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I have got a small problem with 1D array in c++. I have got a function line this:

void func(int (&array)[???])
    // some math here;

    "for" loop {
        array[i] = something;

I call the functions somewhere in the code, and before I made math I'm not able to know dimension of the array. The array goes to the function as a reference!, because I need it in the main() function. How I can allocate array like this?, so array with ?? dimension goes to the function as reference then I have to put the dimension and write to it some values.

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Really your question is a bit unclear. Is your problem allocation, access or how to pass an array to a function? Please show some actual code that illustrates your problem, or describe what you actually want to do. – Björn Pollex Nov 2 '10 at 10:16
An array of references is an unusual beast: you probably don't want to use references like that anyhow. – Eamon Nerbonne Nov 2 '10 at 10:37
@Eamon: You can't have an array of references, the above code is a reference to an array. – Roger Pate Nov 2 '10 at 10:53
@Eamon Nerbonne: I really think this is the best way to really give func an array and not a bare pointer that you will use like an array. – Cedric H. Nov 2 '10 at 10:55
Ah right, I misread the declaration as the (invalid) int &*arr rather than the unusual but valid int *&arr. I've never given int&*arr any thought - interesting to note that it is fortunately not merely a bad idea, but invalid too :-). After all, you can to something fairly equivalent via the (equally unwise) struct intRef { int & ref; intRef(int& ref):ref(ref){}}; void func(intRef * array) {} - so there's nothing fundamentally problematic with a pointer to a reference, it's just... unnecessary. – Eamon Nerbonne Nov 2 '10 at 12:04
up vote 9 down vote accepted

Use a pointer, not a reference:

void func(int *a, int N);

Or, easier, use a vector:

void func(std::vector<int> &a);

Vectors can be allocated by simply saying

std::vector<int> a(10);

The number of elements can be retrieved using a.size().

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That's it:) thank You so much, Best regards! – nykon Nov 2 '10 at 10:31

Since you're using C++, why not use a std::vector<> instead?

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+1: for std::vector. – rubenvb Nov 2 '10 at 10:43
Additional +1 for vector, I use them all the time anytime I dont how how big "something" is going to be. – user475353 Nov 2 '10 at 11:53
Do you think that answer is any helpful to a beginner? – Dave O. Nov 2 '10 at 12:16
@Dave: yes it is, it helps him understand that using "array"s in c++ can be done better, especially in these simple situations. – rubenvb Nov 2 '10 at 12:20
I hope I'm not going to insult nykon if I say that concluding from his question I think he didn't grasp the concept of arrays and pointers yet. This makes him being able to read api documentation unlikely. It's even questionable if a C++ beginner is able to conclude the existence of the standard template library from the snippet "std::vector<>" – Dave O. Nov 2 '10 at 12:33

Other have mentioned that you should use std::vector in C++ and they are right.

But you can make your code work by making func a function template.

template <typename T, size_t N>
void func(T (&array)[N])
    // some math here;

    "for" loop {
        array[i] = something;
share|improve this answer
The template function way is a prime example of: "how to implement functionality already present in the Standard Library"... – rubenvb Nov 2 '10 at 10:44
@rubenvb: What do you think is being "implemented" here? – Roger Pate Nov 2 '10 at 10:52
I agree with these "you should use a vector"; OK; but this answer provide a way to solve and understand the main question of the OP... – Cedric H. Nov 2 '10 at 10:53
@Roger, @Cedric: I wasn't criticizing the quality of the answer, it's quite valid, but it kind of circumvents/avoids the presence of std::vector::size() in my view of things. – rubenvb Nov 2 '10 at 12:18

If the array you pass to func is a stack array, and not a pointer, you can retain its size by using a function template:

template <class T, size_t N>
void func(T(&array)[N])
    size_t array_length = N; // or just use N directly

int main() 
    int array[4];

That said, as others have already pointed out, std::vector is probably the best solution here.

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That's interesting. – CiscoIPPhone Nov 2 '10 at 10:28
but unnecessary, because inside of func you got the template-parameter N which contains the same information (as a compile time constant). – Fabio Fracassi Nov 2 '10 at 13:03
@Fabio - right, noted. – Charles Salvia Nov 2 '10 at 13:22

As well as vector which has been suggested you could possibly use valarray which is also part of STL and is intended specificially to handle mathematical collections.

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What you have to realize, is that arrays are pointers. A definition like int array[5] will allocate space for 5 integers on the stack and array will be the address of the first value. Thus, to access the first value in the array, you can write

array[0] or *array (which is the same as *(array + 0))

In the same way to retrieve the address of the third element, you can write

&array[2] or array + 2

Since arrays are pointers, you don't have to worry about the runtime size of your array if you would like to pass it to a function, simply pass it as a pointer:

void func(int *array)
    int size;
    //compute size of the array
    for (int i = 0; i < size; ++i)
        //do whatever you want with array[i]

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