Exemple #1
0
    def testThermoDatabase(self):
        """
        Check the database load functions.
        """

        thermoDatabase = loadThermoDatabase('database/input/RMG_database/thermo_groups', group=True, old=False)

        for database in [thermoDatabase.groupDatabase,
            thermoDatabase.int15Database,
            thermoDatabase.gaucheDatabase,
            thermoDatabase.otherDatabase,
            thermoDatabase.radicalDatabase,
            thermoDatabase.ringDatabase]:

            # All nodes in library should be in tree and dictionary
            # All nodes in tree should be in dictionary
            for node in database.library:
                self.assertTrue(node in database.tree.parent, 'Expected node "%s" from library to be in parent attribute of tree.' % node)
                self.assertTrue(node in database.tree.children, 'Expected node "%s" from library from library to be in children attribute of tree.' % node)
                self.assertTrue(node in database.dictionary, 'Expected node "%s" to be in dictionary.' % node)
            for node in database.tree.parent:
                self.assertTrue(node in database.tree.children, 'Expected node "%s" from parent attribute of tree to be in children attribute of tree.' % node)
                self.assertTrue(node in database.dictionary, 'Expected node "%s" from parent attribute of tree to be in dictionary.' % node)
            for node in database.tree.children:
                self.assertTrue(node in database.tree.parent, 'Expected node "%s" from children attribute of tree to be in parent attribute of tree.' % node)
                self.assertTrue(node in database.dictionary, 'Expected node "%s" from children attribute of tree to be in dictionary.' % node)

            # All parents in tree should be in tree
            for node in database.tree.parent:
                parentNode = database.tree.parent[node]
                if parentNode is not None:
                    self.assertTrue(parentNode in database.tree.parent)
                    self.assertTrue(parentNode in database.tree.children)

            # All children in tree should be in tree
            for node in database.tree.children:
                for childNode in database.tree.children[node]:
                    if childNode is not None:
                        self.assertTrue(childNode in database.tree.parent)
                        self.assertTrue(childNode in database.tree.children)

            # All values in dictionary should be chemical structures
            for node in database.dictionary:
                self.assertTrue(isinstance(database.dictionary[node], MoleculePattern) or isinstance(database.dictionary[node], LogicNode))

            # All values in library should be ThermoEntry objects
            for node in database.library:
                self.assertTrue(isinstance(database.library[node], ThermoEntry), '"%s" is of unexpected type "%s".' % (node, database.library[node].__class__))
                self.assertTrue(database.library[node].model is not None or database.library[node].node != '')

        molecule = Molecule(SMILES='CC')
        print
        print thermoDatabase.generateThermoData(molecule)
Exemple #2
0
 def testThermoGeneration(self):
     
     # The test cases represent 1,3-hexadiene and all of its possible 
     # unimolecular bond fission products (i.e. products resulting from the
     # breaking of any single bond in 1,3-hexadiene)
     testCases = [
         # SMILES         symm  H298     S298       Cp300  Cp400  Cp500  Cp600  Cp800  Cp1000 Cp1500
         ['C=CC=CCC',     3,    13.45,   86.3671,   29.49, 37.67, 44.54, 50.12, 58.66, 64.95, 74.71],
         ['[CH]=CC=CCC',  3,    72.55,   87.7571,   29.3 , 36.92, 43.18, 48.20, 55.84, 61.46, 70.18],
         ['C=[C]C=CCC',   3,    61.15,   87.0771,   29.68, 36.91, 43.03, 48.11, 55.96, 61.78, 71.54],
         ['C=C[C]=CCC',   3,    61.15,   87.0771,   29.68, 36.91, 43.03, 48.11, 55.96, 61.78, 71.54],
         ['C=CC=[C]CC',   3,    70.35,   88.1771,   29.15, 36.46, 42.6 , 47.60, 55.32, 61.04, 69.95],
         ['C=CC=C[CH]C',  6,    38.24,   84.4098,   27.79, 35.46, 41.94, 47.43, 55.74, 61.92, 71.86],
         ['C=CC=CC[CH2]', 2,    62.45,   89.7827,   28.72, 36.31, 42.63, 47.72, 55.5 , 61.21, 70.05],
         #['[H]',          1,    49.00,    2.61  ,   -0.77, -1.36, -1.91, -2.4 , -3.16, -3.74, -4.66],
         ['[CH3]',        6,    34.81,   46.3698,    9.14, 10.18, 10.81, 11.34, 12.57, 13.71, 15.2 ],
         ['C=CC=C[CH2]',  2,    46.11,   75.8227,   22.54, 28.95, 34.24, 38.64, 45.14, 49.97, 57.85],
         ['[CH2]C',       6,    28.60,   59.8698,   11.73, 14.46, 17.05, 19.34, 23.02, 25.91, 31.53],
         ['C=CC=[CH]',    1,    85.18,   69.37  ,   18.93, 23.55, 27.16, 29.92, 34.02, 37.03, 41.81],
         ['C=[CH]',       1,    71.62,   56.61  ,   10.01, 11.97, 13.66, 15.08, 17.32, 19.05, 21.85],
         ['[CH]=CCC',     3,    58.99,   74.9971,   20.38, 25.34, 29.68, 33.36, 39.14, 43.48, 50.22],
     ]
            
     thermoDatabase = loadThermoDatabase('database/output/RMG_Database/thermo_groups', group=True, old=True)
     
     failMessage = '\n'
     
     for smiles, symm, H298, S298, Cp300, Cp400, Cp500, Cp600, Cp800, Cp1000, Cp1500 in testCases:
         species = Species(molecule=[Molecule(SMILES=smiles)])
         species.generateResonanceIsomers()
         thermoData = generateThermoData(species.molecule[0])
         molecule = species.molecule[0]
         for mol in species.molecule[1:]:
             thermoData0 = generateThermoData(mol)
             if thermoData0.getEnthalpy(298) < thermoData.getEnthalpy(298):
                 thermoData = thermoData0
                 molecule = mol
         
         if molecule.calculateSymmetryNumber() != symm:
             failMessage += "For %s, expected symmetry number of %g, got %g\n" % (smiles, symm, molecule.calculateSymmetryNumber())
         
         if abs(1 - thermoData.getEnthalpy(298) / 4184 / H298) > 0.001:
             failMessage += "For %s, expected H298 of %g kcal/mol, got %g kcal/mol\n" % (smiles, H298, thermoData.getEnthalpy(298) / 4184)
         if abs(1 - thermoData.getEntropy(298) / 4.184 / S298) > 0.001:
             failMessage += "For %s, expected S298 of %g cal/mol*K, got %g cal/mol*K\n" % (smiles, S298, thermoData.getEntropy(298) / 4.184)
         for T, Cp in zip([300, 400, 500, 600, 800, 1000, 1500], [Cp300, Cp400, Cp500, Cp600, Cp800, Cp1000, Cp1500]):
             if abs(1 - thermoData.getHeatCapacity(T) / 4.184 / Cp) > 0.001:
                 failMessage += "For %s, expected Cp at %g K of %g cal/mol*K, got %g cal/mol*K\n" % (smiles, T, Cp, thermoData.getHeatCapacity(T) / 4.184)
     
     
     self.assertEqual(failMessage, '\n', failMessage)