dft_tools/python/converters/vasp/test/_plotools/test_projshells.py


import numpy as np
import vaspio
import elstruct
from inpconf import ConfigParameters
from plotools import select_bands, ProjectorShell
import mytest

################################################################################
#
# TestProjectorShell
#
################################################################################
class TestProjectorShell(mytest.MyTestCase):
    """
    Class:

    ProjectorShell(sh_pars, proj_raw)

    Scenarios:
    - compare output for a correct input
    - test density matrix
    """
# Scenario 1
    def test_example(self):
        conf_file = 'example.cfg'
        pars = ConfigParameters(conf_file)
        pars.parse_input()
        vasp_data = vaspio.VaspData('./')

        efermi = vasp_data.doscar.efermi
        eigvals = vasp_data.eigenval.eigs - efermi
        emin = pars.groups[0]['emin']
        emax = pars.groups[0]['emax']
        ib_win, nb_min, nb_max = select_bands(eigvals, emin, emax)

        proj_sh = ProjectorShell(pars.shells[0], vasp_data.plocar.plo)

        proj_sh.select_projectors(ib_win, nb_min, nb_max)

        testout = 'projshells.out.test'
        nion, ns, nk, nlm, nbtot = proj_sh.proj_win.shape
        with open(testout, 'wt') as f:
            f.write("pars: %s\n"%(pars.shells[0]))
            for ion in xrange(nion):
                for isp in xrange(ns):
                    for ik in xrange(nk):
                        ib1 = ib_win[ik, 0, 0]
                        ib2 = ib_win[ik, 0, 1]
                        f.write("%i  %i\n"%(ib1, ib2))
                        for ib in xrange(ib2 - nb_min + 1):
                            for ilm in xrange(nlm):
                                p = proj_sh.proj_win[ion, isp, ik, ilm, ib]
                                f.write("%5i  %s\n"%(ilm+1, p))

        expected_file = 'projshells.out'
        self.assertFileEqual(testout, expected_file)

# Scenario 2
    def test_dens_mat(self):
        conf_file = 'example.cfg'
        pars = ConfigParameters(conf_file)
        pars.parse_input()
        vasp_data = vaspio.VaspData('./')
        el_struct = elstruct.ElectronicStructure(vasp_data)

        efermi = el_struct.efermi
        eigvals = el_struct.eigvals - efermi
        emin = pars.groups[0]['emin']
        emax = pars.groups[0]['emax']
        ib_win, nb_min, nb_max = select_bands(eigvals, emin, emax)

        proj_sh = ProjectorShell(pars.shells[0], vasp_data.plocar.plo)

        proj_sh.select_projectors(ib_win, nb_min, nb_max)

        dens_mat = proj_sh.density_matrix(el_struct)
        print dens_mat

        testout = 'densmat.out.test'
        with open(testout, 'wt') as f:
            f.write("density matrix: %s\n"%(dens_mat))

        expected_file = 'densmat.out'
        self.assertFileEqual(testout, expected_file)
Restructed test directory The names of the test suites have been prefixed with an underscore to avoid name conflicts with corresponding modules. Also an attempt to make a scan of all tests has been made by creating a 'test_all.py' script that is supposed to discover all test cases and run them. Unfortunately, this does not work as expected because many tests use input files assumed to be found in the current directory, which is not true if the tests are run from a different (parent) directory. This can be fixed by either forcing the change of directory (but it seems that 'unittest' does not have this functionality) or prepending input file names with the current module directory. 2015-08-10 11:32:08 +02:00
			`import numpy as np`
			`import vaspio`
			`import elstruct`
			`from inpconf import ConfigParameters`
			`from plotools import select_bands, ProjectorShell`
			`import mytest`

			`################################################################################`
			`#`
			`# TestProjectorShell`
			`#`
			`################################################################################`
			`class TestProjectorShell(mytest.MyTestCase):`
			`"""`
			`Class:`

			`ProjectorShell(sh_pars, proj_raw)`

			`Scenarios:`
			`- compare output for a correct input`
			`- test density matrix`
			`"""`
			`# Scenario 1`
			`def test_example(self):`
			`conf_file = 'example.cfg'`
			`pars = ConfigParameters(conf_file)`
			`pars.parse_input()`
			`vasp_data = vaspio.VaspData('./')`

			`efermi = vasp_data.doscar.efermi`
			`eigvals = vasp_data.eigenval.eigs - efermi`
			`emin = pars.groups[0]['emin']`
			`emax = pars.groups[0]['emax']`
			`ib_win, nb_min, nb_max = select_bands(eigvals, emin, emax)`

			`proj_sh = ProjectorShell(pars.shells[0], vasp_data.plocar.plo)`

			`proj_sh.select_projectors(ib_win, nb_min, nb_max)`

			`testout = 'projshells.out.test'`
			`nion, ns, nk, nlm, nbtot = proj_sh.proj_win.shape`
			`with open(testout, 'wt') as f:`
			`f.write("pars: %s\n"%(pars.shells[0]))`
			`for ion in xrange(nion):`
			`for isp in xrange(ns):`
			`for ik in xrange(nk):`
			`ib1 = ib_win[ik, 0, 0]`
			`ib2 = ib_win[ik, 0, 1]`
			`f.write("%i %i\n"%(ib1, ib2))`
			`for ib in xrange(ib2 - nb_min + 1):`
			`for ilm in xrange(nlm):`
			`p = proj_sh.proj_win[ion, isp, ik, ilm, ib]`
			`f.write("%5i %s\n"%(ilm+1, p))`

			`expected_file = 'projshells.out'`
			`self.assertFileEqual(testout, expected_file)`

			`# Scenario 2`
			`def test_dens_mat(self):`
			`conf_file = 'example.cfg'`
			`pars = ConfigParameters(conf_file)`
			`pars.parse_input()`
			`vasp_data = vaspio.VaspData('./')`
			`el_struct = elstruct.ElectronicStructure(vasp_data)`

			`efermi = el_struct.efermi`
			`eigvals = el_struct.eigvals - efermi`
			`emin = pars.groups[0]['emin']`
			`emax = pars.groups[0]['emax']`
			`ib_win, nb_min, nb_max = select_bands(eigvals, emin, emax)`

			`proj_sh = ProjectorShell(pars.shells[0], vasp_data.plocar.plo)`

			`proj_sh.select_projectors(ib_win, nb_min, nb_max)`

			`dens_mat = proj_sh.density_matrix(el_struct)`
			`print dens_mat`

			`testout = 'densmat.out.test'`
			`with open(testout, 'wt') as f:`
			`f.write("density matrix: %s\n"%(dens_mat))`

			`expected_file = 'densmat.out'`
			`self.assertFileEqual(testout, expected_file)`