X-Git-Url: http://gitweb.michael.orlitzky.com/?a=blobdiff_plain;f=mjo%2Feja%2Feja_algebra.py;h=34f88010cd31eb8d5cba9446d6dd6ffd2f5a2eaf;hb=f676b6d2f484839108ea4ebeaa50b3a11094a85d;hp=f14218151d69db6fb90bdf2bec240a9506569f33;hpb=bbae1a93ab44c80896181ad8983393aa16a87868;p=sage.d.git diff --git a/mjo/eja/eja_algebra.py b/mjo/eja/eja_algebra.py index f142181..34f8801 100644 --- a/mjo/eja/eja_algebra.py +++ b/mjo/eja/eja_algebra.py @@ -315,7 +315,7 @@ class FiniteDimensionalEJA(CombinatorialFreeModule): This method should of course always return ``True``, unless this algebra was constructed with ``check_axioms=False`` and - passed an invalid multiplication table. + passed an invalid Jordan or inner-product. """ # Used to check whether or not something is zero in an inexact @@ -1187,9 +1187,7 @@ class RationalBasisEJA(FiniteDimensionalEJA): jordan_product, inner_product, field=AA, - orthonormalize=True, check_field=True, - check_axioms=True, **kwargs): if check_field: @@ -1212,15 +1210,13 @@ class RationalBasisEJA(FiniteDimensionalEJA): field=QQ, orthonormalize=False, check_field=False, - check_axioms=False, - **kwargs) + check_axioms=False) super().__init__(basis, jordan_product, inner_product, field=field, check_field=check_field, - check_axioms=check_axioms, **kwargs) @cached_method @@ -2311,31 +2307,38 @@ class BilinearFormEJA(ConcreteEJA): ....: for j in range(n-1) ] sage: actual == expected True + """ def __init__(self, B, **kwargs): - if not B.is_positive_definite(): - raise ValueError("bilinear form is not positive-definite") + # The matrix "B" is supplied by the user in most cases, + # so it makes sense to check whether or not its positive- + # definite unless we are specifically asked not to... + if ("check_axioms" not in kwargs) or kwargs["check_axioms"]: + if not B.is_positive_definite(): + raise ValueError("bilinear form is not positive-definite") + + # However, all of the other data for this EJA is computed + # by us in manner that guarantees the axioms are + # satisfied. So, again, unless we are specifically asked to + # verify things, we'll skip the rest of the checks. + if "check_axioms" not in kwargs: kwargs["check_axioms"] = False def inner_product(x,y): - return (B*x).inner_product(y) + return (y.T*B*x)[0,0] def jordan_product(x,y): P = x.parent() - x0 = x[0] - xbar = x[1:] - y0 = y[0] - ybar = y[1:] - z0 = inner_product(x,y) + x0 = x[0,0] + xbar = x[1:,0] + y0 = y[0,0] + ybar = y[1:,0] + z0 = inner_product(y,x) zbar = y0*xbar + x0*ybar - return P((z0,) + tuple(zbar)) - - # We know this is a valid EJA, but will double-check - # if the user passes check_axioms=True. - if "check_axioms" not in kwargs: kwargs["check_axioms"] = False + return P([z0] + zbar.list()) n = B.nrows() - standard_basis = FreeModule(ZZ, n).basis() - super(BilinearFormEJA, self).__init__(standard_basis, + column_basis = tuple( b.column() for b in FreeModule(ZZ, n).basis() ) + super(BilinearFormEJA, self).__init__(column_basis, jordan_product, inner_product, **kwargs)