Dismiss
Announcing Stack Overflow Documentation

We started with Q&A. Technical documentation is next, and we need your help.

Whether you're a beginner or an experienced developer, you can contribute.

Sign up and start helping → Learn more about Documentation →

I am curious, is there a size limit on serialize in PHP. Would it be possible to serialize an array with 5,000 keys and values so it can be stored into a cache?

I am hoping to cache a users friend list on a social network site, the cache will need to be updated fairly often but it will need to be read almost every page load.

On a single server setup I am assuming APC would be better then memcache for this.

share|improve this question

13 Answers 13

up vote 26 down vote accepted

As quite a couple other people answered already, just for fun, here's a very quick benchmark (do I dare calling it that ? ) ; consider the following code :

$num = 1;

$list = array_fill(0, 5000, str_repeat('1234567890', $num));

$before = microtime(true);
for ($i=0 ; $i<10000 ; $i++) {
    $str = serialize($list);
}
$after = microtime(true);

var_dump($after-$before);
var_dump(memory_get_peak_usage());

I'm running this on PHP 5.2.6 (the one bundled with Ubuntu jaunty).
And, yes, there are only values ; no keys ; and the values are quite simple : no object, no sub-array, no nothing but string.

For $num = 1, you get :

float(11.8147978783)
int(1702688)

For $num = 10, you get :

float(13.1230671406)
int(2612104)

And, for $num = 100, you get :

float(63.2925770283)
int(11621760)

So, it seems the bigger each element of the array is, the longer it takes (seems fair, actually). But, for elements 100 times bigger, you don't take 100 times much longer...


Now, with an array of 50000 elements, instead of 5000, which means this part of the code is changed :

$list = array_fill(0, 50000, str_repeat('1234567890', $num));

With $num = 1, you get :

float(158.236332178)
int(15750752)

Considering the time it took for 1, I won't be running this for either $num = 10 nor $num = 100...


Yes, of course, in a real situation, you wouldn't be doing this 10000 times ; so let's try with only 10 iterations of the for loop.

For $num = 1 :

float(0.206310987473)
int(15750752)

For $num = 10 :

float(0.272629022598)
int(24849832)

And for $num = 100 :

float(0.895547151566)
int(114949792)

Yeah, that's almost 1 second -- and quite a bit of memory used ^^
*(No, this is not a production server : I have a pretty high memory_limit on this development machine ^^ )*


So, in the end, to be a bit shorter than those number -- and, yes, you can have numbers say whatever you want them to -- I wouldn't say there is a "limit" as in "hardcoded" in PHP, but you'll end up facing one of those :

  • max_execution_time (generally, on a webserver, it's never more than 30 seconds)
  • memory_limit (on a webserver, it's generally not muco more than 32MB)
  • the load you webserver will have : while 1 of those big serialize-loop was running, it took 1 of my CPU ; if you are having quite a couple of users on the same page at the same time, I let you imagine what it will give ;-)
  • the patience of your user ^^

But, except if you are really serializing long arrays of big data, I am not sure it will matter that much...
And you must take into consideration the amount of time/CPU-load using that cache might help you gain ;-)

Still, the best way to know would be to test by yourself, with real data ;-)


And you might also want to take a look at what Xdebug can do when it comes to profiling : this kind of situation is one of those it is useful for!

share|improve this answer
    
+1 for the cool "benchmark". Interesting – Byron Whitlock Aug 10 '09 at 20:57
    
Serializing the same data of the same datatype over and over again is not exactly a real benchmark. Plus, the real cost is not serializing, it's unserializing. – Andrew Moore Aug 10 '09 at 21:12
1  
True (that's why I wasn't sure I could call it a benchmark ^^), and very true (because it's unserializing that's going to be done the most -- else, there is absolutly no reason to put that in cache) – Pascal MARTIN Aug 10 '09 at 21:15
    
@jasondavis: Using var_export() per my answer will save you the cost of unserialization. – Andrew Moore Aug 10 '09 at 21:17
    
@Andrew : If he is storing this into APC or memcache, I'm not sure var_export would do the trick : there will be no file to include, and, out of the blue, I don't see a "nice way" to get that data back without evaluating it ; do you have a way ? (I might just not be thinking about it ^^ ) – Pascal MARTIN Aug 10 '09 at 21:25

The serialize() function is only limited by available memory.

share|improve this answer

The only practical limit is your available memory, since serialization involves creating a string in memory.

share|improve this answer

There's no limit enforced by PHP. Serialize returns a bytestream representation (string) of the serialized structure, so you would just get a large string.

share|improve this answer

There is no limit, but remember that serialization and unserialization has a cost.

Unserialization is exteremely costly.

A less costly way of caching that data would be via var_export() as such (since PHP 5.1.0, it works on objects):

$largeArray = array(1,2,3,'hello'=>'world',4);

file_put_contents('cache.php', "<?php\nreturn ".
                                var_export($largeArray, true).
                                ';');

You can then simply retrieve the array by doing the following:

$largeArray = include('cache.php');

Resources are usually not cache-able.

Unfortunately, if you have circular references in your array, you'll need to use serialize().

share|improve this answer
    
this sounds nice except i am not sure in my case, this would create like 100,000 files with 100,000 members on my site, when I said cache I should of clarified APC or else memcache. – JasonDavis Aug 10 '09 at 21:34
    
You should of specified that in your OP. – Andrew Moore Aug 10 '09 at 21:55
    
var_export would require eval() (which is icky). its also at least 3x slower to var_export than it is to serialize, and var_export would use more post-serialized memory since its not quite as compact a datastructure. – Justin Aug 10 '09 at 22:00

As suggested by Thinker above:

You could use

$string = json_encode($your_array_here);

and to decode it

$array = json_decode($your_array_here, true);

This returns an array. It works well even if the encoded array was multilevel.

share|improve this answer
    
I must add that using json to 'serialize' an array, or 'string-ify' it, will also cause issues if you have special characters in there. Characters like: "áéíóúñ" and their capitalized versions will get utf-8 encoded, special care must be had, and running any kind of string validation on an unencoded json string is ill advised. Especially if said validation does things like slashes stripping, messing with quotes, etc. This can rend your json object useless for the function json_decode() in php, and it will be returning errors. – EffectiX Oct 4 '12 at 15:26
    
json_decode() automatically decodes these utf-8 encoded characters. So as long as the slash preceding the encoded character is not messed with, it will all be alright. ( Sry. Ran outta space in previous comment.) – EffectiX Oct 4 '12 at 15:28

Ok... more numbers! (PHP 5.3.0 OSX, no opcode cache)

@Pascal's code on my machine for n=1 at 10k iters produces:

float(18.884856939316)
int(1075900)

I add unserialize() to the above as so.

$num = 1;

$list = array_fill(0, 5000, str_repeat('1234567890', $num));

$before = microtime(true);
for ($i=0 ; $i<10000 ; $i++) {
    $str = serialize($list);
    $list = unserialize($str);
}
$after = microtime(true);

var_dump($after-$before);
var_dump(memory_get_peak_usage());

produces

float(50.204112052917)
int(1606768)

I assume the extra 600k or so are the serialized string.

I was curious about var_export and its include/eval partner $str = var_export($list, true); instead of serialize() in the original produces

float(57.064643859863)
int(1066440)

so just a little less memory (at least for this simple example) but way more time already.

adding in eval('$list = '.$str.';'); instead of unserialize in the above produces

float(126.62566018105)
int(2944144)

Indicating theres probably a memory leak somewhere when doing eval :-/.

So again, these aren't great benchmarks (I really should isolate the eval/unserialize by putting the string in a local var or something, but I'm being lazy) but they show the associated trends. var_export seems slow.

share|improve this answer
    
Thanks for those tests! – Pascal MARTIN Aug 11 '09 at 18:18

Nope, there is no limit and this:

set_time_limit(0);
ini_set('memory_limit ', -1);

unserialize('s:2000000000:"a";');

is why you should have safe.mode = On or a extension like Suhosin installed, otherwise it will eat up all the memory in your system.

share|improve this answer

I think better than serialize is json_encode function. It got a drawback, that associative arrays and objects are not distinguished, but string result is smaller and easier to read by human, so also to debug and edit.

share|improve this answer
3  
json_encode: works fine for primitive types, but as soon as you have objects, you can't use it without losing data fidelity. – Andrew Moore Aug 10 '09 at 20:53

If you want to cache it (so I assume performance is the issue), use apc_add instead to avoid the performance hit of converting it to a string + gain cache in memory.

As stated above the only size limit is available memory.

A few other gotchas: serialize'd data is not portable between multi-byte and single-byte character encodings. PHP5 classes include NUL bytes that can cause havoc with code that doesn't expect them.

share|improve this answer

Your use case sounds like you're better off using a database to do that rather than relying solely on PHP's available resources. The advantages to using something like MySQL instead is that it's specifically engineered with memory management in mind for such things as storage and lookup.

It's really no fun constantly serializing and unserializing data just to update or change a few pieces of information.

share|improve this answer

i have a case in which unserialize throws an exception on a large serialized object, size: 65535 (the magic number: 16bits full bit = 65536)

share|improve this answer

I've just come across an instance where I thought I was hitting an upper limit of serialisation.

I'm persisting serialised objects to a database using a mysql TEXT field.

The limit of the available characters for a single-byte characters is 65,535 so whilst I can serialize much larger objects than that with PHP It's impossible to unserialize them as they are truncated by the limit of the TEXT field.

share|improve this answer

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.