- L = ToricLattice(0)
-
- return Cone(vecs, lattice=L)
-
-
-def rename_lattice(L,s):
- r"""
- Change all names of the given lattice to ``s``.
- """
- L._name = s
- L._dual_name = s
- L._latex_name = s
- L._latex_dual_name = s
-
-def span_iso(K):
- r"""
- Return an isomorphism (and its inverse) that will send ``K`` into a
- lower-dimensional space isomorphic to its span (and back).
-
- EXAMPLES:
-
- The inverse composed with the isomorphism should be the identity::
-
- sage: K = random_cone(max_dim=10)
- sage: (phi, phi_inv) = span_iso(K)
- sage: phi_inv(phi(K)) == K
- True
-
- The image of ``K`` under the isomorphism should have full dimension::
-
- sage: K = random_cone(max_dim=10)
- sage: (phi, phi_inv) = span_iso(K)
- sage: phi(K).dim() == phi(K).lattice_dim()
- True
-
- """
- phi_domain = K.sublattice().vector_space()
- phi_codo = VectorSpace(phi_domain.base_field(), phi_domain.dimension())
-
- # S goes from the new space to the cone space.
- S = linear_transformation(phi_codo, phi_domain, phi_domain.basis())
-
- # phi goes from the cone space to the new space.
- def phi(J_orig):
- r"""
- Takes a cone ``J`` and sends it into the new space.
- """
- newrays = map(S.inverse(), J_orig.rays())
- L = None
- if len(newrays) == 0:
- L = ToricLattice(0)