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After reading the following about memcpy(), I proceeded to read about memmove():

To avoid overflows, the size of the arrays pointed by both the destination and source parameters, shall be at least num bytes, and should not overlap (for overlapping memory blocks, memmove is a safer approach).(LINK)

And after checking the program used to illustrate the working of memmove() I decided to tweak it by using memcpy() instead to see how different is the output.To my surprise,they are the same even if it's a case of overlapping memory blocks.Here is the program and the output,and I have proceeded to describe my confusion after that:

#include <stdio.h>
#include <string.h>

int main ()
  char str[] = "memmove can be very useful......";
  //memmove (str+20,str+15,11);
  memcpy(str+20,str+15,11);  //Simply used memcpy instead of memmove
  puts (str);
  return 0;

Output memmove can be very very useful.

This output is the same as it is for memmove().And here are my confusions:

1) Why is output same for both?Since there is no intermediate buffer used in case of memcpy(),I expect the copy to start by copying the character in str+15 position to the str+20 position (overwriting what is there),character in str+16 position to str+21 position, and so on till character in str+20 position,which has by now changed to the character in str+15 position, to be copied to the str+25 position.But it's not so,there is no overwriting and it's acting as if an intermediate buffer is used to write the exact original string.Here's an illustration:

memmove can be very useful......  //Original positions before memcopy
               ^    ^
            str+15  str+20

memmove can be very vseful......
                    ^ copies str+15 to str+20

memmove can be very veeful......
                     ^ copies str+16 to str+21
memmove can be very verful......
                      ^ copies str+17 to str+22
memmove can be very veryul......
                       ^copies str+18 to str+23
memmove can be very very l......
                        ^ copies str+19 to str+24
memmove can be very very v......
                         ^ I expect 'v' to be copied from str+20 to str+25
                           as str+20  now has 'v',not 'u'
memmove can be very very ve.....
                          ^ I expect 'e' to be copied from str+21 to str+26 
                            as str+21 now has 'e' not 's'

Then why is memcpy() copying it as memmove can be very very useful, instead of memmove can be very very very v ?

2) Now a minor secondary question arising from it.The following is said about memmove() (LINK)

Copying takes place as if an intermediate buffer were used, allowing the destination and source to overlap.

What exactly is as if here?Isn't an intermediate buffer really used for memmove()?

share|improve this question
@Koushik Not undefined.Unless an intermediate buffer is used,I really expect the character at str+20 to be overwritten. – Rüppell's Vulture May 14 '13 at 5:36
"Unless an intermediate buffer" it will be implementation defined. really cant tell. – Koushik Shetty May 14 '13 at 5:37
@Koushik Since the second parameter of memcpy is a constant,why are we even allowed to write onto that without generating errors for memcpy()? – Rüppell's Vulture May 14 '13 at 5:41
compiler has no way of knowing which memory you are accessing. it only has the pointer to the source. you are saying that the source wont be modified by decalring the second parameter as const but you break the promise soo after which compiler cant help.so doing anything to a const declared location is UB(even if the const location is not read only) – Koushik Shetty May 14 '13 at 5:48
you can do this const int i = 10; ......int *ptr = &i;..*ptr = 100;..printf("%d",i). which is UB. but i broke the covenant. compiler warns but i can do it. you cant even be sure wherther it will print – Koushik Shetty May 14 '13 at 5:52
up vote 5 down vote accepted

If the objects overlap, the behaviour of memcpy is undefined. There's little point in trying to reason about undefined behaviour. Since it is undefined it defies reason. You know the rules, and they are clearly documented. If the objects overlap, use memmove.

As for the use of "as if", that is to specify behaviour but not place any limitations on implementation. This allows the library implementor to use whatever method they see fit, so long as the end result is the same as using an intermediate buffer. For example, the implementation could detect that the objects do not overlap and so avoid using an intermediate buffer for performance reasons.

share|improve this answer
The prototype of memcpy() is void * memcpy ( void * destination, const void * source, size_t num ).ie, the source is supposed to be a constant.Why then memcpy() even let the source string be altered/written onto? – Rüppell's Vulture May 14 '13 at 5:39
@Rüppell'sVulture, The documentation clearly says that it does not check for overlaps so you should not pass overlapping buffers so the const makes sense. – perreal May 14 '13 at 5:41
@perreal Why aren't we warned or get an error that we are trying to change the value of a constant? – Rüppell's Vulture May 14 '13 at 5:42
It's UB for source and dest to overlap. And the onus on you is to obey the contract and not pass overlapping objects. One of the goals of the C standard library is to provide high performance code. And this is achieved in this case by making the programmer guarantee pre-conditions rather than the library function spending time checking pre-conditions. – David Heffernan May 14 '13 at 5:43
@Rüppell'sVulture, because you are passing in pointers, it cannot warn you without checking it online which is the reason why it is undefined. – perreal May 14 '13 at 5:43

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