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This question skirts around what I'm wondering, but the answers don't exactly address it.

It would seem that in general '=' is faster than 'like' when using wildcards. This appears to be the conventional wisdom. However, lets suppose I have a column containing a limited number of different fixed, hardcoded, varchar identifiers, and I want to select all rows matching one of them:

select * from table where value like 'abc%'

and

select * from table where value = 'abcdefghijklmn'

'Like' should only need to test the first three chars to find a match, whereas '=' must compare the entire string. In this case it would seem to me that 'like' would have an advantage, all other things being equal.

This is intended as a general, academic question, and so should not matter which DB, but it arose using SQL Server 2005.

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12  
One major thing you left out is whether or not value is indexed. If it is, then = is a simple lookup with no table scan necessary and will beat the pants off of any LIKE statement that you throw at it. –  Daniel DiPaolo May 26 '11 at 16:59
4  
@Daniel I think that's incorrect. A LIKE with a wildcard at the end is SARGable and thus will perform a range seek on an index, no table scan in sight. That range seek can compete quite handily with an = statement, and in many cases (like if all the satisfying rows are on one page, a not unlikely condition) could be exactly the same performance, entailing the same number of reads. –  ErikE May 26 '11 at 17:47
    
My "all other things being equal" was intended to cover the "indexed or not" issue, but there seems to be at least some controversy over how much difference that would make, per my comments on the other answers. –  mickeyf May 26 '11 at 18:06
    
See my answer. I initially tested unindexed and performance is identical (both table scans were exactly the same). I assumed for my test scenario that it would be indexed, otherwise why would you even care about performance? –  JNK May 26 '11 at 18:09
2  
All the talk of 'like' in this question and the answers makes us sound like a bunch of high school girls. Like, totally. –  JulianR May 26 '11 at 23:34

5 Answers 5

up vote 14 down vote accepted

See http://myitforum.com/cs2/blogs/jnelson/archive/2007/11/16/108354.aspx

Quote from there:

the rules for index usage with LIKE are loosely like this:

  • If your filter criteria uses equals = and the field is indexed, then most likely it will use an INDEX/CLUSTERED INDEX SEEK

  • If your filter criteria uses LIKE, with no wildcards (like if you had a parameter in a web report that COULD have a % but you instead use the full string), it is about as likely as #1 to use the index. The increased cost is almost nothing.

  • If your filter criteria uses LIKE, but with a wildcard at the beginning (as in Name0 LIKE '%UTER') it's much less likely to use the index, but it still may at least perform an INDEX SCAN on a full or partial range of the index.

  • HOWEVER, if your filter criteria uses LIKE, but starts with a STRING FIRST and has wildcards somewhere AFTER that (as in Name0 LIKE 'COMP%ER'), then SQL may just use an INDEX SEEK to quickly find rows that have the same first starting characters, and then look through those rows for an exact match.

(Also keep in mind, the SQL engine still might not use an index the way you're expecting, depending on what else is going on in your query and what tables you're joining to. The SQL engine reserves the right to rewrite your query a little to get the data in a way that it thinks is most efficient and that may include an INDEX SCAN instead of an INDEX SEEK)

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2  
-1 at least paraphrase the article. Even a quote block would be sufficient. –  Byron Whitlock May 26 '11 at 17:01
    
+1 for the numbers in that article, proof that the "starts with" pattern is heavily optimized. –  Blindy May 26 '11 at 17:04
    
Fair point - Key points added. –  BonyT May 26 '11 at 17:08
    
Thanks all for all the responses, not to mention the testing. But since I can only 'accept' one of them it's going to be this one since the article pointed to has the best overall coverage of how this situation is likely to be handled. –  mickeyf May 30 '11 at 13:51

It's a measureable difference.

Run the following:

Create Table #TempTester (id int, col1 varchar(20), value varchar(20))
go

INSERT INTO #TempTester (id, col1, value)
VALUES
(1, 'this is #1', 'abcdefghij')
GO

INSERT INTO #TempTester (id, col1, value)
VALUES
(2, 'this is #2', 'foob'),
(3, 'this is #3', 'abdefghic'),
(4, 'this is #4', 'other'),
(5, 'this is #5', 'zyx'),
(6, 'this is #6', 'zyx'),
(7, 'this is #7', 'zyx'),
(8, 'this is #8', 'klm'),
(9, 'this is #9', 'klm'),
(10, 'this is #10', 'zyx')
GO 10000

CREATE CLUSTERED INDEX ixId ON #TempTester(id)CREATE CLUSTERED INDEX ixId ON #TempTester(id)

CREATE NONCLUSTERED INDEX ixTesting ON #TempTester(value)

Then:

SET SHOWPLAN_XML ON

Then:

SELECT * FROM #TempTester WHERE value LIKE 'abc%'

SELECT * FROM #TempTester WHERE value = 'abcdefghij'

The resulting execution plan shows you that the cost of the first operation, the LIKE comparison, is about 10 times more expensive than the = comparison.

If you can use an = comparison, please do so.

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1  
+1 for actually testing it. Just looking at the showplan may not tell the whole story though. I'm going to do some of my own testing and will let everyone know if I find anything unexpected. –  Tom H. May 26 '11 at 18:23
    
Tom - true, but it gave me enough of an indication that the two were NOT processed the same behind the scenes. –  JNK May 26 '11 at 18:24
1  
The costs shown in the execution plan are wrong. They do not reflect actual performance. In the first plan they are based on an estimated rowcount of 19.95 so SQL Server costs in an additional 19 key lookups that never materialize in actuality (Even in the actual execution plan the costs shown are based on the Estimated sub tree cost) –  Martin Smith May 26 '11 at 18:39
    
I've just done your test as well as one with about 1M rows and in both cases performance and the query plans were identical. This is on SQL 2008 as I don't have 2005 on this machine. –  Tom H. May 26 '11 at 18:41
1  
@JNK - just tried it - there's a negligible difference, the disparity is the same, however. 327ms for LIKE, 203ms for =. I expect if I ran more tests and took accurate averages, there'd be no real difference between #temp and real table. –  Will A May 26 '11 at 19:50

You should also keep in mind that when using like, some sql flavors will ignore indexes, and that will kill performance. This is especially true if you don't use the "starts with" pattern like your example.

You should really look at the execution plan for the query and see what it's doing, guess as little as possible.

This being said, the "starts with" pattern can and is optimized in sql server. It will use the table index. EF 4.0 switched to like for StartsWith for this very reason.

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+1 great answer. –  Byron Whitlock May 26 '11 at 17:01
2  
No relational database worth its salt will ignore an index when the like pattern is part of the query and the wildcard is trailing. That may be a different story if you're binding the value and the database supports binding separate from query preparation. –  Dave W. Smith May 26 '11 at 17:04
    
That's what my gut is telling me too, but I only have hands-on experience with sql server in this regard, so I focused on it specifically. –  Blindy May 26 '11 at 17:08

If value is unindexed, both result in a table-scan. The performance difference in this scenario will be negligible.

If value is indexed, as Daniel points out in his comment, the = will result in an index lookup which is O(log N) performance. The LIKE will (most likely - depending on how selective it is) result in a partial scan of the index >= 'abc' and < 'abd' which will require more effort than the =.

Note that I'm talking SQL Server here - not all DBMSs will be nice with LIKE.

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I don't think you know how binary search works. Both the = case and the like '...%' case behave the same if sql recognizes the pattern (and it does), because in both cases the sub-trees are chosen based on comparison relations. –  Blindy May 26 '11 at 17:07
    
Oh, I do. LIKE will most likely behave worse although it'll still be O(log N) if the selectivity is high enough - O(log N) to find out where to start the partial scan from, then a number of forward reads through the index until the end point 'abd' is reached. –  Will A May 26 '11 at 17:09
    
Yes but the OP's example assumes there is only one value in that range, so with that in mind, the comparisons will be identical. –  Blindy May 26 '11 at 17:14
    
Valid point - it's not completely clear that this is what the OP was saying, but I think it's more likely the case than not. In that case, the performance will be pretty much identical. –  Will A May 26 '11 at 17:17
    
The range seek of a LIKE will likely compete quite handily with an = statement, and in many cases (like if all the satisfying rows are on one page, a not unlikely condition) could be exactly the same performance, entailing the same number of reads. I think saying "will require more effort" is a mistaken blanket statement. –  ErikE May 26 '11 at 17:48

You are asking the wrong question. In databases is not the operator performance that matters, is always the SARGability of the expression, and the coverability of the overall query. Performance of the operator itself is largely irrelevant.

So, how do LIKE and = compare in terms of SARGability? LIKE, when used with an expression that does not start with a constant (eg. when used LIKE '%something') is by definition non-SARGabale. But does that make = or LIKE 'something%' SARGable? No. As with any question about SQL performance the answer does not lie with the query of the text, but with the schema deployed. These expression may be SARGable if an index exists to satisfy them.

So, truth be told, there are small differences between = and LIKE. But asking whether one operator or other operator is 'faster' in SQL is like asking 'What goes faster, a red car or a blue car?'. You should eb asking questions about the engine size and vechicle weight, not about the color... To approach questions about optimizing relational tables, the place to look is your indexes and your expressions in the WHERE clause (and other clauses, but it usually starts with the WHERE).

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