Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free.

I'm new to mysql and have a choice regarding mysql database structure for my new database. I can have:

table1:(ID,text1,text2,text3,text4,up to text7)


table1:(ID,int1,int2,int3,...up to int7) where the int values link to table 2 unique index


So basically, should I put all text in columns in a single table or saparate and store index values in 1 table and the text data in a second table... queries will be given ID code, to return strings text 1 to text 7. Table will be large, about ~1 million ID's (meaning table 2 if method 2 is used would have ~7 million entries)

which method would be faster in your opinion?

EDIT1: Each text is 250 letter characters in length. EDIT2: To clarify, I am given the ID and the query to the table would be getting all 7 text items for that ID. This is the only query that will be done on the tables and the only information ever required. Just need to know which would be faster to use. If neither, please offer a better way!

share|improve this question
Hey, it depends on the way to SELECT them (always 7 together or each independtly). If you need to search on the text's fields, use the second one (one index rules all data). That's my opinion. BUT I would use a third table (association) to SELECT from text to ID. –  Mathias E. Dec 21 '10 at 18:07

2 Answers 2

up vote 0 down vote accepted

Won't make any speed difference if you're not querying based on the text. Keep it simple and just use 1 table. If you have to query by the text, then you're going to want to change it.

share|improve this answer

Please give more information and let us know what you're storing.

That said, however, storing more than one of the same "thing" in a single record in a relational database is usually the wrong approach. Both your proposed solutions involve storing 7 of something in a single record, so neither of them appears at first look to be a good solution.

The "correct" solution (absent any special conditions) would be to have one table with (in your example) 7 million entries.

Are you thinking of the second solution because someone suggested to you that you should "normalize" your text values by storing them in separate rows with an integer ID? If so, I don't think you've fully understood what they meant. The solution as specified does not normalize the database it simply adds one (unnecessary) level of indirection.

If you absolutely must use a denormalized solution, all the strings in one record is better than the added complexity of the integer IDs.

share|improve this answer
I read on the internet that its slower to go through a table if it has lots of text based columns (Yes I am ab absolute beginner so I don't know if this is true, but it seems to make sense). Hence, I assumed integer columns would be fast. if I am scanning based on unique ID, does this make a difference or not? I guess thats the question I really should have asked right? –  David19801 Dec 21 '10 at 18:09
@David19801: don't worry about optimization at that level so early in the design. Make something which works, then optimize it. After it works, you'll be in a position to fully understand what really needs to happen. –  wallyk Dec 21 '10 at 18:14
You are getting ahead of yourself. First, make sure that your database structures correctly represent your data. A correct representation is more important than performance as a foundation to base the system on, and is often the most performant option as well. If you describe your data better we can give you better advice about how to model it. –  Larry Lustig Dec 21 '10 at 18:18
Thanks, i've updated the description with more data info (in edit). The ~1 million IDs are ready to move over as soon as i've done made the table, its just a case of deciding which model to go with... –  David19801 Dec 21 '10 at 18:22

Your Answer


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.