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I have a huge table, having a much smaller number (by orders of magnitude) of distinct values on some column x.

I need to do a query like SELECT DISTINCT x FROM hugeTable, and I want to do this relatively fast.

I did something like CREATE INDEX hugeTable_by_x ON hugeTable(x), but for some reason, even though the output is small, the query execution is not as fast. The query plan shows that 97% of the time is spent on Index Scan of hugeTable_by_x, with an estimated number of rows equal to the size of the entire table. This is followed by, among other things, a Hash Match operation.

Since I created an index on column x, can I not expect this query to run very quickly?

Note that I'm using Microsoft SQL Server 2005.

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1  
Hi There, Is the Column you are Indexing a 'int' field? The idea of an idex on a table is for the system to map out where that index sits in the model, and then make it easier for it to retrieve. If this field has no relevance apart from it just being a value, it really wont make much difference, cause it still needs to scan the table. –  Robbie Tapping May 12 '11 at 6:03
    
If, say, there are 1000 rows in hugeTable with x=1, then hugeTable_by_x still has to contain 1000 references to those rows in its leaf level for x=1. And if those references are wide (what's the clustering key for hugeTable?), the index is going to be pretty large itself. –  Damien_The_Unbeliever May 12 '11 at 6:37
    
Note that I also tried SELECT x FROM hugeTable GROUP BY x, and it gives exactly the same query plan. –  polygenelubricants May 12 '11 at 6:50

6 Answers 6

This is likely not a problem of indexing, but one of data design. Normalization, to br precise. The fact that you need to query distinct values of a field, and even willing to add an index, is a strong indicator that the field should be normalized into a separate table with a (small) join key. Then the distinct values will be available immeadeatly by scanning the much smaller lookup foreign table.

Update
As a workaround, you can create an indexed view on an aggregate by the 'distinct' field. COUNT_BIG is an aggregate that is allowed in indexed views:

create view vwDistinct
with schemabinding
as select x, count_big(*)
from schema.hugetable
group by x;

create clustered index cdxDistinct on vwDistinct(x);

select x from vwDistinct with (noexpand);
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While what you say is definitely true, the case you are speaking about may be exactly WHY a SELECT DISTINCT is being done, as part of the normalization process. For example, we have a system which brings in a data feed from a set of downloaded FTP files. This data is NOT normalized at all. That is one half of the precise function of our process is to normalize the data as we load it into our system. So for example, we have a query (pseudocode) like INSERT INTO NORMALIZEDVALUELIST (NAME) SELECT DISTINCT SOMEFIELD FROM UNNORMALIZEDSOURCE WHERE <SOMEFIELD NOT IN NORMALIZEDVALUELIST(NAME)>. –  eidylon Mar 6 at 16:21

Possibly. Though it is not guaranteed - it entirely depends on the query.

I suggest reading this article by Gail Shaw (part 1 and part 2).

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When doing a SELECT DISTINCT on an indexed field, an index scan makes sense, as execution still has to scan each value in the index for the entire table (assuming no WHERE clause, as seems to be the case by your example).

Indexes usually have more of an impact on WHERE conditions, JOINS, and ORDER BY clauses.

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As per your description of the execution plan, I would believe it's the best possible execution.

The Index Scan reads the entire index as stored (not in index order), the HASH MATCH does the distinct.

There might be other ways around your problem. In SQL Server, Indexed Views come to my mind. However, that might give you a big hit for write's on that table.

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If you know the values in advance and there is an index on column x (or if each value is likely to appear quickly on a seq scan of the whole table), it is much faster to query each one individually:

select vals.x
from [values] as vals (x)
where exists (select 1 from bigtable where bigtable.x = vals.x);

Proceeding using exists() will do as many index lookups as there are valid values.

The way you've written it (which is correct if the values are not known in advance), the query engine will need to read the whole table and hash aggregate the mess to extract the values. (Which makes the index useless.)

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SQL Server does not implement any facility to seek directly to the next distinct value in an index skipping duplicates along the way.

If you have many duplicates then you may be able to use a recursive CTE to simulate this as illustrated here.

Edit: Fixed Link to point to the correct page even if you aren't logged in with my posts per page settings! Look for the post with the phrase "Super-fast DISTINCT using a recursive CTE"

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