A `vector<vector<int> >`

(note the space in the `> >`

) can work well, but it's not necessarily the most efficient way to do things. Another that can work quite nicely is a wrapper around a single vector, that keeps track of the "shape" of the matrix being represented, and provides a function or overloaded operator to access the data:

```
template <class T>
class matrix {
int columns_;
std::vector<T> data;
public:
matrix(int columns, int rows) : columns_(columns), data(columns*rows) {}
T &operator()(int column, int row) { return data[row*columns_+column]; }
};
```

Note that the C++ standard only allows `operator[]`

to take a single operand, so you can't use it for this job, at least directly. In the example above, I've (obviously enough) used `operator()`

instead, so subscripts look more like Fortran or BASIC than you're accustomed to in C++. If you're really set on using `[]`

notation, you can do it anyway, though it's mildly tricky (you overload it in the matrix class to return a proxy, then have the proxy class also overload `operator[]`

to return (a reference to) the correct element -- it's mildly ugly internally, but works perfectly well anyway).

Edit: Since I have it lying around, here's an example of how to implement the latter. I wrote this (quite a while) before most compilers included `std::vector`

, so it statically allocates an array instead of using a vector. It's also for the 3D case (so there are two levels of proxies involved), but with a bit of luck, the basic idea comes through anyway:

```
template<class T, int size>
class matrix3 {
T data[size][size][size];
friend class proxy;
friend class proxy2;
class proxy {
matrix3 &m_;
int index1_, index2_;
public:
proxy(matrix3 &m, int i1, int i2)
: m_(m), index1_(i1), index2_(i2)
{}
T &operator[](int index3) {
return m_.data[index1_][index2_][index3];
}
};
class proxy2 {
matrix3 &m_;
int index_;
public:
proxy2(matrix3 &m, int d) : m_(m), index_(d) { }
proxy operator[](int index2) {
return proxy(m_, index_, index2);
}
};
public:
proxy2 operator[](int index) {
return proxy2(*this, index);
}
};
```

Using this, you can address the array with the normal C++ syntax, such as:

```
matrix3<double, size> m;
for (int x=0; x<size; x++)
for (int y = 0; y<size; y++)
for (int z = 0; z<size; z++)
m[x][y][z] = x*100 + y * 10 + z;
```