I have been experimenting with Redis and MongoDB lately and it would seem that there are often cases where you would store an array of id's in either MongoDB or Redis. I'll stick with Redis for this question since I am asking about the MySQL IN operator.

I was wondering how performant it is to list a large number (300-3000) of id's inside the IN operator, which would look something like this:

SELECT id, name, price
FROM products
WHERE id IN (1, 2, 3, 4, ...... 3000)

Imagine something as simple as a products and categories table which you might normally JOIN together to get the products from a certain category. In the example above you can see that under a given category in Redis ( category:4:product_ids ) I return all the product ids from the category with id 4, and place them in the above SELECT query inside the IN operator.

How performant is this?

Is this an "it depends" situation? Or is there a concrete "this is (un)acceptable" or "fast" or "slow" or should I add a LIMIT 25, or doesn't that help?

SELECT id, name, price
FROM products
WHERE id IN (1, 2, 3, 4, ...... 3000)

Or should I trim the array of product id's returned by Redis to limit it to 25 and only add 25 id's to the query rather than 3000 and LIMIT-ing it to 25 from inside the query?

SELECT id, name, price
FROM products
WHERE id IN (1, 2, 3, 4, ...... 25)

Any suggestions/feedback is much appreciated!

  • 3
    +1 Looking forward for the responses! Great Q! – rkg Dec 22 '10 at 23:42
  • I'm not sure exactly what you are asking? One query with "id IN(1,2,3, ...3000))" is faster than 3000 queries with "id = value". But a join with "category = 4" will be faster than both of the above. – Ronnis Dec 23 '10 at 12:51
  • Right, though since a product can belong to multiple categories I you cannot do the "category = 4". Using Redis I would store all the id's of the products that belong in a certain categories and then query on that. I guess the real question is, how would the id IN (1,2,3 ... 3000) perform compared to JOIN table of products_categories. Or is that what you were saying? – Michael van Rooijen Dec 23 '10 at 20:57
  • Just be careful from that bug in MySql stackoverflow.com/questions/3417074/… – Itay Moav -Malimovka May 7 '11 at 5:12
  • Of course there is no reason why this shouldn't be as efficient as any other method of retrieving indexed rows; it just depends on whether database authors have tested and optimized for it. In terms of computational complexity we're going to do at worst an O(n log N) sort on the IN clause (this might even be linear on a sorted list like you show, depending on the algorithm), and then linear intersection/lookups. – jberryman Apr 30 '17 at 18:58
up vote 26 down vote accepted

Generally speaking, if the IN list gets too large (for some ill-defined value of 'too large' that is usually in the region of 100 or smaller), it becomes more efficient to use a join, creating a temporary table if need so be to hold the numbers.

If the numbers are a dense set (no gaps - which the sample data suggests), then you can do even better with WHERE id BETWEEN 300 AND 3000. However, presumably there are gaps in the set, at which point it may be better to go with the list of valid values after all (unless the gaps are relatively few in number, in which case you could use: WHERE id BETWEEN 300 AND 3000 AND id NOT BETWEEN 742 AND 836 or whatever the gaps are.

  • 25
    Can you please give an example of "use a join, creating a temporary table"? – Jake Oct 13 '16 at 7:46

I have been doing some tests, and as David Fells says, it is quite well optimized. As a reference, I have created an InnoDB table with 1000000 registers and doing a select with the "IN" operator with 500000 random numbers, it takes only 2,5s in my MAC. (Selecting only the even registers takes 0,5s).

The only problem that I had is that I had to increase the max_allowed_packet parameter from the my.cnf file. If not, a mysterious "MYSQL has gone away" error is generated.

Here is the PHP code that I use to make the test:

$NROWS =1000000;

$pdo = new PDO($dsn, "root", "root");

$pdo->exec("drop table if exists `uniclau`.`testtable`");
$pdo->exec("CREATE  TABLE `testtable` (
        `id` INT NOT NULL ,
        `text` VARCHAR(45) NULL ,
        PRIMARY KEY (`id`) )");

$before = microtime(true);

for ($i=0; $i<$NROWS; $i++) {
    $r = rand(0,99);
    if ($c>0) $Values .= ",";
    $Values .= "( $i , 'This is value $i and r= $r')";
    if ($r<$SELECTED) {
        if ($SelValues!="(") $SelValues .= ",";
        $SelValues .= $i;

    if (($c==100)||(($i==$NROWS-1)&&($c>0))) {
        $pdo->exec("INSERT INTO `testtable` VALUES $Values");
        $Values = "";
$SelValues .=')';
echo "<br>";

$after = microtime(true);
echo "Insert execution time =" . ($after-$before) . "s<br>";

$before = microtime(true);  
$sql = "SELECT count(*) FROM `testtable` WHERE id IN $SelValues";
$result = $pdo->prepare($sql);  
$after = microtime(true);
echo "Prepare execution time =" . ($after-$before) . "s<br>";

$before = microtime(true);

$c = $result->fetchColumn();

$after = microtime(true);
echo "Random selection = $c Time execution time =" . ($after-$before) . "s<br>";

$before = microtime(true);

$sql = "SELECT count(*) FROM `testtable` WHERE id %2 = 1";
$result = $pdo->prepare($sql);
$c = $result->fetchColumn();

$after = microtime(true);
echo "Pairs = $c Exdcution time=" . ($after-$before) . "s<br>";

And the results:

Insert execution time =35.2927210331s
Prepare execution time =0.0161771774292s
Random selection = 499102 Time execution time =2.40285992622s
Pairs = 500000 Exdcution time=0.465420007706s
  • For the sake of others, I'll add that running in VirtualBox (CentOS) on my Late 2013 MBP with an i7, the third line (the one relevant to the question) of the output was: Random selection = 500744 Time execution time =53.458173036575s.. 53 seconds might be tolerable depending on your application. For my uses, not really. Also, note that the test for even numbers isn't relevant for the question at hand since it uses the modulo operator (%) with an equals operator (=) instead of IN(). – rinogo May 1 '15 at 22:40
  • It's relevant because it is a way to compare a query with the IN operator with a similar query without this functionality. May be the higer time you get is because it is a download time, because your machine is swapipng or working in another virtual machine. – jbaylina May 2 '15 at 20:38

You can create a temporary table where you can put any number of IDs and run nested query Example:


and select:

SELECT id, name, price
FROM products
  • 5
    it's better to join your temp table instead of using a subquery – loopkin Feb 14 '17 at 16:46
  • 2
    @loopkin can you explain how you would do this with a join vs. a subquery please? – Jeff Solomon Dec 18 '17 at 21:02
  • 2
    @jeffSolomon SELECT products.id, name, price FROM products JOIN tmp_IDs on products.id = tmp_IDs.ID; – loopkin Dec 18 '17 at 22:10

IN is fine, and well optimized. Make sure you use it on an indexed field and you're fine. It's functionally equivalent to (x = 1 OR x = 2 OR x = 3 ... OR x = 99) as far as the engine's concerned.

  • Not realy. I use IN clouse to fetch 5k records from the DB. IN clouse contains list of PKs so related column is indexed and guaranteed to be unique. EXPLAIN says, that full table scan is performed insteed of using PK lookup in "fifo-queue-alike" style. – Antoniossss May 5 '16 at 10:47

Using IN with a large parameter set on a large list of records will in fact be slow.

In the case that I solved recently I had two where clauses, one with 250 parameters and the other with 3500 parameters, querying a table of 40 Million records. My query took 5 minutes using the standard WHERE IN. By instead using a subquery for the IN statement(putting the parameters in their own indexed table), I got the query down to TWO seconds. Worked for both MySQL and Oracle in my experience.

When you provide many values for the IN operator it first must sort it to remove duplicates. At least I suspect that. So it would be not good to provide too many values, as sorting takes N log N time.

My experience proved that slicing the set of values into smaller subsets and combining the results of all the queries in the application gives best performance. I admit that I gathered experience on a different database (Pervasive), but the same may apply to all the engines. My count of values per set was 500-1000. More or less was significantly slower.

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