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| author | Daniel Baumann <daniel.baumann@progress-linux.org> | 2024-04-28 14:29:10 +0000 |
|---|---|---|
| committer | Daniel Baumann <daniel.baumann@progress-linux.org> | 2024-04-28 14:29:10 +0000 |
| commit | 2aa4a82499d4becd2284cdb482213d541b8804dd (patch) | |
| tree | b80bf8bf13c3766139fbacc530efd0dd9d54394c /third_party/rust/ordered-float/tests/test.rs | |
| parent | Initial commit. (diff) | |
| download | firefox-2aa4a82499d4becd2284cdb482213d541b8804dd.tar.xz firefox-2aa4a82499d4becd2284cdb482213d541b8804dd.zip | |
Adding upstream version 86.0.1.upstream/86.0.1upstream
Signed-off-by: Daniel Baumann <daniel.baumann@progress-linux.org>
Diffstat (limited to 'third_party/rust/ordered-float/tests/test.rs')
| -rw-r--r-- | third_party/rust/ordered-float/tests/test.rs | 532 |
1 files changed, 532 insertions, 0 deletions
diff --git a/third_party/rust/ordered-float/tests/test.rs b/third_party/rust/ordered-float/tests/test.rs new file mode 100644 index 0000000000..195d76af5e --- /dev/null +++ b/third_party/rust/ordered-float/tests/test.rs @@ -0,0 +1,532 @@ +extern crate num_traits; +extern crate ordered_float; + +pub use ordered_float::*; +pub use num_traits::{Bounded, Float, FromPrimitive, Num, One, Signed, ToPrimitive, Zero}; +pub use std::cmp::Ordering::*; +pub use std::{f32, f64, panic}; + +pub use std::collections::hash_map::RandomState; +pub use std::collections::HashSet; +pub use std::hash::*; + +#[test] +fn ordered_f32_compare_regular_floats() { + assert_eq!(OrderedFloat(7.0f32).cmp(&OrderedFloat(7.0)), Equal); + assert_eq!(OrderedFloat(8.0f32).cmp(&OrderedFloat(7.0)), Greater); + assert_eq!(OrderedFloat(4.0f32).cmp(&OrderedFloat(7.0)), Less); +} + +#[test] +fn ordered_f32_compare_regular_floats_op() { + assert!(OrderedFloat(7.0f32) == OrderedFloat(7.0)); + assert!(OrderedFloat(7.0f32) <= OrderedFloat(7.0)); + assert!(OrderedFloat(7.0f32) >= OrderedFloat(7.0)); + assert!(OrderedFloat(8.0f32) > OrderedFloat(7.0)); + assert!(OrderedFloat(8.0f32) >= OrderedFloat(7.0)); + assert!(OrderedFloat(4.0f32) < OrderedFloat(7.0)); + assert!(OrderedFloat(4.0f32) <= OrderedFloat(7.0)); +} + +#[test] +fn ordered_f32_compare_nan() { + let f32_nan: f32 = Float::nan(); + assert_eq!(OrderedFloat(f32_nan).cmp(&OrderedFloat(Float::nan())), Equal); + assert_eq!(OrderedFloat(f32_nan).cmp(&OrderedFloat(-100000.0f32)), Greater); + assert_eq!(OrderedFloat(-100.0f32).cmp(&OrderedFloat(Float::nan())), Less); +} + +#[test] +fn ordered_f32_compare_nan_op() { + let f32_nan: OrderedFloat<f32> = OrderedFloat(Float::nan()); + assert!(f32_nan == f32_nan); + assert!(f32_nan <= f32_nan); + assert!(f32_nan >= f32_nan); + assert!(f32_nan > OrderedFloat(-100000.0f32)); + assert!(f32_nan >= OrderedFloat(-100000.0f32)); + assert!(OrderedFloat(-100.0f32) < f32_nan); + assert!(OrderedFloat(-100.0f32) <= f32_nan); + assert!(f32_nan > OrderedFloat(Float::infinity())); + assert!(f32_nan >= OrderedFloat(Float::infinity())); + assert!(f32_nan > OrderedFloat(Float::neg_infinity())); + assert!(f32_nan >= OrderedFloat(Float::neg_infinity())); +} + +#[test] +fn ordered_f64_compare_regular_floats() { + assert_eq!(OrderedFloat(7.0f64).cmp(&OrderedFloat(7.0)), Equal); + assert_eq!(OrderedFloat(8.0f64).cmp(&OrderedFloat(7.0)), Greater); + assert_eq!(OrderedFloat(4.0f64).cmp(&OrderedFloat(7.0)), Less); +} + +#[test] +fn not_nan32_zero() { + assert_eq!(NotNan::<f32>::zero(), NotNan::from(0.0f32)); + assert!(NotNan::<f32>::zero().is_zero()); +} + +#[test] +fn not_nan32_one() { + assert_eq!(NotNan::<f32>::one(), NotNan::from(1.0f32)) +} + +#[test] +fn not_nan32_bounded() { + assert_eq!(NotNan::<f32>::min_value(), NotNan::from(<f32 as Bounded>::min_value())); + assert_eq!(NotNan::<f32>::max_value(), NotNan::from(<f32 as Bounded>::max_value())); +} + +#[test] +fn not_nan32_from_primitive() { + assert_eq!(NotNan::<f32>::from_i8(42i8), Some(NotNan::from(42.0))); + assert_eq!(NotNan::<f32>::from_u8(42u8), Some(NotNan::from(42.0))); + assert_eq!(NotNan::<f32>::from_i16(42i16), Some(NotNan::from(42.0))); + assert_eq!(NotNan::<f32>::from_u16(42u16), Some(NotNan::from(42.0))); + assert_eq!(NotNan::<f32>::from_i32(42i32), Some(NotNan::from(42.0))); + assert_eq!(NotNan::<f32>::from_u32(42u32), Some(NotNan::from(42.0))); + assert_eq!(NotNan::<f32>::from_i64(42i64), Some(NotNan::from(42.0))); + assert_eq!(NotNan::<f32>::from_u64(42u64), Some(NotNan::from(42.0))); + assert_eq!(NotNan::<f32>::from_isize(42isize), Some(NotNan::from(42.0))); + assert_eq!(NotNan::<f32>::from_usize(42usize), Some(NotNan::from(42.0))); + assert_eq!(NotNan::<f32>::from_f32(42f32), Some(NotNan::from(42.0))); + assert_eq!(NotNan::<f32>::from_f32(42f32), Some(NotNan::from(42.0))); + assert_eq!(NotNan::<f32>::from_f64(42f64), Some(NotNan::from(42.0))); + assert_eq!(NotNan::<f32>::from_f64(42f64), Some(NotNan::from(42.0))); + assert_eq!(NotNan::<f32>::from_f32(Float::nan()), None); + assert_eq!(NotNan::<f32>::from_f64(Float::nan()), None); +} + +#[test] +fn not_nan32_to_primitive() { + let x = NotNan::from(42.0f32); + assert_eq!(x.to_u8(), Some(42u8)); + assert_eq!(x.to_i8(), Some(42i8)); + assert_eq!(x.to_u16(), Some(42u16)); + assert_eq!(x.to_i16(), Some(42i16)); + assert_eq!(x.to_u32(), Some(42u32)); + assert_eq!(x.to_i32(), Some(42i32)); + assert_eq!(x.to_u64(), Some(42u64)); + assert_eq!(x.to_i64(), Some(42i64)); + assert_eq!(x.to_usize(), Some(42usize)); + assert_eq!(x.to_isize(), Some(42isize)); + assert_eq!(x.to_f32(), Some(42f32)); + assert_eq!(x.to_f32(), Some(42f32)); + assert_eq!(x.to_f64(), Some(42f64)); + assert_eq!(x.to_f64(), Some(42f64)); +} + +#[test] +fn not_nan32_num() { + assert_eq!(NotNan::<f32>::from_str_radix("42.0", 10).unwrap(), NotNan::from(42.0f32)); + assert!(NotNan::<f32>::from_str_radix("NaN", 10).is_err()); +} + +#[test] +fn not_nan32_signed() { + assert_eq!(NotNan::from(42f32).abs(), NotNan::from(42f32)); + assert_eq!(NotNan::from(-42f32).abs(), NotNan::from(42f32)); + + assert_eq!(NotNan::from(50f32).abs_sub(&NotNan::from(8f32)), NotNan::from(42f32)); + assert_eq!(NotNan::from(8f32).abs_sub(&NotNan::from(50f32)), NotNan::from(0f32)); +} + +#[test] +fn not_nan32_num_cast() { + assert_eq!(<NotNan<f32> as num_traits::NumCast>::from(42), Some(NotNan::from(42f32))); + assert_eq!(<NotNan<f32> as num_traits::NumCast>::from(f32::nan()), None); +} + +#[test] +fn ordered_f64_compare_nan() { + let f64_nan: f64 = Float::nan(); + assert_eq!( + OrderedFloat(f64_nan).cmp(&OrderedFloat(Float::nan())), + Equal + ); + assert_eq!( + OrderedFloat(f64_nan).cmp(&OrderedFloat(-100000.0f64)), + Greater + ); + assert_eq!( + OrderedFloat(-100.0f64).cmp(&OrderedFloat(Float::nan())), + Less + ); +} + +#[test] +fn ordered_f64_compare_regular_floats_op() { + assert!(OrderedFloat(7.0) == OrderedFloat(7.0)); + assert!(OrderedFloat(7.0) <= OrderedFloat(7.0)); + assert!(OrderedFloat(7.0) >= OrderedFloat(7.0)); + assert!(OrderedFloat(8.0) > OrderedFloat(7.0)); + assert!(OrderedFloat(8.0) >= OrderedFloat(7.0)); + assert!(OrderedFloat(4.0) < OrderedFloat(7.0)); + assert!(OrderedFloat(4.0) <= OrderedFloat(7.0)); +} + +#[test] +fn ordered_f64_compare_nan_op() { + let f64_nan: OrderedFloat<f64> = OrderedFloat(Float::nan()); + assert!(f64_nan == f64_nan); + assert!(f64_nan <= f64_nan); + assert!(f64_nan >= f64_nan); + assert!(f64_nan > OrderedFloat(-100000.0)); + assert!(f64_nan >= OrderedFloat(-100000.0)); + assert!(OrderedFloat(-100.0) < f64_nan); + assert!(OrderedFloat(-100.0) <= f64_nan); + assert!(f64_nan > OrderedFloat(Float::infinity())); + assert!(f64_nan >= OrderedFloat(Float::infinity())); + assert!(f64_nan > OrderedFloat(Float::neg_infinity())); + assert!(f64_nan >= OrderedFloat(Float::neg_infinity())); +} + +#[test] +fn not_nan32_compare_regular_floats() { + assert_eq!(NotNan::from(7.0f32).cmp(&NotNan::from(7.0)), Equal); + assert_eq!(NotNan::from(8.0f32).cmp(&NotNan::from(7.0)), Greater); + assert_eq!(NotNan::from(4.0f32).cmp(&NotNan::from(7.0)), Less); +} + +#[test] +fn not_nan32_fail_when_constructing_with_nan() { + let f32_nan: f32 = Float::nan(); + assert!(NotNan::new(f32_nan).is_err()); +} + +#[test] +fn not_nan32_calculate_correctly() { + assert_eq!( + *(NotNan::from(5.0f32) + NotNan::from(4.0f32)), + 5.0f32 + 4.0f32 + ); + assert_eq!(*(NotNan::from(5.0f32) + 4.0f32), 5.0f32 + 4.0f32); + assert_eq!( + *(NotNan::from(5.0f32) - NotNan::from(4.0f32)), + 5.0f32 - 4.0f32 + ); + assert_eq!(*(NotNan::from(5.0f32) - 4.0f32), 5.0f32 - 4.0f32); + assert_eq!( + *(NotNan::from(5.0f32) * NotNan::from(4.0f32)), + 5.0f32 * 4.0f32 + ); + assert_eq!(*(NotNan::from(5.0f32) * 4.0f32), 5.0f32 * 4.0f32); + assert_eq!( + *(NotNan::from(8.0f32) / NotNan::from(4.0f32)), + 8.0f32 / 4.0f32 + ); + assert_eq!(*(NotNan::from(8.0f32) / 4.0f32), 8.0f32 / 4.0f32); + assert_eq!( + *(NotNan::from(8.0f32) % NotNan::from(4.0f32)), + 8.0f32 % 4.0f32 + ); + assert_eq!(*(NotNan::from(8.0f32) % 4.0f32), 8.0f32 % 4.0f32); + assert_eq!(*(-NotNan::from(1.0f32)), -1.0f32); + + assert!(panic::catch_unwind(|| NotNan::from(0.0f32) + f32::NAN).is_err()); + assert!(panic::catch_unwind(|| NotNan::from(0.0f32) - f32::NAN).is_err()); + assert!(panic::catch_unwind(|| NotNan::from(0.0f32) * f32::NAN).is_err()); + assert!(panic::catch_unwind(|| NotNan::from(0.0f32) / f32::NAN).is_err()); + assert!(panic::catch_unwind(|| NotNan::from(0.0f32) % f32::NAN).is_err()); + + let mut number = NotNan::from(5.0f32); + number += NotNan::from(4.0f32); + assert_eq!(*number, 9.0f32); + number -= NotNan::from(4.0f32); + assert_eq!(*number, 5.0f32); + number *= NotNan::from(4.0f32); + assert_eq!(*number, 20.0f32); + number /= NotNan::from(4.0f32); + assert_eq!(*number, 5.0f32); + number %= NotNan::from(4.0f32); + assert_eq!(*number, 1.0f32); + + number = NotNan::from(5.0f32); + number += 4.0f32; + assert_eq!(*number, 9.0f32); + number -= 4.0f32; + assert_eq!(*number, 5.0f32); + number *= 4.0f32; + assert_eq!(*number, 20.0f32); + number /= 4.0f32; + assert_eq!(*number, 5.0f32); + number %= 4.0f32; + assert_eq!(*number, 1.0f32); + + assert!( + panic::catch_unwind(|| { + let mut tmp = NotNan::from(0.0f32); + tmp += f32::NAN; + }).is_err() + ); + assert!( + panic::catch_unwind(|| { + let mut tmp = NotNan::from(0.0f32); + tmp -= f32::NAN; + }).is_err() + ); + assert!( + panic::catch_unwind(|| { + let mut tmp = NotNan::from(0.0f32); + tmp *= f32::NAN; + }).is_err() + ); + assert!( + panic::catch_unwind(|| { + let mut tmp = NotNan::from(0.0f32); + tmp /= f32::NAN; + }).is_err() + ); + assert!( + panic::catch_unwind(|| { + let mut tmp = NotNan::from(0.0f32); + tmp %= f32::NAN; + }).is_err() + ); +} + +#[test] +fn not_nan64_compare_regular_floats() { + assert_eq!(NotNan::from(7.0f64).cmp(&NotNan::from(7.0)), Equal); + assert_eq!(NotNan::from(8.0f64).cmp(&NotNan::from(7.0)), Greater); + assert_eq!(NotNan::from(4.0f64).cmp(&NotNan::from(7.0)), Less); +} + +#[test] +fn not_nan64_fail_when_constructing_with_nan() { + let f64_nan: f64 = Float::nan(); + assert!(NotNan::new(f64_nan).is_err()); +} + +#[test] +fn not_nan64_calculate_correctly() { + assert_eq!( + *(NotNan::from(5.0f64) + NotNan::from(4.0f64)), + 5.0f64 + 4.0f64 + ); + assert_eq!(*(NotNan::from(5.0f64) + 4.0f64), 5.0f64 + 4.0f64); + assert_eq!( + *(NotNan::from(5.0f64) - NotNan::from(4.0f64)), + 5.0f64 - 4.0f64 + ); + assert_eq!(*(NotNan::from(5.0f64) - 4.0f64), 5.0f64 - 4.0f64); + assert_eq!( + *(NotNan::from(5.0f64) * NotNan::from(4.0f64)), + 5.0f64 * 4.0f64 + ); + assert_eq!(*(NotNan::from(5.0f64) * 4.0f64), 5.0f64 * 4.0f64); + assert_eq!( + *(NotNan::from(8.0f64) / NotNan::from(4.0f64)), + 8.0f64 / 4.0f64 + ); + assert_eq!(*(NotNan::from(8.0f64) / 4.0f64), 8.0f64 / 4.0f64); + assert_eq!( + *(NotNan::from(8.0f64) % NotNan::from(4.0f64)), + 8.0f64 % 4.0f64 + ); + assert_eq!(*(NotNan::from(8.0f64) % 4.0f64), 8.0f64 % 4.0f64); + assert_eq!(*(-NotNan::from(1.0f64)), -1.0f64); + + assert!(panic::catch_unwind(|| NotNan::from(0.0f64) + f64::NAN).is_err()); + assert!(panic::catch_unwind(|| NotNan::from(0.0f64) - f64::NAN).is_err()); + assert!(panic::catch_unwind(|| NotNan::from(0.0f64) * f64::NAN).is_err()); + assert!(panic::catch_unwind(|| NotNan::from(0.0f64) / f64::NAN).is_err()); + assert!(panic::catch_unwind(|| NotNan::from(0.0f64) % f64::NAN).is_err()); + + let mut number = NotNan::from(5.0f64); + number += NotNan::from(4.0f64); + assert_eq!(*number, 9.0f64); + number -= NotNan::from(4.0f64); + assert_eq!(*number, 5.0f64); + number *= NotNan::from(4.0f64); + assert_eq!(*number, 20.0f64); + number /= NotNan::from(4.0f64); + assert_eq!(*number, 5.0f64); + number %= NotNan::from(4.0f64); + assert_eq!(*number, 1.0f64); + + number = NotNan::from(5.0f64); + number += 4.0f64; + assert_eq!(*number, 9.0f64); + number -= 4.0f64; + assert_eq!(*number, 5.0f64); + number *= 4.0f64; + assert_eq!(*number, 20.0f64); + number /= 4.0f64; + assert_eq!(*number, 5.0f64); + number %= 4.0f64; + assert_eq!(*number, 1.0f64); + + assert!( + panic::catch_unwind(|| { + let mut tmp = NotNan::from(0.0f64); + tmp += f64::NAN; + }).is_err() + ); + assert!( + panic::catch_unwind(|| { + let mut tmp = NotNan::from(0.0f64); + tmp -= f64::NAN; + }).is_err() + ); + assert!( + panic::catch_unwind(|| { + let mut tmp = NotNan::from(0.0f64); + tmp *= f64::NAN; + }).is_err() + ); + assert!( + panic::catch_unwind(|| { + let mut tmp = NotNan::from(0.0f64); + tmp /= f64::NAN; + }).is_err() + ); + assert!( + panic::catch_unwind(|| { + let mut tmp = NotNan::from(0.0f64); + tmp %= f64::NAN; + }).is_err() + ); +} + +#[test] +fn not_nan64_zero() { + assert_eq!(NotNan::<f64>::zero(), NotNan::from(0.0f64)); + assert!(NotNan::<f64>::zero().is_zero()); +} + +#[test] +fn not_nan64_one() { + assert_eq!(NotNan::<f64>::one(), NotNan::from(1.0f64)) +} + +#[test] +fn not_nan64_bounded() { + assert_eq!(NotNan::<f64>::min_value(), NotNan::from(<f64 as Bounded>::min_value())); + assert_eq!(NotNan::<f64>::max_value(), NotNan::from(<f64 as Bounded>::max_value())); +} + +#[test] +fn not_nan64_from_primitive() { + assert_eq!(NotNan::<f64>::from_i8(42i8), Some(NotNan::from(42.0))); + assert_eq!(NotNan::<f64>::from_u8(42u8), Some(NotNan::from(42.0))); + assert_eq!(NotNan::<f64>::from_i16(42i16), Some(NotNan::from(42.0))); + assert_eq!(NotNan::<f64>::from_u16(42u16), Some(NotNan::from(42.0))); + assert_eq!(NotNan::<f64>::from_i32(42i32), Some(NotNan::from(42.0))); + assert_eq!(NotNan::<f64>::from_u32(42u32), Some(NotNan::from(42.0))); + assert_eq!(NotNan::<f64>::from_i64(42i64), Some(NotNan::from(42.0))); + assert_eq!(NotNan::<f64>::from_u64(42u64), Some(NotNan::from(42.0))); + assert_eq!(NotNan::<f64>::from_isize(42isize), Some(NotNan::from(42.0))); + assert_eq!(NotNan::<f64>::from_usize(42usize), Some(NotNan::from(42.0))); + assert_eq!(NotNan::<f64>::from_f64(42f64), Some(NotNan::from(42.0))); + assert_eq!(NotNan::<f64>::from_f64(42f64), Some(NotNan::from(42.0))); + assert_eq!(NotNan::<f64>::from_f64(42f64), Some(NotNan::from(42.0))); + assert_eq!(NotNan::<f64>::from_f64(42f64), Some(NotNan::from(42.0))); + assert_eq!(NotNan::<f64>::from_f64(Float::nan()), None); + assert_eq!(NotNan::<f64>::from_f64(Float::nan()), None); +} + +#[test] +fn not_nan64_to_primitive() { + let x = NotNan::from(42.0f64); + assert_eq!(x.to_u8(), Some(42u8)); + assert_eq!(x.to_i8(), Some(42i8)); + assert_eq!(x.to_u16(), Some(42u16)); + assert_eq!(x.to_i16(), Some(42i16)); + assert_eq!(x.to_u32(), Some(42u32)); + assert_eq!(x.to_i32(), Some(42i32)); + assert_eq!(x.to_u64(), Some(42u64)); + assert_eq!(x.to_i64(), Some(42i64)); + assert_eq!(x.to_usize(), Some(42usize)); + assert_eq!(x.to_isize(), Some(42isize)); + assert_eq!(x.to_f64(), Some(42f64)); + assert_eq!(x.to_f64(), Some(42f64)); + assert_eq!(x.to_f64(), Some(42f64)); + assert_eq!(x.to_f64(), Some(42f64)); +} + +#[test] +fn not_nan64_num() { + assert_eq!(NotNan::<f64>::from_str_radix("42.0", 10).unwrap(), NotNan::from(42.0f64)); + assert!(NotNan::<f64>::from_str_radix("NaN", 10).is_err()); +} + +#[test] +fn not_nan64_signed() { + assert_eq!(NotNan::from(42f64).abs(), NotNan::from(42f64)); + assert_eq!(NotNan::from(-42f64).abs(), NotNan::from(42f64)); + + assert_eq!(NotNan::from(50f64).abs_sub(&NotNan::from(8f64)), NotNan::from(42f64)); + assert_eq!(NotNan::from(8f64).abs_sub(&NotNan::from(50f64)), NotNan::from(0f64)); +} + +#[test] +fn not_nan64_num_cast() { + assert_eq!(<NotNan<f64> as num_traits::NumCast>::from(42), Some(NotNan::from(42f64))); + assert_eq!(<NotNan<f64> as num_traits::NumCast>::from(f64::nan()), None); +} + +#[test] +fn hash_zero_and_neg_zero_to_the_same_hc() { + let state = RandomState::new(); + let mut h1 = state.build_hasher(); + let mut h2 = state.build_hasher(); + OrderedFloat::from(0f64).hash(&mut h1); + OrderedFloat::from(-0f64).hash(&mut h2); + assert_eq!(h1.finish(), h2.finish()); +} + +#[test] +fn hash_inf_and_neg_inf_to_different_hcs() { + let state = RandomState::new(); + let mut h1 = state.build_hasher(); + let mut h2 = state.build_hasher(); + OrderedFloat::from(f64::INFINITY).hash(&mut h1); + OrderedFloat::from(f64::NEG_INFINITY).hash(&mut h2); + assert!(h1.finish() != h2.finish()); +} + +#[test] +fn hash_is_good_for_whole_numbers() { + let state = RandomState::new(); + let limit = 10000; + + let mut set = ::std::collections::HashSet::with_capacity(limit); + for i in 0..limit { + let mut h = state.build_hasher(); + OrderedFloat::from(i as f64).hash(&mut h); + set.insert(h.finish()); + } + + // This allows 100 collisions, which is far too + // many, but should guard against transient issues + // that will result from using RandomState + let pct_unique = set.len() as f64 / limit as f64; + assert!(0.99f64 < pct_unique, "percent-unique={}", pct_unique); +} + +#[test] +fn hash_is_good_for_fractional_numbers() { + let state = RandomState::new(); + let limit = 10000; + + let mut set = ::std::collections::HashSet::with_capacity(limit); + for i in 0..limit { + let mut h = state.build_hasher(); + OrderedFloat::from(i as f64 * (1f64 / limit as f64)).hash(&mut h); + set.insert(h.finish()); + } + + // This allows 100 collisions, which is far too + // many, but should guard against transient issues + // that will result from using RandomState + let pct_unique = set.len() as f64 / limit as f64; + assert!(0.99f64 < pct_unique, "percent-unique={}", pct_unique); +} + +#[test] +#[should_panic] +fn test_add_fails_on_nan() { + let a = NotNan::new(std::f32::INFINITY).unwrap(); + let b = NotNan::new(std::f32::NEG_INFINITY).unwrap(); + let _c = a + b; +} |