- 7.2 Optimizing SELECT and Other Statements
- 7.2.1 Optimizing Queries with EXPLAIN
- 7.2.2 Estimating Query Performance
- 7.2.3 Speed of SELECT Queries
- 7.2.4 WHERE Clause Optimization
- 7.2.5 Range Optimization
- 7.2.6 Index Merge Optimization
- 7.2.7 Condition Pushdown Optimization
- 7.2.8 Index Condition Pushdown Optimization
- 7.2.9 IS NULL Optimization
- 7.2.10 LEFT JOIN and RIGHT JOIN Optimization
- 7.2.11 Nested-Loop Join Algorithms
- 7.2.12 Nested Join Optimization
- 7.2.13 Outer Join Simplification
- 7.2.14 ORDER BY Optimization
- 7.2.15 GROUP BY Optimization
- 7.2.16 DISTINCT Optimization
- 7.2.17 Optimizing IN/=ANY Subqueries
- 7.2.18 LIMIT Optimization
- 7.2.19 Using optimizer_switch to Control the Optimizer
- 7.2.20 How to Avoid Table Scans
- 7.2.21 INFORMATION_SCHEMA Optimization
- 7.2.22 Speed of INSERT Statements
- 7.2.23 Speed of UPDATE Statements
- 7.2.24 Speed of DELETE Statements
- 7.2.25 Other Optimization Tips
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The Index Merge method is used to
retrieve rows with several
range scans and to merge
their results into one. The merge can produce unions,
intersections, or unions-of-intersections of its underlying
scans. This access method merges index scans from a single
table; it does not merge scans across multiple tables.
In EXPLAIN output, the Index
Merge method appears as
index_merge in the
type column. In this case, the
key column contains a list of indexes used,
and key_len contains a list of the longest
key parts for those indexes.
Examples:
SELECT * FROMtbl_nameWHEREkey1= 10 ORkey2= 20; SELECT * FROMtbl_nameWHERE (key1= 10 ORkey2= 20) ANDnon_key=30; SELECT * FROM t1, t2 WHERE (t1.key1IN (1,2) OR t1.key2LIKE 'value%') AND t2.key1=t1.some_col; SELECT * FROM t1, t2 WHERE t1.key1=1 AND (t2.key1=t1.some_colOR t2.key2=t1.some_col2);
The Index Merge method has several access algorithms (seen in
the Extra field of
EXPLAIN output):
Using intersect(...)Using union(...)Using sort_union(...)
The following sections describe these methods in greater detail.
Note
The Index Merge optimization algorithm has the following known deficiencies:
-
If a range scan is possible on some key, the optimizer will not consider using Index Merge Union or Index Merge Sort-Union algorithms. For example, consider this query:
SELECT * FROM t1 WHERE (goodkey1 < 10 OR goodkey2 < 20) AND badkey < 30;
For this query, two plans are possible:
An Index Merge scan using the
(goodkey1 < 10 OR goodkey2 < 20)condition.A range scan using the
badkey < 30condition.
However, the optimizer considers only the second plan.
-
If your query has a complex
WHEREclause with deepAND/ORnesting and MySQL doesn't choose the optimal plan, try distributing terms using the following identity laws:(
xANDy) ORz= (xORz) AND (yORz) (xORy) ANDz= (xANDz) OR (yANDz) Index Merge is not applicable to full-text indexes. We plan to extend it to cover these in a future MySQL release.
The choice between different possible variants of the Index Merge access method and other access methods is based on cost estimates of various available options.
User Comments
Beware of having low selectivity indexes on your table. A complex AND/OR WHERE clause will surely make your query very very slow if Index_Merge optimization is being used with an intersect() algorithm.
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