def test_sqrted(self): atoms = create(StaCustom(self.custom_data)) molecules = create(StaMolecules(atoms)) molecules.append_updater(AddCoMPosition(atoms)) molecules.append_updater(AddInertiaMoment(atoms)) molecules.append_updater(AddGyrationRadius().with_sqrted()) data = molecules.get_data()[0] self.assertAlmostEqual(data["Rg"], 1.0) self.assertAlmostEqual(data["Rg(x+y)"], sqrt(2/3)) self.assertAlmostEqual(data["Rg(x)"], sqrt(1/3)) self.assertEqual(data["Rg(x+y)"], data["Rg(y+z)"]) self.assertEqual(data["Rg(x+y)"], data["Rg(z+x)"]) self.assertEqual(data["Rg(x)"], data["Rg(y)"]) self.assertEqual(data["Rg(x)"], data["Rg(z)"]) self.assertEqual( molecules.get_keys(), { "id", "atom-ids", "mass", "xu", "yu", "zu", "I_xx", "I_yy", "I_zz", "I_xy", "I_xz", "I_yz", "Rg^2", "Rg^2(y+z)", "Rg^2(z+x)", "Rg^2(x+y)", "Rg^2(x)", "Rg^2(y)", "Rg^2(z)", "Rg", "Rg(y+z)", "Rg(z+x)", "Rg(x+y)", "Rg(x)", "Rg(y)", "Rg(z)"})
def test_squared(self): custom_data = deepcopy(self.custom_data) custom_data[0]["xu"] = 3.0 custom_data[1]["xu"] = -1.0 atoms = create(StaCustom(custom_data)) molecules = create(StaMolecules(atoms)) molecules.append_updater(AddCoMPosition(atoms)) molecules.append_updater(AddInertiaMoment(atoms)) molecules.append_updater(AddGyrationRadius()) data = molecules.get_data()[0] self.assertAlmostEqual(data["Rg^2"], 2.0) self.assertAlmostEqual(data["Rg^2(x+y)"], 5/3) self.assertAlmostEqual(data["Rg^2(y+z)"], 2/3) self.assertAlmostEqual(data["Rg^2(z+x)"], 5/3) self.assertAlmostEqual(data["Rg^2(x)"], 4/3) self.assertAlmostEqual(data["Rg^2(y)"], 1/3) self.assertAlmostEqual(data["Rg^2(z)"], 1/3) self.assertEqual( molecules.get_keys(), { "id", "atom-ids", "mass", "xu", "yu", "zu", "I_xx", "I_yy", "I_zz", "I_xy", "I_xz", "I_yz", "Rg^2", "Rg^2(y+z)", "Rg^2(z+x)", "Rg^2(x+y)", "Rg^2(x)", "Rg^2(y)", "Rg^2(z)"})
def test_gyration_radius(self): n_samples = 2000 rs = 100*np.random.random_sample((n_samples, 3)) - 50 abst_atoms = [ { "id": i+1, "mol": i//20 + 1, "mass": 12.011, "xu": rs[i,0], "yu": rs[i,1], "zu": rs[i,2] } for i in range(2000)] atoms = create(StaCustom(abst_atoms)) moles = create(StaMolecules(atoms)) moles.append_updater(AddCoMPosition(atoms)) moles.append_updater(AddChildPositions(atoms, "atom")) moles.append_updater(AddInertiaMoment(atoms)) moles.append_updater(AddGyrationRadius()) data = moles.get_data() for d in data: xyzs = d["atom-xs"] + d["atom-ys"] + d["atom-zs"] self.assertAlmostEqual( d["Rg^2"], sum([a*a for a in xyzs])/len(d["atom-ids"]))
def test_cubic_isotropic(self): abst_atoms = [] mol_id = 0 for ix in range(10): for iy in range(10): for iz in range(10): mol_id += 1 abst_atoms.extend( self.create_rotated_abst_atoms_in_mol( uniform(-0.5, 0.5), 6*(mol_id-1)+1, mol_id, 1.0*ix, 1.0*iy, 1.0*iz)) atoms = create(StaCustom(abst_atoms)) mols = create(StaMolecules(atoms)) mols.append_updater(AddCoMPosition(atoms)) mols.append_updater(AddInertiaMoment(atoms)) box = create(StaCustom({ "lo_x": 0.0, "hi_x": 10.0, "pbc_x": True, "lo_y": 0.0, "hi_y": 10.0, "pbc_y": True, "lo_z": 0.0, "hi_z": 10.0, "pbc_z": True})) mols.append_updater(AddWrappedPosition(box)) pro = ProRDFWD(mols, box) num_bins = 20 bin_width = 0.1 pro.set_bin(bin_width, num_bins) execute_omp(pro) self.assertTrue(np.allclose( pro.get_r_axis(), np.arange(0.0, num_bins*bin_width, bin_width))) expected_rdf = np.zeros(num_bins) data = [ {"index": 10, "num": 6}, {"index": 14, "num": 12}, {"index": 17, "num": 8}] for d in data: r_inner = (d["index"]-0.5) * bin_width r_outer = (d["index"]+0.5) * bin_width dV = (4.0*np.pi/3.0) * ( np.power(r_outer, 3) - np.power(r_inner, 3)) expected_rdf[d["index"]] = (d["num"]/dV)/1.0 self.assertTrue(np.allclose(pro.get_rdf(), expected_rdf))
def test_with_and_without_modification(self): n_traj = 100 n_mols = 100 abst_atoms_traj = [] mol_id = 0 for i in range(n_traj): abst_atoms = [] mol_id = 0 for i in range(n_mols): mol_id += 1 abst_atoms.extend( self.create_rotated_abst_atoms_in_mol( uniform(-1.0, 1.0), 6*(mol_id-1)+1, mol_id, uniform(-50.0, 50.0), uniform(-50.0, 50.0), uniform(-50.0, 50.0))) abst_atoms_traj.append(abst_atoms) atomses = [ create(StaCustom(abst_atoms)) for abst_atoms in abst_atoms_traj] boxes = [ create(StaCustom({ "lo_x": 0.0, "hi_x": 10.0, "pbc_x": True, "lo_y": 0.0, "hi_y": 10.0, "pbc_y": True, "lo_z": 0.0, "hi_z": 10.0, "pbc_z": True })) for i in range(n_traj)] molses = [ create(StaMolecules(atoms)) .append_updater(AddCoMPosition(atoms)) .append_updater(AddInertiaMoment(atoms)) .append_updater(AddWrappedPosition(box)) for atoms, box in zip(atomses, boxes)] pro_with_modify = ProRDFWD(list(zip(molses, boxes))) pro_without_modify = ProRDF(list(zip(molses, boxes))) num_bins = 20 bin_width = 0.1 pro_with_modify.set_bin(bin_width, num_bins) pro_without_modify.set_bin(bin_width, num_bins) execute_omp([pro_with_modify, pro_without_modify]) self.assertTrue(np.allclose( pro_with_modify.get_rdf(), pro_without_modify.get_rdf())) self.assertTrue(np.allclose( np.array(pro_with_modify.get_rdf_traj()), np.array(pro_without_modify.get_rdf_traj())))
def test_error02(self): atoms = create(StaCustom(self.custom_data)) molecules = create(StaMolecules(atoms)) molecules.append_updater(AddInertiaMoment(atoms)) check_error_msg( self, "RuntimeError: Missing key(s) 'xu', 'yu', 'zu' in AddInertiaMoment", molecules.get_data)
def test_for_beads(self): n_samples = 50 interval = 1000 atomses = [ create(StaDumpAtoms("dumps_atom/atom.{}.dump".format(i), i)) for i in range(0, n_samples * interval + 1, interval) ] boxes = [ create(StaDumpBox("dumps_atom/atom.{}.dump".format(i), i)) for i in range(0, n_samples * interval + 1, interval) ] molses = [create(StaMolecules(atoms)) for atoms in atomses] mappings = [[0, 1, 2, 12, 13, 14, 15, 16, 17, 18], [3, 4, 5, 19, 20, 21, 22, 23, 24], [6, 7, 8, 25, 26, 27, 28, 29, 30], [9, 10, 11, 31, 32, 33, 34, 35, 36, 37]] abst_beads = [{ "type": 1, "indices-in-mol": mapping } for mapping in mappings] beadses = [ create(StaBeads(mols, abst_beads)).append_updater( AddCoMPosition(atoms)).append_updater( AddInertiaMoment(atoms)).append_updater( AddWrappedPosition(box)) for atoms, box, mols in zip(atomses, boxes, molses) ] pro = ProRDFWD(list(zip(beadses, boxes))) num_bins = 150 bin_width = 0.1 pro.set_bin(bin_width, num_bins) pro.set_margin(2.0) execute_omp(pro) Rg2s = pro.get_squared_gyration_radius() self.assertTrue( np.allclose(Rg2s["isotropic"], (1 / 3) * Rg2s["parallel"] + (2 / 3) * Rg2s["perpendicular"])) Rg2s_traj = pro.get_squared_gyration_radius_traj() self.assertTrue( np.allclose(np.array(Rg2s_traj["isotropic"]), (1 / 3) * np.array(Rg2s_traj["parallel"]) + (2 / 3) * np.array(Rg2s_traj["perpendicular"])))
def test_error01(self): atoms = create(StaCustom(self.custom_data)) molecules = create(StaMolecules(atoms)) molecules.append_updater(AddCoMPosition(atoms)) molecules.append_updater( AddInertiaMoment(create(StaCustom({"foo": 0, "bar": 1})))) check_error_msg( self, "RuntimeError: Missing key(s) 'id', 'mass', 'xu', 'yu', 'zu' in AddInertiaMoment", molecules.get_data)
def test_isotropic(self): atoms = create(StaCustom(self.custom_data)) molecules = create(StaMolecules(atoms)) molecules.append_updater(AddCoMPosition(atoms)) molecules.append_updater(AddInertiaMoment(atoms)) data = molecules.get_data()[0] self.assertEqual(data["I_xx"], data["I_yy"]) self.assertEqual(data["I_yy"], data["I_zz"]) self.assertEqual(data["I_xy"], data["I_xz"]) self.assertEqual(data["I_xy"], data["I_yz"])
def test_isotropic(self): atoms = create(StaCustom(self.custom_data)) molecules = create(StaMolecules(atoms)) molecules.append_updater(AddCoMPosition(atoms)) molecules.append_updater(AddInertiaMoment(atoms)) molecules.append_updater(AddMolecularOrientation()) data = molecules.get_data()[0] evals = data["I_values"] self.assertEqual(evals[0], evals[1]) self.assertEqual(evals[0], evals[2]) evecs = data["I_vectors"] self.assertTrue(np.allclose(np.array(evecs), np.identity(3)))
def test_x_oriented(self): atoms = create( StaCustom([ { "id": 1, "mol": 1, "mass": 1.0, "xu": 1.0, "yu": 1.0, "zu": 1.0 }, { "id": 2, "mol": 1, "mass": 1.0, "xu": 2.0, "yu": 1.0, "zu": 1.0 }, { "id": 3, "mol": 1, "mass": 1.0, "xu": 4.0, "yu": 1.0, "zu": 1.0 }, { "id": 4, "mol": 1, "mass": 1.0, "xu": 8.0, "yu": 1.0, "zu": 1.0 }, ])) molecules = create(StaMolecules(atoms)) molecules.append_updater(AddCoMPosition(atoms)) molecules.append_updater(AddInertiaMoment(atoms)) molecules.append_updater(AddMolecularOrientation()) data = molecules.get_data()[0] self.assertEqual(data["S_x"], 1.0) self.assertEqual(data["S_y"], -0.5) self.assertEqual(data["S_z"], -0.5)