let (tx, rx) = channel();
run_test(&TestOpts::new(), false, desc, RunStrategy::InProcess, tx, Concurrent::No);
let result = rx.recv().unwrap().result;
- assert!(result != TrOk);
+ assert_ne!(result, TrOk);
}
#[test]
let (tx, rx) = channel();
run_test(&TestOpts::new(), false, desc, RunStrategy::InProcess, tx, Concurrent::No);
let result = rx.recv().unwrap().result;
- assert!(result == TrIgnored);
+ assert_eq!(result, TrIgnored);
}
// FIXME: Re-enable emscripten once it can catch panics again (introduced by #65251)
let (tx, rx) = channel();
run_test(&TestOpts::new(), false, desc, RunStrategy::InProcess, tx, Concurrent::No);
let result = rx.recv().unwrap().result;
- assert!(result == TrOk);
+ assert_eq!(result, TrOk);
}
// FIXME: Re-enable emscripten once it can catch panics again (introduced by #65251)
let (tx, rx) = channel();
run_test(&TestOpts::new(), false, desc, RunStrategy::InProcess, tx, Concurrent::No);
let result = rx.recv().unwrap().result;
- assert!(result == TrOk);
+ assert_eq!(result, TrOk);
}
// FIXME: Re-enable emscripten once it can catch panics again (introduced by #65251)
let (tx, rx) = channel();
run_test(&TestOpts::new(), false, desc, RunStrategy::InProcess, tx, Concurrent::No);
let result = rx.recv().unwrap().result;
- assert!(result == TrFailedMsg("test did not panic as expected".to_string()));
+ assert_eq!(result, TrFailedMsg("test did not panic as expected".to_string()));
}
fn report_time_test_template(report_time: bool) -> Option<TestExecTime> {
];
for (a, b) in expected.iter().zip(filtered) {
- assert!(*a == b.desc.name.to_string());
+ assert_eq!(*a, b.desc.name.to_string());
}
}