== Physical Plan ==
AdaptiveSparkPlan (38)
+- == Final Plan ==
   VeloxColumnarToRow (24)
   +- ^ ProjectExecTransformer (22)
      +- ^ RegularHashAggregateExecTransformer (21)
         +- ^ ProjectExecTransformer (20)
            +- ^ ShuffledHashJoinExecTransformer Inner BuildLeft (19)
               :- ^ InputIteratorTransformer (9)
               :  +- ShuffleQueryStage (7)
               :     +- ColumnarExchange (6)
               :        +- VeloxResizeBatches (5)
               :           +- ^ ProjectExecTransformer (3)
               :              +- ^ FilterExecTransformer (2)
               :                 +- ^ ScanTransformer parquet  (1)
               +- ^ InputIteratorTransformer (18)
                  +- ShuffleQueryStage (16)
                     +- ColumnarExchange (15)
                        +- VeloxResizeBatches (14)
                           +- ^ ProjectExecTransformer (12)
                              +- ^ FilterExecTransformer (11)
                                 +- ^ ScanTransformer parquet  (10)
+- == Initial Plan ==
   HashAggregate (37)
   +- HashAggregate (36)
      +- Project (35)
         +- SortMergeJoin Inner (34)
            :- Sort (29)
            :  +- Exchange (28)
            :     +- Project (27)
            :        +- Filter (26)
            :           +- Scan parquet (25)
            +- Sort (33)
               +- Exchange (32)
                  +- Filter (31)
                     +- Scan parquet (30)


(1) ScanTransformer parquet 
Output [4]: [l_partkey#X, l_extendedprice#X, l_discount#X, l_shipdate#X]
Batched: true
Location: InMemoryFileIndex [*]
PushedFilters: [IsNotNull(l_shipdate), GreaterThanOrEqual(l_shipdate,1995-09-01), LessThan(l_shipdate,1995-10-01), IsNotNull(l_partkey)]
ReadSchema: struct<l_partkey:bigint,l_extendedprice:decimal(12,2),l_discount:decimal(12,2),l_shipdate:date>

(2) FilterExecTransformer
Input [4]: [l_partkey#X, l_extendedprice#X, l_discount#X, l_shipdate#X]
Arguments: (((isnotnull(l_shipdate#X) AND (l_shipdate#X >= 1995-09-01)) AND (l_shipdate#X < 1995-10-01)) AND isnotnull(l_partkey#X))

(3) ProjectExecTransformer
Output [4]: [hash(l_partkey#X, 42) AS hash_partition_key#X, l_partkey#X, l_extendedprice#X, l_discount#X]
Input [4]: [l_partkey#X, l_extendedprice#X, l_discount#X, l_shipdate#X]

(4) WholeStageCodegenTransformer (X)
Input [4]: [hash_partition_key#X, l_partkey#X, l_extendedprice#X, l_discount#X]
Arguments: false

(5) VeloxResizeBatches
Input [4]: [hash_partition_key#X, l_partkey#X, l_extendedprice#X, l_discount#X]
Arguments: X, X

(6) ColumnarExchange
Input [4]: [hash_partition_key#X, l_partkey#X, l_extendedprice#X, l_discount#X]
Arguments: hashpartitioning(l_partkey#X, 1), ENSURE_REQUIREMENTS, [l_partkey#X, l_extendedprice#X, l_discount#X], [plan_id=X], [shuffle_writer_type=hash]

(7) ShuffleQueryStage
Output [3]: [l_partkey#X, l_extendedprice#X, l_discount#X]
Arguments: X

(8) InputAdapter
Input [3]: [l_partkey#X, l_extendedprice#X, l_discount#X]

(9) InputIteratorTransformer
Input [3]: [l_partkey#X, l_extendedprice#X, l_discount#X]

(10) ScanTransformer parquet 
Output [2]: [p_partkey#X, p_type#X]
Batched: true
Location: InMemoryFileIndex [*]
PushedFilters: [IsNotNull(p_partkey)]
ReadSchema: struct<p_partkey:bigint,p_type:string>

(11) FilterExecTransformer
Input [2]: [p_partkey#X, p_type#X]
Arguments: isnotnull(p_partkey#X)

(12) ProjectExecTransformer
Output [3]: [hash(p_partkey#X, 42) AS hash_partition_key#X, p_partkey#X, p_type#X]
Input [2]: [p_partkey#X, p_type#X]

(13) WholeStageCodegenTransformer (X)
Input [3]: [hash_partition_key#X, p_partkey#X, p_type#X]
Arguments: false

(14) VeloxResizeBatches
Input [3]: [hash_partition_key#X, p_partkey#X, p_type#X]
Arguments: X, X

(15) ColumnarExchange
Input [3]: [hash_partition_key#X, p_partkey#X, p_type#X]
Arguments: hashpartitioning(p_partkey#X, 1), ENSURE_REQUIREMENTS, [p_partkey#X, p_type#X], [plan_id=X], [shuffle_writer_type=hash]

(16) ShuffleQueryStage
Output [2]: [p_partkey#X, p_type#X]
Arguments: X

(17) InputAdapter
Input [2]: [p_partkey#X, p_type#X]

(18) InputIteratorTransformer
Input [2]: [p_partkey#X, p_type#X]

(19) ShuffledHashJoinExecTransformer
Left keys [1]: [l_partkey#X]
Right keys [1]: [p_partkey#X]
Join condition: None

(20) ProjectExecTransformer
Output [2]: [CASE WHEN StartsWith(p_type#X, PROMO) THEN CheckOverflow((promote_precision(cast(l_extendedprice#X as decimal(13,2))) * promote_precision(CheckOverflow((1.00 - promote_precision(cast(l_discount#X as decimal(13,2)))), DecimalType(13,2), true))), DecimalType(26,4), true) ELSE 0.0000 END AS _pre_X#X, CheckOverflow((promote_precision(cast(l_extendedprice#X as decimal(13,2))) * promote_precision(CheckOverflow((1.00 - promote_precision(cast(l_discount#X as decimal(13,2)))), DecimalType(13,2), true))), DecimalType(26,4), true) AS _pre_X#X]
Input [5]: [l_partkey#X, l_extendedprice#X, l_discount#X, p_partkey#X, p_type#X]

(21) RegularHashAggregateExecTransformer
Input [2]: [_pre_X#X, _pre_X#X]
Keys: []
Functions [2]: [sum(_pre_X#X), sum(_pre_X#X)]
Aggregate Attributes [2]: [sum(CASE WHEN StartsWith(p_type#X, PROMO) THEN CheckOverflow((promote_precision(cast(l_extendedprice#X as decimal(13,2))) * promote_precision(CheckOverflow((1.00 - promote_precision(cast(l_discount#X as decimal(13,2)))), DecimalType(13,2), true))), DecimalType(26,4), true) ELSE 0.0000 END)#X, sum(CheckOverflow((promote_precision(cast(l_extendedprice#X as decimal(13,2))) * promote_precision(CheckOverflow((1.00 - promote_precision(cast(l_discount#X as decimal(13,2)))), DecimalType(13,2), true))), DecimalType(26,4), true))#X]
Results [2]: [sum(CASE WHEN StartsWith(p_type#X, PROMO) THEN CheckOverflow((promote_precision(cast(l_extendedprice#X as decimal(13,2))) * promote_precision(CheckOverflow((1.00 - promote_precision(cast(l_discount#X as decimal(13,2)))), DecimalType(13,2), true))), DecimalType(26,4), true) ELSE 0.0000 END)#X, sum(CheckOverflow((promote_precision(cast(l_extendedprice#X as decimal(13,2))) * promote_precision(CheckOverflow((1.00 - promote_precision(cast(l_discount#X as decimal(13,2)))), DecimalType(13,2), true))), DecimalType(26,4), true))#X]

(22) ProjectExecTransformer
Output [1]: [CheckOverflow((promote_precision(CheckOverflow((100.0000 * promote_precision(sum(CASE WHEN StartsWith(p_type#X, PROMO) THEN CheckOverflow((promote_precision(cast(l_extendedprice#X as decimal(13,2))) * promote_precision(CheckOverflow((1.00 - promote_precision(cast(l_discount#X as decimal(13,2)))), DecimalType(13,2), true))), DecimalType(26,4), true) ELSE 0.0000 END)#X)), DecimalType(38,6), true)) / promote_precision(cast(sum(CheckOverflow((promote_precision(cast(l_extendedprice#X as decimal(13,2))) * promote_precision(CheckOverflow((1.00 - promote_precision(cast(l_discount#X as decimal(13,2)))), DecimalType(13,2), true))), DecimalType(26,4), true))#X as decimal(38,6)))), DecimalType(38,6), true) AS promo_revenue#X]
Input [2]: [sum(CASE WHEN StartsWith(p_type#X, PROMO) THEN CheckOverflow((promote_precision(cast(l_extendedprice#X as decimal(13,2))) * promote_precision(CheckOverflow((1.00 - promote_precision(cast(l_discount#X as decimal(13,2)))), DecimalType(13,2), true))), DecimalType(26,4), true) ELSE 0.0000 END)#X, sum(CheckOverflow((promote_precision(cast(l_extendedprice#X as decimal(13,2))) * promote_precision(CheckOverflow((1.00 - promote_precision(cast(l_discount#X as decimal(13,2)))), DecimalType(13,2), true))), DecimalType(26,4), true))#X]

(23) WholeStageCodegenTransformer (X)
Input [1]: [promo_revenue#X]
Arguments: false

(24) VeloxColumnarToRow
Input [1]: [promo_revenue#X]

(25) Scan parquet
Output [4]: [l_partkey#X, l_extendedprice#X, l_discount#X, l_shipdate#X]
Batched: true
Location: InMemoryFileIndex [*]
PushedFilters: [IsNotNull(l_shipdate), GreaterThanOrEqual(l_shipdate,1995-09-01), LessThan(l_shipdate,1995-10-01), IsNotNull(l_partkey)]
ReadSchema: struct<l_partkey:bigint,l_extendedprice:decimal(12,2),l_discount:decimal(12,2),l_shipdate:date>

(26) Filter
Input [4]: [l_partkey#X, l_extendedprice#X, l_discount#X, l_shipdate#X]
Condition : (((isnotnull(l_shipdate#X) AND (l_shipdate#X >= 1995-09-01)) AND (l_shipdate#X < 1995-10-01)) AND isnotnull(l_partkey#X))

(27) Project
Output [3]: [l_partkey#X, l_extendedprice#X, l_discount#X]
Input [4]: [l_partkey#X, l_extendedprice#X, l_discount#X, l_shipdate#X]

(28) Exchange
Input [3]: [l_partkey#X, l_extendedprice#X, l_discount#X]
Arguments: hashpartitioning(l_partkey#X, 1), ENSURE_REQUIREMENTS, [plan_id=X]

(29) Sort
Input [3]: [l_partkey#X, l_extendedprice#X, l_discount#X]
Arguments: [l_partkey#X ASC NULLS FIRST], false, 0

(30) Scan parquet
Output [2]: [p_partkey#X, p_type#X]
Batched: true
Location: InMemoryFileIndex [*]
PushedFilters: [IsNotNull(p_partkey)]
ReadSchema: struct<p_partkey:bigint,p_type:string>

(31) Filter
Input [2]: [p_partkey#X, p_type#X]
Condition : isnotnull(p_partkey#X)

(32) Exchange
Input [2]: [p_partkey#X, p_type#X]
Arguments: hashpartitioning(p_partkey#X, 1), ENSURE_REQUIREMENTS, [plan_id=X]

(33) Sort
Input [2]: [p_partkey#X, p_type#X]
Arguments: [p_partkey#X ASC NULLS FIRST], false, 0

(34) SortMergeJoin
Left keys [1]: [l_partkey#X]
Right keys [1]: [p_partkey#X]
Join condition: None

(35) Project
Output [3]: [l_extendedprice#X, l_discount#X, p_type#X]
Input [5]: [l_partkey#X, l_extendedprice#X, l_discount#X, p_partkey#X, p_type#X]

(36) HashAggregate
Input [3]: [l_extendedprice#X, l_discount#X, p_type#X]
Keys: []
Functions [2]: [partial_sum(CASE WHEN StartsWith(p_type#X, PROMO) THEN CheckOverflow((promote_precision(cast(l_extendedprice#X as decimal(13,2))) * promote_precision(CheckOverflow((1.00 - promote_precision(cast(l_discount#X as decimal(13,2)))), DecimalType(13,2), true))), DecimalType(26,4), true) ELSE 0.0000 END), partial_sum(CheckOverflow((promote_precision(cast(l_extendedprice#X as decimal(13,2))) * promote_precision(CheckOverflow((1.00 - promote_precision(cast(l_discount#X as decimal(13,2)))), DecimalType(13,2), true))), DecimalType(26,4), true))]
Aggregate Attributes [4]: [sum#X, isEmpty#X, sum#X, isEmpty#X]
Results [4]: [sum#X, isEmpty#X, sum#X, isEmpty#X]

(37) HashAggregate
Input [4]: [sum#X, isEmpty#X, sum#X, isEmpty#X]
Keys: []
Functions [2]: [sum(CASE WHEN StartsWith(p_type#X, PROMO) THEN CheckOverflow((promote_precision(cast(l_extendedprice#X as decimal(13,2))) * promote_precision(CheckOverflow((1.00 - promote_precision(cast(l_discount#X as decimal(13,2)))), DecimalType(13,2), true))), DecimalType(26,4), true) ELSE 0.0000 END), sum(CheckOverflow((promote_precision(cast(l_extendedprice#X as decimal(13,2))) * promote_precision(CheckOverflow((1.00 - promote_precision(cast(l_discount#X as decimal(13,2)))), DecimalType(13,2), true))), DecimalType(26,4), true))]
Aggregate Attributes [2]: [sum(CASE WHEN StartsWith(p_type#X, PROMO) THEN CheckOverflow((promote_precision(cast(l_extendedprice#X as decimal(13,2))) * promote_precision(CheckOverflow((1.00 - promote_precision(cast(l_discount#X as decimal(13,2)))), DecimalType(13,2), true))), DecimalType(26,4), true) ELSE 0.0000 END)#X, sum(CheckOverflow((promote_precision(cast(l_extendedprice#X as decimal(13,2))) * promote_precision(CheckOverflow((1.00 - promote_precision(cast(l_discount#X as decimal(13,2)))), DecimalType(13,2), true))), DecimalType(26,4), true))#X]
Results [1]: [CheckOverflow((promote_precision(CheckOverflow((100.0000 * promote_precision(sum(CASE WHEN StartsWith(p_type#X, PROMO) THEN CheckOverflow((promote_precision(cast(l_extendedprice#X as decimal(13,2))) * promote_precision(CheckOverflow((1.00 - promote_precision(cast(l_discount#X as decimal(13,2)))), DecimalType(13,2), true))), DecimalType(26,4), true) ELSE 0.0000 END)#X)), DecimalType(38,6), true)) / promote_precision(cast(sum(CheckOverflow((promote_precision(cast(l_extendedprice#X as decimal(13,2))) * promote_precision(CheckOverflow((1.00 - promote_precision(cast(l_discount#X as decimal(13,2)))), DecimalType(13,2), true))), DecimalType(26,4), true))#X as decimal(38,6)))), DecimalType(38,6), true) AS promo_revenue#X]

(38) AdaptiveSparkPlan
Output [1]: [promo_revenue#X]
Arguments: isFinalPlan=true