use std::sync::Mutex;
use arrow::array::ValueSize;
use arrow::legacy::utils::CustomIterTools;
use polars_core::chunked_array::from_iterator_par::ChunkedCollectParIterExt;
use polars_core::prelude::*;
use polars_plan::constants::MAP_LIST_NAME;
use polars_plan::dsl::*;
use rayon::prelude::*;
use crate::physical_plan::exotic::prepare_expression_for_context;
use crate::prelude::*;
pub trait IntoListNameSpace {
fn into_list_name_space(self) -> ListNameSpace;
}
impl IntoListNameSpace for ListNameSpace {
fn into_list_name_space(self) -> ListNameSpace {
self
}
}
fn offsets_to_groups(offsets: &[i64]) -> Option<GroupsProxy> {
let mut start = offsets[0];
let end = *offsets.last().unwrap();
if IdxSize::try_from(end - start).is_err() {
return None;
}
let groups = offsets
.iter()
.skip(1)
.map(|end| {
let offset = start as IdxSize;
let len = (*end - start) as IdxSize;
start = *end;
[offset, len]
})
.collect();
Some(GroupsProxy::Slice {
groups,
rolling: false,
})
}
fn run_per_sublist(
s: Column,
lst: &ListChunked,
expr: &Expr,
parallel: bool,
output_field: Field,
) -> PolarsResult<Option<Column>> {
let phys_expr = prepare_expression_for_context(
PlSmallStr::EMPTY,
expr,
lst.inner_dtype(),
Context::Default,
)?;
let state = ExecutionState::new();
let mut err = None;
let mut ca: ListChunked = if parallel {
let m_err = Mutex::new(None);
let ca: ListChunked = lst
.par_iter()
.map(|opt_s| {
opt_s.and_then(|s| {
let df = s.into_frame();
let out = phys_expr.evaluate(&df, &state);
match out {
Ok(s) => Some(s),
Err(e) => {
*m_err.lock().unwrap() = Some(e);
None
},
}
})
})
.collect_ca_with_dtype(PlSmallStr::EMPTY, output_field.dtype.clone());
err = m_err.into_inner().unwrap();
ca
} else {
let mut df_container = DataFrame::empty();
lst.into_iter()
.map(|s| {
s.and_then(|s| unsafe {
df_container.with_column_unchecked(s.into_column());
let out = phys_expr.evaluate(&df_container, &state);
df_container.clear_columns();
match out {
Ok(s) => Some(s),
Err(e) => {
err = Some(e);
None
},
}
})
})
.collect_trusted()
};
if let Some(err) = err {
return Err(err);
}
ca.rename(s.name().clone());
if ca.dtype() != output_field.dtype() {
ca.cast(output_field.dtype()).map(Column::from).map(Some)
} else {
Ok(Some(ca.into_column()))
}
}
fn run_on_group_by_engine(
name: PlSmallStr,
lst: &ListChunked,
expr: &Expr,
) -> PolarsResult<Option<Column>> {
let lst = lst.rechunk();
let arr = lst.downcast_iter().next().unwrap();
let groups = offsets_to_groups(arr.offsets()).unwrap();
let values = Series::try_from((PlSmallStr::EMPTY, arr.values().clone())).unwrap();
let inner_dtype = lst.inner_dtype();
let values = unsafe { values.cast_unchecked(inner_dtype).unwrap() };
let df_context = values.into_frame();
let phys_expr =
prepare_expression_for_context(PlSmallStr::EMPTY, expr, inner_dtype, Context::Aggregation)?;
let state = ExecutionState::new();
let mut ac = phys_expr.evaluate_on_groups(&df_context, &groups, &state)?;
let out = match ac.agg_state() {
AggState::AggregatedScalar(_) => {
let out = ac.aggregated();
out.as_list().into_series()
},
_ => ac.aggregated(),
};
Ok(Some(out.with_name(name).into_column()))
}
pub trait ListNameSpaceExtension: IntoListNameSpace + Sized {
fn eval(self, expr: Expr, parallel: bool) -> Expr {
let this = self.into_list_name_space();
let expr2 = expr.clone();
let func = move |c: Column| {
for e in expr.into_iter() {
match e {
#[cfg(feature = "dtype-categorical")]
Expr::Cast {
dtype: DataType::Categorical(_, _) | DataType::Enum(_, _),
..
} => {
polars_bail!(
ComputeError: "casting to categorical not allowed in `list.eval`"
)
},
Expr::Column(name) => {
polars_ensure!(
name.is_empty(),
ComputeError:
"named columns are not allowed in `list.eval`; consider using `element` or `col(\"\")`"
);
},
_ => {},
}
}
let lst = c.list()?.clone();
let output_field = eval_field_to_dtype(lst.ref_field(), &expr, true);
if lst.is_empty() {
return Ok(Some(Column::new_empty(
c.name().clone(),
output_field.dtype(),
)));
}
if lst.null_count() == lst.len() {
return Ok(Some(c.cast(output_field.dtype())?.into_column()));
}
let fits_idx_size = lst.get_values_size() <= (IdxSize::MAX as usize);
let is_user_apply = || {
expr.into_iter().any(|e| matches!(e, Expr::AnonymousFunction { options, .. } if options.fmt_str == MAP_LIST_NAME))
};
if fits_idx_size && c.null_count() == 0 && !is_user_apply() {
run_on_group_by_engine(c.name().clone(), &lst, &expr)
} else {
run_per_sublist(c, &lst, &expr, parallel, output_field)
}
};
this.0
.map(
func,
GetOutput::map_field(move |f| Ok(eval_field_to_dtype(f, &expr2, true))),
)
.with_fmt("eval")
}
}
impl ListNameSpaceExtension for ListNameSpace {}