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char * s;
s[400] = 'd';

If it's not undefined behavior, then does it means I can't arbitrarily access any part of my RAM outside the stack ? So each time an OS start a processus, it allocates a region of RAM where I can do nasty stuff (except mallocs), since the OS will clean the stack after the process finishes.

Why isn't the OS able to clean the heap after the process ends ? Does it mean the heap is shared with all other processes ?

If I put too much data in the stack, it is a buffer overflow, but how much can I put in a stack ? Is it OS bound, RAM-size bound, or CPU-cache bound ?

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"undefined behavior" doesn't mean that you can't access it. It means that anything may happen if you do. –  Pascal Cuoq Aug 27 '11 at 0:20

2 Answers 2

up vote 5 down vote accepted

Yes, its behavior is undefined.

s is not initialized, so s[400] is, at best, some indeterminate location in memory.

EDIT:

The last three paragraphs of your question have little or nothing to do with the two lines of code that we've been discussing. The undefinedness of s[400] = 'd'; has little or nothing to do with stacks, heaps, processes, or anything else. s is uninitialized, so it contains garbage; it may point anywhere in memory, or nowhere. s[400] is, at best, a char object located 400 bytes beyond the undefined location specified by the garbage address stored is s.

If you understand that, you probably still have questions. I suggest posting a new question without the code sample.

To partially answer some of what you've asked:

Your program may not legitimately attempt to access any memory that's not part of an object it has created (either by with an object definition like char foo[1000]; or by an allocation like char *ptr = malloc(1000);). In a particular implementation, there might be some region of memory outside any declared objects that you could get away with playing with, but there is no safe or portable way to do so -- and no good reason. If you need to access some memory, allocate it first.

The C language itself doesn't even refer to the "stack" or the "heap"; those are implementation details.

No, the heap is not typically shared between processes. Generally, all stack-allocated and heap-allocated memory is neatly reclaimed by the operating system when your program finishes. (The C standard doesn't say this, since it only barely concerns itself with what happens outside the execution of your program, but it's almost universally true, except perhaps in some embedded systems.)

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yes but it's the stack not the heap... –  jokoon Aug 27 '11 at 0:01
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@gokoon: that's not the stack, that might be anything. BTW, s[400] == *(s + 400) –  BlackBear Aug 27 '11 at 0:03
    
@gokoon: s is a pointer object. If you declared it inside a function, it's located on the stack (leaving aside some details). What's relevant to the following statement, s[400] = 'd';, is the address that s points to. Since you didn't initialize it, s contains garbage, which means that s could point anywhere in memory, or nowhere (its contents might not even be a valid pointer). s[400] is a char object 400 bytes past whatever undefined location s does or does not pointer to. Attempting to modify s[400] is about as undefined as you can get. –  Keith Thompson Aug 27 '11 at 0:26

Yes that's undefined behavior since it doesn't point to an allocated block of memory for your application.

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It very well could point to an allocated block of memory, just by sheer coincidence. That's what's so insidious about undefined behavior; it could happen to behave just as you expect (whatever your unrealistic expectations might be). –  Keith Thompson Aug 27 '11 at 0:28

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