library/std/src/time/tests.rs - third_party/github.com/rust-lang/rust - Git at Google

 use super::{Duration, Instant, SystemTime, UNIX_EPOCH};

 macro_rules! assert_almost_eq {
     ($a:expr, $b:expr) => {{
         let (a, b) = ($a, $b);
         if a != b {
             let (a, b) = if a > b { (a, b) } else { (b, a) };
             assert!(a - Duration::from_micros(1) <= b, "{:?} is not almost equal to {:?}", a, b);
         }
     }};
 }

 #[test]
 fn instant_monotonic() {
     let a = Instant::now();
     let b = Instant::now();
     assert!(b >= a);
 }

 #[test]
 fn instant_elapsed() {
     let a = Instant::now();
     a.elapsed();
 }

 #[test]
 fn instant_math() {
     let a = Instant::now();
     let b = Instant::now();
     println!("a: {:?}", a);
     println!("b: {:?}", b);
     let dur = b.duration_since(a);
     println!("dur: {:?}", dur);
     assert_almost_eq!(b - dur, a);
     assert_almost_eq!(a + dur, b);

     let second = Duration::SECOND;
     assert_almost_eq!(a - second + second, a);
     assert_almost_eq!(a.checked_sub(second).unwrap().checked_add(second).unwrap(), a);

     // checked_add_duration will not panic on overflow
     let mut maybe_t = Some(Instant::now());
     let max_duration = Duration::from_secs(u64::MAX);
     // in case `Instant` can store `>= now + max_duration`.
     for _ in 0..2 {
         maybe_t = maybe_t.and_then(|t| t.checked_add(max_duration));
     }
     assert_eq!(maybe_t, None);

     // checked_add_duration calculates the right time and will work for another year
     let year = Duration::from_secs(60 * 60 * 24 * 365);
     assert_eq!(a + year, a.checked_add(year).unwrap());
 }

 #[test]
 fn instant_math_is_associative() {
     let now = Instant::now();
     let offset = Duration::from_millis(5);
     // Changing the order of instant math shouldn't change the results,
     // especially when the expression reduces to X + identity.
     assert_eq!((now + offset) - now, (now - now) + offset);
 }

 #[test]
 #[should_panic]
 fn instant_duration_since_panic() {
     let a = Instant::now();
     (a - Duration::SECOND).duration_since(a);
 }

 #[test]
 fn instant_checked_duration_since_nopanic() {
     let now = Instant::now();
     let earlier = now - Duration::SECOND;
     let later = now + Duration::SECOND;
     assert_eq!(earlier.checked_duration_since(now), None);
     assert_eq!(later.checked_duration_since(now), Some(Duration::SECOND));
     assert_eq!(now.checked_duration_since(now), Some(Duration::ZERO));
 }

 #[test]
 fn instant_saturating_duration_since_nopanic() {
     let a = Instant::now();
     let ret = (a - Duration::SECOND).saturating_duration_since(a);
     assert_eq!(ret, Duration::ZERO);
 }

 #[test]
 fn system_time_math() {
     let a = SystemTime::now();
     let b = SystemTime::now();
     match b.duration_since(a) {
         Ok(Duration::ZERO) => {
             assert_almost_eq!(a, b);
         }
         Ok(dur) => {
             assert!(b > a);
             assert_almost_eq!(b - dur, a);
             assert_almost_eq!(a + dur, b);
         }
         Err(dur) => {
             let dur = dur.duration();
             assert!(a > b);
             assert_almost_eq!(b + dur, a);
             assert_almost_eq!(a - dur, b);
         }
     }

     let second = Duration::SECOND;
     assert_almost_eq!(a.duration_since(a - second).unwrap(), second);
     assert_almost_eq!(a.duration_since(a + second).unwrap_err().duration(), second);

     assert_almost_eq!(a - second + second, a);
     assert_almost_eq!(a.checked_sub(second).unwrap().checked_add(second).unwrap(), a);

     let one_second_from_epoch = UNIX_EPOCH + Duration::SECOND;
     let one_second_from_epoch2 =
         UNIX_EPOCH + Duration::from_millis(500) + Duration::from_millis(500);
     assert_eq!(one_second_from_epoch, one_second_from_epoch2);

     // checked_add_duration will not panic on overflow
     let mut maybe_t = Some(SystemTime::UNIX_EPOCH);
     let max_duration = Duration::from_secs(u64::MAX);
     // in case `SystemTime` can store `>= UNIX_EPOCH + max_duration`.
     for _ in 0..2 {
         maybe_t = maybe_t.and_then(|t| t.checked_add(max_duration));
     }
     assert_eq!(maybe_t, None);

     // checked_add_duration calculates the right time and will work for another year
     let year = Duration::from_secs(60 * 60 * 24 * 365);
     assert_eq!(a + year, a.checked_add(year).unwrap());
 }

 #[test]
 fn system_time_elapsed() {
     let a = SystemTime::now();
     drop(a.elapsed());
 }

 #[test]
 fn since_epoch() {
     let ts = SystemTime::now();
     let a = ts.duration_since(UNIX_EPOCH + Duration::SECOND).unwrap();
     let b = ts.duration_since(UNIX_EPOCH).unwrap();
     assert!(b > a);
     assert_eq!(b - a, Duration::SECOND);

     let thirty_years = Duration::SECOND * 60 * 60 * 24 * 365 * 30;

     // Right now for CI this test is run in an emulator, and apparently the
     // aarch64 emulator's sense of time is that we're still living in the
     // 70s. This is also true for riscv (also qemu)
     //
     // Otherwise let's assume that we're all running computers later than
     // 2000.
     if !cfg!(target_arch = "aarch64") && !cfg!(target_arch = "riscv64") {
         assert!(a > thirty_years);
     }

     // let's assume that we're all running computers earlier than 2090.
     // Should give us ~70 years to fix this!
     let hundred_twenty_years = thirty_years * 4;
     assert!(a < hundred_twenty_years);
 }
	use super::{Duration, Instant, SystemTime, UNIX_EPOCH};

	macro_rules! assert_almost_eq {
	($a:expr, $b:expr) => {{
	let (a, b) = ($a, $b);
	if a != b {
	let (a, b) = if a > b { (a, b) } else { (b, a) };
	assert!(a - Duration::from_micros(1) <= b, "{:?} is not almost equal to {:?}", a, b);
	}
	}};
	}

	#[test]
	fn instant_monotonic() {
	let a = Instant::now();
	let b = Instant::now();
	assert!(b >= a);
	}

	#[test]
	fn instant_elapsed() {
	let a = Instant::now();
	a.elapsed();
	}

	#[test]
	fn instant_math() {
	let a = Instant::now();
	let b = Instant::now();
	println!("a: {:?}", a);
	println!("b: {:?}", b);
	let dur = b.duration_since(a);
	println!("dur: {:?}", dur);
	assert_almost_eq!(b - dur, a);
	assert_almost_eq!(a + dur, b);

	let second = Duration::SECOND;
	assert_almost_eq!(a - second + second, a);
	assert_almost_eq!(a.checked_sub(second).unwrap().checked_add(second).unwrap(), a);

	// checked_add_duration will not panic on overflow
	let mut maybe_t = Some(Instant::now());
	let max_duration = Duration::from_secs(u64::MAX);
	// in case `Instant` can store `>= now + max_duration`.
	for _ in 0..2 {
	maybe_t = maybe_t.and_then(\|t\| t.checked_add(max_duration));
	}
	assert_eq!(maybe_t, None);

	// checked_add_duration calculates the right time and will work for another year
	let year = Duration::from_secs(60 * 60 * 24 * 365);
	assert_eq!(a + year, a.checked_add(year).unwrap());
	}

	#[test]
	fn instant_math_is_associative() {
	let now = Instant::now();
	let offset = Duration::from_millis(5);
	// Changing the order of instant math shouldn't change the results,
	// especially when the expression reduces to X + identity.
	assert_eq!((now + offset) - now, (now - now) + offset);
	}

	#[test]
	#[should_panic]
	fn instant_duration_since_panic() {
	let a = Instant::now();
	(a - Duration::SECOND).duration_since(a);
	}

	#[test]
	fn instant_checked_duration_since_nopanic() {
	let now = Instant::now();
	let earlier = now - Duration::SECOND;
	let later = now + Duration::SECOND;
	assert_eq!(earlier.checked_duration_since(now), None);
	assert_eq!(later.checked_duration_since(now), Some(Duration::SECOND));
	assert_eq!(now.checked_duration_since(now), Some(Duration::ZERO));
	}

	#[test]
	fn instant_saturating_duration_since_nopanic() {
	let a = Instant::now();
	let ret = (a - Duration::SECOND).saturating_duration_since(a);
	assert_eq!(ret, Duration::ZERO);
	}

	#[test]
	fn system_time_math() {
	let a = SystemTime::now();
	let b = SystemTime::now();
	match b.duration_since(a) {
	Ok(Duration::ZERO) => {
	assert_almost_eq!(a, b);
	}
	Ok(dur) => {
	assert!(b > a);
	assert_almost_eq!(b - dur, a);
	assert_almost_eq!(a + dur, b);
	}
	Err(dur) => {
	let dur = dur.duration();
	assert!(a > b);
	assert_almost_eq!(b + dur, a);
	assert_almost_eq!(a - dur, b);
	}
	}

	let second = Duration::SECOND;
	assert_almost_eq!(a.duration_since(a - second).unwrap(), second);
	assert_almost_eq!(a.duration_since(a + second).unwrap_err().duration(), second);

	assert_almost_eq!(a - second + second, a);
	assert_almost_eq!(a.checked_sub(second).unwrap().checked_add(second).unwrap(), a);

	let one_second_from_epoch = UNIX_EPOCH + Duration::SECOND;
	let one_second_from_epoch2 =
	UNIX_EPOCH + Duration::from_millis(500) + Duration::from_millis(500);
	assert_eq!(one_second_from_epoch, one_second_from_epoch2);

	// checked_add_duration will not panic on overflow
	let mut maybe_t = Some(SystemTime::UNIX_EPOCH);
	let max_duration = Duration::from_secs(u64::MAX);
	// in case `SystemTime` can store `>= UNIX_EPOCH + max_duration`.
	for _ in 0..2 {
	maybe_t = maybe_t.and_then(\|t\| t.checked_add(max_duration));
	}
	assert_eq!(maybe_t, None);

	// checked_add_duration calculates the right time and will work for another year
	let year = Duration::from_secs(60 * 60 * 24 * 365);
	assert_eq!(a + year, a.checked_add(year).unwrap());
	}

	#[test]
	fn system_time_elapsed() {
	let a = SystemTime::now();
	drop(a.elapsed());
	}

	#[test]
	fn since_epoch() {
	let ts = SystemTime::now();
	let a = ts.duration_since(UNIX_EPOCH + Duration::SECOND).unwrap();
	let b = ts.duration_since(UNIX_EPOCH).unwrap();
	assert!(b > a);
	assert_eq!(b - a, Duration::SECOND);

	let thirty_years = Duration::SECOND * 60 * 60 * 24 * 365 * 30;

	// Right now for CI this test is run in an emulator, and apparently the
	// aarch64 emulator's sense of time is that we're still living in the
	// 70s. This is also true for riscv (also qemu)
	//
	// Otherwise let's assume that we're all running computers later than
	// 2000.
	if !cfg!(target_arch = "aarch64") && !cfg!(target_arch = "riscv64") {
	assert!(a > thirty_years);
	}

	// let's assume that we're all running computers earlier than 2090.
	// Should give us ~70 years to fix this!
	let hundred_twenty_years = thirty_years * 4;
	assert!(a < hundred_twenty_years);
	}