# How can I concatenate two arrays in C?

How do I concatenate two arrays to get a single array containing the elements of both original arrays?

-
Yeah... Since both answers appear to be responding to the "concatenation" interpretation, and the OP hasn't returned to clarify, I've edited the question to reflect this. – Shog9 Nov 8 '09 at 20:48

Arrays in C simply are a contiguous area of memory, with a pointer to their start*. So merging them involves:

1. Find the length of the arrays A and B, (you will probably need to know the number of elements and the sizeof each element)
2. Allocating (malloc) a new array C that is the size of A + B.
3. Copy (memcpy) the memory from A to C,
4. Copy the memory from B to C + the length of A (see 1).
5. You might want also to de-allocate (free) the memory of A and B.

Note that this is an expensive operation, but this is the basic theory. If you are using a library that provides some abstraction, you might be better off. If A and B are more complicated then a simple array (e.g. sorted arrays), you will need to do smarter copying then steps 3 and 4 (see: how do i merge two arrays having different values into one array).

• Although for the purpose of this question, the pointer explanation will suffice, strictly speaking (and for pacifying the commenter below): C has the concept of an array, that can be used without the syntax of pointers. Implementation wise, however, a C array and a contiguous area of memory, with a pointer are close enough they can be, and often are, used interchangeably.
-
Where did "...with a pointer to their start..." come from? When I declare int a[10] I get a contiguous area of memory with 10 int in it and no pointers whatsoever. – AnT Nov 8 '09 at 17:30
@AndreyT: a is your pointer. You appear to be aware of this in your comment on the other answer... – Shog9 Nov 8 '09 at 20:45
@Shog9: a is not a pointer. a is an array. When the array type decays to pointer type, the resultant pointer is just an intermediate temporary value, which has nothing to do with a. Wnat the post above states is incorrect, unless it talks specifically about malloced arrays. – AnT Nov 8 '09 at 20:53
A bit pedantic, eh? For the purpose of the algorithm described, it makes no difference (apart from the necessity of skipping step #5 in the case of stack-based arrays). – Shog9 Nov 8 '09 at 21:43
Stating that array is not a pointer is not even remotely pedantic. This is a rather popular and annoying misconception, so having it promoted here is definitely not a good idea. – AnT Nov 9 '09 at 6:18

Generally speaking, in plain C, you can't merge two arrays.

The issue is that C does not really have arrays at all. The a[b] notation is only syntactic sugar for point addition and dereference: *(a + b). The variable a is only a pointer, so it does not record the array length, so concatenation is not possible.

So, how do we get the array length? Another question that needs answer is how should the new array be allocated?

-
Incorrect. C does have array objects. When array obejects are used in expressions, the array type "decays" to pointer type most (but not all) of the time. This, however, does not mean in any way that C really has no arrays at all. – AnT Nov 8 '09 at 17:32
... and if object a is declared as an array, object a (more precisely - its type) does "record" the array length, of course. – AnT Nov 8 '09 at 17:34
AndreyT: Can you provide a reference to back this claim? In C++ STL, sure there is an array<> class template. But not in plain C to the best of my knowledge, and according to The C Programming Language 2nd Edition. – ddaa Nov 9 '09 at 11:05
AndreyT is right about this. In most a[b] expressions you can consider it to be syntactic sugar, but what about declarations? When I declare int a[10]; then C is creating an array object, of size 10 * sizeof(int), as a first class citizen. The compiler knows how big the array is, and generates code that allocates that much space. – Bill Forster Nov 9 '09 at 23:01
When I read "array type" I assume a data structure that records its length. In C, the size of an array is part of the declaration. When you pass an array pointer to a subroutine, the size needs to be provided as an additional parameter. In my mind, "int a[10];" always meant "allocate 10 ints of automatic/static/struct memory and define a as the pointer to the first element". That's a pointer and some memory. Not an array object. – ddaa Nov 12 '09 at 23:17