Defined in header <string.h> | ||
---|---|---|
(1) | ||
void* memcpy( void *dest, const void *src, size_t count ); | (until C99) | |
void* memcpy( void *restrict dest, const void *restrict src, size_t count ); | (since C99) | |
errno_t memcpy_s( void *restrict dest, rsize_t destsz, const void *restrict src, rsize_t count ); | (2) | (since C11) |
count
characters from the object pointed to by src
to the object pointed to by dest
. Both objects are interpreted as arrays of unsigned char
.restrict
contract) (since C99), the behavior is undefined. The behavior is undefined if either dest
or src
is a null pointer.[dest, dest+destsz)
to be zeroed out (if both dest
and destsz
are valid), as well as call the currently installed constraint handler function: dest
or src
is a null pointer destsz
or count
is greater than RSIZE_MAX
count
is greater than destsz
(buffer overflow would occur) dest
< count
<= destsz
; in other words, an erroneous value of destsz
does not expose the impending buffer overflow. As all bounds-checked functions, memcpy_s
is only guaranteed to be available if __STDC_LIB_EXT1__
is defined by the implementation and if the user defines __STDC_WANT_LIB_EXT1__
to the integer constant 1
before including string.h
.dest | - | pointer to the object to copy to |
destsz | - | max number of bytes to modify in the destination (typically the size of the destination object) |
src | - | pointer to the object to copy from |
count | - | number of bytes to copy |
dest
dest
is not a null pointer and destsz
is valid, writes destsz
zero bytes in to the destination array.memcpy
may be used to set the effective type of an object obtained by an allocation function.
memcpy
is the fastest library routine for memory-to-memory copy. It is usually more efficient than strcpy
, which must scan the data it copies or memmove
, which must take precautions to handle overlapping inputs.
Several C compilers transform suitable memory-copying loops to memcpy
calls.
Where strict aliasing prohibits examining the same memory as values of two different types, memcpy
may be used to convert the values.
#define __STDC_WANT_LIB_EXT1__ 1 #include <stdio.h> #include <stdint.h> #include <inttypes.h> #include <string.h> #include <stdlib.h> int main(void) { // simple usage char source[] = "once upon a midnight dreary...", dest[4]; memcpy(dest, source, sizeof dest); for(size_t n = 0; n < sizeof dest; ++n) putchar(dest[n]); // setting effective type of allocated memory to be int int *p = malloc(3*sizeof(int)); // allocated memory has no effective type int arr[3] = {1,2,3}; memcpy(p,arr,3*sizeof(int)); // allocated memory now has an effective type // reinterpreting data double d = 0.1; // int64_t n = *(int64_t*)(&d); // strict aliasing violation int64_t n; memcpy(&n, &d, sizeof d); // OK printf("\n%a is %" PRIx64 " as an int64_t\n", d, n); #ifdef __STDC_LIB_EXT1__ set_constraint_handler_s(ignore_handler_s); char src[] = "aaaaaaaaaa"; char dst[] = "xyxyxyxyxy"; int r = memcpy_s(dst,sizeof dst,src,5); printf("dst = \"%s\", r = %d\n", dst,r); r = memcpy_s(dst,5,src,10); // count is greater than destsz printf("dst = \""); for(size_t ndx=0; ndx<sizeof dst; ++ndx) { char c = dst[ndx]; c ? printf("%c", c) : printf("\\0"); } printf("\", r = %d\n", r); #endif }
Possible output:
once 0x1.999999999999ap-4 is 3fb999999999999a as an int64_t dst = "aaaaayxyxy", r = 0 dst = "\0\0\0\0\0yxyxy", r = 22
(C11) | moves one buffer to another (function) |
(C95)(C11) | copies a certain amount of wide characters between two non-overlapping arrays (function) |
C++ documentation for memcpy |
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