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https://github.com/triqs/dft_tools
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78 lines
3.0 KiB
Python
78 lines
3.0 KiB
Python
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import numpy as np
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class ElectronicStructure:
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"""
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Class containing electronic structure data.
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**Parameters:**
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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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- *nband* (int) : total number of bands
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- *nspin* (int) : spin-polarization
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- *nc_flag* (True/False) : non-collinearity flag
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- *efermi* (float) : Fermi level read from DOSCAR
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- *proj_raw* (array[complex]) : raw projectors from PLOCAR
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- *eigvals* (array[float]) : KS eigenvalues
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- *ferw* (array[float]) : Fermi weights from VASP
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- *kmesh* (dict) : parameters of the `k`-mesh
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- *structure* (dict) : parameters of the crystal structure
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- *symmetry* (dict) : paramters of symmetry
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When the object is created a simple consistency check
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of the data coming from different VASP files is performed.
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"""
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def __init__(self, vasp_data):
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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.nktot = vasp_data.kpoints.nktot
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self.kmesh = {'nktot': self.nktot}
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self.kmesh['kpoints'] = vasp_data.kpoints.kpts
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self.kmesh['kweights'] = vasp_data.eigenval.kwghts
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try:
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self.kmesh['ntet'] = vasp_data.kpoints.ntet
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self.kmesh['itet'] = vasp_data.kpoints.itet
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self.kmesh['volt'] = vasp_data.kpoints.volt
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except AttributeError:
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pass
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# Note that one should not subtract this Fermi level from eigenvalues
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# here because the true Fermi level might be provided by conf-file
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# (for instance, for spaghetti calculations)
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self.efermi = vasp_data.doscar.efermi
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# Note that the number of spin-components of projectors might be different from those
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# of bands in case of non-collinear calculations
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self.nspin = vasp_data.eigenval.ispin
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self.nc_flag = vasp_data.doscar.ncdij == 4
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self.nband = vasp_data.eigenval.nband
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self.eigvals = vasp_data.eigenval.eigs
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# For later use it is more convenient to use a different order of indices
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# [see ProjectorGroup.orthogonalization()]
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self.proj_raw = vasp_data.plocar.plo
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self.proj_params = vasp_data.plocar.proj_params
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self.ferw = vasp_data.eigenval.ferw
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# Not needed any more since PROJCAR contains projectors only for a subset of sites
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# Check that the number of atoms is the same in PLOCAR and POSCAR
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# natom_plo = vasp_data.plocar.params['nion']
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# assert natom_plo == self.natom, "PLOCAR is inconsistent with POSCAR (number of atoms)"
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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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assert nk_plo == self.nktot, "PLOCAR is inconsistent with IBZKPT (number of k-points)"
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nk_eig = vasp_data.eigenval.nktot
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assert nk_eig == self.nktot, "PLOCAR is inconsistent with EIGENVAL (number of k-points)"
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# Check that the number of band is the same in PROJCAR and EIGENVAL
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assert nb_plo == self.nband, "PLOCAR is inconsistent with EIGENVAL (number of bands)"
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