def onHumanChanged(self, event):
if event.change == 'proxyChange':
if event.proxy != 'clothes':
return
proxy = event.proxy_obj
if not proxy:
return
foot_pose = proxy.special_pose.get("foot", None)
if not foot_pose:
return
filename = getpath.thoroughFindFile(foot_pose, self.paths)
if not os.path.isfile(filename):
log.error("Could not find a file for special_pose foot %s, file does not exist.", filename)
return
if event.action == 'add':
self.loadFootPose(filename)
elif event.action == 'remove':
if self.selectedFile and getpath.isSamePath(filename, self.selectedFile):
self.loadFootPose(None)
if event.change == 'poseChange' and not self._setting_pose:
if self.selectedPose:
self.applyFootPose(self.selectedPose)
if event.change == 'reset':
# Update GUI after reset (if tab is currently visible)
self._setting_pose = False
self.loadFootPose(None)
def chooseSkeleton(self, filename):
log.debug("Loading skeleton from %s", filename)
self.selectedRig = filename
if not filename:
if self.human.skeleton:
# Unload current skeleton
self.human.setSkeleton(None)
if self.skelObj:
# Remove old skeleton mesh
self.removeObject(self.skelObj)
self.human.removeBoundMesh(self.skelObj.name)
self.skelObj = None
self.skelMesh = None
self.boneCountLbl.setTextFormat(["Bones", ": %s"], "")
self.descrLbl.setText("")
self.filechooser.selectItem(None)
return
if getpath.isSamePath(filename, REF_RIG_PATH):
skel = self.referenceRig.createFromPose()
else:
# Load skeleton definition from options
skel = skeleton.load(filename, self.human.meshData)
# Ensure vertex weights of skel are initialized
skel.autoBuildWeightReferences(
self.referenceRig
) # correct weights references if only (pose) references were defined
vertexWeights = skel.getVertexWeights(
self.referenceRig.getVertexWeights(), force_remap=False)
log.message("Skeleton %s has %s weights per vertex.", skel.name,
vertexWeights.getMaxNumberVertexWeights())
# Remap bone orientation planes from reference rig
skel.addReferencePlanes(
self.referenceRig
) # Not strictly needed for the new way in which we determine bone normals
# Update description
descr = skel.description
self.descrLbl.setText(descr)
self.boneCountLbl.setTextFormat(["Bones", ": %s"], skel.getBoneCount())
# Assign to human
self.human.setSkeleton(skel)
# (Re-)draw the skeleton
self.drawSkeleton()
self.filechooser.selectItem(filename)
def chooseSkeleton(self, filename):
log.debug("Loading skeleton from %s", filename)
self.selectedRig = filename
if self.referenceRig is None:
log.message("Loading reference skeleton for weights remapping.")
self.referenceRig = skeleton.load(REF_RIG_PATH, self.human.meshData)
if not filename:
if self.human.getSkeleton():
# Unload current skeleton
self.human.setSkeleton(None)
if self.skelObj:
# Remove old skeleton mesh
self.removeObject(self.skelObj)
self.human.removeBoundMesh(self.skelObj.name)
self.skelObj = None
self.skelMesh = None
self.boneCountLbl.setTextFormat(["Bones",": %s"], "")
self.descrLbl.setText("")
self.filechooser.selectItem(None)
return
if getpath.isSamePath(filename, REF_RIG_PATH):
skel = self.referenceRig.clone()
vertexWeights = self.referenceRig.getVertexWeights()
else:
# Load skeleton definition from options
skel = skeleton.load(filename, self.human.meshData)
# Ensure vertex weights of skel are initialized
skel.autoBuildWeightReferences(self.referenceRig) # correct weights references if only (pose) references were defined
vertexWeights = skel.getVertexWeights(self.referenceRig.getVertexWeights())
log.message("Skeleton %s has %s weights per vertex.", skel.name, vertexWeights.getMaxNumberVertexWeights())
# Remap bone orientation planes from reference rig
skel.addReferencePlanes(self.referenceRig)
# Update description
descr = skel.description
self.descrLbl.setText(descr)
self.boneCountLbl.setTextFormat(["Bones",": %s"], skel.getBoneCount())
# (Re-)draw the skeleton (before setting skeleton on human so it is automatically re-posed)
self.drawSkeleton(skel)
# Assign to human
self.human.setSkeleton(skel)
self.filechooser.selectItem(filename)
def chooseSkeleton(self, filename):
log.debug("Loading skeleton from %s", filename)
self.selectedRig = filename
if not filename:
if self.human.skeleton:
# Unload current skeleton
self.human.setSkeleton(None)
if self.skelObj:
# Remove old skeleton mesh
self.removeObject(self.skelObj)
self.human.removeBoundMesh(self.skelObj.name)
self.skelObj = None
self.skelMesh = None
self.boneCountLbl.setTextFormat(["Bones",": %s"], "")
self.descrLbl.setText("")
self.filechooser.selectItem(None)
return
if getpath.isSamePath(filename, REF_RIG_PATH):
skel = self.referenceRig.createFromPose()
else:
# Load skeleton definition from options
skel = skeleton.load(filename, self.human.meshData)
# Ensure vertex weights of skel are initialized
skel.autoBuildWeightReferences(self.referenceRig) # correct weights references if only (pose) references were defined
vertexWeights = skel.getVertexWeights(self.referenceRig.getVertexWeights(), force_remap=False)
log.message("Skeleton %s has %s weights per vertex.", skel.name, vertexWeights.getMaxNumberVertexWeights())
# Remap bone orientation planes from reference rig
skel.addReferencePlanes(self.referenceRig) # Not strictly needed for the new way in which we determine bone normals
# Update description
descr = skel.description
self.descrLbl.setText(descr)
self.boneCountLbl.setTextFormat(["Bones",": %s"], skel.getBoneCount())
# Assign to human
self.human.setSkeleton(skel)
# (Re-)draw the skeleton
self.drawSkeleton()
self.filechooser.selectItem(filename)
