//! Tests for the `Integer::{ilog,log2,log10}` methods. #[test] fn checked_ilog() { assert_eq!(999u32.checked_ilog(10), Some(2)); assert_eq!(1000u32.checked_ilog(10), Some(3)); assert_eq!(555u32.checked_ilog(13), Some(2)); assert_eq!(63u32.checked_ilog(4), Some(2)); assert_eq!(64u32.checked_ilog(4), Some(3)); assert_eq!(10460353203u64.checked_ilog(3), Some(21)); assert_eq!(10460353202u64.checked_ilog(3), Some(20)); assert_eq!(147808829414345923316083210206383297601u128.checked_ilog(3), Some(80)); assert_eq!(147808829414345923316083210206383297600u128.checked_ilog(3), Some(79)); assert_eq!(22528399544939174411840147874772641u128.checked_ilog(19683), Some(8)); assert_eq!(22528399544939174411840147874772631i128.checked_ilog(19683), Some(7)); assert_eq!(0u8.checked_ilog(4), None); assert_eq!(0u16.checked_ilog(4), None); assert_eq!(0i8.checked_ilog(4), None); assert_eq!(0i16.checked_ilog(4), None); #[cfg(not(miri))] // Miri is too slow for i in i16::MIN..=0 { assert_eq!(i.checked_ilog(4), None, "checking {i}"); } #[cfg(not(miri))] // Miri is too slow for i in 1..=i16::MAX { assert_eq!(i.checked_ilog(13), Some((i as f32).log(13.0) as u32), "checking {i}"); } #[cfg(not(miri))] // Miri is too slow for i in 1..=u16::MAX { assert_eq!(i.checked_ilog(13), Some((i as f32).log(13.0) as u32), "checking {i}"); } } #[test] fn checked_ilog2() { assert_eq!(5u32.checked_ilog2(), Some(2)); assert_eq!(0u64.checked_ilog2(), None); assert_eq!(128i32.checked_ilog2(), Some(7)); assert_eq!((-55i16).checked_ilog2(), None); assert_eq!(0u8.checked_ilog2(), None); assert_eq!(0u16.checked_ilog2(), None); assert_eq!(0i8.checked_ilog2(), None); assert_eq!(0i16.checked_ilog2(), None); assert_eq!(8192u16.checked_ilog2(), Some((8192f32).log2() as u32)); assert_eq!(32768u16.checked_ilog2(), Some((32768f32).log2() as u32)); assert_eq!(8192i16.checked_ilog2(), Some((8192f32).log2() as u32)); for i in 1..=u8::MAX { assert_eq!(i.checked_ilog2(), Some((i as f32).log2() as u32), "checking {i}"); } #[cfg(not(miri))] // Miri is too slow for i in 1..=u16::MAX { // Guard against Android's imprecise f32::ilog2 implementation. if i != 8192 && i != 32768 { assert_eq!(i.checked_ilog2(), Some((i as f32).log2() as u32), "checking {i}"); } } for i in i8::MIN..=0 { assert_eq!(i.checked_ilog2(), None, "checking {i}"); } for i in 1..=i8::MAX { assert_eq!(i.checked_ilog2(), Some((i as f32).log2() as u32), "checking {i}"); } #[cfg(not(miri))] // Miri is too slow for i in i16::MIN..=0 { assert_eq!(i.checked_ilog2(), None, "checking {i}"); } #[cfg(not(miri))] // Miri is too slow for i in 1..=i16::MAX { // Guard against Android's imprecise f32::ilog2 implementation. if i != 8192 { assert_eq!(i.checked_ilog2(), Some((i as f32).log2() as u32), "checking {i}"); } } } #[test] fn checked_ilog10() { assert_eq!(0u8.checked_ilog10(), None); assert_eq!(0u16.checked_ilog10(), None); assert_eq!(0i8.checked_ilog10(), None); assert_eq!(0i16.checked_ilog10(), None); #[cfg(not(miri))] // Miri is too slow for i in i16::MIN..=0 { assert_eq!(i.checked_ilog10(), None, "checking {i}"); } #[cfg(not(miri))] // Miri is too slow for i in 1..=i16::MAX { assert_eq!(i.checked_ilog10(), Some((i as f32).log10() as u32), "checking {i}"); } #[cfg(not(miri))] // Miri is too slow for i in 1..=u16::MAX { assert_eq!(i.checked_ilog10(), Some((i as f32).log10() as u32), "checking {i}"); } #[cfg(not(miri))] // Miri is too slow for i in 1..=100_000u32 { assert_eq!(i.checked_ilog10(), Some((i as f32).log10() as u32), "checking {i}"); } } macro_rules! ilog10_loop { ($T:ty, $ilog10_max:expr) => { assert_eq!(<$T>::MAX.ilog10(), $ilog10_max); for i in 0..=$ilog10_max { let p = (10 as $T).pow(i as u32); if p >= 10 { assert_eq!((p - 9).ilog10(), i - 1); assert_eq!((p - 1).ilog10(), i - 1); } assert_eq!(p.ilog10(), i); assert_eq!((p + 1).ilog10(), i); if p >= 10 { assert_eq!((p + 9).ilog10(), i); } // also check `x.ilog(10)` if p >= 10 { assert_eq!((p - 9).ilog(10), i - 1); assert_eq!((p - 1).ilog(10), i - 1); } assert_eq!(p.ilog(10), i); assert_eq!((p + 1).ilog(10), i); if p >= 10 { assert_eq!((p + 9).ilog(10), i); } } }; } #[test] fn ilog10_u8() { ilog10_loop! { u8, 2 } } #[test] fn ilog10_u16() { ilog10_loop! { u16, 4 } } #[test] fn ilog10_u32() { ilog10_loop! { u32, 9 } } #[test] fn ilog10_u64() { ilog10_loop! { u64, 19 } } #[test] fn ilog10_u128() { ilog10_loop! { u128, 38 } } #[test] #[should_panic(expected = "argument of integer logarithm must be positive")] fn ilog2_of_0_panic() { let _ = 0u32.ilog2(); } #[test] #[should_panic(expected = "argument of integer logarithm must be positive")] fn ilog10_of_0_panic() { let _ = 0u32.ilog10(); } #[test] #[should_panic(expected = "argument of integer logarithm must be positive")] fn ilog3_of_0_panic() { let _ = 0u32.ilog(3); } #[test] #[should_panic(expected = "base of integer logarithm must be at least 2")] fn ilog0_of_1_panic() { let _ = 1u32.ilog(0); } #[test] #[should_panic(expected = "base of integer logarithm must be at least 2")] fn ilog1_of_1_panic() { let _ = 1u32.ilog(1); }