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tt - is a mapping table. tt structure is

table_1 | table_2 | table_3

   SELECT t1.foo1, t2.foo2, t3.foo3 FROM tt 
        JOIN table1 t1 ON tt.table_1 = t1.id
        JOIN table2 t2 ON tt.table_2 = t2.id
        JOIN table3 t3 ON tt.table_3 = t3.id
    WHERE t2.value = 'test'

Does the index has a sense and will be working for tt? The composite index is ix_table_1__table_2__table_3(table1, table2, table_3)

If do - why, if don't - why?

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    Never use evil SELECT * – Strawberry Feb 3 '20 at 23:08
  • It goes double for demos – Strawberry Feb 3 '20 at 23:17
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(I disagree with the indexes recommended in another Answer.)

SELECT * FROM tt 
    JOIN table1 t1 ON tt.table_1 = t1.id
    JOIN table2 t2 ON tt.table_2 = t2.id
    JOIN table3 t3 ON tt.table_3 = t3.id
WHERE t2.value = 'test'

When the Optimizer picks how to execute a JOIN, it usually works like this:

  1. Start with the table with the best WHERE. This would be t2. So there needs to be an INDEX starting with value.
  2. Then move on to each other table. The only next choice is tt, due to the ON clause this time.
  3. After that t1 and t3, in either order.

Now for the indexes, listed in the order above:

t2:  INDEX(value)
tt:  INDEX(table_2)

t1 and t3 are accessed via their id. So, assuming you follow the convention of id being the PK, then PRIMARY KEY(id) is already there.

Now let's switch to the new version of the query:

SELECT t1.foo1, t2.foo2, t3.foo3 FROM tt  ...

With that, we can make better indexes. A "covering" index is an INDEX that includes all the columns needed anywhere in the query. So, let's tack on any such columns:

t2:  INDEX(value, id, foo2)
tt:  INDEX(table_2, table_3, table_1)  -- table_2 must be first

Two things to note when thinking about a "covering" index:

  • When reaching into a table via the PRIMARY KEY, there is no advantage in making a "covering" index. The PK is "clustered" with the data, hence effectively 'covering'.
  • It is not 'wise' to have too many columns in an index. You are asking for all (*) columns.

More on creating optimal indexes: http://mysql.rjweb.org/doc.php/index_cookbook_mysql

Alas, EXPLAIN shows what is done with what is available; it does not should what indexes should be added, nor other tips.

Your tables do not look like traditional many:many tables. See this for specific tips on that type of table: http://mysql.rjweb.org/doc.php/index_cookbook_mysql#many_to_many_mapping_table

FOREIGN KEYs: A FK provides (1) a constraint (for data integrity) and (2) an INDEX to make checking that constraint efficient. When you create both an FK and an INDEX, MySQL may be smart enough to avoid having 2 indexes when only suffices. INDEX(table_2) is all that the FK needs, but INDEX(table_2, table_3, table_1) will "work" for that FK. Having both indexes is a waste; drop the shorter one if it is unnecessarily added.

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  • Great explanation! Thank you! – Andrii Kovalenko Feb 4 '20 at 10:24
  • @rick-james 1- Why do we need INDEX(table_2) in the first case; if the convention is in place and table_2 is indeed a FK to table2. Doesn't MySQL (InnoDB) index FKs? 2- Can you elaborate on the INDEX(table_2, table_3, table_1) in the latter case? I see the need for INDEX(value, id, foo2) but... – Hasan Can Saral Jan 17 at 18:37
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    @HasanCanSaral - See if my addition about FKs addresses your concerns. – Rick James Jan 17 at 18:56
  • Thank you. I get it (at least the first part) now. I'm specifically asking for this case. The need for composite indexes on JOINSs. I really appreciate your work and help. Thank you. – Hasan Can Saral Jan 17 at 19:06
  • @HasanCanSaral - Thanks for starting a new Question; it is sufficiently distinct from this one to warrant a separate discussion. – Rick James Jan 17 at 19:39
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If the three fields are always together then a composite makes sense.

but in your case you nees alsol one single for t2.value

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For this query:

SELECT * FROM tt 
    JOIN table1 t1 ON tt.table_1 = t1.id
    JOIN table2 t2 ON tt.table_2 = t2.id
    JOIN table3 t3 ON tt.table_3 = t3.id
WHERE t2.value = 'test'

Yes, an index on tt(table_1, table_2, table_3) could be beneficial.

You also want indexes on the following columns:

t1(id)
t2(id, value)
t3(id)

As commented by spencer7593, you might also want to try t2(value, id) instead of t2(id, value). If id is the primary key as it looks like, the former should be much more efficient as it could be used to pre-filter the records in the where clause and efficently limit the number of rows to join.

Whether indexes will or not be useful depends on lots of factors such as the relative size of your tables and the distribution of values within columns (or what the query planner assesses on this criteria). You do want to use EXPLAIN and analyze the results.

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  • Thanks for your help, EXPLAIN doesn't help me, cause it show only possible keys, but if I recreate the composite index and rearrange table_1, table_2, table_3 - I also see this as possible keys. It is the problem with EXPLAIN. EXPLAIN doesn't explain enouph what happens. – Andrii Kovalenko Feb 3 '20 at 23:01
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    for this query, i'd be tempted to go with an index on t2 that has value as the leading column (because of the equality condition) and include id to make it a covering index "... on table2 (value,id)". and then an index on tt with table_2 as the leading column "... on tt (table_2, ...)" – spencer7593 Feb 3 '20 at 23:09
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    @spencer7593: that's a good point, thank you. I added it to my answer. – GMB Feb 3 '20 at 23:12
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    Also, the tt index is sub-optimal. I elaborate in my answer. – Rick James Feb 4 '20 at 2:44
  • @GMB - In many situations, the order of the columns in an INDEX matters. (t2 and tt in this case.) – Rick James Feb 4 '20 at 16:37

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