# Declaring Arrays in Private Part of Class

I've got a class, and part of the input into the class is a vector (called Data) of variable length (lets say it has length N). I've included this after the function:

``````    N = data_->size();
``````

In the private section of the class, I want to declare an array `double A[N][N];`. However, when I try to do this, I get something saying

error: "N is not a type name, static, or enumerator".

How do I create the array `A[N][N]`?

Sorry if this is already explained somewhere else, as I'm very new to c++, so wouldn't even know what to look for!

Edit -- attached code:

``````    class foo {
public:
foo (std::vector &data)
: data(data_)
{
N = data_->size();
M =  /* four times the last member of data (which is a vector of positive integers)*/
}

private:
double A[M][M];

void foo(void)
{
for (std::size_t i=1; i<=M; ++i)
{
A[i][i] = 1;
}
}
};
``````

Hope that makes some sort of sense... How would I be able to define A[M][M]? Maybe it's not possible to do it for M as M is a function of the data. If not possible for M, is it possible for N?

One possibility I can think of is that I can make A a `std::vector< std::vector<double> > A` and then push a lot of 0's or something into it, and THEN modify the values...

-
Can you show a minimal working example? –  Benjamin Bannier Oct 3 '11 at 16:42
Post the code atleast –  Nawaz Oct 3 '11 at 16:42
Sorry for not posting the code, it's quite large, and I was hoping the general idea would have an obvious solution which someone new to c++ would have missed... –  Derek Oct 3 '11 at 16:54
The problem is that you appear to be very confused about some element of the syntax or semantic of c++. None-the-less, it is like that one little correction will put you on the right track, only right now we're not sure what correction. A more complete code example then you have posted yet might help us to fathom how to help. –  dmckee Oct 3 '11 at 17:01
I've added something which I hope looks like c++ code... –  Derek Oct 3 '11 at 17:21

Hmmm...several issues here...

• Neither `N` nor `M` are declared (either in the constructor or as members of `foo`)
• You are trying to initialize a member `data` that is not declared (and you may mean `data_(data)` as the syntax is `member(expression)`, not `expression(member))`
• The argument to your constructor is an incomplete type: it needs to be `std::vector< sometype >`; if you want it to be generic you'll need to use templates or get some help from boost
• You are not initializing the only member variable that you have declared (`A`)
• `void foo(void)` is a problem because it is not the correct syntax for a constructor (which has no type) but uses the class name

Let's build up to something closer to what you want

Start with a class `foo`:

``````class foo {
};
``````

with a constructor taking a single argument of type `std::vector<double>`

``````class foo {
public:
foo(std::vector<double> &data);
};
``````

you want to initialize a member variable with the data

``````class foo {
private:
std::vector<double> data_;
public:
foo(std::vector<double> &data)
:data_(data)
{};
};
``````

At this point I'll note that I would generally not put the definition of a non-trivial constructor in the class declaration, but in a implementation file instead, and consequently I would be able to put the declaration of member variable beneath the public section with the declaration of the constructor. But for compactness I'll leave this way here.

You want to capture and store the size of the data

``````class foo {
private:
std::vector<double> data_;
size_t N;
public:
foo(std::vector<double> &data)
:data_(data)
,N(data.size())
{};
``````

};

At this point we still haven't made that multi-dimensional storage that you want, but now you have some decisions to make about how to manage the storage. If you use Kerrek SB's approach this looks something like

``````class foo {
private:
std::vector<double> data_;
size_t N;
std::vector< std::vector<double> > A;
public:
foo(std::vector<double> &data)
:data_(data)
,N(data.size())
,A()
{
A.resize(N);
for (size_t i=0; i<N; ++i) {
A[i].resize(N);
}
};
};
``````
-
Wow, very thorough explanation. Thanks so much for taking the time to explain this, it's much appreciated! I've bought a book called "Accelerated C++" and hopefully that will help me compile enough knowledge about C++ to avoid any more of these errors.. –  Derek Oct 4 '11 at 6:58
You could abbreviate this to just `A(N, std::vector<double>(4 * data_.back()))`, I suppose (given the OP's update), and be rid of the for loop. The 2-D array is rectangular, after all. –  Kerrek SB Oct 4 '11 at 13:51

You cannot do that. Arrays are types, and they have to be known at compile time. This includes their sizes. So you cannot have a dynamic array as part of your class. The closest thing you get is a pointer to manually allocated array, but that is in fact essentially a `std::vector`. So perhaps the easiest solution is to just have a vector of vectors, or perhaps a single vector of size `N * N` that you access in strides `j + N * i`.

Example:

``````std::vector< std::vector<int> > v(N, std::vector<int>(N));
``````

Or:

``````std::vector< std::vector<int> > v;
//...
v.resize(N, std::vector<int>(N));
``````

Access: `v[2][4] = 8;`

Update: Since you edited your answer, you can write something like this to get you an `N * 4n` vector, where `data.back() == n`:

``````std::vector<unsigned int> data = get_data(); // given!

std::vector< std::vector<double> > v(data.size(), std::vector<double>(4 * data.back()));
``````
-
The reason I did not want to use `std::vector` is because I want to manually edit certain entries of an array, or make large matrices and edit their entries... I suppose what I could do is use `std::vector`, then use the `push` function to add a whole bunch of zeros to it, and manually edit the individual entries from there? –  Derek Oct 3 '11 at 16:56
The methods `operator[]` and `at()` of `std::vector` provide read/write access to the data contained, and `resize` lets you set the size of vector. Unspecified elements are handled with their default constructor. –  dmckee Oct 3 '11 at 17:26
Oh, that would be even better! So I can just declare them all as vectors, resize them to size `M` once I've defined `M`, and modify them as I like from there? Only I guess it will be hard to resize the vectors of vectors to size MxM...? –  Derek Oct 3 '11 at 17:30
@Derek: it's not difficult. I added some example code. –  Kerrek SB Oct 3 '11 at 17:33
Thanks a lot, saved me a lot of trying to re-write things messily! Though I'm probably still doing this in a messy way, at least it gets the job done a lot quicker than I expected. Cheers! –  Derek Oct 3 '11 at 17:36

if you´re using the std::vector class you must creates the vector in a function of the data_ class (like the constructor, for example), using this sentence:

``````A = vector<vector<double> >(N, vector<double>(N, 0));
``````

The first parameter of the parentheses is the size of the vector and the second is the type of data on it.

Sorry for my english, i´m spanish and my english isn´t very good.

-

You need to create it dynamically, using a smart pointer if you do not want to manage memory yourself.

``````double **A;
``````

in the constructor:

``````A = new double *[N];
for(i=0;i<N;++i)
{
A[i] = new double [N];
}
``````

Not that you have to call delete in your destructor and now to obey the rule of three you have to have a copy constructor and a assignment operator... Using a smart pointer is better here: see the Boost smart pointer help page.

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While this is possible, it is probably the least elegant solution and the most troublesome to write correctly (consider exception safety). –  Kerrek SB Oct 3 '11 at 16:58