X-Git-Url: http://gitweb.michael.orlitzky.com/?a=blobdiff_plain;f=mjo%2Feja%2Feja_algebra.py;h=1ae3286cea5a26eda3d82f7161aab639bc9d724c;hb=a2dabad45525791c258a91e2134abbf5f5591dbe;hp=29ff1da38480b3b9b07d1ff39555948e31785732;hpb=393a3fbd21087c3ba22f47b8a3b41ae987e4a841;p=sage.d.git diff --git a/mjo/eja/eja_algebra.py b/mjo/eja/eja_algebra.py index 29ff1da..1ae3286 100644 --- a/mjo/eja/eja_algebra.py +++ b/mjo/eja/eja_algebra.py @@ -5,6 +5,8 @@ are used in optimization, and have some additional nice methods beyond what can be supported in a general Jordan Algebra. """ +from itertools import repeat + from sage.algebras.quatalg.quaternion_algebra import QuaternionAlgebra from sage.categories.magmatic_algebras import MagmaticAlgebras from sage.combinat.free_module import CombinatorialFreeModule @@ -51,8 +53,7 @@ class FiniteDimensionalEuclideanJordanAlgebra(CombinatorialFreeModule): sage: set_random_seed() sage: J = random_eja() - sage: x = J.random_element() - sage: y = J.random_element() + sage: x,y = J.random_elements(2) sage: x*y == y*x True @@ -446,9 +447,7 @@ class FiniteDimensionalEuclideanJordanAlgebra(CombinatorialFreeModule): sage: set_random_seed() sage: J = random_eja() - sage: x = J.random_element() - sage: y = J.random_element() - sage: z = J.random_element() + sage: x,y,z = J.random_elements(3) sage: (x*y).inner_product(z) == y.inner_product(x*z) True @@ -657,6 +656,25 @@ class FiniteDimensionalEuclideanJordanAlgebra(CombinatorialFreeModule): s = super(FiniteDimensionalEuclideanJordanAlgebra, self) return s.random_element() + def random_elements(self, count): + """ + Return ``count`` random elements as a tuple. + + SETUP:: + + sage: from mjo.eja.eja_algebra import JordanSpinEJA + + EXAMPLES:: + + sage: J = JordanSpinEJA(3) + sage: x,y,z = J.random_elements(3) + sage: all( [ x in J, y in J, z in J ]) + True + sage: len( J.random_elements(10) ) == 10 + True + + """ + return tuple( self.random_element() for idx in xrange(count) ) @classmethod def random_instance(cls, field=QQ, **kwargs): @@ -824,8 +842,7 @@ class RealCartesianProductEJA(FiniteDimensionalEuclideanJordanAlgebra): sage: set_random_seed() sage: J = RealCartesianProductEJA.random_instance() - sage: x = J.random_element() - sage: y = J.random_element() + sage: x,y = J.random_elements(2) sage: X = x.natural_representation() sage: Y = y.natural_representation() sage: x.inner_product(y) == J.natural_inner_product(X,Y) @@ -1032,8 +1049,7 @@ class RealSymmetricEJA(MatrixEuclideanJordanAlgebra): sage: set_random_seed() sage: J = RealSymmetricEJA.random_instance() - sage: x = J.random_element() - sage: y = J.random_element() + sage: x,y = J.random_elements(2) sage: actual = (x*y).natural_representation() sage: X = x.natural_representation() sage: Y = y.natural_representation() @@ -1275,8 +1291,7 @@ class ComplexHermitianEJA(ComplexMatrixEuclideanJordanAlgebra): sage: set_random_seed() sage: J = ComplexHermitianEJA.random_instance() - sage: x = J.random_element() - sage: y = J.random_element() + sage: x,y = J.random_elements(2) sage: actual = (x*y).natural_representation() sage: X = x.natural_representation() sage: Y = y.natural_representation() @@ -1525,8 +1540,7 @@ class QuaternionHermitianEJA(QuaternionMatrixEuclideanJordanAlgebra): sage: set_random_seed() sage: J = QuaternionHermitianEJA.random_instance() - sage: x = J.random_element() - sage: y = J.random_element() + sage: x,y = J.random_elements(2) sage: actual = (x*y).natural_representation() sage: X = x.natural_representation() sage: Y = y.natural_representation() @@ -1691,8 +1705,7 @@ class JordanSpinEJA(FiniteDimensionalEuclideanJordanAlgebra): sage: set_random_seed() sage: J = JordanSpinEJA.random_instance() - sage: x = J.random_element() - sage: y = J.random_element() + sage: x,y = J.random_elements(2) sage: X = x.natural_representation() sage: Y = y.natural_representation() sage: x.inner_product(y) == J.natural_inner_product(X,Y)