From 2f53144c40834575f2e46ea727e4dc8eb18b2b9d Mon Sep 17 00:00:00 2001 From: Jay Zhan Date: Sat, 22 Jun 2024 15:19:38 +0800 Subject: [PATCH] Minor: Convert `Count`'s name to lowercase (#11028) * push down non-unnest only Signed-off-by: jayzhan211 * add doc Signed-off-by: jayzhan211 * to lowercase Signed-off-by: jayzhan211 * fix tpch Signed-off-by: jayzhan211 * Update test * fix test Signed-off-by: jayzhan211 --------- Signed-off-by: jayzhan211 Co-authored-by: Andrew Lamb --- datafusion/core/src/dataframe/mod.rs | 4 +- datafusion/core/src/execution/context/csv.rs | 4 +- .../aggregate_statistics.rs | 2 +- .../core/tests/custom_sources_cases/mod.rs | 2 +- datafusion/core/tests/dataframe/mod.rs | 10 +-- datafusion/core/tests/path_partition.rs | 4 +- datafusion/core/tests/sql/aggregates.rs | 36 ++++---- datafusion/core/tests/sql/explain_analyze.rs | 8 +- datafusion/functions-aggregate/src/count.rs | 6 +- .../src/analyzer/count_wildcard_rule.rs | 40 ++++----- datafusion/optimizer/src/decorrelate.rs | 2 +- .../src/eliminate_group_by_constant.rs | 20 ++--- .../optimizer/src/optimize_projections/mod.rs | 8 +- .../src/single_distinct_to_groupby.rs | 66 +++++++------- .../optimizer/tests/optimizer_integration.rs | 8 +- .../src/windows/bounded_window_agg_exec.rs | 6 +- datafusion/sql/src/unparser/expr.rs | 6 +- datafusion/sql/tests/sql_integration.rs | 74 +++++++-------- datafusion/sqllogictest/test_files/avro.slt | 6 +- .../sqllogictest/test_files/explain.slt | 2 +- .../sqllogictest/test_files/group_by.slt | 18 ++-- datafusion/sqllogictest/test_files/insert.slt | 28 +++--- .../test_files/insert_to_external.slt | 20 ++--- datafusion/sqllogictest/test_files/joins.slt | 18 ++-- datafusion/sqllogictest/test_files/json.slt | 6 +- datafusion/sqllogictest/test_files/limit.slt | 18 ++-- .../optimizer_group_by_constant.slt | 16 ++-- .../sqllogictest/test_files/predicates.slt | 4 +- datafusion/sqllogictest/test_files/select.slt | 6 +- .../sqllogictest/test_files/subquery.slt | 90 +++++++++---------- .../sqllogictest/test_files/tpch/q1.slt.part | 10 +-- .../sqllogictest/test_files/tpch/q13.slt.part | 18 ++-- .../sqllogictest/test_files/tpch/q16.slt.part | 10 +-- .../sqllogictest/test_files/tpch/q21.slt.part | 10 +-- .../sqllogictest/test_files/tpch/q22.slt.part | 10 +-- .../sqllogictest/test_files/tpch/q4.slt.part | 10 +-- datafusion/sqllogictest/test_files/union.slt | 18 ++-- datafusion/sqllogictest/test_files/window.slt | 82 ++++++++--------- .../substrait/src/logical_plan/consumer.rs | 2 +- .../tests/cases/consumer_integration.rs | 4 +- .../tests/cases/roundtrip_logical_plan.rs | 8 +- 41 files changed, 359 insertions(+), 361 deletions(-) diff --git a/datafusion/core/src/dataframe/mod.rs b/datafusion/core/src/dataframe/mod.rs index 398f59e35d10b..d55caf1404a5b 100644 --- a/datafusion/core/src/dataframe/mod.rs +++ b/datafusion/core/src/dataframe/mod.rs @@ -2018,7 +2018,7 @@ mod tests { assert_batches_sorted_eq!( ["+----+-----------------------------+-----------------------------+-----------------------------+-----------------------------+-------------------------------+----------------------------------------+", - "| c1 | MIN(aggregate_test_100.c12) | MAX(aggregate_test_100.c12) | AVG(aggregate_test_100.c12) | sum(aggregate_test_100.c12) | COUNT(aggregate_test_100.c12) | COUNT(DISTINCT aggregate_test_100.c12) |", + "| c1 | MIN(aggregate_test_100.c12) | MAX(aggregate_test_100.c12) | AVG(aggregate_test_100.c12) | sum(aggregate_test_100.c12) | count(aggregate_test_100.c12) | count(DISTINCT aggregate_test_100.c12) |", "+----+-----------------------------+-----------------------------+-----------------------------+-----------------------------+-------------------------------+----------------------------------------+", "| a | 0.02182578039211991 | 0.9800193410444061 | 0.48754517466109415 | 10.238448667882977 | 21 | 21 |", "| b | 0.04893135681998029 | 0.9185813970744787 | 0.41040709263815384 | 7.797734760124923 | 19 | 19 |", @@ -3171,7 +3171,7 @@ mod tests { let sql = r#" SELECT - COUNT(1) + count(1) FROM test GROUP BY diff --git a/datafusion/core/src/execution/context/csv.rs b/datafusion/core/src/execution/context/csv.rs index aa1a8b512f7e3..08e93cb613056 100644 --- a/datafusion/core/src/execution/context/csv.rs +++ b/datafusion/core/src/execution/context/csv.rs @@ -110,12 +110,12 @@ mod tests { ) .await?; let results = - plan_and_collect(&ctx, "SELECT sum(c1), sum(c2), COUNT(*) FROM test").await?; + plan_and_collect(&ctx, "SELECT sum(c1), sum(c2), count(*) FROM test").await?; assert_eq!(results.len(), 1); let expected = [ "+--------------+--------------+----------+", - "| sum(test.c1) | sum(test.c2) | COUNT(*) |", + "| sum(test.c1) | sum(test.c2) | count(*) |", "+--------------+--------------+----------+", "| 10 | 110 | 20 |", "+--------------+--------------+----------+", diff --git a/datafusion/core/src/physical_optimizer/aggregate_statistics.rs b/datafusion/core/src/physical_optimizer/aggregate_statistics.rs index ca1582bcb34f7..7e9aec9e5e4c4 100644 --- a/datafusion/core/src/physical_optimizer/aggregate_statistics.rs +++ b/datafusion/core/src/physical_optimizer/aggregate_statistics.rs @@ -141,7 +141,7 @@ fn take_optimizable_column_and_table_count( ) -> Option<(ScalarValue, String)> { let col_stats = &stats.column_statistics; if let Some(agg_expr) = agg_expr.as_any().downcast_ref::() { - if agg_expr.fun().name() == "COUNT" && !agg_expr.is_distinct() { + if agg_expr.fun().name() == "count" && !agg_expr.is_distinct() { if let Precision::Exact(num_rows) = stats.num_rows { let exprs = agg_expr.expressions(); if exprs.len() == 1 { diff --git a/datafusion/core/tests/custom_sources_cases/mod.rs b/datafusion/core/tests/custom_sources_cases/mod.rs index e8ead01d2ee4f..7901998ebd09f 100644 --- a/datafusion/core/tests/custom_sources_cases/mod.rs +++ b/datafusion/core/tests/custom_sources_cases/mod.rs @@ -278,7 +278,7 @@ async fn optimizers_catch_all_statistics() { let expected = RecordBatch::try_new( Arc::new(Schema::new(vec![ - Field::new("COUNT(*)", DataType::Int64, false), + Field::new("count(*)", DataType::Int64, false), Field::new("MIN(test.c1)", DataType::Int32, false), Field::new("MAX(test.c1)", DataType::Int32, false), ])), diff --git a/datafusion/core/tests/dataframe/mod.rs b/datafusion/core/tests/dataframe/mod.rs index fa364c5f2a653..c018ebec4b636 100644 --- a/datafusion/core/tests/dataframe/mod.rs +++ b/datafusion/core/tests/dataframe/mod.rs @@ -170,7 +170,7 @@ async fn test_count_wildcard_on_window() -> Result<()> { let ctx = create_join_context()?; let sql_results = ctx - .sql("select COUNT(*) OVER(ORDER BY a DESC RANGE BETWEEN 6 PRECEDING AND 2 FOLLOWING) from t1") + .sql("select count(*) OVER(ORDER BY a DESC RANGE BETWEEN 6 PRECEDING AND 2 FOLLOWING) from t1") .await? .explain(false, false)? .collect() @@ -211,7 +211,7 @@ async fn test_count_wildcard_on_aggregate() -> Result<()> { let sql_results = ctx .sql("select count(*) from t1") .await? - .select(vec![col("COUNT(*)")])? + .select(vec![col("count(*)")])? .explain(false, false)? .collect() .await?; @@ -604,7 +604,7 @@ async fn test_grouping_sets() -> Result<()> { let expected = vec![ "+-----------+-----+---------------+", - "| a | b | COUNT(test.a) |", + "| a | b | count(test.a) |", "+-----------+-----+---------------+", "| | 100 | 1 |", "| | 10 | 2 |", @@ -645,7 +645,7 @@ async fn test_grouping_sets_count() -> Result<()> { let expected = vec![ "+----+----+-----------------+", - "| c1 | c2 | COUNT(Int32(1)) |", + "| c1 | c2 | count(Int32(1)) |", "+----+----+-----------------+", "| | 5 | 14 |", "| | 4 | 23 |", @@ -1233,7 +1233,7 @@ async fn unnest_aggregate_columns() -> Result<()> { .await?; let expected = [ r#"+-------------+"#, - r#"| COUNT(tags) |"#, + r#"| count(tags) |"#, r#"+-------------+"#, r#"| 9 |"#, r#"+-------------+"#, diff --git a/datafusion/core/tests/path_partition.rs b/datafusion/core/tests/path_partition.rs index bfc5b59f0952e..7e7544bdb7c0c 100644 --- a/datafusion/core/tests/path_partition.rs +++ b/datafusion/core/tests/path_partition.rs @@ -120,7 +120,7 @@ async fn parquet_distinct_partition_col() -> Result<()> { //3. limit is not contained within a single partition //The id column is included to ensure that the parquet file is actually scanned. let results = ctx - .sql("SELECT COUNT(*) as num_rows_per_month, month, MAX(id) from t group by month order by num_rows_per_month desc") + .sql("SELECT count(*) as num_rows_per_month, month, MAX(id) from t group by month order by num_rows_per_month desc") .await? .collect() .await?; @@ -339,7 +339,7 @@ async fn csv_grouping_by_partition() -> Result<()> { let expected = [ "+------------+----------+----------------------+", - "| date | COUNT(*) | COUNT(DISTINCT t.c1) |", + "| date | count(*) | count(DISTINCT t.c1) |", "+------------+----------+----------------------+", "| 2021-10-26 | 100 | 5 |", "| 2021-10-27 | 100 | 5 |", diff --git a/datafusion/core/tests/sql/aggregates.rs b/datafusion/core/tests/sql/aggregates.rs index 84b791a3de05b..c3139f6fcdfb3 100644 --- a/datafusion/core/tests/sql/aggregates.rs +++ b/datafusion/core/tests/sql/aggregates.rs @@ -69,12 +69,12 @@ async fn csv_query_array_agg_distinct() -> Result<()> { #[tokio::test] async fn count_partitioned() -> Result<()> { let results = - execute_with_partition("SELECT COUNT(c1), COUNT(c2) FROM test", 4).await?; + execute_with_partition("SELECT count(c1), count(c2) FROM test", 4).await?; assert_eq!(results.len(), 1); let expected = [ "+----------------+----------------+", - "| COUNT(test.c1) | COUNT(test.c2) |", + "| count(test.c1) | count(test.c2) |", "+----------------+----------------+", "| 40 | 40 |", "+----------------+----------------+", @@ -86,11 +86,11 @@ async fn count_partitioned() -> Result<()> { #[tokio::test] async fn count_aggregated() -> Result<()> { let results = - execute_with_partition("SELECT c1, COUNT(c2) FROM test GROUP BY c1", 4).await?; + execute_with_partition("SELECT c1, count(c2) FROM test GROUP BY c1", 4).await?; let expected = [ "+----+----------------+", - "| c1 | COUNT(test.c2) |", + "| c1 | count(test.c2) |", "+----+----------------+", "| 0 | 10 |", "| 1 | 10 |", @@ -105,14 +105,14 @@ async fn count_aggregated() -> Result<()> { #[tokio::test] async fn count_aggregated_cube() -> Result<()> { let results = execute_with_partition( - "SELECT c1, c2, COUNT(c3) FROM test GROUP BY CUBE (c1, c2) ORDER BY c1, c2", + "SELECT c1, c2, count(c3) FROM test GROUP BY CUBE (c1, c2) ORDER BY c1, c2", 4, ) .await?; let expected = vec![ "+----+----+----------------+", - "| c1 | c2 | COUNT(test.c3) |", + "| c1 | c2 | count(test.c3) |", "+----+----+----------------+", "| | | 40 |", "| | 1 | 4 |", @@ -222,15 +222,15 @@ async fn run_count_distinct_integers_aggregated_scenario( " SELECT c_group, - COUNT(c_uint64), - COUNT(DISTINCT c_int8), - COUNT(DISTINCT c_int16), - COUNT(DISTINCT c_int32), - COUNT(DISTINCT c_int64), - COUNT(DISTINCT c_uint8), - COUNT(DISTINCT c_uint16), - COUNT(DISTINCT c_uint32), - COUNT(DISTINCT c_uint64) + count(c_uint64), + count(DISTINCT c_int8), + count(DISTINCT c_int16), + count(DISTINCT c_int32), + count(DISTINCT c_int64), + count(DISTINCT c_uint8), + count(DISTINCT c_uint16), + count(DISTINCT c_uint32), + count(DISTINCT c_uint64) FROM test GROUP BY c_group ", @@ -260,7 +260,7 @@ async fn count_distinct_integers_aggregated_single_partition() -> Result<()> { let results = run_count_distinct_integers_aggregated_scenario(partitions).await?; let expected = ["+---------+----------------------+-----------------------------+------------------------------+------------------------------+------------------------------+------------------------------+-------------------------------+-------------------------------+-------------------------------+", - "| c_group | COUNT(test.c_uint64) | COUNT(DISTINCT test.c_int8) | COUNT(DISTINCT test.c_int16) | COUNT(DISTINCT test.c_int32) | COUNT(DISTINCT test.c_int64) | COUNT(DISTINCT test.c_uint8) | COUNT(DISTINCT test.c_uint16) | COUNT(DISTINCT test.c_uint32) | COUNT(DISTINCT test.c_uint64) |", + "| c_group | count(test.c_uint64) | count(DISTINCT test.c_int8) | count(DISTINCT test.c_int16) | count(DISTINCT test.c_int32) | count(DISTINCT test.c_int64) | count(DISTINCT test.c_uint8) | count(DISTINCT test.c_uint16) | count(DISTINCT test.c_uint32) | count(DISTINCT test.c_uint64) |", "+---------+----------------------+-----------------------------+------------------------------+------------------------------+------------------------------+------------------------------+-------------------------------+-------------------------------+-------------------------------+", "| a | 3 | 2 | 2 | 2 | 2 | 2 | 2 | 2 | 2 |", "| b | 1 | 1 | 1 | 1 | 1 | 1 | 1 | 1 | 1 |", @@ -284,7 +284,7 @@ async fn count_distinct_integers_aggregated_multiple_partitions() -> Result<()> let results = run_count_distinct_integers_aggregated_scenario(partitions).await?; let expected = ["+---------+----------------------+-----------------------------+------------------------------+------------------------------+------------------------------+------------------------------+-------------------------------+-------------------------------+-------------------------------+", - "| c_group | COUNT(test.c_uint64) | COUNT(DISTINCT test.c_int8) | COUNT(DISTINCT test.c_int16) | COUNT(DISTINCT test.c_int32) | COUNT(DISTINCT test.c_int64) | COUNT(DISTINCT test.c_uint8) | COUNT(DISTINCT test.c_uint16) | COUNT(DISTINCT test.c_uint32) | COUNT(DISTINCT test.c_uint64) |", + "| c_group | count(test.c_uint64) | count(DISTINCT test.c_int8) | count(DISTINCT test.c_int16) | count(DISTINCT test.c_int32) | count(DISTINCT test.c_int64) | count(DISTINCT test.c_uint8) | count(DISTINCT test.c_uint16) | count(DISTINCT test.c_uint32) | count(DISTINCT test.c_uint64) |", "+---------+----------------------+-----------------------------+------------------------------+------------------------------+------------------------------+------------------------------+-------------------------------+-------------------------------+-------------------------------+", "| a | 5 | 3 | 3 | 3 | 3 | 3 | 3 | 3 | 3 |", "| b | 5 | 4 | 4 | 4 | 4 | 4 | 4 | 4 | 4 |", @@ -301,7 +301,7 @@ async fn test_accumulator_row_accumulator() -> Result<()> { let ctx = SessionContext::new_with_config(config); register_aggregate_csv(&ctx).await?; - let sql = "SELECT c1, c2, MIN(c13) as min1, MIN(c9) as min2, MAX(c13) as max1, MAX(c9) as max2, AVG(c9) as avg1, MIN(c13) as min3, COUNT(C9) as cnt1, 0.5*SUM(c9-c8) as sum1 + let sql = "SELECT c1, c2, MIN(c13) as min1, MIN(c9) as min2, MAX(c13) as max1, MAX(c9) as max2, AVG(c9) as avg1, MIN(c13) as min3, count(C9) as cnt1, 0.5*SUM(c9-c8) as sum1 FROM aggregate_test_100 GROUP BY c1, c2 ORDER BY c1, c2 diff --git a/datafusion/core/tests/sql/explain_analyze.rs b/datafusion/core/tests/sql/explain_analyze.rs index 3e5a0681589c3..502590f9e2e22 100644 --- a/datafusion/core/tests/sql/explain_analyze.rs +++ b/datafusion/core/tests/sql/explain_analyze.rs @@ -81,7 +81,7 @@ async fn explain_analyze_baseline_metrics() { ); assert_metrics!( &formatted, - "ProjectionExec: expr=[COUNT(*)", + "ProjectionExec: expr=[count(*)", "metrics=[output_rows=1, elapsed_compute=" ); assert_metrics!( @@ -700,7 +700,7 @@ async fn csv_explain_analyze() { // Only test basic plumbing and try to avoid having to change too // many things. explain_analyze_baseline_metrics covers the values // in greater depth - let needle = "AggregateExec: mode=FinalPartitioned, gby=[c1@0 as c1], aggr=[COUNT(*)], metrics=[output_rows=5"; + let needle = "AggregateExec: mode=FinalPartitioned, gby=[c1@0 as c1], aggr=[count(*)], metrics=[output_rows=5"; assert_contains!(&formatted, needle); let verbose_needle = "Output Rows"; @@ -793,7 +793,7 @@ async fn explain_logical_plan_only() { let expected = vec![ vec![ "logical_plan", - "Aggregate: groupBy=[[]], aggr=[[COUNT(Int64(1)) AS COUNT(*)]]\ + "Aggregate: groupBy=[[]], aggr=[[count(Int64(1)) AS count(*)]]\ \n SubqueryAlias: t\ \n Projection: \ \n Values: (Utf8(\"a\"), Int64(1), Int64(100)), (Utf8(\"a\"), Int64(2), Int64(150))" @@ -812,7 +812,7 @@ async fn explain_physical_plan_only() { let expected = vec![vec![ "physical_plan", - "ProjectionExec: expr=[2 as COUNT(*)]\ + "ProjectionExec: expr=[2 as count(*)]\ \n PlaceholderRowExec\ \n", ]]; diff --git a/datafusion/functions-aggregate/src/count.rs b/datafusion/functions-aggregate/src/count.rs index 062e148975bf7..84abc0d730988 100644 --- a/datafusion/functions-aggregate/src/count.rs +++ b/datafusion/functions-aggregate/src/count.rs @@ -77,7 +77,6 @@ pub fn count_distinct(expr: Expr) -> datafusion_expr::Expr { pub struct Count { signature: Signature, - aliases: Vec, } impl Debug for Count { @@ -98,7 +97,6 @@ impl Default for Count { impl Count { pub fn new() -> Self { Self { - aliases: vec!["count".to_string()], signature: Signature::variadic_any(Volatility::Immutable), } } @@ -110,7 +108,7 @@ impl AggregateUDFImpl for Count { } fn name(&self) -> &str { - "COUNT" + "count" } fn signature(&self) -> &Signature { @@ -249,7 +247,7 @@ impl AggregateUDFImpl for Count { } fn aliases(&self) -> &[String] { - &self.aliases + &[] } fn groups_accumulator_supported(&self, args: AccumulatorArgs) -> bool { diff --git a/datafusion/optimizer/src/analyzer/count_wildcard_rule.rs b/datafusion/optimizer/src/analyzer/count_wildcard_rule.rs index de2af520053a2..34f9802b1fd90 100644 --- a/datafusion/optimizer/src/analyzer/count_wildcard_rule.rs +++ b/datafusion/optimizer/src/analyzer/count_wildcard_rule.rs @@ -59,14 +59,14 @@ fn is_count_star_aggregate(aggregate_function: &AggregateFunction) -> bool { func_def: AggregateFunctionDefinition::UDF(udf), args, .. - } if udf.name() == "COUNT" && args.len() == 1 && is_wildcard(&args[0])) + } if udf.name() == "count" && args.len() == 1 && is_wildcard(&args[0])) } fn is_count_star_window_aggregate(window_function: &WindowFunction) -> bool { let args = &window_function.args; matches!(window_function.fun, WindowFunctionDefinition::AggregateUDF(ref udaf) - if udaf.name() == "COUNT" && args.len() == 1 && is_wildcard(&args[0])) + if udaf.name() == "count" && args.len() == 1 && is_wildcard(&args[0])) } fn analyze_internal(plan: LogicalPlan) -> Result> { @@ -127,9 +127,9 @@ mod tests { .project(vec![count(wildcard())])? .sort(vec![count(wildcard()).sort(true, false)])? .build()?; - let expected = "Sort: COUNT(*) ASC NULLS LAST [COUNT(*):Int64;N]\ - \n Projection: COUNT(*) [COUNT(*):Int64;N]\ - \n Aggregate: groupBy=[[test.b]], aggr=[[COUNT(Int64(1)) AS COUNT(*)]] [b:UInt32, COUNT(*):Int64;N]\ + let expected = "Sort: count(*) ASC NULLS LAST [count(*):Int64;N]\ + \n Projection: count(*) [count(*):Int64;N]\ + \n Aggregate: groupBy=[[test.b]], aggr=[[count(Int64(1)) AS count(*)]] [b:UInt32, count(*):Int64;N]\ \n TableScan: test [a:UInt32, b:UInt32, c:UInt32]"; assert_plan_eq(plan, expected) } @@ -152,9 +152,9 @@ mod tests { .build()?; let expected = "Filter: t1.a IN () [a:UInt32, b:UInt32, c:UInt32]\ - \n Subquery: [COUNT(*):Int64;N]\ - \n Projection: COUNT(*) [COUNT(*):Int64;N]\ - \n Aggregate: groupBy=[[]], aggr=[[COUNT(Int64(1)) AS COUNT(*)]] [COUNT(*):Int64;N]\ + \n Subquery: [count(*):Int64;N]\ + \n Projection: count(*) [count(*):Int64;N]\ + \n Aggregate: groupBy=[[]], aggr=[[count(Int64(1)) AS count(*)]] [count(*):Int64;N]\ \n TableScan: t2 [a:UInt32, b:UInt32, c:UInt32]\ \n TableScan: t1 [a:UInt32, b:UInt32, c:UInt32]"; assert_plan_eq(plan, expected) @@ -175,9 +175,9 @@ mod tests { .build()?; let expected = "Filter: EXISTS () [a:UInt32, b:UInt32, c:UInt32]\ - \n Subquery: [COUNT(*):Int64;N]\ - \n Projection: COUNT(*) [COUNT(*):Int64;N]\ - \n Aggregate: groupBy=[[]], aggr=[[COUNT(Int64(1)) AS COUNT(*)]] [COUNT(*):Int64;N]\ + \n Subquery: [count(*):Int64;N]\ + \n Projection: count(*) [count(*):Int64;N]\ + \n Aggregate: groupBy=[[]], aggr=[[count(Int64(1)) AS count(*)]] [count(*):Int64;N]\ \n TableScan: t2 [a:UInt32, b:UInt32, c:UInt32]\ \n TableScan: t1 [a:UInt32, b:UInt32, c:UInt32]"; assert_plan_eq(plan, expected) @@ -207,9 +207,9 @@ mod tests { let expected = "Projection: t1.a, t1.b [a:UInt32, b:UInt32]\ \n Filter: () > UInt8(0) [a:UInt32, b:UInt32, c:UInt32]\ - \n Subquery: [COUNT(Int64(1)):Int64;N]\ - \n Projection: COUNT(Int64(1)) [COUNT(Int64(1)):Int64;N]\ - \n Aggregate: groupBy=[[]], aggr=[[COUNT(Int64(1))]] [COUNT(Int64(1)):Int64;N]\ + \n Subquery: [count(Int64(1)):Int64;N]\ + \n Projection: count(Int64(1)) [count(Int64(1)):Int64;N]\ + \n Aggregate: groupBy=[[]], aggr=[[count(Int64(1))]] [count(Int64(1)):Int64;N]\ \n Filter: outer_ref(t1.a) = t2.a [a:UInt32, b:UInt32, c:UInt32]\ \n TableScan: t2 [a:UInt32, b:UInt32, c:UInt32]\ \n TableScan: t1 [a:UInt32, b:UInt32, c:UInt32]"; @@ -235,8 +235,8 @@ mod tests { .project(vec![count(wildcard())])? .build()?; - let expected = "Projection: COUNT(Int64(1)) AS COUNT(*) [COUNT(*):Int64;N]\ - \n WindowAggr: windowExpr=[[COUNT(Int64(1)) ORDER BY [test.a DESC NULLS FIRST] RANGE BETWEEN 6 PRECEDING AND 2 FOLLOWING AS COUNT(*) ORDER BY [test.a DESC NULLS FIRST] RANGE BETWEEN 6 PRECEDING AND 2 FOLLOWING]] [a:UInt32, b:UInt32, c:UInt32, COUNT(*) ORDER BY [test.a DESC NULLS FIRST] RANGE BETWEEN 6 PRECEDING AND 2 FOLLOWING:Int64;N]\ + let expected = "Projection: count(Int64(1)) AS count(*) [count(*):Int64;N]\ + \n WindowAggr: windowExpr=[[count(Int64(1)) ORDER BY [test.a DESC NULLS FIRST] RANGE BETWEEN 6 PRECEDING AND 2 FOLLOWING AS count(*) ORDER BY [test.a DESC NULLS FIRST] RANGE BETWEEN 6 PRECEDING AND 2 FOLLOWING]] [a:UInt32, b:UInt32, c:UInt32, count(*) ORDER BY [test.a DESC NULLS FIRST] RANGE BETWEEN 6 PRECEDING AND 2 FOLLOWING:Int64;N]\ \n TableScan: test [a:UInt32, b:UInt32, c:UInt32]"; assert_plan_eq(plan, expected) } @@ -249,8 +249,8 @@ mod tests { .project(vec![count(wildcard())])? .build()?; - let expected = "Projection: COUNT(*) [COUNT(*):Int64;N]\ - \n Aggregate: groupBy=[[]], aggr=[[COUNT(Int64(1)) AS COUNT(*)]] [COUNT(*):Int64;N]\ + let expected = "Projection: count(*) [count(*):Int64;N]\ + \n Aggregate: groupBy=[[]], aggr=[[count(Int64(1)) AS count(*)]] [count(*):Int64;N]\ \n TableScan: test [a:UInt32, b:UInt32, c:UInt32]"; assert_plan_eq(plan, expected) } @@ -272,8 +272,8 @@ mod tests { .project(vec![count(wildcard())])? .build()?; - let expected = "Projection: COUNT(Int64(1)) AS COUNT(*) [COUNT(*):Int64;N]\ - \n Aggregate: groupBy=[[]], aggr=[[MAX(COUNT(Int64(1))) AS MAX(COUNT(*))]] [MAX(COUNT(*)):Int64;N]\ + let expected = "Projection: count(Int64(1)) AS count(*) [count(*):Int64;N]\ + \n Aggregate: groupBy=[[]], aggr=[[MAX(count(Int64(1))) AS MAX(count(*))]] [MAX(count(*)):Int64;N]\ \n TableScan: test [a:UInt32, b:UInt32, c:UInt32]"; assert_plan_eq(plan, expected) } diff --git a/datafusion/optimizer/src/decorrelate.rs b/datafusion/optimizer/src/decorrelate.rs index e949e1921b972..7806a622ac0fb 100644 --- a/datafusion/optimizer/src/decorrelate.rs +++ b/datafusion/optimizer/src/decorrelate.rs @@ -436,7 +436,7 @@ fn agg_exprs_evaluation_result_on_empty_batch( Transformed::yes(Expr::Literal(ScalarValue::Null)) } AggregateFunctionDefinition::UDF(fun) => { - if fun.name() == "COUNT" { + if fun.name() == "count" { Transformed::yes(Expr::Literal(ScalarValue::Int64(Some( 0, )))) diff --git a/datafusion/optimizer/src/eliminate_group_by_constant.rs b/datafusion/optimizer/src/eliminate_group_by_constant.rs index 7a8dd7aac2497..5d9a1193fd78f 100644 --- a/datafusion/optimizer/src/eliminate_group_by_constant.rs +++ b/datafusion/optimizer/src/eliminate_group_by_constant.rs @@ -176,8 +176,8 @@ mod tests { .build()?; let expected = "\ - Projection: test.a, UInt32(1), COUNT(test.c)\ - \n Aggregate: groupBy=[[test.a]], aggr=[[COUNT(test.c)]]\ + Projection: test.a, UInt32(1), count(test.c)\ + \n Aggregate: groupBy=[[test.a]], aggr=[[count(test.c)]]\ \n TableScan: test\ "; @@ -196,8 +196,8 @@ mod tests { .build()?; let expected = "\ - Projection: Utf8(\"test\"), UInt32(123), COUNT(test.c)\ - \n Aggregate: groupBy=[[]], aggr=[[COUNT(test.c)]]\ + Projection: Utf8(\"test\"), UInt32(123), count(test.c)\ + \n Aggregate: groupBy=[[]], aggr=[[count(test.c)]]\ \n TableScan: test\ "; @@ -216,7 +216,7 @@ mod tests { .build()?; let expected = "\ - Aggregate: groupBy=[[test.a, test.b]], aggr=[[COUNT(test.c)]]\ + Aggregate: groupBy=[[test.a, test.b]], aggr=[[count(test.c)]]\ \n TableScan: test\ "; @@ -257,8 +257,8 @@ mod tests { .build()?; let expected = "\ - Projection: UInt32(123) AS const, test.a, COUNT(test.c)\ - \n Aggregate: groupBy=[[test.a]], aggr=[[COUNT(test.c)]]\ + Projection: UInt32(123) AS const, test.a, count(test.c)\ + \n Aggregate: groupBy=[[test.a]], aggr=[[count(test.c)]]\ \n TableScan: test\ "; @@ -282,8 +282,8 @@ mod tests { .build()?; let expected = "\ - Projection: scalar_fn_mock(UInt32(123)), test.a, COUNT(test.c)\ - \n Aggregate: groupBy=[[test.a]], aggr=[[COUNT(test.c)]]\ + Projection: scalar_fn_mock(UInt32(123)), test.a, count(test.c)\ + \n Aggregate: groupBy=[[test.a]], aggr=[[count(test.c)]]\ \n TableScan: test\ "; @@ -307,7 +307,7 @@ mod tests { .build()?; let expected = "\ - Aggregate: groupBy=[[scalar_fn_mock(UInt32(123)), test.a]], aggr=[[COUNT(test.c)]]\ + Aggregate: groupBy=[[scalar_fn_mock(UInt32(123)), test.a]], aggr=[[count(test.c)]]\ \n TableScan: test\ "; diff --git a/datafusion/optimizer/src/optimize_projections/mod.rs b/datafusion/optimizer/src/optimize_projections/mod.rs index 11540d3e162e4..5749469f2ddc2 100644 --- a/datafusion/optimizer/src/optimize_projections/mod.rs +++ b/datafusion/optimizer/src/optimize_projections/mod.rs @@ -171,7 +171,7 @@ fn optimize_projections( // still need to create a correct aggregate, which may be optimized // out later. As an example, consider the following query: // - // SELECT COUNT(*) FROM (SELECT COUNT(*) FROM [...]) + // SELECT count(*) FROM (SELECT count(*) FROM [...]) // // which always returns 1. if new_aggr_expr.is_empty() @@ -1049,9 +1049,9 @@ mod tests { .build() .unwrap(); - let expected = "Aggregate: groupBy=[[]], aggr=[[COUNT(Int32(1))]]\ + let expected = "Aggregate: groupBy=[[]], aggr=[[count(Int32(1))]]\ \n Projection: \ - \n Aggregate: groupBy=[[]], aggr=[[COUNT(Int32(1))]]\ + \n Aggregate: groupBy=[[]], aggr=[[count(Int32(1))]]\ \n TableScan: ?table? projection=[]"; assert_optimized_plan_equal(plan, expected) } @@ -1901,7 +1901,7 @@ mod tests { )? .build()?; - let expected = "Aggregate: groupBy=[[test.a]], aggr=[[COUNT(test.b), COUNT(test.b) FILTER (WHERE test.c > Int32(42)) AS count2]]\ + let expected = "Aggregate: groupBy=[[test.a]], aggr=[[count(test.b), count(test.b) FILTER (WHERE test.c > Int32(42)) AS count2]]\ \n TableScan: test projection=[a, b, c]"; assert_optimized_plan_equal(plan, expected) diff --git a/datafusion/optimizer/src/single_distinct_to_groupby.rs b/datafusion/optimizer/src/single_distinct_to_groupby.rs index d3d22eb53f395..4c98b9398a5b9 100644 --- a/datafusion/optimizer/src/single_distinct_to_groupby.rs +++ b/datafusion/optimizer/src/single_distinct_to_groupby.rs @@ -40,12 +40,12 @@ use hashbrown::HashSet; /// single distinct to group by optimizer rule /// ```text /// Before: -/// SELECT a, COUNT(DINSTINCT b), sum(c) +/// SELECT a, count(DINSTINCT b), sum(c) /// FROM t /// GROUP BY a /// /// After: -/// SELECT a, COUNT(alias1), sum(alias2) +/// SELECT a, count(alias1), sum(alias2) /// FROM ( /// SELECT a, b as alias1, sum(c) as alias2 /// FROM t @@ -175,7 +175,7 @@ impl OptimizerRule for SingleDistinctToGroupBy { // if from parent operators successfully. // Consider plan below. // - // Aggregate: groupBy=[[group_alias_0]], aggr=[[COUNT(alias1)]] [group_alias_0:Int32, COUNT(alias1):Int64;N]\ + // Aggregate: groupBy=[[group_alias_0]], aggr=[[count(alias1)]] [group_alias_0:Int32, count(alias1):Int64;N]\ // --Aggregate: groupBy=[[test.a + Int32(1) AS group_alias_0, test.c AS alias1]], aggr=[[]] [group_alias_0:Int32, alias1:UInt32]\ // ----TableScan: test [a:UInt32, b:UInt32, c:UInt32] // @@ -183,7 +183,7 @@ impl OptimizerRule for SingleDistinctToGroupBy { // Second aggregate refers to the `group_alias_0` column, Which is a valid field in the first aggregate. // If we were to write plan above as below without alias // - // Aggregate: groupBy=[[test.a + Int32(1)]], aggr=[[COUNT(alias1)]] [group_alias_0:Int32, COUNT(alias1):Int64;N]\ + // Aggregate: groupBy=[[test.a + Int32(1)]], aggr=[[count(alias1)]] [group_alias_0:Int32, count(alias1):Int64;N]\ // --Aggregate: groupBy=[[test.a + Int32(1), test.c AS alias1]], aggr=[[]] [group_alias_0:Int32, alias1:UInt32]\ // ----TableScan: test [a:UInt32, b:UInt32, c:UInt32] // @@ -404,8 +404,8 @@ mod tests { .build()?; // Should work - let expected = "Projection: COUNT(alias1) AS COUNT(DISTINCT test.b) [COUNT(DISTINCT test.b):Int64;N]\ - \n Aggregate: groupBy=[[]], aggr=[[COUNT(alias1)]] [COUNT(alias1):Int64;N]\ + let expected = "Projection: count(alias1) AS count(DISTINCT test.b) [count(DISTINCT test.b):Int64;N]\ + \n Aggregate: groupBy=[[]], aggr=[[count(alias1)]] [count(alias1):Int64;N]\ \n Aggregate: groupBy=[[test.b AS alias1]], aggr=[[]] [alias1:UInt32]\ \n TableScan: test [a:UInt32, b:UInt32, c:UInt32]"; @@ -427,7 +427,7 @@ mod tests { .build()?; // Should not be optimized - let expected = "Aggregate: groupBy=[[GROUPING SETS ((test.a), (test.b))]], aggr=[[COUNT(DISTINCT test.c)]] [a:UInt32;N, b:UInt32;N, COUNT(DISTINCT test.c):Int64;N]\ + let expected = "Aggregate: groupBy=[[GROUPING SETS ((test.a), (test.b))]], aggr=[[count(DISTINCT test.c)]] [a:UInt32;N, b:UInt32;N, count(DISTINCT test.c):Int64;N]\ \n TableScan: test [a:UInt32, b:UInt32, c:UInt32]"; assert_optimized_plan_equal(plan, expected) @@ -445,7 +445,7 @@ mod tests { .build()?; // Should not be optimized - let expected = "Aggregate: groupBy=[[CUBE (test.a, test.b)]], aggr=[[COUNT(DISTINCT test.c)]] [a:UInt32;N, b:UInt32;N, COUNT(DISTINCT test.c):Int64;N]\ + let expected = "Aggregate: groupBy=[[CUBE (test.a, test.b)]], aggr=[[count(DISTINCT test.c)]] [a:UInt32;N, b:UInt32;N, count(DISTINCT test.c):Int64;N]\ \n TableScan: test [a:UInt32, b:UInt32, c:UInt32]"; assert_optimized_plan_equal(plan, expected) @@ -464,7 +464,7 @@ mod tests { .build()?; // Should not be optimized - let expected = "Aggregate: groupBy=[[ROLLUP (test.a, test.b)]], aggr=[[COUNT(DISTINCT test.c)]] [a:UInt32;N, b:UInt32;N, COUNT(DISTINCT test.c):Int64;N]\ + let expected = "Aggregate: groupBy=[[ROLLUP (test.a, test.b)]], aggr=[[count(DISTINCT test.c)]] [a:UInt32;N, b:UInt32;N, count(DISTINCT test.c):Int64;N]\ \n TableScan: test [a:UInt32, b:UInt32, c:UInt32]"; assert_optimized_plan_equal(plan, expected) @@ -478,8 +478,8 @@ mod tests { .aggregate(Vec::::new(), vec![count_distinct(lit(2) * col("b"))])? .build()?; - let expected = "Projection: COUNT(alias1) AS COUNT(DISTINCT Int32(2) * test.b) [COUNT(DISTINCT Int32(2) * test.b):Int64;N]\ - \n Aggregate: groupBy=[[]], aggr=[[COUNT(alias1)]] [COUNT(alias1):Int64;N]\ + let expected = "Projection: count(alias1) AS count(DISTINCT Int32(2) * test.b) [count(DISTINCT Int32(2) * test.b):Int64;N]\ + \n Aggregate: groupBy=[[]], aggr=[[count(alias1)]] [count(alias1):Int64;N]\ \n Aggregate: groupBy=[[Int32(2) * test.b AS alias1]], aggr=[[]] [alias1:Int32]\ \n TableScan: test [a:UInt32, b:UInt32, c:UInt32]"; @@ -495,8 +495,8 @@ mod tests { .build()?; // Should work - let expected = "Projection: test.a, COUNT(alias1) AS COUNT(DISTINCT test.b) [a:UInt32, COUNT(DISTINCT test.b):Int64;N]\ - \n Aggregate: groupBy=[[test.a]], aggr=[[COUNT(alias1)]] [a:UInt32, COUNT(alias1):Int64;N]\ + let expected = "Projection: test.a, count(alias1) AS count(DISTINCT test.b) [a:UInt32, count(DISTINCT test.b):Int64;N]\ + \n Aggregate: groupBy=[[test.a]], aggr=[[count(alias1)]] [a:UInt32, count(alias1):Int64;N]\ \n Aggregate: groupBy=[[test.a, test.b AS alias1]], aggr=[[]] [a:UInt32, alias1:UInt32]\ \n TableScan: test [a:UInt32, b:UInt32, c:UInt32]"; @@ -515,7 +515,7 @@ mod tests { .build()?; // Do nothing - let expected = "Aggregate: groupBy=[[test.a]], aggr=[[COUNT(DISTINCT test.b), COUNT(DISTINCT test.c)]] [a:UInt32, COUNT(DISTINCT test.b):Int64;N, COUNT(DISTINCT test.c):Int64;N]\ + let expected = "Aggregate: groupBy=[[test.a]], aggr=[[count(DISTINCT test.b), count(DISTINCT test.c)]] [a:UInt32, count(DISTINCT test.b):Int64;N, count(DISTINCT test.c):Int64;N]\ \n TableScan: test [a:UInt32, b:UInt32, c:UInt32]"; assert_optimized_plan_equal(plan, expected) @@ -542,8 +542,8 @@ mod tests { )? .build()?; // Should work - let expected = "Projection: test.a, COUNT(alias1) AS COUNT(DISTINCT test.b), MAX(alias1) AS MAX(DISTINCT test.b) [a:UInt32, COUNT(DISTINCT test.b):Int64;N, MAX(DISTINCT test.b):UInt32;N]\ - \n Aggregate: groupBy=[[test.a]], aggr=[[COUNT(alias1), MAX(alias1)]] [a:UInt32, COUNT(alias1):Int64;N, MAX(alias1):UInt32;N]\ + let expected = "Projection: test.a, count(alias1) AS count(DISTINCT test.b), MAX(alias1) AS MAX(DISTINCT test.b) [a:UInt32, count(DISTINCT test.b):Int64;N, MAX(DISTINCT test.b):UInt32;N]\ + \n Aggregate: groupBy=[[test.a]], aggr=[[count(alias1), MAX(alias1)]] [a:UInt32, count(alias1):Int64;N, MAX(alias1):UInt32;N]\ \n Aggregate: groupBy=[[test.a, test.b AS alias1]], aggr=[[]] [a:UInt32, alias1:UInt32]\ \n TableScan: test [a:UInt32, b:UInt32, c:UInt32]"; @@ -562,7 +562,7 @@ mod tests { .build()?; // Do nothing - let expected = "Aggregate: groupBy=[[test.a]], aggr=[[COUNT(DISTINCT test.b), COUNT(test.c)]] [a:UInt32, COUNT(DISTINCT test.b):Int64;N, COUNT(test.c):Int64;N]\ + let expected = "Aggregate: groupBy=[[test.a]], aggr=[[count(DISTINCT test.b), count(test.c)]] [a:UInt32, count(DISTINCT test.b):Int64;N, count(test.c):Int64;N]\ \n TableScan: test [a:UInt32, b:UInt32, c:UInt32]"; assert_optimized_plan_equal(plan, expected) @@ -577,8 +577,8 @@ mod tests { .build()?; // Should work - let expected = "Projection: group_alias_0 AS test.a + Int32(1), COUNT(alias1) AS COUNT(DISTINCT test.c) [test.a + Int32(1):Int32, COUNT(DISTINCT test.c):Int64;N]\ - \n Aggregate: groupBy=[[group_alias_0]], aggr=[[COUNT(alias1)]] [group_alias_0:Int32, COUNT(alias1):Int64;N]\ + let expected = "Projection: group_alias_0 AS test.a + Int32(1), count(alias1) AS count(DISTINCT test.c) [test.a + Int32(1):Int32, count(DISTINCT test.c):Int64;N]\ + \n Aggregate: groupBy=[[group_alias_0]], aggr=[[count(alias1)]] [group_alias_0:Int32, count(alias1):Int64;N]\ \n Aggregate: groupBy=[[test.a + Int32(1) AS group_alias_0, test.c AS alias1]], aggr=[[]] [group_alias_0:Int32, alias1:UInt32]\ \n TableScan: test [a:UInt32, b:UInt32, c:UInt32]"; @@ -607,8 +607,8 @@ mod tests { )? .build()?; // Should work - let expected = "Projection: test.a, sum(alias2) AS sum(test.c), COUNT(alias1) AS COUNT(DISTINCT test.b), MAX(alias1) AS MAX(DISTINCT test.b) [a:UInt32, sum(test.c):UInt64;N, COUNT(DISTINCT test.b):Int64;N, MAX(DISTINCT test.b):UInt32;N]\ - \n Aggregate: groupBy=[[test.a]], aggr=[[sum(alias2), COUNT(alias1), MAX(alias1)]] [a:UInt32, sum(alias2):UInt64;N, COUNT(alias1):Int64;N, MAX(alias1):UInt32;N]\ + let expected = "Projection: test.a, sum(alias2) AS sum(test.c), count(alias1) AS count(DISTINCT test.b), MAX(alias1) AS MAX(DISTINCT test.b) [a:UInt32, sum(test.c):UInt64;N, count(DISTINCT test.b):Int64;N, MAX(DISTINCT test.b):UInt32;N]\ + \n Aggregate: groupBy=[[test.a]], aggr=[[sum(alias2), count(alias1), MAX(alias1)]] [a:UInt32, sum(alias2):UInt64;N, count(alias1):Int64;N, MAX(alias1):UInt32;N]\ \n Aggregate: groupBy=[[test.a, test.b AS alias1]], aggr=[[sum(test.c) AS alias2]] [a:UInt32, alias1:UInt32, alias2:UInt64;N]\ \n TableScan: test [a:UInt32, b:UInt32, c:UInt32]"; @@ -626,8 +626,8 @@ mod tests { )? .build()?; // Should work - let expected = "Projection: test.a, sum(alias2) AS sum(test.c), MAX(alias3) AS MAX(test.c), COUNT(alias1) AS COUNT(DISTINCT test.b) [a:UInt32, sum(test.c):UInt64;N, MAX(test.c):UInt32;N, COUNT(DISTINCT test.b):Int64;N]\ - \n Aggregate: groupBy=[[test.a]], aggr=[[sum(alias2), MAX(alias3), COUNT(alias1)]] [a:UInt32, sum(alias2):UInt64;N, MAX(alias3):UInt32;N, COUNT(alias1):Int64;N]\ + let expected = "Projection: test.a, sum(alias2) AS sum(test.c), MAX(alias3) AS MAX(test.c), count(alias1) AS count(DISTINCT test.b) [a:UInt32, sum(test.c):UInt64;N, MAX(test.c):UInt32;N, count(DISTINCT test.b):Int64;N]\ + \n Aggregate: groupBy=[[test.a]], aggr=[[sum(alias2), MAX(alias3), count(alias1)]] [a:UInt32, sum(alias2):UInt64;N, MAX(alias3):UInt32;N, count(alias1):Int64;N]\ \n Aggregate: groupBy=[[test.a, test.b AS alias1]], aggr=[[sum(test.c) AS alias2, MAX(test.c) AS alias3]] [a:UInt32, alias1:UInt32, alias2:UInt64;N, alias3:UInt32;N]\ \n TableScan: test [a:UInt32, b:UInt32, c:UInt32]"; @@ -645,8 +645,8 @@ mod tests { )? .build()?; // Should work - let expected = "Projection: test.c, MIN(alias2) AS MIN(test.a), COUNT(alias1) AS COUNT(DISTINCT test.b) [c:UInt32, MIN(test.a):UInt32;N, COUNT(DISTINCT test.b):Int64;N]\ - \n Aggregate: groupBy=[[test.c]], aggr=[[MIN(alias2), COUNT(alias1)]] [c:UInt32, MIN(alias2):UInt32;N, COUNT(alias1):Int64;N]\ + let expected = "Projection: test.c, MIN(alias2) AS MIN(test.a), count(alias1) AS count(DISTINCT test.b) [c:UInt32, MIN(test.a):UInt32;N, count(DISTINCT test.b):Int64;N]\ + \n Aggregate: groupBy=[[test.c]], aggr=[[MIN(alias2), count(alias1)]] [c:UInt32, MIN(alias2):UInt32;N, count(alias1):Int64;N]\ \n Aggregate: groupBy=[[test.c, test.b AS alias1]], aggr=[[MIN(test.a) AS alias2]] [c:UInt32, alias1:UInt32, alias2:UInt32;N]\ \n TableScan: test [a:UInt32, b:UInt32, c:UInt32]"; @@ -670,7 +670,7 @@ mod tests { .aggregate(vec![col("c")], vec![expr, count_distinct(col("b"))])? .build()?; // Do nothing - let expected = "Aggregate: groupBy=[[test.c]], aggr=[[sum(test.a) FILTER (WHERE test.a > Int32(5)), COUNT(DISTINCT test.b)]] [c:UInt32, sum(test.a) FILTER (WHERE test.a > Int32(5)):UInt64;N, COUNT(DISTINCT test.b):Int64;N]\ + let expected = "Aggregate: groupBy=[[test.c]], aggr=[[sum(test.a) FILTER (WHERE test.a > Int32(5)), count(DISTINCT test.b)]] [c:UInt32, sum(test.a) FILTER (WHERE test.a > Int32(5)):UInt64;N, count(DISTINCT test.b):Int64;N]\ \n TableScan: test [a:UInt32, b:UInt32, c:UInt32]"; assert_optimized_plan_equal(plan, expected) @@ -680,7 +680,7 @@ mod tests { fn distinct_with_filter() -> Result<()> { let table_scan = test_table_scan()?; - // COUNT(DISTINCT a) FILTER (WHERE a > 5) + // count(DISTINCT a) FILTER (WHERE a > 5) let expr = count_udaf() .call(vec![col("a")]) .distinct() @@ -690,7 +690,7 @@ mod tests { .aggregate(vec![col("c")], vec![sum(col("a")), expr])? .build()?; // Do nothing - let expected = "Aggregate: groupBy=[[test.c]], aggr=[[sum(test.a), COUNT(DISTINCT test.a) FILTER (WHERE test.a > Int32(5))]] [c:UInt32, sum(test.a):UInt64;N, COUNT(DISTINCT test.a) FILTER (WHERE test.a > Int32(5)):Int64;N]\ + let expected = "Aggregate: groupBy=[[test.c]], aggr=[[sum(test.a), count(DISTINCT test.a) FILTER (WHERE test.a > Int32(5))]] [c:UInt32, sum(test.a):UInt64;N, count(DISTINCT test.a) FILTER (WHERE test.a > Int32(5)):Int64;N]\ \n TableScan: test [a:UInt32, b:UInt32, c:UInt32]"; assert_optimized_plan_equal(plan, expected) @@ -713,7 +713,7 @@ mod tests { .aggregate(vec![col("c")], vec![expr, count_distinct(col("b"))])? .build()?; // Do nothing - let expected = "Aggregate: groupBy=[[test.c]], aggr=[[sum(test.a) ORDER BY [test.a], COUNT(DISTINCT test.b)]] [c:UInt32, sum(test.a) ORDER BY [test.a]:UInt64;N, COUNT(DISTINCT test.b):Int64;N]\ + let expected = "Aggregate: groupBy=[[test.c]], aggr=[[sum(test.a) ORDER BY [test.a], count(DISTINCT test.b)]] [c:UInt32, sum(test.a) ORDER BY [test.a]:UInt64;N, count(DISTINCT test.b):Int64;N]\ \n TableScan: test [a:UInt32, b:UInt32, c:UInt32]"; assert_optimized_plan_equal(plan, expected) @@ -723,7 +723,7 @@ mod tests { fn distinct_with_order_by() -> Result<()> { let table_scan = test_table_scan()?; - // COUNT(DISTINCT a ORDER BY a) + // count(DISTINCT a ORDER BY a) let expr = count_udaf() .call(vec![col("a")]) .distinct() @@ -733,7 +733,7 @@ mod tests { .aggregate(vec![col("c")], vec![sum(col("a")), expr])? .build()?; // Do nothing - let expected = "Aggregate: groupBy=[[test.c]], aggr=[[sum(test.a), COUNT(DISTINCT test.a) ORDER BY [test.a ASC NULLS LAST]]] [c:UInt32, sum(test.a):UInt64;N, COUNT(DISTINCT test.a) ORDER BY [test.a ASC NULLS LAST]:Int64;N]\ + let expected = "Aggregate: groupBy=[[test.c]], aggr=[[sum(test.a), count(DISTINCT test.a) ORDER BY [test.a ASC NULLS LAST]]] [c:UInt32, sum(test.a):UInt64;N, count(DISTINCT test.a) ORDER BY [test.a ASC NULLS LAST]:Int64;N]\ \n TableScan: test [a:UInt32, b:UInt32, c:UInt32]"; assert_optimized_plan_equal(plan, expected) @@ -743,7 +743,7 @@ mod tests { fn aggregate_with_filter_and_order_by() -> Result<()> { let table_scan = test_table_scan()?; - // COUNT(DISTINCT a ORDER BY a) FILTER (WHERE a > 5) + // count(DISTINCT a ORDER BY a) FILTER (WHERE a > 5) let expr = count_udaf() .call(vec![col("a")]) .distinct() @@ -754,7 +754,7 @@ mod tests { .aggregate(vec![col("c")], vec![sum(col("a")), expr])? .build()?; // Do nothing - let expected = "Aggregate: groupBy=[[test.c]], aggr=[[sum(test.a), COUNT(DISTINCT test.a) FILTER (WHERE test.a > Int32(5)) ORDER BY [test.a ASC NULLS LAST]]] [c:UInt32, sum(test.a):UInt64;N, COUNT(DISTINCT test.a) FILTER (WHERE test.a > Int32(5)) ORDER BY [test.a ASC NULLS LAST]:Int64;N]\ + let expected = "Aggregate: groupBy=[[test.c]], aggr=[[sum(test.a), count(DISTINCT test.a) FILTER (WHERE test.a > Int32(5)) ORDER BY [test.a ASC NULLS LAST]]] [c:UInt32, sum(test.a):UInt64;N, count(DISTINCT test.a) FILTER (WHERE test.a > Int32(5)) ORDER BY [test.a ASC NULLS LAST]:Int64;N]\ \n TableScan: test [a:UInt32, b:UInt32, c:UInt32]"; assert_optimized_plan_equal(plan, expected) diff --git a/datafusion/optimizer/tests/optimizer_integration.rs b/datafusion/optimizer/tests/optimizer_integration.rs index f60bf6609005c..70308183306eb 100644 --- a/datafusion/optimizer/tests/optimizer_integration.rs +++ b/datafusion/optimizer/tests/optimizer_integration.rs @@ -187,7 +187,7 @@ fn between_date32_plus_interval() -> Result<()> { WHERE col_date32 between '1998-03-18' AND cast('1998-03-18' as date) + INTERVAL '90 days'"; let plan = test_sql(sql)?; let expected = - "Aggregate: groupBy=[[]], aggr=[[COUNT(Int64(1))]]\ + "Aggregate: groupBy=[[]], aggr=[[count(Int64(1))]]\ \n Projection: \ \n Filter: test.col_date32 >= Date32(\"1998-03-18\") AND test.col_date32 <= Date32(\"1998-06-16\")\ \n TableScan: test projection=[col_date32]"; @@ -201,7 +201,7 @@ fn between_date64_plus_interval() -> Result<()> { WHERE col_date64 between '1998-03-18T00:00:00' AND cast('1998-03-18' as date) + INTERVAL '90 days'"; let plan = test_sql(sql)?; let expected = - "Aggregate: groupBy=[[]], aggr=[[COUNT(Int64(1))]]\ + "Aggregate: groupBy=[[]], aggr=[[count(Int64(1))]]\ \n Projection: \ \n Filter: test.col_date64 >= Date64(\"1998-03-18\") AND test.col_date64 <= Date64(\"1998-06-16\")\ \n TableScan: test projection=[col_date64]"; @@ -257,8 +257,8 @@ fn join_keys_in_subquery_alias_1() { fn push_down_filter_groupby_expr_contains_alias() { let sql = "SELECT * FROM (SELECT (col_int32 + col_uint32) AS c, count(*) FROM test GROUP BY 1) where c > 3"; let plan = test_sql(sql).unwrap(); - let expected = "Projection: test.col_int32 + test.col_uint32 AS c, COUNT(*)\ - \n Aggregate: groupBy=[[test.col_int32 + CAST(test.col_uint32 AS Int32)]], aggr=[[COUNT(Int64(1)) AS COUNT(*)]]\ + let expected = "Projection: test.col_int32 + test.col_uint32 AS c, count(*)\ + \n Aggregate: groupBy=[[test.col_int32 + CAST(test.col_uint32 AS Int32)]], aggr=[[count(Int64(1)) AS count(*)]]\ \n Filter: test.col_int32 + CAST(test.col_uint32 AS Int32) > Int32(3)\ \n TableScan: test projection=[col_int32, col_uint32]"; assert_eq!(expected, format!("{plan:?}")); diff --git a/datafusion/physical-plan/src/windows/bounded_window_agg_exec.rs b/datafusion/physical-plan/src/windows/bounded_window_agg_exec.rs index fc60ab997375a..9eb29891703e3 100644 --- a/datafusion/physical-plan/src/windows/bounded_window_agg_exec.rs +++ b/datafusion/physical-plan/src/windows/bounded_window_agg_exec.rs @@ -1653,7 +1653,7 @@ mod tests { // // Effectively following query is run on this data // - // SELECT *, COUNT(*) OVER(PARTITION BY duplicated_hash ORDER BY sn RANGE BETWEEN CURRENT ROW AND 1 FOLLOWING) + // SELECT *, count(*) OVER(PARTITION BY duplicated_hash ORDER BY sn RANGE BETWEEN CURRENT ROW AND 1 FOLLOWING) // FROM test; // // partition `duplicated_hash=2` receives following data from the input @@ -1727,8 +1727,8 @@ mod tests { let plan = projection_exec(window)?; let expected_plan = vec![ - "ProjectionExec: expr=[sn@0 as sn, hash@1 as hash, COUNT([Column { name: \"sn\", index: 0 }]) PARTITION BY: [[Column { name: \"hash\", index: 1 }]], ORDER BY: [[PhysicalSortExpr { expr: Column { name: \"sn\", index: 0 }, options: SortOptions { descending: false, nulls_first: true } }]]@2 as col_2]", - " BoundedWindowAggExec: wdw=[COUNT([Column { name: \"sn\", index: 0 }]) PARTITION BY: [[Column { name: \"hash\", index: 1 }]], ORDER BY: [[PhysicalSortExpr { expr: Column { name: \"sn\", index: 0 }, options: SortOptions { descending: false, nulls_first: true } }]]: Ok(Field { name: \"COUNT([Column { name: \\\"sn\\\", index: 0 }]) PARTITION BY: [[Column { name: \\\"hash\\\", index: 1 }]], ORDER BY: [[PhysicalSortExpr { expr: Column { name: \\\"sn\\\", index: 0 }, options: SortOptions { descending: false, nulls_first: true } }]]\", data_type: Int64, nullable: true, dict_id: 0, dict_is_ordered: false, metadata: {} }), frame: WindowFrame { units: Range, start_bound: CurrentRow, end_bound: Following(UInt64(1)), is_causal: false }], mode=[Linear]", + "ProjectionExec: expr=[sn@0 as sn, hash@1 as hash, count([Column { name: \"sn\", index: 0 }]) PARTITION BY: [[Column { name: \"hash\", index: 1 }]], ORDER BY: [[PhysicalSortExpr { expr: Column { name: \"sn\", index: 0 }, options: SortOptions { descending: false, nulls_first: true } }]]@2 as col_2]", + " BoundedWindowAggExec: wdw=[count([Column { name: \"sn\", index: 0 }]) PARTITION BY: [[Column { name: \"hash\", index: 1 }]], ORDER BY: [[PhysicalSortExpr { expr: Column { name: \"sn\", index: 0 }, options: SortOptions { descending: false, nulls_first: true } }]]: Ok(Field { name: \"count([Column { name: \\\"sn\\\", index: 0 }]) PARTITION BY: [[Column { name: \\\"hash\\\", index: 1 }]], ORDER BY: [[PhysicalSortExpr { expr: Column { name: \\\"sn\\\", index: 0 }, options: SortOptions { descending: false, nulls_first: true } }]]\", data_type: Int64, nullable: true, dict_id: 0, dict_is_ordered: false, metadata: {} }), frame: WindowFrame { units: Range, start_bound: CurrentRow, end_bound: Following(UInt64(1)), is_causal: false }], mode=[Linear]", " StreamingTableExec: partition_sizes=1, projection=[sn, hash], infinite_source=true, output_ordering=[sn@0 ASC NULLS LAST]", ]; diff --git a/datafusion/sql/src/unparser/expr.rs b/datafusion/sql/src/unparser/expr.rs index 65481aed64f99..7db6956e32446 100644 --- a/datafusion/sql/src/unparser/expr.rs +++ b/datafusion/sql/src/unparser/expr.rs @@ -1198,7 +1198,7 @@ mod tests { .distinct() .build() .unwrap(), - "COUNT(DISTINCT *)", + "count(DISTINCT *)", ), ( count_udaf() @@ -1206,7 +1206,7 @@ mod tests { .filter(lit(true)) .build() .unwrap(), - "COUNT(*) FILTER (WHERE true)", + "count(*) FILTER (WHERE true)", ), ( Expr::WindowFunction(WindowFunction { @@ -1242,7 +1242,7 @@ mod tests { ), null_treatment: None, }), - r#"COUNT(*) OVER (ORDER BY a DESC NULLS FIRST RANGE BETWEEN 6 PRECEDING AND 2 FOLLOWING)"#, + r#"count(*) OVER (ORDER BY a DESC NULLS FIRST RANGE BETWEEN 6 PRECEDING AND 2 FOLLOWING)"#, ), (col("a").is_not_null(), r#"a IS NOT NULL"#), (col("a").is_null(), r#"a IS NULL"#), diff --git a/datafusion/sql/tests/sql_integration.rs b/datafusion/sql/tests/sql_integration.rs index 8eb2a2b609e73..3905d7d184249 100644 --- a/datafusion/sql/tests/sql_integration.rs +++ b/datafusion/sql/tests/sql_integration.rs @@ -996,12 +996,12 @@ fn select_aggregate_with_having_with_aggregate_not_in_select() { #[test] fn select_aggregate_with_having_referencing_column_not_in_select() { - let sql = "SELECT COUNT(*) + let sql = "SELECT count(*) FROM person HAVING first_name = 'M'"; let err = logical_plan(sql).expect_err("query should have failed"); assert_eq!( - "Error during planning: HAVING clause references non-aggregate values: Expression person.first_name could not be resolved from available columns: COUNT(*)", + "Error during planning: HAVING clause references non-aggregate values: Expression person.first_name could not be resolved from available columns: count(*)", err.strip_backtrace() ); } @@ -1200,10 +1200,10 @@ fn select_aggregate_with_group_by_with_having_using_count_star_not_in_select() { let sql = "SELECT first_name, MAX(age) FROM person GROUP BY first_name - HAVING MAX(age) > 100 AND COUNT(*) < 50"; + HAVING MAX(age) > 100 AND count(*) < 50"; let expected = "Projection: person.first_name, MAX(person.age)\ - \n Filter: MAX(person.age) > Int64(100) AND COUNT(*) < Int64(50)\ - \n Aggregate: groupBy=[[person.first_name]], aggr=[[MAX(person.age), COUNT(*)]]\ + \n Filter: MAX(person.age) > Int64(100) AND count(*) < Int64(50)\ + \n Aggregate: groupBy=[[person.first_name]], aggr=[[MAX(person.age), count(*)]]\ \n TableScan: person"; quick_test(sql, expected); } @@ -1464,15 +1464,15 @@ fn select_simple_aggregate_with_groupby_and_column_is_in_aggregate_and_groupby() #[test] fn select_simple_aggregate_with_groupby_can_use_positions() { quick_test( - "SELECT state, age AS b, COUNT(1) FROM person GROUP BY 1, 2", - "Projection: person.state, person.age AS b, COUNT(Int64(1))\ - \n Aggregate: groupBy=[[person.state, person.age]], aggr=[[COUNT(Int64(1))]]\ + "SELECT state, age AS b, count(1) FROM person GROUP BY 1, 2", + "Projection: person.state, person.age AS b, count(Int64(1))\ + \n Aggregate: groupBy=[[person.state, person.age]], aggr=[[count(Int64(1))]]\ \n TableScan: person", ); quick_test( - "SELECT state, age AS b, COUNT(1) FROM person GROUP BY 2, 1", - "Projection: person.state, person.age AS b, COUNT(Int64(1))\ - \n Aggregate: groupBy=[[person.age, person.state]], aggr=[[COUNT(Int64(1))]]\ + "SELECT state, age AS b, count(1) FROM person GROUP BY 2, 1", + "Projection: person.state, person.age AS b, count(Int64(1))\ + \n Aggregate: groupBy=[[person.age, person.state]], aggr=[[count(Int64(1))]]\ \n TableScan: person", ); } @@ -1633,18 +1633,18 @@ fn test_wildcard() { #[test] fn select_count_one() { - let sql = "SELECT COUNT(1) FROM person"; - let expected = "Projection: COUNT(Int64(1))\ - \n Aggregate: groupBy=[[]], aggr=[[COUNT(Int64(1))]]\ + let sql = "SELECT count(1) FROM person"; + let expected = "Projection: count(Int64(1))\ + \n Aggregate: groupBy=[[]], aggr=[[count(Int64(1))]]\ \n TableScan: person"; quick_test(sql, expected); } #[test] fn select_count_column() { - let sql = "SELECT COUNT(id) FROM person"; - let expected = "Projection: COUNT(person.id)\ - \n Aggregate: groupBy=[[]], aggr=[[COUNT(person.id)]]\ + let sql = "SELECT count(id) FROM person"; + let expected = "Projection: count(person.id)\ + \n Aggregate: groupBy=[[]], aggr=[[count(person.id)]]\ \n TableScan: person"; quick_test(sql, expected); } @@ -1814,9 +1814,9 @@ fn select_group_by_columns_not_in_select() { #[test] fn select_group_by_count_star() { - let sql = "SELECT state, COUNT(*) FROM person GROUP BY state"; - let expected = "Projection: person.state, COUNT(*)\ - \n Aggregate: groupBy=[[person.state]], aggr=[[COUNT(*)]]\ + let sql = "SELECT state, count(*) FROM person GROUP BY state"; + let expected = "Projection: person.state, count(*)\ + \n Aggregate: groupBy=[[person.state]], aggr=[[count(*)]]\ \n TableScan: person"; quick_test(sql, expected); @@ -1824,10 +1824,10 @@ fn select_group_by_count_star() { #[test] fn select_group_by_needs_projection() { - let sql = "SELECT COUNT(state), state FROM person GROUP BY state"; + let sql = "SELECT count(state), state FROM person GROUP BY state"; let expected = "\ - Projection: COUNT(person.state), person.state\ - \n Aggregate: groupBy=[[person.state]], aggr=[[COUNT(person.state)]]\ + Projection: count(person.state), person.state\ + \n Aggregate: groupBy=[[person.state]], aggr=[[count(person.state)]]\ \n TableScan: person"; quick_test(sql, expected); @@ -3000,8 +3000,8 @@ fn scalar_subquery_reference_outer_field() { let expected = "Projection: j1.j1_string, j2.j2_string\ \n Filter: j1.j1_id = j2.j2_id - Int64(1) AND j2.j2_id < ()\ \n Subquery:\ - \n Projection: COUNT(*)\ - \n Aggregate: groupBy=[[]], aggr=[[COUNT(*)]]\ + \n Projection: count(*)\ + \n Aggregate: groupBy=[[]], aggr=[[count(*)]]\ \n Filter: outer_ref(j2.j2_id) = j1.j1_id AND j1.j1_id = j3.j3_id\ \n CrossJoin:\ \n TableScan: j1\ @@ -3098,19 +3098,19 @@ fn cte_unbalanced_number_of_columns() { #[test] fn aggregate_with_rollup() { let sql = - "SELECT id, state, age, COUNT(*) FROM person GROUP BY id, ROLLUP (state, age)"; - let expected = "Projection: person.id, person.state, person.age, COUNT(*)\ - \n Aggregate: groupBy=[[GROUPING SETS ((person.id), (person.id, person.state), (person.id, person.state, person.age))]], aggr=[[COUNT(*)]]\ + "SELECT id, state, age, count(*) FROM person GROUP BY id, ROLLUP (state, age)"; + let expected = "Projection: person.id, person.state, person.age, count(*)\ + \n Aggregate: groupBy=[[GROUPING SETS ((person.id), (person.id, person.state), (person.id, person.state, person.age))]], aggr=[[count(*)]]\ \n TableScan: person"; quick_test(sql, expected); } #[test] fn aggregate_with_rollup_with_grouping() { - let sql = "SELECT id, state, age, grouping(state), grouping(age), grouping(state) + grouping(age), COUNT(*) \ + let sql = "SELECT id, state, age, grouping(state), grouping(age), grouping(state) + grouping(age), count(*) \ FROM person GROUP BY id, ROLLUP (state, age)"; - let expected = "Projection: person.id, person.state, person.age, GROUPING(person.state), GROUPING(person.age), GROUPING(person.state) + GROUPING(person.age), COUNT(*)\ - \n Aggregate: groupBy=[[GROUPING SETS ((person.id), (person.id, person.state), (person.id, person.state, person.age))]], aggr=[[GROUPING(person.state), GROUPING(person.age), COUNT(*)]]\ + let expected = "Projection: person.id, person.state, person.age, GROUPING(person.state), GROUPING(person.age), GROUPING(person.state) + GROUPING(person.age), count(*)\ + \n Aggregate: groupBy=[[GROUPING SETS ((person.id), (person.id, person.state), (person.id, person.state, person.age))]], aggr=[[GROUPING(person.state), GROUPING(person.age), count(*)]]\ \n TableScan: person"; quick_test(sql, expected); } @@ -3140,9 +3140,9 @@ fn rank_partition_grouping() { #[test] fn aggregate_with_cube() { let sql = - "SELECT id, state, age, COUNT(*) FROM person GROUP BY id, CUBE (state, age)"; - let expected = "Projection: person.id, person.state, person.age, COUNT(*)\ - \n Aggregate: groupBy=[[GROUPING SETS ((person.id), (person.id, person.state), (person.id, person.age), (person.id, person.state, person.age))]], aggr=[[COUNT(*)]]\ + "SELECT id, state, age, count(*) FROM person GROUP BY id, CUBE (state, age)"; + let expected = "Projection: person.id, person.state, person.age, count(*)\ + \n Aggregate: groupBy=[[GROUPING SETS ((person.id), (person.id, person.state), (person.id, person.age), (person.id, person.state, person.age))]], aggr=[[count(*)]]\ \n TableScan: person"; quick_test(sql, expected); } @@ -3157,9 +3157,9 @@ fn round_decimal() { #[test] fn aggregate_with_grouping_sets() { - let sql = "SELECT id, state, age, COUNT(*) FROM person GROUP BY id, GROUPING SETS ((state), (state, age), (id, state))"; - let expected = "Projection: person.id, person.state, person.age, COUNT(*)\ - \n Aggregate: groupBy=[[GROUPING SETS ((person.id, person.state), (person.id, person.state, person.age), (person.id, person.id, person.state))]], aggr=[[COUNT(*)]]\ + let sql = "SELECT id, state, age, count(*) FROM person GROUP BY id, GROUPING SETS ((state), (state, age), (id, state))"; + let expected = "Projection: person.id, person.state, person.age, count(*)\ + \n Aggregate: groupBy=[[GROUPING SETS ((person.id, person.state), (person.id, person.state, person.age), (person.id, person.id, person.state))]], aggr=[[count(*)]]\ \n TableScan: person"; quick_test(sql, expected); } diff --git a/datafusion/sqllogictest/test_files/avro.slt b/datafusion/sqllogictest/test_files/avro.slt index fced1924ced95..f8ef81a8ba2bc 100644 --- a/datafusion/sqllogictest/test_files/avro.slt +++ b/datafusion/sqllogictest/test_files/avro.slt @@ -243,11 +243,11 @@ query TT EXPLAIN SELECT count(*) from alltypes_plain ---- logical_plan -01)Aggregate: groupBy=[[]], aggr=[[COUNT(Int64(1)) AS COUNT(*)]] +01)Aggregate: groupBy=[[]], aggr=[[count(Int64(1)) AS count(*)]] 02)--TableScan: alltypes_plain projection=[] physical_plan -01)AggregateExec: mode=Final, gby=[], aggr=[COUNT(*)] +01)AggregateExec: mode=Final, gby=[], aggr=[count(*)] 02)--CoalescePartitionsExec -03)----AggregateExec: mode=Partial, gby=[], aggr=[COUNT(*)] +03)----AggregateExec: mode=Partial, gby=[], aggr=[count(*)] 04)------RepartitionExec: partitioning=RoundRobinBatch(4), input_partitions=1 05)--------AvroExec: file_groups={1 group: [[WORKSPACE_ROOT/testing/data/avro/alltypes_plain.avro]]} diff --git a/datafusion/sqllogictest/test_files/explain.slt b/datafusion/sqllogictest/test_files/explain.slt index 3c5f8c7f7ad6c..96e73a5916788 100644 --- a/datafusion/sqllogictest/test_files/explain.slt +++ b/datafusion/sqllogictest/test_files/explain.slt @@ -93,7 +93,7 @@ query TT EXPLAIN select count(*) from (values ('a', 1, 100), ('a', 2, 150)) as t (c1,c2,c3) ---- physical_plan -01)ProjectionExec: expr=[2 as COUNT(*)] +01)ProjectionExec: expr=[2 as count(*)] 02)--PlaceholderRowExec statement ok diff --git a/datafusion/sqllogictest/test_files/group_by.slt b/datafusion/sqllogictest/test_files/group_by.slt index fff3977fe1e61..b08df0e4b35f4 100644 --- a/datafusion/sqllogictest/test_files/group_by.slt +++ b/datafusion/sqllogictest/test_files/group_by.slt @@ -4394,18 +4394,18 @@ EXPLAIN SELECT c1, count(distinct c2), min(distinct c2), sum(c3), max(c4) FROM a ---- logical_plan 01)Sort: aggregate_test_100.c1 ASC NULLS LAST -02)--Projection: aggregate_test_100.c1, COUNT(alias1) AS COUNT(DISTINCT aggregate_test_100.c2), MIN(alias1) AS MIN(DISTINCT aggregate_test_100.c2), sum(alias2) AS sum(aggregate_test_100.c3), MAX(alias3) AS MAX(aggregate_test_100.c4) -03)----Aggregate: groupBy=[[aggregate_test_100.c1]], aggr=[[COUNT(alias1), MIN(alias1), sum(alias2), MAX(alias3)]] +02)--Projection: aggregate_test_100.c1, count(alias1) AS count(DISTINCT aggregate_test_100.c2), MIN(alias1) AS MIN(DISTINCT aggregate_test_100.c2), sum(alias2) AS sum(aggregate_test_100.c3), MAX(alias3) AS MAX(aggregate_test_100.c4) +03)----Aggregate: groupBy=[[aggregate_test_100.c1]], aggr=[[count(alias1), MIN(alias1), sum(alias2), MAX(alias3)]] 04)------Aggregate: groupBy=[[aggregate_test_100.c1, aggregate_test_100.c2 AS alias1]], aggr=[[sum(CAST(aggregate_test_100.c3 AS Int64)) AS alias2, MAX(aggregate_test_100.c4) AS alias3]] 05)--------TableScan: aggregate_test_100 projection=[c1, c2, c3, c4] physical_plan 01)SortPreservingMergeExec: [c1@0 ASC NULLS LAST] 02)--SortExec: expr=[c1@0 ASC NULLS LAST], preserve_partitioning=[true] -03)----ProjectionExec: expr=[c1@0 as c1, COUNT(alias1)@1 as COUNT(DISTINCT aggregate_test_100.c2), MIN(alias1)@2 as MIN(DISTINCT aggregate_test_100.c2), sum(alias2)@3 as sum(aggregate_test_100.c3), MAX(alias3)@4 as MAX(aggregate_test_100.c4)] -04)------AggregateExec: mode=FinalPartitioned, gby=[c1@0 as c1], aggr=[COUNT(alias1), MIN(alias1), sum(alias2), MAX(alias3)] +03)----ProjectionExec: expr=[c1@0 as c1, count(alias1)@1 as count(DISTINCT aggregate_test_100.c2), MIN(alias1)@2 as MIN(DISTINCT aggregate_test_100.c2), sum(alias2)@3 as sum(aggregate_test_100.c3), MAX(alias3)@4 as MAX(aggregate_test_100.c4)] +04)------AggregateExec: mode=FinalPartitioned, gby=[c1@0 as c1], aggr=[count(alias1), MIN(alias1), sum(alias2), MAX(alias3)] 05)--------CoalesceBatchesExec: target_batch_size=2 06)----------RepartitionExec: partitioning=Hash([c1@0], 8), input_partitions=8 -07)------------AggregateExec: mode=Partial, gby=[c1@0 as c1], aggr=[COUNT(alias1), MIN(alias1), sum(alias2), MAX(alias3)] +07)------------AggregateExec: mode=Partial, gby=[c1@0 as c1], aggr=[count(alias1), MIN(alias1), sum(alias2), MAX(alias3)] 08)--------------AggregateExec: mode=FinalPartitioned, gby=[c1@0 as c1, alias1@1 as alias1], aggr=[alias2, alias3] 09)----------------CoalesceBatchesExec: target_batch_size=2 10)------------------RepartitionExec: partitioning=Hash([c1@0, alias1@1], 8), input_partitions=8 @@ -5109,15 +5109,15 @@ GROUP BY ts_chunk; ---- logical_plan -01)Projection: date_bin(IntervalMonthDayNano("IntervalMonthDayNano { months: 0, days: 0, nanoseconds: 120000000000 }"),keywords_stream.ts,Utf8("2000-01-01")) AS ts_chunk, COUNT(keywords_stream.keyword) AS alert_keyword_count -02)--Aggregate: groupBy=[[date_bin(IntervalMonthDayNano("IntervalMonthDayNano { months: 0, days: 0, nanoseconds: 120000000000 }"), keywords_stream.ts, TimestampNanosecond(946684800000000000, None)) AS date_bin(IntervalMonthDayNano("IntervalMonthDayNano { months: 0, days: 0, nanoseconds: 120000000000 }"),keywords_stream.ts,Utf8("2000-01-01"))]], aggr=[[COUNT(keywords_stream.keyword)]] +01)Projection: date_bin(IntervalMonthDayNano("IntervalMonthDayNano { months: 0, days: 0, nanoseconds: 120000000000 }"),keywords_stream.ts,Utf8("2000-01-01")) AS ts_chunk, count(keywords_stream.keyword) AS alert_keyword_count +02)--Aggregate: groupBy=[[date_bin(IntervalMonthDayNano("IntervalMonthDayNano { months: 0, days: 0, nanoseconds: 120000000000 }"), keywords_stream.ts, TimestampNanosecond(946684800000000000, None)) AS date_bin(IntervalMonthDayNano("IntervalMonthDayNano { months: 0, days: 0, nanoseconds: 120000000000 }"),keywords_stream.ts,Utf8("2000-01-01"))]], aggr=[[count(keywords_stream.keyword)]] 03)----LeftSemi Join: keywords_stream.keyword = __correlated_sq_1.keyword 04)------TableScan: keywords_stream projection=[ts, keyword] 05)------SubqueryAlias: __correlated_sq_1 06)--------TableScan: alert_keywords projection=[keyword] physical_plan -01)ProjectionExec: expr=[date_bin(IntervalMonthDayNano("IntervalMonthDayNano { months: 0, days: 0, nanoseconds: 120000000000 }"),keywords_stream.ts,Utf8("2000-01-01"))@0 as ts_chunk, COUNT(keywords_stream.keyword)@1 as alert_keyword_count] -02)--AggregateExec: mode=Single, gby=[date_bin(IntervalMonthDayNano { months: 0, days: 0, nanoseconds: 120000000000 }, ts@0, 946684800000000000) as date_bin(IntervalMonthDayNano("IntervalMonthDayNano { months: 0, days: 0, nanoseconds: 120000000000 }"),keywords_stream.ts,Utf8("2000-01-01"))], aggr=[COUNT(keywords_stream.keyword)] +01)ProjectionExec: expr=[date_bin(IntervalMonthDayNano("IntervalMonthDayNano { months: 0, days: 0, nanoseconds: 120000000000 }"),keywords_stream.ts,Utf8("2000-01-01"))@0 as ts_chunk, count(keywords_stream.keyword)@1 as alert_keyword_count] +02)--AggregateExec: mode=Single, gby=[date_bin(IntervalMonthDayNano { months: 0, days: 0, nanoseconds: 120000000000 }, ts@0, 946684800000000000) as date_bin(IntervalMonthDayNano("IntervalMonthDayNano { months: 0, days: 0, nanoseconds: 120000000000 }"),keywords_stream.ts,Utf8("2000-01-01"))], aggr=[count(keywords_stream.keyword)] 03)----CoalesceBatchesExec: target_batch_size=2 04)------HashJoinExec: mode=CollectLeft, join_type=RightSemi, on=[(keyword@0, keyword@1)] 05)--------MemoryExec: partitions=1, partition_sizes=[1] diff --git a/datafusion/sqllogictest/test_files/insert.slt b/datafusion/sqllogictest/test_files/insert.slt index 1fa319111c45e..9115cb5325408 100644 --- a/datafusion/sqllogictest/test_files/insert.slt +++ b/datafusion/sqllogictest/test_files/insert.slt @@ -58,17 +58,17 @@ ORDER by c1 ---- logical_plan 01)Dml: op=[Insert Into] table=[table_without_values] -02)--Projection: sum(aggregate_test_100.c4) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING AS field1, COUNT(*) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING AS field2 +02)--Projection: sum(aggregate_test_100.c4) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING AS field1, count(*) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING AS field2 03)----Sort: aggregate_test_100.c1 ASC NULLS LAST -04)------Projection: sum(aggregate_test_100.c4) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING, COUNT(*) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING, aggregate_test_100.c1 -05)--------WindowAggr: windowExpr=[[sum(CAST(aggregate_test_100.c4 AS Int64)) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING, COUNT(Int64(1)) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING AS COUNT(*) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING]] +04)------Projection: sum(aggregate_test_100.c4) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING, count(*) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING, aggregate_test_100.c1 +05)--------WindowAggr: windowExpr=[[sum(CAST(aggregate_test_100.c4 AS Int64)) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING, count(Int64(1)) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING AS count(*) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING]] 06)----------TableScan: aggregate_test_100 projection=[c1, c4, c9] physical_plan 01)DataSinkExec: sink=MemoryTable (partitions=1) -02)--ProjectionExec: expr=[sum(aggregate_test_100.c4) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING@0 as field1, COUNT(*) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING@1 as field2] +02)--ProjectionExec: expr=[sum(aggregate_test_100.c4) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING@0 as field1, count(*) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING@1 as field2] 03)----SortPreservingMergeExec: [c1@2 ASC NULLS LAST] -04)------ProjectionExec: expr=[sum(aggregate_test_100.c4) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING@3 as sum(aggregate_test_100.c4) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING, COUNT(*) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING@4 as COUNT(*) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING, c1@0 as c1] -05)--------BoundedWindowAggExec: wdw=[sum(aggregate_test_100.c4) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING: Ok(Field { name: "sum(aggregate_test_100.c4) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING", data_type: Int64, nullable: true, dict_id: 0, dict_is_ordered: false, metadata: {} }), frame: WindowFrame { units: Rows, start_bound: Preceding(UInt64(1)), end_bound: Following(UInt64(1)), is_causal: false }, COUNT(*) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING: Ok(Field { name: "COUNT(*) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING", data_type: Int64, nullable: true, dict_id: 0, dict_is_ordered: false, metadata: {} }), frame: WindowFrame { units: Rows, start_bound: Preceding(UInt64(1)), end_bound: Following(UInt64(1)), is_causal: false }], mode=[Sorted] +04)------ProjectionExec: expr=[sum(aggregate_test_100.c4) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING@3 as sum(aggregate_test_100.c4) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING, count(*) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING@4 as count(*) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING, c1@0 as c1] +05)--------BoundedWindowAggExec: wdw=[sum(aggregate_test_100.c4) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING: Ok(Field { name: "sum(aggregate_test_100.c4) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING", data_type: Int64, nullable: true, dict_id: 0, dict_is_ordered: false, metadata: {} }), frame: WindowFrame { units: Rows, start_bound: Preceding(UInt64(1)), end_bound: Following(UInt64(1)), is_causal: false }, count(*) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING: Ok(Field { name: "count(*) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING", data_type: Int64, nullable: true, dict_id: 0, dict_is_ordered: false, metadata: {} }), frame: WindowFrame { units: Rows, start_bound: Preceding(UInt64(1)), end_bound: Following(UInt64(1)), is_causal: false }], mode=[Sorted] 06)----------SortExec: expr=[c1@0 ASC NULLS LAST,c9@2 ASC NULLS LAST], preserve_partitioning=[true] 07)------------CoalesceBatchesExec: target_batch_size=8192 08)--------------RepartitionExec: partitioning=Hash([c1@0], 8), input_partitions=8 @@ -121,14 +121,14 @@ FROM aggregate_test_100 ---- logical_plan 01)Dml: op=[Insert Into] table=[table_without_values] -02)--Projection: sum(aggregate_test_100.c4) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING AS field1, COUNT(*) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING AS field2 -03)----WindowAggr: windowExpr=[[sum(CAST(aggregate_test_100.c4 AS Int64)) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING, COUNT(Int64(1)) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING AS COUNT(*) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING]] +02)--Projection: sum(aggregate_test_100.c4) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING AS field1, count(*) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING AS field2 +03)----WindowAggr: windowExpr=[[sum(CAST(aggregate_test_100.c4 AS Int64)) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING, count(Int64(1)) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING AS count(*) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING]] 04)------TableScan: aggregate_test_100 projection=[c1, c4, c9] physical_plan 01)DataSinkExec: sink=MemoryTable (partitions=1) 02)--CoalescePartitionsExec -03)----ProjectionExec: expr=[sum(aggregate_test_100.c4) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING@3 as field1, COUNT(*) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING@4 as field2] -04)------BoundedWindowAggExec: wdw=[sum(aggregate_test_100.c4) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING: Ok(Field { name: "sum(aggregate_test_100.c4) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING", data_type: Int64, nullable: true, dict_id: 0, dict_is_ordered: false, metadata: {} }), frame: WindowFrame { units: Rows, start_bound: Preceding(UInt64(1)), end_bound: Following(UInt64(1)), is_causal: false }, COUNT(*) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING: Ok(Field { name: "COUNT(*) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING", data_type: Int64, nullable: true, dict_id: 0, dict_is_ordered: false, metadata: {} }), frame: WindowFrame { units: Rows, start_bound: Preceding(UInt64(1)), end_bound: Following(UInt64(1)), is_causal: false }], mode=[Sorted] +03)----ProjectionExec: expr=[sum(aggregate_test_100.c4) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING@3 as field1, count(*) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING@4 as field2] +04)------BoundedWindowAggExec: wdw=[sum(aggregate_test_100.c4) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING: Ok(Field { name: "sum(aggregate_test_100.c4) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING", data_type: Int64, nullable: true, dict_id: 0, dict_is_ordered: false, metadata: {} }), frame: WindowFrame { units: Rows, start_bound: Preceding(UInt64(1)), end_bound: Following(UInt64(1)), is_causal: false }, count(*) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING: Ok(Field { name: "count(*) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING", data_type: Int64, nullable: true, dict_id: 0, dict_is_ordered: false, metadata: {} }), frame: WindowFrame { units: Rows, start_bound: Preceding(UInt64(1)), end_bound: Following(UInt64(1)), is_causal: false }], mode=[Sorted] 05)--------SortExec: expr=[c1@0 ASC NULLS LAST,c9@2 ASC NULLS LAST], preserve_partitioning=[true] 06)----------CoalesceBatchesExec: target_batch_size=8192 07)------------RepartitionExec: partitioning=Hash([c1@0], 8), input_partitions=8 @@ -171,15 +171,15 @@ logical_plan 01)Dml: op=[Insert Into] table=[table_without_values] 02)--Projection: a1 AS a1, a2 AS a2 03)----Sort: aggregate_test_100.c1 ASC NULLS LAST -04)------Projection: sum(aggregate_test_100.c4) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING AS a1, COUNT(*) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING AS a2, aggregate_test_100.c1 -05)--------WindowAggr: windowExpr=[[sum(CAST(aggregate_test_100.c4 AS Int64)) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING, COUNT(Int64(1)) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING AS COUNT(*) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING]] +04)------Projection: sum(aggregate_test_100.c4) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING AS a1, count(*) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING AS a2, aggregate_test_100.c1 +05)--------WindowAggr: windowExpr=[[sum(CAST(aggregate_test_100.c4 AS Int64)) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING, count(Int64(1)) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING AS count(*) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING]] 06)----------TableScan: aggregate_test_100 projection=[c1, c4, c9] physical_plan 01)DataSinkExec: sink=MemoryTable (partitions=8) 02)--ProjectionExec: expr=[a1@0 as a1, a2@1 as a2] 03)----SortPreservingMergeExec: [c1@2 ASC NULLS LAST] -04)------ProjectionExec: expr=[sum(aggregate_test_100.c4) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING@3 as a1, COUNT(*) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING@4 as a2, c1@0 as c1] -05)--------BoundedWindowAggExec: wdw=[sum(aggregate_test_100.c4) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING: Ok(Field { name: "sum(aggregate_test_100.c4) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING", data_type: Int64, nullable: true, dict_id: 0, dict_is_ordered: false, metadata: {} }), frame: WindowFrame { units: Rows, start_bound: Preceding(UInt64(1)), end_bound: Following(UInt64(1)), is_causal: false }, COUNT(*) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING: Ok(Field { name: "COUNT(*) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING", data_type: Int64, nullable: true, dict_id: 0, dict_is_ordered: false, metadata: {} }), frame: WindowFrame { units: Rows, start_bound: Preceding(UInt64(1)), end_bound: Following(UInt64(1)), is_causal: false }], mode=[Sorted] +04)------ProjectionExec: expr=[sum(aggregate_test_100.c4) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING@3 as a1, count(*) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING@4 as a2, c1@0 as c1] +05)--------BoundedWindowAggExec: wdw=[sum(aggregate_test_100.c4) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING: Ok(Field { name: "sum(aggregate_test_100.c4) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING", data_type: Int64, nullable: true, dict_id: 0, dict_is_ordered: false, metadata: {} }), frame: WindowFrame { units: Rows, start_bound: Preceding(UInt64(1)), end_bound: Following(UInt64(1)), is_causal: false }, count(*) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING: Ok(Field { name: "count(*) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING", data_type: Int64, nullable: true, dict_id: 0, dict_is_ordered: false, metadata: {} }), frame: WindowFrame { units: Rows, start_bound: Preceding(UInt64(1)), end_bound: Following(UInt64(1)), is_causal: false }], mode=[Sorted] 06)----------SortExec: expr=[c1@0 ASC NULLS LAST,c9@2 ASC NULLS LAST], preserve_partitioning=[true] 07)------------CoalesceBatchesExec: target_batch_size=8192 08)--------------RepartitionExec: partitioning=Hash([c1@0], 8), input_partitions=8 diff --git a/datafusion/sqllogictest/test_files/insert_to_external.slt b/datafusion/sqllogictest/test_files/insert_to_external.slt index 9f930defbbf96..8f6bafd92e419 100644 --- a/datafusion/sqllogictest/test_files/insert_to_external.slt +++ b/datafusion/sqllogictest/test_files/insert_to_external.slt @@ -347,17 +347,17 @@ ORDER by c1 ---- logical_plan 01)Dml: op=[Insert Into] table=[table_without_values] -02)--Projection: sum(aggregate_test_100.c4) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING AS field1, COUNT(*) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING AS field2 +02)--Projection: sum(aggregate_test_100.c4) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING AS field1, count(*) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING AS field2 03)----Sort: aggregate_test_100.c1 ASC NULLS LAST -04)------Projection: sum(aggregate_test_100.c4) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING, COUNT(*) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING, aggregate_test_100.c1 -05)--------WindowAggr: windowExpr=[[sum(CAST(aggregate_test_100.c4 AS Int64)) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING, COUNT(Int64(1)) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING AS COUNT(*) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING]] +04)------Projection: sum(aggregate_test_100.c4) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING, count(*) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING, aggregate_test_100.c1 +05)--------WindowAggr: windowExpr=[[sum(CAST(aggregate_test_100.c4 AS Int64)) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING, count(Int64(1)) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING AS count(*) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING]] 06)----------TableScan: aggregate_test_100 projection=[c1, c4, c9] physical_plan 01)DataSinkExec: sink=ParquetSink(file_groups=[]) -02)--ProjectionExec: expr=[sum(aggregate_test_100.c4) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING@0 as field1, COUNT(*) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING@1 as field2] +02)--ProjectionExec: expr=[sum(aggregate_test_100.c4) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING@0 as field1, count(*) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING@1 as field2] 03)----SortPreservingMergeExec: [c1@2 ASC NULLS LAST] -04)------ProjectionExec: expr=[sum(aggregate_test_100.c4) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING@3 as sum(aggregate_test_100.c4) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING, COUNT(*) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING@4 as COUNT(*) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING, c1@0 as c1] -05)--------BoundedWindowAggExec: wdw=[sum(aggregate_test_100.c4) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING: Ok(Field { name: "sum(aggregate_test_100.c4) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING", data_type: Int64, nullable: true, dict_id: 0, dict_is_ordered: false, metadata: {} }), frame: WindowFrame { units: Rows, start_bound: Preceding(UInt64(1)), end_bound: Following(UInt64(1)), is_causal: false }, COUNT(*) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING: Ok(Field { name: "COUNT(*) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING", data_type: Int64, nullable: true, dict_id: 0, dict_is_ordered: false, metadata: {} }), frame: WindowFrame { units: Rows, start_bound: Preceding(UInt64(1)), end_bound: Following(UInt64(1)), is_causal: false }], mode=[Sorted] +04)------ProjectionExec: expr=[sum(aggregate_test_100.c4) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING@3 as sum(aggregate_test_100.c4) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING, count(*) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING@4 as count(*) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING, c1@0 as c1] +05)--------BoundedWindowAggExec: wdw=[sum(aggregate_test_100.c4) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING: Ok(Field { name: "sum(aggregate_test_100.c4) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING", data_type: Int64, nullable: true, dict_id: 0, dict_is_ordered: false, metadata: {} }), frame: WindowFrame { units: Rows, start_bound: Preceding(UInt64(1)), end_bound: Following(UInt64(1)), is_causal: false }, count(*) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING: Ok(Field { name: "count(*) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING", data_type: Int64, nullable: true, dict_id: 0, dict_is_ordered: false, metadata: {} }), frame: WindowFrame { units: Rows, start_bound: Preceding(UInt64(1)), end_bound: Following(UInt64(1)), is_causal: false }], mode=[Sorted] 06)----------SortExec: expr=[c1@0 ASC NULLS LAST,c9@2 ASC NULLS LAST], preserve_partitioning=[true] 07)------------CoalesceBatchesExec: target_batch_size=8192 08)--------------RepartitionExec: partitioning=Hash([c1@0], 8), input_partitions=8 @@ -411,14 +411,14 @@ FROM aggregate_test_100 ---- logical_plan 01)Dml: op=[Insert Into] table=[table_without_values] -02)--Projection: sum(aggregate_test_100.c4) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING AS field1, COUNT(*) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING AS field2 -03)----WindowAggr: windowExpr=[[sum(CAST(aggregate_test_100.c4 AS Int64)) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING, COUNT(Int64(1)) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING AS COUNT(*) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING]] +02)--Projection: sum(aggregate_test_100.c4) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING AS field1, count(*) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING AS field2 +03)----WindowAggr: windowExpr=[[sum(CAST(aggregate_test_100.c4 AS Int64)) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING, count(Int64(1)) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING AS count(*) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING]] 04)------TableScan: aggregate_test_100 projection=[c1, c4, c9] physical_plan 01)DataSinkExec: sink=ParquetSink(file_groups=[]) 02)--CoalescePartitionsExec -03)----ProjectionExec: expr=[sum(aggregate_test_100.c4) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING@3 as field1, COUNT(*) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING@4 as field2] -04)------BoundedWindowAggExec: wdw=[sum(aggregate_test_100.c4) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING: Ok(Field { name: "sum(aggregate_test_100.c4) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING", data_type: Int64, nullable: true, dict_id: 0, dict_is_ordered: false, metadata: {} }), frame: WindowFrame { units: Rows, start_bound: Preceding(UInt64(1)), end_bound: Following(UInt64(1)), is_causal: false }, COUNT(*) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING: Ok(Field { name: "COUNT(*) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING", data_type: Int64, nullable: true, dict_id: 0, dict_is_ordered: false, metadata: {} }), frame: WindowFrame { units: Rows, start_bound: Preceding(UInt64(1)), end_bound: Following(UInt64(1)), is_causal: false }], mode=[Sorted] +03)----ProjectionExec: expr=[sum(aggregate_test_100.c4) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING@3 as field1, count(*) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING@4 as field2] +04)------BoundedWindowAggExec: wdw=[sum(aggregate_test_100.c4) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING: Ok(Field { name: "sum(aggregate_test_100.c4) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING", data_type: Int64, nullable: true, dict_id: 0, dict_is_ordered: false, metadata: {} }), frame: WindowFrame { units: Rows, start_bound: Preceding(UInt64(1)), end_bound: Following(UInt64(1)), is_causal: false }, count(*) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING: Ok(Field { name: "count(*) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c9 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING", data_type: Int64, nullable: true, dict_id: 0, dict_is_ordered: false, metadata: {} }), frame: WindowFrame { units: Rows, start_bound: Preceding(UInt64(1)), end_bound: Following(UInt64(1)), is_causal: false }], mode=[Sorted] 05)--------SortExec: expr=[c1@0 ASC NULLS LAST,c9@2 ASC NULLS LAST], preserve_partitioning=[true] 06)----------CoalesceBatchesExec: target_batch_size=8192 07)------------RepartitionExec: partitioning=Hash([c1@0], 8), input_partitions=8 diff --git a/datafusion/sqllogictest/test_files/joins.slt b/datafusion/sqllogictest/test_files/joins.slt index 4b62f2561260f..c2949b98aa777 100644 --- a/datafusion/sqllogictest/test_files/joins.slt +++ b/datafusion/sqllogictest/test_files/joins.slt @@ -1343,15 +1343,15 @@ from (select * from join_t1 inner join join_t2 on join_t1.t1_id = join_t2.t2_id) group by t1_id ---- logical_plan -01)Projection: COUNT(*) -02)--Aggregate: groupBy=[[join_t1.t1_id]], aggr=[[COUNT(Int64(1)) AS COUNT(*)]] +01)Projection: count(*) +02)--Aggregate: groupBy=[[join_t1.t1_id]], aggr=[[count(Int64(1)) AS count(*)]] 03)----Projection: join_t1.t1_id 04)------Inner Join: join_t1.t1_id = join_t2.t2_id 05)--------TableScan: join_t1 projection=[t1_id] 06)--------TableScan: join_t2 projection=[t2_id] physical_plan -01)ProjectionExec: expr=[COUNT(*)@1 as COUNT(*)] -02)--AggregateExec: mode=SinglePartitioned, gby=[t1_id@0 as t1_id], aggr=[COUNT(*)] +01)ProjectionExec: expr=[count(*)@1 as count(*)] +02)--AggregateExec: mode=SinglePartitioned, gby=[t1_id@0 as t1_id], aggr=[count(*)] 03)----CoalesceBatchesExec: target_batch_size=2 04)------HashJoinExec: mode=Partitioned, join_type=Inner, on=[(t1_id@0, t2_id@0)], projection=[t1_id@0] 05)--------CoalesceBatchesExec: target_batch_size=2 @@ -1370,18 +1370,18 @@ from join_t1 inner join join_t2 on join_t1.t1_id = join_t2.t2_id ---- logical_plan -01)Projection: COUNT(alias1) AS COUNT(DISTINCT join_t1.t1_id) -02)--Aggregate: groupBy=[[]], aggr=[[COUNT(alias1)]] +01)Projection: count(alias1) AS count(DISTINCT join_t1.t1_id) +02)--Aggregate: groupBy=[[]], aggr=[[count(alias1)]] 03)----Aggregate: groupBy=[[join_t1.t1_id AS alias1]], aggr=[[]] 04)------Projection: join_t1.t1_id 05)--------Inner Join: join_t1.t1_id = join_t2.t2_id 06)----------TableScan: join_t1 projection=[t1_id] 07)----------TableScan: join_t2 projection=[t2_id] physical_plan -01)ProjectionExec: expr=[COUNT(alias1)@0 as COUNT(DISTINCT join_t1.t1_id)] -02)--AggregateExec: mode=Final, gby=[], aggr=[COUNT(alias1)] +01)ProjectionExec: expr=[count(alias1)@0 as count(DISTINCT join_t1.t1_id)] +02)--AggregateExec: mode=Final, gby=[], aggr=[count(alias1)] 03)----CoalescePartitionsExec -04)------AggregateExec: mode=Partial, gby=[], aggr=[COUNT(alias1)] +04)------AggregateExec: mode=Partial, gby=[], aggr=[count(alias1)] 05)--------AggregateExec: mode=SinglePartitioned, gby=[t1_id@0 as alias1], aggr=[] 06)----------CoalesceBatchesExec: target_batch_size=2 07)------------HashJoinExec: mode=Partitioned, join_type=Inner, on=[(t1_id@0, t2_id@0)], projection=[t1_id@0] diff --git a/datafusion/sqllogictest/test_files/json.slt b/datafusion/sqllogictest/test_files/json.slt index 5d3c23d5130b3..0b9508310b006 100644 --- a/datafusion/sqllogictest/test_files/json.slt +++ b/datafusion/sqllogictest/test_files/json.slt @@ -49,12 +49,12 @@ query TT EXPLAIN SELECT count(*) from json_test ---- logical_plan -01)Aggregate: groupBy=[[]], aggr=[[COUNT(Int64(1)) AS COUNT(*)]] +01)Aggregate: groupBy=[[]], aggr=[[count(Int64(1)) AS count(*)]] 02)--TableScan: json_test projection=[] physical_plan -01)AggregateExec: mode=Final, gby=[], aggr=[COUNT(*)] +01)AggregateExec: mode=Final, gby=[], aggr=[count(*)] 02)--CoalescePartitionsExec -03)----AggregateExec: mode=Partial, gby=[], aggr=[COUNT(*)] +03)----AggregateExec: mode=Partial, gby=[], aggr=[count(*)] 04)------RepartitionExec: partitioning=RoundRobinBatch(4), input_partitions=1 05)--------JsonExec: file_groups={1 group: [[WORKSPACE_ROOT/datafusion/core/tests/data/2.json]]} diff --git a/datafusion/sqllogictest/test_files/limit.slt b/datafusion/sqllogictest/test_files/limit.slt index 2c65b1da4474f..094017c383a67 100644 --- a/datafusion/sqllogictest/test_files/limit.slt +++ b/datafusion/sqllogictest/test_files/limit.slt @@ -307,11 +307,11 @@ query TT EXPLAIN SELECT COUNT(*) FROM (SELECT a FROM t1 LIMIT 3 OFFSET 11); ---- logical_plan -01)Aggregate: groupBy=[[]], aggr=[[COUNT(Int64(1)) AS COUNT(*)]] +01)Aggregate: groupBy=[[]], aggr=[[count(Int64(1)) AS count(*)]] 02)--Limit: skip=11, fetch=3 03)----TableScan: t1 projection=[], fetch=14 physical_plan -01)ProjectionExec: expr=[0 as COUNT(*)] +01)ProjectionExec: expr=[0 as count(*)] 02)--PlaceholderRowExec query I @@ -325,11 +325,11 @@ query TT EXPLAIN SELECT COUNT(*) FROM (SELECT a FROM t1 LIMIT 3 OFFSET 8); ---- logical_plan -01)Aggregate: groupBy=[[]], aggr=[[COUNT(Int64(1)) AS COUNT(*)]] +01)Aggregate: groupBy=[[]], aggr=[[count(Int64(1)) AS count(*)]] 02)--Limit: skip=8, fetch=3 03)----TableScan: t1 projection=[], fetch=11 physical_plan -01)ProjectionExec: expr=[2 as COUNT(*)] +01)ProjectionExec: expr=[2 as count(*)] 02)--PlaceholderRowExec query I @@ -343,11 +343,11 @@ query TT EXPLAIN SELECT COUNT(*) FROM (SELECT a FROM t1 OFFSET 8); ---- logical_plan -01)Aggregate: groupBy=[[]], aggr=[[COUNT(Int64(1)) AS COUNT(*)]] +01)Aggregate: groupBy=[[]], aggr=[[count(Int64(1)) AS count(*)]] 02)--Limit: skip=8, fetch=None 03)----TableScan: t1 projection=[] physical_plan -01)ProjectionExec: expr=[2 as COUNT(*)] +01)ProjectionExec: expr=[2 as count(*)] 02)--PlaceholderRowExec query I @@ -360,15 +360,15 @@ query TT EXPLAIN SELECT COUNT(*) FROM (SELECT a FROM t1 WHERE a > 3 LIMIT 3 OFFSET 6); ---- logical_plan -01)Aggregate: groupBy=[[]], aggr=[[COUNT(Int64(1)) AS COUNT(*)]] +01)Aggregate: groupBy=[[]], aggr=[[count(Int64(1)) AS count(*)]] 02)--Projection: 03)----Limit: skip=6, fetch=3 04)------Filter: t1.a > Int32(3) 05)--------TableScan: t1 projection=[a] physical_plan -01)AggregateExec: mode=Final, gby=[], aggr=[COUNT(*)] +01)AggregateExec: mode=Final, gby=[], aggr=[count(*)] 02)--CoalescePartitionsExec -03)----AggregateExec: mode=Partial, gby=[], aggr=[COUNT(*)] +03)----AggregateExec: mode=Partial, gby=[], aggr=[count(*)] 04)------RepartitionExec: partitioning=RoundRobinBatch(4), input_partitions=1 05)--------ProjectionExec: expr=[] 06)----------GlobalLimitExec: skip=6, fetch=3 diff --git a/datafusion/sqllogictest/test_files/optimizer_group_by_constant.slt b/datafusion/sqllogictest/test_files/optimizer_group_by_constant.slt index f578b08482ac7..ef77bdca1b3e6 100644 --- a/datafusion/sqllogictest/test_files/optimizer_group_by_constant.slt +++ b/datafusion/sqllogictest/test_files/optimizer_group_by_constant.slt @@ -48,8 +48,8 @@ FROM test_table t GROUP BY 1, 2, 3, 4 ---- logical_plan -01)Projection: t.c1, Int64(99999), t.c5 + t.c8, Utf8("test"), COUNT(Int64(1)) -02)--Aggregate: groupBy=[[t.c1, t.c5 + t.c8]], aggr=[[COUNT(Int64(1))]] +01)Projection: t.c1, Int64(99999), t.c5 + t.c8, Utf8("test"), count(Int64(1)) +02)--Aggregate: groupBy=[[t.c1, t.c5 + t.c8]], aggr=[[count(Int64(1))]] 03)----SubqueryAlias: t 04)------TableScan: test_table projection=[c1, c5, c8] @@ -60,8 +60,8 @@ FROM test_table t group by 1, 2, 3 ---- logical_plan -01)Projection: Int64(123), Int64(456), Int64(789), COUNT(Int64(1)), AVG(t.c12) -02)--Aggregate: groupBy=[[]], aggr=[[COUNT(Int64(1)), AVG(t.c12)]] +01)Projection: Int64(123), Int64(456), Int64(789), count(Int64(1)), AVG(t.c12) +02)--Aggregate: groupBy=[[]], aggr=[[count(Int64(1)), AVG(t.c12)]] 03)----SubqueryAlias: t 04)------TableScan: test_table projection=[c12] @@ -72,8 +72,8 @@ FROM test_table t GROUP BY 1, 2 ---- logical_plan -01)Projection: Date32("2023-05-04") AS dt, Boolean(true) AS today_filter, COUNT(Int64(1)) -02)--Aggregate: groupBy=[[]], aggr=[[COUNT(Int64(1))]] +01)Projection: Date32("2023-05-04") AS dt, Boolean(true) AS today_filter, count(Int64(1)) +02)--Aggregate: groupBy=[[]], aggr=[[count(Int64(1))]] 03)----SubqueryAlias: t 04)------TableScan: test_table projection=[] @@ -90,8 +90,8 @@ FROM test_table t GROUP BY 1 ---- logical_plan -01)Projection: Boolean(true) AS NOT date_part(Utf8("MONTH"),now()) BETWEEN Int64(50) AND Int64(60), COUNT(Int64(1)) -02)--Aggregate: groupBy=[[]], aggr=[[COUNT(Int64(1))]] +01)Projection: Boolean(true) AS NOT date_part(Utf8("MONTH"),now()) BETWEEN Int64(50) AND Int64(60), count(Int64(1)) +02)--Aggregate: groupBy=[[]], aggr=[[count(Int64(1))]] 03)----SubqueryAlias: t 04)------TableScan: test_table projection=[] diff --git a/datafusion/sqllogictest/test_files/predicates.slt b/datafusion/sqllogictest/test_files/predicates.slt index ac0dc3018879f..4e8f0eb6caaab 100644 --- a/datafusion/sqllogictest/test_files/predicates.slt +++ b/datafusion/sqllogictest/test_files/predicates.slt @@ -748,7 +748,7 @@ OR GROUP BY p_partkey; ---- logical_plan -01)Aggregate: groupBy=[[part.p_partkey]], aggr=[[sum(lineitem.l_extendedprice), AVG(lineitem.l_discount), COUNT(DISTINCT partsupp.ps_suppkey)]] +01)Aggregate: groupBy=[[part.p_partkey]], aggr=[[sum(lineitem.l_extendedprice), AVG(lineitem.l_discount), count(DISTINCT partsupp.ps_suppkey)]] 02)--Projection: lineitem.l_extendedprice, lineitem.l_discount, part.p_partkey, partsupp.ps_suppkey 03)----Inner Join: part.p_partkey = partsupp.ps_partkey 04)------Projection: lineitem.l_extendedprice, lineitem.l_discount, part.p_partkey @@ -759,7 +759,7 @@ logical_plan 09)--------------TableScan: part projection=[p_partkey, p_brand], partial_filters=[part.p_brand = Utf8("Brand#12") OR part.p_brand = Utf8("Brand#23")] 10)------TableScan: partsupp projection=[ps_partkey, ps_suppkey] physical_plan -01)AggregateExec: mode=SinglePartitioned, gby=[p_partkey@2 as p_partkey], aggr=[sum(lineitem.l_extendedprice), AVG(lineitem.l_discount), COUNT(DISTINCT partsupp.ps_suppkey)] +01)AggregateExec: mode=SinglePartitioned, gby=[p_partkey@2 as p_partkey], aggr=[sum(lineitem.l_extendedprice), AVG(lineitem.l_discount), count(DISTINCT partsupp.ps_suppkey)] 02)--CoalesceBatchesExec: target_batch_size=8192 03)----HashJoinExec: mode=Partitioned, join_type=Inner, on=[(p_partkey@2, ps_partkey@0)], projection=[l_extendedprice@0, l_discount@1, p_partkey@2, ps_suppkey@4] 04)------CoalesceBatchesExec: target_batch_size=8192 diff --git a/datafusion/sqllogictest/test_files/select.slt b/datafusion/sqllogictest/test_files/select.slt index c8ef2b7f5e0bd..f9baf8db69d5b 100644 --- a/datafusion/sqllogictest/test_files/select.slt +++ b/datafusion/sqllogictest/test_files/select.slt @@ -1383,16 +1383,16 @@ ORDER BY c1, c2) GROUP BY c2; ---- logical_plan -01)Aggregate: groupBy=[[aggregate_test_100.c2]], aggr=[[COUNT(Int64(1)) AS COUNT(*)]] +01)Aggregate: groupBy=[[aggregate_test_100.c2]], aggr=[[count(Int64(1)) AS count(*)]] 02)--Projection: aggregate_test_100.c2 03)----Sort: aggregate_test_100.c1 ASC NULLS LAST, aggregate_test_100.c2 ASC NULLS LAST 04)------Projection: aggregate_test_100.c2, aggregate_test_100.c1 05)--------TableScan: aggregate_test_100 projection=[c1, c2] physical_plan -01)AggregateExec: mode=FinalPartitioned, gby=[c2@0 as c2], aggr=[COUNT(*)] +01)AggregateExec: mode=FinalPartitioned, gby=[c2@0 as c2], aggr=[count(*)] 02)--CoalesceBatchesExec: target_batch_size=8192 03)----RepartitionExec: partitioning=Hash([c2@0], 2), input_partitions=2 -04)------AggregateExec: mode=Partial, gby=[c2@0 as c2], aggr=[COUNT(*)] +04)------AggregateExec: mode=Partial, gby=[c2@0 as c2], aggr=[count(*)] 05)--------RepartitionExec: partitioning=RoundRobinBatch(2), input_partitions=1 06)----------CsvExec: file_groups={1 group: [[WORKSPACE_ROOT/testing/data/csv/aggregate_test_100.csv]]}, projection=[c2], has_header=true diff --git a/datafusion/sqllogictest/test_files/subquery.slt b/datafusion/sqllogictest/test_files/subquery.slt index dbdb7fc76b8b3..f56729f85e1cf 100644 --- a/datafusion/sqllogictest/test_files/subquery.slt +++ b/datafusion/sqllogictest/test_files/subquery.slt @@ -530,9 +530,9 @@ logical_plan 01)Projection: t1.t1_id, t1.t1_name 02)--Filter: EXISTS () 03)----Subquery: -04)------Projection: COUNT(*) +04)------Projection: count(*) 05)--------Filter: sum(outer_ref(t1.t1_int) + t2.t2_id) > Int64(0) -06)----------Aggregate: groupBy=[[]], aggr=[[COUNT(Int64(1)) AS COUNT(*), sum(CAST(outer_ref(t1.t1_int) + t2.t2_id AS Int64))]] +06)----------Aggregate: groupBy=[[]], aggr=[[count(Int64(1)) AS count(*), sum(CAST(outer_ref(t1.t1_int) + t2.t2_id AS Int64))]] 07)------------Filter: outer_ref(t1.t1_name) = t2.t2_name 08)--------------TableScan: t2 09)----TableScan: t1 projection=[t1_id, t1_name, t1_int] @@ -717,9 +717,9 @@ query TT explain select (select count(*) from t1) as b ---- logical_plan -01)Projection: __scalar_sq_1.COUNT(*) AS b +01)Projection: __scalar_sq_1.count(*) AS b 02)--SubqueryAlias: __scalar_sq_1 -03)----Aggregate: groupBy=[[]], aggr=[[COUNT(Int64(1)) AS COUNT(*)]] +03)----Aggregate: groupBy=[[]], aggr=[[count(Int64(1)) AS count(*)]] 04)------TableScan: t1 projection=[] #simple_uncorrelated_scalar_subquery2 @@ -727,13 +727,13 @@ query TT explain select (select count(*) from t1) as b, (select count(1) from t2) ---- logical_plan -01)Projection: __scalar_sq_1.COUNT(*) AS b, __scalar_sq_2.COUNT(Int64(1)) AS COUNT(Int64(1)) +01)Projection: __scalar_sq_1.count(*) AS b, __scalar_sq_2.count(Int64(1)) AS count(Int64(1)) 02)--Left Join: 03)----SubqueryAlias: __scalar_sq_1 -04)------Aggregate: groupBy=[[]], aggr=[[COUNT(Int64(1)) AS COUNT(*)]] +04)------Aggregate: groupBy=[[]], aggr=[[count(Int64(1)) AS count(*)]] 05)--------TableScan: t1 projection=[] 06)----SubqueryAlias: __scalar_sq_2 -07)------Aggregate: groupBy=[[]], aggr=[[COUNT(Int64(1))]] +07)------Aggregate: groupBy=[[]], aggr=[[count(Int64(1))]] 08)--------TableScan: t2 projection=[] statement ok @@ -743,20 +743,20 @@ query TT explain select (select count(*) from t1) as b, (select count(1) from t2) ---- logical_plan -01)Projection: __scalar_sq_1.COUNT(*) AS b, __scalar_sq_2.COUNT(Int64(1)) AS COUNT(Int64(1)) +01)Projection: __scalar_sq_1.count(*) AS b, __scalar_sq_2.count(Int64(1)) AS count(Int64(1)) 02)--Left Join: 03)----SubqueryAlias: __scalar_sq_1 -04)------Aggregate: groupBy=[[]], aggr=[[COUNT(Int64(1)) AS COUNT(*)]] +04)------Aggregate: groupBy=[[]], aggr=[[count(Int64(1)) AS count(*)]] 05)--------TableScan: t1 projection=[] 06)----SubqueryAlias: __scalar_sq_2 -07)------Aggregate: groupBy=[[]], aggr=[[COUNT(Int64(1))]] +07)------Aggregate: groupBy=[[]], aggr=[[count(Int64(1))]] 08)--------TableScan: t2 projection=[] physical_plan -01)ProjectionExec: expr=[COUNT(*)@0 as b, COUNT(Int64(1))@1 as COUNT(Int64(1))] +01)ProjectionExec: expr=[count(*)@0 as b, count(Int64(1))@1 as count(Int64(1))] 02)--NestedLoopJoinExec: join_type=Left -03)----ProjectionExec: expr=[4 as COUNT(*)] +03)----ProjectionExec: expr=[4 as count(*)] 04)------PlaceholderRowExec -05)----ProjectionExec: expr=[4 as COUNT(Int64(1))] +05)----ProjectionExec: expr=[4 as count(Int64(1))] 06)------PlaceholderRowExec statement ok @@ -772,12 +772,12 @@ query TT explain SELECT t1_id, (SELECT count(*) FROM t2 WHERE t2.t2_int = t1.t1_int) from t1 ---- logical_plan -01)Projection: t1.t1_id, CASE WHEN __scalar_sq_1.__always_true IS NULL THEN Int64(0) ELSE __scalar_sq_1.COUNT(*) END AS COUNT(*) +01)Projection: t1.t1_id, CASE WHEN __scalar_sq_1.__always_true IS NULL THEN Int64(0) ELSE __scalar_sq_1.count(*) END AS count(*) 02)--Left Join: t1.t1_int = __scalar_sq_1.t2_int 03)----TableScan: t1 projection=[t1_id, t1_int] 04)----SubqueryAlias: __scalar_sq_1 -05)------Projection: COUNT(*), t2.t2_int, Boolean(true) AS __always_true -06)--------Aggregate: groupBy=[[t2.t2_int]], aggr=[[COUNT(Int64(1)) AS COUNT(*)]] +05)------Projection: count(*), t2.t2_int, Boolean(true) AS __always_true +06)--------Aggregate: groupBy=[[t2.t2_int]], aggr=[[count(Int64(1)) AS count(*)]] 07)----------TableScan: t2 projection=[t2_int] query II rowsort @@ -794,12 +794,12 @@ query TT explain SELECT t1_id, (SELECT count(*) FROM t2 WHERE t2.t2_int = t1.t1_int) as cnt from t1 ---- logical_plan -01)Projection: t1.t1_id, CASE WHEN __scalar_sq_1.__always_true IS NULL THEN Int64(0) ELSE __scalar_sq_1.COUNT(*) END AS cnt +01)Projection: t1.t1_id, CASE WHEN __scalar_sq_1.__always_true IS NULL THEN Int64(0) ELSE __scalar_sq_1.count(*) END AS cnt 02)--Left Join: t1.t1_int = __scalar_sq_1.t2_int 03)----TableScan: t1 projection=[t1_id, t1_int] 04)----SubqueryAlias: __scalar_sq_1 -05)------Projection: COUNT(*), t2.t2_int, Boolean(true) AS __always_true -06)--------Aggregate: groupBy=[[t2.t2_int]], aggr=[[COUNT(Int64(1)) AS COUNT(*)]] +05)------Projection: count(*), t2.t2_int, Boolean(true) AS __always_true +06)--------Aggregate: groupBy=[[t2.t2_int]], aggr=[[count(Int64(1)) AS count(*)]] 07)----------TableScan: t2 projection=[t2_int] query II rowsort @@ -819,8 +819,8 @@ logical_plan 02)--Left Join: t1.t1_int = __scalar_sq_1.t2_int 03)----TableScan: t1 projection=[t1_id, t1_int] 04)----SubqueryAlias: __scalar_sq_1 -05)------Projection: COUNT(*) AS _cnt, t2.t2_int, Boolean(true) AS __always_true -06)--------Aggregate: groupBy=[[t2.t2_int]], aggr=[[COUNT(Int64(1)) AS COUNT(*)]] +05)------Projection: count(*) AS _cnt, t2.t2_int, Boolean(true) AS __always_true +06)--------Aggregate: groupBy=[[t2.t2_int]], aggr=[[count(Int64(1)) AS count(*)]] 07)----------TableScan: t2 projection=[t2_int] query II rowsort @@ -840,8 +840,8 @@ logical_plan 02)--Left Join: t1.t1_int = __scalar_sq_1.t2_int 03)----TableScan: t1 projection=[t1_id, t1_int] 04)----SubqueryAlias: __scalar_sq_1 -05)------Projection: COUNT(*) + Int64(2) AS _cnt, t2.t2_int, Boolean(true) AS __always_true -06)--------Aggregate: groupBy=[[t2.t2_int]], aggr=[[COUNT(Int64(1)) AS COUNT(*)]] +05)------Projection: count(*) + Int64(2) AS _cnt, t2.t2_int, Boolean(true) AS __always_true +06)--------Aggregate: groupBy=[[t2.t2_int]], aggr=[[count(Int64(1)) AS count(*)]] 07)----------TableScan: t2 projection=[t2_int] query II rowsort @@ -858,13 +858,13 @@ explain select t1.t1_int from t1 where (select count(*) from t2 where t1.t1_id = ---- logical_plan 01)Projection: t1.t1_int -02)--Filter: CASE WHEN __scalar_sq_1.__always_true IS NULL THEN Int64(0) ELSE __scalar_sq_1.COUNT(*) END < CAST(t1.t1_int AS Int64) -03)----Projection: t1.t1_int, __scalar_sq_1.COUNT(*), __scalar_sq_1.__always_true +02)--Filter: CASE WHEN __scalar_sq_1.__always_true IS NULL THEN Int64(0) ELSE __scalar_sq_1.count(*) END < CAST(t1.t1_int AS Int64) +03)----Projection: t1.t1_int, __scalar_sq_1.count(*), __scalar_sq_1.__always_true 04)------Left Join: t1.t1_id = __scalar_sq_1.t2_id 05)--------TableScan: t1 projection=[t1_id, t1_int] 06)--------SubqueryAlias: __scalar_sq_1 -07)----------Projection: COUNT(*), t2.t2_id, Boolean(true) AS __always_true -08)------------Aggregate: groupBy=[[t2.t2_id]], aggr=[[COUNT(Int64(1)) AS COUNT(*)]] +07)----------Projection: count(*), t2.t2_id, Boolean(true) AS __always_true +08)------------Aggregate: groupBy=[[t2.t2_id]], aggr=[[count(Int64(1)) AS count(*)]] 09)--------------TableScan: t2 projection=[t2_id] query I rowsort @@ -884,9 +884,9 @@ logical_plan 02)--Left Join: t1.t1_int = __scalar_sq_1.t2_int 03)----TableScan: t1 projection=[t1_id, t1_int] 04)----SubqueryAlias: __scalar_sq_1 -05)------Projection: COUNT(*) + Int64(2) AS cnt_plus_2, t2.t2_int -06)--------Filter: COUNT(*) > Int64(1) -07)----------Aggregate: groupBy=[[t2.t2_int]], aggr=[[COUNT(Int64(1)) AS COUNT(*)]] +05)------Projection: count(*) + Int64(2) AS cnt_plus_2, t2.t2_int +06)--------Filter: count(*) > Int64(1) +07)----------Aggregate: groupBy=[[t2.t2_int]], aggr=[[count(Int64(1)) AS count(*)]] 08)------------TableScan: t2 projection=[t2_int] query II rowsort @@ -903,12 +903,12 @@ query TT explain SELECT t1_id, (SELECT count(*) + 2 as cnt_plus_2 FROM t2 WHERE t2.t2_int = t1.t1_int having count(*) = 0) from t1 ---- logical_plan -01)Projection: t1.t1_id, CASE WHEN __scalar_sq_1.__always_true IS NULL THEN Int64(2) AS cnt_plus_2 WHEN __scalar_sq_1.COUNT(*) != Int64(0) THEN NULL ELSE __scalar_sq_1.cnt_plus_2 END AS cnt_plus_2 +01)Projection: t1.t1_id, CASE WHEN __scalar_sq_1.__always_true IS NULL THEN Int64(2) AS cnt_plus_2 WHEN __scalar_sq_1.count(*) != Int64(0) THEN NULL ELSE __scalar_sq_1.cnt_plus_2 END AS cnt_plus_2 02)--Left Join: t1.t1_int = __scalar_sq_1.t2_int 03)----TableScan: t1 projection=[t1_id, t1_int] 04)----SubqueryAlias: __scalar_sq_1 -05)------Projection: COUNT(*) + Int64(2) AS cnt_plus_2, t2.t2_int, COUNT(*), Boolean(true) AS __always_true -06)--------Aggregate: groupBy=[[t2.t2_int]], aggr=[[COUNT(Int64(1)) AS COUNT(*)]] +05)------Projection: count(*) + Int64(2) AS cnt_plus_2, t2.t2_int, count(*), Boolean(true) AS __always_true +06)--------Aggregate: groupBy=[[t2.t2_int]], aggr=[[count(Int64(1)) AS count(*)]] 07)----------TableScan: t2 projection=[t2_int] query II rowsort @@ -925,14 +925,14 @@ explain select t1.t1_int from t1 group by t1.t1_int having (select count(*) from ---- logical_plan 01)Projection: t1.t1_int -02)--Filter: CASE WHEN __scalar_sq_1.__always_true IS NULL THEN Int64(0) ELSE __scalar_sq_1.COUNT(*) END = Int64(0) -03)----Projection: t1.t1_int, __scalar_sq_1.COUNT(*), __scalar_sq_1.__always_true +02)--Filter: CASE WHEN __scalar_sq_1.__always_true IS NULL THEN Int64(0) ELSE __scalar_sq_1.count(*) END = Int64(0) +03)----Projection: t1.t1_int, __scalar_sq_1.count(*), __scalar_sq_1.__always_true 04)------Left Join: t1.t1_int = __scalar_sq_1.t2_int 05)--------Aggregate: groupBy=[[t1.t1_int]], aggr=[[]] 06)----------TableScan: t1 projection=[t1_int] 07)--------SubqueryAlias: __scalar_sq_1 -08)----------Projection: COUNT(*), t2.t2_int, Boolean(true) AS __always_true -09)------------Aggregate: groupBy=[[t2.t2_int]], aggr=[[COUNT(Int64(1)) AS COUNT(*)]] +08)----------Projection: count(*), t2.t2_int, Boolean(true) AS __always_true +09)------------Aggregate: groupBy=[[t2.t2_int]], aggr=[[count(Int64(1)) AS count(*)]] 10)--------------TableScan: t2 projection=[t2_int] query I rowsort @@ -952,8 +952,8 @@ logical_plan 04)------Left Join: t1.t1_int = __scalar_sq_1.t2_int 05)--------TableScan: t1 projection=[t1_int] 06)--------SubqueryAlias: __scalar_sq_1 -07)----------Projection: COUNT(*) AS cnt, t2.t2_int, Boolean(true) AS __always_true -08)------------Aggregate: groupBy=[[t2.t2_int]], aggr=[[COUNT(Int64(1)) AS COUNT(*)]] +07)----------Projection: count(*) AS cnt, t2.t2_int, Boolean(true) AS __always_true +08)------------Aggregate: groupBy=[[t2.t2_int]], aggr=[[count(Int64(1)) AS count(*)]] 09)--------------TableScan: t2 projection=[t2_int] @@ -977,13 +977,13 @@ select t1.t1_int from t1 where ( ---- logical_plan 01)Projection: t1.t1_int -02)--Filter: CASE WHEN __scalar_sq_1.__always_true IS NULL THEN Int64(2) WHEN __scalar_sq_1.COUNT(*) != Int64(0) THEN NULL ELSE __scalar_sq_1.cnt_plus_two END = Int64(2) -03)----Projection: t1.t1_int, __scalar_sq_1.cnt_plus_two, __scalar_sq_1.COUNT(*), __scalar_sq_1.__always_true +02)--Filter: CASE WHEN __scalar_sq_1.__always_true IS NULL THEN Int64(2) WHEN __scalar_sq_1.count(*) != Int64(0) THEN NULL ELSE __scalar_sq_1.cnt_plus_two END = Int64(2) +03)----Projection: t1.t1_int, __scalar_sq_1.cnt_plus_two, __scalar_sq_1.count(*), __scalar_sq_1.__always_true 04)------Left Join: t1.t1_int = __scalar_sq_1.t2_int 05)--------TableScan: t1 projection=[t1_int] 06)--------SubqueryAlias: __scalar_sq_1 -07)----------Projection: COUNT(*) + Int64(1) + Int64(1) AS cnt_plus_two, t2.t2_int, COUNT(*), Boolean(true) AS __always_true -08)------------Aggregate: groupBy=[[t2.t2_int]], aggr=[[COUNT(Int64(1)) AS COUNT(*)]] +07)----------Projection: count(*) + Int64(1) + Int64(1) AS cnt_plus_two, t2.t2_int, count(*), Boolean(true) AS __always_true +08)------------Aggregate: groupBy=[[t2.t2_int]], aggr=[[count(Int64(1)) AS count(*)]] 09)--------------TableScan: t2 projection=[t2_int] query I rowsort @@ -1011,8 +1011,8 @@ logical_plan 04)------Left Join: t1.t1_int = __scalar_sq_1.t2_int 05)--------TableScan: t1 projection=[t1_int] 06)--------SubqueryAlias: __scalar_sq_1 -07)----------Projection: CASE WHEN COUNT(*) = Int64(1) THEN Int64(NULL) ELSE COUNT(*) END AS cnt, t2.t2_int, Boolean(true) AS __always_true -08)------------Aggregate: groupBy=[[t2.t2_int]], aggr=[[COUNT(Int64(1)) AS COUNT(*)]] +07)----------Projection: CASE WHEN count(*) = Int64(1) THEN Int64(NULL) ELSE count(*) END AS cnt, t2.t2_int, Boolean(true) AS __always_true +08)------------Aggregate: groupBy=[[t2.t2_int]], aggr=[[count(Int64(1)) AS count(*)]] 09)--------------TableScan: t2 projection=[t2_int] diff --git a/datafusion/sqllogictest/test_files/tpch/q1.slt.part b/datafusion/sqllogictest/test_files/tpch/q1.slt.part index 5a21bdf276e3c..f005081b155fb 100644 --- a/datafusion/sqllogictest/test_files/tpch/q1.slt.part +++ b/datafusion/sqllogictest/test_files/tpch/q1.slt.part @@ -41,19 +41,19 @@ explain select ---- logical_plan 01)Sort: lineitem.l_returnflag ASC NULLS LAST, lineitem.l_linestatus ASC NULLS LAST -02)--Projection: lineitem.l_returnflag, lineitem.l_linestatus, sum(lineitem.l_quantity) AS sum_qty, sum(lineitem.l_extendedprice) AS sum_base_price, sum(lineitem.l_extendedprice * Int64(1) - lineitem.l_discount) AS sum_disc_price, sum(lineitem.l_extendedprice * Int64(1) - lineitem.l_discount * Int64(1) + lineitem.l_tax) AS sum_charge, AVG(lineitem.l_quantity) AS avg_qty, AVG(lineitem.l_extendedprice) AS avg_price, AVG(lineitem.l_discount) AS avg_disc, COUNT(*) AS count_order -03)----Aggregate: groupBy=[[lineitem.l_returnflag, lineitem.l_linestatus]], aggr=[[sum(lineitem.l_quantity), sum(lineitem.l_extendedprice), sum(__common_expr_1) AS sum(lineitem.l_extendedprice * Int64(1) - lineitem.l_discount), sum(__common_expr_1 * (Decimal128(Some(1),20,0) + lineitem.l_tax)) AS sum(lineitem.l_extendedprice * Int64(1) - lineitem.l_discount * Int64(1) + lineitem.l_tax), AVG(lineitem.l_quantity), AVG(lineitem.l_extendedprice), AVG(lineitem.l_discount), COUNT(Int64(1)) AS COUNT(*)]] +02)--Projection: lineitem.l_returnflag, lineitem.l_linestatus, sum(lineitem.l_quantity) AS sum_qty, sum(lineitem.l_extendedprice) AS sum_base_price, sum(lineitem.l_extendedprice * Int64(1) - lineitem.l_discount) AS sum_disc_price, sum(lineitem.l_extendedprice * Int64(1) - lineitem.l_discount * Int64(1) + lineitem.l_tax) AS sum_charge, AVG(lineitem.l_quantity) AS avg_qty, AVG(lineitem.l_extendedprice) AS avg_price, AVG(lineitem.l_discount) AS avg_disc, count(*) AS count_order +03)----Aggregate: groupBy=[[lineitem.l_returnflag, lineitem.l_linestatus]], aggr=[[sum(lineitem.l_quantity), sum(lineitem.l_extendedprice), sum(__common_expr_1) AS sum(lineitem.l_extendedprice * Int64(1) - lineitem.l_discount), sum(__common_expr_1 * (Decimal128(Some(1),20,0) + lineitem.l_tax)) AS sum(lineitem.l_extendedprice * Int64(1) - lineitem.l_discount * Int64(1) + lineitem.l_tax), AVG(lineitem.l_quantity), AVG(lineitem.l_extendedprice), AVG(lineitem.l_discount), count(Int64(1)) AS count(*)]] 04)------Projection: lineitem.l_extendedprice * (Decimal128(Some(1),20,0) - lineitem.l_discount) AS __common_expr_1, lineitem.l_quantity, lineitem.l_extendedprice, lineitem.l_discount, lineitem.l_tax, lineitem.l_returnflag, lineitem.l_linestatus 05)--------Filter: lineitem.l_shipdate <= Date32("1998-09-02") 06)----------TableScan: lineitem projection=[l_quantity, l_extendedprice, l_discount, l_tax, l_returnflag, l_linestatus, l_shipdate], partial_filters=[lineitem.l_shipdate <= Date32("1998-09-02")] physical_plan 01)SortPreservingMergeExec: [l_returnflag@0 ASC NULLS LAST,l_linestatus@1 ASC NULLS LAST] 02)--SortExec: expr=[l_returnflag@0 ASC NULLS LAST,l_linestatus@1 ASC NULLS LAST], preserve_partitioning=[true] -03)----ProjectionExec: expr=[l_returnflag@0 as l_returnflag, l_linestatus@1 as l_linestatus, sum(lineitem.l_quantity)@2 as sum_qty, sum(lineitem.l_extendedprice)@3 as sum_base_price, sum(lineitem.l_extendedprice * Int64(1) - lineitem.l_discount)@4 as sum_disc_price, sum(lineitem.l_extendedprice * Int64(1) - lineitem.l_discount * Int64(1) + lineitem.l_tax)@5 as sum_charge, AVG(lineitem.l_quantity)@6 as avg_qty, AVG(lineitem.l_extendedprice)@7 as avg_price, AVG(lineitem.l_discount)@8 as avg_disc, COUNT(*)@9 as count_order] -04)------AggregateExec: mode=FinalPartitioned, gby=[l_returnflag@0 as l_returnflag, l_linestatus@1 as l_linestatus], aggr=[sum(lineitem.l_quantity), sum(lineitem.l_extendedprice), sum(lineitem.l_extendedprice * Int64(1) - lineitem.l_discount), sum(lineitem.l_extendedprice * Int64(1) - lineitem.l_discount * Int64(1) + lineitem.l_tax), AVG(lineitem.l_quantity), AVG(lineitem.l_extendedprice), AVG(lineitem.l_discount), COUNT(*)] +03)----ProjectionExec: expr=[l_returnflag@0 as l_returnflag, l_linestatus@1 as l_linestatus, sum(lineitem.l_quantity)@2 as sum_qty, sum(lineitem.l_extendedprice)@3 as sum_base_price, sum(lineitem.l_extendedprice * Int64(1) - lineitem.l_discount)@4 as sum_disc_price, sum(lineitem.l_extendedprice * Int64(1) - lineitem.l_discount * Int64(1) + lineitem.l_tax)@5 as sum_charge, AVG(lineitem.l_quantity)@6 as avg_qty, AVG(lineitem.l_extendedprice)@7 as avg_price, AVG(lineitem.l_discount)@8 as avg_disc, count(*)@9 as count_order] +04)------AggregateExec: mode=FinalPartitioned, gby=[l_returnflag@0 as l_returnflag, l_linestatus@1 as l_linestatus], aggr=[sum(lineitem.l_quantity), sum(lineitem.l_extendedprice), sum(lineitem.l_extendedprice * Int64(1) - lineitem.l_discount), sum(lineitem.l_extendedprice * Int64(1) - lineitem.l_discount * Int64(1) + lineitem.l_tax), AVG(lineitem.l_quantity), AVG(lineitem.l_extendedprice), AVG(lineitem.l_discount), count(*)] 05)--------CoalesceBatchesExec: target_batch_size=8192 06)----------RepartitionExec: partitioning=Hash([l_returnflag@0, l_linestatus@1], 4), input_partitions=4 -07)------------AggregateExec: mode=Partial, gby=[l_returnflag@5 as l_returnflag, l_linestatus@6 as l_linestatus], aggr=[sum(lineitem.l_quantity), sum(lineitem.l_extendedprice), sum(lineitem.l_extendedprice * Int64(1) - lineitem.l_discount), sum(lineitem.l_extendedprice * Int64(1) - lineitem.l_discount * Int64(1) + lineitem.l_tax), AVG(lineitem.l_quantity), AVG(lineitem.l_extendedprice), AVG(lineitem.l_discount), COUNT(*)] +07)------------AggregateExec: mode=Partial, gby=[l_returnflag@5 as l_returnflag, l_linestatus@6 as l_linestatus], aggr=[sum(lineitem.l_quantity), sum(lineitem.l_extendedprice), sum(lineitem.l_extendedprice * Int64(1) - lineitem.l_discount), sum(lineitem.l_extendedprice * Int64(1) - lineitem.l_discount * Int64(1) + lineitem.l_tax), AVG(lineitem.l_quantity), AVG(lineitem.l_extendedprice), AVG(lineitem.l_discount), count(*)] 08)--------------ProjectionExec: expr=[l_extendedprice@1 * (Some(1),20,0 - l_discount@2) as __common_expr_1, l_quantity@0 as l_quantity, l_extendedprice@1 as l_extendedprice, l_discount@2 as l_discount, l_tax@3 as l_tax, l_returnflag@4 as l_returnflag, l_linestatus@5 as l_linestatus] 09)----------------CoalesceBatchesExec: target_batch_size=8192 10)------------------FilterExec: l_shipdate@6 <= 1998-09-02 diff --git a/datafusion/sqllogictest/test_files/tpch/q13.slt.part b/datafusion/sqllogictest/test_files/tpch/q13.slt.part index f19db720fb2c7..f25f23de88179 100644 --- a/datafusion/sqllogictest/test_files/tpch/q13.slt.part +++ b/datafusion/sqllogictest/test_files/tpch/q13.slt.part @@ -42,11 +42,11 @@ limit 10; logical_plan 01)Limit: skip=0, fetch=10 02)--Sort: custdist DESC NULLS FIRST, c_orders.c_count DESC NULLS FIRST, fetch=10 -03)----Projection: c_orders.c_count, COUNT(*) AS custdist -04)------Aggregate: groupBy=[[c_orders.c_count]], aggr=[[COUNT(Int64(1)) AS COUNT(*)]] +03)----Projection: c_orders.c_count, count(*) AS custdist +04)------Aggregate: groupBy=[[c_orders.c_count]], aggr=[[count(Int64(1)) AS count(*)]] 05)--------SubqueryAlias: c_orders -06)----------Projection: COUNT(orders.o_orderkey) AS c_count -07)------------Aggregate: groupBy=[[customer.c_custkey]], aggr=[[COUNT(orders.o_orderkey)]] +06)----------Projection: count(orders.o_orderkey) AS c_count +07)------------Aggregate: groupBy=[[customer.c_custkey]], aggr=[[count(orders.o_orderkey)]] 08)--------------Projection: customer.c_custkey, orders.o_orderkey 09)----------------Left Join: customer.c_custkey = orders.o_custkey 10)------------------TableScan: customer projection=[c_custkey] @@ -57,13 +57,13 @@ physical_plan 01)GlobalLimitExec: skip=0, fetch=10 02)--SortPreservingMergeExec: [custdist@1 DESC,c_count@0 DESC], fetch=10 03)----SortExec: TopK(fetch=10), expr=[custdist@1 DESC,c_count@0 DESC], preserve_partitioning=[true] -04)------ProjectionExec: expr=[c_count@0 as c_count, COUNT(*)@1 as custdist] -05)--------AggregateExec: mode=FinalPartitioned, gby=[c_count@0 as c_count], aggr=[COUNT(*)] +04)------ProjectionExec: expr=[c_count@0 as c_count, count(*)@1 as custdist] +05)--------AggregateExec: mode=FinalPartitioned, gby=[c_count@0 as c_count], aggr=[count(*)] 06)----------CoalesceBatchesExec: target_batch_size=8192 07)------------RepartitionExec: partitioning=Hash([c_count@0], 4), input_partitions=4 -08)--------------AggregateExec: mode=Partial, gby=[c_count@0 as c_count], aggr=[COUNT(*)] -09)----------------ProjectionExec: expr=[COUNT(orders.o_orderkey)@1 as c_count] -10)------------------AggregateExec: mode=SinglePartitioned, gby=[c_custkey@0 as c_custkey], aggr=[COUNT(orders.o_orderkey)] +08)--------------AggregateExec: mode=Partial, gby=[c_count@0 as c_count], aggr=[count(*)] +09)----------------ProjectionExec: expr=[count(orders.o_orderkey)@1 as c_count] +10)------------------AggregateExec: mode=SinglePartitioned, gby=[c_custkey@0 as c_custkey], aggr=[count(orders.o_orderkey)] 11)--------------------CoalesceBatchesExec: target_batch_size=8192 12)----------------------HashJoinExec: mode=Partitioned, join_type=Left, on=[(c_custkey@0, o_custkey@1)], projection=[c_custkey@0, o_orderkey@1] 13)------------------------CoalesceBatchesExec: target_batch_size=8192 diff --git a/datafusion/sqllogictest/test_files/tpch/q16.slt.part b/datafusion/sqllogictest/test_files/tpch/q16.slt.part index 2b01980f0e6f5..d568b2ca69e6e 100644 --- a/datafusion/sqllogictest/test_files/tpch/q16.slt.part +++ b/datafusion/sqllogictest/test_files/tpch/q16.slt.part @@ -52,8 +52,8 @@ limit 10; logical_plan 01)Limit: skip=0, fetch=10 02)--Sort: supplier_cnt DESC NULLS FIRST, part.p_brand ASC NULLS LAST, part.p_type ASC NULLS LAST, part.p_size ASC NULLS LAST, fetch=10 -03)----Projection: part.p_brand, part.p_type, part.p_size, COUNT(alias1) AS supplier_cnt -04)------Aggregate: groupBy=[[part.p_brand, part.p_type, part.p_size]], aggr=[[COUNT(alias1)]] +03)----Projection: part.p_brand, part.p_type, part.p_size, count(alias1) AS supplier_cnt +04)------Aggregate: groupBy=[[part.p_brand, part.p_type, part.p_size]], aggr=[[count(alias1)]] 05)--------Aggregate: groupBy=[[part.p_brand, part.p_type, part.p_size, partsupp.ps_suppkey AS alias1]], aggr=[[]] 06)----------LeftAnti Join: partsupp.ps_suppkey = __correlated_sq_1.s_suppkey 07)------------Projection: partsupp.ps_suppkey, part.p_brand, part.p_type, part.p_size @@ -69,11 +69,11 @@ physical_plan 01)GlobalLimitExec: skip=0, fetch=10 02)--SortPreservingMergeExec: [supplier_cnt@3 DESC,p_brand@0 ASC NULLS LAST,p_type@1 ASC NULLS LAST,p_size@2 ASC NULLS LAST], fetch=10 03)----SortExec: TopK(fetch=10), expr=[supplier_cnt@3 DESC,p_brand@0 ASC NULLS LAST,p_type@1 ASC NULLS LAST,p_size@2 ASC NULLS LAST], preserve_partitioning=[true] -04)------ProjectionExec: expr=[p_brand@0 as p_brand, p_type@1 as p_type, p_size@2 as p_size, COUNT(alias1)@3 as supplier_cnt] -05)--------AggregateExec: mode=FinalPartitioned, gby=[p_brand@0 as p_brand, p_type@1 as p_type, p_size@2 as p_size], aggr=[COUNT(alias1)] +04)------ProjectionExec: expr=[p_brand@0 as p_brand, p_type@1 as p_type, p_size@2 as p_size, count(alias1)@3 as supplier_cnt] +05)--------AggregateExec: mode=FinalPartitioned, gby=[p_brand@0 as p_brand, p_type@1 as p_type, p_size@2 as p_size], aggr=[count(alias1)] 06)----------CoalesceBatchesExec: target_batch_size=8192 07)------------RepartitionExec: partitioning=Hash([p_brand@0, p_type@1, p_size@2], 4), input_partitions=4 -08)--------------AggregateExec: mode=Partial, gby=[p_brand@0 as p_brand, p_type@1 as p_type, p_size@2 as p_size], aggr=[COUNT(alias1)] +08)--------------AggregateExec: mode=Partial, gby=[p_brand@0 as p_brand, p_type@1 as p_type, p_size@2 as p_size], aggr=[count(alias1)] 09)----------------AggregateExec: mode=FinalPartitioned, gby=[p_brand@0 as p_brand, p_type@1 as p_type, p_size@2 as p_size, alias1@3 as alias1], aggr=[] 10)------------------CoalesceBatchesExec: target_batch_size=8192 11)--------------------RepartitionExec: partitioning=Hash([p_brand@0, p_type@1, p_size@2, alias1@3], 4), input_partitions=4 diff --git a/datafusion/sqllogictest/test_files/tpch/q21.slt.part b/datafusion/sqllogictest/test_files/tpch/q21.slt.part index b536dd281eca3..74c1c2fa77d76 100644 --- a/datafusion/sqllogictest/test_files/tpch/q21.slt.part +++ b/datafusion/sqllogictest/test_files/tpch/q21.slt.part @@ -59,8 +59,8 @@ order by ---- logical_plan 01)Sort: numwait DESC NULLS FIRST, supplier.s_name ASC NULLS LAST -02)--Projection: supplier.s_name, COUNT(*) AS numwait -03)----Aggregate: groupBy=[[supplier.s_name]], aggr=[[COUNT(Int64(1)) AS COUNT(*)]] +02)--Projection: supplier.s_name, count(*) AS numwait +03)----Aggregate: groupBy=[[supplier.s_name]], aggr=[[count(Int64(1)) AS count(*)]] 04)------Projection: supplier.s_name 05)--------LeftAnti Join: l1.l_orderkey = __correlated_sq_2.l_orderkey Filter: __correlated_sq_2.l_suppkey != l1.l_suppkey 06)----------LeftSemi Join: l1.l_orderkey = __correlated_sq_1.l_orderkey Filter: __correlated_sq_1.l_suppkey != l1.l_suppkey @@ -92,11 +92,11 @@ logical_plan physical_plan 01)SortPreservingMergeExec: [numwait@1 DESC,s_name@0 ASC NULLS LAST] 02)--SortExec: expr=[numwait@1 DESC,s_name@0 ASC NULLS LAST], preserve_partitioning=[true] -03)----ProjectionExec: expr=[s_name@0 as s_name, COUNT(*)@1 as numwait] -04)------AggregateExec: mode=FinalPartitioned, gby=[s_name@0 as s_name], aggr=[COUNT(*)] +03)----ProjectionExec: expr=[s_name@0 as s_name, count(*)@1 as numwait] +04)------AggregateExec: mode=FinalPartitioned, gby=[s_name@0 as s_name], aggr=[count(*)] 05)--------CoalesceBatchesExec: target_batch_size=8192 06)----------RepartitionExec: partitioning=Hash([s_name@0], 4), input_partitions=4 -07)------------AggregateExec: mode=Partial, gby=[s_name@0 as s_name], aggr=[COUNT(*)] +07)------------AggregateExec: mode=Partial, gby=[s_name@0 as s_name], aggr=[count(*)] 08)--------------CoalesceBatchesExec: target_batch_size=8192 09)----------------HashJoinExec: mode=Partitioned, join_type=LeftAnti, on=[(l_orderkey@1, l_orderkey@0)], filter=l_suppkey@1 != l_suppkey@0, projection=[s_name@0] 10)------------------CoalesceBatchesExec: target_batch_size=8192 diff --git a/datafusion/sqllogictest/test_files/tpch/q22.slt.part b/datafusion/sqllogictest/test_files/tpch/q22.slt.part index d05666b2513cf..5b39c2725a977 100644 --- a/datafusion/sqllogictest/test_files/tpch/q22.slt.part +++ b/datafusion/sqllogictest/test_files/tpch/q22.slt.part @@ -57,8 +57,8 @@ order by ---- logical_plan 01)Sort: custsale.cntrycode ASC NULLS LAST -02)--Projection: custsale.cntrycode, COUNT(*) AS numcust, sum(custsale.c_acctbal) AS totacctbal -03)----Aggregate: groupBy=[[custsale.cntrycode]], aggr=[[COUNT(Int64(1)) AS COUNT(*), sum(custsale.c_acctbal)]] +02)--Projection: custsale.cntrycode, count(*) AS numcust, sum(custsale.c_acctbal) AS totacctbal +03)----Aggregate: groupBy=[[custsale.cntrycode]], aggr=[[count(Int64(1)) AS count(*), sum(custsale.c_acctbal)]] 04)------SubqueryAlias: custsale 05)--------Projection: substr(customer.c_phone, Int64(1), Int64(2)) AS cntrycode, customer.c_acctbal 06)----------Inner Join: Filter: CAST(customer.c_acctbal AS Decimal128(19, 6)) > __scalar_sq_2.AVG(customer.c_acctbal) @@ -76,11 +76,11 @@ logical_plan physical_plan 01)SortPreservingMergeExec: [cntrycode@0 ASC NULLS LAST] 02)--SortExec: expr=[cntrycode@0 ASC NULLS LAST], preserve_partitioning=[true] -03)----ProjectionExec: expr=[cntrycode@0 as cntrycode, COUNT(*)@1 as numcust, sum(custsale.c_acctbal)@2 as totacctbal] -04)------AggregateExec: mode=FinalPartitioned, gby=[cntrycode@0 as cntrycode], aggr=[COUNT(*), sum(custsale.c_acctbal)] +03)----ProjectionExec: expr=[cntrycode@0 as cntrycode, count(*)@1 as numcust, sum(custsale.c_acctbal)@2 as totacctbal] +04)------AggregateExec: mode=FinalPartitioned, gby=[cntrycode@0 as cntrycode], aggr=[count(*), sum(custsale.c_acctbal)] 05)--------CoalesceBatchesExec: target_batch_size=8192 06)----------RepartitionExec: partitioning=Hash([cntrycode@0], 4), input_partitions=4 -07)------------AggregateExec: mode=Partial, gby=[cntrycode@0 as cntrycode], aggr=[COUNT(*), sum(custsale.c_acctbal)] +07)------------AggregateExec: mode=Partial, gby=[cntrycode@0 as cntrycode], aggr=[count(*), sum(custsale.c_acctbal)] 08)--------------ProjectionExec: expr=[substr(c_phone@0, 1, 2) as cntrycode, c_acctbal@1 as c_acctbal] 09)----------------RepartitionExec: partitioning=RoundRobinBatch(4), input_partitions=1 10)------------------NestedLoopJoinExec: join_type=Inner, filter=CAST(c_acctbal@0 AS Decimal128(19, 6)) > AVG(customer.c_acctbal)@1 diff --git a/datafusion/sqllogictest/test_files/tpch/q4.slt.part b/datafusion/sqllogictest/test_files/tpch/q4.slt.part index e2a5b9c5f0099..b5a40e5b62d10 100644 --- a/datafusion/sqllogictest/test_files/tpch/q4.slt.part +++ b/datafusion/sqllogictest/test_files/tpch/q4.slt.part @@ -41,8 +41,8 @@ order by ---- logical_plan 01)Sort: orders.o_orderpriority ASC NULLS LAST -02)--Projection: orders.o_orderpriority, COUNT(*) AS order_count -03)----Aggregate: groupBy=[[orders.o_orderpriority]], aggr=[[COUNT(Int64(1)) AS COUNT(*)]] +02)--Projection: orders.o_orderpriority, count(*) AS order_count +03)----Aggregate: groupBy=[[orders.o_orderpriority]], aggr=[[count(Int64(1)) AS count(*)]] 04)------Projection: orders.o_orderpriority 05)--------LeftSemi Join: orders.o_orderkey = __correlated_sq_1.l_orderkey 06)----------Projection: orders.o_orderkey, orders.o_orderpriority @@ -55,11 +55,11 @@ logical_plan physical_plan 01)SortPreservingMergeExec: [o_orderpriority@0 ASC NULLS LAST] 02)--SortExec: expr=[o_orderpriority@0 ASC NULLS LAST], preserve_partitioning=[true] -03)----ProjectionExec: expr=[o_orderpriority@0 as o_orderpriority, COUNT(*)@1 as order_count] -04)------AggregateExec: mode=FinalPartitioned, gby=[o_orderpriority@0 as o_orderpriority], aggr=[COUNT(*)] +03)----ProjectionExec: expr=[o_orderpriority@0 as o_orderpriority, count(*)@1 as order_count] +04)------AggregateExec: mode=FinalPartitioned, gby=[o_orderpriority@0 as o_orderpriority], aggr=[count(*)] 05)--------CoalesceBatchesExec: target_batch_size=8192 06)----------RepartitionExec: partitioning=Hash([o_orderpriority@0], 4), input_partitions=4 -07)------------AggregateExec: mode=Partial, gby=[o_orderpriority@0 as o_orderpriority], aggr=[COUNT(*)] +07)------------AggregateExec: mode=Partial, gby=[o_orderpriority@0 as o_orderpriority], aggr=[count(*)] 08)--------------CoalesceBatchesExec: target_batch_size=8192 09)----------------HashJoinExec: mode=Partitioned, join_type=LeftSemi, on=[(o_orderkey@0, l_orderkey@0)], projection=[o_orderpriority@1] 10)------------------CoalesceBatchesExec: target_batch_size=8192 diff --git a/datafusion/sqllogictest/test_files/union.slt b/datafusion/sqllogictest/test_files/union.slt index 36f0249618758..7b91e97e4a3e2 100644 --- a/datafusion/sqllogictest/test_files/union.slt +++ b/datafusion/sqllogictest/test_files/union.slt @@ -420,16 +420,16 @@ SELECT count(*) FROM ( ) GROUP BY name ---- logical_plan -01)Projection: COUNT(*) -02)--Aggregate: groupBy=[[t1.name]], aggr=[[COUNT(Int64(1)) AS COUNT(*)]] +01)Projection: count(*) +02)--Aggregate: groupBy=[[t1.name]], aggr=[[count(Int64(1)) AS count(*)]] 03)----Union 04)------Aggregate: groupBy=[[t1.name]], aggr=[[]] 05)--------TableScan: t1 projection=[name] 06)------Aggregate: groupBy=[[t2.name]], aggr=[[]] 07)--------TableScan: t2 projection=[name] physical_plan -01)ProjectionExec: expr=[COUNT(*)@1 as COUNT(*)] -02)--AggregateExec: mode=SinglePartitioned, gby=[name@0 as name], aggr=[COUNT(*)] +01)ProjectionExec: expr=[count(*)@1 as count(*)] +02)--AggregateExec: mode=SinglePartitioned, gby=[name@0 as name], aggr=[count(*)] 03)----InterleaveExec 04)------AggregateExec: mode=FinalPartitioned, gby=[name@0 as name], aggr=[] 05)--------CoalesceBatchesExec: target_batch_size=2 @@ -565,8 +565,8 @@ select x, y from (select 1 as x , max(10) as y) b ---- logical_plan 01)Union -02)--Projection: COUNT(*) AS count, a.n -03)----Aggregate: groupBy=[[a.n]], aggr=[[COUNT(Int64(1)) AS COUNT(*)]] +02)--Projection: count(*) AS count, a.n +03)----Aggregate: groupBy=[[a.n]], aggr=[[count(Int64(1)) AS count(*)]] 04)------SubqueryAlias: a 05)--------Projection: Int64(5) AS n 06)----------EmptyRelation @@ -577,11 +577,11 @@ logical_plan 11)----------EmptyRelation physical_plan 01)UnionExec -02)--ProjectionExec: expr=[COUNT(*)@1 as count, n@0 as n] -03)----AggregateExec: mode=FinalPartitioned, gby=[n@0 as n], aggr=[COUNT(*)], ordering_mode=Sorted +02)--ProjectionExec: expr=[count(*)@1 as count, n@0 as n] +03)----AggregateExec: mode=FinalPartitioned, gby=[n@0 as n], aggr=[count(*)], ordering_mode=Sorted 04)------CoalesceBatchesExec: target_batch_size=2 05)--------RepartitionExec: partitioning=Hash([n@0], 4), input_partitions=1 -06)----------AggregateExec: mode=Partial, gby=[n@0 as n], aggr=[COUNT(*)], ordering_mode=Sorted +06)----------AggregateExec: mode=Partial, gby=[n@0 as n], aggr=[count(*)], ordering_mode=Sorted 07)------------ProjectionExec: expr=[5 as n] 08)--------------PlaceholderRowExec 09)--ProjectionExec: expr=[1 as count, MAX(Int64(10))@0 as n] diff --git a/datafusion/sqllogictest/test_files/window.slt b/datafusion/sqllogictest/test_files/window.slt index 77b839f3f77a6..d63917a78e421 100644 --- a/datafusion/sqllogictest/test_files/window.slt +++ b/datafusion/sqllogictest/test_files/window.slt @@ -1303,14 +1303,14 @@ EXPLAIN SELECT FROM aggregate_test_100 ---- logical_plan -01)Projection: sum(aggregate_test_100.c4) PARTITION BY [aggregate_test_100.c1, aggregate_test_100.c2] ORDER BY [aggregate_test_100.c2 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING, COUNT(*) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c2 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING -02)--WindowAggr: windowExpr=[[COUNT(Int64(1)) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c2 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING AS COUNT(*) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c2 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING]] +01)Projection: sum(aggregate_test_100.c4) PARTITION BY [aggregate_test_100.c1, aggregate_test_100.c2] ORDER BY [aggregate_test_100.c2 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING, count(*) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c2 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING +02)--WindowAggr: windowExpr=[[count(Int64(1)) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c2 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING AS count(*) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c2 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING]] 03)----Projection: aggregate_test_100.c1, aggregate_test_100.c2, sum(aggregate_test_100.c4) PARTITION BY [aggregate_test_100.c1, aggregate_test_100.c2] ORDER BY [aggregate_test_100.c2 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING 04)------WindowAggr: windowExpr=[[sum(CAST(aggregate_test_100.c4 AS Int64)) PARTITION BY [aggregate_test_100.c1, aggregate_test_100.c2] ORDER BY [aggregate_test_100.c2 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING]] 05)--------TableScan: aggregate_test_100 projection=[c1, c2, c4] physical_plan -01)ProjectionExec: expr=[sum(aggregate_test_100.c4) PARTITION BY [aggregate_test_100.c1, aggregate_test_100.c2] ORDER BY [aggregate_test_100.c2 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING@2 as sum(aggregate_test_100.c4) PARTITION BY [aggregate_test_100.c1, aggregate_test_100.c2] ORDER BY [aggregate_test_100.c2 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING, COUNT(*) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c2 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING@3 as COUNT(*) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c2 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING] -02)--BoundedWindowAggExec: wdw=[COUNT(*) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c2 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING: Ok(Field { name: "COUNT(*) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c2 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING", data_type: Int64, nullable: true, dict_id: 0, dict_is_ordered: false, metadata: {} }), frame: WindowFrame { units: Rows, start_bound: Preceding(UInt64(1)), end_bound: Following(UInt64(1)), is_causal: false }], mode=[Sorted] +01)ProjectionExec: expr=[sum(aggregate_test_100.c4) PARTITION BY [aggregate_test_100.c1, aggregate_test_100.c2] ORDER BY [aggregate_test_100.c2 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING@2 as sum(aggregate_test_100.c4) PARTITION BY [aggregate_test_100.c1, aggregate_test_100.c2] ORDER BY [aggregate_test_100.c2 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING, count(*) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c2 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING@3 as count(*) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c2 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING] +02)--BoundedWindowAggExec: wdw=[count(*) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c2 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING: Ok(Field { name: "count(*) PARTITION BY [aggregate_test_100.c1] ORDER BY [aggregate_test_100.c2 ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING", data_type: Int64, nullable: true, dict_id: 0, dict_is_ordered: false, metadata: {} }), frame: WindowFrame { units: Rows, start_bound: Preceding(UInt64(1)), end_bound: Following(UInt64(1)), is_causal: false }], mode=[Sorted] 03)----SortExec: expr=[c1@0 ASC NULLS LAST,c2@1 ASC NULLS LAST], preserve_partitioning=[true] 04)------CoalesceBatchesExec: target_batch_size=4096 05)--------RepartitionExec: partitioning=Hash([c1@0], 2), input_partitions=2 @@ -1763,8 +1763,8 @@ EXPLAIN SELECT count(*) as global_count FROM ORDER BY c1 ) AS a ---- logical_plan -01)Projection: COUNT(*) AS global_count -02)--Aggregate: groupBy=[[]], aggr=[[COUNT(Int64(1)) AS COUNT(*)]] +01)Projection: count(*) AS global_count +02)--Aggregate: groupBy=[[]], aggr=[[count(Int64(1)) AS count(*)]] 03)----SubqueryAlias: a 04)------Projection: 05)--------Sort: aggregate_test_100.c1 ASC NULLS LAST @@ -1773,10 +1773,10 @@ logical_plan 08)--------------Filter: aggregate_test_100.c13 != Utf8("C2GT5KVyOPZpgKVl110TyZO0NcJ434") 09)----------------TableScan: aggregate_test_100 projection=[c1, c13], partial_filters=[aggregate_test_100.c13 != Utf8("C2GT5KVyOPZpgKVl110TyZO0NcJ434")] physical_plan -01)ProjectionExec: expr=[COUNT(*)@0 as global_count] -02)--AggregateExec: mode=Final, gby=[], aggr=[COUNT(*)] +01)ProjectionExec: expr=[count(*)@0 as global_count] +02)--AggregateExec: mode=Final, gby=[], aggr=[count(*)] 03)----CoalescePartitionsExec -04)------AggregateExec: mode=Partial, gby=[], aggr=[COUNT(*)] +04)------AggregateExec: mode=Partial, gby=[], aggr=[count(*)] 05)--------RepartitionExec: partitioning=RoundRobinBatch(2), input_partitions=2 06)----------ProjectionExec: expr=[] 07)------------AggregateExec: mode=FinalPartitioned, gby=[c1@0 as c1], aggr=[] @@ -2573,22 +2573,22 @@ logical_plan 01)Projection: sum1, sum2, sum3, min1, min2, min3, max1, max2, max3, cnt1, cnt2, sumr1, sumr2, sumr3, minr1, minr2, minr3, maxr1, maxr2, maxr3, cntr1, cntr2, sum4, cnt3 02)--Limit: skip=0, fetch=5 03)----Sort: annotated_data_finite.inc_col DESC NULLS FIRST, fetch=5 -04)------Projection: sum(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN 10 PRECEDING AND 1 FOLLOWING AS sum1, sum(annotated_data_finite.desc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN 5 PRECEDING AND 1 FOLLOWING AS sum2, sum(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 10 FOLLOWING AS sum3, MIN(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN 10 PRECEDING AND 1 FOLLOWING AS min1, MIN(annotated_data_finite.desc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN 5 PRECEDING AND 1 FOLLOWING AS min2, MIN(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 10 FOLLOWING AS min3, MAX(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN 10 PRECEDING AND 1 FOLLOWING AS max1, MAX(annotated_data_finite.desc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN 5 PRECEDING AND 1 FOLLOWING AS max2, MAX(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 10 FOLLOWING AS max3, COUNT(*) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN 4 PRECEDING AND 8 FOLLOWING AS cnt1, COUNT(*) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] ROWS BETWEEN 8 PRECEDING AND 1 FOLLOWING AS cnt2, sum(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 1 PRECEDING AND 4 FOLLOWING AS sumr1, sum(annotated_data_finite.desc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 1 PRECEDING AND 8 FOLLOWING AS sumr2, sum(annotated_data_finite.desc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] ROWS BETWEEN 1 PRECEDING AND 5 FOLLOWING AS sumr3, MIN(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 10 PRECEDING AND 1 FOLLOWING AS minr1, MIN(annotated_data_finite.desc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 5 PRECEDING AND 1 FOLLOWING AS minr2, MIN(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] ROWS BETWEEN 1 PRECEDING AND 10 FOLLOWING AS minr3, MAX(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 10 PRECEDING AND 1 FOLLOWING AS maxr1, MAX(annotated_data_finite.desc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 5 PRECEDING AND 1 FOLLOWING AS maxr2, MAX(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] ROWS BETWEEN 1 PRECEDING AND 10 FOLLOWING AS maxr3, COUNT(*) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 6 PRECEDING AND 2 FOLLOWING AS cntr1, COUNT(*) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] ROWS BETWEEN 8 PRECEDING AND 1 FOLLOWING AS cntr2, sum(annotated_data_finite.desc_col) ROWS BETWEEN 8 PRECEDING AND 1 FOLLOWING AS sum4, COUNT(*) ROWS BETWEEN 8 PRECEDING AND 1 FOLLOWING AS cnt3, annotated_data_finite.inc_col -05)--------WindowAggr: windowExpr=[[sum(__common_expr_1 AS annotated_data_finite.desc_col) ROWS BETWEEN 8 PRECEDING AND 1 FOLLOWING, COUNT(Int64(1)) ROWS BETWEEN 8 PRECEDING AND 1 FOLLOWING AS COUNT(*) ROWS BETWEEN 8 PRECEDING AND 1 FOLLOWING]] -06)----------Projection: __common_expr_1, annotated_data_finite.inc_col, sum(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 1 PRECEDING AND 4 FOLLOWING, sum(annotated_data_finite.desc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 1 PRECEDING AND 8 FOLLOWING, sum(annotated_data_finite.desc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] ROWS BETWEEN 1 PRECEDING AND 5 FOLLOWING, MIN(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 10 PRECEDING AND 1 FOLLOWING, MIN(annotated_data_finite.desc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 5 PRECEDING AND 1 FOLLOWING, MIN(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] ROWS BETWEEN 1 PRECEDING AND 10 FOLLOWING, MAX(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 10 PRECEDING AND 1 FOLLOWING, MAX(annotated_data_finite.desc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 5 PRECEDING AND 1 FOLLOWING, MAX(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] ROWS BETWEEN 1 PRECEDING AND 10 FOLLOWING, COUNT(*) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 6 PRECEDING AND 2 FOLLOWING, COUNT(*) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] ROWS BETWEEN 8 PRECEDING AND 1 FOLLOWING, sum(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN 10 PRECEDING AND 1 FOLLOWING, sum(annotated_data_finite.desc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN 5 PRECEDING AND 1 FOLLOWING, sum(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 10 FOLLOWING, MIN(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN 10 PRECEDING AND 1 FOLLOWING, MIN(annotated_data_finite.desc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN 5 PRECEDING AND 1 FOLLOWING, MIN(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 10 FOLLOWING, MAX(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN 10 PRECEDING AND 1 FOLLOWING, MAX(annotated_data_finite.desc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN 5 PRECEDING AND 1 FOLLOWING, MAX(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 10 FOLLOWING, COUNT(*) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN 4 PRECEDING AND 8 FOLLOWING, COUNT(*) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] ROWS BETWEEN 8 PRECEDING AND 1 FOLLOWING -07)------------WindowAggr: windowExpr=[[sum(__common_expr_2 AS annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN 10 PRECEDING AND 1 FOLLOWING, sum(__common_expr_1 AS annotated_data_finite.desc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN 5 PRECEDING AND 1 FOLLOWING, sum(__common_expr_2 AS annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 10 FOLLOWING, MIN(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN 10 PRECEDING AND 1 FOLLOWING, MIN(annotated_data_finite.desc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN 5 PRECEDING AND 1 FOLLOWING, MIN(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 10 FOLLOWING, MAX(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN 10 PRECEDING AND 1 FOLLOWING, MAX(annotated_data_finite.desc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN 5 PRECEDING AND 1 FOLLOWING, MAX(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 10 FOLLOWING, COUNT(Int64(1)) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN 4 PRECEDING AND 8 FOLLOWING AS COUNT(*) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN 4 PRECEDING AND 8 FOLLOWING, COUNT(Int64(1)) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] ROWS BETWEEN 8 PRECEDING AND 1 FOLLOWING AS COUNT(*) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] ROWS BETWEEN 8 PRECEDING AND 1 FOLLOWING]] -08)--------------WindowAggr: windowExpr=[[sum(__common_expr_2 AS annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 1 PRECEDING AND 4 FOLLOWING, sum(__common_expr_1 AS annotated_data_finite.desc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 1 PRECEDING AND 8 FOLLOWING, sum(__common_expr_1 AS annotated_data_finite.desc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] ROWS BETWEEN 1 PRECEDING AND 5 FOLLOWING, MIN(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 10 PRECEDING AND 1 FOLLOWING, MIN(annotated_data_finite.desc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 5 PRECEDING AND 1 FOLLOWING, MIN(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] ROWS BETWEEN 1 PRECEDING AND 10 FOLLOWING, MAX(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 10 PRECEDING AND 1 FOLLOWING, MAX(annotated_data_finite.desc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 5 PRECEDING AND 1 FOLLOWING, MAX(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] ROWS BETWEEN 1 PRECEDING AND 10 FOLLOWING, COUNT(Int64(1)) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 6 PRECEDING AND 2 FOLLOWING AS COUNT(*) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 6 PRECEDING AND 2 FOLLOWING, COUNT(Int64(1)) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] ROWS BETWEEN 8 PRECEDING AND 1 FOLLOWING AS COUNT(*) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] ROWS BETWEEN 8 PRECEDING AND 1 FOLLOWING]] +04)------Projection: sum(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN 10 PRECEDING AND 1 FOLLOWING AS sum1, sum(annotated_data_finite.desc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN 5 PRECEDING AND 1 FOLLOWING AS sum2, sum(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 10 FOLLOWING AS sum3, MIN(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN 10 PRECEDING AND 1 FOLLOWING AS min1, MIN(annotated_data_finite.desc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN 5 PRECEDING AND 1 FOLLOWING AS min2, MIN(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 10 FOLLOWING AS min3, MAX(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN 10 PRECEDING AND 1 FOLLOWING AS max1, MAX(annotated_data_finite.desc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN 5 PRECEDING AND 1 FOLLOWING AS max2, MAX(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 10 FOLLOWING AS max3, count(*) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN 4 PRECEDING AND 8 FOLLOWING AS cnt1, count(*) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] ROWS BETWEEN 8 PRECEDING AND 1 FOLLOWING AS cnt2, sum(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 1 PRECEDING AND 4 FOLLOWING AS sumr1, sum(annotated_data_finite.desc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 1 PRECEDING AND 8 FOLLOWING AS sumr2, sum(annotated_data_finite.desc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] ROWS BETWEEN 1 PRECEDING AND 5 FOLLOWING AS sumr3, MIN(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 10 PRECEDING AND 1 FOLLOWING AS minr1, MIN(annotated_data_finite.desc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 5 PRECEDING AND 1 FOLLOWING AS minr2, MIN(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] ROWS BETWEEN 1 PRECEDING AND 10 FOLLOWING AS minr3, MAX(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 10 PRECEDING AND 1 FOLLOWING AS maxr1, MAX(annotated_data_finite.desc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 5 PRECEDING AND 1 FOLLOWING AS maxr2, MAX(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] ROWS BETWEEN 1 PRECEDING AND 10 FOLLOWING AS maxr3, count(*) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 6 PRECEDING AND 2 FOLLOWING AS cntr1, count(*) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] ROWS BETWEEN 8 PRECEDING AND 1 FOLLOWING AS cntr2, sum(annotated_data_finite.desc_col) ROWS BETWEEN 8 PRECEDING AND 1 FOLLOWING AS sum4, count(*) ROWS BETWEEN 8 PRECEDING AND 1 FOLLOWING AS cnt3, annotated_data_finite.inc_col +05)--------WindowAggr: windowExpr=[[sum(__common_expr_1 AS annotated_data_finite.desc_col) ROWS BETWEEN 8 PRECEDING AND 1 FOLLOWING, count(Int64(1)) ROWS BETWEEN 8 PRECEDING AND 1 FOLLOWING AS count(*) ROWS BETWEEN 8 PRECEDING AND 1 FOLLOWING]] +06)----------Projection: __common_expr_1, annotated_data_finite.inc_col, sum(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 1 PRECEDING AND 4 FOLLOWING, sum(annotated_data_finite.desc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 1 PRECEDING AND 8 FOLLOWING, sum(annotated_data_finite.desc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] ROWS BETWEEN 1 PRECEDING AND 5 FOLLOWING, MIN(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 10 PRECEDING AND 1 FOLLOWING, MIN(annotated_data_finite.desc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 5 PRECEDING AND 1 FOLLOWING, MIN(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] ROWS BETWEEN 1 PRECEDING AND 10 FOLLOWING, MAX(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 10 PRECEDING AND 1 FOLLOWING, MAX(annotated_data_finite.desc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 5 PRECEDING AND 1 FOLLOWING, MAX(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] ROWS BETWEEN 1 PRECEDING AND 10 FOLLOWING, count(*) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 6 PRECEDING AND 2 FOLLOWING, count(*) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] ROWS BETWEEN 8 PRECEDING AND 1 FOLLOWING, sum(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN 10 PRECEDING AND 1 FOLLOWING, sum(annotated_data_finite.desc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN 5 PRECEDING AND 1 FOLLOWING, sum(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 10 FOLLOWING, MIN(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN 10 PRECEDING AND 1 FOLLOWING, MIN(annotated_data_finite.desc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN 5 PRECEDING AND 1 FOLLOWING, MIN(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 10 FOLLOWING, MAX(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN 10 PRECEDING AND 1 FOLLOWING, MAX(annotated_data_finite.desc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN 5 PRECEDING AND 1 FOLLOWING, MAX(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 10 FOLLOWING, count(*) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN 4 PRECEDING AND 8 FOLLOWING, count(*) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] ROWS BETWEEN 8 PRECEDING AND 1 FOLLOWING +07)------------WindowAggr: windowExpr=[[sum(__common_expr_2 AS annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN 10 PRECEDING AND 1 FOLLOWING, sum(__common_expr_1 AS annotated_data_finite.desc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN 5 PRECEDING AND 1 FOLLOWING, sum(__common_expr_2 AS annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 10 FOLLOWING, MIN(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN 10 PRECEDING AND 1 FOLLOWING, MIN(annotated_data_finite.desc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN 5 PRECEDING AND 1 FOLLOWING, MIN(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 10 FOLLOWING, MAX(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN 10 PRECEDING AND 1 FOLLOWING, MAX(annotated_data_finite.desc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN 5 PRECEDING AND 1 FOLLOWING, MAX(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 10 FOLLOWING, count(Int64(1)) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN 4 PRECEDING AND 8 FOLLOWING AS count(*) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN 4 PRECEDING AND 8 FOLLOWING, count(Int64(1)) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] ROWS BETWEEN 8 PRECEDING AND 1 FOLLOWING AS count(*) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] ROWS BETWEEN 8 PRECEDING AND 1 FOLLOWING]] +08)--------------WindowAggr: windowExpr=[[sum(__common_expr_2 AS annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 1 PRECEDING AND 4 FOLLOWING, sum(__common_expr_1 AS annotated_data_finite.desc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 1 PRECEDING AND 8 FOLLOWING, sum(__common_expr_1 AS annotated_data_finite.desc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] ROWS BETWEEN 1 PRECEDING AND 5 FOLLOWING, MIN(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 10 PRECEDING AND 1 FOLLOWING, MIN(annotated_data_finite.desc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 5 PRECEDING AND 1 FOLLOWING, MIN(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] ROWS BETWEEN 1 PRECEDING AND 10 FOLLOWING, MAX(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 10 PRECEDING AND 1 FOLLOWING, MAX(annotated_data_finite.desc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 5 PRECEDING AND 1 FOLLOWING, MAX(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] ROWS BETWEEN 1 PRECEDING AND 10 FOLLOWING, count(Int64(1)) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 6 PRECEDING AND 2 FOLLOWING AS count(*) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 6 PRECEDING AND 2 FOLLOWING, count(Int64(1)) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] ROWS BETWEEN 8 PRECEDING AND 1 FOLLOWING AS count(*) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] ROWS BETWEEN 8 PRECEDING AND 1 FOLLOWING]] 09)----------------Projection: CAST(annotated_data_finite.desc_col AS Int64) AS __common_expr_1, CAST(annotated_data_finite.inc_col AS Int64) AS __common_expr_2, annotated_data_finite.ts, annotated_data_finite.inc_col, annotated_data_finite.desc_col 10)------------------TableScan: annotated_data_finite projection=[ts, inc_col, desc_col] physical_plan 01)ProjectionExec: expr=[sum1@0 as sum1, sum2@1 as sum2, sum3@2 as sum3, min1@3 as min1, min2@4 as min2, min3@5 as min3, max1@6 as max1, max2@7 as max2, max3@8 as max3, cnt1@9 as cnt1, cnt2@10 as cnt2, sumr1@11 as sumr1, sumr2@12 as sumr2, sumr3@13 as sumr3, minr1@14 as minr1, minr2@15 as minr2, minr3@16 as minr3, maxr1@17 as maxr1, maxr2@18 as maxr2, maxr3@19 as maxr3, cntr1@20 as cntr1, cntr2@21 as cntr2, sum4@22 as sum4, cnt3@23 as cnt3] 02)--GlobalLimitExec: skip=0, fetch=5 03)----SortExec: TopK(fetch=5), expr=[inc_col@24 DESC], preserve_partitioning=[false] -04)------ProjectionExec: expr=[sum(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN 10 PRECEDING AND 1 FOLLOWING@13 as sum1, sum(annotated_data_finite.desc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN 5 PRECEDING AND 1 FOLLOWING@14 as sum2, sum(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 10 FOLLOWING@15 as sum3, MIN(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN 10 PRECEDING AND 1 FOLLOWING@16 as min1, MIN(annotated_data_finite.desc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN 5 PRECEDING AND 1 FOLLOWING@17 as min2, MIN(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 10 FOLLOWING@18 as min3, MAX(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN 10 PRECEDING AND 1 FOLLOWING@19 as max1, MAX(annotated_data_finite.desc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN 5 PRECEDING AND 1 FOLLOWING@20 as max2, MAX(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 10 FOLLOWING@21 as max3, COUNT(*) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN 4 PRECEDING AND 8 FOLLOWING@22 as cnt1, COUNT(*) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] ROWS BETWEEN 8 PRECEDING AND 1 FOLLOWING@23 as cnt2, sum(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 1 PRECEDING AND 4 FOLLOWING@2 as sumr1, sum(annotated_data_finite.desc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 1 PRECEDING AND 8 FOLLOWING@3 as sumr2, sum(annotated_data_finite.desc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] ROWS BETWEEN 1 PRECEDING AND 5 FOLLOWING@4 as sumr3, MIN(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 10 PRECEDING AND 1 FOLLOWING@5 as minr1, MIN(annotated_data_finite.desc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 5 PRECEDING AND 1 FOLLOWING@6 as minr2, MIN(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] ROWS BETWEEN 1 PRECEDING AND 10 FOLLOWING@7 as minr3, MAX(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 10 PRECEDING AND 1 FOLLOWING@8 as maxr1, MAX(annotated_data_finite.desc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 5 PRECEDING AND 1 FOLLOWING@9 as maxr2, MAX(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] ROWS BETWEEN 1 PRECEDING AND 10 FOLLOWING@10 as maxr3, COUNT(*) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 6 PRECEDING AND 2 FOLLOWING@11 as cntr1, COUNT(*) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] ROWS BETWEEN 8 PRECEDING AND 1 FOLLOWING@12 as cntr2, sum(annotated_data_finite.desc_col) ROWS BETWEEN 8 PRECEDING AND 1 FOLLOWING@24 as sum4, COUNT(*) ROWS BETWEEN 8 PRECEDING AND 1 FOLLOWING@25 as cnt3, inc_col@1 as inc_col] -05)--------BoundedWindowAggExec: wdw=[sum(annotated_data_finite.desc_col) ROWS BETWEEN 8 PRECEDING AND 1 FOLLOWING: Ok(Field { name: "sum(annotated_data_finite.desc_col) ROWS BETWEEN 8 PRECEDING AND 1 FOLLOWING", data_type: Int64, nullable: true, dict_id: 0, dict_is_ordered: false, metadata: {} }), frame: WindowFrame { units: Rows, start_bound: Preceding(UInt64(8)), end_bound: Following(UInt64(1)), is_causal: false }, COUNT(*) ROWS BETWEEN 8 PRECEDING AND 1 FOLLOWING: Ok(Field { name: "COUNT(*) ROWS BETWEEN 8 PRECEDING AND 1 FOLLOWING", data_type: Int64, nullable: true, dict_id: 0, dict_is_ordered: false, metadata: {} }), frame: WindowFrame { units: Rows, start_bound: Preceding(UInt64(8)), end_bound: Following(UInt64(1)), is_causal: false }], mode=[Sorted] -06)----------ProjectionExec: expr=[__common_expr_1@0 as __common_expr_1, inc_col@3 as inc_col, sum(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 1 PRECEDING AND 4 FOLLOWING@5 as sum(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 1 PRECEDING AND 4 FOLLOWING, sum(annotated_data_finite.desc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 1 PRECEDING AND 8 FOLLOWING@6 as sum(annotated_data_finite.desc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 1 PRECEDING AND 8 FOLLOWING, sum(annotated_data_finite.desc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] ROWS BETWEEN 1 PRECEDING AND 5 FOLLOWING@7 as sum(annotated_data_finite.desc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] ROWS BETWEEN 1 PRECEDING AND 5 FOLLOWING, MIN(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 10 PRECEDING AND 1 FOLLOWING@8 as MIN(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 10 PRECEDING AND 1 FOLLOWING, MIN(annotated_data_finite.desc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 5 PRECEDING AND 1 FOLLOWING@9 as MIN(annotated_data_finite.desc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 5 PRECEDING AND 1 FOLLOWING, MIN(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] ROWS BETWEEN 1 PRECEDING AND 10 FOLLOWING@10 as MIN(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] ROWS BETWEEN 1 PRECEDING AND 10 FOLLOWING, MAX(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 10 PRECEDING AND 1 FOLLOWING@11 as MAX(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 10 PRECEDING AND 1 FOLLOWING, MAX(annotated_data_finite.desc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 5 PRECEDING AND 1 FOLLOWING@12 as MAX(annotated_data_finite.desc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 5 PRECEDING AND 1 FOLLOWING, MAX(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] ROWS BETWEEN 1 PRECEDING AND 10 FOLLOWING@13 as MAX(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] ROWS BETWEEN 1 PRECEDING AND 10 FOLLOWING, COUNT(*) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 6 PRECEDING AND 2 FOLLOWING@14 as COUNT(*) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 6 PRECEDING AND 2 FOLLOWING, COUNT(*) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] ROWS BETWEEN 8 PRECEDING AND 1 FOLLOWING@15 as COUNT(*) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] ROWS BETWEEN 8 PRECEDING AND 1 FOLLOWING, sum(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN 10 PRECEDING AND 1 FOLLOWING@16 as sum(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN 10 PRECEDING AND 1 FOLLOWING, sum(annotated_data_finite.desc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN 5 PRECEDING AND 1 FOLLOWING@17 as sum(annotated_data_finite.desc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN 5 PRECEDING AND 1 FOLLOWING, sum(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 10 FOLLOWING@18 as sum(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 10 FOLLOWING, MIN(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN 10 PRECEDING AND 1 FOLLOWING@19 as MIN(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN 10 PRECEDING AND 1 FOLLOWING, MIN(annotated_data_finite.desc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN 5 PRECEDING AND 1 FOLLOWING@20 as MIN(annotated_data_finite.desc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN 5 PRECEDING AND 1 FOLLOWING, MIN(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 10 FOLLOWING@21 as MIN(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 10 FOLLOWING, MAX(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN 10 PRECEDING AND 1 FOLLOWING@22 as MAX(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN 10 PRECEDING AND 1 FOLLOWING, MAX(annotated_data_finite.desc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN 5 PRECEDING AND 1 FOLLOWING@23 as MAX(annotated_data_finite.desc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN 5 PRECEDING AND 1 FOLLOWING, MAX(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 10 FOLLOWING@24 as MAX(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 10 FOLLOWING, COUNT(*) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN 4 PRECEDING AND 8 FOLLOWING@25 as COUNT(*) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN 4 PRECEDING AND 8 FOLLOWING, COUNT(*) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] ROWS BETWEEN 8 PRECEDING AND 1 FOLLOWING@26 as COUNT(*) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] ROWS BETWEEN 8 PRECEDING AND 1 FOLLOWING] -07)------------BoundedWindowAggExec: wdw=[sum(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN 10 PRECEDING AND 1 FOLLOWING: Ok(Field { name: "sum(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN 10 PRECEDING AND 1 FOLLOWING", data_type: Int64, nullable: true, dict_id: 0, dict_is_ordered: false, metadata: {} }), frame: WindowFrame { units: Range, start_bound: Preceding(Int32(10)), end_bound: Following(Int32(1)), is_causal: false }, sum(annotated_data_finite.desc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN 5 PRECEDING AND 1 FOLLOWING: Ok(Field { name: "sum(annotated_data_finite.desc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN 5 PRECEDING AND 1 FOLLOWING", data_type: Int64, nullable: true, dict_id: 0, dict_is_ordered: false, metadata: {} }), frame: WindowFrame { units: Range, start_bound: Preceding(Int32(5)), end_bound: Following(Int32(1)), is_causal: false }, sum(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 10 FOLLOWING: Ok(Field { name: "sum(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 10 FOLLOWING", data_type: Int64, nullable: true, dict_id: 0, dict_is_ordered: false, metadata: {} }), frame: WindowFrame { units: Rows, start_bound: Preceding(UInt64(1)), end_bound: Following(UInt64(10)), is_causal: false }, MIN(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN 10 PRECEDING AND 1 FOLLOWING: Ok(Field { name: "MIN(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN 10 PRECEDING AND 1 FOLLOWING", data_type: Int32, nullable: true, dict_id: 0, dict_is_ordered: false, metadata: {} }), frame: WindowFrame { units: Range, start_bound: Preceding(Int32(10)), end_bound: Following(Int32(1)), is_causal: false }, MIN(annotated_data_finite.desc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN 5 PRECEDING AND 1 FOLLOWING: Ok(Field { name: "MIN(annotated_data_finite.desc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN 5 PRECEDING AND 1 FOLLOWING", data_type: Int32, nullable: true, dict_id: 0, dict_is_ordered: false, metadata: {} }), frame: WindowFrame { units: Range, start_bound: Preceding(Int32(5)), end_bound: Following(Int32(1)), is_causal: false }, MIN(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 10 FOLLOWING: Ok(Field { name: "MIN(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 10 FOLLOWING", data_type: Int32, nullable: true, dict_id: 0, dict_is_ordered: false, metadata: {} }), frame: WindowFrame { units: Rows, start_bound: Preceding(UInt64(1)), end_bound: Following(UInt64(10)), is_causal: false }, MAX(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN 10 PRECEDING AND 1 FOLLOWING: Ok(Field { name: "MAX(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN 10 PRECEDING AND 1 FOLLOWING", data_type: Int32, nullable: true, dict_id: 0, dict_is_ordered: false, metadata: {} }), frame: WindowFrame { units: Range, start_bound: Preceding(Int32(10)), end_bound: Following(Int32(1)), is_causal: false }, MAX(annotated_data_finite.desc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN 5 PRECEDING AND 1 FOLLOWING: Ok(Field { name: "MAX(annotated_data_finite.desc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN 5 PRECEDING AND 1 FOLLOWING", data_type: Int32, nullable: true, dict_id: 0, dict_is_ordered: false, metadata: {} }), frame: WindowFrame { units: Range, start_bound: Preceding(Int32(5)), end_bound: Following(Int32(1)), is_causal: false }, MAX(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 10 FOLLOWING: Ok(Field { name: "MAX(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 10 FOLLOWING", data_type: Int32, nullable: true, dict_id: 0, dict_is_ordered: false, metadata: {} }), frame: WindowFrame { units: Rows, start_bound: Preceding(UInt64(1)), end_bound: Following(UInt64(10)), is_causal: false }, COUNT(*) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN 4 PRECEDING AND 8 FOLLOWING: Ok(Field { name: "COUNT(*) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN 4 PRECEDING AND 8 FOLLOWING", data_type: Int64, nullable: true, dict_id: 0, dict_is_ordered: false, metadata: {} }), frame: WindowFrame { units: Range, start_bound: Preceding(Int32(4)), end_bound: Following(Int32(8)), is_causal: false }, COUNT(*) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] ROWS BETWEEN 8 PRECEDING AND 1 FOLLOWING: Ok(Field { name: "COUNT(*) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] ROWS BETWEEN 8 PRECEDING AND 1 FOLLOWING", data_type: Int64, nullable: true, dict_id: 0, dict_is_ordered: false, metadata: {} }), frame: WindowFrame { units: Rows, start_bound: Preceding(UInt64(8)), end_bound: Following(UInt64(1)), is_causal: false }], mode=[Sorted] -08)--------------BoundedWindowAggExec: wdw=[sum(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 1 PRECEDING AND 4 FOLLOWING: Ok(Field { name: "sum(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 1 PRECEDING AND 4 FOLLOWING", data_type: Int64, nullable: true, dict_id: 0, dict_is_ordered: false, metadata: {} }), frame: WindowFrame { units: Range, start_bound: Preceding(Int32(4)), end_bound: Following(Int32(1)), is_causal: false }, sum(annotated_data_finite.desc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 1 PRECEDING AND 8 FOLLOWING: Ok(Field { name: "sum(annotated_data_finite.desc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 1 PRECEDING AND 8 FOLLOWING", data_type: Int64, nullable: true, dict_id: 0, dict_is_ordered: false, metadata: {} }), frame: WindowFrame { units: Range, start_bound: Preceding(Int32(8)), end_bound: Following(Int32(1)), is_causal: false }, sum(annotated_data_finite.desc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] ROWS BETWEEN 1 PRECEDING AND 5 FOLLOWING: Ok(Field { name: "sum(annotated_data_finite.desc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] ROWS BETWEEN 1 PRECEDING AND 5 FOLLOWING", data_type: Int64, nullable: true, dict_id: 0, dict_is_ordered: false, metadata: {} }), frame: WindowFrame { units: Rows, start_bound: Preceding(UInt64(5)), end_bound: Following(UInt64(1)), is_causal: false }, MIN(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 10 PRECEDING AND 1 FOLLOWING: Ok(Field { name: "MIN(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 10 PRECEDING AND 1 FOLLOWING", data_type: Int32, nullable: true, dict_id: 0, dict_is_ordered: false, metadata: {} }), frame: WindowFrame { units: Range, start_bound: Preceding(Int32(1)), end_bound: Following(Int32(10)), is_causal: false }, MIN(annotated_data_finite.desc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 5 PRECEDING AND 1 FOLLOWING: Ok(Field { name: "MIN(annotated_data_finite.desc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 5 PRECEDING AND 1 FOLLOWING", data_type: Int32, nullable: true, dict_id: 0, dict_is_ordered: false, metadata: {} }), frame: WindowFrame { units: Range, start_bound: Preceding(Int32(1)), end_bound: Following(Int32(5)), is_causal: false }, MIN(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] ROWS BETWEEN 1 PRECEDING AND 10 FOLLOWING: Ok(Field { name: "MIN(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] ROWS BETWEEN 1 PRECEDING AND 10 FOLLOWING", data_type: Int32, nullable: true, dict_id: 0, dict_is_ordered: false, metadata: {} }), frame: WindowFrame { units: Rows, start_bound: Preceding(UInt64(10)), end_bound: Following(UInt64(1)), is_causal: false }, MAX(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 10 PRECEDING AND 1 FOLLOWING: Ok(Field { name: "MAX(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 10 PRECEDING AND 1 FOLLOWING", data_type: Int32, nullable: true, dict_id: 0, dict_is_ordered: false, metadata: {} }), frame: WindowFrame { units: Range, start_bound: Preceding(Int32(1)), end_bound: Following(Int32(10)), is_causal: false }, MAX(annotated_data_finite.desc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 5 PRECEDING AND 1 FOLLOWING: Ok(Field { name: "MAX(annotated_data_finite.desc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 5 PRECEDING AND 1 FOLLOWING", data_type: Int32, nullable: true, dict_id: 0, dict_is_ordered: false, metadata: {} }), frame: WindowFrame { units: Range, start_bound: Preceding(Int32(1)), end_bound: Following(Int32(5)), is_causal: false }, MAX(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] ROWS BETWEEN 1 PRECEDING AND 10 FOLLOWING: Ok(Field { name: "MAX(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] ROWS BETWEEN 1 PRECEDING AND 10 FOLLOWING", data_type: Int32, nullable: true, dict_id: 0, dict_is_ordered: false, metadata: {} }), frame: WindowFrame { units: Rows, start_bound: Preceding(UInt64(10)), end_bound: Following(UInt64(1)), is_causal: false }, COUNT(*) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 6 PRECEDING AND 2 FOLLOWING: Ok(Field { name: "COUNT(*) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 6 PRECEDING AND 2 FOLLOWING", data_type: Int64, nullable: true, dict_id: 0, dict_is_ordered: false, metadata: {} }), frame: WindowFrame { units: Range, start_bound: Preceding(Int32(2)), end_bound: Following(Int32(6)), is_causal: false }, COUNT(*) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] ROWS BETWEEN 8 PRECEDING AND 1 FOLLOWING: Ok(Field { name: "COUNT(*) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] ROWS BETWEEN 8 PRECEDING AND 1 FOLLOWING", data_type: Int64, nullable: true, dict_id: 0, dict_is_ordered: false, metadata: {} }), frame: WindowFrame { units: Rows, start_bound: Preceding(UInt64(1)), end_bound: Following(UInt64(8)), is_causal: false }], mode=[Sorted] +04)------ProjectionExec: expr=[sum(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN 10 PRECEDING AND 1 FOLLOWING@13 as sum1, sum(annotated_data_finite.desc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN 5 PRECEDING AND 1 FOLLOWING@14 as sum2, sum(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 10 FOLLOWING@15 as sum3, MIN(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN 10 PRECEDING AND 1 FOLLOWING@16 as min1, MIN(annotated_data_finite.desc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN 5 PRECEDING AND 1 FOLLOWING@17 as min2, MIN(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 10 FOLLOWING@18 as min3, MAX(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN 10 PRECEDING AND 1 FOLLOWING@19 as max1, MAX(annotated_data_finite.desc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN 5 PRECEDING AND 1 FOLLOWING@20 as max2, MAX(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 10 FOLLOWING@21 as max3, count(*) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN 4 PRECEDING AND 8 FOLLOWING@22 as cnt1, count(*) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] ROWS BETWEEN 8 PRECEDING AND 1 FOLLOWING@23 as cnt2, sum(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 1 PRECEDING AND 4 FOLLOWING@2 as sumr1, sum(annotated_data_finite.desc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 1 PRECEDING AND 8 FOLLOWING@3 as sumr2, sum(annotated_data_finite.desc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] ROWS BETWEEN 1 PRECEDING AND 5 FOLLOWING@4 as sumr3, MIN(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 10 PRECEDING AND 1 FOLLOWING@5 as minr1, MIN(annotated_data_finite.desc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 5 PRECEDING AND 1 FOLLOWING@6 as minr2, MIN(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] ROWS BETWEEN 1 PRECEDING AND 10 FOLLOWING@7 as minr3, MAX(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 10 PRECEDING AND 1 FOLLOWING@8 as maxr1, MAX(annotated_data_finite.desc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 5 PRECEDING AND 1 FOLLOWING@9 as maxr2, MAX(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] ROWS BETWEEN 1 PRECEDING AND 10 FOLLOWING@10 as maxr3, count(*) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 6 PRECEDING AND 2 FOLLOWING@11 as cntr1, count(*) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] ROWS BETWEEN 8 PRECEDING AND 1 FOLLOWING@12 as cntr2, sum(annotated_data_finite.desc_col) ROWS BETWEEN 8 PRECEDING AND 1 FOLLOWING@24 as sum4, count(*) ROWS BETWEEN 8 PRECEDING AND 1 FOLLOWING@25 as cnt3, inc_col@1 as inc_col] +05)--------BoundedWindowAggExec: wdw=[sum(annotated_data_finite.desc_col) ROWS BETWEEN 8 PRECEDING AND 1 FOLLOWING: Ok(Field { name: "sum(annotated_data_finite.desc_col) ROWS BETWEEN 8 PRECEDING AND 1 FOLLOWING", data_type: Int64, nullable: true, dict_id: 0, dict_is_ordered: false, metadata: {} }), frame: WindowFrame { units: Rows, start_bound: Preceding(UInt64(8)), end_bound: Following(UInt64(1)), is_causal: false }, count(*) ROWS BETWEEN 8 PRECEDING AND 1 FOLLOWING: Ok(Field { name: "count(*) ROWS BETWEEN 8 PRECEDING AND 1 FOLLOWING", data_type: Int64, nullable: true, dict_id: 0, dict_is_ordered: false, metadata: {} }), frame: WindowFrame { units: Rows, start_bound: Preceding(UInt64(8)), end_bound: Following(UInt64(1)), is_causal: false }], mode=[Sorted] +06)----------ProjectionExec: expr=[__common_expr_1@0 as __common_expr_1, inc_col@3 as inc_col, sum(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 1 PRECEDING AND 4 FOLLOWING@5 as sum(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 1 PRECEDING AND 4 FOLLOWING, sum(annotated_data_finite.desc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 1 PRECEDING AND 8 FOLLOWING@6 as sum(annotated_data_finite.desc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 1 PRECEDING AND 8 FOLLOWING, sum(annotated_data_finite.desc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] ROWS BETWEEN 1 PRECEDING AND 5 FOLLOWING@7 as sum(annotated_data_finite.desc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] ROWS BETWEEN 1 PRECEDING AND 5 FOLLOWING, MIN(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 10 PRECEDING AND 1 FOLLOWING@8 as MIN(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 10 PRECEDING AND 1 FOLLOWING, MIN(annotated_data_finite.desc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 5 PRECEDING AND 1 FOLLOWING@9 as MIN(annotated_data_finite.desc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 5 PRECEDING AND 1 FOLLOWING, MIN(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] ROWS BETWEEN 1 PRECEDING AND 10 FOLLOWING@10 as MIN(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] ROWS BETWEEN 1 PRECEDING AND 10 FOLLOWING, MAX(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 10 PRECEDING AND 1 FOLLOWING@11 as MAX(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 10 PRECEDING AND 1 FOLLOWING, MAX(annotated_data_finite.desc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 5 PRECEDING AND 1 FOLLOWING@12 as MAX(annotated_data_finite.desc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 5 PRECEDING AND 1 FOLLOWING, MAX(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] ROWS BETWEEN 1 PRECEDING AND 10 FOLLOWING@13 as MAX(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] ROWS BETWEEN 1 PRECEDING AND 10 FOLLOWING, count(*) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 6 PRECEDING AND 2 FOLLOWING@14 as count(*) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 6 PRECEDING AND 2 FOLLOWING, count(*) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] ROWS BETWEEN 8 PRECEDING AND 1 FOLLOWING@15 as count(*) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] ROWS BETWEEN 8 PRECEDING AND 1 FOLLOWING, sum(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN 10 PRECEDING AND 1 FOLLOWING@16 as sum(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN 10 PRECEDING AND 1 FOLLOWING, sum(annotated_data_finite.desc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN 5 PRECEDING AND 1 FOLLOWING@17 as sum(annotated_data_finite.desc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN 5 PRECEDING AND 1 FOLLOWING, sum(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 10 FOLLOWING@18 as sum(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 10 FOLLOWING, MIN(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN 10 PRECEDING AND 1 FOLLOWING@19 as MIN(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN 10 PRECEDING AND 1 FOLLOWING, MIN(annotated_data_finite.desc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN 5 PRECEDING AND 1 FOLLOWING@20 as MIN(annotated_data_finite.desc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN 5 PRECEDING AND 1 FOLLOWING, MIN(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 10 FOLLOWING@21 as MIN(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 10 FOLLOWING, MAX(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN 10 PRECEDING AND 1 FOLLOWING@22 as MAX(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN 10 PRECEDING AND 1 FOLLOWING, MAX(annotated_data_finite.desc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN 5 PRECEDING AND 1 FOLLOWING@23 as MAX(annotated_data_finite.desc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN 5 PRECEDING AND 1 FOLLOWING, MAX(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 10 FOLLOWING@24 as MAX(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 10 FOLLOWING, count(*) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN 4 PRECEDING AND 8 FOLLOWING@25 as count(*) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN 4 PRECEDING AND 8 FOLLOWING, count(*) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] ROWS BETWEEN 8 PRECEDING AND 1 FOLLOWING@26 as count(*) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] ROWS BETWEEN 8 PRECEDING AND 1 FOLLOWING] +07)------------BoundedWindowAggExec: wdw=[sum(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN 10 PRECEDING AND 1 FOLLOWING: Ok(Field { name: "sum(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN 10 PRECEDING AND 1 FOLLOWING", data_type: Int64, nullable: true, dict_id: 0, dict_is_ordered: false, metadata: {} }), frame: WindowFrame { units: Range, start_bound: Preceding(Int32(10)), end_bound: Following(Int32(1)), is_causal: false }, sum(annotated_data_finite.desc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN 5 PRECEDING AND 1 FOLLOWING: Ok(Field { name: "sum(annotated_data_finite.desc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN 5 PRECEDING AND 1 FOLLOWING", data_type: Int64, nullable: true, dict_id: 0, dict_is_ordered: false, metadata: {} }), frame: WindowFrame { units: Range, start_bound: Preceding(Int32(5)), end_bound: Following(Int32(1)), is_causal: false }, sum(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 10 FOLLOWING: Ok(Field { name: "sum(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 10 FOLLOWING", data_type: Int64, nullable: true, dict_id: 0, dict_is_ordered: false, metadata: {} }), frame: WindowFrame { units: Rows, start_bound: Preceding(UInt64(1)), end_bound: Following(UInt64(10)), is_causal: false }, MIN(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN 10 PRECEDING AND 1 FOLLOWING: Ok(Field { name: "MIN(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN 10 PRECEDING AND 1 FOLLOWING", data_type: Int32, nullable: true, dict_id: 0, dict_is_ordered: false, metadata: {} }), frame: WindowFrame { units: Range, start_bound: Preceding(Int32(10)), end_bound: Following(Int32(1)), is_causal: false }, MIN(annotated_data_finite.desc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN 5 PRECEDING AND 1 FOLLOWING: Ok(Field { name: "MIN(annotated_data_finite.desc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN 5 PRECEDING AND 1 FOLLOWING", data_type: Int32, nullable: true, dict_id: 0, dict_is_ordered: false, metadata: {} }), frame: WindowFrame { units: Range, start_bound: Preceding(Int32(5)), end_bound: Following(Int32(1)), is_causal: false }, MIN(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 10 FOLLOWING: Ok(Field { name: "MIN(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 10 FOLLOWING", data_type: Int32, nullable: true, dict_id: 0, dict_is_ordered: false, metadata: {} }), frame: WindowFrame { units: Rows, start_bound: Preceding(UInt64(1)), end_bound: Following(UInt64(10)), is_causal: false }, MAX(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN 10 PRECEDING AND 1 FOLLOWING: Ok(Field { name: "MAX(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN 10 PRECEDING AND 1 FOLLOWING", data_type: Int32, nullable: true, dict_id: 0, dict_is_ordered: false, metadata: {} }), frame: WindowFrame { units: Range, start_bound: Preceding(Int32(10)), end_bound: Following(Int32(1)), is_causal: false }, MAX(annotated_data_finite.desc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN 5 PRECEDING AND 1 FOLLOWING: Ok(Field { name: "MAX(annotated_data_finite.desc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN 5 PRECEDING AND 1 FOLLOWING", data_type: Int32, nullable: true, dict_id: 0, dict_is_ordered: false, metadata: {} }), frame: WindowFrame { units: Range, start_bound: Preceding(Int32(5)), end_bound: Following(Int32(1)), is_causal: false }, MAX(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 10 FOLLOWING: Ok(Field { name: "MAX(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] ROWS BETWEEN 1 PRECEDING AND 10 FOLLOWING", data_type: Int32, nullable: true, dict_id: 0, dict_is_ordered: false, metadata: {} }), frame: WindowFrame { units: Rows, start_bound: Preceding(UInt64(1)), end_bound: Following(UInt64(10)), is_causal: false }, count(*) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN 4 PRECEDING AND 8 FOLLOWING: Ok(Field { name: "count(*) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN 4 PRECEDING AND 8 FOLLOWING", data_type: Int64, nullable: true, dict_id: 0, dict_is_ordered: false, metadata: {} }), frame: WindowFrame { units: Range, start_bound: Preceding(Int32(4)), end_bound: Following(Int32(8)), is_causal: false }, count(*) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] ROWS BETWEEN 8 PRECEDING AND 1 FOLLOWING: Ok(Field { name: "count(*) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] ROWS BETWEEN 8 PRECEDING AND 1 FOLLOWING", data_type: Int64, nullable: true, dict_id: 0, dict_is_ordered: false, metadata: {} }), frame: WindowFrame { units: Rows, start_bound: Preceding(UInt64(8)), end_bound: Following(UInt64(1)), is_causal: false }], mode=[Sorted] +08)--------------BoundedWindowAggExec: wdw=[sum(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 1 PRECEDING AND 4 FOLLOWING: Ok(Field { name: "sum(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 1 PRECEDING AND 4 FOLLOWING", data_type: Int64, nullable: true, dict_id: 0, dict_is_ordered: false, metadata: {} }), frame: WindowFrame { units: Range, start_bound: Preceding(Int32(4)), end_bound: Following(Int32(1)), is_causal: false }, sum(annotated_data_finite.desc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 1 PRECEDING AND 8 FOLLOWING: Ok(Field { name: "sum(annotated_data_finite.desc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 1 PRECEDING AND 8 FOLLOWING", data_type: Int64, nullable: true, dict_id: 0, dict_is_ordered: false, metadata: {} }), frame: WindowFrame { units: Range, start_bound: Preceding(Int32(8)), end_bound: Following(Int32(1)), is_causal: false }, sum(annotated_data_finite.desc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] ROWS BETWEEN 1 PRECEDING AND 5 FOLLOWING: Ok(Field { name: "sum(annotated_data_finite.desc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] ROWS BETWEEN 1 PRECEDING AND 5 FOLLOWING", data_type: Int64, nullable: true, dict_id: 0, dict_is_ordered: false, metadata: {} }), frame: WindowFrame { units: Rows, start_bound: Preceding(UInt64(5)), end_bound: Following(UInt64(1)), is_causal: false }, MIN(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 10 PRECEDING AND 1 FOLLOWING: Ok(Field { name: "MIN(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 10 PRECEDING AND 1 FOLLOWING", data_type: Int32, nullable: true, dict_id: 0, dict_is_ordered: false, metadata: {} }), frame: WindowFrame { units: Range, start_bound: Preceding(Int32(1)), end_bound: Following(Int32(10)), is_causal: false }, MIN(annotated_data_finite.desc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 5 PRECEDING AND 1 FOLLOWING: Ok(Field { name: "MIN(annotated_data_finite.desc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 5 PRECEDING AND 1 FOLLOWING", data_type: Int32, nullable: true, dict_id: 0, dict_is_ordered: false, metadata: {} }), frame: WindowFrame { units: Range, start_bound: Preceding(Int32(1)), end_bound: Following(Int32(5)), is_causal: false }, MIN(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] ROWS BETWEEN 1 PRECEDING AND 10 FOLLOWING: Ok(Field { name: "MIN(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] ROWS BETWEEN 1 PRECEDING AND 10 FOLLOWING", data_type: Int32, nullable: true, dict_id: 0, dict_is_ordered: false, metadata: {} }), frame: WindowFrame { units: Rows, start_bound: Preceding(UInt64(10)), end_bound: Following(UInt64(1)), is_causal: false }, MAX(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 10 PRECEDING AND 1 FOLLOWING: Ok(Field { name: "MAX(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 10 PRECEDING AND 1 FOLLOWING", data_type: Int32, nullable: true, dict_id: 0, dict_is_ordered: false, metadata: {} }), frame: WindowFrame { units: Range, start_bound: Preceding(Int32(1)), end_bound: Following(Int32(10)), is_causal: false }, MAX(annotated_data_finite.desc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 5 PRECEDING AND 1 FOLLOWING: Ok(Field { name: "MAX(annotated_data_finite.desc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 5 PRECEDING AND 1 FOLLOWING", data_type: Int32, nullable: true, dict_id: 0, dict_is_ordered: false, metadata: {} }), frame: WindowFrame { units: Range, start_bound: Preceding(Int32(1)), end_bound: Following(Int32(5)), is_causal: false }, MAX(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] ROWS BETWEEN 1 PRECEDING AND 10 FOLLOWING: Ok(Field { name: "MAX(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] ROWS BETWEEN 1 PRECEDING AND 10 FOLLOWING", data_type: Int32, nullable: true, dict_id: 0, dict_is_ordered: false, metadata: {} }), frame: WindowFrame { units: Rows, start_bound: Preceding(UInt64(10)), end_bound: Following(UInt64(1)), is_causal: false }, count(*) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 6 PRECEDING AND 2 FOLLOWING: Ok(Field { name: "count(*) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 6 PRECEDING AND 2 FOLLOWING", data_type: Int64, nullable: true, dict_id: 0, dict_is_ordered: false, metadata: {} }), frame: WindowFrame { units: Range, start_bound: Preceding(Int32(2)), end_bound: Following(Int32(6)), is_causal: false }, count(*) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] ROWS BETWEEN 8 PRECEDING AND 1 FOLLOWING: Ok(Field { name: "count(*) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] ROWS BETWEEN 8 PRECEDING AND 1 FOLLOWING", data_type: Int64, nullable: true, dict_id: 0, dict_is_ordered: false, metadata: {} }), frame: WindowFrame { units: Rows, start_bound: Preceding(UInt64(1)), end_bound: Following(UInt64(8)), is_causal: false }], mode=[Sorted] 09)----------------ProjectionExec: expr=[CAST(desc_col@2 AS Int64) as __common_expr_1, CAST(inc_col@1 AS Int64) as __common_expr_2, ts@0 as ts, inc_col@1 as inc_col, desc_col@2 as desc_col] 10)------------------CsvExec: file_groups={1 group: [[WORKSPACE_ROOT/datafusion/core/tests/data/window_1.csv]]}, projection=[ts, inc_col, desc_col], output_ordering=[ts@0 ASC NULLS LAST], has_header=true @@ -2737,18 +2737,18 @@ logical_plan 01)Projection: sum1, sum2, min1, min2, max1, max2, count1, count2, avg1, avg2 02)--Limit: skip=0, fetch=5 03)----Sort: annotated_data_finite.inc_col ASC NULLS LAST, fetch=5 -04)------Projection: sum(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND 5 FOLLOWING AS sum1, sum(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 3 PRECEDING AND UNBOUNDED FOLLOWING AS sum2, MIN(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND 5 FOLLOWING AS min1, MIN(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 3 PRECEDING AND UNBOUNDED FOLLOWING AS min2, MAX(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND 5 FOLLOWING AS max1, MAX(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 3 PRECEDING AND UNBOUNDED FOLLOWING AS max2, COUNT(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND 5 FOLLOWING AS count1, COUNT(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 3 PRECEDING AND UNBOUNDED FOLLOWING AS count2, AVG(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND 5 FOLLOWING AS avg1, AVG(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 3 PRECEDING AND UNBOUNDED FOLLOWING AS avg2, annotated_data_finite.inc_col -05)--------WindowAggr: windowExpr=[[sum(__common_expr_1 AS annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND 5 FOLLOWING, MIN(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND 5 FOLLOWING, MAX(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND 5 FOLLOWING, COUNT(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND 5 FOLLOWING, AVG(__common_expr_2 AS annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND 5 FOLLOWING]] -06)----------WindowAggr: windowExpr=[[sum(__common_expr_1 AS annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 3 PRECEDING AND UNBOUNDED FOLLOWING, MIN(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 3 PRECEDING AND UNBOUNDED FOLLOWING, MAX(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 3 PRECEDING AND UNBOUNDED FOLLOWING, COUNT(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 3 PRECEDING AND UNBOUNDED FOLLOWING, AVG(__common_expr_2 AS annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 3 PRECEDING AND UNBOUNDED FOLLOWING]] +04)------Projection: sum(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND 5 FOLLOWING AS sum1, sum(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 3 PRECEDING AND UNBOUNDED FOLLOWING AS sum2, MIN(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND 5 FOLLOWING AS min1, MIN(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 3 PRECEDING AND UNBOUNDED FOLLOWING AS min2, MAX(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND 5 FOLLOWING AS max1, MAX(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 3 PRECEDING AND UNBOUNDED FOLLOWING AS max2, count(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND 5 FOLLOWING AS count1, count(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 3 PRECEDING AND UNBOUNDED FOLLOWING AS count2, AVG(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND 5 FOLLOWING AS avg1, AVG(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 3 PRECEDING AND UNBOUNDED FOLLOWING AS avg2, annotated_data_finite.inc_col +05)--------WindowAggr: windowExpr=[[sum(__common_expr_1 AS annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND 5 FOLLOWING, MIN(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND 5 FOLLOWING, MAX(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND 5 FOLLOWING, count(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND 5 FOLLOWING, AVG(__common_expr_2 AS annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND 5 FOLLOWING]] +06)----------WindowAggr: windowExpr=[[sum(__common_expr_1 AS annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 3 PRECEDING AND UNBOUNDED FOLLOWING, MIN(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 3 PRECEDING AND UNBOUNDED FOLLOWING, MAX(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 3 PRECEDING AND UNBOUNDED FOLLOWING, count(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 3 PRECEDING AND UNBOUNDED FOLLOWING, AVG(__common_expr_2 AS annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 3 PRECEDING AND UNBOUNDED FOLLOWING]] 07)------------Projection: CAST(annotated_data_finite.inc_col AS Int64) AS __common_expr_1, CAST(annotated_data_finite.inc_col AS Float64) AS __common_expr_2, annotated_data_finite.ts, annotated_data_finite.inc_col 08)--------------TableScan: annotated_data_finite projection=[ts, inc_col] physical_plan 01)ProjectionExec: expr=[sum1@0 as sum1, sum2@1 as sum2, min1@2 as min1, min2@3 as min2, max1@4 as max1, max2@5 as max2, count1@6 as count1, count2@7 as count2, avg1@8 as avg1, avg2@9 as avg2] 02)--GlobalLimitExec: skip=0, fetch=5 03)----SortExec: TopK(fetch=5), expr=[inc_col@10 ASC NULLS LAST], preserve_partitioning=[false] -04)------ProjectionExec: expr=[sum(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND 5 FOLLOWING@9 as sum1, sum(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 3 PRECEDING AND UNBOUNDED FOLLOWING@4 as sum2, MIN(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND 5 FOLLOWING@10 as min1, MIN(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 3 PRECEDING AND UNBOUNDED FOLLOWING@5 as min2, MAX(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND 5 FOLLOWING@11 as max1, MAX(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 3 PRECEDING AND UNBOUNDED FOLLOWING@6 as max2, COUNT(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND 5 FOLLOWING@12 as count1, COUNT(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 3 PRECEDING AND UNBOUNDED FOLLOWING@7 as count2, AVG(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND 5 FOLLOWING@13 as avg1, AVG(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 3 PRECEDING AND UNBOUNDED FOLLOWING@8 as avg2, inc_col@3 as inc_col] -05)--------BoundedWindowAggExec: wdw=[sum(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND 5 FOLLOWING: Ok(Field { name: "sum(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND 5 FOLLOWING", data_type: Int64, nullable: true, dict_id: 0, dict_is_ordered: false, metadata: {} }), frame: WindowFrame { units: Range, start_bound: Preceding(Int32(NULL)), end_bound: Following(Int32(5)), is_causal: false }, MIN(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND 5 FOLLOWING: Ok(Field { name: "MIN(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND 5 FOLLOWING", data_type: Int32, nullable: true, dict_id: 0, dict_is_ordered: false, metadata: {} }), frame: WindowFrame { units: Range, start_bound: Preceding(Int32(NULL)), end_bound: Following(Int32(5)), is_causal: false }, MAX(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND 5 FOLLOWING: Ok(Field { name: "MAX(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND 5 FOLLOWING", data_type: Int32, nullable: true, dict_id: 0, dict_is_ordered: false, metadata: {} }), frame: WindowFrame { units: Range, start_bound: Preceding(Int32(NULL)), end_bound: Following(Int32(5)), is_causal: false }, COUNT(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND 5 FOLLOWING: Ok(Field { name: "COUNT(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND 5 FOLLOWING", data_type: Int64, nullable: true, dict_id: 0, dict_is_ordered: false, metadata: {} }), frame: WindowFrame { units: Range, start_bound: Preceding(Int32(NULL)), end_bound: Following(Int32(5)), is_causal: false }, AVG(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND 5 FOLLOWING: Ok(Field { name: "AVG(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND 5 FOLLOWING", data_type: Float64, nullable: true, dict_id: 0, dict_is_ordered: false, metadata: {} }), frame: WindowFrame { units: Range, start_bound: Preceding(Int32(NULL)), end_bound: Following(Int32(5)), is_causal: false }], mode=[Sorted] -06)----------BoundedWindowAggExec: wdw=[sum(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 3 PRECEDING AND UNBOUNDED FOLLOWING: Ok(Field { name: "sum(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 3 PRECEDING AND UNBOUNDED FOLLOWING", data_type: Int64, nullable: true, dict_id: 0, dict_is_ordered: false, metadata: {} }), frame: WindowFrame { units: Range, start_bound: Preceding(Int32(NULL)), end_bound: Following(Int32(3)), is_causal: false }, MIN(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 3 PRECEDING AND UNBOUNDED FOLLOWING: Ok(Field { name: "MIN(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 3 PRECEDING AND UNBOUNDED FOLLOWING", data_type: Int32, nullable: true, dict_id: 0, dict_is_ordered: false, metadata: {} }), frame: WindowFrame { units: Range, start_bound: Preceding(Int32(NULL)), end_bound: Following(Int32(3)), is_causal: false }, MAX(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 3 PRECEDING AND UNBOUNDED FOLLOWING: Ok(Field { name: "MAX(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 3 PRECEDING AND UNBOUNDED FOLLOWING", data_type: Int32, nullable: true, dict_id: 0, dict_is_ordered: false, metadata: {} }), frame: WindowFrame { units: Range, start_bound: Preceding(Int32(NULL)), end_bound: Following(Int32(3)), is_causal: false }, COUNT(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 3 PRECEDING AND UNBOUNDED FOLLOWING: Ok(Field { name: "COUNT(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 3 PRECEDING AND UNBOUNDED FOLLOWING", data_type: Int64, nullable: true, dict_id: 0, dict_is_ordered: false, metadata: {} }), frame: WindowFrame { units: Range, start_bound: Preceding(Int32(NULL)), end_bound: Following(Int32(3)), is_causal: false }, AVG(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 3 PRECEDING AND UNBOUNDED FOLLOWING: Ok(Field { name: "AVG(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 3 PRECEDING AND UNBOUNDED FOLLOWING", data_type: Float64, nullable: true, dict_id: 0, dict_is_ordered: false, metadata: {} }), frame: WindowFrame { units: Range, start_bound: Preceding(Int32(NULL)), end_bound: Following(Int32(3)), is_causal: false }], mode=[Sorted] +04)------ProjectionExec: expr=[sum(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND 5 FOLLOWING@9 as sum1, sum(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 3 PRECEDING AND UNBOUNDED FOLLOWING@4 as sum2, MIN(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND 5 FOLLOWING@10 as min1, MIN(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 3 PRECEDING AND UNBOUNDED FOLLOWING@5 as min2, MAX(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND 5 FOLLOWING@11 as max1, MAX(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 3 PRECEDING AND UNBOUNDED FOLLOWING@6 as max2, count(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND 5 FOLLOWING@12 as count1, count(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 3 PRECEDING AND UNBOUNDED FOLLOWING@7 as count2, AVG(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND 5 FOLLOWING@13 as avg1, AVG(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 3 PRECEDING AND UNBOUNDED FOLLOWING@8 as avg2, inc_col@3 as inc_col] +05)--------BoundedWindowAggExec: wdw=[sum(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND 5 FOLLOWING: Ok(Field { name: "sum(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND 5 FOLLOWING", data_type: Int64, nullable: true, dict_id: 0, dict_is_ordered: false, metadata: {} }), frame: WindowFrame { units: Range, start_bound: Preceding(Int32(NULL)), end_bound: Following(Int32(5)), is_causal: false }, MIN(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND 5 FOLLOWING: Ok(Field { name: "MIN(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND 5 FOLLOWING", data_type: Int32, nullable: true, dict_id: 0, dict_is_ordered: false, metadata: {} }), frame: WindowFrame { units: Range, start_bound: Preceding(Int32(NULL)), end_bound: Following(Int32(5)), is_causal: false }, MAX(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND 5 FOLLOWING: Ok(Field { name: "MAX(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND 5 FOLLOWING", data_type: Int32, nullable: true, dict_id: 0, dict_is_ordered: false, metadata: {} }), frame: WindowFrame { units: Range, start_bound: Preceding(Int32(NULL)), end_bound: Following(Int32(5)), is_causal: false }, count(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND 5 FOLLOWING: Ok(Field { name: "count(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND 5 FOLLOWING", data_type: Int64, nullable: true, dict_id: 0, dict_is_ordered: false, metadata: {} }), frame: WindowFrame { units: Range, start_bound: Preceding(Int32(NULL)), end_bound: Following(Int32(5)), is_causal: false }, AVG(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND 5 FOLLOWING: Ok(Field { name: "AVG(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND 5 FOLLOWING", data_type: Float64, nullable: true, dict_id: 0, dict_is_ordered: false, metadata: {} }), frame: WindowFrame { units: Range, start_bound: Preceding(Int32(NULL)), end_bound: Following(Int32(5)), is_causal: false }], mode=[Sorted] +06)----------BoundedWindowAggExec: wdw=[sum(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 3 PRECEDING AND UNBOUNDED FOLLOWING: Ok(Field { name: "sum(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 3 PRECEDING AND UNBOUNDED FOLLOWING", data_type: Int64, nullable: true, dict_id: 0, dict_is_ordered: false, metadata: {} }), frame: WindowFrame { units: Range, start_bound: Preceding(Int32(NULL)), end_bound: Following(Int32(3)), is_causal: false }, MIN(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 3 PRECEDING AND UNBOUNDED FOLLOWING: Ok(Field { name: "MIN(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 3 PRECEDING AND UNBOUNDED FOLLOWING", data_type: Int32, nullable: true, dict_id: 0, dict_is_ordered: false, metadata: {} }), frame: WindowFrame { units: Range, start_bound: Preceding(Int32(NULL)), end_bound: Following(Int32(3)), is_causal: false }, MAX(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 3 PRECEDING AND UNBOUNDED FOLLOWING: Ok(Field { name: "MAX(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 3 PRECEDING AND UNBOUNDED FOLLOWING", data_type: Int32, nullable: true, dict_id: 0, dict_is_ordered: false, metadata: {} }), frame: WindowFrame { units: Range, start_bound: Preceding(Int32(NULL)), end_bound: Following(Int32(3)), is_causal: false }, count(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 3 PRECEDING AND UNBOUNDED FOLLOWING: Ok(Field { name: "count(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 3 PRECEDING AND UNBOUNDED FOLLOWING", data_type: Int64, nullable: true, dict_id: 0, dict_is_ordered: false, metadata: {} }), frame: WindowFrame { units: Range, start_bound: Preceding(Int32(NULL)), end_bound: Following(Int32(3)), is_causal: false }, AVG(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 3 PRECEDING AND UNBOUNDED FOLLOWING: Ok(Field { name: "AVG(annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 3 PRECEDING AND UNBOUNDED FOLLOWING", data_type: Float64, nullable: true, dict_id: 0, dict_is_ordered: false, metadata: {} }), frame: WindowFrame { units: Range, start_bound: Preceding(Int32(NULL)), end_bound: Following(Int32(3)), is_causal: false }], mode=[Sorted] 07)------------ProjectionExec: expr=[CAST(inc_col@1 AS Int64) as __common_expr_1, CAST(inc_col@1 AS Float64) as __common_expr_2, ts@0 as ts, inc_col@1 as inc_col] 08)--------------CsvExec: file_groups={1 group: [[WORKSPACE_ROOT/datafusion/core/tests/data/window_1.csv]]}, projection=[ts, inc_col], output_ordering=[ts@0 ASC NULLS LAST], has_header=true @@ -2838,17 +2838,17 @@ logical_plan 01)Projection: sum1, sum2, count1, count2 02)--Limit: skip=0, fetch=5 03)----Sort: annotated_data_infinite.ts ASC NULLS LAST, fetch=5 -04)------Projection: sum(annotated_data_infinite.inc_col) ORDER BY [annotated_data_infinite.ts ASC NULLS LAST] ROWS BETWEEN UNBOUNDED PRECEDING AND 1 FOLLOWING AS sum1, sum(annotated_data_infinite.inc_col) ORDER BY [annotated_data_infinite.ts DESC NULLS FIRST] ROWS BETWEEN 3 PRECEDING AND UNBOUNDED FOLLOWING AS sum2, COUNT(annotated_data_infinite.inc_col) ORDER BY [annotated_data_infinite.ts ASC NULLS LAST] ROWS BETWEEN UNBOUNDED PRECEDING AND 1 FOLLOWING AS count1, COUNT(annotated_data_infinite.inc_col) ORDER BY [annotated_data_infinite.ts DESC NULLS FIRST] ROWS BETWEEN 3 PRECEDING AND UNBOUNDED FOLLOWING AS count2, annotated_data_infinite.ts -05)--------WindowAggr: windowExpr=[[sum(__common_expr_1 AS annotated_data_infinite.inc_col) ORDER BY [annotated_data_infinite.ts ASC NULLS LAST] ROWS BETWEEN UNBOUNDED PRECEDING AND 1 FOLLOWING, COUNT(annotated_data_infinite.inc_col) ORDER BY [annotated_data_infinite.ts ASC NULLS LAST] ROWS BETWEEN UNBOUNDED PRECEDING AND 1 FOLLOWING]] -06)----------WindowAggr: windowExpr=[[sum(__common_expr_1 AS annotated_data_infinite.inc_col) ORDER BY [annotated_data_infinite.ts DESC NULLS FIRST] ROWS BETWEEN 3 PRECEDING AND UNBOUNDED FOLLOWING, COUNT(annotated_data_infinite.inc_col) ORDER BY [annotated_data_infinite.ts DESC NULLS FIRST] ROWS BETWEEN 3 PRECEDING AND UNBOUNDED FOLLOWING]] +04)------Projection: sum(annotated_data_infinite.inc_col) ORDER BY [annotated_data_infinite.ts ASC NULLS LAST] ROWS BETWEEN UNBOUNDED PRECEDING AND 1 FOLLOWING AS sum1, sum(annotated_data_infinite.inc_col) ORDER BY [annotated_data_infinite.ts DESC NULLS FIRST] ROWS BETWEEN 3 PRECEDING AND UNBOUNDED FOLLOWING AS sum2, count(annotated_data_infinite.inc_col) ORDER BY [annotated_data_infinite.ts ASC NULLS LAST] ROWS BETWEEN UNBOUNDED PRECEDING AND 1 FOLLOWING AS count1, count(annotated_data_infinite.inc_col) ORDER BY [annotated_data_infinite.ts DESC NULLS FIRST] ROWS BETWEEN 3 PRECEDING AND UNBOUNDED FOLLOWING AS count2, annotated_data_infinite.ts +05)--------WindowAggr: windowExpr=[[sum(__common_expr_1 AS annotated_data_infinite.inc_col) ORDER BY [annotated_data_infinite.ts ASC NULLS LAST] ROWS BETWEEN UNBOUNDED PRECEDING AND 1 FOLLOWING, count(annotated_data_infinite.inc_col) ORDER BY [annotated_data_infinite.ts ASC NULLS LAST] ROWS BETWEEN UNBOUNDED PRECEDING AND 1 FOLLOWING]] +06)----------WindowAggr: windowExpr=[[sum(__common_expr_1 AS annotated_data_infinite.inc_col) ORDER BY [annotated_data_infinite.ts DESC NULLS FIRST] ROWS BETWEEN 3 PRECEDING AND UNBOUNDED FOLLOWING, count(annotated_data_infinite.inc_col) ORDER BY [annotated_data_infinite.ts DESC NULLS FIRST] ROWS BETWEEN 3 PRECEDING AND UNBOUNDED FOLLOWING]] 07)------------Projection: CAST(annotated_data_infinite.inc_col AS Int64) AS __common_expr_1, annotated_data_infinite.ts, annotated_data_infinite.inc_col 08)--------------TableScan: annotated_data_infinite projection=[ts, inc_col] physical_plan 01)ProjectionExec: expr=[sum1@0 as sum1, sum2@1 as sum2, count1@2 as count1, count2@3 as count2] 02)--GlobalLimitExec: skip=0, fetch=5 -03)----ProjectionExec: expr=[sum(annotated_data_infinite.inc_col) ORDER BY [annotated_data_infinite.ts ASC NULLS LAST] ROWS BETWEEN UNBOUNDED PRECEDING AND 1 FOLLOWING@5 as sum1, sum(annotated_data_infinite.inc_col) ORDER BY [annotated_data_infinite.ts DESC NULLS FIRST] ROWS BETWEEN 3 PRECEDING AND UNBOUNDED FOLLOWING@3 as sum2, COUNT(annotated_data_infinite.inc_col) ORDER BY [annotated_data_infinite.ts ASC NULLS LAST] ROWS BETWEEN UNBOUNDED PRECEDING AND 1 FOLLOWING@6 as count1, COUNT(annotated_data_infinite.inc_col) ORDER BY [annotated_data_infinite.ts DESC NULLS FIRST] ROWS BETWEEN 3 PRECEDING AND UNBOUNDED FOLLOWING@4 as count2, ts@1 as ts] -04)------BoundedWindowAggExec: wdw=[sum(annotated_data_infinite.inc_col) ORDER BY [annotated_data_infinite.ts ASC NULLS LAST] ROWS BETWEEN UNBOUNDED PRECEDING AND 1 FOLLOWING: Ok(Field { name: "sum(annotated_data_infinite.inc_col) ORDER BY [annotated_data_infinite.ts ASC NULLS LAST] ROWS BETWEEN UNBOUNDED PRECEDING AND 1 FOLLOWING", data_type: Int64, nullable: true, dict_id: 0, dict_is_ordered: false, metadata: {} }), frame: WindowFrame { units: Rows, start_bound: Preceding(UInt64(NULL)), end_bound: Following(UInt64(1)), is_causal: false }, COUNT(annotated_data_infinite.inc_col) ORDER BY [annotated_data_infinite.ts ASC NULLS LAST] ROWS BETWEEN UNBOUNDED PRECEDING AND 1 FOLLOWING: Ok(Field { name: "COUNT(annotated_data_infinite.inc_col) ORDER BY [annotated_data_infinite.ts ASC NULLS LAST] ROWS BETWEEN UNBOUNDED PRECEDING AND 1 FOLLOWING", data_type: Int64, nullable: true, dict_id: 0, dict_is_ordered: false, metadata: {} }), frame: WindowFrame { units: Rows, start_bound: Preceding(UInt64(NULL)), end_bound: Following(UInt64(1)), is_causal: false }], mode=[Sorted] -05)--------BoundedWindowAggExec: wdw=[sum(annotated_data_infinite.inc_col) ORDER BY [annotated_data_infinite.ts DESC NULLS FIRST] ROWS BETWEEN 3 PRECEDING AND UNBOUNDED FOLLOWING: Ok(Field { name: "sum(annotated_data_infinite.inc_col) ORDER BY [annotated_data_infinite.ts DESC NULLS FIRST] ROWS BETWEEN 3 PRECEDING AND UNBOUNDED FOLLOWING", data_type: Int64, nullable: true, dict_id: 0, dict_is_ordered: false, metadata: {} }), frame: WindowFrame { units: Rows, start_bound: Preceding(UInt64(NULL)), end_bound: Following(UInt64(3)), is_causal: false }, COUNT(annotated_data_infinite.inc_col) ORDER BY [annotated_data_infinite.ts DESC NULLS FIRST] ROWS BETWEEN 3 PRECEDING AND UNBOUNDED FOLLOWING: Ok(Field { name: "COUNT(annotated_data_infinite.inc_col) ORDER BY [annotated_data_infinite.ts DESC NULLS FIRST] ROWS BETWEEN 3 PRECEDING AND UNBOUNDED FOLLOWING", data_type: Int64, nullable: true, dict_id: 0, dict_is_ordered: false, metadata: {} }), frame: WindowFrame { units: Rows, start_bound: Preceding(UInt64(NULL)), end_bound: Following(UInt64(3)), is_causal: false }], mode=[Sorted] +03)----ProjectionExec: expr=[sum(annotated_data_infinite.inc_col) ORDER BY [annotated_data_infinite.ts ASC NULLS LAST] ROWS BETWEEN UNBOUNDED PRECEDING AND 1 FOLLOWING@5 as sum1, sum(annotated_data_infinite.inc_col) ORDER BY [annotated_data_infinite.ts DESC NULLS FIRST] ROWS BETWEEN 3 PRECEDING AND UNBOUNDED FOLLOWING@3 as sum2, count(annotated_data_infinite.inc_col) ORDER BY [annotated_data_infinite.ts ASC NULLS LAST] ROWS BETWEEN UNBOUNDED PRECEDING AND 1 FOLLOWING@6 as count1, count(annotated_data_infinite.inc_col) ORDER BY [annotated_data_infinite.ts DESC NULLS FIRST] ROWS BETWEEN 3 PRECEDING AND UNBOUNDED FOLLOWING@4 as count2, ts@1 as ts] +04)------BoundedWindowAggExec: wdw=[sum(annotated_data_infinite.inc_col) ORDER BY [annotated_data_infinite.ts ASC NULLS LAST] ROWS BETWEEN UNBOUNDED PRECEDING AND 1 FOLLOWING: Ok(Field { name: "sum(annotated_data_infinite.inc_col) ORDER BY [annotated_data_infinite.ts ASC NULLS LAST] ROWS BETWEEN UNBOUNDED PRECEDING AND 1 FOLLOWING", data_type: Int64, nullable: true, dict_id: 0, dict_is_ordered: false, metadata: {} }), frame: WindowFrame { units: Rows, start_bound: Preceding(UInt64(NULL)), end_bound: Following(UInt64(1)), is_causal: false }, count(annotated_data_infinite.inc_col) ORDER BY [annotated_data_infinite.ts ASC NULLS LAST] ROWS BETWEEN UNBOUNDED PRECEDING AND 1 FOLLOWING: Ok(Field { name: "count(annotated_data_infinite.inc_col) ORDER BY [annotated_data_infinite.ts ASC NULLS LAST] ROWS BETWEEN UNBOUNDED PRECEDING AND 1 FOLLOWING", data_type: Int64, nullable: true, dict_id: 0, dict_is_ordered: false, metadata: {} }), frame: WindowFrame { units: Rows, start_bound: Preceding(UInt64(NULL)), end_bound: Following(UInt64(1)), is_causal: false }], mode=[Sorted] +05)--------BoundedWindowAggExec: wdw=[sum(annotated_data_infinite.inc_col) ORDER BY [annotated_data_infinite.ts DESC NULLS FIRST] ROWS BETWEEN 3 PRECEDING AND UNBOUNDED FOLLOWING: Ok(Field { name: "sum(annotated_data_infinite.inc_col) ORDER BY [annotated_data_infinite.ts DESC NULLS FIRST] ROWS BETWEEN 3 PRECEDING AND UNBOUNDED FOLLOWING", data_type: Int64, nullable: true, dict_id: 0, dict_is_ordered: false, metadata: {} }), frame: WindowFrame { units: Rows, start_bound: Preceding(UInt64(NULL)), end_bound: Following(UInt64(3)), is_causal: false }, count(annotated_data_infinite.inc_col) ORDER BY [annotated_data_infinite.ts DESC NULLS FIRST] ROWS BETWEEN 3 PRECEDING AND UNBOUNDED FOLLOWING: Ok(Field { name: "count(annotated_data_infinite.inc_col) ORDER BY [annotated_data_infinite.ts DESC NULLS FIRST] ROWS BETWEEN 3 PRECEDING AND UNBOUNDED FOLLOWING", data_type: Int64, nullable: true, dict_id: 0, dict_is_ordered: false, metadata: {} }), frame: WindowFrame { units: Rows, start_bound: Preceding(UInt64(NULL)), end_bound: Following(UInt64(3)), is_causal: false }], mode=[Sorted] 06)----------ProjectionExec: expr=[CAST(inc_col@1 AS Int64) as __common_expr_1, ts@0 as ts, inc_col@1 as inc_col] 07)------------StreamingTableExec: partition_sizes=1, projection=[ts, inc_col], infinite_source=true, output_ordering=[ts@0 ASC NULLS LAST] @@ -2885,17 +2885,17 @@ logical_plan 01)Projection: sum1, sum2, count1, count2 02)--Limit: skip=0, fetch=5 03)----Sort: annotated_data_infinite.ts ASC NULLS LAST, fetch=5 -04)------Projection: sum(annotated_data_infinite.inc_col) ORDER BY [annotated_data_infinite.ts ASC NULLS LAST] ROWS BETWEEN UNBOUNDED PRECEDING AND 1 FOLLOWING AS sum1, sum(annotated_data_infinite.inc_col) ORDER BY [annotated_data_infinite.ts DESC NULLS FIRST] ROWS BETWEEN 3 PRECEDING AND UNBOUNDED FOLLOWING AS sum2, COUNT(annotated_data_infinite.inc_col) ORDER BY [annotated_data_infinite.ts ASC NULLS LAST] ROWS BETWEEN UNBOUNDED PRECEDING AND 1 FOLLOWING AS count1, COUNT(annotated_data_infinite.inc_col) ORDER BY [annotated_data_infinite.ts DESC NULLS FIRST] ROWS BETWEEN 3 PRECEDING AND UNBOUNDED FOLLOWING AS count2, annotated_data_infinite.ts -05)--------WindowAggr: windowExpr=[[sum(__common_expr_1 AS annotated_data_infinite.inc_col) ORDER BY [annotated_data_infinite.ts ASC NULLS LAST] ROWS BETWEEN UNBOUNDED PRECEDING AND 1 FOLLOWING, COUNT(annotated_data_infinite.inc_col) ORDER BY [annotated_data_infinite.ts ASC NULLS LAST] ROWS BETWEEN UNBOUNDED PRECEDING AND 1 FOLLOWING]] -06)----------WindowAggr: windowExpr=[[sum(__common_expr_1 AS annotated_data_infinite.inc_col) ORDER BY [annotated_data_infinite.ts DESC NULLS FIRST] ROWS BETWEEN 3 PRECEDING AND UNBOUNDED FOLLOWING, COUNT(annotated_data_infinite.inc_col) ORDER BY [annotated_data_infinite.ts DESC NULLS FIRST] ROWS BETWEEN 3 PRECEDING AND UNBOUNDED FOLLOWING]] +04)------Projection: sum(annotated_data_infinite.inc_col) ORDER BY [annotated_data_infinite.ts ASC NULLS LAST] ROWS BETWEEN UNBOUNDED PRECEDING AND 1 FOLLOWING AS sum1, sum(annotated_data_infinite.inc_col) ORDER BY [annotated_data_infinite.ts DESC NULLS FIRST] ROWS BETWEEN 3 PRECEDING AND UNBOUNDED FOLLOWING AS sum2, count(annotated_data_infinite.inc_col) ORDER BY [annotated_data_infinite.ts ASC NULLS LAST] ROWS BETWEEN UNBOUNDED PRECEDING AND 1 FOLLOWING AS count1, count(annotated_data_infinite.inc_col) ORDER BY [annotated_data_infinite.ts DESC NULLS FIRST] ROWS BETWEEN 3 PRECEDING AND UNBOUNDED FOLLOWING AS count2, annotated_data_infinite.ts +05)--------WindowAggr: windowExpr=[[sum(__common_expr_1 AS annotated_data_infinite.inc_col) ORDER BY [annotated_data_infinite.ts ASC NULLS LAST] ROWS BETWEEN UNBOUNDED PRECEDING AND 1 FOLLOWING, count(annotated_data_infinite.inc_col) ORDER BY [annotated_data_infinite.ts ASC NULLS LAST] ROWS BETWEEN UNBOUNDED PRECEDING AND 1 FOLLOWING]] +06)----------WindowAggr: windowExpr=[[sum(__common_expr_1 AS annotated_data_infinite.inc_col) ORDER BY [annotated_data_infinite.ts DESC NULLS FIRST] ROWS BETWEEN 3 PRECEDING AND UNBOUNDED FOLLOWING, count(annotated_data_infinite.inc_col) ORDER BY [annotated_data_infinite.ts DESC NULLS FIRST] ROWS BETWEEN 3 PRECEDING AND UNBOUNDED FOLLOWING]] 07)------------Projection: CAST(annotated_data_infinite.inc_col AS Int64) AS __common_expr_1, annotated_data_infinite.ts, annotated_data_infinite.inc_col 08)--------------TableScan: annotated_data_infinite projection=[ts, inc_col] physical_plan 01)ProjectionExec: expr=[sum1@0 as sum1, sum2@1 as sum2, count1@2 as count1, count2@3 as count2] 02)--GlobalLimitExec: skip=0, fetch=5 -03)----ProjectionExec: expr=[sum(annotated_data_infinite.inc_col) ORDER BY [annotated_data_infinite.ts ASC NULLS LAST] ROWS BETWEEN UNBOUNDED PRECEDING AND 1 FOLLOWING@5 as sum1, sum(annotated_data_infinite.inc_col) ORDER BY [annotated_data_infinite.ts DESC NULLS FIRST] ROWS BETWEEN 3 PRECEDING AND UNBOUNDED FOLLOWING@3 as sum2, COUNT(annotated_data_infinite.inc_col) ORDER BY [annotated_data_infinite.ts ASC NULLS LAST] ROWS BETWEEN UNBOUNDED PRECEDING AND 1 FOLLOWING@6 as count1, COUNT(annotated_data_infinite.inc_col) ORDER BY [annotated_data_infinite.ts DESC NULLS FIRST] ROWS BETWEEN 3 PRECEDING AND UNBOUNDED FOLLOWING@4 as count2, ts@1 as ts] -04)------BoundedWindowAggExec: wdw=[sum(annotated_data_infinite.inc_col) ORDER BY [annotated_data_infinite.ts ASC NULLS LAST] ROWS BETWEEN UNBOUNDED PRECEDING AND 1 FOLLOWING: Ok(Field { name: "sum(annotated_data_infinite.inc_col) ORDER BY [annotated_data_infinite.ts ASC NULLS LAST] ROWS BETWEEN UNBOUNDED PRECEDING AND 1 FOLLOWING", data_type: Int64, nullable: true, dict_id: 0, dict_is_ordered: false, metadata: {} }), frame: WindowFrame { units: Rows, start_bound: Preceding(UInt64(NULL)), end_bound: Following(UInt64(1)), is_causal: false }, COUNT(annotated_data_infinite.inc_col) ORDER BY [annotated_data_infinite.ts ASC NULLS LAST] ROWS BETWEEN UNBOUNDED PRECEDING AND 1 FOLLOWING: Ok(Field { name: "COUNT(annotated_data_infinite.inc_col) ORDER BY [annotated_data_infinite.ts ASC NULLS LAST] ROWS BETWEEN UNBOUNDED PRECEDING AND 1 FOLLOWING", data_type: Int64, nullable: true, dict_id: 0, dict_is_ordered: false, metadata: {} }), frame: WindowFrame { units: Rows, start_bound: Preceding(UInt64(NULL)), end_bound: Following(UInt64(1)), is_causal: false }], mode=[Sorted] -05)--------BoundedWindowAggExec: wdw=[sum(annotated_data_infinite.inc_col) ORDER BY [annotated_data_infinite.ts DESC NULLS FIRST] ROWS BETWEEN 3 PRECEDING AND UNBOUNDED FOLLOWING: Ok(Field { name: "sum(annotated_data_infinite.inc_col) ORDER BY [annotated_data_infinite.ts DESC NULLS FIRST] ROWS BETWEEN 3 PRECEDING AND UNBOUNDED FOLLOWING", data_type: Int64, nullable: true, dict_id: 0, dict_is_ordered: false, metadata: {} }), frame: WindowFrame { units: Rows, start_bound: Preceding(UInt64(NULL)), end_bound: Following(UInt64(3)), is_causal: false }, COUNT(annotated_data_infinite.inc_col) ORDER BY [annotated_data_infinite.ts DESC NULLS FIRST] ROWS BETWEEN 3 PRECEDING AND UNBOUNDED FOLLOWING: Ok(Field { name: "COUNT(annotated_data_infinite.inc_col) ORDER BY [annotated_data_infinite.ts DESC NULLS FIRST] ROWS BETWEEN 3 PRECEDING AND UNBOUNDED FOLLOWING", data_type: Int64, nullable: true, dict_id: 0, dict_is_ordered: false, metadata: {} }), frame: WindowFrame { units: Rows, start_bound: Preceding(UInt64(NULL)), end_bound: Following(UInt64(3)), is_causal: false }], mode=[Sorted] +03)----ProjectionExec: expr=[sum(annotated_data_infinite.inc_col) ORDER BY [annotated_data_infinite.ts ASC NULLS LAST] ROWS BETWEEN UNBOUNDED PRECEDING AND 1 FOLLOWING@5 as sum1, sum(annotated_data_infinite.inc_col) ORDER BY [annotated_data_infinite.ts DESC NULLS FIRST] ROWS BETWEEN 3 PRECEDING AND UNBOUNDED FOLLOWING@3 as sum2, count(annotated_data_infinite.inc_col) ORDER BY [annotated_data_infinite.ts ASC NULLS LAST] ROWS BETWEEN UNBOUNDED PRECEDING AND 1 FOLLOWING@6 as count1, count(annotated_data_infinite.inc_col) ORDER BY [annotated_data_infinite.ts DESC NULLS FIRST] ROWS BETWEEN 3 PRECEDING AND UNBOUNDED FOLLOWING@4 as count2, ts@1 as ts] +04)------BoundedWindowAggExec: wdw=[sum(annotated_data_infinite.inc_col) ORDER BY [annotated_data_infinite.ts ASC NULLS LAST] ROWS BETWEEN UNBOUNDED PRECEDING AND 1 FOLLOWING: Ok(Field { name: "sum(annotated_data_infinite.inc_col) ORDER BY [annotated_data_infinite.ts ASC NULLS LAST] ROWS BETWEEN UNBOUNDED PRECEDING AND 1 FOLLOWING", data_type: Int64, nullable: true, dict_id: 0, dict_is_ordered: false, metadata: {} }), frame: WindowFrame { units: Rows, start_bound: Preceding(UInt64(NULL)), end_bound: Following(UInt64(1)), is_causal: false }, count(annotated_data_infinite.inc_col) ORDER BY [annotated_data_infinite.ts ASC NULLS LAST] ROWS BETWEEN UNBOUNDED PRECEDING AND 1 FOLLOWING: Ok(Field { name: "count(annotated_data_infinite.inc_col) ORDER BY [annotated_data_infinite.ts ASC NULLS LAST] ROWS BETWEEN UNBOUNDED PRECEDING AND 1 FOLLOWING", data_type: Int64, nullable: true, dict_id: 0, dict_is_ordered: false, metadata: {} }), frame: WindowFrame { units: Rows, start_bound: Preceding(UInt64(NULL)), end_bound: Following(UInt64(1)), is_causal: false }], mode=[Sorted] +05)--------BoundedWindowAggExec: wdw=[sum(annotated_data_infinite.inc_col) ORDER BY [annotated_data_infinite.ts DESC NULLS FIRST] ROWS BETWEEN 3 PRECEDING AND UNBOUNDED FOLLOWING: Ok(Field { name: "sum(annotated_data_infinite.inc_col) ORDER BY [annotated_data_infinite.ts DESC NULLS FIRST] ROWS BETWEEN 3 PRECEDING AND UNBOUNDED FOLLOWING", data_type: Int64, nullable: true, dict_id: 0, dict_is_ordered: false, metadata: {} }), frame: WindowFrame { units: Rows, start_bound: Preceding(UInt64(NULL)), end_bound: Following(UInt64(3)), is_causal: false }, count(annotated_data_infinite.inc_col) ORDER BY [annotated_data_infinite.ts DESC NULLS FIRST] ROWS BETWEEN 3 PRECEDING AND UNBOUNDED FOLLOWING: Ok(Field { name: "count(annotated_data_infinite.inc_col) ORDER BY [annotated_data_infinite.ts DESC NULLS FIRST] ROWS BETWEEN 3 PRECEDING AND UNBOUNDED FOLLOWING", data_type: Int64, nullable: true, dict_id: 0, dict_is_ordered: false, metadata: {} }), frame: WindowFrame { units: Rows, start_bound: Preceding(UInt64(NULL)), end_bound: Following(UInt64(3)), is_causal: false }], mode=[Sorted] 06)----------ProjectionExec: expr=[CAST(inc_col@1 AS Int64) as __common_expr_1, ts@0 as ts, inc_col@1 as inc_col] 07)------------StreamingTableExec: partition_sizes=1, projection=[ts, inc_col], infinite_source=true, output_ordering=[ts@0 ASC NULLS LAST] @@ -4134,13 +4134,13 @@ query TT EXPLAIN select count(*) over (partition by a order by a) from (select * from a where a = 1); ---- logical_plan -01)Projection: COUNT(*) PARTITION BY [a.a] ORDER BY [a.a ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW -02)--WindowAggr: windowExpr=[[COUNT(Int64(1)) PARTITION BY [a.a] ORDER BY [a.a ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW AS COUNT(*) PARTITION BY [a.a] ORDER BY [a.a ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW]] +01)Projection: count(*) PARTITION BY [a.a] ORDER BY [a.a ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW +02)--WindowAggr: windowExpr=[[count(Int64(1)) PARTITION BY [a.a] ORDER BY [a.a ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW AS count(*) PARTITION BY [a.a] ORDER BY [a.a ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW]] 03)----Filter: a.a = Int64(1) 04)------TableScan: a projection=[a] physical_plan -01)ProjectionExec: expr=[COUNT(*) PARTITION BY [a.a] ORDER BY [a.a ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW@1 as COUNT(*) PARTITION BY [a.a] ORDER BY [a.a ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW] -02)--BoundedWindowAggExec: wdw=[COUNT(*) PARTITION BY [a.a] ORDER BY [a.a ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW: Ok(Field { name: "COUNT(*) PARTITION BY [a.a] ORDER BY [a.a ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW", data_type: Int64, nullable: true, dict_id: 0, dict_is_ordered: false, metadata: {} }), frame: WindowFrame { units: Range, start_bound: Preceding(Int64(NULL)), end_bound: CurrentRow, is_causal: false }], mode=[Sorted] +01)ProjectionExec: expr=[count(*) PARTITION BY [a.a] ORDER BY [a.a ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW@1 as count(*) PARTITION BY [a.a] ORDER BY [a.a ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW] +02)--BoundedWindowAggExec: wdw=[count(*) PARTITION BY [a.a] ORDER BY [a.a ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW: Ok(Field { name: "count(*) PARTITION BY [a.a] ORDER BY [a.a ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW", data_type: Int64, nullable: true, dict_id: 0, dict_is_ordered: false, metadata: {} }), frame: WindowFrame { units: Range, start_bound: Preceding(Int64(NULL)), end_bound: CurrentRow, is_causal: false }], mode=[Sorted] 03)----CoalesceBatchesExec: target_batch_size=4096 04)------RepartitionExec: partitioning=Hash([a@0], 2), input_partitions=2 05)--------RepartitionExec: partitioning=RoundRobinBatch(2), input_partitions=1 diff --git a/datafusion/substrait/src/logical_plan/consumer.rs b/datafusion/substrait/src/logical_plan/consumer.rs index 93f197885c0ab..a48da7b9a1a8b 100644 --- a/datafusion/substrait/src/logical_plan/consumer.rs +++ b/datafusion/substrait/src/logical_plan/consumer.rs @@ -983,7 +983,7 @@ pub async fn from_substrait_agg_func( // try udaf first, then built-in aggr fn. if let Ok(fun) = ctx.udaf(function_name) { // deal with situation that count(*) got no arguments - if fun.name() == "COUNT" && args.is_empty() { + if fun.name() == "count" && args.is_empty() { args.push(Expr::Literal(ScalarValue::Int64(Some(1)))); } diff --git a/datafusion/substrait/tests/cases/consumer_integration.rs b/datafusion/substrait/tests/cases/consumer_integration.rs index e0151ecc3a4f9..975cc150d79cc 100644 --- a/datafusion/substrait/tests/cases/consumer_integration.rs +++ b/datafusion/substrait/tests/cases/consumer_integration.rs @@ -46,9 +46,9 @@ mod tests { let plan_str = format!("{:?}", plan); assert_eq!( plan_str, - "Projection: FILENAME_PLACEHOLDER_0.l_returnflag AS L_RETURNFLAG, FILENAME_PLACEHOLDER_0.l_linestatus AS L_LINESTATUS, sum(FILENAME_PLACEHOLDER_0.l_quantity) AS SUM_QTY, sum(FILENAME_PLACEHOLDER_0.l_extendedprice) AS SUM_BASE_PRICE, sum(FILENAME_PLACEHOLDER_0.l_extendedprice * Int32(1) - FILENAME_PLACEHOLDER_0.l_discount) AS SUM_DISC_PRICE, sum(FILENAME_PLACEHOLDER_0.l_extendedprice * Int32(1) - FILENAME_PLACEHOLDER_0.l_discount * Int32(1) + FILENAME_PLACEHOLDER_0.l_tax) AS SUM_CHARGE, AVG(FILENAME_PLACEHOLDER_0.l_quantity) AS AVG_QTY, AVG(FILENAME_PLACEHOLDER_0.l_extendedprice) AS AVG_PRICE, AVG(FILENAME_PLACEHOLDER_0.l_discount) AS AVG_DISC, COUNT(Int64(1)) AS COUNT_ORDER\ + "Projection: FILENAME_PLACEHOLDER_0.l_returnflag AS L_RETURNFLAG, FILENAME_PLACEHOLDER_0.l_linestatus AS L_LINESTATUS, sum(FILENAME_PLACEHOLDER_0.l_quantity) AS SUM_QTY, sum(FILENAME_PLACEHOLDER_0.l_extendedprice) AS SUM_BASE_PRICE, sum(FILENAME_PLACEHOLDER_0.l_extendedprice * Int32(1) - FILENAME_PLACEHOLDER_0.l_discount) AS SUM_DISC_PRICE, sum(FILENAME_PLACEHOLDER_0.l_extendedprice * Int32(1) - FILENAME_PLACEHOLDER_0.l_discount * Int32(1) + FILENAME_PLACEHOLDER_0.l_tax) AS SUM_CHARGE, AVG(FILENAME_PLACEHOLDER_0.l_quantity) AS AVG_QTY, AVG(FILENAME_PLACEHOLDER_0.l_extendedprice) AS AVG_PRICE, AVG(FILENAME_PLACEHOLDER_0.l_discount) AS AVG_DISC, count(Int64(1)) AS COUNT_ORDER\ \n Sort: FILENAME_PLACEHOLDER_0.l_returnflag ASC NULLS LAST, FILENAME_PLACEHOLDER_0.l_linestatus ASC NULLS LAST\ - \n Aggregate: groupBy=[[FILENAME_PLACEHOLDER_0.l_returnflag, FILENAME_PLACEHOLDER_0.l_linestatus]], aggr=[[sum(FILENAME_PLACEHOLDER_0.l_quantity), sum(FILENAME_PLACEHOLDER_0.l_extendedprice), sum(FILENAME_PLACEHOLDER_0.l_extendedprice * Int32(1) - FILENAME_PLACEHOLDER_0.l_discount), sum(FILENAME_PLACEHOLDER_0.l_extendedprice * Int32(1) - FILENAME_PLACEHOLDER_0.l_discount * Int32(1) + FILENAME_PLACEHOLDER_0.l_tax), AVG(FILENAME_PLACEHOLDER_0.l_quantity), AVG(FILENAME_PLACEHOLDER_0.l_extendedprice), AVG(FILENAME_PLACEHOLDER_0.l_discount), COUNT(Int64(1))]]\ + \n Aggregate: groupBy=[[FILENAME_PLACEHOLDER_0.l_returnflag, FILENAME_PLACEHOLDER_0.l_linestatus]], aggr=[[sum(FILENAME_PLACEHOLDER_0.l_quantity), sum(FILENAME_PLACEHOLDER_0.l_extendedprice), sum(FILENAME_PLACEHOLDER_0.l_extendedprice * Int32(1) - FILENAME_PLACEHOLDER_0.l_discount), sum(FILENAME_PLACEHOLDER_0.l_extendedprice * Int32(1) - FILENAME_PLACEHOLDER_0.l_discount * Int32(1) + FILENAME_PLACEHOLDER_0.l_tax), AVG(FILENAME_PLACEHOLDER_0.l_quantity), AVG(FILENAME_PLACEHOLDER_0.l_extendedprice), AVG(FILENAME_PLACEHOLDER_0.l_discount), count(Int64(1))]]\ \n Projection: FILENAME_PLACEHOLDER_0.l_returnflag, FILENAME_PLACEHOLDER_0.l_linestatus, FILENAME_PLACEHOLDER_0.l_quantity, FILENAME_PLACEHOLDER_0.l_extendedprice, FILENAME_PLACEHOLDER_0.l_extendedprice * (CAST(Int32(1) AS Decimal128(19, 0)) - FILENAME_PLACEHOLDER_0.l_discount), FILENAME_PLACEHOLDER_0.l_extendedprice * (CAST(Int32(1) AS Decimal128(19, 0)) - FILENAME_PLACEHOLDER_0.l_discount) * (CAST(Int32(1) AS Decimal128(19, 0)) + FILENAME_PLACEHOLDER_0.l_tax), FILENAME_PLACEHOLDER_0.l_discount\ \n Filter: FILENAME_PLACEHOLDER_0.l_shipdate <= Date32(\"1998-12-01\") - IntervalDayTime(\"IntervalDayTime { days: 120, milliseconds: 0 }\")\ \n TableScan: FILENAME_PLACEHOLDER_0 projection=[l_orderkey, l_partkey, l_suppkey, l_linenumber, l_quantity, l_extendedprice, l_discount, l_tax, l_returnflag, l_linestatus, l_shipdate, l_commitdate, l_receiptdate, l_shipinstruct, l_shipmode, l_comment]" diff --git a/datafusion/substrait/tests/cases/roundtrip_logical_plan.rs b/datafusion/substrait/tests/cases/roundtrip_logical_plan.rs index 4e4fa45a15a66..d236d34c9df94 100644 --- a/datafusion/substrait/tests/cases/roundtrip_logical_plan.rs +++ b/datafusion/substrait/tests/cases/roundtrip_logical_plan.rs @@ -594,10 +594,10 @@ async fn roundtrip_union_all() -> Result<()> { #[tokio::test] async fn simple_intersect() -> Result<()> { - // Substrait treats both COUNT(*) and COUNT(1) the same + // Substrait treats both count(*) and count(1) the same assert_expected_plan( - "SELECT COUNT(*) FROM (SELECT data.a FROM data INTERSECT SELECT data2.a FROM data2);", - "Aggregate: groupBy=[[]], aggr=[[COUNT(Int64(1)) AS COUNT(*)]]\ + "SELECT count(*) FROM (SELECT data.a FROM data INTERSECT SELECT data2.a FROM data2);", + "Aggregate: groupBy=[[]], aggr=[[count(Int64(1)) AS count(*)]]\ \n Projection: \ \n LeftSemi Join: data.a = data2.a\ \n Aggregate: groupBy=[[data.a]], aggr=[[]]\ @@ -610,7 +610,7 @@ async fn simple_intersect() -> Result<()> { #[tokio::test] async fn simple_intersect_table_reuse() -> Result<()> { - roundtrip("SELECT COUNT(1) FROM (SELECT data.a FROM data INTERSECT SELECT data.a FROM data);").await + roundtrip("SELECT count(1) FROM (SELECT data.a FROM data INTERSECT SELECT data.a FROM data);").await } #[tokio::test]