use core::cmp::PartialEq; use core::convert::{TryFrom, TryInto}; use core::fmt::Debug; use core::marker::Copy; use core::num::{can_not_overflow, IntErrorKind, ParseIntError, TryFromIntError}; use core::ops::{Add, Div, Mul, Rem, Sub}; use core::option::Option; use core::option::Option::None; use core::str::FromStr; #[macro_use] mod int_macros; mod i128; mod i16; mod i32; mod i64; mod i8; #[macro_use] mod uint_macros; mod u128; mod u16; mod u32; mod u64; mod u8; mod bignum; mod const_from; mod dec2flt; mod flt2dec; mod int_log; mod ops; mod wrapping; mod ieee754; mod nan; /// Adds the attribute to all items in the block. macro_rules! cfg_block { ($(#[$attr:meta]{$($it:item)*})*) => {$($( #[$attr] $it )*)*} } /// Groups items that assume the pointer width is either 16/32/64, and has to be altered if /// support for larger/smaller pointer widths are added in the future. macro_rules! assume_usize_width { {$($it:item)*} => {#[cfg(not(any( target_pointer_width = "16", target_pointer_width = "32", target_pointer_width = "64")))] compile_error!("The current tests of try_from on usize/isize assume that \ the pointer width is either 16, 32, or 64"); $($it)* } } /// Helper function for testing numeric operations pub fn test_num(ten: T, two: T) where T: PartialEq + Add + Sub + Mul + Div + Rem + Debug + Copy, { assert_eq!(ten.add(two), ten + two); assert_eq!(ten.sub(two), ten - two); assert_eq!(ten.mul(two), ten * two); assert_eq!(ten.div(two), ten / two); assert_eq!(ten.rem(two), ten % two); } /// Helper function for asserting number parsing returns a specific error fn test_parse(num_str: &str, expected: Result) where T: FromStr, Result: PartialEq + Debug, { assert_eq!(num_str.parse::().map_err(|e| e.kind().clone()), expected) } #[test] fn from_str_issue7588() { let u: Option = u8::from_str_radix("1000", 10).ok(); assert_eq!(u, None); let s: Option = i16::from_str_radix("80000", 10).ok(); assert_eq!(s, None); } #[test] fn test_int_from_str_overflow() { test_parse::("127", Ok(127)); test_parse::("128", Err(IntErrorKind::PosOverflow)); test_parse::("-128", Ok(-128)); test_parse::("-129", Err(IntErrorKind::NegOverflow)); test_parse::("32767", Ok(32_767)); test_parse::("32768", Err(IntErrorKind::PosOverflow)); test_parse::("-32768", Ok(-32_768)); test_parse::("-32769", Err(IntErrorKind::NegOverflow)); test_parse::("2147483647", Ok(2_147_483_647)); test_parse::("2147483648", Err(IntErrorKind::PosOverflow)); test_parse::("-2147483648", Ok(-2_147_483_648)); test_parse::("-2147483649", Err(IntErrorKind::NegOverflow)); test_parse::("9223372036854775807", Ok(9_223_372_036_854_775_807)); test_parse::("9223372036854775808", Err(IntErrorKind::PosOverflow)); test_parse::("-9223372036854775808", Ok(-9_223_372_036_854_775_808)); test_parse::("-9223372036854775809", Err(IntErrorKind::NegOverflow)); } #[test] fn test_can_not_overflow() { fn can_overflow(radix: u32, input: &str) -> bool where T: std::convert::TryFrom, { !can_not_overflow::(radix, T::try_from(-1_i8).is_ok(), input.as_bytes()) } // Positive tests: assert!(!can_overflow::(16, "F")); assert!(!can_overflow::(16, "FF")); assert!(!can_overflow::(10, "9")); assert!(!can_overflow::(10, "99")); // Negative tests: // Not currently in std lib (issue: #27728) fn format_radix(mut x: T, radix: T) -> String where T: std::ops::Rem, T: std::ops::Div, T: std::cmp::PartialEq, T: std::default::Default, T: Copy, T: Default, u32: TryFrom, { let mut result = vec![]; loop { let m = x % radix; x = x / radix; result.push( std::char::from_digit(m.try_into().ok().unwrap(), radix.try_into().ok().unwrap()) .unwrap(), ); if x == T::default() { break; } } result.into_iter().rev().collect() } macro_rules! check { ($($t:ty)*) => ($( for base in 2..=36 { let num = (<$t>::MAX as u128) + 1; // Calcutate the string length for the smallest overflowing number: let max_len_string = format_radix(num, base as u128); // Ensure that string length is deemed to potentially overflow: assert!(can_overflow::<$t>(base, &max_len_string)); } )*) } check! { i8 i16 i32 i64 i128 isize usize u8 u16 u32 u64 } // Check u128 separately: for base in 2..=36 { let num = u128::MAX as u128; let max_len_string = format_radix(num, base as u128); // base 16 fits perfectly for u128 and won't overflow: assert_eq!(can_overflow::(base, &max_len_string), base != 16); } } #[test] fn test_leading_plus() { test_parse::("+127", Ok(127)); test_parse::("+9223372036854775807", Ok(9223372036854775807)); } #[test] fn test_invalid() { test_parse::("--129", Err(IntErrorKind::InvalidDigit)); test_parse::("++129", Err(IntErrorKind::InvalidDigit)); test_parse::("Съешь", Err(IntErrorKind::InvalidDigit)); test_parse::("123Hello", Err(IntErrorKind::InvalidDigit)); test_parse::("--", Err(IntErrorKind::InvalidDigit)); test_parse::("-", Err(IntErrorKind::InvalidDigit)); test_parse::("+", Err(IntErrorKind::InvalidDigit)); test_parse::("-1", Err(IntErrorKind::InvalidDigit)); } #[test] fn test_empty() { test_parse::("", Err(IntErrorKind::Empty)); } #[test] fn test_infallible_try_from_int_error() { let func = |x: i8| -> Result { Ok(x.try_into()?) }; assert!(func(0).is_ok()); } macro_rules! test_impl_from { ($fn_name:ident, bool, $target: ty) => { #[test] fn $fn_name() { let one: $target = 1; let zero: $target = 0; assert_eq!(one, <$target>::from(true)); assert_eq!(zero, <$target>::from(false)); } }; ($fn_name: ident, $Small: ty, $Large: ty) => { #[test] fn $fn_name() { let small_max = <$Small>::MAX; let small_min = <$Small>::MIN; let large_max: $Large = small_max.into(); let large_min: $Large = small_min.into(); assert_eq!(large_max as $Small, small_max); assert_eq!(large_min as $Small, small_min); } }; } // Unsigned -> Unsigned test_impl_from! { test_u8u16, u8, u16 } test_impl_from! { test_u8u32, u8, u32 } test_impl_from! { test_u8u64, u8, u64 } test_impl_from! { test_u8usize, u8, usize } test_impl_from! { test_u16u32, u16, u32 } test_impl_from! { test_u16u64, u16, u64 } test_impl_from! { test_u32u64, u32, u64 } // Signed -> Signed test_impl_from! { test_i8i16, i8, i16 } test_impl_from! { test_i8i32, i8, i32 } test_impl_from! { test_i8i64, i8, i64 } test_impl_from! { test_i8isize, i8, isize } test_impl_from! { test_i16i32, i16, i32 } test_impl_from! { test_i16i64, i16, i64 } test_impl_from! { test_i32i64, i32, i64 } // Unsigned -> Signed test_impl_from! { test_u8i16, u8, i16 } test_impl_from! { test_u8i32, u8, i32 } test_impl_from! { test_u8i64, u8, i64 } test_impl_from! { test_u16i32, u16, i32 } test_impl_from! { test_u16i64, u16, i64 } test_impl_from! { test_u32i64, u32, i64 } // Bool -> Integer test_impl_from! { test_boolu8, bool, u8 } test_impl_from! { test_boolu16, bool, u16 } test_impl_from! { test_boolu32, bool, u32 } test_impl_from! { test_boolu64, bool, u64 } test_impl_from! { test_boolu128, bool, u128 } test_impl_from! { test_booli8, bool, i8 } test_impl_from! { test_booli16, bool, i16 } test_impl_from! { test_booli32, bool, i32 } test_impl_from! { test_booli64, bool, i64 } test_impl_from! { test_booli128, bool, i128 } // Signed -> Float test_impl_from! { test_i8f32, i8, f32 } test_impl_from! { test_i8f64, i8, f64 } test_impl_from! { test_i16f32, i16, f32 } test_impl_from! { test_i16f64, i16, f64 } test_impl_from! { test_i32f64, i32, f64 } // Unsigned -> Float test_impl_from! { test_u8f32, u8, f32 } test_impl_from! { test_u8f64, u8, f64 } test_impl_from! { test_u16f32, u16, f32 } test_impl_from! { test_u16f64, u16, f64 } test_impl_from! { test_u32f64, u32, f64 } // Float -> Float #[test] fn test_f32f64() { let max: f64 = f32::MAX.into(); assert_eq!(max as f32, f32::MAX); assert!(max.is_normal()); let min: f64 = f32::MIN.into(); assert_eq!(min as f32, f32::MIN); assert!(min.is_normal()); let min_positive: f64 = f32::MIN_POSITIVE.into(); assert_eq!(min_positive as f32, f32::MIN_POSITIVE); assert!(min_positive.is_normal()); let epsilon: f64 = f32::EPSILON.into(); assert_eq!(epsilon as f32, f32::EPSILON); assert!(epsilon.is_normal()); let zero: f64 = (0.0f32).into(); assert_eq!(zero as f32, 0.0f32); assert!(zero.is_sign_positive()); let neg_zero: f64 = (-0.0f32).into(); assert_eq!(neg_zero as f32, -0.0f32); assert!(neg_zero.is_sign_negative()); let infinity: f64 = f32::INFINITY.into(); assert_eq!(infinity as f32, f32::INFINITY); assert!(infinity.is_infinite()); assert!(infinity.is_sign_positive()); let neg_infinity: f64 = f32::NEG_INFINITY.into(); assert_eq!(neg_infinity as f32, f32::NEG_INFINITY); assert!(neg_infinity.is_infinite()); assert!(neg_infinity.is_sign_negative()); let nan: f64 = f32::NAN.into(); assert!(nan.is_nan()); } /// Conversions where the full width of $source can be represented as $target macro_rules! test_impl_try_from_always_ok { ($fn_name:ident, $source:ty, $target: ty) => { #[test] fn $fn_name() { let max = <$source>::MAX; let min = <$source>::MIN; let zero: $source = 0; assert_eq!(<$target as TryFrom<$source>>::try_from(max).unwrap(), max as $target); assert_eq!(<$target as TryFrom<$source>>::try_from(min).unwrap(), min as $target); assert_eq!(<$target as TryFrom<$source>>::try_from(zero).unwrap(), zero as $target); } }; } test_impl_try_from_always_ok! { test_try_u8u8, u8, u8 } test_impl_try_from_always_ok! { test_try_u8u16, u8, u16 } test_impl_try_from_always_ok! { test_try_u8u32, u8, u32 } test_impl_try_from_always_ok! { test_try_u8u64, u8, u64 } test_impl_try_from_always_ok! { test_try_u8u128, u8, u128 } test_impl_try_from_always_ok! { test_try_u8i16, u8, i16 } test_impl_try_from_always_ok! { test_try_u8i32, u8, i32 } test_impl_try_from_always_ok! { test_try_u8i64, u8, i64 } test_impl_try_from_always_ok! { test_try_u8i128, u8, i128 } test_impl_try_from_always_ok! { test_try_u16u16, u16, u16 } test_impl_try_from_always_ok! { test_try_u16u32, u16, u32 } test_impl_try_from_always_ok! { test_try_u16u64, u16, u64 } test_impl_try_from_always_ok! { test_try_u16u128, u16, u128 } test_impl_try_from_always_ok! { test_try_u16i32, u16, i32 } test_impl_try_from_always_ok! { test_try_u16i64, u16, i64 } test_impl_try_from_always_ok! { test_try_u16i128, u16, i128 } test_impl_try_from_always_ok! { test_try_u32u32, u32, u32 } test_impl_try_from_always_ok! { test_try_u32u64, u32, u64 } test_impl_try_from_always_ok! { test_try_u32u128, u32, u128 } test_impl_try_from_always_ok! { test_try_u32i64, u32, i64 } test_impl_try_from_always_ok! { test_try_u32i128, u32, i128 } test_impl_try_from_always_ok! { test_try_u64u64, u64, u64 } test_impl_try_from_always_ok! { test_try_u64u128, u64, u128 } test_impl_try_from_always_ok! { test_try_u64i128, u64, i128 } test_impl_try_from_always_ok! { test_try_u128u128, u128, u128 } test_impl_try_from_always_ok! { test_try_i8i8, i8, i8 } test_impl_try_from_always_ok! { test_try_i8i16, i8, i16 } test_impl_try_from_always_ok! { test_try_i8i32, i8, i32 } test_impl_try_from_always_ok! { test_try_i8i64, i8, i64 } test_impl_try_from_always_ok! { test_try_i8i128, i8, i128 } test_impl_try_from_always_ok! { test_try_i16i16, i16, i16 } test_impl_try_from_always_ok! { test_try_i16i32, i16, i32 } test_impl_try_from_always_ok! { test_try_i16i64, i16, i64 } test_impl_try_from_always_ok! { test_try_i16i128, i16, i128 } test_impl_try_from_always_ok! { test_try_i32i32, i32, i32 } test_impl_try_from_always_ok! { test_try_i32i64, i32, i64 } test_impl_try_from_always_ok! { test_try_i32i128, i32, i128 } test_impl_try_from_always_ok! { test_try_i64i64, i64, i64 } test_impl_try_from_always_ok! { test_try_i64i128, i64, i128 } test_impl_try_from_always_ok! { test_try_i128i128, i128, i128 } test_impl_try_from_always_ok! { test_try_usizeusize, usize, usize } test_impl_try_from_always_ok! { test_try_isizeisize, isize, isize } assume_usize_width! { test_impl_try_from_always_ok! { test_try_u8usize, u8, usize } test_impl_try_from_always_ok! { test_try_u8isize, u8, isize } test_impl_try_from_always_ok! { test_try_i8isize, i8, isize } test_impl_try_from_always_ok! { test_try_u16usize, u16, usize } test_impl_try_from_always_ok! { test_try_i16isize, i16, isize } test_impl_try_from_always_ok! { test_try_usizeu64, usize, u64 } test_impl_try_from_always_ok! { test_try_usizeu128, usize, u128 } test_impl_try_from_always_ok! { test_try_usizei128, usize, i128 } test_impl_try_from_always_ok! { test_try_isizei64, isize, i64 } test_impl_try_from_always_ok! { test_try_isizei128, isize, i128 } cfg_block!( #[cfg(target_pointer_width = "16")] { test_impl_try_from_always_ok! { test_try_usizeu16, usize, u16 } test_impl_try_from_always_ok! { test_try_isizei16, isize, i16 } test_impl_try_from_always_ok! { test_try_usizeu32, usize, u32 } test_impl_try_from_always_ok! { test_try_usizei32, usize, i32 } test_impl_try_from_always_ok! { test_try_isizei32, isize, i32 } test_impl_try_from_always_ok! { test_try_usizei64, usize, i64 } } #[cfg(target_pointer_width = "32")] { test_impl_try_from_always_ok! { test_try_u16isize, u16, isize } test_impl_try_from_always_ok! { test_try_usizeu32, usize, u32 } test_impl_try_from_always_ok! { test_try_isizei32, isize, i32 } test_impl_try_from_always_ok! { test_try_u32usize, u32, usize } test_impl_try_from_always_ok! { test_try_i32isize, i32, isize } test_impl_try_from_always_ok! { test_try_usizei64, usize, i64 } } #[cfg(target_pointer_width = "64")] { test_impl_try_from_always_ok! { test_try_u16isize, u16, isize } test_impl_try_from_always_ok! { test_try_u32usize, u32, usize } test_impl_try_from_always_ok! { test_try_u32isize, u32, isize } test_impl_try_from_always_ok! { test_try_i32isize, i32, isize } test_impl_try_from_always_ok! { test_try_u64usize, u64, usize } test_impl_try_from_always_ok! { test_try_i64isize, i64, isize } } ); } /// Conversions where max of $source can be represented as $target, macro_rules! test_impl_try_from_signed_to_unsigned_upper_ok { ($fn_name:ident, $source:ty, $target:ty) => { #[test] fn $fn_name() { let max = <$source>::MAX; let min = <$source>::MIN; let zero: $source = 0; let neg_one: $source = -1; assert_eq!(<$target as TryFrom<$source>>::try_from(max).unwrap(), max as $target); assert!(<$target as TryFrom<$source>>::try_from(min).is_err()); assert_eq!(<$target as TryFrom<$source>>::try_from(zero).unwrap(), zero as $target); assert!(<$target as TryFrom<$source>>::try_from(neg_one).is_err()); } }; } test_impl_try_from_signed_to_unsigned_upper_ok! { test_try_i8u8, i8, u8 } test_impl_try_from_signed_to_unsigned_upper_ok! { test_try_i8u16, i8, u16 } test_impl_try_from_signed_to_unsigned_upper_ok! { test_try_i8u32, i8, u32 } test_impl_try_from_signed_to_unsigned_upper_ok! { test_try_i8u64, i8, u64 } test_impl_try_from_signed_to_unsigned_upper_ok! { test_try_i8u128, i8, u128 } test_impl_try_from_signed_to_unsigned_upper_ok! { test_try_i16u16, i16, u16 } test_impl_try_from_signed_to_unsigned_upper_ok! { test_try_i16u32, i16, u32 } test_impl_try_from_signed_to_unsigned_upper_ok! { test_try_i16u64, i16, u64 } test_impl_try_from_signed_to_unsigned_upper_ok! { test_try_i16u128, i16, u128 } test_impl_try_from_signed_to_unsigned_upper_ok! { test_try_i32u32, i32, u32 } test_impl_try_from_signed_to_unsigned_upper_ok! { test_try_i32u64, i32, u64 } test_impl_try_from_signed_to_unsigned_upper_ok! { test_try_i32u128, i32, u128 } test_impl_try_from_signed_to_unsigned_upper_ok! { test_try_i64u64, i64, u64 } test_impl_try_from_signed_to_unsigned_upper_ok! { test_try_i64u128, i64, u128 } test_impl_try_from_signed_to_unsigned_upper_ok! { test_try_i128u128, i128, u128 } assume_usize_width! { test_impl_try_from_signed_to_unsigned_upper_ok! { test_try_i8usize, i8, usize } test_impl_try_from_signed_to_unsigned_upper_ok! { test_try_i16usize, i16, usize } test_impl_try_from_signed_to_unsigned_upper_ok! { test_try_isizeu64, isize, u64 } test_impl_try_from_signed_to_unsigned_upper_ok! { test_try_isizeu128, isize, u128 } test_impl_try_from_signed_to_unsigned_upper_ok! { test_try_isizeusize, isize, usize } cfg_block!( #[cfg(target_pointer_width = "16")] { test_impl_try_from_signed_to_unsigned_upper_ok! { test_try_isizeu16, isize, u16 } test_impl_try_from_signed_to_unsigned_upper_ok! { test_try_isizeu32, isize, u32 } } #[cfg(target_pointer_width = "32")] { test_impl_try_from_signed_to_unsigned_upper_ok! { test_try_isizeu32, isize, u32 } test_impl_try_from_signed_to_unsigned_upper_ok! { test_try_i32usize, i32, usize } } #[cfg(target_pointer_width = "64")] { test_impl_try_from_signed_to_unsigned_upper_ok! { test_try_i32usize, i32, usize } test_impl_try_from_signed_to_unsigned_upper_ok! { test_try_i64usize, i64, usize } } ); } /// Conversions where max of $source can not be represented as $target, /// but min can. macro_rules! test_impl_try_from_unsigned_to_signed_upper_err { ($fn_name:ident, $source:ty, $target:ty) => { #[test] fn $fn_name() { let max = <$source>::MAX; let min = <$source>::MIN; let zero: $source = 0; assert!(<$target as TryFrom<$source>>::try_from(max).is_err()); assert_eq!(<$target as TryFrom<$source>>::try_from(min).unwrap(), min as $target); assert_eq!(<$target as TryFrom<$source>>::try_from(zero).unwrap(), zero as $target); } }; } test_impl_try_from_unsigned_to_signed_upper_err! { test_try_u8i8, u8, i8 } test_impl_try_from_unsigned_to_signed_upper_err! { test_try_u16i8, u16, i8 } test_impl_try_from_unsigned_to_signed_upper_err! { test_try_u16i16, u16, i16 } test_impl_try_from_unsigned_to_signed_upper_err! { test_try_u32i8, u32, i8 } test_impl_try_from_unsigned_to_signed_upper_err! { test_try_u32i16, u32, i16 } test_impl_try_from_unsigned_to_signed_upper_err! { test_try_u32i32, u32, i32 } test_impl_try_from_unsigned_to_signed_upper_err! { test_try_u64i8, u64, i8 } test_impl_try_from_unsigned_to_signed_upper_err! { test_try_u64i16, u64, i16 } test_impl_try_from_unsigned_to_signed_upper_err! { test_try_u64i32, u64, i32 } test_impl_try_from_unsigned_to_signed_upper_err! { test_try_u64i64, u64, i64 } test_impl_try_from_unsigned_to_signed_upper_err! { test_try_u128i8, u128, i8 } test_impl_try_from_unsigned_to_signed_upper_err! { test_try_u128i16, u128, i16 } test_impl_try_from_unsigned_to_signed_upper_err! { test_try_u128i32, u128, i32 } test_impl_try_from_unsigned_to_signed_upper_err! { test_try_u128i64, u128, i64 } test_impl_try_from_unsigned_to_signed_upper_err! { test_try_u128i128, u128, i128 } assume_usize_width! { test_impl_try_from_unsigned_to_signed_upper_err! { test_try_u64isize, u64, isize } test_impl_try_from_unsigned_to_signed_upper_err! { test_try_u128isize, u128, isize } test_impl_try_from_unsigned_to_signed_upper_err! { test_try_usizei8, usize, i8 } test_impl_try_from_unsigned_to_signed_upper_err! { test_try_usizei16, usize, i16 } test_impl_try_from_unsigned_to_signed_upper_err! { test_try_usizeisize, usize, isize } cfg_block!( #[cfg(target_pointer_width = "16")] { test_impl_try_from_unsigned_to_signed_upper_err! { test_try_u16isize, u16, isize } test_impl_try_from_unsigned_to_signed_upper_err! { test_try_u32isize, u32, isize } } #[cfg(target_pointer_width = "32")] { test_impl_try_from_unsigned_to_signed_upper_err! { test_try_u32isize, u32, isize } test_impl_try_from_unsigned_to_signed_upper_err! { test_try_usizei32, usize, i32 } } #[cfg(target_pointer_width = "64")] { test_impl_try_from_unsigned_to_signed_upper_err! { test_try_usizei32, usize, i32 } test_impl_try_from_unsigned_to_signed_upper_err! { test_try_usizei64, usize, i64 } } ); } /// Conversions where min/max of $source can not be represented as $target. macro_rules! test_impl_try_from_same_sign_err { ($fn_name:ident, $source:ty, $target:ty) => { #[test] fn $fn_name() { let max = <$source>::MAX; let min = <$source>::MIN; let zero: $source = 0; let t_max = <$target>::MAX; let t_min = <$target>::MIN; assert!(<$target as TryFrom<$source>>::try_from(max).is_err()); if min != 0 { assert!(<$target as TryFrom<$source>>::try_from(min).is_err()); } assert_eq!(<$target as TryFrom<$source>>::try_from(zero).unwrap(), zero as $target); assert_eq!( <$target as TryFrom<$source>>::try_from(t_max as $source).unwrap(), t_max as $target ); assert_eq!( <$target as TryFrom<$source>>::try_from(t_min as $source).unwrap(), t_min as $target ); } }; } test_impl_try_from_same_sign_err! { test_try_u16u8, u16, u8 } test_impl_try_from_same_sign_err! { test_try_u32u8, u32, u8 } test_impl_try_from_same_sign_err! { test_try_u32u16, u32, u16 } test_impl_try_from_same_sign_err! { test_try_u64u8, u64, u8 } test_impl_try_from_same_sign_err! { test_try_u64u16, u64, u16 } test_impl_try_from_same_sign_err! { test_try_u64u32, u64, u32 } test_impl_try_from_same_sign_err! { test_try_u128u8, u128, u8 } test_impl_try_from_same_sign_err! { test_try_u128u16, u128, u16 } test_impl_try_from_same_sign_err! { test_try_u128u32, u128, u32 } test_impl_try_from_same_sign_err! { test_try_u128u64, u128, u64 } test_impl_try_from_same_sign_err! { test_try_i16i8, i16, i8 } test_impl_try_from_same_sign_err! { test_try_isizei8, isize, i8 } test_impl_try_from_same_sign_err! { test_try_i32i8, i32, i8 } test_impl_try_from_same_sign_err! { test_try_i32i16, i32, i16 } test_impl_try_from_same_sign_err! { test_try_i64i8, i64, i8 } test_impl_try_from_same_sign_err! { test_try_i64i16, i64, i16 } test_impl_try_from_same_sign_err! { test_try_i64i32, i64, i32 } test_impl_try_from_same_sign_err! { test_try_i128i8, i128, i8 } test_impl_try_from_same_sign_err! { test_try_i128i16, i128, i16 } test_impl_try_from_same_sign_err! { test_try_i128i32, i128, i32 } test_impl_try_from_same_sign_err! { test_try_i128i64, i128, i64 } assume_usize_width! { test_impl_try_from_same_sign_err! { test_try_usizeu8, usize, u8 } test_impl_try_from_same_sign_err! { test_try_u128usize, u128, usize } test_impl_try_from_same_sign_err! { test_try_i128isize, i128, isize } cfg_block!( #[cfg(target_pointer_width = "16")] { test_impl_try_from_same_sign_err! { test_try_u32usize, u32, usize } test_impl_try_from_same_sign_err! { test_try_u64usize, u64, usize } test_impl_try_from_same_sign_err! { test_try_i32isize, i32, isize } test_impl_try_from_same_sign_err! { test_try_i64isize, i64, isize } } #[cfg(target_pointer_width = "32")] { test_impl_try_from_same_sign_err! { test_try_u64usize, u64, usize } test_impl_try_from_same_sign_err! { test_try_usizeu16, usize, u16 } test_impl_try_from_same_sign_err! { test_try_i64isize, i64, isize } test_impl_try_from_same_sign_err! { test_try_isizei16, isize, i16 } } #[cfg(target_pointer_width = "64")] { test_impl_try_from_same_sign_err! { test_try_usizeu16, usize, u16 } test_impl_try_from_same_sign_err! { test_try_usizeu32, usize, u32 } test_impl_try_from_same_sign_err! { test_try_isizei16, isize, i16 } test_impl_try_from_same_sign_err! { test_try_isizei32, isize, i32 } } ); } /// Conversions where neither the min nor the max of $source can be represented by /// $target, but max/min of the target can be represented by the source. macro_rules! test_impl_try_from_signed_to_unsigned_err { ($fn_name:ident, $source:ty, $target:ty) => { #[test] fn $fn_name() { let max = <$source>::MAX; let min = <$source>::MIN; let zero: $source = 0; let t_max = <$target>::MAX; let t_min = <$target>::MIN; assert!(<$target as TryFrom<$source>>::try_from(max).is_err()); assert!(<$target as TryFrom<$source>>::try_from(min).is_err()); assert_eq!(<$target as TryFrom<$source>>::try_from(zero).unwrap(), zero as $target); assert_eq!( <$target as TryFrom<$source>>::try_from(t_max as $source).unwrap(), t_max as $target ); assert_eq!( <$target as TryFrom<$source>>::try_from(t_min as $source).unwrap(), t_min as $target ); } }; } test_impl_try_from_signed_to_unsigned_err! { test_try_i16u8, i16, u8 } test_impl_try_from_signed_to_unsigned_err! { test_try_i32u8, i32, u8 } test_impl_try_from_signed_to_unsigned_err! { test_try_i32u16, i32, u16 } test_impl_try_from_signed_to_unsigned_err! { test_try_i64u8, i64, u8 } test_impl_try_from_signed_to_unsigned_err! { test_try_i64u16, i64, u16 } test_impl_try_from_signed_to_unsigned_err! { test_try_i64u32, i64, u32 } test_impl_try_from_signed_to_unsigned_err! { test_try_i128u8, i128, u8 } test_impl_try_from_signed_to_unsigned_err! { test_try_i128u16, i128, u16 } test_impl_try_from_signed_to_unsigned_err! { test_try_i128u32, i128, u32 } test_impl_try_from_signed_to_unsigned_err! { test_try_i128u64, i128, u64 } assume_usize_width! { test_impl_try_from_signed_to_unsigned_err! { test_try_isizeu8, isize, u8 } test_impl_try_from_signed_to_unsigned_err! { test_try_i128usize, i128, usize } cfg_block! { #[cfg(target_pointer_width = "16")] { test_impl_try_from_signed_to_unsigned_err! { test_try_i32usize, i32, usize } test_impl_try_from_signed_to_unsigned_err! { test_try_i64usize, i64, usize } } #[cfg(target_pointer_width = "32")] { test_impl_try_from_signed_to_unsigned_err! { test_try_i64usize, i64, usize } test_impl_try_from_signed_to_unsigned_err! { test_try_isizeu16, isize, u16 } } #[cfg(target_pointer_width = "64")] { test_impl_try_from_signed_to_unsigned_err! { test_try_isizeu16, isize, u16 } test_impl_try_from_signed_to_unsigned_err! { test_try_isizeu32, isize, u32 } } } } macro_rules! test_float { ($modname: ident, $fty: ty, $inf: expr, $neginf: expr, $nan: expr) => { mod $modname { #[test] fn min() { assert_eq!((0.0 as $fty).min(0.0), 0.0); assert!((0.0 as $fty).min(0.0).is_sign_positive()); assert_eq!((-0.0 as $fty).min(-0.0), -0.0); assert!((-0.0 as $fty).min(-0.0).is_sign_negative()); assert_eq!((9.0 as $fty).min(9.0), 9.0); assert_eq!((-9.0 as $fty).min(0.0), -9.0); assert_eq!((0.0 as $fty).min(9.0), 0.0); assert!((0.0 as $fty).min(9.0).is_sign_positive()); assert_eq!((-0.0 as $fty).min(9.0), -0.0); assert!((-0.0 as $fty).min(9.0).is_sign_negative()); assert_eq!((-0.0 as $fty).min(-9.0), -9.0); assert_eq!(($inf as $fty).min(9.0), 9.0); assert_eq!((9.0 as $fty).min($inf), 9.0); assert_eq!(($inf as $fty).min(-9.0), -9.0); assert_eq!((-9.0 as $fty).min($inf), -9.0); assert_eq!(($neginf as $fty).min(9.0), $neginf); assert_eq!((9.0 as $fty).min($neginf), $neginf); assert_eq!(($neginf as $fty).min(-9.0), $neginf); assert_eq!((-9.0 as $fty).min($neginf), $neginf); assert_eq!(($nan as $fty).min(9.0), 9.0); assert_eq!(($nan as $fty).min(-9.0), -9.0); assert_eq!((9.0 as $fty).min($nan), 9.0); assert_eq!((-9.0 as $fty).min($nan), -9.0); assert!(($nan as $fty).min($nan).is_nan()); } #[test] fn max() { assert_eq!((0.0 as $fty).max(0.0), 0.0); assert!((0.0 as $fty).max(0.0).is_sign_positive()); assert_eq!((-0.0 as $fty).max(-0.0), -0.0); assert!((-0.0 as $fty).max(-0.0).is_sign_negative()); assert_eq!((9.0 as $fty).max(9.0), 9.0); assert_eq!((-9.0 as $fty).max(0.0), 0.0); assert!((-9.0 as $fty).max(0.0).is_sign_positive()); assert_eq!((-9.0 as $fty).max(-0.0), -0.0); assert!((-9.0 as $fty).max(-0.0).is_sign_negative()); assert_eq!((0.0 as $fty).max(9.0), 9.0); assert_eq!((0.0 as $fty).max(-9.0), 0.0); assert!((0.0 as $fty).max(-9.0).is_sign_positive()); assert_eq!((-0.0 as $fty).max(-9.0), -0.0); assert!((-0.0 as $fty).max(-9.0).is_sign_negative()); assert_eq!(($inf as $fty).max(9.0), $inf); assert_eq!((9.0 as $fty).max($inf), $inf); assert_eq!(($inf as $fty).max(-9.0), $inf); assert_eq!((-9.0 as $fty).max($inf), $inf); assert_eq!(($neginf as $fty).max(9.0), 9.0); assert_eq!((9.0 as $fty).max($neginf), 9.0); assert_eq!(($neginf as $fty).max(-9.0), -9.0); assert_eq!((-9.0 as $fty).max($neginf), -9.0); assert_eq!(($nan as $fty).max(9.0), 9.0); assert_eq!(($nan as $fty).max(-9.0), -9.0); assert_eq!((9.0 as $fty).max($nan), 9.0); assert_eq!((-9.0 as $fty).max($nan), -9.0); assert!(($nan as $fty).max($nan).is_nan()); } #[test] fn minimum() { assert_eq!((0.0 as $fty).minimum(0.0), 0.0); assert!((0.0 as $fty).minimum(0.0).is_sign_positive()); assert_eq!((-0.0 as $fty).minimum(0.0), -0.0); assert!((-0.0 as $fty).minimum(0.0).is_sign_negative()); assert_eq!((-0.0 as $fty).minimum(-0.0), -0.0); assert!((-0.0 as $fty).minimum(-0.0).is_sign_negative()); assert_eq!((9.0 as $fty).minimum(9.0), 9.0); assert_eq!((-9.0 as $fty).minimum(0.0), -9.0); assert_eq!((0.0 as $fty).minimum(9.0), 0.0); assert!((0.0 as $fty).minimum(9.0).is_sign_positive()); assert_eq!((-0.0 as $fty).minimum(9.0), -0.0); assert!((-0.0 as $fty).minimum(9.0).is_sign_negative()); assert_eq!((-0.0 as $fty).minimum(-9.0), -9.0); assert_eq!(($inf as $fty).minimum(9.0), 9.0); assert_eq!((9.0 as $fty).minimum($inf), 9.0); assert_eq!(($inf as $fty).minimum(-9.0), -9.0); assert_eq!((-9.0 as $fty).minimum($inf), -9.0); assert_eq!(($neginf as $fty).minimum(9.0), $neginf); assert_eq!((9.0 as $fty).minimum($neginf), $neginf); assert_eq!(($neginf as $fty).minimum(-9.0), $neginf); assert_eq!((-9.0 as $fty).minimum($neginf), $neginf); assert!(($nan as $fty).minimum(9.0).is_nan()); assert!(($nan as $fty).minimum(-9.0).is_nan()); assert!((9.0 as $fty).minimum($nan).is_nan()); assert!((-9.0 as $fty).minimum($nan).is_nan()); assert!(($nan as $fty).minimum($nan).is_nan()); } #[test] fn maximum() { assert_eq!((0.0 as $fty).maximum(0.0), 0.0); assert!((0.0 as $fty).maximum(0.0).is_sign_positive()); assert_eq!((-0.0 as $fty).maximum(0.0), 0.0); assert!((-0.0 as $fty).maximum(0.0).is_sign_positive()); assert_eq!((-0.0 as $fty).maximum(-0.0), -0.0); assert!((-0.0 as $fty).maximum(-0.0).is_sign_negative()); assert_eq!((9.0 as $fty).maximum(9.0), 9.0); assert_eq!((-9.0 as $fty).maximum(0.0), 0.0); assert!((-9.0 as $fty).maximum(0.0).is_sign_positive()); assert_eq!((-9.0 as $fty).maximum(-0.0), -0.0); assert!((-9.0 as $fty).maximum(-0.0).is_sign_negative()); assert_eq!((0.0 as $fty).maximum(9.0), 9.0); assert_eq!((0.0 as $fty).maximum(-9.0), 0.0); assert!((0.0 as $fty).maximum(-9.0).is_sign_positive()); assert_eq!((-0.0 as $fty).maximum(-9.0), -0.0); assert!((-0.0 as $fty).maximum(-9.0).is_sign_negative()); assert_eq!(($inf as $fty).maximum(9.0), $inf); assert_eq!((9.0 as $fty).maximum($inf), $inf); assert_eq!(($inf as $fty).maximum(-9.0), $inf); assert_eq!((-9.0 as $fty).maximum($inf), $inf); assert_eq!(($neginf as $fty).maximum(9.0), 9.0); assert_eq!((9.0 as $fty).maximum($neginf), 9.0); assert_eq!(($neginf as $fty).maximum(-9.0), -9.0); assert_eq!((-9.0 as $fty).maximum($neginf), -9.0); assert!(($nan as $fty).maximum(9.0).is_nan()); assert!(($nan as $fty).maximum(-9.0).is_nan()); assert!((9.0 as $fty).maximum($nan).is_nan()); assert!((-9.0 as $fty).maximum($nan).is_nan()); assert!(($nan as $fty).maximum($nan).is_nan()); } #[test] fn rem_euclid() { let a: $fty = 42.0; assert!($inf.rem_euclid(a).is_nan()); assert_eq!(a.rem_euclid($inf), a); assert!(a.rem_euclid($nan).is_nan()); assert!($inf.rem_euclid($inf).is_nan()); assert!($inf.rem_euclid($nan).is_nan()); assert!($nan.rem_euclid($inf).is_nan()); } #[test] fn div_euclid() { let a: $fty = 42.0; assert_eq!(a.div_euclid($inf), 0.0); assert!(a.div_euclid($nan).is_nan()); assert!($inf.div_euclid($inf).is_nan()); assert!($inf.div_euclid($nan).is_nan()); assert!($nan.div_euclid($inf).is_nan()); } } }; } test_float!(f32, f32, f32::INFINITY, f32::NEG_INFINITY, f32::NAN); test_float!(f64, f64, f64::INFINITY, f64::NEG_INFINITY, f64::NAN);