7cacb35845
the tip isnt used for a label anyway. added comments explaining whats going on. only effects clever numbuts internaly. type fixes for weightpaint_envelope_assign.py
241 lines
6.2 KiB
Python
241 lines
6.2 KiB
Python
#!BPY
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"""
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Name: 'Envelope via Group Objects'
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Blender: 242
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Group: 'WeightPaint'
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Tooltip: 'Assigns weights to vertices via object envelopes'
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"""
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__author__ = ["Campbell Barton"]
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__url__ = ("blender", "blenderartist.org")
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__version__ = "0.1"
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# ***** BEGIN GPL LICENSE BLOCK *****
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#
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# This program is free software; you can redistribute it and/or
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# modify it under the terms of the GNU General Public License
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# as published by the Free Software Foundation; either version 2
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# of the License, or (at your option) any later version.
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#
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# This program is distributed in the hope that it will be useful,
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# but WITHOUT ANY WARRANTY; without even the implied warranty of
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# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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# GNU General Public License for more details.
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#
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# You should have received a copy of the GNU General Public License
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# along with this program; if not, write to the Free Software Foundation,
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# Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
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#
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# ***** END GPL LICENCE BLOCK *****
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# --------------------------------------------------------------------------
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def intersection_data(ob):
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'''
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Takes an object and returns raw triangles and tri bounds.
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returns a list of (v1,v2,v3, xmin, ymin, xmax, ymax)
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... to be used for ray intersection
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'''
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global tot_ymin, tot_xmin, tot_ymax, tot_xmax, tot_zmin, tot_zmax
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tot_zmin = tot_ymin = tot_xmin = 100000000.0
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tot_zmax = tot_ymax = tot_xmax = -100000000.0
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def tribounds_xy(v1,v2,v3):
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'''
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return the 3 vecs with bounds, also update tot_*min/max
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'''
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global tot_ymin, tot_xmin, tot_ymax, tot_xmax, tot_zmin, tot_zmax
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xmin = xmax = v1.x
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ymin = ymax = v1.y
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x = v2.x
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y = v2.y
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if x>xmax: xmax = x
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if y>ymax: ymax = y
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if x<xmin: xmin = x
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if y<ymin: ymin = y
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x = v3.x
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y = v3.y
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if x>xmax: xmax = x
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if y>ymax: ymax = y
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if x<xmin: xmin = x
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if y<ymin: ymin = y
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# totbounds
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for z in v1.z, v2.z, v3.z:
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if z>tot_zmax: tot_zmax = z
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if z<tot_zmin: tot_zmin = z
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# maintain global min/max for x and y
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if xmax>tot_xmax: tot_xmax = xmax
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if xmin<tot_xmin: tot_xmin = xmin
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if ymax>tot_ymax: tot_ymax = ymax
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if ymin<tot_ymin: tot_ymin = ymin
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return v1,v2,v3, xmin, ymin, xmax, ymax
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me = BPyMesh.getMeshFromObject(ob)
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if not me:
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return []
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me.transform(ob.matrixWorld)
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mesh_data = []
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# copy all the vectors so when the mesh is free'd we still have access.
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mesh_vert_cos= [v.co.copy() for v in me.verts]
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for f in me.faces:
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f_v = [mesh_vert_cos[v.index] for v in f]
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mesh_data.append( tribounds_xy(f_v[0], f_v[1], f_v[2]) )
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if len(f) == 4:
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mesh_data.append( tribounds_xy(f_v[0], f_v[2], f_v[3]) )
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me.verts = None # free some memory
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return ob.name, mesh_data, tot_xmin, tot_ymin, tot_zmin, tot_xmax, tot_ymax, tot_zmax
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from Blender import *
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ray = Mathutils.Vector(0,0,-1)
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def point_in_data(point, mesh_data_tuple):
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ob_name, mesh_data, tot_xmin, tot_ymin, tot_zmin, tot_xmax, tot_ymax, tot_zmax = mesh_data_tuple
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Intersect = Mathutils.Intersect
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x = point.x
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y = point.y
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z = point.z
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# Bouds check for all mesh data
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if not (\
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tot_zmin < z < tot_zmax and\
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tot_ymin < y < tot_ymax and\
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tot_xmin < x < tot_xmax\
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):
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return False
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def isect(tri_data):
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v1,v2,v3, xmin, ymin, xmax, ymax = tri_data
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if not (xmin < x < xmax and ymin < y < ymax):
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return False
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if v1.z < z and v2.z < z and v3.z < z:
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return False
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isect = Intersect(v1, v2,v3, ray, point, 1) # Clipped.
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if isect and isect.z > z: # This is so the ray only counts if its above the point.
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return True
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else:
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return False
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# return len([None for tri_data in mesh_data if isect(tri_data)]) % 2
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return len( filter(isect, mesh_data) ) % 2
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import BPyMesh
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def env_from_group(ob_act, grp, PREF_UPDATE_ACT=True):
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me = ob_act.getData(mesh=1)
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if PREF_UPDATE_ACT:
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act_group = me.activeGroup
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if act_group == None:
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Draw.PupMenu('Error%t|No active vertex group.')
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return
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try:
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ob = Object.Get(act_group)
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except:
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Draw.PupMenu('Error%t|No object named "'+ act_group +'".')
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return
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group_isect = intersection_data(ob)
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else:
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# get intersection data
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# group_isect_data = [intersection_data(ob) for ob in group.objects]
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group_isect_data = []
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for ob in grp.objects:
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if ob != ob_act: # in case we're in the group.
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gid = intersection_data(ob)
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if gid[1]: # has some triangles?
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group_isect_data.append( gid )
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# we only need 1 for the active group
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if PREF_UPDATE_ACT:
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break
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# sort by name
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group_isect_data.sort()
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if PREF_UPDATE_ACT:
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group_names, vweight_list = BPyMesh.meshWeight2List(me)
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group_index = group_names.index(act_group)
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else:
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group_names = [gid[0] for gid in group_isect_data]
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vweight_list= [[0.0]* len(group_names) for i in xrange(len(me.verts))]
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ob_act_mat = ob_act.matrixWorld
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for vi, v in enumerate(me.verts):
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# Get all the groups for this vert
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co = v.co * ob_act_mat
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if PREF_UPDATE_ACT:
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# only update existing
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if point_in_data(co, group_isect): w = 1.0
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else: w = 0.0
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vweight_list[vi][group_index] = w
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else:
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# generate new vgroup weights.
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for group_index, group_isect in enumerate(group_isect_data):
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if point_in_data(co, group_isect):
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vweight_list[vi][group_index] = 1.0
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BPyMesh.list2MeshWeight(me, group_names, vweight_list)
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import BPyMessages
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def main():
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scn= Scene.GetCurrent()
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ob_act = scn.objects.active
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if not ob_act or ob_act.type != 'Mesh':
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BPyMessages.Error_NoMeshActive()
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return
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PREF_ENV_GROUPNAME= Draw.Create('')
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PREF_UPDATE_ACT= Draw.Create(True)
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pup_block= [\
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('Update Active', PREF_UPDATE_ACT, 'Only apply envelope weights to the active group.'),\
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'...or initialize from group',\
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('GR:', PREF_ENV_GROUPNAME, 0, 21, 'The name of an existing groups, each member will be used as a weight envelope'),\
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]
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if not Draw.PupBlock('Envelope From Group...', pup_block):
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return
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PREF_UPDATE_ACT= PREF_UPDATE_ACT.val
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if not PREF_UPDATE_ACT:
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try:
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grp = Group.Get(PREF_ENV_GROUPNAME.val)
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except:
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Draw.PupMenu('Error%t|Group "' + PREF_ENV_GROUPNAME.val + '" does not exist.')
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return
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else:
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grp = None
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Window.WaitCursor(1)
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t = sys.time()
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env_from_group(ob_act, grp, PREF_UPDATE_ACT)
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print 'assigned envelopes in:', sys.time() - t
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Window.WaitCursor(0)
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if __name__ == '__main__':
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main()
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