def main(args):

    param = InputParams()
    for filename in [f for f in os.listdir() if f.endswith(".yaml")]:
        try:
            param = InputParams.from_file(filename)
            break
        except:
            continue
    pseudos = not (args.no_pseudos)

    positions = [
        Posinp.from_file(args.positions_dir + file)
        for file in os.listdir(args.positions_dir) if file.endswith(".xyz")
    ]

    # Create directories
    os.makedirs("run_dir/", exist_ok=True)
    os.makedirs("saved_results/", exist_ok=True)

    os.chdir("run_dir/")

    for i in range(args.n_structs):
        j = int(np.random.choice(len(positions), 1))
        posinp = generate_random_structure(positions[j])
        run(posinp, i, args, param, pseudos)
Exemplo n.º 2
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 def post_proc(self):
     r"""
     Read the final posinp from a file.
     """
     job = self.queue[0]
     directory = os.path.join(job.init_dir, job.run_dir)
     filename = "final_" + job.posinp_name
     final_posinp_path = os.path.join(directory, filename)
     self._final_posinp = Posinp.from_file(final_posinp_path)
Exemplo n.º 3
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 def test_run_with_dry_run(self):
     with Job(inputparams=self.inp, name="dry_run", run_dir="tests") as job:
         # Run the calculation
         job.clean()
         assert not job.is_completed
         job.run(dry_run=True, nmpi=2, nomp=4)
         assert job.is_completed
         # There must be input and output files afterwards
         new_inp = InputParams.from_file(job.input_name)
         assert new_inp == self.inp
         new_pos = Posinp.from_file(job.posinp_name)
         assert new_pos == self.pos
         bigdft_tool_log = Logfile.from_file(job.logfile_name)
         assert bigdft_tool_log.energy is None
Exemplo n.º 4
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 def test_run_with_dry_run_with_posinp(self):
     with Job(inputparams=self.inp,
              posinp=self.pos,
              name="dry_run",
              run_dir="tests") as job:
         job.clean()
         assert not job.is_completed
         job.run(dry_run=True, nmpi=2, nomp=4)
         assert job.is_completed
         # Make sure that input, posinp and output files are created
         new_inp = InputParams.from_file(job.input_name)
         assert new_inp == self.inp
         new_pos = Posinp.from_file(job.posinp_name)
         assert new_pos == self.pos
         bigdft_tool_log = Logfile.from_file(job.logfile_name)
         assert bigdft_tool_log.energy is None
def prepare_calculations(overwrite=False):
    r"""
    Determines which files are present and which need to be generated.

    Parameters:
    -------------
    overwrite : bool
        (default : False) if True, the present files are ignored

    Returns:
        base_inp : InputParams
        base input parameters for the calculation

        base_pos : Posinp
        base atomic positions for the calculation

        jobname : string
        Name of the calculation if there is a pos file,
        string "jobname" if no position file.
    """
    files = [f for f in os.listdir() if f.endswith((".xyz", ".yaml"))]
    posinp_is_present, jobname = verify_posinp(files)

    if verify_input(files):
        base_inp = InputParams.from_file("input.yaml")
    else:
        base_inp = InputParams()

    if posinp_is_present:
        base_pos = Posinp.from_file(jobname + ".xyz")
    elif base_inp.posinp is not None:
        base_pos = base_inp.posinp
        jobname = "jobname"
        base_pos.write(jobname + ".xyz")
    else:
        raise ValueError("No atomic positions are available.")
    return base_inp, base_pos, jobname
Exemplo n.º 6
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 def test_init_with_different_posinp_in_inputparams_raises_ValueError(self):
     with pytest.raises(ValueError, match="do not define the same posinp."):
         Job(inputparams=self.inp,
             posinp=Posinp.from_file("tests/surface.xyz"))
Exemplo n.º 7
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 def test__check_logfile_posinp(self):
     pos_name = os.path.join("tests", "surface.xyz")
     pos = Posinp.from_file(pos_name)
     with pytest.raises(UserWarning):
         with Job(posinp=pos, run_dir="tests") as job:
             job.run()
Exemplo n.º 8
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 def test_init_raises_ValueError(self, fname):
     with pytest.raises(ValueError):
         Posinp.from_file(os.path.join(tests_fol, fname))
Exemplo n.º 9
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 def test_write(self):
     fname = os.path.join(tests_fol, "test.xyz")
     self.pos.write(fname)
     assert self.pos == Posinp.from_file(fname)
     os.remove(fname)
Exemplo n.º 10
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class TestPosinp:

    # Posinp with surface boundary conditions
    surface_filename = os.path.join(tests_fol, "surface.xyz")
    pos = Posinp.from_file(surface_filename)
    # Posinp with free boundary conditions
    free_filename = os.path.join(tests_fol, "free.xyz")
    free_pos = Posinp.from_file(free_filename)
    # Posinp read from a string
    string = """\
4   atomic
free
C    0.6661284109   0.000000000   1.153768252
C    3.330642055    0.000000000   1.153768252
C    4.662898877    0.000000000   3.461304757
C    7.327412521    0.000000000   3.461304757"""
    str_pos = Posinp.from_string(string)
    # Posinp read from an N2 calculation of bad quality
    log_pos = Logfile.from_file(logname).posinp
    # Posinp read from an InputParams instance with surface BC
    surf_inp = InputParams({
        'posinp': {
            'units': 'angstroem',
            'cell': [8.0, '.inf', 8.0],
            'positions': [{
                'C': [0.0, 0.0, 0.0]
            }]
        }
    })
    surf_pos = surf_inp.posinp
    # Posinp read from an InputParams instance with periodic BC
    per_inp = InputParams({
        'posinp': {
            'units': 'angstroem',
            'cell': [8.0, 1.0, 8.0],
            'positions': [{
                'C': [0.0, 0.0, 0.0]
            }]
        }
    })
    per_pos = per_inp.posinp

    @pytest.mark.parametrize("value, expected", [
        (len(pos), 4),
        (pos.units, "reduced"),
        (len(pos), 4),
        (pos.boundary_conditions, "surface"),
        (pos.cell, [8.07007483423, 'inf', 4.65925987792]),
        (pos[0], Atom('C', [0.08333333333, 0.5, 0.25])),
    ])
    def test_from_file(self, value, expected):
        assert value == expected

    @pytest.mark.parametrize("value, expected", [
        (len(log_pos), 2),
        (log_pos.units, "angstroem"),
        (len(log_pos), 2),
        (log_pos.boundary_conditions, "free"),
        (log_pos.cell, None),
        (log_pos[0],
         Atom('N', [
             2.9763078243490115e-23, 6.872205952043537e-23, 0.01071619987487793
         ])),
    ])
    def test_from_Logfile(self, value, expected):
        assert value == expected

    @pytest.mark.parametrize("value, expected", [
        (len(surf_pos), 1),
        (surf_pos.units, "angstroem"),
        (len(surf_pos), 1),
        (surf_pos.boundary_conditions, "surface"),
        (surf_pos.cell, [8, "inf", 8]),
        (surf_pos[0], Atom('C', [0, 0, 0])),
    ])
    def test_from_surface_InputParams(self, value, expected):
        assert value == expected

    @pytest.mark.parametrize("value, expected", [
        (len(per_pos), 1),
        (per_pos.units, "angstroem"),
        (len(per_pos), 1),
        (per_pos.boundary_conditions, "periodic"),
        (per_pos.cell, [8, 1.0, 8]),
        (per_pos[0], Atom('C', [0, 0, 0])),
    ])
    def test_from_periodic_InputParams(self, value, expected):
        assert value == expected

    def test_from_string(self):
        assert self.str_pos == self.free_pos

    def test_repr(self):
        atoms = [Atom('C', [0, 0, 0]), Atom('N', [0, 0, 1])]
        new_pos = Posinp(atoms, units="angstroem", boundary_conditions="free")
        msg = "Posinp([Atom('C', [0.0, 0.0, 0.0]), Atom('N', [0.0, 0.0, "\
              "1.0])], 'angstroem', 'free', cell=None)"
        assert repr(new_pos) == msg

    def test_write(self):
        fname = os.path.join(tests_fol, "test.xyz")
        self.pos.write(fname)
        assert self.pos == Posinp.from_file(fname)
        os.remove(fname)

    def test_free_boundary_conditions_has_no_cell(self):
        assert self.free_pos.cell is None

    def test_translate_atom(self):
        new_pos = self.pos.translate_atom(0, [0.5, 0, 0])
        assert new_pos != self.pos
        assert new_pos[0] == Atom("C", [0.58333333333, 0.5, 0.25])

    @pytest.mark.parametrize("fname", [
        "free_reduced.xyz",
        "missing_atom.xyz",
        "additional_atom.xyz",
    ])
    def test_init_raises_ValueError(self, fname):
        with pytest.raises(ValueError):
            Posinp.from_file(os.path.join(tests_fol, fname))

    @pytest.mark.parametrize("to_evaluate", [
        "Posinp([Atom('C', [0, 0, 0])], 'bohr', 'periodic')",
        "Posinp([Atom('C', [0, 0, 0])], 'bohr', 'periodic', cell=[1, 1])",
        "Posinp([Atom('C', [0, 0, 0])], 'bohr', 'periodic', cell=[1,'inf',1])",
    ])
    def test_init_raises_ValueError2(self, to_evaluate):
        with pytest.raises(ValueError):
            eval(to_evaluate)

    def test_positions(self):
        expected = [7.327412521, 0.0, 3.461304757]
        pos1 = Posinp([Atom('C', expected)],
                      units="angstroem",
                      boundary_conditions="free")
        pos2 = pos1.translate_atom(0, [-7.327412521, 0.0, -3.461304757])
        assert np.allclose(pos1.positions, expected)
        assert np.allclose(pos2.positions, [0, 0, 0])

    def test___eq__(self):
        atom1 = Atom('N', [0.0, 0.0, 0.0])
        atom2 = Atom('N', [0.0, 0.0, 1.1])
        pos1 = Posinp([atom1, atom2], 'angstroem', 'free')
        pos2 = Posinp([atom2, atom1], 'angstroem', 'free')
        assert pos1 == pos2  # The order of the atoms in the list do not count
        assert pos1 != 1  # No error if other object is not a posinp

    def test_with_surface_boundary_conditions(self):
        # Two Posinp instances with surface BC are the same even if they
        # have a different cell size along y-axis
        pos_with_inf = Posinp([
            Atom('N', [
                2.97630782434901e-23, 6.87220595204354e-23, 0.0107161998748779
            ]),
            Atom('N', [
                -1.10434491945017e-23, -4.87342174483075e-23, 1.10427379608154
            ])
        ],
                              'angstroem',
                              'surface',
                              cell=[40, ".inf", 40])
        pos_wo_inf = Posinp([
            Atom('N', [
                2.97630782434901e-23, 6.87220595204354e-23, 0.0107161998748779
            ]),
            Atom('N', [
                -1.10434491945017e-23, -4.87342174483075e-23, 1.10427379608154
            ])
        ],
                            'angstroem',
                            'surface',
                            cell=[40, 40, 40])
        assert pos_with_inf == pos_wo_inf
        # They are obviously different if the cell size along the other
        # directions are not the same
        pos2_wo_inf = Posinp([
            Atom('N', [
                2.97630782434901e-23, 6.87220595204354e-23, 0.0107161998748779
            ]),
            Atom('N', [
                -1.10434491945017e-23, -4.87342174483075e-23, 1.10427379608154
            ])
        ],
                             'angstroem',
                             'surface',
                             cell=[20, "inf", 40])
        assert pos_with_inf != pos2_wo_inf
        # They still have the same BC
        assert \
            pos2_wo_inf.boundary_conditions == pos_with_inf.boundary_conditions
        # You can only have a cell with ".inf" in 2nd positiion to
        # initialize a calculation with surface BC without using a
        # Posinp instance
        inp_with_inf = InputParams({
            "posinp": {
                "units":
                "angstroem",
                "cell": [40, ".inf", 40],
                "positions": [
                    {
                        'N': [
                            2.97630782434901e-23, 6.87220595204354e-23,
                            0.0107161998748779
                        ]
                    },
                    {
                        'N': [
                            -1.10434491945017e-23, -4.87342174483075e-23,
                            1.10427379608154
                        ]
                    },
                ]
            }
        })
        assert pos_with_inf == inp_with_inf.posinp

    def test_to_centroid(self):
        atoms = [Atom('N', [0, 0, 0]), Atom('N', [0, 0, 1.1])]
        pos = Posinp(atoms, units="angstroem", boundary_conditions="free")
        expected_atoms = [Atom('N', [0, 0, -0.55]), Atom('N', [0, 0, 0.55])]
        expected_pos = Posinp(expected_atoms,
                              units="angstroem",
                              boundary_conditions="free")
        assert pos.to_centroid() == expected_pos

    def test_to_barycenter(self):
        atoms = [Atom('N', [0, 0, 0]), Atom('N', [0, 0, 1.1])]
        pos = Posinp(atoms, units="angstroem", boundary_conditions="free")
        expected_atoms = [Atom('N', [0, 0, -0.55]), Atom('N', [0, 0, 0.55])]
        expected_pos = Posinp(expected_atoms,
                              units="angstroem",
                              boundary_conditions="free")
        assert pos.to_barycenter() == expected_pos