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I just started out with C and have very little knowledge about performance issues with malloc() and free(). My question is this: if I were to call malloc() followed by free() inside a while loop that loops for, say, 20 iterations, would it run slower compared to calling free() outside the loop?

I am actually using the first method to allocate memory to a buffer, read a variable-length string from a file, perform some string operations, and then clear the buffer after every iteration. If my method results in a lot of overhead then I'd like to ask for a better way for me to achieve the same results.

Sorry for my bad English.

update 0: thanks so much for all the help, looks like I still have much to learn! ;D

Thanks and regards, K

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5  
You can't call free outside the loop if you're calling malloc inside it, or you'll leak the memory for all but the malloc from the last iteration. You can, however, use realloc instead of malloc, then free outside. –  Jefromi Mar 17 '10 at 16:07
    
@Jefromi: I think you should make that comment an answer. –  Fred Larson Mar 17 '10 at 16:10
2  
Your English is just fine -- it's better in fact than most newbie's English on SO. –  Billy ONeal Mar 17 '10 at 16:12
    
@fred: Well, I did, but Kenny's is better, since it doesn't blindly realloc every time. –  Jefromi Mar 17 '10 at 16:15
    
If you want to benchmark things like this, you need to use lots more than 20 iterations. 200,000 is better, or running the loop until a timer expires, then count how many loops were run in 5 seconds. –  Zan Lynx Sep 30 '11 at 20:24
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8 Answers

up vote 13 down vote accepted

Definitely slower. (But remember you need to balance the number of malloc and free otherwise you get a memory leak.)

If the length varies, you can use realloc to expand the buffer size.

void* v = malloc(1024);
size_t bufsize = 1024;

while(cond) {
   size_t reqbufsize = get_length();
   if (reqbufsize > bufsize) {
      bufsize = reqbufsize * 2;
      v = realloc(v, bufsize);
   }
   // you may shrink it also.

   do_something_with_buffer(v);
}

free(v);
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+1 -- but don't you think bufsize = reqbufsize * 2; is a little drastic? :P –  Billy ONeal Mar 17 '10 at 16:13
3  
@BillyONeal: That's actually a pretty common way to do things. –  Dinah Mar 17 '10 at 16:43
3  
Buffers usually increase proportionally to their old size because it gets better amortized asymptotic running time. If you add a one slot per realloc and insert n elements, there are 1 + 2 + ... + (n - 1) + n = O(n^2) copies required. If, however, you double the buffer's size, inserting n elements only costs O(1) copies. You can find a more rigorous explanation by looking at the hash table Wikipedia article: en.wikipedia.org/wiki/… –  Michael Koval Mar 17 '10 at 17:29
1  
If the realloc fails, you've leaked it. You need a temp pointer to realloc to, if it succeeds, copy that to the original pointer, else free the original pointer and abort with error message. –  Arthur Kalliokoski Mar 19 '10 at 10:38
1  
@Arthur. Yes. But you've a bigger problem than leaking if realloc fails :). –  KennyTM Mar 19 '10 at 11:04
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For 20 iterations, you shouldn't be worrying about the performance of malloc/free.

Even for vastly more (a couple orders of magnitude), you shouldn't start thinking about optimizations until you profile the code and understand what is slow.

Finally, if you're going to free the buffer, there is no need to clear it first. Even if you were to move the malloc/free outside the loop (using a maximum buffer as suggested by Justin), you shouldn't need to explicitly clear the buffer.

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You can't call free outside the loop if you are calling malloc inside:

char * buffer;
for (int i = 0; i < num_files; i++) {
    buffer = malloc(proper_length(i));
    // do some things with buffer
}
free(buffer);

You will have malloc'ed num_files times, but only freed once - you leaked the memory from all but the last!

There are two main choices - malloc before the loop (or just use an array) if you know a size that will work for everything, or use realloc:

char * buffer = NULL;
for (int i = 0; i < num_files; i++) {
    buffer = realloc(proper_length(i));
    // do some things with buffer
}
free(buffer);
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If you know the maximum length of the buffer - or can set a reasonable maximum - then you could use the same buffer for every iteration. Otherwise what you are doing should be fine.

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It depends on what you need the buffer for.

Do you really need to clear it after every iterations or maybe a \0 char at the end would suffice to mark the end of a string? After all that's what the various str library calls use.

If you really need to clear it you can use bzero(). Certainly malloc'ing and free'ing at every iteration is a waste of resources, since you can happily re-use the buffer.

A different problem would arise if you were to parallelize the for loop, i.e. to have several concurrent threads using it.

Simple, real-life example: using a bucket to carry water. Suppose you need to do several trip with that bucket: would it make sense to pick it up, use it, put it down, pick it up again, use it, etc...? You can re-use the bucket as many times as possible. If, on the other hand, the bucket needs to be used by you and more people, either you organize access to the bucket or need more buckets.

Last suggestion: do not worry about performances now. They say that early optimization is the root of all evil, and you'll soon understand why.

Firstly, understand the problem: write code that can be thrown away. Experiment. Secondly, test it. Make sure it does what you need. Thirdly, optimize it. Make the loop run ten thousand times and measure how long it takes. Then move the malloc outside, and measure again (use the shell command time if under UNIX). Fourthly, rewrite it because your first experiment will most likely be a mess of patches of try-retry-not working code.

Rinse, repeat.

ps: have fun in the mean time. It's supposed to be interesting, not frustrating.

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Generally anything that can be moved outside of a loop should be. Why repeat the same action when you can just do it once?

Justin Ethier is right, allocate a buffer that will comfortably fit the largest string and reuse that.

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It depends on the implementation of malloc and free.

The best way to respond to your question is to build a benchmark...

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Process it better. Have some pseudo code:

#define BLOCK_SIZE 1024 // or about the bigger size of your strings.

char *buffer = (char *) malloc(BLOCK_SIZE) 

for(int i=0; i<20; i++)
{
   while (more bytes left to read)
   {
    read full string or BLOCK_SIZE bytes at max // most calls work this way
    proces bytes in buffer
   }
}

free(buffer);
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