From 2db75de2f8e6fa620973975318f3ca85049535bc Mon Sep 17 00:00:00 2001 From: Peter Toth Date: Tue, 18 Jun 2024 12:25:28 +0200 Subject: [PATCH] Use shorter aliases in CSE (#10939) * initial change * test renaming * use counter instead of indexmap * order slt tests * change cse tests * restore slt tests * fix slt test * formatting * ensure no alias collision * keep original alias numbers for collision * ensure no collision in aggregate cse * use `AliasGenerator` to generate aliases, use `__cse` prefix in common expression aliases, remove `DataType` from `ExprStats` as not needed, store aliases in `CommonExprs`, revert unnecessary changes * use `into_values()` instead of `into_iter()` where possible * fix docstring of `ExprStats` and `CommonExprs` * use `__common_expr` prefix --------- Co-authored-by: Mohamed Abdeen --- .../optimizer/src/common_subexpr_eliminate.rs | 368 +++++++++--------- .../sqllogictest/test_files/group_by.slt | 8 +- datafusion/sqllogictest/test_files/select.slt | 16 +- .../sqllogictest/test_files/subquery.slt | 8 +- .../sqllogictest/test_files/tpch/q1.slt.part | 6 +- datafusion/sqllogictest/test_files/window.slt | 126 +++--- 6 files changed, 271 insertions(+), 261 deletions(-) diff --git a/datafusion/optimizer/src/common_subexpr_eliminate.rs b/datafusion/optimizer/src/common_subexpr_eliminate.rs index 3ed1309f1544e..e150a957bfcf9 100644 --- a/datafusion/optimizer/src/common_subexpr_eliminate.rs +++ b/datafusion/optimizer/src/common_subexpr_eliminate.rs @@ -22,19 +22,19 @@ use std::sync::Arc; use crate::{utils, OptimizerConfig, OptimizerRule}; -use arrow::datatypes::{DataType, Field}; +use datafusion_common::alias::AliasGenerator; use datafusion_common::tree_node::{ Transformed, TransformedResult, TreeNode, TreeNodeRecursion, TreeNodeRewriter, TreeNodeVisitor, }; -use datafusion_common::{ - internal_err, qualified_name, Column, DFSchema, DFSchemaRef, DataFusionError, Result, -}; +use datafusion_common::{qualified_name, Column, DFSchema, DataFusionError, Result}; use datafusion_expr::expr::Alias; use datafusion_expr::logical_plan::{Aggregate, LogicalPlan, Projection, Window}; use datafusion_expr::{col, Expr, ExprSchemable}; use indexmap::IndexMap; +const CSE_PREFIX: &str = "__common_expr"; + /// Identifier that represents a subexpression tree. /// /// Note that the current implementation contains: @@ -79,16 +79,12 @@ type Identifier = String; /// ``` type IdArray = Vec<(usize, Identifier)>; -/// A map that contains statistics of expressions by their identifiers. -/// It contains: -/// - The number of occurrences and -/// - The DataType -/// of an expression. -type ExprStats = HashMap; +/// A map that contains the number of occurrences of expressions by their identifiers. +type ExprStats = HashMap; -/// A map that contains the common expressions extracted during the second, rewriting -/// traversal. -type CommonExprs = IndexMap; +/// A map that contains the common expressions and their alias extracted during the +/// second, rewriting traversal. +type CommonExprs = IndexMap; /// Performs Common Sub-expression Elimination optimization. /// @@ -131,6 +127,7 @@ impl CommonSubexprEliminate { arrays_list: &[&[IdArray]], expr_stats: &ExprStats, common_exprs: &mut CommonExprs, + alias_generator: &AliasGenerator, ) -> Result>> { exprs_list .iter() @@ -141,7 +138,13 @@ impl CommonSubexprEliminate { .cloned() .zip(arrays.iter()) .map(|(expr, id_array)| { - replace_common_expr(expr, id_array, expr_stats, common_exprs) + replace_common_expr( + expr, + id_array, + expr_stats, + common_exprs, + alias_generator, + ) }) .collect::>>() }) @@ -164,21 +167,21 @@ impl CommonSubexprEliminate { expr_stats: &ExprStats, config: &dyn OptimizerConfig, ) -> Result<(Vec>, LogicalPlan)> { - let mut common_exprs = IndexMap::new(); - + let mut common_exprs = CommonExprs::new(); let rewrite_exprs = self.rewrite_exprs_list( exprs_list, arrays_list, expr_stats, &mut common_exprs, + &config.alias_generator(), )?; let mut new_input = self .try_optimize(input, config)? .unwrap_or_else(|| input.clone()); + if !common_exprs.is_empty() { - new_input = - build_common_expr_project_plan(new_input, common_exprs, expr_stats)?; + new_input = build_common_expr_project_plan(new_input, common_exprs)?; } Ok((rewrite_exprs, new_input)) @@ -209,13 +212,7 @@ impl CommonSubexprEliminate { } = window; plan = input.as_ref().clone(); - let input_schema = Arc::clone(input.schema()); - let arrays = to_arrays( - &window_expr, - input_schema, - &mut expr_stats, - ExprMask::Normal, - )?; + let arrays = to_arrays(&window_expr, &mut expr_stats, ExprMask::Normal)?; window_exprs.push(window_expr); arrays_per_window.push(arrays); @@ -277,15 +274,8 @@ impl CommonSubexprEliminate { let mut expr_stats = ExprStats::new(); // rewrite inputs - let input_schema = Arc::clone(input.schema()); - let group_arrays = to_arrays( - group_expr, - Arc::clone(&input_schema), - &mut expr_stats, - ExprMask::Normal, - )?; - let aggr_arrays = - to_arrays(aggr_expr, input_schema, &mut expr_stats, ExprMask::Normal)?; + let group_arrays = to_arrays(group_expr, &mut expr_stats, ExprMask::Normal)?; + let aggr_arrays = to_arrays(aggr_expr, &mut expr_stats, ExprMask::Normal)?; let (mut new_expr, new_input) = self.rewrite_expr( &[group_expr, aggr_expr], @@ -303,16 +293,16 @@ impl CommonSubexprEliminate { let new_input_schema = Arc::clone(new_input.schema()); let aggr_arrays = to_arrays( &new_aggr_expr, - new_input_schema.clone(), &mut expr_stats, ExprMask::NormalAndAggregates, )?; - let mut common_exprs = IndexMap::new(); + let mut common_exprs = CommonExprs::new(); let mut rewritten = self.rewrite_exprs_list( &[&new_aggr_expr], &[&aggr_arrays], &expr_stats, &mut common_exprs, + &config.alias_generator(), )?; let rewritten = pop_expr(&mut rewritten)?; @@ -330,11 +320,8 @@ impl CommonSubexprEliminate { .map(LogicalPlan::Aggregate) } else { let mut agg_exprs = common_exprs - .into_iter() - .map(|(expr_id, expr)| { - // todo: check `nullable` - expr.alias(expr_id) - }) + .into_values() + .map(|(expr, expr_alias)| expr.alias(expr_alias)) .collect::>(); let mut proj_exprs = vec![]; @@ -347,14 +334,15 @@ impl CommonSubexprEliminate { agg_exprs.push(expr.alias(&name)); proj_exprs.push(Expr::Column(Column::from_name(name))); } else { - let id = expr_identifier(&expr_rewritten, "".to_string()); + let expr_alias = config.alias_generator().next(CSE_PREFIX); let (qualifier, field) = expr_rewritten.to_field(&new_input_schema)?; let out_name = qualified_name(qualifier.as_ref(), field.name()); - agg_exprs.push(expr_rewritten.alias(&id)); - proj_exprs - .push(Expr::Column(Column::from_name(id)).alias(out_name)); + agg_exprs.push(expr_rewritten.alias(&expr_alias)); + proj_exprs.push( + Expr::Column(Column::from_name(expr_alias)).alias(out_name), + ); } } else { proj_exprs.push(expr_rewritten); @@ -382,11 +370,10 @@ impl CommonSubexprEliminate { let expr = plan.expressions(); let inputs = plan.inputs(); let input = inputs[0]; - let input_schema = Arc::clone(input.schema()); let mut expr_stats = ExprStats::new(); // Visit expr list and build expr identifier to occuring count map (`expr_stats`). - let arrays = to_arrays(&expr, input_schema, &mut expr_stats, ExprMask::Normal)?; + let arrays = to_arrays(&expr, &mut expr_stats, ExprMask::Normal)?; let (mut new_expr, new_input) = self.rewrite_expr(&[&expr], &[&arrays], input, &expr_stats, config)?; @@ -477,20 +464,13 @@ fn pop_expr(new_expr: &mut Vec>) -> Result> { fn to_arrays( expr: &[Expr], - input_schema: DFSchemaRef, expr_stats: &mut ExprStats, expr_mask: ExprMask, ) -> Result> { expr.iter() .map(|e| { let mut id_array = vec![]; - expr_to_identifier( - e, - expr_stats, - &mut id_array, - Arc::clone(&input_schema), - expr_mask, - )?; + expr_to_identifier(e, expr_stats, &mut id_array, expr_mask)?; Ok(id_array) }) @@ -510,19 +490,13 @@ fn to_arrays( fn build_common_expr_project_plan( input: LogicalPlan, common_exprs: CommonExprs, - expr_stats: &ExprStats, ) -> Result { let mut fields_set = BTreeSet::new(); let mut project_exprs = common_exprs - .into_iter() - .map(|(expr_id, expr)| { - let Some((_, data_type)) = expr_stats.get(&expr_id) else { - return internal_err!("expr_stats invalid state"); - }; - // todo: check `nullable` - let field = Field::new(&expr_id, data_type.clone(), true); - fields_set.insert(field.name().to_owned()); - Ok(expr.alias(expr_id)) + .into_values() + .map(|(expr, expr_alias)| { + fields_set.insert(expr_alias.clone()); + Ok(expr.alias(expr_alias)) }) .collect::>>()?; @@ -637,9 +611,6 @@ struct ExprIdentifierVisitor<'a> { expr_stats: &'a mut ExprStats, // cache to speed up second traversal id_array: &'a mut IdArray, - // input schema for the node that we're optimizing, so we can determine the correct datatype - // for each subexpression - input_schema: DFSchemaRef, // inner states visit_stack: Vec, // preorder index, start from 0. @@ -714,14 +685,7 @@ impl<'n> TreeNodeVisitor<'n> for ExprIdentifierVisitor<'_> { self.id_array[down_index].0 = self.up_index; if !self.expr_mask.ignores(expr) { self.id_array[down_index].1.clone_from(&expr_id); - - // TODO: can we capture the data type in the second traversal only for - // replaced expressions? - let data_type = expr.get_type(&self.input_schema)?; - let (count, _) = self - .expr_stats - .entry(expr_id.clone()) - .or_insert((0, data_type)); + let count = self.expr_stats.entry(expr_id.clone()).or_insert(0); *count += 1; } self.visit_stack.push(VisitRecord::ExprItem(expr_id)); @@ -740,13 +704,11 @@ fn expr_to_identifier( expr: &Expr, expr_stats: &mut ExprStats, id_array: &mut IdArray, - input_schema: DFSchemaRef, expr_mask: ExprMask, ) -> Result<()> { expr.visit(&mut ExprIdentifierVisitor { expr_stats, id_array, - input_schema, visit_stack: vec![], down_index: 0, up_index: 0, @@ -771,6 +733,8 @@ struct CommonSubexprRewriter<'a> { down_index: usize, // how many aliases have we seen so far alias_counter: usize, + // alias generator for extracted common expressions + alias_generator: &'a AliasGenerator, } impl TreeNodeRewriter for CommonSubexprRewriter<'_> { @@ -780,17 +744,18 @@ impl TreeNodeRewriter for CommonSubexprRewriter<'_> { if matches!(expr, Expr::Alias(_)) { self.alias_counter -= 1 } + Ok(Transformed::no(expr)) } fn f_down(&mut self, expr: Expr) -> Result> { - // The `CommonSubexprRewriter` relies on `ExprIdentifierVisitor` to generate - // the `id_array`, which records the expr's identifier used to rewrite expr. So if we - // skip an expr in `ExprIdentifierVisitor`, we should skip it here, too. if matches!(expr, Expr::Alias(_)) { self.alias_counter += 1; } + // The `CommonSubexprRewriter` relies on `ExprIdentifierVisitor` to generate + // the `id_array`, which records the expr's identifier used to rewrite expr. So if we + // skip an expr in `ExprIdentifierVisitor`, we should skip it here, too. if expr.short_circuits() || expr.is_volatile()? { return Ok(Transformed::new(expr, false, TreeNodeRecursion::Jump)); } @@ -803,8 +768,8 @@ impl TreeNodeRewriter for CommonSubexprRewriter<'_> { return Ok(Transformed::no(expr)); } - let (counter, _) = self.expr_stats.get(expr_id).unwrap(); - if *counter > 1 { + let count = self.expr_stats.get(expr_id).unwrap(); + if *count > 1 { // step index to skip all sub-node (which has smaller series number). while self.down_index < self.id_array.len() && self.id_array[self.down_index].0 < *up_index @@ -813,14 +778,18 @@ impl TreeNodeRewriter for CommonSubexprRewriter<'_> { } let expr_name = expr.display_name()?; - self.common_exprs.insert(expr_id.clone(), expr); + let (_, expr_alias) = + self.common_exprs.entry(expr_id.clone()).or_insert_with(|| { + let expr_alias = self.alias_generator.next(CSE_PREFIX); + (expr, expr_alias) + }); // alias the expressions without an `Alias` ancestor node let rewritten = if self.alias_counter > 0 { - col(expr_id) + col(expr_alias.clone()) } else { self.alias_counter += 1; - col(expr_id).alias(expr_name) + col(expr_alias.clone()).alias(expr_name) }; Ok(Transformed::new(rewritten, true, TreeNodeRecursion::Jump)) @@ -837,6 +806,7 @@ fn replace_common_expr( id_array: &IdArray, expr_stats: &ExprStats, common_exprs: &mut CommonExprs, + alias_generator: &AliasGenerator, ) -> Result { expr.rewrite(&mut CommonSubexprRewriter { expr_stats, @@ -844,6 +814,7 @@ fn replace_common_expr( common_exprs, down_index: 0, alias_counter: 0, + alias_generator, }) .data() } @@ -852,7 +823,7 @@ fn replace_common_expr( mod test { use std::iter; - use arrow::datatypes::Schema; + use arrow::datatypes::{DataType, Field, Schema}; use datafusion_expr::logical_plan::{table_scan, JoinType}; @@ -868,10 +839,16 @@ mod test { use super::*; - fn assert_optimized_plan_eq(expected: &str, plan: &LogicalPlan) { + fn assert_optimized_plan_eq( + expected: &str, + plan: &LogicalPlan, + config: Option<&dyn OptimizerConfig>, + ) { let optimizer = CommonSubexprEliminate {}; + let default_config = OptimizerContext::new(); + let config = config.unwrap_or(&default_config); let optimized_plan = optimizer - .try_optimize(plan, &OptimizerContext::new()) + .try_optimize(plan, config) .unwrap() .expect("failed to optimize plan"); let formatted_plan = format!("{optimized_plan:?}"); @@ -882,24 +859,9 @@ mod test { fn id_array_visitor() -> Result<()> { let expr = ((sum(col("a") + lit(1))) - avg(col("c"))) * lit(2); - let schema = Arc::new(DFSchema::from_unqualifed_fields( - vec![ - Field::new("a", DataType::Int64, false), - Field::new("c", DataType::Int64, false), - ] - .into(), - Default::default(), - )?); - // skip aggregates let mut id_array = vec![]; - expr_to_identifier( - &expr, - &mut HashMap::new(), - &mut id_array, - Arc::clone(&schema), - ExprMask::Normal, - )?; + expr_to_identifier(&expr, &mut HashMap::new(), &mut id_array, ExprMask::Normal)?; let expected = vec![ (8, "{(sum(a + Int32(1)) - AVG(c)) * Int32(2)|{Int32(2)}|{sum(a + Int32(1)) - AVG(c)|{AVG(c)|{c}}|{sum(a + Int32(1))|{a + Int32(1)|{Int32(1)}|{a}}}}}"), @@ -923,7 +885,6 @@ mod test { &expr, &mut HashMap::new(), &mut id_array, - Arc::clone(&schema), ExprMask::NormalAndAggregates, )?; @@ -968,11 +929,11 @@ mod test { )? .build()?; - let expected = "Aggregate: groupBy=[[]], aggr=[[sum({test.a * (Int32(1) - test.b)|{Int32(1) - test.b|{test.b}|{Int32(1)}}|{test.a}} AS test.a * Int32(1) - test.b), sum({test.a * (Int32(1) - test.b)|{Int32(1) - test.b|{test.b}|{Int32(1)}}|{test.a}} AS test.a * Int32(1) - test.b * (Int32(1) + test.c))]]\ - \n Projection: test.a * (Int32(1) - test.b) AS {test.a * (Int32(1) - test.b)|{Int32(1) - test.b|{test.b}|{Int32(1)}}|{test.a}}, test.a, test.b, test.c\ + let expected = "Aggregate: groupBy=[[]], aggr=[[sum(__common_expr_1 AS test.a * Int32(1) - test.b), sum(__common_expr_1 AS test.a * Int32(1) - test.b * (Int32(1) + test.c))]]\ + \n Projection: test.a * (Int32(1) - test.b) AS __common_expr_1, test.a, test.b, test.c\ \n TableScan: test"; - assert_optimized_plan_eq(expected, &plan); + assert_optimized_plan_eq(expected, &plan, None); Ok(()) } @@ -988,11 +949,11 @@ mod test { ])? .build()?; - let expected = "Projection: {test.a + test.b|{test.b}|{test.a}} - test.c AS alias1 * {test.a + test.b|{test.b}|{test.a}} AS test.a + test.b, {test.a + test.b|{test.b}|{test.a}} AS test.a + test.b\ - \n Projection: test.a + test.b AS {test.a + test.b|{test.b}|{test.a}}, test.a, test.b, test.c\ + let expected = "Projection: __common_expr_1 - test.c AS alias1 * __common_expr_1 AS test.a + test.b, __common_expr_1 AS test.a + test.b\ + \n Projection: test.a + test.b AS __common_expr_1, test.a, test.b, test.c\ \n TableScan: test"; - assert_optimized_plan_eq(expected, &plan); + assert_optimized_plan_eq(expected, &plan, None); Ok(()) } @@ -1041,11 +1002,11 @@ mod test { )? .build()?; - let expected = "Projection: {AVG(test.a)|{test.a}} AS col1, {AVG(test.a)|{test.a}} AS col2, col3, {AVG(test.c)} AS AVG(test.c), {my_agg(test.a)|{test.a}} AS col4, {my_agg(test.a)|{test.a}} AS col5, col6, {my_agg(test.c)} AS my_agg(test.c)\ - \n Aggregate: groupBy=[[]], aggr=[[AVG(test.a) AS {AVG(test.a)|{test.a}}, my_agg(test.a) AS {my_agg(test.a)|{test.a}}, AVG(test.b) AS col3, AVG(test.c) AS {AVG(test.c)}, my_agg(test.b) AS col6, my_agg(test.c) AS {my_agg(test.c)}]]\ + let expected = "Projection: __common_expr_1 AS col1, __common_expr_1 AS col2, col3, __common_expr_3 AS AVG(test.c), __common_expr_2 AS col4, __common_expr_2 AS col5, col6, __common_expr_4 AS my_agg(test.c)\ + \n Aggregate: groupBy=[[]], aggr=[[AVG(test.a) AS __common_expr_1, my_agg(test.a) AS __common_expr_2, AVG(test.b) AS col3, AVG(test.c) AS __common_expr_3, my_agg(test.b) AS col6, my_agg(test.c) AS __common_expr_4]]\ \n TableScan: test"; - assert_optimized_plan_eq(expected, &plan); + assert_optimized_plan_eq(expected, &plan, None); // test: trafo after aggregate let plan = LogicalPlanBuilder::from(table_scan.clone()) @@ -1060,11 +1021,11 @@ mod test { )? .build()?; - let expected = "Projection: Int32(1) + {AVG(test.a)|{test.a}} AS AVG(test.a), Int32(1) - {AVG(test.a)|{test.a}} AS AVG(test.a), Int32(1) + {my_agg(test.a)|{test.a}} AS my_agg(test.a), Int32(1) - {my_agg(test.a)|{test.a}} AS my_agg(test.a)\ - \n Aggregate: groupBy=[[]], aggr=[[AVG(test.a) AS {AVG(test.a)|{test.a}}, my_agg(test.a) AS {my_agg(test.a)|{test.a}}]]\ + let expected = "Projection: Int32(1) + __common_expr_1 AS AVG(test.a), Int32(1) - __common_expr_1 AS AVG(test.a), Int32(1) + __common_expr_2 AS my_agg(test.a), Int32(1) - __common_expr_2 AS my_agg(test.a)\ + \n Aggregate: groupBy=[[]], aggr=[[AVG(test.a) AS __common_expr_1, my_agg(test.a) AS __common_expr_2]]\ \n TableScan: test"; - assert_optimized_plan_eq(expected, &plan); + assert_optimized_plan_eq(expected, &plan, None); // test: transformation before aggregate let plan = LogicalPlanBuilder::from(table_scan.clone()) @@ -1077,9 +1038,11 @@ mod test { )? .build()?; - let expected = "Aggregate: groupBy=[[]], aggr=[[AVG({UInt32(1) + test.a|{test.a}|{UInt32(1)}}) AS col1, my_agg({UInt32(1) + test.a|{test.a}|{UInt32(1)}}) AS col2]]\n Projection: UInt32(1) + test.a AS {UInt32(1) + test.a|{test.a}|{UInt32(1)}}, test.a, test.b, test.c\n TableScan: test"; + let expected ="Aggregate: groupBy=[[]], aggr=[[AVG(__common_expr_1) AS col1, my_agg(__common_expr_1) AS col2]]\ + \n Projection: UInt32(1) + test.a AS __common_expr_1, test.a, test.b, test.c\ + \n TableScan: test"; - assert_optimized_plan_eq(expected, &plan); + assert_optimized_plan_eq(expected, &plan, None); // test: common between agg and group let plan = LogicalPlanBuilder::from(table_scan.clone()) @@ -1092,11 +1055,11 @@ mod test { )? .build()?; - let expected = "Aggregate: groupBy=[[{UInt32(1) + test.a|{test.a}|{UInt32(1)}} AS UInt32(1) + test.a]], aggr=[[AVG({UInt32(1) + test.a|{test.a}|{UInt32(1)}}) AS col1, my_agg({UInt32(1) + test.a|{test.a}|{UInt32(1)}}) AS col2]]\ - \n Projection: UInt32(1) + test.a AS {UInt32(1) + test.a|{test.a}|{UInt32(1)}}, test.a, test.b, test.c\ + let expected = "Aggregate: groupBy=[[__common_expr_1 AS UInt32(1) + test.a]], aggr=[[AVG(__common_expr_1) AS col1, my_agg(__common_expr_1) AS col2]]\ + \n Projection: UInt32(1) + test.a AS __common_expr_1, test.a, test.b, test.c\ \n TableScan: test"; - assert_optimized_plan_eq(expected, &plan); + assert_optimized_plan_eq(expected, &plan, None); // test: all mixed let plan = LogicalPlanBuilder::from(table_scan) @@ -1113,18 +1076,18 @@ mod test { )? .build()?; - let expected = "Projection: UInt32(1) + test.a, UInt32(1) + {AVG({UInt32(1) + test.a|{test.a}|{UInt32(1)}})|{{UInt32(1) + test.a|{test.a}|{UInt32(1)}}}} AS col1, UInt32(1) - {AVG({UInt32(1) + test.a|{test.a}|{UInt32(1)}})|{{UInt32(1) + test.a|{test.a}|{UInt32(1)}}}} AS col2, {AVG({UInt32(1) + test.a|{test.a}|{UInt32(1)}} AS UInt32(1) + test.a)} AS AVG(UInt32(1) + test.a), UInt32(1) + {my_agg({UInt32(1) + test.a|{test.a}|{UInt32(1)}})|{{UInt32(1) + test.a|{test.a}|{UInt32(1)}}}} AS col3, UInt32(1) - {my_agg({UInt32(1) + test.a|{test.a}|{UInt32(1)}})|{{UInt32(1) + test.a|{test.a}|{UInt32(1)}}}} AS col4, {my_agg({UInt32(1) + test.a|{test.a}|{UInt32(1)}} AS UInt32(1) + test.a)} AS my_agg(UInt32(1) + test.a)\ - \n Aggregate: groupBy=[[{UInt32(1) + test.a|{test.a}|{UInt32(1)}} AS UInt32(1) + test.a]], aggr=[[AVG({UInt32(1) + test.a|{test.a}|{UInt32(1)}}) AS {AVG({UInt32(1) + test.a|{test.a}|{UInt32(1)}})|{{UInt32(1) + test.a|{test.a}|{UInt32(1)}}}}, my_agg({UInt32(1) + test.a|{test.a}|{UInt32(1)}}) AS {my_agg({UInt32(1) + test.a|{test.a}|{UInt32(1)}})|{{UInt32(1) + test.a|{test.a}|{UInt32(1)}}}}, AVG({UInt32(1) + test.a|{test.a}|{UInt32(1)}} AS UInt32(1) + test.a) AS {AVG({UInt32(1) + test.a|{test.a}|{UInt32(1)}} AS UInt32(1) + test.a)}, my_agg({UInt32(1) + test.a|{test.a}|{UInt32(1)}} AS UInt32(1) + test.a) AS {my_agg({UInt32(1) + test.a|{test.a}|{UInt32(1)}} AS UInt32(1) + test.a)}]]\ - \n Projection: UInt32(1) + test.a AS {UInt32(1) + test.a|{test.a}|{UInt32(1)}}, test.a, test.b, test.c\ + let expected = "Projection: UInt32(1) + test.a, UInt32(1) + __common_expr_2 AS col1, UInt32(1) - __common_expr_2 AS col2, __common_expr_4 AS AVG(UInt32(1) + test.a), UInt32(1) + __common_expr_3 AS col3, UInt32(1) - __common_expr_3 AS col4, __common_expr_5 AS my_agg(UInt32(1) + test.a)\ + \n Aggregate: groupBy=[[__common_expr_1 AS UInt32(1) + test.a]], aggr=[[AVG(__common_expr_1) AS __common_expr_2, my_agg(__common_expr_1) AS __common_expr_3, AVG(__common_expr_1 AS UInt32(1) + test.a) AS __common_expr_4, my_agg(__common_expr_1 AS UInt32(1) + test.a) AS __common_expr_5]]\ + \n Projection: UInt32(1) + test.a AS __common_expr_1, test.a, test.b, test.c\ \n TableScan: test"; - assert_optimized_plan_eq(expected, &plan); + assert_optimized_plan_eq(expected, &plan, None); Ok(()) } #[test] - fn aggregate_with_releations_and_dots() -> Result<()> { + fn aggregate_with_relations_and_dots() -> Result<()> { let schema = Schema::new(vec![Field::new("col.a", DataType::UInt32, false)]); let table_scan = table_scan(Some("table.test"), &schema, None)?.build()?; @@ -1140,12 +1103,12 @@ mod test { )? .build()?; - let expected = "Projection: table.test.col.a, UInt32(1) + {AVG({UInt32(1) + table.test.col.a|{table.test.col.a}|{UInt32(1)}} AS UInt32(1) + table.test.col.a)|{{UInt32(1) + table.test.col.a|{table.test.col.a}|{UInt32(1)}} AS UInt32(1) + table.test.col.a|{{UInt32(1) + table.test.col.a|{table.test.col.a}|{UInt32(1)}}}}} AS AVG(UInt32(1) + table.test.col.a), {AVG({UInt32(1) + table.test.col.a|{table.test.col.a}|{UInt32(1)}} AS UInt32(1) + table.test.col.a)|{{UInt32(1) + table.test.col.a|{table.test.col.a}|{UInt32(1)}} AS UInt32(1) + table.test.col.a|{{UInt32(1) + table.test.col.a|{table.test.col.a}|{UInt32(1)}}}}} AS AVG(UInt32(1) + table.test.col.a)\ - \n Aggregate: groupBy=[[table.test.col.a]], aggr=[[AVG({UInt32(1) + table.test.col.a|{table.test.col.a}|{UInt32(1)}} AS UInt32(1) + table.test.col.a) AS {AVG({UInt32(1) + table.test.col.a|{table.test.col.a}|{UInt32(1)}} AS UInt32(1) + table.test.col.a)|{{UInt32(1) + table.test.col.a|{table.test.col.a}|{UInt32(1)}} AS UInt32(1) + table.test.col.a|{{UInt32(1) + table.test.col.a|{table.test.col.a}|{UInt32(1)}}}}}]]\ - \n Projection: UInt32(1) + table.test.col.a AS {UInt32(1) + table.test.col.a|{table.test.col.a}|{UInt32(1)}}, table.test.col.a\ + let expected = "Projection: table.test.col.a, UInt32(1) + __common_expr_2 AS AVG(UInt32(1) + table.test.col.a), __common_expr_2 AS AVG(UInt32(1) + table.test.col.a)\ + \n Aggregate: groupBy=[[table.test.col.a]], aggr=[[AVG(__common_expr_1 AS UInt32(1) + table.test.col.a) AS __common_expr_2]]\ + \n Projection: UInt32(1) + table.test.col.a AS __common_expr_1, table.test.col.a\ \n TableScan: table.test"; - assert_optimized_plan_eq(expected, &plan); + assert_optimized_plan_eq(expected, &plan, None); Ok(()) } @@ -1161,11 +1124,11 @@ mod test { ])? .build()?; - let expected = "Projection: {Int32(1) + test.a|{test.a}|{Int32(1)}} AS first, {Int32(1) + test.a|{test.a}|{Int32(1)}} AS second\ - \n Projection: Int32(1) + test.a AS {Int32(1) + test.a|{test.a}|{Int32(1)}}, test.a, test.b, test.c\ + let expected = "Projection: __common_expr_1 AS first, __common_expr_1 AS second\ + \n Projection: Int32(1) + test.a AS __common_expr_1, test.a, test.b, test.c\ \n TableScan: test"; - assert_optimized_plan_eq(expected, &plan); + assert_optimized_plan_eq(expected, &plan, None); Ok(()) } @@ -1181,7 +1144,7 @@ mod test { let expected = "Projection: Int32(1) + test.a, test.a + Int32(1)\ \n TableScan: test"; - assert_optimized_plan_eq(expected, &plan); + assert_optimized_plan_eq(expected, &plan, None); Ok(()) } @@ -1199,35 +1162,35 @@ mod test { \n Projection: Int32(1) + test.a, test.a\ \n TableScan: test"; - assert_optimized_plan_eq(expected, &plan); + assert_optimized_plan_eq(expected, &plan, None); Ok(()) } #[test] fn redundant_project_fields() { let table_scan = test_table_scan().unwrap(); - let expr_stats_1 = ExprStats::from([ - ("c+a".to_string(), (1, DataType::UInt32)), - ("b+a".to_string(), (1, DataType::UInt32)), - ]); - let common_exprs_1 = IndexMap::from([ - ("c+a".to_string(), col("c") + col("a")), - ("b+a".to_string(), col("b") + col("a")), - ]); - let exprs_stats_2 = ExprStats::from([ - ("c+a".to_string(), (1, DataType::UInt32)), - ("b+a".to_string(), (1, DataType::UInt32)), + let common_exprs_1 = CommonExprs::from([ + ( + "c+a".to_string(), + (col("c") + col("a"), format!("{CSE_PREFIX}_1")), + ), + ( + "b+a".to_string(), + (col("b") + col("a"), format!("{CSE_PREFIX}_2")), + ), ]); - let common_exprs_2 = IndexMap::from([ - ("c+a".to_string(), col("c+a")), - ("b+a".to_string(), col("b+a")), + let common_exprs_2 = CommonExprs::from([ + ( + "c+a".to_string(), + (col(format!("{CSE_PREFIX}_1")), format!("{CSE_PREFIX}_3")), + ), + ( + "b+a".to_string(), + (col(format!("{CSE_PREFIX}_2")), format!("{CSE_PREFIX}_4")), + ), ]); - let project = - build_common_expr_project_plan(table_scan, common_exprs_1, &expr_stats_1) - .unwrap(); - let project_2 = - build_common_expr_project_plan(project, common_exprs_2, &exprs_stats_2) - .unwrap(); + let project = build_common_expr_project_plan(table_scan, common_exprs_1).unwrap(); + let project_2 = build_common_expr_project_plan(project, common_exprs_2).unwrap(); let mut field_set = BTreeSet::new(); for name in project_2.schema().field_names() { @@ -1244,33 +1207,28 @@ mod test { .unwrap() .build() .unwrap(); - let expr_stats_1 = ExprStats::from([ - ("test1.c+test1.a".to_string(), (1, DataType::UInt32)), - ("test1.b+test1.a".to_string(), (1, DataType::UInt32)), - ]); - let common_exprs_1 = IndexMap::from([ + let common_exprs_1 = CommonExprs::from([ ( "test1.c+test1.a".to_string(), - col("test1.c") + col("test1.a"), + (col("test1.c") + col("test1.a"), format!("{CSE_PREFIX}_1")), ), ( "test1.b+test1.a".to_string(), - col("test1.b") + col("test1.a"), + (col("test1.b") + col("test1.a"), format!("{CSE_PREFIX}_2")), ), ]); - let expr_stats_2 = ExprStats::from([ - ("test1.c+test1.a".to_string(), (1, DataType::UInt32)), - ("test1.b+test1.a".to_string(), (1, DataType::UInt32)), - ]); - let common_exprs_2 = IndexMap::from([ - ("test1.c+test1.a".to_string(), col("test1.c+test1.a")), - ("test1.b+test1.a".to_string(), col("test1.b+test1.a")), + let common_exprs_2 = CommonExprs::from([ + ( + "test1.c+test1.a".to_string(), + (col(format!("{CSE_PREFIX}_1")), format!("{CSE_PREFIX}_3")), + ), + ( + "test1.b+test1.a".to_string(), + (col(format!("{CSE_PREFIX}_2")), format!("{CSE_PREFIX}_4")), + ), ]); - let project = - build_common_expr_project_plan(join, common_exprs_1, &expr_stats_1).unwrap(); - let project_2 = - build_common_expr_project_plan(project, common_exprs_2, &expr_stats_2) - .unwrap(); + let project = build_common_expr_project_plan(join, common_exprs_1).unwrap(); + let project_2 = build_common_expr_project_plan(project, common_exprs_2).unwrap(); let mut field_set = BTreeSet::new(); for name in project_2.schema().field_names() { @@ -1337,11 +1295,11 @@ mod test { .build()?; let expected = "Projection: test.a, test.b, test.c\ - \n Filter: {Int32(1) + test.a|{test.a}|{Int32(1)}} - Int32(10) > {Int32(1) + test.a|{test.a}|{Int32(1)}}\ - \n Projection: Int32(1) + test.a AS {Int32(1) + test.a|{test.a}|{Int32(1)}}, test.a, test.b, test.c\ + \n Filter: __common_expr_1 - Int32(10) > __common_expr_1\ + \n Projection: Int32(1) + test.a AS __common_expr_1, test.a, test.b, test.c\ \n TableScan: test"; - assert_optimized_plan_eq(expected, &plan); + assert_optimized_plan_eq(expected, &plan, None); Ok(()) } @@ -1383,6 +1341,58 @@ mod test { Ok(()) } + #[test] + fn test_alias_collision() -> Result<()> { + let table_scan = test_table_scan()?; + + let config = &OptimizerContext::new(); + let common_expr_1 = config.alias_generator().next(CSE_PREFIX); + let plan = LogicalPlanBuilder::from(table_scan.clone()) + .project(vec![ + (col("a") + col("b")).alias(common_expr_1.clone()), + col("c"), + ])? + .project(vec![ + col(common_expr_1.clone()).alias("c1"), + col(common_expr_1).alias("c2"), + (col("c") + lit(2)).alias("c3"), + (col("c") + lit(2)).alias("c4"), + ])? + .build()?; + + let expected = "Projection: __common_expr_1 AS c1, __common_expr_1 AS c2, __common_expr_2 AS c3, __common_expr_2 AS c4\ + \n Projection: test.c + Int32(2) AS __common_expr_2, __common_expr_1, test.c\ + \n Projection: test.a + test.b AS __common_expr_1, test.c\ + \n TableScan: test"; + + assert_optimized_plan_eq(expected, &plan, Some(config)); + + let config = &OptimizerContext::new(); + let _common_expr_1 = config.alias_generator().next(CSE_PREFIX); + let common_expr_2 = config.alias_generator().next(CSE_PREFIX); + let plan = LogicalPlanBuilder::from(table_scan.clone()) + .project(vec![ + (col("a") + col("b")).alias(common_expr_2.clone()), + col("c"), + ])? + .project(vec![ + col(common_expr_2.clone()).alias("c1"), + col(common_expr_2).alias("c2"), + (col("c") + lit(2)).alias("c3"), + (col("c") + lit(2)).alias("c4"), + ])? + .build()?; + + let expected = "Projection: __common_expr_2 AS c1, __common_expr_2 AS c2, __common_expr_3 AS c3, __common_expr_3 AS c4\ + \n Projection: test.c + Int32(2) AS __common_expr_3, __common_expr_2, test.c\ + \n Projection: test.a + test.b AS __common_expr_2, test.c\ + \n TableScan: test"; + + assert_optimized_plan_eq(expected, &plan, Some(config)); + + Ok(()) + } + #[test] fn test_extract_expressions_from_col() -> Result<()> { let mut result = Vec::with_capacity(1); diff --git a/datafusion/sqllogictest/test_files/group_by.slt b/datafusion/sqllogictest/test_files/group_by.slt index 9e8a2450e0a5a..8ccf3ae853454 100644 --- a/datafusion/sqllogictest/test_files/group_by.slt +++ b/datafusion/sqllogictest/test_files/group_by.slt @@ -4187,8 +4187,8 @@ EXPLAIN SELECT SUM(DISTINCT CAST(x AS DOUBLE)), MAX(DISTINCT CAST(x AS DOUBLE)) logical_plan 01)Projection: sum(alias1) AS sum(DISTINCT t1.x), MAX(alias1) AS MAX(DISTINCT t1.x) 02)--Aggregate: groupBy=[[t1.y]], aggr=[[sum(alias1), MAX(alias1)]] -03)----Aggregate: groupBy=[[t1.y, {CAST(t1.x AS Float64)|{t1.x}} AS t1.x AS alias1]], aggr=[[]] -04)------Projection: CAST(t1.x AS Float64) AS {CAST(t1.x AS Float64)|{t1.x}}, t1.y +03)----Aggregate: groupBy=[[t1.y, __common_expr_1 AS t1.x AS alias1]], aggr=[[]] +04)------Projection: CAST(t1.x AS Float64) AS __common_expr_1, t1.y 05)--------TableScan: t1 projection=[x, y] physical_plan 01)ProjectionExec: expr=[sum(alias1)@1 as sum(DISTINCT t1.x), MAX(alias1)@2 as MAX(DISTINCT t1.x)] @@ -4200,8 +4200,8 @@ physical_plan 07)------------CoalesceBatchesExec: target_batch_size=2 08)--------------RepartitionExec: partitioning=Hash([y@0, alias1@1], 8), input_partitions=8 09)----------------RepartitionExec: partitioning=RoundRobinBatch(8), input_partitions=1 -10)------------------AggregateExec: mode=Partial, gby=[y@1 as y, {CAST(t1.x AS Float64)|{t1.x}}@0 as alias1], aggr=[] -11)--------------------ProjectionExec: expr=[CAST(x@0 AS Float64) as {CAST(t1.x AS Float64)|{t1.x}}, y@1 as y] +10)------------------AggregateExec: mode=Partial, gby=[y@1 as y, __common_expr_1@0 as alias1], aggr=[] +11)--------------------ProjectionExec: expr=[CAST(x@0 AS Float64) as __common_expr_1, y@1 as y] 12)----------------------MemoryExec: partitions=1, partition_sizes=[1] # create an unbounded table that contains ordered timestamp. diff --git a/datafusion/sqllogictest/test_files/select.slt b/datafusion/sqllogictest/test_files/select.slt index aae35c1ce7bf0..c8ef2b7f5e0bd 100644 --- a/datafusion/sqllogictest/test_files/select.slt +++ b/datafusion/sqllogictest/test_files/select.slt @@ -1436,12 +1436,12 @@ query TT EXPLAIN SELECT x/2, x/2+1 FROM t; ---- logical_plan -01)Projection: {t.x / Int64(2)|{Int64(2)}|{t.x}} AS t.x / Int64(2), {t.x / Int64(2)|{Int64(2)}|{t.x}} AS t.x / Int64(2) + Int64(1) -02)--Projection: t.x / Int64(2) AS {t.x / Int64(2)|{Int64(2)}|{t.x}} +01)Projection: __common_expr_1 AS t.x / Int64(2), __common_expr_1 AS t.x / Int64(2) + Int64(1) +02)--Projection: t.x / Int64(2) AS __common_expr_1 03)----TableScan: t projection=[x] physical_plan -01)ProjectionExec: expr=[{t.x / Int64(2)|{Int64(2)}|{t.x}}@0 as t.x / Int64(2), {t.x / Int64(2)|{Int64(2)}|{t.x}}@0 + 1 as t.x / Int64(2) + Int64(1)] -02)--ProjectionExec: expr=[x@0 / 2 as {t.x / Int64(2)|{Int64(2)}|{t.x}}] +01)ProjectionExec: expr=[__common_expr_1@0 as t.x / Int64(2), __common_expr_1@0 + 1 as t.x / Int64(2) + Int64(1)] +02)--ProjectionExec: expr=[x@0 / 2 as __common_expr_1] 03)----MemoryExec: partitions=1, partition_sizes=[1] query II @@ -1454,12 +1454,12 @@ query TT EXPLAIN SELECT abs(x), abs(x) + abs(y) FROM t; ---- logical_plan -01)Projection: {abs(t.x)|{t.x}} AS abs(t.x), {abs(t.x)|{t.x}} AS abs(t.x) + abs(t.y) -02)--Projection: abs(t.x) AS {abs(t.x)|{t.x}}, t.y +01)Projection: __common_expr_1 AS abs(t.x), __common_expr_1 AS abs(t.x) + abs(t.y) +02)--Projection: abs(t.x) AS __common_expr_1, t.y 03)----TableScan: t projection=[x, y] physical_plan -01)ProjectionExec: expr=[{abs(t.x)|{t.x}}@0 as abs(t.x), {abs(t.x)|{t.x}}@0 + abs(y@1) as abs(t.x) + abs(t.y)] -02)--ProjectionExec: expr=[abs(x@0) as {abs(t.x)|{t.x}}, y@1 as y] +01)ProjectionExec: expr=[__common_expr_1@0 as abs(t.x), __common_expr_1@0 + abs(y@1) as abs(t.x) + abs(t.y)] +02)--ProjectionExec: expr=[abs(x@0) as __common_expr_1, y@1 as y] 03)----MemoryExec: partitions=1, partition_sizes=[1] query II diff --git a/datafusion/sqllogictest/test_files/subquery.slt b/datafusion/sqllogictest/test_files/subquery.slt index eb0904b2308b4..f325d5567603b 100644 --- a/datafusion/sqllogictest/test_files/subquery.slt +++ b/datafusion/sqllogictest/test_files/subquery.slt @@ -1082,8 +1082,8 @@ query TT explain select a/2, a/2 + 1 from t ---- logical_plan -01)Projection: {t.a / Int64(2)|{Int64(2)}|{t.a}} AS t.a / Int64(2), {t.a / Int64(2)|{Int64(2)}|{t.a}} AS t.a / Int64(2) + Int64(1) -02)--Projection: t.a / Int64(2) AS {t.a / Int64(2)|{Int64(2)}|{t.a}} +01)Projection: __common_expr_1 AS t.a / Int64(2), __common_expr_1 AS t.a / Int64(2) + Int64(1) +02)--Projection: t.a / Int64(2) AS __common_expr_1 03)----TableScan: t projection=[a] statement ok @@ -1093,8 +1093,8 @@ query TT explain select a/2, a/2 + 1 from t ---- logical_plan -01)Projection: {t.a / Int64(2)|{Int64(2)}|{t.a}} AS t.a / Int64(2), {t.a / Int64(2)|{Int64(2)}|{t.a}} AS t.a / Int64(2) + Int64(1) -02)--Projection: t.a / Int64(2) AS {t.a / Int64(2)|{Int64(2)}|{t.a}} +01)Projection: __common_expr_1 AS t.a / Int64(2), __common_expr_1 AS t.a / Int64(2) + Int64(1) +02)--Projection: t.a / Int64(2) AS __common_expr_1 03)----TableScan: t projection=[a] ### diff --git a/datafusion/sqllogictest/test_files/tpch/q1.slt.part b/datafusion/sqllogictest/test_files/tpch/q1.slt.part index 5e0930b992283..5a21bdf276e3c 100644 --- a/datafusion/sqllogictest/test_files/tpch/q1.slt.part +++ b/datafusion/sqllogictest/test_files/tpch/q1.slt.part @@ -42,8 +42,8 @@ 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({lineitem.l_extendedprice * (Decimal128(Some(1),20,0) - lineitem.l_discount)|{Decimal128(Some(1),20,0) - lineitem.l_discount|{lineitem.l_discount}|{Decimal128(Some(1),20,0)}}|{lineitem.l_extendedprice}}) AS sum(lineitem.l_extendedprice * Int64(1) - lineitem.l_discount), sum({lineitem.l_extendedprice * (Decimal128(Some(1),20,0) - lineitem.l_discount)|{Decimal128(Some(1),20,0) - lineitem.l_discount|{lineitem.l_discount}|{Decimal128(Some(1),20,0)}}|{lineitem.l_extendedprice}} * (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 {lineitem.l_extendedprice * (Decimal128(Some(1),20,0) - lineitem.l_discount)|{Decimal128(Some(1),20,0) - lineitem.l_discount|{lineitem.l_discount}|{Decimal128(Some(1),20,0)}}|{lineitem.l_extendedprice}}, lineitem.l_quantity, lineitem.l_extendedprice, lineitem.l_discount, lineitem.l_tax, lineitem.l_returnflag, lineitem.l_linestatus +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 @@ -54,7 +54,7 @@ physical_plan 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(*)] -08)--------------ProjectionExec: expr=[l_extendedprice@1 * (Some(1),20,0 - l_discount@2) as {lineitem.l_extendedprice * (Decimal128(Some(1),20,0) - lineitem.l_discount)|{Decimal128(Some(1),20,0) - lineitem.l_discount|{lineitem.l_discount}|{Decimal128(Some(1),20,0)}}|{lineitem.l_extendedprice}}, 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] +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 11)--------------------CsvExec: file_groups={4 groups: [[WORKSPACE_ROOT/datafusion/sqllogictest/test_files/tpch/data/lineitem.tbl:0..18561749], [WORKSPACE_ROOT/datafusion/sqllogictest/test_files/tpch/data/lineitem.tbl:18561749..37123498], [WORKSPACE_ROOT/datafusion/sqllogictest/test_files/tpch/data/lineitem.tbl:37123498..55685247], [WORKSPACE_ROOT/datafusion/sqllogictest/test_files/tpch/data/lineitem.tbl:55685247..74246996]]}, projection=[l_quantity, l_extendedprice, l_discount, l_tax, l_returnflag, l_linestatus, l_shipdate], has_header=false diff --git a/datafusion/sqllogictest/test_files/window.slt b/datafusion/sqllogictest/test_files/window.slt index 99f92b65c3d1e..77b839f3f77a6 100644 --- a/datafusion/sqllogictest/test_files/window.slt +++ b/datafusion/sqllogictest/test_files/window.slt @@ -1718,20 +1718,20 @@ EXPLAIN SELECT c3, logical_plan 01)Projection: aggregate_test_100.c3, sum(aggregate_test_100.c9) ORDER BY [aggregate_test_100.c3 + aggregate_test_100.c4 DESC NULLS FIRST, aggregate_test_100.c9 DESC NULLS FIRST, aggregate_test_100.c2 ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW AS sum1, sum(aggregate_test_100.c9) ORDER BY [aggregate_test_100.c3 + aggregate_test_100.c4 ASC NULLS LAST, aggregate_test_100.c9 ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW AS sum2 02)--Limit: skip=0, fetch=5 -03)----WindowAggr: windowExpr=[[sum(aggregate_test_100.c9) ORDER BY [{aggregate_test_100.c3 + aggregate_test_100.c4|{aggregate_test_100.c4}|{aggregate_test_100.c3}} AS aggregate_test_100.c3 + aggregate_test_100.c4 ASC NULLS LAST, aggregate_test_100.c9 ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW AS sum(aggregate_test_100.c9) ORDER BY [aggregate_test_100.c3 + aggregate_test_100.c4 ASC NULLS LAST, aggregate_test_100.c9 ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW]] -04)------Projection: {aggregate_test_100.c3 + aggregate_test_100.c4|{aggregate_test_100.c4}|{aggregate_test_100.c3}}, aggregate_test_100.c3, aggregate_test_100.c9, sum(aggregate_test_100.c9) ORDER BY [aggregate_test_100.c3 + aggregate_test_100.c4 DESC NULLS FIRST, aggregate_test_100.c9 DESC NULLS FIRST, aggregate_test_100.c2 ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW -05)--------WindowAggr: windowExpr=[[sum(aggregate_test_100.c9) ORDER BY [{aggregate_test_100.c3 + aggregate_test_100.c4|{aggregate_test_100.c4}|{aggregate_test_100.c3}} AS aggregate_test_100.c3 + aggregate_test_100.c4 DESC NULLS FIRST, aggregate_test_100.c9 DESC NULLS FIRST, aggregate_test_100.c2 ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW AS sum(aggregate_test_100.c9) ORDER BY [aggregate_test_100.c3 + aggregate_test_100.c4 DESC NULLS FIRST, aggregate_test_100.c9 DESC NULLS FIRST, aggregate_test_100.c2 ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW]] -06)----------Projection: aggregate_test_100.c3 + aggregate_test_100.c4 AS {aggregate_test_100.c3 + aggregate_test_100.c4|{aggregate_test_100.c4}|{aggregate_test_100.c3}}, aggregate_test_100.c2, aggregate_test_100.c3, aggregate_test_100.c9 +03)----WindowAggr: windowExpr=[[sum(aggregate_test_100.c9) ORDER BY [__common_expr_1 AS aggregate_test_100.c3 + aggregate_test_100.c4 ASC NULLS LAST, aggregate_test_100.c9 ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW AS sum(aggregate_test_100.c9) ORDER BY [aggregate_test_100.c3 + aggregate_test_100.c4 ASC NULLS LAST, aggregate_test_100.c9 ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW]] +04)------Projection: __common_expr_1, aggregate_test_100.c3, aggregate_test_100.c9, sum(aggregate_test_100.c9) ORDER BY [aggregate_test_100.c3 + aggregate_test_100.c4 DESC NULLS FIRST, aggregate_test_100.c9 DESC NULLS FIRST, aggregate_test_100.c2 ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW +05)--------WindowAggr: windowExpr=[[sum(aggregate_test_100.c9) ORDER BY [__common_expr_1 AS aggregate_test_100.c3 + aggregate_test_100.c4 DESC NULLS FIRST, aggregate_test_100.c9 DESC NULLS FIRST, aggregate_test_100.c2 ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW AS sum(aggregate_test_100.c9) ORDER BY [aggregate_test_100.c3 + aggregate_test_100.c4 DESC NULLS FIRST, aggregate_test_100.c9 DESC NULLS FIRST, aggregate_test_100.c2 ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW]] +06)----------Projection: aggregate_test_100.c3 + aggregate_test_100.c4 AS __common_expr_1, aggregate_test_100.c2, aggregate_test_100.c3, aggregate_test_100.c9 07)------------TableScan: aggregate_test_100 projection=[c2, c3, c4, c9] physical_plan 01)ProjectionExec: expr=[c3@1 as c3, sum(aggregate_test_100.c9) ORDER BY [aggregate_test_100.c3 + aggregate_test_100.c4 DESC NULLS FIRST, aggregate_test_100.c9 DESC NULLS FIRST, aggregate_test_100.c2 ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW@3 as sum1, sum(aggregate_test_100.c9) ORDER BY [aggregate_test_100.c3 + aggregate_test_100.c4 ASC NULLS LAST, aggregate_test_100.c9 ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW@4 as sum2] 02)--GlobalLimitExec: skip=0, fetch=5 03)----WindowAggExec: wdw=[sum(aggregate_test_100.c9) ORDER BY [aggregate_test_100.c3 + aggregate_test_100.c4 ASC NULLS LAST, aggregate_test_100.c9 ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW: Ok(Field { name: "sum(aggregate_test_100.c9) ORDER BY [aggregate_test_100.c3 + aggregate_test_100.c4 ASC NULLS LAST, aggregate_test_100.c9 ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW", data_type: UInt64, nullable: true, dict_id: 0, dict_is_ordered: false, metadata: {} }), frame: WindowFrame { units: Range, start_bound: CurrentRow, end_bound: Following(Int16(NULL)), is_causal: false }] -04)------ProjectionExec: expr=[{aggregate_test_100.c3 + aggregate_test_100.c4|{aggregate_test_100.c4}|{aggregate_test_100.c3}}@0 as {aggregate_test_100.c3 + aggregate_test_100.c4|{aggregate_test_100.c4}|{aggregate_test_100.c3}}, c3@2 as c3, c9@3 as c9, sum(aggregate_test_100.c9) ORDER BY [aggregate_test_100.c3 + aggregate_test_100.c4 DESC NULLS FIRST, aggregate_test_100.c9 DESC NULLS FIRST, aggregate_test_100.c2 ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW@4 as sum(aggregate_test_100.c9) ORDER BY [aggregate_test_100.c3 + aggregate_test_100.c4 DESC NULLS FIRST, aggregate_test_100.c9 DESC NULLS FIRST, aggregate_test_100.c2 ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW] +04)------ProjectionExec: expr=[__common_expr_1@0 as __common_expr_1, c3@2 as c3, c9@3 as c9, sum(aggregate_test_100.c9) ORDER BY [aggregate_test_100.c3 + aggregate_test_100.c4 DESC NULLS FIRST, aggregate_test_100.c9 DESC NULLS FIRST, aggregate_test_100.c2 ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW@4 as sum(aggregate_test_100.c9) ORDER BY [aggregate_test_100.c3 + aggregate_test_100.c4 DESC NULLS FIRST, aggregate_test_100.c9 DESC NULLS FIRST, aggregate_test_100.c2 ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW] 05)--------BoundedWindowAggExec: wdw=[sum(aggregate_test_100.c9) ORDER BY [aggregate_test_100.c3 + aggregate_test_100.c4 DESC NULLS FIRST, aggregate_test_100.c9 DESC NULLS FIRST, aggregate_test_100.c2 ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW: Ok(Field { name: "sum(aggregate_test_100.c9) ORDER BY [aggregate_test_100.c3 + aggregate_test_100.c4 DESC NULLS FIRST, aggregate_test_100.c9 DESC NULLS FIRST, aggregate_test_100.c2 ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW", data_type: UInt64, nullable: true, dict_id: 0, dict_is_ordered: false, metadata: {} }), frame: WindowFrame { units: Range, start_bound: Preceding(Int16(NULL)), end_bound: CurrentRow, is_causal: false }], mode=[Sorted] -06)----------SortPreservingMergeExec: [{aggregate_test_100.c3 + aggregate_test_100.c4|{aggregate_test_100.c4}|{aggregate_test_100.c3}}@0 DESC,c9@3 DESC,c2@1 ASC NULLS LAST] -07)------------SortExec: expr=[{aggregate_test_100.c3 + aggregate_test_100.c4|{aggregate_test_100.c4}|{aggregate_test_100.c3}}@0 DESC,c9@3 DESC,c2@1 ASC NULLS LAST], preserve_partitioning=[true] -08)--------------ProjectionExec: expr=[c3@1 + c4@2 as {aggregate_test_100.c3 + aggregate_test_100.c4|{aggregate_test_100.c4}|{aggregate_test_100.c3}}, c2@0 as c2, c3@1 as c3, c9@3 as c9] +06)----------SortPreservingMergeExec: [__common_expr_1@0 DESC,c9@3 DESC,c2@1 ASC NULLS LAST] +07)------------SortExec: expr=[__common_expr_1@0 DESC,c9@3 DESC,c2@1 ASC NULLS LAST], preserve_partitioning=[true] +08)--------------ProjectionExec: expr=[c3@1 + c4@2 as __common_expr_1, c2@0 as c2, c3@1 as c3, c9@3 as c9] 09)----------------RepartitionExec: partitioning=RoundRobinBatch(2), input_partitions=1 10)------------------CsvExec: file_groups={1 group: [[WORKSPACE_ROOT/testing/data/csv/aggregate_test_100.csv]]}, projection=[c2, c3, c4, c9], has_header=true @@ -2574,11 +2574,11 @@ logical_plan 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({CAST(annotated_data_finite.desc_col AS Int64)|{annotated_data_finite.desc_col}} 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: {CAST(annotated_data_finite.desc_col AS Int64)|{annotated_data_finite.desc_col}}, 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({CAST(annotated_data_finite.inc_col AS Int64)|{annotated_data_finite.inc_col}} AS annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN 10 PRECEDING AND 1 FOLLOWING, sum({CAST(annotated_data_finite.desc_col AS Int64)|{annotated_data_finite.desc_col}} AS annotated_data_finite.desc_col) ORDER BY [annotated_data_finite.ts ASC NULLS LAST] RANGE BETWEEN 5 PRECEDING AND 1 FOLLOWING, sum({CAST(annotated_data_finite.inc_col AS Int64)|{annotated_data_finite.inc_col}} 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({CAST(annotated_data_finite.inc_col AS Int64)|{annotated_data_finite.inc_col}} AS annotated_data_finite.inc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 1 PRECEDING AND 4 FOLLOWING, sum({CAST(annotated_data_finite.desc_col AS Int64)|{annotated_data_finite.desc_col}} AS annotated_data_finite.desc_col) ORDER BY [annotated_data_finite.ts DESC NULLS FIRST] RANGE BETWEEN 1 PRECEDING AND 8 FOLLOWING, sum({CAST(annotated_data_finite.desc_col AS Int64)|{annotated_data_finite.desc_col}} 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 {CAST(annotated_data_finite.desc_col AS Int64)|{annotated_data_finite.desc_col}}, CAST(annotated_data_finite.inc_col AS Int64) AS {CAST(annotated_data_finite.inc_col AS Int64)|{annotated_data_finite.inc_col}}, annotated_data_finite.ts, annotated_data_finite.inc_col, annotated_data_finite.desc_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] @@ -2586,10 +2586,10 @@ physical_plan 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=[{CAST(annotated_data_finite.desc_col AS Int64)|{annotated_data_finite.desc_col}}@0 as {CAST(annotated_data_finite.desc_col AS Int64)|{annotated_data_finite.desc_col}}, 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] +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 {CAST(annotated_data_finite.desc_col AS Int64)|{annotated_data_finite.desc_col}}, CAST(inc_col@1 AS Int64) as {CAST(annotated_data_finite.inc_col AS Int64)|{annotated_data_finite.inc_col}}, ts@0 as ts, inc_col@1 as inc_col, desc_col@2 as desc_col] +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 query IIIIIIIIIIIIIIIIIIIIIIII @@ -2738,9 +2738,9 @@ logical_plan 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({CAST(annotated_data_finite.inc_col AS Int64)|{annotated_data_finite.inc_col}} 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({CAST(annotated_data_finite.inc_col AS Float64)|{annotated_data_finite.inc_col}} 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({CAST(annotated_data_finite.inc_col AS Int64)|{annotated_data_finite.inc_col}} 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({CAST(annotated_data_finite.inc_col AS Float64)|{annotated_data_finite.inc_col}} 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 {CAST(annotated_data_finite.inc_col AS Int64)|{annotated_data_finite.inc_col}}, CAST(annotated_data_finite.inc_col AS Float64) AS {CAST(annotated_data_finite.inc_col AS Float64)|{annotated_data_finite.inc_col}}, annotated_data_finite.ts, 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] @@ -2749,7 +2749,7 @@ physical_plan 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 {CAST(annotated_data_finite.inc_col AS Int64)|{annotated_data_finite.inc_col}}, CAST(inc_col@1 AS Float64) as {CAST(annotated_data_finite.inc_col AS Float64)|{annotated_data_finite.inc_col}}, ts@0 as ts, inc_col@1 as inc_col] +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 query IIIIIIIIRR @@ -2839,9 +2839,9 @@ logical_plan 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({CAST(annotated_data_infinite.inc_col AS Int64)|{annotated_data_infinite.inc_col}} 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({CAST(annotated_data_infinite.inc_col AS Int64)|{annotated_data_infinite.inc_col}} 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 {CAST(annotated_data_infinite.inc_col AS Int64)|{annotated_data_infinite.inc_col}}, annotated_data_infinite.ts, annotated_data_infinite.inc_col +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] @@ -2849,7 +2849,7 @@ physical_plan 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 {CAST(annotated_data_infinite.inc_col AS Int64)|{annotated_data_infinite.inc_col}}, ts@0 as ts, inc_col@1 as inc_col] +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] query IIII @@ -2886,9 +2886,9 @@ logical_plan 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({CAST(annotated_data_infinite.inc_col AS Int64)|{annotated_data_infinite.inc_col}} 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({CAST(annotated_data_infinite.inc_col AS Int64)|{annotated_data_infinite.inc_col}} 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 {CAST(annotated_data_infinite.inc_col AS Int64)|{annotated_data_infinite.inc_col}}, annotated_data_infinite.ts, annotated_data_infinite.inc_col +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] @@ -2896,7 +2896,7 @@ physical_plan 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 {CAST(annotated_data_infinite.inc_col AS Int64)|{annotated_data_infinite.inc_col}}, ts@0 as ts, inc_col@1 as inc_col] +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] @@ -2983,13 +2983,13 @@ EXPLAIN SELECT a, b, c, logical_plan 01)Projection: annotated_data_infinite2.a, annotated_data_infinite2.b, annotated_data_infinite2.c, sum(annotated_data_infinite2.c) PARTITION BY [annotated_data_infinite2.a, annotated_data_infinite2.d] ORDER BY [annotated_data_infinite2.b ASC NULLS LAST, annotated_data_infinite2.c ASC NULLS LAST] ROWS BETWEEN 2 PRECEDING AND 1 FOLLOWING AS sum1, sum(annotated_data_infinite2.c) PARTITION BY [annotated_data_infinite2.a, annotated_data_infinite2.d] ORDER BY [annotated_data_infinite2.b ASC NULLS LAST, annotated_data_infinite2.c ASC NULLS LAST] ROWS BETWEEN 1 FOLLOWING AND 5 FOLLOWING AS sum2, sum(annotated_data_infinite2.c) PARTITION BY [annotated_data_infinite2.d] ORDER BY [annotated_data_infinite2.a ASC NULLS LAST, annotated_data_infinite2.b ASC NULLS LAST, annotated_data_infinite2.c ASC NULLS LAST] ROWS BETWEEN 2 PRECEDING AND 1 FOLLOWING AS sum3, sum(annotated_data_infinite2.c) PARTITION BY [annotated_data_infinite2.d] ORDER BY [annotated_data_infinite2.a ASC NULLS LAST, annotated_data_infinite2.b ASC NULLS LAST, annotated_data_infinite2.c ASC NULLS LAST] ROWS BETWEEN 5 PRECEDING AND 1 PRECEDING AS sum4, sum(annotated_data_infinite2.c) PARTITION BY [annotated_data_infinite2.a, annotated_data_infinite2.b] ORDER BY [annotated_data_infinite2.c ASC NULLS LAST] ROWS BETWEEN 2 PRECEDING AND 1 FOLLOWING AS sum5, sum(annotated_data_infinite2.c) PARTITION BY [annotated_data_infinite2.a, annotated_data_infinite2.b] ORDER BY [annotated_data_infinite2.c ASC NULLS LAST] ROWS BETWEEN 5 PRECEDING AND 5 FOLLOWING AS sum6, sum(annotated_data_infinite2.c) PARTITION BY [annotated_data_infinite2.b, annotated_data_infinite2.a] ORDER BY [annotated_data_infinite2.c ASC NULLS LAST] ROWS BETWEEN 2 PRECEDING AND 1 FOLLOWING AS sum7, sum(annotated_data_infinite2.c) PARTITION BY [annotated_data_infinite2.b, annotated_data_infinite2.a] ORDER BY [annotated_data_infinite2.c ASC NULLS LAST] ROWS BETWEEN 5 PRECEDING AND 5 FOLLOWING AS sum8, sum(annotated_data_infinite2.c) PARTITION BY [annotated_data_infinite2.a, annotated_data_infinite2.b, annotated_data_infinite2.d] ORDER BY [annotated_data_infinite2.c ASC NULLS LAST] ROWS BETWEEN 2 PRECEDING AND 1 FOLLOWING AS sum9, sum(annotated_data_infinite2.c) PARTITION BY [annotated_data_infinite2.a, annotated_data_infinite2.b, annotated_data_infinite2.d] ORDER BY [annotated_data_infinite2.c ASC NULLS LAST] ROWS BETWEEN 5 PRECEDING AND CURRENT ROW AS sum10, sum(annotated_data_infinite2.c) PARTITION BY [annotated_data_infinite2.b, annotated_data_infinite2.a, annotated_data_infinite2.d] ORDER BY [annotated_data_infinite2.c ASC NULLS LAST] ROWS BETWEEN 2 PRECEDING AND 1 FOLLOWING AS sum11, sum(annotated_data_infinite2.c) PARTITION BY [annotated_data_infinite2.b, annotated_data_infinite2.a, annotated_data_infinite2.d] ORDER BY [annotated_data_infinite2.c ASC NULLS LAST] ROWS BETWEEN CURRENT ROW AND 1 FOLLOWING AS sum12 02)--Limit: skip=0, fetch=5 -03)----WindowAggr: windowExpr=[[sum({CAST(annotated_data_infinite2.c AS Int64)|{annotated_data_infinite2.c}} AS annotated_data_infinite2.c) PARTITION BY [annotated_data_infinite2.d] ORDER BY [annotated_data_infinite2.a ASC NULLS LAST, annotated_data_infinite2.b ASC NULLS LAST, annotated_data_infinite2.c ASC NULLS LAST] ROWS BETWEEN 2 PRECEDING AND 1 FOLLOWING, sum({CAST(annotated_data_infinite2.c AS Int64)|{annotated_data_infinite2.c}} AS annotated_data_infinite2.c) PARTITION BY [annotated_data_infinite2.d] ORDER BY [annotated_data_infinite2.a ASC NULLS LAST, annotated_data_infinite2.b ASC NULLS LAST, annotated_data_infinite2.c ASC NULLS LAST] ROWS BETWEEN 5 PRECEDING AND 1 PRECEDING]] -04)------WindowAggr: windowExpr=[[sum({CAST(annotated_data_infinite2.c AS Int64)|{annotated_data_infinite2.c}} AS annotated_data_infinite2.c) PARTITION BY [annotated_data_infinite2.b, annotated_data_infinite2.a, annotated_data_infinite2.d] ORDER BY [annotated_data_infinite2.c ASC NULLS LAST] ROWS BETWEEN 2 PRECEDING AND 1 FOLLOWING, sum({CAST(annotated_data_infinite2.c AS Int64)|{annotated_data_infinite2.c}} AS annotated_data_infinite2.c) PARTITION BY [annotated_data_infinite2.b, annotated_data_infinite2.a, annotated_data_infinite2.d] ORDER BY [annotated_data_infinite2.c ASC NULLS LAST] ROWS BETWEEN CURRENT ROW AND 1 FOLLOWING]] -05)--------WindowAggr: windowExpr=[[sum({CAST(annotated_data_infinite2.c AS Int64)|{annotated_data_infinite2.c}} AS annotated_data_infinite2.c) PARTITION BY [annotated_data_infinite2.b, annotated_data_infinite2.a] ORDER BY [annotated_data_infinite2.c ASC NULLS LAST] ROWS BETWEEN 2 PRECEDING AND 1 FOLLOWING, sum({CAST(annotated_data_infinite2.c AS Int64)|{annotated_data_infinite2.c}} AS annotated_data_infinite2.c) PARTITION BY [annotated_data_infinite2.b, annotated_data_infinite2.a] ORDER BY [annotated_data_infinite2.c ASC NULLS LAST] ROWS BETWEEN 5 PRECEDING AND 5 FOLLOWING]] -06)----------WindowAggr: windowExpr=[[sum({CAST(annotated_data_infinite2.c AS Int64)|{annotated_data_infinite2.c}} AS annotated_data_infinite2.c) PARTITION BY [annotated_data_infinite2.a, annotated_data_infinite2.d] ORDER BY [annotated_data_infinite2.b ASC NULLS LAST, annotated_data_infinite2.c ASC NULLS LAST] ROWS BETWEEN 2 PRECEDING AND 1 FOLLOWING, sum({CAST(annotated_data_infinite2.c AS Int64)|{annotated_data_infinite2.c}} AS annotated_data_infinite2.c) PARTITION BY [annotated_data_infinite2.a, annotated_data_infinite2.d] ORDER BY [annotated_data_infinite2.b ASC NULLS LAST, annotated_data_infinite2.c ASC NULLS LAST] ROWS BETWEEN 1 FOLLOWING AND 5 FOLLOWING]] -07)------------WindowAggr: windowExpr=[[sum({CAST(annotated_data_infinite2.c AS Int64)|{annotated_data_infinite2.c}} AS annotated_data_infinite2.c) PARTITION BY [annotated_data_infinite2.a, annotated_data_infinite2.b, annotated_data_infinite2.d] ORDER BY [annotated_data_infinite2.c ASC NULLS LAST] ROWS BETWEEN 2 PRECEDING AND 1 FOLLOWING, sum({CAST(annotated_data_infinite2.c AS Int64)|{annotated_data_infinite2.c}} AS annotated_data_infinite2.c) PARTITION BY [annotated_data_infinite2.a, annotated_data_infinite2.b, annotated_data_infinite2.d] ORDER BY [annotated_data_infinite2.c ASC NULLS LAST] ROWS BETWEEN 5 PRECEDING AND CURRENT ROW]] -08)--------------WindowAggr: windowExpr=[[sum({CAST(annotated_data_infinite2.c AS Int64)|{annotated_data_infinite2.c}} AS annotated_data_infinite2.c) PARTITION BY [annotated_data_infinite2.a, annotated_data_infinite2.b] ORDER BY [annotated_data_infinite2.c ASC NULLS LAST] ROWS BETWEEN 2 PRECEDING AND 1 FOLLOWING, sum({CAST(annotated_data_infinite2.c AS Int64)|{annotated_data_infinite2.c}} AS annotated_data_infinite2.c) PARTITION BY [annotated_data_infinite2.a, annotated_data_infinite2.b] ORDER BY [annotated_data_infinite2.c ASC NULLS LAST] ROWS BETWEEN 5 PRECEDING AND 5 FOLLOWING]] -09)----------------Projection: CAST(annotated_data_infinite2.c AS Int64) AS {CAST(annotated_data_infinite2.c AS Int64)|{annotated_data_infinite2.c}}, annotated_data_infinite2.a, annotated_data_infinite2.b, annotated_data_infinite2.c, annotated_data_infinite2.d +03)----WindowAggr: windowExpr=[[sum(__common_expr_1 AS annotated_data_infinite2.c) PARTITION BY [annotated_data_infinite2.d] ORDER BY [annotated_data_infinite2.a ASC NULLS LAST, annotated_data_infinite2.b ASC NULLS LAST, annotated_data_infinite2.c ASC NULLS LAST] ROWS BETWEEN 2 PRECEDING AND 1 FOLLOWING, sum(__common_expr_1 AS annotated_data_infinite2.c) PARTITION BY [annotated_data_infinite2.d] ORDER BY [annotated_data_infinite2.a ASC NULLS LAST, annotated_data_infinite2.b ASC NULLS LAST, annotated_data_infinite2.c ASC NULLS LAST] ROWS BETWEEN 5 PRECEDING AND 1 PRECEDING]] +04)------WindowAggr: windowExpr=[[sum(__common_expr_1 AS annotated_data_infinite2.c) PARTITION BY [annotated_data_infinite2.b, annotated_data_infinite2.a, annotated_data_infinite2.d] ORDER BY [annotated_data_infinite2.c ASC NULLS LAST] ROWS BETWEEN 2 PRECEDING AND 1 FOLLOWING, sum(__common_expr_1 AS annotated_data_infinite2.c) PARTITION BY [annotated_data_infinite2.b, annotated_data_infinite2.a, annotated_data_infinite2.d] ORDER BY [annotated_data_infinite2.c ASC NULLS LAST] ROWS BETWEEN CURRENT ROW AND 1 FOLLOWING]] +05)--------WindowAggr: windowExpr=[[sum(__common_expr_1 AS annotated_data_infinite2.c) PARTITION BY [annotated_data_infinite2.b, annotated_data_infinite2.a] ORDER BY [annotated_data_infinite2.c ASC NULLS LAST] ROWS BETWEEN 2 PRECEDING AND 1 FOLLOWING, sum(__common_expr_1 AS annotated_data_infinite2.c) PARTITION BY [annotated_data_infinite2.b, annotated_data_infinite2.a] ORDER BY [annotated_data_infinite2.c ASC NULLS LAST] ROWS BETWEEN 5 PRECEDING AND 5 FOLLOWING]] +06)----------WindowAggr: windowExpr=[[sum(__common_expr_1 AS annotated_data_infinite2.c) PARTITION BY [annotated_data_infinite2.a, annotated_data_infinite2.d] ORDER BY [annotated_data_infinite2.b ASC NULLS LAST, annotated_data_infinite2.c ASC NULLS LAST] ROWS BETWEEN 2 PRECEDING AND 1 FOLLOWING, sum(__common_expr_1 AS annotated_data_infinite2.c) PARTITION BY [annotated_data_infinite2.a, annotated_data_infinite2.d] ORDER BY [annotated_data_infinite2.b ASC NULLS LAST, annotated_data_infinite2.c ASC NULLS LAST] ROWS BETWEEN 1 FOLLOWING AND 5 FOLLOWING]] +07)------------WindowAggr: windowExpr=[[sum(__common_expr_1 AS annotated_data_infinite2.c) PARTITION BY [annotated_data_infinite2.a, annotated_data_infinite2.b, annotated_data_infinite2.d] ORDER BY [annotated_data_infinite2.c ASC NULLS LAST] ROWS BETWEEN 2 PRECEDING AND 1 FOLLOWING, sum(__common_expr_1 AS annotated_data_infinite2.c) PARTITION BY [annotated_data_infinite2.a, annotated_data_infinite2.b, annotated_data_infinite2.d] ORDER BY [annotated_data_infinite2.c ASC NULLS LAST] ROWS BETWEEN 5 PRECEDING AND CURRENT ROW]] +08)--------------WindowAggr: windowExpr=[[sum(__common_expr_1 AS annotated_data_infinite2.c) PARTITION BY [annotated_data_infinite2.a, annotated_data_infinite2.b] ORDER BY [annotated_data_infinite2.c ASC NULLS LAST] ROWS BETWEEN 2 PRECEDING AND 1 FOLLOWING, sum(__common_expr_1 AS annotated_data_infinite2.c) PARTITION BY [annotated_data_infinite2.a, annotated_data_infinite2.b] ORDER BY [annotated_data_infinite2.c ASC NULLS LAST] ROWS BETWEEN 5 PRECEDING AND 5 FOLLOWING]] +09)----------------Projection: CAST(annotated_data_infinite2.c AS Int64) AS __common_expr_1, annotated_data_infinite2.a, annotated_data_infinite2.b, annotated_data_infinite2.c, annotated_data_infinite2.d 10)------------------TableScan: annotated_data_infinite2 projection=[a, b, c, d] physical_plan 01)ProjectionExec: expr=[a@1 as a, b@2 as b, c@3 as c, sum(annotated_data_infinite2.c) PARTITION BY [annotated_data_infinite2.a, annotated_data_infinite2.d] ORDER BY [annotated_data_infinite2.b ASC NULLS LAST, annotated_data_infinite2.c ASC NULLS LAST] ROWS BETWEEN 2 PRECEDING AND 1 FOLLOWING@9 as sum1, sum(annotated_data_infinite2.c) PARTITION BY [annotated_data_infinite2.a, annotated_data_infinite2.d] ORDER BY [annotated_data_infinite2.b ASC NULLS LAST, annotated_data_infinite2.c ASC NULLS LAST] ROWS BETWEEN 1 FOLLOWING AND 5 FOLLOWING@10 as sum2, sum(annotated_data_infinite2.c) PARTITION BY [annotated_data_infinite2.d] ORDER BY [annotated_data_infinite2.a ASC NULLS LAST, annotated_data_infinite2.b ASC NULLS LAST, annotated_data_infinite2.c ASC NULLS LAST] ROWS BETWEEN 2 PRECEDING AND 1 FOLLOWING@15 as sum3, sum(annotated_data_infinite2.c) PARTITION BY [annotated_data_infinite2.d] ORDER BY [annotated_data_infinite2.a ASC NULLS LAST, annotated_data_infinite2.b ASC NULLS LAST, annotated_data_infinite2.c ASC NULLS LAST] ROWS BETWEEN 5 PRECEDING AND 1 PRECEDING@16 as sum4, sum(annotated_data_infinite2.c) PARTITION BY [annotated_data_infinite2.a, annotated_data_infinite2.b] ORDER BY [annotated_data_infinite2.c ASC NULLS LAST] ROWS BETWEEN 2 PRECEDING AND 1 FOLLOWING@5 as sum5, sum(annotated_data_infinite2.c) PARTITION BY [annotated_data_infinite2.a, annotated_data_infinite2.b] ORDER BY [annotated_data_infinite2.c ASC NULLS LAST] ROWS BETWEEN 5 PRECEDING AND 5 FOLLOWING@6 as sum6, sum(annotated_data_infinite2.c) PARTITION BY [annotated_data_infinite2.b, annotated_data_infinite2.a] ORDER BY [annotated_data_infinite2.c ASC NULLS LAST] ROWS BETWEEN 2 PRECEDING AND 1 FOLLOWING@11 as sum7, sum(annotated_data_infinite2.c) PARTITION BY [annotated_data_infinite2.b, annotated_data_infinite2.a] ORDER BY [annotated_data_infinite2.c ASC NULLS LAST] ROWS BETWEEN 5 PRECEDING AND 5 FOLLOWING@12 as sum8, sum(annotated_data_infinite2.c) PARTITION BY [annotated_data_infinite2.a, annotated_data_infinite2.b, annotated_data_infinite2.d] ORDER BY [annotated_data_infinite2.c ASC NULLS LAST] ROWS BETWEEN 2 PRECEDING AND 1 FOLLOWING@7 as sum9, sum(annotated_data_infinite2.c) PARTITION BY [annotated_data_infinite2.a, annotated_data_infinite2.b, annotated_data_infinite2.d] ORDER BY [annotated_data_infinite2.c ASC NULLS LAST] ROWS BETWEEN 5 PRECEDING AND CURRENT ROW@8 as sum10, sum(annotated_data_infinite2.c) PARTITION BY [annotated_data_infinite2.b, annotated_data_infinite2.a, annotated_data_infinite2.d] ORDER BY [annotated_data_infinite2.c ASC NULLS LAST] ROWS BETWEEN 2 PRECEDING AND 1 FOLLOWING@13 as sum11, sum(annotated_data_infinite2.c) PARTITION BY [annotated_data_infinite2.b, annotated_data_infinite2.a, annotated_data_infinite2.d] ORDER BY [annotated_data_infinite2.c ASC NULLS LAST] ROWS BETWEEN CURRENT ROW AND 1 FOLLOWING@14 as sum12] @@ -3000,7 +3000,7 @@ physical_plan 06)----------BoundedWindowAggExec: wdw=[sum(annotated_data_infinite2.c) PARTITION BY [annotated_data_infinite2.a, annotated_data_infinite2.d] ORDER BY [annotated_data_infinite2.b ASC NULLS LAST, annotated_data_infinite2.c ASC NULLS LAST] ROWS BETWEEN 2 PRECEDING AND 1 FOLLOWING: Ok(Field { name: "sum(annotated_data_infinite2.c) PARTITION BY [annotated_data_infinite2.a, annotated_data_infinite2.d] ORDER BY [annotated_data_infinite2.b ASC NULLS LAST, annotated_data_infinite2.c ASC NULLS LAST] ROWS BETWEEN 2 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(2)), end_bound: Following(UInt64(1)), is_causal: false }, sum(annotated_data_infinite2.c) PARTITION BY [annotated_data_infinite2.a, annotated_data_infinite2.d] ORDER BY [annotated_data_infinite2.b ASC NULLS LAST, annotated_data_infinite2.c ASC NULLS LAST] ROWS BETWEEN 1 FOLLOWING AND 5 FOLLOWING: Ok(Field { name: "sum(annotated_data_infinite2.c) PARTITION BY [annotated_data_infinite2.a, annotated_data_infinite2.d] ORDER BY [annotated_data_infinite2.b ASC NULLS LAST, annotated_data_infinite2.c ASC NULLS LAST] ROWS BETWEEN 1 FOLLOWING AND 5 FOLLOWING", data_type: Int64, nullable: true, dict_id: 0, dict_is_ordered: false, metadata: {} }), frame: WindowFrame { units: Rows, start_bound: Following(UInt64(1)), end_bound: Following(UInt64(5)), is_causal: false }], mode=[PartiallySorted([0])] 07)------------BoundedWindowAggExec: wdw=[sum(annotated_data_infinite2.c) PARTITION BY [annotated_data_infinite2.a, annotated_data_infinite2.b, annotated_data_infinite2.d] ORDER BY [annotated_data_infinite2.c ASC NULLS LAST] ROWS BETWEEN 2 PRECEDING AND 1 FOLLOWING: Ok(Field { name: "sum(annotated_data_infinite2.c) PARTITION BY [annotated_data_infinite2.a, annotated_data_infinite2.b, annotated_data_infinite2.d] ORDER BY [annotated_data_infinite2.c ASC NULLS LAST] ROWS BETWEEN 2 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(2)), end_bound: Following(UInt64(1)), is_causal: false }, sum(annotated_data_infinite2.c) PARTITION BY [annotated_data_infinite2.a, annotated_data_infinite2.b, annotated_data_infinite2.d] ORDER BY [annotated_data_infinite2.c ASC NULLS LAST] ROWS BETWEEN 5 PRECEDING AND CURRENT ROW: Ok(Field { name: "sum(annotated_data_infinite2.c) PARTITION BY [annotated_data_infinite2.a, annotated_data_infinite2.b, annotated_data_infinite2.d] ORDER BY [annotated_data_infinite2.c ASC NULLS LAST] ROWS BETWEEN 5 PRECEDING AND CURRENT ROW", data_type: Int64, nullable: true, dict_id: 0, dict_is_ordered: false, metadata: {} }), frame: WindowFrame { units: Rows, start_bound: Preceding(UInt64(5)), end_bound: CurrentRow, is_causal: true }], mode=[PartiallySorted([0, 1])] 08)--------------BoundedWindowAggExec: wdw=[sum(annotated_data_infinite2.c) PARTITION BY [annotated_data_infinite2.a, annotated_data_infinite2.b] ORDER BY [annotated_data_infinite2.c ASC NULLS LAST] ROWS BETWEEN 2 PRECEDING AND 1 FOLLOWING: Ok(Field { name: "sum(annotated_data_infinite2.c) PARTITION BY [annotated_data_infinite2.a, annotated_data_infinite2.b] ORDER BY [annotated_data_infinite2.c ASC NULLS LAST] ROWS BETWEEN 2 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(2)), end_bound: Following(UInt64(1)), is_causal: false }, sum(annotated_data_infinite2.c) PARTITION BY [annotated_data_infinite2.a, annotated_data_infinite2.b] ORDER BY [annotated_data_infinite2.c ASC NULLS LAST] ROWS BETWEEN 5 PRECEDING AND 5 FOLLOWING: Ok(Field { name: "sum(annotated_data_infinite2.c) PARTITION BY [annotated_data_infinite2.a, annotated_data_infinite2.b] ORDER BY [annotated_data_infinite2.c ASC NULLS LAST] ROWS BETWEEN 5 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(5)), is_causal: false }], mode=[Sorted] -09)----------------ProjectionExec: expr=[CAST(c@2 AS Int64) as {CAST(annotated_data_infinite2.c AS Int64)|{annotated_data_infinite2.c}}, a@0 as a, b@1 as b, c@2 as c, d@3 as d] +09)----------------ProjectionExec: expr=[CAST(c@2 AS Int64) as __common_expr_1, a@0 as a, b@1 as b, c@2 as c, d@3 as d] 10)------------------StreamingTableExec: partition_sizes=1, projection=[a, b, c, d], infinite_source=true, output_ordering=[a@0 ASC NULLS LAST, b@1 ASC NULLS LAST, c@2 ASC NULLS LAST] query IIIIIIIIIIIIIII @@ -3052,13 +3052,13 @@ logical_plan 01)Limit: skip=0, fetch=5 02)--Sort: annotated_data_finite2.c ASC NULLS LAST, fetch=5 03)----Projection: annotated_data_finite2.a, annotated_data_finite2.b, annotated_data_finite2.c, sum(annotated_data_finite2.c) PARTITION BY [annotated_data_finite2.a, annotated_data_finite2.d] ORDER BY [annotated_data_finite2.b ASC NULLS LAST, annotated_data_finite2.c ASC NULLS LAST] ROWS BETWEEN 2 PRECEDING AND 1 FOLLOWING AS sum1, sum(annotated_data_finite2.c) PARTITION BY [annotated_data_finite2.a, annotated_data_finite2.d] ORDER BY [annotated_data_finite2.b ASC NULLS LAST, annotated_data_finite2.c ASC NULLS LAST] ROWS BETWEEN 1 FOLLOWING AND 5 FOLLOWING AS sum2, sum(annotated_data_finite2.c) PARTITION BY [annotated_data_finite2.d] ORDER BY [annotated_data_finite2.a ASC NULLS LAST, annotated_data_finite2.b ASC NULLS LAST, annotated_data_finite2.c ASC NULLS LAST] ROWS BETWEEN 2 PRECEDING AND 1 FOLLOWING AS sum3, sum(annotated_data_finite2.c) PARTITION BY [annotated_data_finite2.d] ORDER BY [annotated_data_finite2.a ASC NULLS LAST, annotated_data_finite2.b ASC NULLS LAST, annotated_data_finite2.c ASC NULLS LAST] ROWS BETWEEN 5 PRECEDING AND 1 PRECEDING AS sum4, sum(annotated_data_finite2.c) PARTITION BY [annotated_data_finite2.a, annotated_data_finite2.b] ORDER BY [annotated_data_finite2.c ASC NULLS LAST] ROWS BETWEEN 2 PRECEDING AND 1 FOLLOWING AS sum5, sum(annotated_data_finite2.c) PARTITION BY [annotated_data_finite2.a, annotated_data_finite2.b] ORDER BY [annotated_data_finite2.c ASC NULLS LAST] ROWS BETWEEN 5 PRECEDING AND 5 FOLLOWING AS sum6, sum(annotated_data_finite2.c) PARTITION BY [annotated_data_finite2.b, annotated_data_finite2.a] ORDER BY [annotated_data_finite2.c ASC NULLS LAST] ROWS BETWEEN 2 PRECEDING AND 1 FOLLOWING AS sum7, sum(annotated_data_finite2.c) PARTITION BY [annotated_data_finite2.b, annotated_data_finite2.a] ORDER BY [annotated_data_finite2.c ASC NULLS LAST] ROWS BETWEEN 5 PRECEDING AND 5 FOLLOWING AS sum8, sum(annotated_data_finite2.c) PARTITION BY [annotated_data_finite2.a, annotated_data_finite2.b, annotated_data_finite2.d] ORDER BY [annotated_data_finite2.c ASC NULLS LAST] ROWS BETWEEN 2 PRECEDING AND 1 FOLLOWING AS sum9, sum(annotated_data_finite2.c) PARTITION BY [annotated_data_finite2.a, annotated_data_finite2.b, annotated_data_finite2.d] ORDER BY [annotated_data_finite2.c ASC NULLS LAST] ROWS BETWEEN 5 PRECEDING AND CURRENT ROW AS sum10, sum(annotated_data_finite2.c) PARTITION BY [annotated_data_finite2.b, annotated_data_finite2.a, annotated_data_finite2.d] ORDER BY [annotated_data_finite2.c ASC NULLS LAST] ROWS BETWEEN 2 PRECEDING AND 1 FOLLOWING AS sum11, sum(annotated_data_finite2.c) PARTITION BY [annotated_data_finite2.b, annotated_data_finite2.a, annotated_data_finite2.d] ORDER BY [annotated_data_finite2.c ASC NULLS LAST] ROWS BETWEEN CURRENT ROW AND 1 FOLLOWING AS sum12 -04)------WindowAggr: windowExpr=[[sum({CAST(annotated_data_finite2.c AS Int64)|{annotated_data_finite2.c}} AS annotated_data_finite2.c) PARTITION BY [annotated_data_finite2.d] ORDER BY [annotated_data_finite2.a ASC NULLS LAST, annotated_data_finite2.b ASC NULLS LAST, annotated_data_finite2.c ASC NULLS LAST] ROWS BETWEEN 2 PRECEDING AND 1 FOLLOWING, sum({CAST(annotated_data_finite2.c AS Int64)|{annotated_data_finite2.c}} AS annotated_data_finite2.c) PARTITION BY [annotated_data_finite2.d] ORDER BY [annotated_data_finite2.a ASC NULLS LAST, annotated_data_finite2.b ASC NULLS LAST, annotated_data_finite2.c ASC NULLS LAST] ROWS BETWEEN 5 PRECEDING AND 1 PRECEDING]] -05)--------WindowAggr: windowExpr=[[sum({CAST(annotated_data_finite2.c AS Int64)|{annotated_data_finite2.c}} AS annotated_data_finite2.c) PARTITION BY [annotated_data_finite2.b, annotated_data_finite2.a, annotated_data_finite2.d] ORDER BY [annotated_data_finite2.c ASC NULLS LAST] ROWS BETWEEN 2 PRECEDING AND 1 FOLLOWING, sum({CAST(annotated_data_finite2.c AS Int64)|{annotated_data_finite2.c}} AS annotated_data_finite2.c) PARTITION BY [annotated_data_finite2.b, annotated_data_finite2.a, annotated_data_finite2.d] ORDER BY [annotated_data_finite2.c ASC NULLS LAST] ROWS BETWEEN CURRENT ROW AND 1 FOLLOWING]] -06)----------WindowAggr: windowExpr=[[sum({CAST(annotated_data_finite2.c AS Int64)|{annotated_data_finite2.c}} AS annotated_data_finite2.c) PARTITION BY [annotated_data_finite2.b, annotated_data_finite2.a] ORDER BY [annotated_data_finite2.c ASC NULLS LAST] ROWS BETWEEN 2 PRECEDING AND 1 FOLLOWING, sum({CAST(annotated_data_finite2.c AS Int64)|{annotated_data_finite2.c}} AS annotated_data_finite2.c) PARTITION BY [annotated_data_finite2.b, annotated_data_finite2.a] ORDER BY [annotated_data_finite2.c ASC NULLS LAST] ROWS BETWEEN 5 PRECEDING AND 5 FOLLOWING]] -07)------------WindowAggr: windowExpr=[[sum({CAST(annotated_data_finite2.c AS Int64)|{annotated_data_finite2.c}} AS annotated_data_finite2.c) PARTITION BY [annotated_data_finite2.a, annotated_data_finite2.d] ORDER BY [annotated_data_finite2.b ASC NULLS LAST, annotated_data_finite2.c ASC NULLS LAST] ROWS BETWEEN 2 PRECEDING AND 1 FOLLOWING, sum({CAST(annotated_data_finite2.c AS Int64)|{annotated_data_finite2.c}} AS annotated_data_finite2.c) PARTITION BY [annotated_data_finite2.a, annotated_data_finite2.d] ORDER BY [annotated_data_finite2.b ASC NULLS LAST, annotated_data_finite2.c ASC NULLS LAST] ROWS BETWEEN 1 FOLLOWING AND 5 FOLLOWING]] -08)--------------WindowAggr: windowExpr=[[sum({CAST(annotated_data_finite2.c AS Int64)|{annotated_data_finite2.c}} AS annotated_data_finite2.c) PARTITION BY [annotated_data_finite2.a, annotated_data_finite2.b, annotated_data_finite2.d] ORDER BY [annotated_data_finite2.c ASC NULLS LAST] ROWS BETWEEN 2 PRECEDING AND 1 FOLLOWING, sum({CAST(annotated_data_finite2.c AS Int64)|{annotated_data_finite2.c}} AS annotated_data_finite2.c) PARTITION BY [annotated_data_finite2.a, annotated_data_finite2.b, annotated_data_finite2.d] ORDER BY [annotated_data_finite2.c ASC NULLS LAST] ROWS BETWEEN 5 PRECEDING AND CURRENT ROW]] -09)----------------WindowAggr: windowExpr=[[sum({CAST(annotated_data_finite2.c AS Int64)|{annotated_data_finite2.c}} AS annotated_data_finite2.c) PARTITION BY [annotated_data_finite2.a, annotated_data_finite2.b] ORDER BY [annotated_data_finite2.c ASC NULLS LAST] ROWS BETWEEN 2 PRECEDING AND 1 FOLLOWING, sum({CAST(annotated_data_finite2.c AS Int64)|{annotated_data_finite2.c}} AS annotated_data_finite2.c) PARTITION BY [annotated_data_finite2.a, annotated_data_finite2.b] ORDER BY [annotated_data_finite2.c ASC NULLS LAST] ROWS BETWEEN 5 PRECEDING AND 5 FOLLOWING]] -10)------------------Projection: CAST(annotated_data_finite2.c AS Int64) AS {CAST(annotated_data_finite2.c AS Int64)|{annotated_data_finite2.c}}, annotated_data_finite2.a, annotated_data_finite2.b, annotated_data_finite2.c, annotated_data_finite2.d +04)------WindowAggr: windowExpr=[[sum(__common_expr_1 AS annotated_data_finite2.c) PARTITION BY [annotated_data_finite2.d] ORDER BY [annotated_data_finite2.a ASC NULLS LAST, annotated_data_finite2.b ASC NULLS LAST, annotated_data_finite2.c ASC NULLS LAST] ROWS BETWEEN 2 PRECEDING AND 1 FOLLOWING, sum(__common_expr_1 AS annotated_data_finite2.c) PARTITION BY [annotated_data_finite2.d] ORDER BY [annotated_data_finite2.a ASC NULLS LAST, annotated_data_finite2.b ASC NULLS LAST, annotated_data_finite2.c ASC NULLS LAST] ROWS BETWEEN 5 PRECEDING AND 1 PRECEDING]] +05)--------WindowAggr: windowExpr=[[sum(__common_expr_1 AS annotated_data_finite2.c) PARTITION BY [annotated_data_finite2.b, annotated_data_finite2.a, annotated_data_finite2.d] ORDER BY [annotated_data_finite2.c ASC NULLS LAST] ROWS BETWEEN 2 PRECEDING AND 1 FOLLOWING, sum(__common_expr_1 AS annotated_data_finite2.c) PARTITION BY [annotated_data_finite2.b, annotated_data_finite2.a, annotated_data_finite2.d] ORDER BY [annotated_data_finite2.c ASC NULLS LAST] ROWS BETWEEN CURRENT ROW AND 1 FOLLOWING]] +06)----------WindowAggr: windowExpr=[[sum(__common_expr_1 AS annotated_data_finite2.c) PARTITION BY [annotated_data_finite2.b, annotated_data_finite2.a] ORDER BY [annotated_data_finite2.c ASC NULLS LAST] ROWS BETWEEN 2 PRECEDING AND 1 FOLLOWING, sum(__common_expr_1 AS annotated_data_finite2.c) PARTITION BY [annotated_data_finite2.b, annotated_data_finite2.a] ORDER BY [annotated_data_finite2.c ASC NULLS LAST] ROWS BETWEEN 5 PRECEDING AND 5 FOLLOWING]] +07)------------WindowAggr: windowExpr=[[sum(__common_expr_1 AS annotated_data_finite2.c) PARTITION BY [annotated_data_finite2.a, annotated_data_finite2.d] ORDER BY [annotated_data_finite2.b ASC NULLS LAST, annotated_data_finite2.c ASC NULLS LAST] ROWS BETWEEN 2 PRECEDING AND 1 FOLLOWING, sum(__common_expr_1 AS annotated_data_finite2.c) PARTITION BY [annotated_data_finite2.a, annotated_data_finite2.d] ORDER BY [annotated_data_finite2.b ASC NULLS LAST, annotated_data_finite2.c ASC NULLS LAST] ROWS BETWEEN 1 FOLLOWING AND 5 FOLLOWING]] +08)--------------WindowAggr: windowExpr=[[sum(__common_expr_1 AS annotated_data_finite2.c) PARTITION BY [annotated_data_finite2.a, annotated_data_finite2.b, annotated_data_finite2.d] ORDER BY [annotated_data_finite2.c ASC NULLS LAST] ROWS BETWEEN 2 PRECEDING AND 1 FOLLOWING, sum(__common_expr_1 AS annotated_data_finite2.c) PARTITION BY [annotated_data_finite2.a, annotated_data_finite2.b, annotated_data_finite2.d] ORDER BY [annotated_data_finite2.c ASC NULLS LAST] ROWS BETWEEN 5 PRECEDING AND CURRENT ROW]] +09)----------------WindowAggr: windowExpr=[[sum(__common_expr_1 AS annotated_data_finite2.c) PARTITION BY [annotated_data_finite2.a, annotated_data_finite2.b] ORDER BY [annotated_data_finite2.c ASC NULLS LAST] ROWS BETWEEN 2 PRECEDING AND 1 FOLLOWING, sum(__common_expr_1 AS annotated_data_finite2.c) PARTITION BY [annotated_data_finite2.a, annotated_data_finite2.b] ORDER BY [annotated_data_finite2.c ASC NULLS LAST] ROWS BETWEEN 5 PRECEDING AND 5 FOLLOWING]] +10)------------------Projection: CAST(annotated_data_finite2.c AS Int64) AS __common_expr_1, annotated_data_finite2.a, annotated_data_finite2.b, annotated_data_finite2.c, annotated_data_finite2.d 11)--------------------TableScan: annotated_data_finite2 projection=[a, b, c, d] physical_plan 01)GlobalLimitExec: skip=0, fetch=5 @@ -3075,7 +3075,7 @@ physical_plan 12)----------------------BoundedWindowAggExec: wdw=[sum(annotated_data_finite2.c) PARTITION BY [annotated_data_finite2.a, annotated_data_finite2.b, annotated_data_finite2.d] ORDER BY [annotated_data_finite2.c ASC NULLS LAST] ROWS BETWEEN 2 PRECEDING AND 1 FOLLOWING: Ok(Field { name: "sum(annotated_data_finite2.c) PARTITION BY [annotated_data_finite2.a, annotated_data_finite2.b, annotated_data_finite2.d] ORDER BY [annotated_data_finite2.c ASC NULLS LAST] ROWS BETWEEN 2 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(2)), end_bound: Following(UInt64(1)), is_causal: false }, sum(annotated_data_finite2.c) PARTITION BY [annotated_data_finite2.a, annotated_data_finite2.b, annotated_data_finite2.d] ORDER BY [annotated_data_finite2.c ASC NULLS LAST] ROWS BETWEEN 5 PRECEDING AND CURRENT ROW: Ok(Field { name: "sum(annotated_data_finite2.c) PARTITION BY [annotated_data_finite2.a, annotated_data_finite2.b, annotated_data_finite2.d] ORDER BY [annotated_data_finite2.c ASC NULLS LAST] ROWS BETWEEN 5 PRECEDING AND CURRENT ROW", data_type: Int64, nullable: true, dict_id: 0, dict_is_ordered: false, metadata: {} }), frame: WindowFrame { units: Rows, start_bound: Preceding(UInt64(5)), end_bound: CurrentRow, is_causal: true }], mode=[Sorted] 13)------------------------SortExec: expr=[a@1 ASC NULLS LAST,b@2 ASC NULLS LAST,d@4 ASC NULLS LAST,c@3 ASC NULLS LAST], preserve_partitioning=[false] 14)--------------------------BoundedWindowAggExec: wdw=[sum(annotated_data_finite2.c) PARTITION BY [annotated_data_finite2.a, annotated_data_finite2.b] ORDER BY [annotated_data_finite2.c ASC NULLS LAST] ROWS BETWEEN 2 PRECEDING AND 1 FOLLOWING: Ok(Field { name: "sum(annotated_data_finite2.c) PARTITION BY [annotated_data_finite2.a, annotated_data_finite2.b] ORDER BY [annotated_data_finite2.c ASC NULLS LAST] ROWS BETWEEN 2 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(2)), end_bound: Following(UInt64(1)), is_causal: false }, sum(annotated_data_finite2.c) PARTITION BY [annotated_data_finite2.a, annotated_data_finite2.b] ORDER BY [annotated_data_finite2.c ASC NULLS LAST] ROWS BETWEEN 5 PRECEDING AND 5 FOLLOWING: Ok(Field { name: "sum(annotated_data_finite2.c) PARTITION BY [annotated_data_finite2.a, annotated_data_finite2.b] ORDER BY [annotated_data_finite2.c ASC NULLS LAST] ROWS BETWEEN 5 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(5)), is_causal: false }], mode=[Sorted] -15)----------------------------ProjectionExec: expr=[CAST(c@2 AS Int64) as {CAST(annotated_data_finite2.c AS Int64)|{annotated_data_finite2.c}}, a@0 as a, b@1 as b, c@2 as c, d@3 as d] +15)----------------------------ProjectionExec: expr=[CAST(c@2 AS Int64) as __common_expr_1, a@0 as a, b@1 as b, c@2 as c, d@3 as d] 16)------------------------------CsvExec: file_groups={1 group: [[WORKSPACE_ROOT/datafusion/core/tests/data/window_2.csv]]}, projection=[a, b, c, d], output_ordering=[a@0 ASC NULLS LAST, b@1 ASC NULLS LAST, c@2 ASC NULLS LAST], has_header=true query IIIIIIIIIIIIIII @@ -3241,21 +3241,21 @@ FROM annotated_data_infinite2; ---- logical_plan 01)Projection: sum(annotated_data_infinite2.a) PARTITION BY [annotated_data_infinite2.a, annotated_data_infinite2.b] ORDER BY [annotated_data_infinite2.c ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW AS sum1, sum(annotated_data_infinite2.a) PARTITION BY [annotated_data_infinite2.b, annotated_data_infinite2.a] ORDER BY [annotated_data_infinite2.c ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW AS sum2, sum(annotated_data_infinite2.a) PARTITION BY [annotated_data_infinite2.a, annotated_data_infinite2.d] ORDER BY [annotated_data_infinite2.b ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW AS sum3, sum(annotated_data_infinite2.a) PARTITION BY [annotated_data_infinite2.d] ORDER BY [annotated_data_infinite2.a ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW AS sum4 -02)--WindowAggr: windowExpr=[[sum({CAST(annotated_data_infinite2.a AS Int64)|{annotated_data_infinite2.a}} AS annotated_data_infinite2.a) PARTITION BY [annotated_data_infinite2.d] ORDER BY [annotated_data_infinite2.a ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW]] -03)----Projection: {CAST(annotated_data_infinite2.a AS Int64)|{annotated_data_infinite2.a}}, annotated_data_infinite2.a, annotated_data_infinite2.d, sum(annotated_data_infinite2.a) PARTITION BY [annotated_data_infinite2.a, annotated_data_infinite2.b] ORDER BY [annotated_data_infinite2.c ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW, sum(annotated_data_infinite2.a) PARTITION BY [annotated_data_infinite2.a, annotated_data_infinite2.d] ORDER BY [annotated_data_infinite2.b ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW, sum(annotated_data_infinite2.a) PARTITION BY [annotated_data_infinite2.b, annotated_data_infinite2.a] ORDER BY [annotated_data_infinite2.c ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW -04)------WindowAggr: windowExpr=[[sum({CAST(annotated_data_infinite2.a AS Int64)|{annotated_data_infinite2.a}} AS annotated_data_infinite2.a) PARTITION BY [annotated_data_infinite2.b, annotated_data_infinite2.a] ORDER BY [annotated_data_infinite2.c ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW]] -05)--------WindowAggr: windowExpr=[[sum({CAST(annotated_data_infinite2.a AS Int64)|{annotated_data_infinite2.a}} AS annotated_data_infinite2.a) PARTITION BY [annotated_data_infinite2.a, annotated_data_infinite2.d] ORDER BY [annotated_data_infinite2.b ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW]] -06)----------WindowAggr: windowExpr=[[sum({CAST(annotated_data_infinite2.a AS Int64)|{annotated_data_infinite2.a}} AS annotated_data_infinite2.a) PARTITION BY [annotated_data_infinite2.a, annotated_data_infinite2.b] ORDER BY [annotated_data_infinite2.c ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW]] -07)------------Projection: CAST(annotated_data_infinite2.a AS Int64) AS {CAST(annotated_data_infinite2.a AS Int64)|{annotated_data_infinite2.a}}, annotated_data_infinite2.a, annotated_data_infinite2.b, annotated_data_infinite2.c, annotated_data_infinite2.d +02)--WindowAggr: windowExpr=[[sum(__common_expr_1 AS annotated_data_infinite2.a) PARTITION BY [annotated_data_infinite2.d] ORDER BY [annotated_data_infinite2.a ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW]] +03)----Projection: __common_expr_1, annotated_data_infinite2.a, annotated_data_infinite2.d, sum(annotated_data_infinite2.a) PARTITION BY [annotated_data_infinite2.a, annotated_data_infinite2.b] ORDER BY [annotated_data_infinite2.c ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW, sum(annotated_data_infinite2.a) PARTITION BY [annotated_data_infinite2.a, annotated_data_infinite2.d] ORDER BY [annotated_data_infinite2.b ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW, sum(annotated_data_infinite2.a) PARTITION BY [annotated_data_infinite2.b, annotated_data_infinite2.a] ORDER BY [annotated_data_infinite2.c ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW +04)------WindowAggr: windowExpr=[[sum(__common_expr_1 AS annotated_data_infinite2.a) PARTITION BY [annotated_data_infinite2.b, annotated_data_infinite2.a] ORDER BY [annotated_data_infinite2.c ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW]] +05)--------WindowAggr: windowExpr=[[sum(__common_expr_1 AS annotated_data_infinite2.a) PARTITION BY [annotated_data_infinite2.a, annotated_data_infinite2.d] ORDER BY [annotated_data_infinite2.b ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW]] +06)----------WindowAggr: windowExpr=[[sum(__common_expr_1 AS annotated_data_infinite2.a) PARTITION BY [annotated_data_infinite2.a, annotated_data_infinite2.b] ORDER BY [annotated_data_infinite2.c ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW]] +07)------------Projection: CAST(annotated_data_infinite2.a AS Int64) AS __common_expr_1, annotated_data_infinite2.a, annotated_data_infinite2.b, annotated_data_infinite2.c, annotated_data_infinite2.d 08)--------------TableScan: annotated_data_infinite2 projection=[a, b, c, d] physical_plan 01)ProjectionExec: expr=[sum(annotated_data_infinite2.a) PARTITION BY [annotated_data_infinite2.a, annotated_data_infinite2.b] ORDER BY [annotated_data_infinite2.c ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW@3 as sum1, sum(annotated_data_infinite2.a) PARTITION BY [annotated_data_infinite2.b, annotated_data_infinite2.a] ORDER BY [annotated_data_infinite2.c ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW@5 as sum2, sum(annotated_data_infinite2.a) PARTITION BY [annotated_data_infinite2.a, annotated_data_infinite2.d] ORDER BY [annotated_data_infinite2.b ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW@4 as sum3, sum(annotated_data_infinite2.a) PARTITION BY [annotated_data_infinite2.d] ORDER BY [annotated_data_infinite2.a ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW@6 as sum4] 02)--BoundedWindowAggExec: wdw=[sum(annotated_data_infinite2.a) PARTITION BY [annotated_data_infinite2.d] ORDER BY [annotated_data_infinite2.a ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW: Ok(Field { name: "sum(annotated_data_infinite2.a) PARTITION BY [annotated_data_infinite2.d] ORDER BY [annotated_data_infinite2.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(Int32(NULL)), end_bound: CurrentRow, is_causal: false }], mode=[Linear] -03)----ProjectionExec: expr=[{CAST(annotated_data_infinite2.a AS Int64)|{annotated_data_infinite2.a}}@0 as {CAST(annotated_data_infinite2.a AS Int64)|{annotated_data_infinite2.a}}, a@1 as a, d@4 as d, sum(annotated_data_infinite2.a) PARTITION BY [annotated_data_infinite2.a, annotated_data_infinite2.b] ORDER BY [annotated_data_infinite2.c ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW@5 as sum(annotated_data_infinite2.a) PARTITION BY [annotated_data_infinite2.a, annotated_data_infinite2.b] ORDER BY [annotated_data_infinite2.c ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW, sum(annotated_data_infinite2.a) PARTITION BY [annotated_data_infinite2.a, annotated_data_infinite2.d] ORDER BY [annotated_data_infinite2.b ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW@6 as sum(annotated_data_infinite2.a) PARTITION BY [annotated_data_infinite2.a, annotated_data_infinite2.d] ORDER BY [annotated_data_infinite2.b ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW, sum(annotated_data_infinite2.a) PARTITION BY [annotated_data_infinite2.b, annotated_data_infinite2.a] ORDER BY [annotated_data_infinite2.c ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW@7 as sum(annotated_data_infinite2.a) PARTITION BY [annotated_data_infinite2.b, annotated_data_infinite2.a] ORDER BY [annotated_data_infinite2.c ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW] +03)----ProjectionExec: expr=[__common_expr_1@0 as __common_expr_1, a@1 as a, d@4 as d, sum(annotated_data_infinite2.a) PARTITION BY [annotated_data_infinite2.a, annotated_data_infinite2.b] ORDER BY [annotated_data_infinite2.c ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW@5 as sum(annotated_data_infinite2.a) PARTITION BY [annotated_data_infinite2.a, annotated_data_infinite2.b] ORDER BY [annotated_data_infinite2.c ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW, sum(annotated_data_infinite2.a) PARTITION BY [annotated_data_infinite2.a, annotated_data_infinite2.d] ORDER BY [annotated_data_infinite2.b ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW@6 as sum(annotated_data_infinite2.a) PARTITION BY [annotated_data_infinite2.a, annotated_data_infinite2.d] ORDER BY [annotated_data_infinite2.b ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW, sum(annotated_data_infinite2.a) PARTITION BY [annotated_data_infinite2.b, annotated_data_infinite2.a] ORDER BY [annotated_data_infinite2.c ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW@7 as sum(annotated_data_infinite2.a) PARTITION BY [annotated_data_infinite2.b, annotated_data_infinite2.a] ORDER BY [annotated_data_infinite2.c ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW] 04)------BoundedWindowAggExec: wdw=[sum(annotated_data_infinite2.a) PARTITION BY [annotated_data_infinite2.b, annotated_data_infinite2.a] ORDER BY [annotated_data_infinite2.c ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW: Ok(Field { name: "sum(annotated_data_infinite2.a) PARTITION BY [annotated_data_infinite2.b, annotated_data_infinite2.a] ORDER BY [annotated_data_infinite2.c 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(Int32(NULL)), end_bound: CurrentRow, is_causal: false }], mode=[Sorted] 05)--------BoundedWindowAggExec: wdw=[sum(annotated_data_infinite2.a) PARTITION BY [annotated_data_infinite2.a, annotated_data_infinite2.d] ORDER BY [annotated_data_infinite2.b ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW: Ok(Field { name: "sum(annotated_data_infinite2.a) PARTITION BY [annotated_data_infinite2.a, annotated_data_infinite2.d] ORDER BY [annotated_data_infinite2.b 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(Int32(NULL)), end_bound: CurrentRow, is_causal: false }], mode=[PartiallySorted([0])] 06)----------BoundedWindowAggExec: wdw=[sum(annotated_data_infinite2.a) PARTITION BY [annotated_data_infinite2.a, annotated_data_infinite2.b] ORDER BY [annotated_data_infinite2.c ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW: Ok(Field { name: "sum(annotated_data_infinite2.a) PARTITION BY [annotated_data_infinite2.a, annotated_data_infinite2.b] ORDER BY [annotated_data_infinite2.c 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(Int32(NULL)), end_bound: CurrentRow, is_causal: false }], mode=[Sorted] -07)------------ProjectionExec: expr=[CAST(a@0 AS Int64) as {CAST(annotated_data_infinite2.a AS Int64)|{annotated_data_infinite2.a}}, a@0 as a, b@1 as b, c@2 as c, d@3 as d] +07)------------ProjectionExec: expr=[CAST(a@0 AS Int64) as __common_expr_1, a@0 as a, b@1 as b, c@2 as c, d@3 as d] 08)--------------StreamingTableExec: partition_sizes=1, projection=[a, b, c, d], infinite_source=true, output_ordering=[a@0 ASC NULLS LAST, b@1 ASC NULLS LAST, c@2 ASC NULLS LAST] statement ok @@ -3272,29 +3272,29 @@ FROM annotated_data_infinite2; ---- logical_plan 01)Projection: sum(annotated_data_infinite2.a) PARTITION BY [annotated_data_infinite2.a, annotated_data_infinite2.b] ORDER BY [annotated_data_infinite2.c ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW AS sum1, sum(annotated_data_infinite2.a) PARTITION BY [annotated_data_infinite2.b, annotated_data_infinite2.a] ORDER BY [annotated_data_infinite2.c ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW AS sum2, sum(annotated_data_infinite2.a) PARTITION BY [annotated_data_infinite2.a, annotated_data_infinite2.d] ORDER BY [annotated_data_infinite2.b ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW AS sum3, sum(annotated_data_infinite2.a) PARTITION BY [annotated_data_infinite2.d] ORDER BY [annotated_data_infinite2.a ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW AS sum4 -02)--WindowAggr: windowExpr=[[sum({CAST(annotated_data_infinite2.a AS Int64)|{annotated_data_infinite2.a}} AS annotated_data_infinite2.a) PARTITION BY [annotated_data_infinite2.d] ORDER BY [annotated_data_infinite2.a ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW]] -03)----Projection: {CAST(annotated_data_infinite2.a AS Int64)|{annotated_data_infinite2.a}}, annotated_data_infinite2.a, annotated_data_infinite2.d, sum(annotated_data_infinite2.a) PARTITION BY [annotated_data_infinite2.a, annotated_data_infinite2.b] ORDER BY [annotated_data_infinite2.c ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW, sum(annotated_data_infinite2.a) PARTITION BY [annotated_data_infinite2.a, annotated_data_infinite2.d] ORDER BY [annotated_data_infinite2.b ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW, sum(annotated_data_infinite2.a) PARTITION BY [annotated_data_infinite2.b, annotated_data_infinite2.a] ORDER BY [annotated_data_infinite2.c ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW -04)------WindowAggr: windowExpr=[[sum({CAST(annotated_data_infinite2.a AS Int64)|{annotated_data_infinite2.a}} AS annotated_data_infinite2.a) PARTITION BY [annotated_data_infinite2.b, annotated_data_infinite2.a] ORDER BY [annotated_data_infinite2.c ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW]] -05)--------WindowAggr: windowExpr=[[sum({CAST(annotated_data_infinite2.a AS Int64)|{annotated_data_infinite2.a}} AS annotated_data_infinite2.a) PARTITION BY [annotated_data_infinite2.a, annotated_data_infinite2.d] ORDER BY [annotated_data_infinite2.b ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW]] -06)----------WindowAggr: windowExpr=[[sum({CAST(annotated_data_infinite2.a AS Int64)|{annotated_data_infinite2.a}} AS annotated_data_infinite2.a) PARTITION BY [annotated_data_infinite2.a, annotated_data_infinite2.b] ORDER BY [annotated_data_infinite2.c ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW]] -07)------------Projection: CAST(annotated_data_infinite2.a AS Int64) AS {CAST(annotated_data_infinite2.a AS Int64)|{annotated_data_infinite2.a}}, annotated_data_infinite2.a, annotated_data_infinite2.b, annotated_data_infinite2.c, annotated_data_infinite2.d +02)--WindowAggr: windowExpr=[[sum(__common_expr_1 AS annotated_data_infinite2.a) PARTITION BY [annotated_data_infinite2.d] ORDER BY [annotated_data_infinite2.a ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW]] +03)----Projection: __common_expr_1, annotated_data_infinite2.a, annotated_data_infinite2.d, sum(annotated_data_infinite2.a) PARTITION BY [annotated_data_infinite2.a, annotated_data_infinite2.b] ORDER BY [annotated_data_infinite2.c ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW, sum(annotated_data_infinite2.a) PARTITION BY [annotated_data_infinite2.a, annotated_data_infinite2.d] ORDER BY [annotated_data_infinite2.b ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW, sum(annotated_data_infinite2.a) PARTITION BY [annotated_data_infinite2.b, annotated_data_infinite2.a] ORDER BY [annotated_data_infinite2.c ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW +04)------WindowAggr: windowExpr=[[sum(__common_expr_1 AS annotated_data_infinite2.a) PARTITION BY [annotated_data_infinite2.b, annotated_data_infinite2.a] ORDER BY [annotated_data_infinite2.c ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW]] +05)--------WindowAggr: windowExpr=[[sum(__common_expr_1 AS annotated_data_infinite2.a) PARTITION BY [annotated_data_infinite2.a, annotated_data_infinite2.d] ORDER BY [annotated_data_infinite2.b ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW]] +06)----------WindowAggr: windowExpr=[[sum(__common_expr_1 AS annotated_data_infinite2.a) PARTITION BY [annotated_data_infinite2.a, annotated_data_infinite2.b] ORDER BY [annotated_data_infinite2.c ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW]] +07)------------Projection: CAST(annotated_data_infinite2.a AS Int64) AS __common_expr_1, annotated_data_infinite2.a, annotated_data_infinite2.b, annotated_data_infinite2.c, annotated_data_infinite2.d 08)--------------TableScan: annotated_data_infinite2 projection=[a, b, c, d] physical_plan 01)ProjectionExec: expr=[sum(annotated_data_infinite2.a) PARTITION BY [annotated_data_infinite2.a, annotated_data_infinite2.b] ORDER BY [annotated_data_infinite2.c ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW@3 as sum1, sum(annotated_data_infinite2.a) PARTITION BY [annotated_data_infinite2.b, annotated_data_infinite2.a] ORDER BY [annotated_data_infinite2.c ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW@5 as sum2, sum(annotated_data_infinite2.a) PARTITION BY [annotated_data_infinite2.a, annotated_data_infinite2.d] ORDER BY [annotated_data_infinite2.b ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW@4 as sum3, sum(annotated_data_infinite2.a) PARTITION BY [annotated_data_infinite2.d] ORDER BY [annotated_data_infinite2.a ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW@6 as sum4] 02)--BoundedWindowAggExec: wdw=[sum(annotated_data_infinite2.a) PARTITION BY [annotated_data_infinite2.d] ORDER BY [annotated_data_infinite2.a ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW: Ok(Field { name: "sum(annotated_data_infinite2.a) PARTITION BY [annotated_data_infinite2.d] ORDER BY [annotated_data_infinite2.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(Int32(NULL)), end_bound: CurrentRow, is_causal: false }], mode=[Linear] 03)----CoalesceBatchesExec: target_batch_size=4096 -04)------RepartitionExec: partitioning=Hash([d@2], 2), input_partitions=2, preserve_order=true, sort_exprs={CAST(annotated_data_infinite2.a AS Int64)|{annotated_data_infinite2.a}}@0 ASC NULLS LAST,a@1 ASC NULLS LAST -05)--------ProjectionExec: expr=[{CAST(annotated_data_infinite2.a AS Int64)|{annotated_data_infinite2.a}}@0 as {CAST(annotated_data_infinite2.a AS Int64)|{annotated_data_infinite2.a}}, a@1 as a, d@4 as d, sum(annotated_data_infinite2.a) PARTITION BY [annotated_data_infinite2.a, annotated_data_infinite2.b] ORDER BY [annotated_data_infinite2.c ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW@5 as sum(annotated_data_infinite2.a) PARTITION BY [annotated_data_infinite2.a, annotated_data_infinite2.b] ORDER BY [annotated_data_infinite2.c ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW, sum(annotated_data_infinite2.a) PARTITION BY [annotated_data_infinite2.a, annotated_data_infinite2.d] ORDER BY [annotated_data_infinite2.b ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW@6 as sum(annotated_data_infinite2.a) PARTITION BY [annotated_data_infinite2.a, annotated_data_infinite2.d] ORDER BY [annotated_data_infinite2.b ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW, sum(annotated_data_infinite2.a) PARTITION BY [annotated_data_infinite2.b, annotated_data_infinite2.a] ORDER BY [annotated_data_infinite2.c ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW@7 as sum(annotated_data_infinite2.a) PARTITION BY [annotated_data_infinite2.b, annotated_data_infinite2.a] ORDER BY [annotated_data_infinite2.c ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW] +04)------RepartitionExec: partitioning=Hash([d@2], 2), input_partitions=2, preserve_order=true, sort_exprs=__common_expr_1@0 ASC NULLS LAST,a@1 ASC NULLS LAST +05)--------ProjectionExec: expr=[__common_expr_1@0 as __common_expr_1, a@1 as a, d@4 as d, sum(annotated_data_infinite2.a) PARTITION BY [annotated_data_infinite2.a, annotated_data_infinite2.b] ORDER BY [annotated_data_infinite2.c ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW@5 as sum(annotated_data_infinite2.a) PARTITION BY [annotated_data_infinite2.a, annotated_data_infinite2.b] ORDER BY [annotated_data_infinite2.c ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW, sum(annotated_data_infinite2.a) PARTITION BY [annotated_data_infinite2.a, annotated_data_infinite2.d] ORDER BY [annotated_data_infinite2.b ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW@6 as sum(annotated_data_infinite2.a) PARTITION BY [annotated_data_infinite2.a, annotated_data_infinite2.d] ORDER BY [annotated_data_infinite2.b ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW, sum(annotated_data_infinite2.a) PARTITION BY [annotated_data_infinite2.b, annotated_data_infinite2.a] ORDER BY [annotated_data_infinite2.c ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW@7 as sum(annotated_data_infinite2.a) PARTITION BY [annotated_data_infinite2.b, annotated_data_infinite2.a] ORDER BY [annotated_data_infinite2.c ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW] 06)----------BoundedWindowAggExec: wdw=[sum(annotated_data_infinite2.a) PARTITION BY [annotated_data_infinite2.b, annotated_data_infinite2.a] ORDER BY [annotated_data_infinite2.c ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW: Ok(Field { name: "sum(annotated_data_infinite2.a) PARTITION BY [annotated_data_infinite2.b, annotated_data_infinite2.a] ORDER BY [annotated_data_infinite2.c 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(Int32(NULL)), end_bound: CurrentRow, is_causal: false }], mode=[Sorted] 07)------------CoalesceBatchesExec: target_batch_size=4096 -08)--------------RepartitionExec: partitioning=Hash([b@2, a@1], 2), input_partitions=2, preserve_order=true, sort_exprs=a@1 ASC NULLS LAST,b@2 ASC NULLS LAST,c@3 ASC NULLS LAST,{CAST(annotated_data_infinite2.a AS Int64)|{annotated_data_infinite2.a}}@0 ASC NULLS LAST +08)--------------RepartitionExec: partitioning=Hash([b@2, a@1], 2), input_partitions=2, preserve_order=true, sort_exprs=a@1 ASC NULLS LAST,b@2 ASC NULLS LAST,c@3 ASC NULLS LAST,__common_expr_1@0 ASC NULLS LAST 09)----------------BoundedWindowAggExec: wdw=[sum(annotated_data_infinite2.a) PARTITION BY [annotated_data_infinite2.a, annotated_data_infinite2.d] ORDER BY [annotated_data_infinite2.b ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW: Ok(Field { name: "sum(annotated_data_infinite2.a) PARTITION BY [annotated_data_infinite2.a, annotated_data_infinite2.d] ORDER BY [annotated_data_infinite2.b 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(Int32(NULL)), end_bound: CurrentRow, is_causal: false }], mode=[PartiallySorted([0])] 10)------------------CoalesceBatchesExec: target_batch_size=4096 -11)--------------------RepartitionExec: partitioning=Hash([a@1, d@4], 2), input_partitions=2, preserve_order=true, sort_exprs=a@1 ASC NULLS LAST,b@2 ASC NULLS LAST,c@3 ASC NULLS LAST,{CAST(annotated_data_infinite2.a AS Int64)|{annotated_data_infinite2.a}}@0 ASC NULLS LAST +11)--------------------RepartitionExec: partitioning=Hash([a@1, d@4], 2), input_partitions=2, preserve_order=true, sort_exprs=a@1 ASC NULLS LAST,b@2 ASC NULLS LAST,c@3 ASC NULLS LAST,__common_expr_1@0 ASC NULLS LAST 12)----------------------BoundedWindowAggExec: wdw=[sum(annotated_data_infinite2.a) PARTITION BY [annotated_data_infinite2.a, annotated_data_infinite2.b] ORDER BY [annotated_data_infinite2.c ASC NULLS LAST] RANGE BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW: Ok(Field { name: "sum(annotated_data_infinite2.a) PARTITION BY [annotated_data_infinite2.a, annotated_data_infinite2.b] ORDER BY [annotated_data_infinite2.c 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(Int32(NULL)), end_bound: CurrentRow, is_causal: false }], mode=[Sorted] 13)------------------------CoalesceBatchesExec: target_batch_size=4096 -14)--------------------------RepartitionExec: partitioning=Hash([a@1, b@2], 2), input_partitions=2, preserve_order=true, sort_exprs=a@1 ASC NULLS LAST,b@2 ASC NULLS LAST,c@3 ASC NULLS LAST,{CAST(annotated_data_infinite2.a AS Int64)|{annotated_data_infinite2.a}}@0 ASC NULLS LAST -15)----------------------------ProjectionExec: expr=[CAST(a@0 AS Int64) as {CAST(annotated_data_infinite2.a AS Int64)|{annotated_data_infinite2.a}}, a@0 as a, b@1 as b, c@2 as c, d@3 as d] +14)--------------------------RepartitionExec: partitioning=Hash([a@1, b@2], 2), input_partitions=2, preserve_order=true, sort_exprs=a@1 ASC NULLS LAST,b@2 ASC NULLS LAST,c@3 ASC NULLS LAST,__common_expr_1@0 ASC NULLS LAST +15)----------------------------ProjectionExec: expr=[CAST(a@0 AS Int64) as __common_expr_1, a@0 as a, b@1 as b, c@2 as c, d@3 as d] 16)------------------------------RepartitionExec: partitioning=RoundRobinBatch(2), input_partitions=1 17)--------------------------------StreamingTableExec: partition_sizes=1, projection=[a, b, c, d], infinite_source=true, output_ordering=[a@0 ASC NULLS LAST, b@1 ASC NULLS LAST, c@2 ASC NULLS LAST]