mod basic; mod decimal; mod time; use re_arrow2::array::*; use re_arrow2::compute::arithmetics::*; use re_arrow2::datatypes::DataType::*; use re_arrow2::datatypes::{IntervalUnit, TimeUnit}; use re_arrow2::scalar::PrimitiveScalar; #[test] fn test_add() { let a = Int32Array::from(&[None, Some(6), None, Some(6)]); let b = Int32Array::from(&[Some(5), None, None, Some(6)]); let result = add(&a, &b); let expected = Int32Array::from(&[None, None, None, Some(12)]); assert_eq!(expected, result.as_ref()); } #[test] fn test_add_scalar() { let a = Int32Array::from(&[None, Some(6), None, Some(6)]); let b: PrimitiveScalar = Some(1i32).into(); let result = add_scalar(&a, &b); let expected = Int32Array::from(&[None, Some(7), None, Some(7)]); assert_eq!(expected, result.as_ref()); } #[test] fn consistency() { let datatypes = vec![ Null, Boolean, UInt8, UInt16, UInt32, UInt64, Int8, Int16, Int32, Int64, Float32, Float64, Timestamp(TimeUnit::Second, None), Timestamp(TimeUnit::Millisecond, None), Timestamp(TimeUnit::Microsecond, None), Timestamp(TimeUnit::Nanosecond, None), Time64(TimeUnit::Microsecond), Time64(TimeUnit::Nanosecond), Date32, Time32(TimeUnit::Second), Time32(TimeUnit::Millisecond), Date64, Utf8, LargeUtf8, Binary, LargeBinary, Duration(TimeUnit::Second), Duration(TimeUnit::Millisecond), Duration(TimeUnit::Microsecond), Duration(TimeUnit::Nanosecond), Interval(IntervalUnit::MonthDayNano), ]; let cases = datatypes.clone().into_iter().zip(datatypes); cases.for_each(|(lhs, rhs)| { let lhs_a = new_empty_array(lhs.clone()); let rhs_a = new_empty_array(rhs.clone()); if can_add(&lhs, &rhs) { add(lhs_a.as_ref(), rhs_a.as_ref()); } if can_sub(&lhs, &rhs) { sub(lhs_a.as_ref(), rhs_a.as_ref()); } if can_mul(&lhs, &rhs) { mul(lhs_a.as_ref(), rhs_a.as_ref()); } if can_div(&lhs, &rhs) { div(lhs_a.as_ref(), rhs_a.as_ref()); } if can_rem(&lhs, &rhs) { rem(lhs_a.as_ref(), rhs_a.as_ref()); } }); } #[test] fn test_neg() { let a = Int32Array::from(&[None, Some(6), None, Some(6)]); let result = neg(&a); let expected = Int32Array::from(&[None, Some(-6), None, Some(-6)]); assert_eq!(expected, result.as_ref()); } #[test] fn test_neg_dict() { let a = DictionaryArray::try_from_keys( UInt8Array::from_slice([0, 0, 1]), Int8Array::from_slice([1, 2]).boxed(), ) .unwrap(); let result = neg(&a); let expected = DictionaryArray::try_from_keys( UInt8Array::from_slice([0, 0, 1]), Int8Array::from_slice([-1, -2]).boxed(), ) .unwrap(); assert_eq!(expected, result.as_ref()); }