malachite-nz 0.9.2

The bignum types Natural and Integer, with efficient algorithms partially derived from GMP and FLINT.
Documentation
// Copyright © 2026 Mikhail Hogrefe
//
// This file is part of Malachite.
//
// Malachite is free software: you can redistribute it and/or modify it under the terms of the GNU
// Lesser General Public License (LGPL) as published by the Free Software Foundation; either version
// 3 of the License, or (at your option) any later version. See <https://www.gnu.org/licenses/>.

use malachite_base::num::basic::floats::PrimitiveFloat;
use malachite_base::num::basic::traits::NegativeInfinity;
use malachite_nz::integer::Integer;
use malachite_nz::test_util::generators::{
    integer_gen, integer_integer_primitive_float_triple_gen, integer_primitive_float_pair_gen,
    integer_primitive_float_primitive_float_triple_gen,
};
use rug;
use std::cmp::Ordering::{self, *};
use std::str::FromStr;

#[test]
fn test_partial_cmp_primitive_float() {
    let test = |u, v: f32, out: Option<Ordering>| {
        let out_rev = out.map(Ordering::reverse);
        assert_eq!(Integer::from_str(u).unwrap().partial_cmp(&v), out);
        assert_eq!(rug::Integer::from_str(u).unwrap().partial_cmp(&v), out);

        assert_eq!(v.partial_cmp(&Integer::from_str(u).unwrap()), out_rev);
        assert_eq!(v.partial_cmp(&rug::Integer::from_str(u).unwrap()), out_rev);

        let v = f64::from(v);
        assert_eq!(Integer::from_str(u).unwrap().partial_cmp(&v), out);
        assert_eq!(rug::Integer::from_str(u).unwrap().partial_cmp(&v), out);

        assert_eq!(v.partial_cmp(&Integer::from_str(u).unwrap()), out_rev);
        assert_eq!(v.partial_cmp(&rug::Integer::from_str(u).unwrap()), out_rev);
    };
    test("5", f32::NAN, None);
    test("5", f32::INFINITY, Some(Less));
    test("5", f32::NEGATIVE_INFINITY, Some(Greater));
    test("-5", f32::NAN, None);
    test("-5", f32::INFINITY, Some(Less));
    test("-5", f32::NEGATIVE_INFINITY, Some(Greater));

    test("0", 0.0, Some(Equal));
    test("0", -0.0, Some(Equal));
    test("0", 5.0, Some(Less));
    test("0", -5.0, Some(Greater));
    test("123", 123.0, Some(Equal));
    test("123", 5.0, Some(Greater));
    test("123", -123.0, Some(Greater));
    test("-123", 123.0, Some(Less));
    test("-123", 5.0, Some(Less));
    test("-123", -123.0, Some(Equal));
    test("1000000000000", 123.0, Some(Greater));
    test("-1000000000000", 123.0, Some(Less));

    test("1208925819614629174706175", 1.2089258e24, Some(Less));
    test("1208925819614629174706176", 1.2089258e24, Some(Equal));
    test("1208925819614629174706177", 1.2089258e24, Some(Greater));
    test("1208925819614629174706175", -1.2089258e24, Some(Greater));
    test("1208925819614629174706176", -1.2089258e24, Some(Greater));
    test("1208925819614629174706177", -1.2089258e24, Some(Greater));
    test("-1208925819614629174706175", 1.2089258e24, Some(Less));
    test("-1208925819614629174706176", 1.2089258e24, Some(Less));
    test("-1208925819614629174706177", 1.2089258e24, Some(Less));
    test("-1208925819614629174706175", -1.2089258e24, Some(Greater));
    test("-1208925819614629174706176", -1.2089258e24, Some(Equal));
    test("-1208925819614629174706177", -1.2089258e24, Some(Less));

    test("-117886223846050103296", -1.1788622e20, Some(Equal));
}

#[allow(clippy::trait_duplication_in_bounds)]
fn partial_cmp_primitive_float_properties_helper<
    T: PartialOrd<Integer> + PartialOrd<rug::Integer> + PrimitiveFloat,
>()
where
    Integer: PartialOrd<T>,
    rug::Integer: PartialOrd<T>,
{
    integer_primitive_float_pair_gen::<T>().test_properties(|(n, u)| {
        let cmp = n.partial_cmp(&u);
        assert_eq!(rug::Integer::from(&n).partial_cmp(&u), cmp);

        let cmp_rev = cmp.map(Ordering::reverse);
        assert_eq!(u.partial_cmp(&n), cmp_rev);
        assert_eq!(u.partial_cmp(&rug::Integer::from(&n)), cmp_rev);
    });

    integer_integer_primitive_float_triple_gen::<T>().test_properties(|(n, m, u)| {
        if n < u && u < m {
            assert_eq!(n.cmp(&m), Less);
        } else if n > u && u > m {
            assert_eq!(n.cmp(&m), Greater);
        }
    });

    integer_primitive_float_primitive_float_triple_gen::<T>().test_properties(|(n, u, v)| {
        if u < n && n < v {
            assert!(u < v);
        } else if u > n && n > v {
            assert!(u > v);
        }
    });

    integer_gen().test_properties(|x| {
        assert!(x > T::NEGATIVE_INFINITY);
        assert!(x < T::INFINITY);
    });
}

#[test]
fn partial_cmp_primitive_float_properties() {
    apply_fn_to_primitive_floats!(partial_cmp_primitive_float_properties_helper);
}