use fsst::CompressorBuilder;
use vortex_array::ArrayRef;
use vortex_array::IntoArray;
use vortex_array::LEGACY_SESSION;
use vortex_array::VortexSessionExecute;
use vortex_array::arrays::VarBinViewArray;
use vortex_array::arrays::varbin::builder::VarBinBuilder;
use vortex_array::assert_arrays_eq;
use vortex_array::assert_nth_scalar;
use vortex_array::dtype::DType;
use vortex_array::dtype::Nullability;
use vortex_buffer::buffer;
use vortex_mask::Mask;
use crate::FSST;
use crate::fsst_compress;
use crate::fsst_train_compressor;
pub(crate) fn build_fsst_array() -> ArrayRef {
let mut input_array = VarBinBuilder::<i32>::with_capacity(3);
input_array.append_value(b"The Greeks never said that the limit could not be overstepped");
input_array.append_value(
b"They said it existed and that whoever dared to exceed it was mercilessly struck down",
);
input_array.append_value(b"Nothing in present history can contradict them");
let input_array = input_array.finish(DType::Utf8(Nullability::NonNullable));
let compressor = fsst_train_compressor(&input_array);
let len = input_array.len();
let dtype = input_array.dtype().clone();
let mut ctx = LEGACY_SESSION.create_execution_ctx();
fsst_compress(input_array, len, &dtype, &compressor, &mut ctx).into_array()
}
#[test]
fn test_fsst_array_ops() {
let mut ctx = LEGACY_SESSION.create_execution_ctx();
let fsst_array = build_fsst_array();
assert_nth_scalar!(
fsst_array,
0,
"The Greeks never said that the limit could not be overstepped"
);
assert_nth_scalar!(
fsst_array,
1,
"They said it existed and that whoever dared to exceed it was mercilessly struck down"
);
assert_nth_scalar!(
fsst_array,
2,
"Nothing in present history can contradict them"
);
let fsst_sliced = fsst_array.slice(1..3).unwrap();
assert!(fsst_sliced.is::<FSST>());
assert_eq!(fsst_sliced.len(), 2);
assert_nth_scalar!(
fsst_sliced,
0,
"They said it existed and that whoever dared to exceed it was mercilessly struck down"
);
assert_nth_scalar!(
fsst_sliced,
1,
"Nothing in present history can contradict them"
);
let indices = buffer![0, 2].into_array();
let fsst_taken = fsst_array.take(indices).unwrap();
assert_eq!(fsst_taken.len(), 2);
assert_nth_scalar!(
fsst_taken,
0,
"The Greeks never said that the limit could not be overstepped"
);
assert_nth_scalar!(
fsst_taken,
1,
"Nothing in present history can contradict them"
);
let mask = Mask::from_iter([false, true, true]);
let fsst_filtered = fsst_array.filter(mask).unwrap();
assert_eq!(fsst_filtered.len(), 2);
assert_nth_scalar!(
fsst_filtered,
0,
"They said it existed and that whoever dared to exceed it was mercilessly struck down"
);
let canonical_array = fsst_array
.clone()
.execute::<VarBinViewArray>(&mut ctx)
.unwrap()
.into_array();
assert_arrays_eq!(fsst_array, canonical_array);
}
#[test_with::env(CI)]
#[test_with::no_env(VORTEX_SKIP_SLOW_TESTS)]
fn fsst_compress_offsets_overflow_i32() {
const STRING_LEN: usize = 64 * 1024;
const TOTAL_BYTES: usize = (1usize << 30) + (64 << 20);
const N: usize = TOTAL_BYTES / STRING_LEN;
println!("building large VarBinArray");
let string = vec![b'a'; STRING_LEN];
let mut builder = VarBinBuilder::<i64>::with_capacity(N);
for _ in 0..N {
builder.append_value(&string);
}
let array = builder.finish(DType::Utf8(Nullability::NonNullable));
let compressor = CompressorBuilder::default().build();
let len = array.len();
let dtype = array.dtype().clone();
let mut ctx = LEGACY_SESSION.create_execution_ctx();
println!("compressing to FSST");
let compressed = fsst_compress(array, len, &dtype, &compressor, &mut ctx);
assert_eq!(compressed.len(), len);
assert!(compressed.codes_bytes().len() > i32::MAX as usize);
}