I'm trying to understand why there is such a big performance difference between the two. This is the query that I run on both with no changes...

SELECT fs.person1, fs.person2, ls.artist
FROM friends AS fs
LEFT JOIN likes AS ls
ON fs.person2 = ls.person
(select * from likes where fs.person1 = person and ls.artist = artist)

Both have the same data. It's one thing if it took 2-3 times as long but from 10 seconds to over 30 mins...it's perplexing.

Data in each table...

likes = 3 INT columns and 750,000 rows

friends = 2 INT columns and 150,000 rows

  • The problem is with your mysql installation for sure. – spirit Nov 11 '17 at 20:18
  • I'll try installing mysql locally to see if that helps – cpd1 Nov 11 '17 at 20:20
  • how much data do you have in each table? provide more info so someone may figure it out. – spirit Nov 11 '17 at 20:21
  • I've added info – cpd1 Nov 11 '17 at 20:23
  • 1
    @cpd1, SQL Server will not automatically create indexes (except for table spools in plans). All other things being equal, SQL Server and PostgreSQL seem to do a better job of optimizing this query without them. All relational tables should have at least primary keys and usually indexes on foreign key columns. If you care about performance. learn about indexes. Each of these databases implement indexes differently, though. – Dan Guzman Nov 11 '17 at 23:59
up vote 2 down vote accepted

I guessed at your table definition and tested with EXPLAIN to see how the optimizer would treat it.

By the way, when asking for query optimization help, always run SHOW CREATE TABLE and include the output, so we can see the table definition, your indexes, data types, constraints. Also run EXPLAIN for the query and show that.

Here's what I get for the query when I use EXPLAIN:

| id | select_type        | table | partitions | type | possible_keys | key  | key_len | ref  | rows | filtered | Extra                                              |
|  1 | PRIMARY            | fs    | NULL       | ALL  | NULL          | NULL | NULL    | NULL |    1 |   100.00 | NULL                                               |
|  1 | PRIMARY            | ls    | NULL       | ALL  | NULL          | NULL | NULL    | NULL |    1 |   100.00 | Using where; Using join buffer (Block Nested Loop) |
|  2 | DEPENDENT SUBQUERY | likes | NULL       | ALL  | NULL          | NULL | NULL    | NULL |    1 |   100.00 | Using where                                        |

A couple of red flags appear in that EXPLAIN report.

  • First, that fact that you have no indexes makes all three table references do table-scans (type: ALL). Since MySQL only does nested-loop joins, this means you query will have to do 150,000 x 750,000 x 750,000 row reads. No wonder it takes 30 minutes.

  • Second is the note about "using join buffer (Block Nested loop)" which is saying it has to evaluate the join in batches because there's no index in which to do more targeted lookups.

Create an index:

ALTER TABLE likes ADD INDEX (person, artist);

Then the EXPLAIN looks better:

| id | select_type        | table | partitions | type | possible_keys | key    | key_len | ref                            | rows | filtered | Extra                    |
|  1 | PRIMARY            | fs    | NULL       | ALL  | NULL          | NULL   | NULL    | NULL                           |    1 |   100.00 | NULL                     |
|  1 | PRIMARY            | ls    | NULL       | ref  | person        | person | 5       | test.fs.person2                |    1 |   100.00 | Using where; Using index |
|  2 | DEPENDENT SUBQUERY | likes | NULL       | ref  | person        | person | 10      | test.fs.person1,test.ls.artist |    1 |   100.00 | Using index              |

This eliminates two of the table-scans and the use of the join buffer.

But it still leaves another red flag: the DEPENDENT SUBQUERY. In general, MySQL runs dependent subqueries inefficiently, executing them once for each row of the outer query. So you're going to be executing the subquery thousands of times, even with the index lookup to help.

I use LEFT OUTER JOIN to implement anti-joins in MySQL. There's a thorough explanation here: https://explainextended.com/2009/09/18/not-in-vs-not-exists-vs-left-join-is-null-mysql/

SELECT fs.person1, fs.person2, ls1.artist
FROM friends AS fs
JOIN likes AS ls1
  ON fs.person2 = ls1.person
  ON fs.person1 = ls2.person AND ls1.artist = ls2.artist
WHERE ls2.person IS NULL;

Here's the EXPLAIN:

| id | select_type | table | partitions | type | possible_keys | key    | key_len | ref                             | rows | filtered | Extra                    |
|  1 | SIMPLE      | fs    | NULL       | ALL  | NULL          | NULL   | NULL    | NULL                            |    1 |   100.00 | Using where              |
|  1 | SIMPLE      | ls1   | NULL       | ref  | person        | person | 5       | test.fs.person2                 |    1 |   100.00 | Using index              |
|  1 | SIMPLE      | ls2   | NULL       | ref  | person        | person | 10      | test.fs.person1,test.ls1.artist |    1 |   100.00 | Using where; Using index |

No more subquery at all, and the anti-join is resolved using a simple join with indexed lookups.

This should run much faster, assuming your indexes fit in the memory allocated for the buffer pool.

And any action takes way too much time - like alter table primary key or creating index.

This makes me think you have not done any configuration of MySQL with respect to memory allocation. You probably have the default buffer pool size (128MB). This is something you should set relative to the available memory on your system. See https://www.percona.com/blog/2015/06/02/80-ram-tune-innodb_buffer_pool_size/

You may also like to read https://www.percona.com/blog/2016/10/12/mysql-5-7-performance-tuning-immediately-after-installation/

From what I've read, Microsoft SQL Server automatically resizes its buffer pool and other memory from time to time, so it's not necessary to tune it manually.

Learning to tune configuration options is necessary on MySQL. They choose default tuning settings to help ensure MySQL can run on modest servers, because it wouldn't be very friendly for it to allocate 100GB of your server RAM by default, if you don't have that much physical memory, because it would cause swapping or crashing.

There has been some talk of making MySQL tune itself dynamically, but it's a very complex task. Maybe you don't want MySQL to use all the memory available on your system, because you run other processes too. It's hard to guess at the right automatic tuning values for everyone's server, and doing so might encourage people to avoid learning how to allocate and monitor their own system resources.

  • Thank you very much for the detailed post! I'm actually used to working on Sybase IQ and SQL Server so I was a bit confused on MySQL. Only reason I'm using it was because it was a suggested database for a project. I didn't configure anything in MySQL when I installed locally besides timeouts as I noticed fairly quickly the 30 second time limit. The remote instance isn't fairing any better either, though. – cpd1 Nov 12 '17 at 1:27
  • As for indexes, you're right. The query executed in 30 seconds after adding them. SQL Server was still faster but MySQL did finish in reasonable amount of time after adding the indexes. Just seemed odd that neither Postgres or SQL Server needed them. – cpd1 Nov 12 '17 at 1:28
  • Every database has a learning curve if you want to optimize any given query. Some databases implement automatic optimizations for certain types of queries. Good luck! I suggest you subscribe to the Percona blog, it's the best resource of expert advice on MySQL. – Bill Karwin Nov 12 '17 at 2:34

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