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For example:

Given columns A,B,C,D,

IX_A is an index on 'A'

IX_AB is a covering index on 'AB'

IX_A can be safely removed, for it is redundant: IX_AB will be used in its place. I want to know if this generalizes:

If I have:

IX_AB
IX_ABC
IX_ABCD

and so forth,

Can the lesser indices still be safely removed? That is, does IX_ABC make IX_AB redundant, and does IX_ABCD make both IX_AB and IX_ABC redundant?

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5 Answers 5

up vote 3 down vote accepted

In general -- and this varies from server to server -- a covering index will cover smaller-selections of the index.

So if you have an index that covers a, b, c, that usually automatically gives you an index that covers a, and a, b.

You are not guaranteed to have, for example, a covering index of b, c.

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You certainly won't have a covering index of BC. But +1 - any DBMS that didn't use AB_IDX for looking up A would be pretty poor. –  paxdiablo Sep 23 '09 at 22:18
    
I seem to recall some smaller DBMS that granted B,C on an A,B,C covering index. It's certainly not the case SQL Server or Oracle, however. –  Randolpho Sep 23 '09 at 22:27
    
I think you may be talking about index seeks vs index scans. An index seek will be performed if the leading columns are used in the query. An index scan (which goes straight to the leaves) will be used if the columns are in the index, but not the leading columns. –  Logicalmind Sep 23 '09 at 22:29

Yes, for the most part.

However, IX_ABCD isn't terribly helpful as a replacement for, say, IX_BCD.

There is a caveat, however: indexes still may require disk reads, so if C and D explode the size of the index, there will be some inefficiency in looking up A,B in IX_ABCD that wouldn't occur when looking it up in IX_AB.

However, that difference is likely outweighed by the additional performance hit of maintaining IX_AB separately.

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Re "that difference is likely outweighed": that depends on your read/write ratio. At an extreme case, a static table has no performance impact from having many indexes. But +1 for the disk reads - that's a good point. –  paxdiablo Sep 23 '09 at 22:20

The important thing is the leading columns in the index. If you have the index IX_ABCD the following queries will use the index:

select * from table where A = 1

select * from table where A = 1 and B = 1

select * from table where A = 1 and B = 1 and C = 1

However, the following will most likely not uses the index (at least not how you intended):

select * from table where B = 1

select * from table where C = 1

select * from table where B = 1 and C = 1

The important thing is that the leading columns are used. Therefore the order of the columns when the index is created does matter.

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Not necessarily. While is true that an index on (A, B, C) can be used for a filtering predicate on A or an ordering request on A or a join condition on A, that does not necessarily mean that the index (A) alone is useless. If the index on (A, B, C) is considerably wider than (A), then a range scan on A alone will save significant I/O because it would have to read fewer pages (narrower index).

ut I admint that this would be the exception rather than the rule. In general is safe to remove an index on A if another one on (A, B) exists. Note that an index on (A,B) does not satisfy any filtering on B so, is safe to remove only if the leftmost column(s) are the same. Some databases have 'skip-scan' operators that can use an index on (A,B) for looking up B, but that is a very narrow border case.

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Always best not to assume anything about database engine internals and actually check the actual query plans being used.

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