//@aux-build:extern_fake_libc.rs #![warn(clippy::unnecessary_cast)] #![allow( clippy::borrow_as_ptr, clippy::multiple_bound_locations, clippy::no_effect, clippy::nonstandard_macro_braces, clippy::unnecessary_operation, nonstandard_style, unused )] extern crate extern_fake_libc; type PtrConstU8 = *const u8; type PtrMutU8 = *mut u8; fn owo(ptr: *const T) -> *const T { ptr as *const T } fn uwu(ptr: *const T) -> *const U { ptr as *const U } mod fake_libc { type pid_t = i32; pub unsafe fn getpid() -> pid_t { pid_t::from(0) } // Make sure a where clause does not break it pub fn getpid_SAFE_TRUTH(t: &T) -> pid_t where T: Clone, { t; unsafe { getpid() } } } fn aaa() -> ::std::primitive::u32 { 0 } use std::primitive::u32 as UnsignedThirtyTwoBitInteger; fn bbb() -> UnsignedThirtyTwoBitInteger { 0 } #[rustfmt::skip] fn main() { // Test cast_unnecessary 1i32 as i32; 1f32 as f32; false as bool; &1i32 as &i32; -1_i32 as i32; - 1_i32 as i32; -1f32 as f32; 1_i32 as i32; 1_f32 as f32; let _: *mut u8 = [1u8, 2].as_ptr() as *const u8 as *mut u8; [1u8, 2].as_ptr() as *const u8; [1u8, 2].as_ptr() as *mut u8; [1u8, 2].as_mut_ptr() as *mut u8; [1u8, 2].as_mut_ptr() as *const u8; [1u8, 2].as_ptr() as PtrConstU8; [1u8, 2].as_ptr() as PtrMutU8; [1u8, 2].as_mut_ptr() as PtrMutU8; [1u8, 2].as_mut_ptr() as PtrConstU8; let _: *const u8 = [1u8, 2].as_ptr() as _; let _: *mut u8 = [1u8, 2].as_mut_ptr() as _; let _: *const u8 = [1u8, 2].as_ptr() as *const _; let _: *mut u8 = [1u8, 2].as_mut_ptr() as *mut _; owo::([1u32].as_ptr()) as *const u32; uwu::([1u32].as_ptr()) as *const u8; // this will not lint in the function body even though they have the same type, instead here uwu::([1u32].as_ptr()) as *const u32; // macro version macro_rules! foo { ($a:ident, $b:ident) => { #[allow(unused)] pub fn $a() -> $b { 1 as $b } }; } foo!(a, i32); foo!(b, f32); foo!(c, f64); // do not lint cast from cfg-dependant type let x = 0 as std::ffi::c_ulong; let y = x as u64; let x: std::ffi::c_ulong = 0; let y = x as u64; // do not lint cast to cfg-dependant type let x = 1 as std::os::raw::c_char; let y = x as u64; // do not lint cast to alias type 1 as I32Alias; &1 as &I32Alias; // or from let x: I32Alias = 1; let y = x as u64; fake_libc::getpid_SAFE_TRUTH(&0u32) as i32; extern_fake_libc::getpid_SAFE_TRUTH() as i32; let pid = unsafe { fake_libc::getpid() }; pid as i32; aaa() as u32; let x = aaa(); aaa() as u32; // Will not lint currently. bbb() as u32; let x = bbb(); bbb() as u32; let i8_ptr: *const i8 = &1; let u8_ptr: *const u8 = &1; // cfg dependant pointees i8_ptr as *const std::os::raw::c_char; u8_ptr as *const std::os::raw::c_char; // type aliased pointees i8_ptr as *const std::ffi::c_char; u8_ptr as *const std::ffi::c_char; // issue #9960 macro_rules! bind_var { ($id:ident, $e:expr) => {{ let $id = 0usize; let _ = $e != 0usize; let $id = 0isize; let _ = $e != 0usize; }} } bind_var!(x, (x as usize) + 1); } type I32Alias = i32; mod fixable { #![allow(dead_code)] fn main() { // casting integer literal to float is unnecessary 100 as f32; 100 as f64; 100_i32 as f64; let _ = -100 as f32; let _ = -100 as f64; let _ = -100_i32 as f64; 100. as f32; 100. as f64; // Should not trigger #[rustfmt::skip] let v = vec!(1); &v as &[i32]; 0x10 as f32; 0o10 as f32; 0b10 as f32; 0x11 as f64; 0o11 as f64; 0b11 as f64; 1 as u32; 0x10 as i32; 0b10 as usize; 0o73 as u16; 1_000_000_000 as u32; 1.0 as f64; 0.5 as f32; 1.0 as u16; let _ = -1 as i32; let _ = -1.0 as f32; let _ = 1 as I32Alias; let _ = &1 as &I32Alias; let x = 1i32; let _ = &(x as i32); } type I32Alias = i32; fn issue_9380() { let _: i32 = -(1) as i32; let _: f32 = -(1) as f32; let _: i64 = -(1) as i64; let _: i64 = -(1.0) as i64; let _ = -(1 + 1) as i64; } fn issue_9563() { let _: f64 = (-8.0 as f64).exp(); #[allow(clippy::precedence)] let _: f64 = -(8.0 as f64).exp(); // should suggest `-8.0_f64.exp()` here not to change code behavior } fn issue_9562_non_literal() { fn foo() -> f32 { 0. } let _num = foo() as f32; } fn issue_9603() { let _: f32 = -0x400 as f32; } // Issue #11968: The suggestion for this lint removes the parentheses and leave the code as // `*x.pow(2)` which tries to dereference the return value rather than `x`. fn issue_11968(x: &usize) -> usize { (*x as usize).pow(2) } }