From: Michael Orlitzky Date: Fri, 20 Nov 2020 05:16:31 +0000 (-0500) Subject: eja: improve projection/inclusion implementation for DirectSumEJA. X-Git-Url: http://gitweb.michael.orlitzky.com/?a=commitdiff_plain;h=825ba059499cb402a58b5d10b2d505e1f1258fbf;p=sage.d.git eja: improve projection/inclusion implementation for DirectSumEJA. --- diff --git a/mjo/eja/eja_algebra.py b/mjo/eja/eja_algebra.py index 3b5828f..7857190 100644 --- a/mjo/eja/eja_algebra.py +++ b/mjo/eja/eja_algebra.py @@ -33,6 +33,7 @@ from sage.rings.all import (ZZ, QQ, AA, QQbar, RR, RLF, CLF, from mjo.eja.eja_element import FiniteDimensionalEuclideanJordanAlgebraElement lazy_import('mjo.eja.eja_subalgebra', 'FiniteDimensionalEuclideanJordanSubalgebra') +from mjo.eja.eja_operator import FiniteDimensionalEuclideanJordanAlgebraOperator from mjo.eja.eja_utils import _mat2vec class FiniteDimensionalEuclideanJordanAlgebra(CombinatorialFreeModule): @@ -2418,7 +2419,8 @@ class DirectSumEJA(FiniteDimensionalEuclideanJordanAlgebra): SETUP:: - sage: from mjo.eja.eja_algebra import (HadamardEJA, + sage: from mjo.eja.eja_algebra import (random_eja, + ....: HadamardEJA, ....: RealSymmetricEJA, ....: DirectSumEJA) @@ -2432,8 +2434,25 @@ class DirectSumEJA(FiniteDimensionalEuclideanJordanAlgebra): sage: J.rank() 5 + TESTS: + + The external direct sum construction is only valid when the two factors + have the same base ring; an error is raised otherwise:: + + sage: set_random_seed() + sage: J1 = random_eja(AA) + sage: J2 = random_eja(QQ) + sage: J = DirectSumEJA(J1,J2) + Traceback (most recent call last): + ... + ValueError: algebras must share the same base field + """ - def __init__(self, J1, J2, field=AA, **kwargs): + def __init__(self, J1, J2, **kwargs): + if J1.base_ring() != J2.base_ring(): + raise ValueError("algebras must share the same base field") + field = J1.base_ring() + self._factors = (J1, J2) n1 = J1.dimension() n2 = J2.dimension() @@ -2506,8 +2525,11 @@ class DirectSumEJA(FiniteDimensionalEuclideanJordanAlgebra): """ (J1,J2) = self.factors() n = J1.dimension() - pi_left = lambda x: J1.from_vector(x.to_vector()[:n]) - pi_right = lambda x: J2.from_vector(x.to_vector()[n:]) + V_basis = self.vector_space().basis() + P1 = matrix(self.base_ring(), V_basis[:n]) + P2 = matrix(self.base_ring(), V_basis[n:]) + pi_left = FiniteDimensionalEuclideanJordanAlgebraOperator(self,J1,P1) + pi_right = FiniteDimensionalEuclideanJordanAlgebraOperator(self,J2,P2) return (pi_left, pi_right) def inclusions(self): @@ -2516,7 +2538,8 @@ class DirectSumEJA(FiniteDimensionalEuclideanJordanAlgebra): SETUP:: - sage: from mjo.eja.eja_algebra import (JordanSpinEJA, + sage: from mjo.eja.eja_algebra import (random_eja, + ....: JordanSpinEJA, ....: RealSymmetricEJA, ....: DirectSumEJA) @@ -2541,14 +2564,35 @@ class DirectSumEJA(FiniteDimensionalEuclideanJordanAlgebra): sage: J.one().to_vector() (1, 0, 0, 1, 0, 1) + TESTS: + + Composing a projection with the corresponding inclusion should + produce the identity map, and mismatching them should produce + the zero map:: + + sage: set_random_seed() + sage: J1 = random_eja() + sage: J2 = random_eja() + sage: J = DirectSumEJA(J1,J2) + sage: (iota_left, iota_right) = J.inclusions() + sage: (pi_left, pi_right) = J.projections() + sage: pi_left*iota_left == J1.one().operator() + True + sage: pi_right*iota_right == J2.one().operator() + True + sage: (pi_left*iota_right).is_zero() + True + sage: (pi_right*iota_left).is_zero() + True + """ (J1,J2) = self.factors() n = J1.dimension() V_basis = self.vector_space().basis() I1 = matrix.column(self.base_ring(), V_basis[:n]) I2 = matrix.column(self.base_ring(), V_basis[n:]) - iota_left = lambda x: self.from_vector(I1*x.to_vector()) - iota_right = lambda x: self.from_vector(I2*+x.to_vector()) + iota_left = FiniteDimensionalEuclideanJordanAlgebraOperator(J1,self,I1) + iota_right = FiniteDimensionalEuclideanJordanAlgebraOperator(J2,self,I2) return (iota_left, iota_right) def inner_product(self, x, y): @@ -2567,7 +2611,7 @@ class DirectSumEJA(FiniteDimensionalEuclideanJordanAlgebra): EXAMPLE:: - sage: J1 = HadamardEJA(3) + sage: J1 = HadamardEJA(3,QQ) sage: J2 = QuaternionHermitianEJA(2,QQ,normalize_basis=False) sage: J = DirectSumEJA(J1,J2) sage: x1 = J1.one()