/ase/io/turbomole.py - Annoter - QMX - Forge du Centre Blaise Pascal

root / ase / io / turbomole.py @ 16

Historique | Voir | Annoter | Télécharger (2,73 ko)

-tkerber
+from ase.atoms import Atoms
-tkerber
+from ase.units import Bohr
 tkerber
 tkerber
-tkerber
+def read_turbomole(filename='coord'):
-tkerber
+    """Method to read turbomole coord file
 tkerber
-tkerber
+    coords in bohr, atom types in lowercase, format:
-tkerber
+    $coord
-tkerber
+    x y z atomtype
-tkerber
+    x y z atomtype f
-tkerber
+    $end
-tkerber
+    Above 'f' means a fixed atom.
-tkerber
+    """
-tkerber
+    from ase import Atoms, Atom
-tkerber
+    from ase.constraints import FixAtoms
 tkerber
-tkerber
+    if isinstance(filename, str):
-tkerber
+        f = open(filename)
 tkerber
-tkerber
+    lines = f.readlines()
-tkerber
+    atoms_pos = []
-tkerber
+    atom_symbols = []
-tkerber
+    dollar_count=0
-tkerber
+    myconstraints=[]
-tkerber
+    for line in lines:
-tkerber
+        if ('$' in line):
-tkerber
+            dollar_count = dollar_count + 1
-tkerber
+            if (dollar_count >= 2):
-tkerber
+                break
-tkerber
+        else:
-tkerber
+            x, y, z, symbolraw = line.split()[:4]
-tkerber
+            symbolshort=symbolraw.strip()
-tkerber
+            symbol=symbolshort[0].upper()+symbolshort[1:].lower()
-tkerber
+            #print symbol
-tkerber
+            atom_symbols.append(symbol)
-tkerber
+            atoms_pos.append([float(x)*Bohr, float(y)*Bohr, float(z)*Bohr])
-tkerber
+            cols = line.split()
-tkerber
+            if (len(cols) == 5):
-tkerber
+                fixedstr = line.split()[4].strip()
-tkerber
+                if (fixedstr == "f"):
-tkerber
+                    myconstraints.append(True)
-tkerber
+                else:
-tkerber
+                    myconstraints.append(False)
-tkerber
+            else:
-tkerber
+                myconstraints.append(False)
 tkerber
-tkerber
+    if type(filename) == str:
-tkerber
+        f.close()
 tkerber
-tkerber
+    atoms = Atoms(positions = atoms_pos, symbols = atom_symbols, pbc = False)
-tkerber
+#    c = FixAtoms(myconstraints)
-tkerber
+#    atoms.set_constraint(c)
-tkerber
+    #print c
 tkerber
 tkerber
-tkerber
+    return atoms
 tkerber
-tkerber
+def write_turbomole(filename, atoms):
-tkerber
+    """Method to write turbomole coord file
-tkerber
+    """
 tkerber
-tkerber
+    import numpy as np
-tkerber
+    from ase.constraints import FixAtoms
 tkerber
-tkerber
+    if isinstance(filename, str):
-tkerber
+        f = open(filename, 'w')
-tkerber
+    else: # Assume it's a 'file-like object'
-tkerber
+        f = filename
 tkerber
-tkerber
+    coord = atoms.get_positions()
-tkerber
+    symbols = atoms.get_chemical_symbols()
-tkerber
+    printfixed = False
 tkerber
-tkerber
+    if atoms.constraints:
-tkerber
+        for constr in atoms.constraints:
-tkerber
+            if isinstance(constr, FixAtoms):
-tkerber
+                fix_index=constr.index
-tkerber
+                printfixed=True
-tkerber
+    #print sflags
 tkerber
-tkerber
+    if (printfixed):
-tkerber
+        fix_str=[]
-tkerber
+        for i in fix_index:
-tkerber
+            if i == 1:
-tkerber
+                fix_str.append("f")
-tkerber
+            else:
-tkerber
+                fix_str.append(" ")
 tkerber
 tkerber
-tkerber
+    f.write("$coord\n")
-tkerber
+    if (printfixed):
-tkerber
+        for (x, y, z), s, fix in zip(coord,symbols,fix_str):
-tkerber
+            f.write('%20.14f  %20.14f  %20.14f      %2s  %2s \n'
-tkerber
+                    % (x/Bohr, y/Bohr, z/Bohr, s.lower(), fix))
 tkerber
-tkerber
+    else:
-tkerber
+        for (x, y, z), s in zip(coord,symbols):
-tkerber
+            f.write('%20.14f  %20.14f  %20.14f      %2s \n'
-tkerber
+                    % (x/Bohr, y/Bohr, z/Bohr, s.lower()))
-tkerber
+    f.write("$end\n")

Chimie Théorique » QMX

root / ase / io / turbomole.py @ 16