how can i know the allocated memory size of pointer variable in c [duplicate]
I have faced some problem in this case can you please your ideas.
main()
{
char *p=NULL;
p=(char *)malloc(2000 * sizeof(char));
printf("size of p = %d\n",sizeof (p));
}
In this program Its print the 4 that (char *) value,but i need how many bytes allocated for that.
You could also implement a wrapper for malloc and free to add tags (like allocated size and other meta information) before the pointer returned by malloc. This is in fact the method that a c++ compiler tags objects with references to virtual classes. Here is one working example:
#include <stdlib.h>
#include <stdio.h>
void * my_malloc(size_t s)
{
size_t * ret = malloc(sizeof(size_t) + s);
*ret = s;
return &ret[1];
}
void my_free(void * ptr)
{
free( (size_t*)ptr - 1);
}
size_t allocated_size(void * ptr)
{
return ((size_t*)ptr)[-1];
}
int main(int argc, const char ** argv) {
int * array = my_malloc(sizeof(int) * 3);
printf("%u\n", allocated_size(array));
my_free(array);
return 0;
}
The advantage of this method over a structure with size and pointer
struct pointer
{
size_t size;
void *p;
};
is that you only need to replace the malloc and free calls. All other pointer operations require no refactoring.
There is no portable way but for windows:
#include <stdio.h>
#include <malloc.h>
#if defined( _MSC_VER ) || defined( __int64 ) /* for VisualC++ or MinGW/gcc */
#define howmanybytes(ptr) ((unsigned long)_msize(ptr))
#else
#error no known way
#endif
int main()
{
char *x=malloc(1234);
printf( "%lu", howmanybytes(x) );
return 0;
}
Although it may be possible that some libraries allows you to determine the size of an allocated buffer, it wouldn't be a standard C function and you should be looking at your library's own documentations for this.
However, if there are many places that you need to know the size of your allocated memory, the cleanest way you could do it is to keep the size next to the pointer. That is:
struct pointer
{
size_t size;
void *p;
};
Then every time you malloc
the pointer, you write down the size in the size
field also. The problem with this method however is that you have to cast the pointer every time you use it. If you were in C++, I would have suggested using template classes. However, in this case also it's not hard, just create as many structs as the types you have. So for example
struct charPtr
{
size_t size;
char *p;
};
struct intPtr
{
size_t size;
int *p;
};
struct objectPtr
{
size_t size;
struct object *p;
};
Given similar names, once you define the pointer, you don't need extra effort (such as casting) to access the array. An example of usage is:
struct intPtr array;
array.p = malloc(1000 * sizeof *array.p);
array.size = array.p?1000:0;
...
for (i = 0; i < array.size; ++i)
printf("%s%d", i?" ":"", array.p[i]);
printf("\n");
It is impossible to know how much memory was allocated by just the pointer. doing sizeof (p)
will get the size of the pointer variable p
which it takes at compile time, and which is the size of the pointer. That is, the memory the pointer variable takes to store the pointer variable p
. Inside p
the starting address of the memory block is stored.
Once you allocate some memory with malloc
it will return the starting address of the memory block, but the end of the block cannot be found from it, as there is no terminator for a block. You define the end of the block therefore you need to identify it by any means, so store it somewhere. Therefore you need to preserve the block length somewhere to know where the block which is pointed to by p
ends.
Note: Although the memory allocation structure keeps track of allocated and unallocated blocks, therefore we can know the allocated memory block length from these structures, but these structures are not available to be used by the users, unless any library function provides them. Therefore a code using such feature is not portable (pointed by @Rudy Velthuis) . Therefore it is the best to keep track of the structure yourself.
You need to keep track of it in a variable if you want to know it for later:
char *p = NULL;
int sizeofp = 2000*sizeof(char);
p = (char *)malloc(sizeofp);
printf("size of p = %d\n",sizeofp);
You cannot use the sizeof in this case, since p
is a pointer, not an array, but since you allocate it, you already know:
main()
{
size_t arr_size = 2000;
char *p=NULL;
p=malloc(arr_size * sizeof(char));
printf("size of p = %d\n",arr_size);
}
Edit - If the malloc fails to allocate the size you wanted, it won't give you a pointer to a smaller buffer, but it will return NULL.
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