O
# =====================
# Set IO Targets
self.boneOutputs.setTarget(self.boneOutputsTgt)
# ==============
# Constrain I/O
# ==============
# Constraint inputs
self.rootInputConstraint = PoseConstraint('_'.join([
self.fkCtrlSpaces[0].getName(), 'To',
self.rootInputTgt.getName()
]))
self.rootInputConstraint.setMaintainOffset(True)
self.rootInputConstraint.addConstrainer(self.rootInputTgt)
self.fkCtrlSpaces[0].addConstraint(self.rootInputConstraint)
# ===============
# Add Splice Ops
# ===============
# Add Output Splice Op
self.dynamicChainKLOp = KLOperator('dynamicChainKLOp',
'DynamicChainSolver', 'Kraken')
self.addOperator(self.dynamicChainKLOp)
# Add Att Inputs
self.dynamicChainKLOp.setInput('drawDebug', self.drawDebugInputAttr)
self.dynamicChainKLOp.setInput('rigScale', self.rigScaleInputAttr)
self.dynamicChainKLOp.setInput('simulate', self.simulateInputAttr)
self.dynamicChainKLOp.setInput('resetframe', self.resetframeInputAttr)
self.dynamicChainKLOp.setInput('frame', self.frameInputAttr)
self.dynamicChainKLOp.setInput('simBlendStart',
self.simBlendStartInputAttr)
self.dynamicChainKLOp.setInput('simBlendEnd',
self.simBlendEndInputAttr)
self.dynamicChainKLOp.setInput('dampening', self.dampeningInputAttr)
self.dynamicChainKLOp.setInput('gravity', self.gravityInputAttr)
self.dynamicChainKLOp.setInput('massStart', self.massStartInputAttr)
self.dynamicChainKLOp.setInput('massEnd', self.massEndInputAttr)
# Add Xfo Inputs
self.dynamicChainKLOp.setInput('fkPose', self.fkCtrls)
# Add Xfo Outputs
self.dynamicChainKLOp.setOutput('animPose', self.boneOutputsTgt)
# Add Deformer Splice Op
self.deformersToOutputsKLOp = KLOperator('fkChainDeformerKLOp',
'MultiPoseConstraintSolver',
'Kraken')
self.addOperator(self.deformersToOutputsKLOp)
# Add Att Inputs
self.deformersToOutputsKLOp.setInput('drawDebug',
self.drawDebugInputAttr)
self.deformersToOutputsKLOp.setInput('rigScale',
self.rigScaleInputAttr)
# Add Xfo Inputs
self.deformersToOutputsKLOp.setInput('constrainers',
self.boneOutputsTgt)
# Add Xfo Outputs
self.deformersToOutputsKLOp.setOutput('constrainees',
self.deformerJoints)
Profiler.getInstance().pop()
def __init__(self, name="foot", parent=None):
Profiler.getInstance().push("Construct Neck Rig Component:" + name)
super(FootComponentRig, self).__init__(name, parent)
# =========
# Controls
# =========
self.ankleLenInputAttr = ScalarAttribute('ankleLen', 1.0, maxValue=1.0, parent=self.cmpInputAttrGrp)
self.toeLenInputAttr = ScalarAttribute('toeLen', 1.0, maxValue=1.0, parent=self.cmpInputAttrGrp)
self.rightSideInputAttr = BoolAttribute('rightSide', False, parent=self.cmpInputAttrGrp)
self.footAll = Locator('footAll', parent=self.ctrlCmpGrp)
self.footAll.setShapeVisibility(False)
self.ankleIKCtrlSpace = CtrlSpace('ankleIK', parent=self.footAll)
self.ankleIKCtrl = Control('ankleIK', parent=self.ankleIKCtrlSpace, shape="square")
self.ankleIKCtrl.alignOnXAxis(negative=True)
self.ankleIKCtrl.lockTranslation(True, True, True)
self.ankleIKCtrl.lockScale(True, True, True)
self.toeIKCtrlSpace = CtrlSpace('toeIK', parent=self.footAll)
self.toeIKCtrl = Control('toeIK', parent=self.toeIKCtrlSpace, shape="square")
self.toeIKCtrl.alignOnXAxis()
self.toeIKCtrl.lockTranslation(True, True, True)
self.toeIKCtrl.lockScale(True, True, True)
self.ankleFKCtrlSpace = CtrlSpace('ankleFK', parent=self.ctrlCmpGrp)
self.ankleFKCtrl = Control('ankleFK', parent=self.ankleFKCtrlSpace, shape="cube")
self.ankleFKCtrl.alignOnXAxis()
self.ankleFKCtrl.lockTranslation(True, True, True)
self.ankleFKCtrl.lockScale(True, True, True)
self.toeFKCtrlSpace = CtrlSpace('toeFK', parent=self.ankleFKCtrl)
self.toeFKCtrl = Control('toeFK', parent=self.toeFKCtrlSpace, shape="cube")
self.toeFKCtrl.alignOnXAxis()
self.toeFKCtrl.lockTranslation(True, True, True)
self.toeFKCtrl.lockScale(True, True, True)
self.footSettingsAttrGrp = AttributeGroup("DisplayInfo_FootSettings", parent=self.ankleIKCtrl)
self.footDebugInputAttr = BoolAttribute('drawDebug', value=False, parent=self.footSettingsAttrGrp)
self.footRockInputAttr = ScalarAttribute('footRock', value=0.0, minValue=-1.0, maxValue=1.0, parent=self.footSettingsAttrGrp)
self.footBankInputAttr = ScalarAttribute('footBank', value=0.0, minValue=-1.0, maxValue=1.0, parent=self.footSettingsAttrGrp)
self.drawDebugInputAttr.connect(self.footDebugInputAttr)
self.pivotAll = Locator('pivotAll', parent=self.ctrlCmpGrp)
self.pivotAll.setShapeVisibility(False)
self.backPivotCtrl = Control('backPivot', parent=self.pivotAll, shape="axesHalfTarget")
self.backPivotCtrl.scalePoints(Vec3(0.5, 0.5, 0.5))
self.backPivotCtrl.lockScale(True, True, True)
self.backPivotCtrlSpace = self.backPivotCtrl.insertCtrlSpace()
self.frontPivotCtrl = Control('frontPivot', parent=self.pivotAll, shape="axesHalfTarget")
self.frontPivotCtrl.rotatePoints(0.0, 180.0, 0.0)
self.frontPivotCtrl.lockScale(True, True, True)
self.frontPivotCtrlSpace = self.frontPivotCtrl.insertCtrlSpace()
self.frontPivotCtrl.scalePoints(Vec3(0.5, 0.5, 0.5))
self.outerPivotCtrl = Control('outerPivot', parent=self.pivotAll, shape="axesHalfTarget")
self.outerPivotCtrl.rotatePoints(0.0, -90.0, 0.0)
self.outerPivotCtrl.lockScale(True, True, True)
self.outerPivotCtrlSpace = self.outerPivotCtrl.insertCtrlSpace()
self.outerPivotCtrl.scalePoints(Vec3(0.5, 0.5, 0.5))
self.innerPivotCtrl = Control('innerPivot', parent=self.pivotAll, shape="axesHalfTarget")
self.innerPivotCtrl.rotatePoints(0.0, 90.0, 0.0)
self.innerPivotCtrl.lockScale(True, True, True)
self.innerPivotCtrlSpace = self.innerPivotCtrl.insertCtrlSpace()
self.innerPivotCtrl.scalePoints(Vec3(0.5, 0.5, 0.5))
# ==========
# Deformers
# ==========
deformersLayer = self.getOrCreateLayer('deformers')
self.defCmpGrp = ComponentGroup(self.getName(), self, parent=deformersLayer)
self.addItem('defCmpGrp', self.defCmpGrp)
self.ankleDef = Joint('ankle', parent=self.defCmpGrp)
self.ankleDef.setComponent(self)
self.toeDef = Joint('toe', parent=self.defCmpGrp)
self.toeDef.setComponent(self)
# ==============
# Constrain I/O
# ==============
# Constraint to inputs
self.pivotAllInputConstraint = PoseConstraint('_'.join([self.pivotAll.getName(), 'To', self.ikHandleInputTgt.getName()]))
self.pivotAllInputConstraint.setMaintainOffset(True)
self.pivotAllInputConstraint.addConstrainer(self.ikHandleInputTgt)
self.pivotAll.addConstraint(self.pivotAllInputConstraint)
self.ankleFKInputConstraint = PoseConstraint('_'.join([self.ankleFKCtrlSpace.getName(), 'To', self.legEndFKInputTgt.getName()]))
self.ankleFKInputConstraint.setMaintainOffset(True)
self.ankleFKInputConstraint.addConstrainer(self.legEndFKInputTgt)
self.ankleFKCtrlSpace.addConstraint(self.ankleFKInputConstraint)
# Constraint outputs
self.ikTargetOutputConstraint = PoseConstraint('_'.join([self.ikTargetOutputTgt.getName(), 'To', self.ankleIKCtrl.getName()]))
self.ikTargetOutputConstraint.setMaintainOffset(True)
self.ikTargetOutputConstraint.addConstrainer(self.ankleIKCtrl)
self.ikTargetOutputTgt.addConstraint(self.ikTargetOutputConstraint)
# =========================
# Add Foot Pivot Canvas Op
# =========================
# self.footPivotCanvasOp = CanvasOperator('footPivotCanvasOp', 'Kraken.Solvers.Biped.BipedFootPivotSolver')
self.footPivotCanvasOp = KLOperator('footPivotKLOp', 'BipedFootPivotSolver', 'Kraken')
self.addOperator(self.footPivotCanvasOp)
# Add Att Inputs
self.footPivotCanvasOp.setInput('drawDebug', self.drawDebugInputAttr)
self.footPivotCanvasOp.setInput('rigScale', self.rigScaleInputAttr)
self.footPivotCanvasOp.setInput('rightSide', self.rightSideInputAttr)
self.footPivotCanvasOp.setInput('footRock', self.footRockInputAttr)
self.footPivotCanvasOp.setInput('footBank', self.footBankInputAttr)
# Add Xfo Inputs
self.footPivotCanvasOp.setInput('pivotAll', self.pivotAll)
self.footPivotCanvasOp.setInput('backPivot', self.backPivotCtrl)
self.footPivotCanvasOp.setInput('frontPivot', self.frontPivotCtrl)
self.footPivotCanvasOp.setInput('outerPivot', self.outerPivotCtrl)
self.footPivotCanvasOp.setInput('innerPivot', self.innerPivotCtrl)
# Add Xfo Outputs
self.footPivotCanvasOp.setOutput('result', self.footAll)
# =========================
# Add Foot Solver Canvas Op
# =========================
# self.footSolverCanvasOp = CanvasOperator('footSolverCanvasOp', 'Kraken.Solvers.Biped.BipedFootSolver')
self.footSolverCanvasOp = KLOperator('footSolverKLOp', 'BipedFootSolver', 'Kraken')
self.addOperator(self.footSolverCanvasOp)
# Add Att Inputs
self.footSolverCanvasOp.setInput('drawDebug', self.drawDebugInputAttr)
self.footSolverCanvasOp.setInput('rigScale', self.rigScaleInputAttr)
self.footSolverCanvasOp.setInput('ikBlend', self.ikBlendInputAttr)
self.footSolverCanvasOp.setInput('ankleLen', self.ankleLenInputAttr)
self.footSolverCanvasOp.setInput('toeLen', self.toeLenInputAttr)
# Add Xfo Inputs
self.footSolverCanvasOp.setInput('legEnd', self.legEndInputTgt)
self.footSolverCanvasOp.setInput('ankleIK', self.ankleIKCtrl)
self.footSolverCanvasOp.setInput('toeIK', self.toeIKCtrl)
self.footSolverCanvasOp.setInput('ankleFK', self.ankleFKCtrl)
self.footSolverCanvasOp.setInput('toeFK', self.toeFKCtrl)
# Add Xfo Outputs
self.footSolverCanvasOp.setOutput('ankle_result', self.ankleOutputTgt)
self.footSolverCanvasOp.setOutput('toe_result', self.toeOutputTgt)
# ===================
# Add Deformer KL Op
# ===================
self.outputsToDeformersKLOp = KLOperator('foot' + self.getLocation() + 'DeformerKLOp', 'MultiPoseConstraintSolver', 'Kraken')
self.addOperator(self.outputsToDeformersKLOp)
# Add Att Inputs
self.outputsToDeformersKLOp.setInput('drawDebug', self.drawDebugInputAttr)
self.outputsToDeformersKLOp.setInput('rigScale', self.rigScaleInputAttr)
# Add Xfo Inputs
self.outputsToDeformersKLOp.setInput('constrainers', [self.ankleOutputTgt, self.toeOutputTgt])
# Add Xfo Outputs
self.outputsToDeformersKLOp.setOutput('constrainees', [self.ankleDef, self.toeDef])
Profiler.getInstance().pop()
def __init__(self, name='leg', parent=None):
Profiler.getInstance().push("Construct Leg Rig Component:" + name)
super(LegComponentRig, self).__init__(name, parent)
# =========
# Controls
# =========
# Femur
self.femurFKCtrlSpace = CtrlSpace('femurFK', parent=self.ctrlCmpGrp)
self.femurFKCtrl = Control('femurFK', parent=self.femurFKCtrlSpace, shape="cube")
self.femurFKCtrl.alignOnXAxis()
self.femurFKCtrl.lockTranslation(True, True, True)
self.femurFKCtrl.lockScale(True, True, True)
# Shin
self.shinFKCtrlSpace = CtrlSpace('shinFK', parent=self.femurFKCtrl)
self.shinFKCtrl = Control('shinFK', parent=self.shinFKCtrlSpace, shape="cube")
self.shinFKCtrl.alignOnXAxis()
self.shinFKCtrl.lockTranslation(True, True, True)
self.shinFKCtrl.lockScale(True, True, True)
# IK Handle
self.legIKCtrlSpace = CtrlSpace('IK', parent=self.ctrlCmpGrp)
self.legIKCtrl = Control('IK', parent=self.legIKCtrlSpace, shape="pin")
self.legIKCtrl.lockScale(True, True, True)
# Add Component Params to IK control
legSettingsAttrGrp = AttributeGroup("DisplayInfo_LegSettings", parent=self.legIKCtrl)
legDrawDebugInputAttr = BoolAttribute('drawDebug', value=False, parent=legSettingsAttrGrp)
self.legRightSideInputAttr = BoolAttribute('rightSide', value=False, parent=legSettingsAttrGrp)
self.legBone0LenInputAttr = ScalarAttribute('bone0Len', value=1.0, parent=legSettingsAttrGrp)
self.legBone1LenInputAttr = ScalarAttribute('bone1Len', value=1.0, parent=legSettingsAttrGrp)
legIKBlendInputAttr = ScalarAttribute('ikblend', value=1.0, minValue=0.0, maxValue=1.0, parent=legSettingsAttrGrp)
# Util Objects
self.ikRootPosition = Transform("ikRootPosition", parent=self.ctrlCmpGrp)
# Connect Input Attrs
self.drawDebugInputAttr.connect(legDrawDebugInputAttr)
# Connect Output Attrs
self.drawDebugOutputAttr.connect(legDrawDebugInputAttr)
self.ikBlendOutputAttr.connect(legIKBlendInputAttr)
# UpV
self.legUpVCtrlSpace = CtrlSpace('UpV', parent=self.ctrlCmpGrp)
self.legUpVCtrl = Control('UpV', parent=self.legUpVCtrlSpace, shape="triangle")
self.legUpVCtrl.alignOnZAxis()
self.legUpVCtrl.lockRotation(True, True, True)
self.legUpVCtrl.lockScale(True, True, True)
# ==========
# Deformers
# ==========
deformersLayer = self.getOrCreateLayer('deformers')
self.defCmpGrp = ComponentGroup(self.getName(), self, parent=deformersLayer)
self.addItem('defCmpGrp', self.defCmpGrp)
femurDef = Joint('femur', parent=self.defCmpGrp)
femurDef.setComponent(self)
kneeDef = Joint('knee', parent=self.defCmpGrp)
kneeDef.setComponent(self)
shinDef = Joint('shin', parent=self.defCmpGrp)
shinDef.setComponent(self)
# ==============
# Constrain I/O
# ==============
# Constraint inputs
self.legIKCtrlSpaceInputConstraint = PoseConstraint('_'.join([self.legIKCtrlSpace.getName(), 'To', self.globalSRTInputTgt.getName()]))
self.legIKCtrlSpaceInputConstraint.setMaintainOffset(True)
self.legIKCtrlSpaceInputConstraint.addConstrainer(self.globalSRTInputTgt)
self.legIKCtrlSpace.addConstraint(self.legIKCtrlSpaceInputConstraint)
self.legUpVCtrlSpaceInputConstraint = PoseConstraint('_'.join([self.legUpVCtrlSpace.getName(), 'To', self.globalSRTInputTgt.getName()]))
self.legUpVCtrlSpaceInputConstraint.setMaintainOffset(True)
self.legUpVCtrlSpaceInputConstraint.addConstrainer(self.globalSRTInputTgt)
self.legUpVCtrlSpace.addConstraint(self.legUpVCtrlSpaceInputConstraint)
self.legRootInputConstraint = PoseConstraint('_'.join([self.femurFKCtrlSpace.getName(), 'To', self.legPelvisInputTgt.getName()]))
self.legRootInputConstraint.setMaintainOffset(True)
self.legRootInputConstraint.addConstrainer(self.legPelvisInputTgt)
self.femurFKCtrlSpace.addConstraint(self.legRootInputConstraint)
self.ikRootPosInputConstraint = PoseConstraint('_'.join([self.ikRootPosition.getName(), 'To', self.legPelvisInputTgt.getName()]))
self.ikRootPosInputConstraint.setMaintainOffset(True)
self.ikRootPosInputConstraint.addConstrainer(self.legPelvisInputTgt)
self.ikRootPosition.addConstraint(self.ikRootPosInputConstraint)
# Constraint outputs
self.legEndFKOutputConstraint = PoseConstraint('_'.join([self.legEndFKOutputTgt.getName(), 'To', self.shinFKCtrl.getName()]))
self.legEndFKOutputConstraint.setMaintainOffset(True)
self.legEndFKOutputConstraint.addConstrainer(self.shinFKCtrl)
self.legEndFKOutputTgt.addConstraint(self.legEndFKOutputConstraint)
self.ikHandleOutputConstraint = PoseConstraint('_'.join([self.ikHandleOutputTgt.getName(), 'To', self.legIKCtrl.getName()]))
self.ikHandleOutputConstraint.setMaintainOffset(True)
self.ikHandleOutputConstraint.addConstrainer(self.legIKCtrl)
self.ikHandleOutputTgt.addConstraint(self.ikHandleOutputConstraint)
# ===============
# Add Splice Ops
# ===============
# Add Leg Splice Op
self.legIKKLOp = KLOperator('legKLOp', 'TwoBoneIKSolver', 'Kraken')
self.addOperator(self.legIKKLOp)
# Add Att Inputs
self.legIKKLOp.setInput('drawDebug', self.drawDebugInputAttr)
self.legIKKLOp.setInput('rigScale', self.rigScaleInputAttr)
self.legIKKLOp.setInput('bone0Len', self.legBone0LenInputAttr)
self.legIKKLOp.setInput('bone1Len', self.legBone1LenInputAttr)
self.legIKKLOp.setInput('ikblend', legIKBlendInputAttr)
self.legIKKLOp.setInput('rightSide', self.legRightSideInputAttr)
# Add Xfo Inputs
self.legIKKLOp.setInput('root', self.ikRootPosition)
self.legIKKLOp.setInput('bone0FK', self.femurFKCtrl)
self.legIKKLOp.setInput('bone1FK', self.shinFKCtrl)
self.legIKKLOp.setInput('ikHandle', self.legIKTargetInputTgt)
self.legIKKLOp.setInput('upV', self.legUpVCtrl)
# Add Xfo Outputs
self.legIKKLOp.setOutput('bone0Out', self.femurOutputTgt)
self.legIKKLOp.setOutput('bone1Out', self.shinOutputTgt)
self.legIKKLOp.setOutput('bone2Out', self.legEndOutputTgt)
self.legIKKLOp.setOutput('midJointOut', self.kneeOutputTgt)
# Add Leg Deformer Splice Op
self.outputsToDeformersKLOp = KLOperator('legDeformerKLOp', 'MultiPoseConstraintSolver', 'Kraken')
self.addOperator(self.outputsToDeformersKLOp)
# Add Att Inputs
self.outputsToDeformersKLOp.setInput('drawDebug', self.drawDebugInputAttr)
self.outputsToDeformersKLOp.setInput('rigScale', self.rigScaleInputAttr)
# Add Xfo Inputs
self.outputsToDeformersKLOp.setInput('constrainers', [self.femurOutputTgt, self.kneeOutputTgt, self.shinOutputTgt])
# Add Xfo Outputs
self.outputsToDeformersKLOp.setOutput('constrainees', [femurDef, kneeDef, shinDef])
Profiler.getInstance().pop()
def __init__(self, name='arm', parent=None):
Profiler.getInstance().push("Construct Arm Rig Component:" + name)
super(ArmComponentRig, self).__init__(name, parent)
# =========
# Controls
# =========
# Bicep
self.bicepFKCtrlSpace = CtrlSpace('bicepFK', parent=self.ctrlCmpGrp)
self.bicepFKCtrl = Control('bicepFK',
parent=self.bicepFKCtrlSpace,
shape="cube")
self.bicepFKCtrl.alignOnXAxis()
self.bicepFKCtrl.lockScale(True, True, True)
self.bicepFKCtrl.lockTranslation(True, True, True)
# Forearm
self.forearmFKCtrlSpace = CtrlSpace('forearmFK',
parent=self.bicepFKCtrl)
self.forearmFKCtrl = Control('forearmFK',
parent=self.forearmFKCtrlSpace,
shape="cube")
self.forearmFKCtrl.alignOnXAxis()
self.forearmFKCtrl.lockScale(True, True, True)
self.forearmFKCtrl.lockTranslation(True, True, True)
# Arm IK
self.armIKCtrlSpace = CtrlSpace('IK', parent=self.ctrlCmpGrp)
self.armIKCtrl = Control('IK',
parent=self.armIKCtrlSpace,
shape="jack")
self.armIKCtrl.scalePoints(Vec3(2.0, 2.0, 2.0))
self.armIKCtrl.lockScale(True, True, True)
# Add Params to IK control
armSettingsAttrGrp = AttributeGroup("DisplayInfo_ArmSettings",
parent=self.armIKCtrl)
self.armDebugInputAttr = BoolAttribute('drawDebug',
value=False,
parent=armSettingsAttrGrp)
self.armBone0LenInputAttr = ScalarAttribute('bone1Len',
value=0.0,
parent=armSettingsAttrGrp)
self.armBone1LenInputAttr = ScalarAttribute('bone2Len',
value=0.0,
parent=armSettingsAttrGrp)
self.armIKBlendInputAttr = ScalarAttribute('fkik',
value=0.0,
minValue=0.0,
maxValue=1.0,
parent=armSettingsAttrGrp)
# Util Objects
self.ikRootPosition = Transform("ikPosition", parent=self.ctrlCmpGrp)
# Connect Input Attrs
self.drawDebugInputAttr.connect(self.armDebugInputAttr)
# Connect Output Attrs
self.drawDebugOutputAttr.connect(self.armDebugInputAttr)
self.ikBlendOutputAttr.connect(self.armIKBlendInputAttr)
# UpV
self.armUpVCtrlSpace = CtrlSpace('UpV', parent=self.ctrlCmpGrp)
self.armUpVCtrl = Control('UpV',
parent=self.armUpVCtrlSpace,
shape="triangle")
self.armUpVCtrl.alignOnZAxis()
self.armUpVCtrl.rotatePoints(180, 0, 0)
self.armIKCtrl.lockScale(True, True, True)
self.armIKCtrl.lockRotation(True, True, True)
# ==========
# Deformers
# ==========
self.deformersLayer = self.getOrCreateLayer('deformers')
self.defCmpGrp = ComponentGroup(self.getName(),
self,
parent=self.deformersLayer)
self.addItem('defCmpGrp', self.defCmpGrp)
self.bicepDef = Joint('bicep', parent=self.defCmpGrp)
self.bicepDef.setComponent(self)
self.elbowDef = Joint('elbow', parent=self.defCmpGrp)
self.elbowDef.setComponent(self)
self.forearmDef = Joint('forearm', parent=self.defCmpGrp)
self.forearmDef.setComponent(self)
self.wristDef = Joint('wrist', parent=self.defCmpGrp)
self.wristDef.setComponent(self)
# ==============
# Constrain I/O
# ==============
# Constraint inputs
self.armIKCtrlSpaceInputConstraint = PoseConstraint('_'.join([
self.armIKCtrlSpace.getName(), 'To',
self.globalSRTInputTgt.getName()
]))
self.armIKCtrlSpaceInputConstraint.setMaintainOffset(True)
self.armIKCtrlSpaceInputConstraint.addConstrainer(
self.globalSRTInputTgt)
self.armIKCtrlSpace.addConstraint(self.armIKCtrlSpaceInputConstraint)
self.armUpVCtrlSpaceInputConstraint = PoseConstraint('_'.join([
self.armUpVCtrlSpace.getName(), 'To',
self.globalSRTInputTgt.getName()
]))
self.armUpVCtrlSpaceInputConstraint.setMaintainOffset(True)
self.armUpVCtrlSpaceInputConstraint.addConstrainer(
self.globalSRTInputTgt)
self.armUpVCtrlSpace.addConstraint(self.armUpVCtrlSpaceInputConstraint)
self.armRootInputConstraint = PoseConstraint('_'.join([
self.bicepFKCtrlSpace.getName(), 'To',
self.rootInputTgt.getName()
]))
self.armRootInputConstraint.setMaintainOffset(True)
self.armRootInputConstraint.addConstrainer(self.rootInputTgt)
self.bicepFKCtrlSpace.addConstraint(self.armRootInputConstraint)
self.ikPosInputConstraint = PoseConstraint('_'.join(
[self.ikRootPosition.getName(), 'To',
self.rootInputTgt.getName()]))
self.ikPosInputConstraint.setMaintainOffset(True)
self.ikPosInputConstraint.addConstrainer(self.rootInputTgt)
self.ikRootPosition.addConstraint(self.ikPosInputConstraint)
# Constraint outputs
# ===============
# Add Splice Ops
# ===============
# Add Splice Op
self.armSolverKLOperator = KLOperator('ikSolver', 'TwoBoneIKSolver',
'Kraken')
self.addOperator(self.armSolverKLOperator)
# Add Att Inputs
self.armSolverKLOperator.setInput('drawDebug', self.drawDebugInputAttr)
self.armSolverKLOperator.setInput('rigScale', self.rigScaleInputAttr)
self.armSolverKLOperator.setInput('bone0Len',
self.armBone0LenInputAttr)
self.armSolverKLOperator.setInput('bone1Len',
self.armBone1LenInputAttr)
self.armSolverKLOperator.setInput('ikblend', self.armIKBlendInputAttr)
self.armSolverKLOperator.setInput('rightSide', self.rightSideInputAttr)
# Add Xfo Inputs
self.armSolverKLOperator.setInput('root', self.ikRootPosition)
self.armSolverKLOperator.setInput('bone0FK', self.bicepFKCtrl)
self.armSolverKLOperator.setInput('bone1FK', self.forearmFKCtrl)
self.armSolverKLOperator.setInput('ikHandle', self.armIKCtrl)
self.armSolverKLOperator.setInput('upV', self.armUpVCtrl)
# Add Xfo Outputs
self.armSolverKLOperator.setOutput('bone0Out', self.bicepOutputTgt)
self.armSolverKLOperator.setOutput('bone1Out', self.forearmOutputTgt)
self.armSolverKLOperator.setOutput('bone2Out', self.wristOutputTgt)
self.armSolverKLOperator.setOutput('midJointOut', self.elbowOutputTgt)
# Add Deformer Splice Op
self.outputsToDeformersKLOp = KLOperator('defConstraint',
'MultiPoseConstraintSolver',
'Kraken')
self.addOperator(self.outputsToDeformersKLOp)
# Add Att Inputs
self.outputsToDeformersKLOp.setInput('drawDebug',
self.drawDebugInputAttr)
self.outputsToDeformersKLOp.setInput('rigScale',
self.rigScaleInputAttr)
# Add Xfo Inputs
self.outputsToDeformersKLOp.setInput('constrainers', [
self.bicepOutputTgt, self.elbowOutputTgt, self.forearmOutputTgt,
self.wristOutputTgt
])
# Add Xfo Outputs
self.outputsToDeformersKLOp.setOutput(
'constrainees',
[self.bicepDef, self.elbowDef, self.forearmDef, self.wristDef])
Profiler.getInstance().pop()
def addFinger(self, name):
digitSizeAttributes = []
fingerGuideCtrls = []
firstDigitCtrl = Control(name + "01", parent=self.handCtrl, shape='sphere')
firstDigitCtrl.scalePoints(Vec3(0.125, 0.125, 0.125))
firstDigitShapeCtrl = Control(name + "Shp01", parent=self.guideCtrlHrcGrp, shape='square')
firstDigitShapeCtrl.setColor('yellow')
firstDigitShapeCtrl.scalePoints(Vec3(0.175, 0.175, 0.175))
firstDigitShapeCtrl.translatePoints(Vec3(0.0, 0.125, 0.0))
fingerGuideCtrls.append(firstDigitShapeCtrl)
firstDigitCtrl.shapeCtrl = firstDigitShapeCtrl
firstDigitVisAttr = firstDigitShapeCtrl.getVisibilityAttr()
firstDigitVisAttr.connect(self.ctrlShapeToggle)
triangleCtrl = Control('tempCtrl', parent=None, shape='triangle')
triangleCtrl.rotatePoints(90.0, 0.0, 0.0)
triangleCtrl.scalePoints(Vec3(0.025, 0.025, 0.025))
triangleCtrl.translatePoints(Vec3(0.0, 0.0875, 0.0))
firstDigitCtrl.appendCurveData(triangleCtrl.getCurveData())
firstDigitCtrl.lockScale(True, True, True)
digitSettingsAttrGrp = AttributeGroup("DigitSettings", parent=firstDigitCtrl)
digitSizeAttr = ScalarAttribute('size', value=0.25, parent=digitSettingsAttrGrp)
digitSizeAttributes.append(digitSizeAttr)
# Set Finger
self.fingers[name] = []
self.fingers[name].append(firstDigitCtrl)
parent = firstDigitCtrl
numJoints = self.numJointsAttr.getValue()
if name == "thumb":
numJoints = 3
for i in xrange(2, numJoints + 2):
digitCtrl = Control(name + str(i).zfill(2), parent=parent, shape='sphere')
if i != numJoints + 1:
digitCtrl.scalePoints(Vec3(0.125, 0.125, 0.125))
digitCtrl.appendCurveData(triangleCtrl.getCurveData())
digitShapeCtrl = Control(name + 'Shp' + str(i).zfill(2), parent=self.guideCtrlHrcGrp, shape='circle')
digitShapeCtrl.setColor('yellow')
digitShapeCtrl.scalePoints(Vec3(0.175, 0.175, 0.175))
digitShapeCtrl.getVisibilityAttr().connect(self.ctrlShapeToggle)
digitCtrl.shapeCtrl = digitShapeCtrl
if i == 2:
digitShapeCtrl.translatePoints(Vec3(0.0, 0.125, 0.0))
else:
digitShapeCtrl.rotatePoints(0.0, 0.0, 90.0)
fingerGuideCtrls.append(digitShapeCtrl)
# Add size attr to all but last guide control
digitSettingsAttrGrp = AttributeGroup("DigitSettings", parent=digitCtrl)
digitSizeAttr = ScalarAttribute('size', value=0.25, parent=digitSettingsAttrGrp)
digitSizeAttributes.append(digitSizeAttr)
else:
digitCtrl.scalePoints(Vec3(0.0875, 0.0875, 0.0875))
digitCtrl.lockScale(True, True, True)
self.fingers[name].append(digitCtrl)
parent = digitCtrl
# ===========================
# Create Canvas Operators
# ===========================
# Add Finger Guide Canvas Op
fingerGuideCanvasOp = CanvasOperator(name + 'FingerGuide', 'Kraken.Solvers.Biped.BipedFingerGuideSolver')
self.addOperator(fingerGuideCanvasOp)
# Add Att Inputs
fingerGuideCanvasOp.setInput('drawDebug', self.drawDebugInputAttr)
fingerGuideCanvasOp.setInput('rigScale', self.rigScaleInputAttr)
# Add Xfo Inputs
fingerGuideCanvasOp.setInput('controls', self.fingers[name])
fingerGuideCanvasOp.setInput('planeSizes', digitSizeAttributes)
# Add Xfo Outputs
fingerGuideCanvasOp.setOutput('result', fingerGuideCtrls)
fingerGuideCanvasOp.setOutput('forceEval', firstDigitCtrl.getVisibilityAttr())
return firstDigitCtrl
def __init__(self, name='arm', parent=None, *args, **kwargs):
Profiler.getInstance().push("Construct Arm Guide Component:" + name)
super(ArmComponentGuide, self).__init__(name, parent, *args, **kwargs)
# ===========
# Attributes
# ===========
# Add Component Params to IK control
guideSettingsAttrGrp = AttributeGroup("GuideSettings", parent=self)
self.bicepFKCtrlSizeInputAttr = ScalarAttribute(
'bicepFKCtrlSize',
value=1.75,
minValue=0.0,
maxValue=10.0,
parent=guideSettingsAttrGrp)
self.forearmFKCtrlSizeInputAttr = ScalarAttribute(
'forearmFKCtrlSize',
value=1.5,
minValue=0.0,
maxValue=10.0,
parent=guideSettingsAttrGrp)
# =========
# Controls
# =========
# Guide Controls
self.bicepCtrl = Control('bicep',
parent=self.ctrlCmpGrp,
shape="sphere")
self.bicepCtrl.setColor('blue')
self.forearmCtrl = Control('forearm',
parent=self.ctrlCmpGrp,
shape="sphere")
self.forearmCtrl.setColor('blue')
self.wristCtrl = Control('wrist',
parent=self.ctrlCmpGrp,
shape="sphere")
self.wristCtrl.setColor('blue')
armGuideSettingsAttrGrp = AttributeGroup("DisplayInfo_ArmSettings",
parent=self.bicepCtrl)
self.armGuideDebugAttr = BoolAttribute('drawDebug',
value=True,
parent=armGuideSettingsAttrGrp)
self.guideOpHost = Transform('guideOpHost', self.ctrlCmpGrp)
# Guide Operator
self.armGuideKLOp = KLOperator('guide', 'TwoBoneIKGuideSolver',
'Kraken')
self.addOperator(self.armGuideKLOp)
# Add Att Inputs
self.armGuideKLOp.setInput('drawDebug', self.armGuideDebugAttr)
self.armGuideKLOp.setInput('rigScale', self.rigScaleInputAttr)
# Add Source Inputs
self.armGuideKLOp.setInput('root', self.bicepCtrl)
self.armGuideKLOp.setInput('mid', self.forearmCtrl)
self.armGuideKLOp.setInput('end', self.wristCtrl)
# Add Target Outputs
self.armGuideKLOp.setOutput('guideOpHost', self.guideOpHost)
self.default_data = {
"name": name,
"location": "L",
"bicepXfo": Xfo(Vec3(2.275, 15.3, -0.75)),
"forearmXfo": Xfo(Vec3(5.0, 13.5, -0.75)),
"wristXfo": Xfo(Vec3(7.2, 12.25, 0.5)),
"bicepFKCtrlSize": self.bicepFKCtrlSizeInputAttr.getValue(),
"forearmFKCtrlSize": self.forearmFKCtrlSizeInputAttr.getValue()
}
self.loadData(self.default_data)
Profiler.getInstance().pop()
def __init__(self, name='mjEyelid', parent=None):
Profiler.getInstance().push("Construct Eyelid Guide Component:" + name)
super(mjEyelidComponentGuide, self).__init__(name, parent)
# =========
# Attributes // Create Attributes Controls.
# =========
guideUpSettingsAttrGrp = AttributeGroup("Eyelid Up", parent=self)
guideLowSettingsAttrGrp = AttributeGroup("Eyelid Low", parent=self)
self.numUpDeformersAttr = IntegerAttribute(
'Num Deformers',
value=10,
minValue=1,
maxValue=50,
parent=guideUpSettingsAttrGrp)
self.upMedialFactorAttr = ScalarAttribute(
'Medial Blink Factor',
value=0.25,
minValue=0,
maxValue=1,
parent=guideUpSettingsAttrGrp)
self.upLateralFactorAttr = ScalarAttribute(
'Lateral Blink Factor',
value=0.65,
minValue=0,
maxValue=1,
parent=guideUpSettingsAttrGrp)
self.numLowDeformersAttr = IntegerAttribute(
'Num Deformers',
value=10,
minValue=1,
maxValue=50,
parent=guideLowSettingsAttrGrp)
self.lowMedialFactorAttr = ScalarAttribute(
'Medial Blink Factor',
value=0.25,
minValue=0,
maxValue=1,
parent=guideLowSettingsAttrGrp)
self.lowLateralFactorAttr = ScalarAttribute(
'Lateral Blink Factor',
value=0.65,
minValue=0,
maxValue=1,
parent=guideLowSettingsAttrGrp)
self.numUpDeformersAttr.setValueChangeCallback(
self.updateNumUpDeformers)
self.numLowDeformersAttr.setValueChangeCallback(
self.updateNumLowDeformers)
# =========
# Controls // Create the Guide Controls, Name them, give them a shape, a color and scale it.
# =========
self.eyeballCtrl = Control('eyeball',
parent=self.ctrlCmpGrp,
shape="sphere")
self.eyeballCtrl.scalePoints(Vec3(0.35, 0.35, 0.35))
self.eyeballCtrl.setColor("red")
self.lidMedialCtrl = Control('lidMedial',
parent=self.eyeballCtrl,
shape="sphere")
self.lidMedialCtrl.scalePoints(Vec3(0.025, 0.025, 0.025))
self.lidMedialCtrl.setColor("peach")
self.lidLateralCtrl = Control('lidLateral',
parent=self.eyeballCtrl,
shape="sphere")
self.lidLateralCtrl.scalePoints(Vec3(0.025, 0.025, 0.025))
self.lidLateralCtrl.setColor("peach")
self.lidUpCtrl = Control('lidUp',
parent=self.eyeballCtrl,
shape="sphere")
self.lidUpCtrl.scalePoints(Vec3(0.025, 0.025, 0.025))
self.lidUpCtrl.setColor("peach")
self.lidUpMedialCtrl = Control('lidUpMedial',
parent=self.eyeballCtrl,
shape="sphere")
self.lidUpMedialCtrl.scalePoints(Vec3(0.025, 0.025, 0.025))
self.lidUpMedialCtrl.setColor("peach")
self.lidUpLateralCtrl = Control('lidUpLateral',
parent=self.eyeballCtrl,
shape="sphere")
self.lidUpLateralCtrl.scalePoints(Vec3(0.025, 0.025, 0.025))
self.lidUpLateralCtrl.setColor("peach")
self.lidLowCtrl = Control('lidLow',
parent=self.eyeballCtrl,
shape="sphere")
self.lidLowCtrl.scalePoints(Vec3(0.025, 0.025, 0.025))
self.lidLowCtrl.setColor("peach")
self.lidLowMedialCtrl = Control('lidLowMedial',
parent=self.eyeballCtrl,
shape="sphere")
self.lidLowMedialCtrl.scalePoints(Vec3(0.025, 0.025, 0.025))
self.lidLowMedialCtrl.setColor("peach")
self.lidLowLateralCtrl = Control('lidLowLateral',
parent=self.eyeballCtrl,
shape="sphere")
self.lidLowLateralCtrl.scalePoints(Vec3(0.025, 0.025, 0.025))
self.lidLowLateralCtrl.setColor("peach")
# ===============
# Add Debug Splice Ops
# ===============
# Add Lid Up Canvas Op
self.debugLidUpCanvasOp = CanvasOperator(
'Debug_Canvas_Eyelid_Up_Op', 'MJCG.Solvers.mjEyelidDebugSolver')
self.addOperator(self.debugLidUpCanvasOp)
# Add Attributes Inputs
self.debugLidUpCanvasOp.setInput('drawDebug', self.drawDebugInputAttr)
self.debugLidUpCanvasOp.setInput('rigScale', self.rigScaleInputAttr)
self.debugLidUpCanvasOp.setInput('Deformer_Count',
self.numUpDeformersInputAttr)
# Add Xfo Inputs
self.debugLidUpCanvasOp.setInput('Eye_Center', self.eyeballCtrl)
self.debugLidUpCanvasOp.setInput('Lid_Medial', self.lidMedialCtrl)
self.debugLidUpCanvasOp.setInput('Lid_MedialCen', self.lidUpMedialCtrl)
self.debugLidUpCanvasOp.setInput('Lid_Center_Ref', self.lidUpCtrl)
self.debugLidUpCanvasOp.setInput('Lid_Center_Ctrl', self.lidUpCtrl)
self.debugLidUpCanvasOp.setInput('Lid_LateralCen',
self.lidUpLateralCtrl)
self.debugLidUpCanvasOp.setInput('Lid_Lateral', self.lidLateralCtrl)
# Add Xfo Outputs
self.debugLidUpCanvasOp.setOutput('result',
self.eyelidUpOutput.getTarget())
# Add Lid Low Canvas Op
self.debugLidLowCanvasOp = CanvasOperator(
'Debug_Canvas_Eyelid_Low_Op', 'MJCG.Solvers.mjEyelidDebugSolver')
self.addOperator(self.debugLidLowCanvasOp)
# Add Attributes Inputs
self.debugLidLowCanvasOp.setInput('drawDebug', self.drawDebugInputAttr)
self.debugLidLowCanvasOp.setInput('rigScale', self.rigScaleInputAttr)
self.debugLidLowCanvasOp.setInput('Deformer_Count',
self.numLowDeformersInputAttr)
# Add Xfo Inputs
self.debugLidLowCanvasOp.setInput('Eye_Center', self.eyeballCtrl)
self.debugLidLowCanvasOp.setInput('Lid_Medial', self.lidMedialCtrl)
self.debugLidLowCanvasOp.setInput('Lid_MedialCen',
self.lidLowMedialCtrl)
self.debugLidLowCanvasOp.setInput('Lid_Center_Ref', self.lidLowCtrl)
self.debugLidLowCanvasOp.setInput('Lid_Center_Ctrl', self.lidLowCtrl)
self.debugLidLowCanvasOp.setInput('Lid_LateralCen',
self.lidLowLateralCtrl)
self.debugLidLowCanvasOp.setInput('Lid_Lateral', self.lidLateralCtrl)
# Add Xfo Outputs
self.debugLidLowCanvasOp.setOutput('result',
self.eyelidLowOutput.getTarget())
# =========
# Position Data // Get the Guide Controls Position data, else set them at their initial position.
# =========
self.default_data = {
"name": name,
"location": "L",
"eyeballXfo": Xfo(Vec3(0.322, 15.500, 0.390)),
"lidMedialXfo": Xfo(Vec3(0.168, 15.445, 0.520)),
"lidLateralXfo": Xfo(Vec3(0.465, 15.47, 0.465)),
"lidUpXfo": Xfo(Vec3(0.322, 15.585, 0.605)),
"lidUpMedialXfo": Xfo(Vec3(0.203, 15.515, 0.525)),
"lidUpLateralXfo": Xfo(Vec3(0.432, 15.55, 0.538)),
"lidLowXfo": Xfo(Vec3(0.322, 15.434, 0.6)),
"lidLowMedialXfo": Xfo(Vec3(0.24, 15.45, 0.513)),
"lidLowLateralXfo": Xfo(Vec3(0.413, 15.44, 0.525)),
"lidUpMedialBlink": self.upMedialFactorAttr.getValue(),
"lidUpLateralBlink": self.upLateralFactorAttr.getValue(),
"lidLowMedialBlink": self.lowMedialFactorAttr.getValue(),
"lidLowLateralBlink": self.lowLateralFactorAttr.getValue(),
"numUpDeformers": self.numUpDeformersAttr.getValue(),
"numLowDeformers": self.numLowDeformersAttr.getValue(),
}
self.loadData(self.default_data)
Profiler.getInstance().pop()
def __init__(self, name="spine", parent=None):
Profiler.getInstance().push("Construct Spine Rig Component:" + name)
super(TwistComponentRig, self).__init__(name, parent)
# =========
# Controls
# =========
self.originTransform = Transform('origin', parent=self.ctrlCmpGrp)
self.originUpVTransform = Transform('originUpV',
parent=self.ctrlCmpGrp)
self.insertTransform = Transform('insert', parent=self.ctrlCmpGrp)
self.insertUpVTransform = Transform('insertUpV',
parent=self.ctrlCmpGrp)
# Add Params to origin transform
twistSettings = AttributeGroup("DisplayInfo_TwistSettings",
parent=self.originTransform)
self.blendBiasInputAttr = ScalarAttribute('blendBias',
value=0.0,
minValue=0.0,
maxValue=1.0,
parent=twistSettings)
# ==========
# Deformers
# ==========
deformersLayer = self.getOrCreateLayer('deformers')
self.defCmpGrp = ComponentGroup(self.getName(),
self,
parent=deformersLayer)
self.addItem('defCmpGrp', self.defCmpGrp)
self.deformerJoints = []
self.twistOutputs = []
self.setNumDeformers(1)
# =====================
# Create Component I/O
# =====================
# Setup component Xfo I/O's
self.twistJointOutput.setTarget(self.twistOutputs)
# ============
# Constraints
# ============
# Constrain inputs
# Origin and Insert
constraintName = '_'.join([
self.originTransform.getName(), 'To',
self.originInputTgt.getName()
])
self.originInputConstraint = self.originTransform.constrainTo(
self.originInputTgt,
constraintType='Position',
maintainOffset=True,
name=constraintName)
constraintName = '_'.join([
self.insertTransform.getName(), 'To',
self.insertInputTgt.getName()
])
self.insertInputConstraint = self.insertTransform.constrainTo(
self.insertInputTgt,
constraintType='Position',
maintainOffset=True,
name=constraintName)
# Up Vectors
constraintName = '_'.join([
self.originUpVTransform.getName(), 'To',
self.originInputTgt.getName()
])
self.originUpVInputConstraint = self.originUpVTransform.constrainTo(
self.originInputTgt,
constraintType='Pose',
maintainOffset=True,
name=constraintName)
constraintName = '_'.join([
self.insertUpVTransform.getName(), 'To',
self.insertInputTgt.getName()
])
self.insertUpVInputConstraint = self.insertUpVTransform.constrainTo(
self.insertInputTgt,
constraintType='Pose',
maintainOffset=True,
name=constraintName)
# Constrain outputs
# ===============
# Add Splice Ops
# ===============
# Add Spine Splice Op
self.twistKLOp = KLOperator('TwistOp', 'TwistSolver', 'Kraken')
self.addOperator(self.twistKLOp)
# Add Att Inputs
self.twistKLOp.setInput('drawDebug', self.drawDebugInputAttr)
self.twistKLOp.setInput('rigScale', self.rigScaleInputAttr)
self.twistKLOp.setInput('blendBias', self.blendBiasInputAttr)
# Add Xfo Inputs
self.twistKLOp.setInput('origin', self.originTransform)
self.twistKLOp.setInput('originUpV', self.originUpVTransform)
self.twistKLOp.setInput('insert', self.insertTransform)
self.twistKLOp.setInput('insertUpV', self.insertUpVTransform)
# Add Xfo Outputs
self.twistKLOp.setOutput('pose', self.twistOutputs)
# # Add Deformer Splice Op
self.deformersToOutputsKLOp = KLOperator('twistDeformerKLOp',
'MultiPoseConstraintSolver',
'Kraken')
self.addOperator(self.deformersToOutputsKLOp)
# Add Att Inputs
self.deformersToOutputsKLOp.setInput('drawDebug',
self.drawDebugInputAttr)
self.deformersToOutputsKLOp.setInput('rigScale',
self.rigScaleInputAttr)
# Add Xfo Outputs
self.deformersToOutputsKLOp.setInput('constrainers', self.twistOutputs)
# Add Xfo Outputs
self.deformersToOutputsKLOp.setOutput('constrainees',
self.deformerJoints)
Profiler.getInstance().pop()
