#![warn(clippy::non_zero_suggestions)] use std::num::{NonZeroI16, NonZeroI8, NonZeroU16, NonZeroU32, NonZeroU64, NonZeroU8, NonZeroUsize}; fn main() { // Positive test cases (lint should trigger) // U32 -> U64 let x: u64 = 100; let y = NonZeroU32::new(10).unwrap(); let r1 = x / u64::from(y.get()); let r2 = x % u64::from(y.get()); // U16 -> U32 let a: u32 = 50; let b = NonZeroU16::new(5).unwrap(); let r3 = a / u32::from(b.get()); // I8 -> I16 let c: i16 = 25; let d = NonZeroI8::new(3).unwrap(); let r4 = i16::from(d.get()); // Different operations let m: u64 = 400; let n = NonZeroU32::new(20).unwrap(); let r5 = m / u64::from(n.get()); // Edge cases // Using the max value of a type let max_u32 = NonZeroU32::new(u32::MAX).unwrap(); let r6 = u64::from(max_u32.get()); // Chained method calls let _ = u64::from(NonZeroU32::new(10).unwrap().get()); // Negative test cases (lint should not trigger) // Same size types let e: u32 = 200; let f = NonZeroU32::new(20).unwrap(); let r10 = e / f.get(); // Smaller to larger, but not NonZero let g: u64 = 1000; let h: u32 = 50; let r11 = g / u64::from(h); // Using From correctly let k: u64 = 300; let l = NonZeroU32::new(15).unwrap(); let r12 = k / NonZeroU64::from(l); } // Additional function to test the lint in a different context fn divide_numbers(x: u64, y: NonZeroU32) -> u64 { x / u64::from(y.get()) } struct Calculator { value: u64, } impl Calculator { fn divide(&self, divisor: NonZeroU32) -> u64 { self.value / u64::from(divisor.get()) } }