int_ranges

simple ranges tools for integer

```rust use int_ranges::{wrap,Ranges}; let arr = vec![(1, 10), (30, 100), (11, 20)]; let ranges: Vec<(i32, i32)> = Ranges::from(arr.clone()).into();

assert_eq!(ranges, [(1, 20), (30, 100)]);

let ranges: Vec<(i32, i32)> = Ranges::from(arr.clone()).invert().into();
assert_eq!(ranges, [(i32::MIN, 0), (21, 29), (101, i32::MAX)]);

assert_eq!(Ranges::<i32>::empty(), Ranges::<i32>::full().invert());
assert_eq!(Ranges::<i32>::empty().invert(), Ranges::<i32>::full());
assert_eq!(
    Ranges::from(vec![(1i32, 10)]).union(vec![(11i32, 20)]),
    Ranges::from(vec![wrap(1i32..=20)])
);
assert_eq!(
    Ranges::from(vec![(1i32, 10)]).intersect(vec![(11i32, 20)]),
    Ranges::empty()
);

assert_eq!(
    Ranges::from(vec![(1i32, 11)]).intersect(vec![(11i32, 20)]),
    Ranges::from(vec![(11i32,11)])
);

assert_eq!(
    Ranges::from(vec![(1i32, 15)]).intersect(vec![(11i32, 20)]),
    Ranges::from(vec![(11i32,15)])
);

assert_eq!(
    Ranges::from(vec![(1i32, 9)]).intersect(vec![(11i32, 20)]),
    Ranges::empty()
);

assert_eq!(
    Ranges::from(vec![(1i32, 10)]).contains(vec![(11i32, 20)]),
    false
);

assert_eq!(
    Ranges::from(vec![(1i32, 11)]).contains(vec![(11i32, 20)]),
    true
);

```