1| |#![allow(unused_assignments)] 2| |// failure-status: 101 3| | 4| 4|fn might_fail_assert(one_plus_one: u32) { 5| 4| println!("does 1 + 1 = {}?", one_plus_one); 6| 4| assert_eq!(1 + 1, one_plus_one, "the argument was wrong"); ^1 7| 3|} 8| | 9| 1|fn main() -> Result<(),u8> { 10| 1| let mut countdown = 10; 11| 11| while countdown > 0 { 12| 11| if countdown == 1 { 13| 1| might_fail_assert(3); 14| 10| } else if countdown < 5 { 15| 3| might_fail_assert(2); 16| 6| } 17| 10| countdown -= 1; 18| | } 19| 0| Ok(()) 20| 0|} 21| | 22| |// Notes: 23| |// 1. Compare this program and its coverage results to those of the very similar test 24| |// `panic_unwind.rs`, and similar tests `abort.rs` and `try_error_result.rs`. 25| |// 2. This test confirms the coverage generated when a program passes or fails an `assert!()` or 26| |// related `assert_*!()` macro. 27| |// 3. Notably, the `assert` macros *do not* generate `TerminatorKind::Assert`. The macros produce 28| |// conditional expressions, `TerminatorKind::SwitchInt` branches, and a possible call to 29| |// `begin_panic_fmt()` (that begins a panic unwind, if the assertion test fails). 30| |// 4. `TerminatoKind::Assert` is, however, also present in the MIR generated for this test 31| |// (and in many other coverage tests). The `Assert` terminator is typically generated by the 32| |// Rust compiler to check for runtime failures, such as numeric overflows.