WHERE UPPER(ps.customerpostcode) like 'MK3%'
is not continuous, that is you cannot preserve a single ordered range for it.
So there are two ways to execute this query:
- Order by number then filter on code.
- Filter on code then order by number.
1 is able to user an index on number which gives you linear execution time (top
100 rows would be selected
2 times faster than top
200, provided that number and code do not correlate).
2 is able to use a range scan for coarse filtering on code (the range condition would be something like
code >= 'MK3' AND code < 'MK4'), however, it requires a sort since the order of number cannot be preserved in a composite index.
The sort time depends on the number of top rows you are selecting too, but this dependency, unlike that for method
1, is not linear (you always need at least one range scan).
However, the filtering condition in method
2 is selective enough for the
RANGE SCAN with a subsequent sort to be more efficient than a
FULL SCAN for the whole table.
This means that there is a tipping point: for this condition:
ROWNUM <= X there exists a value of
X so that method
2 becomes more efficient when this value is exceeded.
If you are always searching on at least
3 first symbols, you can create an index like this:
SUBSTRING(UPPER(customerpostcode), 1, 3), proposalnumber
and use it in this query:
FROM cr_proposalsearch ps
WHERE SUBSTRING(UPPER(customerpostcode, 1, 3)) = SUBSTRING(UPPER(:searchquery), 1, 3)
AND UPPER(ps.customerpostcode) LIKE UPPER(:searchquery) || '%'
WHERE rownum <= 200
This way, the number order will be preserved separately for each set of codes sharing first
3 letters which will give you a more dense index scan.