def setUp(self): if "VASP_PSP_DIR" not in os.environ: os.environ["VASP_PSP_DIR"] = test_dir filepath = os.path.join(test_dir, 'POSCAR') poscar = Poscar.from_file(filepath) self.struct = poscar.structure self.mitparamset = MITVaspInputSet() self.mitparamset_unsorted = MITVaspInputSet(sort_structure=False) self.mithseparamset = MITHSEVaspInputSet() self.paramset = MPVaspInputSet() self.userparamset = MPVaspInputSet( user_incar_settings={'MAGMOM': { "Fe": 10, "S": -5, "Mn3+": 100 }}) self.mitggaparam = MITGGAVaspInputSet() self.mpstaticparamset = MPStaticVaspInputSet() self.mpnscfparamsetu = MPNonSCFVaspInputSet({"NBANDS": 50}, mode="Uniform") self.mpnscfparamsetl = MPNonSCFVaspInputSet({"NBANDS": 60}, mode="Line") self.mphseparamset = MPHSEVaspInputSet() self.mpbshseparamsetl = MPBSHSEVaspInputSet(mode="Line") self.mpbshseparamsetu = MPBSHSEVaspInputSet( mode="Uniform", added_kpoints=[[0.5, 0.5, 0.0]]) self.mpdielparamset = MPStaticDielectricDFPTVaspInputSet()
def setUp(self): if "VASP_PSP_DIR" not in os.environ: os.environ["VASP_PSP_DIR"] = test_dir filepath = os.path.join(test_dir, 'POSCAR') poscar = Poscar.from_file(filepath) self.struct = poscar.structure self.mitparamset = MITVaspInputSet() self.mitparamset_unsorted = MITVaspInputSet(sort_structure=False) self.mithseparamset = MITHSEVaspInputSet() self.paramset = MPVaspInputSet() self.userparamset = MPVaspInputSet( user_incar_settings={'MAGMOM': {"Fe": 10, "S": -5, "Mn3+": 100}} ) self.mitggaparam = MITGGAVaspInputSet() self.mpstaticparamset = MPStaticVaspInputSet() self.mpnscfparamsetu = MPNonSCFVaspInputSet( {"NBANDS": 50}, mode="Uniform") self.mpnscfparamsetl = MPNonSCFVaspInputSet( {"NBANDS": 60}, mode="Line") self.mphseparamset = MPHSEVaspInputSet() self.mpbshseparamsetl = MPBSHSEVaspInputSet(mode="Line") self.mpbshseparamsetu = MPBSHSEVaspInputSet( mode="Uniform", added_kpoints=[[0.5, 0.5, 0.0]]) self.mpdielparamset = MPStaticDielectricDFPTVaspInputSet()
def get_INCARs(comp_name, mp_api_key, SOC): from pymatgen.matproj.rest import MPRester matproj = MPRester(mp_api_key) structure = matproj.get_structure_by_material_id(comp_name) from pymatgen.io.vasp.sets import MPVaspInputSet from pymatgen.io.vasp.sets import MPGGAVaspInputSet # +U is turned off (if any) from pymatgen.io.vasp.sets import MPHSEVaspInputSet from pymatgen.io.vasp.sets import MPStaticVaspInputSet from pymatgen.io.vasp.sets import MPNonSCFVaspInputSet from pymatgen.io.vasp.sets import MPStaticDielectricDFPTVaspInputSet from pymatgen.io.vasp.sets import MPBSHSEVaspInputSet from pymatgen.io.vasp.sets import MPOpticsNonSCFVaspInputSet v = MPVaspInputSet() indic = v.get_incar(structure) k = v.get_all_vasp_input(structure,generate_potcar = False) incar_file = open('INCAR','w') if SOC in ['TRUE', 'True', 'true']: indic['LMAXMIX'] = 4 indic['NBANDS'] = 128 indic['LSORBIT'] = '.TRUE.' indic.pop('MAGMOM', None) incar_file.write(str(indic)) self = MPStaticVaspInputSet() indic = self.get_incar(structure) indic['NEDOS'] = 9001 incar_file = open('INCAR_SELF','w') if SOC in ['TRUE', 'True', 'true']: indic['LMAXMIX'] = 4 indic['NBANDS'] = 128 indic['LSORBIT'] = '.TRUE.' indic.pop('MAGMOM', None) incar_file.write(str(indic)) user_incar_settings = {"NBANDS" : 100} nself = MPNonSCFVaspInputSet(user_incar_settings) indic = nself.get_incar(structure) incar_file = open('INCAR_NSELF','w') if SOC in ['TRUE', 'True', 'true']: indic['LMAXMIX'] = 4 indic['NBANDS'] = 128 indic['LSORBIT'] = '.TRUE.' indic.pop('MAGMOM', None) incar_file.write(str(indic)) HSE = MPHSEVaspInputSet() indic = HSE.get_incar(structure) incar_file = open('INCAR_HSE','w') if SOC in ['TRUE', 'True', 'true']: indic['LMAXMIX'] = 4 indic['NBANDS'] = 128 indic['LSORBIT'] = '.TRUE.' indic.pop('MAGMOM', None) incar_file.write(str(indic))
def get_INCARs(comp_name, mp_api_key, SOC): from pymatgen.matproj.rest import MPRester matproj = MPRester(mp_api_key) structure = matproj.get_structure_by_material_id(comp_name) from pymatgen.io.vasp.sets import MPVaspInputSet from pymatgen.io.vasp.sets import MPGGAVaspInputSet # +U is turned off (if any) from pymatgen.io.vasp.sets import MPHSEVaspInputSet from pymatgen.io.vasp.sets import MPStaticVaspInputSet from pymatgen.io.vasp.sets import MPNonSCFVaspInputSet from pymatgen.io.vasp.sets import MPStaticDielectricDFPTVaspInputSet from pymatgen.io.vasp.sets import MPBSHSEVaspInputSet from pymatgen.io.vasp.sets import MPOpticsNonSCFVaspInputSet v = MPVaspInputSet() indic = v.get_incar(structure) k = v.get_all_vasp_input(structure, generate_potcar=False) incar_file = open('INCAR', 'w') # if SOC in ['TRUE', 'True', 'true']: # indic['LMAXMIX'] = 4 # indic['NBANDS'] = soc_NBANDS # indic['LSORBIT'] = '.TRUE.' # indic.pop('MAGMOM', None) incar_file.write(str(indic)) self = MPStaticVaspInputSet() indic = self.get_incar(structure) indic['NEDOS'] = 9001 incar_file = open('INCAR_SELF', 'w') if SOC in ['TRUE', 'True', 'true']: indic['LMAXMIX'] = 4 indic['NBANDS'] = soc_NBANDS indic['LSORBIT'] = '.TRUE.' indic.pop('MAGMOM', None) incar_file.write(str(indic)) user_incar_settings = {"NBANDS": 100} nself = MPNonSCFVaspInputSet(user_incar_settings) indic = nself.get_incar(structure) incar_file = open('INCAR_NSELF', 'w') if SOC in ['TRUE', 'True', 'true']: indic['LMAXMIX'] = 4 indic['NBANDS'] = soc_NBANDS indic['LSORBIT'] = '.TRUE.' indic.pop('MAGMOM', None) incar_file.write(str(indic)) HSE = MPHSEVaspInputSet() indic = HSE.get_incar(structure) incar_file = open('INCAR_HSE', 'w') if SOC in ['TRUE', 'True', 'true']: indic['LMAXMIX'] = 4 indic['NBANDS'] = soc_NBANDS indic['LSORBIT'] = '.TRUE.' indic.pop('MAGMOM', None) incar_file.write(str(indic))
def run_task(self, fw_spec): user_incar_settings= {"NPAR": 2} if self.line: MPNonSCFVaspInputSet.from_previous_vasp_run(os.getcwd(), mode="Line", copy_chgcar=False, user_incar_settings=user_incar_settings, kpoints_line_density=self.kpoints_line_density) kpath = HighSymmKpath(Poscar.from_file("POSCAR").structure) return FWAction(stored_data={"kpath": kpath.kpath, "kpath_name": kpath.name}) else: MPNonSCFVaspInputSet.from_previous_vasp_run(os.getcwd(), mode="Uniform", copy_chgcar=False, user_incar_settings=user_incar_settings, kpoints_density=self.kpoints_density) return FWAction()
class MITMPVaspInputSetTest(unittest.TestCase): def setUp(self): if "VASP_PSP_DIR" not in os.environ: os.environ["VASP_PSP_DIR"] = test_dir filepath = os.path.join(test_dir, 'POSCAR') poscar = Poscar.from_file(filepath) self.struct = poscar.structure self.mitparamset = MITVaspInputSet() self.mitparamset_unsorted = MITVaspInputSet(sort_structure=False) self.mithseparamset = MITHSEVaspInputSet() self.paramset = MPVaspInputSet() self.userparamset = MPVaspInputSet( user_incar_settings={'MAGMOM': {"Fe": 10, "S": -5, "Mn3+": 100}} ) self.mitggaparam = MITGGAVaspInputSet() self.mpstaticparamset = MPStaticVaspInputSet() self.mpnscfparamsetu = MPNonSCFVaspInputSet( {"NBANDS": 50}, mode="Uniform") self.mpnscfparamsetl = MPNonSCFVaspInputSet( {"NBANDS": 60}, mode="Line") self.mphseparamset = MPHSEVaspInputSet() self.mpbshseparamsetl = MPBSHSEVaspInputSet(mode="Line") self.mpbshseparamsetu = MPBSHSEVaspInputSet( mode="Uniform", added_kpoints=[[0.5, 0.5, 0.0]]) self.mpdielparamset = MPStaticDielectricDFPTVaspInputSet() def test_get_poscar(self): coords = list() coords.append([0, 0, 0]) coords.append([0.75, 0.5, 0.75]) lattice = Lattice([[3.8401979337, 0.00, 0.00], [1.9200989668, 3.3257101909, 0.00], [0.00, -2.2171384943, 3.1355090603]]) struct = Structure(lattice, ["Fe", "Mn"], coords) s_unsorted = self.mitparamset_unsorted.get_poscar(struct).structure s_sorted = self.mitparamset.get_poscar(struct).structure self.assertEqual(s_unsorted[0].specie.symbol, 'Fe') self.assertEqual(s_sorted[0].specie.symbol, 'Mn') def test_get_potcar_symbols(self): coords = list() coords.append([0, 0, 0]) coords.append([0.75, 0.5, 0.75]) coords.append([0.75, 0.25, 0.75]) lattice = Lattice([[3.8401979337, 0.00, 0.00], [1.9200989668, 3.3257101909, 0.00], [0.00, -2.2171384943, 3.1355090603]]) struct = Structure(lattice, ["P", "Fe", "O"], coords) syms = self.paramset.get_potcar_symbols(struct) self.assertEqual(syms, ['Fe_pv', 'P', 'O']) syms = MPVaspInputSet(sort_structure=False).get_potcar_symbols(struct) self.assertEqual(syms, ['P', 'Fe_pv', 'O']) def test_false_potcar_hash(self): coords = list() coords.append([0, 0, 0]) coords.append([0.75, 0.5, 0.75]) coords.append([0.75, 0.25, 0.75]) lattice = Lattice([[3.8401979337, 0.00, 0.00], [1.9200989668, 3.3257101909, 0.00], [0.00, -2.2171384943, 3.1355090603]]) struct = Structure(lattice, ["P", "Fe", "O"], coords) self.mitparamset.potcar_settings['Fe']['symbol'] = 'Fe_pv' self.assertRaises(ValueError, self.mitparamset.get_potcar, struct, check_hash=True) self.mitparamset.potcar_settings['Fe']['symbol'] = 'Fe' def test_lda_potcar(self): coords = list() coords.append([0, 0, 0]) coords.append([0.75, 0.5, 0.75]) lattice = Lattice([[3.8401979337, 0.00, 0.00], [1.9200989668, 3.3257101909, 0.00], [0.00, -2.2171384943, 3.1355090603]]) struct = Structure(lattice, ["P", "Fe"], coords) p = MITVaspInputSet(potcar_functional="LDA").get_potcar(struct) self.assertEqual(p.functional, 'LDA') def test_get_nelect(self): coords = [[0]*3, [0.5]*3, [0.75]*3] lattice = Lattice.cubic(4) s = Structure(lattice, ['Si', 'Si', 'Fe'], coords) self.assertAlmostEqual(MITVaspInputSet().get_nelect(s), 16) def test_get_incar(self): incar = self.paramset.get_incar(self.struct) self.assertEqual(incar['LDAUU'], [5.3, 0, 0]) self.assertAlmostEqual(incar['EDIFF'], 0.0012) incar = self.mitparamset.get_incar(self.struct) self.assertEqual(incar['LDAUU'], [4.0, 0, 0]) self.assertAlmostEqual(incar['EDIFF'], 0.0012) incar_gga = self.mitggaparam.get_incar(self.struct) self.assertNotIn("LDAU", incar_gga) incar_static = self.mpstaticparamset.get_incar(self.struct) self.assertEqual(incar_static["NSW"], 0) incar_nscfl = self.mpnscfparamsetl.get_incar(self.struct) self.assertEqual(incar_nscfl["NBANDS"], 60) incar_nscfu = self.mpnscfparamsetu.get_incar(self.struct) self.assertEqual(incar_nscfu["ISYM"], 0) incar_hse = self.mphseparamset.get_incar(self.struct) self.assertEqual(incar_hse['LHFCALC'], True) self.assertEqual(incar_hse['HFSCREEN'], 0.2) incar_hse_bsl = self.mpbshseparamsetl.get_incar(self.struct) self.assertEqual(incar_hse_bsl['LHFCALC'], True) self.assertEqual(incar_hse_bsl['HFSCREEN'], 0.2) self.assertEqual(incar_hse_bsl['NSW'], 0) incar_hse_bsu = self.mpbshseparamsetu.get_incar(self.struct) self.assertEqual(incar_hse_bsu['LHFCALC'], True) self.assertEqual(incar_hse_bsu['HFSCREEN'], 0.2) self.assertEqual(incar_hse_bsu['NSW'], 0) incar_diel = self.mpdielparamset.get_incar(self.struct) self.assertEqual(incar_diel['IBRION'], 8) self.assertEqual(incar_diel['LEPSILON'], True) si = 14 coords = list() coords.append(np.array([0, 0, 0])) coords.append(np.array([0.75, 0.5, 0.75])) #Silicon structure for testing. latt = Lattice(np.array([[3.8401979337, 0.00, 0.00], [1.9200989668, 3.3257101909, 0.00], [0.00, -2.2171384943, 3.1355090603]])) struct = Structure(latt, [si, si], coords) incar = self.paramset.get_incar(struct) self.assertNotIn("LDAU", incar) incar = self.mithseparamset.get_incar(self.struct) self.assertTrue(incar['LHFCALC']) coords = list() coords.append([0, 0, 0]) coords.append([0.75, 0.5, 0.75]) lattice = Lattice([[3.8401979337, 0.00, 0.00], [1.9200989668, 3.3257101909, 0.00], [0.00, -2.2171384943, 3.1355090603]]) struct = Structure(lattice, ["Fe", "Mn"], coords) incar = self.paramset.get_incar(struct) self.assertNotIn('LDAU', incar) #check fluorides struct = Structure(lattice, ["Fe", "F"], coords) incar = self.paramset.get_incar(struct) self.assertEqual(incar['LDAUU'], [5.3, 0]) self.assertEqual(incar['MAGMOM'], [5, 0.6]) struct = Structure(lattice, ["Fe", "F"], coords) incar = self.mitparamset.get_incar(struct) self.assertEqual(incar['LDAUU'], [4.0, 0]) #Make sure this works with species. struct = Structure(lattice, ["Fe2+", "O2-"], coords) incar = self.paramset.get_incar(struct) self.assertEqual(incar['LDAUU'], [5.3, 0]) struct = Structure(lattice, ["Fe", "Mn"], coords, site_properties={'magmom': (5.2, -4.5)}) incar = self.paramset.get_incar(struct) self.assertEqual(incar['MAGMOM'], [-4.5, 5.2]) incar = self.mpstaticparamset.get_incar(struct) self.assertEqual(incar['MAGMOM'], [-4.5, 5.2]) incar = self.mitparamset_unsorted.get_incar(struct) self.assertEqual(incar['MAGMOM'], [5.2, -4.5]) struct = Structure(lattice, [Specie("Fe", 2, {'spin': 4.1}), "Mn"], coords) incar = self.paramset.get_incar(struct) self.assertEqual(incar['MAGMOM'], [5, 4.1]) incar = self.mpnscfparamsetl.get_incar(struct) self.assertEqual(incar.get('MAGMOM', None), None) struct = Structure(lattice, ["Mn3+", "Mn4+"], coords) incar = self.mitparamset.get_incar(struct) self.assertEqual(incar['MAGMOM'], [4, 3]) incar = self.mpnscfparamsetu.get_incar(struct) self.assertEqual(incar.get('MAGMOM', None), None) self.assertEqual(self.userparamset.get_incar(struct)['MAGMOM'], [100, 0.6]) #sulfide vs sulfate test coords = list() coords.append([0, 0, 0]) coords.append([0.75, 0.5, 0.75]) coords.append([0.25, 0.5, 0]) struct = Structure(lattice, ["Fe", "Fe", "S"], coords) incar = self.mitparamset.get_incar(struct) self.assertEqual(incar['LDAUU'], [1.9, 0]) #Make sure Matproject sulfides are ok. self.assertNotIn('LDAUU', self.paramset.get_incar(struct)) self.assertNotIn('LDAUU', self.mpstaticparamset.get_incar(struct)) struct = Structure(lattice, ["Fe", "S", "O"], coords) incar = self.mitparamset.get_incar(struct) self.assertEqual(incar['LDAUU'], [4.0, 0, 0]) #Make sure Matproject sulfates are ok. self.assertEqual(self.paramset.get_incar(struct)['LDAUU'], [5.3, 0, 0]) self.assertEqual(self.mpnscfparamsetl.get_incar(struct)['LDAUU'], [5.3, 0, 0]) self.assertEqual(self.userparamset.get_incar(struct)['MAGMOM'], [10, -5, 0.6]) def test_optics(self): self.mpopticsparamset = MPOpticsNonSCFVaspInputSet.from_previous_vasp_run( '{}/static_silicon'.format(test_dir), output_dir='optics_test_dir', nedos=1145) self.assertTrue(os.path.exists('optics_test_dir/CHGCAR')) incar = Incar.from_file('optics_test_dir/INCAR') self.assertTrue(incar['LOPTICS']) self.assertEqual(incar['NEDOS'], 1145) #Remove the directory in which the inputs have been created shutil.rmtree('optics_test_dir') def test_get_kpoints(self): kpoints = self.paramset.get_kpoints(self.struct) self.assertEqual(kpoints.kpts, [[2, 4, 6]]) self.assertEqual(kpoints.style, Kpoints.supported_modes.Monkhorst) kpoints = self.mitparamset.get_kpoints(self.struct) self.assertEqual(kpoints.kpts, [[2, 4, 6]]) self.assertEqual(kpoints.style, Kpoints.supported_modes.Monkhorst) kpoints = self.mpstaticparamset.get_kpoints(self.struct) self.assertEqual(kpoints.kpts, [[6, 6, 4]]) self.assertEqual(kpoints.style, Kpoints.supported_modes.Monkhorst) kpoints = self.mpnscfparamsetl.get_kpoints(self.struct) self.assertEqual(kpoints.num_kpts, 140) self.assertEqual(kpoints.style, Kpoints.supported_modes.Reciprocal) kpoints = self.mpnscfparamsetu.get_kpoints(self.struct) self.assertEqual(kpoints.num_kpts, 168) kpoints = self.mpbshseparamsetl.get_kpoints(self.struct) self.assertAlmostEqual(kpoints.num_kpts, 164) self.assertAlmostEqual(kpoints.kpts[10][0], 0.0) self.assertAlmostEqual(kpoints.kpts[10][1], 0.5) self.assertAlmostEqual(kpoints.kpts[10][2], 0.16666667) self.assertAlmostEqual(kpoints.kpts[26][0], 0.0714285714286) self.assertAlmostEqual(kpoints.kpts[26][1], 0.0) self.assertAlmostEqual(kpoints.kpts[26][2], 0.0) self.assertAlmostEqual(kpoints.kpts[-1][0], 0.5) self.assertAlmostEqual(kpoints.kpts[-1][1], 0.5) self.assertAlmostEqual(kpoints.kpts[-1][2], 0.5) kpoints = self.mpbshseparamsetu.get_kpoints(self.struct) self.assertAlmostEqual(kpoints.num_kpts, 25) self.assertAlmostEqual(kpoints.kpts[10][0], 0.0) self.assertAlmostEqual(kpoints.kpts[10][1], 0.5) self.assertAlmostEqual(kpoints.kpts[10][2], 0.16666667) self.assertAlmostEqual(kpoints.kpts[-1][0], 0.5) self.assertAlmostEqual(kpoints.kpts[-1][1], 0.5) self.assertAlmostEqual(kpoints.kpts[-1][2], 0.0) def test_get_all_vasp_input(self): d = self.mitparamset.get_all_vasp_input(self.struct) self.assertEqual(d["INCAR"]["ISMEAR"], -5) self.struct.make_supercell(4) d = self.mitparamset.get_all_vasp_input(self.struct) self.assertEqual(d["INCAR"]["ISMEAR"], 0) def test_to_from_dict(self): self.mitparamset = MITVaspInputSet() self.mithseparamset = MITHSEVaspInputSet() self.paramset = MPVaspInputSet() self.userparamset = MPVaspInputSet( user_incar_settings={'MAGMOM': {"Fe": 10, "S": -5, "Mn3+": 100}} ) d = self.mitparamset.as_dict() v = dec.process_decoded(d) self.assertEqual(v.incar_settings["LDAUU"]["O"]["Fe"], 4) d = self.mitggaparam.as_dict() v = dec.process_decoded(d) self.assertNotIn("LDAUU", v.incar_settings) d = self.mithseparamset.as_dict() v = dec.process_decoded(d) self.assertEqual(v.incar_settings["LHFCALC"], True) d = self.mphseparamset.as_dict() v = dec.process_decoded(d) self.assertEqual(v.incar_settings["LHFCALC"], True) d = self.paramset.as_dict() v = dec.process_decoded(d) self.assertEqual(v.incar_settings["LDAUU"]["O"]["Fe"], 5.3) d = self.userparamset.as_dict() v = dec.process_decoded(d) #self.assertEqual(type(v), MPVaspInputSet) self.assertEqual(v.incar_settings["MAGMOM"], {"Fe": 10, "S": -5, "Mn3+": 100})
class MITMPVaspInputSetTest(unittest.TestCase): def setUp(self): if "VASP_PSP_DIR" not in os.environ: os.environ["VASP_PSP_DIR"] = test_dir filepath = os.path.join(test_dir, 'POSCAR') poscar = Poscar.from_file(filepath) self.struct = poscar.structure self.mitparamset = MITVaspInputSet() self.mitparamset_unsorted = MITVaspInputSet(sort_structure=False) self.mithseparamset = MITHSEVaspInputSet() self.paramset = MPVaspInputSet() self.userparamset = MPVaspInputSet( user_incar_settings={'MAGMOM': { "Fe": 10, "S": -5, "Mn3+": 100 }}) self.mitggaparam = MITGGAVaspInputSet() self.mpstaticparamset = MPStaticVaspInputSet() self.mpnscfparamsetu = MPNonSCFVaspInputSet({"NBANDS": 50}, mode="Uniform") self.mpnscfparamsetl = MPNonSCFVaspInputSet({"NBANDS": 60}, mode="Line") self.mphseparamset = MPHSEVaspInputSet() self.mpbshseparamsetl = MPBSHSEVaspInputSet(mode="Line") self.mpbshseparamsetu = MPBSHSEVaspInputSet( mode="Uniform", added_kpoints=[[0.5, 0.5, 0.0]]) self.mpdielparamset = MPStaticDielectricDFPTVaspInputSet() def test_get_poscar(self): coords = list() coords.append([0, 0, 0]) coords.append([0.75, 0.5, 0.75]) lattice = Lattice([[3.8401979337, 0.00, 0.00], [1.9200989668, 3.3257101909, 0.00], [0.00, -2.2171384943, 3.1355090603]]) struct = Structure(lattice, ["Fe", "Mn"], coords) s_unsorted = self.mitparamset_unsorted.get_poscar(struct).structure s_sorted = self.mitparamset.get_poscar(struct).structure self.assertEqual(s_unsorted[0].specie.symbol, 'Fe') self.assertEqual(s_sorted[0].specie.symbol, 'Mn') def test_get_potcar_symbols(self): coords = list() coords.append([0, 0, 0]) coords.append([0.75, 0.5, 0.75]) coords.append([0.75, 0.25, 0.75]) lattice = Lattice([[3.8401979337, 0.00, 0.00], [1.9200989668, 3.3257101909, 0.00], [0.00, -2.2171384943, 3.1355090603]]) struct = Structure(lattice, ["P", "Fe", "O"], coords) syms = self.paramset.get_potcar_symbols(struct) self.assertEqual(syms, ['Fe_pv', 'P', 'O']) syms = MPVaspInputSet(sort_structure=False).get_potcar_symbols(struct) self.assertEqual(syms, ['P', 'Fe_pv', 'O']) def test_false_potcar_hash(self): coords = list() coords.append([0, 0, 0]) coords.append([0.75, 0.5, 0.75]) coords.append([0.75, 0.25, 0.75]) lattice = Lattice([[3.8401979337, 0.00, 0.00], [1.9200989668, 3.3257101909, 0.00], [0.00, -2.2171384943, 3.1355090603]]) struct = Structure(lattice, ["P", "Fe", "O"], coords) self.mitparamset.potcar_settings['Fe']['symbol'] = 'Fe_pv' self.assertRaises(ValueError, self.mitparamset.get_potcar, struct, check_hash=True) self.mitparamset.potcar_settings['Fe']['symbol'] = 'Fe' def test_lda_potcar(self): coords = list() coords.append([0, 0, 0]) coords.append([0.75, 0.5, 0.75]) lattice = Lattice([[3.8401979337, 0.00, 0.00], [1.9200989668, 3.3257101909, 0.00], [0.00, -2.2171384943, 3.1355090603]]) struct = Structure(lattice, ["P", "Fe"], coords) p = MITVaspInputSet(potcar_functional="LDA").get_potcar(struct) self.assertEqual(p.functional, 'LDA') def test_get_nelect(self): coords = [[0] * 3, [0.5] * 3, [0.75] * 3] lattice = Lattice.cubic(4) s = Structure(lattice, ['Si', 'Si', 'Fe'], coords) self.assertAlmostEqual(MITVaspInputSet().get_nelect(s), 16) def test_get_incar(self): incar = self.paramset.get_incar(self.struct) self.assertEqual(incar['LDAUU'], [5.3, 0, 0]) self.assertAlmostEqual(incar['EDIFF'], 0.0012) incar = self.mitparamset.get_incar(self.struct) self.assertEqual(incar['LDAUU'], [4.0, 0, 0]) self.assertAlmostEqual(incar['EDIFF'], 0.0012) incar_gga = self.mitggaparam.get_incar(self.struct) self.assertNotIn("LDAU", incar_gga) incar_static = self.mpstaticparamset.get_incar(self.struct) self.assertEqual(incar_static["NSW"], 0) incar_nscfl = self.mpnscfparamsetl.get_incar(self.struct) self.assertEqual(incar_nscfl["NBANDS"], 60) incar_nscfu = self.mpnscfparamsetu.get_incar(self.struct) self.assertEqual(incar_nscfu["ISYM"], 0) incar_hse = self.mphseparamset.get_incar(self.struct) self.assertEqual(incar_hse['LHFCALC'], True) self.assertEqual(incar_hse['HFSCREEN'], 0.2) incar_hse_bsl = self.mpbshseparamsetl.get_incar(self.struct) self.assertEqual(incar_hse_bsl['LHFCALC'], True) self.assertEqual(incar_hse_bsl['HFSCREEN'], 0.2) self.assertEqual(incar_hse_bsl['NSW'], 0) incar_hse_bsu = self.mpbshseparamsetu.get_incar(self.struct) self.assertEqual(incar_hse_bsu['LHFCALC'], True) self.assertEqual(incar_hse_bsu['HFSCREEN'], 0.2) self.assertEqual(incar_hse_bsu['NSW'], 0) incar_diel = self.mpdielparamset.get_incar(self.struct) self.assertEqual(incar_diel['IBRION'], 8) self.assertEqual(incar_diel['LEPSILON'], True) si = 14 coords = list() coords.append(np.array([0, 0, 0])) coords.append(np.array([0.75, 0.5, 0.75])) #Silicon structure for testing. latt = Lattice( np.array([[3.8401979337, 0.00, 0.00], [1.9200989668, 3.3257101909, 0.00], [0.00, -2.2171384943, 3.1355090603]])) struct = Structure(latt, [si, si], coords) incar = self.paramset.get_incar(struct) self.assertNotIn("LDAU", incar) incar = self.mithseparamset.get_incar(self.struct) self.assertTrue(incar['LHFCALC']) coords = list() coords.append([0, 0, 0]) coords.append([0.75, 0.5, 0.75]) lattice = Lattice([[3.8401979337, 0.00, 0.00], [1.9200989668, 3.3257101909, 0.00], [0.00, -2.2171384943, 3.1355090603]]) struct = Structure(lattice, ["Fe", "Mn"], coords) incar = self.paramset.get_incar(struct) self.assertNotIn('LDAU', incar) #check fluorides struct = Structure(lattice, ["Fe", "F"], coords) incar = self.paramset.get_incar(struct) self.assertEqual(incar['LDAUU'], [5.3, 0]) self.assertEqual(incar['MAGMOM'], [5, 0.6]) struct = Structure(lattice, ["Fe", "F"], coords) incar = self.mitparamset.get_incar(struct) self.assertEqual(incar['LDAUU'], [4.0, 0]) #Make sure this works with species. struct = Structure(lattice, ["Fe2+", "O2-"], coords) incar = self.paramset.get_incar(struct) self.assertEqual(incar['LDAUU'], [5.3, 0]) struct = Structure(lattice, ["Fe", "Mn"], coords, site_properties={'magmom': (5.2, -4.5)}) incar = self.paramset.get_incar(struct) self.assertEqual(incar['MAGMOM'], [-4.5, 5.2]) incar = self.mpstaticparamset.get_incar(struct) self.assertEqual(incar['MAGMOM'], [-4.5, 5.2]) incar = self.mitparamset_unsorted.get_incar(struct) self.assertEqual(incar['MAGMOM'], [5.2, -4.5]) struct = Structure(lattice, [Specie("Fe", 2, {'spin': 4.1}), "Mn"], coords) incar = self.paramset.get_incar(struct) self.assertEqual(incar['MAGMOM'], [5, 4.1]) incar = self.mpnscfparamsetl.get_incar(struct) self.assertEqual(incar.get('MAGMOM', None), None) struct = Structure(lattice, ["Mn3+", "Mn4+"], coords) incar = self.mitparamset.get_incar(struct) self.assertEqual(incar['MAGMOM'], [4, 3]) incar = self.mpnscfparamsetu.get_incar(struct) self.assertEqual(incar.get('MAGMOM', None), None) self.assertEqual( self.userparamset.get_incar(struct)['MAGMOM'], [100, 0.6]) #sulfide vs sulfate test coords = list() coords.append([0, 0, 0]) coords.append([0.75, 0.5, 0.75]) coords.append([0.25, 0.5, 0]) struct = Structure(lattice, ["Fe", "Fe", "S"], coords) incar = self.mitparamset.get_incar(struct) self.assertEqual(incar['LDAUU'], [1.9, 0]) #Make sure Matproject sulfides are ok. self.assertNotIn('LDAUU', self.paramset.get_incar(struct)) self.assertNotIn('LDAUU', self.mpstaticparamset.get_incar(struct)) struct = Structure(lattice, ["Fe", "S", "O"], coords) incar = self.mitparamset.get_incar(struct) self.assertEqual(incar['LDAUU'], [4.0, 0, 0]) #Make sure Matproject sulfates are ok. self.assertEqual(self.paramset.get_incar(struct)['LDAUU'], [5.3, 0, 0]) self.assertEqual( self.mpnscfparamsetl.get_incar(struct)['LDAUU'], [5.3, 0, 0]) self.assertEqual( self.userparamset.get_incar(struct)['MAGMOM'], [10, -5, 0.6]) def test_optics(self): self.mpopticsparamset = MPOpticsNonSCFVaspInputSet.from_previous_vasp_run( '{}/static_silicon'.format(test_dir), output_dir='optics_test_dir', nedos=1145) self.assertTrue(os.path.exists('optics_test_dir/CHGCAR')) incar = Incar.from_file('optics_test_dir/INCAR') self.assertTrue(incar['LOPTICS']) self.assertEqual(incar['NEDOS'], 1145) #Remove the directory in which the inputs have been created shutil.rmtree('optics_test_dir') def test_get_kpoints(self): kpoints = self.paramset.get_kpoints(self.struct) self.assertEqual(kpoints.kpts, [[2, 4, 6]]) self.assertEqual(kpoints.style, Kpoints.supported_modes.Monkhorst) kpoints = self.mitparamset.get_kpoints(self.struct) self.assertEqual(kpoints.kpts, [[2, 4, 6]]) self.assertEqual(kpoints.style, Kpoints.supported_modes.Monkhorst) kpoints = self.mpstaticparamset.get_kpoints(self.struct) self.assertEqual(kpoints.kpts, [[6, 6, 4]]) self.assertEqual(kpoints.style, Kpoints.supported_modes.Monkhorst) kpoints = self.mpnscfparamsetl.get_kpoints(self.struct) self.assertEqual(kpoints.num_kpts, 140) self.assertEqual(kpoints.style, Kpoints.supported_modes.Reciprocal) kpoints = self.mpnscfparamsetu.get_kpoints(self.struct) self.assertEqual(kpoints.num_kpts, 168) kpoints = self.mpbshseparamsetl.get_kpoints(self.struct) self.assertAlmostEqual(kpoints.num_kpts, 164) self.assertAlmostEqual(kpoints.kpts[10][0], 0.0) self.assertAlmostEqual(kpoints.kpts[10][1], 0.5) self.assertAlmostEqual(kpoints.kpts[10][2], 0.16666667) self.assertAlmostEqual(kpoints.kpts[26][0], 0.0714285714286) self.assertAlmostEqual(kpoints.kpts[26][1], 0.0) self.assertAlmostEqual(kpoints.kpts[26][2], 0.0) self.assertAlmostEqual(kpoints.kpts[-1][0], 0.5) self.assertAlmostEqual(kpoints.kpts[-1][1], 0.5) self.assertAlmostEqual(kpoints.kpts[-1][2], 0.5) kpoints = self.mpbshseparamsetu.get_kpoints(self.struct) self.assertAlmostEqual(kpoints.num_kpts, 25) self.assertAlmostEqual(kpoints.kpts[10][0], 0.0) self.assertAlmostEqual(kpoints.kpts[10][1], 0.5) self.assertAlmostEqual(kpoints.kpts[10][2], 0.16666667) self.assertAlmostEqual(kpoints.kpts[-1][0], 0.5) self.assertAlmostEqual(kpoints.kpts[-1][1], 0.5) self.assertAlmostEqual(kpoints.kpts[-1][2], 0.0) def test_get_all_vasp_input(self): d = self.mitparamset.get_all_vasp_input(self.struct) self.assertEqual(d["INCAR"]["ISMEAR"], -5) self.struct.make_supercell(4) d = self.mitparamset.get_all_vasp_input(self.struct) self.assertEqual(d["INCAR"]["ISMEAR"], 0) def test_to_from_dict(self): self.mitparamset = MITVaspInputSet() self.mithseparamset = MITHSEVaspInputSet() self.paramset = MPVaspInputSet() self.userparamset = MPVaspInputSet( user_incar_settings={'MAGMOM': { "Fe": 10, "S": -5, "Mn3+": 100 }}) d = self.mitparamset.as_dict() v = dec.process_decoded(d) self.assertEqual(v.incar_settings["LDAUU"]["O"]["Fe"], 4) d = self.mitggaparam.as_dict() v = dec.process_decoded(d) self.assertNotIn("LDAUU", v.incar_settings) d = self.mithseparamset.as_dict() v = dec.process_decoded(d) self.assertEqual(v.incar_settings["LHFCALC"], True) d = self.mphseparamset.as_dict() v = dec.process_decoded(d) self.assertEqual(v.incar_settings["LHFCALC"], True) d = self.paramset.as_dict() v = dec.process_decoded(d) self.assertEqual(v.incar_settings["LDAUU"]["O"]["Fe"], 5.3) d = self.userparamset.as_dict() v = dec.process_decoded(d) #self.assertEqual(type(v), MPVaspInputSet) self.assertEqual(v.incar_settings["MAGMOM"], { "Fe": 10, "S": -5, "Mn3+": 100 })