import numpy as np
from ase.atoms import Atoms
from ase.utils import reader, writer
[docs]@reader
def read_dftb(fd):
"""Method to read coordinates from the Geometry section
of a DFTB+ input file (typically called "dftb_in.hsd").
As described in the DFTB+ manual, this section can be
in a number of different formats. This reader supports
the GEN format and the so-called "explicit" format.
The "explicit" format is unique to DFTB+ input files.
The GEN format can also be used in a stand-alone fashion,
as coordinate files with a `.gen` extension. Reading and
writing such files is implemented in `ase.io.gen`.
"""
lines = fd.readlines()
atoms_pos = []
atom_symbols = []
type_names = []
my_pbc = False
fractional = False
mycell = []
for iline, line in enumerate(lines):
if line.strip().startswith('#'):
pass
elif 'genformat' in line.lower():
natoms = int(lines[iline + 1].split()[0])
if lines[iline + 1].split()[1].lower() == 's':
my_pbc = True
elif lines[iline + 1].split()[1].lower() == 'f':
my_pbc = True
fractional = True
symbols = lines[iline + 2].split()
for i in range(natoms):
index = iline + 3 + i
aindex = int(lines[index].split()[1]) - 1
atom_symbols.append(symbols[aindex])
position = [float(p) for p in lines[index].split()[2:]]
atoms_pos.append(position)
if my_pbc:
for i in range(3):
index = iline + 4 + natoms + i
cell = [float(c) for c in lines[index].split()]
mycell.append(cell)
else:
if 'TypeNames' in line:
col = line.split()
for i in range(3, len(col) - 1):
type_names.append(col[i].strip("\""))
elif 'Periodic' in line:
if 'Yes' in line:
my_pbc = True
elif 'LatticeVectors' in line:
for imycell in range(3):
extraline = lines[iline + imycell + 1]
cols = extraline.split()
mycell.append(
[float(cols[0]), float(cols[1]), float(cols[2])])
else:
pass
if not my_pbc:
mycell = [0.] * 3
start_reading_coords = False
stop_reading_coords = False
for line in lines:
if line.strip().startswith('#'):
pass
else:
if 'TypesAndCoordinates' in line:
start_reading_coords = True
if start_reading_coords:
if '}' in line:
stop_reading_coords = True
if (start_reading_coords and not stop_reading_coords
and 'TypesAndCoordinates' not in line):
typeindexstr, xxx, yyy, zzz = line.split()[:4]
typeindex = int(typeindexstr)
symbol = type_names[typeindex - 1]
atom_symbols.append(symbol)
atoms_pos.append([float(xxx), float(yyy), float(zzz)])
if fractional:
atoms = Atoms(scaled_positions=atoms_pos, symbols=atom_symbols,
cell=mycell, pbc=my_pbc)
elif not fractional:
atoms = Atoms(positions=atoms_pos, symbols=atom_symbols,
cell=mycell, pbc=my_pbc)
return atoms
def read_dftb_velocities(atoms, filename):
"""Method to read velocities (AA/ps) from DFTB+ output file geo_end.xyz
"""
from ase.units import second
# AA/ps -> ase units
AngdivPs2ASE = 1.0 / (1e-12 * second)
with open(filename) as fd:
lines = fd.readlines()
# remove empty lines
lines_ok = []
for line in lines:
if line.rstrip():
lines_ok.append(line)
velocities = []
natoms = len(atoms)
last_lines = lines_ok[-natoms:]
for iline, line in enumerate(last_lines):
inp = line.split()
velocities.append([float(inp[5]) * AngdivPs2ASE,
float(inp[6]) * AngdivPs2ASE,
float(inp[7]) * AngdivPs2ASE])
atoms.set_velocities(velocities)
return atoms
@reader
def read_dftb_lattice(fileobj, images=None):
"""Read lattice vectors from MD and return them as a list.
If a molecules are parsed add them there."""
if images is not None:
append = True
if hasattr(images, 'get_positions'):
images = [images]
else:
append = False
fileobj.seek(0)
lattices = []
for line in fileobj:
if 'Lattice vectors' in line:
vec = []
for i in range(3): # DFTB+ only supports 3D PBC
line = fileobj.readline().split()
try:
line = [float(x) for x in line]
except ValueError:
raise ValueError('Lattice vector elements should be of '
'type float.')
vec.extend(line)
lattices.append(np.array(vec).reshape((3, 3)))
if append:
if len(images) != len(lattices):
raise ValueError('Length of images given does not match number of '
'cell vectors found')
for i, atoms in enumerate(images):
atoms.set_cell(lattices[i])
# DFTB+ only supports 3D PBC
atoms.set_pbc(True)
return
else:
return lattices
[docs]@writer
def write_dftb(fileobj, images):
"""Write structure in GEN format (refer to DFTB+ manual).
Multiple snapshots are not allowed. """
from ase.io.gen import write_gen
write_gen(fileobj, images)
def write_dftb_velocities(atoms, filename):
"""Method to write velocities (in atomic units) from ASE
to a file to be read by dftb+
"""
from ase.units import AUT, Bohr
# ase units -> atomic units
ASE2au = Bohr / AUT
with open(filename, 'w') as fd:
velocities = atoms.get_velocities()
for velocity in velocities:
fd.write(' %19.16f %19.16f %19.16f \n'
% (velocity[0] / ASE2au,
velocity[1] / ASE2au,
velocity[2] / ASE2au))