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04ddf42218
rust/library/core/tests/num/mod.rs
Philippe Laflamme 64d695b753
Adds tests to ensure some base op traits exist. 
These tests invoke the various op traits using all accepted types they
are implemented for as well as for references to those types.

This fixes #49660 and ensures the following implementations exist:

* `Add`, `Sub`, `Mul`, `Div`, `Rem`
  * `T op T`, `T op &T`, `&T op T` and `&T op &T`
  * for all integer and floating point types
* `AddAssign`, `SubAssign`, `MulAssign`, `DivAssign`, `RemAssign`
  * `&mut T op T` and `&mut T op &T`
  * for all integer and floating point types
* `Neg`
  * `op T` and `op &T`
  * for all signed integer and floating point types
* `Not`
  * `op T` and `op &T`
  * for `bool`
* `BitAnd`, `BitOr`, `BitXor`
  * `T op T`, `T op &T`, `&T op T` and `&T op &T`
  * for all integer types and bool
* `BitAndAssign`, `BitOrAssign`, `BitXorAssign`
  * `&mut T op T` and `&mut T op &T`
  * for all integer types and bool
* `Shl`, `Shr`
  * `L op R`, `L op &R`, `&L op R` and `&L op &R`
  * for all pairs of integer types
* `ShlAssign`, `ShrAssign`
  * `&mut L op R`, `&mut L op &R`
  * for all pairs of integer types
2021-01-13 23:14:00 -05:00

738 lines
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use core::cmp::PartialEq;
use core::convert::{TryFrom, TryInto};
use core::fmt::Debug;
use core::marker::Copy;
use core::num::{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 dec2flt;
mod flt2dec;
mod ops;
mod wrapping;
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<T>(ten: T, two: T)
where
T: PartialEq
+ Add<Output = T>
+ Sub<Output = T>
+ Mul<Output = T>
+ Div<Output = T>
+ Rem<Output = T>
+ 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<T>(num_str: &str, expected: Result<T, IntErrorKind>)
where
T: FromStr<Err = ParseIntError>,
Result<T, IntErrorKind>: PartialEq + Debug,
{
assert_eq!(num_str.parse::<T>().map_err(|e| e.kind().clone()), expected)
}
#[test]
fn from_str_issue7588() {
let u: Option<u8> = u8::from_str_radix("1000", 10).ok();
assert_eq!(u, None);
let s: Option<i16> = i16::from_str_radix("80000", 10).ok();
assert_eq!(s, None);
}
#[test]
fn test_int_from_str_overflow() {
test_parse::<i8>("127", Ok(127));
test_parse::<i8>("128", Err(IntErrorKind::PosOverflow));
test_parse::<i8>("-128", Ok(-128));
test_parse::<i8>("-129", Err(IntErrorKind::NegOverflow));
test_parse::<i16>("32767", Ok(32_767));
test_parse::<i16>("32768", Err(IntErrorKind::PosOverflow));
test_parse::<i16>("-32768", Ok(-32_768));
test_parse::<i16>("-32769", Err(IntErrorKind::NegOverflow));
test_parse::<i32>("2147483647", Ok(2_147_483_647));
test_parse::<i32>("2147483648", Err(IntErrorKind::PosOverflow));
test_parse::<i32>("-2147483648", Ok(-2_147_483_648));
test_parse::<i32>("-2147483649", Err(IntErrorKind::NegOverflow));
test_parse::<i64>("9223372036854775807", Ok(9_223_372_036_854_775_807));
test_parse::<i64>("9223372036854775808", Err(IntErrorKind::PosOverflow));
test_parse::<i64>("-9223372036854775808", Ok(-9_223_372_036_854_775_808));
test_parse::<i64>("-9223372036854775809", Err(IntErrorKind::NegOverflow));
}
#[test]
fn test_leading_plus() {
test_parse::<u8>("+127", Ok(127));
test_parse::<i64>("+9223372036854775807", Ok(9223372036854775807));
}
#[test]
fn test_invalid() {
test_parse::<i8>("--129", Err(IntErrorKind::InvalidDigit));
test_parse::<i8>("++129", Err(IntErrorKind::InvalidDigit));
test_parse::<u8>("Съешь", Err(IntErrorKind::InvalidDigit));
test_parse::<u8>("123Hello", Err(IntErrorKind::InvalidDigit));
test_parse::<i8>("--", Err(IntErrorKind::InvalidDigit));
test_parse::<i8>("-", Err(IntErrorKind::InvalidDigit));
test_parse::<i8>("+", Err(IntErrorKind::InvalidDigit));
test_parse::<u8>("-1", Err(IntErrorKind::InvalidDigit));
}
#[test]
fn test_empty() {
test_parse::<u8>("", Err(IntErrorKind::Empty));
}
#[test]
fn test_infallible_try_from_int_error() {
let func = |x: i8| -> Result<i32, TryFromIntError> { 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 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);
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