The compiler should inline smallish functions for you automatically in release builds.
Much more important is to define a move constructor and move assignment. If your arrays are very large and you're doing multiple operations at the same time, you can also use expression classes to improve execution speed.

```
template <class left, class right>
struct AddExpr {
const left& _left;
const right& _right;
AddExpr(const left& Left, const right& Right)
:_left(Left), _right(Right)
{assert(left.count() == right.count());}
int count() const {return _left.count();}
int operator[](int index) const {return _left[i]+_right[i];}
};
class Array {
int* data;
int size;
int count() const {return size;}
Array& operator=(AddExpr expr) {
for(int i=0; i<expr.count(); ++i)
data[i] = expr[i];
};
AddExpr operator+(const Array& lhs, const Array& rhs)
{return AddExpr<Array, Array>(lhs, rhs);}
AddExpr operator+(const Array& lhs, const Expr& rhs)
{return AddExpr<Array, Expr>(lhs, rhs);}
AddExpr operator+(const Expr& lhs, const Array& rhs)
{return AddExpr<Expr, Array>(lhs, rhs);}
AddExpr operator+(const Expr& lhs, const Expr& rhs)
{return AddExpr<Expr, Expr>(lhs, rhs);}
int main() {
Array a, b, c, d;
Array c = (a+b) + (c+d); //awesome on lines like this
}
```

This removes all the temporary objects, and greatly improves cache efficiency. But I've completely forgotten what this technique is called.