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dft_tools/test/plovasp/proj_group/test_one_site_compl.py

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import os
import rpath
_rpath = os.path.dirname(rpath.__file__) + '/'
import numpy as np
from triqs_dft_tools.converters.plovasp.vaspio import VaspData
from triqs_dft_tools.converters.plovasp.elstruct import ElectronicStructure
from triqs_dft_tools.converters.plovasp.inpconf import ConfigParameters
from triqs_dft_tools.converters.plovasp.proj_shell import ProjectorShell
from triqs_dft_tools.converters.plovasp.proj_group import ProjectorGroup
from pytriqs.archive import HDFArchive
import mytest
################################################################################
#
# TestProjectorGroup
#
################################################################################
class TestProjectorGroupCompl(mytest.MyTestCase):
"""
Class:
ProjectorGroupCompl(sh_pars, proj_raw)
Scenarios:
- **test** that unequal number of bands at different k-points gives error
- **test** that COMLEMENT=TRUE gives orthonormal projectors
"""
def setUp(self):
conf_file = _rpath + 'example.cfg'
self.pars = ConfigParameters(conf_file)
self.pars.parse_input()
vasp_data = VaspData(_rpath + 'one_site/')
self.el_struct = ElectronicStructure(vasp_data)
efermi = self.el_struct.efermi
self.eigvals = self.el_struct.eigvals - efermi
struct = self.el_struct.structure
kmesh = self.el_struct.kmesh
self.proj_sh = ProjectorShell(self.pars.shells[0], vasp_data.plocar.plo, vasp_data.plocar.proj_params, kmesh, struct, 0)
def test_num_bands(self):
self.pars.groups[0]['complement'] = True
err_mess = "At each band the same number"
with self.assertRaisesRegexp(AssertionError, err_mess):
self.proj_gr = ProjectorGroup(self.pars.groups[0], [self.proj_sh], self.eigvals)
def test_compl(self):
self.pars.groups[0]['complement'] = True
self.pars.groups[0]['bands'] = [10, 25]
self.proj_gr = ProjectorGroup(self.pars.groups[0], [self.proj_sh], self.eigvals)
self.proj_gr.orthogonalize()
self.proj_gr.calc_complement(self.eigvals)
temp = self.proj_gr.normion
self.proj_gr.normion = False
block_maps, ndim = self.proj_gr.get_block_matrix_map()
self.proj_gr.normion = temp
_, ns, nk, _, _ = self.proj_gr.shells[0].proj_win.shape
# Note that 'ns' and 'nk' are the same for all shells
for isp in xrange(ns):
for ik in xrange(nk):
print('ik',ik)
bmin = self.proj_gr.ib_win[ik, isp, 0]
bmax = self.proj_gr.ib_win[ik, isp, 1]+1
nb = bmax - bmin
p_mat = np.zeros((ndim, nb), dtype=np.complex128)
#print(bmin,bmax,nb)
# Combine all projectors of the group to one block projector
for bl_map in block_maps:
p_mat[:, :] = 0.0j # !!! Clean-up from the last k-point and block!
for ibl, block in enumerate(bl_map):
i1, i2 = block['bmat_range']
ish, ion = block['shell_ion']
nlm = i2 - i1 + 1
shell = self.proj_gr.shells[ish]
p_mat[i1:i2, :nb] = shell.proj_win[ion, isp, ik, :nlm, :nb]
overlap_L = np.dot(p_mat.conjugate().transpose(),p_mat)
overlap_N = np.dot(p_mat,p_mat.conjugate().transpose())
assert np.all(np.abs(np.eye(overlap_N.shape[0]) - overlap_N) < 1e-13)
assert np.all(np.abs(np.eye(overlap_L.shape[0]) - overlap_L) < 1e-13)