I have a partitioned table like so:
create table demo (
ID NUMBER(22) not null,
TS TIMESTAMP not null,
KEY VARCHAR2(5) not null,
...lots more columns...
)
The partition is on the TS
column (one partition per year).
Since I search a lot via the timestamp, I created a combined index:
create index demo.x1 on demo (ts, key);
The query looks like this:
select *
from demo t
where t.TS = to_timestamp('2009-06-30 07:47:57', 'YYYY-MM-DD HH24:MI:SS')
I also tried to add and t.KEY = '00101'
but that doesn't help.
But EXPLAIN PLAN
says that TABLE ACCESS
and FULL
:
# Operation Options Object Mode Cost Bytes Cardinality
0 SELECT STATEMENT ALL_ROWS 583804 287145 2127
1 PARTITION RANGE ALL 583804 287145 2127
2 TABLE ACCESS FULL HEADER ANALYZED 583804 287145 2127
No mention of the index. What could be wrong?
[EDIT] For some reason, Oracle completely miscalculated the cost for the operation. I have 112 million rows in that table. The cost for a ful开发者_如何学编程l scan of a single partition should be 20 million, not 600'000. That's why it even ignores optimizer hints.
[EDIT2] During my tests, I ran over this puzzling result. When I run this select
:
select tx_ts
from kt.header
where tx_ts = to_timestamp('2009-06-30 07:47:57', 'YYYY-MM-DD HH24:MI:SS')
I get this EXPLAIN PLAN:
0 SELECT STATEMENT ALL_ROWS 152 15616 1952
1 PARTITION RANGE ALL 152 15616 1952
2 INDEX FAST FULL SCAN HEADERX2 ANALYZED 152 15616 1952
So when I restrict myself to the indexed column as the result of the select
, Oracle decides to use the index. When I want to get all columns, I have to wait for a full table scan. What's going on here?
[EDIT2] Found it; see my answer below.
Okay, it was a mistake on my part: The column had the type DATE
, not TIMESTAMP
. Since I used to_timestamp()
, Oracle saw no way to use the index.
I'm not really an expert on partitioning, but I think what has happened here is that you have created a global index -- a single index that covers rows in all of the partitions. Therefore, the optimizer has to choose between two mutually exclusive access paths: (A) an index range scan, or (B) partition pruning. I believe the PARTITION RANGE operation indicates that it has chosen B.
Updating statistics, as others have suggested, may change the behavior. When you drop and recreate the index, you discard any statistics that existed for the index.
Creating the index as UNIQUE, if the timestamp and key uniquely identify a row, would be a good idea and might change the behavior as well.
However, I think the real "fix" is that you should instead create local indexes -- a separate index on each partition. This should enable the optimizer to do partition pruning followed by an index lookup. Honestly, I'm not sure what the exact syntax is to do this. Maybe you just create the index on each partition explicitly using the individual partition names.
If everything else fails, you might try an optimizer hint:
select /*+ index(demo.demo demo.x1) */ *
from demo t
where t.TS = to_timestamp('2009-06-30 07:47:57', 'YYYY-MM-DD HH24:MI:SS')
Are your stats up to date? Invalid stats may mean that oracle believes a full table scan is faster than using the index. Are you using any hints in your query that might be telling oracle to do a full scan?
Can you supply us with the full query and explain plan results?
Edit: Aaron, you can update the stats using "dbms_stats.gather_schema_stats" or "dbms_stats.gather_table_stats" commands. See here for more information on the commands. This will update all the relevant stats for the schema or table specified. Oracle's Cost Based Optimiser will use the statistics to determine which execution plan to choose. It never uses the actual table sizes. You'll need to re-update your stats when the size of your table changes significantly ( +/- 10% or so)
Another thing. When you use a compound index, you need to specify all the columns used in the index in your query for the optimizer to consider the index (and I think you need to specify them in the same order as well, though I could be wrong about that, it's been a while since I looked at this stuff)
There may just be a typo in your transcription of the "CREATE INDEX..." statement that you posted, but are you sure you actually have created the index?
To give us some first-pass idea of the statistics, use these queries:
select table_name, num_rows
from user_tables
where table_name = 'DEMO';
select table_name, num_rows
from user_tab_partitions
where table_name = 'DEMO';
select index_name, num_rows from user_indexes
where table_name in
(select table_name
from user_tables where table_name = 'DEMO');
Also, exactly how are you generating the EXPLAIN PLAN? Do you have access to the database host to retrieve a trace file if you enable tracing?
[edit] As I commented, it would be good to see the trace of an actual execution of the query. Since you've indicated you have access to the db host filesystems, run a SQL script that (in the same session) issues the following:
alter session set sql_trace=true;
select /* THIS IS THE TRACE */
*
from demo t
where t.TS = to_timestamp('2009-06-30 07:47:57', 'YYYY-MM-DD HH24:MI:SS');
exit
After the script exits, find out where the trace file directory is by this query:
select value from v$parameter where name = 'user_dump_dest';
Use whatever searching tool is available to you to find the file that includes the string "THIS IS THE TRACE"
Process/profile the trace file by issuing the OS command tkprof traceFileName.trc tkprof.out
Examine this file - you'll see some overhead information, but there will be a section that details the actual execution plan and statistics for the query. If you see the same results in this information then the next step is to add another statement (after the first "alter session") that will dump information on why the Oracle CBO is ignoring the index:
ALTER SESSION SET EVENTS='10053 trace name context forever, level 1';
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