How would you solve the problem of finding the points of a (integer) grid within a circle centered on the origin of the axis, with the results ordered by norm, as in distance from the centre, in C++?

I wrote an implementation that works (yeah, I know, it is extremely inefficient, but for my problem anything more would be overkill). I'm extremely new to C++, so my biggest problem was finding a data structure capable of

- being sort-able;
- being able to save an array in one of its elements,

rather than the implementation of the algorithm. My code is as follows. Thanks in advance, everyone!

```
typedef std::pair<int, int[2]> norm_vec2d;
bool norm_vec2d_cmp (norm_vec2d a, norm_vec2d b)
{
bool bo;
bo = (a.first < b.first ? true: false);
return bo;
}
int energy_to_momenta_2D (int energy, std::list<norm_vec2d> *momenta)
{
int i, j, norm, n=0;
int energy_root = (int) std::sqrt(energy);
norm_vec2d temp;
for (i=-energy_root; i<=energy_root; i++)
{
for (j =-energy_root; j<=energy_root; j++)
{
norm = i*i + j*j;
if (norm <= energy)
{
temp.first = norm;
temp.second[0] = i;
temp.second[1] = j;
(*momenta).push_back (temp);
n++;
}
}
}
(*momenta).sort(norm_vec2d_cmp);
return n;
}
```

`vector< list<int> >`

or`vector< vector<int> >`

) for your other need.. – Kashyap Feb 29 '12 at 17:37`pair::first`

, and the y coordinate in`pair::second`

? Right now you're storing`norm`

in the first property, but you don't really need to store it since you can reconstruct it at any time from x and y. – Kevin Feb 29 '12 at 17:56