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Handle columns in with_new_exprs with a Join #15055

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Merged
merged 7 commits into from
Mar 8, 2025
Merged

Handle columns in with_new_exprs with a Join #15055

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be296ab
handle columns in with_new_exprs with Join
delamarch3 Mar 6, 2025
a8db03a
test doesn't return result
delamarch3 Mar 6, 2025
0482e9f
take join from result
delamarch3 Mar 6, 2025
bd8c18d
clippy
delamarch3 Mar 6, 2025
65974e6
make test fallible
delamarch3 Mar 7, 2025
f97cf6c
accept any pair of expression for new_on in with_new_exprs for Join
delamarch3 Mar 7, 2025
daf1744
use with_capacity
delamarch3 Mar 7, 2025
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130 changes: 118 additions & 12 deletions datafusion/expr/src/logical_plan/plan.rs
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Original file line number Diff line number Diff line change
Expand Up @@ -903,7 +903,7 @@ impl LogicalPlan {
let (left, right) = self.only_two_inputs(inputs)?;
let schema = build_join_schema(left.schema(), right.schema(), join_type)?;

let equi_expr_count = on.len();
let equi_expr_count = on.len() * 2;
assert!(expr.len() >= equi_expr_count);

// Assume that the last expr, if any,
Expand All @@ -917,17 +917,16 @@ impl LogicalPlan {
// The first part of expr is equi-exprs,
// and the struct of each equi-expr is like `left-expr = right-expr`.
assert_eq!(expr.len(), equi_expr_count);
let new_on = expr.into_iter().map(|equi_expr| {
let mut new_on = Vec::with_capacity(on.len());
let mut iter = expr.into_iter();
while let Some(left) = iter.next() {
let Some(right) = iter.next() else {
internal_err!("Expected a pair of expressions to construct the join on expression")?
};

// SimplifyExpression rule may add alias to the equi_expr.
let unalias_expr = equi_expr.clone().unalias();
if let Expr::BinaryExpr(BinaryExpr { left, op: Operator::Eq, right }) = unalias_expr {
Ok((*left, *right))
} else {
internal_err!(
"The front part expressions should be an binary equality expression, actual:{equi_expr}"
)
}
}).collect::<Result<Vec<(Expr, Expr)>>>()?;
new_on.push((left.unalias(), right.unalias()));
}

Ok(LogicalPlan::Join(Join {
left: Arc::new(left),
Expand Down Expand Up @@ -3778,7 +3777,8 @@ mod tests {
use crate::builder::LogicalTableSource;
use crate::logical_plan::table_scan;
use crate::{
col, exists, in_subquery, lit, placeholder, scalar_subquery, GroupingSet,
binary_expr, col, exists, in_subquery, lit, placeholder, scalar_subquery,
GroupingSet,
};

use datafusion_common::tree_node::{
Expand Down Expand Up @@ -4630,4 +4630,110 @@ digraph {
let parameter_type = params.clone().get(placeholder_value).unwrap().clone();
assert_eq!(parameter_type, None);
}

#[test]
fn test_join_with_new_exprs() -> Result<()> {
fn create_test_join(
on: Vec<(Expr, Expr)>,
filter: Option<Expr>,
) -> Result<LogicalPlan> {
let schema = Schema::new(vec![
Field::new("a", DataType::Int32, false),
Field::new("b", DataType::Int32, false),
]);

let left_schema = DFSchema::try_from_qualified_schema("t1", &schema)?;
let right_schema = DFSchema::try_from_qualified_schema("t2", &schema)?;

Ok(LogicalPlan::Join(Join {
left: Arc::new(
table_scan(Some("t1"), left_schema.as_arrow(), None)?.build()?,
),
right: Arc::new(
table_scan(Some("t2"), right_schema.as_arrow(), None)?.build()?,
),
on,
filter,
join_type: JoinType::Inner,
join_constraint: JoinConstraint::On,
schema: Arc::new(left_schema.join(&right_schema)?),
null_equals_null: false,
}))
}

{
let join = create_test_join(vec![(col("t1.a"), (col("t2.a")))], None)?;
let LogicalPlan::Join(join) = join.with_new_exprs(
join.expressions(),
join.inputs().into_iter().cloned().collect(),
)?
else {
unreachable!()
};
assert_eq!(join.on, vec![(col("t1.a"), (col("t2.a")))]);
assert_eq!(join.filter, None);
}

{
let join = create_test_join(vec![], Some(col("t1.a").gt(col("t2.a"))))?;
let LogicalPlan::Join(join) = join.with_new_exprs(
join.expressions(),
join.inputs().into_iter().cloned().collect(),
)?
else {
unreachable!()
};
assert_eq!(join.on, vec![]);
assert_eq!(join.filter, Some(col("t1.a").gt(col("t2.a"))));
}

{
let join = create_test_join(
vec![(col("t1.a"), (col("t2.a")))],
Some(col("t1.b").gt(col("t2.b"))),
)?;
let LogicalPlan::Join(join) = join.with_new_exprs(
join.expressions(),
join.inputs().into_iter().cloned().collect(),
)?
else {
unreachable!()
};
assert_eq!(join.on, vec![(col("t1.a"), (col("t2.a")))]);
assert_eq!(join.filter, Some(col("t1.b").gt(col("t2.b"))));
}

{
let join = create_test_join(
vec![(col("t1.a"), (col("t2.a"))), (col("t1.b"), (col("t2.b")))],
None,
)?;
let LogicalPlan::Join(join) = join.with_new_exprs(
vec![
binary_expr(col("t1.a"), Operator::Plus, lit(1)),
binary_expr(col("t2.a"), Operator::Plus, lit(2)),
col("t1.b"),
col("t2.b"),
lit(true),
],
join.inputs().into_iter().cloned().collect(),
)?
else {
unreachable!()
};
assert_eq!(
join.on,
vec![
(
binary_expr(col("t1.a"), Operator::Plus, lit(1)),
binary_expr(col("t2.a"), Operator::Plus, lit(2))
),
(col("t1.b"), (col("t2.b")))
]
);
assert_eq!(join.filter, Some(lit(true)));
}

Ok(())
}
}