http://git-wip-us.apache.org/repos/asf/hive/blob/299926e1/ql/src/test/results/clientpositive/tez/explainanalyze_2.q.out ---------------------------------------------------------------------- diff --git a/ql/src/test/results/clientpositive/tez/explainanalyze_2.q.out b/ql/src/test/results/clientpositive/tez/explainanalyze_2.q.out index 37fc7d3..d537b19 100644 --- a/ql/src/test/results/clientpositive/tez/explainanalyze_2.q.out +++ b/ql/src/test/results/clientpositive/tez/explainanalyze_2.q.out @@ -1,2011 +1,23 @@ -PREHOOK: query: -- SORT_QUERY_RESULTS - -CREATE TABLE dest_j1(key STRING, value STRING, val2 STRING) STORED AS TEXTFILE -PREHOOK: type: CREATETABLE -PREHOOK: Output: database:default -PREHOOK: Output: default@dest_j1 -POSTHOOK: query: -- SORT_QUERY_RESULTS - -CREATE TABLE dest_j1(key STRING, value STRING, val2 STRING) STORED AS TEXTFILE -POSTHOOK: type: CREATETABLE -POSTHOOK: Output: database:default -POSTHOOK: Output: default@dest_j1 -PREHOOK: query: CREATE TABLE ss(k1 STRING,v1 STRING,k2 STRING,v2 STRING,k3 STRING,v3 STRING) STORED AS TEXTFILE -PREHOOK: type: CREATETABLE -PREHOOK: Output: database:default -PREHOOK: Output: default@ss -POSTHOOK: query: CREATE TABLE ss(k1 STRING,v1 STRING,k2 STRING,v2 STRING,k3 STRING,v3 STRING) STORED AS TEXTFILE -POSTHOOK: type: CREATETABLE -POSTHOOK: Output: database:default -POSTHOOK: Output: default@ss -PREHOOK: query: CREATE TABLE sr(k1 STRING,v1 STRING,k2 STRING,v2 STRING,k3 STRING,v3 STRING) STORED AS TEXTFILE -PREHOOK: type: CREATETABLE -PREHOOK: Output: database:default -PREHOOK: Output: default@sr -POSTHOOK: query: CREATE TABLE sr(k1 STRING,v1 STRING,k2 STRING,v2 STRING,k3 STRING,v3 STRING) STORED AS TEXTFILE -POSTHOOK: type: CREATETABLE -POSTHOOK: Output: database:default -POSTHOOK: Output: default@sr -PREHOOK: query: CREATE TABLE cs(k1 STRING,v1 STRING,k2 STRING,v2 STRING,k3 STRING,v3 STRING) STORED AS TEXTFILE -PREHOOK: type: CREATETABLE -PREHOOK: Output: database:default -PREHOOK: Output: default@cs -POSTHOOK: query: CREATE TABLE cs(k1 STRING,v1 STRING,k2 STRING,v2 STRING,k3 STRING,v3 STRING) STORED AS TEXTFILE -POSTHOOK: type: CREATETABLE -POSTHOOK: Output: database:default -POSTHOOK: Output: default@cs -PREHOOK: query: INSERT OVERWRITE TABLE ss -SELECT x.key,x.value,y.key,y.value,z.key,z.value -FROM src1 x -JOIN src y ON (x.key = y.key) -JOIN srcpart z ON (x.value = z.value and z.ds='2008-04-08' and z.hr=11) -PREHOOK: type: QUERY -PREHOOK: Input: default@src -PREHOOK: Input: default@src1 -PREHOOK: Input: default@srcpart -PREHOOK: Input: default@srcpart@ds=2008-04-08/hr=11 -PREHOOK: Output: default@ss -POSTHOOK: query: INSERT OVERWRITE TABLE ss -SELECT x.key,x.value,y.key,y.value,z.key,z.value -FROM src1 x -JOIN src y ON (x.key = y.key) -JOIN srcpart z ON (x.value = z.value and z.ds='2008-04-08' and z.hr=11) -POSTHOOK: type: QUERY -POSTHOOK: Input: default@src -POSTHOOK: Input: default@src1 -POSTHOOK: Input: default@srcpart -POSTHOOK: Input: default@srcpart@ds=2008-04-08/hr=11 -POSTHOOK: Output: default@ss -POSTHOOK: Lineage: ss.k1 SIMPLE [(src1)x.FieldSchema(name:key, type:string, comment:default), ] -POSTHOOK: Lineage: ss.k2 SIMPLE [(src)y.FieldSchema(name:key, type:string, comment:default), ] -POSTHOOK: Lineage: ss.k3 SIMPLE [(srcpart)z.FieldSchema(name:key, type:string, comment:default), ] -POSTHOOK: Lineage: ss.v1 SIMPLE [(src1)x.FieldSchema(name:value, type:string, comment:default), ] -POSTHOOK: Lineage: ss.v2 SIMPLE [(src)y.FieldSchema(name:value, type:string, comment:default), ] -POSTHOOK: Lineage: ss.v3 SIMPLE [(srcpart)z.FieldSchema(name:value, type:string, comment:default), ] -PREHOOK: query: INSERT OVERWRITE TABLE sr -SELECT x.key,x.value,y.key,y.value,z.key,z.value -FROM src1 x -JOIN src y ON (x.key = y.key) -JOIN srcpart z ON (x.value = z.value and z.ds='2008-04-08' and z.hr=12) -PREHOOK: type: QUERY -PREHOOK: Input: default@src -PREHOOK: Input: default@src1 -PREHOOK: Input: default@srcpart -PREHOOK: Input: default@srcpart@ds=2008-04-08/hr=12 -PREHOOK: Output: default@sr -POSTHOOK: query: INSERT OVERWRITE TABLE sr -SELECT x.key,x.value,y.key,y.value,z.key,z.value -FROM src1 x -JOIN src y ON (x.key = y.key) -JOIN srcpart z ON (x.value = z.value and z.ds='2008-04-08' and z.hr=12) -POSTHOOK: type: QUERY -POSTHOOK: Input: default@src -POSTHOOK: Input: default@src1 -POSTHOOK: Input: default@srcpart -POSTHOOK: Input: default@srcpart@ds=2008-04-08/hr=12 -POSTHOOK: Output: default@sr -POSTHOOK: Lineage: sr.k1 SIMPLE [(src1)x.FieldSchema(name:key, type:string, comment:default), ] -POSTHOOK: Lineage: sr.k2 SIMPLE [(src)y.FieldSchema(name:key, type:string, comment:default), ] -POSTHOOK: Lineage: sr.k3 SIMPLE [(srcpart)z.FieldSchema(name:key, type:string, comment:default), ] -POSTHOOK: Lineage: sr.v1 SIMPLE [(src1)x.FieldSchema(name:value, type:string, comment:default), ] -POSTHOOK: Lineage: sr.v2 SIMPLE [(src)y.FieldSchema(name:value, type:string, comment:default), ] -POSTHOOK: Lineage: sr.v3 SIMPLE [(srcpart)z.FieldSchema(name:value, type:string, comment:default), ] -PREHOOK: query: INSERT OVERWRITE TABLE cs -SELECT x.key,x.value,y.key,y.value,z.key,z.value -FROM src1 x -JOIN src y ON (x.key = y.key) -JOIN srcpart z ON (x.value = z.value and z.ds='2008-04-08') -PREHOOK: type: QUERY -PREHOOK: Input: default@src -PREHOOK: Input: default@src1 -PREHOOK: Input: default@srcpart -PREHOOK: Input: default@srcpart@ds=2008-04-08/hr=11 -PREHOOK: Input: default@srcpart@ds=2008-04-08/hr=12 -PREHOOK: Output: default@cs -POSTHOOK: query: INSERT OVERWRITE TABLE cs -SELECT x.key,x.value,y.key,y.value,z.key,z.value -FROM src1 x -JOIN src y ON (x.key = y.key) -JOIN srcpart z ON (x.value = z.value and z.ds='2008-04-08') -POSTHOOK: type: QUERY -POSTHOOK: Input: default@src -POSTHOOK: Input: default@src1 -POSTHOOK: Input: default@srcpart -POSTHOOK: Input: default@srcpart@ds=2008-04-08/hr=11 -POSTHOOK: Input: default@srcpart@ds=2008-04-08/hr=12 -POSTHOOK: Output: default@cs -POSTHOOK: Lineage: cs.k1 SIMPLE [(src1)x.FieldSchema(name:key, type:string, comment:default), ] -POSTHOOK: Lineage: cs.k2 SIMPLE [(src)y.FieldSchema(name:key, type:string, comment:default), ] -POSTHOOK: Lineage: cs.k3 SIMPLE [(srcpart)z.FieldSchema(name:key, type:string, comment:default), ] -POSTHOOK: Lineage: cs.v1 SIMPLE [(src1)x.FieldSchema(name:value, type:string, comment:default), ] -POSTHOOK: Lineage: cs.v2 SIMPLE [(src)y.FieldSchema(name:value, type:string, comment:default), ] -POSTHOOK: Lineage: cs.v3 SIMPLE [(srcpart)z.FieldSchema(name:value, type:string, comment:default), ] -PREHOOK: query: ANALYZE TABLE ss COMPUTE STATISTICS -PREHOOK: type: QUERY -PREHOOK: Input: default@ss -PREHOOK: Output: default@ss -POSTHOOK: query: ANALYZE TABLE ss COMPUTE STATISTICS -POSTHOOK: type: QUERY -POSTHOOK: Input: default@ss -POSTHOOK: Output: default@ss -PREHOOK: query: ANALYZE TABLE ss COMPUTE STATISTICS FOR COLUMNS k1,v1,k2,v2,k3,v3 -PREHOOK: type: QUERY -PREHOOK: Input: default@ss -#### A masked pattern was here #### -POSTHOOK: query: ANALYZE TABLE ss COMPUTE STATISTICS FOR COLUMNS k1,v1,k2,v2,k3,v3 -POSTHOOK: type: QUERY -POSTHOOK: Input: default@ss -#### A masked pattern was here #### -PREHOOK: query: ANALYZE TABLE sr COMPUTE STATISTICS -PREHOOK: type: QUERY -PREHOOK: Input: default@sr -PREHOOK: Output: default@sr -POSTHOOK: query: ANALYZE TABLE sr COMPUTE STATISTICS -POSTHOOK: type: QUERY -POSTHOOK: Input: default@sr -POSTHOOK: Output: default@sr -PREHOOK: query: ANALYZE TABLE sr COMPUTE STATISTICS FOR COLUMNS k1,v1,k2,v2,k3,v3 -PREHOOK: type: QUERY -PREHOOK: Input: default@sr -#### A masked pattern was here #### -POSTHOOK: query: ANALYZE TABLE sr COMPUTE STATISTICS FOR COLUMNS k1,v1,k2,v2,k3,v3 -POSTHOOK: type: QUERY -POSTHOOK: Input: default@sr -#### A masked pattern was here #### -PREHOOK: query: ANALYZE TABLE cs COMPUTE STATISTICS -PREHOOK: type: QUERY -PREHOOK: Input: default@cs -PREHOOK: Output: default@cs -POSTHOOK: query: ANALYZE TABLE cs COMPUTE STATISTICS -POSTHOOK: type: QUERY -POSTHOOK: Input: default@cs -POSTHOOK: Output: default@cs -PREHOOK: query: ANALYZE TABLE cs COMPUTE STATISTICS FOR COLUMNS k1,v1,k2,v2,k3,v3 -PREHOOK: type: QUERY -PREHOOK: Input: default@cs -#### A masked pattern was here #### -POSTHOOK: query: ANALYZE TABLE cs COMPUTE STATISTICS FOR COLUMNS k1,v1,k2,v2,k3,v3 -POSTHOOK: type: QUERY -POSTHOOK: Input: default@cs -#### A masked pattern was here #### -PREHOOK: query: SELECT x.key, z.value, y.value -FROM src1 x JOIN src y ON (x.key = y.key) -JOIN srcpart z ON (x.value = z.value and z.ds='2008-04-08' and z.hr=11) -PREHOOK: type: QUERY -PREHOOK: Input: default@src -PREHOOK: Input: default@src1 -PREHOOK: Input: default@srcpart -PREHOOK: Input: default@srcpart@ds=2008-04-08/hr=11 -#### A masked pattern was here #### -POSTHOOK: query: SELECT x.key, z.value, y.value -FROM src1 x JOIN src y ON (x.key = y.key) -JOIN srcpart z ON (x.value = z.value and z.ds='2008-04-08' and z.hr=11) -POSTHOOK: type: QUERY -POSTHOOK: Input: default@src -POSTHOOK: Input: default@src1 -POSTHOOK: Input: default@srcpart -POSTHOOK: Input: default@srcpart@ds=2008-04-08/hr=11 -#### A masked pattern was here #### -PREHOOK: query: explain analyze -SELECT x.key, z.value, y.value -FROM src1 x JOIN src y ON (x.key = y.key) -JOIN srcpart z ON (x.value = z.value and z.ds='2008-04-08' and z.hr=11) -PREHOOK: type: QUERY -POSTHOOK: query: explain analyze -SELECT x.key, z.value, y.value -FROM src1 x JOIN src y ON (x.key = y.key) -JOIN srcpart z ON (x.value = z.value and z.ds='2008-04-08' and z.hr=11) -POSTHOOK: type: QUERY -Plan optimized by CBO. - -Vertex dependency in root stage -Reducer 2 <- Map 1 (SIMPLE_EDGE), Map 4 (SIMPLE_EDGE) -Reducer 3 <- Map 5 (SIMPLE_EDGE), Reducer 2 (SIMPLE_EDGE) - -Stage-0 - Fetch Operator - limit:-1 - Stage-1 - Reducer 3 - File Output Operator [FS_16] - Select Operator [SEL_15] (rows=141/85 width=268) - Output:["_col0","_col1","_col2"] - Merge Join Operator [MERGEJOIN_26] (rows=141/85 width=268) - Conds:RS_12._col3=RS_13._col0(Inner),Output:["_col0","_col3","_col6"] - <-Map 5 [SIMPLE_EDGE] - SHUFFLE [RS_13] - PartitionCols:_col0 - Select Operator [SEL_8] (rows=500/500 width=178) - Output:["_col0","_col1"] - Filter Operator [FIL_24] (rows=500/500 width=178) - predicate:key is not null - TableScan [TS_6] (rows=500/500 width=178) - default@src,y,Tbl:COMPLETE,Col:COMPLETE,Output:["key","value"] - <-Reducer 2 [SIMPLE_EDGE] - SHUFFLE [RS_12] - PartitionCols:_col3 - Merge Join Operator [MERGEJOIN_25] (rows=58/41 width=177) - Conds:RS_9._col0=RS_10._col1(Inner),Output:["_col0","_col3"] - <-Map 1 [SIMPLE_EDGE] - SHUFFLE [RS_9] - PartitionCols:_col0 - Select Operator [SEL_2] (rows=500/500 width=369) - Output:["_col0"] - Filter Operator [FIL_22] (rows=500/500 width=91) - predicate:value is not null - TableScan [TS_0] (rows=500/500 width=91) - default@srcpart,z,Tbl:COMPLETE,Col:COMPLETE,Output:["value"] - <-Map 4 [SIMPLE_EDGE] - SHUFFLE [RS_10] - PartitionCols:_col1 - Select Operator [SEL_5] (rows=25/25 width=175) - Output:["_col0","_col1"] - Filter Operator [FIL_23] (rows=25/25 width=175) - predicate:(key is not null and value is not null) - TableScan [TS_3] (rows=25/25 width=175) - default@src1,x,Tbl:COMPLETE,Col:COMPLETE,Output:["key","value"] - -PREHOOK: query: select -ss.k1,sr.k2,cs.k3,count(ss.v1),count(sr.v2),count(cs.v3) -FROM -ss,sr,cs,src d1,src d2,src d3,src1,srcpart -where - ss.k1 = d1.key -and sr.k1 = d2.key -and cs.k1 = d3.key -and ss.k2 = sr.k2 -and ss.k3 = sr.k3 -and ss.v1 = src1.value -and ss.v2 = srcpart.value -and sr.v2 = cs.v2 -and sr.v3 = cs.v3 -and ss.v3='ssv3' -and sr.v1='srv1' -and src1.key = 'src1key' -and srcpart.key = 'srcpartkey' -and d1.value = 'd1value' -and d2.value in ('2000Q1','2000Q2','2000Q3') -and d3.value in ('2000Q1','2000Q2','2000Q3') -group by -ss.k1,sr.k2,cs.k3 -order by -ss.k1,sr.k2,cs.k3 -limit 100 -PREHOOK: type: QUERY -PREHOOK: Input: default@cs -PREHOOK: Input: default@sr -PREHOOK: Input: default@src -PREHOOK: Input: default@src1 -PREHOOK: Input: default@srcpart -PREHOOK: Input: default@srcpart@ds=2008-04-08/hr=11 -PREHOOK: Input: default@srcpart@ds=2008-04-08/hr=12 -PREHOOK: Input: default@srcpart@ds=2008-04-09/hr=11 -PREHOOK: Input: default@srcpart@ds=2008-04-09/hr=12 -PREHOOK: Input: default@ss -#### A masked pattern was here #### -POSTHOOK: query: select -ss.k1,sr.k2,cs.k3,count(ss.v1),count(sr.v2),count(cs.v3) -FROM -ss,sr,cs,src d1,src d2,src d3,src1,srcpart -where - ss.k1 = d1.key -and sr.k1 = d2.key -and cs.k1 = d3.key -and ss.k2 = sr.k2 -and ss.k3 = sr.k3 -and ss.v1 = src1.value -and ss.v2 = srcpart.value -and sr.v2 = cs.v2 -and sr.v3 = cs.v3 -and ss.v3='ssv3' -and sr.v1='srv1' -and src1.key = 'src1key' -and srcpart.key = 'srcpartkey' -and d1.value = 'd1value' -and d2.value in ('2000Q1','2000Q2','2000Q3') -and d3.value in ('2000Q1','2000Q2','2000Q3') -group by -ss.k1,sr.k2,cs.k3 -order by -ss.k1,sr.k2,cs.k3 -limit 100 -POSTHOOK: type: QUERY -POSTHOOK: Input: default@cs -POSTHOOK: Input: default@sr -POSTHOOK: Input: default@src -POSTHOOK: Input: default@src1 -POSTHOOK: Input: default@srcpart -POSTHOOK: Input: default@srcpart@ds=2008-04-08/hr=11 -POSTHOOK: Input: default@srcpart@ds=2008-04-08/hr=12 -POSTHOOK: Input: default@srcpart@ds=2008-04-09/hr=11 -POSTHOOK: Input: default@srcpart@ds=2008-04-09/hr=12 -POSTHOOK: Input: default@ss -#### A masked pattern was here #### -PREHOOK: query: explain analyze -select -ss.k1,sr.k2,cs.k3,count(ss.v1),count(sr.v2),count(cs.v3) -FROM -ss,sr,cs,src d1,src d2,src d3,src1,srcpart -where - ss.k1 = d1.key -and sr.k1 = d2.key -and cs.k1 = d3.key -and ss.k2 = sr.k2 -and ss.k3 = sr.k3 -and ss.v1 = src1.value -and ss.v2 = srcpart.value -and sr.v2 = cs.v2 -and sr.v3 = cs.v3 -and ss.v3='ssv3' -and sr.v1='srv1' -and src1.key = 'src1key' -and srcpart.key = 'srcpartkey' -and d1.value = 'd1value' -and d2.value in ('2000Q1','2000Q2','2000Q3') -and d3.value in ('2000Q1','2000Q2','2000Q3') -group by -ss.k1,sr.k2,cs.k3 -order by -ss.k1,sr.k2,cs.k3 -limit 100 -PREHOOK: type: QUERY -POSTHOOK: query: explain analyze -select -ss.k1,sr.k2,cs.k3,count(ss.v1),count(sr.v2),count(cs.v3) -FROM -ss,sr,cs,src d1,src d2,src d3,src1,srcpart -where - ss.k1 = d1.key -and sr.k1 = d2.key -and cs.k1 = d3.key -and ss.k2 = sr.k2 -and ss.k3 = sr.k3 -and ss.v1 = src1.value -and ss.v2 = srcpart.value -and sr.v2 = cs.v2 -and sr.v3 = cs.v3 -and ss.v3='ssv3' -and sr.v1='srv1' -and src1.key = 'src1key' -and srcpart.key = 'srcpartkey' -and d1.value = 'd1value' -and d2.value in ('2000Q1','2000Q2','2000Q3') -and d3.value in ('2000Q1','2000Q2','2000Q3') -group by -ss.k1,sr.k2,cs.k3 -order by -ss.k1,sr.k2,cs.k3 -limit 100 -POSTHOOK: type: QUERY -Plan optimized by CBO. - -Vertex dependency in root stage -Reducer 10 <- Map 14 (SIMPLE_EDGE), Reducer 9 (SIMPLE_EDGE) -Reducer 11 <- Reducer 10 (SIMPLE_EDGE), Reducer 16 (SIMPLE_EDGE) -Reducer 16 <- Map 15 (SIMPLE_EDGE), Map 17 (SIMPLE_EDGE) -Reducer 2 <- Map 1 (SIMPLE_EDGE), Map 6 (SIMPLE_EDGE) -Reducer 3 <- Reducer 11 (SIMPLE_EDGE), Reducer 2 (SIMPLE_EDGE) -Reducer 4 <- Reducer 3 (SIMPLE_EDGE) -Reducer 5 <- Reducer 4 (SIMPLE_EDGE) -Reducer 8 <- Map 12 (SIMPLE_EDGE), Map 7 (SIMPLE_EDGE) -Reducer 9 <- Map 13 (SIMPLE_EDGE), Reducer 8 (SIMPLE_EDGE) - -Stage-0 - Fetch Operator - limit:100 - Stage-1 - Reducer 5 - File Output Operator [FS_55] - Limit [LIM_54] (rows=24/0 width=285) - Number of rows:100 - Select Operator [SEL_53] (rows=24/0 width=285) - Output:["_col0","_col1","_col2","_col3","_col4","_col5"] - <-Reducer 4 [SIMPLE_EDGE] - SHUFFLE [RS_52] - Group By Operator [GBY_50] (rows=24/0 width=285) - Output:["_col0","_col1","_col2","_col3","_col4","_col5"],aggregations:["count(VALUE._col0)","count(VALUE._col1)","count(VALUE._col2)"],keys:KEY._col0, KEY._col1, KEY._col2 - <-Reducer 3 [SIMPLE_EDGE] - SHUFFLE [RS_49] - PartitionCols:_col0, _col1, _col2 - Group By Operator [GBY_48] (rows=24/0 width=285) - Output:["_col0","_col1","_col2","_col3","_col4","_col5"],aggregations:["count(_col13)","count(_col21)","count(_col3)"],keys:_col12, _col20, _col2 - Select Operator [SEL_47] (rows=650/0 width=534) - Output:["_col12","_col20","_col2","_col13","_col21","_col3"] - Merge Join Operator [MERGEJOIN_97] (rows=650/0 width=534) - Conds:RS_44._col1, _col3=RS_45._col15, _col17(Inner),Output:["_col2","_col3","_col12","_col13","_col20","_col21"] - <-Reducer 11 [SIMPLE_EDGE] - SHUFFLE [RS_45] - PartitionCols:_col15, _col17 - Select Operator [SEL_40] (rows=190/0 width=447) - Output:["_col14","_col15","_col17","_col6","_col7"] - Merge Join Operator [MERGEJOIN_96] (rows=190/0 width=447) - Conds:RS_37._col6, _col4=RS_38._col4, _col2(Inner),Output:["_col2","_col3","_col14","_col15","_col17"] - <-Reducer 10 [SIMPLE_EDGE] - SHUFFLE [RS_37] - PartitionCols:_col6, _col4 - Merge Join Operator [MERGEJOIN_94] (rows=40/0 width=352) - Conds:RS_34._col3=RS_35._col1(Inner),Output:["_col2","_col3","_col4","_col6"] - <-Map 14 [SIMPLE_EDGE] - SHUFFLE [RS_35] - PartitionCols:_col1 - Select Operator [SEL_17] (rows=2/0 width=180) - Output:["_col1"] - Filter Operator [FIL_88] (rows=2/0 width=175) - predicate:((key = 'src1key') and value is not null) - TableScan [TS_15] (rows=25/25 width=175) - default@src1,src1,Tbl:COMPLETE,Col:COMPLETE,Output:["key","value"] - <-Reducer 9 [SIMPLE_EDGE] - SHUFFLE [RS_34] - PartitionCols:_col3 - Merge Join Operator [MERGEJOIN_93] (rows=40/0 width=352) - Conds:RS_31._col2=RS_32._col0(Inner),Output:["_col2","_col3","_col4","_col6"] - <-Map 13 [SIMPLE_EDGE] - SHUFFLE [RS_32] - PartitionCols:_col0 - Select Operator [SEL_14] (rows=2/0 width=178) - Output:["_col0"] - Filter Operator [FIL_87] (rows=2/0 width=178) - predicate:((value = 'd1value') and key is not null) - TableScan [TS_12] (rows=500/500 width=178) - default@src,d1,Tbl:COMPLETE,Col:COMPLETE,Output:["key","value"] - <-Reducer 8 [SIMPLE_EDGE] - SHUFFLE [RS_31] - PartitionCols:_col2 - Merge Join Operator [MERGEJOIN_92] (rows=40/0 width=352) - Conds:RS_28._col1=RS_29._col3(Inner),Output:["_col2","_col3","_col4","_col6"] - <-Map 12 [SIMPLE_EDGE] - SHUFFLE [RS_29] - PartitionCols:_col3 - Select Operator [SEL_11] (rows=8/0 width=531) - Output:["_col0","_col1","_col2","_col3","_col4"] - Filter Operator [FIL_86] (rows=8/0 width=534) - predicate:((v3 = 'ssv3') and k2 is not null and k3 is not null and k1 is not null and v1 is not null and v2 is not null) - TableScan [TS_9] (rows=85/85 width=534) - default@ss,ss,Tbl:COMPLETE,Col:COMPLETE,Output:["k1","v1","k2","v2","k3","v3"] - <-Map 7 [SIMPLE_EDGE] - SHUFFLE [RS_28] - PartitionCols:_col1 - Select Operator [SEL_8] (rows=10/0 width=185) - Output:["_col1"] - Filter Operator [FIL_85] (rows=10/0 width=178) - predicate:((key = 'srcpartkey') and value is not null) - TableScan [TS_6] (rows=2000/2000 width=178) - default@srcpart,srcpart,Tbl:COMPLETE,Col:COMPLETE,Output:["key","value"] - <-Reducer 16 [SIMPLE_EDGE] - SHUFFLE [RS_38] - PartitionCols:_col4, _col2 - Merge Join Operator [MERGEJOIN_95] (rows=19/0 width=356) - Conds:RS_24._col0=RS_25._col0(Inner),Output:["_col2","_col3","_col4","_col5"] - <-Map 15 [SIMPLE_EDGE] - SHUFFLE [RS_24] - PartitionCols:_col0 - Select Operator [SEL_20] (rows=8/0 width=531) - Output:["_col0","_col2","_col3","_col4","_col5"] - Filter Operator [FIL_89] (rows=8/0 width=534) - predicate:((v1 = 'srv1') and k2 is not null and k3 is not null and v2 is not null and v3 is not null and k1 is not null) - TableScan [TS_18] (rows=85/85 width=534) - default@sr,sr,Tbl:COMPLETE,Col:COMPLETE,Output:["k1","v1","k2","v2","k3","v3"] - <-Map 17 [SIMPLE_EDGE] - SHUFFLE [RS_25] - PartitionCols:_col0 - Select Operator [SEL_23] (rows=500/0 width=178) - Output:["_col0"] - Filter Operator [FIL_90] (rows=500/0 width=178) - predicate:((value) IN ('2000Q1', '2000Q2', '2000Q3') and key is not null) - TableScan [TS_21] (rows=500/500 width=178) - default@src,d2,Tbl:COMPLETE,Col:COMPLETE,Output:["key","value"] - <-Reducer 2 [SIMPLE_EDGE] - SHUFFLE [RS_44] - PartitionCols:_col1, _col3 - Merge Join Operator [MERGEJOIN_91] (rows=414/0 width=269) - Conds:RS_41._col0=RS_42._col0(Inner),Output:["_col1","_col2","_col3"] - <-Map 1 [SIMPLE_EDGE] - SHUFFLE [RS_41] - PartitionCols:_col0 - Select Operator [SEL_2] (rows=170/170 width=356) - Output:["_col0","_col1","_col2","_col3"] - Filter Operator [FIL_83] (rows=170/170 width=356) - predicate:(v2 is not null and v3 is not null and k1 is not null) - TableScan [TS_0] (rows=170/170 width=356) - default@cs,cs,Tbl:COMPLETE,Col:COMPLETE,Output:["k1","v2","k3","v3"] - <-Map 6 [SIMPLE_EDGE] - SHUFFLE [RS_42] - PartitionCols:_col0 - Select Operator [SEL_5] (rows=500/0 width=178) - Output:["_col0"] - Filter Operator [FIL_84] (rows=500/0 width=178) - predicate:((value) IN ('2000Q1', '2000Q2', '2000Q3') and key is not null) - TableScan [TS_3] (rows=500/500 width=178) - default@src,d3,Tbl:COMPLETE,Col:COMPLETE,Output:["key","value"] - -PREHOOK: query: SELECT x.key, z.value, y.value -FROM src1 x JOIN src y ON (x.key = y.key) -JOIN (select * from src1 union select * from src)z ON (x.value = z.value) -union -SELECT x.key, z.value, y.value -FROM src1 x JOIN src y ON (x.key = y.key) -JOIN (select * from src1 union select * from src)z ON (x.value = z.value) -PREHOOK: type: QUERY -PREHOOK: Input: default@src -PREHOOK: Input: default@src1 -#### A masked pattern was here #### -POSTHOOK: query: SELECT x.key, z.value, y.value -FROM src1 x JOIN src y ON (x.key = y.key) -JOIN (select * from src1 union select * from src)z ON (x.value = z.value) -union -SELECT x.key, z.value, y.value -FROM src1 x JOIN src y ON (x.key = y.key) -JOIN (select * from src1 union select * from src)z ON (x.value = z.value) -POSTHOOK: type: QUERY -POSTHOOK: Input: default@src -POSTHOOK: Input: default@src1 -#### A masked pattern was here #### -PREHOOK: query: explain analyze -SELECT x.key, z.value, y.value -FROM src1 x JOIN src y ON (x.key = y.key) -JOIN (select * from src1 union select * from src)z ON (x.value = z.value) -union -SELECT x.key, z.value, y.value -FROM src1 x JOIN src y ON (x.key = y.key) -JOIN (select * from src1 union select * from src)z ON (x.value = z.value) -PREHOOK: type: QUERY -POSTHOOK: query: explain analyze -SELECT x.key, z.value, y.value -FROM src1 x JOIN src y ON (x.key = y.key) -JOIN (select * from src1 union select * from src)z ON (x.value = z.value) -union -SELECT x.key, z.value, y.value -FROM src1 x JOIN src y ON (x.key = y.key) -JOIN (select * from src1 union select * from src)z ON (x.value = z.value) -POSTHOOK: type: QUERY -Plan optimized by CBO. - -Vertex dependency in root stage -Map 1 <- Union 2 (CONTAINS) -Map 11 <- Union 12 (CONTAINS) -Map 16 <- Union 12 (CONTAINS) -Map 8 <- Union 2 (CONTAINS) -Reducer 13 <- Union 12 (SIMPLE_EDGE) -Reducer 14 <- Map 17 (SIMPLE_EDGE), Reducer 13 (SIMPLE_EDGE) -Reducer 15 <- Map 18 (SIMPLE_EDGE), Reducer 14 (SIMPLE_EDGE), Union 6 (CONTAINS) -Reducer 3 <- Union 2 (SIMPLE_EDGE) -Reducer 4 <- Map 9 (SIMPLE_EDGE), Reducer 3 (SIMPLE_EDGE) -Reducer 5 <- Map 10 (SIMPLE_EDGE), Reducer 4 (SIMPLE_EDGE), Union 6 (CONTAINS) -Reducer 7 <- Union 6 (SIMPLE_EDGE) - -Stage-0 - Fetch Operator - limit:-1 - Stage-1 - Reducer 7 - File Output Operator [FS_59] - Group By Operator [GBY_57] (rows=28/15 width=177) - Output:["_col0","_col1"],keys:KEY._col0, KEY._col1 - <-Union 6 [SIMPLE_EDGE] - <-Reducer 15 [CONTAINS] - Reduce Output Operator [RS_56] - PartitionCols:_col0, _col1 - Group By Operator [GBY_55] (rows=28/30 width=177) - Output:["_col0","_col1"],keys:_col0, _col1 - Select Operator [SEL_51] (rows=73/61 width=177) - Output:["_col0","_col1"] - Merge Join Operator [MERGEJOIN_85] (rows=73/61 width=177) - Conds:RS_48._col2=RS_49._col0(Inner),Output:["_col1","_col2"] - <-Map 18 [SIMPLE_EDGE] - SHUFFLE [RS_49] - PartitionCols:_col0 - Select Operator [SEL_44] (rows=500/500 width=87) - Output:["_col0"] - Filter Operator [FIL_81] (rows=500/500 width=87) - predicate:key is not null - TableScan [TS_42] (rows=500/500 width=87) - default@src,y,Tbl:COMPLETE,Col:COMPLETE,Output:["key"] - <-Reducer 14 [SIMPLE_EDGE] - SHUFFLE [RS_48] - PartitionCols:_col2 - Merge Join Operator [MERGEJOIN_84] (rows=30/52 width=177) - Conds:RS_45._col1=RS_46._col1(Inner),Output:["_col1","_col2"] - <-Map 17 [SIMPLE_EDGE] - SHUFFLE [RS_46] - PartitionCols:_col1 - Select Operator [SEL_41] (rows=25/25 width=175) - Output:["_col0","_col1"] - Filter Operator [FIL_80] (rows=25/25 width=175) - predicate:(key is not null and value is not null) - TableScan [TS_39] (rows=25/25 width=175) - default@src1,x,Tbl:COMPLETE,Col:COMPLETE,Output:["key","value"] - <-Reducer 13 [SIMPLE_EDGE] - SHUFFLE [RS_45] - PartitionCols:_col1 - Select Operator [SEL_38] (rows=262/319 width=178) - Output:["_col1"] - Group By Operator [GBY_37] (rows=262/319 width=178) - Output:["_col0","_col1"],keys:KEY._col0, KEY._col1 - <-Union 12 [SIMPLE_EDGE] - <-Map 11 [CONTAINS] - Reduce Output Operator [RS_36] - PartitionCols:_col0, _col1 - Group By Operator [GBY_35] (rows=262/331 width=178) - Output:["_col0","_col1"],keys:_col1, _col0 - Select Operator [SEL_28] (rows=25/25 width=175) - Output:["_col0","_col1"] - Filter Operator [FIL_78] (rows=25/25 width=175) - predicate:value is not null - TableScan [TS_26] (rows=25/25 width=175) - Output:["key","value"] - <-Map 16 [CONTAINS] - Reduce Output Operator [RS_36] - PartitionCols:_col0, _col1 - Group By Operator [GBY_35] (rows=262/331 width=178) - Output:["_col0","_col1"],keys:_col1, _col0 - Select Operator [SEL_31] (rows=500/500 width=178) - Output:["_col0","_col1"] - Filter Operator [FIL_79] (rows=500/500 width=178) - predicate:value is not null - TableScan [TS_29] (rows=500/500 width=178) - Output:["key","value"] - <-Reducer 5 [CONTAINS] - Reduce Output Operator [RS_56] - PartitionCols:_col0, _col1 - Group By Operator [GBY_55] (rows=28/30 width=177) - Output:["_col0","_col1"],keys:_col0, _col1 - Select Operator [SEL_25] (rows=73/61 width=177) - Output:["_col0","_col1"] - Merge Join Operator [MERGEJOIN_83] (rows=73/61 width=177) - Conds:RS_22._col2=RS_23._col0(Inner),Output:["_col1","_col2"] - <-Map 10 [SIMPLE_EDGE] - SHUFFLE [RS_23] - PartitionCols:_col0 - Select Operator [SEL_18] (rows=500/500 width=87) - Output:["_col0"] - Filter Operator [FIL_77] (rows=500/500 width=87) - predicate:key is not null - TableScan [TS_16] (rows=500/500 width=87) - default@src,y,Tbl:COMPLETE,Col:COMPLETE,Output:["key"] - <-Reducer 4 [SIMPLE_EDGE] - SHUFFLE [RS_22] - PartitionCols:_col2 - Merge Join Operator [MERGEJOIN_82] (rows=30/52 width=177) - Conds:RS_19._col1=RS_20._col1(Inner),Output:["_col1","_col2"] - <-Map 9 [SIMPLE_EDGE] - SHUFFLE [RS_20] - PartitionCols:_col1 - Select Operator [SEL_15] (rows=25/25 width=175) - Output:["_col0","_col1"] - Filter Operator [FIL_76] (rows=25/25 width=175) - predicate:(key is not null and value is not null) - TableScan [TS_13] (rows=25/25 width=175) - default@src1,x,Tbl:COMPLETE,Col:COMPLETE,Output:["key","value"] - <-Reducer 3 [SIMPLE_EDGE] - SHUFFLE [RS_19] - PartitionCols:_col1 - Select Operator [SEL_12] (rows=262/319 width=178) - Output:["_col1"] - Group By Operator [GBY_11] (rows=262/319 width=178) - Output:["_col0","_col1"],keys:KEY._col0, KEY._col1 - <-Union 2 [SIMPLE_EDGE] - <-Map 1 [CONTAINS] - Reduce Output Operator [RS_10] - PartitionCols:_col0, _col1 - Group By Operator [GBY_9] (rows=262/331 width=178) - Output:["_col0","_col1"],keys:_col1, _col0 - Select Operator [SEL_2] (rows=25/25 width=175) - Output:["_col0","_col1"] - Filter Operator [FIL_74] (rows=25/25 width=175) - predicate:value is not null - TableScan [TS_0] (rows=25/25 width=175) - Output:["key","value"] - <-Map 8 [CONTAINS] - Reduce Output Operator [RS_10] - PartitionCols:_col0, _col1 - Group By Operator [GBY_9] (rows=262/331 width=178) - Output:["_col0","_col1"],keys:_col1, _col0 - Select Operator [SEL_5] (rows=500/500 width=178) - Output:["_col0","_col1"] - Filter Operator [FIL_75] (rows=500/500 width=178) - predicate:value is not null - TableScan [TS_3] (rows=500/500 width=178) - Output:["key","value"] - -PREHOOK: query: SELECT x.key, y.value -FROM src1 x JOIN src y ON (x.key = y.key) -JOIN (select * from src1 union select * from src)z ON (x.value = z.value) -union -SELECT x.key, y.value -FROM src1 x JOIN src y ON (x.key = y.key) -JOIN (select key, value from src1 union select key, value from src union select key, value from src)z ON (x.value = z.value) -union -SELECT x.key, y.value -FROM src1 x JOIN src y ON (x.key = y.key) -JOIN (select key, value from src1 union select key, value from src union select key, value from src union select key, value from src)z ON (x.value = z.value) -PREHOOK: type: QUERY -PREHOOK: Input: default@src -PREHOOK: Input: default@src1 -#### A masked pattern was here #### -POSTHOOK: query: SELECT x.key, y.value -FROM src1 x JOIN src y ON (x.key = y.key) -JOIN (select * from src1 union select * from src)z ON (x.value = z.value) -union -SELECT x.key, y.value -FROM src1 x JOIN src y ON (x.key = y.key) -JOIN (select key, value from src1 union select key, value from src union select key, value from src)z ON (x.value = z.value) -union -SELECT x.key, y.value -FROM src1 x JOIN src y ON (x.key = y.key) -JOIN (select key, value from src1 union select key, value from src union select key, value from src union select key, value from src)z ON (x.value = z.value) -POSTHOOK: type: QUERY -POSTHOOK: Input: default@src -POSTHOOK: Input: default@src1 -#### A masked pattern was here #### -PREHOOK: query: explain analyze -SELECT x.key, y.value -FROM src1 x JOIN src y ON (x.key = y.key) -JOIN (select * from src1 union select * from src)z ON (x.value = z.value) -union -SELECT x.key, y.value -FROM src1 x JOIN src y ON (x.key = y.key) -JOIN (select key, value from src1 union select key, value from src union select key, value from src)z ON (x.value = z.value) -union -SELECT x.key, y.value -FROM src1 x JOIN src y ON (x.key = y.key) -JOIN (select key, value from src1 union select key, value from src union select key, value from src union select key, value from src)z ON (x.value = z.value) -PREHOOK: type: QUERY -POSTHOOK: query: explain analyze -SELECT x.key, y.value -FROM src1 x JOIN src y ON (x.key = y.key) -JOIN (select * from src1 union select * from src)z ON (x.value = z.value) -union -SELECT x.key, y.value -FROM src1 x JOIN src y ON (x.key = y.key) -JOIN (select key, value from src1 union select key, value from src union select key, value from src)z ON (x.value = z.value) -union -SELECT x.key, y.value -FROM src1 x JOIN src y ON (x.key = y.key) -JOIN (select key, value from src1 union select key, value from src union select key, value from src union select key, value from src)z ON (x.value = z.value) -POSTHOOK: type: QUERY -Plan optimized by CBO. - -Vertex dependency in root stage -Map 1 <- Union 2 (CONTAINS) -Map 10 <- Union 2 (CONTAINS) -Map 13 <- Union 14 (CONTAINS) -Map 20 <- Union 14 (CONTAINS) -Map 21 <- Union 16 (CONTAINS) -Map 24 <- Union 25 (CONTAINS) -Map 33 <- Union 25 (CONTAINS) -Map 34 <- Union 27 (CONTAINS) -Map 35 <- Union 29 (CONTAINS) -Reducer 15 <- Union 14 (SIMPLE_EDGE), Union 16 (CONTAINS) -Reducer 17 <- Union 16 (SIMPLE_EDGE) -Reducer 18 <- Map 22 (SIMPLE_EDGE), Reducer 17 (SIMPLE_EDGE) -Reducer 19 <- Map 23 (SIMPLE_EDGE), Reducer 18 (SIMPLE_EDGE), Union 6 (CONTAINS) -Reducer 26 <- Union 25 (SIMPLE_EDGE), Union 27 (CONTAINS) -Reducer 28 <- Union 27 (SIMPLE_EDGE), Union 29 (CONTAINS) -Reducer 3 <- Union 2 (SIMPLE_EDGE) -Reducer 30 <- Union 29 (SIMPLE_EDGE) -Reducer 31 <- Map 36 (SIMPLE_EDGE), Reducer 30 (SIMPLE_EDGE) -Reducer 32 <- Map 37 (SIMPLE_EDGE), Reducer 31 (SIMPLE_EDGE), Union 8 (CONTAINS) -Reducer 4 <- Map 11 (SIMPLE_EDGE), Reducer 3 (SIMPLE_EDGE) -Reducer 5 <- Map 12 (SIMPLE_EDGE), Reducer 4 (SIMPLE_EDGE), Union 6 (CONTAINS) -Reducer 7 <- Union 6 (SIMPLE_EDGE), Union 8 (CONTAINS) -Reducer 9 <- Union 8 (SIMPLE_EDGE) - -Stage-0 - Fetch Operator - limit:-1 - Stage-1 - Reducer 9 - File Output Operator [FS_122] - Group By Operator [GBY_120] (rows=107/15 width=177) - Output:["_col0","_col1"],keys:KEY._col0, KEY._col1 - <-Union 8 [SIMPLE_EDGE] - <-Reducer 32 [CONTAINS] - Reduce Output Operator [RS_119] - PartitionCols:_col0, _col1 - Group By Operator [GBY_118] (rows=107/30 width=177) - Output:["_col0","_col1"],keys:_col0, _col1 - Select Operator [SEL_114] (rows=124/61 width=177) - Output:["_col0","_col1"] - Merge Join Operator [MERGEJOIN_170] (rows=124/61 width=177) - Conds:RS_111._col2=RS_112._col0(Inner),Output:["_col2","_col5"] - <-Map 37 [SIMPLE_EDGE] - SHUFFLE [RS_112] - PartitionCols:_col0 - Select Operator [SEL_107] (rows=500/500 width=178) - Output:["_col0","_col1"] - Filter Operator [FIL_164] (rows=500/500 width=178) - predicate:key is not null - TableScan [TS_105] (rows=500/500 width=178) - default@src,y,Tbl:COMPLETE,Col:COMPLETE,Output:["key","value"] - <-Reducer 31 [SIMPLE_EDGE] - SHUFFLE [RS_111] - PartitionCols:_col2 - Merge Join Operator [MERGEJOIN_169] (rows=51/52 width=86) - Conds:RS_108._col1=RS_109._col1(Inner),Output:["_col2"] - <-Map 36 [SIMPLE_EDGE] - SHUFFLE [RS_109] - PartitionCols:_col1 - Select Operator [SEL_104] (rows=25/25 width=175) - Output:["_col0","_col1"] - Filter Operator [FIL_163] (rows=25/25 width=175) - predicate:(key is not null and value is not null) - TableScan [TS_102] (rows=25/25 width=175) - default@src1,x,Tbl:COMPLETE,Col:COMPLETE,Output:["key","value"] - <-Reducer 30 [SIMPLE_EDGE] - SHUFFLE [RS_108] - PartitionCols:_col1 - Select Operator [SEL_101] (rows=440/319 width=178) - Output:["_col1"] - Group By Operator [GBY_100] (rows=440/319 width=178) - Output:["_col0","_col1"],keys:KEY._col0, KEY._col1 - <-Union 29 [SIMPLE_EDGE] - <-Map 35 [CONTAINS] - Reduce Output Operator [RS_99] - PartitionCols:_col0, _col1 - Group By Operator [GBY_98] (rows=440/628 width=178) - Output:["_col0","_col1"],keys:_col1, _col0 - Select Operator [SEL_94] (rows=500/500 width=178) - Output:["_col0","_col1"] - Filter Operator [FIL_162] (rows=500/500 width=178) - predicate:value is not null - TableScan [TS_92] (rows=500/500 width=178) - Output:["key","value"] - <-Reducer 28 [CONTAINS] - Reduce Output Operator [RS_99] - PartitionCols:_col0, _col1 - Group By Operator [GBY_98] (rows=440/628 width=178) - Output:["_col0","_col1"],keys:_col1, _col0 - Select Operator [SEL_91] (rows=381/319 width=178) - Output:["_col0","_col1"] - Group By Operator [GBY_90] (rows=381/319 width=178) - Output:["_col0","_col1"],keys:KEY._col0, KEY._col1 - <-Union 27 [SIMPLE_EDGE] - <-Map 34 [CONTAINS] - Reduce Output Operator [RS_89] - PartitionCols:_col0, _col1 - Group By Operator [GBY_88] (rows=381/628 width=178) - Output:["_col0","_col1"],keys:_col1, _col0 - Select Operator [SEL_84] (rows=500/500 width=178) - Output:["_col0","_col1"] - Filter Operator [FIL_161] (rows=500/500 width=178) - predicate:value is not null - TableScan [TS_82] (rows=500/500 width=178) - Output:["key","value"] - <-Reducer 26 [CONTAINS] - Reduce Output Operator [RS_89] - PartitionCols:_col0, _col1 - Group By Operator [GBY_88] (rows=381/628 width=178) - Output:["_col0","_col1"],keys:_col1, _col0 - Select Operator [SEL_81] (rows=262/319 width=178) - Output:["_col0","_col1"] - Group By Operator [GBY_80] (rows=262/319 width=178) - Output:["_col0","_col1"],keys:KEY._col0, KEY._col1 - <-Union 25 [SIMPLE_EDGE] - <-Map 24 [CONTAINS] - Reduce Output Operator [RS_79] - PartitionCols:_col0, _col1 - Group By Operator [GBY_78] (rows=262/331 width=178) - Output:["_col0","_col1"],keys:_col1, _col0 - Select Operator [SEL_71] (rows=25/25 width=175) - Output:["_col0","_col1"] - Filter Operator [FIL_159] (rows=25/25 width=175) - predicate:value is not null - TableScan [TS_69] (rows=25/25 width=175) - Output:["key","value"] - <-Map 33 [CONTAINS] - Reduce Output Operator [RS_79] - PartitionCols:_col0, _col1 - Group By Operator [GBY_78] (rows=262/331 width=178) - Output:["_col0","_col1"],keys:_col1, _col0 - Select Operator [SEL_74] (rows=500/500 width=178) - Output:["_col0","_col1"] - Filter Operator [FIL_160] (rows=500/500 width=178) - predicate:value is not null - TableScan [TS_72] (rows=500/500 width=178) - Output:["key","value"] - <-Reducer 7 [CONTAINS] - Reduce Output Operator [RS_119] - PartitionCols:_col0, _col1 - Group By Operator [GBY_118] (rows=107/30 width=177) - Output:["_col0","_col1"],keys:_col0, _col1 - Group By Operator [GBY_67] (rows=90/15 width=177) - Output:["_col0","_col1"],keys:KEY._col0, KEY._col1 - <-Union 6 [SIMPLE_EDGE] - <-Reducer 19 [CONTAINS] - Reduce Output Operator [RS_66] - PartitionCols:_col0, _col1 - Group By Operator [GBY_65] (rows=90/30 width=177) - Output:["_col0","_col1"],keys:_col0, _col1 - Select Operator [SEL_61] (rows=107/61 width=177) - Output:["_col0","_col1"] - Merge Join Operator [MERGEJOIN_168] (rows=107/61 width=177) - Conds:RS_58._col2=RS_59._col0(Inner),Output:["_col2","_col5"] - <-Map 23 [SIMPLE_EDGE] - SHUFFLE [RS_59] - PartitionCols:_col0 - Select Operator [SEL_54] (rows=500/500 width=178) - Output:["_col0","_col1"] - Filter Operator [FIL_158] (rows=500/500 width=178) - predicate:key is not null - TableScan [TS_52] (rows=500/500 width=178) - default@src,y,Tbl:COMPLETE,Col:COMPLETE,Output:["key","value"] - <-Reducer 18 [SIMPLE_EDGE] - SHUFFLE [RS_58] - PartitionCols:_col2 - Merge Join Operator [MERGEJOIN_167] (rows=44/52 width=86) - Conds:RS_55._col1=RS_56._col1(Inner),Output:["_col2"] - <-Map 22 [SIMPLE_EDGE] - SHUFFLE [RS_56] - PartitionCols:_col1 - Select Operator [SEL_51] (rows=25/25 width=175) - Output:["_col0","_col1"] - Filter Operator [FIL_157] (rows=25/25 width=175) - predicate:(key is not null and value is not null) - TableScan [TS_49] (rows=25/25 width=175) - default@src1,x,Tbl:COMPLETE,Col:COMPLETE,Output:["key","value"] - <-Reducer 17 [SIMPLE_EDGE] - SHUFFLE [RS_55] - PartitionCols:_col1 - Select Operator [SEL_48] (rows=381/319 width=178) - Output:["_col1"] - Group By Operator [GBY_47] (rows=381/319 width=178) - Output:["_col0","_col1"],keys:KEY._col0, KEY._col1 - <-Union 16 [SIMPLE_EDGE] - <-Map 21 [CONTAINS] - Reduce Output Operator [RS_46] - PartitionCols:_col0, _col1 - Group By Operator [GBY_45] (rows=381/628 width=178) - Output:["_col0","_col1"],keys:_col1, _col0 - Select Operator [SEL_41] (rows=500/500 width=178) - Output:["_col0","_col1"] - Filter Operator [FIL_156] (rows=500/500 width=178) - predicate:value is not null - TableScan [TS_39] (rows=500/500 width=178) - Output:["key","value"] - <-Reducer 15 [CONTAINS] - Reduce Output Operator [RS_46] - PartitionCols:_col0, _col1 - Group By Operator [GBY_45] (rows=381/628 width=178) - Output:["_col0","_col1"],keys:_col1, _col0 - Select Operator [SEL_38] (rows=262/319 width=178) - Output:["_col0","_col1"] - Group By Operator [GBY_37] (rows=262/319 width=178) - Output:["_col0","_col1"],keys:KEY._col0, KEY._col1 - <-Union 14 [SIMPLE_EDGE] - <-Map 13 [CONTAINS] - Reduce Output Operator [RS_36] - PartitionCols:_col0, _col1 - Group By Operator [GBY_35] (rows=262/331 width=178) - Output:["_col0","_col1"],keys:_col1, _col0 - Select Operator [SEL_28] (rows=25/25 width=175) - Output:["_col0","_col1"] - Filter Operator [FIL_154] (rows=25/25 width=175) - predicate:value is not null - TableScan [TS_26] (rows=25/25 width=175) - Output:["key","value"] - <-Map 20 [CONTAINS] - Reduce Output Operator [RS_36] - PartitionCols:_col0, _col1 - Group By Operator [GBY_35] (rows=262/331 width=178) - Output:["_col0","_col1"],keys:_col1, _col0 - Select Operator [SEL_31] (rows=500/500 width=178) - Output:["_col0","_col1"] - Filter Operator [FIL_155] (rows=500/500 width=178) - predicate:value is not null - TableScan [TS_29] (rows=500/500 width=178) - Output:["key","value"] - <-Reducer 5 [CONTAINS] - Reduce Output Operator [RS_66] - PartitionCols:_col0, _col1 - Group By Operator [GBY_65] (rows=90/30 width=177) - Output:["_col0","_col1"],keys:_col0, _col1 - Select Operator [SEL_25] (rows=73/61 width=177) - Output:["_col0","_col1"] - Merge Join Operator [MERGEJOIN_166] (rows=73/61 width=177) - Conds:RS_22._col2=RS_23._col0(Inner),Output:["_col2","_col5"] - <-Map 12 [SIMPLE_EDGE] - SHUFFLE [RS_23] - PartitionCols:_col0 - Select Operator [SEL_18] (rows=500/500 width=178) - Output:["_col0","_col1"] - Filter Operator [FIL_153] (rows=500/500 width=178) - predicate:key is not null - TableScan [TS_16] (rows=500/500 width=178) - default@src,y,Tbl:COMPLETE,Col:COMPLETE,Output:["key","value"] - <-Reducer 4 [SIMPLE_EDGE] - SHUFFLE [RS_22] - PartitionCols:_col2 - Merge Join Operator [MERGEJOIN_165] (rows=30/52 width=86) - Conds:RS_19._col1=RS_20._col1(Inner),Output:["_col2"] - <-Map 11 [SIMPLE_EDGE] - SHUFFLE [RS_20] - PartitionCols:_col1 - Select Operator [SEL_15] (rows=25/25 width=175) - Output:["_col0","_col1"] - Filter Operator [FIL_152] (rows=25/25 width=175) - predicate:(key is not null and value is not null) - TableScan [TS_13] (rows=25/25 width=175) - default@src1,x,Tbl:COMPLETE,Col:COMPLETE,Output:["key","value"] - <-Reducer 3 [SIMPLE_EDGE] - SHUFFLE [RS_19] - PartitionCols:_col1 - Select Operator [SEL_12] (rows=262/319 width=178) - Output:["_col1"] - Group By Operator [GBY_11] (rows=262/319 width=178) - Output:["_col0","_col1"],keys:KEY._col0, KEY._col1 - <-Union 2 [SIMPLE_EDGE] - <-Map 1 [CONTAINS] - Reduce Output Operator [RS_10] - PartitionCols:_col0, _col1 - Group By Operator [GBY_9] (rows=262/331 width=178) - Output:["_col0","_col1"],keys:_col1, _col0 - Select Operator [SEL_2] (rows=25/25 width=175) - Output:["_col0","_col1"] - Filter Operator [FIL_150] (rows=25/25 width=175) - predicate:value is not null - TableScan [TS_0] (rows=25/25 width=175) - Output:["key","value"] - <-Map 10 [CONTAINS] - Reduce Output Operator [RS_10] - PartitionCols:_col0, _col1 - Group By Operator [GBY_9] (rows=262/331 width=178) - Output:["_col0","_col1"],keys:_col1, _col0 - Select Operator [SEL_5] (rows=500/500 width=178) - Output:["_col0","_col1"] - Filter Operator [FIL_151] (rows=500/500 width=178) - predicate:value is not null - TableScan [TS_3] (rows=500/500 width=178) - Output:["key","value"] - -PREHOOK: query: SELECT x.key, z.value, y.value -FROM src1 x JOIN src y ON (x.key = y.key) -JOIN srcpart z ON (x.value = z.value and z.ds='2008-04-08' and z.hr=11) -PREHOOK: type: QUERY -PREHOOK: Input: default@src -PREHOOK: Input: default@src1 -PREHOOK: Input: default@srcpart -PREHOOK: Input: default@srcpart@ds=2008-04-08/hr=11 -#### A masked pattern was here #### -POSTHOOK: query: SELECT x.key, z.value, y.value -FROM src1 x JOIN src y ON (x.key = y.key) -JOIN srcpart z ON (x.value = z.value and z.ds='2008-04-08' and z.hr=11) -POSTHOOK: type: QUERY -POSTHOOK: Input: default@src -POSTHOOK: Input: default@src1 -POSTHOOK: Input: default@srcpart -POSTHOOK: Input: default@srcpart@ds=2008-04-08/hr=11 -#### A masked pattern was here #### -PREHOOK: query: explain analyze -SELECT x.key, z.value, y.value -FROM src1 x JOIN src y ON (x.key = y.key) -JOIN srcpart z ON (x.value = z.value and z.ds='2008-04-08' and z.hr=11) -PREHOOK: type: QUERY -POSTHOOK: query: explain analyze -SELECT x.key, z.value, y.value -FROM src1 x JOIN src y ON (x.key = y.key) -JOIN srcpart z ON (x.value = z.value and z.ds='2008-04-08' and z.hr=11) -POSTHOOK: type: QUERY -Plan optimized by CBO. - -Vertex dependency in root stage -Map 1 <- Map 2 (BROADCAST_EDGE), Map 3 (BROADCAST_EDGE) - -Stage-0 - Fetch Operator - limit:-1 - Stage-1 - Map 1 - File Output Operator [FS_16] - Select Operator [SEL_15] (rows=605/85 width=10) - Output:["_col0","_col1","_col2"] - Map Join Operator [MAPJOIN_26] (rows=605/85 width=10) - Conds:MAPJOIN_25._col3=RS_13._col0(Inner),HybridGraceHashJoin:true,Output:["_col0","_col3","_col6"] - <-Map 3 [BROADCAST_EDGE] - BROADCAST [RS_13] - PartitionCols:_col0 - Select Operator [SEL_8] (rows=500/500 width=10) - Output:["_col0","_col1"] - Filter Operator [FIL_24] (rows=500/500 width=10) - predicate:key is not null - TableScan [TS_6] (rows=500/500 width=10) - default@src,y,Tbl:COMPLETE,Col:NONE,Output:["key","value"] - <-Map Join Operator [MAPJOIN_25] (rows=550/41 width=10) - Conds:SEL_2._col0=RS_10._col1(Inner),HybridGraceHashJoin:true,Output:["_col0","_col3"] - <-Map 2 [BROADCAST_EDGE] - BROADCAST [RS_10] - PartitionCols:_col1 - Select Operator [SEL_5] (rows=25/25 width=7) - Output:["_col0","_col1"] - Filter Operator [FIL_23] (rows=25/25 width=7) - predicate:(key is not null and value is not null) - TableScan [TS_3] (rows=25/25 width=7) - default@src1,x,Tbl:COMPLETE,Col:NONE,Output:["key","value"] - <-Select Operator [SEL_2] (rows=500/500 width=10) - Output:["_col0"] - Filter Operator [FIL_22] (rows=500/500 width=10) - predicate:value is not null - TableScan [TS_0] (rows=500/500 width=10) - default@srcpart,z,Tbl:COMPLETE,Col:NONE,Output:["value"] - -PREHOOK: query: select -ss.k1,sr.k2,cs.k3,count(ss.v1),count(sr.v2),count(cs.v3) -FROM -ss,sr,cs,src d1,src d2,src d3,src1,srcpart -where - ss.k1 = d1.key -and sr.k1 = d2.key -and cs.k1 = d3.key -and ss.k2 = sr.k2 -and ss.k3 = sr.k3 -and ss.v1 = src1.value -and ss.v2 = srcpart.value -and sr.v2 = cs.v2 -and sr.v3 = cs.v3 -and ss.v3='ssv3' -and sr.v1='srv1' -and src1.key = 'src1key' -and srcpart.key = 'srcpartkey' -and d1.value = 'd1value' -and d2.value in ('2000Q1','2000Q2','2000Q3') -and d3.value in ('2000Q1','2000Q2','2000Q3') -group by -ss.k1,sr.k2,cs.k3 -order by -ss.k1,sr.k2,cs.k3 -limit 100 -PREHOOK: type: QUERY -PREHOOK: Input: default@cs -PREHOOK: Input: default@sr -PREHOOK: Input: default@src -PREHOOK: Input: default@src1 -PREHOOK: Input: default@srcpart -PREHOOK: Input: default@srcpart@ds=2008-04-08/hr=11 -PREHOOK: Input: default@srcpart@ds=2008-04-08/hr=12 -PREHOOK: Input: default@srcpart@ds=2008-04-09/hr=11 -PREHOOK: Input: default@srcpart@ds=2008-04-09/hr=12 -PREHOOK: Input: default@ss -#### A masked pattern was here #### -POSTHOOK: query: select -ss.k1,sr.k2,cs.k3,count(ss.v1),count(sr.v2),count(cs.v3) -FROM -ss,sr,cs,src d1,src d2,src d3,src1,srcpart -where - ss.k1 = d1.key -and sr.k1 = d2.key -and cs.k1 = d3.key -and ss.k2 = sr.k2 -and ss.k3 = sr.k3 -and ss.v1 = src1.value -and ss.v2 = srcpart.value -and sr.v2 = cs.v2 -and sr.v3 = cs.v3 -and ss.v3='ssv3' -and sr.v1='srv1' -and src1.key = 'src1key' -and srcpart.key = 'srcpartkey' -and d1.value = 'd1value' -and d2.value in ('2000Q1','2000Q2','2000Q3') -and d3.value in ('2000Q1','2000Q2','2000Q3') -group by -ss.k1,sr.k2,cs.k3 -order by -ss.k1,sr.k2,cs.k3 -limit 100 -POSTHOOK: type: QUERY -POSTHOOK: Input: default@cs -POSTHOOK: Input: default@sr -POSTHOOK: Input: default@src -POSTHOOK: Input: default@src1 -POSTHOOK: Input: default@srcpart -POSTHOOK: Input: default@srcpart@ds=2008-04-08/hr=11 -POSTHOOK: Input: default@srcpart@ds=2008-04-08/hr=12 -POSTHOOK: Input: default@srcpart@ds=2008-04-09/hr=11 -POSTHOOK: Input: default@srcpart@ds=2008-04-09/hr=12 -POSTHOOK: Input: default@ss -#### A masked pattern was here #### -PREHOOK: query: explain analyze -select -ss.k1,sr.k2,cs.k3,count(ss.v1),count(sr.v2),count(cs.v3) -FROM -ss,sr,cs,src d1,src d2,src d3,src1,srcpart -where - ss.k1 = d1.key -and sr.k1 = d2.key -and cs.k1 = d3.key -and ss.k2 = sr.k2 -and ss.k3 = sr.k3 -and ss.v1 = src1.value -and ss.v2 = srcpart.value -and sr.v2 = cs.v2 -and sr.v3 = cs.v3 -and ss.v3='ssv3' -and sr.v1='srv1' -and src1.key = 'src1key' -and srcpart.key = 'srcpartkey' -and d1.value = 'd1value' -and d2.value in ('2000Q1','2000Q2','2000Q3') -and d3.value in ('2000Q1','2000Q2','2000Q3') -group by -ss.k1,sr.k2,cs.k3 -order by -ss.k1,sr.k2,cs.k3 -limit 100 -PREHOOK: type: QUERY -POSTHOOK: query: explain analyze -select -ss.k1,sr.k2,cs.k3,count(ss.v1),count(sr.v2),count(cs.v3) -FROM -ss,sr,cs,src d1,src d2,src d3,src1,srcpart -where - ss.k1 = d1.key -and sr.k1 = d2.key -and cs.k1 = d3.key -and ss.k2 = sr.k2 -and ss.k3 = sr.k3 -and ss.v1 = src1.value -and ss.v2 = srcpart.value -and sr.v2 = cs.v2 -and sr.v3 = cs.v3 -and ss.v3='ssv3' -and sr.v1='srv1' -and src1.key = 'src1key' -and srcpart.key = 'srcpartkey' -and d1.value = 'd1value' -and d2.value in ('2000Q1','2000Q2','2000Q3') -and d3.value in ('2000Q1','2000Q2','2000Q3') -group by -ss.k1,sr.k2,cs.k3 -order by -ss.k1,sr.k2,cs.k3 -limit 100 -POSTHOOK: type: QUERY -Plan optimized by CBO. - -Vertex dependency in root stage -Map 10 <- Map 9 (BROADCAST_EDGE) -Map 2 <- Map 1 (BROADCAST_EDGE) -Map 3 <- Map 10 (BROADCAST_EDGE), Map 2 (BROADCAST_EDGE), Map 6 (BROADCAST_EDGE), Map 7 (BROADCAST_EDGE), Map 8 (BROADCAST_EDGE) -Reducer 4 <- Map 3 (SIMPLE_EDGE) -Reducer 5 <- Reducer 4 (SIMPLE_EDGE) - -Stage-0 - Fetch Operator - limit:100 - Stage-1 - Reducer 5 - File Output Operator [FS_55] - Limit [LIM_54] (rows=100/0 width=10) - Number of rows:100 - Select Operator [SEL_53] (rows=805/0 width=10) - Output:["_col0","_col1","_col2","_col3","_col4","_col5"] - <-Reducer 4 [SIMPLE_EDGE] - SHUFFLE [RS_52] - Group By Operator [GBY_50] (rows=805/0 width=10) - Output:["_col0","_col1","_col2","_col3","_col4","_col5"],aggregations:["count(VALUE._col0)","count(VALUE._col1)","count(VALUE._col2)"],keys:KEY._col0, KEY._col1, KEY._col2 - <-Map 3 [SIMPLE_EDGE] - SHUFFLE [RS_49] - PartitionCols:_col0, _col1, _col2 - Group By Operator [GBY_48] (rows=1610/0 width=10) - Output:["_col0","_col1","_col2","_col3","_col4","_col5"],aggregations:["count(_col13)","count(_col21)","count(_col3)"],keys:_col12, _col20, _col2 - Select Operator [SEL_47] (rows=1610/0 width=10) - Output:["_col12","_col20","_col2","_col13","_col21","_col3"] - Map Join Operator [MAPJOIN_97] (rows=1610/0 width=10) - Conds:RS_44._col1, _col3=SEL_40._col15, _col17(Inner),HybridGraceHashJoin:true,Output:["_col2","_col3","_col12","_col13","_col20","_col21"] - <-Map 2 [BROADCAST_EDGE] - BROADCAST [RS_44] - PartitionCols:_col1, _col3 - Map Join Operator [MAPJOIN_91] (rows=275/0 width=10) - Conds:RS_41._col0=SEL_5._col0(Inner),HybridGraceHashJoin:true,Output:["_col1","_col2","_col3"] - <-Map 1 [BROADCAST_EDGE] - BROADCAST [RS_41] - PartitionCols:_col0 - Select Operator [SEL_2] (rows=170/170 width=34) - Output:["_col0","_col1","_col2","_col3"] - Filter Operator [FIL_83] (rows=170/170 width=34) - predicate:(v2 is not null and v3 is not null and k1 is not null) - TableScan [TS_0] (rows=170/170 width=34) - default@cs,cs,Tbl:COMPLETE,Col:NONE,Output:["k1","v2","k3","v3"] - <-Select Operator [SEL_5] (rows=250/0 width=10) - Output:["_col0"] - Filter Operator [FIL_84] (rows=250/0 width=10) - predicate:((value) IN ('2000Q1', '2000Q2', '2000Q3') and key is not null) - TableScan [TS_3] (rows=500/500 width=10) - default@src,d3,Tbl:COMPLETE,Col:NONE,Output:["key","value"] - <-Select Operator [SEL_40] (rows=1464/0 width=10) - Output:["_col14","_col15","_col17","_col6","_col7"] - Map Join Operator [MAPJOIN_96] (rows=1464/0 width=10) - Conds:MAPJOIN_94._col6, _col4=RS_38._col4, _col2(Inner),HybridGraceHashJoin:true,Output:["_col2","_col3","_col14","_col15","_col17"] - <-Map 10 [BROADCAST_EDGE] - BROADCAST [RS_38] - PartitionCols:_col4, _col2 - Map Join Operator [MAPJOIN_95] (rows=275/0 width=10) - Conds:RS_24._col0=SEL_23._col0(Inner),HybridGraceHashJoin:true,Output:["_col2","_col3","_col4","_col5"] - <-Map 9 [BROADCAST_EDGE] - BROADCAST [RS_24] - PartitionCols:_col0 - Select Operator [SEL_20] (rows=42/0 width=34) - Output:["_col0","_col2","_col3","_col4","_col5"] - Filter Operator [FIL_89] (rows=42/0 width=34) - predicate:((v1 = 'srv1') and k2 is not null and k3 is not null and v2 is not null and v3 is not null and k1 is not null) - TableScan [TS_18] (rows=85/85 width=34) - default@sr,sr,Tbl:COMPLETE,Col:NONE,Output:["k1","v1","k2","v2","k3","v3"] - <-Select Operator [SEL_23] (rows=250/0 width=10) - Output:["_col0"] - Filter Operator [FIL_90] (rows=250/0 width=10) - predicate:((value) IN ('2000Q1', '2000Q2', '2000Q3') and key is not null) - TableScan [TS_21] (rows=500/500 width=10) - default@src,d2,Tbl:COMPLETE,Col:NONE,Output:["key","value"] - <-Map Join Operator [MAPJOIN_94] (rows=1331/0 width=10) - Conds:MAPJOIN_93._col3=RS_35._col1(Inner),HybridGraceHashJoin:true,Output:["_col2","_col3","_col4","_col6"] - <-Map 8 [BROADCAST_EDGE] - BROADCAST [RS_35] - PartitionCols:_col1 - Select Operator [SEL_17] (rows=12/0 width=7) - Output:["_col1"] - Filter Operator [FIL_88] (rows=12/0 width=7) - predicate:((key = 'src1key') and value is not null) - TableScan [TS_15] (rows=25/25 width=7) - default@src1,src1,Tbl:COMPLETE,Col:NONE,Output:["key","value"] - <-Map Join Operator [MAPJOIN_93] (rows=1210/0 width=10) - Conds:MAPJOIN_92._col2=RS_32._col0(Inner),HybridGraceHashJoin:true,Output:["_col2","_col3","_col4","_col6"] - <-Map 7 [BROADCAST_EDGE] - BROADCAST [RS_32] - PartitionCols:_col0 - Select Operator [SEL_14] (rows=250/0 width=10) - Output:["_col0"] - Filter Operator [FIL_87] (rows=250/0 width=10) - predicate:((value = 'd1value') and key is not null) - TableScan [TS_12] (rows=500/500 width=10) - default@src,d1,Tbl:COMPLETE,Col:NONE,Output:["key","value"] - <-Map Join Operator [MAPJOIN_92] (rows=1100/0 width=10) - Conds:SEL_8._col1=RS_29._col3(Inner),HybridGraceHashJoin:true,Output:["_col2","_col3","_col4","_col6"] - <-Map 6 [BROADCAST_EDGE] - BROADCAST [RS_29] - PartitionCols:_col3 - Select Operator [SEL_11] (rows=42/0 width=34) - Output:["_col0","_col1","_col2","_col3","_col4"] - Filter Operator [FIL_86] (rows=42/0 width=34) - predicate:((v3 = 'ssv3') and k2 is not null and k3 is not null and k1 is not null and v1 is not null and v2 is not null) - TableScan [TS_9] (rows=85/85 width=34) - default@ss,ss,Tbl:COMPLETE,Col:NONE,Output:["k1","v1","k2","v2","k3","v3"] - <-Select Operator [SEL_8] (rows=1000/0 width=10) - Output:["_col1"] - Filter Operator [FIL_85] (rows=1000/0 width=10) - predicate:((key = 'srcpartkey') and value is not null) - TableScan [TS_6] (rows=2000/2000 width=10) - default@srcpart,srcpart,Tbl:COMPLETE,Col:NONE,Output:["key","value"] - -PREHOOK: query: SELECT x.key, z.value, y.value -FROM src1 x JOIN src y ON (x.key = y.key) -JOIN (select * from src1 union select * from src)z ON (x.value = z.value) -union -SELECT x.key, z.value, y.value -FROM src1 x JOIN src y ON (x.key = y.key) -JOIN (select * from src1 union select * from src)z ON (x.value = z.value) -PREHOOK: type: QUERY -PREHOOK: Input: default@src -PREHOOK: Input: default@src1 -#### A masked pattern was here #### -POSTHOOK: query: SELECT x.key, z.value, y.value -FROM src1 x JOIN src y ON (x.key = y.key) -JOIN (select * from src1 union select * from src)z ON (x.value = z.value) -union -SELECT x.key, z.value, y.value -FROM src1 x JOIN src y ON (x.key = y.key) -JOIN (select * from src1 union select * from src)z ON (x.value = z.value) -POSTHOOK: type: QUERY -POSTHOOK: Input: default@src -POSTHOOK: Input: default@src1 -#### A masked pattern was here #### -PREHOOK: query: explain analyze -SELECT x.key, z.value, y.value -FROM src1 x JOIN src y ON (x.key = y.key) -JOIN (select * from src1 union select * from src)z ON (x.value = z.value) -union -SELECT x.key, z.value, y.value -FROM src1 x JOIN src y ON (x.key = y.key) -JOIN (select * from src1 union select * from src)z ON (x.value = z.value) -PREHOOK: type: QUERY -POSTHOOK: query: explain analyze -SELECT x.key, z.value, y.value -FROM src1 x JOIN src y ON (x.key = y.key) -JOIN (select * from src1 union select * from src)z ON (x.value = z.value) -union -SELECT x.key, z.value, y.value -FROM src1 x JOIN src y ON (x.key = y.key) -JOIN (select * from src1 union select * from src)z ON (x.value = z.value) -POSTHOOK: type: QUERY -Plan optimized by CBO. - -Vertex dependency in root stage -Map 1 <- Union 2 (CONTAINS) -Map 12 <- Union 10 (CONTAINS) -Map 6 <- Union 2 (CONTAINS) -Map 9 <- Union 10 (CONTAINS) -Reducer 11 <- Map 13 (BROADCAST_EDGE), Map 14 (BROADCAST_EDGE), Union 10 (SIMPLE_EDGE), Union 4 (CONTAINS) -Reducer 3 <- Map 7 (BROADCAST_EDGE), Map 8 (BROADCAST_EDGE), Union 2 (SIMPLE_EDGE), Union 4 (CONTAINS) -Reducer 5 <- Union 4 (SIMPLE_EDGE) - -Stage-0 - Fetch Operator - limit:-1 - Stage-1 - Reducer 5 - File Output Operator [FS_59] - Group By Operator [GBY_57] (rows=550/15 width=10) - Output:["_col0","_col1"],keys:KEY._col0, KEY._col1 - <-Union 4 [SIMPLE_EDGE] - <-Reducer 11 [CONTAINS] - Reduce Output Operator [RS_56] - PartitionCols:_col0, _col1 - Group By Operator [GBY_55] (rows=1100/30 width=10) - Output:["_col0","_col1"],keys:_col0, _col1 - Select Operator [SEL_51] (rows=550/61 width=10) - Output:["_col0","_col1"] - Map Join Operator [MAPJOIN_85] (rows=550/61 width=10) - Conds:MAPJOIN_84._col2=RS_49._col0(Inner),HybridGraceHashJoin:true,Output:["_col1","_col2"] - <-Map 14 [BROADCAST_EDGE] - BROADCAST [RS_49] - PartitionCols:_col0 - Select Operator [SEL_44] (rows=500/500 width=10) - Output:["_col0"] - Filter Operator [FIL_81] (rows=500/500 width=10) - predicate:key is not null - TableScan [TS_42] (rows=500/500 width=10) - default@src,y,Tbl:COMPLETE,Col:NONE,Output:["key"] - <-Map Join Operator [MAPJOIN_84] (rows=288/52 width=10) - Conds:SEL_38._col1=RS_46._col1(Inner),HybridGraceHashJoin:true,Output:["_col1","_col2"] - <-Map 13 [BROADCAST_EDGE] - BROADCAST [RS_46] - PartitionCols:_col1 - Select Operator [SEL_41] (rows=25/25 width=7) - Output:["_col0","_col1"] - Filter Operator [FIL_80] (rows=25/25 width=7) - predicate:(key is not null and value is not null) - TableScan [TS_39] (rows=25/25 width=7) - default@src1,x,Tbl:COMPLETE,Col:NONE,Output:["key","value"] - <-Select Operator [SEL_38] (rows=262/319 width=10) - Output:["_col1"] - Group By Operator [GBY_37] (rows=262/319 width=10) - Output:["_col0","_col1"],keys:KEY._col0, KEY._col1 - <-Union 10 [SIMPLE_EDGE] - <-Map 12 [CONTAINS] - Reduce Output Operator [RS_36] - PartitionCols:_col0, _col1 - Group By Operator [GBY_35] (rows=525/331 width=10) - Output:["_col0","_col1"],keys:_col1, _col0 - Select Operator [SEL_31] (rows=500/500 width=10) - Output:["_col0","_col1"] - Filter Operator [FIL_79] (rows=500/500 width=10) - predicate:value is not null - TableScan [TS_29] (rows=500/500 width=10) - Output:["key","value"] - <-Map 9 [CONTAINS] - Reduce Output Operator [RS_36] - PartitionCols:_col0, _col1 - Group By Operator [GBY_35] (rows=525/331 width=10) - Output:["_col0","_col1"],keys:_col1, _col0 - Select Operator [SEL_28] (rows=25/25 width=7) - Output:["_col0","_col1"] - Filter Operator [FIL_78] (rows=25/25 width=7) - predicate:value is not null - TableScan [TS_26] (rows=25/25 width=7) - Output:["key","value"] - <-Reducer 3 [CONTAINS] - Reduce Output Operator [RS_56] - PartitionCols:_col0, _col1 - Group By Operator [GBY_55] (rows=1100/30 width=10) - Output:["_col0","_col1"],keys:_col0, _col1 - Select Operator [SEL_25] (rows=550/61 width=10) - Output:["_col0","_col1"] - Map Join Operator [MAPJOIN_83] (rows=550/61 width=10) - Conds:MAPJOIN_82._col2=RS_23._col0(Inner),HybridGraceHashJoin:true,Output:["_col1","_col2"] - <-Map 8 [BROADCAST_EDGE] - BROADCAST [RS_23] - PartitionCols:_col0 - Select Operator [SEL_18] (rows=500/500 width=10) - Output:["_col0"] - Filter Operator [FIL_77] (rows=500/500 width=10) - predicate:key is not null - TableScan [TS_16] (rows=500/500 width=10) - default@src,y,Tbl:COMPLETE,Col:NONE,Output:["key"] - <-Map Join Operator [MAPJOIN_82] (rows=288/52 width=10) - Conds:SEL_12._col1=RS_20._col1(Inner),HybridGraceHashJoin:true,Output:["_col1","_col2"] - <-Map 7 [BROADCAST_EDGE] - BROADCAST [RS_20] - PartitionCols:_col1 - Select Operator [SEL_15] (rows=25/25 width=7) - Output:["_col0","_col1"] - Filter Operator [FIL_76] (rows=25/25 width=7) - predicate:(key is not null and value is not null) - TableScan [TS_13] (rows=25/25 width=7) - default@src1,x,Tbl:COMPLETE,Col:NONE,Output:["key","value"] - <-Select Operator [SEL_12] (rows=262/319 width=10) - Output:["_col1"] - Group By Operator [GBY_11] (rows=262/319 width=10) - Output:["_col0","_col1"],keys:KEY._col0, KEY._col1 - <-Union 2 [SIMPLE_EDGE] - <-Map 1 [CONTAINS] - Reduce Output Operator [RS_10] - PartitionCols:_col0, _col1 - Group By Operator [GBY_9] (rows=525/331 width=10) - Output:["_col0","_col1"],keys:_col1, _col0 - Select Operator [SEL_2] (rows=25/25 width=7) - Output:["_col0","_col1"] - Filter Operator [FIL_74] (rows=25/25 width=7) - predicate:value is not null - TableScan [TS_0] (rows=25/25 width=7) - Output:["key","value"] - <-Map 6 [CONTAINS] - Reduce Output Operator [RS_10] - PartitionCols:_col0, _col1 - Group By Operator [GBY_9] (rows=525/331 width=10) - Output:["_col0","_col1"],keys:_col1, _col0 - Select Operator [SEL_5] (rows=500/500 width=10) - Output:["_col0","_col1"] - Filter Operator [FIL_75] (rows=500/500 width=10) - predicate:value is not null - TableScan [TS_3] (rows=500/500 width=10) - Output:["key","value"] - -PREHOOK: query: SELECT x.key, y.value -FROM src1 x JOIN src y ON (x.key = y.key) -JOIN (select * from src1 union select * from src)z ON (x.value = z.value) -union -SELECT x.key, y.value -FROM src1 x JOIN src y ON (x.key = y.key) -JOIN (select key, value from src1 union select key, value from src union select key, value from src)z ON (x.value = z.value) -union -SELECT x.key, y.value -FROM src1 x JOIN src y ON (x.key = y.key) -JOIN (select key, value from src1 union select key, value from src union select key, value from src union select key, value from src)z ON (x.value = z.value) -PREHOOK: type: QUERY -PREHOOK: Input: default@src -PREHOOK: Input: default@src1 -#### A masked pattern was here #### -POSTHOOK: query: SELECT x.key, y.value -FROM src1 x JOIN src y ON (x.key = y.key) -JOIN (select * from src1 union select * from src)z ON (x.value = z.value) -union -SELECT x.key, y.value -FROM src1 x JOIN src y ON (x.key = y.key) -JOIN (select key, value from src1 union select key, value from src union select key, value from src)z ON (x.value = z.value) -union -SELECT x.key, y.value -FROM src1 x JOIN src y ON (x.key = y.key) -JOIN (select key, value from src1 union select key, value from src union select key, value from src union select key, value from src)z ON (x.value = z.value) -POSTHOOK: type: QUERY -POSTHOOK: Input: default@src -POSTHOOK: Input: default@src1 -#### A masked pattern was here #### -PREHOOK: query: explain analyze -SELECT x.key, y.value -FROM src1 x JOIN src y ON (x.key = y.key) -JOIN (select * from src1 union select * from src)z ON (x.value = z.value) -union -SELECT x.key, y.value -FROM src1 x JOIN src y ON (x.key = y.key) -JOIN (select key, value from src1 union select key, value from src union select key, value from src)z ON (x.value = z.value) -union -SELECT x.key, y.value -FROM src1 x JOIN src y ON (x.key = y.key) -JOIN (select key, value from src1 union select key, value from src union select key, value from src union select key, value from src)z ON (x.value = z.value) -PREHOOK: type: QUERY -POSTHOOK: query: explain analyze -SELECT x.key, y.value -FROM src1 x JOIN src y ON (x.key = y.key) -JOIN (select * from src1 union select * from src)z ON (x.value = z.value) -union -SELECT x.key, y.value -FROM src1 x JOIN src y ON (x.key = y.key) -JOIN (select key, value from src1 union select key, value from src union select key, value from src)z ON (x.value = z.value) -union -SELECT x.key, y.value -FROM src1 x JOIN src y ON (x.key = y.key) -JOIN (select key, value from src1 union select key, value from src union select key, value from src union select key, value from src)z ON (x.value = z.value) -POSTHOOK: type: QUERY -Plan optimized by CBO. - -Vertex dependency in root stage -Map 1 <- Union 2 (CONTAINS) -Map 11 <- Union 12 (CONTAINS) -Map 16 <- Union 12 (CONTAINS) -Map 17 <- Union 14 (CONTAINS) -Map 20 <- Union 21 (CONTAINS) -Map 27 <- Union 21 (CONTAINS) -Map 28 <- Union 23 (CONTAINS) -Map 29 <- Union 25 (CONTAINS) -Map 8 <- Union 2 (CONTAINS) -Reducer 13 <- Union 12 (SIMPLE_EDGE), Union 14 (CONTAINS) -Reducer 15 <- Map 18 (BROADCAST_EDGE), Map 19 (BROADCAST_EDGE), Union 14 (SIMPLE_EDGE), Union 4 (CONTAINS) -Reducer 22 <- Union 21 (SIMPLE_EDGE), Union 23 (CONTAINS) -Reducer 24 <- Union 23 (SIMPLE_EDGE), Union 25 (CONTAINS) -Reducer 26 <- Map 30 (BROADCAST_EDGE), Map 31 (BROADCAST_EDGE), Union 25 (SIMPLE_EDGE), Union 6 (CONTAINS) -Reducer 3 <- Map 10 (BROADCAST_EDGE), Map 9 (BROADCAST_EDGE), Union 2 (SIMPLE_EDGE), Union 4 (CONTAINS) -Reducer 5 <- Union 4 (SIMPLE_EDGE), Union 6 (CONTAINS) -Reducer 7 <- Union 6 (SIMPLE_EDGE) - -Stage-0 - Fetch Operator - limit:-1 - Stage-1 - Reducer 7 - File Output Operator [FS_122] - Group By Operator [GBY_120] (rows=550/15 width=10) - Output:["_col0","_col1"],keys:KEY._col0, KEY._col1 - <-Union 6 [SIMPLE_EDGE] - <-Reducer 26 [CONTAINS] - Reduce Output Operator [RS_119] - PartitionCols:_col0, _col1 - Group By Operator [GBY_118] (rows=1100/30 width=10) - Output:["_col0","_col1"],keys:_col0, _col1 - Select Operator [SEL_114] (rows=550/61 width=10) - Output:["_col0","_col1"] - Map Join Operator [MAPJOIN_170] (rows=550/61 width=10) - Conds:MAPJOIN_169._col2=RS_112._col0(Inner),HybridGraceHashJoin:true,Output:["_col2","_col5"] - <-Map 31 [BROADCAST_EDGE] - BROADCAST [RS_112] - PartitionCols:_col0 - Select Operator [SEL_107] (rows=500/500 width=10) - Output:["_col0","_col1"] - Filter Operator [FIL_164] (rows=500/500 width=10) - predicate:key is not null - TableScan [TS_105] (rows=500/500 width=10) - default@src,y,Tbl:COMPLETE,Col:NONE,Output:["key","value"] - <-Map Join Operator [MAPJOIN_169] (rows=484/52 width=10) - Conds:SEL_101._col1=RS_109._col1(Inner),HybridGraceHashJoin:true,Output:["_col2"] - <-Map 30 [BROADCAST_EDGE] - BROADCAST [RS_109] - PartitionCols:_col1 - Select Operator [SEL_104] (rows=25/25 width=7) - Output:["_col0","_col1"] - Filter Operator [FIL_163] (rows=25/25 width=7) - predicate:(key is not null and value is not null) - TableScan [TS_102] (rows=25/25 width=7) - default@src1,x,Tbl:COMPLETE,Col:NONE,Output:["key","value"] - <-Select Operator [SEL_101] (rows=440/319 width=10) - Output:["_col1"] - Group By Operator [GBY_100] (rows=440/319 width=10) -
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