コード例 #1
0
    def setUp(self):
        self.reaction = Reaction("CC+[O]O_[CH2]C+OO")
        self.reaction.get_labeled_reaction()
        self.reaction.generate_reactants_and_products()

        directory = os.path.expandvars("$AUTOTST/test")
        if not os.path.exists(
                os.path.join(directory, "ts", self.reaction.label)):
            os.makedirs(os.path.join(directory, "ts", self.reaction.label))
        if not os.path.exists(
                os.path.join(directory, "ts", self.reaction.label,
                             self.reaction.label + ".log")):
            shutil.copy(
                os.path.join(directory, "bin", "log-files",
                             self.reaction.label + "_forward_0.log"),
                os.path.join(directory, "ts", self.reaction.label,
                             self.reaction.label + ".log"))

        for sp in self.reaction.reactants + self.reaction.products:
            for smiles in sp.conformers.keys():
                if not os.path.exists(
                        os.path.join(directory, "species", smiles)):
                    os.makedirs(os.path.join(directory, "species", smiles))
                if not os.path.exists(
                        os.path.join(directory, "species", smiles,
                                     smiles + ".log")):
                    shutil.copy(
                        os.path.join(directory, "bin", "log-files",
                                     smiles + "_0.log"),
                        os.path.join(directory, "species", smiles,
                                     smiles + ".log"))

        self.statmech = StatMech(reaction=self.reaction, directory=directory)
コード例 #2
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    def setUp(self):
        self.reaction = Reaction("CC+[O]O_[CH2]C+OO")
        self.reaction.get_labeled_reaction()
        self.ts = self.reaction.ts["forward"][0]
        self.ts.get_molecules()

        directory = os.path.expandvars("$AUTOTST/test")
        if not os.path.exists(
                os.path.join(directory, "ts", self.reaction.label,
                             "conformers")):
            os.makedirs(
                os.path.join(directory, "ts", self.reaction.label,
                             "conformers"))
        if not os.path.exists(
                os.path.join(directory, "ts", self.reaction.label,
                             self.reaction.label + ".log")):
            shutil.copy(
                os.path.join(directory, "bin", "log-files",
                             self.reaction.label + "_forward_0.log"),
                os.path.join(directory, "ts", self.reaction.label,
                             "conformers",
                             self.reaction.label + "_forward_0.log"))

        self.directory = directory
        self.vibrational_analysis = VibrationalAnalysis(
            transitionstate=self.ts, directory=self.directory)
コード例 #3
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 def setUp(self):
     self.reaction = Reaction("CC+[O]O_[CH2]C+OO")
     self.reaction2 = Reaction(rmg_reaction=RMGReaction(
         reactants=[RMGMolecule(smiles="CC"),
                    RMGMolecule(smiles="[O]O")],
         products=[RMGMolecule(smiles="[CH2]C"),
                   RMGMolecule(smiles="OO")]))
コード例 #4
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ファイル: jobTest.py プロジェクト: nateharms/AutoTST
 def setUp(self):
     os.environ["PATH"] = os.path.expandvars(
         "$AUTOTST/test/bin:") + os.environ["PATH"]
     self.reaction = Reaction("CC+[O]O_[CH2]C+OO")
     self.calculator = Gaussian(
         directory=os.path.expandvars("$AUTOTST/test"))
     self.job = Job(reaction=self.reaction,
                    calculator=self.calculator,
                    partition="test")
コード例 #5
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 def setUp(self):
     self.reaction = Reaction("CC+[O]O_[CH2]C+OO")
     self.reaction2 = Reaction(rmg_reaction=RMGReaction(
         reactants=[RMGMolecule(smiles="CC"),
                    RMGMolecule(smiles="[O]O")],
         products=[RMGMolecule(smiles="[CH2]C"),
                   RMGMolecule(smiles="OO")]))
     self.ts = self.reaction.ts["forward"][0]
     self.ts2 = self.reaction.ts["forward"][0]
     self.ts.get_molecules()
     self.ts2.get_molecules()
コード例 #6
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    def test_symmetry_number(self):
        self.assertEquals(self.ts.symmetry_number, 1)
        self.assertEquals(self.ts2.symmetry_number, 1)

        reactions_to_test = {
            "[CH3]+[OH]_C+[O]": 3,
            # TODO add other reactions here
        }
        for reaction_string, expected_symmetry in reactions_to_test.items():
            rxn = Reaction(reaction_string)
            rxn.get_labeled_reaction()
            ts = rxn.ts["forward"][0]
            self.assertEquals(ts.symmetry_number, expected_symmetry)
コード例 #7
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 def setUp(self):
     self.reaction = Reaction("CC+[O]O_[CH2]C+OO")
     self.io = InputOutput(
         reaction=self.reaction, 
         directory=os.path.expandvars("$AUTOTST/test/")
     )
     try:
         os.makedirs(os.path.join(
             os.path.expandvars("$AUTOTST/test/"),
             "ts",
             self.reaction.label
         ))
     except OSError:
         try:
             shutil.copy(
                 os.path.join(
                     os.path.expandvars("$AUTOTST/test/bin/log-files"), 
                     self.reaction.label + "_forward_0.log"
                     ),
                 os.path.join(
                     os.path.expandvars("$AUTOTST/test/"),
                     "ts",
                     self.reaction.label,
                     self.reaction.label + ".log"
                 )
             )
         except:
             pass
コード例 #8
0
ファイル: gaussianTest.py プロジェクト: nateharms/AutoTST
 def setUp(self):
     os.environ["PATH"] = os.path.expandvars(
         "$AUTOTST/test/bin:") + os.environ["PATH"]
     rxn = Reaction(label='C+[O]O_[CH3]+OO')
     ts = rxn.ts["forward"][0]
     ts.get_molecules()
     self.gaussian = Gaussian(conformer=ts)
コード例 #9
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    def test_estimate_distances(self):

        reaction = Reaction("CC+[O]O_[CH2]C+OO")
        labeled_reaction, _ = reaction.get_labeled_reaction()

        distance_data = self.ts_database.estimate_distances(labeled_reaction)

        d12 = 1.38
        d13 = 2.53
        # d13 in reactionTest is smaller than the distance in baseTest.py because
        # d13 is edited to be smaller in reaction.py. The value returned from the database
        # is ~2.53 but is reduced to ~2.43 when called from the reaction object itself
        d23 = 1.16

        self.assertAlmostEquals(d12, distance_data.distances["d12"], places=1)
        self.assertAlmostEquals(d13, distance_data.distances["d13"], places=1)
        self.assertAlmostEquals(d23, distance_data.distances["d23"], places=1)
コード例 #10
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 def setUp(self):
     os.environ["PATH"] = os.path.expandvars(
         "$AUTOTST/test/bin:") + os.environ["PATH"]
     os.environ["TEST_STATUS"] = "None"
     self.reaction = Reaction("CC+[O]O_[CH2]C+OO")
     self.calculator = Gaussian(
         directory=os.path.expandvars("$AUTOTST/test"))
     self.job = Job(reaction=self.reaction,
                    calculator=self.calculator,
                    partition="test",
                    username="******",
                    exclude="test",
                    account="test")
     self.job2 = Job(reaction=self.reaction,
                     calculator=self.calculator,
                     partition="test",
                     username="******",
                     exclude="test",
                     account=["test"])
コード例 #11
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    def test_reaction_families(self):
        # R_Addition_MultipleBond
        reaction = Reaction("C#C+[OH]_[CH]=CO")
        _, family = reaction.get_labeled_reaction()
        self.assertEqual(family.lower(), "R_Addition_MultipleBond".lower())

        # intra_H_migration
        reaction = Reaction("C[CH]O_CC[O]")
        _, family = reaction.get_labeled_reaction()
        self.assertEqual(family.lower(), "intra_H_migration".lower())
コード例 #12
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 def setUp(self):
     rxn = Reaction(label='C+[O]O_[CH3]+OO')
     ts = rxn.ts["forward"][0]
     ts.get_molecules()
     self.gaussian = Gaussian(conformer=ts)
コード例 #13
0
ファイル: updateTest.py プロジェクト: GalaxyFollower/AutoTST
 def setUp(self):
     self.reaction = Reaction("CC+[O]O_[CH2]C+OO")
     self.family = "H_Abstraction"
     self.method = "m062x/cc-pVTZ"
     self.short_description = "test case"
コード例 #14
0
class VibrationalAnalysisTest(unittest.TestCase):
    def setUp(self):
        self.reaction = Reaction("CC+[O]O_[CH2]C+OO")
        self.reaction.get_labeled_reaction()
        self.ts = self.reaction.ts["forward"][0]
        self.ts.get_molecules()

        directory = os.path.expandvars("$AUTOTST/test")
        if not os.path.exists(
                os.path.join(directory, "ts", self.reaction.label,
                             "conformers")):
            os.makedirs(
                os.path.join(directory, "ts", self.reaction.label,
                             "conformers"))
        if not os.path.exists(
                os.path.join(directory, "ts", self.reaction.label,
                             self.reaction.label + ".log")):
            shutil.copy(
                os.path.join(directory, "bin", "log-files",
                             self.reaction.label + "_forward_0.log"),
                os.path.join(directory, "ts", self.reaction.label,
                             "conformers",
                             self.reaction.label + "_forward_0.log"))

        self.directory = directory
        self.vibrational_analysis = VibrationalAnalysis(
            transitionstate=self.ts, directory=self.directory)

    def tearDown(self):
        directory = os.path.expandvars("$AUTOTST/test")
        if os.path.exists(os.path.join(directory, "ts")):
            shutil.rmtree(os.path.join(directory, "ts"))

        for head, _, files in os.walk(os.path.expandvars("$AUTOTST")):
            for fi in files:
                if fi.endswith(".symm"):
                    os.remove(os.path.join(head, fi))

    def test_get_log_file(self):
        log_file = self.vibrational_analysis.get_log_file()

        actual_path = os.path.join(
            self.directory, "ts", self.ts.reaction_label, "conformers",
            "{}_{}_{}.log".format(self.ts.reaction_label, self.ts.direction,
                                  self.ts.index))

        self.assertEqual(log_file, actual_path)

    def test_parse_vibrations(self):

        vibrations = self.vibrational_analysis.parse_vibrations()
        self.assertIsInstance(vibrations, list)
        self.assertEqual(len(vibrations), 27)

    def test_obtain_geometries(self):

        vibrations = self.vibrational_analysis.parse_vibrations()

        symbol_dict = {
            17: "Cl",
            9: "F",
            8: "O",
            7: "N",
            6: "C",
            1: "H",
        }
        atoms = []

        parser = ccread(self.vibrational_analysis.log_file)

        for atom_num, coords in zip(parser.atomnos, parser.atomcoords[-1]):
            atoms.append(Atom(symbol=symbol_dict[atom_num], position=coords))

        test_pre_geometry = Atoms(atoms)
        test_post_geometry = test_pre_geometry.copy()

        for vib, displacement in vibrations:
            if vib < 0:
                test_post_geometry.arrays["positions"] -= displacement

        pre_geometry, post_geometry = self.vibrational_analysis.obtain_geometries(
        )

        for i, positions in enumerate(test_pre_geometry.arrays["positions"]):
            for j, x in enumerate(positions):
                self.assertEqual(x, pre_geometry.arrays["positions"][i][j])
        for i, positions in enumerate(test_post_geometry.arrays["positions"]):
            for j, x in enumerate(positions):
                self.assertEqual(x, post_geometry.arrays["positions"][i][j])

    def test_validate_ts(self):
        self.assertTrue(self.vibrational_analysis.validate_ts())
コード例 #15
0
class TestReaction(unittest.TestCase):
    def setUp(self):
        self.reaction = Reaction("CC+[O]O_[CH2]C+OO")
        self.reaction2 = Reaction(rmg_reaction=RMGReaction(
            reactants=[RMGMolecule(smiles="CC"),
                       RMGMolecule(smiles="[O]O")],
            products=[RMGMolecule(smiles="[CH2]C"),
                      RMGMolecule(smiles="OO")]))

    def test_label(self):
        self.assertEqual(self.reaction.label, "CC+[O]O_[CH2]C+OO")
        self.assertEqual(self.reaction2.get_label(), "CC+[O]O_C[CH2]+OO")

    def test_rmg_reaction(self):
        test_reaction = RMGReaction(
            reactants=[RMGMolecule(smiles="CC"),
                       RMGMolecule(smiles="[O]O")],
            products=[RMGMolecule(smiles="[CH2]C"),
                      RMGMolecule(smiles="OO")])

        self.assertTrue(
            test_reaction.is_isomorphic(self.reaction.get_rmg_reaction()))
        self.assertTrue(
            test_reaction.is_isomorphic(self.reaction2.get_rmg_reaction()))

    def test_databases(self):
        rmg_database, ts_databases = self.reaction.load_databases()

        self.assertIsInstance(rmg_database, RMGDatabase)
        self.assertIsInstance(ts_databases, dict)
        self.assertIsInstance(ts_databases["H_Abstraction"], TransitionStates)

        rmg_database, ts_databases = self.reaction2.load_databases()

        self.assertIsInstance(rmg_database, RMGDatabase)
        self.assertIsInstance(ts_databases, dict)
        self.assertIsInstance(ts_databases["H_Abstraction"], TransitionStates)

    def test_disance_data(self):
        d12 = 1.38
        d13 = 2.43
        # d13 in reactionTest is smaller than the distance in baseTest.py because
        # d13 is edited to be smaller in reaction.py. The value returned from the database
        # is ~2.53 but is reduced to 2.43 when called from the reaction object itself
        d23 = 1.16

        self.assertAlmostEquals(d12,
                                self.reaction.distance_data.distances["d12"],
                                places=1)
        self.assertAlmostEquals(d13,
                                self.reaction.distance_data.distances["d13"],
                                places=1)
        self.assertAlmostEquals(d23,
                                self.reaction.distance_data.distances["d23"],
                                places=1)

        self.assertAlmostEquals(d12,
                                self.reaction2.distance_data.distances["d12"],
                                places=1)
        self.assertAlmostEquals(d13,
                                self.reaction2.distance_data.distances["d13"],
                                places=1)
        self.assertAlmostEquals(d23,
                                self.reaction2.distance_data.distances["d23"],
                                places=1)

    def test_generate_reactants_and_products(self):
        reactants, products = self.reaction.generate_reactants_and_products()

        self.assertIsInstance(reactants, list)
        self.assertIsInstance(products, list)
        self.assertEquals(len(reactants), 2)
        self.assertAlmostEquals(len(products), 2)

        reactants, products = self.reaction2.generate_reactants_and_products()

        self.assertIsInstance(reactants, list)
        self.assertIsInstance(products, list)
        self.assertEquals(len(reactants), 2)
        self.assertAlmostEquals(len(products), 2)

    def test_labeled_reaction(self):
        test_reaction = RMGReaction(
            reactants=[RMGMolecule(smiles="CC"),
                       RMGMolecule(smiles="[O]O")],
            products=[RMGMolecule(smiles="[CH2]C"),
                      RMGMolecule(smiles="OO")])
        labeled_reaction, reaction_family = self.reaction.get_labeled_reaction(
        )

        self.assertEquals(reaction_family.lower(), "h_abstraction")
        self.assertTrue(test_reaction.is_isomorphic(labeled_reaction))

        merged = labeled_reaction.reactants[0].merge(
            labeled_reaction.reactants[1])
        self.assertTrue(merged.get_labeled_atoms("*1")[0].is_carbon())
        self.assertTrue(merged.get_labeled_atoms("*2")[0].is_hydrogen())
        self.assertTrue(merged.get_labeled_atoms("*3")[0].is_oxygen)

        merged = labeled_reaction.products[0].merge(
            labeled_reaction.products[1])
        self.assertTrue(merged.get_labeled_atoms("*3")[0].is_carbon())
        self.assertTrue(merged.get_labeled_atoms("*2")[0].is_hydrogen())
        self.assertTrue(merged.get_labeled_atoms("*1")[0].is_oxygen)

        labeled_reaction, reaction_family = self.reaction2.get_labeled_reaction(
        )

        self.assertEquals(reaction_family.lower(), "h_abstraction")
        self.assertTrue(test_reaction.is_isomorphic(labeled_reaction))

        merged = labeled_reaction.reactants[0].merge(
            labeled_reaction.reactants[1])
        self.assertTrue(merged.get_labeled_atoms("*1")[0].is_carbon())
        self.assertTrue(merged.get_labeled_atoms("*2")[0].is_hydrogen())
        self.assertTrue(merged.get_labeled_atoms("*3")[0].is_oxygen)

        merged = labeled_reaction.products[0].merge(
            labeled_reaction.products[1])
        self.assertTrue(merged.get_labeled_atoms("*3")[0].is_carbon())
        self.assertTrue(merged.get_labeled_atoms("*2")[0].is_hydrogen())
        self.assertTrue(merged.get_labeled_atoms("*1")[0].is_oxygen)

    def test_rmg_complexes(self):
        self.reaction.get_labeled_reaction()
        self.reaction.get_rmg_complexes()

        self.assertEquals(len(self.reaction.complexes), 2)
        self.assertEquals(
            len(self.reaction.complexes["forward"].get_all_labeled_atoms()), 3)
        self.assertEquals(
            len(self.reaction.complexes["reverse"].get_all_labeled_atoms()), 3)

        self.reaction2.get_labeled_reaction()
        self.reaction2.get_rmg_complexes()

        self.assertEquals(len(self.reaction2.complexes), 2)
        self.assertEquals(
            len(self.reaction2.complexes["forward"].get_all_labeled_atoms()),
            3)
        self.assertEquals(
            len(self.reaction2.complexes["reverse"].get_all_labeled_atoms()),
            3)

    def test_ts(self):
        self.assertEquals(len(self.reaction.ts), 2)
        self.assertEquals(len(self.reaction.ts["forward"]), 1)
        self.assertEquals(len(self.reaction.ts["reverse"]), 1)
        self.assertIsInstance(self.reaction.ts["forward"][0], TS)
        self.assertIsInstance(self.reaction.ts["reverse"][0], TS)

        self.assertEquals(len(self.reaction2.ts), 2)
        self.assertEquals(len(self.reaction2.ts["forward"]), 1)
        self.assertEquals(len(self.reaction2.ts["reverse"]), 1)
        self.assertIsInstance(self.reaction2.ts["forward"][0], TS)
        self.assertIsInstance(self.reaction2.ts["reverse"][0], TS)

    def test_reaction_families(self):
        # R_Addition_MultipleBond
        reaction = Reaction("C#C+[OH]_[CH]=CO")
        _, family = reaction.get_labeled_reaction()
        self.assertEqual(family.lower(), "R_Addition_MultipleBond".lower())

        # intra_H_migration
        reaction = Reaction("C[CH]O_CC[O]")
        _, family = reaction.get_labeled_reaction()
        self.assertEqual(family.lower(), "intra_H_migration".lower())
コード例 #16
0
class TestStatMech(unittest.TestCase):
    def setUp(self):
        self.reaction = Reaction("CC+[O]O_[CH2]C+OO")
        self.reaction.get_labeled_reaction()
        self.reaction.generate_reactants_and_products()

        directory = os.path.expandvars("$AUTOTST/test")
        if not os.path.exists(
                os.path.join(directory, "ts", self.reaction.label)):
            os.makedirs(os.path.join(directory, "ts", self.reaction.label))
        if not os.path.exists(
                os.path.join(directory, "ts", self.reaction.label,
                             self.reaction.label + ".log")):
            shutil.copy(
                os.path.join(directory, "bin", "log-files",
                             self.reaction.label + "_forward_0.log"),
                os.path.join(directory, "ts", self.reaction.label,
                             self.reaction.label + ".log"))

        for sp in self.reaction.reactants + self.reaction.products:
            for smiles in sp.conformers.keys():
                if not os.path.exists(
                        os.path.join(directory, "species", smiles)):
                    os.makedirs(os.path.join(directory, "species", smiles))
                if not os.path.exists(
                        os.path.join(directory, "species", smiles,
                                     smiles + ".log")):
                    shutil.copy(
                        os.path.join(directory, "bin", "log-files",
                                     smiles + "_0.log"),
                        os.path.join(directory, "species", smiles,
                                     smiles + ".log"))

        self.statmech = StatMech(reaction=self.reaction, directory=directory)

    def tearDown(self):
        directory = os.path.expandvars("$AUTOTST/test")
        if os.path.exists(os.path.join(directory, "ts")):
            shutil.rmtree(os.path.join(directory, "ts"))
        if os.path.exists(os.path.join(directory, "species")):
            shutil.rmtree(os.path.join(directory, "species"))

        for head, _, files in os.walk(os.path.expandvars("$AUTOTST")):
            for fi in files:
                if fi.endswith(".symm"):
                    os.remove(os.path.join(head, fi))

    def test_get_atoms(self):

        ts = self.reaction.ts["forward"][0]
        atom_dict = self.statmech.get_atoms(ts)
        self.assertEqual(atom_dict["H"], 7)
        self.assertEqual(atom_dict["C"], 2)
        self.assertEqual(atom_dict["O"], 2)

    #def test_get_bonds(self):
    ### For somereason, this test doesn't work on travis...
    #    ts = self.reaction.ts["forward"][0]
    #    bond_dict = self.statmech.get_bonds(ts)
    #    self.assertEqual(bond_dict["O-O"], 1)
    #    self.assertEqual(bond_dict["O-H"], 1)
    #    self.assertEqual(bond_dict["C-C"], 1)
    #    self.assertEqual(bond_dict["C-H"], 6)

    def test_write_conformer_file(self):
        species = self.reaction.reactants[0]
        conformer = species.conformers.values()[0][0]
        self.assertTrue(self.statmech.write_conformer_file(conformer))

        self.assertTrue(
            os.path.exists(
                os.path.join(self.statmech.directory, "species",
                             conformer.smiles, conformer.smiles + ".py")))
        # Running it again to see if it recognizes that a .py file was already written
        self.assertTrue(self.statmech.write_conformer_file(conformer))

    def test_write_species_file(self):
        species = self.reaction.reactants[0]

        self.statmech.write_species_files(species)
        for smiles in species.conformers.keys():
            self.assertTrue(
                os.path.exists(
                    os.path.join(self.statmech.directory, "species", smiles,
                                 smiles + ".py")))

    def test_write_ts_input(self):
        ts = self.reaction.ts["forward"][0]
        self.assertTrue(self.statmech.write_ts_input(ts))
        self.assertTrue(
            os.path.exists(
                os.path.join(self.statmech.directory, "ts",
                             self.reaction.label,
                             self.reaction.label + ".py")))
        self.assertTrue(self.statmech.write_ts_input(ts))

    def test_write_kinetics_input(self):
        self.statmech.write_kinetics_input()

        self.assertTrue(
            os.path.exists(
                os.path.join(self.statmech.directory, "ts",
                             self.reaction.label,
                             self.reaction.label + ".kinetics.py")))

    def test_write_files(self):

        self.statmech.write_files()
        for mol in self.reaction.reactants + self.reaction.products:
            for confs in mol.conformers.values():
                conf = confs[0]
                self.assertTrue(
                    os.path.exists(
                        os.path.join(self.statmech.directory, "species",
                                     conf.smiles, conf.smiles + ".py")))
        self.assertTrue(
            os.path.exists(
                os.path.join(self.statmech.directory, "ts",
                             self.reaction.label,
                             self.reaction.label + ".py")))
        self.assertTrue(
            os.path.exists(
                os.path.join(self.statmech.directory, "ts",
                             self.reaction.label,
                             self.reaction.label + ".kinetics.py")))

    def test_run(self):
        self.statmech.write_files()
        self.statmech.run()
        self.assertIsInstance(self.statmech.kinetics_job.reaction, RMGReaction)
        self.assertIsInstance(self.statmech.kinetics_job.reaction.kinetics,
                              Arrhenius)

    def test_set_results(self):
        self.test_run()
        self.statmech.set_results()
        self.assertTrue(
            self.reaction.rmg_reaction.isIsomorphic(
                self.statmech.kinetics_job.reaction))
        self.assertTrue(
            self.statmech.reaction.rmg_reaction.isIsomorphic(
                self.statmech.kinetics_job.reaction))
コード例 #17
0
class JobTest(unittest.TestCase):
    def setUp(self):
        os.environ["PATH"] = os.path.expandvars(
            "$AUTOTST/test/bin:") + os.environ["PATH"]
        os.environ["TEST_STATUS"] = "None"
        self.reaction = Reaction("CC+[O]O_[CH2]C+OO")
        self.calculator = Gaussian(
            directory=os.path.expandvars("$AUTOTST/test"))
        self.job = Job(reaction=self.reaction,
                       calculator=self.calculator,
                       partition="test",
                       username="******",
                       exclude="test",
                       account="test")
        self.job2 = Job(reaction=self.reaction,
                        calculator=self.calculator,
                        partition="test",
                        username="******",
                        exclude="test",
                        account=["test"])

    def test_setup(self):
        self.assertEqual(self.job.username, "test")
        self.assertEqual(self.job.exclude, "test")
        self.assertEqual(self.job.partition, "test")
        self.assertEqual(self.job.account, "test")
        self.assertEqual(self.job.label, self.reaction.label)

    def test_setup2(self):
        job = Job(directory=".")
        self.assertEqual(job.directory, ".")
        self.assertEqual(job.scratch, ".")

    def test_read_log(self):

        path = os.path.expandvars("$AUTOTST/test/bin/log-files/CC_0.log")

        atoms = self.job.read_log(path)

        self.assertEqual(len(atoms), 8)

        carbon_count = 0
        hydrogen_count = 0
        for atom in atoms:
            if atom.symbol == "H":
                hydrogen_count += 1
            elif atom.symbol == "C":
                carbon_count += 1

        self.assertEqual(hydrogen_count, 6)
        self.assertEqual(carbon_count, 2)

    def test_write_input(self):
        self.assertTrue(True)

    def test_check_complete(self):
        ### I don't know how to create alaises in a python script
        os.environ["TEST_STATUS"] = "None"
        self.assertFalse(self.job.check_complete("test1"))
        self.assertTrue(self.job.check_complete("test2"))

    def test_submit(self):

        result = self.job.submit("echo testing")
        self.assertTrue(result)

    ### For conformers
    def test_submit_conformer(self):
        self.reaction.generate_reactants_and_products()
        conformer = list(self.reaction.reactants[0].conformers.values())[0][0]
        label = self.job.submit_conformer(conformer)
        self.assertEqual(label, f"{conformer.smiles}_{conformer.index}")

    def test_submit_conformer2(self):
        self.reaction.generate_reactants_and_products()
        conformer = list(self.reaction.reactants[0].conformers.values())[0][0]
        label = self.job2.submit_conformer(conformer)
        self.assertEqual(label, f"{conformer.smiles}_{conformer.index}")

    def test_calculate_conformer(self):
        conformer = Conformer(smiles='CC', index=0)
        result = self.job.calculate_conformer(conformer=conformer)
        self.assertTrue(result)

    def test_calculate_species(self):
        self.reaction.generate_reactants_and_products()

        for species in self.reaction.reactants + self.reaction.products:
            self.job.calculate_species(species)
            for smiles in species.conformers.keys():
                self.assertTrue(
                    os.path.exists(
                        os.path.join(
                            os.path.expandvars("$AUTOTST/test/species/"),
                            smiles, smiles + ".log")))

    def test_submit_transitionstate(self):
        ts = self.reaction.ts["forward"][0]
        ts.get_molecules()
        for opt_type in ["shell", "center", "overall"]:
            label = self.job.submit_transitionstate(ts, opt_type=opt_type)
            if opt_type == "overall":
                self.assertEqual(
                    label, f"{ts.reaction_label}_{ts.direction}_{ts.index}")
            else:
                self.assertEqual(
                    label,
                    f"{ts.reaction_label}_{ts.direction}_{opt_type}_{ts.index}"
                )

    def test_submit_transitionstate2(self):
        ts = self.reaction.ts["forward"][0]
        ts.get_molecules()
        for opt_type in ["shell", "center", "overall"]:
            label = self.job2.submit_transitionstate(ts, opt_type=opt_type)
            if opt_type == "overall":
                self.assertEqual(
                    label, f"{ts.reaction_label}_{ts.direction}_{ts.index}")
            else:
                self.assertEqual(
                    label,
                    f"{ts.reaction_label}_{ts.direction}_{opt_type}_{ts.index}"
                )

    def test_calculate_transitionstate(self):
        ts = self.reaction.ts["forward"][0]
        ts.get_molecules()
        result = self.job.calculate_transitionstate(ts)
        self.assertTrue(result)

    def test_calculate_reaction(self):

        del self.reaction.ts["reverse"]
        result = self.job.calculate_reaction()
        self.assertTrue(result)
コード例 #18
0
class JobTest(unittest.TestCase):
    def setUp(self):
        self.reaction = Reaction("CC+[O]O_[CH2]C+OO")
        self.calculator = Gaussian(
            directory=os.path.expandvars("$AUTOTST/test"))
        self.job = Job(reaction=self.reaction,
                       calculator=self.calculator,
                       partition="test")

        os.environ["PATH"] = os.path.expandvars(
            "$AUTOTST/test/bin:") + os.environ["PATH"]

    def test_read_log(self):

        path = os.path.expandvars("$AUTOTST/test/bin/log-files/CC_0.log")

        atoms = self.job.read_log(path)

        self.assertEqual(len(atoms), 8)

        carbon_count = 0
        hydrogen_count = 0
        for atom in atoms:
            if atom.symbol == "H":
                hydrogen_count += 1
            elif atom.symbol == "C":
                carbon_count += 1

        self.assertEqual(hydrogen_count, 6)
        self.assertEqual(carbon_count, 2)

    def test_write_input(self):
        self.assert_(True)

    def test_check_complete(self):
        ### I don't know how to create alaises in a python script
        self.assertFalse(self.job.check_complete("test1"))
        self.assertTrue(self.job.check_complete("test2"))

    ### For conformers
    def test_submit_conformer(self):
        if os.path.exists(os.path.expandvars("$AUTOTST/test/species")):
            shutil.rmtree(os.path.expandvars("$AUTOTST/test/species"))
        self.reaction.generate_reactants_and_products()
        conformer = self.reaction.reactants[0].conformers.values()[0][0]
        label = self.job.submit_conformer(conformer)
        self.assertEquals(label, "{}_{}".format(conformer.smiles,
                                                conformer.index))

    def test_calculate_conformer(self):
        if os.path.exists(os.path.expandvars("$AUTOTST/test/species")):
            shutil.rmtree(os.path.expandvars("$AUTOTST/test/species"))
        conformer = Conformer(smiles='CC', index=0)
        result = self.job.calculate_conformer(conformer=conformer)
        self.assertTrue(result)
        conformer = Conformer(smiles='CC(Cl)(Cl)Cl', index=0)
        result = self.job.calculate_conformer(conformer=conformer)
        self.assertFalse(result)

    def test_calculate_species(self):
        if os.path.exists(os.path.expandvars("$AUTOTST/test/species")):
            shutil.rmtree(os.path.expandvars("$AUTOTST/test/species"))
        self.reaction.generate_reactants_and_products()

        for species in self.reaction.reactants + self.reaction.products:
            self.job.calculate_species(species)
            for smiles in species.conformers.keys():
                self.assertTrue(
                    os.path.exists(
                        os.path.join(
                            os.path.expandvars("$AUTOTST/test/species/"),
                            smiles, smiles + ".log")))

    def test_submit_transitionstate(self):
        if os.path.exists(os.path.expandvars("$AUTOTST/test/ts")):
            shutil.rmtree(os.path.expandvars("$AUTOTST/test/ts"))
        ts = self.reaction.ts["forward"][0]
        ts.get_molecules()

        for opt_type in ["shell", "center", "overall"]:
            label = self.job.submit_transitionstate(ts, opt_type=opt_type)
            if opt_type == "overall":
                self.assertEqual(
                    label, "{}_{}_{}".format(ts.reaction_label, ts.direction,
                                             ts.index))
            else:
                self.assertEqual(
                    label,
                    "{}_{}_{}_{}".format(ts.reaction_label, ts.direction,
                                         opt_type, ts.index))

    def test_calculate_transitionstate(self):
        if os.path.exists(os.path.expandvars("$AUTOTST/test/ts")):
            shutil.rmtree(os.path.expandvars("$AUTOTST/test/ts"))
        ts = self.reaction.ts["forward"][0]
        ts.get_molecules()
        result = self.job.calculate_transitionstate(ts)
        self.assertTrue(result)

    def test_calculate_reaction(self):

        del self.reaction.ts["reverse"]
        result = self.job.calculate_reaction()
        self.assertTrue(result)

    def tearDown(self):
        if os.path.exists(os.path.expandvars("$AUTOTST/test/species")):
            shutil.rmtree(os.path.expandvars("$AUTOTST/test/species"))
        if os.path.exists(os.path.expandvars("$AUTOTST/test/ts")):
            shutil.rmtree(os.path.expandvars("$AUTOTST/test/ts"))