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ase_patch.py
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ase_patch.py
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#!/usr/bin/env python3
import re
import numpy as np
def read_abinit_out(fd):
from ase.io.abinit import consume_multiline, read_stress
from ase import Atoms
from ase.units import Hartree, Bohr
results = {}
def skipto(string):
for line in fd:
if string in line:
return line
raise RuntimeError('Not found: {}'.format(string))
line = skipto('Version')
m = re.match(r'\.*?Version\s+(\S+)\s+of ABINIT', line)
assert m is not None
version = m.group(1)
results['version'] = version
use_v9_format = int(version.split('.', 1)[0]) >= 9
shape_vars = {}
skipto('echo values of preprocessed input variables')
for line in fd:
if '===============' in line:
break
tokens = line.split()
if not tokens:
continue
for key in ['natom', 'nkpt', 'nband', 'ntypat']:
if tokens[0] == key:
shape_vars[key] = int(tokens[1])
if line.lstrip().startswith('typat'): # Avoid matching ntypat
types = consume_multiline(fd, line, shape_vars['natom'], int)
if 'znucl' in line:
znucl = consume_multiline(fd, line, shape_vars['ntypat'], float)
if 'rprim' in line:
cell = consume_multiline(fd, line, 9, float)
cell = cell.reshape(3, 3)
natoms = shape_vars['natom']
# Skip ahead to results:
for line in fd:
if 'was not enough scf cycles to converge' in line:
raise RuntimeError(line)
if 'iterations are completed or convergence reached' in line:
break
else:
raise RuntimeError('Cannot find results section')
def read_array(fd, nlines):
arr = []
for i in range(nlines):
line = next(fd)
arr.append(line.split()[1:])
arr = np.array(arr).astype(float)
return arr
if use_v9_format:
energy_header = '--- !EnergyTerms'
total_energy_name = 'total_energy_eV'
def parse_energy(line):
return float(line.split(':')[1].strip())
else:
energy_header = 'Components of total free energy (in Hartree) :'
total_energy_name = '>>>>>>>>> Etotal'
def parse_energy(line):
return float(line.rsplit('=', 2)[1]) * Hartree
for line in fd:
if 'cartesian coordinates (angstrom) at end' in line:
positions = read_array(fd, natoms)
if 'cartesian forces (eV/Angstrom) at end' in line:
results['forces'] = read_array(fd, natoms)
if 'Cartesian components of stress tensor (hartree/bohr^3)' in line:
results['stress'] = read_stress(fd)
if line.strip() == energy_header:
# Header not to be confused with EnergyTermsDC,
# therefore we don't use .startswith()
energy = None
for line in fd:
# Which of the listed energies should we include?
if total_energy_name in line:
energy = parse_energy(line)
break
if energy is None:
raise RuntimeError('No energy found in output')
results['energy'] = results['free_energy'] = energy
if 'END DATASET(S)' in line:
break
for line in fd:
if 'outvars: echo values of variables after computation' in line:
break
acell = np.ones(3)
for line in fd:
if 'acell' in line:
tokens = line.lower().split()
unit = 1.0
index = tokens.index("acell")
if(tokens[index + 4][:3] != 'ang'):
unit = Bohr
acell = np.array([unit * float(tokens[index + 1]),
unit * float(tokens[index + 2]),
unit * float(tokens[index + 3])])
#print(acell)
if 'rprim' in line:
cell = consume_multiline(fd, line, 9, float)
cell = acell[:,None]*cell.reshape(3, 3)
#print(cell)
if 20*'=' in line:
break
znucl_int = znucl.astype(int)
znucl_int[znucl_int != znucl] = 0 # (Fractional Z)
numbers = znucl_int[types - 1]
atoms = Atoms(numbers=numbers,
positions=positions,
cell=cell,
pbc=True)
results['atoms'] = atoms
return results