def convertToPointOnPolyConstraint(mesh, oldLoc, name=None, inMesh=None):
'''
convert surf attach transform to pointOnPoly
'''
pyMesh = pm.PyNode(mesh)
pos = mc.xform(oldLoc, t=True, q=True, ws=True)
# get UVs
u, v = pyMesh.getUVAtPoint(pos, space='world')
# delete surfAttachShape
surfAttachShape = mc.listRelatives(oldLoc, c=True, type='cMuscleSurfAttach')[0]
mc.delete(surfAttachShape)
# constraint to mesh
cons = mc.pointOnPolyConstraint(mesh, oldLoc)[0]
# set UVs
tl = mc.pointOnPolyConstraint(cons, q=True, tl=True)[0]
# U and V aliases
mc.setAttr(cons+'.'+tl+'U0', u)
mc.setAttr(cons+'.'+tl+'V0', v)
# swap the inMesh, if required
if inMesh:
mc.connectAttr(inMesh, cons+'.target[0].targetMesh', f=True)
def convertToPointOnPolyConstraint(mesh, oldLoc, name=None, inMesh=None):
'''
convert surf attach transform to pointOnPoly
'''
pyMesh = pm.PyNode(mesh)
pos = mc.xform(oldLoc, t=True, q=True, ws=True)
# get UVs
u, v = pyMesh.getUVAtPoint(pos, space='world')
# delete surfAttachShape
surfAttachShape = mc.listRelatives(oldLoc,
c=True,
type='cMuscleSurfAttach')[0]
mc.delete(surfAttachShape)
# constraint to mesh
cons = mc.pointOnPolyConstraint(mesh, oldLoc)[0]
# set UVs
tl = mc.pointOnPolyConstraint(cons, q=True, tl=True)[0]
# U and V aliases
mc.setAttr(cons + '.' + tl + 'U0', u)
mc.setAttr(cons + '.' + tl + 'V0', v)
# swap the inMesh, if required
if inMesh:
mc.connectAttr(inMesh, cons + '.target[0].targetMesh', f=True)
def makePointOnMesh(objectOne,objectTwo,type='follicle'):
closestUV_point = mesh.get_closest_uv_on_mesh(objectTwo, cmds.xform(objectOne, t=True, q=True, ws=True))
closestUV = [closestUV_point[0], closestUV_point[1]]
if type == "pointOnPoly":
# Create Null to attach to surface.
anchorPoint = cmds.group(em=1,n="{}_polyAnchor".format(objectOne))
# Create constraint between input object and mesh.
polyConstraint = cmds.pointOnPolyConstraint(objectTwo,anchorPoint)
# Set constraint UV value to closest UV value stored previously.
cmds.setAttr( '{}.{}U0'.format(polyConstraint[0],objectTwo), closestUV[0] )
cmds.setAttr('{}.{}V0'.format(polyConstraint[0],objectTwo), closestUV[1] )
return anchorPoint
elif type == "follicle":
anchorPoint = cmds.createNode("follicle",n='{}_polyAnchorShape'.format(objectOne))
anchorParent = cmds.listRelatives(anchorPoint,p=1)
cmds.rename(anchorParent,str(objectOne)+"_polyAnchor")
inputMeshShape = cmds.listRelatives(objectTwo,type="shape")
cmds.connectAttr("{}.outMesh".format(inputMeshShape[0]), "{}.inputMesh".format(anchorPoint))
cmds.connectAttr("{}.worldMatrix[0]".format(objectTwo),"{}.inputWorldMatrix".format(anchorPoint))
cmds.connectAttr("{}.outRotate".format(anchorPoint),"{}.rotate".format(anchorParent[0]))
cmds.connectAttr("{}.outTranslate".format(anchorPoint),"{}.translate".format(anchorParent[0]))
cmds.setAttr("{}.parameterU".format(anchorPoint), closestUV[0] )
cmds.setAttr("{}.parameterV".format(anchorPoint), closestUV[1] )
return anchorParent
def creatConstrainPlane():
objs=ConstrainObjs+[RefrencePlane]
num=len(objs)
lastObjShape=mc.listRelatives(objs[-1],s=1)[0]
shapeType=mc.nodeType(lastObjShape)
if num<2:
mc.error('This command requires at least 2 arguments to be selected; found %d.'%num)
if shapeType != 'mesh':
mc.error('The last selected object must be a mesh.')
for i in range(num-1):
BBox=mc.xform(objs[i],q=1,bb=1)
size=(BBox[3]+BBox[4]+BBox[5]-BBox[0]-BBox[1]-BBox[2])/3
pos=mc.xform(objs[i],q=1,ws=1,rp=1)
rot=mc.xform(objs[i],q=1,ws=1,ro=1)
Plane=mc.polyPlane(sx=2,sy=2,ax=[0,1,0],h=size,w=size,n=objs[i]+'_SkinPlane',ch=0)
locator=mc.spaceLocator(p=[0,0,0],n=objs[i]+'_Loc')
mc.hide(locator)
Constraint=mc.pointOnPolyConstraint(Plane[0]+'.vtx[4]',locator[0])[0]
mc.setAttr(Constraint+'.%sU0'%Plane[0],0.5)
mc.setAttr(Constraint+'.%sV0'%Plane[0],0.5)
mc.xform(Plane,t=pos,ro=rot)
closestPointNode=mc.createNode("closestPointOnMesh")
mc.connectAttr(objs[-1]+'.worldMesh[0]',closestPointNode+'.inMesh')
mc.connectAttr(objs[-1]+'.worldMatrix[0]',closestPointNode+'.inputMatrix')
mc.setAttr(closestPointNode+'.inPositionX',pos[0])
mc.setAttr(closestPointNode+'.inPositionY',pos[1])
mc.setAttr(closestPointNode+'.inPositionZ',pos[2])
Constraint=mc.normalConstraint(objs[-1],Plane,aim=[0,1,0],u=[0,0,1])
mc.delete(Constraint,closestPointNode)
mc.parentConstraint(locator,objs[i],mo=1)
if CBValue:
ScaleConstrain()
def StickObjectToMesh(vertex, mesh):
#*********** Get parent name ******************
ObjectParent = cmds.listRelatives(mesh, p=True)
#*********** Get object position ******************
position = cmds.xform(vertex, q=True, ws=True, t=True)
#******* Create a group driven by pointOnPolyContraint **********
groupName = cmds.group(em=True, name=("grp_ptc_" + mesh))
cmds.parent(groupName, ObjectParent[0])
#******* Get the UV map relationed with the vtx **********
mapList = cmds.polyListComponentConversion(vertex, fv=- True, tuv=True)
#******* Create a pointOnPolyContraint **********
contraintNames = cmds.pointOnPolyConstraint(vertex,
groupName,
mo=False,
o=[0, 0, 0],
w=1)
#************* Disconnect rotation chanel ****************************************
mel.eval("CBdeleteConnection " + groupName + ".rotateX;")
mel.eval("CBdeleteConnection " + groupName + ".rotateY;")
mel.eval("CBdeleteConnection " + groupName + ".rotateZ;")
#******* Get U and V values from map array **********
uvvalues = cmds.polyEditUV(mapList, q=True)
contraintAttr = cmds.listAttr(contraintNames[0], k=True)
#******* Assign the U and V values respectively from maplist **********
cmds.setAttr((contraintNames[0] + "." + contraintAttr[10]), uvvalues[0])
cmds.setAttr((contraintNames[0] + "." + contraintAttr[11]), uvvalues[1])
groupDrv = _2GrpUp(mesh)
cmds.parent(groupDrv, groupName)
GrpSubsTranslation(mesh)
def snapPivot(obj, tar):
isVertex = False
if '.vtx[' in tar:
isVertex = True
loc = cmds.spaceLocator()
cmds.select(cl=1)
cmds.select(tar)
cmds.select(loc, add=1)
constraint = cmds.pointOnPolyConstraint(mo=0)
cmds.delete(constraint)
tar = loc[0]
objs, SAVE_LIST = utility.unParentToWorld([obj], parentChild=0, save=1, relatedObjs=[obj, tar])
obj = objs[0]
tar = objs[1]
pivotT = cmds.xform(tar, q=1, ws=1, rp=1)
obj = cmds.parent(obj, tar)
cmds.makeIdentity(obj, a=1, t=1, r=1, s=1)
cmds.xform(obj, ws=1, piv=pivotT)
obj = cmds.parent(obj, w=1)
# reparent
utility.reparentToOrigin(SAVE_LIST)
if isVertex:
cmds.delete(tar)
cmds.select(obj)
def ctrlMeshConstraint(ctrl, ctrlRef='', faceAxis='y', faceScale=0.05, prefix=''):
"""
@param ctrl:
@param ctrlRef:
@param faceAxis:
@param faceScale:
@param prefix:
"""
# ==========
# - Checks -
# ==========
if not cmds.objExists(ctrl):
raise Exception('Control object "' + ctrl + '" does not exist!!')
if ctrlRef and not cmds.objExists(ctrlRef):
raise Exception('Control reference object "' + ctrlRef + '" does not exist!!')
# =======================
# - Create Control Face -
# =======================
ctrlFace = glTools.tools.pointFaceMesh.transformFaceMesh([ctrl], faceAxis, faceScale, False, prefix)[0]
# ============================
# - Attach Control Reference -
# ============================
if ctrlRef:
faceLoc = ctrlRef
faceCon = cmds.pointOnPolyConstraint(ctrlFace, ctrlRef, n=prefix + '_pointOnPolyConstraint')[0]
else:
faceLoc = cmds.spaceLocator(n=prefix + '_ctrlFace_loc')[0]
cmds.setAttr(faceLoc + '.localScale', faceScale, faceScale, faceScale)
faceCon = cmds.pointOnPolyConstraint(ctrlFace, faceLoc, n=prefix + '_pointOnPolyConstraint')[0]
cmds.setAttr(faceCon + '.' + ctrlFace + 'U0', 0.5)
cmds.setAttr(faceCon + '.' + ctrlFace + 'V0', 0.5)
# =================
# - Return Result -
# =================
result = {}
result['face'] = ctrlFace
result['locator'] = faceLoc
result['pointOnPolyConstraint'] = faceCon
return result
def surfCts(name, vertSets):
'''
jntsIks[0] = lists of 3 joint sets
jntsIks[1] = list of ik handles, one for each three joint set
'''
#controllers, constraints
geoParent = []
j = 0
for vSet in vertSets:
i = 0
setName = ["", "_aim", "_up"]
rootCtGp = None
aimCt = None
upCt = None
for point in vSet:
if i < 3:
# controller
diamond = place.Controller(name + '_' + str(('%0' + str(2) + 'd') % (j)) + setName[i], point, False, 'diamond_ctrl', 5, 12, 8, 1, (0, 0, 1), True, True)
DiamondCt = diamond.createController()
place.cleanUp(DiamondCt[0], Ctrl=True)
cnst = cmds.pointOnPolyConstraint(point, DiamondCt[0])[0]
# convert vertex to uv
uv = cmds.polyListComponentConversion(point, fv=True, tuv=True)
# get uv space
space = cmds.polyEditUV(uv, q=True)
# set uv attrs on constraint
cmds.setAttr(cnst + '.' + point.rsplit('.')[0] + 'U0', space[0])
cmds.setAttr(cnst + '.' + point.rsplit('.')[0] + 'V0', space[1])
# append geoParent
if i == 0:
geoParent.append(DiamondCt[4])
rootCtGp = DiamondCt[1]
elif i == 1:
aimCt = DiamondCt[4]
cmds.setAttr(DiamondCt[0] + '.visibility', False)
elif i == 2:
upCt = DiamondCt[4]
cmds.setAttr(DiamondCt[0] + '.visibility', False)
# constraint
'''
if i==1:
##ik
cmds.pointConstraint(DiamondCt[4], jntsIks[1][j])
else:
##joint
cmds.pointConstraint(DiamondCt[4], jntsIks[0][j][i])
'''
else:
# constrain joint to first controller of vert set list
cmds.parentConstraint(geoParent[j], point, mo=True)
i = i + 1
# aim constraint
cmds.aimConstraint(aimCt, rootCtGp, mo=True,
aimVector=(0, 0, 1), upVector=(0, 1, 0),
worldUpType='object', worldUpObject=upCt)
j = j + 1
return geoParent
def addPointOnPolyNormalAttach(obj, mesh):
from cgm.lib import (distance, nodes, attributes)
mi_obj = cgmMeta.validateObjArg(obj, cgmMeta.cgmObject)
mi_mesh = cgmMeta.validateObjArg(mesh, mayaType='mesh')
#create group
mi_attachPoint = mi_obj.doLoc()
mc.pointOnPolyConstraint(mi_mesh.mNode,
mi_attachPoint.mNode,
maintainOffset=True)
mc.normalConstraint(mi_mesh.mNode,
mi_attachPoint.mNode,
maintainOffset=True)
#parent constrain
mc.parentConstraint(mi_attachPoint.mNode,
mi_obj.mNode,
maintainOffset=True)
def ctrlMeshConstraint(ctrl,ctrlRef='',faceAxis='y',faceScale=0.05,prefix=''):
'''
'''
# ==========
# - Checks -
# ==========
if not mc.objExists(ctrl):
raise Exception('Control object "'+ctrl+'" does not exist!!')
if ctrlRef and not mc.objExists(ctrlRef):
raise Exception('Control reference object "'+ctrlRef+'" does not exist!!')
# =======================
# - Create Control Face -
# =======================
ctrlFace = glTools.tools.pointFaceMesh.transformFaceMesh([ctrl],faceAxis,faceScale,False,prefix)[0]
# ============================
# - Attach Control Reference -
# ============================
if ctrlRef:
faceLoc = ctrlRef
faceCon = mc.pointOnPolyConstraint(ctrlFace,ctrlRef,n=prefix+'_pointOnPolyConstraint')[0]
else:
faceLoc = mc.spaceLocator(n=prefix+'_ctrlFace_loc')[0]
mc.setAttr(faceLoc+'.localScale',faceScale,faceScale,faceScale)
faceCon = mc.pointOnPolyConstraint(ctrlFace,faceLoc,n=prefix+'_pointOnPolyConstraint')[0]
mc.setAttr(faceCon+'.'+ctrlFace+'U0',0.5)
mc.setAttr(faceCon+'.'+ctrlFace+'V0',0.5)
# =================
# - Return Result -
# =================
result = {}
result['face'] = ctrlFace
result['locator'] = faceLoc
result['pointOnPolyConstraint'] = faceCon
return result
def snapTransform(obj, tar):
if '.vtx[' in tar:
cmds.select(cl=1)
cmds.select(tar)
cmds.select(obj, add=1)
constraint = cmds.pointOnPolyConstraint(mo=0)
cmds.delete(constraint)
else:
cmds.matchTransform(obj, tar)
cmds.select(obj)
def placeInstance(instanceName,
position,
size,
face,
randRotation,
animatedParentGroup=None):
''' Instantiate an object and place, scale and rotate it at the desired position.
- instanceName: name of the object to be instantiated
- position: where to place the instance
- size: how big should the instance be
- face: polygon the instance is to be placed on
- randRotation: if the instance should receive a random rotation on the local Y axis
- animatedParentGroup: if the instance should be parented to something (required in the case of an animated base mesh) '''
faceNormal = getNormal(face)
psi = mc.angleBetween(euler=True,
v1=(0.0, 1.0, 0.0),
v2=(faceNormal.x, faceNormal.y, faceNormal.z))
objectInstance = mc.instance(instanceName)
mc.move(position[0], position[1], position[2], objectInstance)
mc.rotate(psi[0], psi[1], psi[2], objectInstance)
if randRotation:
mc.rotate(0,
rand.uniform(-180, 180),
0,
objectInstance,
r=True,
os=True)
mc.scale(size, size, size, objectInstance)
if animatedParentGroup != None:
mc.select(face, r=True)
mc.pointOnPolyConstraint(face, animatedParentGroup, mo=False)
mc.parent(objectInstance, animatedParentGroup)
mc.parent(animatedParentGroup, groupName)
else:
mc.parent(objectInstance, groupName)
def create_cornerpin(self, *args):
sel = cmds.ls(sl=True)
if sel:
if not len(sel) == 1:
raise RuntimeError(
'Selection not valid, please select one face only')
else:
raise RuntimeError('Selection not valid, please select a face')
if sel[0].split('.')[1].find('f[') == -1:
raise RuntimeError('Selection not valid, please select a face')
#get ui data
cam = cmds.optionMenu('camera_option', q=True, v=True)
tag = cmds.textField('cornerpin_tag_text', q=True, text=True)
# get vertices
face = sel[0]
vertices = cmds.ls(cmds.polyListComponentConversion(face,
ff=True,
tv=True),
flatten=True)
# get axis
xy_rb = cmds.radioButton('xy_radio', q=True, sl=True)
xz_rb = cmds.radioButton('xz_radio', q=True, sl=True)
zy_rb = cmds.radioButton('zy_radio', q=True, sl=True)
#get cornerpin order
cornerpin_vertex = list()
if xy_rb:
print 'Using XY axis'
y_sort = sortVertex(vertices, (0, 1, 0))
x_sort = sortVertex(vertices, (1, 0, 0))
cornerpin_vertex = list()
for i in y_sort[2:]:
if i in x_sort[:2]:
cornerpin_vertex.append(i)
for i in y_sort[2:]:
if i in x_sort[2:]:
cornerpin_vertex.append(i)
for i in y_sort[:2]:
if i in x_sort[:2]:
cornerpin_vertex.append(i)
for i in y_sort[:2]:
if i in x_sort[2:]:
cornerpin_vertex.append(i)
if xz_rb:
print 'Using XY axis'
x_sort = sortVertex(vertices, (1, 0, 0))
z_sort = sortVertex(vertices, (0, 0, 1))
cornerpin_vertex = list()
for i in z_sort[:2]:
if i in x_sort[:2]:
cornerpin_vertex.append(i)
for i in z_sort[:2]:
if i in x_sort[2:]:
cornerpin_vertex.append(i)
for i in z_sort[2:]:
if i in x_sort[:2]:
cornerpin_vertex.append(i)
for i in z_sort[2:]:
if i in x_sort[2:]:
cornerpin_vertex.append(i)
elif zy_rb:
print 'Using ZY axis'
y_sort = sortVertex(vertices, (0, 1, 0))
z_sort = sortVertex(vertices, (0, 0, 1))
cornerpin_vertex = list()
for i in y_sort[2:]:
if i in z_sort[2:]:
cornerpin_vertex.append(i)
for i in y_sort[2:]:
if i in z_sort[:2]:
cornerpin_vertex.append(i)
for i in y_sort[:2]:
if i in z_sort[2:]:
cornerpin_vertex.append(i)
for i in y_sort[:2]:
if i in z_sort[:2]:
cornerpin_vertex.append(i)
print 'Sort to cornerpin order:'
print cornerpin_vertex
#create cornerpin_group
cornerpin_grp = cmds.createNode('transform',
name=tag + '_cornerpin_grp')
#create 2d locators
for i, v in enumerate(cornerpin_vertex):
locator_tag = tag + '_cv' + str(i + 1)
loc = createSSLocator(tag=locator_tag, camera=cam)
pos = cmds.xform(v, q=True, ws=True, t=True)
m = v.split('.')[0]
cmds.xform(loc, ws=True, t=pos)
#calculate uv
uv = closestUV(mesh=m, transform=loc)
#create point on poly constraint
pop = cmds.pointOnPolyConstraint(v, loc)[0]
cmds.setAttr(pop + '.' + m + 'U0', uv[0])
cmds.setAttr(pop + '.' + m + 'V0', uv[1])
cmds.parent(loc, cornerpin_grp)
def instanceIteration(RotationRangeField, ScaleRangeEndField,
ScaleRangeStartField, PlacementAmountField, OffsetField,
WeightField, *pArgs):
#Takes user input from the gui and stores them into variables
XRotationRange = cmds.floatFieldGrp(RotationRangeField,
query=True,
value1=True)
YRotationRange = cmds.floatFieldGrp(RotationRangeField,
query=True,
value2=True)
ZRotationRange = cmds.floatFieldGrp(RotationRangeField,
query=True,
value3=True)
RotationRange = [XRotationRange, YRotationRange, ZRotationRange]
XScaleRangeEnd = cmds.floatFieldGrp(ScaleRangeEndField,
query=True,
value1=True)
YScaleRangeEnd = cmds.floatFieldGrp(ScaleRangeEndField,
query=True,
value2=True)
ZScaleRangeEnd = cmds.floatFieldGrp(ScaleRangeEndField,
query=True,
value3=True)
ScaleRangeEnd = [XScaleRangeEnd, YScaleRangeEnd, ZScaleRangeEnd]
XScaleRangeStart = cmds.floatFieldGrp(ScaleRangeStartField,
query=True,
value1=True)
YScaleRangeStart = cmds.floatFieldGrp(ScaleRangeStartField,
query=True,
value2=True)
ZScaleRangeStart = cmds.floatFieldGrp(ScaleRangeStartField,
query=True,
value3=True)
ScaleRangeStart = [XScaleRangeStart, YScaleRangeStart, ZScaleRangeStart]
PlacementAmountFactor = cmds.floatField(PlacementAmountField,
query=True,
value=True)
Xoffsetamount = cmds.floatFieldGrp(OffsetField, query=True, value1=True)
Yoffsetamount = cmds.floatFieldGrp(OffsetField, query=True, value2=True)
Zoffsetamount = cmds.floatFieldGrp(OffsetField, query=True, value3=True)
weightAmount = cmds.floatSliderGrp(WeightField, query=True, value=True)
#get all the components to instance over
#gets faces, edges and vertices
components = cmds.filterExpand(selectionMask=(31, 34, 32))
#get object that will be instanced
objectlist = cmds.ls(selection=True, dagObjects=True, exactType="mesh")
object = objectlist[0]
#Optional parameter that randomizes component placement
if PlacementAmountFactor != 1:
PlacementAmount = int((len(components)) * (PlacementAmountFactor))
components = random.sample(components, k=PlacementAmount)
#iterate over each vertex, creating rivet and instance
instanceGroupName = cmds.group(empty=True, name=object + "_instance_grp#")
for component in components:
cmds.select(deselect=True)
currentInstance = cmds.instance(object, name=object + "_instance#")
cmds.parent(currentInstance, instanceGroupName)
cmds.select(component, currentInstance, add=True)
cmds.pointOnPolyConstraint(
component,
currentInstance,
offset=[Xoffsetamount, Yoffsetamount, Zoffsetamount],
weight=weightAmount)
# calls function to randoimize instance if requested
instanceRandomizer(currentInstance, RotationRange, ScaleRangeEnd,
ScaleRangeStart, PlacementAmountFactor)
def create(name, positionList):
'''
This will create a bindmesh based on the give N amount of positions.
.. note::
Bindmesh is a bunch of polygon plane's that are combined with rivets at the center
of each of them.
:param positionList: An N amount array of 3 point array's.
:type positionList: tuple | list
:return: The bindmesh and the follicle information
:trype: tuple
'''
# Check if the bindmesh has already been created.
# If it exists return existing bindmesh and follicle names
#
newGeoName = "{0}_bindmesh".format(name)
if mc.objExists(newGeoName):
follicleNameList = list()
for i in xrange(len(positionList)):
follicleName = "{0}_{1}_follicle".format(name, i)
follicleNameList.append(follicleName)
return newGeoName, follicleNameList
# define variables we will be mutating
geoList = list()
follicleList = list()
pointList = list()
# iterate through the cvList and create the plane's and follicles for each plane.
for i, position in enumerate(positionList):
geo, createNode = mc.polyPlane()
for attr in ["subdivisionsHeight", "subdivisionsWidth"]:
mc.setAttr("{0}.{1}".format(createNode, attr), 1)
for attr in ["height", "width"]:
mc.setAttr("{0}.{1}".format(createNode, attr), .02)
mc.xform(geo, ws=True, t=position)
geoList.append(geo)
pointList.append(om.MPoint(*position))
mc.select(cl=True)
# combine the plane's into one piece of geometry.
newGeo = mc.polyUnite(geoList, ch=False, n="{0}_bindmesh".format(name))[0]
newGeoFaces = mc.ls("{0}.f[*]".format(newGeo))
mc.polyAutoProjection(newGeoFaces,
ch=False,
lm=False,
pb=False,
ibd=True,
cm=False,
l=2,
sc=1,
o=1,
p=6,
ps=0.2,
ws=0)
mc.select(newGeo, r=True)
selList = om.MGlobal.getActiveSelectionList()
newGeoDagPath = selList.getDagPath(0)
newGeoFn = om.MFnMesh(newGeoDagPath)
newGeoShape = mc.listRelatives(newGeo, c=True, shapes=True)[0]
# iterate through the cv points and connect the follictles to the bindmesh.
for i, point in enumerate(pointList):
uPosition, vPosition = newGeoFn.getUVAtPoint(point)[:-1]
follicle = mc.createNode("transform",
n="{0}_{1}_follicle".format(name, i))
constraint = mc.pointOnPolyConstraint(newGeoDagPath.fullPathName(),
follicle)[0]
u, v, id = newGeoFn.getUVAtPoint(point, om.MSpace.kWorld)
mc.setAttr(
"{}.{}U0".format(constraint, newGeoDagPath.partialPathName()), u)
mc.setAttr(
"{}.{}V0".format(constraint, newGeoDagPath.partialPathName()), v)
follicleList.append(follicle)
# return the bindmesh
return newGeo, follicleList
def mit(self):
import maya.cmds as mc
global LocCount
# Empty list to append the object going to be measured.
hero = []
# Getting the name of the selected object in the following 2 lines.
selection = mc.ls(sl=True)
myObjectName = selection[0]
# Adding selected object to the "hero" list.
hero.append(myObjectName)
# Creating a bounding box that selected object fits perfectly
bbox = mc.exactWorldBoundingBox(myObjectName)
temp = mc.ls('locator_*')
if len(temp) == 0:
LocCount = 0
# Items exist in the scene before this script has been runned.
scene_before = cmds.ls(l=True, transforms=True)
bBoxCube = mc.polyCube(n='bBoxCube_{index}'.format(index=LocCount), w=bbox[3] - bbox[0], h=bbox[4] - bbox[1],
d=bbox[5] - bbox[2])
mc.xform(bBoxCube, t=((bbox[3] + bbox[0]) / 2, (bbox[4] + bbox[1]) / 2, (bbox[5] + bbox[2]) / 2))
heroPivotX = mc.getAttr(hero[0] + '.scalePivotX')
heroPivotY = mc.getAttr(hero[0] + '.scalePivotY')
heroPivotZ = mc.getAttr(hero[0] + '.scalePivotZ')
mc.move(heroPivotX, heroPivotY, heroPivotZ, "bBoxCube_{index}.scalePivot".format(index=LocCount),
"bBoxCube_{index}.rotatePivot".format(index=LocCount), absolute=True)
xList = []
xListSt = []
xListSt2 = []
yList = []
yListSt = []
yListSt2 = []
zList = []
zListSt = []
zListSt2 = []
vertPos = []
vertPosList = []
selection = mc.ls(sl=True)
myObjectName = selection[0]
for i in range(0, mc.polyEvaluate(v=True)):
vertPos = mc.pointPosition(myObjectName + '.vtx[{index}]'.format(index=i))
vertPosList.append(vertPos)
xListSt.append(vertPos)
yListSt.append(vertPos)
zListSt.append(vertPos)
xListSt2.append(vertPos)
yListSt2.append(vertPos)
zListSt2.append(vertPos)
# Genişlik: +z,-y
xListSt.sort(key=lambda x: (x[0], -x[2], x[1]))
xListSt2.sort(key=lambda x: (-x[2], x[1], -x[0]))
# Yükseklik: -z,+x
yListSt.sort(key=lambda x: (x[2], -x[0], x[1]))
yListSt2.sort(key=lambda x: (x[2], -x[0], -x[1]))
# Derinlik: -x,-y
zListSt.sort(key=lambda x: (x[0], x[1], x[2]))
zListSt2.sort(key=lambda x: (x[0], x[1], -x[2]))
posList = [xListSt, xListSt2, yListSt, yListSt2, zListSt, zListSt2]
mc.hide('bBoxCube_{index}'.format(index=LocCount))
mc.scaleConstraint(hero[0], 'bBoxCube_{index}'.format(index=LocCount), mo=True, w=1)
mc.parentConstraint(hero[0], 'bBoxCube_{index}'.format(index=LocCount), mo=True, w=1)
for i in posList:
LocCount += 1
mc.spaceLocator(n='locator_#')
mc.move(i[0][0], i[0][1], i[0][2])
mc.select(myObjectName + '.vtx[{index}]'.format(index=vertPosList.index(i[0])))
mc.pointOnPolyConstraint(myObjectName + '.vtx[{index}]'.format(index=vertPosList.index(i[0])),
'locator_{index}'.format(index=LocCount))
if (LocCount % 2) == 0:
mc.distanceDimension('locator_{index}'.format(index=LocCount - 1), 'locator_{index}'.format(index=LocCount))
# Items exist in the scene after this script has been runned.
scene_after = cmds.ls(l=True, transforms=True)
# Last created items/Difference between scene_before - scene_after
new_objs = list(set(scene_after).difference(scene_before))
mc.group(new_objs, n=hero[0] + '_Dim_01')
def meshVertexConstraint(vertex='', transform='', orient=True, prefix=''):
"""
"""
# ==========
# - Checks -
# ==========
if not prefix: prefix = 'meshVertexConstraint'
if not vertex:
vtxList = cmds.filterExpand(sm=31)
if not vtxList:
raise Exception('No mesh vertex specified for constraint!')
vertex = vtxList[0]
if not transform:
transformList = cmds.ls(sl=True, type='transform')
if not transformList:
transformList = cmds.spaceLocator(n=prefix + '_locator')
transform = transformList[0]
# =================
# - Get Vertex UV -
# =================
# Get Vertex Details
mesh = cmds.ls(vertex, o=True)[0]
vtxId = glTools.utils.component.index(vertex)
# Get Mesh Vertex Function Set
uArray = OpenMaya.MFloatArray()
vArray = OpenMaya.MFloatArray()
faceArray = OpenMaya.MIntArray()
vtxIdUtil = OpenMaya.MScriptUtil()
vtxIdUtil.createFromInt(0)
vtxIdPtr = vtxIdUtil.asIntPtr()
vtxIt = glTools.utils.mesh.getMeshVertexIter(mesh)
vtxIt.setIndex(vtxId, vtxIdPtr)
# Get UV Center
uvSet = cmds.polyUVSet(mesh, q=True, cuv=True)
vtxIt.getUVs(uArray, vArray, faceArray)
uArray = list(uArray)
vArray = list(vArray)
u = uArray[0]
v = vArray[0]
# =====================
# - Create Constraint -
# =====================
r = cmds.getAttr(transform + '.r')[0]
meshCon = cmds.pointOnPolyConstraint(mesh,
transform,
n=prefix +
'_pointOnPolyConstraint')[0]
wtAlias = cmds.pointOnPolyConstraint(meshCon, q=True, wal=True)[0]
cmds.setAttr(meshCon + '.' + wtAlias.replace('W0', 'U0'), u)
cmds.setAttr(meshCon + '.' + wtAlias.replace('W0', 'V0'), v)
# Orient
if not orient:
rxConn = cmds.listConnections(transform + '.rx',
s=True,
d=False,
p=True)[0]
cmds.disconnectAttr(rxConn, transform + '.rx')
ryConn = cmds.listConnections(transform + '.ry',
s=True,
d=False,
p=True)[0]
cmds.disconnectAttr(ryConn, transform + '.ry')
rzConn = cmds.listConnections(transform + '.rz',
s=True,
d=False,
p=True)[0]
cmds.disconnectAttr(rzConn, transform + '.rz')
cmds.setAttr(transform + '.r', *r)
# =================
# - Return Result -
# =================
return meshCon
def meshFaceConstraint(face='', transform='', orient=True, prefix=''):
"""
"""
# ==========
# - Checks -
# ==========
if not prefix: prefix = 'meshFaceConstraint'
if not face:
faceList = cmds.filterExpand(sm=34)
if not faceList:
raise Exception('No mesh face specified for constraint!')
face = faceList[0]
if not transform:
transformList = cmds.ls(sl=True, type='transform')
if not transformList:
transformList = cmds.spaceLocator(n=prefix + '_locator')
transform = transformList[0]
# ======================
# - Get Face UV Center -
# ======================
# Get Face Details
mesh = cmds.ls(face, o=True)[0]
faceId = glTools.utils.component.index(face)
# Get Mesh Face Function Set
uArray = OpenMaya.MFloatArray()
vArray = OpenMaya.MFloatArray()
faceIdUtil = OpenMaya.MScriptUtil()
faceIdUtil.createFromInt(0)
faceIdPtr = faceIdUtil.asIntPtr()
faceIt = glTools.utils.mesh.getMeshFaceIter(mesh)
faceIt.setIndex(faceId, faceIdPtr)
# Get UV Center
uvSet = cmds.polyUVSet(mesh, q=True, cuv=True)
faceIt.getUVs(uArray, vArray)
uArray = list(uArray)
vArray = list(vArray)
uvCount = len(uArray)
u = 0.0
v = 0.0
for i in range(uvCount):
u += (uArray[i] / uvCount)
v += (vArray[i] / uvCount)
# =====================
# - Create Constraint -
# =====================
r = cmds.getAttr(transform + '.r')[0]
meshCon = cmds.pointOnPolyConstraint(mesh,
transform,
n=prefix +
'_pointOnPolyConstraint')[0]
wtAlias = cmds.pointOnPolyConstraint(meshCon, q=True, wal=True)[0]
cmds.setAttr(meshCon + '.' + wtAlias.replace('W0', 'U0'), u)
cmds.setAttr(meshCon + '.' + wtAlias.replace('W0', 'V0'), v)
# Orient
if not orient:
rxConn = cmds.listConnections(transform + '.rx',
s=True,
d=False,
p=True)[0]
cmds.disconnectAttr(rxConn, transform + '.rx')
ryConn = cmds.listConnections(transform + '.ry',
s=True,
d=False,
p=True)[0]
cmds.disconnectAttr(ryConn, transform + '.ry')
rzConn = cmds.listConnections(transform + '.rz',
s=True,
d=False,
p=True)[0]
cmds.disconnectAttr(rzConn, transform + '.rz')
cmds.setAttr(transform + '.r', *r)
# =================
# - Return Result -
# =================
return meshCon
if '.vtx' in objects[0]:
#*********** Get parent name ******************
ObjectParent = cmds.listRelatives(objects[1], p=True)
#*********** Get object position ******************
position = cmds.xform(objects[0], q=True, ws=True, t=True)
#******* Create a group driven by pointOnPolyContraint **********
groupName = cmds.group(em=True, name=("grp_ptc_" + objects[1]))
cmds.parent(groupName, ObjectParent[0])
#******* Get the UV map relationed with the vtx **********
mapList = cmds.polyListComponentConversion(objects[0], fv=- True, tuv=True)
#******* Create a pointOnPolyContraint **********
contraintNames = cmds.pointOnPolyConstraint(objects[0],
groupName,
mo=False,
o=[0, 0, 0],
w=1)
#************* Disconnect rotation chanel ****************************************
mel.eval("CBdeleteConnection " + groupName + ".rotateX;")
mel.eval("CBdeleteConnection " + groupName + ".rotateY;")
mel.eval("CBdeleteConnection " + groupName + ".rotateZ;")
#******* Get U and V values from map array **********
uvvalues = cmds.polyEditUV(mapList, q=True)
contraintAttr = cmds.listAttr(contraintNames[0], k=True)
#******* Assign the U and V values respectively from maplist **********
cmds.setAttr((contraintNames[0] + "." + contraintAttr[10]), uvvalues[0])
cmds.setAttr((contraintNames[0] + "." + contraintAttr[11]), uvvalues[1])
groupDrv = _2GrpUp(objects[1])
cmds.parent(groupDrv, groupName)
GrpSubsTrans(objects[1])
def meshVertexConstraint(vertex='',transform='',orient=True,prefix=''):
'''
'''
# ==========
# - Checks -
# ==========
if not prefix: prefix = 'meshVertexConstraint'
if not vertex:
vtxList = mc.filterExpand(sm=31)
if not vtxList: raise Exception('No mesh vertex specified for constraint!')
vertex = vtxList[0]
if not transform:
transformList = mc.ls(sl=True,type='transform')
if not transformList: transformList = mc.spaceLocator(n=prefix+'_locator')
transform = transformList[0]
# =================
# - Get Vertex UV -
# =================
# Get Vertex Details
mesh = mc.ls(vertex,o=True)[0]
vtxId = glTools.utils.component.index(vertex)
# Get Mesh Vertex Function Set
uArray = OpenMaya.MFloatArray()
vArray = OpenMaya.MFloatArray()
faceArray = OpenMaya.MIntArray()
vtxIdUtil = OpenMaya.MScriptUtil()
vtxIdUtil.createFromInt(0)
vtxIdPtr = vtxIdUtil.asIntPtr()
vtxIt = glTools.utils.mesh.getMeshVertexIter(mesh)
vtxIt.setIndex(vtxId,vtxIdPtr)
# Get UV Center
uvSet = mc.polyUVSet(mesh,q=True,cuv=True)
vtxIt.getUVs(uArray,vArray,faceArray)
uArray = list(uArray)
vArray = list(vArray)
u = uArray[0]
v = vArray[0]
# =====================
# - Create Constraint -
# =====================
r = mc.getAttr(transform+'.r')[0]
meshCon = mc.pointOnPolyConstraint(mesh,transform,n=prefix+'_pointOnPolyConstraint')[0]
wtAlias = mc.pointOnPolyConstraint(meshCon,q=True,wal=True)[0]
mc.setAttr(meshCon+'.'+wtAlias.replace('W0','U0'),u)
mc.setAttr(meshCon+'.'+wtAlias.replace('W0','V0'),v)
# Orient
if not orient:
rxConn = mc.listConnections(transform+'.rx',s=True,d=False,p=True)[0]
mc.disconnectAttr(rxConn,transform+'.rx')
ryConn = mc.listConnections(transform+'.ry',s=True,d=False,p=True)[0]
mc.disconnectAttr(ryConn,transform+'.ry')
rzConn = mc.listConnections(transform+'.rz',s=True,d=False,p=True)[0]
mc.disconnectAttr(rzConn,transform+'.rz')
mc.setAttr(transform+'.r',*r)
# =================
# - Return Result -
# =================
return meshCon
def meshFaceConstraint(face='',transform='',orient=True,prefix=''):
'''
'''
# ==========
# - Checks -
# ==========
if not prefix: prefix = 'meshFaceConstraint'
if not face:
faceList = mc.filterExpand(sm=34)
if not faceList: raise Exception('No mesh face specified for constraint!')
face = faceList[0]
if not transform:
transformList = mc.ls(sl=True,type='transform')
if not transformList: transformList = mc.spaceLocator(n=prefix+'_locator')
transform = transformList[0]
# ======================
# - Get Face UV Center -
# ======================
# Get Face Details
mesh = mc.ls(face,o=True)[0]
faceId = glTools.utils.component.index(face)
# Get Mesh Face Function Set
uArray = OpenMaya.MFloatArray()
vArray = OpenMaya.MFloatArray()
faceIdUtil = OpenMaya.MScriptUtil()
faceIdUtil.createFromInt(0)
faceIdPtr = faceIdUtil.asIntPtr()
faceIt = glTools.utils.mesh.getMeshFaceIter(mesh)
faceIt.setIndex(faceId,faceIdPtr)
# Get UV Center
uvSet = mc.polyUVSet(mesh,q=True,cuv=True)
faceIt.getUVs(uArray,vArray)
uArray = list(uArray)
vArray = list(vArray)
uvCount = len(uArray)
u = 0.0
v = 0.0
for i in range(uvCount):
u += (uArray[i] / uvCount)
v += (vArray[i] / uvCount)
# =====================
# - Create Constraint -
# =====================
r = mc.getAttr(transform+'.r')[0]
meshCon = mc.pointOnPolyConstraint(mesh,transform,n=prefix+'_pointOnPolyConstraint')[0]
wtAlias = mc.pointOnPolyConstraint(meshCon,q=True,wal=True)[0]
mc.setAttr(meshCon+'.'+wtAlias.replace('W0','U0'),u)
mc.setAttr(meshCon+'.'+wtAlias.replace('W0','V0'),v)
# Orient
if not orient:
rxConn = mc.listConnections(transform+'.rx',s=True,d=False,p=True)[0]
mc.disconnectAttr(rxConn,transform+'.rx')
ryConn = mc.listConnections(transform+'.ry',s=True,d=False,p=True)[0]
mc.disconnectAttr(ryConn,transform+'.ry')
rzConn = mc.listConnections(transform+'.rz',s=True,d=False,p=True)[0]
mc.disconnectAttr(rzConn,transform+'.rz')
mc.setAttr(transform+'.r',*r)
# =================
# - Return Result -
# =================
return meshCon
