def relaxVerts(cls, verts, mesh, progBar='', *args, **kwargs):
''' '''
if verts:
pm.polyAverageVertex(verts, i=1)
cls.shrinkWrap(verts, mesh, progBar)
else:
pm.warning('No verts selected')
def relaxVerts(cls, verts, mesh, progBar='', *args, **kwargs):
''' '''
if verts:
pm.polyAverageVertex(verts, i=1)
cls.shrinkWrap(verts, mesh, progBar)
else:
pm.warning('No verts selected')
def relax():
# check the selection
selection = pm.ls(sl=1)
if not selection:
return
# convert the selection to vertices
verts = pm.ls(pm.polyListComponentConversion(tv=1))
if not verts:
return
shape = verts[0].node()
# duplicate the geometry
dup = shape.duplicate()[0]
dup_shape = dup.getShape()
# now relax the selected vertices of the original shape
pm.polyAverageVertex(verts, i=1, ch=0)
# now transfer point positions using transferAttributes
ta_node = pm.transferAttributes(
dup,
verts,
transferPositions=True,
transferNormals=False,
transferUVs=False,
transferColors=False,
sampleSpace=0,
searchMethod=0,
flipUVs=False,
colorBorders=1,
)
# delete history
pm.delete(shape, ch=1)
# delete the duplicate surface
pm.delete(dup)
# reselect selection
pm.select(selection)
def relax():
# check the selection
selection = pm.ls(sl=1)
if not selection:
return
# convert the selection to vertices
verts = pm.ls(pm.polyListComponentConversion(tv=1))
if not verts:
return
shape = verts[0].node()
# duplicate the geometry
dup = shape.duplicate()[0]
dup_shape = dup.getShape()
# now relax the selected vertices of the original shape
pm.polyAverageVertex(verts, i=1, ch=0)
# now transfer point positions using transferAttributes
ta_node = pm.transferAttributes(
dup,
verts,
transferPositions=True,
transferNormals=False,
transferUVs=False,
transferColors=False,
sampleSpace=0,
searchMethod=0,
flipUVs=False,
colorBorders=1,
)
# delete history
pm.delete(shape, ch=1)
# delete the duplicate surface
pm.delete(dup)
# reselect selection
pm.select(selection)
