-use core::ops::{Bound, Range, RangeFull, RangeFrom, RangeTo, RangeInclusive};
+use core::ops::{Bound, Range, RangeFrom, RangeFull, RangeInclusive, RangeTo};
// Test the Range structs without the syntactic sugar.
assert_eq!(r.next(), None);
}
-
#[test]
fn test_range_is_empty() {
use core::f32::*;
- assert!(!(0.0 .. 10.0).is_empty());
- assert!( (-0.0 .. 0.0).is_empty());
- assert!( (10.0 .. 0.0).is_empty());
+ assert!(!(0.0..10.0).is_empty());
+ assert!((-0.0..0.0).is_empty());
+ assert!((10.0..0.0).is_empty());
- assert!(!(NEG_INFINITY .. INFINITY).is_empty());
- assert!( (EPSILON .. NAN).is_empty());
- assert!( (NAN .. EPSILON).is_empty());
- assert!( (NAN .. NAN).is_empty());
+ assert!(!(NEG_INFINITY..INFINITY).is_empty());
+ assert!((EPSILON..NAN).is_empty());
+ assert!((NAN..EPSILON).is_empty());
+ assert!((NAN..NAN).is_empty());
- assert!(!(0.0 ..= 10.0).is_empty());
- assert!(!(-0.0 ..= 0.0).is_empty());
- assert!( (10.0 ..= 0.0).is_empty());
+ assert!(!(0.0..=10.0).is_empty());
+ assert!(!(-0.0..=0.0).is_empty());
+ assert!((10.0..=0.0).is_empty());
- assert!(!(NEG_INFINITY ..= INFINITY).is_empty());
- assert!( (EPSILON ..= NAN).is_empty());
- assert!( (NAN ..= EPSILON).is_empty());
- assert!( (NAN ..= NAN).is_empty());
+ assert!(!(NEG_INFINITY..=INFINITY).is_empty());
+ assert!((EPSILON..=NAN).is_empty());
+ assert!((NAN..=EPSILON).is_empty());
+ assert!((NAN..=NAN).is_empty());
}
#[test]