Source code for stk.molecular.functional_groups.functional_groups.difluoro

"""
Difluoro
========

"""

from .generic_functional_group import GenericFunctionalGroup


[docs]class Difluoro(GenericFunctionalGroup): """ Represents a difluoro functional group. The structure of the functional group is given by the pseudo-SMILES ``[fluorine1][atom1][atom2][fluorine2]``. """
[docs] def __init__( self, fluorine1, atom1, fluorine2, atom2, bonders, deleters, placers=None, ): """ Initialize a :class:`.Difluoro` instance. Parameters ---------- fluorine1 : :class:`.F` The ``[fluorine1]`` atom. atom1 : :class:`.Atom` The ``[atom1]`` atom. fluorine2 : :class:`.F` The ``[fluorine2]`` atom. atom2 : :class:`.Atom` The ``[atom2]`` atom. placers : :class:`tuple` of :class:`.Atom`, optional The placer atoms. If ``None`` the `bonders` will be used. """ self._fluorine1 = fluorine1 self._atom1 = atom1 self._fluorine2 = fluorine2 self._atom2 = atom2 super().__init__( atoms=(fluorine1, atom1, fluorine2, atom2), bonders=bonders, deleters=deleters, placers=bonders if placers is None else placers, )
[docs] def get_atom1(self): """ Get the ``[atom1]`` atom. Returns ------- :class:`.Atom` The ``[atom1]`` atom. """ return self._atom1
[docs] def get_fluorine1(self): """ Get the ``[fluorine1]`` atom. Returns ------- :class:`.F` The ``[fluorine1]`` atom. """ return self._fluorine1
[docs] def get_atom2(self): """ Get the ``[atom2]`` atom. Returns ------- :class:`.Atom` The ``[atom2]`` atom. """ return self._atom2
[docs] def get_fluorine2(self): """ Get the ``[fluorine2]`` atom. Returns ------- :class:`.F` The ``[fluorine2]`` atom. """ return self._fluorine2
[docs] def with_atoms(self, atom_map): clone = super().with_atoms(atom_map) clone._atom1 = atom_map.get( self._atom1.get_id(), self._atom1, ) clone._fluorine1 = atom_map.get( self._fluorine1.get_id(), self._fluorine1, ) clone._atom2 = atom_map.get( self._atom2.get_id(), self._atom2, ) clone._fluorine2 = atom_map.get( self._fluorine2.get_id(), self._fluorine2, ) return clone
[docs] def clone(self): clone = super().clone() clone._atom1 = self._atom1 clone._fluorine1 = self._fluorine1 clone._atom2 = self._atom2 clone._fluorine2 = self._fluorine2 return clone
def __repr__(self): return ( f'{self.__class__.__name__}(' f'{self._fluorine1}, {self._atom1}, {self._fluorine2}, ' f'{self._atom2}, ' f'bonders={self._bonders}, deleters={self._deleters})' )