I noticed a lot of developers are using both strstr and strpos to check for a substring existence. Is one of them preferred and why ?

  • 2
    the benchmark you mentioned is versus substr not strstr
    – Flask
    Apr 28, 2011 at 15:00

5 Answers 5


From the PHP online manual:

If you only want to determine if a particular needle occurs within haystack, use the faster and less memory intensive function strpos() instead.

  • 13
    +1, You may use strpos or stripos. and don't forget to check the warnings on the php doc about using === FALSE;
    – fedmich
    Sep 23, 2012 at 0:09
  • 8
    To elaborate on fedmich's comment: I always use if(strpos($haystack,$needle) !== false) { // do something }, never if(strpos($haystack,$needle)) { // do bad things }. strpos will return 0 if the $needle is at the very beginning of $haystack, and 0 is considered equal to false. (0 == false) evaluates to true. (0 === false) evaluates to false. Apr 22, 2014 at 0:38
  • 1
    People coming from C may think about using the strchr function, but in PHP it's actually an alias for strstr, so strpos is a better choice.
    – Déjà vu
    Jul 27, 2014 at 10:58

Here are some other answers (+benchmarks) I got to my question, which is almost the same (I didn't realize yours when asking).

In the meantime I also made my own benchmark test, which I ran 1000000 times for each relevant functions (strstr(), strpos(), stristr() and stripos()).
Here's the code:


function getmicrotime() {
    list($usec, $sec) = explode(" ", microtime());
    return ((float) $usec + (float) $sec);

$mystring = 'blahblahblah';  
$findme = 'bla';  

echo 'strstr & strpos TEST:<pre>';
$time_start = getmicrotime();
for($i=0; $i<1000000; $i++) strstr($mystring, $findme);
$time_needed_strstr = getmicrotime() - $time_start;
echo 'strstr():            ',
    round( $time_needed_strstr , 8 ). PHP_EOL;

$time_start = getmicrotime();
for($i=0; $i<1000000; $i++) stristr($mystring, $findme);
$time_needed_stristr = getmicrotime() - $time_start;
echo 'stristr():           ',
    round( $time_needed_stristr , 8 ) . PHP_EOL;

$time_start = getmicrotime();
for($i=0; $i<1000000; $i++) strpos($mystring, $findme) !== false;
$time_needed_strpos = getmicrotime() - $time_start;
echo 'strpos() !== false:  ',
    round( $time_needed_strpos , 8 ) . PHP_EOL;

$time_start = getmicrotime();
for($i=0; $i<1000000; $i++) stripos($mystring, $findme) !== false;
$time_needed_stripos = getmicrotime() - $time_start;
echo 'stripos() !== false: ',
    round( $time_needed_stripos , 8 ) . PHP_EOL;

echo PHP_EOL;

echo 'time_needed_stristr - time_needed_strstr: ',
     round( $time_needed_stristr - $time_needed_strstr , 8) . PHP_EOL;
echo 'time_needed_stripos - time_needed_strpos: ',
     round( $time_needed_stripos - $time_needed_strpos , 8) . PHP_EOL;

echo PHP_EOL;

echo 'time_needed_strstr  - time_needed_strpos:  ',
     round( $time_needed_strstr - $time_needed_strpos , 8) . PHP_EOL;
echo 'time_needed_stristr - time_needed_stripos: ',
     round( $time_needed_stristr - $time_needed_stripos , 8) . PHP_EOL;

echo '</pre>';


And here is the first output, which shows that strpos() is the winner:

strstr & strpos TEST:
strstr():            2.39144707
stristr():           3.65685797
strpos() !== false:  2.39055395
stripos() !== false: 3.54681897

time_needed_stristr - time_needed_strstr: 1.2654109
time_needed_stripos - time_needed_strpos: 1.15626502

time_needed_strstr  - time_needed_strpos:  0.00089312
time_needed_stristr - time_needed_stripos: 0.110039 

The next one is similar to the first output (strpos() is the winner again):

strstr & strpos TEST:
strstr():            2.39969015
stristr():           3.60772395
strpos() !== false:  2.38610101
stripos() !== false: 3.34951186

time_needed_stristr - time_needed_strstr: 1.2080338
time_needed_stripos - time_needed_strpos: 0.96341085

time_needed_strstr  - time_needed_strpos:  0.01358914
time_needed_stristr - time_needed_stripos: 0.25821209

Below is another one, which is more interesting, because in this case, strstr() is the winner:

strstr & strpos TEST:
strstr():            2.35499191
stristr():           3.60589004
strpos() !== false:  2.37646604
stripos() !== false: 3.51773095

time_needed_stristr - time_needed_strstr: 1.25089812
time_needed_stripos - time_needed_strpos: 1.14126492

time_needed_strstr  - time_needed_strpos:  -0.02147412
time_needed_stristr - time_needed_stripos: 0.08815908

This means it can really depend on "environmental circumstances", which are sometimes hard to influence, and can change the result of "micro optimization tasks" like this, in case you are just checking whether a string exists in another one or not.

BUT I think in most cases, strpos() is the winner in comparison to strstr().

I hope this test was useful for someone.

  • 3
    While this benchmark is usefull it does not measure memory consumption, also does not take into account long strings, like kbytes or mbytes.
    – user133408
    Sep 12, 2013 at 9:20
  • Huh? @user133408 Long strings and larger byte strings would even take longer. Aug 16, 2015 at 5:03

Many developers use strpos for micro optimization purposes.

Using strstr also only works if the resulting string cannot be interpreted as false in boolean context.

Overcome by events: PHP8 introduced str_contains, the "right tool for the job" (with shims available for older setups). Which does exactly what everyone has been glamoring for, but without the interpreter-level comparison and syntactic overhead.

  • 14
    It is not micro optimisation, it's called using the right function for the job. If I want the string's position, I call strpos(). If I wanted the substring after that position, I call strstr().
    – Alnitak
    Apr 28, 2011 at 15:06
  • 1
    @Alnitak: What I was saying. If you want to check for the presence of a string, then there's a function for that. If you actually do need the position, then there's another. -- When you probe for the position without actually needing the position, then that's hardly "using the right function for the job". The intention is clearly to optimize micro seconds away. (Isn't that what you cited?)
    – mario
    Apr 28, 2011 at 15:36
  • 1
    @mario but there is no function whose only purpose is checking whether a substring exists. The position of the substring (if found) is free information once you've actually found it. OTOH, strstr does more than is required, which is why it's slower.
    – Alnitak
    Apr 28, 2011 at 15:41
  • @Alnitak: Mind you, not news. You seem very adamant about pointing out the performance difference, and only that. That's a tell tale sign of micro optimization. It doesn't make a blip in the profiler. Where it does make a difference is in code readability.
    – mario
    Apr 28, 2011 at 15:44
  • @mario actually I would care only very slightly about the performance. I do care very much about using the right function for the job ;-)
    – Alnitak
    Apr 28, 2011 at 15:47

strpos() detects where in the haystack a particular needle lies. stristr() tests whether the needle is anywhere in the haystack

therefor strpos() is faster and less memory consuming

a reason for strstr(): if your needle is at the beginning of a string, strpos returns 0 (so have to check it with === false)

  • 6
    that's a completely bogus explanation - strstr() returns everything before or after the needle, so it first has to do the equivalent of strpos() and then create that substring. That's where the performance hit is.
    – Alnitak
    Apr 28, 2011 at 15:03

I prefer strstr() for readability and easy coding.. strpos() !==false is confusing a bit..

  • 1
    strstr is too similiar to strtr Jul 16, 2015 at 13:58
  • strstr needs a strict comparison too Example: ('123450', '0')
    – E Ciotti
    May 22, 2019 at 12:24

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