This is a question on what people think the best way to lay out my class structure for my problem. I am doing some numerical analysis and require certain "elements" to be integrated. So I have created a class called "BoundaryElement" like so

```
class BoundaryElement
{
/* private members */
public:
integrate(Point& pt);
};
```

The key function is 'integrate' which I need to evaluate for a whole variety of different points. What happens is that, depending on the point, I need to use a different number of integration points and weights, which are basically vectors of numbers. To find these, I have a class like so:

```
class GaussPtsWts
{
int numPts;
double* gaussPts;
double* gaussWts;
public:
GaussPtsWts(const int n);
GaussPtsWts(const GaussPtsWts& rhs);
~GaussPtsWts();
GaussPtsWts& operator=(const GaussPtsWts& rhs);
inline double gwt(const unsigned int i)
{
return gaussWts[i];
}
inline double gpt(const unsigned int i)
{
return gaussPts[i];
}
inline int numberGPs()
{
return numGPs;
}
};
```

Using this, I could theoretically create a GaussPtsWts instance for every call to the integrate function. But I know that I maybe using the same number of gauss points many times , and so I would like to cache this data. I'm not very confident on how this might be done - potentially a std::map which is a static member of the BoundaryElement class? If people could shed any light on this I would be very grateful. Thanks!

`vector<GaussPtsWts>`

where the index corresponds to the number of points`n`

in the constructor? Then just refer to the one you need in each call of`integrate`

. – JohnPS Oct 2 '11 at 21:48