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check reduced grobner basis

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asteri
2026-04-22 23:45:43 +02:00
parent e22a45926a
commit fb12ec3819
5 changed files with 192 additions and 1 deletions
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26
src/poly/buchberger.rs
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@@ -24,6 +24,30 @@ pub fn groebner_basis<V: Var>(generators: Vec<Poly<V>>) -> Vec<Poly<V>> {
i += 1; i += 1;
} }
// Minimize: remove any g whose LM is divisible by LM(h) for some other h.
let mut i = 0;
while i < g.len() {
let lm_i = g[i].leading_term_lex().unwrap().0.clone();
let redundant =
(0..g.len()).any(|j| j != i && lm_i.contains(&g[j].leading_term_lex().unwrap().0));
if redundant {
g.remove(i);
} else {
i += 1;
}
}
// Interreduce: replace each generator with its normal form modulo the others.
for i in 0..g.len() {
let others: Vec<Poly<V>> = g
.iter()
.enumerate()
.filter(|(j, _)| *j != i)
.map(|(_, p)| p.clone())
.collect();
g[i] = reduce(&g[i], &others);
}
g g
} }
@@ -47,7 +71,7 @@ pub fn is_groebner_basis<V: Var>(basis: &[Poly<V>]) -> bool {
/// by the leading monomial of any element in `basis`. /// by the leading monomial of any element in `basis`.
/// ///
/// Uses the pseudo-division remainder and repeats until stable. /// Uses the pseudo-division remainder and repeats until stable.
fn reduce<V: Var>(f: &Poly<V>, basis: &[Poly<V>]) -> Poly<V> { pub(crate) fn reduce<V: Var>(f: &Poly<V>, basis: &[Poly<V>]) -> Poly<V> {
let mut p = f.clone(); let mut p = f.clone();
'outer: loop { 'outer: loop {

15
src/poly/fmt.rs
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@@ -4,6 +4,7 @@ use itertools::Itertools;
use crate::fmt::{num_to_subscript, num_to_superscript}; use crate::fmt::{num_to_subscript, num_to_superscript};
use crate::poly::flat::{Mono, Poly}; use crate::poly::flat::{Mono, Poly};
use crate::poly::ideal::Ideal;
use crate::poly::var::{StaticVar, Var}; use crate::poly::var::{StaticVar, Var};
impl Display for StaticVar { impl Display for StaticVar {
@@ -44,6 +45,20 @@ impl<V: Var> Display for Poly<V> {
} }
} }
impl<V: Var, S> Display for Ideal<V, S> {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
write!(f, "<")?;
let mut iter = self.generators().iter();
if let Some(first) = iter.next() {
write!(f, "{first}")?;
for p in iter {
write!(f, ", {p}")?;
}
}
write!(f, ">")
}
}
impl<V: Var> Display for Mono<V> { impl<V: Var> Display for Mono<V> {
fn fmt(&self, fmt: &mut fmt::Formatter<'_>) -> Result<(), fmt::Error> { fn fmt(&self, fmt: &mut fmt::Formatter<'_>) -> Result<(), fmt::Error> {
write!( write!(

66
src/poly/ideal.rs Normal file
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@@ -0,0 +1,66 @@
use std::marker::PhantomData;
use super::buchberger;
use super::flat::Poly;
use super::var::Var;
/// Marker: the ideal's generators are arbitrary polynomials.
pub struct Generators;
/// Marker: the ideal's generators form a Gröbner basis.
pub struct GroebnerBasis;
pub struct Ideal<V: Var, S> {
generators: Vec<Poly<V>>,
_state: PhantomData<S>,
}
impl<V: Var> Ideal<V, Generators> {
pub fn new(generators: Vec<Poly<V>>) -> Self {
Ideal {
generators,
_state: PhantomData,
}
}
/// Computes a Gröbner basis for this ideal using Buchberger's algorithm.
pub fn groebner_basis(self) -> Ideal<V, GroebnerBasis> {
Ideal {
generators: buchberger::groebner_basis(self.generators),
_state: PhantomData,
}
}
}
impl<V: Var> Into<Ideal<V, GroebnerBasis>> for Ideal<V, Generators> {
fn into(self) -> Ideal<V, GroebnerBasis> {
self.groebner_basis()
}
}
impl<V: Var> FromIterator<Poly<V>> for Ideal<V, Generators> {
fn from_iter<T: IntoIterator<Item = Poly<V>>>(iter: T) -> Self {
Ideal::new(iter.into_iter().collect())
}
}
impl<V: Var, T: IntoIterator<Item = Poly<V>>> From<T> for Ideal<V, Generators> {
fn from(iter: T) -> Self {
iter.into_iter().collect()
}
}
impl<V: Var, S> Ideal<V, S> {
pub fn generators(&self) -> &[Poly<V>] {
&self.generators
}
}
impl<V: Var> Ideal<V, GroebnerBasis> {
/// Returns `true` if `p` belongs to this ideal.
///
/// Reduces `p` modulo the Gröbner basis; membership holds iff the remainder is zero.
pub fn contains(&self, p: &Poly<V>) -> bool {
buchberger::reduce(p, &self.generators).is_zero()
}
}

1
src/poly/mod.rs
View File

@@ -1,6 +1,7 @@
pub mod buchberger; pub mod buchberger;
pub mod flat; pub mod flat;
pub mod fmt; pub mod fmt;
pub mod ideal;
pub mod ops; pub mod ops;
pub mod var; pub mod var;

85
src/poly/tests.rs
View File

@@ -1,5 +1,6 @@
use super::buchberger::{groebner_basis, is_groebner_basis}; use super::buchberger::{groebner_basis, is_groebner_basis};
use super::flat::{Mono, Poly, lex_cmp}; use super::flat::{Mono, Poly, lex_cmp};
use super::ideal::{Generators, GroebnerBasis, Ideal};
use super::var::StaticVar; use super::var::StaticVar;
#[test] #[test]
@@ -377,3 +378,87 @@ fn test_is_groebner_basis() {
let basis = groebner_basis(vec![f, g]); let basis = groebner_basis(vec![f, g]);
assert!(is_groebner_basis(&basis)); assert!(is_groebner_basis(&basis));
} }
#[test]
fn test_ideal() {
// Construction from Vec and iterator
let f: Poly<StaticVar> = [(1, [("x", 2)])].into();
let g: Poly<StaticVar> = [(1, [("y", 1)])].into();
let ideal = Ideal::new(vec![f.clone(), g.clone()]);
assert_eq!(ideal.generators().len(), 2);
let ideal: Ideal<StaticVar, Generators> = [f.clone(), g.clone()].into_iter().collect();
assert_eq!(ideal.generators().len(), 2);
// Construction via From / .into()
let ideal: Ideal<StaticVar, Generators> = vec![f.clone(), g.clone()].into();
assert_eq!(ideal.generators().len(), 2);
// Display: <x², y>
let ideal = Ideal::new(vec![f, g]);
assert_eq!(ideal.to_string(), "<x\u{00B2}, y>");
// groebner_basis transitions state and result satisfies the criterion
let f: Poly<StaticVar> = [
(1i32, Mono::from([("x", 2u32), ("y", 1u32)])),
(-1i32, Mono::from([("x", 1u32)])),
]
.into_iter()
.collect();
let g: Poly<StaticVar> = [
(1i32, Mono::from([("x", 1u32), ("y", 2u32)])),
(-1i32, Mono::from([("y", 1u32)])),
]
.into_iter()
.collect();
let ideal: Ideal<StaticVar, Generators> = [f, g].into_iter().collect();
let gb: Ideal<StaticVar, GroebnerBasis> = ideal.groebner_basis();
assert!(is_groebner_basis(gb.generators()));
}
#[test]
fn test_groebner_sagemath() {
// I = (x³ - 2xy, x²y - 2y² + x) ⊆ k[x, y]
// grobner basis: {4y³, x - 2y²}
// f1 = x³ - 2xy
let f1: Poly<StaticVar> = [
(1i32, Mono::from([("x", 3u32)])),
(-2i32, Mono::from([("x", 1u32), ("y", 1u32)])),
]
.into_iter()
.collect();
// f2 = x²y - 2y² + x
let f2: Poly<StaticVar> = [
(1i32, Mono::from([("x", 2u32), ("y", 1u32)])),
(-2i32, Mono::from([("y", 2u32)])),
(1i32, Mono::from([("x", 1u32)])),
]
.into_iter()
.collect();
let gb = Ideal::new(vec![f1.clone(), f2.clone()]).groebner_basis();
assert!(is_groebner_basis(gb.generators()));
assert_eq!(gb.generators().len(), 2);
// -x + 2y²
let neg_x_plus_2y2: Poly<StaticVar> = [
(-1i32, Mono::from([("x", 1u32)])),
(2i32, Mono::from([("y", 2u32)])),
]
.into_iter()
.collect();
// -4y³
let neg_4y3: Poly<StaticVar> = [(-4i32, Mono::from([("y", 3u32)]))].into_iter().collect();
let expected = [neg_x_plus_2y2, neg_4y3];
for e in &expected {
assert!(
gb.generators()
.iter()
.any(|a| *a == *e || *a == -1i32 * e.clone())
);
}
}