polars_ops/series/ops/
index.rsuse num_traits::{Signed, Zero};
use polars_core::error::{polars_ensure, PolarsResult};
use polars_core::prelude::arity::unary_elementwise_values;
use polars_core::prelude::{ChunkedArray, DataType, IdxCa, PolarsIntegerType, Series, IDX_DTYPE};
use polars_utils::index::ToIdx;
fn convert<T>(ca: &ChunkedArray<T>, target_len: usize) -> PolarsResult<IdxCa>
where
T: PolarsIntegerType,
T::Native: ToIdx,
{
let target_len = target_len as u64;
Ok(unary_elementwise_values(ca, |v| v.to_idx(target_len)))
}
pub fn convert_to_unsigned_index(s: &Series, target_len: usize) -> PolarsResult<IdxCa> {
let dtype = s.dtype();
polars_ensure!(dtype.is_integer(), InvalidOperation: "expected integers as index");
if dtype.is_unsigned_integer() {
let nulls_before_cast = s.null_count();
let out = s.cast(&IDX_DTYPE).unwrap();
polars_ensure!(out.null_count() == nulls_before_cast, OutOfBounds: "some integers did not fit polars' index size");
return Ok(out.idx().unwrap().clone());
}
match dtype {
DataType::Int64 => {
let ca = s.i64().unwrap();
convert(ca, target_len)
},
DataType::Int32 => {
let ca = s.i32().unwrap();
convert(ca, target_len)
},
#[cfg(feature = "dtype-i16")]
DataType::Int16 => {
let ca = s.i16().unwrap();
convert(ca, target_len)
},
#[cfg(feature = "dtype-i8")]
DataType::Int8 => {
let ca = s.i8().unwrap();
convert(ca, target_len)
},
_ => unreachable!(),
}
}
fn is_positive_idx_uncertain_impl<T>(ca: &ChunkedArray<T>) -> bool
where
T: PolarsIntegerType,
T::Native: Signed,
{
ca.downcast_iter().all(|v| {
let values = v.values();
let mut all_positive = true;
for chunk in values.chunks(1024) {
for v in chunk.iter() {
all_positive &= v.is_positive() | v.is_zero()
}
if !all_positive {
return all_positive;
}
}
all_positive
})
}
pub fn is_positive_idx_uncertain(s: &Series) -> bool {
let dtype = s.dtype();
debug_assert!(dtype.is_integer(), "expected integers as index");
if dtype.is_unsigned_integer() {
return true;
}
match dtype {
DataType::Int64 => {
let ca = s.i64().unwrap();
is_positive_idx_uncertain_impl(ca)
},
DataType::Int32 => {
let ca = s.i32().unwrap();
is_positive_idx_uncertain_impl(ca)
},
#[cfg(feature = "dtype-i16")]
DataType::Int16 => {
let ca = s.i16().unwrap();
is_positive_idx_uncertain_impl(ca)
},
#[cfg(feature = "dtype-i8")]
DataType::Int8 => {
let ca = s.i8().unwrap();
is_positive_idx_uncertain_impl(ca)
},
_ => unreachable!(),
}
}