ASE interface

“The Atomic Simulation Environment (ASE) is a set of tools and Python modules for setting up, manipulating, running, visualizing and analyzing atomistic simulations. The PLAMS interface to ASE is limited to handling Molecule objects. It features access to the ase.io module for reading/writing Molecule objects and two functions that translate PLAMS Molecule objects into ASE Atoms objects and vice versa.

Please refer to the ASE documentation to see what can be done with ASE Atoms and its I/O module.

toASE(molecule)[source]

Convert a PLAMS Molecule to an ASE molecule (ase.Atoms instance). Translate coordinates, atomic numbers, and lattice vectors (if present). The order of atoms is preserved.

fromASE(molecule)[source]

Convert an ASE molecule to a PLAMS Molecule. Translate coordinates, atomic numbers, and lattice vectors (if present). The order of atoms is preserved.

class Molecule[source]

Additional reader and writer for Molecule class:

readase(f, **other)

Read Molecule using ASE engine

The read function of the Molecule class passes a file descriptor into here, so in this case you must specify the format to be read by ASE:

mol = Molecule('file.cif', inputformat='ase', format='cif')

The ASE Atoms object then gets converted to a PLAMS Molecule and returned. All other options are passed to ASE.io.read(). See https://wiki.fysik.dtu.dk/ase/ase/io/io.html on how to use it.

Note

The nomenclature of PLAMS and ASE is incompatible for reading multiple geometries, make sure that you only read single geometries with ASE! Reading multiple geometries is not supported, each geometry needs to be read individually.

writease(f, **other)

Write molecular coordinates using ASE engine.

The write function of the Molecule class passes a file descriptor into here, so in this case you must specify the format to be written by ASE. All other options are passed to ASE.io.write(). See https://wiki.fysik.dtu.dk/ase/ase/io/io.html on how to use it.

These two write the same content to the respective files:

molecule.write('filename.anyextension', outputformat='ase', format='gen')
molecule.writease('filename.anyextension', format='gen')