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Mysterious behavior for quotient rings and cover()

asked 2014-01-18 08:49:36 +0100

jeremy9959 gravatar image

updated 2014-01-18 09:00:12 +0100

tmonteil gravatar image

I don't understand this:

R.<T,U>=PolynomialRing(QQ)
Q=R.quo((T^2)) 
pi=Q.cover() 
pi(T)

-- returns Tbar

However:

R.<T>=PolynomialRing(QQ)
Q=R.quo((T^2))
pi=Q.cover()
pi(T)

-- returns an error.

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answered 2014-01-18 09:05:39 +0100

tmonteil gravatar image

updated 2014-01-18 09:14:48 +0100

In the first case, your R is of type

sage: type(R)
<type 'sage.rings.polynomial.multi_polynomial_libsingular.MPolynomialRing_libsingular'>

In the second case,

sage: type(R)
<class 'sage.rings.polynomial.polynomial_ring.PolynomialRing_field_with_category'>

Unfortunately, those univariate polynomial rings do not offer the .cover() method.

I agree that univariate polynomials should inherit from features of multivariate polynomials, but this is currently not the case.

Here is a tricky workaround: define your univariate polynomial ring as a multivariate polynomial ring with one variable !

sage: R.<T>=PolynomialRing(QQ, 1) ; R
Multivariate Polynomial Ring in T over Rational Field
sage: Q=R.quo((T^2))
sage: pi=Q.cover()
sage: pi(T)
Tbar
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Comments

I guess when I wrote that I didn't understand it, I really meant: how can it be acceptable that a polynomial ring in one variable is not an instance of a polynomial ring in n variables?

jeremy9959 gravatar imagejeremy9959 ( 2014-01-18 09:24:59 +0100 )edit

@tmonteil maybe open a ticket for this.

ppurka gravatar imageppurka ( 2014-01-18 13:30:17 +0100 )edit

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Asked: 2014-01-18 08:49:36 +0100

Seen: 327 times

Last updated: Jan 18 '14