use re_arrow2::array::*; use re_arrow2::compute::arithmetics::time::*; use re_arrow2::datatypes::{DataType, TimeUnit}; use re_arrow2::scalar::*; use re_arrow2::types::months_days_ns; #[test] fn test_adding_timestamp() { let timestamp = PrimitiveArray::from([Some(100000i64), Some(200000i64), None, Some(300000i64)]) .to(DataType::Timestamp( TimeUnit::Second, Some(std::sync::Arc::new("America/New_york".to_string())), )); let duration = PrimitiveArray::from([Some(10i64), Some(20i64), None, Some(30i64)]) .to(DataType::Duration(TimeUnit::Second)); let result = add_duration(×tamp, &duration); let expected = PrimitiveArray::from([Some(100010i64), Some(200020i64), None, Some(300030i64)]) .to(DataType::Timestamp( TimeUnit::Second, Some(std::sync::Arc::new("America/New_york".to_string())), )); assert_eq!(result, expected); let duration = PrimitiveScalar::from(Some(10i64)).to(DataType::Duration(TimeUnit::Second)); let result = add_duration_scalar(×tamp, &duration); let expected = PrimitiveArray::from([Some(100010i64), Some(200010i64), None, Some(300010i64)]) .to(DataType::Timestamp( TimeUnit::Second, Some(std::sync::Arc::new("America/New_york".to_string())), )); assert_eq!(result, expected); } #[test] fn test_adding_duration_different_scale() { let timestamp = PrimitiveArray::from([Some(100000i64), Some(200000i64), None, Some(300000i64)]) .to(DataType::Timestamp( TimeUnit::Second, Some(std::sync::Arc::new("America/New_york".to_string())), )); let expected = PrimitiveArray::from([Some(100010i64), Some(200020i64), None, Some(300030i64)]) .to(DataType::Timestamp( TimeUnit::Second, Some(std::sync::Arc::new("America/New_york".to_string())), )); // Testing duration in milliseconds let duration = PrimitiveArray::from([Some(10_000i64), Some(20_000i64), None, Some(30_000i64)]) .to(DataType::Duration(TimeUnit::Millisecond)); let result = add_duration(×tamp, &duration); assert_eq!(result, expected); // Testing duration in nanoseconds. // The last digits in the nanosecond are not significant enough to // be added to the timestamp which is in seconds and doesn't have a // fractional value let duration = PrimitiveArray::from([ Some(10_000_000_999i64), Some(20_000_000_000i64), None, Some(30_000_000_000i64), ]) .to(DataType::Duration(TimeUnit::Nanosecond)); let result = add_duration(×tamp, &duration); assert_eq!(result, expected); } #[test] fn test_adding_subtract_timestamps_scale() { let timestamp = PrimitiveArray::from([Some(10i64), Some(20i64), None, Some(30i64)]).to( DataType::Timestamp( TimeUnit::Millisecond, Some(std::sync::Arc::new("America/New_york".to_string())), ), ); let duration = PrimitiveArray::from([Some(1i64), Some(2i64), None, Some(3i64)]) .to(DataType::Duration(TimeUnit::Second)); let expected = PrimitiveArray::from([Some(1_010i64), Some(2_020i64), None, Some(3_030i64)]).to( DataType::Timestamp( TimeUnit::Millisecond, Some(std::sync::Arc::new("America/New_york".to_string())), ), ); let result = add_duration(×tamp, &duration); assert_eq!(result, expected); let timestamp = PrimitiveArray::from([Some(10i64), Some(20i64), None, Some(30i64)]).to( DataType::Timestamp( TimeUnit::Nanosecond, Some(std::sync::Arc::new("America/New_york".to_string())), ), ); let duration = PrimitiveArray::from([Some(1i64), Some(2i64), None, Some(3i64)]) .to(DataType::Duration(TimeUnit::Second)); let expected = PrimitiveArray::from([ Some(1_000_000_010i64), Some(2_000_000_020i64), None, Some(3_000_000_030i64), ]) .to(DataType::Timestamp( TimeUnit::Nanosecond, Some(std::sync::Arc::new("America/New_york".to_string())), )); let result = add_duration(×tamp, &duration); assert_eq!(result, expected); } #[test] fn test_subtract_timestamp() { let timestamp = PrimitiveArray::from([Some(100000i64), Some(200000i64), None, Some(300000i64)]) .to(DataType::Timestamp( TimeUnit::Second, Some(std::sync::Arc::new("America/New_york".to_string())), )); let duration = PrimitiveArray::from([Some(10i64), Some(20i64), None, Some(30i64)]) .to(DataType::Duration(TimeUnit::Second)); let result = subtract_duration(×tamp, &duration); let expected = PrimitiveArray::from([Some(99990i64), Some(199980i64), None, Some(299970i64)]) .to(DataType::Timestamp( TimeUnit::Second, Some(std::sync::Arc::new("America/New_york".to_string())), )); assert_eq!(result, expected); } #[test] fn test_subtracting_duration_different_scale() { let timestamp = PrimitiveArray::from([Some(100000i64), Some(200000i64), None, Some(300000i64)]) .to(DataType::Timestamp( TimeUnit::Second, Some(std::sync::Arc::new("America/New_york".to_string())), )); let expected = PrimitiveArray::from([Some(99990i64), Some(199980i64), None, Some(299970i64)]) .to(DataType::Timestamp( TimeUnit::Second, Some(std::sync::Arc::new("America/New_york".to_string())), )); // Testing duration in milliseconds let duration = PrimitiveArray::from([Some(10_000i64), Some(20_000i64), None, Some(30_000i64)]) .to(DataType::Duration(TimeUnit::Millisecond)); let result = subtract_duration(×tamp, &duration); assert_eq!(result, expected); // Testing duration in nanoseconds. // The last digits in the nanosecond are not significant enough to // be added to the timestamp which is in seconds and doesn't have a // fractional value let duration = PrimitiveArray::from([ Some(10_000_000_999i64), Some(20_000_000_000i64), None, Some(30_000_000_000i64), ]) .to(DataType::Duration(TimeUnit::Nanosecond)); let result = subtract_duration(×tamp, &duration); assert_eq!(result, expected); } #[test] fn test_subtracting_subtract_timestamps_scale() { let timestamp = PrimitiveArray::from([Some(10i64), Some(20i64), None, Some(30i64)]).to( DataType::Timestamp( TimeUnit::Millisecond, Some(std::sync::Arc::new("America/New_york".to_string())), ), ); let duration = PrimitiveArray::from([Some(1i64), Some(2i64), None, Some(3i64)]) .to(DataType::Duration(TimeUnit::Second)); let expected = PrimitiveArray::from([Some(-990i64), Some(-1_980i64), None, Some(-2_970i64)]) .to(DataType::Timestamp( TimeUnit::Millisecond, Some(std::sync::Arc::new("America/New_york".to_string())), )); let result = subtract_duration(×tamp, &duration); assert_eq!(result, expected); let timestamp = PrimitiveArray::from([Some(10i64), Some(20i64), None, Some(30i64)]).to( DataType::Timestamp( TimeUnit::Nanosecond, Some(std::sync::Arc::new("America/New_york".to_string())), ), ); let duration = PrimitiveArray::from([Some(1i64), Some(2i64), None, Some(3i64)]) .to(DataType::Duration(TimeUnit::Second)); let expected = PrimitiveArray::from([ Some(-999_999_990i64), Some(-1_999_999_980i64), None, Some(-2_999_999_970i64), ]) .to(DataType::Timestamp( TimeUnit::Nanosecond, Some(std::sync::Arc::new("America/New_york".to_string())), )); let result = subtract_duration(×tamp, &duration); assert_eq!(result, expected); } #[test] fn test_subtract_timestamps() { let timestamp_a = PrimitiveArray::from([Some(100_010i64), Some(200_020i64), None, Some(300_030i64)]) .to(DataType::Timestamp(TimeUnit::Second, None)); let timestamp_b = PrimitiveArray::from([Some(100_000i64), Some(200_000i64), None, Some(300_000i64)]) .to(DataType::Timestamp(TimeUnit::Second, None)); let expected = PrimitiveArray::from([Some(10i64), Some(20i64), None, Some(30i64)]) .to(DataType::Duration(TimeUnit::Second)); let result = subtract_timestamps(×tamp_a, ×tamp_b).unwrap(); assert_eq!(result, expected); } #[test] fn test_subtract_timestamps_scale() { let timestamp_a = PrimitiveArray::from([ Some(100_000_000i64), Some(200_000_000i64), None, Some(300_000_000i64), ]) .to(DataType::Timestamp(TimeUnit::Millisecond, None)); let timestamp_b = PrimitiveArray::from([Some(100_010i64), Some(200_020i64), None, Some(300_030i64)]) .to(DataType::Timestamp(TimeUnit::Second, None)); let expected = PrimitiveArray::from([Some(-10_000i64), Some(-20_000i64), None, Some(-30_000i64)]) .to(DataType::Duration(TimeUnit::Millisecond)); let result = subtract_timestamps(×tamp_a, ×tamp_b).unwrap(); assert_eq!(result, expected); } #[test] fn test_adding_to_time() { let duration = PrimitiveArray::from([Some(10i64), Some(20i64), None, Some(30i64)]) .to(DataType::Duration(TimeUnit::Second)); // Testing Time32 let time_32 = PrimitiveArray::from([Some(100000i32), Some(200000i32), None, Some(300000i32)]) .to(DataType::Time32(TimeUnit::Second)); let result = add_duration(&time_32, &duration); let expected = PrimitiveArray::from([Some(100010i32), Some(200020i32), None, Some(300030i32)]) .to(DataType::Time32(TimeUnit::Second)); assert_eq!(result, expected); } #[test] fn test_subtract_to_time() { let duration = PrimitiveArray::from([Some(10i64), Some(20i64), None, Some(30i64)]) .to(DataType::Duration(TimeUnit::Second)); // Testing Time32 let time_32 = PrimitiveArray::from([Some(100000i32), Some(200000i32), None, Some(300000i32)]) .to(DataType::Time32(TimeUnit::Second)); let result = subtract_duration(&time_32, &duration); let expected = PrimitiveArray::from([Some(99990i32), Some(199980i32), None, Some(299970i32)]) .to(DataType::Time32(TimeUnit::Second)); assert_eq!(result, expected); } #[test] fn test_date32() { let duration = PrimitiveArray::from([ Some(86_400), // 1 day Some(864_000i64), // 10 days None, Some(8_640_000i64), // 100 days ]) .to(DataType::Duration(TimeUnit::Second)); let date_32 = PrimitiveArray::from([Some(100_000i32), Some(100_000i32), None, Some(100_000i32)]) .to(DataType::Date32); let result = add_duration(&date_32, &duration); let expected = PrimitiveArray::from([Some(100_001i32), Some(100_010i32), None, Some(100_100i32)]) .to(DataType::Date32); assert_eq!(result, expected); let result = subtract_duration(&date_32, &duration); let expected = PrimitiveArray::from([Some(99_999i32), Some(99_990i32), None, Some(99_900i32)]) .to(DataType::Date32); assert_eq!(result, expected); } #[test] fn test_date64() { let duration = PrimitiveArray::from([ Some(10i64), // 10 milliseconds Some(100i64), // 100 milliseconds None, Some(1_000i64), // 1000 milliseconds ]) .to(DataType::Duration(TimeUnit::Millisecond)); let date_64 = PrimitiveArray::from([Some(100_000i64), Some(100_000i64), None, Some(100_000i64)]) .to(DataType::Date64); let result = add_duration(&date_64, &duration); let expected = PrimitiveArray::from([Some(100_010i64), Some(100_100i64), None, Some(101_000i64)]) .to(DataType::Date64); assert_eq!(result, expected); let result = subtract_duration(&date_64, &duration); let expected = PrimitiveArray::from([Some(99_990i64), Some(99_900i64), None, Some(99_000i64)]) .to(DataType::Date64); assert_eq!(result, expected); } #[test] fn test_add_interval() { let timestamp = PrimitiveArray::from_slice([1i64]).to(DataType::Timestamp(TimeUnit::Second, None)); let interval = months_days_ns::new(0, 1, 0); let intervals = PrimitiveArray::from_slice([interval]); let expected = PrimitiveArray::from_slice([1i64 + 24 * 60 * 60]) .to(DataType::Timestamp(TimeUnit::Second, None)); let result = add_interval(×tamp, &intervals).unwrap(); assert_eq!(result, expected); let result = add_interval_scalar(×tamp, &Some(interval).into()).unwrap(); assert_eq!(result, expected); } #[test] fn test_add_interval_offset() { let timestamp = PrimitiveArray::from_slice([1i64]).to(DataType::Timestamp( TimeUnit::Second, Some(std::sync::Arc::new("+01:00".to_string())), )); let interval = months_days_ns::new(0, 1, 0); let intervals = PrimitiveArray::from_slice([interval]); let expected = PrimitiveArray::from_slice([1i64 + 24 * 60 * 60]).to(DataType::Timestamp( TimeUnit::Second, Some(std::sync::Arc::new("+01:00".to_string())), )); let result = add_interval(×tamp, &intervals).unwrap(); assert_eq!(result, expected); let result = add_interval_scalar(×tamp, &Some(interval).into()).unwrap(); assert_eq!(result, expected); } #[cfg(feature = "chrono-tz")] #[test] fn test_add_interval_tz() { let timestamp = PrimitiveArray::from_slice([1i64]).to(DataType::Timestamp( TimeUnit::Second, Some(std::sync::Arc::new("GMT".to_string())), )); let interval = months_days_ns::new(0, 1, 0); let intervals = PrimitiveArray::from_slice([interval]); let expected = PrimitiveArray::from_slice([1i64 + 24 * 60 * 60]).to(DataType::Timestamp( TimeUnit::Second, Some(std::sync::Arc::new("GMT".to_string())), )); let result = add_interval(×tamp, &intervals).unwrap(); assert_eq!(result, expected); let result = add_interval_scalar(×tamp, &Some(interval).into()).unwrap(); assert_eq!(result, expected); }