use re_arrow2::bitmap::{Bitmap, MutableBitmap}; #[test] fn from_slice() { let slice = &[true, false, true]; let a = MutableBitmap::from(slice); assert_eq!(a.iter().collect::>(), slice); } #[test] fn from_len_zeroed() { let a = MutableBitmap::from_len_zeroed(10); assert_eq!(a.len(), 10); assert_eq!(a.unset_bits(), 10); } #[test] fn from_len_set() { let a = MutableBitmap::from_len_set(10); assert_eq!(a.len(), 10); assert_eq!(a.unset_bits(), 0); } #[test] fn try_new_invalid() { assert!(MutableBitmap::try_new(vec![], 2).is_err()); } #[test] fn clear() { let mut a = MutableBitmap::from_len_zeroed(10); a.clear(); assert_eq!(a.len(), 0); } #[test] fn trusted_len() { let data = vec![true; 65]; let bitmap = MutableBitmap::from_trusted_len_iter(data.into_iter()); let bitmap: Bitmap = bitmap.into(); assert_eq!(bitmap.len(), 65); assert_eq!(bitmap.as_slice().0[8], 0b00000001); } #[test] fn trusted_len_small() { let data = vec![true; 7]; let bitmap = MutableBitmap::from_trusted_len_iter(data.into_iter()); let bitmap: Bitmap = bitmap.into(); assert_eq!(bitmap.len(), 7); assert_eq!(bitmap.as_slice().0[0], 0b01111111); } #[test] fn push() { let mut bitmap = MutableBitmap::new(); bitmap.push(true); bitmap.push(false); bitmap.push(false); for _ in 0..7 { bitmap.push(true) } let bitmap: Bitmap = bitmap.into(); assert_eq!(bitmap.len(), 10); assert_eq!(bitmap.as_slice().0, &[0b11111001, 0b00000011]); } #[test] fn push_small() { let mut bitmap = MutableBitmap::new(); bitmap.push(true); bitmap.push(true); bitmap.push(false); let bitmap: Option = bitmap.into(); let bitmap = bitmap.unwrap(); assert_eq!(bitmap.len(), 3); assert_eq!(bitmap.as_slice().0[0], 0b00000011); } #[test] fn push_exact_zeros() { let mut bitmap = MutableBitmap::new(); for _ in 0..8 { bitmap.push(false) } let bitmap: Option = bitmap.into(); let bitmap = bitmap.unwrap(); assert_eq!(bitmap.len(), 8); assert_eq!(bitmap.as_slice().0.len(), 1); } #[test] fn push_exact_ones() { let mut bitmap = MutableBitmap::new(); for _ in 0..8 { bitmap.push(true) } let bitmap: Option = bitmap.into(); assert!(bitmap.is_none()); } #[test] fn pop() { let mut bitmap = MutableBitmap::new(); bitmap.push(false); bitmap.push(true); bitmap.push(false); bitmap.push(true); assert_eq!(bitmap.pop(), Some(true)); assert_eq!(bitmap.len(), 3); assert_eq!(bitmap.pop(), Some(false)); assert_eq!(bitmap.len(), 2); let bitmap: Bitmap = bitmap.into(); assert_eq!(bitmap.len(), 2); assert_eq!(bitmap.as_slice().0[0], 0b00001010); } #[test] fn pop_large() { let mut bitmap = MutableBitmap::new(); for _ in 0..8 { bitmap.push(true); } bitmap.push(false); bitmap.push(true); bitmap.push(false); assert_eq!(bitmap.pop(), Some(false)); assert_eq!(bitmap.len(), 10); assert_eq!(bitmap.pop(), Some(true)); assert_eq!(bitmap.len(), 9); assert_eq!(bitmap.pop(), Some(false)); assert_eq!(bitmap.len(), 8); let bitmap: Bitmap = bitmap.into(); assert_eq!(bitmap.len(), 8); assert_eq!(bitmap.as_slice().0, &[0b11111111]); } #[test] fn pop_all() { let mut bitmap = MutableBitmap::new(); bitmap.push(false); bitmap.push(true); bitmap.push(true); bitmap.push(true); assert_eq!(bitmap.pop(), Some(true)); assert_eq!(bitmap.len(), 3); assert_eq!(bitmap.pop(), Some(true)); assert_eq!(bitmap.len(), 2); assert_eq!(bitmap.pop(), Some(true)); assert_eq!(bitmap.len(), 1); assert_eq!(bitmap.pop(), Some(false)); assert_eq!(bitmap.len(), 0); assert_eq!(bitmap.pop(), None); assert_eq!(bitmap.len(), 0); } #[test] fn capacity() { let b = MutableBitmap::with_capacity(10); assert!(b.capacity() >= 10); } #[test] fn capacity_push() { let mut b = MutableBitmap::with_capacity(512); (0..512).for_each(|_| b.push(true)); assert_eq!(b.capacity(), 512); b.reserve(8); assert_eq!(b.capacity(), 1024); } #[test] fn extend() { let mut b = MutableBitmap::new(); let iter = (0..512).map(|i| i % 6 == 0); unsafe { b.extend_from_trusted_len_iter_unchecked(iter) }; let b: Bitmap = b.into(); for (i, v) in b.iter().enumerate() { assert_eq!(i % 6 == 0, v); } } #[test] fn extend_offset() { let mut b = MutableBitmap::new(); b.push(true); let iter = (0..512).map(|i| i % 6 == 0); unsafe { b.extend_from_trusted_len_iter_unchecked(iter) }; let b: Bitmap = b.into(); let mut iter = b.iter().enumerate(); assert!(iter.next().unwrap().1); for (i, v) in iter { assert_eq!((i - 1) % 6 == 0, v); } } #[test] fn set() { let mut bitmap = MutableBitmap::from_len_zeroed(12); bitmap.set(0, true); assert!(bitmap.get(0)); bitmap.set(0, false); assert!(!bitmap.get(0)); bitmap.set(11, true); assert!(bitmap.get(11)); bitmap.set(11, false); assert!(!bitmap.get(11)); bitmap.set(11, true); let bitmap: Option = bitmap.into(); let bitmap = bitmap.unwrap(); assert_eq!(bitmap.len(), 12); assert_eq!(bitmap.as_slice().0[0], 0b00000000); } #[test] fn extend_from_bitmap() { let other = Bitmap::from(&[true, false, true]); let mut bitmap = MutableBitmap::new(); // call is optimized to perform a memcopy bitmap.extend_from_bitmap(&other); assert_eq!(bitmap.len(), 3); assert_eq!(bitmap.as_slice()[0], 0b00000101); // this call iterates over all bits bitmap.extend_from_bitmap(&other); assert_eq!(bitmap.len(), 6); assert_eq!(bitmap.as_slice()[0], 0b00101101); } #[test] fn extend_from_bitmap_offset() { let other = Bitmap::from_u8_slice([0b00111111], 8); let mut bitmap = MutableBitmap::from_vec(vec![1, 0, 0b00101010], 22); // call is optimized to perform a memcopy bitmap.extend_from_bitmap(&other); assert_eq!(bitmap.len(), 22 + 8); assert_eq!(bitmap.as_slice(), &[1, 0, 0b11101010, 0b00001111]); // more than one byte let other = Bitmap::from_u8_slice([0b00111111, 0b00001111, 0b0001100], 20); let mut bitmap = MutableBitmap::from_vec(vec![1, 0, 0b00101010], 22); // call is optimized to perform a memcopy bitmap.extend_from_bitmap(&other); assert_eq!(bitmap.len(), 22 + 20); assert_eq!( bitmap.as_slice(), &[1, 0, 0b11101010, 0b11001111, 0b0000011, 0b0000011] ); } #[test] fn debug() { let mut b = MutableBitmap::new(); assert_eq!(format!("{b:?}"), "[]"); b.push(true); b.push(false); assert_eq!(format!("{b:?}"), "[0b______01]"); b.push(false); b.push(false); b.push(false); b.push(false); b.push(true); b.push(true); assert_eq!(format!("{b:?}"), "[0b11000001]"); b.push(true); assert_eq!(format!("{b:?}"), "[0b11000001, 0b_______1]"); } #[test] fn extend_set() { let mut b = MutableBitmap::new(); b.extend_constant(6, true); assert_eq!(b.as_slice(), &[0b11111111]); assert_eq!(b.len(), 6); let mut b = MutableBitmap::from(&[false]); b.extend_constant(6, true); assert_eq!(b.as_slice(), &[0b01111110]); assert_eq!(b.len(), 1 + 6); let mut b = MutableBitmap::from(&[false]); b.extend_constant(9, true); assert_eq!(b.as_slice(), &[0b11111110, 0b11111111]); assert_eq!(b.len(), 1 + 9); let mut b = MutableBitmap::from(&[false, false, false, false]); b.extend_constant(2, true); assert_eq!(b.as_slice(), &[0b00110000]); assert_eq!(b.len(), 4 + 2); let mut b = MutableBitmap::from(&[false, false, false, false]); b.extend_constant(8, true); assert_eq!(b.as_slice(), &[0b11110000, 0b11111111]); assert_eq!(b.len(), 4 + 8); let mut b = MutableBitmap::from(&[true, true]); b.extend_constant(3, true); assert_eq!(b.as_slice(), &[0b00011111]); assert_eq!(b.len(), 2 + 3); } #[test] fn extend_unset() { let mut b = MutableBitmap::new(); b.extend_constant(6, false); assert_eq!(b.as_slice(), &[0b0000000]); assert_eq!(b.len(), 6); let mut b = MutableBitmap::from(&[true]); b.extend_constant(6, false); assert_eq!(b.as_slice(), &[0b00000001]); assert_eq!(b.len(), 1 + 6); let mut b = MutableBitmap::from(&[true]); b.extend_constant(9, false); assert_eq!(b.as_slice(), &[0b0000001, 0b00000000]); assert_eq!(b.len(), 1 + 9); let mut b = MutableBitmap::from(&[true, true, true, true]); b.extend_constant(2, false); assert_eq!(b.as_slice(), &[0b00001111]); assert_eq!(b.len(), 4 + 2); } #[test] fn extend_bitmap() { let mut b = MutableBitmap::from(&[true]); b.extend_from_slice(&[0b00011001], 0, 6); assert_eq!(b.as_slice(), &[0b00110011]); assert_eq!(b.len(), 1 + 6); let mut b = MutableBitmap::from(&[true]); b.extend_from_slice(&[0b00011001, 0b00011001], 0, 9); assert_eq!(b.as_slice(), &[0b00110011, 0b00110010]); assert_eq!(b.len(), 1 + 9); let mut b = MutableBitmap::from(&[true, true, true, true]); b.extend_from_slice(&[0b00011001, 0b00011001], 0, 9); assert_eq!(b.as_slice(), &[0b10011111, 0b10010001]); assert_eq!(b.len(), 4 + 9); let mut b = MutableBitmap::from(&[true, true, true, true, true]); b.extend_from_slice(&[0b00001011], 0, 4); assert_eq!(b.as_slice(), &[0b01111111, 0b00000001]); assert_eq!(b.len(), 5 + 4); } // TODO! undo miri ignore once issue is fixed in miri // this test was a memory hog and lead to OOM in CI // given enough memory it was able to pass succesfully on a local #[test] #[cfg_attr(miri, ignore)] fn extend_constant1() { use std::iter::FromIterator; for i in 0..64 { for j in 0..64 { let mut b = MutableBitmap::new(); b.extend_constant(i, false); b.extend_constant(j, true); assert_eq!( b, MutableBitmap::from_iter( std::iter::repeat(false) .take(i) .chain(std::iter::repeat(true).take(j)) ) ); let mut b = MutableBitmap::new(); b.extend_constant(i, true); b.extend_constant(j, false); assert_eq!( b, MutableBitmap::from_iter( std::iter::repeat(true) .take(i) .chain(std::iter::repeat(false).take(j)) ) ); } } } #[test] fn extend_bitmap_one() { for offset in 0..7 { let mut b = MutableBitmap::new(); for _ in 0..4 { b.extend_from_slice(&[!0], offset, 1); b.extend_from_slice(&[!0], offset, 1); } assert_eq!(b.as_slice(), &[0b11111111]); } } #[test] fn extend_bitmap_other() { let mut a = MutableBitmap::from([true, true, true, false, true, true, true, false, true, true]); a.extend_from_slice(&[0b01111110u8, 0b10111111, 0b11011111, 0b00000111], 20, 2); assert_eq!( a, MutableBitmap::from([ true, true, true, false, true, true, true, false, true, true, true, false ]) ); } #[test] fn shrink_to_fit() { let mut a = MutableBitmap::with_capacity(1025); a.push(false); a.shrink_to_fit(); assert!(a.capacity() < 1025); }