# Concatenating 2 arrays without memcpy

Suppose I ve

``````int *a,*b;
a= malloc(5*sizeof(int));
b= malloc(5*sizeof(int));
``````

and subsequently assign values.

Let a - 1, 2, 3, 4, 5
b - 6, 7, 8, 9, 10

Is there a method to concatenate both these malloced arrays without using further `malloc`,`realloc` or `memcpy`? There shud not be a malloc of 10 locations!

I must be able to get `a[8]=9` after executing, without the overhead of moving the arrays. The language is C

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Your question is meaningless. If you want to allocate 10 adjacent cells, why aren't you doing exactly that? –  EJP Feb 7 '12 at 9:17
@EJP This is a simplified form of my prob. I ve task of combining 2 sets of data whose sizes are guided by some other factors. –  tss Feb 7 '12 at 9:25
Your question remains meaningless. `malloc()` allocates a new block of memory. A 2nd `malloc()` allocates another one. If you want them to be contiguous, allocate them both at the same time. There is no other answer. –  EJP Feb 8 '12 at 9:18

If you don't need strict array indexing, you could make a pseudo-linked-list (I know there's a name for this data type but I can't remember it right now):

``````struct listish {
int *arr
size_t size;
struct listish *next;
};
``````

The "indexing" function would look like this:

``````int *index(struct listish *list, size_t i)
{
if(list == NULL) return NULL; // index out of bounds
if(i < list->size) return list->arr + i; // return a pointer to the element
else return index(list->next, i - list->size); // not in this array - go to next node
}
``````

The idea is to combine the in-place reordering of a linked list with the contiguous space of an array. In this case, `index(list, 4)` would return `&a[4]`, and `index(list, 5)` would return `&b[0]`, simulating continuous indexing without reallocating and moving your entire array - all you need to do is allocate a few small `struct listish` objects and set them up properly, a task I leave to you.

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+1 Wow, real nice :-) –  cnicutar Feb 7 '12 at 10:46
@Chris Lutz,Thank you ! :) –  tss Feb 8 '12 at 4:49
@tss - If you want more info, the name of this data structure appears to be an unrolled linked list, though this is a slight variation that uses externally-managed arrays. Still, same concept. –  Chris Lutz Feb 8 '12 at 5:23
``````a= malloc(5*sizeof(int));
``````

You only allocated 5 ints to a, so no, you can't do it without some form or memory allocation (`malloc` / `realloc`), since `a[8]` would be illegal to begin with.

I must be able to get a[8]=9 after executing, without the overhead of moving the arrays

Since since you are working with contiguous memory regions (which you are calling arrays) you will always have some overhead when moving elements around. If you don't need to access elements by their indexes just use linked lists.

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By overhead I mean, doing a malloc of 10 locations, copying the elements from a and b and subsequently freeing the initial locations. –  tss Feb 7 '12 at 9:14
@tss Yeah, I know what you mean. Can't be done. –  cnicutar Feb 7 '12 at 9:15

What you ask can't be done.

You have, maybe, another option.
Just allocate space for 10 values, and make `b` point to the correct element

``````int *a = malloc(10 * sizeof *a);
/* error checking missing */
int *b = a + 5;

a[0] = 1; a[1] = 2; a[2] = 3; a[3] = 4; a[4] = 5;
b[0] = 6; b[1] = 7; b[2] = 8; b[3] = 9; b[4] = 10;

printf("a[8] is %d\n", a[8]);
``````
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