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I have this table:

CREATE TABLE `search_engine_rankings` (
  `keyword_id` int(11) DEFAULT NULL,
  `search_engine_id` int(11) DEFAULT NULL,
  `total_results` int(11) DEFAULT NULL,
  `rank` int(11) DEFAULT NULL,
  `url` varchar(255) DEFAULT NULL,
  `created_at` datetime DEFAULT NULL,
  `updated_at` datetime DEFAULT NULL,
  `indexed_at` date DEFAULT NULL,
  PRIMARY KEY (`id`),
  UNIQUE KEY `unique_ranking` (`keyword_id`,`search_engine_id`,`rank`,`indexed_at`),
  KEY `search_engine_rankings_search_engine_id_fk` (`search_engine_id`),
  CONSTRAINT `search_engine_rankings_keyword_id_fk` FOREIGN KEY (`keyword_id`) REFERENCES `keywords` (`id`) ON DELETE CASCADE,
  CONSTRAINT `search_engine_rankings_search_engine_id_fk` FOREIGN KEY (`search_engine_id`) REFERENCES `search_engines` (`id`) ON DELETE CASCADE

It has about 250M rows in production.

When I do:

select id,
  from search_engine_rankings 
 where keyword_id = 19000 
   and search_engine_id = 11 
   and indexed_at = "2010-12-03";

...it runs very quickly.

When I add the url column (VARCHAR):

select id,
  from search_engine_rankings 
 where keyword_id = 19 
   and search_engine_id = 11 
   and indexed_at = "2010-12-03";

...it runs very slowly.

Any ideas?

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Depends on data if that's not a typo on the keyword_id (19000 vs 19) –  OMG Ponies Dec 5 '10 at 0:39
Yes, it is a typo. –  Scott Dec 5 '10 at 0:42

2 Answers 2

up vote 1 down vote accepted

The first query can be satisfied by the index alone -- no need to read the base table to obtain the values in the Select clause. The second statement requires reads of the base table because the URL column is not part of the index.

 UNIQUE KEY `unique_ranking` (`keyword_id`,`search_engine_id`,`rank`,`indexed_at`),

The rows in tbe base table are not in the same physical order as the rows in the index, and so the read of the base table can involve considerable disk-thrashing.

You can think of it as a kind of proof of optimization -- on the first query the disk-thrashing is avoided because the engine is smart enough to consult the index for the values requested in the select clause; it will already have read that index into RAM for the where clause, so it takes advantage of that fact.

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...leading to possible solution of adding the URL to the unique_ranking key, or creating a separate index with the relevant parts. This'll lead to slower inserts/updates/deleted, however. –  Will A Dec 5 '10 at 0:51
Maybe not. Adding the URL column could bloat the index, and you might end up with an overall performance loss, especially when you factor in time-to-update. I see you address that point. Maybe we're typing at the same time. –  Tim Dec 5 '10 at 0:53
@Scott - might be, or it might cause you problems. ontrack's observations below make sense too. –  Will A Dec 5 '10 at 0:53
OK, this all gives me a lot of good things to consider, thanks all. –  Scott Dec 5 '10 at 2:34

Additionally to Tim's answer. An index in Mysql can only be used left-to-right. Which means it can use columns of your index in your WHERE clause only up to the point you use them.

Currently, your UNIQUE index is keyword_id,search_engine_id,rank,indexed_at. This will be able to filter the columns keyword_id and search_engine_id, still needing to scan over the remaining rows to filter for indexed_at

But if you change it to: keyword_id,search_engine_id,indexed_at,rank (just the order). This will be able to filter the columns keyword_id,search_engine_id and indexed_at

I believe it will be able to fully use that index to read the appropriate part of your table.

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This sounds like the first thing that I should try and see what happens. Thanks! –  Scott Dec 5 '10 at 2:34

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