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#![feature(repr128)]
#![allow(incomplete_features)]
#![warn(
clippy::cast_precision_loss,
clippy::cast_possible_truncation,
clippy::cast_sign_loss,
clippy::cast_possible_wrap
)]
#![allow(clippy::cast_abs_to_unsigned, clippy::no_effect, clippy::unnecessary_operation)]
fn main() {
// Test clippy::cast_precision_loss
let x0 = 1i32;
x0 as f32;
let x1 = 1i64;
x1 as f32;
x1 as f64;
let x2 = 1u32;
x2 as f32;
let x3 = 1u64;
x3 as f32;
x3 as f64;
// Test clippy::cast_possible_truncation
1f32 as i32;
1f32 as u32;
1f64 as f32;
1i32 as i8;
1i32 as u8;
1f64 as isize;
1f64 as usize;
// Test clippy::cast_possible_wrap
1u8 as i8;
1u16 as i16;
1u32 as i32;
1u64 as i64;
1usize as isize;
// Test clippy::cast_sign_loss
1i32 as u32;
-1i32 as u32;
1isize as usize;
-1isize as usize;
0i8 as u8;
i8::MAX as u8;
i16::MAX as u16;
i32::MAX as u32;
i64::MAX as u64;
i128::MAX as u128;
(-1i8).abs() as u8;
(-1i16).abs() as u16;
(-1i32).abs() as u32;
(-1i64).abs() as u64;
(-1isize).abs() as usize;
(-1i8).checked_abs().unwrap() as u8;
(-1i16).checked_abs().unwrap() as u16;
(-1i32).checked_abs().unwrap() as u32;
(-1i64).checked_abs().unwrap() as u64;
(-1isize).checked_abs().unwrap() as usize;
(-1i8).rem_euclid(1i8) as u8;
(-1i8).rem_euclid(1i8) as u16;
(-1i16).rem_euclid(1i16) as u16;
(-1i16).rem_euclid(1i16) as u32;
(-1i32).rem_euclid(1i32) as u32;
(-1i32).rem_euclid(1i32) as u64;
(-1i64).rem_euclid(1i64) as u64;
(-1i64).rem_euclid(1i64) as u128;
(-1isize).rem_euclid(1isize) as usize;
(1i8).rem_euclid(-1i8) as u8;
(1i8).rem_euclid(-1i8) as u16;
(1i16).rem_euclid(-1i16) as u16;
(1i16).rem_euclid(-1i16) as u32;
(1i32).rem_euclid(-1i32) as u32;
(1i32).rem_euclid(-1i32) as u64;
(1i64).rem_euclid(-1i64) as u64;
(1i64).rem_euclid(-1i64) as u128;
(1isize).rem_euclid(-1isize) as usize;
(-1i8).checked_rem_euclid(1i8).unwrap() as u8;
(-1i8).checked_rem_euclid(1i8).unwrap() as u16;
(-1i16).checked_rem_euclid(1i16).unwrap() as u16;
(-1i16).checked_rem_euclid(1i16).unwrap() as u32;
(-1i32).checked_rem_euclid(1i32).unwrap() as u32;
(-1i32).checked_rem_euclid(1i32).unwrap() as u64;
(-1i64).checked_rem_euclid(1i64).unwrap() as u64;
(-1i64).checked_rem_euclid(1i64).unwrap() as u128;
(-1isize).checked_rem_euclid(1isize).unwrap() as usize;
(1i8).checked_rem_euclid(-1i8).unwrap() as u8;
(1i8).checked_rem_euclid(-1i8).unwrap() as u16;
(1i16).checked_rem_euclid(-1i16).unwrap() as u16;
(1i16).checked_rem_euclid(-1i16).unwrap() as u32;
(1i32).checked_rem_euclid(-1i32).unwrap() as u32;
(1i32).checked_rem_euclid(-1i32).unwrap() as u64;
(1i64).checked_rem_euclid(-1i64).unwrap() as u64;
(1i64).checked_rem_euclid(-1i64).unwrap() as u128;
(1isize).checked_rem_euclid(-1isize).unwrap() as usize;
// no lint for `cast_possible_truncation`
// with `signum` method call (see issue #5395)
let x: i64 = 5;
let _ = x.signum() as i32;
let s = x.signum();
let _ = s as i32;
// Test for signed min
(-99999999999i64).min(1) as i8; // should be linted because signed
// Test for various operations that remove enough bits for the result to fit
(999999u64 & 1) as u8;
(999999u64 % 15) as u8;
(999999u64 / 0x1_0000_0000_0000) as u16;
({ 999999u64 >> 56 }) as u8;
({
let x = 999999u64;
x.min(1)
}) as u8;
999999u64.clamp(0, 255) as u8;
999999u64.clamp(0, 256) as u8; // should still be linted
#[derive(Clone, Copy)]
enum E1 {
A,
B,
C,
}
impl E1 {
fn test(self) {
let _ = self as u8; // Don't lint. `0..=2` fits in u8
}
}
#[derive(Clone, Copy)]
enum E2 {
A = 255,
B,
}
impl E2 {
fn test(self) {
let _ = self as u8;
let _ = Self::B as u8;
let _ = self as i16; // Don't lint. `255..=256` fits in i16
let _ = Self::A as u8; // Don't lint.
}
}
#[derive(Clone, Copy)]
enum E3 {
A = -1,
B,
C = 50,
}
impl E3 {
fn test(self) {
let _ = self as i8; // Don't lint. `-1..=50` fits in i8
}
}
#[derive(Clone, Copy)]
enum E4 {
A = -128,
B,
}
impl E4 {
fn test(self) {
let _ = self as i8; // Don't lint. `-128..=-127` fits in i8
}
}
#[derive(Clone, Copy)]
enum E5 {
A = -129,
B = 127,
}
impl E5 {
fn test(self) {
let _ = self as i8;
let _ = Self::A as i8;
let _ = self as i16; // Don't lint. `-129..=127` fits in i16
let _ = Self::B as u8; // Don't lint.
}
}
#[derive(Clone, Copy)]
#[repr(u32)]
enum E6 {
A = u16::MAX as u32,
B,
}
impl E6 {
fn test(self) {
let _ = self as i16;
let _ = Self::A as u16; // Don't lint. `2^16-1` fits in u16
let _ = self as u32; // Don't lint. `2^16-1..=2^16` fits in u32
let _ = Self::A as u16; // Don't lint.
}
}
#[derive(Clone, Copy)]
#[repr(u64)]
enum E7 {
A = u32::MAX as u64,
B,
}
impl E7 {
fn test(self) {
let _ = self as usize;
let _ = Self::A as usize; // Don't lint.
let _ = self as u64; // Don't lint. `2^32-1..=2^32` fits in u64
}
}
#[derive(Clone, Copy)]
#[repr(i128)]
enum E8 {
A = i128::MIN,
B,
C = 0,
D = i128::MAX,
}
impl E8 {
fn test(self) {
let _ = self as i128; // Don't lint. `-(2^127)..=2^127-1` fits it i128
}
}
#[derive(Clone, Copy)]
#[repr(u128)]
enum E9 {
A,
B = u128::MAX,
}
impl E9 {
fn test(self) {
let _ = Self::A as u8; // Don't lint.
let _ = self as u128; // Don't lint. `0..=2^128-1` fits in u128
}
}
#[derive(Clone, Copy)]
#[repr(usize)]
enum E10 {
A,
B = u32::MAX as usize,
}
impl E10 {
fn test(self) {
let _ = self as u16;
let _ = Self::B as u32; // Don't lint.
let _ = self as u64; // Don't lint.
}
}
}
fn avoid_subtract_overflow(q: u32) {
let c = (q >> 16) as u8;
c as usize;
let c = (q / 1000) as u8;
c as usize;
}
|
