memcpy() vs memmove()

╄→гoц情女王★ 提交于 2019-11-26 11:03:38
developmentalinsanity

I'm not entirely surprised that your example exhibits no strange behaviour. Try copying str1 to str1+2 instead and see what happens then. (May not actually make a difference, depends on compiler/libraries.)

In general, memcpy is implemented in a simple (but fast) manner. Simplistically, it just loops over the data (in order), copying from one location to the other. This can result in the source being overwritten while it's being read.

Memmove does more work to ensure it handles the overlap correctly.

EDIT:

(Unfortunately, I can't find decent examples, but these will do). Contrast the memcpy and memmove implementations shown here. memcpy just loops, while memmove performs a test to determine which direction to loop in to avoid corrupting the data. These implementations are rather simple. Most high-performance implementations are more complicated (involving copying word-size blocks at a time rather than bytes).

rxantos

The memory in memcpy cannot overlap or you risk undefined behaviour, while the memory in memmove can overlap.

char a[16];
char b[16];

memcpy(a,b,16);           // valid
memmove(a,b,16);          // Also valid, but slower than memcpy.
memcpy(&a[0], &a[1],10);  // Not valid since it overlaps.
memmove(&a[0], &a[1],10); // valid. 

Some implementations of memcpy might still work for overlapping inputs but you cannot count of that behaviour. While memmove must allow for overlapping.

Just because memcpy doesn't have to deal with overlapping regions, doesn't mean it doesn't deal with them correctly. The call with overlapping regions produces undefined behavior. Undefined behavior can work entirely as you expect on one platform; that doesn't mean it's correct or valid.

Neilvert Noval

Both memcpy and memove do similar things.

But to sight out one difference:

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

char str1[17] = "abcdef";

int main()
{

   printf( "The string: %s\n", str1 );
   memcpy( (str1+6), str1, 10 );
   printf( "New string: %s\n", str1 );

   strcpy_s( str1, sizeof(str1), "aabbcc" );   // reset string

   printf( "The string: %s\n", str1 );
   memmove( (str1+6), str1, 10 );
   printf( "New string: %s\n", str1 );

}

gives:

The string: abcdef
New string: abcdefabcdefabcd
The string: abcdef
New string: abcdefabcdef

Your demo didn't expose memcpy drawbacks because of "bad" compiler, it does you a favor in Debug version. A release version, however, gives you the same output, but because of optimization.

    memcpy(str1 + 2, str1, 4);
00241013  mov         eax,dword ptr [str1 (243018h)]  // load 4 bytes from source string
    printf("New string: %s\n", str1);
00241018  push        offset str1 (243018h) 
0024101D  push        offset string "New string: %s\n" (242104h) 
00241022  mov         dword ptr [str1+2 (24301Ah)],eax  // put 4 bytes to destination
00241027  call        esi  

The register %eax here plays as a temporary storage, which "elegantly" fixes overlap issue.

The drawback emerges when copying 6 bytes, well, at least part of it.

char str1[9] = "aabbccdd";

int main( void )
{
    printf("The string: %s\n", str1);
    memcpy(str1 + 2, str1, 6);
    printf("New string: %s\n", str1);

    strcpy_s(str1, sizeof(str1), "aabbccdd");   // reset string

    printf("The string: %s\n", str1);
    memmove(str1 + 2, str1, 6);
    printf("New string: %s\n", str1);
}

Output:

The string: aabbccdd
New string: aaaabbbb
The string: aabbccdd
New string: aaaabbcc

Looks weird, it's caused by optimization, too.

    memcpy(str1 + 2, str1, 6);
00341013  mov         eax,dword ptr [str1 (343018h)] 
00341018  mov         dword ptr [str1+2 (34301Ah)],eax // put 4 bytes to destination, earlier than the above example
0034101D  mov         cx,word ptr [str1+4 (34301Ch)]  // HA, new register! Holding a word, which is exactly the left 2 bytes (after 4 bytes loaded to %eax)
    printf("New string: %s\n", str1);
00341024  push        offset str1 (343018h) 
00341029  push        offset string "New string: %s\n" (342104h) 
0034102E  mov         word ptr [str1+6 (34301Eh)],cx  // Again, pulling the stored word back from the new register
00341035  call        esi  

This is why I always choose memmove when trying to copy 2 overlapped memory blocks.

R srinivas reddy

The difference between memcpy and memmove is that

  1. in memmove, the source memory of specified size is copied into buffer and then moved to destination. So if the memory is overlapping, there are no side effects.

  2. in case of memcpy(), there is no extra buffer taken for source memory. The copying is done directly on the memory so that when there is memory overlap, we get unexpected results.

These can be observed by the following code:

//include string.h, stdio.h, stdlib.h
int main(){
  char a[]="hare rama hare rama";

  char b[]="hare rama hare rama";

  memmove(a+5,a,20);
  puts(a);

  memcpy(b+5,b,20);
  puts(b);
}

Output is:

hare hare rama hare rama
hare hare hare hare hare hare rama hare rama

As already pointed out in other answers, memmove is more sophisticated than memcpy such that it accounts for memory overlaps. The result of memmove is defined as if the src was copied into a buffer and then buffer copied into dst. This does NOT mean that the actual implementation uses any buffer, but probably does some pointer arithmetic.

compiler could optimize memcpy, for example:

int x;
memcpy(&x, some_pointer, sizeof(int));

This memcpy may be optimized as: x = *(int*)some_pointer;

The code given in the links http://clc-wiki.net/wiki/memcpy for memcpy seems to confuse me a bit, as it does not give the same output when I implemented it using the below example.

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

char str1[11] = "abcdefghij";

void *memcpyCustom(void *dest, const void *src, size_t n)
{
    char *dp = (char *)dest;
    const char *sp = (char *)src;
    while (n--)
        *dp++ = *sp++;
    return dest;
}

void *memmoveCustom(void *dest, const void *src, size_t n)
{
    unsigned char *pd = (unsigned char *)dest;
    const unsigned char *ps = (unsigned char *)src;
    if ( ps < pd )
        for (pd += n, ps += n; n--;)
            *--pd = *--ps;
    else
        while(n--)
            *pd++ = *ps++;
    return dest;
}

int main( void )
{
    printf( "The string: %s\n", str1 );
    memcpy( str1 + 1, str1, 9 );
    printf( "Actual memcpy output: %s\n", str1 );

    strcpy_s( str1, sizeof(str1), "abcdefghij" );   // reset string

    memcpyCustom( str1 + 1, str1, 9 );
    printf( "Implemented memcpy output: %s\n", str1 );

    strcpy_s( str1, sizeof(str1), "abcdefghij" );   // reset string

    memmoveCustom( str1 + 1, str1, 9 );
    printf( "Implemented memmove output: %s\n", str1 );
    getchar();
}

Output :

The string: abcdefghij
Actual memcpy output: aabcdefghi
Implemented memcpy output: aaaaaaaaaa
Implemented memmove output: aabcdefghi

But you can now understand why memmove will take care of overlapping issue.

C11 standard draft

The C11 N1570 standard draft says:

7.24.2.1 "The memcpy function":

2 The memcpy function copies n characters from the object pointed to by s2 into the object pointed to by s1. If copying takes place between objects that overlap, the behavior is undefined.

7.24.2.2 "The memmove function":

2 The memmove function copies n characters from the object pointed to by s2 into the object pointed to by s1. Copying takes place as if the n characters from the object pointed to by s2 are first copied into a temporary array of n characters that does not overlap the objects pointed to by s1 and s2, and then the n characters from the temporary array are copied into the object pointed to by s1

Therefore, any overlap on memcpy leads to undefined behavior, and anything can happen: bad, nothing or even good. Good is rare though :-)

memmove however clearly says that everything happens as if an intermediate buffer is used, so clearly overlaps are OK.

C++ std::copy is more forgiving however, and allows overlaps: Does std::copy handle overlapping ranges?

I have tried to run same program using eclipse and it shows clear difference between memcpy and memmove. memcpy() doesn't care about overlapping of memory location which results in corruption of data, while memmove() will copy data to temporary variable first and then copy into actual memory location.

While trying to copy data from location str1 to str1+2, output of memcpy is "aaaaaa". The question would be how? memcpy() will copy one byte at a time from left to right. As shown in your program "aabbcc" then all copying will take place as below,

  1. aabbcc -> aaabcc

  2. aaabcc -> aaaacc

  3. aaaacc -> aaaaac

  4. aaaaac -> aaaaaa

memmove() will copy data to temporary variable first and then copy to actual memory location.

  1. aabbcc(actual) -> aabbcc(temp)

  2. aabbcc(temp) -> aaabcc(act)

  3. aabbcc(temp) -> aaaacc(act)

  4. aabbcc(temp) -> aaaabc(act)

  5. aabbcc(temp) -> aaaabb(act)

Output is

memcpy : aaaaaa

memmove : aaaabb

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