I have a table A
with intervals (COL1, COL2)
:
CREATE TABLE A (
COL1 NUMBER(15) NOT NULL,
COL2 NUMBER(15) NOT NULL,
VAL1 ...,
VAL2 ...
);
ALTER TABLE A ADD CONSTRAINT COL1_BEFORE_COL2 CHECK (COL1 <= COL2);
The intervals are guaranteed to be "exclusive", i.e. they will never overlap. In other words, this query yields no rows:
SELECT *
FROM (
SELECT
LEAD(COL1, 1) OVER (ORDER BY COL1) NEXT,
COL2
FROM A
)
WHERE COL2 >= NEXT;
There is currently an index on (COL1, COL2)
. Now, my query is the following:
SELECT /*+FIRST_ROWS(1)*/ *
FROM A
WHERE :some_value BETWEEN COL1 AND COL2
AND ROWNUM = 1
This performs well (less than a ms for millions of records in A
) for low values of :some_value
, because they're very selective on the index. But it performs quite badly (almost a second) for high values of :some_value
because of a lower selectivity of the access predicate.
The execution plan seems good to me. As the existing index already fully covers the predicate, I get the expected INDEX RANGE SCAN
:
------------------------------------------------------
| Id | Operation | Name | E-Rows |
------------------------------------------------------
| 0 | SELECT STATEMENT | | |
|* 1 | COUNT STOPKEY | | |
| 2 | TABLE ACCESS BY INDEX ROWID| A | 1 |
|* 3 | INDEX RANGE SCAN | A_PK | |
------------------------------------------------------
Predicate Information (identified by operation id):
---------------------------------------------------
1 - filter(ROWNUM=1)
3 - access("VAL2">=:some_value AND "VAL1"<=:some_value)
filter("VAL2">=:some_value)
In 3
, it becomes obvious that the access predicate is selective only for low values of :some_value
whereas for higher values, the filter operation "kicks in" on the index.
Is there any way to generally improve this query to be fast regardless of the value of :some_value
? I can completely redesign the table if further normalisation is needed.