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I am using the following query on a relatively large table (~20million rows):

FROM `table` 
    col_2 = X AND
    col_3 = Y AND
    col_4 = Z

I have a combined index on the columns col_2, col_3 and col_4 and a separate one on col_1, but the query is still multiple orders of magnitude slower than the same query without the WHERE part.

How can I use indices to improve the performance on this?

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Have you checked that the index is used at all with "Explain"? Does the index contain the columns in this exact order? –  j0nes Aug 30 '12 at 17:36
What engine are you using? MyISAM or InnoDB? –  Kermit Aug 30 '12 at 17:48
The engine is InnoDB. I also have an index on all 4 columns, does it have to be in that particular order? –  Thomas Aug 30 '12 at 17:49

2 Answers 2

up vote 1 down vote accepted

As documented under How MySQL Uses Indexes:

MySQL uses indexes for these operations:

[ deletia ]

  • To find the MIN() or MAX() value for a specific indexed column key_col. This is optimized by a preprocessor that checks whether you are using WHERE key_part_N = constant on all key parts that occur before key_col in the index. In this case, MySQL does a single key lookup for each MIN() or MAX() expression and replaces it with a constant. If all expressions are replaced with constants, the query returns at once. For example:

    SELECT MIN(key_part2),MAX(key_part2)
    FROM tbl_name WHERE key_part1=10;

Therefore, MySQL cannot use the simple index that you have defined on col_1 for finding MAX(col_1) when you are applying a filter: it must instead scan all matching rows (albeit it can do this in descending order of col_1 by sorting upon that simple index), as would be shown by the EXPLAIN output for your query.

You should use an index on (col_2, col_3, col_4, col_1).

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Thank you, this pushed the query time to the level it has without the where part –  Thomas Aug 30 '12 at 18:17

You might try by indexing col_1 in fourth position, but much depends on the structure of the table (i.e., weight of a single row). When calculating MAX on col_1, without WHERE, the information is immediately available through the index (just walk it always keeping to the left, as it were).

Adding a WHERE, it is no longer so. Your query might well be already optimized. Further improvements might (maybe) be done by knowing the type and distribution of X, Y and Z.

(A stupid example: say that col_2, col_3 and col_4 are known to be in the range (-255,+255). Then you could think of adding an extra denormalized column holding (((col_1+255)*512+(col_2+255))*512+(col_3+255)) and indexing on that and col_1. Maybe even clustering based on that index. This is worthwhile if you can find an injective function with results in a reasonably small datatype, and you often run "exact" queries on X, Y and Z, i.e. no WHERE col_2 BETWEEN X1 AND X2 stuff).

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Thank your for your answer. The queries are always "exact" in my case, because col_2-4 are parameters of a function and col_1 is a timestamp created when that function ran. What I want to know is "When was the last time the function ran with these parameters". –  Thomas Aug 30 '12 at 17:56
Well, in that case, if the parameters have small enough cardinality, you might be able to construct a single integer from them. I suspected they were integer lattice coordinates; but if they're floating point, the fourfold index is the only possibility, I'm afraid. Happy to know that it was a possibility that worked :-) –  lserni Aug 30 '12 at 20:17

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