In a PHP program, I sequentially read a bunch of files (with file_get_contents), gzdecode them, json_decode the result, analyze the contents, throw most of it away, and store about 1% in an array.

Unfortunately, with each iteration (I traverse over an array containing the filenames), there seems to be some memory lost (according to memory_get_peak_usage, about 2-10 MB each time). I have double- and triple-checked my code; I am not storing unneeded data in the loop (and the needed data hardly exceeds about 10MB overall), but I am frequently rewriting (actually, strings in an array). Apparently, PHP does not free the memory correctly, thus using more and more RAM until it hits the limit.

Is there any way to do a forced garbage collection? Or, at least, to find out where the memory is used?

  • 1
    If I pass increasingly larger data chunks to json_dcode() more memory is used (and not freed again, at least not in my test environment, but currently it doesn't hit the memory limit). If the same data is parsed again (data of the same structure, doesn't have to be exactly the same variable) in the same php instance there is no further increase. Do the structure, "size" and values of the json data you feed to json_decode() vary a lot?
    – VolkerK
    Commented Mar 17, 2010 at 13:56
  • No, the data structure is almost exactly the same - it is an array of objects with a constant structure, only the length of the array varies.
    – DBa
    Commented Mar 17, 2010 at 14:36
  • 1
    memory_get_peak_usage reports a monotonically increasing value--the maximum memory you were using at any point of the program. Use memory_get_usage(true) to get the current actual memory being used. Commented Jun 25, 2012 at 17:33
  • stackoverflow.com/questions/3110235/… Commented Nov 2, 2012 at 15:32
  • there is a nice article that explains memory usage here arr.gr/blog/2014/05/… Commented Jul 24, 2014 at 10:07

8 Answers 8


it has to do with memory fragmentation.

Consider two strings, concatenated to one string. Each original must remain until the output is created. The output is longer than either input.
Therefore, a new allocation must be made to store the result of such a concatenation. The original strings are freed but they are small blocks of memory.
In a case of 'str1' . 'str2' . 'str3' . 'str4' you have several temps being created at each . -- and none of them fit in the space thats been freed up. The strings are likely not laid out in contiguous memory (that is, each string is, but the various strings are not laid end to end) due to other uses of the memory. So freeing the string creates a problem because the space can't be reused effectively. So you grow with each tmp you create. And you don't re-use anything, ever.

Using the array based implode, you create only 1 output -- exactly the length you require. Performing only 1 additional allocation. So its much more memory efficient and it doesn't suffer from the concatenation fragmentation. Same is true of python. If you need to concatenate strings, more than 1 concatenation should always be array based:


in python

implode('', array('str1', 'str2', 'str3'))

in PHP

sprintf equivalents are also fine.

The memory reported by memory_get_peak_usage is basically always the "last" bit of memory in the virtual map it had to use. So since its always growing, it reports rapid growth. As each allocation falls "at the end" of the currently used memory block.

  • The above given answer does not seem to be completely true. I used PHPParser to rewrite all concat-Operations to implodes in my project (which consists of 1000 classes and the underlying cake-framework). After that I tested it with a huge script which is taking all my Models, does some aggregation and saves it back to the db. --- - With Concat (.) it takes 103s and uses: + at the start: 24,751MB + at the end: 45,985MB - With Implode it takes about 109s and uses: + at the start: 25,341MB + at the end: 46,660MB Im loosing about 6kb per model, thats why the memory usage increases.
    – velop
    Commented Jan 11, 2014 at 11:02
  • @velop Clearly there is a bug in one of the many libraries you are using, that has nothing to do with how PHP works. You would need to fix the problem in the underlying Class/Method/etc. Commented Mar 22, 2017 at 8:56

In PHP >= 5.3.0, you can call gc_collect_cycles() to force a GC pass.

Note: You need to have zend.enable_gc enabled in your php.ini enabled, or call gc_enable() to activate the circular reference collector.

  • 4
    I think you need to call gc_enable() first.
    – PCheese
    Commented Jan 6, 2011 at 0:52
  • 7
    The Garbage Collector in PHP 5.3+ is not the primary memory management mechanism. It is used exclusively to deal with the problem of circular references, which the main refcount-based system cannot handle. The scenario described involves no such circular references, so would be completely unaffected by the GC.
    – IMSoP
    Commented Mar 23, 2013 at 13:26
  • It still helps in PHP 5.3 in combination with memory_get_usage to see which memory is freed again.
    – velop
    Commented Jan 11, 2014 at 11:17

Found the solution: it was a string concatenation. I was generating the input line by line by concatenating some variables (the output is a CSV file). However, PHP seems not to free the memory used for the old copy of the string, thus effectively clobbering RAM with unused data. Switching to an array-based approach (and imploding it with commas just before fputs-ing it to the outfile) circumvented this behavior.

For some reason - not obvious to me - PHP reported the increased memory usage during json_decode calls, which mislead me to the assumption that the json_decode function was the problem.

  • 2
    Do you mind giving some more detail about this? It might help me out. You were resetting an existing string variable in each iteration of your loop, but the memory used to hold the old string(s) was not being released - was that the problem? Now, using an array to hold the data it does free the memory? Commented Mar 17, 2010 at 14:52
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    Scott, sorry for not getting back to you: I was overwriting an already-used string ($s = $s . "new contents";). Though it is well-known that such a concatenation invokes a new allocation, I did not know that the old copy remains in place and blocks memory. So I switch to the approach like $a = array(); array_push($a, "new contents";) and imploded the array afterwards.
    – DBa
    Commented Aug 21, 2011 at 12:06
  • FYI, this also seems to happen with objects. In the object case, using unset on the variable before setting a new value stops the leak.
    – Rich Remer
    Commented Jul 16, 2014 at 18:57

There's a way.

I had this problem one day. I was writing from a db query into csv files - always allocated one $row, then reassigned it in the next step. Kept running out of memory. Unsetting $row didn't help; putting an 5MB string into $row first (to avoid fragmentation) didn't help; creating an array of $row-s (loading many rows into it + unsetting the whole thing in every 5000th step) didn't help. But it was not the end, to quote a classic.

When I made a separate function that opened the file, transferred 100.000 lines (just enough not to eat up the whole memory) and closed the file, THEN I made subsequent calls to this function (appending to the existing file), I found that for every function exit, PHP removed the garbage. It was a local-variable-space thing.


When a function exits, it frees all local variables.

If you do the job in smaller portions, like 0 to 1000 in the first function call, then 1001 to 2000 and so on, then every time the function returns, your memory will be regained. Garbage collection is very likely to happen on return from a function. (If it's a relatively slow function eating a lot of memory, we can safely assume it always happens.)

Side note: for reference-passed variables it will obviously not work; a function can only free its inside variables that would be lost anyway on return.

I hope this saves your day as it saved mine!

  • 1
    Yeah dunno where did I read this before, but this solution always works best for me Commented Oct 1, 2013 at 7:50
  • 1
    Thank you for this tip! It was a tremendous help to me today.
    – kalinma
    Commented Nov 21, 2017 at 21:57
  • @kalinma Always a pleasure :) What's worrying me is that apparently nothing has changed since... Is it PHP7 you're using? Because that would really be a shame to encounter this problem in such a strongly refactored engine.
    – dkellner
    Commented Nov 22, 2017 at 12:05
  • @dkellner, I'm actually using PHP 5.6. Would be nice to upgrade to 7 as Joomla 3.7 supports it, but our servers are currently set up for 5.6.
    – kalinma
    Commented Nov 22, 2017 at 18:52
  • Anyone else watching Gotham series and remembering this article each time they say GCPD?
    – dkellner
    Commented Sep 22, 2020 at 9:09

I've found that PHP's internal memory manager is most-likely to be invoked upon completion of a function. Knowing that, I've refactored code in a loop like so:

while (condition) {
  // do
  // cool
  // stuff


while (condition) {

function do_cool_stuff() {
  // do
  // cool
  // stuff


I ran this quick benchmark and did not see an increase in memory usage. This leads me to believe the leak is not in json_decode()


function do_something_cool() {
  $json = '{"a":1,"b":2,"c":3,"d":4,"e":5}';
  $result = json_decode($json);
  echo memory_get_peak_usage() . PHP_EOL;
  • This reduced the leak, but has not fixed it entirely... Apparently, something is leaking inside the json_decode function - is there any alternative implementation? I do not care if it is a bit slower, as long as it does not eat up memory (currently, the program hits 1 GB mark at 60% of processing, causing the machine to swap and thus growing VERY slow... There is nothing which would justify such a memory use, the chunks read are all about 10 MB and they are processed subsequently).
    – DBa
    Commented Mar 17, 2010 at 12:29
  • Mike, I tried the same and haven't been able to reproduce the leak with a "simple" approach (fuzzing around with a simple array) either. Will try to run it with my input data, maybe that's the problem.
    – DBa
    Commented Mar 17, 2010 at 13:19
  • 1
    While trying to reproduce the whole thing, I eventually found the solution: it was a string concatenation. I was generating the input line by line by concatenating some variables (the output is a CSV file). However, PHP seems not to free the memory used for the old copy of the string, thus effectively clobbering RAM with unused data. Switching to an array-based approach (and imploding it with commas just before fputs-ing it to the outfile) circumvented this behavior.
    – DBa
    Commented Mar 17, 2010 at 14:39
  • 1
    @DBa: Could you create an answer for this and mark is as correct? It took me reading all the comments to find your final solution :-P And it was very helpful
    – Hubro
    Commented Apr 30, 2012 at 12:12
  • 2
    Wrapping things in a function has nothing to do with "invoking GC". What is happening is that at the end of the function, all variables used in that function simultaneously go out of scope, as though you had unset() them all at once. No Garbage Collection is done as such, the variables simply reach a refcount of 0 and are immediately freed.
    – IMSoP
    Commented Mar 23, 2013 at 13:30

I was going to say that I wouldn't necessarily expect gc_collect_cycles() to solve the problem - since presumably the files are no longer mapped to zvars. But did you check that gc_enable was called before loading any files?

I've noticed that PHP seems to gobble up memory when doing includes - much more than is required for the source and the tokenized file - this may be a similar problem. I'm not saying that this is a bug though.

I believe one workaround would be not to use file_get_contents but rather fopen()....fgets()...fclose() rather than mapping the whole file into memory in one go. But you'd need to try it to confirm.




Call memory_get_peak_usage() after each statement, and ensure you unset() everything you can. If you are iterating with foreach(), use a referenced variable to avoid making a copy of the original (foreach()).

foreach( $x as &$y)

If PHP is actually leaking memory a forced garbage collection won't make any difference.

There's a good article on PHP memory leaks and their detection at IBM

  • 3
    Using unset() is a good solution, but you still rely on the GC. You may also try to assign the variables you don't need anymore to NULL. The memory may be reclaimed faster.
    – Macmade
    Commented Mar 17, 2010 at 11:29
  • The IBM article basically says "use memory_get_peak_usage to locate the leaks, which is not very helpful, as I already seem to have located it - however, I have no idea how to get rid of a memory leak in an internal PHP function...
    – DBa
    Commented Mar 17, 2010 at 12:30
  • 1
    If it's internal to a PHP function you can't get rid of it, it's a bug in the language! If you have detected the leak, perhaps you have identified a function you should a) try to find a equivalent of b) report @ bugs.php.net Perhaps you should post the code you're having trouble with?
    – Andy
    Commented Mar 17, 2010 at 13:12
  • That IBM article is about PHP 5.2 when PHP did not have a real garbage collector (that is, one able to collect unreferenced cycles). If you're running PHP 5.3 or newer, first try gc_collect_cycles() after possibly leaking memory. Commented Feb 1, 2013 at 11:07
  • 1) The Garbage Collector supplements refcount-based deallocation, not replaces it, so unset() in most cases will immediately free memmory. 2) Assigning by reference is usually worse for memory performance, because it conflicts with PHP's automatic Copy-On-Write optimisations (a normal assignment does not immediately copy the contents of the variable).
    – IMSoP
    Commented Mar 23, 2013 at 13:32

There recently was a similar issue with System_Daemon. Today I isolated my problem to file_get_contents.

Could you try using fread instead? I think this may solve your problem. If it does, it's probably time to do a bugreport over at PHP.

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