The optional input given above is not relevant for Lie algebras. Instead of generators one may use the abbreviation gens. If $S$ is of type FGLieIdeal, then the generators of $S$ are the generators of $S$ as an ideal. If $S$ is of type FGLieSubAlgebra, then the generators of $S$ are the generators of $S$ as a Lie subalgebra. If $S$ is of type LieSubSpace given by a finite set of generators, then the generators of $S$ are the generators of $S$ as a Lie subspace. In all other cases, if $S$ is of type LieSubSpace, then the function generators applied to $S$ is not defined.
i1 : F=lieAlgebra{a,b,c}
o1 = F
o1 : LieAlgebra
|
i2 : I=lieIdeal{a a b,a a c}
o2 = I
o2 : FGLieIdeal
|
i3 : L=F/I o3 = L o3 : LieAlgebra |
i4 : gens I
o4 = { - (a b a), - (a c a)}
o4 : List
|
i5 : J=kernel map(L,F) o5 = J o5 : LieIdeal |
i6 : gens J the subspace has no generators |