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I'm sending a text file - client-server breakup the text into packets each of 512 bytes but some packets contain text less than max size so on the servers side when receiving each packet I'm calling malloc() to build a string again , is this a bad practice ? is it better to keep a working buffer that can fit for max length and keep iterating , copying and overwriting its values ?

okay @n.m. here is the code , this if is inside a for(;;) loop wakened by the select()

if(nbytes==2) {
            packet_size=unpack_short(short_buf);
            printf("packet size is %d\n",packet_size);
            receive_packet(i,packet_size,&buffer);
            printf("packet=%s\n",buffer);
            free(buffer);
}
//and here is receive_packet() function 
int receive_packet(int fd,int p_len,char **string) {
 *string = (char *)malloc(p_len-2); // 2 bytes for saving the length    
 char *i=*string;   
 int temp;
 int total=0;
 int remaining=p_len-2;
 while(remaining>0) {
     //printf("remaining=%d\n",remaining);
     temp = recv(fd,*string,remaining,0);
     total+=temp;
     remaining=(p_len-2)-total;
     (*string) += temp;
 }
 *string=i;
 return 0;
 }
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A line of code is worth a thousand comments. –  n.m. Sep 30 '11 at 15:13
    
@n.m. I added the code to the main post –  cap10ibrahim Sep 30 '11 at 18:27

6 Answers 6

up vote 5 down vote accepted

In your example, your function already contains a syscall, so the relative cost of malloc/free will be virtually unmeasurable. On my system, a malloc/free "round trip" averages about 300 cycles, and the cheapest syscalls (getting the current time, pid, etc.) cost at least 2500 cycles. Expect recv to easily cost 10 times that much, in which case the cost of allocating/freeing memory will be at most about 1% of the total cost of this operation.

Of course exact timings will vary, but the rough orders of magnitude should be fairly invariant across systems. I would not even begin to consider removing malloc/free as an optimization except in functions that are purely user-space. Where it's probably actually more valuable to go without dynamic allocation is in operations that should not have failure cases - here the value is that you simplify and harden you code by not having to worry about what to do when malloc fails.

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I find it difficult to believe that your malloc/free takes only 300 cycles. Are you using a fragmented heap and including mallocs that need to bring in new memory from the OS and frees that release it? –  Zan Lynx Oct 3 '11 at 21:48
    
I'm timing free(malloc(1)); (on Linux/glibc/i686, measuring with rdtsc) when it does not need to map new memory from the OS, just reusing existing previously-freed memory. This will almost always be the common case. The only time you should worry about time to get new memory from the OS is in realtime programming where you care about the worst-case latency of any operation rather than the overall runtime of your program. –  R.. Oct 4 '11 at 0:40
1  
It would be a better test to use an array of 10-100 allocations initialized to NULL and malloc/free random allocation slots of random sizes. –  Zan Lynx Oct 4 '11 at 0:43
    
Feel free to time that yourself and post the results as a comment or an answer.. :-) –  R.. Oct 4 '11 at 1:05
    
Okay. Interesting stuff. Here's what I found for 16 random slots allocating up to 16384 bytes: tsc average loop = 247 tsc of longest loop = 833292 –  Zan Lynx Oct 4 '11 at 1:12

There is overhead associated with calling malloc and free. A block has to be allocated from the heap and marked as in use, when you free the revese happens. Not knowing what OS or complier you are using, this could be in the c library or at the OS memory managment level. Since you are doing a lot of mallocs and frees you could wind up severly fragmenting your heap where you may not have enough contiguous free memory to do a malloc elsewhere. If you can allocate just one buffer and keep reusing it, that is generally going to be faster and have less danger of heap fragmentation.

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1  
If he is allocating and freeing a fixed-size block over and over, he is almost certainly not fragmenting anything. (That does not mean there is no overhead... But fragmentation is probably not what causes it in this case.) –  Nemo Sep 30 '11 at 15:18
    
Assuming that nothing else is allocating memory from the heap in the program, and it is single threaded, I agree. Its probably the same block of memory being returned each time. However, we have no idea what else in the program is allocating from the heap, or how this particular heap manager is implemented. –  user957902 Sep 30 '11 at 18:54

I have found that malloc, realloc and free are pretty expensive. If you can avoid malloc it is better to reuse the memory that you've already got.

Edit:
It looks like I am wrong about how expensive malloc is. Some timing tests with the GNU C Library version 2.14 on Linux show that for a test that loops 100,000 times and allocates and frees 512 slots with random sizes from 1 to 163840 bytes:

tsc average loop = 408
tsc of longest loop = 294350

So wasting 408 cycles doing malloc or new in a tight inner loop would be a silly thing to do. Other than that don't bother worrying about it.

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thanks for your feedback –  cap10ibrahim Oct 7 '11 at 18:23

Only testing can tell. When programming in C I do err on the side of avoiding malloc though, since memory leaks can be quite hard to fix if you create one by accident.

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Calling multiple malloc/free can actually increase the memory used by your process (without any leaks involved), if the size passed to malloc is variable, as proven by this question:

C program memory usage - more memory reported than allocated

So the single buffer approach is probably best.

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Measure the performance of the two solutions. Either by profiling or measuring throughput. It's impossible to say anything for certain.

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