WIP(iox-10577): patched df upgrade 202-04-05

datafusion/optimizer/src/analyzer/function_rewrite.rs

@@ -21,9 +21,10 @@ use super::AnalyzerRule;
 use datafusion_common::config::ConfigOptions;
 use datafusion_common::tree_node::{Transformed, TreeNodeRewriter};
 use datafusion_common::{DFSchema, Result};
+use datafusion_expr::expr::{Exists, InSubquery};
 use datafusion_expr::expr_rewriter::{rewrite_preserving_name, FunctionRewrite};
 use datafusion_expr::utils::merge_schema;
-use datafusion_expr::{Expr, LogicalPlan};
+use datafusion_expr::{Expr, LogicalPlan, Subquery};
 use std::sync::Arc;
 
 /// Analyzer rule that invokes [`FunctionRewrite`]s on expressions
@@ -45,54 +46,66 @@ impl AnalyzerRule for ApplyFunctionRewrites {
     }
 
     fn analyze(&self, plan: LogicalPlan, options: &ConfigOptions) -> Result<LogicalPlan> {
-        self.analyze_internal(&plan, options)
+        analyze_internal(&plan, &self.function_rewrites, options)
     }
 }
 
-impl ApplyFunctionRewrites {
-    fn analyze_internal(
-        &self,
-        plan: &LogicalPlan,
-        options: &ConfigOptions,
-    ) -> Result<LogicalPlan> {
-        // optimize child plans first
-        let new_inputs = plan
-            .inputs()
-            .iter()
-            .map(|p| self.analyze_internal(p, options))
-            .collect::<Result<Vec<_>>>()?;
-
-        // get schema representing all available input fields. This is used for data type
-        // resolution only, so order does not matter here
-        let mut schema = merge_schema(new_inputs.iter().collect());
-
-        if let LogicalPlan::TableScan(ts) = plan {
-            let source_schema = DFSchema::try_from_qualified_schema(
-                ts.table_name.clone(),
-                &ts.source.schema(),
-            )?;
-            schema.merge(&source_schema);
-        }
+fn analyze_internal(
+    plan: &LogicalPlan,
+    function_rewrites: &[Arc<dyn FunctionRewrite + Send + Sync>],
+    options: &ConfigOptions,
+) -> Result<LogicalPlan> {
+    // optimize child plans first
+    let new_inputs = plan
+        .inputs()
+        .iter()
+        .map(|p| analyze_internal(p, function_rewrites, options))
+        .collect::<Result<Vec<_>>>()?;
 
-        let mut expr_rewrite = OperatorToFunctionRewriter {
-            function_rewrites: &self.function_rewrites,
-            options,
-            schema: &schema,
-        };
+    // get schema representing all available input fields. This is used for data type
+    // resolution only, so order does not matter here
+    let mut schema = merge_schema(new_inputs.iter().collect());
 
-        let new_expr = plan
-            .expressions()
-            .into_iter()
-            .map(|expr| {
-                // ensure names don't change:
-                // https://github.com/apache/arrow-datafusion/issues/3555
-                rewrite_preserving_name(expr, &mut expr_rewrite)
-            })
-            .collect::<Result<Vec<_>>>()?;
-
-        plan.with_new_exprs(new_expr, new_inputs)
+    if let LogicalPlan::TableScan(ts) = plan {
+        let source_schema = DFSchema::try_from_qualified_schema(
+            ts.table_name.clone(),
+            &ts.source.schema(),
+        )?;
+        schema.merge(&source_schema);
     }
+
+    let mut expr_rewrite = OperatorToFunctionRewriter {
+        function_rewrites,
+        options,
+        schema: &schema,
+    };
+
+    let new_expr = plan
+        .expressions()
+        .into_iter()
+        .map(|expr| {
+            // ensure names don't change:
+            // https://github.com/apache/arrow-datafusion/issues/3555
+            rewrite_preserving_name(expr, &mut expr_rewrite)
+        })
+        .collect::<Result<Vec<_>>>()?;
+
+    plan.with_new_exprs(new_expr, new_inputs)
 }
+
+fn rewrite_subquery(
+    mut subquery: Subquery,
+    function_rewrites: &[Arc<dyn FunctionRewrite + Send + Sync>],
+    options: &ConfigOptions,
+) -> Result<Subquery> {
+    subquery.subquery = Arc::new(analyze_internal(
+        &subquery.subquery,
+        function_rewrites,
+        options,
+    )?);
+    Ok(subquery)
+}
+
 struct OperatorToFunctionRewriter<'a> {
     function_rewrites: &'a [Arc<dyn FunctionRewrite + Send + Sync>],
     options: &'a ConfigOptions,
@@ -113,6 +126,40 @@ impl<'a> TreeNodeRewriter for OperatorToFunctionRewriter<'a> {
             expr = result.data
         }
 
+        // recurse into subqueries if needed
+        let expr = match expr {
+            Expr::ScalarSubquery(subquery) => Expr::ScalarSubquery(rewrite_subquery(
+                subquery,
+                self.function_rewrites,
+                self.options,
+            )?),
+
+            Expr::Exists(Exists { subquery, negated }) => Expr::Exists(Exists {
+                subquery: rewrite_subquery(
+                    subquery,
+                    self.function_rewrites,
+                    self.options,
+                )?,
+                negated,
+            }),
+
+            Expr::InSubquery(InSubquery {
+                expr,
+                subquery,
+                negated,
+            }) => Expr::InSubquery(InSubquery {
+                expr,
+                subquery: rewrite_subquery(
+                    subquery,
+                    self.function_rewrites,
+                    self.options,
+                )?,
+                negated,
+            }),
+
+            expr => expr,
+        };
+
         Ok(if transformed {
             Transformed::yes(expr)
         } else {

datafusion/sqllogictest/test_files/subquery.slt

@@ -1060,3 +1060,58 @@ logical_plan
 Projection: t.a / Int64(2)Int64(2)t.a AS t.a / Int64(2), t.a / Int64(2)Int64(2)t.a AS t.a / Int64(2) + Int64(1)
 --Projection: t.a / Int64(2) AS t.a / Int64(2)Int64(2)t.a
 ----TableScan: t projection=[a]
+
+###
+## Ensure that operators are rewritten in subqueries
+###
+
+statement ok
+create table foo(x int) as values (1);
+
+# Show input data
+query ?
+select struct(1, 'b')
+----
+{c0: 1, c1: b}
+
+
+query T
+select (select struct(1, 'b')['c1']);
+----
+b
+
+query T
+select 'foo' || (select struct(1, 'b')['c1']);
+----
+foob
+
+query I
+SELECT  * FROM (VALUES (1), (2))
+WHERE column1  IN (SELECT struct(1, 'b')['c0']);
+----
+1
+
+# also add an expression so the subquery is the output expr
+query I
+SELECT  * FROM (VALUES (1), (2))
+WHERE 1+2 = 3 AND column1  IN (SELECT struct(1, 'b')['c0']);
+----
+1
+
+
+query I
+SELECT  * FROM foo
+WHERE EXISTS (SELECT * FROM (values (1)) WHERE column1 = foo.x AND struct(1, 'b')['c0'] = 1);
+----
+1
+
+# also add an expression so the subquery is the output expr
+query I
+SELECT  * FROM foo
+WHERE 1+2 = 3 AND EXISTS (SELECT * FROM (values (1)) WHERE column1 = foo.x AND struct(1, 'b')['c0'] = 1);
+----
+1
+
+
+statement ok
+drop table foo;