Explain Plan of a query.

I want to know the concept of this 'Explain Plan' of a query & why it is used. Could u also give the syntax of how a explain plan for a query can be done. Please help in solving the doubt as it is urgent.

Hi,
set autotrace traceonly explain or
-- create your plan table in your schema (only once)
@ ?/rdbms/admin/utlxplan
-- populate the plan table for your select
explain plan for select ...;
-- display output out of the PLAN_TABLE
@ ?/rdbms/admin/ultxplsRegards
Laurent

Similar Messages

Differenet Explain Plan for Same Query

DB Version : 11.2.0.3
OS Version : AIX 6
I have two Queries ( The Difference between Them Only 940 and 584 ) When I Generate Explain Plan Different Output Why ? Why CPU time is Different Each Time
First Query Statement :
INSERT INTO TempSearchResult (t_aid,
                              t_umidl,
                              t_umidh,
                              X_CREA_DATE_TIME_MESG)
   SELECT z.aid,
          z.mesg_s_umidl,
          z.mesg_s_umidh,
          z.mesg_crea_date_time
     FROM ( SELECT m.aid,
                    m.mesg_s_umidl,
                    m.mesg_s_umidh,
                    m.mesg_crea_date_time
               FROM RSMESG_ESIDE m
              WHERE 1 = 1
                    AND m.mesg_crea_date_time BETWEEN TO_DATE (
                                                         '20120131 10:00:00',
                                                         'YYYYMMDD HH24:MI:SS')
                                                  AND TO_DATE (
                                                         '20120131 13:00:00',
                                                         'YYYYMMDD HH24:MI:SS')
                    AND m.mesg_frmt_name = 'Swift'
                    AND m.mesg_sender_x1 = 'SOGEFRPPXXX'
                    AND m.mesg_nature = 'FINANCIAL_MSG'
                    AND m.mesg_type LIKE '950'
           ORDER BY mesg_crea_date_time) z
    WHERE ROWNUM <= 5000
Explain Plan for First Query :
PLAN_TABLE_OUTPUT
Plan hash value: 3901722890
| Id | Operation                                 | Name              | Rows | Bytes | Cost (%CPU)| Time     | Pstart| Pstop |
|   0 | INSERT STATEMENT                          |                   | 2866 |   134K|   197   (3)| 00:00:03 |       |       |
|   1 | LOAD TABLE CONVENTIONAL                  | TEMPSEARCHRESULT |       |       |            |          |       |       |
|* 2 |   COUNT STOPKEY                           |                   |       |       |            |          |       |       |
|   3 |    VIEW                                   |                   | 2866 |   134K|   197   (3)| 00:00:03 |       |       |
|* 4 |     SORT ORDER BY STOPKEY                 |                   | 2866 |   333K|   197   (3)| 00:00:03 |       |       |
|   5 |      NESTED LOOPS                         |                   | 2866 |   333K|   196   (2)| 00:00:03 |       |       |
PLAN_TABLE_OUTPUT
|   6 |       NESTED LOOPS                        |                   | 1419 |   148K|   196   (2)| 00:00:03 |       |       |
|* 7 |        HASH JOIN                          |                   | 1419 |   141K|   196   (2)| 00:00:03 |       |       |
|   8 |         NESTED LOOPS                      |                   |    91 | 1911 |     2   (0)| 00:00:01 |       |       |
|   9 |          TABLE ACCESS BY INDEX ROWID      | SUSER             |     1 |    10 |     1   (0)| 00:00:01 |       |       |
|* 10 |           INDEX UNIQUE SCAN               | IX_SUSER          |     1 |       |     0   (0)| 00:00:01 |       |       |
|* 11 |          INDEX FULL SCAN                  | PK_SUNITUSERGROUP |    91 | 1001 |     1   (0)| 00:00:01 |       |       |
| 12 |         PARTITION RANGE SINGLE            |                   | 1450 |   114K|   193   (2)| 00:00:03 |     2 |     2 |
|* 13 |          TABLE ACCESS BY LOCAL INDEX ROWID| RMESG             | 1450 |   114K|   193   (2)| 00:00:03 |     2 |     2 |
|* 14 |           INDEX SKIP SCAN                 | IX_RMESG          |   415 |       |    14 (15)| 00:00:01 |     2 |     2 |
|* 15 |        INDEX UNIQUE SCAN                  | PK_SMSGUSERGROUP |     1 |     5 |     0   (0)| 00:00:01 |       |       |
|* 16 |       INDEX UNIQUE SCAN                   | PK_SBICUSERGROUP |     2 |    24 |     0   (0)| 00:00:01 |       |       |
PLAN_TABLE_OUTPUT
PLAN_TABLE_OUTPUT
Predicate Information (identified by operation id):
   2 - filter(ROWNUM<=5000)
   4 - filter(ROWNUM<=5000)
   7 - access("X_INST0_UNIT_NAME"="UNIT")
10 - access("SUSER"."USERNAME"="SIDE"."GETMYUSER"())
11 - access("SUSER"."GROUPID"="SUNITUSERGROUP"."GROUPID")
       filter("SUSER"."GROUPID"="SUNITUSERGROUP"."GROUPID")
PLAN_TABLE_OUTPUT
13 - filter("RMESG"."MESG_SENDER_X1"='SOGEFRPPXXX' AND "RMESG"."MESG_NATURE"='FINANCIAL_MSG' AND
              "RMESG"."MESG_FRMT_NAME"='Swift')
14 - access("RMESG"."MESG_CREA_DATE_TIME">=TO_DATE(' 2012-01-31 10:00:00', 'syyyy-mm-dd hh24:mi:ss') AND
              "RMESG"."MESG_TYPE"='950' AND "RMESG"."MESG_CREA_DATE_TIME"<=TO_DATE(' 2012-01-31 13:00:00', 'syyyy-mm-dd hh24:mi:ss'))
       filter("RMESG"."MESG_TYPE"='950')
15 - access("X_CATEGORY"="CATEGORY" AND "SUSER"."GROUPID"="SMSGUSERGROUP"."GROUPID")
16 - access("X_OWN_LT"="BICCODE" AND "SUSER"."GROUPID"="SBICUSERGROUP"."GROUPID")
40 rows selected.
Second query
INSERT INTO TempSearchResult (t_aid,
                              t_umidl,
                              t_umidh,
                              X_CREA_DATE_TIME_MESG)
   SELECT z.aid,
          z.mesg_s_umidl,
          z.mesg_s_umidh,
          z.mesg_crea_date_time
     FROM ( SELECT m.aid,
                    m.mesg_s_umidl,
                    m.mesg_s_umidh,
                    m.mesg_crea_date_time
               FROM RSMESG_ESIDE m
              WHERE 1 = 1
                    AND m.mesg_crea_date_time BETWEEN TO_DATE (
                                                         '20120117 10:00:00',
                                                         'YYYYMMDD HH24:MI:SS')
                                                  AND TO_DATE (
                                                         '20120117 13:00:00',
                                                         'YYYYMMDD HH24:MI:SS')
                    AND m.mesg_frmt_name = 'Swift'
                    AND m.mesg_sender_x1 = 'SOGEFRPPGSS'
                    AND m.mesg_nature = 'FINANCIAL_MSG'
                    AND m.mesg_type LIKE '548'
           ORDER BY mesg_crea_date_time) z
    WHERE ROWNUM <= 5000
Explain Plan For Second Query :
PLAN_TABLE_OUTPUT
Plan hash value: 4106071428
| Id | Operation                                  | Name              | Rows | Bytes |TempSpc| Cost (%CPU)| Time     | Pstart| Pstop |
|   0 | INSERT STATEMENT                           |                   | 1073 | 51504 |       | 2622   (1)| 00:00:32 |       |       |
|   1 | LOAD TABLE CONVENTIONAL                   | TEMPSEARCHRESULT |       |       |       |            |          |       |       |
|* 2 |   COUNT STOPKEY                            |                   |       |       |       |            |          |       |       |
|   3 |    VIEW                                    |                   | 1073 | 51504 |       | 2622   (1)| 00:00:32 |       |       |
|* 4 |     SORT ORDER BY STOPKEY                  |                   | 1073 |   124K|       | 2622   (1)| 00:00:32 |       |       |
|   5 |      NESTED LOOPS                          |                   | 1073 |   124K|       | 2621   (1)| 00:00:32 |       |       |
PLAN_TABLE_OUTPUT
|   6 |       NESTED LOOPS                         |                   |   531 | 56817 |       | 2621   (1)| 00:00:32 |       |       |
|   7 |        NESTED LOOPS                        |                   |   531 | 54162 |       | 2621   (1)| 00:00:32 |       |       |
|   8 |         NESTED LOOPS                       |                   |   543 | 49413 |       | 2621   (1)| 00:00:32 |       |       |
|   9 |          TABLE ACCESS BY INDEX ROWID       | SUSER             |     1 |    10 |       |     1   (0)| 00:00:01 |       |       |
|* 10 |           INDEX UNIQUE SCAN                | IX_SUSER          |     1 |       |       |     0   (0)| 00:00:01 |       |       |
| 11 |          PARTITION RANGE SINGLE            |                   |   543 | 43983 |       | 2621   (1)| 00:00:32 |     2 |     2 |
|* 12 |           TABLE ACCESS BY LOCAL INDEX ROWID| RMESG             |   543 | 43983 |       | 2621   (1)| 00:00:32 |     2 |     2 |
| 13 |            BITMAP CONVERSION TO ROWIDS     |                   |       |       |       |            |          |       |       |
| 14 |             BITMAP AND                     |                   |       |       |       |            |          |       |       |
| 15 |              BITMAP CONVERSION FROM ROWIDS |                   |       |       |       |            |          |       |       |
|* 16 |               INDEX RANGE SCAN             | IX_SENDER         | 25070 |       |       |   894   (1)| 00:00:11 |     2 |     2 |
PLAN_TABLE_OUTPUT
| 17 |              BITMAP CONVERSION FROM ROWIDS |                   |       |       |       |            |          |       |       |
| 18 |               SORT ORDER BY                |                   |       |       |   408K|            |          |       |       |
|* 19 |                INDEX RANGE SCAN            | IX_RMESG          | 25070 |       |       | 1405   (1)| 00:00:17 |     2 |     2 |
|* 20 |         INDEX UNIQUE SCAN                  | PK_SUNITUSERGROUP |     1 |    11 |       |     0   (0)| 00:00:01 |       |       |
|* 21 |        INDEX UNIQUE SCAN                   | PK_SMSGUSERGROUP |     1 |     5 |       |     0   (0)| 00:00:01 |       |       |
|* 22 |       INDEX UNIQUE SCAN                    | PK_SBICUSERGROUP |     2 |    24 |       |     0   (0)| 00:00:01 |       |       |
Predicate Information (identified by operation id):
PLAN_TABLE_OUTPUT
   2 - filter(ROWNUM<=5000)
   4 - filter(ROWNUM<=5000)
10 - access("SUSER"."USERNAME"="SIDE"."GETMYUSER"())
12 - filter("RMESG"."MESG_NATURE"='FINANCIAL_MSG' AND "RMESG"."MESG_FRMT_NAME"='Swift')
16 - access("RMESG"."MESG_SENDER_X1"='SOGEFRPPGSS')
19 - access("RMESG"."MESG_CREA_DATE_TIME">=TO_DATE(' 2012-01-17 10:00:00', 'syyyy-mm-dd hh24:mi:ss') AND
              "RMESG"."MESG_TYPE"='548' AND "RMESG"."MESG_CREA_DATE_TIME"<=TO_DATE(' 2012-01-17 13:00:00', 'syyyy-mm-dd hh24:mi:ss'))
       filter("RMESG"."MESG_TYPE"='548' AND "RMESG"."MESG_CREA_DATE_TIME"<=TO_DATE(' 2012-01-17 13:00:00', 'syyyy-mm-dd
              hh24:mi:ss') AND "RMESG"."MESG_CREA_DATE_TIME">=TO_DATE(' 2012-01-17 10:00:00', 'syyyy-mm-dd hh24:mi:ss'))
20 - access("X_INST0_UNIT_NAME"="UNIT" AND "SUSER"."GROUPID"="SUNITUSERGROUP"."GROUPID")
21 - access("X_CATEGORY"="CATEGORY" AND "SUSER"."GROUPID"="SMSGUSERGROUP"."GROUPID")
PLAN_TABLE_OUTPUT
22 - access("X_OWN_LT"="BICCODE" AND "SUSER"."GROUPID"="SBICUSERGROUP"."GROUPID")
45 rows selected.
Table Structure TEMPSEARCHRESULT
CREATE GLOBAL TEMPORARY TABLE TEMPSEARCHRESULT
T_AID                  NUMBER(3),
T_UMIDL                NUMBER(10),
T_UMIDH                NUMBER(10),
X_CREA_DATE_TIME_MESG DATE
ON COMMIT PRESERVE ROWS
NOCACHE;
CREATE INDEX SIDE.TEMP_SEARCH_INDEX ON SIDE.TEMPSEARCHRESULT
(T_AID, T_UMIDL, T_UMIDH, X_CREA_DATE_TIME_MESG);

Again Thank you For your amazing Answer.
For indexes it's a balance. Check this query which is Simple
Select * from RMESGI generated Explain Plan for it to see effect of indexes .
PLAN_TABLE_OUTPUT
Plan hash value: 1686435785
| Id | Operation           | Name | Rows | Bytes | Cost (%CPU)| Time     | Pstart| Pstop |
|   0 | SELECT STATEMENT    |       |    11M| 8920M|   376K (1)| 01:15:20 |      |        |
|   1 | PARTITION RANGE ALL|       |    11M| 8920M|   376K (1)| 01:15:20 |    1 |     12 |
|   2 |   TABLE ACCESS FULL | RMESG |    11M| 8920M|   376K (1)| 01:15:20 |    1 |     12 |
---------------------------------------------------------------------------------------------1:15:20 For table access and Full Scan Also , I generate new Indexes on the table like the following
CREATE TABLE RMESG(
        aid NUMBER(3) NOT NULL,
        mesg_s_umidl NUMBER(10) NOT NULL,
        mesg_s_umidh NUMBER(10) NOT NULL,
        mesg_validation_requested CHAR(18) NOT NULL,
        mesg_validation_passed CHAR(18) NOT NULL,
        mesg_class CHAR(16) NOT NULL,
        mesg_is_text_readonly NUMBER(1) NOT NULL,
        mesg_is_delete_inhibited NUMBER(1) NOT NULL,
        mesg_is_text_modified NUMBER(1) NOT NULL,
        mesg_is_partial NUMBER(1) NOT NULL,
        mesg_crea_mpfn_name CHAR(24) NOT NULL,
        mesg_crea_rp_name CHAR(24) NOT NULL,
        mesg_crea_oper_nickname CHAR(151) NOT NULL,
        mesg_crea_date_time DATE NOT NULL,
        mesg_mod_oper_nickname CHAR(151) NOT NULL,
        mesg_mod_date_time DATE NOT NULL,
        mesg_frmt_name VARCHAR2(17) NOT NULL,
        mesg_nature CHAR(14) NOT NULL,
        mesg_sender_x1 CHAR(11) NOT NULL,
        mesg_sender_corr_type VARCHAR2(24) NOT NULL,
        mesg_uumid VARCHAR2(50) NOT NULL,
        mesg_uumid_suffix NUMBER(10) NOT NULL,
        x_own_lt CHAR(8) NOT NULL,
        x_inst0_unit_name VARCHAR2(32) default 'NONE' NOT NULL,
        x_category CHAR(1) NOT NULL,
        archived NUMBER(1) NOT NULL,
        restored NUMBER(1) NOT NULL,
        mesg_related_s_umid CHAR(16) NULL,
        mesg_status CHAR(12) NULL,
        mesg_crea_appl_serv_name CHAR(24) NULL,
        mesg_verf_oper_nickname CHAR(151) NULL,
        mesg_data_last NUMBER(10) NULL,
        mesg_token NUMBER(10) NULL,
        mesg_batch_reference VARCHAR2(46) NULL,
        mesg_cas_sender_reference VARCHAR2(40) NULL,
        mesg_cas_target_rp_name VARCHAR2(20) NULL,
        mesg_ccy_amount VARCHAR2(501) NULL,
        mesg_copy_service_id VARCHAR2(4) NULL,
        mesg_data_keyword1 VARCHAR2(80) NULL,
        mesg_data_keyword2 VARCHAR2(80) NULL,
        mesg_data_keyword3 VARCHAR2(80) NULL,
        mesg_delv_overdue_warn_req NUMBER(1) NULL,
        mesg_fin_ccy_amount VARCHAR2(24) NULL,
        mesg_fin_value_date CHAR(6) NULL,
        mesg_is_live NUMBER(1) NULL,
        mesg_is_retrieved NUMBER(1) NULL,
        mesg_mesg_user_group VARCHAR2(24) NULL,
        mesg_network_appl_ind CHAR(3) NULL,
        mesg_network_delv_notif_req NUMBER(1) NULL,
        mesg_network_obso_period NUMBER(10) NULL,
        mesg_network_priority CHAR(12) NULL,
        mesg_possible_dup_creation VARCHAR2(8) NULL,
        mesg_receiver_alia_name VARCHAR2(32) NULL,
        mesg_receiver_swift_address CHAR(12) NULL,
        mesg_recovery_accept_info VARCHAR2(80) NULL,
        mesg_rel_trn_ref VARCHAR2(80) NULL,
        mesg_release_info VARCHAR2(32) NULL,
        mesg_security_iapp_name VARCHAR2(80) NULL,
        mesg_security_required NUMBER(1) NULL,
        mesg_sender_x2 VARCHAR2(21) NULL,
        mesg_sender_x3 VARCHAR2(21) NULL,
        mesg_sender_x4 VARCHAR2(21) NULL,
        mesg_sender_branch_info VARCHAR2(71) NULL,
        mesg_sender_city_name VARCHAR2(36) NULL,
        mesg_sender_ctry_code VARCHAR2(3) NULL,
        mesg_sender_ctry_name VARCHAR2(71) NULL,
        mesg_sender_institution_name VARCHAR2(106) NULL,
        mesg_sender_location VARCHAR2(106) NULL,
        mesg_sender_swift_address CHAR(12) NULL,
        mesg_sub_format VARCHAR2(6) NULL,
        mesg_syntax_table_ver VARCHAR2(8) NULL,
        mesg_template_name VARCHAR2(32) NULL,
        mesg_trn_ref VARCHAR2(16) NULL,
        mesg_type CHAR(3) NULL,
        mesg_user_issued_as_pde NUMBER(1) NULL,
        mesg_user_priority_code CHAR(4) NULL,
        mesg_user_reference_text VARCHAR2(30) NULL,
        mesg_zz41_is_possible_dup NUMBER(1) NULL,
        x_fin_ccy CHAR(3) NULL,
        x_fin_amount NUMBER(21,4) NULL,
        x_fin_value_date DATE NULL,
        x_fin_ocmt_ccy CHAR(3) NULL,
        x_fin_ocmt_amount NUMBER(21,4) NULL,
        x_receiver_x1 CHAR(11) NULL,
        x_receiver_x2 VARCHAR2(21) NULL,
        x_receiver_x3 VARCHAR2(21) NULL,
        x_receiver_x4 VARCHAR2(21) NULL,
        last_update DATE NULL,
        set_id NUMBER(10) NULL,
        mesg_requestor_dn VARCHAR2(101) NULL,
        mesg_service VARCHAR2(31) NULL,
        mesg_request_type VARCHAR2(31) NULL,
        mesg_identifier VARCHAR2(31) NULL,
        mesg_xml_query_ref1 VARCHAR2(101) NULL,
        mesg_xml_query_ref2 VARCHAR2(101) NULL,
        mesg_xml_query_ref3 VARCHAR2(101) NULL,
        mesg_appl_sender_reference VARCHAR2(51) NULL,
        mesg_payload_type VARCHAR2(31) NULL,
        mesg_sign_digest_reference VARCHAR2(41) NULL,
        mesg_sign_digest_value VARCHAR2(51) NULL,
        mesg_use_pki_signature NUMBER(1) NULL
PARTITION BY RANGE(MESG_CREA_DATE_TIME) (
    PARTITION SIDE_MIN VALUES LESS THAN (TO_DATE(20000101, 'YYYYMMDD')) TABLESPACE TBS_SIDEDB_DA_01);
CREATE UNIQUE INDEX SIDE.IX_PK_RMESG on SIDE.RMESG (AID, MESG_S_UMIDH, MESG_S_UMIDL, MESG_CREA_DATE_TIME) LOCAL;
ALTER TABLE SIDE.RMESG ADD CONSTRAINT IX_PK_RMESG PRIMARY KEY (AID, MESG_S_UMIDH, MESG_S_UMIDL, MESG_CREA_DATE_TIME) USING INDEX SIDE.IX_PK_RMESG;
CREATE INDEX SIDE.ix_rmesg_cassender ON SIDE.rmesg (MESG_CAS_SENDER_REFERENCE) LOCAL;
CREATE INDEX SIDE.ix_rmesg_creationdate ON SIDE.rmesg (MESG_CREA_DATE_TIME) LOCAL;
CREATE INDEX SIDE.ix_rmesg_trnref ON SIDE.rmesg (MESG_TRN_REF) LOCAL;
CREATE INDEX SIDE.ix_rmesg_uumid ON SIDE.rmesg (MESG_UUMID, MESG_UUMID_SUFFIX) LOCAL;
CREATE INDEX SIDE.IX_UNIT_NAME_RMESG on RMESG(mesg_crea_date_time,X_INST0_UNIT_NAME) LOCAL;
CREATE INDEX SIDE.IX_RMESG on RMESG(mesg_crea_date_time ,mesg_type,x_fin_ccy) LOCAL;
CREATE INDEX SIDE.IX_NAME_FORMAT_TYPE_RMESG on RMESG(mesg_frmt_name,mesg_sub_format,mesg_type,mesg_crea_date_time ) LOCAL;same Explain Plan Same Result .
I always remember TOM Quote "full scans are not evil, indexes are not good"
Which Mean Something Wrong Goes with Indexes , the partition depend on MESG_CREA_DATE_TIME Column I create Index for this column but same explain plan Appear every time. With Same Time.
Thank you
Osama

Explain plan for same query in three databases

Hi,
We have three databases dev, uat and test, all have same init parameters and almost same data. We are running a query which runs long on dev and on uat and test it runs very fast, the explain plan on uat and test shows a cost of around 4000 but on dev the cost is 20000. Statistics were collected on three instances 2 days ago and the objects are also same.
My question is what else should I look for this optimizer behaviour? the database version is 10.2.0.3.
Please help.
Thanks
Clin

user627471 wrote:
Hi,
We have three databases dev, uat and test, all have same init parameters and almost same data. We are running a query which runs long on dev and on uat and test it runs very fast, the explain plan on uat and test shows a cost of around 4000 but on dev the cost is 20000. Statistics were collected on three instances 2 days ago and the objects are also same.
My question is what else should I look for this optimizer behaviour? the database version is 10.2.0.3.
Please help.
Thanks
Clinpost both EXPLAIN PLAN here

Explain Plan for same query

Same query is taking different times in two databses.
Both dababases are similar being refreshed from one.
Below are the the explain plan from both queries.
Can anything be conclusive from this information.
Second explain plan is for a faster execution.
SELECT STATEMENT ALL_ROWSCost: 245,393
18 PX COORDINATOR
17 PX SEND QC (RANDOM) PARALLEL_TO_SERIAL SYS.:TQ10003 Cost: 245,393 Bytes: 735,679,824 Cardinality: 8,359,998
16 HASH GROUP BY PARALLEL_COMBINED_WITH_PARENT Cost: 245,393 Bytes: 735,679,824 Cardinality: 8,359,998
15 PX RECEIVE PARALLEL_COMBINED_WITH_PARENT Cost: 198,164 Bytes: 735,679,824 Cardinality: 8,359,998
14 PX SEND HASH PARALLEL_TO_PARALLEL SYS.:TQ10002 Cost: 198,164 Bytes: 735,679,824 Cardinality: 8,359,998
13 HASH JOIN PARALLEL_COMBINED_WITH_PARENT Cost: 198,164 Bytes: 735,679,824 Cardinality: 8,359,998
4 BUFFER SORT PARALLEL_COMBINED_WITH_CHILD
3 PX RECEIVE PARALLEL_COMBINED_WITH_PARENT Cost: 15 Bytes: 129,220 Cardinality: 2,485
2 PX SEND BROADCAST PARALLEL_FROM_SERIAL SYS.:TQ10000 Cost: 15 Bytes: 129,220 Cardinality: 2,485
1 TABLE ACCESS FULL TABLE myschema.team Cost: 15 Bytes: 129,220 Cardinality: 2,485
12 TABLE ACCESS BY LOCAL INDEX ROWID TABLE PARALLEL_COMBINED_WITH_PARENT myschema.mytable Cost: 18,117 Bytes: 4,777,136 Cardinality: 183,736
11 NESTED LOOPS PARALLEL_COMBINED_WITH_PARENT Cost: 198,125 Bytes: 300,959,928 Cardinality: 8,359,998
8 BUFFER SORT PARALLEL_COMBINED_WITH_CHILD
7 PX RECEIVE PARALLEL_COMBINED_WITH_PARENT
6 PX SEND BROADCAST PARALLEL_FROM_SERIAL SYS.:TQ10001
5 TABLE ACCESS FULL TABLE myschema.dim Cost: 12 Bytes: 450 Cardinality: 45
10 PX PARTITION RANGE ITERATOR PARALLEL_COMBINED_WITH_CHILD Cost: 38 Cardinality: 183,736 Partition #: 17
9 INDEX RANGE SCAN INDEX PARALLEL_COMBINED_WITH_PARENT myschema.IDX_TDATE_DC_FLAG Cost: 38 Cardinality: 183,736 Partition #: 17
SELECT STATEMENT CHOOSECost: 2,830
14 PX COORDINATOR
13 PX SEND QC (RANDOM) PARALLEL_TO_SERIAL SYS.:TQ10003 Cost: 2,830 Bytes: 21,327,392 Cardinality: 288,208
12 HASH GROUP BY PARALLEL_COMBINED_WITH_PARENT Cost: 2,830 Bytes: 21,327,392 Cardinality: 288,208
11 PX RECEIVE PARALLEL_COMBINED_WITH_PARENT Cost: 2,828 Bytes: 21,327,392 Cardinality: 288,208
10 PX SEND HASH PARALLEL_TO_PARALLEL SYS.:TQ10002 Cost: 2,828 Bytes: 21,327,392 Cardinality: 288,208
9 HASH JOIN BUFFERED PARALLEL_COMBINED_WITH_PARENT Cost: 2,828 Bytes: 21,327,392 Cardinality: 288,208
4 BUFFER SORT PARALLEL_COMBINED_WITH_CHILD
3 PX RECEIVE PARALLEL_COMBINED_WITH_PARENT Cost: 19 Bytes: 129,272 Cardinality: 2,486
2 PX SEND HASH PARALLEL_FROM_SERIAL SYS.:TQ10000 Cost: 19 Bytes: 129,272 Cardinality: 2,486
1 TABLE ACCESS FULL TABLE myschema.team Cost: 19 Bytes: 129,272 Cardinality: 2,486
8 PX RECEIVE PARALLEL_COMBINED_WITH_PARENT Cost: 2,808 Bytes: 6,340,576 Cardinality: 288,208
7 PX SEND HASH PARALLEL_TO_PARALLEL SYS.:TQ10001 Cost: 2,808 Bytes: 6,340,576 Cardinality: 288,208
6 PX BLOCK ITERATOR PARALLEL_COMBINED_WITH_CHILD Cost: 2,808 Bytes: 6,340,576 Cardinality: 288,208 Partition #: 13 Partitions accessed #1 - #5
5 MAT_VIEW REWRITE ACCESS FULL MAT_VIEW REWRITE PARALLEL_COMBINED_WITH_PARENT myschema.matv_2 Cost: 2,808 Bytes: 6,340,576 Cardinality: 288,208 Partition #: 13 Partitions accessed
Edited by: user610910 on Feb 13, 2009 5:12 AM

SELECT STATEMENT CHOOSE Cost: 2,830
14 PX COORDINATOR
13 PX SEND QC (RANDOM) PARALLEL_TO_SERIAL SYS.:TQ10003 Cost: 2,830 Bytes: 21,327,392 Cardinality: 288,208
       12 HASH GROUP BY PARALLEL_COMBINED_WITH_PARENT Cost: 2,830 Bytes: 21,327,392 Cardinality: 288,208
           11 PX RECEIVE PARALLEL_COMBINED_WITH_PARENT Cost: 2,828 Bytes: 21,327,392 Cardinality: 288,208
         10 PX SEND HASH PARALLEL_TO_PARALLEL SYS.:TQ10002 Cost: 2,828 Bytes: 21,327,392 Cardinality: 288,208
     9 HASH JOIN BUFFERED PARALLEL_COMBINED_WITH_PARENT Cost: 2,828 Bytes: 21,327,392 Cardinality: 288,208
             4 BUFFER SORT PARALLEL_COMBINED_WITH_CHILD
        3 PX RECEIVE PARALLEL_COMBINED_WITH_PARENT Cost: 19 Bytes: 129,272 Cardinality: 2,486
      2 PX SEND HASH PARALLEL_FROM_SERIAL SYS.:TQ10000 Cost: 19 Bytes: 129,272 Cardinality: 2,486
1 TABLE ACCESS FULL TABLE MYSCHEMA.TEAM Cost: 19 Bytes: 129,272 Cardinality: 2,486
8 PX RECEIVE PARALLEL_COMBINED_WITH_PARENT Cost: 2,808 Bytes: 6,340,576 Cardinality: 288,208
     7 PX SEND HASH PARALLEL_TO_PARALLEL SYS.:TQ10001 Cost: 2,808 Bytes: 6,340,576 Cardinality: 288,208
   6 PX BLOCK ITERATOR PARALLEL_COMBINED_WITH_CHILD Cost: 2,808 Bytes: 6,340,576 Cardinality: 288,208    Partition #: 13 Partitions accessed #1 - #5
5 MAT_VIEW REWRITE ACCESS FULL MAT_VIEW REWRITE PARALLEL_COMBINED_WITH_PARENT MYSCHEMA.MATVW Cost: 2,808 Bytes: 6,340,576 Cardinality: 288,208 Partition #: 13 Partitions accessed #1 - #5
SELECT STATEMENT ALL_ROWSCost: 245,393
18 PX COORDINATOR
    17 PX SEND QC (RANDOM) PARALLEL_TO_SERIAL SYS.:TQ10003 Cost: 245,393 Bytes: 735,679,824 Cardinality: 8,359,998
      16 HASH GROUP BY PARALLEL_COMBINED_WITH_PARENT Cost: 245,393 Bytes: 735,679,824 Cardinality: 8,359,998
          15 PX RECEIVE PARALLEL_COMBINED_WITH_PARENT Cost: 198,164 Bytes: 735,679,824 Cardinality: 8,359,998
            14 PX SEND HASH PARALLEL_TO_PARALLEL SYS.:TQ10002 Cost: 198,164 Bytes: 735,679,824 Cardinality: 8,359,998
                   13 HASH JOIN PARALLEL_COMBINED_WITH_PARENT Cost: 198,164 Bytes: 735,679,824 Cardinality: 8,359,998
4 BUFFER SORT PARALLEL_COMBINED_WITH_CHILD
     3 PX RECEIVE PARALLEL_COMBINED_WITH_PARENT Cost: 15 Bytes: 129,220 Cardinality: 2,485
         2 PX SEND BROADCAST PARALLEL_FROM_SERIAL SYS.:TQ10000 Cost: 15 Bytes: 129,220 Cardinality: 2,485
             1 TABLE ACCESS FULL TABLE MYSCHEMA.TEAM Cost: 15 Bytes: 129,220 Cardinality: 2,485
12 TABLE ACCESS BY LOCAL INDEX ROWID TABLE PARALLEL_COMBINED_WITH_PARENT MYSCHEMA.MY_TABLE Cost: 18,117 Bytes: 4,777,136 Cardinality: 183,736
     11 NESTED LOOPS PARALLEL_COMBINED_WITH_PARENT Cost: 198,125 Bytes: 300,959,928 Cardinality: 8,359,998
    8 BUFFER SORT PARALLEL_COMBINED_WITH_CHILD
          7 PX RECEIVE PARALLEL_COMBINED_WITH_PARENT
                   6 PX SEND BROADCAST PARALLEL_FROM_SERIAL SYS.:TQ10001
                      5 TABLE ACCESS FULL TABLE MYSCHEMA.DIM Cost: 12 Bytes: 450 Cardinality: 45
10 PX PARTITION RANGE ITERATOR PARALLEL_COMBINED_WITH_CHILD Cost: 38 Cardinality: 183,736 Partition #: 17
           9 INDEX RANGE SCAN INDEX PARALLEL_COMBINED_WITH_PARENT MYSCHEMA.MY_IDX Cost: 38 Cardinality: 183,736 Partition #: 17 I think this one looks better.

Explain plans differ: same query, cloned databases.

oracle 10.2.0.2.0
solaris 10
same query, different databases (cloned from same source), different explain plans.
db parameters are identical.
Any ideas?
DB1 (production)
SQL> explain plan for
2 SELECT V__101.*,   SHAPE.fid,SHAPE.numofpts,SHAPE.entity,SHAPE.points,
3    SHAPE.rowid
4 FROM
5   (SELECT b.OBJECTID,b.CRT_DTE,b.CRT_SRC_CDE,b.CRT_AQUI_MTHD_CDE,b.CRT_USR_ID,
6    b.ADT_ACTN_CDE,b.ADT_ACTN_DTE,b.ADT_ACTN_SRC_CDE,b.ADT_ACTN_USR_ID,
7    b.TP_SITE_POINT_ID,b.SHAPE,b.SRC_ID,b.SRC_CRT_DTE,b.SRC_TYPE_CDE,
8    b.LCTN_STAT_CDE,b.FRZN_LCTN_IND,b.TP_NOTES   FROM AMSOWNER.TP_SITE_POINT b
9    WHERE b.OBJECTID NOT IN (SELECT /*+ HASH_AJ */ SDE_DELETES_ROW_ID FROM
10    AMSOWNER.D101 WHERE DELETED_AT IN (SELECT l.lineage_id FROM
SDE.state_lineages l WHERE l.lineage_name = :source_lineage_name AND
11   12    l.lineage_id <= :source_state_id) AND SDE_STATE_ID = :"SYS_B_0") UNION ALL
SELECT a.OBJECTID,a.CRT_DTE,a.CRT_SRC_CDE,a.CRT_AQUI_MTHD_CDE,a.CRT_USR_ID,
13   14    a.ADT_ACTN_CDE,a.ADT_ACTN_DTE,a.ADT_ACTN_SRC_CDE,a.ADT_ACTN_USR_ID,
15    a.TP_SITE_POINT_ID,a.SHAPE,a.SRC_ID,a.SRC_CRT_DTE,a.SRC_TYPE_CDE,
16    a.LCTN_STAT_CDE,a.FRZN_LCTN_IND,a.TP_NOTES   FROM AMSOWNER.A101 a,
17    SDE.state_lineages SL WHERE (a.OBJECTID, a.SDE_STATE_ID) NOT IN (SELECT /*+
18    HASH_AJ */ SDE_DELETES_ROW_ID,SDE_STATE_ID FROM AMSOWNER.D101 WHERE
19    DELETED_AT IN (SELECT l.lineage_id FROM SDE.state_lineages l WHERE
20    l.lineage_name = :source_lineage_name AND l.lineage_id <= :source_state_id)
21    AND SDE_STATE_ID > :"SYS_B_1") AND a.SDE_STATE_ID = SL.lineage_id AND
22    SL.lineage_name = :source_lineage_name AND SL.lineage_id <=
23    :source_state_id ) V__101 , AMSOWNER.F15 SHAPE where SHAPE.FID(+) =
24    V__101.SHAPE;
Explained.
SQL> @?/rdbms/admin/utlxplp.sql;
PLAN_TABLE_OUTPUT
Plan hash value: 254376361
| Id | Operation                         | Name             | Rows | Bytes |TempSpc| Cost (%CPU)| Time     |
|   0 | SELECT STATEMENT                  |                  |   113K|    49M|       | 2926   (1)| 00:00:41 |
|* 1 | HASH JOIN RIGHT OUTER            |                  |   113K|    49M|    17M| 2926   (1)| 00:00:41 |
|   2 |   TABLE ACCESS FULL               | F15              |   113K|    15M|       |   344   (2)| 00:00:05 |
|   3 |   VIEW                            |                  |   113K|    34M|       |   331   (2)| 00:00:05 |
|   4 |    UNION-ALL                      |                  |       |       |       |            |          |
|* 5 |     HASH JOIN RIGHT ANTI          |                  |   113K| 8948K|       |   332   (2)| 00:00:05 |
|   6 |      VIEW                         | VW_NSO_1         |     1 |    13 |       |     2   (0)| 00:00:01 |
|   7 |       NESTED LOOPS                |                  |     1 |    50 |       |     2   (0)| 00:00:01 |
|   8 |        TABLE ACCESS BY INDEX ROWID| D101             |     1 |    39 |       |     1   (0)| 00:00:01 |
|* 9 |         INDEX SKIP SCAN           | D101_IDX1        |     1 |       |       |     1   (0)| 00:00:01 |
|* 10 |        INDEX UNIQUE SCAN          | LINEAGES_PK      |     1 |    11 |       |     1   (0)| 00:00:01 |
| 11 |      TABLE ACCESS FULL            | TP_SITE_POINT    |   113K| 7512K|       |   329   (2)| 00:00:05 |
|* 12 |     HASH JOIN ANTI                |                  |     1 |   375 |       |     5 (20)| 00:00:01 |
| 13 |      NESTED LOOPS                 |                  |     1 |   349 |       |     2   (0)| 00:00:01 |
| 14 |       TABLE ACCESS BY INDEX ROWID | A101             |     1 |   338 |       |     1   (0)| 00:00:01 |
|* 15 |        INDEX RANGE SCAN           | A101_STATEID_IX1 |     1 |       |       |     1   (0)| 00:00:01 |
|* 16 |       INDEX UNIQUE SCAN           | LINEAGES_PK      |     1 |    11 |       |     1   (0)| 00:00:01 |
|* 17 |      VIEW                         | VW_NSO_2         |     1 |    26 |       |     2   (0)| 00:00:01 |
| 18 |       NESTED LOOPS                |                  |     1 |    50 |       |     2   (0)| 00:00:01 |
|* 19 |        INDEX FULL SCAN            | D101_PK          |     1 |    39 |       |     1   (0)| 00:00:01 |
|* 20 |        INDEX UNIQUE SCAN          | LINEAGES_PK      |     1 |    11 |       |     1   (0)| 00:00:01 |
Predicate Information (identified by operation id):
   1 - access("SHAPE"."FID"(+)="V__101"."SHAPE")
   5 - access("B"."OBJECTID"="$nso_col_1")
   9 - access("SDE_STATE_ID"=TO_NUMBER(:SYS_B_0))
       filter("SDE_STATE_ID"=TO_NUMBER(:SYS_B_0))
10 - access("L"."LINEAGE_NAME"=TO_NUMBER(:SOURCE_LINEAGE_NAME) AND "DELETED_AT"="L"."LINEAGE_ID")
       filter("L"."LINEAGE_ID"<=TO_NUMBER(:SOURCE_STATE_ID))
12 - access("A"."OBJECTID"="$nso_col_1" AND "A"."SDE_STATE_ID"="$nso_col_2")
15 - access("A"."SDE_STATE_ID"<=TO_NUMBER(:SOURCE_STATE_ID))
16 - access("SL"."LINEAGE_NAME"=TO_NUMBER(:SOURCE_LINEAGE_NAME) AND
              "A"."SDE_STATE_ID"="SL"."LINEAGE_ID")
       filter("SL"."LINEAGE_ID"<=TO_NUMBER(:SOURCE_STATE_ID))
17 - filter("$nso_col_2"<=TO_NUMBER(:SOURCE_STATE_ID))
19 - access("SDE_STATE_ID">TO_NUMBER(:SYS_B_1))
       filter("SDE_STATE_ID">TO_NUMBER(:SYS_B_1))
20 - access("L"."LINEAGE_NAME"=TO_NUMBER(:SOURCE_LINEAGE_NAME) AND "DELETED_AT"="L"."LINEAGE_ID")
       filter("L"."LINEAGE_ID"<=TO_NUMBER(:SOURCE_STATE_ID))
47 rows selected.DB2 (staging)
SQL> explain plan for
2 SELECT V__101.*,   SHAPE.fid,SHAPE.numofpts,SHAPE.entity,SHAPE.points,
SHAPE.rowid
FROM
3    4    5   (SELECT b.OBJECTID,b.CRT_DTE,b.CRT_SRC_CDE,b.CRT_AQUI_MTHD_CDE,b.CRT_USR_ID,
b.ADT_ACTN_CDE,b.ADT_ACTN_DTE,b.ADT_ACTN_SRC_CDE,b.ADT_ACTN_USR_ID,
6    7    b.TP_SITE_POINT_ID,b.SHAPE,b.SRC_ID,b.SRC_CRT_DTE,b.SRC_TYPE_CDE,
8    b.LCTN_STAT_CDE,b.FRZN_LCTN_IND,b.TP_NOTES   FROM AMSOWNER.TP_SITE_POINT b
9    WHERE b.OBJECTID NOT IN (SELECT /*+ HASH_AJ */ SDE_DELETES_ROW_ID FROM
10    AMSOWNER.D101 WHERE DELETED_AT IN (SELECT l.lineage_id FROM
11    SDE.state_lineages l WHERE l.lineage_name = :source_lineage_name AND
12    l.lineage_id <= :source_state_id) AND SDE_STATE_ID = :"SYS_B_0") UNION ALL
13    SELECT a.OBJECTID,a.CRT_DTE,a.CRT_SRC_CDE,a.CRT_AQUI_MTHD_CDE,a.CRT_USR_ID,
14    a.ADT_ACTN_CDE,a.ADT_ACTN_DTE,a.ADT_ACTN_SRC_CDE,a.ADT_ACTN_USR_ID,
15    a.TP_SITE_POINT_ID,a.SHAPE,a.SRC_ID,a.SRC_CRT_DTE,a.SRC_TYPE_CDE,
16    a.LCTN_STAT_CDE,a.FRZN_LCTN_IND,a.TP_NOTES   FROM AMSOWNER.A101 a,
17    SDE.state_lineages SL WHERE (a.OBJECTID, a.SDE_STATE_ID) NOT IN (SELECT /*+
HASH_AJ */ SDE_DELETES_ROW_ID,SDE_STATE_ID FROM AMSOWNER.D101 WHERE
18   19    DELETED_AT IN (SELECT l.lineage_id FROM SDE.state_lineages l WHERE
20    l.lineage_name = :source_lineage_name AND l.lineage_id <= :source_state_id)
21    AND SDE_STATE_ID > :"SYS_B_1") AND a.SDE_STATE_ID = SL.lineage_id AND
22    SL.lineage_name = :source_lineage_name AND SL.lineage_id <=
23    :source_state_id ) V__101 , AMSOWNER.F15 SHAPE where SHAPE.FID(+) =
24    V__101.SHAPE;
Explained.
SQL> @?/rdbms/admin/utlxplp.sql;
PLAN_TABLE_OUTPUT
Plan hash value: 4287458713
| Id | Operation                         | Name             | Rows | Bytes | Cost (%CPU)| Time     |
|   0 | SELECT STATEMENT                  |                  |   145 | 68150 |   401   (1)| 00:00:06 |
|   1 | NESTED LOOPS OUTER               |                  |   145 | 68150 |   401   (1)| 00:00:06 |
|   2 |   VIEW                            |                  |   145 | 47125 |   328   (1)| 00:00:05 |
|   3 |    UNION-ALL                      |                  |       |       |            |          |
|* 4 |     HASH JOIN ANTI                |                  |   144 | 10224 |   324   (1)| 00:00:05 |
|   5 |      TABLE ACCESS FULL            | TP_SITE_POINT    |   145 | 8410 |   322   (1)| 00:00:05 |
|   6 |      VIEW                         | VW_NSO_1         |     1 |    13 |     2   (0)| 00:00:01 |
|   7 |       NESTED LOOPS                |                  |     1 |    50 |     2   (0)| 00:00:01 |
|* 8 |        TABLE ACCESS BY INDEX ROWID| D101             |     1 |    39 |     1   (0)| 00:00:01 |
|* 9 |         INDEX SKIP SCAN           | D101_IDX1        |     1 |       |     1   (0)| 00:00:01 |
|* 10 |        INDEX UNIQUE SCAN          | LINEAGES_PK      |     1 |    11 |     1   (0)| 00:00:01 |
|* 11 |     FILTER                        |                  |       |       |            |          |
| 12 |      NESTED LOOPS                 |                  |     1 |   349 |     2   (0)| 00:00:01 |
| 13 |       TABLE ACCESS BY INDEX ROWID | A101             |     1 |   338 |     1   (0)| 00:00:01 |
|* 14 |        INDEX RANGE SCAN           | A101_STATEID_IX1 |     1 |       |     1   (0)| 00:00:01 |
|* 15 |       INDEX UNIQUE SCAN           | LINEAGES_PK      |     1 |    11 |     1   (0)| 00:00:01 |
|* 16 |      FILTER                       |                  |       |       |            |          |
| 17 |       NESTED LOOPS                |                  |     1 |    50 |     2   (0)| 00:00:01 |
|* 18 |        TABLE ACCESS BY INDEX ROWID| D101             |     1 |    39 |     1   (0)| 00:00:01 |
|* 19 |         INDEX RANGE SCAN          | D101_IDX1        |     1 |       |     1   (0)| 00:00:01 |
|* 20 |        INDEX UNIQUE SCAN          | LINEAGES_PK      |     1 |    11 |     1   (0)| 00:00:01 |
| 21 |   TABLE ACCESS BY INDEX ROWID     | F15              |     1 |   145 |     1   (0)| 00:00:01 |
|* 22 |    INDEX UNIQUE SCAN              | F15_UK1          |     1 |       |     1   (0)| 00:00:01 |
Predicate Information (identified by operation id):
   4 - access("B"."OBJECTID"="$nso_col_1")
   8 - filter("DELETED_AT"<=TO_NUMBER(:SOURCE_STATE_ID))
   9 - access("SDE_STATE_ID"=TO_NUMBER(:SYS_B_0))
       filter("SDE_STATE_ID"=TO_NUMBER(:SYS_B_0))
10 - access("L"."LINEAGE_NAME"=TO_NUMBER(:SOURCE_LINEAGE_NAME) AND
              "DELETED_AT"="L"."LINEAGE_ID")
       filter("L"."LINEAGE_ID"<=TO_NUMBER(:SOURCE_STATE_ID))
11 - filter( NOT EXISTS (SELECT /*+ HASH_AJ */ 0 FROM "AMSOWNER"."D101"
              "D101","SDE"."STATE_LINEAGES" "L" WHERE :B1>TO_NUMBER(:SYS_B_1) AND
              "DELETED_AT"="L"."LINEAGE_ID" AND "L"."LINEAGE_NAME"=TO_NUMBER(:SOURCE_LINEAGE_NAME) AND
              "L"."LINEAGE_ID"<=TO_NUMBER(:SOURCE_STATE_ID) AND "SDE_STATE_ID"=:B2 AND
              "SDE_DELETES_ROW_ID"=:B3 AND "DELETED_AT"<=TO_NUMBER(:SOURCE_STATE_ID) AND
              "SDE_STATE_ID">TO_NUMBER(:SYS_B_1)))
14 - access("A"."SDE_STATE_ID"<=TO_NUMBER(:SOURCE_STATE_ID))
15 - access("SL"."LINEAGE_NAME"=TO_NUMBER(:SOURCE_LINEAGE_NAME) AND
              "A"."SDE_STATE_ID"="SL"."LINEAGE_ID")
       filter("SL"."LINEAGE_ID"<=TO_NUMBER(:SOURCE_STATE_ID))
16 - filter(:B1>TO_NUMBER(:SYS_B_1))
18 - filter("DELETED_AT"<=TO_NUMBER(:SOURCE_STATE_ID))
19 - access("SDE_DELETES_ROW_ID"=:B1 AND "SDE_STATE_ID"=:B2)
       filter("SDE_STATE_ID">TO_NUMBER(:SYS_B_1))
20 - access("L"."LINEAGE_NAME"=TO_NUMBER(:SOURCE_LINEAGE_NAME) AND
              "DELETED_AT"="L"."LINEAGE_ID")
       filter("L"."LINEAGE_ID"<=TO_NUMBER(:SOURCE_STATE_ID))
22 - access("SHAPE"."FID"(+)="V__101"."SHAPE")
58 rows selected.

rocr wrote:
oracle 10.2.0.2.0
solaris 10
same query, different databases (cloned from same source), different explain plans.
db parameters are identical.
DB1 (production)
| Id | Operation                         | Name             | Rows | Bytes |TempSpc| Cost (%CPU)| Time     |
|   0 | SELECT STATEMENT                  |                  |   113K|    49M|       | 2926   (1)| 00:00:41 |DB2 (staging)
| Id | Operation                         | Name             | Rows | Bytes | Cost (%CPU)| Time     |
|   0 | SELECT STATEMENT                  |                  |   145 | 68150 |   401   (1)| 00:00:06 |
If you check the execution plans it's quite obvious that the two environments can not be identical. If you have the same (amount of) data, then one of the two estimates is way off. Which one is in the right ballpark, how many rows are returned by the query? The same applies to the remaining operation ids of the plan, which estimate is correct?
It's very likely that the underlying table/index statistics are not the same, and therefore you get different plans.
By the way, you're using bind variables, therefore the output of the EXPLAIN PLAN is only of limited use, since the actual plan at run time might be completely different due to bind variable peeking and potentially histograms created on some of the columns (which is the default in 10g due to the "FOR ALL COLUMNS SIZE AUTO" method_opt default parameter value).
If you haven't disabled the pre-configured statistics collection job that runs every night in 10g, you might get different statistics due to this job already.
Regards,
Randolf
Oracle related stuff blog:
http://oracle-randolf.blogspot.com/
SQLTools++ for Oracle (Open source Oracle GUI for Windows):
http://www.sqltools-plusplus.org:7676/
http://sourceforge.net/projects/sqlt-pp/

Explain plan for running query

Hi everyone,
I come to know how to generate explain plan for a given query by giving
Explain plan for select * fro emp;
Consider a query running for 5 hrs in a session and i want to genrate explain plan for that current query in its 4th hour i dont know the sql as well
all the steps by step would be much apppreciated
like finding Current SQL then so on
Thanks
Shareef

912856 wrote:
Hi everyone,
I come to know how to generate explain plan for a given query by giving
Explain plan for select * fro emp;
Consider a query running for 5 hrs in a session and i want to genrate explain plan for that current query in its 4th hour i dont know the sql as well
all the steps by step would be much apppreciated
like finding Current SQL then so on
Thanks
ShareefYOu can also use dbms_xplain to generate plan used in v$sql. like for example
SQL>SELECT SQL_ID, CHILD_NUMBER FROM V$SQL WHERE SQL_TEXT LIKE 'select * from em%';
SQL_ID CHILD_NUMBER
6kd5fkqdjb8fu 0
SQL>SELECT * FROM TABLE(DBMS_XPLAN.DISPLAY_CURSOR('6kd5fkqdjb8fu',0,'ALLSTATS'));If you need the actual tuntime statistics used by sql statement then you need to put hint /*+ gather_plan_statistics */ in sql ststement, something like
select /*+ gather_plan_statistics */ * from emp;
and then generate the explain plan for this
Have a look
http://hoopercharles.wordpress.com/2010/03/01/dbms_xplan-format-parameters/
select * from table(dbms_xplan.display_cursor(null,null,'ALLSTATS LAST'));

Explain Plan understand technique & Query optimizing check list

Hello gurus,
Can some body help me with doc available or your experience to tell on how to understand Explain Plan & Query optimizing check list.
Thanks..

That's correct,
But unfortunately the institute is pretty far from home.. and travelling time will be high..
I am a working man..
Please suggest if some good book or link.
Thanks.

How to improve the query performance or tune query from Explain Plan

Hi
The following is my explain plan for sql query. (The plan is generated by Toad v9.7). How to fix the query?
SELECT STATEMENT ALL_ROWSCost: 4,160 Bytes: 25,296 Cardinality: 204
     8 NESTED LOOPS Cost: 3 Bytes: 54 Cardinality: 1
          5 NESTED LOOPS Cost: 2 Bytes: 23 Cardinality: 1
               2 TABLE ACCESS BY INDEX ROWID TABLE AR.RA_CUSTOMER_TRX_ALL Cost: 1 Bytes: 13 Cardinality: 1
                    1 INDEX UNIQUE SCAN INDEX (UNIQUE) AR.RA_CUSTOMER_TRX_U1 Cost: 1 Cardinality: 1
               4 TABLE ACCESS BY INDEX ROWID TABLE AR.HZ_CUST_ACCOUNTS Cost: 1 Bytes: 10 Cardinality: 1
                    3 INDEX UNIQUE SCAN INDEX (UNIQUE) AR.HZ_CUST_ACCOUNTS_U1 Cost: 1 Cardinality: 1
          7 TABLE ACCESS BY INDEX ROWID TABLE AR.HZ_PARTIES Cost: 1 Bytes: 31 Cardinality: 1
               6 INDEX UNIQUE SCAN INDEX (UNIQUE) AR.HZ_PARTIES_U1 Cost: 1 Cardinality: 1
     10 TABLE ACCESS BY INDEX ROWID TABLE AR.RA_CUSTOMER_TRX_ALL Cost: 1 Bytes: 12 Cardinality: 1
          9 INDEX UNIQUE SCAN INDEX (UNIQUE) AR.RA_CUSTOMER_TRX_U1 Cost: 1 Cardinality: 1
     15 NESTED LOOPS Cost: 2 Bytes: 29 Cardinality: 1
          12 TABLE ACCESS BY INDEX ROWID TABLE AR.RA_CUSTOMER_TRX_ALL Cost: 1 Bytes: 12 Cardinality: 1
               11 INDEX UNIQUE SCAN INDEX (UNIQUE) AR.RA_CUSTOMER_TRX_U1 Cost: 1 Cardinality: 1
          14 TABLE ACCESS BY INDEX ROWID TABLE ONT.OE_ORDER_HEADERS_ALL Cost: 1 Bytes: 17 Cardinality: 1
               13 INDEX RANGE SCAN INDEX (UNIQUE) ONT.OE_ORDER_HEADERS_U2 Cost: 1 Cardinality: 1
     21 FILTER
          16 TABLE ACCESS FULL TABLE ONT.OE_TRANSACTION_TYPES_TL Cost: 2 Bytes: 1,127 Cardinality: 49
          20 NESTED LOOPS Cost: 2 Bytes: 21 Cardinality: 1
               18 TABLE ACCESS BY INDEX ROWID TABLE AR.RA_CUSTOMER_TRX_ALL Cost: 1 Bytes: 12 Cardinality: 1
                    17 INDEX UNIQUE SCAN INDEX (UNIQUE) AR.RA_CUSTOMER_TRX_U1 Cost: 1 Cardinality: 1
               19 INDEX RANGE SCAN INDEX (UNIQUE) ONT.OE_ORDER_HEADERS_U2 Cost: 1 Bytes: 9 Cardinality: 1
     23 TABLE ACCESS BY INDEX ROWID TABLE AR.RA_CUSTOMER_TRX_ALL Cost: 1 Bytes: 12 Cardinality: 1
          22 INDEX UNIQUE SCAN INDEX (UNIQUE) AR.RA_CUSTOMER_TRX_U1 Cost: 1 Cardinality: 1
     45 NESTED LOOPS Cost: 4,160 Bytes: 25,296 Cardinality: 204
          42 NESTED LOOPS Cost: 4,150 Bytes: 23,052 Cardinality: 204
               38 NESTED LOOPS Cost: 4,140 Bytes: 19,992 Cardinality: 204
                    34 NESTED LOOPS Cost: 4,094 Bytes: 75,850 Cardinality: 925
                         30 NESTED LOOPS Cost: 3,909 Bytes: 210,843 Cardinality: 3,699
                              26 PARTITION LIST ALL Cost: 2,436 Bytes: 338,491 Cardinality: 14,717 Partition #: 29 Partitions accessed #1 - #18
                                   25 TABLE ACCESS BY LOCAL INDEX ROWID TABLE XLA.XLA_AE_HEADERS Cost: 2,436 Bytes: 338,491 Cardinality: 14,717 Partition #: 29 Partitions accessed #1 - #18
                                        24 INDEX SKIP SCAN INDEX XLA.XLA_AE_HEADERS_N1 Cost: 264 Cardinality: 1,398,115 Partition #: 29 Partitions accessed #1 - #18
                              29 PARTITION LIST ITERATOR Cost: 1 Bytes: 34 Cardinality: 1 Partition #: 32
                                   28 TABLE ACCESS BY LOCAL INDEX ROWID TABLE XLA.XLA_AE_LINES Cost: 1 Bytes: 34 Cardinality: 1 Partition #: 32
                                        27 INDEX RANGE SCAN INDEX (UNIQUE) XLA.XLA_AE_LINES_U1 Cost: 1 Cardinality: 1 Partition #: 32
                         33 PARTITION LIST ITERATOR Cost: 1 Bytes: 25 Cardinality: 1 Partition #: 35
                              32 TABLE ACCESS BY LOCAL INDEX ROWID TABLE XLA.XLA_DISTRIBUTION_LINKS Cost: 1 Bytes: 25 Cardinality: 1 Partition #: 35
                                   31 INDEX RANGE SCAN INDEX XLA.XLA_DISTRIBUTION_LINKS_N3 Cost: 1 Cardinality: 1 Partition #: 35
                    37 PARTITION LIST SINGLE Cost: 1 Bytes: 16 Cardinality: 1 Partition #: 38
                         36 TABLE ACCESS BY LOCAL INDEX ROWID TABLE XLA.XLA_EVENTS Cost: 1 Bytes: 16 Cardinality: 1 Partition #: 39 Partitions accessed #2
                              35 INDEX UNIQUE SCAN INDEX (UNIQUE) XLA.XLA_EVENTS_U1 Cost: 1 Cardinality: 1 Partition #: 40 Partitions accessed #2
               41 PARTITION LIST SINGLE Cost: 1 Bytes: 15 Cardinality: 1 Partition #: 41
                    40 TABLE ACCESS BY LOCAL INDEX ROWID TABLE XLA.XLA_TRANSACTION_ENTITIES Cost: 1 Bytes: 15 Cardinality: 1 Partition #: 42 Partitions accessed #2
                         39 INDEX UNIQUE SCAN INDEX (UNIQUE) XLA.XLA_TRANSACTION_ENTITIES_U1 Cost: 1 Cardinality: 1 Partition #: 43 Partitions accessed #2
          44 TABLE ACCESS BY INDEX ROWID TABLE GL.GL_CODE_COMBINATIONS Cost: 1 Bytes: 11 Cardinality: 1
               43 INDEX UNIQUE SCAN INDEX (UNIQUE) GL.GL_CODE_COMBINATIONS_U1 Cost: 1 Cardinality: 1

damorgan wrote:
Tuning is NOT about reducing the cost of i/o.
i/o is only one of many contributors to cost and only one of many contributors to waits.
Any time you would like to explore this further run this code:
SELECT 1 FROM dual
WHERE regexp_like(' ','^*[ ]*a');but not on a production box because you are going to experience an extreme tuning event with zero i/o.
And when I say "extreme" I mean "EXTREME!"
You've been warned.I think you just need a faster server.
SQL> set autotrace traceonly statistics
SQL> set timing on
SQL> select 1 from dual
2 where
3 regexp_like   (' ','^*[ ]*a');
no rows selected
Elapsed: 00:00:00.00
Statistics
          1 recursive calls
          0 db block gets
          0 consistent gets
          0 physical reads
          0 redo size
        243 bytes sent via SQL*Net to client
        349 bytes received via SQL*Net from client
          1 SQL*Net roundtrips to/from client
          0 sorts (memory)
          0 sorts (disk)
          0 rows processedRepeated from an Oracle 10.2.0.x instance:
SQL> SELECT DISTINCT SID FROM V$MYSTAT;
       SID
       310
SQL> ALTER SESSION SET EVENTS '10053 TRACE NAME CONTEXT FOREVER, LEVEL 1';
Session altered.
SQL> select 1 from dual
2 where
3 regexp_like   (' ','^*[ ]*a');The session is hung. Wait a little while and connect to the database using a different session:
COLUMN STAT_NAME FORMAT A35 TRU
SET PAGESIZE 200
SELECT
STAT_NAME,
VALUE
FROM
V$SESS_TIME_MODEL
WHERE
SID=310;
STAT_NAME                                VALUE
DB time                                   9247
DB CPU                                    9247
background elapsed time                      0
background cpu time                          0
sequence load elapsed time                   0
parse time elapsed                        6374
hard parse elapsed time                   5997
sql execute elapsed time                  2939
connection management call elapsed        1660
failed parse elapsed time                    0
failed parse (out of shared memory)          0
hard parse (sharing criteria) elaps          0
hard parse (bind mismatch) elapsed           0
PL/SQL execution elapsed time               95
inbound PL/SQL rpc elapsed time              0
PL/SQL compilation elapsed time              0
Java execution elapsed time                  0
repeated bind elapsed time                  48
RMAN cpu time (backup/restore)               0Seems to be using a bit of time for the hard parse (hard parse elapsed time). Wait a little while, then re-execute the query:
STAT_NAME                                VALUE
DB time                                   9247
DB CPU                                    9247
background elapsed time                      0
background cpu time                          0
sequence load elapsed time                   0
parse time elapsed                        6374
hard parse elapsed time                   5997
sql execute elapsed time                  2939
connection management call elapsed        1660
failed parse elapsed time                    0
failed parse (out of shared memory)          0
hard parse (sharing criteria) elaps          0
hard parse (bind mismatch) elapsed           0
PL/SQL execution elapsed time               95
inbound PL/SQL rpc elapsed time              0
PL/SQL compilation elapsed time              0
Java execution elapsed time                  0
repeated bind elapsed time                  48
RMAN cpu time (backup/restore)               0The session is not reporting additional CPU usage or parse time.
Let's check one of the session's statistics:
SELECT
SS.VALUE
FROM
V$SESSTAT SS,
V$STATNAME SN
WHERE
SN.NAME='consistent gets'
AND SN.STATISTIC#=SS.STATISTIC#
AND SS.SID=310;
     VALUE
       163Not many consistent gets after 20+ minutes.
Let's take a look at the plan:
SQL> SELECT SQL_ID,CHILD_NUMBER FROM V$SQL WHERE SQL_TEXT LIKE 'select 1 from du
al%';
SQL_ID        CHILD_NUMBER
04mpgrzhsv72w            0
SELECT * FROM TABLE(DBMS_XPLAN.DISPLAY_CURSOR('04mpgrzhsv72w',0,'TYPICAL'))
select 1 from dual where regexp_like   (' ','^*[ ]*a')
NOTE: cannot fetch plan for SQL_ID: 04mpgrzhsv72w, CHILD_NUMBER: 0
      Please verify value of SQL_ID and CHILD_NUMBER;
      It could also be that the plan is no longer in cursor cache (check v$sql_p
lan)No plan...
Let's take a look at the 10053 trace file:
Registered qb: SEL$1 0x19157f38 (PARSER)
signature (): qb_name=SEL$1 nbfros=1 flg=0
    fro(0): flg=4 objn=258 hint_alias="DUAL"@"SEL$1"
Predicate Move-Around (PM)
PM: Considering predicate move-around in SEL$1 (#0).
PM:   Checking validity of predicate move-around in SEL$1 (#0).
CBQT: Validity checks failed for 7uqx4guu04x3g.
CVM: Considering view merge in query block SEL$1 (#0)
CBQT: Validity checks failed for 7uqx4guu04x3g.
Subquery Unnest
SU: Considering subquery unnesting in query block SEL$1 (#0)
Set-Join Conversion (SJC)
SJC: Considering set-join conversion in SEL$1 (#0).
Predicate Move-Around (PM)
PM: Considering predicate move-around in SEL$1 (#0).
PM:   Checking validity of predicate move-around in SEL$1 (#0).
PM:     PM bypassed: Outer query contains no views.
FPD: Considering simple filter push in SEL$1 (#0)
FPD:   Current where clause predicates in SEL$1 (#0) :
          REGEXP_LIKE (' ','^*[ ]*a')
kkogcp: try to generate transitive predicate from check constraints for SEL$1 (#0)
predicates with check contraints: REGEXP_LIKE (' ','^*[ ]*a')
after transitive predicate generation: REGEXP_LIKE (' ','^*[ ]*a')
finally: REGEXP_LIKE (' ','^*[ ]*a')
apadrv-start: call(in-use=592, alloc=16344), compile(in-use=37448, alloc=42256)
kkoqbc-start
            : call(in-use=592, alloc=16344), compile(in-use=38336, alloc=42256)
kkoqbc-subheap (create addr=000000001915C238)Looks like the query never had a chance to start executing - it is still parsing after 20 minutes.
I am not sure that this is a good example - the query either executes very fast, or never has a chance to start executing. But, it might still make your point physical I/O is not always the problem when performance problems are experienced.
Charles Hooper
IT Manager/Oracle DBA
K&M Machine-Fabricating, Inc.

Same query, same dataset, same ddl setup, but wildly different explain plan

Hello o fountains of oracle knowledge!
We have a problem that caused us a full stop when rolling out a new version of our system to a customer and a whole Sunday to boot.
The scenario is as follows:
1. An previous version database schema
2. The current version database schema
3. A migration script to migrate the old schema to the new
So we perform the following migration:
1. Export the previous version database schema
2. Import into a new schema called schema_old
3. Create a new schema called schema_new
4. Run migration script which creates objects, copies data, creates indexes etc etc in schema_new
The migration runs fine in all environments (development, test and production)
In our development and test environments performance is stellar, on the customer production server the performance is terrible.
This using the exact same export file (from the production environment) and performing the exact same steps with the exact same migration script.
Database version is 10.2.0.1.0 EE on all databases. OS is Microsoft Windows Server 2003 EE SP2 on all servers.
The system is not in any sense under a heavy load (we have tested with no other load than ourselves).
Looking at the explain plan for a query that is run frequently and does not use bind variables we see wildly different explain plans.
The explain plan cost on our development and test servers is estimated to *7* for this query and there are no full table scans.
On the production server the cost is *8433* and there are two full table scans of which one is on the largest table.
We have tried to run analyse on all objects with very little effect. The plan changed very slightly, but still includes the two full table scans on the problem server and the cost is still the same.
All tables and indexes are identical (including storage options), created from the same migration script.
I am currently at loss for where to look? What can be causing this? I assume this could be caused by some parameter that is set on the server, but I don't know what to look for.
I would be very grateful for any pointers.
Thanks,
Håkon

Thank you for your answer.
We collected statistics only after we determined that the production server where not behaving according to expectations.
In this case we used TOAD and the tool within to collect statistics for all objects. We used 'Analyze' and 'Compute Statistics' options.
I am not an expert, so sorry if this is too naive an approach.
Here is the query:SELECT count(0)
FROM score_result sr, web_scorecard sc, product p
WHERE sr.score_final_decision like 'VENT%'
AND sc.CREDIT_APPLICATION_ID = sr.CREDIT_APPLICATION_ID
AND sc.application_complete='Y'
AND p.product = sc.web_product
AND p.inactive_product = '2' ;I use this as an example, but the problem exists for virtually all queries.
The output from the 'good' server:
| Id | Operation                      | Name                  | Rows | Bytes | Cost (%CPU)|
|   0 | SELECT STATEMENT               |                       |     1 |    39 |     7   (0)|
|   1 | SORT AGGREGATE                |                       |     1 |    39 |            |
|   2 |   NESTED LOOPS                 |                       |     1 |    39 |     7   (0)|
|   3 |    NESTED LOOPS                |                       |     1 |    30 |     6   (0)|
|   4 |     TABLE ACCESS BY INDEX ROWID| SCORE_RESULT          |     1 |    17 |     4   (0)|
|   5 |      INDEX RANGE SCAN          | SR_FINAL_DECISION_IDX |     1 |       |     3   (0)|
|   6 |     TABLE ACCESS BY INDEX ROWID| WEB_SCORECARD         |     1 |    13 |     2   (0)|
|   7 |      INDEX UNIQUE SCAN         | WEB_SCORECARD_PK      |     1 |       |     1   (0)|
|   8 |    TABLE ACCESS BY INDEX ROWID | PRODUCT               |     1 |     9 |     1   (0)|
|   9 |     INDEX UNIQUE SCAN          | PK_PRODUCT            |     1 |       |     0   (0)|
---------------------------------------------------------------------------------------------The output from the 'bad' server:
| Id | Operation                 | Name                  | Rows | Bytes | Cost (%CPU)|
|   0 | SELECT STATEMENT          |                       |     1 |    32 | 8344   (3)|
|   1 | SORT AGGREGATE           |                       |     1 |    32 |            |
|   2 |   HASH JOIN               |                       | 10887 |   340K| 8344   (3)|
|   3 |    TABLE ACCESS FULL      | PRODUCT               |     6 |    42 |     3   (0)|
|   4 |    HASH JOIN              |                       | 34381 |   839K| 8340   (3)|
|   5 |     VIEW                  | index$_join$_001      | 34381 |   503K| 2193   (3)|
|   6 |      HASH JOIN            |                       |       |       |            |
|   7 |       INDEX RANGE SCAN    | SR_FINAL_DECISION_IDX | 34381 |   503K|   280   (3)|
|   8 |       INDEX FAST FULL SCAN| SCORE_RESULT_PK       | 34381 |   503K| 1371   (2)|
|   9 |     TABLE ACCESS FULL     | WEB_SCORECARD         |   489K| 4782K| 6137   (4)|
----------------------------------------------------------------------------------------I hope the formatting makes this readable.
Stats (from SQL Developer), good table:NUM_ROWS     489716
BLOCKS     27198
AVG_ROW_LEN     312
SAMPLE_SIZE     489716
LAST_ANALYZED     15.12.2009
LAST_ANALYZED_SINCE     15.12.2009Stats (from SQL Developer), bad table:
NUM_ROWS     489716
BLOCKS     27199
AVG_ROW_LEN     395
SAMPLE_SIZE     489716
LAST_ANALYZED     17.12.2009
LAST_ANALYZED_SINCE     17.12.2009I'm unsure what would cause the difference in average row length.
I could obviously try to tune our sql-statements to work on the server not behaving better, but I would rather understand why they are different and make sure that we can expect similar behaviour between environments.
Thank you again for trying to help me.
Håkon
Edited by: ergates on 17.des.2009 05:57
Edited by: ergates on 17.des.2009 06:02

Explain plan result for a long-running query used in data-warehousing. Tuni

I have executed an explain plan for a query that is used in a data-warehousing application.
This sql is taking too long to execute as it is visiting 24 partitions.
Where each partition contains data for 1 month month, so it fetches last 2 year data.
And each partition has a million or so rows.
All this is kept in table prescrip_retail. So this table has 24 partitions.
abc@def>explain plan set statement_id='dwh_query'
2 for
3 SELECT r.pier_account_id,
4 p.presc_num,
5 spm.product_id,
6 p.month,
7 t.best_call_state,
8 sum(p.trx_count)
9 FROM rlup_assigned_account r,
10 temp_presc_num_TEST t,
11 retail.prescrip_retail p,
12 sherlock.sherlock_product_mapping spm
13 WHERE spm.product_id like '056%'
14 and t.CLIENT_ID='934759'
15 and p.month >= add_months(sysdate,-24)
16 and spm.mds6 = p.product_id
17 and t.CLIENT_ID = p.presc_num
18 and r.ndc_pyr_id = p.payer_plan
19 and t.best_call_state = r.ST
20 GROUP BY r.pier_account_id,
21 p.presc_num,
22 spm.product_id,
23 p.month,
24 t.best_call_state;
Explained.
abc@def>ed
Wrote file afiedt.buf
1 select operation,options,optimizer,cost,cardinality,partition_start,partition_stop
2 from plan_table
3* where statement_id='dwh_query'
abc@def>/
OPERATION OPTIONS OPTIMIZER COST CARDINALITY
PARTITION_START
PARTITION_STOP
SELECT STATEMENT CHOOSE 850 1
SORT GROUP BY 850 1
NESTED LOOPS 848 1
HASH JOIN 845 3
HASH JOIN 842 6
TABLE ACCESS FULL ANALYZED 1 6
PARTITION RANGE ITERATOR
KEY
36
TABLE ACCESS BY LOCAL INDEX ROWID ANALYZED 839 166
KEY
36
BITMAP CONVERSION TO ROWIDS
BITMAP INDEX SINGLE VALUE
KEY
36
TABLE ACCESS FULL 2 50
TABLE ACCESS BY INDEX ROWID ANALYZED 1 149501
INDEX UNIQUE SCAN ANALYZED 149501
13 rows selected.

Here is the create statement for PRESCRIP_RETAIL table:
I have observed 2 things:
1. In the query the following joins are present.
13 WHERE spm.product_id like '056%'
14 and t.CLIENT_ID='934759'
15 and p.month >= add_months(sysdate,-24)
16 and spm.mds6 = p.product_id
17 and t.CLIENT_ID = p.presc_num
18 and r.ndc_pyr_id = p.payer_plan
19 and t.best_call_state = r.ST
Index exist for p.product_id,p.presc_num,p.payer_plan as you can see below.
However, the index does not exist for month.
I am also doing search for month.
I feel if I create a "partitioned index" on month, query performance should improve.
Q Can you provide me the syntax for creating a partitioned index on month?
2.The following tables are used in the query:
9 FROM rlup_assigned_account r,
10 temp_presc_num_TEST t,
11 retail.prescrip_retail p,
12 sherlock.sherlock_product_mapping spm
In these tables, apart from sherlock.sherlock_product_mapping table the statistics that exist is old.
I need to analyse on table level as well as column level.
For example:
Table prescrip_retail is analyzed in 2002,
table temp_presc_num_TEST is not analysed at all.
table rlup_assigned_account is analysed in Feb 2007.
sherlock_product_mapping is the only table that has updated statistics, analysed on Oct. 2007
Here is the table creation statement of PRESCRIP_RETAIL and index on it.
Prompt Table PRESCRIP_RETAIL;
-- PRESCRIP_RETAIL (Table)
-- Row count:2806673860
CREATE TABLE RETAIL.PRESCRIP_RETAIL
PRESC_NUM NUMBER,
PIER_NUM CHAR(8),
RELID CHAR(9) NOT NULL,
ME_NUM CHAR(10) NOT NULL,
PRODUCT_ID CHAR(6) NOT NULL,
PRODUCT_FRMSTR CHAR(1) NOT NULL,
PAYER_PLAN CHAR(6) NOT NULL,
MONTH DATE NOT NULL,
PYMT_CODE CHAR(1) NOT NULL,
NRX_COUNT NUMBER(7) NOT NULL,
NRX_QUANTITY NUMBER(9) NOT NULL,
NRX_DOLLARS NUMBER(13,2) NOT NULL,
TRX_COUNT NUMBER(7) NOT NULL,
TRX_QUANTITY NUMBER(9) NOT NULL,
TRX_DOLLARS NUMBER(13,2) NOT NULL
TABLESPACE PRESC_PARTITION_29
NOLOGGING
PARTITION BY RANGE (MONTH)
PARTITION PRESC200406 VALUES LESS THAN (TO_DATE(' 2004-07-01 00:00:00', 'SYYYY-MM-DD HH24:MI:SS', 'NLS_CALENDAR=GREGORIAN'))
LOGGING
TABLESPACE PRESC_PARTITION_30,
PARTITION PRESC200407 VALUES LESS THAN (TO_DATE(' 2004-08-01 00:00:00', 'SYYYY-MM-DD HH24:MI:SS', 'NLS_CALENDAR=GREGORIAN'))
LOGGING
TABLESPACE PRESC_PARTITION_31,
PARTITION PRESC200408 VALUES LESS THAN (TO_DATE(' 2004-09-01 00:00:00', 'SYYYY-MM-DD HH24:MI:SS', 'NLS_CALENDAR=GREGORIAN'))
LOGGING
TABLESPACE PRESC_PARTITION_32,
PARTITION PRESC200409 VALUES LESS THAN (TO_DATE(' 2004-10-01 00:00:00', 'SYYYY-MM-DD HH24:MI:SS', 'NLS_CALENDAR=GREGORIAN'))
LOGGING
TABLESPACE PRESC_PARTITION_33,
PARTITION PRESC200410 VALUES LESS THAN (TO_DATE(' 2004-11-01 00:00:00', 'SYYYY-MM-DD HH24:MI:SS', 'NLS_CALENDAR=GREGORIAN'))
LOGGING
TABLESPACE PRESC_PARTITION_34,
PARTITION PRESC200411 VALUES LESS THAN (TO_DATE(' 2004-12-01 00:00:00', 'SYYYY-MM-DD HH24:MI:SS', 'NLS_CALENDAR=GREGORIAN'))
LOGGING
TABLESPACE PRESC_PARTITION_35,
PARTITION PRESC200412 VALUES LESS THAN (TO_DATE(' 2005-01-01 00:00:00', 'SYYYY-MM-DD HH24:MI:SS', 'NLS_CALENDAR=GREGORIAN'))
LOGGING
TABLESPACE PRESC_PARTITION_36,
PARTITION PRESC200501 VALUES LESS THAN (TO_DATE(' 2005-02-01 00:00:00', 'SYYYY-MM-DD HH24:MI:SS', 'NLS_CALENDAR=GREGORIAN'))
LOGGING
TABLESPACE PRESC_PARTITION_01,
PARTITION PRESC200502 VALUES LESS THAN (TO_DATE(' 2005-03-01 00:00:00', 'SYYYY-MM-DD HH24:MI:SS', 'NLS_CALENDAR=GREGORIAN'))
LOGGING
TABLESPACE PRESC_PARTITION_02,
PARTITION PRESC200503 VALUES LESS THAN (TO_DATE(' 2005-04-01 00:00:00', 'SYYYY-MM-DD HH24:MI:SS', 'NLS_CALENDAR=GREGORIAN'))
LOGGING
TABLESPACE PRESC_PARTITION_03,
PARTITION PRESC200504 VALUES LESS THAN (TO_DATE(' 2005-05-01 00:00:00', 'SYYYY-MM-DD HH24:MI:SS', 'NLS_CALENDAR=GREGORIAN'))
LOGGING
TABLESPACE PRESC_PARTITION_04,
PARTITION PRESC200505 VALUES LESS THAN (TO_DATE(' 2005-06-01 00:00:00', 'SYYYY-MM-DD HH24:MI:SS', 'NLS_CALENDAR=GREGORIAN'))
LOGGING
TABLESPACE PRESC_PARTITION_05,
PARTITION PRESC200506 VALUES LESS THAN (TO_DATE(' 2005-07-01 00:00:00', 'SYYYY-MM-DD HH24:MI:SS', 'NLS_CALENDAR=GREGORIAN'))
LOGGING
TABLESPACE PRESC_PARTITION_06,
PARTITION PRESC200507 VALUES LESS THAN (TO_DATE(' 2005-08-01 00:00:00', 'SYYYY-MM-DD HH24:MI:SS', 'NLS_CALENDAR=GREGORIAN'))
LOGGING
TABLESPACE PRESC_PARTITION_07,
PARTITION PRESC200508 VALUES LESS THAN (TO_DATE(' 2005-09-01 00:00:00', 'SYYYY-MM-DD HH24:MI:SS', 'NLS_CALENDAR=GREGORIAN'))
LOGGING
TABLESPACE PRESC_PARTITION_08,
PARTITION PRESC200509 VALUES LESS THAN (TO_DATE(' 2005-10-01 00:00:00', 'SYYYY-MM-DD HH24:MI:SS', 'NLS_CALENDAR=GREGORIAN'))
LOGGING
TABLESPACE PRESC_PARTITION_09,
PARTITION PRESC200510 VALUES LESS THAN (TO_DATE(' 2005-11-01 00:00:00', 'SYYYY-MM-DD HH24:MI:SS', 'NLS_CALENDAR=GREGORIAN'))
LOGGING
TABLESPACE PRESC_PARTITION_10,
PARTITION PRESC200511 VALUES LESS THAN (TO_DATE(' 2005-12-01 00:00:00', 'SYYYY-MM-DD HH24:MI:SS', 'NLS_CALENDAR=GREGORIAN'))
LOGGING
TABLESPACE PRESC_PARTITION_11,
PARTITION PRESC200512 VALUES LESS THAN (TO_DATE(' 2006-01-01 00:00:00', 'SYYYY-MM-DD HH24:MI:SS', 'NLS_CALENDAR=GREGORIAN'))
LOGGING
TABLESPACE PRESC_PARTITION_12,
PARTITION PRESC200601 VALUES LESS THAN (TO_DATE(' 2006-02-01 00:00:00', 'SYYYY-MM-DD HH24:MI:SS', 'NLS_CALENDAR=GREGORIAN'))
LOGGING
TABLESPACE PRESC_PARTITION_13,
PARTITION PRESC200602 VALUES LESS THAN (TO_DATE(' 2006-03-01 00:00:00', 'SYYYY-MM-DD HH24:MI:SS', 'NLS_CALENDAR=GREGORIAN'))
LOGGING
TABLESPACE PRESC_PARTITION_14,
PARTITION PRESC200603 VALUES LESS THAN (TO_DATE(' 2006-04-01 00:00:00', 'SYYYY-MM-DD HH24:MI:SS', 'NLS_CALENDAR=GREGORIAN'))
LOGGING
TABLESPACE PRESC_PARTITION_15,
PARTITION PRESC200604 VALUES LESS THAN (TO_DATE(' 2006-05-01 00:00:00', 'SYYYY-MM-DD HH24:MI:SS', 'NLS_CALENDAR=GREGORIAN'))
LOGGING
TABLESPACE PRESC_PARTITION_16,
PARTITION PRESC200605 VALUES LESS THAN (TO_DATE(' 2006-06-01 00:00:00', 'SYYYY-MM-DD HH24:MI:SS', 'NLS_CALENDAR=GREGORIAN'))
LOGGING
TABLESPACE PRESC_PARTITION_17,
PARTITION PRESC200606 VALUES LESS THAN (TO_DATE(' 2006-07-01 00:00:00', 'SYYYY-MM-DD HH24:MI:SS', 'NLS_CALENDAR=GREGORIAN'))
LOGGING
TABLESPACE PRESC_PARTITION_18,
PARTITION PRESC200607 VALUES LESS THAN (TO_DATE(' 2006-08-01 00:00:00', 'SYYYY-MM-DD HH24:MI:SS', 'NLS_CALENDAR=GREGORIAN'))
LOGGING
TABLESPACE PRESC_PARTITION_19,
PARTITION PRESC200608 VALUES LESS THAN (TO_DATE(' 2006-09-01 00:00:00', 'SYYYY-MM-DD HH24:MI:SS', 'NLS_CALENDAR=GREGORIAN'))
LOGGING
TABLESPACE PRESC_PARTITION_20,
PARTITION PRESC200609 VALUES LESS THAN (TO_DATE(' 2006-10-01 00:00:00', 'SYYYY-MM-DD HH24:MI:SS', 'NLS_CALENDAR=GREGORIAN'))
LOGGING
TABLESPACE PRESC_PARTITION_21,
PARTITION PRESC200610 VALUES LESS THAN (TO_DATE(' 2006-11-01 00:00:00', 'SYYYY-MM-DD HH24:MI:SS', 'NLS_CALENDAR=GREGORIAN'))
LOGGING
TABLESPACE PRESC_PARTITION_22,
PARTITION PRESC200611 VALUES LESS THAN (TO_DATE(' 2006-12-01 00:00:00', 'SYYYY-MM-DD HH24:MI:SS', 'NLS_CALENDAR=GREGORIAN'))
LOGGING
TABLESPACE PRESC_PARTITION_23,
PARTITION PRESC200612 VALUES LESS THAN (TO_DATE(' 2007-01-01 00:00:00', 'SYYYY-MM-DD HH24:MI:SS', 'NLS_CALENDAR=GREGORIAN'))
LOGGING
TABLESPACE PRESC_PARTITION_24,
PARTITION PRESC200701 VALUES LESS THAN (TO_DATE(' 2007-02-01 00:00:00', 'SYYYY-MM-DD HH24:MI:SS', 'NLS_CALENDAR=GREGORIAN'))
LOGGING
TABLESPACE PRESC_PARTITION_25,
PARTITION PRESC200702 VALUES LESS THAN (TO_DATE(' 2007-03-01 00:00:00', 'SYYYY-MM-DD HH24:MI:SS', 'NLS_CALENDAR=GREGORIAN'))
LOGGING
TABLESPACE PRESC_PARTITION_26,
PARTITION PRESC200703 VALUES LESS THAN (TO_DATE(' 2007-04-01 00:00:00', 'SYYYY-MM-DD HH24:MI:SS', 'NLS_CALENDAR=GREGORIAN'))
LOGGING
TABLESPACE PRESC_PARTITION_27,
PARTITION PRESC200704 VALUES LESS THAN (TO_DATE(' 2007-05-01 00:00:00', 'SYYYY-MM-DD HH24:MI:SS', 'NLS_CALENDAR=GREGORIAN'))
LOGGING
TABLESPACE PRESC_PARTITION_28,
PARTITION PRESC200705 VALUES LESS THAN (TO_DATE(' 2007-06-01 00:00:00', 'SYYYY-MM-DD HH24:MI:SS', 'NLS_CALENDAR=GREGORIAN'))
LOGGING
TABLESPACE PRESC_PARTITION_29
NOCACHE
NOPARALLEL;
Prompt Index BX2_PRESC_PAYER;
-- BX2_PRESC_PAYER (Index)
-- Dependencies:
-- PRESCRIP_RETAIL (Table)
CREATE BITMAP INDEX RETAIL.BX2_PRESC_PAYER ON RETAIL.PRESCRIP_RETAIL
(PAYER_PLAN)
TABLESPACE PRESC_PARTITION_29
LOGGING
LOCAL (
PARTITION PRESC200406
NOLOGGING
TABLESPACE PRESC_PARTITION_30,
PARTITION PRESC200407
NOLOGGING
TABLESPACE PRESC_PARTITION_31,
PARTITION PRESC200408
NOLOGGING
TABLESPACE PRESC_PARTITION_32,
PARTITION PRESC200409
NOLOGGING
TABLESPACE PRESC_PARTITION_33,
PARTITION PRESC200410
NOLOGGING
TABLESPACE PRESC_PARTITION_34,
PARTITION PRESC200411
NOLOGGING
TABLESPACE PRESC_PARTITION_35,
PARTITION PRESC200412
NOLOGGING
TABLESPACE PRESC_PARTITION_36,
PARTITION PRESC200501
NOLOGGING
TABLESPACE PRESC_PARTITION_01,
PARTITION PRESC200502
NOLOGGING
TABLESPACE PRESC_PARTITION_02,
PARTITION PRESC200503
NOLOGGING
TABLESPACE PRESC_PARTITION_03,
PARTITION PRESC200504
NOLOGGING
TABLESPACE PRESC_PARTITION_04,
PARTITION PRESC200505
NOLOGGING
TABLESPACE PRESC_PARTITION_05,
PARTITION PRESC200506
NOLOGGING
TABLESPACE PRESC_PARTITION_06,
PARTITION PRESC200507
NOLOGGING
TABLESPACE PRESC_PARTITION_07,
PARTITION PRESC200508
NOLOGGING
TABLESPACE PRESC_PARTITION_08,
PARTITION PRESC200509
NOLOGGING
TABLESPACE PRESC_PARTITION_09,
PARTITION PRESC200510
NOLOGGING
TABLESPACE PRESC_PARTITION_10,
PARTITION PRESC200511
NOLOGGING
TABLESPACE PRESC_PARTITION_11,
PARTITION PRESC200512
NOLOGGING
TABLESPACE PRESC_PARTITION_12,
PARTITION PRESC200601
NOLOGGING
TABLESPACE PRESC_PARTITION_13,
PARTITION PRESC200602
NOLOGGING
TABLESPACE PRESC_PARTITION_14,
PARTITION PRESC200603
NOLOGGING
TABLESPACE PRESC_PARTITION_15,
PARTITION PRESC200604
NOLOGGING
TABLESPACE PRESC_PARTITION_16,
PARTITION PRESC200605
NOLOGGING
TABLESPACE PRESC_PARTITION_17,
PARTITION PRESC200606
NOLOGGING
TABLESPACE PRESC_PARTITION_18,
PARTITION PRESC200607
NOLOGGING
TABLESPACE PRESC_PARTITION_19,
PARTITION PRESC200608
NOLOGGING
TABLESPACE PRESC_PARTITION_20,
PARTITION PRESC200609
NOLOGGING
TABLESPACE PRESC_PARTITION_21,
PARTITION PRESC200610
NOLOGGING
TABLESPACE PRESC_PARTITION_22,
PARTITION PRESC200611
NOLOGGING
TABLESPACE PRESC_PARTITION_23,
PARTITION PRESC200612
NOLOGGING
TABLESPACE PRESC_PARTITION_24,
PARTITION PRESC200701
NOLOGGING
TABLESPACE PRESC_PARTITION_25,
PARTITION PRESC200702
NOLOGGING
TABLESPACE PRESC_PARTITION_26,
PARTITION PRESC200703
NOLOGGING
TABLESPACE PRESC_PARTITION_27,
PARTITION PRESC200704
NOLOGGING
TABLESPACE PRESC_PARTITION_28,
PARTITION PRESC200705
NOLOGGING
TABLESPACE PRESC_PARTITION_29
NOPARALLEL;
Prompt Index BX3_PRESC_PAYERCD;
-- BX3_PRESC_PAYERCD (Index)
-- Dependencies:
-- PRESCRIP_RETAIL (Table)
CREATE BITMAP INDEX RETAIL.BX3_PRESC_PAYERCD ON RETAIL.PRESCRIP_RETAIL
(PYMT_CODE)
TABLESPACE PRESC_PARTITION_29
NOLOGGING
LOCAL (
PARTITION PRESC200406
NOLOGGING
TABLESPACE PRESC_PARTITION_30,
PARTITION PRESC200407
NOLOGGING
TABLESPACE PRESC_PARTITION_31,
PARTITION PRESC200408
NOLOGGING
TABLESPACE PRESC_PARTITION_32,
PARTITION PRESC200409
NOLOGGING
TABLESPACE PRESC_PARTITION_33,
PARTITION PRESC200410
NOLOGGING
TABLESPACE PRESC_PARTITION_34,
PARTITION PRESC200411
NOLOGGING
TABLESPACE PRESC_PARTITION_35,
PARTITION PRESC200412
NOLOGGING
TABLESPACE PRESC_PARTITION_36,
PARTITION PRESC200501
NOLOGGING
TABLESPACE PRESC_PARTITION_01,
PARTITION PRESC200502
NOLOGGING
TABLESPACE PRESC_PARTITION_02,
PARTITION PRESC200503
NOLOGGING
TABLESPACE PRESC_PARTITION_03,
PARTITION PRESC200504
NOLOGGING
TABLESPACE PRESC_PARTITION_04,
PARTITION PRESC200505
NOLOGGING
TABLESPACE PRESC_PARTITION_05,
PARTITION PRESC200506
NOLOGGING
TABLESPACE PRESC_PARTITION_06,
PARTITION PRESC200507
NOLOGGING
TABLESPACE PRESC_PARTITION_07,
PARTITION PRESC200508
NOLOGGING
TABLESPACE PRESC_PARTITION_08,
PARTITION PRESC200509
NOLOGGING
TABLESPACE PRESC_PARTITION_09,
PARTITION PRESC200510
NOLOGGING
TABLESPACE PRESC_PARTITION_10,
PARTITION PRESC200511
NOLOGGING
TABLESPACE PRESC_PARTITION_11,
PARTITION PRESC200512
NOLOGGING
TABLESPACE PRESC_PARTITION_12,
PARTITION PRESC200601
NOLOGGING
TABLESPACE PRESC_PARTITION_13,
PARTITION PRESC200602
NOLOGGING
TABLESPACE PRESC_PARTITION_14,
PARTITION PRESC200603
NOLOGGING
TABLESPACE PRESC_PARTITION_15,
PARTITION PRESC200604
NOLOGGING
TABLESPACE PRESC_PARTITION_16,
PARTITION PRESC200605
NOLOGGING
TABLESPACE PRESC_PARTITION_17,
PARTITION PRESC200606
NOLOGGING
TABLESPACE PRESC_PARTITION_18,
PARTITION PRESC200607
NOLOGGING
TABLESPACE PRESC_PARTITION_19,
PARTITION PRESC200608
NOLOGGING
TABLESPACE PRESC_PARTITION_20,
PARTITION PRESC200609
NOLOGGING
TABLESPACE PRESC_PARTITION_21,
PARTITION PRESC200610
NOLOGGING
TABLESPACE PRESC_PARTITION_22,
PARTITION PRESC200611
NOLOGGING
TABLESPACE PRESC_PARTITION_23,
PARTITION PRESC200612
NOLOGGING
TABLESPACE PRESC_PARTITION_24,
PARTITION PRESC200701
NOLOGGING
TABLESPACE PRESC_PARTITION_25,
PARTITION PRESC200702
NOLOGGING
TABLESPACE PRESC_PARTITION_26,
PARTITION PRESC200703
NOLOGGING
TABLESPACE PRESC_PARTITION_27,
PARTITION PRESC200704
NOLOGGING
TABLESPACE PRESC_PARTITION_28,
PARTITION PRESC200705
NOLOGGING
TABLESPACE PRESC_PARTITION_29
NOPARALLEL;
Prompt Index BX4_PRESC_PRESC;
-- BX4_PRESC_PRESC (Index)
-- Dependencies:
-- PRESCRIP_RETAIL (Table)
CREATE BITMAP INDEX RETAIL.BX4_PRESC_PRESC ON RETAIL.PRESCRIP_RETAIL
(PRESC_NUM)
TABLESPACE PRESC_PARTITION_29
NOLOGGING
LOCAL (
PARTITION PRESC200406
NOLOGGING
TABLESPACE PRESC_PARTITION_30,
PARTITION PRESC200407
NOLOGGING
TABLESPACE PRESC_PARTITION_31,
PARTITION PRESC200408
NOLOGGING
TABLESPACE PRESC_PARTITION_32,
PARTITION PRESC200409
NOLOGGING
TABLESPACE PRESC_PARTITION_33,
PARTITION PRESC200410
NOLOGGING
TABLESPACE PRESC_PARTITION_34,
PARTITION PRESC200411
NOLOGGING
TABLESPACE PRESC_PARTITION_35,
PARTITION PRESC200412
NOLOGGING
TABLESPACE PRESC_PARTITION_36,
PARTITION PRESC200501
NOLOGGING
TABLESPACE PRESC_PARTITION_01,
PARTITION PRESC200502
NOLOGGING
TABLESPACE PRESC_PARTITION_02,
PARTITION PRESC200503
NOLOGGING
TABLESPACE PRESC_PARTITION_03,
PARTITION PRESC200504
NOLOGGING
TABLESPACE PRESC_PARTITION_04,
PARTITION PRESC200505
NOLOGGING
TABLESPACE PRESC_PARTITION_05,
PARTITION PRESC200506
NOLOGGING
TABLESPACE PRESC_PARTITION_06,
PARTITION PRESC200507
NOLOGGING
TABLESPACE PRESC_PARTITION_07,
PARTITION PRESC200508
NOLOGGING
TABLESPACE PRESC_PARTITION_08,
PARTITION PRESC200509
NOLOGGING
TABLESPACE PRESC_PARTITION_09,
PARTITION PRESC200510
NOLOGGING
TABLESPACE PRESC_PARTITION_10,
PARTITION PRESC200511
NOLOGGING
TABLESPACE PRESC_PARTITION_11,
PARTITION PRESC200512
NOLOGGING
TABLESPACE PRESC_PARTITION_12,
PARTITION PRESC200601
NOLOGGING
TABLESPACE PRESC_PARTITION_13,
PARTITION PRESC200602
NOLOGGING
TABLESPACE PRESC_PARTITION_14,
PARTITION PRESC200603
NOLOGGING
TABLESPACE PRESC_PARTITION_15,
PARTITION PRESC200604
NOLOGGING
TABLESPACE PRESC_PARTITION_16,
PARTITION PRESC200605
NOLOGGING
TABLESPACE PRESC_PARTITION_17,
PARTITION PRESC200606
NOLOGGING
TABLESPACE PRESC_PARTITION_18,
PARTITION PRESC200607
NOLOGGING
TABLESPACE PRESC_PARTITION_19,
PARTITION PRESC200608
NOLOGGING
TABLESPACE PRESC_PARTITION_20,
PARTITION PRESC200609
NOLOGGING
TABLESPACE PRESC_PARTITION_21,
PARTITION PRESC200610
NOLOGGING
TABLESPACE PRESC_PARTITION_22,
PARTITION PRESC200611
NOLOGGING
TABLESPACE PRESC_PARTITION_23,
PARTITION PRESC200612
NOLOGGING
TABLESPACE PRESC_PARTITION_24,
PARTITION PRESC200701
NOLOGGING
TABLESPACE PRESC_PARTITION_25,
PARTITION PRESC200702
NOLOGGING
TABLESPACE PRESC_PARTITION_26,
PARTITION PRESC200703
NOLOGGING
TABLESPACE PRESC_PARTITION_27,
PARTITION PRESC200704
NOLOGGING
TABLESPACE PRESC_PARTITION_28,
PARTITION PRESC200705
NOLOGGING
TABLESPACE PRESC_PARTITION_29
NOPARALLEL;
Prompt Index BX5_PRESC_PIER;
-- BX5_PRESC_PIER (Index)
-- Dependencies:
-- PRESCRIP_RETAIL (Table)
CREATE BITMAP INDEX RETAIL.BX5_PRESC_PIER ON RETAIL.PRESCRIP_RETAIL
(PIZR_NUM)
TABLESPACE PRESC_PARTITION_29
LOGGING
LOCAL (
PARTITION PRESC200406
NOLOGGING
TABLESPACE PRESC_PARTITION_30,
PARTITION PRESC200407
NOLOGGING
TABLESPACE PRESC_PARTITION_31,
PARTITION PRESC200408
NOLOGGING
TABLESPACE PRESC_PARTITION_32,
PARTITION PRESC200409
NOLOGGING
TABLESPACE PRESC_PARTITION_33,
PARTITION PRESC200410
NOLOGGING
TABLESPACE PRESC_PARTITION_34,
PARTITION PRESC200411
NOLOGGING
TABLESPACE PRESC_PARTITION_35,
PARTITION PRESC200412
NOLOGGING
TABLESPACE PRESC_PARTITION_36,
PARTITION PRESC200501
NOLOGGING
TABLESPACE PRESC_PARTITION_01,
PARTITION PRESC200502
NOLOGGING
TABLESPACE PRESC_PARTITION_02,
PARTITION PRESC200503
NOLOGGING
TABLESPACE PRESC_PARTITION_03,
PARTITION PRESC200504
NOLOGGING
TABLESPACE PRESC_PARTITION_04,
PARTITION PRESC200505
NOLOGGING
TABLESPACE PRESC_PARTITION_05,
PARTITION PRESC200506
NOLOGGING
TABLESPACE PRESC_PARTITION_06,
PARTITION PRESC200507
NOLOGGING
TABLESPACE PRESC_PARTITION_07,
PARTITION PRESC200508
NOLOGGING
TABLESPACE PRESC_PARTITION_08,
PARTITION PRESC200509
NOLOGGING
TABLESPACE PRESC_PARTITION_09,
PARTITION PRESC200510
NOLOGGING
TABLESPACE PRESC_PARTITION_10,
PARTITION PRESC200511
NOLOGGING
TABLESPACE PRESC_PARTITION_11,
PARTITION PRESC200512
NOLOGGING
TABLESPACE PRESC_PARTITION_12,
PARTITION PRESC200601
NOLOGGING
TABLESPACE PRESC_PARTITION_13,
PARTITION PRESC200602
NOLOGGING
TABLESPACE PRESC_PARTITION_14,
PARTITION PRESC200603
NOLOGGING
TABLESPACE PRESC_PARTITION_15,
PARTITION PRESC200604
NOLOGGING
TABLESPACE PRESC_PARTITION_16,
PARTITION PRESC200605
NOLOGGING
TABLESPACE PRESC_PARTITION_17,
PARTITION PRESC200606
NOLOGGING
TABLESPACE PRESC_PARTITION_18,
PARTITION PRESC200607
NOLOGGING
TABLESPACE PRESC_PARTITION_19,
PARTITION PRESC200608
NOLOGGING
TABLESPACE PRESC_PARTITION_20,
PARTITION PRESC200609
NOLOGGING
TABLESPACE PRESC_PARTITION_21,
PARTITION PRESC200610
NOLOGGING
TABLESPACE PRESC_PARTITION_22,
PARTITION PRESC200611
NOLOGGING
TABLESPACE PRESC_PARTITION_23,
PARTITION PRESC200612
NOLOGGING
TABLESPACE PRESC_PARTITION_24,
PARTITION PRESC200701
NOLOGGING
TABLESPACE PRESC_PARTITION_25,
PARTITION PRESC200702
NOLOGGING
TABLESPACE PRESC_PARTITION_26,
PARTITION PRESC200703
NOLOGGING
TABLESPACE PRESC_PARTITION_27,
PARTITION PRESC200704
NOLOGGING
TABLESPACE PRESC_PARTITION_28,
PARTITION PRESC200705
NOLOGGING
TABLESPACE PRESC_PARTITION_29
NOPARALLEL;
Prompt Index BX6_PRESC_RELID;
-- BX6_PRESC_RELID (Index)
-- Dependencies:
-- PRESCRIP_RETAIL (Table)
CREATE BITMAP INDEX RETAIL.BX6_PRESC_RELID ON RETAIL.PRESCRIP_RETAIL
(RELID)
TABLESPACE PRESC_PARTITION_29
LOGGING
LOCAL (
PARTITION PRESC200406
NOLOGGING
TABLESPACE PRESC_PARTITION_30,
PARTITION PRESC200407
NOLOGGING
TABLESPACE PRESC_PARTITION_31,
PARTITION PRESC200408
NOLOGGING
TABLESPACE PRESC_PARTITION_32,
PARTITION PRESC200409
NOLOGGING
TABLESPACE PRESC_PARTITION_33,
PARTITION PRESC200410
NOLOGGING
TABLESPACE PRESC_PARTITION_34,
PARTITION PRESC200411
NOLOGGING
TABLESPACE PRESC_PARTITION_35,
PARTITION PRESC200412
NOLOGGING
TABLESPACE PRESC_PARTITION_36,
PARTITION PRESC200501
NOLOGGING
TABLESPACE PRESC_PARTITION_01,
PARTITION PRESC200502
NOLOGGING
TABLESPACE PRESC_PARTITION_02,
PARTITION PRESC200503
NOLOGGING
TABLESPACE PRESC_PARTITION_03,
PARTITION PRESC200504
NOLOGGING
TABLESPACE PRESC_PARTITION_04,
PARTITION PRESC200505
NOLOGGING
TABLESPACE PRESC_PARTITION_05,
PARTITION PRESC200506
NOLOGGING
TABLESPACE PRESC_PARTITION_06,
PARTITION PRESC200507
NOLOGGING
TABLESPACE PRESC_PARTITION_07,
PARTITION PRESC200508
NOLOGGING
TABLESPACE PRESC_PARTITION_08,
PARTITION PRESC200509
NOLOGGING
TABLESPACE PRESC_PARTITION_09,
PARTITION PRESC200510
NOLOGGING
TABLESPACE PRESC_PARTITION_10,
PARTITION PRESC200511
NOLOGGING
TABLESPACE PRESC_PARTITION_11,
PARTITION PRESC200512
NOLOGGING
TABLESPACE PRESC_PARTITION_12,
PARTITION PRESC200601
NOLOGGING
TABLESPACE PRESC_PARTITION_13,
PARTITION PRESC200602
NOLOGGING
TABLESPACE PRESC_PARTITION_14,
PARTITION PRESC200603
NOLOGGING
TABLESPACE PRESC_PARTITION_15,
PARTITION PRESC200604
NOLOGGING
TABLESPACE PRESC_PARTITION_16,
PARTITION PRESC200605
NOLOGGING
TABLESPACE PRESC_PARTITION_17,
PARTITION PRESC200606
NOLOGGING
TABLESPACE PRESC_PARTITION_18,
PARTITION PRESC200607
NOLOGGING
TABLESPACE PRESC_PARTITION_19,
PARTITION PRESC200608
NOLOGGING
TABLESPACE PRESC_PARTITION_20,
PARTITION PRESC200609
NOLOGGING
TABLESPACE PRESC_PARTITION_21,
PARTITION PRESC200610
NOLOGGING
TABLESPACE PRESC_PARTITION_22,
PARTITION PRESC200611
NOLOGGING
TABLESPACE PRESC_PARTITION_23,
PARTITION PRESC200612
NOLOGGING
TABLESPACE PRESC_PARTITION_24,
PARTITION PRESC200701
NOLOGGING
TABLESPACE PRESC_PARTITION_25,
PARTITION PRESC200702
NOLOGGING
TABLESPACE PRESC_PARTITION_26,
PARTITION PRESC200703
NOLOGGING
TABLESPACE PRESC_PARTITION_27,
PARTITION PRESC200704
NOLOGGING
TABLESPACE PRESC_PARTITION_28,
PARTITION PRESC200705
NOLOGGING
TABLESPACE PRESC_PARTITION_29
NOPARALLEL;
Prompt Index BX7_PRESC_ME;
-- BX7_PRESC_ME (Index)
-- Dependencies:
-- PRESCRIP_RETAIL (Table)
CREATE BITMAP INDEX RETAIL.BX7_PRESC_ME ON RETAIL.PRESCRIP_RETAIL
(ME_NUM)
TABLESPACE PRESC_PARTITION_29
LOGGING
LOCAL (
PARTITION PRESC200406
NOLOGGING
TABLESPACE PRESC_PARTITION_30,
PARTITION PRESC200407
NOLOGGING
TABLESPACE PRESC_PARTITION_31,
PARTITION PRESC200408
NOLOGGING
TABLESPACE PRESC_PARTITION_32,
PARTITION PRESC200409
NOLOGGING
TABLESPACE PRESC_PARTITION_33,
PARTITION PRESC200410
NOLOGGING
TABLESPACE PRESC_PARTITION_34,
PARTITION PRESC200411
NOLOGGING
TABLESPACE PRESC_PARTITION_35,
PARTITION PRESC200412
NOLOGGING
TABLESPACE PRESC_PARTITION_36,
PARTITION PRESC200501
NOLOGGING
TABLESPACE PRESC_PARTITION_01,
PARTITION PRESC200502
NOLOGGING
TABLESPACE PRESC_PARTITION_02,
PARTITION PRESC200503
NOLOGGING
TABLESPACE PRESC_PARTITION_03,
PARTITION PRESC200504
NOLOGGING
TABLESPACE PRESC_PARTITION_04,
PARTITION PRESC200505
NOLOGGING
TABLESPACE PRESC_PARTITION_05,
PARTITION PRESC200506
NOLOGGING
TABLESPACE PRESC_PARTITION_06,
PARTITION PRESC200507
NOLOGGING
TABLESPACE PRESC_PARTITION_07,
PARTITION PRESC200508
NOLOGGING
TABLESPACE PRESC_PARTITION_08,
PARTITION PRESC200509
NOLOGGING
TABLESPACE PRESC_PARTITION_09,
PARTITION PRESC200510
NOLOGGING
TABLESPACE PRESC_PARTITION_10,
PARTITION PRESC200511
NOLOGGING
TABLESPACE PRESC_PARTITION_11,
PARTITION PRESC200512
NOLOGGING
TABLESPACE PRESC_PARTITION_12,
PARTITION PRESC200601
NOLOGGING
TABLESPACE PRESC_PARTITION_13,
PARTITION PRESC200602
NOLOGGING
TABLESPACE PRESC_PARTITION_14,
PARTITION PRESC200603
NOLOGGING
TABLESPACE PRESC_PARTITION_15,
PARTITION PRESC200604
NOLOGGING
TABLESPACE PRESC_PARTITION_16,
PARTITION PRESC200605
NOLOGGING
TABLESPACE PRESC_PARTITION_17,
PARTITION PRESC200606
NOLOGGING
TABLESPACE PRESC_PARTITION_18,
PARTITION PRESC200607
NOLOGGING
TABLESPACE PRESC_PARTITION_19,
PARTITION PRESC200608
NOLOGGING
TABLESPACE PRESC_PARTITION_20,
PARTITION PRESC200609
NOLOGGING
TABLESPACE PRESC_PARTITION_21,
PARTITION PRESC200610
NOLOGGING
TABLESPACE PRESC_PARTITION_22,
PARTITION PRESC200611
NOLOGGING
TABLESPACE PRESC_PARTITION_23,
PARTITION PRESC200612
NOLOGGING
TABLESPACE PRESC_PARTITION_24,
PARTITION PRESC200701
NOLOGGING
TABLESPACE PRESC_PARTITION_25,
PARTITION PRESC200702
NOLOGGING
TABLESPACE PRESC_PARTITION_26,
PARTITION PRESC200703
NOLOGGING
TABLESPACE PRESC_PARTITION_27,
PARTITION PRESC200704
NOLOGGING
TABLESPACE PRESC_PARTITION_28,
PARTITION PRESC200705
NOLOGGING
TABLESPACE PRESC_PARTITION_29
NOPARALLEL;
Prompt Index BX1_PRESC_PROD;
-- BX1_PRESC_PROD (Index)
-- Dependencies:
-- PRESCRIP_RETAIL (Table)
CREATE BITMAP INDEX RETAIL.BX1_PRESC_PROD ON RETAIL.PRESCRIP_RETAIL
(PRODUCT_ID, PRODUCT_FRMSTR)
TABLESPACE PRESC_PARTITION_29
LOGGING
LOCAL (
PARTITION PRESC200406
NOLOGGING
TABLESPACE PRESC_PARTITION_30,
PARTITION PRESC200407
NOLOGGING
TABLESPACE PRESC_PARTITION_31,
PARTITION PRESC200408
NOLOGGING
TABLESPACE PRESC_PARTITION_32,
PARTITION PRESC200409
NOLOGGING
TABLESPACE PRESC_PARTITION_33,
PARTITION PRESC200410
NOLOGGING
TABLESPACE PRESC_PARTITION_34,
PARTITION PRESC200411
NOLOGGING
TABLESPACE PRESC_PARTITION_35,
PARTITION PRESC200412
NOLOGGING
TABLESPACE PRESC_PARTITION_36,
PARTITION PRESC200501
NOLOGGING
TABLESPACE PRESC_PARTITION_01,
PARTITION PRESC200502
NOLOGGING
TABLESPACE PRESC_PARTITION_02,
PARTITION PRESC200503
NOLOGGING
TABLESPACE PRESC_PARTITION_03,
PARTITION PRESC200504
NOLOGGING
TABLESPACE PRESC_PARTITION_04,
PARTITION PRESC200505
NOLOGGING
TABLESPACE PRESC_PARTITION_05,
PARTITION PRESC200506
NOLOGGING
TABLESPACE PRESC_PARTITION_06,
PARTITION PRESC200507
NOLOGGING
TABLESPACE PRESC_PARTITION_07,
PARTITION PRESC200508
NOLOGGING
TABLESPACE PRESC_PARTITION_08,
PARTITION PRESC200509
NOLOGGING
TABLESPACE PRESC_PARTITION_09,
PARTITION PRESC200510
NOLOGGING
TABLESPACE PRESC_PARTITION_10,
PARTITION PRESC200511
NOLOGGING
TABLESPACE PRESC_PARTITION_11,
PARTITION PRESC200512
NOLOGGING
TABLESPACE PRESC_PARTITION_12,
PARTITION PRESC200601
NOLOGGING
TABLESPACE PRESC_PARTITION_13,
PARTITION PRESC200602
NOLOGGING
TABLESPACE PRESC_PARTITION_14,
PARTITION PRESC200603
NOLOGGING
TABLESPACE PRESC_PARTITION_15,
PARTITION PRESC200604
NOLOGGING
TABLESPACE PRESC_PARTITION_16,
PARTITION PRESC200605
NOLOGGING
TABLESPACE PRESC_PARTITION_17,
PARTITION PRESC200606
NOLOGGING
TABLESPACE PRESC_PARTITION_18,
PARTITION PRESC200607
NOLOGGING
TABLESPACE PRESC_PARTITION_19,
PARTITION PRESC200608
NOLOGGING
TABLESPACE PRESC_PARTITION_20,
PARTITION PRESC200609
NOLOGGING
TABLESPACE PRESC_PARTITION_21,
PARTITION PRESC200610
NOLOGGING
TABLESPACE PRESC_PARTITION_22,
PARTITION PRESC200611
NOLOGGING
TABLESPACE PRESC_PARTITION_23,
PARTITION PRESC200612
NOLOGGING
TABLESPACE PRESC_PARTITION_24,
PARTITION PRESC200701
NOLOGGING
TABLESPACE PRESC_PARTITION_25,
PARTITION PRESC200702
NOLOGGING
TABLESPACE PRESC_PARTITION_26,
PARTITION PRESC200703
NOLOGGING
TABLESPACE PRESC_PARTITION_27,
PARTITION PRESC200704
NOLOGGING
TABLESPACE PRESC_PARTITION_28,
PARTITION PRESC200705
NOLOGGING
TABLESPACE PRESC_PARTITION_29
NOPARALLEL;

How i can obtain explain plan without run the query

Hello,
i need to know the result of explain of a query without run the query, it's this possible?
Thanks and best regards.

explain plan for <your query>;
select * from table(dbms_xplan.display);Regards,
Rob.

Query Explain Plan Help

I am running the following query against my database
SELECT p.ID
FROM rap_counterparties cou,
       rap_presentation_cou_ratings pcr,
       rap_presentation_states sta,
       rap_app_user_profiles aup,
       rap_presentations p
WHERE cou.unt_id = aup.unt_id
   AND aup.aur_id = 7529
   AND pcr.cou_id = cou.ID
   AND sta.cur_present_state_instance_flg = 'Y'
   AND sta.state_type_id = pcr.pst_state_type_id
   AND sta.pre_id = pcr.pst_pre_id
   AND sta.state_type_id IN (326, 322, 323, 324, 325)
   AND cou.unt_id = p.unt_id
   AND p.ID = sta.pre_id
   AND (   p.private_flg != 'Y'
        OR (p.private_flg = 'Y' AND p.created_by_user_id = 10000083)
Explain plan of the query is
PLAN_TABLE_OUTPUT
| Id | Operation                        | Name                  | Rows | Bytes | Cost (%CPU)|
|   0 | SELECT STATEMENT                 |                        |     8 |   456 | 3936 (16)|
|* 1 | TABLE ACCESS BY INDEX ROWID     | RAP_PRESENTATIONS      |     1 |    15 |     2 (50)|
|   2 |   NESTED LOOPS                   |                        |     8 |   456 | 3936 (16)|
|* 3 |    HASH JOIN                     |                        | 1745 | 73290 | 2145 (27)|
|* 4 |     HASH JOIN                    |                        | 14257 |   431K| 1299 (25)|
|* 5 |      HASH JOIN                   |                        | 5173 | 87941 |   583 (16)|
|   6 |       TABLE ACCESS BY INDEX ROWID| RAP_APP_USER_PROFILES |    18 |   144 |     3 (34)|
|* 7 |        INDEX RANGE SCAN          | RAP_AUP_IX_01          |    18 |       |     2 (50)|
|   8 |       TABLE ACCESS FULL          | RAP_COUNTERPARTIES     |   118K| 1042K|   560 (13)|
|* 9 |      INDEX FAST FULL SCAN        | RAP_PCR_PK             |   326K| 4467K|   659 (25)|
|* 10 |     INDEX FAST FULL SCAN         | RAP_PST_IX_02          |   120K| 1291K|   821 (29)|
|* 11 |    INDEX RANGE SCAN              | RAP_PRE_PK             |     1 |       |            |
Predicate Information (identified by operation id):
   1 - filter(("P"."PRIVATE_FLG"<>'Y' OR "P"."CREATED_BY_USER_ID"=10000083 AND
              "P"."PRIVATE_FLG"='Y') AND "COU"."UNT_ID"="P"."UNT_ID")
   3 - access("STA"."STATE_TYPE_ID"="PCR"."PST_STATE_TYPE_ID" AND
              "STA"."PRE_ID"="PCR"."PST_PRE_ID")
   4 - access("PCR"."COU_ID"="COU"."ID")
   5 - access("COU"."UNT_ID"="AUP"."UNT_ID")
   7 - access("AUP"."AUR_ID"=7529)
   9 - filter("PCR"."PST_STATE_TYPE_ID"=322 OR "PCR"."PST_STATE_TYPE_ID"=323 OR
              "PCR"."PST_STATE_TYPE_ID"=324 OR "PCR"."PST_STATE_TYPE_ID"=325 OR "PCR"."PST_STATE_TYPE_ID"=326)
10 - filter("STA"."CUR_PRESENT_STATE_INSTANCE_FLG"='Y' AND ("STA"."STATE_TYPE_ID"=322 OR
              "STA"."STATE_TYPE_ID"=323 OR "STA"."STATE_TYPE_ID"=324 OR "STA"."STATE_TYPE_ID"=325 OR
              "STA"."STATE_TYPE_ID"=326))
11 - access("P"."ID"="STA"."PRE_ID")
Table Row count
rap_app_user_profiles : 30639
rap_counterparties : 118583
rap_presentation_cou_ratings -- 652781
rap_presentation_states -- 982413
rap_presentations -- 246145
Questions
1. Why is the index not being used on the table rap_counterparties. If I force a hint then the index is being used
2. Is there a way I can have an index range scan as opposed to the index fast full scan.
3. This query runs in 3s. Is there anything else I can do to tune this query?
4. In predicate 9 and 10 the two tables have fast full scan. If the filter of unit generates only a few records why can't those few records be joined with these tables. Why the whole tables are first being scanned and then joined
Appreciate your response

Thanks for the suggestions.
So I tried using the FIRST_ROW HINT and i am getting the nested loops join and it runs fast in 250ms.
SELECT /*+FIRST_ROWS*/
       p.ID ID
FROM rap_presentations p,
       rap_counterparties cou,
       rap_presentation_states sta,
       rap_presentation_cou_ratings pcr
WHERE cou.unt_id IN (
           SELECT prof.unt_id
             FROM rap_application_users u, rap_app_user_profiles prof
            WHERE u.ID = prof.aur_id AND u.ID = 7529
                  AND prof.aro_id NOT IN (8))
   AND cou.unt_id = p.unt_id
   AND p.ID = sta.pre_id
   AND sta.cur_present_state_instance_flg = 'Y'
   AND sta.state_type_id = pcr.pst_state_type_id
   AND sta.pre_id = pcr.pst_pre_id
   AND pcr.cou_id = cou.ID
   AND (   p.private_flg != 'Y'
        OR (p.private_flg = 'Y' AND p.created_by_user_id = 7529)
   AND sta.state_type_id IN (326, 322, 323, 324, 325)
Explain plan:
PLAN_TABLE_OUTPUT
| Id | Operation                           | Name                         | Rows | Bytes | Cost (%CPU)|
|   0 | SELECT STATEMENT                    |                               |     7 |   434 | 43334   (2)|
|* 1 | TABLE ACCESS BY INDEX ROWID        | RAP_PRESENTATIONS             |     1 |    15 |     2 (50)|
|   2 |   NESTED LOOPS                      |                               |     7 |   434 | 43334   (2)|
|   3 |    NESTED LOOPS                     |                               | 1593 | 74871 | 41699   (2)|
|   4 |     NESTED LOOPS                    |                               | 13016 |   457K| 15196   (2)|
|   5 |      NESTED LOOPS                   |                               | 4723 |   101K|   798   (2)|
|   6 |       VIEW                          | VW_NSO_1                      |    16 |   208 |            |
|   7 |        SORT UNIQUE                  |                               |    16 |   256 |            |
|   8 |         NESTED LOOPS                |                               |    16 |   256 |     4 (25)|
|* 9 |          INDEX UNIQUE SCAN          | RAP_AUR_PK                    |     1 |     5 |     2 (50)|
|* 10 |          TABLE ACCESS BY INDEX ROWID| RAP_APP_USER_PROFILES         |    16 |   176 |     3 (34)|
|* 11 |           INDEX RANGE SCAN          | RAP_AUP_IX_01                 |    18 |       |     2 (50)|
| 12 |       TABLE ACCESS BY INDEX ROWID   | RAP_COUNTERPARTIES            |   295 | 2655 |    50   (2)|
|* 13 |        INDEX RANGE SCAN             | RAP_COU_IX_02                 |    95 |       |     2 (50)|
|* 14 |      TABLE ACCESS BY INDEX ROWID    | RAP_PRESENTATION_COU_RATINGS |     3 |    42 |     4 (25)|
|* 15 |       INDEX RANGE SCAN              | RAP_PCR_IX_03                 |    10 |       |     3 (34)|
|* 16 |     INDEX RANGE SCAN                | RAP_PST_IX_02                 |     1 |    11 |     3 (34)|
|* 17 |    INDEX RANGE SCAN                 | RAP_PRE_PK                    |     1 |       |            |
Predicate Information (identified by operation id):
   1 - filter(("P"."PRIVATE_FLG"<>'Y' OR "P"."PRIVATE_FLG"='Y' AND "P"."CREATED_BY_USER_ID"=7529) AND
              "COU"."UNT_ID"="P"."UNT_ID")
   9 - access("U"."ID"=7529)
10 - filter("PROF"."ARO_ID"<>8)
11 - access("PROF"."AUR_ID"=7529)
13 - access("COU"."UNT_ID"="VW_NSO_1"."$nso_col_1")
14 - filter("PCR"."PST_STATE_TYPE_ID"=322 OR "PCR"."PST_STATE_TYPE_ID"=323 OR
              "PCR"."PST_STATE_TYPE_ID"=324 OR "PCR"."PST_STATE_TYPE_ID"=325 OR "PCR"."PST_STATE_TYPE_ID"=326)
15 - access("PCR"."COU_ID"="COU"."ID")
16 - access("STA"."PRE_ID"="PCR"."PST_PRE_ID" AND "STA"."STATE_TYPE_ID"="PCR"."PST_STATE_TYPE_ID" AND
              "STA"."CUR_PRESENT_STATE_INSTANCE_FLG"='Y')
       filter("STA"."STATE_TYPE_ID"=322 OR "STA"."STATE_TYPE_ID"=323 OR "STA"."STATE_TYPE_ID"=324 OR
              "STA"."STATE_TYPE_ID"=325 OR "STA"."STATE_TYPE_ID"=326)
17 - access("P"."ID"="STA"."PRE_ID")
But my query that runs to get the data has a union with another query and with the change it looks like below
SELECT /*+FIRST_ROWS*/
       p.ID ID
FROM rap_presentations p,
       rap_counterparties cou,
       rap_presentation_states sta,
       rap_presentation_cou_ratings pcr
WHERE cou.unt_id IN (
           SELECT prof.unt_id
             FROM rap_application_users u, rap_app_user_profiles prof
            WHERE u.ID = prof.aur_id AND u.ID = 7529
                  AND prof.aro_id NOT IN (8))
   AND cou.unt_id = p.unt_id
   AND p.ID = sta.pre_id
   AND sta.cur_present_state_instance_flg = 'Y'
   AND sta.state_type_id = pcr.pst_state_type_id
   AND sta.pre_id = pcr.pst_pre_id
   AND pcr.cou_id = cou.ID
   AND (   p.private_flg != 'Y'
        OR (p.private_flg = 'Y' AND p.created_by_user_id = 7529)
   AND sta.state_type_id IN (326, 322, 323, 324, 325)
UNION
SELECT /*+index(pfs)*/
       p.ID ID
FROM rap_presentations p,
       rap_presentation_states sta,
       rap_facilities f,
       rap_presentation_fac_states pfs
WHERE f.unt_id IN (
           SELECT prof.unt_id
             FROM rap_application_users u, rap_app_user_profiles prof
            WHERE u.ID = prof.aur_id AND u.ID = 7529
                  AND prof.aro_id NOT IN (8))
   AND f.unt_id = p.unt_id
   AND p.ID = sta.pre_id
   AND sta.cur_present_state_instance_flg = 'Y'
   AND sta.state_type_id = pfs.pst_state_type_id
   AND sta.pre_id = pfs.pst_pre_id
   AND pfs.fac_id = f.ID
   AND pfs.fac_num = f.num
   AND f.current_facility_instance_flg = 'Y'
   AND (   p.private_flg != 'Y'
        OR (p.private_flg = 'Y' AND p.created_by_user_id = 7529)
   AND sta.state_type_id IN (326, 322, 323, 324, 325)
Explain plan :
PLAN_TABLE_OUTPUT
| Id | Operation                          | Name                  | Rows | Bytes | Cost (%CPU)|
|   0 | SELECT STATEMENT                   |                        |     8 |   534 | 14931 (80)|
|   1 | SORT UNIQUE                       |                        |     8 |   534 | 14931 (80)|
|   2 |   UNION-ALL                        |                        |       |       |            |
|* 3 |    TABLE ACCESS BY INDEX ROWID     | RAP_PRESENTATIONS      |     1 |    15 |     2 (50)|
|   4 |     NESTED LOOPS                   |                        |     7 |   455 | 3728 (17)|
|* 5 |      HASH JOIN                     |                        | 1542 | 77100 | 2145 (27)|
|* 6 |       HASH JOIN                    |                        | 12598 |   479K| 1300 (24)|
|* 7 |        HASH JOIN                   |                        | 4571 |   111K|   584 (16)|
|* 8 |         TABLE ACCESS BY INDEX ROWID| RAP_APP_USER_PROFILES |    16 |   176 |     3 (34)|
|* 9 |          INDEX RANGE SCAN          | RAP_AUP_IX_01          |    18 |       |     2 (50)|
| 10 |         NESTED LOOPS               |                        |   118K| 1621K|   561 (13)|
|* 11 |          INDEX UNIQUE SCAN         | RAP_AUR_PK             |     1 |     5 |     2 (50)|
| 12 |          TABLE ACCESS FULL         | RAP_COUNTERPARTIES     |   118K| 1042K|   560 (13)|
|* 13 |        INDEX FAST FULL SCAN        | RAP_PCR_PK             |   326K| 4467K|   659 (25)|
|* 14 |       INDEX FAST FULL SCAN         | RAP_PST_IX_02          |   120K| 1291K|   821 (29)|
|* 15 |      INDEX RANGE SCAN              | RAP_PRE_PK             |     1 |       |            |
| 16 |    NESTED LOOPS                    |                        |     1 |    79 | 11201   (2)|
| 17 |     NESTED LOOPS                   |                        |    75 | 4800 | 11124   (2)|
| 18 |      NESTED LOOPS                  |                        |   617 | 32701 | 9867   (2)|
| 19 |       NESTED LOOPS                 |                        | 2104 | 69432 | 5606   (2)|
| 20 |        NESTED LOOPS                |                        |    16 |   256 |     4 (25)|
|* 21 |         INDEX UNIQUE SCAN          | RAP_AUR_PK             |     1 |     5 |     2 (50)|
|* 22 |         TABLE ACCESS BY INDEX ROWID| RAP_APP_USER_PROFILES |    16 |   176 |     3 (34)|
|* 23 |          INDEX RANGE SCAN          | RAP_AUP_IX_01          |    18 |       |     2 (50)|
|* 24 |        TABLE ACCESS BY INDEX ROWID | RAP_FACILITIES         |   135 | 2295 |   351   (2)|
|* 25 |         INDEX RANGE SCAN           | RAP_FAC_IX_02          | 1608 |       |     5 (20)|
|* 26 |       INDEX RANGE SCAN             | RAP_PFR_PK             |     1 |    20 |     3 (34)|
|* 27 |      INDEX RANGE SCAN              | RAP_PST_IX_02          |     1 |    11 |     3 (34)|
|* 28 |     TABLE ACCESS BY INDEX ROWID    | RAP_PRESENTATIONS      |     1 |    15 |     2 (50)|
|* 29 |      INDEX UNIQUE SCAN             | RAP_PRE_PK             |     1 |       |            |
Predicate Information (identified by operation id):
   3 - filter(("P"."PRIVATE_FLG"<>'Y' OR "P"."PRIVATE_FLG"='Y' AND "P"."CREATED_BY_USER_ID"=7529)
              AND "COU"."UNT_ID"="P"."UNT_ID")
   5 - access("STA"."STATE_TYPE_ID"="PCR"."PST_STATE_TYPE_ID" AND
              "STA"."PRE_ID"="PCR"."PST_PRE_ID")
   6 - access("PCR"."COU_ID"="COU"."ID")
   7 - access("COU"."UNT_ID"="PROF"."UNT_ID")
   8 - filter("PROF"."ARO_ID"<>8)
   9 - access("PROF"."AUR_ID"=7529)
11 - access("U"."ID"=7529)
13 - filter("PCR"."PST_STATE_TYPE_ID"=322 OR "PCR"."PST_STATE_TYPE_ID"=323 OR
              "PCR"."PST_STATE_TYPE_ID"=324 OR "PCR"."PST_STATE_TYPE_ID"=325 OR "PCR"."PST_STATE_TYPE_ID"=326)
14 - filter("STA"."CUR_PRESENT_STATE_INSTANCE_FLG"='Y' AND ("STA"."STATE_TYPE_ID"=322 OR
              "STA"."STATE_TYPE_ID"=323 OR "STA"."STATE_TYPE_ID"=324 OR "STA"."STATE_TYPE_ID"=325 OR
              "STA"."STATE_TYPE_ID"=326))
15 - access("P"."ID"="STA"."PRE_ID")
21 - access("U"."ID"=7529)
22 - filter("PROF"."ARO_ID"<>8)
23 - access("PROF"."AUR_ID"=7529)
24 - filter("F"."CURRENT_FACILITY_INSTANCE_FLG"='Y')
25 - access("F"."UNT_ID"="PROF"."UNT_ID")
26 - access("PFS"."FAC_ID"="F"."ID" AND "PFS"."FAC_NUM"="F"."NUM")
       filter("PFS"."PST_STATE_TYPE_ID"=322 OR "PFS"."PST_STATE_TYPE_ID"=323 OR
              "PFS"."PST_STATE_TYPE_ID"=324 OR "PFS"."PST_STATE_TYPE_ID"=325 OR "PFS"."PST_STATE_TYPE_ID"=326)
27 - access("STA"."PRE_ID"="PFS"."PST_PRE_ID" AND
              "STA"."STATE_TYPE_ID"="PFS"."PST_STATE_TYPE_ID" AND "STA"."CUR_PRESENT_STATE_INSTANCE_FLG"='Y')
       filter("STA"."STATE_TYPE_ID"=322 OR "STA"."STATE_TYPE_ID"=323 OR "STA"."STATE_TYPE_ID"=324
              OR "STA"."STATE_TYPE_ID"=325 OR "STA"."STATE_TYPE_ID"=326)
28 - filter(("P"."PRIVATE_FLG"<>'Y' OR "P"."PRIVATE_FLG"='Y' AND "P"."CREATED_BY_USER_ID"=7529)
              AND "F"."UNT_ID"="P"."UNT_ID")
29 - access("P"."ID"="STA"."PRE_ID")
Question:
1. When I put the query with the FIRST_ROWS hint in a union with another query, the explain plan reverts back to the older explain plan. how can I avoid it when running by iteslf it runs really quick?
2. Why is the cost with nested loops more higher? Is it because of statistics?
2. Does the database parameter db_multiblock_read_count have any affect on the fast full scan?
3. I gather statistics using the followin method
begin
   dbms_stats.gather_schema_stats(
      ownname          => 'RAP_OWNER',
      estimate_percent => dbms_stats.auto_sample_size,
      method_opt       => 'for all columns size auto',
      degree           => 7
end;
Sometimes I also use the following method
BEGIN
dbms_stats.gather_schema_stats( ownname=>'RAP_OWNER',
METHOD_OPT=>'FOR ALL INDEXED COLUMNS SIZE SKEWONLY',
CASCADE=>TRUE, ESTIMATE_PERCENT=>100);
END;
Which one is good or should I use both?
Appreciate your input.

Query Regarding Explain Plan on Query

Hello,
I have one big query which shows report of 50000 daily records from @ 20,00,000 records.
I have two databases UAT and PROD.when i do Explain Plan on the query is these different database i get the different plan where everything is same in both database.
In UAT it is doing Index scan where as in PROD it is doing Full TableScan. Below are the results.
In production it is not using any of the indexes present but in UAT it is.What could be the reasong behind this?

Sure.
UAT Explain Plan (Please copy in Textpad for better View)
SELECT STATEMENT, GOAL = HINT: ALL_ROWS     Cost=371     Cardinality=238     Optimizer=HINT: ALL_ROWS     Bytes=134470
VIEW     Object owner=SWNET1          Cost=371     Cardinality=238          Bytes=134470
COUNT STOPKEY
VIEW     Object owner=SWNET1          Cost=371     Cardinality=238          Bytes=131376
SORT ORDER BY STOPKEY          Cost=371     Cardinality=238          Bytes=54026
FILTER
HASH JOIN RIGHT ANTI          Cost=370     Cardinality=238          Bytes=54026
INLIST ITERATOR
TABLE ACCESS BY INDEX ROWID     Object owner=SWNET1     Object name=IS_TB_END_POINT     Cost=1     Cardinality=1     Optimizer=ANALYZED     Bytes=31
INDEX RANGE SCAN          Object owner=SWNET1     Object name=IS_UK_EP_NAME     Cost=1     Cardinality=1     Optimizer=ANALYZED
TABLE ACCESS BY INDEX ROWID     Object owner=SWNET1     Object name=IS_TB_TRANSACTION     Cost=368     Cardinality=253     Optimizer=ANALYZED     Bytes=49588
INDEX FULL SCAN          Object owner=SWNET1     Object name=IS_IX_T_DESTINATION_EP     Cost=18     Cardinality=13909     Optimizer=ANALYZED
PRODUCTION Explain Plan
SELECT STATEMENT, GOAL = HINT: ALL_ROWS               Cost=65702     Cardinality=1000     Optimizer=HINT: ALL_ROWS     Bytes=565000
VIEW     Object owner=SWNET1          Cost=65702     Cardinality=1000          Bytes=565000
COUNT STOPKEY
VIEW     Object owner=SWNET1          Cost=65702     Cardinality=38739          Bytes=21383928
SORT ORDER BY STOPKEY          Cost=65702     Cardinality=38739          Bytes=9646011
FILTER
HASH JOIN RIGHT ANTI          Cost=63616     Cardinality=38739          Bytes=9646011
INLIST ITERATOR
TABLE ACCESS BY INDEX ROWID     Object owner=SWNET1     Object name=IS_TB_END_POINT     Cost=1     Cardinality=2     Optimizer=ANALYZED     Bytes=64
INDEX UNIQUE SCAN          Object owner=SWNET1     Object name=IS_UK_EP_NAME     Cost=1     Cardinality=2     Optimizer=ANALYZED
TABLE ACCESS FULL          Object owner=SWNET1     Object name=IS_TB_TRANSACTION     Cost=63614     Cardinality=44697     Optimizer=ANALYZED     Bytes=9699249
Index Query (Same on both places)
create index IS_IX_T_DESTINATION_EP on IS_TB_TRANSACTION (T_DESTINATION_EP)
tablespace IS_XML_IND
pctfree 10
initrans 2
maxtrans 255
storage
initial 128M
next 128K
minextents 1
maxextents unlimited
pctincrease 0
);

SQL Tuning- slow query on GL_BALANCES- Explain plan provided

Hi- I really need some help here.
The following SQL statement has been identified to perform poorly.
It currently takes from 2-3 minutes to execute. I see it is because GL_BALANCES has so many rows.
Is there any way around this? Explain and info below. Thanks gurus!
This is the SQL statement:
SELECT DISTINCT GLB.CODE_COMBINATION_ID CCID
FROM gl_balances GLB, gl_code_combinations GCC
WHERE GLB.ACTUAL_FLAG = 'A'
AND GLB.Last_Update_Date > to_date('11-JAN-2010','DD-MON-YYYY')
AND GLB.code_combination_id = GCC.code_combination_id
AND EXISTS (
              SELECT 1
              FROM fnd_flex_value_sets A, fnd_flex_values B
              WHERE A.flex_value_set_name = 'XXX_XXX'
              AND UPPER(B.ATTRIBUTE3) = 'APPORTIONMENT'
              AND A.flex_value_set_id = b.flex_value_set_id
              AND GCC.segment11 = b.flex_value
           );The version of the database is 11.1.0.7.
These are the parameters relevant to the optimizer:
NAME TYPE VALUE
optimizerautostats_job boolean FALSE
optimizerextended_cursor_sharing_r string NONE
el
optimizer_capture_sql_plan_baselines boolean FALSE
optimizer_dynamic_sampling integer 2
optimizer_features_enable string 11.1.0.7
optimizer_index_caching integer 0
optimizer_index_cost_adj integer 100
optimizer_mode string ALL_ROWS
optimizer_secure_view_merging boolean FALSE
optimizer_use_invisible_indexes boolean FALSE
NAME TYPE VALUE
optimizer_use_pending_statistics boolean FALSE
optimizer_use_sql_plan_baselines boolean TRUE
SQL> show parameter db_file_multi
NAME TYPE VALUE
db_file_multiblock_read_count integer 128
SQL> show parameter db_block_size
NAME TYPE VALUE
db_block_size integer 8192
SQL> show parameter cursor_sharing
NAME TYPE VALUE
optimizerextended_cursor_sharing_r string NONE
el
cursor_sharing string EXACT
select
2 sname
3 , pname
4 , pval1
5 , pval2
6 from
7 sys.aux_stats$;
SNAME PNAME PVAL1
PVAL2
SYSSTATS_INFO STATUS
COMPLETED
SYSSTATS_INFO DSTART
09-02-2006 14:35
SYSSTATS_INFO DSTOP
09-02-2006 14:35
SNAME PNAME PVAL1
PVAL2
SYSSTATS_INFO FLAGS 1
SYSSTATS_MAIN CPUSPEEDNW 451.262136
SYSSTATS_MAIN IOSEEKTIM 10
SNAME PNAME PVAL1
PVAL2
SYSSTATS_MAIN IOTFRSPEED 4096
SYSSTATS_MAIN SREADTIM
SYSSTATS_MAIN MREADTIM
SNAME PNAME PVAL1
PVAL2
SYSSTATS_MAIN CPUSPEED
SYSSTATS_MAIN MBRC
SYSSTATS_MAIN MAXTHR
SNAME PNAME PVAL1
PVAL2
SYSSTATS_MAIN SLAVETHR
13 rows selected.
SQL> explain plan for
2 SELECT DISTINCT GLB.CODE_COMBINATION_ID CCID
3 FROM gl_balances GLB, gl_code_combinations GCC
4 WHERE GLB.code_combination_id = GCC.code_combination_id
5 AND GLB.ACTUAL_FLAG = 'A'
6 AND GLB.Last_Update_Date > '11-JAN-2010'
7 AND EXISTS (SELECT 1
8 FROM fnd_flex_value_sets A, fnd_flex_values B
9 WHERE A.flex_value_set_id = b.flex_value_set_id
10 AND A.flex_value_set_name = 'XXX_XXX'
11 AND UPPER(B.ATTRIBUTE3) = 'APPORTIONMENT'
12 AND GCC.segment11 = b.flex_value);
Explained.
SQL> select * from table(dbms_xplan.display);
PLAN_TABLE_OUTPUT
Plan hash value: 1839014065
| Id | Operation | Name | Rows | By
tes | Cost (%CPU)| Time |
PLAN_TABLE_OUTPUT
| 0 | SELECT STATEMENT | | 4102 |
296K| 955K (3)| 03:11:03 |
| 1 | HASH UNIQUE | | 4102 |
296K| 955K (3)| 03:11:03 |
|* 2 | HASH JOIN | | 4102 |
296K| 955K (3)| 03:11:03 |
| 3 | NESTED LOOPS | | |
| | |
PLAN_TABLE_OUTPUT
| 4 | NESTED LOOPS | | 23907 | 1
354K| 2598 (1)| 00:00:32 |
| 5 | NESTED LOOPS | | 1 |
45 | 5 (0)| 00:00:01 |
| 6 | TABLE ACCESS BY INDEX ROWID| FND_FLEX_VALUE_SETS | 1 |
28 | 2 (0)| 00:00:01 |
|* 7 | INDEX UNIQUE SCAN | FND_FLEX_VALUE_SETS_U2 | 1 |
PLAN_TABLE_OUTPUT
| 1 (0)| 00:00:01 |
|* 8 | TABLE ACCESS BY INDEX ROWID| FND_FLEX_VALUES | 1 |
17 | 3 (0)| 00:00:01 |
|* 9 | INDEX RANGE SCAN | FND_FLEX_VALUES_N2 | 53 |
| 1 (0)| 00:00:01 |
|* 10 | INDEX RANGE SCAN | GL_CODE_COMBINATIONS_N11 | 25427 |
| 106 (1)| 00:00:02 |
PLAN_TABLE_OUTPUT
| 11 | TABLE ACCESS BY INDEX ROWID | GL_CODE_COMBINATIONS | 18664 |
236K| 2593 (1)| 00:00:32 |
|* 12 | TABLE ACCESS FULL | GL_BALANCES | 1022K|
15M| 952K (3)| 03:10:32 |
Predicate Information (identified by operation id):
PLAN_TABLE_OUTPUT
2 - access("GLB"."CODE_COMBINATION_ID"="GCC"."CODE_COMBINATION_ID")
7 - access("A"."FLEX_VALUE_SET_NAME"='SSA_SGL')
8 - filter(UPPER("B"."ATTRIBUTE3")='APPORTIONMENT')
9 - access("A"."FLEX_VALUE_SET_ID"="B"."FLEX_VALUE_SET_ID")
10 - access("GCC"."SEGMENT11"="B"."FLEX_VALUE")
12 - filter("GLB"."LAST_UPDATE_DATE">TO_DATE(' 2010-01-11 00:00:00', 'syyyy-mm
-dd hh24:mi:ss') AND
"GLB"."ACTUAL_FLAG"='A')
30 rows selected.

As per the other replies, you've not really given enough information to go on - what are you trying to achieve, versions, etc.
On my old apps 11.5.8 system, the explain plan for your query uses GL_CODE_COMBINATIONS_U1 rather than a full scan of gl_code_combinations.
Check your stats are up to date (select table_name, num_rows, last_analyzed from dba_tables where ...)
See if you can also use period_name and/or period_set_name (or period_num) from GL_Periods rather than period_year (i.e. use P_YEAR to lookup the period_name/period_set_name/period_num from gl_periods). It might be faster to do per period and then consolidate for the whole year, as there are indexes on gl_balances for columns period_name, period_set_name, period_num.
regards, Ivan

Explain Plan in pl/sql

Dear All.
DBMS_XPLAN.DISPLAY_CURSOR(
   sql_id        IN VARCHAR2 DEFAULT NULL,
   child_number IN NUMBER    DEFAULT NULL,
   format        IN VARCHAR2 DEFAULT 'TYPICAL');
SQL> SELECT * FROM table (
2     DBMS_XPLAN.DISPLAY_CURSOR('b7jn4mf49n569'));
PLAN_TABLE_OUTPUT
SQL_ID b7jn4mf49n569, child number 0
select o.name, u.name from obj$ o, type$ t, user$ u where o.oid$ = t.tvoid and
u.user#=o.owner# and bitand(t.properties,8388608) = 8388608 and
(sysdate-o.ctime) > 0.0007
Plan hash value: 4266358741
| Id | Operation                     | Name    | Rows | Bytes | Cost (%CPU)| T
|   0 | SELECT STATEMENT              |         |       |       |    94 (100)|
|   1 | NESTED LOOPS                 |         |     1 |    72 |    94   (2)| 0
|   2 |   NESTED LOOPS                |         |     1 |    56 |    93   (2)| 0
|* 3 |    TABLE ACCESS FULL          | OBJ$    |    71 | 2414 |    37   (3)| 0
|* 4 |    TABLE ACCESS BY INDEX ROWID| TYPE$   |     1 |    22 |     1   (0)| 0
|* 5 |     INDEX UNIQUE SCAN         | I_TYPE2 |     1 |       |     0   (0)|
|   6 |   TABLE ACCESS CLUSTER        | USER$   |     1 |    16 |     1   (0)| 0
|* 7 |    INDEX UNIQUE SCAN          | I_USER# |     1 |       |     0   (0)|
PLAN_TABLE_OUTPUT
Predicate Information (identified by operation id):
   3 - filter(("O"."OID$" IS NOT NULL AND SYSDATE@!-"O"."CTIME">.0007))
   4 - filter(BITAND("T"."PROPERTIES",8388608)=8388608)
   5 - access("O"."OID$"="T"."TVOID")
   7 - access("U"."USER#"="O"."OWNER#")
29 rows selected
SQL> As you can see using DBMS_XPLAN.DISPLAY_CURSOR. I can display the explain plan of any query IN SQL*PLUS.
But I want to write a PL/SQL function that generating an explain plan for any query and displaying the explain plan in a htlm page
how can i do same thing in pl/sql? I need yours advice.
Thanks in advance!

Generate the plan like so:
begin
execute immediate 'explain plan for select * from dual';
end;Then you can put the dbms_xplan.display bit into a ref cursor and pass that across to the front end.
Eg:
SQL> variable rc refcursor
SQL> begin
2 execute immediate 'explain plan for select * from dual';
3 open :rc for select * from table(dbms_xplan.display);
4* end;
SQL> /
PL/SQL procedure successfully completed.
SQL> print rc;
PLAN_TABLE_OUTPUT
Plan hash value: 3543395131
| Id | Operation         | Name | Rows | Bytes | Cost (%CPU)| Time     |
|   0 | SELECT STATEMENT |      |     1 |     2 |     5   (0)| 00:00:01 |
|   1 | TABLE ACCESS FULL| DUAL |     1 |     2 |     5   (0)| 00:00:01 |
8 rows selected.

Explain Plan of a query.

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