# Vector as an argument (int**) to function

If I have function declared as, e.g.:

``````void f1(int* a);
``````

and simple vector: `std::vector<int> v` - I can use this vector as an input to this function:

``````f1(&v[0]);
``````

But what if I have function `f2`, e.g.:

``````void f2(int** a);
``````

and another vector: `std::vector<int> *v`. How can I use it with vector data?

Currently I have a dynamically allocated table, which use function `f2` (`f2(&tab,tablength)`). It works fine, but I have to additionally send `tablength`. Because I'm now changing logic of my program a little bit, I've figured I can use vectors instead of classic tables (because I need an arrays that can change in size). But I stacked. To put it in a nutshell, `f2` is a function that implements multiplying table `tab` by some constant value in `GF(2^8)`.

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Simple answer is that you can't. –  john Sep 2 '13 at 15:11

A vector and a pointer to pointer are different things. You will have to implement logic to convert from one to the other.

You will have to allocate a dynamic array and copy the data from the vector to it before passing this array as argument to `f2`. You will also have to add another argument to pass the size of the array.

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A concrete example would make it a complete answer. (Although I admit that OP hasn't provided much information...) –  LihO Sep 2 '13 at 15:12
@LihO example of what? –  Ivaylo Strandjev Sep 2 '13 at 15:12
Yah, example of "implementing logic to convert from one to the other" was what I meant. You've already edited it though :) –  LihO Sep 2 '13 at 15:28

You COULD do :

``````int *p = &(*v)[0];

f2(&p);
``````

however, that is PROBABLY not what you want to do. Unfortunately, without understanding how `f2` actually uses the `int **a` argument, it's hard to say what is the right thing to do - perhaps implement a second `f2(std::vector<int>& av)` function?

Edit: Seeing the edited question, I would suggest that you use `f2(std::vector<int>& av)`, and get rid of the `f2(int **)` variant.

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`void f1(int* a);` is a function that expects an address of memory, where an `int` is stored and in this case (based on usage: `f1(&v[0]);`) it is the first element of an array, elements of which this function will modify.
On the other hand, `void f2(int** a);` expect a pointer to pointer to first element, meaning that the function will most likely try to change the pointer itself. In case of an array, function of this kind would most likely reallocate the array (change its size) or deallocate it completely. In that case, trying to do something like `int *p = &v[0]; f2(&p);` will yield undefined behavior.
Clean and semantically correct solution would be changing the `f2` function to take the reference to the vector instead: `void f2(std::vector<int>& v)`. Passing the vector object by reference will allow this function to change its elements but also the vector itself with respect to the lifetime of the object passed to it. (One of the greatest consequences of this will be complete removal of the ugly memory management that would be necessary otherwise.)