schrodinger.application.jaguar.basis module¶

Utility functions for dealing with Jaguar basis sets

class schrodinger.application.jaguar.basis.BasisSet¶

A Pythonic wrapper for basis set information.

Variables:

name (str) – The name of the basis set
backup (str) – The basis set used for non-effective-core-potential atoms
nstar (int) – The availability of polarization functions
nplus (int) – The availability of diffuse functions
is_ecp (bool) – Does this basis set use effective core potentials on heavy atoms?
is_ps (bool) – Is this basis set pseudospectral?
numd (int) – The number of d functions
numf (int) – The number of f functions

schrodinger.application.jaguar.basis.get_bases()¶

Get information about all basis set

Returns:	An iterator for basis sets, where each basis set is returned as a `BasisSet` object
Return type:	iter

schrodinger.application.jaguar.basis.mmjag_function(func)¶: A decorator that wraps functions with mmjag_initialize and mmjag_terminate.

schrodinger.application.jaguar.basis.num_functions_all_atoms(*args, **kwargs)¶

schrodinger.application.jaguar.basis.parse_basis(basis)¶

Parse the given basis set name and determine that number of *’s and +’s.

Parameters:	basis (str) – The full basis set name
Returns:	A tuple of - The basis set name with the ’s and +’s stripped (str) - The polarization function count (i.e. the number of ’s) (int) - The diffuse function count (i.e. the number of +’s) (int)
Return type:	tuple