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.

Based on the answer of question, UUID performance in MySQL, the person who answers suggest to store UUID as a number and not as a string. I'm not so sure how it can be done. Anyone could suggest me something? How my ruby code deal with that?

share|improve this question
5  
The performance issues only arise when you're using the UUID a primary key, because UUIDs are not very efficient primary keys. Why do you need UUIDs? Could you keep the UUIDs and just use an autoincrement as the primary key? –  Thom Smith Jun 8 '12 at 14:00
2  
@ThomSmith Re "UUIDs are not very efficient primary keys".. care to cite a source that explains why? –  Pacerier Jul 5 '12 at 22:13
1  
It's a larger piece of data, and it will generally take more instructions to compare. It's not sequential, so the overhead of indexing is just a bit higher. And, of course, if you're storing it as a string instead of a 128-bit number, as the OP seems to be doing, the situation worsens. It's not a terrible key, but I wouldn't use it unless there was some external reason to do so. –  Thom Smith Jul 6 '12 at 12:20

1 Answer 1

If I understand correctly, you're using UUIDs in your primary column? People will say that a regular (integer) primary key will be faster , but there's another way using MySQL's dark side. In fact, MySQL is faster using binary than anything else when indexes are required.

Since UUID is 128 bits and is written as hexadecimal, it's very easy to speed up and store the UUID.

First, in your programming language remove the dashes

From 110E8400-E29B-11D4-A716-446655440000 to 110E8400E29B11D4A716446655440000.

Now it's 32 chars (like an MD5 hash, which this also works with).

Since the binary format requires 1 bit to store what hexadecimal does in 4 bits, we will create a BINARY(16) field.

You can insert using:

INSERT INTO Table (FieldBin) VALUES (UNHEX("110E8400E29B11D4A716446655440000"))

and query using:

SELECT HEX(FieldBin) AS FieldBin FROM Table

Now in your programming language, re-insert the dashes at the positions 9, 14, 19 and 24 to match your original UUID. If the positions are always different you could store that info in a second field.

Full example :

CREATE TABLE  `test_table` (
    `field_binary` BINARY( 16 ) NULL ,
    PRIMARY KEY (  `field_binary` )
) ENGINE = INNODB ;

INSERT INTO  `test_table` (
    `field_binary`
)
VALUES (
    UNHEX(  '110E8400E29B11D4A716446655440000' )
);

SELECT HEX(field_binary) AS field_binary FROM `test_table`

If you want to use this technique with any hex string, always do length / 2 for the field length. So for a sha512, the field would be BINARY (64) since a sha512 encoding is 128 characters long.

share|improve this answer
2  
@Chamnap Let's say you have 10 000 rows in your database and they have been added using UNHEX function and you want to search for the UUID 110E8400-E29B-11D4-A716-446655440000. Just do something like : SELECT * FROM test_table WHERE field_binary LIKE CONCAT("%", UNHEX('110E8400E29B11D4A716446655440000'), "%") –  David Bélanger Jun 8 '12 at 15:13
4  
You can read this if you have time. Focus on point 3 : xaprb.com/blog/2009/02/12/… –  David Bélanger Jun 8 '12 at 15:16
3  
@Chamnap Yes you can do, you should. I just wanted to demonstrate if you want to use the caracter % with the UNHEX function inside a LIKE. You could do WHERE Field = UNHEX('110E8400E29B11D4A716446655440000'). Instead of doing WHERE Field = 3 or whatever, you wrap up the field with UNHEX when you are using a hex string (to search, to insert, where, update, delete, etc.) and you wrap the field with HEX when you want to read from MySQL (select). –  David Bélanger Jun 8 '12 at 15:19
1  
@DavidBélanger You said MySQL is faster indexing binary compared to ints. Any sources? –  Pacerier Jul 5 '12 at 22:41
3  
The wording is confusing on the BINARY type. A single "BINARY" in mysql is 8 bits in size, which is why BINARY(16) works (8*16 = 128, the size of a UUID). It does NOT "store in 1 bit what hexadecimal does in 4 bits". That's impossible. "Two hexadecimal values can be stored in each unit-size of type BINARY, which is itself 8-bits in size, so we need 16 unit sizes of BINARY, thus we'l use BINARY(16)." –  lilbyrdie Oct 21 '14 at 19:15

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.