datafusion_physical_plan/
placeholder_row.rsuse std::any::Any;
use std::sync::Arc;
use super::{
common, DisplayAs, ExecutionMode, PlanProperties, SendableRecordBatchStream,
Statistics,
};
use crate::{memory::MemoryStream, DisplayFormatType, ExecutionPlan, Partitioning};
use arrow::array::{ArrayRef, NullArray};
use arrow::datatypes::{DataType, Field, Fields, Schema, SchemaRef};
use arrow::record_batch::RecordBatch;
use arrow_array::RecordBatchOptions;
use datafusion_common::{internal_err, Result};
use datafusion_execution::TaskContext;
use datafusion_physical_expr::EquivalenceProperties;
use log::trace;
#[derive(Debug, Clone)]
pub struct PlaceholderRowExec {
schema: SchemaRef,
partitions: usize,
cache: PlanProperties,
}
impl PlaceholderRowExec {
pub fn new(schema: SchemaRef) -> Self {
let partitions = 1;
let cache = Self::compute_properties(Arc::clone(&schema), partitions);
PlaceholderRowExec {
schema,
partitions,
cache,
}
}
pub fn with_partitions(mut self, partitions: usize) -> Self {
self.partitions = partitions;
let output_partitioning = Self::output_partitioning_helper(self.partitions);
self.cache = self.cache.with_partitioning(output_partitioning);
self
}
fn data(&self) -> Result<Vec<RecordBatch>> {
Ok({
let n_field = self.schema.fields.len();
vec![RecordBatch::try_new_with_options(
Arc::new(Schema::new(
(0..n_field)
.map(|i| {
Field::new(format!("placeholder_{i}"), DataType::Null, true)
})
.collect::<Fields>(),
)),
(0..n_field)
.map(|_i| {
let ret: ArrayRef = Arc::new(NullArray::new(1));
ret
})
.collect(),
&RecordBatchOptions::new().with_row_count(Some(1)),
)?]
})
}
fn output_partitioning_helper(n_partitions: usize) -> Partitioning {
Partitioning::UnknownPartitioning(n_partitions)
}
fn compute_properties(schema: SchemaRef, n_partitions: usize) -> PlanProperties {
let eq_properties = EquivalenceProperties::new(schema);
let output_partitioning = Self::output_partitioning_helper(n_partitions);
PlanProperties::new(eq_properties, output_partitioning, ExecutionMode::Bounded)
}
}
impl DisplayAs for PlaceholderRowExec {
fn fmt_as(
&self,
t: DisplayFormatType,
f: &mut std::fmt::Formatter,
) -> std::fmt::Result {
match t {
DisplayFormatType::Default | DisplayFormatType::Verbose => {
write!(f, "PlaceholderRowExec")
}
}
}
}
impl ExecutionPlan for PlaceholderRowExec {
fn name(&self) -> &'static str {
"PlaceholderRowExec"
}
fn as_any(&self) -> &dyn Any {
self
}
fn properties(&self) -> &PlanProperties {
&self.cache
}
fn children(&self) -> Vec<&Arc<dyn ExecutionPlan>> {
vec![]
}
fn with_new_children(
self: Arc<Self>,
_: Vec<Arc<dyn ExecutionPlan>>,
) -> Result<Arc<dyn ExecutionPlan>> {
Ok(self)
}
fn execute(
&self,
partition: usize,
context: Arc<TaskContext>,
) -> Result<SendableRecordBatchStream> {
trace!("Start PlaceholderRowExec::execute for partition {} of context session_id {} and task_id {:?}", partition, context.session_id(), context.task_id());
if partition >= self.partitions {
return internal_err!(
"PlaceholderRowExec invalid partition {} (expected less than {})",
partition,
self.partitions
);
}
Ok(Box::pin(MemoryStream::try_new(
self.data()?,
Arc::clone(&self.schema),
None,
)?))
}
fn statistics(&self) -> Result<Statistics> {
let batch = self
.data()
.expect("Create single row placeholder RecordBatch should not fail");
Ok(common::compute_record_batch_statistics(
&[batch],
&self.schema,
None,
))
}
}
#[cfg(test)]
mod tests {
use super::*;
use crate::{test, with_new_children_if_necessary};
#[test]
fn with_new_children() -> Result<()> {
let schema = test::aggr_test_schema();
let placeholder = Arc::new(PlaceholderRowExec::new(schema));
let placeholder_2 = with_new_children_if_necessary(
Arc::clone(&placeholder) as Arc<dyn ExecutionPlan>,
vec![],
)?;
assert_eq!(placeholder.schema(), placeholder_2.schema());
let too_many_kids = vec![placeholder_2];
assert!(
with_new_children_if_necessary(placeholder, too_many_kids).is_err(),
"expected error when providing list of kids"
);
Ok(())
}
#[tokio::test]
async fn invalid_execute() -> Result<()> {
let task_ctx = Arc::new(TaskContext::default());
let schema = test::aggr_test_schema();
let placeholder = PlaceholderRowExec::new(schema);
assert!(placeholder.execute(1, Arc::clone(&task_ctx)).is_err());
assert!(placeholder.execute(20, task_ctx).is_err());
Ok(())
}
#[tokio::test]
async fn produce_one_row() -> Result<()> {
let task_ctx = Arc::new(TaskContext::default());
let schema = test::aggr_test_schema();
let placeholder = PlaceholderRowExec::new(schema);
let iter = placeholder.execute(0, task_ctx)?;
let batches = common::collect(iter).await?;
assert_eq!(batches.len(), 1);
Ok(())
}
#[tokio::test]
async fn produce_one_row_multiple_partition() -> Result<()> {
let task_ctx = Arc::new(TaskContext::default());
let schema = test::aggr_test_schema();
let partitions = 3;
let placeholder = PlaceholderRowExec::new(schema).with_partitions(partitions);
for n in 0..partitions {
let iter = placeholder.execute(n, Arc::clone(&task_ctx))?;
let batches = common::collect(iter).await?;
assert_eq!(batches.len(), 1);
}
Ok(())
}
}