#![warn(clippy::manual_clamp)] #![allow( unused, dead_code, clippy::unnecessary_operation, clippy::no_effect, clippy::if_same_then_else )] use std::cmp::{max as cmp_max, min as cmp_min}; const CONST_MAX: i32 = 10; const CONST_MIN: i32 = 4; const CONST_F64_MAX: f64 = 10.0; const CONST_F64_MIN: f64 = 4.0; fn main() { let (input, min, max) = (0, -2, 3); // Min and max are not const, so this shouldn't trigger the lint. let x0 = if max < input { max } else if min > input { min } else { input }; let x1 = if input > max { max } else if input < min { min } else { input }; let x2 = if input < min { min } else if input > max { max } else { input }; let x3 = if min > input { min } else if max < input { max } else { input }; let x4 = input.max(min).min(max); let x5 = input.min(max).max(min); let x6 = match input { x if x > max => max, x if x < min => min, x => x, }; let x7 = match input { x if x < min => min, x if x > max => max, x => x, }; let x8 = match input { x if max < x => max, x if min > x => min, x => x, }; let mut x9 = input; if x9 < min { x9 = min; } if x9 > max { x9 = max; } let x10 = match input { x if min > x => min, x if max < x => max, x => x, }; let mut x11 = input; let _ = 1; if x11 > max { x11 = max; } if x11 < min { x11 = min; } let mut x12 = input; if min > x12 { x12 = min; } if max < x12 { x12 = max; } let mut x13 = input; if max < x13 { x13 = max; } if min > x13 { x13 = min; } { let (input, min, max) = (0.0f64, -2.0, 3.0); let x14 = if input > max { max } else if input < min { min } else { input }; } let mut x15 = input; if x15 < min { x15 = min; } else if x15 > max { x15 = max; } // It's important this be the last set of statements let mut x16 = input; if max < x16 { x16 = max; } if min > x16 { x16 = min; } } fn const_main() { let input = 0; // Min and max are const, so this should trigger the lint. let x0 = input.clamp(CONST_MIN, CONST_MAX); let x1 = input.clamp(CONST_MIN, CONST_MAX); let x2 = input.clamp(CONST_MIN, CONST_MAX); let x3 = input.clamp(CONST_MIN, CONST_MAX); let x4 = input.clamp(CONST_MIN, CONST_MAX); //~^ ERROR: clamp-like pattern without using clamp function //~| NOTE: clamp will panic if max < min let x5 = input.clamp(CONST_MIN, CONST_MAX); //~^ ERROR: clamp-like pattern without using clamp function //~| NOTE: clamp will panic if max < min let x6 = input.clamp(CONST_MIN, CONST_MAX); let x7 = input.clamp(CONST_MIN, CONST_MAX); let x8 = input.clamp(CONST_MIN, CONST_MAX); let mut x9 = input; x9 = x9.clamp(CONST_MIN, CONST_MAX); let x10 = input.clamp(CONST_MIN, CONST_MAX); let mut x11 = input; let _ = 1; x11 = x11.clamp(CONST_MIN, CONST_MAX); let mut x12 = input; x12 = x12.clamp(CONST_MIN, CONST_MAX); let mut x13 = input; x13 = x13.clamp(CONST_MIN, CONST_MAX); let x14 = input.clamp(CONST_MIN, CONST_MAX); { let input = 0.0f64; let x15 = input.clamp(CONST_F64_MIN, CONST_F64_MAX); } { let input: i32 = cmp_min_max(1); // These can only be detected if exactly one of the arguments to the inner function is const. let x16 = input.clamp(CONST_MIN, CONST_MAX); //~^ ERROR: clamp-like pattern without using clamp function //~| NOTE: clamp will panic if max < min let x17 = input.clamp(CONST_MIN, CONST_MAX); //~^ ERROR: clamp-like pattern without using clamp function //~| NOTE: clamp will panic if max < min let x18 = input.clamp(CONST_MIN, CONST_MAX); //~^ ERROR: clamp-like pattern without using clamp function //~| NOTE: clamp will panic if max < min let x19 = input.clamp(CONST_MIN, CONST_MAX); //~^ ERROR: clamp-like pattern without using clamp function //~| NOTE: clamp will panic if max < min let x20 = input.clamp(CONST_MIN, CONST_MAX); //~^ ERROR: clamp-like pattern without using clamp function //~| NOTE: clamp will panic if max < min let x21 = input.clamp(CONST_MIN, CONST_MAX); //~^ ERROR: clamp-like pattern without using clamp function //~| NOTE: clamp will panic if max < min let x22 = input.clamp(CONST_MIN, CONST_MAX); //~^ ERROR: clamp-like pattern without using clamp function //~| NOTE: clamp will panic if max < min let x23 = input.clamp(CONST_MIN, CONST_MAX); //~^ ERROR: clamp-like pattern without using clamp function //~| NOTE: clamp will panic if max < min let input: f64 = cmp_min_max(1) as f64; let x24 = input.clamp(CONST_F64_MIN, CONST_F64_MAX); //~^ ERROR: clamp-like pattern without using clamp function //~| NOTE: clamp will panic if max < min, min.is_nan(), or max.is_nan() let x25 = input.clamp(CONST_F64_MIN, CONST_F64_MAX); //~^ ERROR: clamp-like pattern without using clamp function //~| NOTE: clamp will panic if max < min, min.is_nan(), or max.is_nan() let x26 = input.clamp(CONST_F64_MIN, CONST_F64_MAX); //~^ ERROR: clamp-like pattern without using clamp function //~| NOTE: clamp will panic if max < min, min.is_nan(), or max.is_nan() let x27 = input.clamp(CONST_F64_MIN, CONST_F64_MAX); //~^ ERROR: clamp-like pattern without using clamp function //~| NOTE: clamp will panic if max < min, min.is_nan(), or max.is_nan() let x28 = input.clamp(CONST_F64_MIN, CONST_F64_MAX); //~^ ERROR: clamp-like pattern without using clamp function //~| NOTE: clamp will panic if max < min, min.is_nan(), or max.is_nan() let x29 = input.clamp(CONST_F64_MIN, CONST_F64_MAX); //~^ ERROR: clamp-like pattern without using clamp function //~| NOTE: clamp will panic if max < min, min.is_nan(), or max.is_nan() let x30 = input.clamp(CONST_F64_MIN, CONST_F64_MAX); //~^ ERROR: clamp-like pattern without using clamp function //~| NOTE: clamp will panic if max < min, min.is_nan(), or max.is_nan() let x31 = input.clamp(CONST_F64_MIN, CONST_F64_MAX); //~^ ERROR: clamp-like pattern without using clamp function //~| NOTE: clamp will panic if max < min, min.is_nan(), or max.is_nan() } let mut x32 = input; x32 = x32.clamp(CONST_MIN, CONST_MAX); // Flip the script, swap the places of min and max. Make sure this doesn't // trigger when clamp would be guaranteed to panic. let mut x33 = input; if x33 < CONST_MAX { x33 = CONST_MAX; } else if x33 > CONST_MIN { x33 = CONST_MIN; } // Do it again for NaN #[allow(invalid_nan_comparisons)] { let mut x34 = input as f64; if x34 < f64::NAN { x34 = f64::NAN; } else if x34 > CONST_F64_MAX { x34 = CONST_F64_MAX; } } // It's important this be the last set of statements let mut x35 = input; x35 = x35.clamp(CONST_MIN, CONST_MAX); } // This code intentionally nonsense. fn no_lint() { let input = 0; let x0 = if CONST_MAX < input { CONST_MAX } else if CONST_MIN > input { CONST_MAX } else { CONST_MIN }; let x1 = if input > CONST_MAX { CONST_MAX } else if input > CONST_MIN { CONST_MIN } else { CONST_MAX }; let x2 = if CONST_MAX < CONST_MIN { CONST_MIN } else if input > CONST_MAX { input } else { input }; let x3 = if CONST_MIN > input { input } else if CONST_MAX < input { CONST_MAX } else { CONST_MAX }; let x6 = match input { x if x < CONST_MAX => x, x if x < CONST_MIN => x, x => x, }; let x7 = match input { x if x < CONST_MIN => CONST_MAX, x if x > CONST_MAX => CONST_MIN, x => x, }; let x8 = match input { x if CONST_MAX > x => CONST_MAX, x if CONST_MIN > x => CONST_MIN, x => x, }; let mut x9 = input; if x9 > CONST_MIN { x9 = CONST_MIN; } if x9 > CONST_MAX { x9 = CONST_MAX; } let x10 = match input { x if CONST_MIN > x => CONST_MIN, x if CONST_MAX < x => CONST_MAX, x => CONST_MIN, }; let mut x11 = input; if x11 > CONST_MAX { x11 = CONST_MIN; } if x11 < CONST_MIN { x11 = CONST_MAX; } let mut x12 = input; if CONST_MIN > x12 { x12 = CONST_MAX * 3; } if CONST_MAX < x12 { x12 = CONST_MIN; } let mut x13 = input; if CONST_MAX < x13 { let x13 = CONST_MAX; } if CONST_MIN > x13 { x13 = CONST_MIN; } let mut x14 = input; if x14 < CONST_MIN { x14 = 3; } else if x14 > CONST_MAX { x14 = CONST_MAX; } { let input: i32 = cmp_min_max(1); // These can only be detected if exactly one of the arguments to the inner function is const. let x16 = cmp_max(cmp_max(input, CONST_MAX), CONST_MIN); let x17 = cmp_min(cmp_min(input, CONST_MIN), CONST_MAX); let x18 = cmp_max(CONST_MIN, cmp_max(input, CONST_MAX)); let x19 = cmp_min(CONST_MAX, cmp_min(input, CONST_MIN)); let x20 = cmp_max(cmp_max(CONST_MAX, input), CONST_MIN); let x21 = cmp_min(cmp_min(CONST_MIN, input), CONST_MAX); let x22 = cmp_max(CONST_MIN, cmp_max(CONST_MAX, input)); let x23 = cmp_min(CONST_MAX, cmp_min(CONST_MIN, input)); let input: f64 = cmp_min_max(1) as f64; let x24 = f64::max(f64::max(input, CONST_F64_MAX), CONST_F64_MIN); let x25 = f64::min(f64::min(input, CONST_F64_MIN), CONST_F64_MAX); let x26 = f64::max(CONST_F64_MIN, f64::max(input, CONST_F64_MAX)); let x27 = f64::min(CONST_F64_MAX, f64::min(input, CONST_F64_MIN)); let x28 = f64::max(f64::max(CONST_F64_MAX, input), CONST_F64_MIN); let x29 = f64::min(f64::min(CONST_F64_MIN, input), CONST_F64_MAX); let x30 = f64::max(CONST_F64_MIN, f64::max(CONST_F64_MAX, input)); let x31 = f64::min(CONST_F64_MAX, f64::min(CONST_F64_MIN, input)); let x32 = f64::min(CONST_F64_MAX, f64::min(CONST_F64_MIN, CONST_F64_MAX)); } } fn dont_tell_me_what_to_do() { let (input, min, max) = (0, -2, 3); let mut x_never = input; #[allow(clippy::manual_clamp)] if x_never < min { x_never = min; } if x_never > max { x_never = max; } } /// Just to ensure this isn't const evaled fn cmp_min_max(input: i32) -> i32 { input * 3 } #[clippy::msrv = "1.49"] fn msrv_1_49() { let (input, min, max) = (0, -1, 2); let _ = if input < min { min } else if input > max { max } else { input }; } #[clippy::msrv = "1.50"] fn msrv_1_50() { let input = 0; let _ = input.clamp(CONST_MIN, CONST_MAX); } const fn _const() { let (input, min, max) = (0, -1, 2); let _ = if input < min { min } else if input > max { max } else { input }; let mut x = input; if max < x { let x = max; } if min > x { x = min; } }