diff options
Diffstat (limited to 'library/std/src/f32/tests.rs')
| -rw-r--r-- | library/std/src/f32/tests.rs | 78 |
1 files changed, 78 insertions, 0 deletions
diff --git a/library/std/src/f32/tests.rs b/library/std/src/f32/tests.rs index 69fa203ff..4ec16c84a 100644 --- a/library/std/src/f32/tests.rs +++ b/library/std/src/f32/tests.rs @@ -299,6 +299,84 @@ fn test_is_sign_negative() { assert!((-f32::NAN).is_sign_negative()); } +#[allow(unused_macros)] +macro_rules! assert_f32_biteq { + ($left : expr, $right : expr) => { + let l: &f32 = &$left; + let r: &f32 = &$right; + let lb = l.to_bits(); + let rb = r.to_bits(); + assert_eq!(lb, rb, "float {} ({:#x}) is not equal to {} ({:#x})", *l, lb, *r, rb); + }; +} + +// Ignore test on x87 floating point, these platforms do not guarantee NaN +// payloads are preserved and flush denormals to zero, failing the tests. +#[cfg(not(target_arch = "x86"))] +#[test] +fn test_next_up() { + let tiny = f32::from_bits(1); + let tiny_up = f32::from_bits(2); + let max_down = f32::from_bits(0x7f7f_fffe); + let largest_subnormal = f32::from_bits(0x007f_ffff); + let smallest_normal = f32::from_bits(0x0080_0000); + assert_f32_biteq!(f32::NEG_INFINITY.next_up(), f32::MIN); + assert_f32_biteq!(f32::MIN.next_up(), -max_down); + assert_f32_biteq!((-1.0 - f32::EPSILON).next_up(), -1.0); + assert_f32_biteq!((-smallest_normal).next_up(), -largest_subnormal); + assert_f32_biteq!((-tiny_up).next_up(), -tiny); + assert_f32_biteq!((-tiny).next_up(), -0.0f32); + assert_f32_biteq!((-0.0f32).next_up(), tiny); + assert_f32_biteq!(0.0f32.next_up(), tiny); + assert_f32_biteq!(tiny.next_up(), tiny_up); + assert_f32_biteq!(largest_subnormal.next_up(), smallest_normal); + assert_f32_biteq!(1.0f32.next_up(), 1.0 + f32::EPSILON); + assert_f32_biteq!(f32::MAX.next_up(), f32::INFINITY); + assert_f32_biteq!(f32::INFINITY.next_up(), f32::INFINITY); + + // Check that NaNs roundtrip. + let nan0 = f32::NAN; + let nan1 = f32::from_bits(f32::NAN.to_bits() ^ 0x002a_aaaa); + let nan2 = f32::from_bits(f32::NAN.to_bits() ^ 0x0055_5555); + assert_f32_biteq!(nan0.next_up(), nan0); + assert_f32_biteq!(nan1.next_up(), nan1); + assert_f32_biteq!(nan2.next_up(), nan2); +} + +// Ignore test on x87 floating point, these platforms do not guarantee NaN +// payloads are preserved and flush denormals to zero, failing the tests. +#[cfg(not(target_arch = "x86"))] +#[test] +fn test_next_down() { + let tiny = f32::from_bits(1); + let tiny_up = f32::from_bits(2); + let max_down = f32::from_bits(0x7f7f_fffe); + let largest_subnormal = f32::from_bits(0x007f_ffff); + let smallest_normal = f32::from_bits(0x0080_0000); + assert_f32_biteq!(f32::NEG_INFINITY.next_down(), f32::NEG_INFINITY); + assert_f32_biteq!(f32::MIN.next_down(), f32::NEG_INFINITY); + assert_f32_biteq!((-max_down).next_down(), f32::MIN); + assert_f32_biteq!((-1.0f32).next_down(), -1.0 - f32::EPSILON); + assert_f32_biteq!((-largest_subnormal).next_down(), -smallest_normal); + assert_f32_biteq!((-tiny).next_down(), -tiny_up); + assert_f32_biteq!((-0.0f32).next_down(), -tiny); + assert_f32_biteq!((0.0f32).next_down(), -tiny); + assert_f32_biteq!(tiny.next_down(), 0.0f32); + assert_f32_biteq!(tiny_up.next_down(), tiny); + assert_f32_biteq!(smallest_normal.next_down(), largest_subnormal); + assert_f32_biteq!((1.0 + f32::EPSILON).next_down(), 1.0f32); + assert_f32_biteq!(f32::MAX.next_down(), max_down); + assert_f32_biteq!(f32::INFINITY.next_down(), f32::MAX); + + // Check that NaNs roundtrip. + let nan0 = f32::NAN; + let nan1 = f32::from_bits(f32::NAN.to_bits() ^ 0x002a_aaaa); + let nan2 = f32::from_bits(f32::NAN.to_bits() ^ 0x0055_5555); + assert_f32_biteq!(nan0.next_down(), nan0); + assert_f32_biteq!(nan1.next_down(), nan1); + assert_f32_biteq!(nan2.next_down(), nan2); +} + #[test] fn test_mul_add() { let nan: f32 = f32::NAN; |