use re_arrow2::{array::*, compute::substring::*, error::Result, offset::Offset}; fn with_nulls_utf8() -> Result<()> { let cases = vec![ // identity ( vec![Some("hello"), None, Some("word")], 0, None, vec![Some("hello"), None, Some("word")], ), // 0 length -> Nothing ( vec![Some("hello"), None, Some("word")], 0, Some(0), vec![Some(""), None, Some("")], ), // high start -> Nothing ( vec![Some("hello"), None, Some("word")], 1000, Some(0), vec![Some(""), None, Some("")], ), // high negative start -> identity ( vec![Some("hello"), None, Some("word")], -1000, None, vec![Some("hello"), None, Some("word")], ), // high length -> identity ( vec![Some("hello"), None, Some("word")], 0, Some(1000), vec![Some("hello"), None, Some("word")], ), ]; cases .into_iter() .try_for_each::<_, Result<()>>(|(array, start, length, expected)| { let array = Utf8Array::::from(array); let result = substring(&array, start, &length)?; assert_eq!(array.len(), result.len()); let result = result.as_any().downcast_ref::>().unwrap(); let expected = Utf8Array::::from(expected); assert_eq!(&expected, result); Ok(()) })?; Ok(()) } #[test] fn with_nulls_string() -> Result<()> { with_nulls_utf8::() } #[test] fn with_nulls_large_string() -> Result<()> { with_nulls_utf8::() } fn without_nulls_utf8() -> Result<()> { let cases = vec![ // increase start ( vec!["hello", "", "word"], 0, None, vec!["hello", "", "word"], ), (vec!["hello", "", "word"], 1, None, vec!["ello", "", "ord"]), (vec!["hello", "", "word"], 2, None, vec!["llo", "", "rd"]), (vec!["hello", "", "word"], 3, None, vec!["lo", "", "d"]), (vec!["hello", "", "word"], 10, None, vec!["", "", ""]), // increase start negatively (vec!["hello", "", "word"], -1, None, vec!["o", "", "d"]), (vec!["hello", "", "word"], -2, None, vec!["lo", "", "rd"]), (vec!["hello", "", "word"], -3, None, vec!["llo", "", "ord"]), ( vec!["hello", "", "word"], -10, None, vec!["hello", "", "word"], ), // increase length (vec!["hello", "", "word"], 1, Some(1), vec!["e", "", "o"]), (vec!["hello", "", "word"], 1, Some(2), vec!["el", "", "or"]), ( vec!["hello", "", "word"], 1, Some(3), vec!["ell", "", "ord"], ), ( vec!["hello", "", "word"], 1, Some(4), vec!["ello", "", "ord"], ), (vec!["hello", "", "word"], -3, Some(1), vec!["l", "", "o"]), (vec!["hello", "", "word"], -3, Some(2), vec!["ll", "", "or"]), ( vec!["hello", "", "word"], -3, Some(3), vec!["llo", "", "ord"], ), ( vec!["hello", "", "word"], -3, Some(4), vec!["llo", "", "ord"], ), ( vec!["πŸ˜‡πŸ”₯πŸ₯Ί", "", "πŸ˜‡πŸ”₯πŸ—ΊοΈ"], 0, Some(2), vec!["πŸ˜‡πŸ”₯", "", "πŸ˜‡πŸ”₯"], ), (vec!["Ο€1Ο€", "", "Ξ±1Ξ±Ο€"], 1, Some(4), vec!["1Ο€", "", "1Ξ±Ο€"]), ]; cases .into_iter() .try_for_each::<_, Result<()>>(|(array, start, length, expected)| { let array = Utf8Array::::from_slice(array); let result = substring(&array, start, &length)?; assert_eq!(array.len(), result.len()); let result = result.as_any().downcast_ref::>().unwrap(); let expected = Utf8Array::::from_slice(expected); assert_eq!(&expected, result); Ok(()) })?; Ok(()) } #[test] fn without_nulls_string() -> Result<()> { without_nulls_utf8::() } #[test] fn without_nulls_large_string() -> Result<()> { without_nulls_utf8::() } fn with_null_binarys() -> Result<()> { let cases = vec![ // identity ( vec![Some(b"hello"), None, Some(b"world")], 0, None, vec![Some("hello"), None, Some("world")], ), // 0 length -> Nothing ( vec![Some(b"hello"), None, Some(b"world")], 0, Some(0), vec![Some(""), None, Some("")], ), // high start -> Nothing ( vec![Some(b"hello"), None, Some(b"world")], 1000, Some(0), vec![Some(""), None, Some("")], ), // high negative start -> identity ( vec![Some(b"hello"), None, Some(b"world")], -1000, None, vec![Some("hello"), None, Some("world")], ), // high length -> identity ( vec![Some(b"hello"), None, Some(b"world")], 0, Some(1000), vec![Some("hello"), None, Some("world")], ), ]; cases .into_iter() .try_for_each::<_, Result<()>>(|(array, start, length, expected)| { let array = BinaryArray::::from(array); let result = substring(&array, start, &length)?; assert_eq!(array.len(), result.len()); let result = result.as_any().downcast_ref::>().unwrap(); let expected = BinaryArray::::from(expected); assert_eq!(&expected, result); Ok(()) })?; Ok(()) } #[test] fn with_nulls_binary() -> Result<()> { with_null_binarys::() } #[test] fn with_nulls_large_binary() -> Result<()> { with_null_binarys::() } fn without_null_binarys() -> Result<()> { let cases = vec![ // increase start ( vec!["hello", "", "word"], 0, None, vec!["hello", "", "word"], ), (vec!["hello", "", "word"], 1, None, vec!["ello", "", "ord"]), (vec!["hello", "", "word"], 2, None, vec!["llo", "", "rd"]), (vec!["hello", "", "word"], 3, None, vec!["lo", "", "d"]), (vec!["hello", "", "word"], 10, None, vec!["", "", ""]), // increase start negatively (vec!["hello", "", "word"], -1, None, vec!["o", "", "d"]), (vec!["hello", "", "word"], -2, None, vec!["lo", "", "rd"]), (vec!["hello", "", "word"], -3, None, vec!["llo", "", "ord"]), ( vec!["hello", "", "word"], -10, None, vec!["hello", "", "word"], ), // increase length (vec!["hello", "", "word"], 1, Some(1), vec!["e", "", "o"]), (vec!["hello", "", "word"], 1, Some(2), vec!["el", "", "or"]), ( vec!["hello", "", "word"], 1, Some(3), vec!["ell", "", "ord"], ), ( vec!["hello", "", "word"], 1, Some(4), vec!["ello", "", "ord"], ), (vec!["hello", "", "word"], -3, Some(1), vec!["l", "", "o"]), (vec!["hello", "", "word"], -3, Some(2), vec!["ll", "", "or"]), ( vec!["hello", "", "word"], -3, Some(3), vec!["llo", "", "ord"], ), ( vec!["hello", "", "word"], -3, Some(4), vec!["llo", "", "ord"], ), ]; cases .into_iter() .try_for_each::<_, Result<()>>(|(array, start, length, expected)| { let array = BinaryArray::::from_slice(array); let result = substring(&array, start, &length)?; assert_eq!(array.len(), result.len()); let result = result.as_any().downcast_ref::>().unwrap(); let expected = BinaryArray::::from_slice(expected); assert_eq!(&expected, result); Ok(()) })?; Ok(()) } #[test] fn without_nulls_binary() -> Result<()> { without_null_binarys::() } #[test] fn without_nulls_large_binary() -> Result<()> { without_null_binarys::() } #[test] fn consistency() { use re_arrow2::datatypes::DataType::*; use re_arrow2::datatypes::TimeUnit; 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), ]; datatypes.into_iter().for_each(|d1| { let array = new_null_array(d1.clone(), 10); if can_substring(&d1) { assert!(substring(array.as_ref(), 0, &None).is_ok()); } else { assert!(substring(array.as_ref(), 0, &None).is_err()); } }); }