elif wcell == 1: chga = chg2 else: print 'Error, invalid argument to -w option' sys.exit(1) else: chga = chg1 if len(chg1.chg) != len(chg2.chg): print 'Number of images in charge density files not equal. Using just \ the final images in both files.' chg1.chg = [chg1.chg[-1]] chg1.atoms = [chg1.atoms[-1]] if chg1.is_spin_polarized(): chg1.chgdiff = [chg1.chgdiff[-1]] chg2.chgdiff = [chg2.chgdiff[-1]] chg2.chg = [chg2.chg[-1]] chg2.atoms = [chg2.atoms[-1]] newchg = VaspChargeDensity(None) print 'Start charge manipul' for i, atchg in enumerate(chg1.chg): c1 = atchg c2 = chg2.chg[i] newchg.atoms.append(chga.atoms[i].copy()) if op == '+': nc = c1 + c2 oplong = '_add_'
def chgarith(chgf1, chgf2, op, filename, wcell): # chgf1 = args[0] # chgf2 = args[2] # op = args[1] chg1 = VaspChargeDensity(chgf1) chg2 = VaspChargeDensity(chgf2) # if options.wcell: # wcell = int(options.wcell) if wcell == 0: chga = chg1 elif wcell == 1: chga = chg2 # else: # print ('Error, invalid argument to -w option') # sys.exit(1) # else: # chga = chg1 if len(chg1.chg) != len(chg2.chg): print( 'Number of images in charge density files not equal. Using just the final images in both files.' ) print('len(chg.chg)', len(chg1.chg), len(chg2.chg)) chg1.chg = [chg1.chg[-1]] chg1.atoms = [chg1.atoms[-1]] if chg1.is_spin_polarized(): chg1.chgdiff = [chg1.chgdiff[-1]] chg2.chgdiff = [chg2.chgdiff[-1]] chg2.chg = [chg2.chg[-1]] chg2.atoms = [chg2.atoms[-1]] newchg = VaspChargeDensity(None) print('Start charge manipul') for i, atchg in enumerate(chg1.chg): c1 = atchg c2 = chg2.chg[i] newchg.atoms.append(chga.atoms[i].copy()) if op == '+': nc = c1 + c2 oplong = '_add_' elif op == '-': nc = c1 - c2 oplong = '_sub_' elif op == '*': nc = c1 * c2 oplong = '_mult_' elif op == '/': nc = c1 / c2 oplong = '_div_' elif op == 'avg': nc = (c1 + c2) / 2 oplong = '_avg_' newchg.chg.append(nc) if chg1.is_spin_polarized(): print('Spin polarized') for i, cd in enumerate(chg1.chgdiff): cd2 = chg2.chgdiff[i] if op == '+': nd = cd + cd2 elif op == '-': nd = cd - cd2 elif op == '*': nd = cd * cd2 elif op == '/': nd = cd / cd2 elif op == 'avg': nd = (cd + cd2) / 2 newchg.chgdiff.append(nd) # Screw doing anything fancy with the augmentation charges # Just take them from the same file as the embedded atoms object. newchg.aug = chga.aug newchg.augdiff = chga.augdiff # if options.outfile: # fname = options.outfile # else: # from os.path import basename # fname = basename(chgf1) + oplong + basename(chgf2) newchg.write(filename) return filename