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.

im trying to use MySQL bitwise operations for my query and i have this example:

id      ptid
1       3
2       20
3       66
4       6

id     types
1      music
2      art
4      pictures
8      video
16     art2
32     actor
64     movies
128    ..

now, the id = 3 from table1 is '66', witch means that it has 64 or movies and 2 or art


doesn't he also have 32 or actor twice and 2 or art ??

hope you see where my confusion is. How do i control what result i want back. In this case i want 64 or movies and 2 or art.

But sometimes i want three id's from table2 to belong to an id from table1

any ideas?


share|improve this question
ew! thats a bad data model. –  Daniel A. White Feb 21 '12 at 21:22
Just out of curiosity, why didn't you use a table that kept track of id -> ptid relations individually? –  jprofitt Feb 21 '12 at 21:23
You want to use bitwise operations in MySQL to join two tables??? My Eyes! The goggles do nothing! But seriously, as @jprofitt said, why not use a more standard many-many relationship model? –  codeXtre.me Feb 21 '12 at 21:29
@M_M please explain why doing it my way is not a good idea please –  Patrioticcow Feb 21 '12 at 21:38
why is a bad data model!! –  Patrioticcow Feb 21 '12 at 21:40

4 Answers 4

up vote 5 down vote accepted

Using bitwise OR

The following query returns all the items from table 2 in 66:

FROM table2
WHERE id | 66 = 66

But 32 + 32 = 64?

Though 32 + 32 = 64, it doesn't affect us.

Here's 64 in binary:


Here's 32 in binary:


Here's 2 in binary:


It's the position of the 1 that we use in this case, not the value. There won't be two of anything. Each flag is either on or off.

Here's 66 in binary. Notice that 64 and 2 are turned on, not 32:


Using bitwise AND instead of OR

Another way to write the query is with bitwise AND like this:

FROM table
WHERE id & 66 <> 0

Since 0 = false to MySQL, it can be further abbreviated like this:

FROM table
WHERE id & 66
share|improve this answer
i understand now. thanks –  Patrioticcow Feb 21 '12 at 21:41

After playing around with the answer from Marcus Adams, I thought I'd provide another example that helped me understand how to join two tables using bitwise operations.

Consider the following sample data, which defines a table of vowels, and a table of words with a single value representing the vowels present in that word.

# Create sample tables.
drop temporary table if exists Vowels;
create temporary table Vowels 
    Id int, 
    Letter varchar(1)
drop temporary table if exists Words;
create temporary table Words
    Word varchar(20),
    Vowels int

# Insert sample data.
insert into Vowels
    select 1,   'a' union all
    select 2,   'e' union all
    select 4,   'i' union all
    select 8,   'o' union all
    select 16,  'u';
insert into Words 
    select 'foo',           8  union all 
    select 'hello',         10 union all
    select 'language',      19 union all
    select 'programming',   13 union all
    select 'computer',      26;      

We can now join the Vowel table to the Word table like so:

# List every word with its vowels.
select Word, Vowels, Letter, Id as 'Vowel Id'
from (
    select *
    from Words
) w
join Vowels v
where v.Id | w.Vowels = w.Vowels
order by Word, Letter;

And of course we can apply any conditions to the inner query.

# List the letters for just the words with a length < 6
select Letter
from (
    select *
    from Words
    where length(Word) < 6
) w
join Vowels v
where v.Id | w.Vowels = w.Vowels
order by Word, Letter
share|improve this answer

Although the question on how to perform bitwise operations in MySQL has been answered, the sub-question in the comments about why this may not be an optimal data model remains outstanding.

In the example given there are two tables; one with a bitmask and one with a break down of what each bit represents. The implication is that, at some point, the two tables must be joined together to return/display the meaning of the various bits.

This join would either be explicit, e.g.

FROM Table1 
        ON table1.ptid  & table2.id <> 0

Or implicit where you might select the data from table1 into your application and then make a second call to lookup the bitmask values e.g.

FROM table2
WHERE id & $id <> 0 

Neither of these options are ideas because they are not "sargable" that is, the database cannot construct a Search ARGument. As a result, you cannot optimize the query with an index. The cost of the query goes beyond the inability to leverage an index since for every row in the table, the DB must compute and evaluate an expression. This becomes very Memory, CPU and I/O intensive very quickly and it cannot be optimized without fundamentally changing the table structure.

Beyond the complete inability to optimize the query, it can also be awkward to read the data, report on the data, and you also potentially run into limits adding more bits (64 values in an 8 bit column might be fine now but not necessarily always so. They also make systems difficult to understand, and I would argue that this design violates first normal form.

Although using bitmasks in a database is often a sign of bad design, there are times when it's fine to use them. Implementing a many-to-many relationship really isn't one of those times.

The typical approach to implementing this type of relationship looks something like this:

Id        Val1         Val2
1         ABC          DEF
2         ABC          DEF
3         ABC          DEF
4         ABC          DEF
5         ABC          DEF
6         ABC          DEF

id     types
1      music
2      art
3      pictures
4      video
5      art2
6      actor
7      movies

table1ID    Table2ID
1           1
1           2 
2           3
2           5
3           2
3           7

And you would query the data thusly

SELECT table1.*, table2.types
FROM table1 
     INNER JOIN table1-table2-relationship 
          ON table1.id = table1-table2-relationship.table1id
     INNER JOIN table2 
          ON table1-table2-relationship.table2.id = table2.id

Depending on the access pattern of these tables, you would typically index both columns on the relationship table as a composite index (I usually treat them as a composite primary key.) This index would allow the database to quickly seek to the relevant rows in the relationship table and then seek to the relevant rows in table2.

share|improve this answer
select * from table2 where id & 66
share|improve this answer

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.