# Template class constructor issues - designing a container for multidim arrays

I'm trying to create my own container for an array of any dimension for numerical computing. I would like to do this using templates so that I could overload the subscript operator [] so that it works like normal arrays and vectors e.g. access entries like a[10][10][10] etc.

I am having trouble getting the constructor to work when trying to create containers to hold multidimensional arrays. Please help!

#include <iostream>
#include <iterator>
#include <algorithm>
#include <vector>
using namespace std;

template <class T>
class container{
public:
inline T& operator[](int i){return data[i];}
container(int si, T initval){
size=si;
data=new T[size];
transform(data,data+size,data, [initval] (T d) {return initval;});
// transform fills array with the initial value.
}
~container(){delete [] data;}
private:
T* data;
int size;
};

int main(){
//For example:
vector<vector<int>> v1(10,vector<int>(10,0)); //2D 10x10
vector<vector<vector<int>>> v2(10,vector<vector<int>>(10,vector<int>(10,0)));
//3D 10x10x10

container<int> c1(10,0); //1D 10x1 works!
container<container<int>> c2(10,container<int>(10,0)); //2D 10x10 fails!

system("pause");
return 0;
}


VS10 error output:

error C2512: 'container<T>' : no appropriate default constructor available

with
[
T=int
]
c:\users\jack\documents\visual studio 2010\projects\ref\ref\ref.cpp(11) : while compiling class template member function 'container<T>::container(int,T)'
with
[
T=container<int>
]
c:\users\jack\documents\visual studio 2010\projects\ref\ref\ref.cpp(28) : see reference to class template instantiation 'container<T>' being compiled
with
[
T=container<int>
]

Build FAILED.


I know I could just use valarray or a boost library, but I would like to understand how to create my own. Efficiency is important. Thanks!

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Your constructor uses the expression new T[size] and this requires T to be default constructible (if T is a class type).

You need to do something like: allocate raw memory (e.g. using operator new) and construct T instances "in place" using a placement new expression. Alternatively, you could just give container a default constructor.

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Thanks! I added a default constructor and these lines and it worked. void* raw=::operator new(size*sizeof(T)); data=new(raw) T[size]; –  Jack Jan 13 '11 at 14:46
@Jack: I meant one or the other. There's no advantage to void* raw=::operator new(size*sizeof(T)); data=new(raw) T[size]; over data=new T[size];, plus if you're still doing delete[] data it is not correct if you've used the former. –  Charles Bailey Jan 13 '11 at 14:51
Yep I removed 'delete[] data'. However, the compiler complains: 'no appropriate default constructor available' if I don't provide a default constructor when using operator new. No idea why. –  Jack Jan 13 '11 at 14:59
@Jack: Without a default constructor you have to construct the individual array elements in place using placement new with an initializer, constructing the array in place isn't possible. –  Charles Bailey Jan 13 '11 at 15:24

You are missing a lot of constructors. You need a default constructor and a copy constructor at the very least, operator= too.

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yep thanks, I planned to put these in later. I don't think they're what's causing the problem at the moment though. –  Jack Jan 13 '11 at 13:00
Yes it is, as your compiler tells you. –  etarion Jan 13 '11 at 13:14
yep sorry, you're right! –  Jack Jan 13 '11 at 14:46
• Give container a default constructor, that takes no parameters. It looks like you want to make your container non-resizable though.
• You could make the dimension of container a template parameter and ignore the T initVal
• If you do that you probably don't even need to use new[] and delete[] but if you do you need the full "rule of 3" of copying and assigning to be properly implemented.
• You might find a const overload of operator[] useful too.
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