Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

UPDATE (based on everyone's responses):

I'm thinking of changing my structure so that I have a new table called prx_tags_sportsitems. I will be removing prx_lists entirely. prx_tags_sportsitems will act as a reference of ID's table to replace the prx_lists.ListString which used to be storing the ID's of tags belonging to each prx_sportsitem.

The new relation will be like so:

  • prx_tags_sportsitems.TagID <--> prx_tags.ID
  • prx_sportsitems.ID <--> prx_tags_sportsitems.OwnerID

prx_tags will contain the TagName. This is so I can still maintain each "tag" as a separate unique entity.

My new query for finding all sportsitems with the tag "aerobic" will become something similar to as follows:

SELECT prx_sportsitems.* FROM prx_sportsitems, prx_tags_sportsitems
WHERE prx_tags_sportsitems.OwnerID = prx_sportsitems.ID 
AND prx_tags_sportsitems.TagID = (SELECT ID FROM prx_tags WHERE TagName = 'aerobic')
ORDER BY prx_sportsitems.DateAdded DESC LIMIT 0,30;

Or perhaps I can do something with the "IN" clause, but I'm unsure about that just yet.

Before I go ahead with this huge modification to my scripts, does everyone approve? comments? Many thanks!

ORIGINAL POST:

When it comes to MYSQL queries, I'm rather novice. When I originally designed my database I did something, rather silly, because it was the only solution I could find. Now I'm finding it appears to be causing too much stress of my MYSQL server since it takes 0.2 seconds to perform each of these queries where I believe it could be more like 0.02 seconds if it was a better query (or table design if it comes to it!). I want to avoid needing to rebuild my entire site structure since it's deeply designed the way it currently is, so I'm hoping there's a faster mysql query possible.

I have three tables in my database:

  1. Sports Items Table
  2. Tags Table
  3. Lists Table

Each sports item has multiple tag names (categories) assigned to them. Each "tag" is stored as a separate result in prx_tags. I create a "list" in prx_lists for the sports item in prx_sportsitems and link them through prx_lists.OwnerID which links to prx_sportsitems.ID

This is my current query (which finds all sports items which have the tag 'aerobic'):

SELECT  prx_sportsitems.* 
FROM    prx_sportsitems, prx_lists 
WHERE   prx_lists.ListString LIKE (CONCAT('%',(SELECT prx_tags.ID 
                                               FROM prx_tags
                                               WHERE prx_tags.TagName = 'aerobic'
                                               limit 0,1),'#%')) 
 AND    prx_lists.ListType = 'Tags-SportsItems' 
 AND    prx_lists.OwnerID = prx_sportsitems.ID
 ORDER BY prx_sportsitems.DateAdded
 DESC LIMIT 0,30

To help clarify more, the list that contains all of the tag ids is inside a single field called ListString and I structure it like so: " #1 #2 #3 #4 #5" ...and from that, the above query "concats" the prx_tags.ID which tagname is 'aerobic'.

My thoughts are that, there probably isn't a faster query existing and that I need to simply accept I need to do something simpler, such as putting all the Tags in a list, directly inside prx_sportsitems in a new field called "TagsList" and then I can simply run a query which does Select * from prx_sportsitems Where TagsList LIKE '%aerobic%' - however, I want to avoid needing to redesign my entire site. I'm really regretting not looking into optimization beforehand :(

share|improve this question
    
Wait . . . You're concatenating the ID numbers for tags, and storing all those id numbers in a single string in prx_lists.ListString? Is that right? –  Mike Sherrill 'Cat Recall' Feb 12 '11 at 17:03
    
Yes, that's correct. –  Joe Feb 12 '11 at 17:44
    
PS - still waiting for someone to review my update? thanks –  Joe Feb 13 '11 at 3:31
    
This is a big improvement on the original query. –  dbyrne Feb 13 '11 at 16:44

4 Answers 4

  1. Don't make any changes without looking at the execution plan. (And post that here, too, by editing your original question.)
  2. The way your LIKE clause is constructed, MySQL can't use an index.
  3. The LIKE clause is a symptom. Your table structure is more likely the problem.

You'll probably get at least one order of magnitude improvement by building sane tables.

I'm really regretting not looking into optimization beforehand

That's not what caused your problem. Being ignorant of the fundamentals of database design caused your problem. (That's an observation, not a criticism. You can fix ignorance. You can't fix stupid.)

Later:

Post your existing table structure and your proposed changes. You'll be a lot happier with our ability to predict what your code will do than with our ability to predict what your description of a piece of your code will do.

share|improve this answer
    
Unfortunately it is my stupid that caused the problem since I designed everything while I was learning php and mysql. I just did everything trial and error. This is part of my trial and error :P but yeah it is a costly part! Thanks for your steps. I am going to overlook some other places I may have used LIKE clause, although I do think the LIKE clause has its use for things eg. a search engine. I'll be writing up a plan and hopefully post it here too, but since I have other priorities and the scope of the overall changes needed, unfortunately that may be quite a while! –  Joe Feb 12 '11 at 18:03
    
Actually I've written out my plan as you suggested by editing my question. If you could review it I would appreciate it. Thanks. –  Joe Feb 12 '11 at 18:34
    
Your ignorance, not your stupidity. There's nothing inherently wrong with the LIKE operator. It's just that it's easy to write LIKE predicates that make indexes useless. –  Mike Sherrill 'Cat Recall' Feb 12 '11 at 18:40
    
Thanks. Catcall, could you review my update? I'd appreciate it :) –  Joe Feb 13 '11 at 3:32
    
@Joe: Post the structures. dev.mysql.com/doc/refman/5.1/en/mysqldump.html –  Mike Sherrill 'Cat Recall' Feb 13 '11 at 4:20

the list that contains all of the tag ids is inside a single field called ListString and I structure it like so: " #1 #2 #3 #4 #5" ...and from that, the above query "concats" the prx_tags.ID which tagname is 'aerobic'.

Not only is that bad, storing denormalized data, but the separator character is uncommon.

Interim Improvement

The quickest way to improve things is to change the separator character you're currently using ("#") to a comma:

UPDATE PRX_LISTS
   SET liststring = REPLACE(liststring, '#', ',')

Then, you can use MySQL's FIND_IN_SET function:

  SELECT si.* 
    FROM PRX_SPORTSITEMS si
    JOIN PRX_LISTS l ON l.ownerid = si.id
    JOIN PRX_TAGS t ON FIND_IN_SET(t.id, l.liststring) > 0 
   WHERE t.tagname = 'aerobic'
     AND l.listtype = 'Tags-SportsItems' 
ORDER BY si.DateAdded DESC 
   LIMIT 0, 30

Long Term Solution

As you've experienced, searching for specifics in denormalized data does not perform well, and makes queries overly complicated. You need to change the PRX_LISTS table so one row contains a unique combination of the SPORTSITEM.ownerid and PRX_TAGS.id, and whatever other columns you might need. I'd recommend renaming as well - lists of what, exactly? The name is too generic:

CREATE TABLE SPORTSITEM_TAGS_XREF (
   sportsitem_ownerid INT,
   tag_id INT,
   PRIMARY KEY (sportsitem_ownerid INT, tag_id)
)
share|improve this answer
    
+1 for a nice interim solution –  dbyrne Feb 12 '11 at 17:18
    
Thank you for the interim solution. I'll possibly look into implementing the long term solutions you have all kindly written out for me. By the way, I named it "lists" but I also assigned each row a "ListType" value. prx_lists was meant to store complicated arrays of values without needing thousands of new records for one individual owner (OwnerID). It worked and seemed more efficient to a learner like me at the time, but that was a major oversight. –  Joe Feb 12 '11 at 17:58

Whenever I am writing a query, and think I need to use LIKE, an alarm goes off in my head that maybe there is a better design. This is certainly the case here.

You need to redesign the prx_lists tables. From what you've said, its hard to say what the exact schema should be, but here is my best guess:

prx_lists should have three columns: OwnerID, ListType, and TagName. Then you would have one row for each tag an OwnerID has. Your above query would now look something like this:

SELECT prx_sportsitems.*
FROM prx_sportsitems, prx_lists
where prx_lists.TagName = 'aerobic'
      AND prx_lists.OwnerID = prx_sportsitems.ID

This is a MUCH more efficient query. Maybe ListType doesn't belong in that table either, but its hard to say without more info about what that column is used for.

Don't forget to create the appropriate indexes either! This will improve performance.

Refactoring your database schema might be painful, but its seems to me the only way to fix your long term problem.

share|improve this answer
    
+1 for the refactoring comment. It may be painful now, but if you are continuing to develop this system it will be MORE painful and probably necessary later. –  JohnFx Feb 12 '11 at 16:53
    
+1 just read your answer and it was what I was going for by refactoring the %aerobic% away and creating a new table - this would then be referenced by a common id (more sense in a relational database than doing a like into space delimited field). –  Yzmir Ramirez Feb 12 '11 at 16:57
    
Also consider removing the ORDER BY and LIMIT and doing the sort in code - generally much faster if the number of results is <1000. –  Yzmir Ramirez Feb 12 '11 at 16:58
    
-1 for Yzmir (If it were only possible) - Let the DB do it's job (sorting, filtering). Don't reinvent the wheel and assume yours will be faster. –  JohnFx Feb 12 '11 at 17:06
    
+1 for storing the tag itself, instead of a id number. –  Mike Sherrill 'Cat Recall' Feb 12 '11 at 17:07

To help clarify more, the list that contains all of the tag ids is inside a single field called ListString and I structure it like so: " #1 #2 #3 #4 #5" ...and from that, the above query "concats" the prx_tags.ID which tagname is 'aerobic'.

There's your problem right there. Don't store delimited data in a DB field (ListString). Modeling data this way is going to make it extremely difficult/impossible to write performant queries against it.

Suggestion: Break the contents of ListString out into a related table with one row for each item.

share|improve this answer
    
Well, the reasoning I had was because I had to store data in different formats so I thought why not stored it as a list and assign a "List Type" (eg. prx_lists.ListType = 'Tags-SportsItems'). I recognize it is a very poor approach though, especially when you have lots of users on your system. Thanks for your suggestion. I will be looking into this. –  Joe Feb 12 '11 at 17:52
    
When designing databases you will do best if you follow the rule: One item per row, one attribute per column. –  JohnFx Feb 12 '11 at 18:00
    
Silly question I'm sure but: What if there are an unknown or variable amount of attributes per item? –  Joe Feb 12 '11 at 18:12
    
Then you would have 0..X rows in the related table. They key is that any multi-valued entity or attribute is represented by a table, not a single cell. –  JohnFx Feb 13 '11 at 15:31

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.