53

Is memset() more efficient than for loop.

Considering this code:

char x[500];
memset(x,0,sizeof(x));

And this one:

char x[500];
for(int i = 0 ; i < 500 ; i ++) x[i] = 0;

Which one is more efficient and why? Is there any special instruction in hardware to do block level initialization.

12
  • 17
    Yes. No. Maybe. It depends. The only way to get a useful answer is to analyze and profile it in your environment. Which one is faster on my compiler, in my program, on my computer, tells you nothing useful.
    – Robᵩ
    Sep 9, 2011 at 21:34
  • 2
    Why bother investigating? Unless there is data to show otherwise (you are failing your perf goals and investigation points to this section of code), this piece of code is likely not a hotspot, and you should just go for as simple, readable, and maintainable code possible.
    – Michael
    Sep 9, 2011 at 21:54
  • 3
    If you have a compiler that doesn't substitute that loop with memset() then you should find another compiler. Sep 9, 2011 at 22:00
  • 2
    @Chris: Ummmm.... they should probably learn then. I guess I'm a 27 year old dinosaur, but I have a problem with so-called "engineers" who can't read basic assembly... I don't mean to imply that one shouldn't use a profiler, but for such a trivial comparison it should be unnecessary.
    – Ed S.
    Sep 9, 2011 at 22:07
  • 2
    @Chris: And that is why so many web guys (and gals) that I have come into contact with write applications that are much slower than they should be. Not necessarily because they can't read assembly, but because they never really learned the performance characteristics of the data structures they use and how their high level code may be executed when it is turned into machine code. I digress though, that's a discussion for another place and time.
    – Ed S.
    Sep 9, 2011 at 22:11

7 Answers 7

44

Most certainly, memset will be much faster than that loop. Note how you treat one character at a time, but those functions are so optimized that set several bytes at a time, even using, when available, MMX and SSE instructions.

I think the paradigmatic example of these optimizations, that go unnoticed usually, is the GNU C library strlen function. One would think that it has at least O(n) performance, but it actually has O(n/4) or O(n/8) depending on the architecture (yes, I know, in big O() will be the same, but you actually get an eighth of the time). How? Tricky, but nicely: strlen.

15
  • 4
    Any optimizing compiler will replace the for loop with an optimal sequence (which may be a call to memset). Sep 9, 2011 at 21:42
  • Also, for it to be "much faster" is not guaranteed, even if the compiler emits sub-optimal code for the loop. 500 is not really that high of a number, and if a soft or hard page fault is incurred, that will greatly outweigh the cost of the loop itself.
    – Michael
    Sep 9, 2011 at 21:45
  • 2
    @Stephen Canon: Heh. I was compiling a C library with clang/LLVM and it replaced the library's memset for loop with a call to memset. Oops! Deep recursion. Sep 9, 2011 at 21:51
  • 1
    @Diego it's not a question of 500/8 assigns being slower or faster than 500 assigns to 0. Micro-benchmarks like this are rarely useful due to other effects in the system. On a modern processor, the difference between only the comparisons will probably be on the order of 62 cycles versus 500 cycles. What I'm suggesting is if you incur a hard page fault on the order of 10 million cycles while running the code, the 438 cycles you saved are just noise.
    – Michael
    Sep 9, 2011 at 22:00
  • 2
    @Richard Pennington: -fno-builtin-memset. Sep 9, 2011 at 22:30
37

Well, why don't we take a look at the generated assembly code, full optimization under VS 2010.

char x[500];
char y[500];
int i;      

memset(x, 0, sizeof(x) );   
  003A1014  push        1F4h  
  003A1019  lea         eax,[ebp-1F8h]  
  003A101F  push        0  
  003A1021  push        eax  
  003A1022  call        memset (3A1844h)  

And your loop...

char x[500];
char y[500];
int i;    

for( i = 0; i < 500; ++i )
{
    x[i] = 0;

      00E81014  push        1F4h  
      00E81019  lea         eax,[ebp-1F8h]  
      00E8101F  push        0  
      00E81021  push        eax  
      00E81022  call        memset (0E81844h)  

      /* note that this is *replacing* the loop, 
         not being called once for each iteration. */
}

So, under this compiler, the generated code is exactly the same. memset is fast, and the compiler is smart enough to know that you are doing the same thing as calling memset once anyway, so it does it for you.

If the compiler actually left the loop as-is then it would likely be slower as you can set more than one byte size block at a time (i.e., you could unroll your loop a bit at a minimum. You can assume that memset will be at least as fast as a naive implementation such as the loop. Try it under a debug build and you will notice that the loop is not replaced.

That said, it depends on what the compiler does for you. Looking at the disassembly is always a good way to know exactly what is going on.

5
  • Interesting, my version did not result in the loop being converted to memset, but that is probably because for my test, the loop operated on a global (otherwise the entire loop was removed as being unnecessary.)
    – Michael
    Sep 9, 2011 at 21:53
  • @Michael: I added a couple of calls to printf using x and y to ensure that they weren't completely optimized away as they are unused. It is of course compiler and platform dependent to some degree, but any half way decent optimizing compiler should get rid of the loop with optimizations turned on.
    – Ed S.
    Sep 9, 2011 at 22:06
  • even memset() vs array initialization (Ex: a[n]={0}) takes same code it looks. Advantage of of memset is that array size can be a variable, which is not possible with initialization. Am I right?
    – Rajesh
    Jun 21, 2020 at 12:39
  • How do you inspect the "disassembly". Oct 22, 2020 at 3:36
  • @young_souvlaki: In VS? docs.microsoft.com/en-us/visualstudio/debugger/…
    – Ed S.
    Nov 13, 2020 at 17:29
13

It really depends on the compiler and library. For older compilers or simple compilers, memset may be implemented in a library and would not perform better than a custom loop.

For nearly all compilers that are worth using, memset is an intrinsic function and the compiler will generate optimized, inline code for it.

Others have suggested profiling and comparing, but I wouldn't bother. Just use memset. Code is simple and easy to understand. Don't worry about it until your benchmarks tell you this part of code is a performance hotspot.

9

The answer is 'it depends'. memset MAY be more efficient, or it may internally use a for loop. I can't think of a case where memset will be less efficient. In this case, it may turn into a more efficient for loop: your loop iterates 500 times setting a bytes worth of the array to 0 every time. On a 64 bit machine, you could loop through, setting 8 bytes (a long long) at a time, which would be almost 8 times quicker, and just dealing with the remaining 4 bytes (500%8) at the end.

EDIT:

in fact, this is what memset does in glibc:

http://repo.or.cz/w/glibc.git/blob/HEAD:/string/memset.c

As Michael pointed out, in certain cases (where the array length is known at compile time), the C compiler can inline memset, getting rid of the overhead of the function call. Glibc also has assembly optimized versions of memset for most major platforms, like amd64:

http://repo.or.cz/w/glibc.git/blob/HEAD:/sysdeps/x86_64/memset.S

2
  • I can think of a situation where memset will be less efficient: a compiler that can't inline (well).
    – orlp
    Sep 9, 2011 at 21:53
  • I imagine if both the second two arguments were known at compile time most humans would be hard pressed to equal the compiler generated code.
    – Chris Lutz
    Sep 9, 2011 at 21:54
3

Good compilers will recognize the for loop and replace it with either an optimal inline sequence or a call to memset. They will also replace memset with an optimal inline sequence when the buffer size is small.

In practice, with an optimizing compiler the generated code (and therefore performance) will be identical.

3
  • Can you provide a citation?
    – Translunar
    Dec 10, 2015 at 16:24
  • Try it and see with any good optimizing compiler (e.g. goo.gl/2mWsxq). I'm not sure what there is to "cite" here. Dec 10, 2015 at 17:50
  • Academic citations are always important, even if just grey literature.
    – Patrick
    Jan 18, 2020 at 11:08
2

Agree with above. It depends. But, for sure memset is faster or equal to the for-loop. If you are uncertain of your environment or too lazy to test, take the safe route and go with memset.

1
  • Please specify which one you mean by "above."
    – Translunar
    Dec 10, 2015 at 16:25
1

Other techniques like loop unrolling which reduce the number of loops can also be used. The code of memset() can mimic the famous duff's device:

void *duff_memset(char *to, int c, size_t count)
{
    size_t n;
    char *p = to;
    n = (count + 7) / 8;
    switch (count % 8) {
    case 0: do { *p++ = c;
    case 7:      *p++ = c;
    case 6:      *p++ = c;
    case 5:      *p++ = c;
    case 4:      *p++ = c;
    case 3:      *p++ = c;
    case 2:      *p++ = c;
    case 1:      *p++ = c;
            } while (--n > 0);
    }
    return to;
}

Those tricks used to enhancing the execution speed in the past. But on modern architectures this tends to increase the code size and increase cache misses.

So, it is quite impossible to say which implementation is faster as it depends on the quality of the compiler optimizations, the ability of the C library to take advantage of special hardware instructions, the amount of data you are operating on and the features of the underlying operating system (page faults management, TLB misses, Copy-On-Write).

For example, in the glibc, the implementation of memset() as well as various other "copy/set" functions like bzero() or strcpy() are architecture dependent to take advantage of various optimized hardware instructions like SSE or AVX.

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.