import IMP import IMP.test import IMP.core import IMP.container import os max_score=.02 class Tests(IMP.test.TestCase): def check_model(self, m, lsc, lpc): s= m.evaluate(False) print "score is ", s for p0 in lsc.get_particles(): p0.show() self.assertLessEqual(s, max_score) alli= lpc.get_particle_pairs() for p0 in lsc.get_particles(): for p1 in lsc.get_particles(): if p0 != p1: d0= IMP.core.XYZR(p0) d1= IMP.core.XYZR(p1) d= IMP.core.get_distance(d0,d1) if (p0,p1) in alli or (p1,p0) in alli: self.assertAlmostEqual(d, 0, delta=.2) else: self.assertGreaterEqual(d, -.2) def test_cg_woods_func(self): """Check that MCCG can make spheres connect not penetrate""" m= IMP.Model() n=10 print 1 ds= IMP.core.create_xyzr_particles(m, n, 2) lsc= IMP.container.ListSingletonContainer(ds) print 2 cpf=IMP.core.QuadraticClosePairsFinder() print 2.1 cpc= IMP.container.ClosePairContainer(lsc, .1, cpf) print 2.2 evr= IMP.container.PairsRestraint(IMP.core.SphereDistancePairScore(IMP.core.HarmonicLowerBound(0,1)), cpc) print 3 m.add_restraint(evr) evr.set_log_level(IMP.WARNING) print 4 lpc= IMP.container.ListPairContainer(m) print "finding pairs" for i in range(0,n/2): print lsc.get_particle(2*i) qp=lsc.get_particle(2*i) print qp.get_name() print qp pp=(lsc.get_particle(2*i), lsc.get_particle(2*i+1)) print pp pp2=(lsc.get_particle(2*i), lsc.get_particle(2*i+1)) print pp2 print str(pp2[0]) lpc.add_particle_pair(pp2) d= IMP.core.SphereDistancePairScore(IMP.core.HarmonicUpperBound(0,1)) pr= IMP.container.PairsRestraint(d, lpc) pr.set_log_level(IMP.WARNING) m.add_restraint(pr) s= IMP.core.MCCGSampler(m) #wos=IMP.WriteParticlesOptimizerState(ds, self.get_tmp_file_name("mccg")+".%1%.imp") #wos.set_skip_steps(10) #s.add_optimizer_state(wos) m.set_maximum_score(max_score) s.set_number_of_monte_carlo_steps(1000) s.set_number_of_conjugate_gradient_steps(100) IMP.base.set_log_level(IMP.base.TERSE) s.set_number_of_attempts(2) print "sampling" cs=s.get_sample() print "found ", cs.get_number_of_configurations(), cs.get_name() for i in range(0, cs.get_number_of_configurations()): cs.load_configuration(i) nm= "config"+str(i)+".pym" #w= IMP.display.ChimeraWriter(nm) #for p in lsc.get_particles(): # d= IMP.core.XYZR(p) # g= IMP.core.XYZRGeometry(d) # w.add_geometry(g) self.check_model(m, lsc, lpc) if __name__ == '__main__': IMP.test.main()