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https://github.com/triqs/dft_tools
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710 lines
24 KiB
Python
710 lines
24 KiB
Python
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################################################################################
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#
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# TRIQS: a Toolbox for Research in Interacting Quantum Systems
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#
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# Copyright (C) 2011 by M. Ferrero, O. Parcollet
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#
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# DFT tools: Copyright (C) 2011 by M. Aichhorn, L. Pourovskii, V. Vildosola
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#
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# PLOVasp: Copyright (C) 2015 by O. E. Peil
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#
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# TRIQS is free software: you can redistribute it and/or modify it under the
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# terms of the GNU General Public License as published by the Free Software
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# Foundation, either version 3 of the License, or (at your option) any later
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# version.
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#
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# TRIQS is distributed in the hope that it will be useful, but WITHOUT ANY
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# WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
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# FOR A PARTICULAR PURPOSE. See the GNU General Public License for more
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# details.
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#
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# You should have received a copy of the GNU General Public License along with
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# TRIQS. If not, see <http://www.gnu.org/licenses/>.
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#
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################################################################################
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r"""
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vasp.vaspio
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===========
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Input of required VASP data.
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Six VASP files are required:
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- PROJCAR
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- LOCPROJ
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- POSCAR
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- IBZKPT
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- EIGENVAL
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- DOSCAR
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"""
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import numpy as np
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import re
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#import plocar_io.c_plocar_io as c_plocar_io
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def read_lines(filename):
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r"""
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Generator of lines for a file
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Parameters
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----------
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filename (str) : name of the file
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"""
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with open(filename, 'r') as f:
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for line in f:
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yield line
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################################################################################
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################################################################################
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#
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# class VaspData
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#
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################################################################################
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################################################################################
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class VaspData:
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"""
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Container class for all VASP data.
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"""
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def __init__(self, vasp_dir, read_all=True, efermi_required=True):
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self.vasp_dir = vasp_dir
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self.plocar = Plocar()
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self.poscar = Poscar()
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self.kpoints = Kpoints()
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self.eigenval = Eigenval()
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self.doscar = Doscar()
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if read_all:
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self.plocar.from_file(vasp_dir)
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self.poscar.from_file(vasp_dir)
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self.kpoints.from_file(vasp_dir)
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try:
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self.eigenval.from_file(vasp_dir)
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except (IOError, StopIteration):
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self.eigenval.eigs = None
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self.eigenval.ferw = None
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print "!!! WARNING !!!: Error reading from EIGENVAL, trying LOCPROJ"
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try:
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self.doscar.from_file(vasp_dir)
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except (IOError, StopIteration):
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if efermi_required:
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# raise Exception("Efermi cannot be read from DOSCAR")
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pass
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else:
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# TODO: This a hack. Find out a way to determine ncdij without DOSCAR
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print "!!! WARNING !!!: Error reading from DOSCAR, taking Efermi from config"
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self.doscar.ncdij = self.plocar.nspin
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################################################################################
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################################################################################
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#
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# class Plocar
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#
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################################################################################
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################################################################################
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class Plocar:
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r"""
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Class containing raw PLO data from VASP.
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Properties
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----------
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- *plo* (numpy.array((nion, ns, nk, nb, nlmmax))) : raw projectors
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- *params* (dict) : parameters read from PLOCAR
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- *ferw* (array(nion, ns, nk, nb)) : Fermi weights from VASP
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"""
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def from_file(self, vasp_dir='./', plocar_filename='PLOCAR'):
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r"""
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Reads non-normalized projectors from a binary file (`PLOCAR' by default)
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generated by VASP PLO interface.
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Parameters
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----------
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vasp_dir (str) : path to the VASP working directory [default = `./']
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plocar_filename (str) : filename [default = `PLOCAR']
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"""
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# Add a slash to the path name if necessary
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if vasp_dir[-1] != '/':
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vasp_dir += '/'
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# self.params, self.plo, self.ferw = c_plocar_io.read_plocar(vasp_dir + plocar_filename)
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# self.proj_params, self.plo = self.temp_parser(projcar_filename=vasp_dir + "PROJCAR", locproj_filename=vasp_dir + "LOCPROJ")
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self.proj_params, self.plo = self.locproj_parser(locproj_filename=vasp_dir + "LOCPROJ")
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def temp_parser(self, projcar_filename='PROJCAR', locproj_filename='LOCPROJ'):
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r"""
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Parses PROJCAR (and partially LOCPROJ) to get VASP projectors.
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This is a prototype parser that should eventually be written in C for
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better performance on large files.
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Returns projector parameters (site/orbital indices etc.) and an array
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with projectors.
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"""
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orb_labels = ["s", "py", "pz", "px", "dxy", "dyz", "dz2", "dxz", "dx2-y2",
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"fz3", "fxz2", "fyz2", "fz(x2-y2)", "fxyz", "fx(x2-3y2)", "fy(3x2-y2)"]
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def lm_to_l_m(lm):
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l = int(np.sqrt(lm))
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m = lm - l*l
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return l, m
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# Read the first line of LOCPROJ to get the dimensions
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with open(locproj_filename, 'rt') as f:
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line = f.readline()
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nproj, nspin, nk, nband = map(int, line.split())
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plo = np.zeros((nproj, nspin, nk, nband), dtype=np.complex128)
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proj_params = [{} for i in xrange(nproj)]
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iproj_site = 0
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is_first_read = True
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with open(projcar_filename, 'rt') as f:
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line = self.search_for(f, "^ *ISITE")
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while line:
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isite = int(line.split()[1])
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if not is_first_read:
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for il in xrange(norb):
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ip_new = iproj_site * norb + il
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ip_prev = (iproj_site - 1) * norb + il
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proj_params[ip_new]['label'] = proj_params[ip_prev]['label']
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proj_params[ip_new]['isite'] = isite
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proj_params[ip_new]['l'] = proj_params[ip_prev]['l']
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proj_params[ip_new]['m'] = proj_params[ip_prev]['m']
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for ispin in xrange(nspin):
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for ik in xrange(nk):
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# Parse the orbital labels and convert them to l,m-indices
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line = self.search_for(f, "^ *band")
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if is_first_read:
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cpatt = re.compile("lm= *([^\s]+)")
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labels = re.findall(cpatt, line)
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norb = len(labels)
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for il, label in enumerate(labels):
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lm = orb_labels.index(label)
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l, m = lm_to_l_m(lm)
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# For the first read 'iproj_site = 0' and only orbital index 'il' is used
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proj_params[il]['label'] = label
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proj_params[il]['isite'] = isite
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proj_params[il]['l'] = l
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proj_params[il]['m'] = m
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is_first_read = False
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# Read the block of nk * ns * nband complex numbers
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for ib in xrange(nband):
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line = f.readline()
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rtmp = map(float, line.split()[1:])
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for il in xrange(norb):
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ctmp = complex(rtmp[2 * il], rtmp[2 * il + 1])
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plo[iproj_site * norb + il, ispin, ik, ib] = ctmp
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# End of site-block
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iproj_site += 1
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line = self.search_for(f, "^ *ISITE")
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print "Read parameters:"
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for il, par in enumerate(proj_params):
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print il, " -> ", par
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return proj_params, plo
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def locproj_parser(self, locproj_filename='LOCPROJ'):
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r"""
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Parses LOCPROJ (for VASP >= 5.4.2) to get VASP projectors.
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This is a prototype parser that should eventually be written in C for
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better performance on large files.
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Returns projector parameters (site/orbital indices etc.) and an array
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with projectors.
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"""
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orb_labels = ["s", "py", "pz", "px", "dxy", "dyz", "dz2", "dxz", "dx2-y2",
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"fy(3x2-y2)", "fxyz", "fyz2", "fz3", "fxz2", "fz(x2-y2)", "fx(x2-3y2)"]
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def lm_to_l_m(lm):
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l = int(np.sqrt(lm))
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m = lm - l*l
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return l, m
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# Read the first line of LOCPROJ to get the dimensions
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with open(locproj_filename, 'rt') as f:
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line = f.readline()
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line = line.split("#")[0]
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sline = line.split()
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self.ncdij, nk, self.nband, nproj = map(int, sline[:4])
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self.nspin = 1 if self.ncdij == 1 else 2
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self.nspin_band = 2 if self.ncdij == 2 else 1
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self.efermi = float(sline[4])
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plo = np.zeros((nproj, self.nspin, nk, self.nband), dtype=np.complex128)
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proj_params = [{} for i in xrange(nproj)]
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iproj_site = 0
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is_first_read = True
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# First read the header block with orbital labels
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line = self.search_for(f, "^ *ISITE")
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ip = 0
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while line:
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sline = line.split(':')
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isite = int(sline[1].split()[0])
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label = sline[-1].strip()
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lm = orb_labels.index(label)
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l, m = lm_to_l_m(lm)
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# ip_new = iproj_site * norb + il
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# ip_prev = (iproj_site - 1) * norb + il
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proj_params[ip]['label'] = label
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proj_params[ip]['isite'] = isite
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proj_params[ip]['l'] = l
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proj_params[ip]['m'] = m
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ip += 1
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line = f.readline().strip()
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assert ip == nproj, "Number of projectors in the header is wrong in LOCPROJ"
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self.eigs = np.zeros((nk, self.nband, self.nspin_band))
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self.ferw = np.zeros((nk, self.nband, self.nspin_band))
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patt = re.compile("^orbital")
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# FIXME: fix spin indices for NCDIJ = 4 (non-collinear)
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assert self.ncdij < 4, "Non-collinear case is not implemented"
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for ispin in xrange(self.nspin):
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for ik in xrange(nk):
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for ib in xrange(self.nband):
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line = ""
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while not line:
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line = f.readline().strip()
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sline = line.split()
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isp_, ik_, ib_ = map(int, sline[1:4])
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assert isp_ == ispin + 1 and ik_ == ik + 1 and ib_ == ib + 1, "Inconsistency in reading LOCPROJ"
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self.eigs[ik, ib, ispin] = float(sline[4])
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self.ferw[ik, ib, ispin] = float(sline[5])
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for ip in xrange(nproj):
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line = f.readline()
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sline = line.split()
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ctmp = complex(float(sline[1]), float(sline[2]))
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plo[ip, ispin, ik, ib] = ctmp
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print "Read parameters:"
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for il, par in enumerate(proj_params):
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print il, " -> ", par
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return proj_params, plo
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def search_for(self, f, patt):
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r"""
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Reads file 'f' until pattern 'patt' is encountered and returns
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the corresponding line.
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"""
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cpatt = re.compile(patt)
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line = "x"
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while not re.match(cpatt, line) and line:
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line = f.readline()
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return line
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################################################################################
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################################################################################
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#
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# class Poscar
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#
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################################################################################
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################################################################################
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class Poscar:
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"""
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Class containing POSCAR data from VASP.
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Properties
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----------
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nq (int) : total number of ions
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ntypes ([int]) : number of ion types
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nions (int) : a list of number of ions of each type
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a_brav (numpy.array((3, 3), dtype=float)) : lattice vectors
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q_types ([numpy.array((nions, 3), dtype=float)]) : a list of
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arrays each containing fractional coordinates of ions of a given type
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"""
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def __init__(self):
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self.q_cart = None
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self.b_rec = None
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def from_file(self, vasp_dir='./', poscar_filename='POSCAR'):
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"""
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Reads POSCAR and returns a dictionary.
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Parameters
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----------
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vasp_dir (str) : path to the VASP working directory [default = `./']
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plocar_filename (str) : filename [default = `PLOCAR']
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"""
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# Convenince local function
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def readline_remove_comments():
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return f.next().split('!')[0].strip()
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# Add a slash to the path name if necessary
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if vasp_dir[-1] != '/':
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vasp_dir += '/'
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f = read_lines(vasp_dir + poscar_filename)
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# Comment line
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comment = f.next().rstrip()
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print " Found POSCAR, title line: %s"%(comment)
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# Read scale
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sline = readline_remove_comments()
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ascale = float(sline)
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# Read lattice vectors
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self.a_brav = np.zeros((3, 3))
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for ia in xrange(3):
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sline = readline_remove_comments()
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self.a_brav[ia, :] = map(float, sline.split())
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# Negative scale means that it is a volume scale
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if ascale < 0:
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vscale = -ascale
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vol = np.linalg.det(self.a_brav)
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ascale = (vscale / vol)**(1.0/3)
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self.a_brav *= ascale
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# Depending on the version of VASP there could be
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# an extra line with element names
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sline = readline_remove_comments()
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try:
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# Old v4.6 format: no element names
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self.nions = map(int, sline.split())
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self.el_names = ['El%i'%(i) for i in xrange(len(self.nions))]
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except ValueError:
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# New v5.x format: read element names first
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self.el_names = sline.split()
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sline = readline_remove_comments()
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self.nions = map(int, sline.split())
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# Set the number of atom sorts (types) and the total
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# number of atoms in the unit cell
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self.ntypes = len(self.nions)
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self.nq = sum(self.nions)
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# Check for the line 'Selective dynamics' (and ignore it)
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sline = readline_remove_comments()
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if sline[0].lower() == 's':
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sline = readline_remove_comments()
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# Check whether coordinates are cartesian or fractional
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cartesian = (sline[0].lower() in 'ck')
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if cartesian:
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brec = np.linalg.inv(self.a_brav.T)
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# Read atomic positions
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self.q_types = []
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self.type_of_ion = []
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for it in xrange(self.ntypes):
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# Array mapping ion index to type
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self.type_of_ion += self.nions[it] * [it]
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q_at_it = np.zeros((self.nions[it], 3))
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for iq in xrange(self.nions[it]):
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sline = readline_remove_comments()
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qcoord = map(float, sline.split()[:3])
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if cartesian:
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qcoord = np.dot(brec, qcoord)
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q_at_it[iq, :] = qcoord
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self.q_types.append(q_at_it)
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print " Total number of ions:", self.nq
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print " Number of types:", self.ntypes
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print " Number of ions for each type:", self.nions
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# print
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# print " Coords:"
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# for it in xrange(ntypes):
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# print " Element:", el_names[it]
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# print q_at[it]
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################################################################################
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################################################################################
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#
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# class Kpoints
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#
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################################################################################
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################################################################################
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class Kpoints:
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"""
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Class describing k-points and optionally tetrahedra.
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Properties
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----------
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- nktot (int) : total 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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- 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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- volt (float) : volume of a tetrahedron (the k-grid is assumed to
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be uniform)
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"""
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#
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# Reads IBZKPT file
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#
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def from_file(self, vasp_dir='./', ibz_filename='IBZKPT'):
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"""
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Reads from IBZKPT: k-points and optionally
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tetrahedra topology (if present).
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Parameters
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----------
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vasp_dir (str) : path to the VASP working directory [default = `./']
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plocar_filename (str) : filename [default = `PLOCAR']
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"""
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# Add a slash to the path name if necessary
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if vasp_dir[-1] != '/':
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vasp_dir += '/'
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ibz_file = read_lines(vasp_dir + ibz_filename)
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# Skip comment line
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line = ibz_file.next()
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# Number of k-points
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line = ibz_file.next()
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self.nktot = int(line.strip().split()[0])
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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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self.kpts = np.zeros((self.nktot, 3))
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self.kwghts = np.zeros((self.nktot))
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# Skip comment line
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line = ibz_file.next()
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for ik in xrange(self.nktot):
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line = ibz_file.next()
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sline = line.strip().split()
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self.kpts[ik, :] = map(float, sline[:3])
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self.kwghts[ik] = float(sline[3])
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self.kwghts /= self.nktot
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# Attempt to read tetrahedra
|
|
# Skip comment line ("Tetrahedra")
|
|
try:
|
|
line = ibz_file.next()
|
|
|
|
# Number of tetrahedra and volume = 1/(6*nkx*nky*nkz)
|
|
line = ibz_file.next()
|
|
sline = line.split()
|
|
self.ntet = int(sline[0])
|
|
self.volt = float(sline[1])
|
|
|
|
print " {0:>26} {1:d}".format("Total number of tetrahedra:", self.ntet)
|
|
|
|
# Traditionally, itet[it, 0] contains multiplicity
|
|
self.itet = np.zeros((self.ntet, 5), dtype=int)
|
|
for it in xrange(self.ntet):
|
|
line = ibz_file.next()
|
|
self.itet[it, :] = map(int, line.split()[:5])
|
|
except StopIteration, ValueError:
|
|
print " No tetrahedron data found in %s. Skipping..."%(ibz_filename)
|
|
self.ntet = 0
|
|
|
|
# data = { 'nktot': nktot,
|
|
# 'kpts': kpts,
|
|
# 'ntet': ntet,
|
|
# 'itet': itet,
|
|
# 'volt': volt }
|
|
#
|
|
# return data
|
|
|
|
|
|
################################################################################
|
|
################################################################################
|
|
#
|
|
# class Eigenval
|
|
#
|
|
################################################################################
|
|
################################################################################
|
|
class Eigenval:
|
|
"""
|
|
Class containing Kohn-Sham-eigenvalues data from VASP (EIGENVAL file).
|
|
"""
|
|
def __init__(self):
|
|
self.eigs = None
|
|
self.ferw = None
|
|
|
|
def from_file(self, vasp_dir='./', eig_filename='EIGENVAL'):
|
|
"""
|
|
Reads eigenvalues from EIGENVAL. Note that the file also
|
|
contains k-points with weights. They are also stored and
|
|
then used to check the consistency of files read.
|
|
"""
|
|
|
|
# Add a slash to the path name if necessary
|
|
if vasp_dir[-1] != '/':
|
|
vasp_dir += '/'
|
|
|
|
f = read_lines(vasp_dir + eig_filename)
|
|
|
|
# First line: only the first and the last number out of four
|
|
# are used; these are 'nions' and 'ispin'
|
|
sline = f.next().split()
|
|
self.nq = int(sline[0])
|
|
self.ispin = int(sline[3])
|
|
|
|
# Second line: cell volume and lengths of lattice vectors (skip)
|
|
sline = f.next()
|
|
|
|
# Third line: temperature (skip)
|
|
sline = f.next()
|
|
|
|
# Fourth and fifth line: useless
|
|
sline = f.next()
|
|
sline = f.next()
|
|
|
|
# Sixth line: NELECT, NKTOT, NBTOT
|
|
sline = f.next().split()
|
|
self.nelect = int(sline[0])
|
|
self.nktot = int(sline[1])
|
|
self.nband = int(sline[2])
|
|
|
|
# Set of eigenvalues and k-points
|
|
self.kpts = np.zeros((self.nktot, 3))
|
|
self.kwghts = np.zeros((self.nktot,))
|
|
self.eigs = np.zeros((self.nktot, self.nband, self.ispin))
|
|
self.ferw = np.zeros((self.nktot, self.nband, self.ispin))
|
|
|
|
for ik in xrange(self.nktot):
|
|
sline = f.next() # Empty line
|
|
sline = f.next() # k-point info
|
|
tmp = map(float, sline.split())
|
|
self.kpts[ik, :] = tmp[:3]
|
|
self.kwghts[ik] = tmp[3]
|
|
|
|
for ib in xrange(self.nband):
|
|
sline = f.next().split()
|
|
tmp = map(float, sline)
|
|
assert len(tmp) == 2 * self.ispin + 1, "EIGENVAL file is incorrect (probably from old versions of VASP)"
|
|
self.eigs[ik, ib, :] = tmp[1:self.ispin+1]
|
|
self.ferw[ik, ib, :] = tmp[self.ispin+1:]
|
|
|
|
|
|
################################################################################
|
|
################################################################################
|
|
#
|
|
# class Doscar
|
|
#
|
|
################################################################################
|
|
################################################################################
|
|
class Doscar:
|
|
"""
|
|
Class containing some data from DOSCAR
|
|
"""
|
|
def from_file(self, vasp_dir='./', dos_filename='DOSCAR'):
|
|
"""
|
|
Reads only E_Fermi from DOSCAR.
|
|
"""
|
|
|
|
# Add a slash to the path name if necessary
|
|
if vasp_dir[-1] != '/':
|
|
vasp_dir += '/'
|
|
|
|
f = read_lines(vasp_dir + dos_filename)
|
|
|
|
# First line: NION, NION, JOBPAR, NCDIJ
|
|
sline = f.next().split()
|
|
self.ncdij = int(sline[3])
|
|
|
|
# Skip next 4 lines
|
|
for _ in xrange(4):
|
|
sline = f.next()
|
|
|
|
# Sixth line: EMAX, EMIN, NEDOS, EFERMI, 1.0
|
|
sline = f.next().split()
|
|
self.efermi = float(sline[3])
|
|
|
|
# TODO: implement output of SYMMCAR in VASP and read it here
|
|
################################################################
|
|
#
|
|
# Reads SYMMCAR
|
|
#
|
|
################################################################
|
|
def read_symmcar(vasp_dir, symm_filename='SYMMCAR'):
|
|
"""
|
|
Reads SYMMCAR.
|
|
"""
|
|
# Shorthand for simple parsing
|
|
def extract_int_par(parname):
|
|
return int(re.findall(parname + '\s*=\s*(\d+)', line)[-1])
|
|
|
|
# Add a slash to the path name if necessary
|
|
if vasp_dir[-1] != '/':
|
|
vasp_dir += '/'
|
|
|
|
symmcar_exist = False
|
|
sym_file = read_lines(vasp_dir + symm_filename)
|
|
line = sym_file.next()
|
|
nrot = extract_int_par('NROT')
|
|
|
|
line = sym_file.next()
|
|
ntrans = extract_int_par('NPCELL')
|
|
# Lmax
|
|
line = sym_file.next()
|
|
lmax = extract_int_par('LMAX')
|
|
mmax = 2 * lmax + 1
|
|
# Nion
|
|
line = sym_file.next()
|
|
nion = extract_int_par('NION')
|
|
|
|
print " {0:>26} {1:d}".format("Number of rotations:", nrot)
|
|
print " {0:>26} {1:d}".format("Number of translations:", ntrans)
|
|
print " {0:>26} {1:d}".format("Number of ions:", nion)
|
|
print " {0:>26} {1:d}".format("L_max:", lmax)
|
|
|
|
rot_mats = np.zeros((nrot, lmax+1, mmax, mmax))
|
|
rot_map = np.zeros((nrot, ntrans, nion), dtype=np.int32)
|
|
|
|
for irot in xrange(nrot):
|
|
# Empty line
|
|
line = sym_file.next()
|
|
# IROT index (skip it)
|
|
line = sym_file.next()
|
|
# ISYMOP matrix (can be also skipped)
|
|
line = sym_file.next()
|
|
line = sym_file.next()
|
|
line = sym_file.next()
|
|
|
|
# Skip comment " Permutation map..."
|
|
line = sym_file.next()
|
|
# Permutations (in chunks of 20 indices per line)
|
|
for it in xrange(ntrans):
|
|
for ibl in xrange((nion - 1) / 20 + 1):
|
|
i1 = ibl * 20
|
|
i2 = (ibl + 1) * 20
|
|
line = sym_file.next()
|
|
rot_map[irot, it, i1:i2] = map(int, line.split())
|
|
|
|
for l in xrange(lmax + 1):
|
|
mmax = 2 * l + 1
|
|
# Comment: "L = ..."
|
|
line = sym_file.next()
|
|
for m in xrange(mmax):
|
|
line = sym_file.next()
|
|
rot_mats[irot, l, m, :mmax] = map(float, line.split()[:mmax])
|
|
|
|
data.update({ 'nrot': nrot, 'ntrans': ntrans,
|
|
'lmax': lmax, 'nion': nion,
|
|
'sym_rots': rot_mats, 'perm_map': rot_map })
|
|
|
|
|