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While traversing Wikipedia following some links, I stumbled across the following code example that initializes a char buffer to 0, but then memsets it to 0 before use. Is this necessary? If so, why? The reason I ask is that I am no expert, and the example clearly states that this was the coder's intention with the comment "/* Really initialized to zeroes */" on the memset, as opposed to "/* initialized to zeroes */" on the initialization.

EDIT: Note, I've rolled back the edit on the wikipedia page that caused this, so it is no longer visible in the link.

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essencially, clean "garbage" stored for previous computations in those parts of memory allocated –  mf_ May 13 '13 at 18:00
You see examples in both directions - code that doesn't properly ensure a buffer is initialized, but doesn't run into problem due to some form of luck (I'd call it bad luck that testing didn't suss out the bug). On the other hand I often enough see code like: memset(buffer,0,sizeof(buffer));snprintf(buffer,sizeof(buffer),"foo is %d",foo); where clearing the buffer isn't necessary since it'll always get a well-formed, null terminated string. But better safe than sorry, I guess. –  Michael Burr May 13 '13 at 18:56

2 Answers 2

up vote 9 down vote accepted
char buffer[5] = {0};  /* initialized to zeroes */

/* some declaration / statements, but no access to buffer object */

memset ( buffer, 0, sizeof buffer); /* Really initialized to zeroes */

in the above code, the call to memset is totally useless. buffer is already guaranteed to be initialized to 0.

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excellent, thank you. Another reason not to blindly trust Wikipedia, I suppose –  im so confused May 13 '13 at 18:01
I don't see any way there can be any difference between initialization with { 0 } and initialization with memset() for a char array, but, for other types, there can be one on exotic systems where 0.0 is not represented with all bits zero, the null pointer one gets by writing 0 in a pointer context is not represented with all bits zero, … –  Pascal Cuoq May 13 '13 at 18:19
@PascalCuoq, for struct types, memset would also guarantee that padding is zeroed out. –  Jens Gustedt May 13 '13 at 19:45
C11 also guarantees padding is zero-filled, if I'm not mistaken. –  R.. May 13 '13 at 21:46

Following up on ouah's answer. If you have

char buffer[5] = { 0 } ;

int main(int argc, char **argv)
    memset ( buffer, 0, sizeof buffer);

There might be one exception: If you really do low level C programming (without an operating system) and your C program is called directly without a fully working environment, then the buffer array might not be initialized correctly in this case, because the necessary initialization code (the code running before main) is missing.

In this case it's the other way round: The initialization is useless (because it does not work in this particular environment) and the memset is necessary.

But as I said: This really only happens with extreme low level C programming and is actually a bug in the environment, which gives you a non-C conforming environment.

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thank you for this insight - though I was aware of non-standard-conforming C environments, I didn't realize there existed some that would fail to do what was explicitly asked. –  im so confused May 13 '13 at 20:23
I think this answer is bordering on harmful FUD. A decade or so ago, everybody held all kinds of unsubstantiated beliefs about how widely C implementations could vary, and you'd regularly find hacks to be "portable" to implementations that either never existed to begin with or were long-since obsolete, and which would not have been C implementations (but rather an ugly C-like language) even if they did exist. Bringing back this kind of doubt is not progress. Unless you're aware of specific interesting targets that don't properly initialize objects, speculation like this is not helpful. –  R.. May 13 '13 at 21:45
@R.. Well: If you ever need to write parts of a boot loader in C (like I had to not too long ago), you REALLY should know what I wrote above. It's certainly not FUD, if you have to write on that low level you usually write your own linker scripts and that in turn might mean you simply do not have any "standard" initialization code... –  Ingo Blackman May 14 '13 at 3:31
The code in question has nothing to do with program initialization. The array in the question has automatic storage duration, and as such, the compiler is responsible for generating code that zero-fills it on every invocation of the function. –  R.. May 14 '13 at 3:33
Ok I get it: I did not see the mentioned code in which the buffer[5] = {0} is actually inside a function. I just saw the first answer and assumed that the code is outside a function, which is to what my answer was referring to. I will edit this... –  Ingo Blackman May 14 '13 at 3:39

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