Esempio n. 1
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 def abivalidate_work(self, work):
     """Invoke Abinit to test validity of the inputs of a |Work|"""
     from abipy.flowtk import Flow
     tmpdir = tempfile.mkdtemp()
     flow = Flow(workdir=tmpdir)
     flow.register_work(work)
     return self.abivalidate_flow(flow)
Esempio n. 2
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    def open(cls, obj, nids=None, **kwargs):
        """
        Flexible constructor. obj can be a :class:`Flow` or a string with the directory containing the Flow.
        nids is an optional list of :class:`Node` identifiers used to filter the set of :class:`Task` in the Flow.
        """
        has_dirpath = False
        if is_string(obj):
            try:
                obj = Flow.pickle_load(obj)
            except:
                has_dirpath = True

        if not has_dirpath:
            # We have a Flow. smeth is the name of the Task method used to open the file.
            items = []
            smeth = "open_" + cls.EXT.lower()
            for task in obj.iflat_tasks(nids=nids):  #, status=obj.S_OK):
                open_method = getattr(task, smeth, None)
                if open_method is None: continue
                ncfile = open_method()
                if ncfile is not None: items.append((task.pos_str, ncfile))
            return cls(*items)

        else:
            # directory --> search for files with the appropriate extension and open it with abiopen.
            if nids is not None:
                raise ValueError(
                    "nids cannot be used when obj is a directory.")
            return cls.from_dir(obj)
Esempio n. 3
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    def test_g0w0_with_ppmodel_inputs(self):
        """Testing g0w0_with_ppmodel_input factory."""
        scf_kppa, scf_nband, nscf_nband = 10, 10, 10
        ecuteps, ecutsigx = 2, 2

        multi = g0w0_with_ppmodel_inputs(self.si_structure,
                                         self.si_pseudo,
                                         scf_kppa,
                                         nscf_nband,
                                         ecuteps,
                                         ecutsigx,
                                         shifts=(0.5, 0.5, 0.5),
                                         ecut=2)

        scf_input, nscf_input, scr_input, sigma_input = multi.split_datasets()

        self.abivalidate_multi(multi)

        self.assertIn('many_body', scr_input.runlevel)
        self.assertIn('screening', scr_input.runlevel)
        self.abivalidate_input(sigma_input)
        self.assertIn('many_body', sigma_input.runlevel)
        self.assertIn('sigma', sigma_input.runlevel)
        self.assertNotIn('hybrid', sigma_input.runlevel)

        if write_inputs_to_json:
            with open('g0w0_with_ppmodel_scf_input.json', mode='w') as fp:
                json.dump(scf_input.as_dict(), fp, indent=2)
            with open('g0w0_with_ppmodel_nscf_input.json', mode='w') as fp:
                json.dump(nscf_input.as_dict(), fp, indent=2)
            with open('g0w0_with_ppmodel_scr_input.json', mode='w') as fp:
                json.dump(scr_input.as_dict(), fp, indent=2)
            with open('g0w0_with_ppmodel_sigma_input.json', mode='w') as fp:
                json.dump(sigma_input.as_dict(), fp, indent=2)

        self.assert_input_equality('g0w0_with_ppmodel_scf_input.json',
                                   scf_input)
        self.assert_input_equality('g0w0_with_ppmodel_nscf_input.json',
                                   nscf_input)
        self.assert_input_equality('g0w0_with_ppmodel_scr_input.json',
                                   scr_input)
        self.assert_input_equality('g0w0_with_ppmodel_sigma_input.json',
                                   sigma_input)

        flow = Flow.temporary_flow()
        flow.register_work(
            G0W0Work(scf_input, nscf_input, scr_input, sigma_input))
        assert flow.build_and_pickle_dump(abivalidate=True) == 0

        # The default value of `shifts` changed in v0.3 from (0.5, 0.5, 0.5) to (0.0, 0.0, 0.0)
        multi = g0w0_with_ppmodel_inputs(self.si_structure,
                                         self.si_pseudo,
                                         scf_kppa,
                                         nscf_nband,
                                         ecuteps,
                                         ecutsigx,
                                         ecut=2)
        for inp in multi:
            self.assert_equal(inp["shiftk"].flatten(), (0, 0, 0))
Esempio n. 4
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    def test_ion_ioncell_relax_input(self):
        """Testing ion_ioncell_relax_input factory."""
        multi = ion_ioncell_relax_input(self.si_structure, self.si_pseudo, kppa=10, ecut=2)
        # scf_kppa, scf_nband #accuracy="normal", spin_mode="polarized",
        # smearing="fermi_dirac:0.1 eV", charge=0.0, scf_algorithm=None)

        ion_inp, ioncell_inp = multi.split_datasets()
        self.assertIn('ion_relax', ion_inp.runlevel)
        self.assertIn('relax', ion_inp.runlevel)
        self.assertIn('ground_state', ion_inp.runlevel)
        flow = Flow.temporary_flow()
        flow.register_work(RelaxWork(ion_inp, ioncell_inp))
        assert flow.build_and_pickle_dump(abivalidate=True) == 0
Esempio n. 5
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    def test_ion_ioncell_relax_input(self):
        """Testing ion_ioncell_relax_input factory."""
        multi = ion_ioncell_relax_input(self.si_structure, self.si_pseudo, kppa=10, ecut=2)
        # scf_kppa, scf_nband #accuracy="normal", spin_mode="polarized",
        # smearing="fermi_dirac:0.1 eV", charge=0.0, scf_algorithm=None)

        ion_inp, ioncell_inp = multi.split_datasets()
        self.assertIn('ion_relax', ion_inp.runlevel)
        self.assertIn('relax', ion_inp.runlevel)
        self.assertIn('ground_state', ion_inp.runlevel)
        flow = Flow.temporary_flow()
        flow.register_work(RelaxWork(ion_inp, ioncell_inp))
        assert flow.build_and_pickle_dump(abivalidate=True) == 0
Esempio n. 6
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 def test_flow(self):
     """
     Testing flow creation and task registering
     """
     flow = Flow(workdir=test_dir,
                 manager=TaskManager.from_file(
                     os.path.join(test_dir, "manager.yml")))
     inp = {}
     flow.register_task(input=inp)
     flow.allocate()
     self.assertTrue(flow.allocated)
     self.assertIsInstance(flow[0], Work)
     self.assertIsInstance(flow[0][0], AbinitTask)
     self.assertEqual(flow.check_status(), None)
Esempio n. 7
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    def test_g0w0_with_ppmodel_inputs(self):
        """Testing g0w0_with_ppmodel_input factory."""
        scf_kppa, scf_nband, nscf_nband = 10, 10, 10
        ecuteps, ecutsigx = 2, 2

        multi = g0w0_with_ppmodel_inputs(self.si_structure, self.si_pseudo,
                                         scf_kppa, nscf_nband, ecuteps, ecutsigx,
                                         shifts=(0.5, 0.5, 0.5), ecut=2)

        scf_input, nscf_input, scr_input, sigma_input = multi.split_datasets()

        self.abivalidate_multi(multi)

        self.assertIn('many_body', scr_input.runlevel)
        self.assertIn('screening', scr_input.runlevel)
        self.abivalidate_input(sigma_input)
        self.assertIn('many_body', sigma_input.runlevel)
        self.assertIn('sigma', sigma_input.runlevel)
        self.assertNotIn('hybrid', sigma_input.runlevel)

        if write_inputs_to_json:
            with open('g0w0_with_ppmodel_scf_input.json', mode='w') as fp:
                json.dump(scf_input.as_dict(), fp, indent=2)
            with open('g0w0_with_ppmodel_nscf_input.json', mode='w') as fp:
                json.dump(nscf_input.as_dict(), fp, indent=2)
            with open('g0w0_with_ppmodel_scr_input.json', mode='w') as fp:
                json.dump(scr_input.as_dict(), fp, indent=2)
            with open('g0w0_with_ppmodel_sigma_input.json', mode='w') as fp:
                json.dump(sigma_input.as_dict(), fp, indent=2)

        self.assert_input_equality('g0w0_with_ppmodel_scf_input.json', scf_input)
        self.assert_input_equality('g0w0_with_ppmodel_nscf_input.json', nscf_input)
        self.assert_input_equality('g0w0_with_ppmodel_scr_input.json', scr_input)
        self.assert_input_equality('g0w0_with_ppmodel_sigma_input.json', sigma_input)

        flow = Flow.temporary_flow()
        flow.register_work(G0W0Work(scf_input, nscf_input, scr_input, sigma_input))
        assert flow.build_and_pickle_dump(abivalidate=True) == 0


        # The default value of `shifts` changed in v0.3 from (0.5, 0.5, 0.5) to (0.0, 0.0, 0.0)
        multi = g0w0_with_ppmodel_inputs(self.si_structure, self.si_pseudo,
                                        scf_kppa, nscf_nband, ecuteps, ecutsigx,
                                        ecut=2)
        for inp in multi:
            self.assert_equal(inp["shiftk"].flatten(), (0, 0, 0))
Esempio n. 8
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    def test_g0w0_with_ppmodel_inputs(self):
        """Testing g0w0_with_ppmodel_input factory."""
        scf_kppa, scf_nband, nscf_nband = 10, 10, 10
        ecuteps, ecutsigx = 2, 2

        multi = g0w0_with_ppmodel_inputs(self.si_structure,
                                         self.si_pseudo,
                                         scf_kppa,
                                         nscf_nband,
                                         ecuteps,
                                         ecutsigx,
                                         ecut=2)

        scf_input, nscf_input, scr_input, sigma_input = multi.split_datasets()

        flow = Flow.temporary_flow()
        flow.register_work(
            G0W0Work(scf_input, nscf_input, scr_input, sigma_input))
        assert flow.build_and_pickle_dump(abivalidate=True) == 0
Esempio n. 9
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def abiopen(filepath):
    """
    Factory function that opens any file supported by abipy.
    File type is detected from the extension

    Args:
        filepath: string with the filename.
    """
    if os.path.basename(filepath) == "__AbinitFlow__.pickle":
        return Flow.pickle_load(filepath)

    # Handle old output files produced by Abinit.
    import re
    outnum = re.compile(r".+\.out[\d]+")
    abonum = re.compile(r".+\.abo[\d]+")
    if outnum.match(filepath) or abonum.match(filepath):
        return AbinitOutputFile.from_file(filepath)

    cls = abifile_subclass_from_filename(filepath)
    return cls.from_file(filepath)
Esempio n. 10
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def abiopen(filepath):
    """
    Factory function that opens any file supported by abipy.
    File type is detected from the extension

    Args:
        filepath: string with the filename.
    """
    if os.path.basename(filepath) == "__AbinitFlow__.pickle":
        return Flow.pickle_load(filepath)

    # Handle old output files produced by Abinit.
    import re
    outnum = re.compile(r".+\.out[\d]+")
    abonum = re.compile(r".+\.abo[\d]+")
    if outnum.match(filepath) or abonum.match(filepath):
        return AbinitOutputFile.from_file(filepath)

    cls = abifile_subclass_from_filename(filepath)
    return cls.from_file(filepath)
Esempio n. 11
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def abiopen(filepath):
    """
    Factory function that opens any file supported by abipy.
    File type is detected from the extension

    Args:
        filepath: string with the filename.
    """
    # Handle ~ in filepath.
    filepath = os.path.expanduser(filepath)

    # Handle zipped files by creating temporary file with correct extension.
    root, ext = os.path.splitext(filepath)
    if ext in (".bz2", ".gz", ".z"):
        from monty.io import zopen
        with zopen(filepath, "rt") as f:
            import tempfile
            _, tmp_path = tempfile.mkstemp(suffix=os.path.basename(root),
                                           text=True)
            cprint("Creating temporary file: %s" % tmp_path, "yellow")
            with open(tmp_path, "wt") as t:
                t.write(f.read())
            filepath = tmp_path

    if os.path.basename(filepath) == "__AbinitFlow__.pickle":
        return Flow.pickle_load(filepath)

    # Handle old output files produced by Abinit.
    import re
    outnum = re.compile(r".+\.out[\d]+")
    abonum = re.compile(r".+\.abo[\d]+")
    if outnum.match(filepath) or abonum.match(filepath):
        return AbinitOutputFile.from_file(filepath)

    if os.path.basename(filepath) == "log":
        # Assume Abinit log file.
        return AbinitLogFile.from_file(filepath)

    cls = abifile_subclass_from_filename(filepath)
    return cls.from_file(filepath)