def test_compute_ligand_atom_counts(self): """ TestBinana: Compute the Number of Ligand Atom Counts. """ counts_dict = {} for name, _, ligand in self.test_cases: counts_dict[name] = compute_ligand_atom_counts(ligand) for name, counts in counts_dict.iteritems(): print "Processing ligand atom counts for %s" % name assert len(counts) == len(Binana.atom_types)
def test_compute_ligand_atom_counts(self): """ TestBinana: Compute the Number of Ligand Atom Counts. """ counts_dict = {} for name, _, ligand in self.test_cases: counts_dict[name] = compute_ligand_atom_counts( ligand) for name, counts in counts_dict.iteritems(): print "Processing ligand atom counts for %s" % name assert len(counts) == len(Binana.atom_types)
def test_compute_ligand_atom_counts(self): """ TestBinana: Compute the Number of Ligand Atom Counts. """ counts_dict = {} for name, _, ligand in self.test_cases: counts_dict[name] = compute_ligand_atom_counts(ligand) for name, counts in counts_dict.iteritems(): print "Processing ligand atom counts for %s" % name # TODO(rbharath): This code is useful for debugging. Remove once # codebase is stable enough. #for key in Binana.atom_types: # if key in counts: # del counts[key] #print "Residual counts:" #print counts assert len(counts) == len(Binana.atom_types)
def test_compute_ligand_atom_counts(self): """ TestBinana: Compute the Number of Ligand Atom Counts. """ counts_dict = {} for name, _, ligand in self.test_cases: counts_dict[name] = compute_ligand_atom_counts( ligand) for name, counts in counts_dict.iteritems(): print "Processing ligand atom counts for %s" % name # TODO(rbharath): This code is useful for debugging. Remove once # codebase is stable enough. #for key in Binana.atom_types: # if key in counts: # del counts[key] #print "Residual counts:" #print counts assert len(counts) == len(Binana.atom_types)