extern crate space_age; use space_age::*; fn assert_in_delta(expected: f64, actual: f64) { let diff: f64 = (expected - actual).abs(); let delta: f64 = 0.01; if diff > delta { panic!( "Your result of {} should be within {} of the expected result {}", actual, delta, expected ) } } #[test] fn earth_age() { let duration = Duration::from(1_000_000_000); assert_in_delta(31.69, Earth::years_during(&duration)); } #[test] #[ignore] fn mercury_age() { let duration = Duration::from(2_134_835_688); assert_in_delta(280.88, Mercury::years_during(&duration)); } #[test] #[ignore] fn venus_age() { let duration = Duration::from(189_839_836); assert_in_delta(9.78, Venus::years_during(&duration)); } #[test] #[ignore] fn mars_age() { let duration = Duration::from(2_329_871_239); assert_in_delta(39.25, Mars::years_during(&duration)); } #[test] #[ignore] fn jupiter_age() { let duration = Duration::from(901_876_382); assert_in_delta(2.41, Jupiter::years_during(&duration)); } #[test] #[ignore] fn saturn_age() { let duration = Duration::from(3_000_000_000); assert_in_delta(3.23, Saturn::years_during(&duration)); } #[test] #[ignore] fn uranus_age() { let duration = Duration::from(3_210_123_456); assert_in_delta(1.21, Uranus::years_during(&duration)); } #[test] #[ignore] fn neptune_age() { let duration = Duration::from(8_210_123_456); assert_in_delta(1.58, Neptune::years_during(&duration)); }