int-interval 0.8.1

A small, no_std half-open interval algebra library for primitive integer types.
Documentation 
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// -----------------------------------------------------------------------------
// @generated by xtask/codegen (unsigned)
// DO NOT EDIT MANUALLY.
// Changes will be overwritten.
// -----------------------------------------------------------------------------

use super::*;

mod about_midpoint {
    use super::*;

    mod unit_tests {
        use super::*;

        fn span(lo: u16, hi: u16) -> U16CO {
            U16CO::try_new(lo, hi).unwrap()
        }

        #[test]
        fn midpoint_basic() {
            let iv = span(10, 20);
            assert_eq!(iv.midpoint(), 15);

            let iv2 = span(0, 2);
            assert_eq!(iv2.midpoint(), 1);

            let iv3 = span(0, u16::MAX);
            assert_eq!(iv3.midpoint(), (0 + ((u16::MAX - 0) / 2)));
        }

        #[test]
        fn checked_from_midpoint_len_basic() {
            let mid = 10;
            let len = 5;
            let iv = U16CO::checked_from_midpoint_len(mid, len).unwrap();
            assert_eq!(iv.len(), len);
            assert_eq!(iv.midpoint(), mid);

            // len=0 returns None
            assert!(U16CO::checked_from_midpoint_len(mid, 0).is_none());

            // overflow start returns None
            assert!(U16CO::checked_from_midpoint_len(0, 5).is_none());

            // overflow end returns None
            assert!(U16CO::checked_from_midpoint_len(u16::MAX, 10).is_none());
        }

        #[test]
        fn saturating_from_midpoint_len_basic() {
            let mid = 10;
            let len = 5;
            let iv = U16CO::saturating_from_midpoint_len(mid, len).unwrap();
            assert_eq!(iv.len(), len);
            assert_eq!(iv.midpoint(), mid);

            // len=0 returns None
            assert!(U16CO::saturating_from_midpoint_len(mid, 0).is_none());

            // saturating start
            let iv2 = U16CO::saturating_from_midpoint_len(0, 5).unwrap();
            assert_eq!(iv2.start(), 0);
            assert_eq!(iv2.len(), 5);

            // saturating end
            let iv3 = U16CO::saturating_from_midpoint_len(u16::MAX, 10).unwrap();
            assert!(iv3.end_excl() <= u16::MAX);
        }
    }

    mod prop_tests {
        use std::{vec, vec::Vec};

        use super::*;
        use proptest::prelude::*;

        fn edge_values() -> Vec<u16> {
            let mut v = vec![u16::MIN, u16::MAX, 0, 1];
            if u16::MIN < u16::MAX {
                v.push(u16::MIN.saturating_add(1));
                v.push(u16::MAX.saturating_sub(1));
            }
            v.sort_unstable();
            v.dedup();
            v
        }

        fn edge_scalar() -> impl Strategy<Value = u16> {
            prop::sample::select(edge_values())
        }

        fn mixed_scalar() -> impl Strategy<Value = u16> {
            prop_oneof! {
                3 => edge_scalar(),
                7 => any::<u16>(),
            }
        }

        proptest! {
            #[test]
            fn midpoint_rounds_down(x in mixed_scalar(), y in mixed_scalar()) {
                let lo = x.min(y);
                let hi = x.max(y).saturating_add(1); // ensure non-empty
                if let Some(iv) = U16CO::try_new(lo, hi) {
                    let mp = iv.midpoint();
                    // midpoint in interval and closer to start
                    prop_assert!(mp >= iv.start() && mp <= iv.end_incl());
                    prop_assert_eq!(mp, iv.start() + (iv.len() / 2));
                }
            }

            #[test]
            fn checked_from_midpoint_len_inverse(mid in mixed_scalar(), len in 1u16..20) {
                if let Some(iv) = U16CO::checked_from_midpoint_len(mid, len) {
                    prop_assert_eq!(iv.len(), len);
                    prop_assert_eq!(iv.midpoint(), mid);
                }
            }

            #[test]
            fn saturating_from_midpoint_len_safety(mid in mixed_scalar(), len in 1u16..20) {
                if let Some(iv) = U16CO::saturating_from_midpoint_len(mid, len) {
                    // start < end_excl invariant
                    prop_assert!(iv.start() < iv.end_excl());
                    prop_assert_eq!(iv.midpoint(), iv.start() + (iv.len()/2));
                }
            }
        }
    }
}