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Add hilbert_series #694

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merged 10 commits into from
Aug 15, 2023
Merged

Add hilbert_series #694

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67c6a7a
add hilbert_series
hannes14 Aug 4, 2023
b3f4622
fix typo
hannes14 Aug 4, 2023
756b664
test for hilbert_series(I,Qt)
hannes14 Aug 13, 2023
ae9eb05
typo
hannes14 Aug 13, 2023
bf08e43
fix types
hannes14 Aug 13, 2023
ea7bcd4
typo
hannes14 Aug 14, 2023
068c4a8
address review comments
hannes14 Aug 14, 2023
6c6f172
use of t
hannes14 Aug 14, 2023
2d379c8
follow suggestion
hannes14 Aug 15, 2023
8f85388
Apply suggestions from code review
fingolfin Aug 15, 2023
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16 changes: 16 additions & 0 deletions deps/src/ideals.cpp
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Original file line number Diff line number Diff line change
Expand Up @@ -677,6 +677,22 @@ void singular_define_ideals(jlcxx::Module & Singular)
delete v;
rChangeCurrRing(origin);
});
Singular.method("scHilbPoly", [](ideal I, ring r, ring Qt) {
const ring origin = currRing;
rChangeCurrRing(r);
poly h=hFirstSeries0p(I,r->qideal,NULL,r,Qt);
rChangeCurrRing(origin);
return h;
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});
Singular.method("scHilbPolyWeighted", [](ideal I, ring r, jlcxx::ArrayRef<int> weights, ring Qt) {
intvec *w = to_intvec(weights);
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@JohnAAbbott JohnAAbbott Aug 14, 2023
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Assumes that weights has the correct size, and that all its entries are positive (and maybe not too big?)
This is apparently checked in line 1304 below

const ring origin = currRing;
rChangeCurrRing(r);
poly h=hFirstSeries0p(I,r->qideal,w,r,Qt);
delete w;
rChangeCurrRing(origin);
return h;
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});
Singular.method("id_Homogen", id_Homogen);
Singular.method("id_HomModule", [](jlcxx::ArrayRef<int> weights, ideal I, ring r) {
intvec* w = NULL;
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32 changes: 32 additions & 0 deletions src/ideal/ideal.jl
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Expand Up @@ -1278,6 +1278,38 @@ function hilbert_series(I::sideal{spoly{T}}, w::Vector{<:Integer}) where T <: Ne
return z
end

@doc raw"""
hilbert_series(I::sideal{spoly{T}}, Qt::PolyRing) where T <: Nemo.FieldElem

Return the polynomial $Q(t)$ as element of Qt where `Q(t)/(1-t)^nvars(base_ring(I))`
is the Hilbert-Poincare series of $I$ for weights $(1, \dots, 1)$.
The generators of $I$ must be given as a Groebner basis.
"""
function hilbert_series(I::sideal{spoly{T}}, Qt::PolyRing) where T <: Nemo.FieldElem
I.isGB || error("Not a Groebner basis")
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If it is the caller's responsibility to ensure that GB for I is available then this should be in the doc!
Maybe consider an optional/kw arg which the user can use to permit hilbert_series to compute a GB if necessary?

R = base_ring(I)
GC.@preserve I R Qt new_ptr = libSingular.scHilbPoly(I.ptr, R.ptr, Qt.ptr)
return Qt(new_ptr)
end

@doc raw"""
hilbert_series(I::sideal{spoly{T}}, w::Vector{<:Integer}) where T <: Nemo.FieldElem

Return the polynomial $Q(t)$ of Qt where $\frac{Q(t)}{\prod_i (1-t^{w_i})}$
is the Hilbert-Poincare series of $I$ for weights $\{w_i\}$. Each weight must be
positive $w_i > 0$.
The generators of $I$ must be given as a Groebner basis.
"""
function hilbert_series(I::sideal{spoly{T}}, w::Vector{<:Integer}, Qt::PolyRing) where T <: Nemo.FieldElem
I.isGB || error("Not a Groebner basis")
R = base_ring(I)
length(w) == nvars(R) || error("wrong number of weights")
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Is it useful in the error mesg to say how many weights were received, and how many were expected?

all(x -> x > 0, w) || error("weights must be positive")
w = convert(Vector{Int32}, w)
GC.@preserve I R Qt new_ptr = libSingular.scHilbPolyWeighted(I.ptr, R.ptr, w, Qt.ptr)
return Qt(new_ptr)
end

@doc raw"""
std_hilbert(I::sideal{spoly{T}}, hs::Vector{Int32}; complete_reduction::Bool=false) where T <: Nemo.FieldElem

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5 changes: 5 additions & 0 deletions test/ideal/sideal-test.jl
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Expand Up @@ -686,6 +686,11 @@ end

@test ngens(std_hilbert(j, h, w, complete_reduction = true)) ==
ngens(std(j, complete_reduction = true))
Qt,(t)= polynomial_ring(QQ, ["t"])
t=gen(Qt,1)
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Is the assignment t = gen(Qt,1) superfluous? I think line 698 already assigns the correct value to t, right?

I=Ideal(R,[x,y,z])
I=std(I)
@test hilbert_series(I,Qt) == -t^3+3*t^2-3*t+1
end

@testset "sideal.oscar#1702" begin
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