IMP  2.0.0
The Integrative Modeling Platform
symmetry.py
1 ## \example core/symmetry.py
2 ## Show how to use the code in core to enforce symmetry.
3 
4 import IMP.core
5 import IMP.container
6 
7 m= IMP.Model()
8 m.set_log_level(IMP.base.SILENT)
9 ps =[]
10 # create 4 xyz particles
11 for i in range(0,4):
12  p = IMP.Particle(m)
13  ps.append(p)
16 
17 # set the 0 particle as the reference particle for the others as
18 # they will get their positions from it
19 for i,p in enumerate(ps[1:]):
20  # the other 3 particles are all symmetric copies of the first
22  # the symmetry operation is rotation around the z axis
23  tr= IMP.algebra.Transformation3D(IMP.algebra.get_rotation_about_axis(IMP.algebra.get_basis_vector_3d(2),
24  3.14/2.0*(i+1)),
25  IMP.algebra.Vector3D(0,0,0))
27  # set up a constraint for the one particle, if you have more than one with the same symmetry
28  # transform, you should use an IMP.container.SingletonsConstraint.
29  c= IMP.core.SingletonConstraint(sm, None, p)
30  m.add_score_state(c)
32  1)
33 m.add_restraint(r)
34 
35 d0= IMP.core.XYZ(ps[0])
36 # print only optimize the main particle
37 d0.set_coordinates_are_optimized(True)
38 
40 opt.optimize(10)
41 print "score is ", m.evaluate(False)
42 for p in ps:
43  print p.get_name(), IMP.core.XYZ(p).get_coordinates()