// run-pass // Test half-open range patterns against their expression equivalents // via `.contains(...)` and make sure the dynamic semantics match. #![feature(half_open_range_patterns)] #![feature(exclusive_range_pattern)] #![allow(illegal_floating_point_literal_pattern)] #![allow(unreachable_patterns)] macro_rules! yes { ($scrutinee:expr, $($t:tt)+) => { { let m = match $scrutinee { $($t)+ => true, _ => false, }; let c = ($($t)+).contains(&$scrutinee); assert_eq!(m, c); m } } } fn range_to_inclusive() { // `..=X` (`RangeToInclusive`-equivalent): //--------------------------------------- // u8; `..=X` assert!(yes!(u8::MIN, ..=u8::MIN)); assert!(yes!(u8::MIN, ..=5)); assert!(yes!(5u8, ..=5)); assert!(!yes!(6u8, ..=5)); // i16; `..=X` assert!(yes!(i16::MIN, ..=i16::MIN)); assert!(yes!(i16::MIN, ..=0)); assert!(yes!(i16::MIN, ..=-5)); assert!(yes!(-5, ..=-5)); assert!(!yes!(-4, ..=-5)); // char; `..=X` assert!(yes!('\u{0}', ..='\u{0}')); assert!(yes!('\u{0}', ..='a')); assert!(yes!('a', ..='a')); assert!(!yes!('b', ..='a')); // f32; `..=X` assert!(yes!(f32::NEG_INFINITY, ..=f32::NEG_INFINITY)); assert!(yes!(f32::NEG_INFINITY, ..=1.0f32)); assert!(yes!(1.5f32, ..=1.5f32)); assert!(!yes!(1.6f32, ..=-1.5f32)); // f64; `..=X` assert!(yes!(f64::NEG_INFINITY, ..=f64::NEG_INFINITY)); assert!(yes!(f64::NEG_INFINITY, ..=1.0f64)); assert!(yes!(1.5f64, ..=1.5f64)); assert!(!yes!(1.6f64, ..=-1.5f64)); } fn range_to() { // `..X` (`RangeTo`-equivalent): //----------------------------- // u8; `..X` assert!(yes!(0u8, ..1)); assert!(yes!(0u8, ..5)); assert!(!yes!(5u8, ..5)); assert!(!yes!(6u8, ..5)); // u8; `..X` const NU8: u8 = u8::MIN + 1; assert!(yes!(u8::MIN, ..NU8)); assert!(yes!(0u8, ..5)); assert!(!yes!(5u8, ..5)); assert!(!yes!(6u8, ..5)); // i16; `..X` const NI16: i16 = i16::MIN + 1; assert!(yes!(i16::MIN, ..NI16)); assert!(yes!(i16::MIN, ..5)); assert!(yes!(-6, ..-5)); assert!(!yes!(-5, ..-5)); // char; `..X` assert!(yes!('\u{0}', ..'\u{1}')); assert!(yes!('\u{0}', ..'a')); assert!(yes!('a', ..'b')); assert!(!yes!('a', ..'a')); assert!(!yes!('b', ..'a')); // f32; `..X` assert!(yes!(f32::NEG_INFINITY, ..1.0f32)); assert!(!yes!(1.5f32, ..1.5f32)); const E32: f32 = 1.5f32 + f32::EPSILON; assert!(yes!(1.5f32, ..E32)); assert!(!yes!(1.6f32, ..1.5f32)); // f64; `..X` assert!(yes!(f64::NEG_INFINITY, ..1.0f64)); assert!(!yes!(1.5f64, ..1.5f64)); const E64: f64 = 1.5f64 + f64::EPSILON; assert!(yes!(1.5f64, ..E64)); assert!(!yes!(1.6f64, ..1.5f64)); } fn range_from() { // `X..` (`RangeFrom`-equivalent): //-------------------------------- // u8; `X..` assert!(yes!(u8::MIN, u8::MIN..)); assert!(yes!(u8::MAX, u8::MIN..)); assert!(!yes!(u8::MIN, 1..)); assert!(!yes!(4, 5..)); assert!(yes!(5, 5..)); assert!(yes!(6, 5..)); assert!(yes!(u8::MAX, u8::MAX..)); // i16; `X..` assert!(yes!(i16::MIN, i16::MIN..)); assert!(yes!(i16::MAX, i16::MIN..)); const NI16: i16 = i16::MIN + 1; assert!(!yes!(i16::MIN, NI16..)); assert!(!yes!(-4, 5..)); assert!(yes!(-4, -4..)); assert!(yes!(-3, -4..)); assert!(yes!(i16::MAX, i16::MAX..)); // char; `X..` assert!(yes!('\u{0}', '\u{0}'..)); assert!(yes!(core::char::MAX, '\u{0}'..)); assert!(yes!('a', 'a'..)); assert!(yes!('b', 'a'..)); assert!(!yes!('a', 'b'..)); assert!(yes!(core::char::MAX, core::char::MAX..)); // f32; `X..` assert!(yes!(f32::NEG_INFINITY, f32::NEG_INFINITY..)); assert!(yes!(f32::INFINITY, f32::NEG_INFINITY..)); assert!(!yes!(f32::NEG_INFINITY, 1.0f32..)); assert!(yes!(f32::INFINITY, 1.0f32..)); assert!(!yes!(1.0f32 - f32::EPSILON, 1.0f32..)); assert!(yes!(1.0f32, 1.0f32..)); assert!(yes!(f32::INFINITY, 1.0f32..)); assert!(yes!(f32::INFINITY, f32::INFINITY..)); // f64; `X..` assert!(yes!(f64::NEG_INFINITY, f64::NEG_INFINITY..)); assert!(yes!(f64::INFINITY, f64::NEG_INFINITY..)); assert!(!yes!(f64::NEG_INFINITY, 1.0f64..)); assert!(yes!(f64::INFINITY, 1.0f64..)); assert!(!yes!(1.0f64 - f64::EPSILON, 1.0f64..)); assert!(yes!(1.0f64, 1.0f64..)); assert!(yes!(f64::INFINITY, 1.0f64..)); assert!(yes!(f64::INFINITY, f64::INFINITY..)); } fn main() { range_to_inclusive(); range_to(); range_from(); }