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https://github.com/triqs/dft_tools
synced 2024-12-22 04:13:47 +01:00
use IBZ kpoint list for writing GAMMA vaspgamma.h5
* use IBZ kpoint list for writing GAMMA vaspgamma.h5 * make vaspgamma.h5 default * write n_k_ibz into dft_misc_input so in can be used inside of sumk * write n_k_ibz into seed.ctrl json file * change ref h5 files for VASP tests by adding n_k_ibz * add new svo converter test
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@ -39,6 +39,7 @@ class ElectronicStructure:
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- *natom* (int) : total number of atoms
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- *natom* (int) : total number of atoms
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- *nktot* (int) : total number of `k`-points
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- *nktot* (int) : total number of `k`-points
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- *nkibz* (int) : number of `k`-points in IBZ
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- *nband* (int) : total number of bands
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- *nband* (int) : total number of bands
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- *nspin* (int) : spin-polarization
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- *nspin* (int) : spin-polarization
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- *nc_flag* (True/False) : non-collinearity flag
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- *nc_flag* (True/False) : non-collinearity flag
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@ -58,8 +59,9 @@ class ElectronicStructure:
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self.natom = vasp_data.poscar.nq
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self.natom = vasp_data.poscar.nq
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self.type_of_ion = vasp_data.poscar.type_of_ion
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self.type_of_ion = vasp_data.poscar.type_of_ion
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self.nktot = vasp_data.kpoints.nktot
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self.nktot = vasp_data.kpoints.nktot
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self.nkibz = vasp_data.kpoints.nkibz
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self.kmesh = {'nktot': self.nktot}
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self.kmesh = {'nktot': self.nktot, 'nkibz': self.nkibz}
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self.kmesh['kpoints'] = vasp_data.kpoints.kpts
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self.kmesh['kpoints'] = vasp_data.kpoints.kpts
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# VASP.6.
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# VASP.6.
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self.nc_flag = vasp_data.plocar.nc_flag
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self.nc_flag = vasp_data.plocar.nc_flag
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@ -86,7 +88,7 @@ class ElectronicStructure:
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# Check that the number of k-points is the same in all files
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# Check that the number of k-points is the same in all files
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_, ns_plo, nk_plo, nb_plo = vasp_data.plocar.plo.shape
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_, ns_plo, nk_plo, nb_plo = vasp_data.plocar.plo.shape
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assert nk_plo == self.nktot, "PLOCAR is inconsistent with IBZKPT (number of k-points)"
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assert nk_plo == self.nktot, "PLOCAR is inconsistent with IBZKPT (number of k-points). If you run VASP with symmetry make sure to use the h5 interface of the converter, i.e. have the locproj information written to vaspout.h5"
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# FIXME: Reading from EIGENVAL is obsolete and should be
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# FIXME: Reading from EIGENVAL is obsolete and should be
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# removed completely.
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# removed completely.
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@ -289,6 +289,8 @@ def ctrl_output(conf_pars, el_struct, ng):
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* *nk*: number of `k`-points
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* *nk*: number of `k`-points
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* *nkibz*: number of `k`-points in IBZ
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* *ns*: number of spin channels
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* *ns*: number of spin channels
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* *nc_flag*: collinear/noncollinear case (False/True)
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* *nc_flag*: collinear/noncollinear case (False/True)
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@ -309,6 +311,7 @@ def ctrl_output(conf_pars, el_struct, ng):
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# Construct the header dictionary
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# Construct the header dictionary
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head_dict['ngroups'] = ng
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head_dict['ngroups'] = ng
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head_dict['nk'] = el_struct.kmesh['nktot']
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head_dict['nk'] = el_struct.kmesh['nktot']
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head_dict['nkibz'] = el_struct.kmesh['nkibz']
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head_dict['ns'] = el_struct.nspin
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head_dict['ns'] = el_struct.nspin
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head_dict['kvec1'] = list(el_struct.structure['kpt_basis'][:,0])
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head_dict['kvec1'] = list(el_struct.structure['kpt_basis'][:,0])
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head_dict['kvec2'] = list(el_struct.structure['kpt_basis'][:,1])
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head_dict['kvec2'] = list(el_struct.structure['kpt_basis'][:,1])
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@ -40,6 +40,7 @@ import logging
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import numpy as np
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import numpy as np
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import re
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import re
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import os
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import os
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import time
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from h5 import HDFArchive
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from h5 import HDFArchive
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log = logging.getLogger('plovasp.vaspio')
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log = logging.getLogger('plovasp.vaspio')
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@ -79,6 +80,10 @@ class VaspData:
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if vasph5:
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if vasph5:
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log.warning("Reading from vaspout.h5")
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log.warning("Reading from vaspout.h5")
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h5path = os.path.join(vasp_dir, 'vaspout.h5')
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h5path = os.path.join(vasp_dir, 'vaspout.h5')
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# give VASP some time to write the file
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with HDFArchive(h5path, 'r') as archive:
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if 'locproj' not in archive['results']:
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time.sleep(2)
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self.plocar = h5Plocar(h5path)
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self.plocar = h5Plocar(h5path)
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self.poscar = h5Poscar(h5path)
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self.poscar = h5Poscar(h5path)
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self.kpoints = h5Kpoints(h5path)
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self.kpoints = h5Kpoints(h5path)
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@ -401,7 +406,8 @@ class Kpoints:
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Class describing k-points and optionally tetrahedra.
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Class describing k-points and optionally tetrahedra.
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Properties:
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Properties:
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- nktot (int) : total number of k-points in the IBZ
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- nktot (int) : total number of k-points in the BZ
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- nkibz (int) : number of k-points in the IBZ
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- kpts (numpy.array((nktot, 3), dtype=float)) : k-point vectors (fractional coordinates)
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- kpts (numpy.array((nktot, 3), dtype=float)) : k-point vectors (fractional coordinates)
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- ntet (int) : total number of k-point tetrahedra
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- ntet (int) : total number of k-point tetrahedra
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- itet (numpy.array((ntet, 5), dtype=float) : array of tetrahedra
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- itet (numpy.array((ntet, 5), dtype=float) : array of tetrahedra
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@ -412,6 +418,7 @@ class Kpoints:
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def __init__(self):
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def __init__(self):
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self.kpts = None
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self.kpts = None
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self.nktot = None
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self.nktot = None
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self.nkibz = None
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self.kwghts = None
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self.kwghts = None
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#
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#
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@ -441,6 +448,9 @@ class Kpoints:
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# Number of k-points
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# Number of k-points
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line = next(ibz_file)
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line = next(ibz_file)
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self.nktot = int(line.strip().split()[0])
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self.nktot = int(line.strip().split()[0])
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# when reading from IBZKPT file we do not know the full number of k-points, i.e.
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# works only ISYM=-1
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self.nkibz = self.nktot
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print()
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print()
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print(" {0:>26} {1:d}".format("Total number of k-points:", self.nktot))
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print(" {0:>26} {1:d}".format("Total number of k-points:", self.nktot))
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@ -716,7 +726,7 @@ class h5Kpoints:
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# h5path = './vasptriqs.h5'
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# h5path = './vasptriqs.h5'
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with HDFArchive(h5path, 'a') as archive:
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with HDFArchive(h5path, 'a') as archive:
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kpoints = archive['results/electron_eigenvalues']
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kpoints = archive['results/electron_eigenvalues']
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self.nkred = kpoints['kpoints']
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self.nkibz = kpoints['kpoints']
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self.kpts = kpoints['kpoint_coords_full']
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self.kpts = kpoints['kpoint_coords_full']
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self.nktot = len(self.kpts)
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self.nktot = len(self.kpts)
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self.kwghts = kpoints['kpoints_symmetry_weight_full']
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self.kwghts = kpoints['kpoints_symmetry_weight_full']
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@ -731,7 +741,7 @@ class h5Kpoints:
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self.ntet = 0
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self.ntet = 0
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print()
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print()
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print(" {0:>26} {1:d}".format("Reduced number of k-points:", self.nkred))
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print(" {0:>26} {1:d}".format("Reduced number of k-points:", self.nkibz))
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print(" {0:>26} {1:d}".format("Total number of k-points:", self.nktot))
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print(" {0:>26} {1:d}".format("Total number of k-points:", self.nktot))
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print(" {0:>26} {1:d}".format("Total number of tetrahedra:", self.ntet))
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print(" {0:>26} {1:d}".format("Total number of tetrahedra:", self.ntet))
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@ -158,6 +158,8 @@ class VaspConverter(ConverterTools):
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ng = ctrl_head['ngroups']
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ng = ctrl_head['ngroups']
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n_k = ctrl_head['nk']
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n_k = ctrl_head['nk']
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n_k_ibz = ctrl_head['nkibz']
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# Note the difference in name conventions!
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# Note the difference in name conventions!
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SP = ctrl_head['ns'] - 1
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SP = ctrl_head['ns'] - 1
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SO = ctrl_head['nc_flag']
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SO = ctrl_head['nc_flag']
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@ -401,6 +403,8 @@ class VaspConverter(ConverterTools):
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ar[self.misc_subgrp]['dft_fermi_weights'] = f_weights
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ar[self.misc_subgrp]['dft_fermi_weights'] = f_weights
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ar[self.misc_subgrp]['kpts_cart'] = kpts_cart
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ar[self.misc_subgrp]['kpts_cart'] = kpts_cart
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ar[self.misc_subgrp]['band_window'] = band_window
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ar[self.misc_subgrp]['band_window'] = band_window
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if n_k_ibz is not None:
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ar[self.misc_subgrp]['n_k_ibz'] = n_k_ibz
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# Symmetries are used, so now convert symmetry information for *correlated* orbitals:
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# Symmetries are used, so now convert symmetry information for *correlated* orbitals:
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self.convert_symmetry_input(ctrl_head, orbits=self.corr_shells, symm_subgrp=self.symmcorr_subgrp)
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self.convert_symmetry_input(ctrl_head, orbits=self.corr_shells, symm_subgrp=self.symmcorr_subgrp)
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@ -2207,8 +2207,7 @@ class SumkDFT(object):
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filename = 'dens_mat.dat'
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filename = 'dens_mat.dat'
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elif dm_type == 'vasp':
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elif dm_type == 'vasp':
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# use new h5 interface to vasp by default, if not wanted specify dm_type='vasp' + filename='GAMMA'
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# use new h5 interface to vasp by default, if not wanted specify dm_type='vasp' + filename='GAMMA'
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# filename = 'vaspgamma.h5'
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filename = 'vaspgamma.h5'
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filename = 'GAMMA'
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elif dm_type == 'elk':
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elif dm_type == 'elk':
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filename = 'DMATDMFT.OUT'
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filename = 'DMATDMFT.OUT'
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elif dm_type == 'qe':
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elif dm_type == 'qe':
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@ -2229,12 +2228,17 @@ class SumkDFT(object):
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if dm_type in ['vasp', 'qe']:
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if dm_type in ['vasp', 'qe']:
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fermi_weights = 0
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fermi_weights = 0
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band_window = 0
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band_window = 0
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n_k_ibz = self.n_k
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if mpi.is_master_node():
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if mpi.is_master_node():
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with HDFArchive(self.hdf_file, 'r') as ar:
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with HDFArchive(self.hdf_file, 'r') as ar:
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fermi_weights = ar['dft_misc_input']['dft_fermi_weights']
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fermi_weights = ar['dft_misc_input']['dft_fermi_weights']
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band_window = ar['dft_misc_input']['band_window']
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band_window = ar['dft_misc_input']['band_window']
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if 'n_k_ibz' in ar['dft_misc_input']:
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n_k_ibz = ar['dft_misc_input']['n_k_ibz']
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fermi_weights = mpi.bcast(fermi_weights)
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fermi_weights = mpi.bcast(fermi_weights)
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band_window = mpi.bcast(band_window)
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band_window = mpi.bcast(band_window)
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n_k_ibz = mpi.bcast(n_k_ibz)
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# Convert Fermi weights to a density matrix
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# Convert Fermi weights to a density matrix
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dens_mat_dft = {}
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dens_mat_dft = {}
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@ -2349,8 +2353,13 @@ class SumkDFT(object):
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fout.write("\n")
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fout.write("\n")
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fout.close()
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fout.close()
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elif dm_type == 'vasp':
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elif dm_type == 'vasp':
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if kpts_to_write is None:
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if kpts_to_write is None and self.n_k == n_k_ibz:
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kpts_to_write = np.arange(self.n_k)
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kpts_to_write = np.arange(self.n_k)
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elif kpts_to_write is None and n_k_ibz < self.n_k:
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# If the number of IBZ k-points is less than the total number of k-points,
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# then we only write the IBZ k-points, which are the first n_k_ibz k-points
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# in VASP
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kpts_to_write = np.arange(n_k_ibz)
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else:
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else:
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assert np.min(kpts_to_write) >= 0 and np.max(kpts_to_write) < self.n_k
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assert np.min(kpts_to_write) >= 0 and np.max(kpts_to_write) < self.n_k
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@ -2359,8 +2368,12 @@ class SumkDFT(object):
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if mpi.is_master_node():
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if mpi.is_master_node():
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if filename == 'vaspgamma.h5':
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if filename == 'vaspgamma.h5':
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with HDFArchive('vaspgamma.h5', 'w') as vasp_h5:
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with HDFArchive('vaspgamma.h5', 'w') as vasp_h5:
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vasp_h5['band_window'] = band_window
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# only store the ibz kpoints in the h5
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vasp_h5['deltaN'] = deltaN
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bnd_win_towrite = [band_window[0][:n_k_ibz,:]]
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vasp_h5['band_window'] = bnd_win_towrite
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vasp_h5.create_group('deltaN')
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vasp_h5['deltaN']['up'] = deltaN['up'][:n_k_ibz]
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vasp_h5['deltaN']['down'] = deltaN['down'][:n_k_ibz]
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else:
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else:
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with open(filename, 'w') as f:
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with open(filename, 'w') as f:
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f.write(" -1 -1 ! Number of k-points, default number of bands\n") # % len(kpts_to_write))
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f.write(" -1 -1 ! Number of k-points, default number of bands\n") # % len(kpts_to_write))
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Binary file not shown.
Binary file not shown.
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16
test/python/plovasp/converter/svo.cfg
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test/python/plovasp/converter/svo.cfg
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[General]
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BASENAME = converter/svo
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[Group 1]
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SHELLS = 1
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NORMALIZE = True
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EWINDOW = -1.4 2.0
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[Shell 1]
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LSHELL = 2
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IONS = 2
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TRANSFORM = 1.0 0.0 0.0 0.0 0.0
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0.0 1.0 0.0 0.0 0.0
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0.0 0.0 0.0 1.0 0.0
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BIN
test/python/plovasp/converter/svo.ref.h5
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BIN
test/python/plovasp/converter/svo.ref.h5
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Binary file not shown.
BIN
test/python/plovasp/converter/svo/vaspout.h5
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BIN
test/python/plovasp/converter/svo/vaspout.h5
Normal file
Binary file not shown.
42
test/python/plovasp/converter/test_converter_svo.py
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42
test/python/plovasp/converter/test_converter_svo.py
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@ -0,0 +1,42 @@
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import os
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import rpath
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_rpath = os.path.dirname(rpath.__file__) + '/'
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from triqs_dft_tools.converters.plovasp.converter import generate_and_output_as_text
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from triqs_dft_tools.converters import VaspConverter
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import mytest
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################################################################################
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#
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# TestConverterOneSite
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#
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################################################################################
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class TestConverterSVO(mytest.MyTestCase):
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"""
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Function:
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def generate_and_output_as_text(pars, el_struct)
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and
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VaspConverter
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Scenarios:
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- Parse config file and produce a correct converted h5-file
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"""
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# Scenario 1
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def test_convert_svo(self):
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generate_and_output_as_text(_rpath + 'svo.cfg', _rpath + 'svo/')
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test_file = _rpath + 'svo.test.h5'
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converter = VaspConverter(filename=_rpath + 'svo',
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hdf_filename=test_file)
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converter.convert_dft_input()
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expected_file = _rpath + 'svo.ref.h5'
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self.assertH5FileEqual(test_file, expected_file)
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if __name__ == '__main__':
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import unittest
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unittest.main(verbosity=2, buffer=False)
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