So another way, if you're using c++11 would be to use functors:

You'll need to put this at the start of your file:

```
#include <functional>
```

The type of a functor is declared in this format:

```
std::function< return_type (param1_type, param2_type) >
```

You could add a variable that holds a functor for sum like this:

```
std::function<int(const std::vector<int>&)> sum;
```

To make things easy, let shorten the param type:

```
using Numbers = const std::vectorn<int>&;
```

Then you could fill in the functor var with any one of:

A lambda:

```
sum = [](Numbers x) { return std::accumulate(x.cbegin(), x.cend(), 0); } // std::accumulate comes from #include <numeric>
```

A function pointer:

```
int myFunc(Numbers nums) {
int result = 0;
for (int i : nums)
result += i;
return result;
}
sum = &myFunc;
```

Something that 'bind' has created:

```
struct Adder {
int startNumber = 6;
int doAdding(Numbers nums) {
int result = 0;
for (int i : nums)
result += i;
return result;
}
};
...
Adder myAdder{2}; // Make an adder that starts at two
sum = std::bind(&Adder::doAdding, myAdder);
```

Then finally to use it, it's a simple if statement:

```
if (sum)
return sum(x);
```

In summary, functors are the new pointer to a function, however they're more versatile. May actually be inlined if the compiler is sure enough, but generally are the same as a function pointer.

When combined with std::bind and lambda's they're quite superior to old style C function pointers.

But remember they work in c++11 and above environments. (Not in C or C++03).

`sum`

but aren't sure whether it exists? You should know whether it exists; you're the one writing the code! – Karl Knechtel Jan 11 '12 at 6:14`if(string(argv[1]) == "sum") { sum(); }`

. – Naveen Jan 11 '12 at 6:24