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I am facing today with a problem where I need to change memory to a certain pattern like 0x11223344, so that the whole memory looks like (in hex):


I can't figure out how to do it with memset() because it takes only a single byte, not 4 bytes.

Any ideas?

Thanks, Boda Cydo.

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up vote 3 down vote accepted

An efficient way would be to cast the pointer to a pointer of the needed size in bytes (e.g. uint32_t for 4 bytes) and fill with integers. It's a little ugly though.

char buf[256] = { 0, };
uint32_t * p = (uint32_t *) buf, i;

for(i = 0; i < sizeof(buf) / sizeof(* p); ++i) {
        p[i] = 0x11223344;

Not tested!

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The one thing to be aware of is that buf might not satisfy the alignment requirements for a uint32_t on your platform. If buf is the result of a malloc, you don't need to worry about this, but if it's (say) passed in as an argument by code you don't control, you'll need to check the alignment before you write to it in this fashion, or else this will result in invalid accesses on some platforms. – Stephen Canon Jul 27 '10 at 16:41
Another thing to watch for may be endianness, if this is run on a little endian computer and the filling and reading are done using types with different sizes (ie. filling with int but reading with char) – Laurent Parenteau Jul 27 '10 at 19:32
This is not very efficient; using memmove() as in my example is much, much faster because it uses special assembler ops and hand-optimized code. – Aaron Digulla Jul 28 '10 at 9:50
You can still optimzed the code. For example you can use pointer arithmetic instead of the loop variable. I chose the example above to make the actual point of it clearer. – jkramer Jul 28 '10 at 13:05
@Aaron Digulla: that claim depends on a lot of things: for small buffers, for example, you're going to get slaughtered by function call overhead making repeated small calls to memmove( ). For "typical" buffers, your solution will probably be faster on most platforms with a well-optimized library, but for truly huge buffers, your solution will asymptotically take twice as many page faults and be very nearly 2x slower on most platforms. – Stephen Canon Jul 28 '10 at 15:59

On OS X, one uses memset_pattern4( ) for this; I would expect other platforms to have similar APIs.

I don't know of a simple portable solution, other than just filling in the buffer with a loop (which is pretty darn simple).

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I forgot I could use loop. Thanks for reminding. Trying it with loop now. – bodacydo Jul 27 '10 at 15:18
@bodacydo: lol. literally. happens to all of us :( – aib Jul 27 '10 at 16:17

Recursively copy the memory, using the area which you already filled as a template per iteration (O(log(N)):

int fillLen = ...;
int blockSize = 4; // Size of your pattern

memmove(dest, srcPattern, blockSize);
char * start = dest;
char * current = dest + blockSize;
char * end = start + fillLen;
while(current + blockSize < end) {
    memmove(current, start, blockSize);
    current += blockSize;
    blockSize *= 2;
// fill the rest
memmove(current, start, (int)end-current);

[EDIT] What I mean with "O(log(N))" is that the runtime will be much faster than if you fill the memory manually since memmove() usually uses special, hand-optimized assembler loops that are blazing fast.

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It's O(log(n)) calls to memmove; the actual complexity is still O(n). – Stephen Canon Jul 27 '10 at 15:39

If your pattern fits in a wchar_t, you can use wmemset() as you would have used memset().

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You could set up the sequence somewhere then copy it using memcpy() to where you need it.

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Well, the normal method of doing that is to manually setup the first four bytes, and then memcpy(ptr+4, ptr, len -4)

This copies the first four bytes into the second four bytes, then copies the second four bytes into the third, and so on.

Note, that this "usually" works, but is not guarenteed to, depending on your CPU architecture, and your C run-time library.

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The behavior of memcpy is undefined if the source and destination buffers overlap. This will probably work on some platforms, but it will certainly not work on many others. – Stephen Canon Jul 27 '10 at 15:18
This will overwrite the first four bytes with whatever is in the second four bytes. Further, memcpy should not be used with overlapping ranges. – bstpierre Jul 27 '10 at 15:20
Are you commenting on my original or editted message. memcpy is (dest, src, len), which I have correct now. (I had it backward initially, but I though I had it fixed before your comment) – James Curran Jul 27 '10 at 15:39
I was commenting on the original -- see that you fixed the order now. (I'd remove the downvote but you'd need to edit to unlock it) – bstpierre Jul 27 '10 at 16:40
IF you are just doing this for 4 bytes, you'd be better off speed wise with a straight *iPtr++ = dwordValue than a call to memcpy. memcpy is only faster once you get above N bytes. N being more than 4. Can't remember the value, but did some tests on it a few years back. – Stephen Kellett Jul 28 '10 at 10:36

Using "memcpy" or "memset" maybe not the efficient method.

Don't giving up using loops such as "for" or "while", When lib-defined function does the same.

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