Renaming variables of polynomials #
This file establishes the rename
operation on multivariate polynomials,
which modifies the set of variables.
Main declarations #
Notation #
As in other polynomial files, we typically use the notation:
-
σ τ α : Type*
(indexing the variables) -
R S : Type*
[CommSemiring R]
[CommSemiring S]
(the coefficients) -
s : σ →₀ ℕ
, a function fromσ
toℕ
which is zero away from a finite set. This will give rise to a monomial inMvPolynomial σ R
which mathematicians might callX^s
-
r : R
elements of the coefficient ring -
i : σ
, with corresponding monomialX i
, often denotedX_i
by mathematicians -
p : MvPolynomial σ α
Rename all the variables in a multivariable polynomial.
Equations
- MvPolynomial.rename f = MvPolynomial.aeval (MvPolynomial.X ∘ f)
Instances For
Given a function between sets of variables f : σ → τ
that is injective with proof hf
,
MvPolynomial.killCompl hf
is the AlgHom
from R[τ]
to R[σ]
that is left inverse to
rename f : R[σ] → R[τ]
and sends the variables in the complement of the range of f
to 0
.
Equations
- MvPolynomial.killCompl hf = MvPolynomial.aeval fun i => if h : i ∈ Set.range f then MvPolynomial.X (↑(Equiv.ofInjective f hf).symm { val := i, property := h }) else 0
Instances For
MvPolynomial.rename e
is an equivalence when e
is.
Equations
- One or more equations did not get rendered due to their size.
Instances For
Every polynomial is a polynomial in finitely many variables.
exists_finset_rename
for two polynomials at once: for any two polynomials p₁
, p₂
in a
polynomial semiring R[σ]
of possibly infinitely many variables, exists_finset_rename₂
yields
a finite subset s
of σ
such that both p₁
and p₂
are contained in the polynomial semiring
R[s]
of finitely many variables.
Every polynomial is a polynomial in finitely many variables.