pgBadger-
Global information
- Generated on Sat Apr 19 04:10:04 2025
- Log file: /project/archive/log/postgres/dbdev51/postgresql.log-20250418
- Parsed 15,371 log entries in 2s
- Log start from 2025-04-18 00:00:09 to 2025-04-18 23:59:41
-
Overview
Global Stats
- 26 Number of unique normalized queries
- 30 Number of queries
- 40m55s Total query duration
- 2025-04-18 05:45:13 First query
- 2025-04-18 13:49:41 Last query
- 1 queries/s at 2025-04-18 13:49:41 Query peak
- 40m55s Total query duration
- 0ms Prepare/parse total duration
- 0ms Bind total duration
- 40m55s Execute total duration
- 20 Number of events
- 7 Number of unique normalized events
- 7 Max number of times the same event was reported
- 0 Number of cancellation
- 3 Total number of automatic vacuums
- 5 Total number of automatic analyzes
- 10 Number temporary file
- 1.00 GiB Max size of temporary file
- 843.27 MiB Average size of temporary file
- 1,890 Total number of sessions
- 44 sessions at 2025-04-18 13:49:41 Session peak
- 41d17h27m33s Total duration of sessions
- 31m47s Average duration of sessions
- 0 Average queries per session
- 1s299ms Average queries duration per session
- 31m46s Average idle time per session
- 1,890 Total number of connections
- 6 connections/s at 2025-04-18 05:45:09 Connection peak
- 2 Total number of databases
SQL Traffic
Key values
- 1 queries/s Query Peak
- 2025-04-18 13:49:41 Date
SELECT Traffic
Key values
- 1 queries/s Query Peak
- 2025-04-18 13:49:41 Date
INSERT/UPDATE/DELETE Traffic
Key values
- 1 queries/s Query Peak
- 2025-04-18 13:30:33 Date
Queries duration
Key values
- 40m55s Total query duration
Prepared queries ratio
Key values
- 0.00 Ratio of bind vs prepare
- 0.00 % Ratio between prepared and "usual" statements
General Activity
↑ Back to the top of the General Activity tableDay Hour Count Min duration Max duration Avg duration Latency Percentile(90) Latency Percentile(95) Latency Percentile(99) Apr 18 00 0 0ms 0ms 0ms 0ms 0ms 0ms 01 0 0ms 0ms 0ms 0ms 0ms 0ms 02 0 0ms 0ms 0ms 0ms 0ms 0ms 03 0 0ms 0ms 0ms 0ms 0ms 0ms 04 0 0ms 0ms 0ms 0ms 0ms 0ms 05 19 0ms 4s404ms 2s325ms 4s693ms 15s901ms 23s596ms 06 0 0ms 0ms 0ms 0ms 0ms 0ms 07 0 0ms 0ms 0ms 0ms 0ms 0ms 08 0 0ms 0ms 0ms 0ms 0ms 0ms 09 0 0ms 0ms 0ms 0ms 0ms 0ms 10 0 0ms 0ms 0ms 0ms 0ms 0ms 11 2 0ms 4m15s 4m14s 0ms 4m13s 4m15s 12 2 0ms 1s965ms 1s815ms 0ms 1s666ms 1s965ms 13 7 0ms 31m25s 4m31s 2s39ms 4s139ms 31m25s 14 0 0ms 0ms 0ms 0ms 0ms 0ms 15 0 0ms 0ms 0ms 0ms 0ms 0ms 16 0 0ms 0ms 0ms 0ms 0ms 0ms 17 0 0ms 0ms 0ms 0ms 0ms 0ms 18 0 0ms 0ms 0ms 0ms 0ms 0ms 19 0 0ms 0ms 0ms 0ms 0ms 0ms 20 0 0ms 0ms 0ms 0ms 0ms 0ms 21 0 0ms 0ms 0ms 0ms 0ms 0ms 22 0 0ms 0ms 0ms 0ms 0ms 0ms 23 0 0ms 0ms 0ms 0ms 0ms 0ms Day Hour SELECT COPY TO Average Duration Latency Percentile(90) Latency Percentile(95) Latency Percentile(99) Apr 18 00 0 0 0ms 0ms 0ms 0ms 01 0 0 0ms 0ms 0ms 0ms 02 0 0 0ms 0ms 0ms 0ms 03 0 0 0ms 0ms 0ms 0ms 04 0 0 0ms 0ms 0ms 0ms 05 17 0 2s323ms 0ms 0ms 23s596ms 06 0 0 0ms 0ms 0ms 0ms 07 0 0 0ms 0ms 0ms 0ms 08 0 0 0ms 0ms 0ms 0ms 09 0 0 0ms 0ms 0ms 0ms 10 0 0 0ms 0ms 0ms 0ms 11 2 0 4m14s 0ms 0ms 4m15s 12 0 0 0ms 0ms 0ms 0ms 13 2 0 15m43s 0ms 0ms 31m25s 14 0 0 0ms 0ms 0ms 0ms 15 0 0 0ms 0ms 0ms 0ms 16 0 0 0ms 0ms 0ms 0ms 17 0 0 0ms 0ms 0ms 0ms 18 0 0 0ms 0ms 0ms 0ms 19 0 0 0ms 0ms 0ms 0ms 20 0 0 0ms 0ms 0ms 0ms 21 0 0 0ms 0ms 0ms 0ms 22 0 0 0ms 0ms 0ms 0ms 23 0 0 0ms 0ms 0ms 0ms Day Hour INSERT UPDATE DELETE COPY FROM Average Duration Latency Percentile(90) Latency Percentile(95) Latency Percentile(99) Apr 18 00 0 0 0 0 0ms 0ms 0ms 0ms 01 0 0 0 0 0ms 0ms 0ms 0ms 02 0 0 0 0 0ms 0ms 0ms 0ms 03 0 0 0 0 0ms 0ms 0ms 0ms 04 0 0 0 0 0ms 0ms 0ms 0ms 05 0 0 0 0 0ms 0ms 0ms 0ms 06 0 0 0 0 0ms 0ms 0ms 0ms 07 0 0 0 0 0ms 0ms 0ms 0ms 08 0 0 0 0 0ms 0ms 0ms 0ms 09 0 0 0 0 0ms 0ms 0ms 0ms 10 0 0 0 0 0ms 0ms 0ms 0ms 11 0 0 0 0 0ms 0ms 0ms 0ms 12 0 0 0 0 0ms 0ms 0ms 0ms 13 0 0 0 0 0ms 0ms 0ms 0ms 14 0 0 0 0 0ms 0ms 0ms 0ms 15 0 0 0 0 0ms 0ms 0ms 0ms 16 0 0 0 0 0ms 0ms 0ms 0ms 17 0 0 0 0 0ms 0ms 0ms 0ms 18 0 0 0 0 0ms 0ms 0ms 0ms 19 0 0 0 0 0ms 0ms 0ms 0ms 20 0 0 0 0 0ms 0ms 0ms 0ms 21 0 0 0 0 0ms 0ms 0ms 0ms 22 0 0 0 0 0ms 0ms 0ms 0ms 23 0 0 0 0 0ms 0ms 0ms 0ms Day Hour Prepare Bind Bind/Prepare Percentage of prepare Apr 18 00 0 0 0.00 0.00% 01 0 0 0.00 0.00% 02 0 0 0.00 0.00% 03 0 0 0.00 0.00% 04 0 0 0.00 0.00% 05 0 19 19.00 0.00% 06 0 0 0.00 0.00% 07 0 0 0.00 0.00% 08 0 0 0.00 0.00% 09 0 0 0.00 0.00% 10 0 0 0.00 0.00% 11 0 0 0.00 0.00% 12 0 0 0.00 0.00% 13 0 0 0.00 0.00% 14 0 0 0.00 0.00% 15 0 0 0.00 0.00% 16 0 0 0.00 0.00% 17 0 0 0.00 0.00% 18 0 0 0.00 0.00% 19 0 0 0.00 0.00% 20 0 0 0.00 0.00% 21 0 0 0.00 0.00% 22 0 0 0.00 0.00% 23 0 0 0.00 0.00% Day Hour Count Average / Second Apr 18 00 77 0.02/s 01 74 0.02/s 02 80 0.02/s 03 80 0.02/s 04 80 0.02/s 05 85 0.02/s 06 80 0.02/s 07 74 0.02/s 08 81 0.02/s 09 70 0.02/s 10 82 0.02/s 11 80 0.02/s 12 81 0.02/s 13 83 0.02/s 14 80 0.02/s 15 80 0.02/s 16 78 0.02/s 17 75 0.02/s 18 80 0.02/s 19 80 0.02/s 20 80 0.02/s 21 77 0.02/s 22 76 0.02/s 23 77 0.02/s Day Hour Count Average Duration Average idle time Apr 18 00 77 30m39s 30m39s 01 74 30m40s 30m40s 02 80 30m40s 30m40s 03 80 30m39s 30m39s 04 80 30m40s 30m40s 05 85 28m44s 28m44s 06 80 30m39s 30m39s 07 74 30m39s 30m39s 08 80 30m40s 30m40s 09 70 30m39s 30m39s 10 80 30m39s 30m39s 11 80 30m41s 30m34s 12 80 30m39s 30m39s 13 81 30m40s 30m16s 14 80 30m41s 30m41s 15 80 30m39s 30m39s 16 78 30m39s 30m39s 17 78 46m1s 46m1s 18 82 39m45s 39m45s 19 81 34m57s 34m57s 20 80 30m41s 30m41s 21 77 30m39s 30m39s 22 76 30m39s 30m39s 23 77 30m40s 30m40s -
Connections
Established Connections
Key values
- 6 connections Connection Peak
- 2025-04-18 05:45:09 Date
Connections per database
Key values
- ctddev51 Main Database
- 1,890 connections Total
Connections per user
Key values
- editeu Main User
- 1,890 connections Total
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Sessions
Simultaneous sessions
Key values
- 44 sessions Session Peak
- 2025-04-18 13:49:41 Date
Histogram of session times
Key values
- 1,872 1800000-3600000ms duration
Sessions per database
Key values
- ctddev51 Main Database
- 1,890 sessions Total
Sessions per user
Key values
- editeu Main User
- 1,890 sessions Total
Sessions per host
Key values
- 10.12.5.53 Main Host
- 1,890 sessions Total
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Checkpoints / Restartpoints
Checkpoints Buffers
Key values
- 68 buffers Checkpoint Peak
- 2025-04-18 13:46:56 Date
- 6.895 seconds Highest write time
- 0.003 seconds Sync time
Checkpoints Wal files
Key values
- 0 files Wal files usage Peak
- 2025-04-18 14:16:50 Date
Checkpoints distance
Key values
- 3.00 Mo Distance Peak
- 2025-04-18 13:16:56 Date
Checkpoints Activity
↑ Back to the top of the Checkpoint Activity tableDay Hour Written buffers Write time Sync time Total time Apr 18 00 0 0s 0s 0s 01 0 0s 0s 0s 02 0 0s 0s 0s 03 0 0s 0s 0s 04 0 0s 0s 0s 05 0 0s 0s 0s 06 51 5.114s 0.001s 5.129s 07 0 0s 0s 0s 08 0 0s 0s 0s 09 0 0s 0s 0s 10 14 1.572s 0.001s 1.586s 11 38 3.879s 0.001s 3.895s 12 0 0s 0s 0s 13 135 13.691s 0.005s 13.768s 14 13 1.378s 0.001s 1.393s 15 0 0s 0s 0s 16 0 0s 0s 0s 17 0 0s 0s 0s 18 0 0s 0s 0s 19 0 0s 0s 0s 20 0 0s 0s 0s 21 0 0s 0s 0s 22 0 0s 0s 0s 23 0 0s 0s 0s Day Hour Added Removed Recycled Synced files Longest sync Average sync Apr 18 00 0 0 0 0 0s 0s 01 0 0 0 0 0s 0s 02 0 0 0 0 0s 0s 03 0 0 0 0 0s 0s 04 0 0 0 0 0s 0s 05 0 0 0 0 0s 0s 06 0 0 0 10 0.001s 0.001s 07 0 0 0 0 0s 0s 08 0 0 0 0 0s 0s 09 0 0 0 0 0s 0s 10 0 0 0 3 0.001s 0.001s 11 0 0 0 21 0.001s 0.001s 12 0 0 0 0 0s 0s 13 0 1 0 97 0.001s 0.002s 14 0 0 0 8 0.001s 0.001s 15 0 0 0 0 0s 0s 16 0 0 0 0 0s 0s 17 0 0 0 0 0s 0s 18 0 0 0 0 0s 0s 19 0 0 0 0 0s 0s 20 0 0 0 0 0s 0s 21 0 0 0 0 0s 0s 22 0 0 0 0 0s 0s 23 0 0 0 0 0s 0s Day Hour Count Avg time (sec) Apr 18 00 0 0s 01 0 0s 02 0 0s 03 0 0s 04 0 0s 05 0 0s 06 0 0s 07 0 0s 08 0 0s 09 0 0s 10 0 0s 11 0 0s 12 0 0s 13 0 0s 14 0 0s 15 0 0s 16 0 0s 17 0 0s 18 0 0s 19 0 0s 20 0 0s 21 0 0s 22 0 0s 23 0 0s Day Hour Mean distance Mean estimate Apr 18 00 0.00 kB 0.00 kB 01 0.00 kB 0.00 kB 02 0.00 kB 0.00 kB 03 0.00 kB 0.00 kB 04 0.00 kB 0.00 kB 05 0.00 kB 0.00 kB 06 332.00 kB 122,987.00 kB 07 0.00 kB 0.00 kB 08 0.00 kB 0.00 kB 09 0.00 kB 0.00 kB 10 1.00 kB 110,688.00 kB 11 179.00 kB 99,637.00 kB 12 0.00 kB 0.00 kB 13 900.50 kB 85,349.00 kB 14 54.00 kB 72,789.00 kB 15 0.00 kB 0.00 kB 16 0.00 kB 0.00 kB 17 0.00 kB 0.00 kB 18 0.00 kB 0.00 kB 19 0.00 kB 0.00 kB 20 0.00 kB 0.00 kB 21 0.00 kB 0.00 kB 22 0.00 kB 0.00 kB 23 0.00 kB 0.00 kB -
Temporary Files
Size of temporary files
Key values
- 6.00 GiB Temp Files size Peak
- 2025-04-18 13:45:16 Date
Number of temporary files
Key values
- 6 per second Temp Files Peak
- 2025-04-18 13:45:16 Date
Temporary Files Activity
↑ Back to the top of the Temporary Files Activity tableDay Hour Count Total size Average size Apr 18 00 0 0 0 01 0 0 0 02 0 0 0 03 0 0 0 04 0 0 0 05 0 0 0 06 0 0 0 07 0 0 0 08 0 0 0 09 0 0 0 10 0 0 0 11 0 0 0 12 0 0 0 13 10 8.24 GiB 843.27 MiB 14 0 0 0 15 0 0 0 16 0 0 0 17 0 0 0 18 0 0 0 19 0 0 0 20 0 0 0 21 0 0 0 22 0 0 0 23 0 0 0 Queries generating the most temporary files (N)
Rank Count Total size Min size Max size Avg size Query 1 9 8.24 GiB 240.73 MiB 1.00 GiB 936.97 MiB select maint_cached_value_refresh_data_metrics ();-
select maint_cached_value_refresh_data_metrics ();
Date: 2025-04-18 13:49:41 Duration: 31m25s
-
select maint_cached_value_refresh_data_metrics ();
Date: 2025-04-18 13:12:23 Duration: 0ms
Queries generating the largest temporary files
Rank Size Query 1 1.00 GiB select maint_cached_value_refresh_data_metrics ();[ Date: 2025-04-18 13:12:23 ]
2 1.00 GiB select maint_cached_value_refresh_data_metrics ();[ Date: 2025-04-18 13:45:16 ]
3 1.00 GiB select maint_cached_value_refresh_data_metrics ();[ Date: 2025-04-18 13:45:16 ]
4 1.00 GiB select maint_cached_value_refresh_data_metrics ();[ Date: 2025-04-18 13:45:16 ]
5 1.00 GiB select maint_cached_value_refresh_data_metrics ();[ Date: 2025-04-18 13:45:16 ]
6 1.00 GiB select maint_cached_value_refresh_data_metrics ();[ Date: 2025-04-18 13:45:16 ]
7 1.00 GiB select maint_cached_value_refresh_data_metrics ();[ Date: 2025-04-18 13:45:17 ]
8 1.00 GiB select maint_cached_value_refresh_data_metrics ();[ Date: 2025-04-18 13:45:17 ]
9 240.73 MiB select maint_cached_value_refresh_data_metrics ();[ Date: 2025-04-18 13:45:17 ]
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Vacuums
Vacuums / Analyzes Distribution
Key values
- 0.09 sec Highest CPU-cost vacuum
Table pubc.log_query
Database ctddev51 - 2025-04-18 11:03:43 Date
- 0 sec Highest CPU-cost analyze
Table
Database ctddev51 - Date
Average Autovacuum Duration
Key values
- 0.09 sec Highest CPU-cost vacuum
Table pubc.log_query
Database ctddev51 - 2025-04-18 11:03:43 Date
Analyzes per table
Key values
- pubc.log_query (3) Main table analyzed (database ctddev51)
- 5 analyzes Total
Vacuums per table
Key values
- pub2.cached_value (1) Main table vacuumed on database ctddev51
- 3 vacuums Total
Tuples removed per table
Key values
- pubc.log_query (187) Main table with removed tuples on database ctddev51
- 248 tuples Total removed
Pages removed per table
Key values
- pubc.log_query (6) Main table with removed pages on database ctddev51
- 6 pages Total removed
Autovacuum Activity
↑ Back to the top of the Autovacuum Activity tableDay Hour VACUUMs ANALYZEs Apr 18 00 0 0 01 0 0 02 0 0 03 0 0 04 0 0 05 0 2 06 0 0 07 0 0 08 0 0 09 0 0 10 0 0 11 1 1 12 0 0 13 2 2 14 0 0 15 0 0 16 0 0 17 0 0 18 0 0 19 0 0 20 0 0 21 0 0 22 0 0 23 0 0 - 0.09 sec Highest CPU-cost vacuum
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Locks
Locks by types
Key values
- unknown Main Lock Type
- 0 locks Total
Most frequent waiting queries (N)
Rank Count Total time Min time Max time Avg duration Query NO DATASET
Queries that waited the most
Rank Wait time Query NO DATASET
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Queries
Queries by type
Key values
- 21 Total read queries
- 9 Total write queries
Queries by database
Key values
- unknown Main database
- 26 Requests
- 40m42s (unknown)
- Main time consuming database
Queries by user
Key values
- unknown Main user
- 55 Requests
User Request type Count Duration pubc Total 2 7s629ms select 2 7s629ms pubeu Total 8 24s102ms cte 2 6s990ms select 6 17s111ms unknown Total 55 42m56s cte 10 19s463ms ddl 1 2s95ms insert 1 1s76ms select 43 42m33s Duration by user
Key values
- 42m56s (unknown) Main time consuming user
User Request type Count Duration pubc Total 2 7s629ms select 2 7s629ms pubeu Total 8 24s102ms cte 2 6s990ms select 6 17s111ms unknown Total 55 42m56s cte 10 19s463ms ddl 1 2s95ms insert 1 1s76ms select 43 42m33s Queries by host
Key values
- unknown Main host
- 65 Requests
- 43m27s (unknown)
- Main time consuming host
Queries by application
Key values
- unknown Main application
- 30 Requests
- 40m55s (unknown)
- Main time consuming application
Number of cancelled queries
Key values
- 0 per second Cancelled query Peak
- 2025-04-18 14:06:42 Date
Number of cancelled queries (5 minutes period)
NO DATASET
-
Top Queries
Histogram of query times
Key values
- 27 1000-10000ms duration
Slowest individual queries
Rank Duration Query 1 31m25s select maint_cached_value_refresh_data_metrics ();[ Date: 2025-04-18 13:49:41 ]
2 4m15s select maint_query_logs_archive ();[ Date: 2025-04-18 11:03:14 ]
3 4m13s select prune_log_query_archive ();[ Date: 2025-04-18 11:12:42 ]
4 4s404ms SELECT /* BatchChemGODAO */ 'ddt' "Input", sqi.chem_nm "ChemicalName", sqi.chem_acc_txt "ChemicalID", sqi.casRN "CasRN", sqi.gene_symbol "GeneSymbol", sqi.gene_acc_txt "GeneID", sqi.ontology_nm "Ontology", sqi.go_term_nm "GoTermName", sqi.go_acc_txt "GoTermID" FROM ( WITH sq AS ( SELECT DISTINCT c.id chem_id, c.nm chem_nm, c.acc_txt chem_acc_txt, c.secondary_nm casRN, c.nm_sort chem_nm_sort, gcr.gene_id, g.nm gene_symbol, g.acc_txt gene_acc_txt, g.nm_sort gene_symbol_sort FROM term c INNER JOIN gene_chem_reference gcr ON c.id = gcr.chem_id INNER JOIN term g ON gcr.gene_id = g.id WHERE (c.id = 1308127)) SELECT DISTINCT sq.chem_nm, sq.chem_acc_txt, sq.casRN, sq.gene_symbol, sq.gene_acc_txt, gt.nm go_term_nm, gt.acc_txt go_acc_txt, sq.chem_nm_sort, sq.gene_symbol_sort, gt.nm_sort, d.nm ontology_nm FROM sq INNER JOIN gene_go_annot gga ON sq.gene_id = gga.gene_id INNER JOIN dag_node gt ON gga.go_term_id = gt.object_id INNER JOIN dag d ON gt.dag_id = d.id WHERE gga.is_not = false AND (d.id = 5 OR d.id = 4) ORDER BY sq.chem_nm_sort, sq.gene_symbol_sort, d.nm, gt.nm_sort) sqi;[ Date: 2025-04-18 05:48:25 - Database: ctddev51 - User: pubeu - Bind query: yes ]
5 4s337ms select distinct /* ChemPhenotypesAssnsDAO */ associatedTerm.nm || '^' || o.cd || '^' || associatedTerm.nm_html || '^' || associatedTerm.acc_txt || '^' || associatedTerm.acc_db_cd as associatedTerm, associatedTerm.id associatedTermId, ptr.ixn_id ixnId, associatedTerm.object_type_id || '|' || associatedTerm.nm_sort associatedTermNmSort, COALESCE(associatedTerm.secondary_nm, '') casRN, phenotypeTerm.nm || '^' || 'go' || '^' || phenotypeTerm.nm_html || '^' || phenotypeTerm.acc_txt || '^' || phenotypeTerm.acc_db_cd as phenotype, phenotypeTerm.id phenotypeId, ( SELECT STRING_AGG(distinct taxonTerm.nm || '^' || 'taxon' || '^' || taxonTerm.nm_html || '^' || taxonTerm.acc_txt || '^' || taxonTerm.acc_db_cd || '^' || COALESCE(taxonTerm.secondary_nm, ''), '|')) as taxonTerms, ( SELECT STRING_AGG(distinct anatomyTerm.nm_html || '^' || anatomyTerm.acc_txt || '^' || ia.level_seq || '^' || anatomyTerm.acc_db_cd || '^' || anatomyTerm.nm, '|')) as anatomyTerms, COUNT(DISTINCT taxonTerm.nm) taxonCount, i.ixn_prose_html ixnProseHtml, i.ixn_prose_txt ixnProse, i.sort_txt ixnSort, ( SELECT STRING_AGG(distinct r.acc_txt, '|')) as references, COUNT(DISTINCT ptr.reference_id) refCount, pt.indirect_term_qty inferredCount, COUNT(*) OVER () fullRowCount from phenotype_term_reference ptr inner join phenotype_term pt on ptr.term_id = pt.term_id and ptr.phenotype_id = pt.phenotype_id inner join term associatedTerm on ptr.term_id = associatedTerm.id inner join term phenotypeTerm on ptr.phenotype_id = phenotypeTerm.id left outer join term taxonTerm on ptr.taxon_id = taxonTerm.id inner join reference r on ptr.reference_id = r.id inner join ixn i on ptr.ixn_id = i.id inner join object_type o on associatedTerm.object_type_id = o.id left outer join ixn_anatomy ia on ptr.ixn_id = ia.ixn_id left outer join term anatomyTerm on ia.anatomy_id = anatomyTerm.id where ptr.term_id IN ( select /* DBConstants.getDAGTermSQL */ distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id in ( select distinct id from term baseTerm where object_type_id = 2 and upper(baseTerm.nm) LIKE 'ACETYLCYSTEINE')) and ptr.term_object_type_id = 2 and ptr.phenotype_id IN ( select /* DBConstants.getDAGTermSQL */ distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id in ( select distinct id from term baseTerm where object_type_id = 5 and baseTerm.id in ( select object_id from db_link l where l.acc_txt = 'GO:0006979' AND l.type_cd = 'A' AND l.object_type_id = 5))) and i.id in ( select ixn_id from ixn_anatomy where anatomy_id IN ( select /* DBConstants.getDAGTermSQL */ distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id in ( select distinct id from term baseTerm where object_type_id = 10 and upper(baseTerm.nm) LIKE 'CARDIOVASCULAR SYSTEM'))) and taxonTerm.id in ( select /* DBConstants.getDAGTermSQL */ distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id in ( select distinct id from term baseTerm where object_type_id = 1 and baseTerm.id in ( select object_id from db_link l where l.acc_txt = '9605' AND l.type_cd = 'A' AND l.object_type_id = 1))) and i.id in ( select ixn_id from ixn_axn where action_type_nm = 'phenotype' and action_degree_type_nm in ('increases')) group by associatedTerm, associatedTermNmSort, phenotype, casRN, ixnId, ixnProseHtml, ixnProse, ixnSort, associatedTermId, phenotypeId, inferredCount ORDER BY associatedTermNmSort LIMIT 50;[ Date: 2025-04-18 05:48:49 - Bind query: yes ]
6 4s192ms SELECT /* CIQH.getIxnCacheQuery */ gcr.ixn_id, NULL, NULL, NULL FROM gene_chem_reference gcr WHERE /* CIQH.getIxnWhereCore */ gcr.gene_id = ANY (ARRAY (( SELECT /* IQH.getMasterDiseaseWhereEquals.Name.Gene */ gd.gene_id FROM term t INNER JOIN dag_path dp ON t.id = dp.ancestor_object_id INNER JOIN gene_disease gd ON dp.descendant_object_id = gd.disease_id WHERE UPPER(t.nm) LIKE 'ASTHMA' AND t.object_type_id = 3))) AND gcr.id IN ( SELECT gcra.gene_chem_reference_id FROM gene_chem_reference_axn gcra WHERE (gcra.action_degree_type_nm = 'increases'));[ Date: 2025-04-18 05:47:20 - Database: ctddev51 - User: pubeu - Bind query: yes ]
7 4s139ms WITH CTE AS ( SELECT *, ROW_NUMBER() OVER (PARTITION BY id ORDER BY ID ASC) AS RowNum FROM log_query_bots ) SELECT * FROM CTE WHERE RowNum > 1;[ Date: 2025-04-18 13:31:34 ]
8 4s71ms select distinct /* ChemPhenotypesAssnsDAO */ associatedTerm.nm || '^' || o.cd || '^' || associatedTerm.nm_html || '^' || associatedTerm.acc_txt || '^' || associatedTerm.acc_db_cd as associatedTerm, associatedTerm.id associatedTermId, ptr.ixn_id ixnId, associatedTerm.object_type_id || '|' || associatedTerm.nm_sort associatedTermNmSort, COALESCE(associatedTerm.secondary_nm, '') casRN, phenotypeTerm.nm || '^' || 'go' || '^' || phenotypeTerm.nm_html || '^' || phenotypeTerm.acc_txt || '^' || phenotypeTerm.acc_db_cd as phenotype, phenotypeTerm.id phenotypeId, ( SELECT STRING_AGG(distinct taxonTerm.nm || '^' || 'taxon' || '^' || taxonTerm.nm_html || '^' || taxonTerm.acc_txt || '^' || taxonTerm.acc_db_cd || '^' || COALESCE(taxonTerm.secondary_nm, ''), '|')) as taxonTerms, ( SELECT STRING_AGG(distinct anatomyTerm.nm_html || '^' || anatomyTerm.acc_txt || '^' || ia.level_seq || '^' || anatomyTerm.acc_db_cd || '^' || anatomyTerm.nm, '|')) as anatomyTerms, COUNT(DISTINCT taxonTerm.nm) taxonCount, i.ixn_prose_html ixnProseHtml, i.ixn_prose_txt ixnProse, i.sort_txt ixnSort, ( SELECT STRING_AGG(distinct r.acc_txt, '|')) as references, COUNT(DISTINCT ptr.reference_id) refCount, pt.indirect_term_qty inferredCount, COUNT(*) OVER () fullRowCount from phenotype_term_reference ptr inner join phenotype_term pt on ptr.term_id = pt.term_id and ptr.phenotype_id = pt.phenotype_id inner join term associatedTerm on ptr.term_id = associatedTerm.id inner join term phenotypeTerm on ptr.phenotype_id = phenotypeTerm.id left outer join term taxonTerm on ptr.taxon_id = taxonTerm.id inner join reference r on ptr.reference_id = r.id inner join ixn i on ptr.ixn_id = i.id inner join object_type o on associatedTerm.object_type_id = o.id left outer join ixn_anatomy ia on ptr.ixn_id = ia.ixn_id left outer join term anatomyTerm on ia.anatomy_id = anatomyTerm.id where ptr.term_id IN ( select /* DBConstants.getDAGTermSQL */ distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id in ( select distinct id from term baseTerm where object_type_id = 2 and upper(baseTerm.nm) LIKE 'ZINC')) and ptr.term_object_type_id = 2 and ptr.phenotype_id IN ( select /* DBConstants.getDAGTermSQL */ distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id in ( select distinct id from term baseTerm where object_type_id = 5 and baseTerm.id in ( select object_id from db_link l where l.acc_txt = 'GO:0006915' AND l.type_cd = 'A' AND l.object_type_id = 5))) and taxonTerm.id in ( select /* DBConstants.getDAGTermSQL */ distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id in ( select distinct id from term baseTerm where object_type_id = 1 and baseTerm.id in ( select object_id from db_link l where l.acc_txt = '9606' AND l.type_cd = 'A' AND l.object_type_id = 1))) and i.id in ( select ixn_id from ixn_axn where action_type_nm = 'phenotype' and action_degree_type_nm in ('increases')) group by associatedTerm, associatedTermNmSort, phenotype, casRN, ixnId, ixnProseHtml, ixnProse, ixnSort, associatedTermId, phenotypeId, inferredCount ORDER BY associatedTermNmSort LIMIT 50;[ Date: 2025-04-18 05:48:45 - Bind query: yes ]
9 4s20ms SELECT /* AdvancedGeneQueryDAO.getData */ g.id geneId, g.acc_txt acc, g.nm nm, g.nm nmHtml, g.secondary_nm secondaryNm, g.has_chems hasChems, g.has_diseases hasDiseases, g.has_exposures hasExposures, g.has_phenotypes hasPhenotypes, COUNT(*) OVER () fullRowCount FROM term g WHERE g.id IN ( SELECT gcr.gene_id FROM gene_chem_reference gcr WHERE /* CIQH.getIxnWhereCore */ gcr.gene_id = ANY (ARRAY (( SELECT /* IQH.getMasterDiseaseWhereEquals.Name.Gene */ gd.gene_id FROM term t INNER JOIN dag_path dp ON t.id = dp.ancestor_object_id INNER JOIN gene_disease gd ON dp.descendant_object_id = gd.disease_id WHERE UPPER(t.nm) LIKE 'ASTHMA' AND t.object_type_id = 3))) AND gcr.id IN ( SELECT gcra.gene_chem_reference_id FROM gene_chem_reference_axn gcra WHERE (gcra.action_degree_type_nm = 'increases'))) ORDER BY g.nm_sort, g.id LIMIT 50;[ Date: 2025-04-18 05:47:25 - Bind query: yes ]
10 3s590ms WITH recursive sub_node ( object_id, id, path, lvl ) AS ( SELECT n.object_id, n.id, ARRAY[n.nm_sort], 1 FROM dag_node n WHERE n.object_id = '597156' UNION ALL SELECT n.object_id, n.id, CAST(path || n.nm_sort AS varchar(600)[]), sn.lvl + 1 FROM dag_node n INNER JOIN sub_node sn ON (n.parent_id = sn.id)) SELECT /* TreeTermBasicsDAO.getDescendants */ DISTINCT t.nm priNm, t.nm_html priNmHtml, t.secondary_nm secondaryNm, t.acc_db_cd accDbCd, t.acc_txt termAcc, t.is_leaf isLeaf, t.has_chems hasChems, t.has_diseases hasDiseases, t.has_exposures hasExposures, t.has_genes hasGenes, sn.lvl, sn.path, MAX(sn.lvl) OVER () maxLvl, t.has_phenotypes hasPhenotypes FROM sub_node sn INNER JOIN term t ON sn.object_id = t.id WHERE sn.lvl <= 2 ORDER BY sn.path;[ Date: 2025-04-18 05:45:13 - Database: ctddev51 - User: pubeu - Bind query: yes ]
11 3s349ms SELECT /* AdvancedIxnQueryDAO.getData */ g.nm geneSymbol, g.id geneId, g.acc_txt geneAcc, g.acc_db_cd geneAccDbCd, c.nm chemNm, c.nm_html chemNmhtml, c.acc_txt chemAcc, c.secondary_nm casRN, c.id chemId, i.id ixnId, i.ixn_prose_txt ixnProse, i.ixn_prose_html ixnProseHtml, i.actions_txt ixnActions, COUNT(DISTINCT gcr.reference_id) refCount, COUNT(DISTINCT gcr.taxon_id) taxonCount, COUNT(*) OVER () fullRowCount FROM gene_chem_reference gcr INNER JOIN ixn i ON gcr.ixn_id = i.id INNER JOIN term g ON gcr.gene_id = g.id INNER JOIN term c ON gcr.chem_id = c.id WHERE /* CIQH.getIxnWhereCore */ gcr.gene_id = ANY (ARRAY (( SELECT /* IQH.getMasterPathwayWhereEquals.Name */ tp.term_id FROM term_pathway tp WHERE UPPER(tp.pathway_nm) LIKE 'METABOLISM' AND tp.object_type_id = 4))) AND gcr.id IN ( SELECT gcra.gene_chem_reference_id FROM gene_chem_reference_axn gcra WHERE (gcra.action_degree_type_nm = 'increases')) GROUP BY g.nm, g.nm_sort, g.acc_txt, g.acc_db_cd, g.id, c.nm, c.nm_html, c.nm_sort, c.acc_txt, c.secondary_nm, c.id, i.ixn_prose_txt, i.ixn_prose_html, i.sort_txt, i.actions_txt, i.id ORDER BY g.nm_sort, c.nm_sort, i.sort_txt LIMIT 50;[ Date: 2025-04-18 05:47:33 - Bind query: yes ]
12 2s39ms WITH CTE AS ( SELECT *, ROW_NUMBER() OVER (PARTITION BY id ORDER BY ID ASC) AS RowNum FROM log_query_bots ) SELECT count(*) FROM CTE WHERE RowNum < 2;[ Date: 2025-04-18 13:30:33 ]
13 1s965ms WITH CTE AS ( SELECT ID, ROW_NUMBER() OVER (PARTITION BY id ORDER BY ID ASC) AS RowNum FROM log_query_bots ) SELECT ID FROM CTE WHERE RowNum > 1;[ Date: 2025-04-18 12:51:23 ]
14 1s799ms -- Common Table Expression (CTE) to rank rows based on 'Name' WITH CTE AS ( SELECT ID, ROW_NUMBER() OVER (PARTITION BY id ORDER BY ID ASC) AS RowNum FROM log_query_bots ) SELECT count(*) FROM CTE WHERE RowNum < 2;[ Date: 2025-04-18 13:07:54 ]
15 1s782ms WITH CTE AS ( SELECT ID, ROW_NUMBER() OVER (PARTITION BY id ORDER BY ID ASC) AS RowNum FROM log_query_bots ) SELECT count(*) FROM CTE WHERE RowNum < 2;[ Date: 2025-04-18 13:07:23 ]
16 1s760ms WITH CTE AS ( SELECT ID, ROW_NUMBER() OVER (PARTITION BY id ORDER BY ID ASC) AS RowNum FROM log_query_bots) insert into test_cte ( SELECT ID FROM CTE WHERE RowNum > 1);[ Date: 2025-04-18 13:03:13 ]
17 1s666ms WITH CTE AS ( SELECT ID, ROW_NUMBER() OVER (PARTITION BY id ORDER BY ID ASC) AS RowNum FROM log_query_bots) -- Delete rows from the 'customers' table where the row number is greater than 1 --DELETE FROM log_query_bots SELECT ID FROM CTE WHERE RowNum > 1;[ Date: 2025-04-18 12:42:38 ]
18 1s638ms SELECT /* ReferenceGeneGeneIxnsDAO */ fg.nm fromGeneSymbol, fg.acc_txt fromGeneAcc, tg.nm toGeneSymbol, tg.acc_txt toGeneAcc, ft.nm fromTaxonNm, ft.secondary_nm fromTaxonCommonNm, ft.acc_txt fromTaxonAcc, tt.nm toTaxonNm, tt.secondary_nm toTaxonCommonNm, tt.acc_txt toTaxonAcc, ggr.experimental_sys_nm, ggr.experimental_sys_type, ( SELECT STRING_AGG(ggt.throughput_txt, ', ' ORDER BY ggt.throughput_txt) FROM gene_gene_ref_throughput ggt WHERE ggt.gene_gene_reference_id = ggr.id) throughput, COUNT(*) OVER () fullRowCount FROM gene_gene_reference ggr INNER JOIN term fg ON ggr.from_gene_id = fg.id INNER JOIN term tg ON ggr.to_gene_id = tg.id INNER JOIN term ft ON ggr.from_taxon_id = ft.id INNER JOIN term tt ON ggr.to_taxon_id = tt.id WHERE ggr.reference_id = '111363' ORDER BY fg.nm_sort, tg.nm_sort LIMIT 50;[ Date: 2025-04-18 05:48:06 - Bind query: yes ]
19 1s564ms SELECT /* AdvancedGeneQueryDAO.getData */ g.id geneId, g.acc_txt acc, g.nm nm, g.nm nmHtml, g.secondary_nm secondaryNm, g.has_chems hasChems, g.has_diseases hasDiseases, g.has_exposures hasExposures, g.has_phenotypes hasPhenotypes, COUNT(*) OVER () fullRowCount FROM term g WHERE g.id IN ( SELECT gcr.gene_id FROM gene_chem_reference gcr WHERE /* CIQH.getIxnWhereCore */ gcr.taxon_id = ANY (ARRAY ( SELECT /* CIQH.getIxnTaxonWhereEquals.Name */ dp.descendant_object_id FROM term t INNER JOIN dag_path dp ON t.id = dp.ancestor_object_id WHERE UPPER(t.nm) LIKE 'FELIS CATUS' AND t.object_type_id = 1)) AND gcr.id IN ( SELECT gcra.gene_chem_reference_id FROM gene_chem_reference_axn gcra WHERE (gcra.action_degree_type_nm = 'increases'))) ORDER BY g.nm_sort, g.id LIMIT 50;[ Date: 2025-04-18 05:47:28 - Bind query: yes ]
20 1s534ms SELECT /* ReferenceGeneGeneIxnsDAO */ fg.nm fromGeneSymbol, fg.acc_txt fromGeneAcc, tg.nm toGeneSymbol, tg.acc_txt toGeneAcc, ft.nm fromTaxonNm, ft.secondary_nm fromTaxonCommonNm, ft.acc_txt fromTaxonAcc, tt.nm toTaxonNm, tt.secondary_nm toTaxonCommonNm, tt.acc_txt toTaxonAcc, ggr.experimental_sys_nm, ggr.experimental_sys_type, ( SELECT STRING_AGG(ggt.throughput_txt, ', ' ORDER BY ggt.throughput_txt) FROM gene_gene_ref_throughput ggt WHERE ggt.gene_gene_reference_id = ggr.id) throughput, COUNT(*) OVER () fullRowCount FROM gene_gene_reference ggr INNER JOIN term fg ON ggr.from_gene_id = fg.id INNER JOIN term tg ON ggr.to_gene_id = tg.id INNER JOIN term ft ON ggr.from_taxon_id = ft.id INNER JOIN term tt ON ggr.to_taxon_id = tt.id WHERE ggr.reference_id = '111363' ORDER BY fg.nm_sort, tg.nm_sort LIMIT 50;[ Date: 2025-04-18 05:48:04 - Bind query: yes ]
Time consuming queries (N)
Rank Total duration Times executed Min duration Max duration Avg duration Query 1 31m25s 1 31m25s 31m25s 31m25s select maint_cached_value_refresh_data_metrics ();Times Reported Time consuming queries #1
Day Hour Count Duration Avg duration Apr 18 13 1 31m25s 31m25s -
select maint_cached_value_refresh_data_metrics ();
Date: 2025-04-18 13:49:41 Duration: 31m25s
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select maint_cached_value_refresh_data_metrics ();
Date: 2025-04-18 13:12:23 Duration: 0ms
2 4m15s 1 4m15s 4m15s 4m15s select maint_query_logs_archive ();Times Reported Time consuming queries #2
Day Hour Count Duration Avg duration Apr 18 11 1 4m15s 4m15s -
select maint_query_logs_archive ();
Date: 2025-04-18 11:03:14 Duration: 4m15s
3 4m13s 1 4m13s 4m13s 4m13s select prune_log_query_archive ();Times Reported Time consuming queries #3
Day Hour Count Duration Avg duration Apr 18 11 1 4m13s 4m13s -
select prune_log_query_archive ();
Date: 2025-04-18 11:12:42 Duration: 4m13s
4 4s693ms 2 1s103ms 3s590ms 2s346ms with recursive sub_node ( object_id, id, path, lvl ) as ( select n.object_id, n.id, array[n.nm_sort], ? from dag_node n where n.object_id = ? union all select n.object_id, n.id, cast(path || n.nm_sort as varchar(?)[]), sn.lvl + ? from dag_node n inner join sub_node sn on (n.parent_id = sn.id)) select distinct t.nm prinm, t.nm_html prinmhtml, t.secondary_nm secondarynm, t.acc_db_cd accdbcd, t.acc_txt termacc, t.is_leaf isleaf, t.has_chems haschems, t.has_diseases hasdiseases, t.has_exposures hasexposures, t.has_genes hasgenes, sn.lvl, sn.path, max(sn.lvl) over () maxlvl, t.has_phenotypes hasphenotypes from sub_node sn inner join term t on sn.object_id = t.id where sn.lvl <= ? order by sn.path;Times Reported Time consuming queries #4
Day Hour Count Duration Avg duration Apr 18 05 2 4s693ms 2s346ms [ User: pubeu - Total duration: 3s590ms - Times executed: 1 ]
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WITH recursive sub_node ( object_id, id, path, lvl ) AS ( SELECT n.object_id, n.id, ARRAY[n.nm_sort], 1 FROM dag_node n WHERE n.object_id = '597156' UNION ALL SELECT n.object_id, n.id, CAST(path || n.nm_sort AS varchar(600)[]), sn.lvl + 1 FROM dag_node n INNER JOIN sub_node sn ON (n.parent_id = sn.id)) SELECT /* TreeTermBasicsDAO.getDescendants */ DISTINCT t.nm priNm, t.nm_html priNmHtml, t.secondary_nm secondaryNm, t.acc_db_cd accDbCd, t.acc_txt termAcc, t.is_leaf isLeaf, t.has_chems hasChems, t.has_diseases hasDiseases, t.has_exposures hasExposures, t.has_genes hasGenes, sn.lvl, sn.path, MAX(sn.lvl) OVER () maxLvl, t.has_phenotypes hasPhenotypes FROM sub_node sn INNER JOIN term t ON sn.object_id = t.id WHERE sn.lvl <= 2 ORDER BY sn.path;
Date: 2025-04-18 05:45:13 Duration: 3s590ms Database: ctddev51 User: pubeu Bind query: yes
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WITH recursive sub_node ( object_id, id, path, lvl ) AS ( SELECT n.object_id, n.id, ARRAY[n.nm_sort], 1 FROM dag_node n WHERE n.object_id = '1449802' UNION ALL SELECT n.object_id, n.id, CAST(path || n.nm_sort AS varchar(600)[]), sn.lvl + 1 FROM dag_node n INNER JOIN sub_node sn ON (n.parent_id = sn.id)) SELECT /* TreeTermBasicsDAO.getDescendants */ DISTINCT t.nm priNm, t.nm_html priNmHtml, t.secondary_nm secondaryNm, t.acc_db_cd accDbCd, t.acc_txt termAcc, t.is_leaf isLeaf, t.has_chems hasChems, t.has_diseases hasDiseases, t.has_exposures hasExposures, t.has_genes hasGenes, sn.lvl, sn.path, MAX(sn.lvl) OVER () maxLvl, t.has_phenotypes hasPhenotypes FROM sub_node sn INNER JOIN term t ON sn.object_id = t.id WHERE sn.lvl <= 2 ORDER BY sn.path;
Date: 2025-04-18 05:45:14 Duration: 1s103ms Bind query: yes
5 4s404ms 1 4s404ms 4s404ms 4s404ms select ? "Input", sqi.chem_nm "ChemicalName", sqi.chem_acc_txt "ChemicalID", sqi.casrn "CasRN", sqi.gene_symbol "GeneSymbol", sqi.gene_acc_txt "GeneID", sqi.ontology_nm "Ontology", sqi.go_term_nm "GoTermName", sqi.go_acc_txt "GoTermID" from ( with sq as ( select distinct c.id chem_id, c.nm chem_nm, c.acc_txt chem_acc_txt, c.secondary_nm casrn, c.nm_sort chem_nm_sort, gcr.gene_id, g.nm gene_symbol, g.acc_txt gene_acc_txt, g.nm_sort gene_symbol_sort from term c inner join gene_chem_reference gcr on c.id = gcr.chem_id inner join term g on gcr.gene_id = g.id where (c.id = ?)) select distinct sq.chem_nm, sq.chem_acc_txt, sq.casrn, sq.gene_symbol, sq.gene_acc_txt, gt.nm go_term_nm, gt.acc_txt go_acc_txt, sq.chem_nm_sort, sq.gene_symbol_sort, gt.nm_sort, d.nm ontology_nm from sq inner join gene_go_annot gga on sq.gene_id = gga.gene_id inner join dag_node gt on gga.go_term_id = gt.object_id inner join dag d on gt.dag_id = d.id where gga.is_not = false and (d.id = ? or d.id = ?) order by sq.chem_nm_sort, sq.gene_symbol_sort, d.nm, gt.nm_sort) sqi;Times Reported Time consuming queries #5
Day Hour Count Duration Avg duration Apr 18 05 1 4s404ms 4s404ms [ User: pubeu - Total duration: 4s404ms - Times executed: 1 ]
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SELECT /* BatchChemGODAO */ 'ddt' "Input", sqi.chem_nm "ChemicalName", sqi.chem_acc_txt "ChemicalID", sqi.casRN "CasRN", sqi.gene_symbol "GeneSymbol", sqi.gene_acc_txt "GeneID", sqi.ontology_nm "Ontology", sqi.go_term_nm "GoTermName", sqi.go_acc_txt "GoTermID" FROM ( WITH sq AS ( SELECT DISTINCT c.id chem_id, c.nm chem_nm, c.acc_txt chem_acc_txt, c.secondary_nm casRN, c.nm_sort chem_nm_sort, gcr.gene_id, g.nm gene_symbol, g.acc_txt gene_acc_txt, g.nm_sort gene_symbol_sort FROM term c INNER JOIN gene_chem_reference gcr ON c.id = gcr.chem_id INNER JOIN term g ON gcr.gene_id = g.id WHERE (c.id = 1308127)) SELECT DISTINCT sq.chem_nm, sq.chem_acc_txt, sq.casRN, sq.gene_symbol, sq.gene_acc_txt, gt.nm go_term_nm, gt.acc_txt go_acc_txt, sq.chem_nm_sort, sq.gene_symbol_sort, gt.nm_sort, d.nm ontology_nm FROM sq INNER JOIN gene_go_annot gga ON sq.gene_id = gga.gene_id INNER JOIN dag_node gt ON gga.go_term_id = gt.object_id INNER JOIN dag d ON gt.dag_id = d.id WHERE gga.is_not = false AND (d.id = 5 OR d.id = 4) ORDER BY sq.chem_nm_sort, sq.gene_symbol_sort, d.nm, gt.nm_sort) sqi;
Date: 2025-04-18 05:48:25 Duration: 4s404ms Database: ctddev51 User: pubeu Bind query: yes
6 4s337ms 1 4s337ms 4s337ms 4s337ms select distinct associatedterm.nm || ? || o.cd || ? || associatedterm.nm_html || ? || associatedterm.acc_txt || ? || associatedterm.acc_db_cd as associatedterm, associatedterm.id associatedtermid, ptr.ixn_id ixnid, associatedterm.object_type_id || ? || associatedterm.nm_sort associatedtermnmsort, coalesce(associatedterm.secondary_nm, ?) casrn, phenotypeterm.nm || ? || ? || ? || phenotypeterm.nm_html || ? || phenotypeterm.acc_txt || ? || phenotypeterm.acc_db_cd as phenotype, phenotypeterm.id phenotypeid, ( select string_agg(distinct taxonterm.nm || ? || ? || ? || taxonterm.nm_html || ? || taxonterm.acc_txt || ? || taxonterm.acc_db_cd || ? || coalesce(taxonterm.secondary_nm, ?), ?)) as taxonterms, ( select string_agg(distinct anatomyterm.nm_html || ? || anatomyterm.acc_txt || ? || ia.level_seq || ? || anatomyterm.acc_db_cd || ? || anatomyterm.nm, ?)) as anatomyterms, count(distinct taxonterm.nm) taxoncount, i.ixn_prose_html ixnprosehtml, i.ixn_prose_txt ixnprose, i.sort_txt ixnsort, ( select string_agg(distinct r.acc_txt, ?)) as references, count(distinct ptr.reference_id) refcount, pt.indirect_term_qty inferredcount, count(*) over () fullrowcount from phenotype_term_reference ptr inner join phenotype_term pt on ptr.term_id = pt.term_id and ptr.phenotype_id = pt.phenotype_id inner join term associatedterm on ptr.term_id = associatedterm.id inner join term phenotypeterm on ptr.phenotype_id = phenotypeterm.id left outer join term taxonterm on ptr.taxon_id = taxonterm.id inner join reference r on ptr.reference_id = r.id inner join ixn i on ptr.ixn_id = i.id inner join object_type o on associatedterm.object_type_id = o.id left outer join ixn_anatomy ia on ptr.ixn_id = ia.ixn_id left outer join term anatomyterm on ia.anatomy_id = anatomyterm.id where ptr.term_id in ( select distinct dp.descendant_object_id from dag_path dp where dp.ancestor_object_id in ( select distinct id from term baseterm where object_type_id = ? and upper(baseterm.nm) like ?)) and ptr.term_object_type_id = ? and ptr.phenotype_id in ( select distinct dp.descendant_object_id from dag_path dp where dp.ancestor_object_id in ( select distinct id from term baseterm where object_type_id = ? and baseterm.id in ( select object_id from db_link l where l.acc_txt = ? and l.type_cd = ? and l.object_type_id = ?))) and i.id in ( select ixn_id from ixn_anatomy where anatomy_id in ( select distinct dp.descendant_object_id from dag_path dp where dp.ancestor_object_id in ( select distinct id from term baseterm where object_type_id = ? and upper(baseterm.nm) like ?))) and taxonterm.id in ( select distinct dp.descendant_object_id from dag_path dp where dp.ancestor_object_id in ( select distinct id from term baseterm where object_type_id = ? and baseterm.id in ( select object_id from db_link l where l.acc_txt = ? and l.type_cd = ? and l.object_type_id = ?))) and i.id in ( select ixn_id from ixn_axn where action_type_nm = ? and action_degree_type_nm in (...)) group by associatedterm, associatedtermnmsort, phenotype, casrn, ixnid, ixnprosehtml, ixnprose, ixnsort, associatedtermid, phenotypeid, inferredcount order by associatedtermnmsort limit ?;Times Reported Time consuming queries #6
Day Hour Count Duration Avg duration Apr 18 05 1 4s337ms 4s337ms -
select distinct /* ChemPhenotypesAssnsDAO */ associatedTerm.nm || '^' || o.cd || '^' || associatedTerm.nm_html || '^' || associatedTerm.acc_txt || '^' || associatedTerm.acc_db_cd as associatedTerm, associatedTerm.id associatedTermId, ptr.ixn_id ixnId, associatedTerm.object_type_id || '|' || associatedTerm.nm_sort associatedTermNmSort, COALESCE(associatedTerm.secondary_nm, '') casRN, phenotypeTerm.nm || '^' || 'go' || '^' || phenotypeTerm.nm_html || '^' || phenotypeTerm.acc_txt || '^' || phenotypeTerm.acc_db_cd as phenotype, phenotypeTerm.id phenotypeId, ( SELECT STRING_AGG(distinct taxonTerm.nm || '^' || 'taxon' || '^' || taxonTerm.nm_html || '^' || taxonTerm.acc_txt || '^' || taxonTerm.acc_db_cd || '^' || COALESCE(taxonTerm.secondary_nm, ''), '|')) as taxonTerms, ( SELECT STRING_AGG(distinct anatomyTerm.nm_html || '^' || anatomyTerm.acc_txt || '^' || ia.level_seq || '^' || anatomyTerm.acc_db_cd || '^' || anatomyTerm.nm, '|')) as anatomyTerms, COUNT(DISTINCT taxonTerm.nm) taxonCount, i.ixn_prose_html ixnProseHtml, i.ixn_prose_txt ixnProse, i.sort_txt ixnSort, ( SELECT STRING_AGG(distinct r.acc_txt, '|')) as references, COUNT(DISTINCT ptr.reference_id) refCount, pt.indirect_term_qty inferredCount, COUNT(*) OVER () fullRowCount from phenotype_term_reference ptr inner join phenotype_term pt on ptr.term_id = pt.term_id and ptr.phenotype_id = pt.phenotype_id inner join term associatedTerm on ptr.term_id = associatedTerm.id inner join term phenotypeTerm on ptr.phenotype_id = phenotypeTerm.id left outer join term taxonTerm on ptr.taxon_id = taxonTerm.id inner join reference r on ptr.reference_id = r.id inner join ixn i on ptr.ixn_id = i.id inner join object_type o on associatedTerm.object_type_id = o.id left outer join ixn_anatomy ia on ptr.ixn_id = ia.ixn_id left outer join term anatomyTerm on ia.anatomy_id = anatomyTerm.id where ptr.term_id IN ( select /* DBConstants.getDAGTermSQL */ distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id in ( select distinct id from term baseTerm where object_type_id = 2 and upper(baseTerm.nm) LIKE 'ACETYLCYSTEINE')) and ptr.term_object_type_id = 2 and ptr.phenotype_id IN ( select /* DBConstants.getDAGTermSQL */ distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id in ( select distinct id from term baseTerm where object_type_id = 5 and baseTerm.id in ( select object_id from db_link l where l.acc_txt = 'GO:0006979' AND l.type_cd = 'A' AND l.object_type_id = 5))) and i.id in ( select ixn_id from ixn_anatomy where anatomy_id IN ( select /* DBConstants.getDAGTermSQL */ distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id in ( select distinct id from term baseTerm where object_type_id = 10 and upper(baseTerm.nm) LIKE 'CARDIOVASCULAR SYSTEM'))) and taxonTerm.id in ( select /* DBConstants.getDAGTermSQL */ distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id in ( select distinct id from term baseTerm where object_type_id = 1 and baseTerm.id in ( select object_id from db_link l where l.acc_txt = '9605' AND l.type_cd = 'A' AND l.object_type_id = 1))) and i.id in ( select ixn_id from ixn_axn where action_type_nm = 'phenotype' and action_degree_type_nm in ('increases')) group by associatedTerm, associatedTermNmSort, phenotype, casRN, ixnId, ixnProseHtml, ixnProse, ixnSort, associatedTermId, phenotypeId, inferredCount ORDER BY associatedTermNmSort LIMIT 50;
Date: 2025-04-18 05:48:49 Duration: 4s337ms Bind query: yes
7 4s192ms 1 4s192ms 4s192ms 4s192ms select gcr.ixn_id, null, null, null from gene_chem_reference gcr where gcr.gene_id = any (array (( select gd.gene_id from term t inner join dag_path dp on t.id = dp.ancestor_object_id inner join gene_disease gd on dp.descendant_object_id = gd.disease_id where upper(t.nm) like ? and t.object_type_id = ?))) and gcr.id in ( select gcra.gene_chem_reference_id from gene_chem_reference_axn gcra where (gcra.action_degree_type_nm = ?));Times Reported Time consuming queries #7
Day Hour Count Duration Avg duration Apr 18 05 1 4s192ms 4s192ms [ User: pubeu - Total duration: 4s192ms - Times executed: 1 ]
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SELECT /* CIQH.getIxnCacheQuery */ gcr.ixn_id, NULL, NULL, NULL FROM gene_chem_reference gcr WHERE /* CIQH.getIxnWhereCore */ gcr.gene_id = ANY (ARRAY (( SELECT /* IQH.getMasterDiseaseWhereEquals.Name.Gene */ gd.gene_id FROM term t INNER JOIN dag_path dp ON t.id = dp.ancestor_object_id INNER JOIN gene_disease gd ON dp.descendant_object_id = gd.disease_id WHERE UPPER(t.nm) LIKE 'ASTHMA' AND t.object_type_id = 3))) AND gcr.id IN ( SELECT gcra.gene_chem_reference_id FROM gene_chem_reference_axn gcra WHERE (gcra.action_degree_type_nm = 'increases'));
Date: 2025-04-18 05:47:20 Duration: 4s192ms Database: ctddev51 User: pubeu Bind query: yes
8 4s139ms 1 4s139ms 4s139ms 4s139ms with cte as ( select *, row_number() over (partition by id order by id asc) as rownum from log_query_bots ) select * from cte where rownum > ?;Times Reported Time consuming queries #8
Day Hour Count Duration Avg duration Apr 18 13 1 4s139ms 4s139ms -
WITH CTE AS ( SELECT *, ROW_NUMBER() OVER (PARTITION BY id ORDER BY ID ASC) AS RowNum FROM log_query_bots ) SELECT * FROM CTE WHERE RowNum > 1;
Date: 2025-04-18 13:31:34 Duration: 4s139ms
9 4s71ms 1 4s71ms 4s71ms 4s71ms select distinct associatedterm.nm || ? || o.cd || ? || associatedterm.nm_html || ? || associatedterm.acc_txt || ? || associatedterm.acc_db_cd as associatedterm, associatedterm.id associatedtermid, ptr.ixn_id ixnid, associatedterm.object_type_id || ? || associatedterm.nm_sort associatedtermnmsort, coalesce(associatedterm.secondary_nm, ?) casrn, phenotypeterm.nm || ? || ? || ? || phenotypeterm.nm_html || ? || phenotypeterm.acc_txt || ? || phenotypeterm.acc_db_cd as phenotype, phenotypeterm.id phenotypeid, ( select string_agg(distinct taxonterm.nm || ? || ? || ? || taxonterm.nm_html || ? || taxonterm.acc_txt || ? || taxonterm.acc_db_cd || ? || coalesce(taxonterm.secondary_nm, ?), ?)) as taxonterms, ( select string_agg(distinct anatomyterm.nm_html || ? || anatomyterm.acc_txt || ? || ia.level_seq || ? || anatomyterm.acc_db_cd || ? || anatomyterm.nm, ?)) as anatomyterms, count(distinct taxonterm.nm) taxoncount, i.ixn_prose_html ixnprosehtml, i.ixn_prose_txt ixnprose, i.sort_txt ixnsort, ( select string_agg(distinct r.acc_txt, ?)) as references, count(distinct ptr.reference_id) refcount, pt.indirect_term_qty inferredcount, count(*) over () fullrowcount from phenotype_term_reference ptr inner join phenotype_term pt on ptr.term_id = pt.term_id and ptr.phenotype_id = pt.phenotype_id inner join term associatedterm on ptr.term_id = associatedterm.id inner join term phenotypeterm on ptr.phenotype_id = phenotypeterm.id left outer join term taxonterm on ptr.taxon_id = taxonterm.id inner join reference r on ptr.reference_id = r.id inner join ixn i on ptr.ixn_id = i.id inner join object_type o on associatedterm.object_type_id = o.id left outer join ixn_anatomy ia on ptr.ixn_id = ia.ixn_id left outer join term anatomyterm on ia.anatomy_id = anatomyterm.id where ptr.term_id in ( select distinct dp.descendant_object_id from dag_path dp where dp.ancestor_object_id in ( select distinct id from term baseterm where object_type_id = ? and upper(baseterm.nm) like ?)) and ptr.term_object_type_id = ? and ptr.phenotype_id in ( select distinct dp.descendant_object_id from dag_path dp where dp.ancestor_object_id in ( select distinct id from term baseterm where object_type_id = ? and baseterm.id in ( select object_id from db_link l where l.acc_txt = ? and l.type_cd = ? and l.object_type_id = ?))) and taxonterm.id in ( select distinct dp.descendant_object_id from dag_path dp where dp.ancestor_object_id in ( select distinct id from term baseterm where object_type_id = ? and baseterm.id in ( select object_id from db_link l where l.acc_txt = ? and l.type_cd = ? and l.object_type_id = ?))) and i.id in ( select ixn_id from ixn_axn where action_type_nm = ? and action_degree_type_nm in (...)) group by associatedterm, associatedtermnmsort, phenotype, casrn, ixnid, ixnprosehtml, ixnprose, ixnsort, associatedtermid, phenotypeid, inferredcount order by associatedtermnmsort limit ?;Times Reported Time consuming queries #9
Day Hour Count Duration Avg duration Apr 18 05 1 4s71ms 4s71ms -
select distinct /* ChemPhenotypesAssnsDAO */ associatedTerm.nm || '^' || o.cd || '^' || associatedTerm.nm_html || '^' || associatedTerm.acc_txt || '^' || associatedTerm.acc_db_cd as associatedTerm, associatedTerm.id associatedTermId, ptr.ixn_id ixnId, associatedTerm.object_type_id || '|' || associatedTerm.nm_sort associatedTermNmSort, COALESCE(associatedTerm.secondary_nm, '') casRN, phenotypeTerm.nm || '^' || 'go' || '^' || phenotypeTerm.nm_html || '^' || phenotypeTerm.acc_txt || '^' || phenotypeTerm.acc_db_cd as phenotype, phenotypeTerm.id phenotypeId, ( SELECT STRING_AGG(distinct taxonTerm.nm || '^' || 'taxon' || '^' || taxonTerm.nm_html || '^' || taxonTerm.acc_txt || '^' || taxonTerm.acc_db_cd || '^' || COALESCE(taxonTerm.secondary_nm, ''), '|')) as taxonTerms, ( SELECT STRING_AGG(distinct anatomyTerm.nm_html || '^' || anatomyTerm.acc_txt || '^' || ia.level_seq || '^' || anatomyTerm.acc_db_cd || '^' || anatomyTerm.nm, '|')) as anatomyTerms, COUNT(DISTINCT taxonTerm.nm) taxonCount, i.ixn_prose_html ixnProseHtml, i.ixn_prose_txt ixnProse, i.sort_txt ixnSort, ( SELECT STRING_AGG(distinct r.acc_txt, '|')) as references, COUNT(DISTINCT ptr.reference_id) refCount, pt.indirect_term_qty inferredCount, COUNT(*) OVER () fullRowCount from phenotype_term_reference ptr inner join phenotype_term pt on ptr.term_id = pt.term_id and ptr.phenotype_id = pt.phenotype_id inner join term associatedTerm on ptr.term_id = associatedTerm.id inner join term phenotypeTerm on ptr.phenotype_id = phenotypeTerm.id left outer join term taxonTerm on ptr.taxon_id = taxonTerm.id inner join reference r on ptr.reference_id = r.id inner join ixn i on ptr.ixn_id = i.id inner join object_type o on associatedTerm.object_type_id = o.id left outer join ixn_anatomy ia on ptr.ixn_id = ia.ixn_id left outer join term anatomyTerm on ia.anatomy_id = anatomyTerm.id where ptr.term_id IN ( select /* DBConstants.getDAGTermSQL */ distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id in ( select distinct id from term baseTerm where object_type_id = 2 and upper(baseTerm.nm) LIKE 'ZINC')) and ptr.term_object_type_id = 2 and ptr.phenotype_id IN ( select /* DBConstants.getDAGTermSQL */ distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id in ( select distinct id from term baseTerm where object_type_id = 5 and baseTerm.id in ( select object_id from db_link l where l.acc_txt = 'GO:0006915' AND l.type_cd = 'A' AND l.object_type_id = 5))) and taxonTerm.id in ( select /* DBConstants.getDAGTermSQL */ distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id in ( select distinct id from term baseTerm where object_type_id = 1 and baseTerm.id in ( select object_id from db_link l where l.acc_txt = '9606' AND l.type_cd = 'A' AND l.object_type_id = 1))) and i.id in ( select ixn_id from ixn_axn where action_type_nm = 'phenotype' and action_degree_type_nm in ('increases')) group by associatedTerm, associatedTermNmSort, phenotype, casRN, ixnId, ixnProseHtml, ixnProse, ixnSort, associatedTermId, phenotypeId, inferredCount ORDER BY associatedTermNmSort LIMIT 50;
Date: 2025-04-18 05:48:45 Duration: 4s71ms Bind query: yes
10 4s20ms 1 4s20ms 4s20ms 4s20ms select g.id geneid, g.acc_txt acc, g.nm nm, g.nm nmhtml, g.secondary_nm secondarynm, g.has_chems haschems, g.has_diseases hasdiseases, g.has_exposures hasexposures, g.has_phenotypes hasphenotypes, count(*) over () fullrowcount from term g where g.id in ( select gcr.gene_id from gene_chem_reference gcr where gcr.gene_id = any (array (( select gd.gene_id from term t inner join dag_path dp on t.id = dp.ancestor_object_id inner join gene_disease gd on dp.descendant_object_id = gd.disease_id where upper(t.nm) like ? and t.object_type_id = ?))) and gcr.id in ( select gcra.gene_chem_reference_id from gene_chem_reference_axn gcra where (gcra.action_degree_type_nm = ?))) order by g.nm_sort, g.id limit ?;Times Reported Time consuming queries #10
Day Hour Count Duration Avg duration Apr 18 05 1 4s20ms 4s20ms -
SELECT /* AdvancedGeneQueryDAO.getData */ g.id geneId, g.acc_txt acc, g.nm nm, g.nm nmHtml, g.secondary_nm secondaryNm, g.has_chems hasChems, g.has_diseases hasDiseases, g.has_exposures hasExposures, g.has_phenotypes hasPhenotypes, COUNT(*) OVER () fullRowCount FROM term g WHERE g.id IN ( SELECT gcr.gene_id FROM gene_chem_reference gcr WHERE /* CIQH.getIxnWhereCore */ gcr.gene_id = ANY (ARRAY (( SELECT /* IQH.getMasterDiseaseWhereEquals.Name.Gene */ gd.gene_id FROM term t INNER JOIN dag_path dp ON t.id = dp.ancestor_object_id INNER JOIN gene_disease gd ON dp.descendant_object_id = gd.disease_id WHERE UPPER(t.nm) LIKE 'ASTHMA' AND t.object_type_id = 3))) AND gcr.id IN ( SELECT gcra.gene_chem_reference_id FROM gene_chem_reference_axn gcra WHERE (gcra.action_degree_type_nm = 'increases'))) ORDER BY g.nm_sort, g.id LIMIT 50;
Date: 2025-04-18 05:47:25 Duration: 4s20ms Bind query: yes
11 3s631ms 2 1s666ms 1s965ms 1s815ms with cte as ( select id, row_number() over (partition by id order by id asc) as rownum from log_query_bots ) select id from cte where rownum > ?;Times Reported Time consuming queries #11
Day Hour Count Duration Avg duration Apr 18 12 2 3s631ms 1s815ms -
WITH CTE AS ( SELECT ID, ROW_NUMBER() OVER (PARTITION BY id ORDER BY ID ASC) AS RowNum FROM log_query_bots ) SELECT ID FROM CTE WHERE RowNum > 1;
Date: 2025-04-18 12:51:23 Duration: 1s965ms
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WITH CTE AS ( SELECT ID, ROW_NUMBER() OVER (PARTITION BY id ORDER BY ID ASC) AS RowNum FROM log_query_bots) -- Delete rows from the 'customers' table where the row number is greater than 1 --DELETE FROM log_query_bots SELECT ID FROM CTE WHERE RowNum > 1;
Date: 2025-04-18 12:42:38 Duration: 1s666ms
12 3s582ms 2 1s782ms 1s799ms 1s791ms with cte as ( select id, row_number() over (partition by id order by id asc) as rownum from log_query_bots ) select count(*) from cte where rownum < ?;Times Reported Time consuming queries #12
Day Hour Count Duration Avg duration Apr 18 13 2 3s582ms 1s791ms -
-- Common Table Expression (CTE) to rank rows based on 'Name' WITH CTE AS ( SELECT ID, ROW_NUMBER() OVER (PARTITION BY id ORDER BY ID ASC) AS RowNum FROM log_query_bots ) SELECT count(*) FROM CTE WHERE RowNum < 2;
Date: 2025-04-18 13:07:54 Duration: 1s799ms
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WITH CTE AS ( SELECT ID, ROW_NUMBER() OVER (PARTITION BY id ORDER BY ID ASC) AS RowNum FROM log_query_bots ) SELECT count(*) FROM CTE WHERE RowNum < 2;
Date: 2025-04-18 13:07:23 Duration: 1s782ms
13 3s349ms 1 3s349ms 3s349ms 3s349ms select g.nm genesymbol, g.id geneid, g.acc_txt geneacc, g.acc_db_cd geneaccdbcd, c.nm chemnm, c.nm_html chemnmhtml, c.acc_txt chemacc, c.secondary_nm casrn, c.id chemid, i.id ixnid, i.ixn_prose_txt ixnprose, i.ixn_prose_html ixnprosehtml, i.actions_txt ixnactions, count(distinct gcr.reference_id) refcount, count(distinct gcr.taxon_id) taxoncount, count(*) over () fullrowcount from gene_chem_reference gcr inner join ixn i on gcr.ixn_id = i.id inner join term g on gcr.gene_id = g.id inner join term c on gcr.chem_id = c.id where gcr.gene_id = any (array (( select tp.term_id from term_pathway tp where upper(tp.pathway_nm) like ? and tp.object_type_id = ?))) and gcr.id in ( select gcra.gene_chem_reference_id from gene_chem_reference_axn gcra where (gcra.action_degree_type_nm = ?)) group by g.nm, g.nm_sort, g.acc_txt, g.acc_db_cd, g.id, c.nm, c.nm_html, c.nm_sort, c.acc_txt, c.secondary_nm, c.id, i.ixn_prose_txt, i.ixn_prose_html, i.sort_txt, i.actions_txt, i.id order by g.nm_sort, c.nm_sort, i.sort_txt limit ?;Times Reported Time consuming queries #13
Day Hour Count Duration Avg duration Apr 18 05 1 3s349ms 3s349ms -
SELECT /* AdvancedIxnQueryDAO.getData */ g.nm geneSymbol, g.id geneId, g.acc_txt geneAcc, g.acc_db_cd geneAccDbCd, c.nm chemNm, c.nm_html chemNmhtml, c.acc_txt chemAcc, c.secondary_nm casRN, c.id chemId, i.id ixnId, i.ixn_prose_txt ixnProse, i.ixn_prose_html ixnProseHtml, i.actions_txt ixnActions, COUNT(DISTINCT gcr.reference_id) refCount, COUNT(DISTINCT gcr.taxon_id) taxonCount, COUNT(*) OVER () fullRowCount FROM gene_chem_reference gcr INNER JOIN ixn i ON gcr.ixn_id = i.id INNER JOIN term g ON gcr.gene_id = g.id INNER JOIN term c ON gcr.chem_id = c.id WHERE /* CIQH.getIxnWhereCore */ gcr.gene_id = ANY (ARRAY (( SELECT /* IQH.getMasterPathwayWhereEquals.Name */ tp.term_id FROM term_pathway tp WHERE UPPER(tp.pathway_nm) LIKE 'METABOLISM' AND tp.object_type_id = 4))) AND gcr.id IN ( SELECT gcra.gene_chem_reference_id FROM gene_chem_reference_axn gcra WHERE (gcra.action_degree_type_nm = 'increases')) GROUP BY g.nm, g.nm_sort, g.acc_txt, g.acc_db_cd, g.id, c.nm, c.nm_html, c.nm_sort, c.acc_txt, c.secondary_nm, c.id, i.ixn_prose_txt, i.ixn_prose_html, i.sort_txt, i.actions_txt, i.id ORDER BY g.nm_sort, c.nm_sort, i.sort_txt LIMIT 50;
Date: 2025-04-18 05:47:33 Duration: 3s349ms Bind query: yes
14 3s172ms 2 1s534ms 1s638ms 1s586ms select fg.nm fromgenesymbol, fg.acc_txt fromgeneacc, tg.nm togenesymbol, tg.acc_txt togeneacc, ft.nm fromtaxonnm, ft.secondary_nm fromtaxoncommonnm, ft.acc_txt fromtaxonacc, tt.nm totaxonnm, tt.secondary_nm totaxoncommonnm, tt.acc_txt totaxonacc, ggr.experimental_sys_nm, ggr.experimental_sys_type, ( select string_agg(ggt.throughput_txt, ? order by ggt.throughput_txt) from gene_gene_ref_throughput ggt where ggt.gene_gene_reference_id = ggr.id) throughput, count(*) over () fullrowcount from gene_gene_reference ggr inner join term fg on ggr.from_gene_id = fg.id inner join term tg on ggr.to_gene_id = tg.id inner join term ft on ggr.from_taxon_id = ft.id inner join term tt on ggr.to_taxon_id = tt.id where ggr.reference_id = ? order by fg.nm_sort, tg.nm_sort limit ?;Times Reported Time consuming queries #14
Day Hour Count Duration Avg duration Apr 18 05 2 3s172ms 1s586ms -
SELECT /* ReferenceGeneGeneIxnsDAO */ fg.nm fromGeneSymbol, fg.acc_txt fromGeneAcc, tg.nm toGeneSymbol, tg.acc_txt toGeneAcc, ft.nm fromTaxonNm, ft.secondary_nm fromTaxonCommonNm, ft.acc_txt fromTaxonAcc, tt.nm toTaxonNm, tt.secondary_nm toTaxonCommonNm, tt.acc_txt toTaxonAcc, ggr.experimental_sys_nm, ggr.experimental_sys_type, ( SELECT STRING_AGG(ggt.throughput_txt, ', ' ORDER BY ggt.throughput_txt) FROM gene_gene_ref_throughput ggt WHERE ggt.gene_gene_reference_id = ggr.id) throughput, COUNT(*) OVER () fullRowCount FROM gene_gene_reference ggr INNER JOIN term fg ON ggr.from_gene_id = fg.id INNER JOIN term tg ON ggr.to_gene_id = tg.id INNER JOIN term ft ON ggr.from_taxon_id = ft.id INNER JOIN term tt ON ggr.to_taxon_id = tt.id WHERE ggr.reference_id = '111363' ORDER BY fg.nm_sort, tg.nm_sort LIMIT 50;
Date: 2025-04-18 05:48:06 Duration: 1s638ms Bind query: yes
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SELECT /* ReferenceGeneGeneIxnsDAO */ fg.nm fromGeneSymbol, fg.acc_txt fromGeneAcc, tg.nm toGeneSymbol, tg.acc_txt toGeneAcc, ft.nm fromTaxonNm, ft.secondary_nm fromTaxonCommonNm, ft.acc_txt fromTaxonAcc, tt.nm toTaxonNm, tt.secondary_nm toTaxonCommonNm, tt.acc_txt toTaxonAcc, ggr.experimental_sys_nm, ggr.experimental_sys_type, ( SELECT STRING_AGG(ggt.throughput_txt, ', ' ORDER BY ggt.throughput_txt) FROM gene_gene_ref_throughput ggt WHERE ggt.gene_gene_reference_id = ggr.id) throughput, COUNT(*) OVER () fullRowCount FROM gene_gene_reference ggr INNER JOIN term fg ON ggr.from_gene_id = fg.id INNER JOIN term tg ON ggr.to_gene_id = tg.id INNER JOIN term ft ON ggr.from_taxon_id = ft.id INNER JOIN term tt ON ggr.to_taxon_id = tt.id WHERE ggr.reference_id = '111363' ORDER BY fg.nm_sort, tg.nm_sort LIMIT 50;
Date: 2025-04-18 05:48:04 Duration: 1s534ms Bind query: yes
15 2s39ms 1 2s39ms 2s39ms 2s39ms with cte as ( select *, row_number() over (partition by id order by id asc) as rownum from log_query_bots ) select count(*) from cte where rownum < ?;Times Reported Time consuming queries #15
Day Hour Count Duration Avg duration Apr 18 13 1 2s39ms 2s39ms -
WITH CTE AS ( SELECT *, ROW_NUMBER() OVER (PARTITION BY id ORDER BY ID ASC) AS RowNum FROM log_query_bots ) SELECT count(*) FROM CTE WHERE RowNum < 2;
Date: 2025-04-18 13:30:33 Duration: 2s39ms
16 1s760ms 1 1s760ms 1s760ms 1s760ms with cte as ( select id, row_number() over (partition by id order by id asc) as rownum from log_query_bots) insert into test_cte ( select id from cte where rownum > ?);Times Reported Time consuming queries #16
Day Hour Count Duration Avg duration Apr 18 13 1 1s760ms 1s760ms -
WITH CTE AS ( SELECT ID, ROW_NUMBER() OVER (PARTITION BY id ORDER BY ID ASC) AS RowNum FROM log_query_bots) insert into test_cte ( SELECT ID FROM CTE WHERE RowNum > 1);
Date: 2025-04-18 13:03:13 Duration: 1s760ms
17 1s564ms 1 1s564ms 1s564ms 1s564ms select g.id geneid, g.acc_txt acc, g.nm nm, g.nm nmhtml, g.secondary_nm secondarynm, g.has_chems haschems, g.has_diseases hasdiseases, g.has_exposures hasexposures, g.has_phenotypes hasphenotypes, count(*) over () fullrowcount from term g where g.id in ( select gcr.gene_id from gene_chem_reference gcr where gcr.taxon_id = any (array ( select dp.descendant_object_id from term t inner join dag_path dp on t.id = dp.ancestor_object_id where upper(t.nm) like ? and t.object_type_id = ?)) and gcr.id in ( select gcra.gene_chem_reference_id from gene_chem_reference_axn gcra where (gcra.action_degree_type_nm = ?))) order by g.nm_sort, g.id limit ?;Times Reported Time consuming queries #17
Day Hour Count Duration Avg duration Apr 18 05 1 1s564ms 1s564ms -
SELECT /* AdvancedGeneQueryDAO.getData */ g.id geneId, g.acc_txt acc, g.nm nm, g.nm nmHtml, g.secondary_nm secondaryNm, g.has_chems hasChems, g.has_diseases hasDiseases, g.has_exposures hasExposures, g.has_phenotypes hasPhenotypes, COUNT(*) OVER () fullRowCount FROM term g WHERE g.id IN ( SELECT gcr.gene_id FROM gene_chem_reference gcr WHERE /* CIQH.getIxnWhereCore */ gcr.taxon_id = ANY (ARRAY ( SELECT /* CIQH.getIxnTaxonWhereEquals.Name */ dp.descendant_object_id FROM term t INNER JOIN dag_path dp ON t.id = dp.ancestor_object_id WHERE UPPER(t.nm) LIKE 'FELIS CATUS' AND t.object_type_id = 1)) AND gcr.id IN ( SELECT gcra.gene_chem_reference_id FROM gene_chem_reference_axn gcra WHERE (gcra.action_degree_type_nm = 'increases'))) ORDER BY g.nm_sort, g.id LIMIT 50;
Date: 2025-04-18 05:47:28 Duration: 1s564ms Bind query: yes
18 1s504ms 1 1s504ms 1s504ms 1s504ms select t.nm, t.nm_html nmhtml, t.secondary_nm secondarynm, t.acc_txt acc, ? || t.nm accquerystr, t.has_chems haschems, t.has_diseases hasdiseases, t.has_exposures hasexposures, t.has_phenotypes hasphenotypes, count(*) over () fullrowcount from term t where t.object_type_id = ? and regexp_replace(upper(substring(t.nm, ?, ?)), ?, ?) = ? order by t.nm_sort limit ?;Times Reported Time consuming queries #18
Day Hour Count Duration Avg duration Apr 18 05 1 1s504ms 1s504ms -
SELECT /* GeneBrowseTermsDAO */ t.nm, t.nm_html nmHtml, t.secondary_nm secondaryNm, t.acc_txt acc, 'name:' || t.nm accQueryStr, t.has_chems hasChems, t.has_diseases hasDiseases, t.has_exposures hasExposures, t.has_phenotypes hasPhenotypes, COUNT(*) OVER () fullRowCount FROM term t WHERE t.object_type_id = '4' AND REGEXP_REPLACE(UPPER(SUBSTRING(t.nm, 1, 1)), '[^A-Z]', '#') = 'A' ORDER BY t.nm_sort LIMIT 100;
Date: 2025-04-18 05:47:09 Duration: 1s504ms Bind query: yes
19 1s440ms 1 1s440ms 1s440ms 1s440ms select coalesce(d.abbr_display, d.nm_display) nm # ?, d.description # ?, coalesce(d.abbr, d.nm) anchor # ?, get_homepage_url (d.id) url # ? from db d # ? where d.id in (# ? select l.db_id # ? from db_link l # ? where l.type_cd = ? # ? and l.object_type_id = ?) # ? order by ?;Times Reported Time consuming queries #19
Day Hour Count Duration Avg duration Apr 18 05 1 1s440ms 1s440ms -
SELECT COALESCE(d.abbr_display, d.nm_display) nm # 015, d.description # 015, COALESCE(d.abbr, d.nm) anchor # 015, get_homepage_url (d.id) url # 015 FROM db d # 015 WHERE d.id IN (# 015 SELECT l.db_id # 015 FROM db_link l # 015 WHERE l.type_cd = 'X' # 015 AND l.object_type_id = 4) # 015 ORDER BY 1;
Date: 2025-04-18 05:48:31 Duration: 1s440ms Bind query: yes
20 1s400ms 1 1s400ms 1s400ms 1s400ms select distinct stressorterm.nm as chemnm, stressorterm.nm_html as chemnmhtml, stressorterm.nm_sort as chemnmsort, stressorterm.acc_txt as chemacc, ( select string_agg(distinct stressorsrctype.nm || ? || stressorsrctype.cd, ?)) as stressorsrctypenm, stressor.src_details as stressorsrcdetails, stressor.sample_qty as stressorsampleqty, stressor.note as stressornote, receptor.qty as nbrreceptors, receptor.description as receptors, receptor.note as receptornotes, receptorterm.nm || ? || ( select cd from object_type where id = receptor.object_type_id) || ? || receptorterm.nm_html || ? || receptorterm.acc_txt || ? || receptorterm.acc_db_cd as receptorterms, ( select string_agg(distinct receptortobaccouse.tobacco_use_nm || ? || receptortobaccouse.pct, ?)) as smokerstatus, receptor.age as agerange, receptor.age_uom_nm as ageuomnm, receptor.age_qualifier_nm as agequalifiernm, receptor.gender_nm as gendernmsearch, receptor.id receptorid, ( select string_agg(pct || ? || gender_nm || ? || gender_nm_html, ?) from exp_receptor_gender where exp_receptor_id = receptor.id) as genderdetails, ( select string_agg(distinct receptorrace.race_nm || ? || receptorrace.pct, ?)) as receptorrace, ( select string_agg(distinct eventassaymethod.nm, ?)) as assaymethods, event.medium_nm as medium, event.medium_term_acc_txt as mediumacctxt, ( select string_agg(distinct eventproject.project_nm, ?)) as associatedstudytitles, event.collection_start_yr || ? || event.collection_end_yr as collectionstartandendyr, event.detection_limit as detectionlimit, event.detection_limit_uom as detectionlimituom, event.detection_freq as detectionfreq, event.note as eventnote, ( select string_agg(distinct eventlocation.geographic_region_nm, ?)) as stateorprovince, ( select string_agg(distinct eventlocation.locality_txt, ?)) as localitytxt, ( select string_agg(distinct country.nm, ?)) as studycountries, exposuremarkerterm.nm || ? || ( select cd from object_type where id = exposuremarkerterm.object_type_id) || ? || exposuremarkerterm.nm_html || ? || exposuremarkerterm.acc_txt || ? || exposuremarkerterm.acc_db_cd as assayedmarkers, event.exp_marker_lvl as assaylevel, assay_uom as measurement, assay_measurement_stat as measurementstat, assay_note as assaynote, eiot.description as outcomerltnp, diseaseterm.nm || ? || ? || ? || diseaseterm.nm_html || ? || diseaseterm.acc_txt || ? || diseaseterm.acc_db_cd as diseasefield, phenotypeterm.nm || ? || ? || ? || phenotypeterm.nm_html || ? || phenotypeterm.acc_txt || ? || phenotypeterm.acc_db_cd as phenotypefield, outcome.phenotype_action_degree_type_nm as phenotypeactiondegreetypenm, e.reference_acc_txt || ? || r.abbr_authors_txt || ? || r.pub_start_yr as ref, r.abbr_authors_txt as abbrauthorstxt, ( select string_agg(distinct expstudyfactor.study_factor_nm, ?)) as studyfactornms, ( select string_agg(distinct anatomyterm.nm_html || ? || anatomyterm.acc_txt || ? || anatomyterm.id || ? || anatomyterm.acc_db_cd || ? || anatomyterm.nm, ?)) as anatomyterms, outcome.note as outcomenote, eventlocation.exp_event_id as eventid, count(*) over () fullrowcount from exposure e inner join exp_stressor stressor on e.exp_stressor_id = stressor.id inner join term stressorterm on stressor.chem_id = stressorterm.id left outer join exp_receptor receptor on e.exp_receptor_id = receptor.id left outer join exp_event event on e.exp_event_id = event.id left outer join term exposuremarkerterm on event.exp_marker_term_id = exposuremarkerterm.id left outer join exp_outcome outcome on e.exp_outcome_id = outcome.id left outer join exp_outcome_ixn_type eiot on outcome.exp_outcome_ixn_type_id = eiot.id left outer join term diseaseterm on outcome.disease_id = diseaseterm.id left outer join term phenotypeterm on outcome.phenotype_id = phenotypeterm.id left outer join term receptorterm on receptor.term_id = receptorterm.id inner join reference r on e.reference_id = r.id left outer join exp_stressor_stressor_src esss on stressor.id = esss.exp_stressor_id left outer join exp_stressor_src_type stressorsrctype on esss.exp_stressor_src_type_id = stressorsrctype.id left outer join exp_receptor_tobacco_use receptortobaccouse on receptor.id = receptortobaccouse.exp_receptor_id left outer join exp_receptor_race receptorrace on receptor.id = receptorrace.exp_receptor_id left outer join exp_event_assay_method eventassaymethod on event.id = eventassaymethod.exp_event_id left outer join exp_event_location eventlocation on event.id = eventlocation.exp_event_id left outer join exp_anatomy expanatomy on outcome.id = expanatomy.exp_outcome_id left outer join term anatomyterm on expanatomy.anatomy_id = anatomyterm.id left outer join country on eventlocation.country_id = country.id left outer join exp_event_project eventproject on event.id = eventproject.exp_event_id left outer join reference_exp referenceexp on e.reference_acc_txt = referenceexp.reference_acc_txt and e.reference_acc_db_id = referenceexp.reference_acc_db_id left outer join exp_study_factor expstudyfactor on referenceexp.id = expstudyfactor.reference_exp_id where outcome.disease_id in ( select descendant_object_id from dag_path where ancestor_object_id = ?) or receptorterm.id in ( select descendant_object_id from dag_path where ancestor_object_id = ?) group by chemnm, chemnmhtml, chemnmsort, chemacc, stressorsrcdetails, stressorsampleqty, stressornote, receptorterms, medium, mediumacctxt, assayedmarkers, assaylevel, measurement, measurementstat, assaynote, outcomerltnp, diseasefield, phenotypefield, phenotypeactiondegreetypenm, ref, r.abbr_authors_txt, collectionstartandendyr, receptorid, detectionlimit, detectionlimituom, detectionfreq, eventnote, outcomenote, eventid order by chemnmsort limit ?;Times Reported Time consuming queries #20
Day Hour Count Duration Avg duration Apr 18 05 1 1s400ms 1s400ms [ User: pubeu - Total duration: 1s400ms - Times executed: 1 ]
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SELECT DISTINCT stressorTerm.nm as chemNm, stressorTerm.nm_html as chemNmHtml, stressorTerm.nm_sort as chemNmSort, stressorTerm.acc_txt as chemAcc, ( SELECT STRING_AGG(distinct stressorSrcType.nm || '^' || stressorSrcType.cd, '|')) as stressorSrcTypeNm, stressor.src_details as stressorSrcDetails, stressor.sample_qty as stressorSampleQty, stressor.note as stressorNote, receptor.qty as nbrReceptors, receptor.description as receptors, receptor.note as receptorNotes, receptorTerm.nm || '^' || ( select cd from object_type where id = receptor.object_type_id) || '^' || receptorTerm.nm_html || '^' || receptorTerm.acc_txt || '^' || receptorTerm.acc_db_cd as receptorTerms, ( SELECT STRING_AGG(distinct receptorTobaccoUse.tobacco_use_nm || '^' || receptorTobaccoUse.pct, ' | ')) as smokerStatus, receptor.age as ageRange, receptor.age_uom_nm as ageUOMNm, receptor.age_qualifier_nm as ageQualifierNm, receptor.gender_nm as genderNmSearch, receptor.id receptorID, ( SELECT STRING_AGG(pct || '^' || gender_nm || '^' || gender_nm_html, '|') from exp_receptor_gender where exp_receptor_id = receptor.id) as genderDetails, ( SELECT STRING_AGG(DISTINCT receptorRace.race_nm || '^' || receptorRace.pct, ' | ')) as receptorRace, ( SELECT STRING_AGG(DISTINCT eventAssayMethod.nm, ' | ')) as assayMethods, event.medium_nm as medium, event.medium_term_acc_txt as mediumAccTxt, ( SELECT STRING_AGG(DISTINCT eventProject.project_nm, ' | ')) as associatedStudyTitles, event.collection_start_yr || '-' || event.collection_end_yr as collectionStartAndEndYr, event.detection_limit as detectionLimit, event.detection_limit_uom as detectionLimitUOM, event.detection_freq as detectionFreq, event.note as eventNote, ( SELECT STRING_AGG(DISTINCT eventLocation.geographic_region_nm, ' | ')) as stateOrProvince, ( SELECT STRING_AGG(DISTINCT eventLocation.locality_txt, ' | ')) as localityTxt, ( SELECT STRING_AGG(distinct country.nm, ' | ')) as studyCountries, exposureMarkerTerm.nm || '^' || ( select cd from object_type where id = exposureMarkerTerm.object_type_id) || '^' || exposureMarkerTerm.nm_html || '^' || exposureMarkerTerm.acc_txt || '^' || exposureMarkerTerm.acc_db_cd as assayedMarkers, event.exp_marker_lvl as assayLevel, assay_uom as measurement, assay_measurement_stat as measurementStat, assay_note as assayNote, eiot.description as outcomeRltnp, diseaseTerm.nm || '^' || 'disease' || '^' || diseaseTerm.nm_html || '^' || diseaseTerm.acc_txt || '^' || diseaseTerm.acc_db_cd as diseaseField, phenotypeTerm.nm || '^' || 'go' || '^' || phenotypeTerm.nm_html || '^' || phenotypeTerm.acc_txt || '^' || phenotypeTerm.acc_db_cd as phenotypeField, outcome.phenotype_action_degree_type_nm as phenotypeActionDegreeTypeNm, e.reference_acc_txt || '^' || r.abbr_authors_txt || '^' || r.pub_start_yr as ref, r.abbr_authors_txt as abbrAuthorsTxt, ( SELECT STRING_AGG(DISTINCT expStudyFactor.study_factor_nm, ' | ')) as studyFactorNms, ( SELECT STRING_AGG(distinct anatomyTerm.nm_html || '^' || anatomyTerm.acc_txt || '^' || anatomyTerm.id || '^' || anatomyTerm.acc_db_cd || '^' || anatomyTerm.nm, '|')) as anatomyTerms, outcome.note as outcomeNote, eventLocation.exp_event_id as eventID, COUNT(*) OVER () fullRowCount FROM exposure e inner join exp_stressor stressor ON e.exp_stressor_id = stressor.id inner join term stressorTerm ON stressor.chem_id = stressorTerm.id left outer join exp_receptor receptor ON e.exp_receptor_id = receptor.id left outer join exp_event event ON e.exp_event_id = event.id left outer join term exposureMarkerTerm ON event.exp_marker_term_id = exposureMarkerTerm.id left outer join exp_outcome outcome ON e.exp_outcome_id = outcome.id left outer join exp_outcome_ixn_type eiot ON outcome.exp_outcome_ixn_type_id = eiot.id left outer join term diseaseTerm ON outcome.disease_id = diseaseTerm.id left outer join term phenotypeTerm ON outcome.phenotype_id = phenotypeTerm.id left outer join term receptorTerm ON receptor.term_id = receptorTerm.id inner join reference r ON e.reference_id = r.id left outer join exp_stressor_stressor_src esss ON stressor.id = esss.exp_stressor_id left outer join exp_stressor_src_type stressorSrcType ON esss.exp_stressor_src_type_id = stressorSrcType.id left outer join exp_receptor_tobacco_use receptorTobaccoUse ON receptor.id = receptorTobaccoUse.exp_receptor_id left outer join exp_receptor_race receptorRace ON receptor.id = receptorRace.exp_receptor_id left outer join exp_event_assay_method eventAssayMethod ON event.id = eventAssayMethod.exp_event_id left outer join exp_event_location eventLocation ON event.id = eventLocation.exp_event_id left outer join exp_anatomy expAnatomy ON outcome.id = expAnatomy.exp_outcome_id Left outer join term anatomyTerm ON expAnatomy.anatomy_id = anatomyTerm.id left outer join country ON eventLocation.country_id = country.id left outer join exp_event_project eventProject ON event.id = eventProject.exp_event_id left outer join reference_exp referenceExp on e.reference_acc_txt = referenceExp.reference_acc_txt and e.reference_acc_db_id = referenceExp.reference_acc_db_id left outer join exp_study_factor expStudyFactor on referenceExp.id = expStudyFactor.reference_exp_id where outcome.disease_id in ( select descendant_object_id from dag_path where ancestor_object_id = '2090328') or receptorTerm.id in ( select descendant_object_id from dag_path where ancestor_object_id = '2090328') GROUP BY chemNm, chemNmHtml, chemNmSort, chemAcc, stressorSrcDetails, stressorSampleQty, stressorNote, receptorTerms, medium, mediumAccTxt, assayedMarkers, assayLevel, measurement, measurementStat, assayNote, outcomeRltnp, diseaseField, phenotypeField, phenotypeActionDegreeTypeNm, ref, r.abbr_authors_txt, collectionStartAndEndYr, receptorID, detectionLimit, detectionLimitUOM, detectionFreq, eventNote, outcomeNote, eventID order by chemNmSort LIMIT 50;
Date: 2025-04-18 05:48:40 Duration: 1s400ms Database: ctddev51 User: pubeu Bind query: yes
Most frequent queries (N)
Rank Times executed Total duration Min duration Max duration Avg duration Query 1 2 4s693ms 1s103ms 3s590ms 2s346ms with recursive sub_node ( object_id, id, path, lvl ) as ( select n.object_id, n.id, array[n.nm_sort], ? from dag_node n where n.object_id = ? union all select n.object_id, n.id, cast(path || n.nm_sort as varchar(?)[]), sn.lvl + ? from dag_node n inner join sub_node sn on (n.parent_id = sn.id)) select distinct t.nm prinm, t.nm_html prinmhtml, t.secondary_nm secondarynm, t.acc_db_cd accdbcd, t.acc_txt termacc, t.is_leaf isleaf, t.has_chems haschems, t.has_diseases hasdiseases, t.has_exposures hasexposures, t.has_genes hasgenes, sn.lvl, sn.path, max(sn.lvl) over () maxlvl, t.has_phenotypes hasphenotypes from sub_node sn inner join term t on sn.object_id = t.id where sn.lvl <= ? order by sn.path;Times Reported Time consuming queries #1
Day Hour Count Duration Avg duration Apr 18 05 2 4s693ms 2s346ms [ User: pubeu - Total duration: 3s590ms - Times executed: 1 ]
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WITH recursive sub_node ( object_id, id, path, lvl ) AS ( SELECT n.object_id, n.id, ARRAY[n.nm_sort], 1 FROM dag_node n WHERE n.object_id = '597156' UNION ALL SELECT n.object_id, n.id, CAST(path || n.nm_sort AS varchar(600)[]), sn.lvl + 1 FROM dag_node n INNER JOIN sub_node sn ON (n.parent_id = sn.id)) SELECT /* TreeTermBasicsDAO.getDescendants */ DISTINCT t.nm priNm, t.nm_html priNmHtml, t.secondary_nm secondaryNm, t.acc_db_cd accDbCd, t.acc_txt termAcc, t.is_leaf isLeaf, t.has_chems hasChems, t.has_diseases hasDiseases, t.has_exposures hasExposures, t.has_genes hasGenes, sn.lvl, sn.path, MAX(sn.lvl) OVER () maxLvl, t.has_phenotypes hasPhenotypes FROM sub_node sn INNER JOIN term t ON sn.object_id = t.id WHERE sn.lvl <= 2 ORDER BY sn.path;
Date: 2025-04-18 05:45:13 Duration: 3s590ms Database: ctddev51 User: pubeu Bind query: yes
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WITH recursive sub_node ( object_id, id, path, lvl ) AS ( SELECT n.object_id, n.id, ARRAY[n.nm_sort], 1 FROM dag_node n WHERE n.object_id = '1449802' UNION ALL SELECT n.object_id, n.id, CAST(path || n.nm_sort AS varchar(600)[]), sn.lvl + 1 FROM dag_node n INNER JOIN sub_node sn ON (n.parent_id = sn.id)) SELECT /* TreeTermBasicsDAO.getDescendants */ DISTINCT t.nm priNm, t.nm_html priNmHtml, t.secondary_nm secondaryNm, t.acc_db_cd accDbCd, t.acc_txt termAcc, t.is_leaf isLeaf, t.has_chems hasChems, t.has_diseases hasDiseases, t.has_exposures hasExposures, t.has_genes hasGenes, sn.lvl, sn.path, MAX(sn.lvl) OVER () maxLvl, t.has_phenotypes hasPhenotypes FROM sub_node sn INNER JOIN term t ON sn.object_id = t.id WHERE sn.lvl <= 2 ORDER BY sn.path;
Date: 2025-04-18 05:45:14 Duration: 1s103ms Bind query: yes
2 2 3s631ms 1s666ms 1s965ms 1s815ms with cte as ( select id, row_number() over (partition by id order by id asc) as rownum from log_query_bots ) select id from cte where rownum > ?;Times Reported Time consuming queries #2
Day Hour Count Duration Avg duration Apr 18 12 2 3s631ms 1s815ms -
WITH CTE AS ( SELECT ID, ROW_NUMBER() OVER (PARTITION BY id ORDER BY ID ASC) AS RowNum FROM log_query_bots ) SELECT ID FROM CTE WHERE RowNum > 1;
Date: 2025-04-18 12:51:23 Duration: 1s965ms
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WITH CTE AS ( SELECT ID, ROW_NUMBER() OVER (PARTITION BY id ORDER BY ID ASC) AS RowNum FROM log_query_bots) -- Delete rows from the 'customers' table where the row number is greater than 1 --DELETE FROM log_query_bots SELECT ID FROM CTE WHERE RowNum > 1;
Date: 2025-04-18 12:42:38 Duration: 1s666ms
3 2 3s582ms 1s782ms 1s799ms 1s791ms with cte as ( select id, row_number() over (partition by id order by id asc) as rownum from log_query_bots ) select count(*) from cte where rownum < ?;Times Reported Time consuming queries #3
Day Hour Count Duration Avg duration Apr 18 13 2 3s582ms 1s791ms -
-- Common Table Expression (CTE) to rank rows based on 'Name' WITH CTE AS ( SELECT ID, ROW_NUMBER() OVER (PARTITION BY id ORDER BY ID ASC) AS RowNum FROM log_query_bots ) SELECT count(*) FROM CTE WHERE RowNum < 2;
Date: 2025-04-18 13:07:54 Duration: 1s799ms
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WITH CTE AS ( SELECT ID, ROW_NUMBER() OVER (PARTITION BY id ORDER BY ID ASC) AS RowNum FROM log_query_bots ) SELECT count(*) FROM CTE WHERE RowNum < 2;
Date: 2025-04-18 13:07:23 Duration: 1s782ms
4 2 3s172ms 1s534ms 1s638ms 1s586ms select fg.nm fromgenesymbol, fg.acc_txt fromgeneacc, tg.nm togenesymbol, tg.acc_txt togeneacc, ft.nm fromtaxonnm, ft.secondary_nm fromtaxoncommonnm, ft.acc_txt fromtaxonacc, tt.nm totaxonnm, tt.secondary_nm totaxoncommonnm, tt.acc_txt totaxonacc, ggr.experimental_sys_nm, ggr.experimental_sys_type, ( select string_agg(ggt.throughput_txt, ? order by ggt.throughput_txt) from gene_gene_ref_throughput ggt where ggt.gene_gene_reference_id = ggr.id) throughput, count(*) over () fullrowcount from gene_gene_reference ggr inner join term fg on ggr.from_gene_id = fg.id inner join term tg on ggr.to_gene_id = tg.id inner join term ft on ggr.from_taxon_id = ft.id inner join term tt on ggr.to_taxon_id = tt.id where ggr.reference_id = ? order by fg.nm_sort, tg.nm_sort limit ?;Times Reported Time consuming queries #4
Day Hour Count Duration Avg duration Apr 18 05 2 3s172ms 1s586ms -
SELECT /* ReferenceGeneGeneIxnsDAO */ fg.nm fromGeneSymbol, fg.acc_txt fromGeneAcc, tg.nm toGeneSymbol, tg.acc_txt toGeneAcc, ft.nm fromTaxonNm, ft.secondary_nm fromTaxonCommonNm, ft.acc_txt fromTaxonAcc, tt.nm toTaxonNm, tt.secondary_nm toTaxonCommonNm, tt.acc_txt toTaxonAcc, ggr.experimental_sys_nm, ggr.experimental_sys_type, ( SELECT STRING_AGG(ggt.throughput_txt, ', ' ORDER BY ggt.throughput_txt) FROM gene_gene_ref_throughput ggt WHERE ggt.gene_gene_reference_id = ggr.id) throughput, COUNT(*) OVER () fullRowCount FROM gene_gene_reference ggr INNER JOIN term fg ON ggr.from_gene_id = fg.id INNER JOIN term tg ON ggr.to_gene_id = tg.id INNER JOIN term ft ON ggr.from_taxon_id = ft.id INNER JOIN term tt ON ggr.to_taxon_id = tt.id WHERE ggr.reference_id = '111363' ORDER BY fg.nm_sort, tg.nm_sort LIMIT 50;
Date: 2025-04-18 05:48:06 Duration: 1s638ms Bind query: yes
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SELECT /* ReferenceGeneGeneIxnsDAO */ fg.nm fromGeneSymbol, fg.acc_txt fromGeneAcc, tg.nm toGeneSymbol, tg.acc_txt toGeneAcc, ft.nm fromTaxonNm, ft.secondary_nm fromTaxonCommonNm, ft.acc_txt fromTaxonAcc, tt.nm toTaxonNm, tt.secondary_nm toTaxonCommonNm, tt.acc_txt toTaxonAcc, ggr.experimental_sys_nm, ggr.experimental_sys_type, ( SELECT STRING_AGG(ggt.throughput_txt, ', ' ORDER BY ggt.throughput_txt) FROM gene_gene_ref_throughput ggt WHERE ggt.gene_gene_reference_id = ggr.id) throughput, COUNT(*) OVER () fullRowCount FROM gene_gene_reference ggr INNER JOIN term fg ON ggr.from_gene_id = fg.id INNER JOIN term tg ON ggr.to_gene_id = tg.id INNER JOIN term ft ON ggr.from_taxon_id = ft.id INNER JOIN term tt ON ggr.to_taxon_id = tt.id WHERE ggr.reference_id = '111363' ORDER BY fg.nm_sort, tg.nm_sort LIMIT 50;
Date: 2025-04-18 05:48:04 Duration: 1s534ms Bind query: yes
5 1 31m25s 31m25s 31m25s 31m25s select maint_cached_value_refresh_data_metrics ();Times Reported Time consuming queries #5
Day Hour Count Duration Avg duration Apr 18 13 1 31m25s 31m25s -
select maint_cached_value_refresh_data_metrics ();
Date: 2025-04-18 13:49:41 Duration: 31m25s
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select maint_cached_value_refresh_data_metrics ();
Date: 2025-04-18 13:12:23 Duration: 0ms
6 1 4m15s 4m15s 4m15s 4m15s select maint_query_logs_archive ();Times Reported Time consuming queries #6
Day Hour Count Duration Avg duration Apr 18 11 1 4m15s 4m15s -
select maint_query_logs_archive ();
Date: 2025-04-18 11:03:14 Duration: 4m15s
7 1 4m13s 4m13s 4m13s 4m13s select prune_log_query_archive ();Times Reported Time consuming queries #7
Day Hour Count Duration Avg duration Apr 18 11 1 4m13s 4m13s -
select prune_log_query_archive ();
Date: 2025-04-18 11:12:42 Duration: 4m13s
8 1 4s404ms 4s404ms 4s404ms 4s404ms select ? "Input", sqi.chem_nm "ChemicalName", sqi.chem_acc_txt "ChemicalID", sqi.casrn "CasRN", sqi.gene_symbol "GeneSymbol", sqi.gene_acc_txt "GeneID", sqi.ontology_nm "Ontology", sqi.go_term_nm "GoTermName", sqi.go_acc_txt "GoTermID" from ( with sq as ( select distinct c.id chem_id, c.nm chem_nm, c.acc_txt chem_acc_txt, c.secondary_nm casrn, c.nm_sort chem_nm_sort, gcr.gene_id, g.nm gene_symbol, g.acc_txt gene_acc_txt, g.nm_sort gene_symbol_sort from term c inner join gene_chem_reference gcr on c.id = gcr.chem_id inner join term g on gcr.gene_id = g.id where (c.id = ?)) select distinct sq.chem_nm, sq.chem_acc_txt, sq.casrn, sq.gene_symbol, sq.gene_acc_txt, gt.nm go_term_nm, gt.acc_txt go_acc_txt, sq.chem_nm_sort, sq.gene_symbol_sort, gt.nm_sort, d.nm ontology_nm from sq inner join gene_go_annot gga on sq.gene_id = gga.gene_id inner join dag_node gt on gga.go_term_id = gt.object_id inner join dag d on gt.dag_id = d.id where gga.is_not = false and (d.id = ? or d.id = ?) order by sq.chem_nm_sort, sq.gene_symbol_sort, d.nm, gt.nm_sort) sqi;Times Reported Time consuming queries #8
Day Hour Count Duration Avg duration Apr 18 05 1 4s404ms 4s404ms [ User: pubeu - Total duration: 4s404ms - Times executed: 1 ]
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SELECT /* BatchChemGODAO */ 'ddt' "Input", sqi.chem_nm "ChemicalName", sqi.chem_acc_txt "ChemicalID", sqi.casRN "CasRN", sqi.gene_symbol "GeneSymbol", sqi.gene_acc_txt "GeneID", sqi.ontology_nm "Ontology", sqi.go_term_nm "GoTermName", sqi.go_acc_txt "GoTermID" FROM ( WITH sq AS ( SELECT DISTINCT c.id chem_id, c.nm chem_nm, c.acc_txt chem_acc_txt, c.secondary_nm casRN, c.nm_sort chem_nm_sort, gcr.gene_id, g.nm gene_symbol, g.acc_txt gene_acc_txt, g.nm_sort gene_symbol_sort FROM term c INNER JOIN gene_chem_reference gcr ON c.id = gcr.chem_id INNER JOIN term g ON gcr.gene_id = g.id WHERE (c.id = 1308127)) SELECT DISTINCT sq.chem_nm, sq.chem_acc_txt, sq.casRN, sq.gene_symbol, sq.gene_acc_txt, gt.nm go_term_nm, gt.acc_txt go_acc_txt, sq.chem_nm_sort, sq.gene_symbol_sort, gt.nm_sort, d.nm ontology_nm FROM sq INNER JOIN gene_go_annot gga ON sq.gene_id = gga.gene_id INNER JOIN dag_node gt ON gga.go_term_id = gt.object_id INNER JOIN dag d ON gt.dag_id = d.id WHERE gga.is_not = false AND (d.id = 5 OR d.id = 4) ORDER BY sq.chem_nm_sort, sq.gene_symbol_sort, d.nm, gt.nm_sort) sqi;
Date: 2025-04-18 05:48:25 Duration: 4s404ms Database: ctddev51 User: pubeu Bind query: yes
9 1 4s337ms 4s337ms 4s337ms 4s337ms select distinct associatedterm.nm || ? || o.cd || ? || associatedterm.nm_html || ? || associatedterm.acc_txt || ? || associatedterm.acc_db_cd as associatedterm, associatedterm.id associatedtermid, ptr.ixn_id ixnid, associatedterm.object_type_id || ? || associatedterm.nm_sort associatedtermnmsort, coalesce(associatedterm.secondary_nm, ?) casrn, phenotypeterm.nm || ? || ? || ? || phenotypeterm.nm_html || ? || phenotypeterm.acc_txt || ? || phenotypeterm.acc_db_cd as phenotype, phenotypeterm.id phenotypeid, ( select string_agg(distinct taxonterm.nm || ? || ? || ? || taxonterm.nm_html || ? || taxonterm.acc_txt || ? || taxonterm.acc_db_cd || ? || coalesce(taxonterm.secondary_nm, ?), ?)) as taxonterms, ( select string_agg(distinct anatomyterm.nm_html || ? || anatomyterm.acc_txt || ? || ia.level_seq || ? || anatomyterm.acc_db_cd || ? || anatomyterm.nm, ?)) as anatomyterms, count(distinct taxonterm.nm) taxoncount, i.ixn_prose_html ixnprosehtml, i.ixn_prose_txt ixnprose, i.sort_txt ixnsort, ( select string_agg(distinct r.acc_txt, ?)) as references, count(distinct ptr.reference_id) refcount, pt.indirect_term_qty inferredcount, count(*) over () fullrowcount from phenotype_term_reference ptr inner join phenotype_term pt on ptr.term_id = pt.term_id and ptr.phenotype_id = pt.phenotype_id inner join term associatedterm on ptr.term_id = associatedterm.id inner join term phenotypeterm on ptr.phenotype_id = phenotypeterm.id left outer join term taxonterm on ptr.taxon_id = taxonterm.id inner join reference r on ptr.reference_id = r.id inner join ixn i on ptr.ixn_id = i.id inner join object_type o on associatedterm.object_type_id = o.id left outer join ixn_anatomy ia on ptr.ixn_id = ia.ixn_id left outer join term anatomyterm on ia.anatomy_id = anatomyterm.id where ptr.term_id in ( select distinct dp.descendant_object_id from dag_path dp where dp.ancestor_object_id in ( select distinct id from term baseterm where object_type_id = ? and upper(baseterm.nm) like ?)) and ptr.term_object_type_id = ? and ptr.phenotype_id in ( select distinct dp.descendant_object_id from dag_path dp where dp.ancestor_object_id in ( select distinct id from term baseterm where object_type_id = ? and baseterm.id in ( select object_id from db_link l where l.acc_txt = ? and l.type_cd = ? and l.object_type_id = ?))) and i.id in ( select ixn_id from ixn_anatomy where anatomy_id in ( select distinct dp.descendant_object_id from dag_path dp where dp.ancestor_object_id in ( select distinct id from term baseterm where object_type_id = ? and upper(baseterm.nm) like ?))) and taxonterm.id in ( select distinct dp.descendant_object_id from dag_path dp where dp.ancestor_object_id in ( select distinct id from term baseterm where object_type_id = ? and baseterm.id in ( select object_id from db_link l where l.acc_txt = ? and l.type_cd = ? and l.object_type_id = ?))) and i.id in ( select ixn_id from ixn_axn where action_type_nm = ? and action_degree_type_nm in (...)) group by associatedterm, associatedtermnmsort, phenotype, casrn, ixnid, ixnprosehtml, ixnprose, ixnsort, associatedtermid, phenotypeid, inferredcount order by associatedtermnmsort limit ?;Times Reported Time consuming queries #9
Day Hour Count Duration Avg duration Apr 18 05 1 4s337ms 4s337ms -
select distinct /* ChemPhenotypesAssnsDAO */ associatedTerm.nm || '^' || o.cd || '^' || associatedTerm.nm_html || '^' || associatedTerm.acc_txt || '^' || associatedTerm.acc_db_cd as associatedTerm, associatedTerm.id associatedTermId, ptr.ixn_id ixnId, associatedTerm.object_type_id || '|' || associatedTerm.nm_sort associatedTermNmSort, COALESCE(associatedTerm.secondary_nm, '') casRN, phenotypeTerm.nm || '^' || 'go' || '^' || phenotypeTerm.nm_html || '^' || phenotypeTerm.acc_txt || '^' || phenotypeTerm.acc_db_cd as phenotype, phenotypeTerm.id phenotypeId, ( SELECT STRING_AGG(distinct taxonTerm.nm || '^' || 'taxon' || '^' || taxonTerm.nm_html || '^' || taxonTerm.acc_txt || '^' || taxonTerm.acc_db_cd || '^' || COALESCE(taxonTerm.secondary_nm, ''), '|')) as taxonTerms, ( SELECT STRING_AGG(distinct anatomyTerm.nm_html || '^' || anatomyTerm.acc_txt || '^' || ia.level_seq || '^' || anatomyTerm.acc_db_cd || '^' || anatomyTerm.nm, '|')) as anatomyTerms, COUNT(DISTINCT taxonTerm.nm) taxonCount, i.ixn_prose_html ixnProseHtml, i.ixn_prose_txt ixnProse, i.sort_txt ixnSort, ( SELECT STRING_AGG(distinct r.acc_txt, '|')) as references, COUNT(DISTINCT ptr.reference_id) refCount, pt.indirect_term_qty inferredCount, COUNT(*) OVER () fullRowCount from phenotype_term_reference ptr inner join phenotype_term pt on ptr.term_id = pt.term_id and ptr.phenotype_id = pt.phenotype_id inner join term associatedTerm on ptr.term_id = associatedTerm.id inner join term phenotypeTerm on ptr.phenotype_id = phenotypeTerm.id left outer join term taxonTerm on ptr.taxon_id = taxonTerm.id inner join reference r on ptr.reference_id = r.id inner join ixn i on ptr.ixn_id = i.id inner join object_type o on associatedTerm.object_type_id = o.id left outer join ixn_anatomy ia on ptr.ixn_id = ia.ixn_id left outer join term anatomyTerm on ia.anatomy_id = anatomyTerm.id where ptr.term_id IN ( select /* DBConstants.getDAGTermSQL */ distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id in ( select distinct id from term baseTerm where object_type_id = 2 and upper(baseTerm.nm) LIKE 'ACETYLCYSTEINE')) and ptr.term_object_type_id = 2 and ptr.phenotype_id IN ( select /* DBConstants.getDAGTermSQL */ distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id in ( select distinct id from term baseTerm where object_type_id = 5 and baseTerm.id in ( select object_id from db_link l where l.acc_txt = 'GO:0006979' AND l.type_cd = 'A' AND l.object_type_id = 5))) and i.id in ( select ixn_id from ixn_anatomy where anatomy_id IN ( select /* DBConstants.getDAGTermSQL */ distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id in ( select distinct id from term baseTerm where object_type_id = 10 and upper(baseTerm.nm) LIKE 'CARDIOVASCULAR SYSTEM'))) and taxonTerm.id in ( select /* DBConstants.getDAGTermSQL */ distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id in ( select distinct id from term baseTerm where object_type_id = 1 and baseTerm.id in ( select object_id from db_link l where l.acc_txt = '9605' AND l.type_cd = 'A' AND l.object_type_id = 1))) and i.id in ( select ixn_id from ixn_axn where action_type_nm = 'phenotype' and action_degree_type_nm in ('increases')) group by associatedTerm, associatedTermNmSort, phenotype, casRN, ixnId, ixnProseHtml, ixnProse, ixnSort, associatedTermId, phenotypeId, inferredCount ORDER BY associatedTermNmSort LIMIT 50;
Date: 2025-04-18 05:48:49 Duration: 4s337ms Bind query: yes
10 1 4s192ms 4s192ms 4s192ms 4s192ms select gcr.ixn_id, null, null, null from gene_chem_reference gcr where gcr.gene_id = any (array (( select gd.gene_id from term t inner join dag_path dp on t.id = dp.ancestor_object_id inner join gene_disease gd on dp.descendant_object_id = gd.disease_id where upper(t.nm) like ? and t.object_type_id = ?))) and gcr.id in ( select gcra.gene_chem_reference_id from gene_chem_reference_axn gcra where (gcra.action_degree_type_nm = ?));Times Reported Time consuming queries #10
Day Hour Count Duration Avg duration Apr 18 05 1 4s192ms 4s192ms [ User: pubeu - Total duration: 4s192ms - Times executed: 1 ]
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SELECT /* CIQH.getIxnCacheQuery */ gcr.ixn_id, NULL, NULL, NULL FROM gene_chem_reference gcr WHERE /* CIQH.getIxnWhereCore */ gcr.gene_id = ANY (ARRAY (( SELECT /* IQH.getMasterDiseaseWhereEquals.Name.Gene */ gd.gene_id FROM term t INNER JOIN dag_path dp ON t.id = dp.ancestor_object_id INNER JOIN gene_disease gd ON dp.descendant_object_id = gd.disease_id WHERE UPPER(t.nm) LIKE 'ASTHMA' AND t.object_type_id = 3))) AND gcr.id IN ( SELECT gcra.gene_chem_reference_id FROM gene_chem_reference_axn gcra WHERE (gcra.action_degree_type_nm = 'increases'));
Date: 2025-04-18 05:47:20 Duration: 4s192ms Database: ctddev51 User: pubeu Bind query: yes
11 1 4s139ms 4s139ms 4s139ms 4s139ms with cte as ( select *, row_number() over (partition by id order by id asc) as rownum from log_query_bots ) select * from cte where rownum > ?;Times Reported Time consuming queries #11
Day Hour Count Duration Avg duration Apr 18 13 1 4s139ms 4s139ms -
WITH CTE AS ( SELECT *, ROW_NUMBER() OVER (PARTITION BY id ORDER BY ID ASC) AS RowNum FROM log_query_bots ) SELECT * FROM CTE WHERE RowNum > 1;
Date: 2025-04-18 13:31:34 Duration: 4s139ms
12 1 4s71ms 4s71ms 4s71ms 4s71ms select distinct associatedterm.nm || ? || o.cd || ? || associatedterm.nm_html || ? || associatedterm.acc_txt || ? || associatedterm.acc_db_cd as associatedterm, associatedterm.id associatedtermid, ptr.ixn_id ixnid, associatedterm.object_type_id || ? || associatedterm.nm_sort associatedtermnmsort, coalesce(associatedterm.secondary_nm, ?) casrn, phenotypeterm.nm || ? || ? || ? || phenotypeterm.nm_html || ? || phenotypeterm.acc_txt || ? || phenotypeterm.acc_db_cd as phenotype, phenotypeterm.id phenotypeid, ( select string_agg(distinct taxonterm.nm || ? || ? || ? || taxonterm.nm_html || ? || taxonterm.acc_txt || ? || taxonterm.acc_db_cd || ? || coalesce(taxonterm.secondary_nm, ?), ?)) as taxonterms, ( select string_agg(distinct anatomyterm.nm_html || ? || anatomyterm.acc_txt || ? || ia.level_seq || ? || anatomyterm.acc_db_cd || ? || anatomyterm.nm, ?)) as anatomyterms, count(distinct taxonterm.nm) taxoncount, i.ixn_prose_html ixnprosehtml, i.ixn_prose_txt ixnprose, i.sort_txt ixnsort, ( select string_agg(distinct r.acc_txt, ?)) as references, count(distinct ptr.reference_id) refcount, pt.indirect_term_qty inferredcount, count(*) over () fullrowcount from phenotype_term_reference ptr inner join phenotype_term pt on ptr.term_id = pt.term_id and ptr.phenotype_id = pt.phenotype_id inner join term associatedterm on ptr.term_id = associatedterm.id inner join term phenotypeterm on ptr.phenotype_id = phenotypeterm.id left outer join term taxonterm on ptr.taxon_id = taxonterm.id inner join reference r on ptr.reference_id = r.id inner join ixn i on ptr.ixn_id = i.id inner join object_type o on associatedterm.object_type_id = o.id left outer join ixn_anatomy ia on ptr.ixn_id = ia.ixn_id left outer join term anatomyterm on ia.anatomy_id = anatomyterm.id where ptr.term_id in ( select distinct dp.descendant_object_id from dag_path dp where dp.ancestor_object_id in ( select distinct id from term baseterm where object_type_id = ? and upper(baseterm.nm) like ?)) and ptr.term_object_type_id = ? and ptr.phenotype_id in ( select distinct dp.descendant_object_id from dag_path dp where dp.ancestor_object_id in ( select distinct id from term baseterm where object_type_id = ? and baseterm.id in ( select object_id from db_link l where l.acc_txt = ? and l.type_cd = ? and l.object_type_id = ?))) and taxonterm.id in ( select distinct dp.descendant_object_id from dag_path dp where dp.ancestor_object_id in ( select distinct id from term baseterm where object_type_id = ? and baseterm.id in ( select object_id from db_link l where l.acc_txt = ? and l.type_cd = ? and l.object_type_id = ?))) and i.id in ( select ixn_id from ixn_axn where action_type_nm = ? and action_degree_type_nm in (...)) group by associatedterm, associatedtermnmsort, phenotype, casrn, ixnid, ixnprosehtml, ixnprose, ixnsort, associatedtermid, phenotypeid, inferredcount order by associatedtermnmsort limit ?;Times Reported Time consuming queries #12
Day Hour Count Duration Avg duration Apr 18 05 1 4s71ms 4s71ms -
select distinct /* ChemPhenotypesAssnsDAO */ associatedTerm.nm || '^' || o.cd || '^' || associatedTerm.nm_html || '^' || associatedTerm.acc_txt || '^' || associatedTerm.acc_db_cd as associatedTerm, associatedTerm.id associatedTermId, ptr.ixn_id ixnId, associatedTerm.object_type_id || '|' || associatedTerm.nm_sort associatedTermNmSort, COALESCE(associatedTerm.secondary_nm, '') casRN, phenotypeTerm.nm || '^' || 'go' || '^' || phenotypeTerm.nm_html || '^' || phenotypeTerm.acc_txt || '^' || phenotypeTerm.acc_db_cd as phenotype, phenotypeTerm.id phenotypeId, ( SELECT STRING_AGG(distinct taxonTerm.nm || '^' || 'taxon' || '^' || taxonTerm.nm_html || '^' || taxonTerm.acc_txt || '^' || taxonTerm.acc_db_cd || '^' || COALESCE(taxonTerm.secondary_nm, ''), '|')) as taxonTerms, ( SELECT STRING_AGG(distinct anatomyTerm.nm_html || '^' || anatomyTerm.acc_txt || '^' || ia.level_seq || '^' || anatomyTerm.acc_db_cd || '^' || anatomyTerm.nm, '|')) as anatomyTerms, COUNT(DISTINCT taxonTerm.nm) taxonCount, i.ixn_prose_html ixnProseHtml, i.ixn_prose_txt ixnProse, i.sort_txt ixnSort, ( SELECT STRING_AGG(distinct r.acc_txt, '|')) as references, COUNT(DISTINCT ptr.reference_id) refCount, pt.indirect_term_qty inferredCount, COUNT(*) OVER () fullRowCount from phenotype_term_reference ptr inner join phenotype_term pt on ptr.term_id = pt.term_id and ptr.phenotype_id = pt.phenotype_id inner join term associatedTerm on ptr.term_id = associatedTerm.id inner join term phenotypeTerm on ptr.phenotype_id = phenotypeTerm.id left outer join term taxonTerm on ptr.taxon_id = taxonTerm.id inner join reference r on ptr.reference_id = r.id inner join ixn i on ptr.ixn_id = i.id inner join object_type o on associatedTerm.object_type_id = o.id left outer join ixn_anatomy ia on ptr.ixn_id = ia.ixn_id left outer join term anatomyTerm on ia.anatomy_id = anatomyTerm.id where ptr.term_id IN ( select /* DBConstants.getDAGTermSQL */ distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id in ( select distinct id from term baseTerm where object_type_id = 2 and upper(baseTerm.nm) LIKE 'ZINC')) and ptr.term_object_type_id = 2 and ptr.phenotype_id IN ( select /* DBConstants.getDAGTermSQL */ distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id in ( select distinct id from term baseTerm where object_type_id = 5 and baseTerm.id in ( select object_id from db_link l where l.acc_txt = 'GO:0006915' AND l.type_cd = 'A' AND l.object_type_id = 5))) and taxonTerm.id in ( select /* DBConstants.getDAGTermSQL */ distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id in ( select distinct id from term baseTerm where object_type_id = 1 and baseTerm.id in ( select object_id from db_link l where l.acc_txt = '9606' AND l.type_cd = 'A' AND l.object_type_id = 1))) and i.id in ( select ixn_id from ixn_axn where action_type_nm = 'phenotype' and action_degree_type_nm in ('increases')) group by associatedTerm, associatedTermNmSort, phenotype, casRN, ixnId, ixnProseHtml, ixnProse, ixnSort, associatedTermId, phenotypeId, inferredCount ORDER BY associatedTermNmSort LIMIT 50;
Date: 2025-04-18 05:48:45 Duration: 4s71ms Bind query: yes
13 1 4s20ms 4s20ms 4s20ms 4s20ms select g.id geneid, g.acc_txt acc, g.nm nm, g.nm nmhtml, g.secondary_nm secondarynm, g.has_chems haschems, g.has_diseases hasdiseases, g.has_exposures hasexposures, g.has_phenotypes hasphenotypes, count(*) over () fullrowcount from term g where g.id in ( select gcr.gene_id from gene_chem_reference gcr where gcr.gene_id = any (array (( select gd.gene_id from term t inner join dag_path dp on t.id = dp.ancestor_object_id inner join gene_disease gd on dp.descendant_object_id = gd.disease_id where upper(t.nm) like ? and t.object_type_id = ?))) and gcr.id in ( select gcra.gene_chem_reference_id from gene_chem_reference_axn gcra where (gcra.action_degree_type_nm = ?))) order by g.nm_sort, g.id limit ?;Times Reported Time consuming queries #13
Day Hour Count Duration Avg duration Apr 18 05 1 4s20ms 4s20ms -
SELECT /* AdvancedGeneQueryDAO.getData */ g.id geneId, g.acc_txt acc, g.nm nm, g.nm nmHtml, g.secondary_nm secondaryNm, g.has_chems hasChems, g.has_diseases hasDiseases, g.has_exposures hasExposures, g.has_phenotypes hasPhenotypes, COUNT(*) OVER () fullRowCount FROM term g WHERE g.id IN ( SELECT gcr.gene_id FROM gene_chem_reference gcr WHERE /* CIQH.getIxnWhereCore */ gcr.gene_id = ANY (ARRAY (( SELECT /* IQH.getMasterDiseaseWhereEquals.Name.Gene */ gd.gene_id FROM term t INNER JOIN dag_path dp ON t.id = dp.ancestor_object_id INNER JOIN gene_disease gd ON dp.descendant_object_id = gd.disease_id WHERE UPPER(t.nm) LIKE 'ASTHMA' AND t.object_type_id = 3))) AND gcr.id IN ( SELECT gcra.gene_chem_reference_id FROM gene_chem_reference_axn gcra WHERE (gcra.action_degree_type_nm = 'increases'))) ORDER BY g.nm_sort, g.id LIMIT 50;
Date: 2025-04-18 05:47:25 Duration: 4s20ms Bind query: yes
14 1 3s349ms 3s349ms 3s349ms 3s349ms select g.nm genesymbol, g.id geneid, g.acc_txt geneacc, g.acc_db_cd geneaccdbcd, c.nm chemnm, c.nm_html chemnmhtml, c.acc_txt chemacc, c.secondary_nm casrn, c.id chemid, i.id ixnid, i.ixn_prose_txt ixnprose, i.ixn_prose_html ixnprosehtml, i.actions_txt ixnactions, count(distinct gcr.reference_id) refcount, count(distinct gcr.taxon_id) taxoncount, count(*) over () fullrowcount from gene_chem_reference gcr inner join ixn i on gcr.ixn_id = i.id inner join term g on gcr.gene_id = g.id inner join term c on gcr.chem_id = c.id where gcr.gene_id = any (array (( select tp.term_id from term_pathway tp where upper(tp.pathway_nm) like ? and tp.object_type_id = ?))) and gcr.id in ( select gcra.gene_chem_reference_id from gene_chem_reference_axn gcra where (gcra.action_degree_type_nm = ?)) group by g.nm, g.nm_sort, g.acc_txt, g.acc_db_cd, g.id, c.nm, c.nm_html, c.nm_sort, c.acc_txt, c.secondary_nm, c.id, i.ixn_prose_txt, i.ixn_prose_html, i.sort_txt, i.actions_txt, i.id order by g.nm_sort, c.nm_sort, i.sort_txt limit ?;Times Reported Time consuming queries #14
Day Hour Count Duration Avg duration Apr 18 05 1 3s349ms 3s349ms -
SELECT /* AdvancedIxnQueryDAO.getData */ g.nm geneSymbol, g.id geneId, g.acc_txt geneAcc, g.acc_db_cd geneAccDbCd, c.nm chemNm, c.nm_html chemNmhtml, c.acc_txt chemAcc, c.secondary_nm casRN, c.id chemId, i.id ixnId, i.ixn_prose_txt ixnProse, i.ixn_prose_html ixnProseHtml, i.actions_txt ixnActions, COUNT(DISTINCT gcr.reference_id) refCount, COUNT(DISTINCT gcr.taxon_id) taxonCount, COUNT(*) OVER () fullRowCount FROM gene_chem_reference gcr INNER JOIN ixn i ON gcr.ixn_id = i.id INNER JOIN term g ON gcr.gene_id = g.id INNER JOIN term c ON gcr.chem_id = c.id WHERE /* CIQH.getIxnWhereCore */ gcr.gene_id = ANY (ARRAY (( SELECT /* IQH.getMasterPathwayWhereEquals.Name */ tp.term_id FROM term_pathway tp WHERE UPPER(tp.pathway_nm) LIKE 'METABOLISM' AND tp.object_type_id = 4))) AND gcr.id IN ( SELECT gcra.gene_chem_reference_id FROM gene_chem_reference_axn gcra WHERE (gcra.action_degree_type_nm = 'increases')) GROUP BY g.nm, g.nm_sort, g.acc_txt, g.acc_db_cd, g.id, c.nm, c.nm_html, c.nm_sort, c.acc_txt, c.secondary_nm, c.id, i.ixn_prose_txt, i.ixn_prose_html, i.sort_txt, i.actions_txt, i.id ORDER BY g.nm_sort, c.nm_sort, i.sort_txt LIMIT 50;
Date: 2025-04-18 05:47:33 Duration: 3s349ms Bind query: yes
15 1 2s39ms 2s39ms 2s39ms 2s39ms with cte as ( select *, row_number() over (partition by id order by id asc) as rownum from log_query_bots ) select count(*) from cte where rownum < ?;Times Reported Time consuming queries #15
Day Hour Count Duration Avg duration Apr 18 13 1 2s39ms 2s39ms -
WITH CTE AS ( SELECT *, ROW_NUMBER() OVER (PARTITION BY id ORDER BY ID ASC) AS RowNum FROM log_query_bots ) SELECT count(*) FROM CTE WHERE RowNum < 2;
Date: 2025-04-18 13:30:33 Duration: 2s39ms
16 1 1s760ms 1s760ms 1s760ms 1s760ms with cte as ( select id, row_number() over (partition by id order by id asc) as rownum from log_query_bots) insert into test_cte ( select id from cte where rownum > ?);Times Reported Time consuming queries #16
Day Hour Count Duration Avg duration Apr 18 13 1 1s760ms 1s760ms -
WITH CTE AS ( SELECT ID, ROW_NUMBER() OVER (PARTITION BY id ORDER BY ID ASC) AS RowNum FROM log_query_bots) insert into test_cte ( SELECT ID FROM CTE WHERE RowNum > 1);
Date: 2025-04-18 13:03:13 Duration: 1s760ms
17 1 1s564ms 1s564ms 1s564ms 1s564ms select g.id geneid, g.acc_txt acc, g.nm nm, g.nm nmhtml, g.secondary_nm secondarynm, g.has_chems haschems, g.has_diseases hasdiseases, g.has_exposures hasexposures, g.has_phenotypes hasphenotypes, count(*) over () fullrowcount from term g where g.id in ( select gcr.gene_id from gene_chem_reference gcr where gcr.taxon_id = any (array ( select dp.descendant_object_id from term t inner join dag_path dp on t.id = dp.ancestor_object_id where upper(t.nm) like ? and t.object_type_id = ?)) and gcr.id in ( select gcra.gene_chem_reference_id from gene_chem_reference_axn gcra where (gcra.action_degree_type_nm = ?))) order by g.nm_sort, g.id limit ?;Times Reported Time consuming queries #17
Day Hour Count Duration Avg duration Apr 18 05 1 1s564ms 1s564ms -
SELECT /* AdvancedGeneQueryDAO.getData */ g.id geneId, g.acc_txt acc, g.nm nm, g.nm nmHtml, g.secondary_nm secondaryNm, g.has_chems hasChems, g.has_diseases hasDiseases, g.has_exposures hasExposures, g.has_phenotypes hasPhenotypes, COUNT(*) OVER () fullRowCount FROM term g WHERE g.id IN ( SELECT gcr.gene_id FROM gene_chem_reference gcr WHERE /* CIQH.getIxnWhereCore */ gcr.taxon_id = ANY (ARRAY ( SELECT /* CIQH.getIxnTaxonWhereEquals.Name */ dp.descendant_object_id FROM term t INNER JOIN dag_path dp ON t.id = dp.ancestor_object_id WHERE UPPER(t.nm) LIKE 'FELIS CATUS' AND t.object_type_id = 1)) AND gcr.id IN ( SELECT gcra.gene_chem_reference_id FROM gene_chem_reference_axn gcra WHERE (gcra.action_degree_type_nm = 'increases'))) ORDER BY g.nm_sort, g.id LIMIT 50;
Date: 2025-04-18 05:47:28 Duration: 1s564ms Bind query: yes
18 1 1s504ms 1s504ms 1s504ms 1s504ms select t.nm, t.nm_html nmhtml, t.secondary_nm secondarynm, t.acc_txt acc, ? || t.nm accquerystr, t.has_chems haschems, t.has_diseases hasdiseases, t.has_exposures hasexposures, t.has_phenotypes hasphenotypes, count(*) over () fullrowcount from term t where t.object_type_id = ? and regexp_replace(upper(substring(t.nm, ?, ?)), ?, ?) = ? order by t.nm_sort limit ?;Times Reported Time consuming queries #18
Day Hour Count Duration Avg duration Apr 18 05 1 1s504ms 1s504ms -
SELECT /* GeneBrowseTermsDAO */ t.nm, t.nm_html nmHtml, t.secondary_nm secondaryNm, t.acc_txt acc, 'name:' || t.nm accQueryStr, t.has_chems hasChems, t.has_diseases hasDiseases, t.has_exposures hasExposures, t.has_phenotypes hasPhenotypes, COUNT(*) OVER () fullRowCount FROM term t WHERE t.object_type_id = '4' AND REGEXP_REPLACE(UPPER(SUBSTRING(t.nm, 1, 1)), '[^A-Z]', '#') = 'A' ORDER BY t.nm_sort LIMIT 100;
Date: 2025-04-18 05:47:09 Duration: 1s504ms Bind query: yes
19 1 1s440ms 1s440ms 1s440ms 1s440ms select coalesce(d.abbr_display, d.nm_display) nm # ?, d.description # ?, coalesce(d.abbr, d.nm) anchor # ?, get_homepage_url (d.id) url # ? from db d # ? where d.id in (# ? select l.db_id # ? from db_link l # ? where l.type_cd = ? # ? and l.object_type_id = ?) # ? order by ?;Times Reported Time consuming queries #19
Day Hour Count Duration Avg duration Apr 18 05 1 1s440ms 1s440ms -
SELECT COALESCE(d.abbr_display, d.nm_display) nm # 015, d.description # 015, COALESCE(d.abbr, d.nm) anchor # 015, get_homepage_url (d.id) url # 015 FROM db d # 015 WHERE d.id IN (# 015 SELECT l.db_id # 015 FROM db_link l # 015 WHERE l.type_cd = 'X' # 015 AND l.object_type_id = 4) # 015 ORDER BY 1;
Date: 2025-04-18 05:48:31 Duration: 1s440ms Bind query: yes
20 1 1s400ms 1s400ms 1s400ms 1s400ms select distinct stressorterm.nm as chemnm, stressorterm.nm_html as chemnmhtml, stressorterm.nm_sort as chemnmsort, stressorterm.acc_txt as chemacc, ( select string_agg(distinct stressorsrctype.nm || ? || stressorsrctype.cd, ?)) as stressorsrctypenm, stressor.src_details as stressorsrcdetails, stressor.sample_qty as stressorsampleqty, stressor.note as stressornote, receptor.qty as nbrreceptors, receptor.description as receptors, receptor.note as receptornotes, receptorterm.nm || ? || ( select cd from object_type where id = receptor.object_type_id) || ? || receptorterm.nm_html || ? || receptorterm.acc_txt || ? || receptorterm.acc_db_cd as receptorterms, ( select string_agg(distinct receptortobaccouse.tobacco_use_nm || ? || receptortobaccouse.pct, ?)) as smokerstatus, receptor.age as agerange, receptor.age_uom_nm as ageuomnm, receptor.age_qualifier_nm as agequalifiernm, receptor.gender_nm as gendernmsearch, receptor.id receptorid, ( select string_agg(pct || ? || gender_nm || ? || gender_nm_html, ?) from exp_receptor_gender where exp_receptor_id = receptor.id) as genderdetails, ( select string_agg(distinct receptorrace.race_nm || ? || receptorrace.pct, ?)) as receptorrace, ( select string_agg(distinct eventassaymethod.nm, ?)) as assaymethods, event.medium_nm as medium, event.medium_term_acc_txt as mediumacctxt, ( select string_agg(distinct eventproject.project_nm, ?)) as associatedstudytitles, event.collection_start_yr || ? || event.collection_end_yr as collectionstartandendyr, event.detection_limit as detectionlimit, event.detection_limit_uom as detectionlimituom, event.detection_freq as detectionfreq, event.note as eventnote, ( select string_agg(distinct eventlocation.geographic_region_nm, ?)) as stateorprovince, ( select string_agg(distinct eventlocation.locality_txt, ?)) as localitytxt, ( select string_agg(distinct country.nm, ?)) as studycountries, exposuremarkerterm.nm || ? || ( select cd from object_type where id = exposuremarkerterm.object_type_id) || ? || exposuremarkerterm.nm_html || ? || exposuremarkerterm.acc_txt || ? || exposuremarkerterm.acc_db_cd as assayedmarkers, event.exp_marker_lvl as assaylevel, assay_uom as measurement, assay_measurement_stat as measurementstat, assay_note as assaynote, eiot.description as outcomerltnp, diseaseterm.nm || ? || ? || ? || diseaseterm.nm_html || ? || diseaseterm.acc_txt || ? || diseaseterm.acc_db_cd as diseasefield, phenotypeterm.nm || ? || ? || ? || phenotypeterm.nm_html || ? || phenotypeterm.acc_txt || ? || phenotypeterm.acc_db_cd as phenotypefield, outcome.phenotype_action_degree_type_nm as phenotypeactiondegreetypenm, e.reference_acc_txt || ? || r.abbr_authors_txt || ? || r.pub_start_yr as ref, r.abbr_authors_txt as abbrauthorstxt, ( select string_agg(distinct expstudyfactor.study_factor_nm, ?)) as studyfactornms, ( select string_agg(distinct anatomyterm.nm_html || ? || anatomyterm.acc_txt || ? || anatomyterm.id || ? || anatomyterm.acc_db_cd || ? || anatomyterm.nm, ?)) as anatomyterms, outcome.note as outcomenote, eventlocation.exp_event_id as eventid, count(*) over () fullrowcount from exposure e inner join exp_stressor stressor on e.exp_stressor_id = stressor.id inner join term stressorterm on stressor.chem_id = stressorterm.id left outer join exp_receptor receptor on e.exp_receptor_id = receptor.id left outer join exp_event event on e.exp_event_id = event.id left outer join term exposuremarkerterm on event.exp_marker_term_id = exposuremarkerterm.id left outer join exp_outcome outcome on e.exp_outcome_id = outcome.id left outer join exp_outcome_ixn_type eiot on outcome.exp_outcome_ixn_type_id = eiot.id left outer join term diseaseterm on outcome.disease_id = diseaseterm.id left outer join term phenotypeterm on outcome.phenotype_id = phenotypeterm.id left outer join term receptorterm on receptor.term_id = receptorterm.id inner join reference r on e.reference_id = r.id left outer join exp_stressor_stressor_src esss on stressor.id = esss.exp_stressor_id left outer join exp_stressor_src_type stressorsrctype on esss.exp_stressor_src_type_id = stressorsrctype.id left outer join exp_receptor_tobacco_use receptortobaccouse on receptor.id = receptortobaccouse.exp_receptor_id left outer join exp_receptor_race receptorrace on receptor.id = receptorrace.exp_receptor_id left outer join exp_event_assay_method eventassaymethod on event.id = eventassaymethod.exp_event_id left outer join exp_event_location eventlocation on event.id = eventlocation.exp_event_id left outer join exp_anatomy expanatomy on outcome.id = expanatomy.exp_outcome_id left outer join term anatomyterm on expanatomy.anatomy_id = anatomyterm.id left outer join country on eventlocation.country_id = country.id left outer join exp_event_project eventproject on event.id = eventproject.exp_event_id left outer join reference_exp referenceexp on e.reference_acc_txt = referenceexp.reference_acc_txt and e.reference_acc_db_id = referenceexp.reference_acc_db_id left outer join exp_study_factor expstudyfactor on referenceexp.id = expstudyfactor.reference_exp_id where outcome.disease_id in ( select descendant_object_id from dag_path where ancestor_object_id = ?) or receptorterm.id in ( select descendant_object_id from dag_path where ancestor_object_id = ?) group by chemnm, chemnmhtml, chemnmsort, chemacc, stressorsrcdetails, stressorsampleqty, stressornote, receptorterms, medium, mediumacctxt, assayedmarkers, assaylevel, measurement, measurementstat, assaynote, outcomerltnp, diseasefield, phenotypefield, phenotypeactiondegreetypenm, ref, r.abbr_authors_txt, collectionstartandendyr, receptorid, detectionlimit, detectionlimituom, detectionfreq, eventnote, outcomenote, eventid order by chemnmsort limit ?;Times Reported Time consuming queries #20
Day Hour Count Duration Avg duration Apr 18 05 1 1s400ms 1s400ms [ User: pubeu - Total duration: 1s400ms - Times executed: 1 ]
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SELECT DISTINCT stressorTerm.nm as chemNm, stressorTerm.nm_html as chemNmHtml, stressorTerm.nm_sort as chemNmSort, stressorTerm.acc_txt as chemAcc, ( SELECT STRING_AGG(distinct stressorSrcType.nm || '^' || stressorSrcType.cd, '|')) as stressorSrcTypeNm, stressor.src_details as stressorSrcDetails, stressor.sample_qty as stressorSampleQty, stressor.note as stressorNote, receptor.qty as nbrReceptors, receptor.description as receptors, receptor.note as receptorNotes, receptorTerm.nm || '^' || ( select cd from object_type where id = receptor.object_type_id) || '^' || receptorTerm.nm_html || '^' || receptorTerm.acc_txt || '^' || receptorTerm.acc_db_cd as receptorTerms, ( SELECT STRING_AGG(distinct receptorTobaccoUse.tobacco_use_nm || '^' || receptorTobaccoUse.pct, ' | ')) as smokerStatus, receptor.age as ageRange, receptor.age_uom_nm as ageUOMNm, receptor.age_qualifier_nm as ageQualifierNm, receptor.gender_nm as genderNmSearch, receptor.id receptorID, ( SELECT STRING_AGG(pct || '^' || gender_nm || '^' || gender_nm_html, '|') from exp_receptor_gender where exp_receptor_id = receptor.id) as genderDetails, ( SELECT STRING_AGG(DISTINCT receptorRace.race_nm || '^' || receptorRace.pct, ' | ')) as receptorRace, ( SELECT STRING_AGG(DISTINCT eventAssayMethod.nm, ' | ')) as assayMethods, event.medium_nm as medium, event.medium_term_acc_txt as mediumAccTxt, ( SELECT STRING_AGG(DISTINCT eventProject.project_nm, ' | ')) as associatedStudyTitles, event.collection_start_yr || '-' || event.collection_end_yr as collectionStartAndEndYr, event.detection_limit as detectionLimit, event.detection_limit_uom as detectionLimitUOM, event.detection_freq as detectionFreq, event.note as eventNote, ( SELECT STRING_AGG(DISTINCT eventLocation.geographic_region_nm, ' | ')) as stateOrProvince, ( SELECT STRING_AGG(DISTINCT eventLocation.locality_txt, ' | ')) as localityTxt, ( SELECT STRING_AGG(distinct country.nm, ' | ')) as studyCountries, exposureMarkerTerm.nm || '^' || ( select cd from object_type where id = exposureMarkerTerm.object_type_id) || '^' || exposureMarkerTerm.nm_html || '^' || exposureMarkerTerm.acc_txt || '^' || exposureMarkerTerm.acc_db_cd as assayedMarkers, event.exp_marker_lvl as assayLevel, assay_uom as measurement, assay_measurement_stat as measurementStat, assay_note as assayNote, eiot.description as outcomeRltnp, diseaseTerm.nm || '^' || 'disease' || '^' || diseaseTerm.nm_html || '^' || diseaseTerm.acc_txt || '^' || diseaseTerm.acc_db_cd as diseaseField, phenotypeTerm.nm || '^' || 'go' || '^' || phenotypeTerm.nm_html || '^' || phenotypeTerm.acc_txt || '^' || phenotypeTerm.acc_db_cd as phenotypeField, outcome.phenotype_action_degree_type_nm as phenotypeActionDegreeTypeNm, e.reference_acc_txt || '^' || r.abbr_authors_txt || '^' || r.pub_start_yr as ref, r.abbr_authors_txt as abbrAuthorsTxt, ( SELECT STRING_AGG(DISTINCT expStudyFactor.study_factor_nm, ' | ')) as studyFactorNms, ( SELECT STRING_AGG(distinct anatomyTerm.nm_html || '^' || anatomyTerm.acc_txt || '^' || anatomyTerm.id || '^' || anatomyTerm.acc_db_cd || '^' || anatomyTerm.nm, '|')) as anatomyTerms, outcome.note as outcomeNote, eventLocation.exp_event_id as eventID, COUNT(*) OVER () fullRowCount FROM exposure e inner join exp_stressor stressor ON e.exp_stressor_id = stressor.id inner join term stressorTerm ON stressor.chem_id = stressorTerm.id left outer join exp_receptor receptor ON e.exp_receptor_id = receptor.id left outer join exp_event event ON e.exp_event_id = event.id left outer join term exposureMarkerTerm ON event.exp_marker_term_id = exposureMarkerTerm.id left outer join exp_outcome outcome ON e.exp_outcome_id = outcome.id left outer join exp_outcome_ixn_type eiot ON outcome.exp_outcome_ixn_type_id = eiot.id left outer join term diseaseTerm ON outcome.disease_id = diseaseTerm.id left outer join term phenotypeTerm ON outcome.phenotype_id = phenotypeTerm.id left outer join term receptorTerm ON receptor.term_id = receptorTerm.id inner join reference r ON e.reference_id = r.id left outer join exp_stressor_stressor_src esss ON stressor.id = esss.exp_stressor_id left outer join exp_stressor_src_type stressorSrcType ON esss.exp_stressor_src_type_id = stressorSrcType.id left outer join exp_receptor_tobacco_use receptorTobaccoUse ON receptor.id = receptorTobaccoUse.exp_receptor_id left outer join exp_receptor_race receptorRace ON receptor.id = receptorRace.exp_receptor_id left outer join exp_event_assay_method eventAssayMethod ON event.id = eventAssayMethod.exp_event_id left outer join exp_event_location eventLocation ON event.id = eventLocation.exp_event_id left outer join exp_anatomy expAnatomy ON outcome.id = expAnatomy.exp_outcome_id Left outer join term anatomyTerm ON expAnatomy.anatomy_id = anatomyTerm.id left outer join country ON eventLocation.country_id = country.id left outer join exp_event_project eventProject ON event.id = eventProject.exp_event_id left outer join reference_exp referenceExp on e.reference_acc_txt = referenceExp.reference_acc_txt and e.reference_acc_db_id = referenceExp.reference_acc_db_id left outer join exp_study_factor expStudyFactor on referenceExp.id = expStudyFactor.reference_exp_id where outcome.disease_id in ( select descendant_object_id from dag_path where ancestor_object_id = '2090328') or receptorTerm.id in ( select descendant_object_id from dag_path where ancestor_object_id = '2090328') GROUP BY chemNm, chemNmHtml, chemNmSort, chemAcc, stressorSrcDetails, stressorSampleQty, stressorNote, receptorTerms, medium, mediumAccTxt, assayedMarkers, assayLevel, measurement, measurementStat, assayNote, outcomeRltnp, diseaseField, phenotypeField, phenotypeActionDegreeTypeNm, ref, r.abbr_authors_txt, collectionStartAndEndYr, receptorID, detectionLimit, detectionLimitUOM, detectionFreq, eventNote, outcomeNote, eventID order by chemNmSort LIMIT 50;
Date: 2025-04-18 05:48:40 Duration: 1s400ms Database: ctddev51 User: pubeu Bind query: yes
Normalized slowest queries (N)
Rank Min duration Max duration Avg duration Times executed Total duration Query 1 31m25s 31m25s 31m25s 1 31m25s select maint_cached_value_refresh_data_metrics ();Times Reported Time consuming queries #1
Day Hour Count Duration Avg duration Apr 18 13 1 31m25s 31m25s -
select maint_cached_value_refresh_data_metrics ();
Date: 2025-04-18 13:49:41 Duration: 31m25s
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select maint_cached_value_refresh_data_metrics ();
Date: 2025-04-18 13:12:23 Duration: 0ms
2 4m15s 4m15s 4m15s 1 4m15s select maint_query_logs_archive ();Times Reported Time consuming queries #2
Day Hour Count Duration Avg duration Apr 18 11 1 4m15s 4m15s -
select maint_query_logs_archive ();
Date: 2025-04-18 11:03:14 Duration: 4m15s
3 4m13s 4m13s 4m13s 1 4m13s select prune_log_query_archive ();Times Reported Time consuming queries #3
Day Hour Count Duration Avg duration Apr 18 11 1 4m13s 4m13s -
select prune_log_query_archive ();
Date: 2025-04-18 11:12:42 Duration: 4m13s
4 4s404ms 4s404ms 4s404ms 1 4s404ms select ? "Input", sqi.chem_nm "ChemicalName", sqi.chem_acc_txt "ChemicalID", sqi.casrn "CasRN", sqi.gene_symbol "GeneSymbol", sqi.gene_acc_txt "GeneID", sqi.ontology_nm "Ontology", sqi.go_term_nm "GoTermName", sqi.go_acc_txt "GoTermID" from ( with sq as ( select distinct c.id chem_id, c.nm chem_nm, c.acc_txt chem_acc_txt, c.secondary_nm casrn, c.nm_sort chem_nm_sort, gcr.gene_id, g.nm gene_symbol, g.acc_txt gene_acc_txt, g.nm_sort gene_symbol_sort from term c inner join gene_chem_reference gcr on c.id = gcr.chem_id inner join term g on gcr.gene_id = g.id where (c.id = ?)) select distinct sq.chem_nm, sq.chem_acc_txt, sq.casrn, sq.gene_symbol, sq.gene_acc_txt, gt.nm go_term_nm, gt.acc_txt go_acc_txt, sq.chem_nm_sort, sq.gene_symbol_sort, gt.nm_sort, d.nm ontology_nm from sq inner join gene_go_annot gga on sq.gene_id = gga.gene_id inner join dag_node gt on gga.go_term_id = gt.object_id inner join dag d on gt.dag_id = d.id where gga.is_not = false and (d.id = ? or d.id = ?) order by sq.chem_nm_sort, sq.gene_symbol_sort, d.nm, gt.nm_sort) sqi;Times Reported Time consuming queries #4
Day Hour Count Duration Avg duration Apr 18 05 1 4s404ms 4s404ms [ User: pubeu - Total duration: 4s404ms - Times executed: 1 ]
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SELECT /* BatchChemGODAO */ 'ddt' "Input", sqi.chem_nm "ChemicalName", sqi.chem_acc_txt "ChemicalID", sqi.casRN "CasRN", sqi.gene_symbol "GeneSymbol", sqi.gene_acc_txt "GeneID", sqi.ontology_nm "Ontology", sqi.go_term_nm "GoTermName", sqi.go_acc_txt "GoTermID" FROM ( WITH sq AS ( SELECT DISTINCT c.id chem_id, c.nm chem_nm, c.acc_txt chem_acc_txt, c.secondary_nm casRN, c.nm_sort chem_nm_sort, gcr.gene_id, g.nm gene_symbol, g.acc_txt gene_acc_txt, g.nm_sort gene_symbol_sort FROM term c INNER JOIN gene_chem_reference gcr ON c.id = gcr.chem_id INNER JOIN term g ON gcr.gene_id = g.id WHERE (c.id = 1308127)) SELECT DISTINCT sq.chem_nm, sq.chem_acc_txt, sq.casRN, sq.gene_symbol, sq.gene_acc_txt, gt.nm go_term_nm, gt.acc_txt go_acc_txt, sq.chem_nm_sort, sq.gene_symbol_sort, gt.nm_sort, d.nm ontology_nm FROM sq INNER JOIN gene_go_annot gga ON sq.gene_id = gga.gene_id INNER JOIN dag_node gt ON gga.go_term_id = gt.object_id INNER JOIN dag d ON gt.dag_id = d.id WHERE gga.is_not = false AND (d.id = 5 OR d.id = 4) ORDER BY sq.chem_nm_sort, sq.gene_symbol_sort, d.nm, gt.nm_sort) sqi;
Date: 2025-04-18 05:48:25 Duration: 4s404ms Database: ctddev51 User: pubeu Bind query: yes
5 4s337ms 4s337ms 4s337ms 1 4s337ms select distinct associatedterm.nm || ? || o.cd || ? || associatedterm.nm_html || ? || associatedterm.acc_txt || ? || associatedterm.acc_db_cd as associatedterm, associatedterm.id associatedtermid, ptr.ixn_id ixnid, associatedterm.object_type_id || ? || associatedterm.nm_sort associatedtermnmsort, coalesce(associatedterm.secondary_nm, ?) casrn, phenotypeterm.nm || ? || ? || ? || phenotypeterm.nm_html || ? || phenotypeterm.acc_txt || ? || phenotypeterm.acc_db_cd as phenotype, phenotypeterm.id phenotypeid, ( select string_agg(distinct taxonterm.nm || ? || ? || ? || taxonterm.nm_html || ? || taxonterm.acc_txt || ? || taxonterm.acc_db_cd || ? || coalesce(taxonterm.secondary_nm, ?), ?)) as taxonterms, ( select string_agg(distinct anatomyterm.nm_html || ? || anatomyterm.acc_txt || ? || ia.level_seq || ? || anatomyterm.acc_db_cd || ? || anatomyterm.nm, ?)) as anatomyterms, count(distinct taxonterm.nm) taxoncount, i.ixn_prose_html ixnprosehtml, i.ixn_prose_txt ixnprose, i.sort_txt ixnsort, ( select string_agg(distinct r.acc_txt, ?)) as references, count(distinct ptr.reference_id) refcount, pt.indirect_term_qty inferredcount, count(*) over () fullrowcount from phenotype_term_reference ptr inner join phenotype_term pt on ptr.term_id = pt.term_id and ptr.phenotype_id = pt.phenotype_id inner join term associatedterm on ptr.term_id = associatedterm.id inner join term phenotypeterm on ptr.phenotype_id = phenotypeterm.id left outer join term taxonterm on ptr.taxon_id = taxonterm.id inner join reference r on ptr.reference_id = r.id inner join ixn i on ptr.ixn_id = i.id inner join object_type o on associatedterm.object_type_id = o.id left outer join ixn_anatomy ia on ptr.ixn_id = ia.ixn_id left outer join term anatomyterm on ia.anatomy_id = anatomyterm.id where ptr.term_id in ( select distinct dp.descendant_object_id from dag_path dp where dp.ancestor_object_id in ( select distinct id from term baseterm where object_type_id = ? and upper(baseterm.nm) like ?)) and ptr.term_object_type_id = ? and ptr.phenotype_id in ( select distinct dp.descendant_object_id from dag_path dp where dp.ancestor_object_id in ( select distinct id from term baseterm where object_type_id = ? and baseterm.id in ( select object_id from db_link l where l.acc_txt = ? and l.type_cd = ? and l.object_type_id = ?))) and i.id in ( select ixn_id from ixn_anatomy where anatomy_id in ( select distinct dp.descendant_object_id from dag_path dp where dp.ancestor_object_id in ( select distinct id from term baseterm where object_type_id = ? and upper(baseterm.nm) like ?))) and taxonterm.id in ( select distinct dp.descendant_object_id from dag_path dp where dp.ancestor_object_id in ( select distinct id from term baseterm where object_type_id = ? and baseterm.id in ( select object_id from db_link l where l.acc_txt = ? and l.type_cd = ? and l.object_type_id = ?))) and i.id in ( select ixn_id from ixn_axn where action_type_nm = ? and action_degree_type_nm in (...)) group by associatedterm, associatedtermnmsort, phenotype, casrn, ixnid, ixnprosehtml, ixnprose, ixnsort, associatedtermid, phenotypeid, inferredcount order by associatedtermnmsort limit ?;Times Reported Time consuming queries #5
Day Hour Count Duration Avg duration Apr 18 05 1 4s337ms 4s337ms -
select distinct /* ChemPhenotypesAssnsDAO */ associatedTerm.nm || '^' || o.cd || '^' || associatedTerm.nm_html || '^' || associatedTerm.acc_txt || '^' || associatedTerm.acc_db_cd as associatedTerm, associatedTerm.id associatedTermId, ptr.ixn_id ixnId, associatedTerm.object_type_id || '|' || associatedTerm.nm_sort associatedTermNmSort, COALESCE(associatedTerm.secondary_nm, '') casRN, phenotypeTerm.nm || '^' || 'go' || '^' || phenotypeTerm.nm_html || '^' || phenotypeTerm.acc_txt || '^' || phenotypeTerm.acc_db_cd as phenotype, phenotypeTerm.id phenotypeId, ( SELECT STRING_AGG(distinct taxonTerm.nm || '^' || 'taxon' || '^' || taxonTerm.nm_html || '^' || taxonTerm.acc_txt || '^' || taxonTerm.acc_db_cd || '^' || COALESCE(taxonTerm.secondary_nm, ''), '|')) as taxonTerms, ( SELECT STRING_AGG(distinct anatomyTerm.nm_html || '^' || anatomyTerm.acc_txt || '^' || ia.level_seq || '^' || anatomyTerm.acc_db_cd || '^' || anatomyTerm.nm, '|')) as anatomyTerms, COUNT(DISTINCT taxonTerm.nm) taxonCount, i.ixn_prose_html ixnProseHtml, i.ixn_prose_txt ixnProse, i.sort_txt ixnSort, ( SELECT STRING_AGG(distinct r.acc_txt, '|')) as references, COUNT(DISTINCT ptr.reference_id) refCount, pt.indirect_term_qty inferredCount, COUNT(*) OVER () fullRowCount from phenotype_term_reference ptr inner join phenotype_term pt on ptr.term_id = pt.term_id and ptr.phenotype_id = pt.phenotype_id inner join term associatedTerm on ptr.term_id = associatedTerm.id inner join term phenotypeTerm on ptr.phenotype_id = phenotypeTerm.id left outer join term taxonTerm on ptr.taxon_id = taxonTerm.id inner join reference r on ptr.reference_id = r.id inner join ixn i on ptr.ixn_id = i.id inner join object_type o on associatedTerm.object_type_id = o.id left outer join ixn_anatomy ia on ptr.ixn_id = ia.ixn_id left outer join term anatomyTerm on ia.anatomy_id = anatomyTerm.id where ptr.term_id IN ( select /* DBConstants.getDAGTermSQL */ distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id in ( select distinct id from term baseTerm where object_type_id = 2 and upper(baseTerm.nm) LIKE 'ACETYLCYSTEINE')) and ptr.term_object_type_id = 2 and ptr.phenotype_id IN ( select /* DBConstants.getDAGTermSQL */ distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id in ( select distinct id from term baseTerm where object_type_id = 5 and baseTerm.id in ( select object_id from db_link l where l.acc_txt = 'GO:0006979' AND l.type_cd = 'A' AND l.object_type_id = 5))) and i.id in ( select ixn_id from ixn_anatomy where anatomy_id IN ( select /* DBConstants.getDAGTermSQL */ distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id in ( select distinct id from term baseTerm where object_type_id = 10 and upper(baseTerm.nm) LIKE 'CARDIOVASCULAR SYSTEM'))) and taxonTerm.id in ( select /* DBConstants.getDAGTermSQL */ distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id in ( select distinct id from term baseTerm where object_type_id = 1 and baseTerm.id in ( select object_id from db_link l where l.acc_txt = '9605' AND l.type_cd = 'A' AND l.object_type_id = 1))) and i.id in ( select ixn_id from ixn_axn where action_type_nm = 'phenotype' and action_degree_type_nm in ('increases')) group by associatedTerm, associatedTermNmSort, phenotype, casRN, ixnId, ixnProseHtml, ixnProse, ixnSort, associatedTermId, phenotypeId, inferredCount ORDER BY associatedTermNmSort LIMIT 50;
Date: 2025-04-18 05:48:49 Duration: 4s337ms Bind query: yes
6 4s192ms 4s192ms 4s192ms 1 4s192ms select gcr.ixn_id, null, null, null from gene_chem_reference gcr where gcr.gene_id = any (array (( select gd.gene_id from term t inner join dag_path dp on t.id = dp.ancestor_object_id inner join gene_disease gd on dp.descendant_object_id = gd.disease_id where upper(t.nm) like ? and t.object_type_id = ?))) and gcr.id in ( select gcra.gene_chem_reference_id from gene_chem_reference_axn gcra where (gcra.action_degree_type_nm = ?));Times Reported Time consuming queries #6
Day Hour Count Duration Avg duration Apr 18 05 1 4s192ms 4s192ms [ User: pubeu - Total duration: 4s192ms - Times executed: 1 ]
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SELECT /* CIQH.getIxnCacheQuery */ gcr.ixn_id, NULL, NULL, NULL FROM gene_chem_reference gcr WHERE /* CIQH.getIxnWhereCore */ gcr.gene_id = ANY (ARRAY (( SELECT /* IQH.getMasterDiseaseWhereEquals.Name.Gene */ gd.gene_id FROM term t INNER JOIN dag_path dp ON t.id = dp.ancestor_object_id INNER JOIN gene_disease gd ON dp.descendant_object_id = gd.disease_id WHERE UPPER(t.nm) LIKE 'ASTHMA' AND t.object_type_id = 3))) AND gcr.id IN ( SELECT gcra.gene_chem_reference_id FROM gene_chem_reference_axn gcra WHERE (gcra.action_degree_type_nm = 'increases'));
Date: 2025-04-18 05:47:20 Duration: 4s192ms Database: ctddev51 User: pubeu Bind query: yes
7 4s139ms 4s139ms 4s139ms 1 4s139ms with cte as ( select *, row_number() over (partition by id order by id asc) as rownum from log_query_bots ) select * from cte where rownum > ?;Times Reported Time consuming queries #7
Day Hour Count Duration Avg duration Apr 18 13 1 4s139ms 4s139ms -
WITH CTE AS ( SELECT *, ROW_NUMBER() OVER (PARTITION BY id ORDER BY ID ASC) AS RowNum FROM log_query_bots ) SELECT * FROM CTE WHERE RowNum > 1;
Date: 2025-04-18 13:31:34 Duration: 4s139ms
8 4s71ms 4s71ms 4s71ms 1 4s71ms select distinct associatedterm.nm || ? || o.cd || ? || associatedterm.nm_html || ? || associatedterm.acc_txt || ? || associatedterm.acc_db_cd as associatedterm, associatedterm.id associatedtermid, ptr.ixn_id ixnid, associatedterm.object_type_id || ? || associatedterm.nm_sort associatedtermnmsort, coalesce(associatedterm.secondary_nm, ?) casrn, phenotypeterm.nm || ? || ? || ? || phenotypeterm.nm_html || ? || phenotypeterm.acc_txt || ? || phenotypeterm.acc_db_cd as phenotype, phenotypeterm.id phenotypeid, ( select string_agg(distinct taxonterm.nm || ? || ? || ? || taxonterm.nm_html || ? || taxonterm.acc_txt || ? || taxonterm.acc_db_cd || ? || coalesce(taxonterm.secondary_nm, ?), ?)) as taxonterms, ( select string_agg(distinct anatomyterm.nm_html || ? || anatomyterm.acc_txt || ? || ia.level_seq || ? || anatomyterm.acc_db_cd || ? || anatomyterm.nm, ?)) as anatomyterms, count(distinct taxonterm.nm) taxoncount, i.ixn_prose_html ixnprosehtml, i.ixn_prose_txt ixnprose, i.sort_txt ixnsort, ( select string_agg(distinct r.acc_txt, ?)) as references, count(distinct ptr.reference_id) refcount, pt.indirect_term_qty inferredcount, count(*) over () fullrowcount from phenotype_term_reference ptr inner join phenotype_term pt on ptr.term_id = pt.term_id and ptr.phenotype_id = pt.phenotype_id inner join term associatedterm on ptr.term_id = associatedterm.id inner join term phenotypeterm on ptr.phenotype_id = phenotypeterm.id left outer join term taxonterm on ptr.taxon_id = taxonterm.id inner join reference r on ptr.reference_id = r.id inner join ixn i on ptr.ixn_id = i.id inner join object_type o on associatedterm.object_type_id = o.id left outer join ixn_anatomy ia on ptr.ixn_id = ia.ixn_id left outer join term anatomyterm on ia.anatomy_id = anatomyterm.id where ptr.term_id in ( select distinct dp.descendant_object_id from dag_path dp where dp.ancestor_object_id in ( select distinct id from term baseterm where object_type_id = ? and upper(baseterm.nm) like ?)) and ptr.term_object_type_id = ? and ptr.phenotype_id in ( select distinct dp.descendant_object_id from dag_path dp where dp.ancestor_object_id in ( select distinct id from term baseterm where object_type_id = ? and baseterm.id in ( select object_id from db_link l where l.acc_txt = ? and l.type_cd = ? and l.object_type_id = ?))) and taxonterm.id in ( select distinct dp.descendant_object_id from dag_path dp where dp.ancestor_object_id in ( select distinct id from term baseterm where object_type_id = ? and baseterm.id in ( select object_id from db_link l where l.acc_txt = ? and l.type_cd = ? and l.object_type_id = ?))) and i.id in ( select ixn_id from ixn_axn where action_type_nm = ? and action_degree_type_nm in (...)) group by associatedterm, associatedtermnmsort, phenotype, casrn, ixnid, ixnprosehtml, ixnprose, ixnsort, associatedtermid, phenotypeid, inferredcount order by associatedtermnmsort limit ?;Times Reported Time consuming queries #8
Day Hour Count Duration Avg duration Apr 18 05 1 4s71ms 4s71ms -
select distinct /* ChemPhenotypesAssnsDAO */ associatedTerm.nm || '^' || o.cd || '^' || associatedTerm.nm_html || '^' || associatedTerm.acc_txt || '^' || associatedTerm.acc_db_cd as associatedTerm, associatedTerm.id associatedTermId, ptr.ixn_id ixnId, associatedTerm.object_type_id || '|' || associatedTerm.nm_sort associatedTermNmSort, COALESCE(associatedTerm.secondary_nm, '') casRN, phenotypeTerm.nm || '^' || 'go' || '^' || phenotypeTerm.nm_html || '^' || phenotypeTerm.acc_txt || '^' || phenotypeTerm.acc_db_cd as phenotype, phenotypeTerm.id phenotypeId, ( SELECT STRING_AGG(distinct taxonTerm.nm || '^' || 'taxon' || '^' || taxonTerm.nm_html || '^' || taxonTerm.acc_txt || '^' || taxonTerm.acc_db_cd || '^' || COALESCE(taxonTerm.secondary_nm, ''), '|')) as taxonTerms, ( SELECT STRING_AGG(distinct anatomyTerm.nm_html || '^' || anatomyTerm.acc_txt || '^' || ia.level_seq || '^' || anatomyTerm.acc_db_cd || '^' || anatomyTerm.nm, '|')) as anatomyTerms, COUNT(DISTINCT taxonTerm.nm) taxonCount, i.ixn_prose_html ixnProseHtml, i.ixn_prose_txt ixnProse, i.sort_txt ixnSort, ( SELECT STRING_AGG(distinct r.acc_txt, '|')) as references, COUNT(DISTINCT ptr.reference_id) refCount, pt.indirect_term_qty inferredCount, COUNT(*) OVER () fullRowCount from phenotype_term_reference ptr inner join phenotype_term pt on ptr.term_id = pt.term_id and ptr.phenotype_id = pt.phenotype_id inner join term associatedTerm on ptr.term_id = associatedTerm.id inner join term phenotypeTerm on ptr.phenotype_id = phenotypeTerm.id left outer join term taxonTerm on ptr.taxon_id = taxonTerm.id inner join reference r on ptr.reference_id = r.id inner join ixn i on ptr.ixn_id = i.id inner join object_type o on associatedTerm.object_type_id = o.id left outer join ixn_anatomy ia on ptr.ixn_id = ia.ixn_id left outer join term anatomyTerm on ia.anatomy_id = anatomyTerm.id where ptr.term_id IN ( select /* DBConstants.getDAGTermSQL */ distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id in ( select distinct id from term baseTerm where object_type_id = 2 and upper(baseTerm.nm) LIKE 'ZINC')) and ptr.term_object_type_id = 2 and ptr.phenotype_id IN ( select /* DBConstants.getDAGTermSQL */ distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id in ( select distinct id from term baseTerm where object_type_id = 5 and baseTerm.id in ( select object_id from db_link l where l.acc_txt = 'GO:0006915' AND l.type_cd = 'A' AND l.object_type_id = 5))) and taxonTerm.id in ( select /* DBConstants.getDAGTermSQL */ distinct dp.descendant_object_id from dag_path dp WHERE dp.ancestor_object_id in ( select distinct id from term baseTerm where object_type_id = 1 and baseTerm.id in ( select object_id from db_link l where l.acc_txt = '9606' AND l.type_cd = 'A' AND l.object_type_id = 1))) and i.id in ( select ixn_id from ixn_axn where action_type_nm = 'phenotype' and action_degree_type_nm in ('increases')) group by associatedTerm, associatedTermNmSort, phenotype, casRN, ixnId, ixnProseHtml, ixnProse, ixnSort, associatedTermId, phenotypeId, inferredCount ORDER BY associatedTermNmSort LIMIT 50;
Date: 2025-04-18 05:48:45 Duration: 4s71ms Bind query: yes
9 4s20ms 4s20ms 4s20ms 1 4s20ms select g.id geneid, g.acc_txt acc, g.nm nm, g.nm nmhtml, g.secondary_nm secondarynm, g.has_chems haschems, g.has_diseases hasdiseases, g.has_exposures hasexposures, g.has_phenotypes hasphenotypes, count(*) over () fullrowcount from term g where g.id in ( select gcr.gene_id from gene_chem_reference gcr where gcr.gene_id = any (array (( select gd.gene_id from term t inner join dag_path dp on t.id = dp.ancestor_object_id inner join gene_disease gd on dp.descendant_object_id = gd.disease_id where upper(t.nm) like ? and t.object_type_id = ?))) and gcr.id in ( select gcra.gene_chem_reference_id from gene_chem_reference_axn gcra where (gcra.action_degree_type_nm = ?))) order by g.nm_sort, g.id limit ?;Times Reported Time consuming queries #9
Day Hour Count Duration Avg duration Apr 18 05 1 4s20ms 4s20ms -
SELECT /* AdvancedGeneQueryDAO.getData */ g.id geneId, g.acc_txt acc, g.nm nm, g.nm nmHtml, g.secondary_nm secondaryNm, g.has_chems hasChems, g.has_diseases hasDiseases, g.has_exposures hasExposures, g.has_phenotypes hasPhenotypes, COUNT(*) OVER () fullRowCount FROM term g WHERE g.id IN ( SELECT gcr.gene_id FROM gene_chem_reference gcr WHERE /* CIQH.getIxnWhereCore */ gcr.gene_id = ANY (ARRAY (( SELECT /* IQH.getMasterDiseaseWhereEquals.Name.Gene */ gd.gene_id FROM term t INNER JOIN dag_path dp ON t.id = dp.ancestor_object_id INNER JOIN gene_disease gd ON dp.descendant_object_id = gd.disease_id WHERE UPPER(t.nm) LIKE 'ASTHMA' AND t.object_type_id = 3))) AND gcr.id IN ( SELECT gcra.gene_chem_reference_id FROM gene_chem_reference_axn gcra WHERE (gcra.action_degree_type_nm = 'increases'))) ORDER BY g.nm_sort, g.id LIMIT 50;
Date: 2025-04-18 05:47:25 Duration: 4s20ms Bind query: yes
10 3s349ms 3s349ms 3s349ms 1 3s349ms select g.nm genesymbol, g.id geneid, g.acc_txt geneacc, g.acc_db_cd geneaccdbcd, c.nm chemnm, c.nm_html chemnmhtml, c.acc_txt chemacc, c.secondary_nm casrn, c.id chemid, i.id ixnid, i.ixn_prose_txt ixnprose, i.ixn_prose_html ixnprosehtml, i.actions_txt ixnactions, count(distinct gcr.reference_id) refcount, count(distinct gcr.taxon_id) taxoncount, count(*) over () fullrowcount from gene_chem_reference gcr inner join ixn i on gcr.ixn_id = i.id inner join term g on gcr.gene_id = g.id inner join term c on gcr.chem_id = c.id where gcr.gene_id = any (array (( select tp.term_id from term_pathway tp where upper(tp.pathway_nm) like ? and tp.object_type_id = ?))) and gcr.id in ( select gcra.gene_chem_reference_id from gene_chem_reference_axn gcra where (gcra.action_degree_type_nm = ?)) group by g.nm, g.nm_sort, g.acc_txt, g.acc_db_cd, g.id, c.nm, c.nm_html, c.nm_sort, c.acc_txt, c.secondary_nm, c.id, i.ixn_prose_txt, i.ixn_prose_html, i.sort_txt, i.actions_txt, i.id order by g.nm_sort, c.nm_sort, i.sort_txt limit ?;Times Reported Time consuming queries #10
Day Hour Count Duration Avg duration Apr 18 05 1 3s349ms 3s349ms -
SELECT /* AdvancedIxnQueryDAO.getData */ g.nm geneSymbol, g.id geneId, g.acc_txt geneAcc, g.acc_db_cd geneAccDbCd, c.nm chemNm, c.nm_html chemNmhtml, c.acc_txt chemAcc, c.secondary_nm casRN, c.id chemId, i.id ixnId, i.ixn_prose_txt ixnProse, i.ixn_prose_html ixnProseHtml, i.actions_txt ixnActions, COUNT(DISTINCT gcr.reference_id) refCount, COUNT(DISTINCT gcr.taxon_id) taxonCount, COUNT(*) OVER () fullRowCount FROM gene_chem_reference gcr INNER JOIN ixn i ON gcr.ixn_id = i.id INNER JOIN term g ON gcr.gene_id = g.id INNER JOIN term c ON gcr.chem_id = c.id WHERE /* CIQH.getIxnWhereCore */ gcr.gene_id = ANY (ARRAY (( SELECT /* IQH.getMasterPathwayWhereEquals.Name */ tp.term_id FROM term_pathway tp WHERE UPPER(tp.pathway_nm) LIKE 'METABOLISM' AND tp.object_type_id = 4))) AND gcr.id IN ( SELECT gcra.gene_chem_reference_id FROM gene_chem_reference_axn gcra WHERE (gcra.action_degree_type_nm = 'increases')) GROUP BY g.nm, g.nm_sort, g.acc_txt, g.acc_db_cd, g.id, c.nm, c.nm_html, c.nm_sort, c.acc_txt, c.secondary_nm, c.id, i.ixn_prose_txt, i.ixn_prose_html, i.sort_txt, i.actions_txt, i.id ORDER BY g.nm_sort, c.nm_sort, i.sort_txt LIMIT 50;
Date: 2025-04-18 05:47:33 Duration: 3s349ms Bind query: yes
11 1s103ms 3s590ms 2s346ms 2 4s693ms with recursive sub_node ( object_id, id, path, lvl ) as ( select n.object_id, n.id, array[n.nm_sort], ? from dag_node n where n.object_id = ? union all select n.object_id, n.id, cast(path || n.nm_sort as varchar(?)[]), sn.lvl + ? from dag_node n inner join sub_node sn on (n.parent_id = sn.id)) select distinct t.nm prinm, t.nm_html prinmhtml, t.secondary_nm secondarynm, t.acc_db_cd accdbcd, t.acc_txt termacc, t.is_leaf isleaf, t.has_chems haschems, t.has_diseases hasdiseases, t.has_exposures hasexposures, t.has_genes hasgenes, sn.lvl, sn.path, max(sn.lvl) over () maxlvl, t.has_phenotypes hasphenotypes from sub_node sn inner join term t on sn.object_id = t.id where sn.lvl <= ? order by sn.path;Times Reported Time consuming queries #11
Day Hour Count Duration Avg duration Apr 18 05 2 4s693ms 2s346ms [ User: pubeu - Total duration: 3s590ms - Times executed: 1 ]
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WITH recursive sub_node ( object_id, id, path, lvl ) AS ( SELECT n.object_id, n.id, ARRAY[n.nm_sort], 1 FROM dag_node n WHERE n.object_id = '597156' UNION ALL SELECT n.object_id, n.id, CAST(path || n.nm_sort AS varchar(600)[]), sn.lvl + 1 FROM dag_node n INNER JOIN sub_node sn ON (n.parent_id = sn.id)) SELECT /* TreeTermBasicsDAO.getDescendants */ DISTINCT t.nm priNm, t.nm_html priNmHtml, t.secondary_nm secondaryNm, t.acc_db_cd accDbCd, t.acc_txt termAcc, t.is_leaf isLeaf, t.has_chems hasChems, t.has_diseases hasDiseases, t.has_exposures hasExposures, t.has_genes hasGenes, sn.lvl, sn.path, MAX(sn.lvl) OVER () maxLvl, t.has_phenotypes hasPhenotypes FROM sub_node sn INNER JOIN term t ON sn.object_id = t.id WHERE sn.lvl <= 2 ORDER BY sn.path;
Date: 2025-04-18 05:45:13 Duration: 3s590ms Database: ctddev51 User: pubeu Bind query: yes
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WITH recursive sub_node ( object_id, id, path, lvl ) AS ( SELECT n.object_id, n.id, ARRAY[n.nm_sort], 1 FROM dag_node n WHERE n.object_id = '1449802' UNION ALL SELECT n.object_id, n.id, CAST(path || n.nm_sort AS varchar(600)[]), sn.lvl + 1 FROM dag_node n INNER JOIN sub_node sn ON (n.parent_id = sn.id)) SELECT /* TreeTermBasicsDAO.getDescendants */ DISTINCT t.nm priNm, t.nm_html priNmHtml, t.secondary_nm secondaryNm, t.acc_db_cd accDbCd, t.acc_txt termAcc, t.is_leaf isLeaf, t.has_chems hasChems, t.has_diseases hasDiseases, t.has_exposures hasExposures, t.has_genes hasGenes, sn.lvl, sn.path, MAX(sn.lvl) OVER () maxLvl, t.has_phenotypes hasPhenotypes FROM sub_node sn INNER JOIN term t ON sn.object_id = t.id WHERE sn.lvl <= 2 ORDER BY sn.path;
Date: 2025-04-18 05:45:14 Duration: 1s103ms Bind query: yes
12 2s39ms 2s39ms 2s39ms 1 2s39ms with cte as ( select *, row_number() over (partition by id order by id asc) as rownum from log_query_bots ) select count(*) from cte where rownum < ?;Times Reported Time consuming queries #12
Day Hour Count Duration Avg duration Apr 18 13 1 2s39ms 2s39ms -
WITH CTE AS ( SELECT *, ROW_NUMBER() OVER (PARTITION BY id ORDER BY ID ASC) AS RowNum FROM log_query_bots ) SELECT count(*) FROM CTE WHERE RowNum < 2;
Date: 2025-04-18 13:30:33 Duration: 2s39ms
13 1s666ms 1s965ms 1s815ms 2 3s631ms with cte as ( select id, row_number() over (partition by id order by id asc) as rownum from log_query_bots ) select id from cte where rownum > ?;Times Reported Time consuming queries #13
Day Hour Count Duration Avg duration Apr 18 12 2 3s631ms 1s815ms -
WITH CTE AS ( SELECT ID, ROW_NUMBER() OVER (PARTITION BY id ORDER BY ID ASC) AS RowNum FROM log_query_bots ) SELECT ID FROM CTE WHERE RowNum > 1;
Date: 2025-04-18 12:51:23 Duration: 1s965ms
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WITH CTE AS ( SELECT ID, ROW_NUMBER() OVER (PARTITION BY id ORDER BY ID ASC) AS RowNum FROM log_query_bots) -- Delete rows from the 'customers' table where the row number is greater than 1 --DELETE FROM log_query_bots SELECT ID FROM CTE WHERE RowNum > 1;
Date: 2025-04-18 12:42:38 Duration: 1s666ms
14 1s782ms 1s799ms 1s791ms 2 3s582ms with cte as ( select id, row_number() over (partition by id order by id asc) as rownum from log_query_bots ) select count(*) from cte where rownum < ?;Times Reported Time consuming queries #14
Day Hour Count Duration Avg duration Apr 18 13 2 3s582ms 1s791ms -
-- Common Table Expression (CTE) to rank rows based on 'Name' WITH CTE AS ( SELECT ID, ROW_NUMBER() OVER (PARTITION BY id ORDER BY ID ASC) AS RowNum FROM log_query_bots ) SELECT count(*) FROM CTE WHERE RowNum < 2;
Date: 2025-04-18 13:07:54 Duration: 1s799ms
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WITH CTE AS ( SELECT ID, ROW_NUMBER() OVER (PARTITION BY id ORDER BY ID ASC) AS RowNum FROM log_query_bots ) SELECT count(*) FROM CTE WHERE RowNum < 2;
Date: 2025-04-18 13:07:23 Duration: 1s782ms
15 1s760ms 1s760ms 1s760ms 1 1s760ms with cte as ( select id, row_number() over (partition by id order by id asc) as rownum from log_query_bots) insert into test_cte ( select id from cte where rownum > ?);Times Reported Time consuming queries #15
Day Hour Count Duration Avg duration Apr 18 13 1 1s760ms 1s760ms -
WITH CTE AS ( SELECT ID, ROW_NUMBER() OVER (PARTITION BY id ORDER BY ID ASC) AS RowNum FROM log_query_bots) insert into test_cte ( SELECT ID FROM CTE WHERE RowNum > 1);
Date: 2025-04-18 13:03:13 Duration: 1s760ms
16 1s534ms 1s638ms 1s586ms 2 3s172ms select fg.nm fromgenesymbol, fg.acc_txt fromgeneacc, tg.nm togenesymbol, tg.acc_txt togeneacc, ft.nm fromtaxonnm, ft.secondary_nm fromtaxoncommonnm, ft.acc_txt fromtaxonacc, tt.nm totaxonnm, tt.secondary_nm totaxoncommonnm, tt.acc_txt totaxonacc, ggr.experimental_sys_nm, ggr.experimental_sys_type, ( select string_agg(ggt.throughput_txt, ? order by ggt.throughput_txt) from gene_gene_ref_throughput ggt where ggt.gene_gene_reference_id = ggr.id) throughput, count(*) over () fullrowcount from gene_gene_reference ggr inner join term fg on ggr.from_gene_id = fg.id inner join term tg on ggr.to_gene_id = tg.id inner join term ft on ggr.from_taxon_id = ft.id inner join term tt on ggr.to_taxon_id = tt.id where ggr.reference_id = ? order by fg.nm_sort, tg.nm_sort limit ?;Times Reported Time consuming queries #16
Day Hour Count Duration Avg duration Apr 18 05 2 3s172ms 1s586ms -
SELECT /* ReferenceGeneGeneIxnsDAO */ fg.nm fromGeneSymbol, fg.acc_txt fromGeneAcc, tg.nm toGeneSymbol, tg.acc_txt toGeneAcc, ft.nm fromTaxonNm, ft.secondary_nm fromTaxonCommonNm, ft.acc_txt fromTaxonAcc, tt.nm toTaxonNm, tt.secondary_nm toTaxonCommonNm, tt.acc_txt toTaxonAcc, ggr.experimental_sys_nm, ggr.experimental_sys_type, ( SELECT STRING_AGG(ggt.throughput_txt, ', ' ORDER BY ggt.throughput_txt) FROM gene_gene_ref_throughput ggt WHERE ggt.gene_gene_reference_id = ggr.id) throughput, COUNT(*) OVER () fullRowCount FROM gene_gene_reference ggr INNER JOIN term fg ON ggr.from_gene_id = fg.id INNER JOIN term tg ON ggr.to_gene_id = tg.id INNER JOIN term ft ON ggr.from_taxon_id = ft.id INNER JOIN term tt ON ggr.to_taxon_id = tt.id WHERE ggr.reference_id = '111363' ORDER BY fg.nm_sort, tg.nm_sort LIMIT 50;
Date: 2025-04-18 05:48:06 Duration: 1s638ms Bind query: yes
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SELECT /* ReferenceGeneGeneIxnsDAO */ fg.nm fromGeneSymbol, fg.acc_txt fromGeneAcc, tg.nm toGeneSymbol, tg.acc_txt toGeneAcc, ft.nm fromTaxonNm, ft.secondary_nm fromTaxonCommonNm, ft.acc_txt fromTaxonAcc, tt.nm toTaxonNm, tt.secondary_nm toTaxonCommonNm, tt.acc_txt toTaxonAcc, ggr.experimental_sys_nm, ggr.experimental_sys_type, ( SELECT STRING_AGG(ggt.throughput_txt, ', ' ORDER BY ggt.throughput_txt) FROM gene_gene_ref_throughput ggt WHERE ggt.gene_gene_reference_id = ggr.id) throughput, COUNT(*) OVER () fullRowCount FROM gene_gene_reference ggr INNER JOIN term fg ON ggr.from_gene_id = fg.id INNER JOIN term tg ON ggr.to_gene_id = tg.id INNER JOIN term ft ON ggr.from_taxon_id = ft.id INNER JOIN term tt ON ggr.to_taxon_id = tt.id WHERE ggr.reference_id = '111363' ORDER BY fg.nm_sort, tg.nm_sort LIMIT 50;
Date: 2025-04-18 05:48:04 Duration: 1s534ms Bind query: yes
17 1s564ms 1s564ms 1s564ms 1 1s564ms select g.id geneid, g.acc_txt acc, g.nm nm, g.nm nmhtml, g.secondary_nm secondarynm, g.has_chems haschems, g.has_diseases hasdiseases, g.has_exposures hasexposures, g.has_phenotypes hasphenotypes, count(*) over () fullrowcount from term g where g.id in ( select gcr.gene_id from gene_chem_reference gcr where gcr.taxon_id = any (array ( select dp.descendant_object_id from term t inner join dag_path dp on t.id = dp.ancestor_object_id where upper(t.nm) like ? and t.object_type_id = ?)) and gcr.id in ( select gcra.gene_chem_reference_id from gene_chem_reference_axn gcra where (gcra.action_degree_type_nm = ?))) order by g.nm_sort, g.id limit ?;Times Reported Time consuming queries #17
Day Hour Count Duration Avg duration Apr 18 05 1 1s564ms 1s564ms -
SELECT /* AdvancedGeneQueryDAO.getData */ g.id geneId, g.acc_txt acc, g.nm nm, g.nm nmHtml, g.secondary_nm secondaryNm, g.has_chems hasChems, g.has_diseases hasDiseases, g.has_exposures hasExposures, g.has_phenotypes hasPhenotypes, COUNT(*) OVER () fullRowCount FROM term g WHERE g.id IN ( SELECT gcr.gene_id FROM gene_chem_reference gcr WHERE /* CIQH.getIxnWhereCore */ gcr.taxon_id = ANY (ARRAY ( SELECT /* CIQH.getIxnTaxonWhereEquals.Name */ dp.descendant_object_id FROM term t INNER JOIN dag_path dp ON t.id = dp.ancestor_object_id WHERE UPPER(t.nm) LIKE 'FELIS CATUS' AND t.object_type_id = 1)) AND gcr.id IN ( SELECT gcra.gene_chem_reference_id FROM gene_chem_reference_axn gcra WHERE (gcra.action_degree_type_nm = 'increases'))) ORDER BY g.nm_sort, g.id LIMIT 50;
Date: 2025-04-18 05:47:28 Duration: 1s564ms Bind query: yes
18 1s504ms 1s504ms 1s504ms 1 1s504ms select t.nm, t.nm_html nmhtml, t.secondary_nm secondarynm, t.acc_txt acc, ? || t.nm accquerystr, t.has_chems haschems, t.has_diseases hasdiseases, t.has_exposures hasexposures, t.has_phenotypes hasphenotypes, count(*) over () fullrowcount from term t where t.object_type_id = ? and regexp_replace(upper(substring(t.nm, ?, ?)), ?, ?) = ? order by t.nm_sort limit ?;Times Reported Time consuming queries #18
Day Hour Count Duration Avg duration Apr 18 05 1 1s504ms 1s504ms -
SELECT /* GeneBrowseTermsDAO */ t.nm, t.nm_html nmHtml, t.secondary_nm secondaryNm, t.acc_txt acc, 'name:' || t.nm accQueryStr, t.has_chems hasChems, t.has_diseases hasDiseases, t.has_exposures hasExposures, t.has_phenotypes hasPhenotypes, COUNT(*) OVER () fullRowCount FROM term t WHERE t.object_type_id = '4' AND REGEXP_REPLACE(UPPER(SUBSTRING(t.nm, 1, 1)), '[^A-Z]', '#') = 'A' ORDER BY t.nm_sort LIMIT 100;
Date: 2025-04-18 05:47:09 Duration: 1s504ms Bind query: yes
19 1s440ms 1s440ms 1s440ms 1 1s440ms select coalesce(d.abbr_display, d.nm_display) nm # ?, d.description # ?, coalesce(d.abbr, d.nm) anchor # ?, get_homepage_url (d.id) url # ? from db d # ? where d.id in (# ? select l.db_id # ? from db_link l # ? where l.type_cd = ? # ? and l.object_type_id = ?) # ? order by ?;Times Reported Time consuming queries #19
Day Hour Count Duration Avg duration Apr 18 05 1 1s440ms 1s440ms -
SELECT COALESCE(d.abbr_display, d.nm_display) nm # 015, d.description # 015, COALESCE(d.abbr, d.nm) anchor # 015, get_homepage_url (d.id) url # 015 FROM db d # 015 WHERE d.id IN (# 015 SELECT l.db_id # 015 FROM db_link l # 015 WHERE l.type_cd = 'X' # 015 AND l.object_type_id = 4) # 015 ORDER BY 1;
Date: 2025-04-18 05:48:31 Duration: 1s440ms Bind query: yes
20 1s400ms 1s400ms 1s400ms 1 1s400ms select distinct stressorterm.nm as chemnm, stressorterm.nm_html as chemnmhtml, stressorterm.nm_sort as chemnmsort, stressorterm.acc_txt as chemacc, ( select string_agg(distinct stressorsrctype.nm || ? || stressorsrctype.cd, ?)) as stressorsrctypenm, stressor.src_details as stressorsrcdetails, stressor.sample_qty as stressorsampleqty, stressor.note as stressornote, receptor.qty as nbrreceptors, receptor.description as receptors, receptor.note as receptornotes, receptorterm.nm || ? || ( select cd from object_type where id = receptor.object_type_id) || ? || receptorterm.nm_html || ? || receptorterm.acc_txt || ? || receptorterm.acc_db_cd as receptorterms, ( select string_agg(distinct receptortobaccouse.tobacco_use_nm || ? || receptortobaccouse.pct, ?)) as smokerstatus, receptor.age as agerange, receptor.age_uom_nm as ageuomnm, receptor.age_qualifier_nm as agequalifiernm, receptor.gender_nm as gendernmsearch, receptor.id receptorid, ( select string_agg(pct || ? || gender_nm || ? || gender_nm_html, ?) from exp_receptor_gender where exp_receptor_id = receptor.id) as genderdetails, ( select string_agg(distinct receptorrace.race_nm || ? || receptorrace.pct, ?)) as receptorrace, ( select string_agg(distinct eventassaymethod.nm, ?)) as assaymethods, event.medium_nm as medium, event.medium_term_acc_txt as mediumacctxt, ( select string_agg(distinct eventproject.project_nm, ?)) as associatedstudytitles, event.collection_start_yr || ? || event.collection_end_yr as collectionstartandendyr, event.detection_limit as detectionlimit, event.detection_limit_uom as detectionlimituom, event.detection_freq as detectionfreq, event.note as eventnote, ( select string_agg(distinct eventlocation.geographic_region_nm, ?)) as stateorprovince, ( select string_agg(distinct eventlocation.locality_txt, ?)) as localitytxt, ( select string_agg(distinct country.nm, ?)) as studycountries, exposuremarkerterm.nm || ? || ( select cd from object_type where id = exposuremarkerterm.object_type_id) || ? || exposuremarkerterm.nm_html || ? || exposuremarkerterm.acc_txt || ? || exposuremarkerterm.acc_db_cd as assayedmarkers, event.exp_marker_lvl as assaylevel, assay_uom as measurement, assay_measurement_stat as measurementstat, assay_note as assaynote, eiot.description as outcomerltnp, diseaseterm.nm || ? || ? || ? || diseaseterm.nm_html || ? || diseaseterm.acc_txt || ? || diseaseterm.acc_db_cd as diseasefield, phenotypeterm.nm || ? || ? || ? || phenotypeterm.nm_html || ? || phenotypeterm.acc_txt || ? || phenotypeterm.acc_db_cd as phenotypefield, outcome.phenotype_action_degree_type_nm as phenotypeactiondegreetypenm, e.reference_acc_txt || ? || r.abbr_authors_txt || ? || r.pub_start_yr as ref, r.abbr_authors_txt as abbrauthorstxt, ( select string_agg(distinct expstudyfactor.study_factor_nm, ?)) as studyfactornms, ( select string_agg(distinct anatomyterm.nm_html || ? || anatomyterm.acc_txt || ? || anatomyterm.id || ? || anatomyterm.acc_db_cd || ? || anatomyterm.nm, ?)) as anatomyterms, outcome.note as outcomenote, eventlocation.exp_event_id as eventid, count(*) over () fullrowcount from exposure e inner join exp_stressor stressor on e.exp_stressor_id = stressor.id inner join term stressorterm on stressor.chem_id = stressorterm.id left outer join exp_receptor receptor on e.exp_receptor_id = receptor.id left outer join exp_event event on e.exp_event_id = event.id left outer join term exposuremarkerterm on event.exp_marker_term_id = exposuremarkerterm.id left outer join exp_outcome outcome on e.exp_outcome_id = outcome.id left outer join exp_outcome_ixn_type eiot on outcome.exp_outcome_ixn_type_id = eiot.id left outer join term diseaseterm on outcome.disease_id = diseaseterm.id left outer join term phenotypeterm on outcome.phenotype_id = phenotypeterm.id left outer join term receptorterm on receptor.term_id = receptorterm.id inner join reference r on e.reference_id = r.id left outer join exp_stressor_stressor_src esss on stressor.id = esss.exp_stressor_id left outer join exp_stressor_src_type stressorsrctype on esss.exp_stressor_src_type_id = stressorsrctype.id left outer join exp_receptor_tobacco_use receptortobaccouse on receptor.id = receptortobaccouse.exp_receptor_id left outer join exp_receptor_race receptorrace on receptor.id = receptorrace.exp_receptor_id left outer join exp_event_assay_method eventassaymethod on event.id = eventassaymethod.exp_event_id left outer join exp_event_location eventlocation on event.id = eventlocation.exp_event_id left outer join exp_anatomy expanatomy on outcome.id = expanatomy.exp_outcome_id left outer join term anatomyterm on expanatomy.anatomy_id = anatomyterm.id left outer join country on eventlocation.country_id = country.id left outer join exp_event_project eventproject on event.id = eventproject.exp_event_id left outer join reference_exp referenceexp on e.reference_acc_txt = referenceexp.reference_acc_txt and e.reference_acc_db_id = referenceexp.reference_acc_db_id left outer join exp_study_factor expstudyfactor on referenceexp.id = expstudyfactor.reference_exp_id where outcome.disease_id in ( select descendant_object_id from dag_path where ancestor_object_id = ?) or receptorterm.id in ( select descendant_object_id from dag_path where ancestor_object_id = ?) group by chemnm, chemnmhtml, chemnmsort, chemacc, stressorsrcdetails, stressorsampleqty, stressornote, receptorterms, medium, mediumacctxt, assayedmarkers, assaylevel, measurement, measurementstat, assaynote, outcomerltnp, diseasefield, phenotypefield, phenotypeactiondegreetypenm, ref, r.abbr_authors_txt, collectionstartandendyr, receptorid, detectionlimit, detectionlimituom, detectionfreq, eventnote, outcomenote, eventid order by chemnmsort limit ?;Times Reported Time consuming queries #20
Day Hour Count Duration Avg duration Apr 18 05 1 1s400ms 1s400ms [ User: pubeu - Total duration: 1s400ms - Times executed: 1 ]
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SELECT DISTINCT stressorTerm.nm as chemNm, stressorTerm.nm_html as chemNmHtml, stressorTerm.nm_sort as chemNmSort, stressorTerm.acc_txt as chemAcc, ( SELECT STRING_AGG(distinct stressorSrcType.nm || '^' || stressorSrcType.cd, '|')) as stressorSrcTypeNm, stressor.src_details as stressorSrcDetails, stressor.sample_qty as stressorSampleQty, stressor.note as stressorNote, receptor.qty as nbrReceptors, receptor.description as receptors, receptor.note as receptorNotes, receptorTerm.nm || '^' || ( select cd from object_type where id = receptor.object_type_id) || '^' || receptorTerm.nm_html || '^' || receptorTerm.acc_txt || '^' || receptorTerm.acc_db_cd as receptorTerms, ( SELECT STRING_AGG(distinct receptorTobaccoUse.tobacco_use_nm || '^' || receptorTobaccoUse.pct, ' | ')) as smokerStatus, receptor.age as ageRange, receptor.age_uom_nm as ageUOMNm, receptor.age_qualifier_nm as ageQualifierNm, receptor.gender_nm as genderNmSearch, receptor.id receptorID, ( SELECT STRING_AGG(pct || '^' || gender_nm || '^' || gender_nm_html, '|') from exp_receptor_gender where exp_receptor_id = receptor.id) as genderDetails, ( SELECT STRING_AGG(DISTINCT receptorRace.race_nm || '^' || receptorRace.pct, ' | ')) as receptorRace, ( SELECT STRING_AGG(DISTINCT eventAssayMethod.nm, ' | ')) as assayMethods, event.medium_nm as medium, event.medium_term_acc_txt as mediumAccTxt, ( SELECT STRING_AGG(DISTINCT eventProject.project_nm, ' | ')) as associatedStudyTitles, event.collection_start_yr || '-' || event.collection_end_yr as collectionStartAndEndYr, event.detection_limit as detectionLimit, event.detection_limit_uom as detectionLimitUOM, event.detection_freq as detectionFreq, event.note as eventNote, ( SELECT STRING_AGG(DISTINCT eventLocation.geographic_region_nm, ' | ')) as stateOrProvince, ( SELECT STRING_AGG(DISTINCT eventLocation.locality_txt, ' | ')) as localityTxt, ( SELECT STRING_AGG(distinct country.nm, ' | ')) as studyCountries, exposureMarkerTerm.nm || '^' || ( select cd from object_type where id = exposureMarkerTerm.object_type_id) || '^' || exposureMarkerTerm.nm_html || '^' || exposureMarkerTerm.acc_txt || '^' || exposureMarkerTerm.acc_db_cd as assayedMarkers, event.exp_marker_lvl as assayLevel, assay_uom as measurement, assay_measurement_stat as measurementStat, assay_note as assayNote, eiot.description as outcomeRltnp, diseaseTerm.nm || '^' || 'disease' || '^' || diseaseTerm.nm_html || '^' || diseaseTerm.acc_txt || '^' || diseaseTerm.acc_db_cd as diseaseField, phenotypeTerm.nm || '^' || 'go' || '^' || phenotypeTerm.nm_html || '^' || phenotypeTerm.acc_txt || '^' || phenotypeTerm.acc_db_cd as phenotypeField, outcome.phenotype_action_degree_type_nm as phenotypeActionDegreeTypeNm, e.reference_acc_txt || '^' || r.abbr_authors_txt || '^' || r.pub_start_yr as ref, r.abbr_authors_txt as abbrAuthorsTxt, ( SELECT STRING_AGG(DISTINCT expStudyFactor.study_factor_nm, ' | ')) as studyFactorNms, ( SELECT STRING_AGG(distinct anatomyTerm.nm_html || '^' || anatomyTerm.acc_txt || '^' || anatomyTerm.id || '^' || anatomyTerm.acc_db_cd || '^' || anatomyTerm.nm, '|')) as anatomyTerms, outcome.note as outcomeNote, eventLocation.exp_event_id as eventID, COUNT(*) OVER () fullRowCount FROM exposure e inner join exp_stressor stressor ON e.exp_stressor_id = stressor.id inner join term stressorTerm ON stressor.chem_id = stressorTerm.id left outer join exp_receptor receptor ON e.exp_receptor_id = receptor.id left outer join exp_event event ON e.exp_event_id = event.id left outer join term exposureMarkerTerm ON event.exp_marker_term_id = exposureMarkerTerm.id left outer join exp_outcome outcome ON e.exp_outcome_id = outcome.id left outer join exp_outcome_ixn_type eiot ON outcome.exp_outcome_ixn_type_id = eiot.id left outer join term diseaseTerm ON outcome.disease_id = diseaseTerm.id left outer join term phenotypeTerm ON outcome.phenotype_id = phenotypeTerm.id left outer join term receptorTerm ON receptor.term_id = receptorTerm.id inner join reference r ON e.reference_id = r.id left outer join exp_stressor_stressor_src esss ON stressor.id = esss.exp_stressor_id left outer join exp_stressor_src_type stressorSrcType ON esss.exp_stressor_src_type_id = stressorSrcType.id left outer join exp_receptor_tobacco_use receptorTobaccoUse ON receptor.id = receptorTobaccoUse.exp_receptor_id left outer join exp_receptor_race receptorRace ON receptor.id = receptorRace.exp_receptor_id left outer join exp_event_assay_method eventAssayMethod ON event.id = eventAssayMethod.exp_event_id left outer join exp_event_location eventLocation ON event.id = eventLocation.exp_event_id left outer join exp_anatomy expAnatomy ON outcome.id = expAnatomy.exp_outcome_id Left outer join term anatomyTerm ON expAnatomy.anatomy_id = anatomyTerm.id left outer join country ON eventLocation.country_id = country.id left outer join exp_event_project eventProject ON event.id = eventProject.exp_event_id left outer join reference_exp referenceExp on e.reference_acc_txt = referenceExp.reference_acc_txt and e.reference_acc_db_id = referenceExp.reference_acc_db_id left outer join exp_study_factor expStudyFactor on referenceExp.id = expStudyFactor.reference_exp_id where outcome.disease_id in ( select descendant_object_id from dag_path where ancestor_object_id = '2090328') or receptorTerm.id in ( select descendant_object_id from dag_path where ancestor_object_id = '2090328') GROUP BY chemNm, chemNmHtml, chemNmSort, chemAcc, stressorSrcDetails, stressorSampleQty, stressorNote, receptorTerms, medium, mediumAccTxt, assayedMarkers, assayLevel, measurement, measurementStat, assayNote, outcomeRltnp, diseaseField, phenotypeField, phenotypeActionDegreeTypeNm, ref, r.abbr_authors_txt, collectionStartAndEndYr, receptorID, detectionLimit, detectionLimitUOM, detectionFreq, eventNote, outcomeNote, eventID order by chemNmSort LIMIT 50;
Date: 2025-04-18 05:48:40 Duration: 1s400ms Database: ctddev51 User: pubeu Bind query: yes
Time consuming prepare
Rank Total duration Times executed Min duration Max duration Avg duration Query NO DATASET
Time consuming bind
Rank Total duration Times executed Min duration Max duration Avg duration Query NO DATASET
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Events
Log levels
Key values
- 7,700 Event entries
- (EVENTLOG entries are formaly LOG level entries that are not queries)
Events distribution (except queries)
Key values
- 0 PANIC entries
- 0 FATAL entries
- 14 ERROR entries
- 0 WARNING entries
- 6 EVENTLOG entries
Most Frequent Errors/Events
Key values
- 7 Max number of times the same event was reported
- 20 Total events found
Rank Times reported Error 1 7 ERROR: syntax error at or near "..."
Times Reported Most Frequent Error / Event #1
Day Hour Count Apr 18 12 6 13 1 - ERROR: syntax error at or near ";" at character 117
- ERROR: syntax error at or near "(" at character 39
- ERROR: syntax error at or near "create" at character 228
Statement: WITH CTE AS ( SELECT ID, ROW_NUMBER() OVER (PARTITION BY id ORDER BY ID ASC) AS RowNum FROM log_query_bots );
Date: 2025-04-18 12:36:51
Statement: WITH CTE AS ( SELECT ID ROW_NUMBER() OVER (PARTITION BY id ORDER BY ID ASC) AS RowNum FROM log_query_bots )
Date: 2025-04-18 12:37:54
Statement: WITH CTE AS ( SELECT ID, ROW_NUMBER() OVER (PARTITION BY id ORDER BY ID ASC) AS RowNum FROM log_query_bots ) -- Delete rows from the 'customers' table where the row number is greater than 1 --DELETE FROM log_query_bots create table test_select as SELECT ID FROM CTE WHERE RowNum > 1;
Date: 2025-04-18 12:44:21
2 6 LOG: could not receive data from client: Connection timed out
Times Reported Most Frequent Error / Event #2
Day Hour Count Apr 18 17 3 18 2 19 1 3 2 ERROR: canceling statement due to user request
Times Reported Most Frequent Error / Event #3
Day Hour Count Apr 18 13 2 - ERROR: canceling statement due to user request
- ERROR: canceling statement due to user request
Context: SQL statement "INSERT INTO cached_value(type_nm, key_nm, value_num) SELECT lc_cum_type_nm ,'gc_c_ixn_count' ,COUNT( * ) -- Not distincted. FROM gene_chem_reference gcr UNION ALL SELECT lc_cum_type_nm ,'gc_c_gene_count' ,COUNT(DISTINCT gcr.gene_id) FROM gene_chem_reference gcr UNION ALL SELECT lc_cum_type_nm ,'gc_c_chem_count' ,COUNT(DISTINCT gcr.chem_id) FROM gene_chem_reference gcr UNION ALL SELECT lc_cum_type_nm ,'gc_taxon_count' ,COUNT(DISTINCT gcr.taxon_id) FROM gene_chem_reference gcr WHERE gcr.taxon_id IS NOT NULL UNION ALL SELECT lc_cum_type_nm ,'gc_c_ref_count' ,COUNT(DISTINCT gcr.reference_id) FROM gene_chem_reference gcr UNION ALL SELECT lc_cum_type_nm ,'gd_d_ixn_count' ,COUNT( * ) -- Not distincted. FROM gene_disease_reference gdr WHERE gdr.source_cd IN ('C', 'O') UNION ALL SELECT lc_cum_type_nm ,'gd_d_gene_count' ,COUNT(DISTINCT gdr.gene_id) FROM gene_disease_reference gdr WHERE gdr.source_cd IN ('C', 'O') UNION ALL SELECT lc_cum_type_nm ,'gd_d_disease_count' ,COUNT(DISTINCT gdr.disease_id) FROM gene_disease_reference gdr WHERE gdr.source_cd IN ('C', 'O') UNION ALL SELECT lc_cum_type_nm ,'gd_i_ixn_count' ,COUNT(DISTINCT gdr.gene_id || '|' || gdr.disease_id) -- Inferreds must be distincted. FROM gene_disease_reference gdr WHERE gdr.source_cd = 'I' UNION ALL SELECT lc_cum_type_nm ,'gd_i_gene_count' ,COUNT(DISTINCT gdr.gene_id) FROM gene_disease_reference gdr WHERE gdr.source_cd = 'I' UNION ALL SELECT lc_cum_type_nm ,'gd_i_disease_count' ,COUNT(DISTINCT gdr.disease_id) FROM gene_disease_reference gdr WHERE gdr.source_cd = 'I' UNION ALL SELECT lc_cum_type_nm ,'cd_c_ixn_count' ,COUNT( * ) -- Not distincted. FROM chem_disease_reference cdr WHERE cdr.source_cd = 'C' UNION ALL SELECT lc_cum_type_nm ,'cd_i_ixn_count' ,COUNT(DISTINCT cdr.chem_id || '|' || cdr.disease_id) -- Inferreds must be distincted. FROM chem_disease_reference cdr WHERE cdr.source_cd = 'I' UNION ALL SELECT lc_cum_type_nm , 'cd_' || LOWER(cdr.source_cd) || '_chem_count' ,COUNT(DISTINCT cdr.chem_id) "cdChemCount" FROM chem_disease_reference cdr WHERE cdr.source_cd IN ('C', 'I') GROUP BY cdr.source_cd UNION ALL SELECT lc_cum_type_nm , 'cd_' || LOWER(cdr.source_cd) || '_disease_count' ,COUNT(DISTINCT cdr.disease_id) FROM chem_disease_reference cdr WHERE cdr.source_cd IN ('C', 'I') GROUP BY cdr.source_cd UNION ALL -- direct gene-go SELECT lc_cum_type_nm ,'ggo_d_count' ,COUNT(*) FROM gene_go_annot gga UNION ALL -- direct gene_pathway SELECT lc_cum_type_nm ,'gp_d_count' ,COUNT(*) FROM term_pathway tp WHERE tp.object_type_id = (SELECT ot.id FROM object_type ot WHERE ot.cd = 'gene') UNION ALL -- enriched chem-go SELECT lc_cum_type_nm ,'cgo_e_count' ,COUNT(*) FROM term_enrichment te WHERE te.object_type_id = (SELECT ot.id FROM object_type ot WHERE ot.cd = 'chem') AND te.enriched_object_type_id = (SELECT ot.id FROM object_type ot WHERE ot.cd = 'go') UNION ALL -- enriched chem-pathway SELECT lc_cum_type_nm ,'cp_e_count' ,COUNT(*) FROM term_enrichment te WHERE te.object_type_id = (SELECT ot.id FROM object_type ot WHERE ot.cd = 'chem') AND te.enriched_object_type_id = (SELECT ot.id FROM object_type ot WHERE ot.cd = 'pathway') UNION ALL -- inferred chem-pathway SELECT lc_cum_type_nm ,'cp_i_count' ,COUNT(*) FROM (SELECT DISTINCT tp.pathway_id ,gcr.chem_id FROM term_pathway tp INNER JOIN gene_chem_reference gcr on tp.term_id = gcr.gene_id) i UNION ALL -- gene-gene ixns SELECT lc_cum_type_nm ,'gg_c_ixn_count' ,COUNT( * ) -- Not distincted. FROM gene_gene_reference ggr UNION ALL -- inferred disease_pathway SELECT lc_cum_type_nm ,'dp_i_count' ,COUNT(*) FROM (SELECT DISTINCT tp.pathway_id ,gd.disease_id FROM term_pathway tp INNER JOIN gene_disease gd on tp.term_id = gd.gene_id WHERE gd.curated_Reference_qty > 0) i UNION ALL -- inferred disease-go SELECT lc_cum_type_nm ,'dgo_i_count' ,COUNT(*) FROM (SELECT DISTINCT phenotype_id ,term_id FROM phenotype_term_reference WHERE term_object_type_id = (select id from object_type where cd ='disease') ) i UNION ALL -- curated references SELECT lc_cum_type_nm ,'curated_ref_count' ,COUNT( * ) FROM reference r WHERE r.has_ixns OR r.has_diseases OR r.has_phenotypes UNION ALL -- curated chemicals SELECT lc_cum_type_nm ,'curated_chem_count' ,COUNT(*) FROM (SELECT gcr.chem_id FROM gene_chem_reference gcr UNION SELECT cdr.chem_id FROM chem_disease_reference cdr WHERE cdr.source_cd = 'C' UNION select ptr.term_id from phenotype_term_reference ptr where source_cd = 'C' and term_object_type_id = ( SELECT ot.id FROM object_type ot WHERE ot.cd = 'chem' ) ) i UNION ALL -- curated genes SELECT lc_cum_type_nm ,'curated_gene_count' ,COUNT(*) FROM (SELECT gcr.gene_id FROM gene_chem_reference gcr UNION SELECT gdr.gene_id FROM gene_disease_reference gdr WHERE gdr.source_cd IN ('C','O')) i UNION ALL -- omim-curated genes SELECT lc_cum_type_nm ,'omim_gene_count' ,COUNT(DISTINCT gdr.gene_id) FROM gene_disease_reference gdr WHERE gdr.source_cd = 'O' UNION ALL -- curated diseases SELECT lc_cum_type_nm ,'curated_disease_count' ,COUNT(*) FROM (SELECT cdr.disease_id FROM chem_disease_reference cdr WHERE cdr.source_cd = 'C' UNION SELECT gdr.disease_id FROM gene_disease_reference gdr WHERE gdr.source_cd IN ('C','O')) i UNION ALL -- omim-curated diseases SELECT lc_cum_type_nm ,'omim_disease_count' ,COUNT(DISTINCT gdr.disease_id) FROM gene_disease_reference gdr WHERE gdr.source_cd = 'O' -- ---------------------------------------- -- START: Exposure-related statistics -- ---------------------------------------- UNION ALL -- ---------------------------------------- SELECT lc_cum_type_nm ,'exp_c_evnt_count' ,count(*) from ( /* NOTE: The 'exp_c_evnt_count' is intended to match the Exposure statement download file - consequently, the queries between the report and this function must match. Changes to one necessitates changes to the other. */ SELECT DISTINCT /* AllExposuresDAO */ stressorTerm.nm ExposureStressorName ,stressorTerm.acc_txt ExposureStressorID ,( SELECT STRING_AGG( distinct stressorSrcType.nm ,'|' ) ) StressorSourceCategory ,stressor.src_details StressorSourceDetails ,stressor.sample_qty NumberOfStressorSamples ,stressor.note StressorNotes ,receptor.qty NumberOfReceptors ,concat( receptor.description || ' ' , receptorTerm.nm ) Receptors ,receptor.note ReceptorNotes ,( SELECT STRING_AGG( distinct receptorTobaccoUse.tobacco_use_nm,' | ' ) ) SmokingStatus ,receptor.age Age ,receptor.age_uom_nm AgeUnitsOfMeasurement ,receptor.age_qualifier_nm AgeQualifier ,receptor.gender_nm Sex ,( SELECT STRING_AGG( DISTINCT receptorRace.race_nm || ' ' || receptorRace.pct,' | ' ) ) Race ,( SELECT STRING_AGG( DISTINCT eventAssayMethod.nm ,' | ' ) ) Methods ,event.detection_limit DetectionLimit ,event.detection_limit_uom DetectionLimitUOM ,event.detection_freq DetectionFrequency ,event.medium_nm Medium ,exposureMarkerTerm.nm ExposureMarker ,exposureMarkerTerm.acc_txt ExposureMarkerID ,event.exp_marker_lvl MarkerLevel ,assay_uom MarkerUnitsOfMeasurement ,assay_measurement_stat MarkerMeasurementStatistic ,assay_note AssayNotes ,( SELECT STRING_AGG( distinct country.nm,' | ' ) ) StudyCountries ,( SELECT STRING_AGG( DISTINCT eventLocation.geographic_region_nm,' | ' ) ) StateOrProvince ,( SELECT STRING_AGG( DISTINCT eventLocation.locality_txt,' | ' ) ) CityTownRegionArea ,event.note ExposureEventNotes ,eiot.description OutcomeRelationship ,diseaseTerm.nm DiseaseName ,diseaseTerm.acc_txt DiseaseID ,phenotypeTerm.nm PhenotypeName ,phenotypeTerm.acc_txt PhenotypeID ,outcome.phenotype_action_degree_type_nm PhenotypeActionDegreeType ,( SELECT STRING_AGG( DISTINCT anatomyTerm.nm,' | ' ) ) Anatomy ,outcome.note ExposureOutcomeNotes ,e.reference_acc_txt Reference ,( SELECT STRING_AGG( DISTINCT eventProject.project_nm ,' | ' ) ) AssociatedStudyTitles ,event.collection_start_yr EnrollmentStartYear ,event.collection_end_yr EnrollmentEndYear ,( SELECT STRING_AGG( DISTINCT expStudyFactor.study_factor_nm,' | ' ) ) StudyFactors ,eventLocation.exp_event_id ignorecolumneventID ,COUNT(*) OVER() fullRowCount -- take this out of final report query FROM exposure e inner join exp_stressor stressor ON e.exp_stressor_id = stressor.id inner join term stressorTerm ON stressor.chem_id = stressorTerm.id left outer join exp_receptor receptor ON e.exp_receptor_id = receptor.id left outer join exp_event event ON e.exp_event_id = event.id left outer join term exposureMarkerTerm ON event.exp_marker_term_id = exposureMarkerTerm.id left outer join exp_outcome outcome ON e.exp_outcome_id = outcome.id left outer join exp_outcome_ixn_type eiot ON outcome.exp_outcome_ixn_type_id = eiot.id left outer join term diseaseTerm ON outcome.disease_id = diseaseTerm.id left outer join term phenotypeTerm ON outcome.phenotype_id = phenotypeTerm.id left outer join term receptorTerm ON receptor.term_id = receptorTerm.id inner join reference r ON e.reference_id = r.id left outer join exp_stressor_stressor_src esss ON stressor.id = esss.exp_stressor_id left outer join exp_stressor_src_type stressorSrcType ON esss.exp_stressor_src_type_id = stressorSrcType.id left outer join exp_receptor_tobacco_use receptorTobaccoUse ON receptor.id = receptorTobaccoUse.exp_receptor_id left outer join exp_receptor_race receptorRace ON receptor.id = receptorRace.exp_receptor_id left outer join exp_event_assay_method eventAssayMethod ON event.id = eventAssayMethod.exp_event_id left outer join exp_event_location eventLocation ON event.id = eventLocation.exp_event_id left outer join exp_anatomy expAnatomy ON outcome.id = expAnatomy.exp_outcome_id left outer join term anatomyTerm ON expAnatomy.anatomy_id = anatomyTerm.id left outer join country ON eventLocation.country_id = country.id left outer join exp_event_project eventProject ON event.id = eventProject.exp_event_id left outer join reference_exp referenceExp on e.reference_acc_txt = referenceExp.reference_acc_txt and e.reference_acc_db_id = referenceExp.reference_acc_db_id left outer join exp_study_factor expStudyFactor on referenceExp.id = expStudyFactor.reference_exp_id GROUP BY ExposureStressorName ,ExposureStressorID ,StressorSourceDetails ,NumberOfStressorSamples ,StressorNotes ,NumberOfReceptors ,Receptors ,ReceptorNotes ,Medium ,ExposureMarker ,ExposureMarkerID ,MarkerLevel ,MarkerUnitsOfMeasurement ,MarkerMeasurementStatistic ,AssayNotes ,OutcomeRelationship ,DiseaseName ,DiseaseID ,PhenotypeName ,PhenotypeID ,PhenotypeActionDegreeType ,Reference ,EnrollmentStartYear ,EnrollmentEndYear ,Age ,AgeUnitsOfMeasurement ,AgeQualifier ,Sex ,DetectionLimit ,DetectionLimitUOM ,DetectionFrequency ,ExposureEventNotes ,ExposureOutcomeNotes ,ignorecolumneventID ) as exp_c_evnt_count -- ---------------------------------------- -- ---------------------------------------- UNION ALL SELECT lc_cum_type_nm ,'exp_c_chem_count' ,COUNT(distinct chemTerm.id) FROM term chemTerm WHERE id IN ( select event.exp_marker_term_id from exp_event event where event.exp_marker_type_id in ( select id from exp_marker_type where nm like 'chem%' ) UNION SELECT chem_id FROM exp_stressor ) UNION ALL SELECT lc_cum_type_nm ,'exp_c_gene_count' ,COUNT(distinct geneTerm.id) FROM term geneTerm WHERE id IN ( select event.exp_marker_term_id from exp_event event where event.exp_marker_type_id in ( select id from exp_marker_type where nm like 'gene%' ) union select distinct term_id from exp_receptor where object_type_id is not null and object_type_id = ( select id from object_type where cd = 'gene' ) ) UNION ALL SELECT lc_cum_type_nm ,'exp_c_disease_count' ,COUNT(distinct diseaseTerm.id) FROM term diseaseTerm WHERE id IN ( SELECT disease_id FROM exp_outcome union select distinct term_id from exp_receptor where object_type_id is not null and object_type_id = ( select id from object_type where cd = 'disease' ) ) UNION ALL SELECT lc_cum_type_nm ,'exp_c_phenotype_count' ,COUNT(distinct phenotypeTerm.id) FROM term phenotypeTerm WHERE id IN ( SELECT phenotype_id FROM exp_outcome union select distinct term_id from exp_receptor where object_type_id is not null and object_type_id = ( select id from object_type where cd = 'go' ) ) union all SELECT lc_cum_type_nm ,'exp_reference_count' ,COUNT(distinct reference_id) FROM reference_exp -- ---------------------------------------- -- END: Exposure-related statistics -- ---------------------------------------- -- ---------------------------------------- -- START: Phenotype-related statistics -- ---------------------------------------- UNION ALL -- ---------------------------------------- SELECT lc_cum_type_nm ,'pheno_ixn_count' ,COUNT( * ) -- Not distincted. FROM phenotype_term_reference ptr WHERE ptr.source_cd = 'C' and term_object_type_id = (SELECT ot.id FROM object_type ot WHERE ot.cd = 'chem') UNION ALL -- unique phenotype gene count SELECT lc_cum_type_nm ,'pheno_c_gene_count' ,COUNT(DISTINCT ptr.term_id) FROM phenotype_term_reference ptr where ptr.source_cd IN ('C' ) and term_object_type_id = (SELECT ot.id FROM object_type ot WHERE ot.cd = 'gene') UNION ALL -- unique phenotype chemical count SELECT lc_cum_type_nm ,'pheno_c_chem_count' ,COUNT(DISTINCT ptr.term_id) FROM phenotype_term_reference ptr where ptr.source_cd IN ('C' ) and term_object_type_id = (SELECT ot.id FROM object_type ot WHERE ot.cd = 'chem') UNION ALL -- unique phenotype GO count SELECT lc_cum_type_nm ,'pheno_c_go_count' ,COUNT(DISTINCT ptr.phenotype_id) FROM phenotype_term_reference ptr where ptr.source_cd IN ('C' ) UNION ALL -- unique taxon count SELECT lc_cum_type_nm ,'pheno_c_taxon_count' ,COUNT(DISTINCT ptr.taxon_id) FROM phenotype_term_reference ptr where ptr.source_cd IN ('C' ) UNION ALL -- unique anatomy count SELECT lc_cum_type_nm ,'pheno_c_anatomy_count' ,COUNT(DISTINCT ia.anatomy_id) FROM ixn_anatomy ia" PL/pgSQL function maint_cached_value_refresh_data_metrics() line 23 at SQL statement
Statement: select maint_cached_value_refresh_data_metrics()Date: 2025-04-18 13:12:23
Statement: select * from log_query_bots
Date: 2025-04-18 13:41:47
4 2 ERROR: current transaction is aborted, commands ignored until end of transaction block
Times Reported Most Frequent Error / Event #4
Day Hour Count Apr 18 12 1 13 1 - ERROR: current transaction is aborted, commands ignored until end of transaction block
- ERROR: current transaction is aborted, commands ignored until end of transaction block
Statement: create table test_cte as SELECT ID FROM CTE WHERE RowNum > 1;
Date: 2025-04-18 12:49:40
Statement: drop table test_cte
Date: 2025-04-18 13:39:29
5 1 ERROR: INSERT has more expressions than target columns
Times Reported Most Frequent Error / Event #5
Day Hour Count Apr 18 13 1 - ERROR: INSERT has more expressions than target columns at character 159
Statement: WITH CTE AS ( SELECT *, ROW_NUMBER() OVER (PARTITION BY id ORDER BY ID ASC) AS RowNum FROM log_query_bots ) insert into log_query_bots_unique (SELECT * FROM CTE WHERE RowNum > 1);
Date: 2025-04-18 13:38:37
6 1 ERROR: relation "..." does not exist
Times Reported Most Frequent Error / Event #6
Day Hour Count Apr 18 12 1 - ERROR: relation "cte" does not exist at character 41
Statement: create table test_cte as SELECT ID FROM CTE WHERE RowNum > 1;
Date: 2025-04-18 12:49:49
7 1 ERROR: syntax error at end of input
Times Reported Most Frequent Error / Event #7
Day Hour Count Apr 18 12 1 - ERROR: syntax error at end of input at character 117
Statement: WITH CTE AS ( SELECT ID, ROW_NUMBER() OVER (PARTITION BY id ORDER BY ID ASC) AS RowNum FROM log_query_bots )
Date: 2025-04-18 12:36:40 Database: ctddev51 Application: pgAdmin 4 - CONN:267674 User: pubc Remote: