You will need a bit of BOOST to do this all with functional work (or else make your own versions of boost::counting_iterator)

```
//for(int i = 0; i < N; ++i)
// A[i] = myFunction1(i);
std::transform(
boost::counting_iterator<int>(0),
boost::counting_iterator<int>(N),
A.begin(),
&myFunction1);
//for(int i = 0; i < N; ++i)
// B[i] = myFunction2(A[i], i);
std::transform(
A.begin(),
A.end(),
boost::counting_iterator<int>(0),
B.begin(),
&myFunction2);
//for(int i = 0; i < N; ++i)
// C[i] = myFunction3(A[i], B[i]);
std::transform(
A.begin(),
A.end(),
B.begin(),
C.begin(),
&myFunction3);
// The STL doesn't have a version of transform that takes three inputs, but given a transform_3 that does:
//for(int i = 0; i < N; ++i)
// D[i] = myFunction4(A[i], B[i], i);
transform_3(
A.begin(),
A.end(),
B.begin(),
boost::counting_iterator<int>(0),
D.begin(),
&myFunction4);
```

That `transform_3`

function might look something like this:

```
// Untested code
template <class input1, class input2, class input3, class output, class oper>
output transform_3 (input1 in1begin, input1 in1end, input2 in2, input3 in3, output out, oper op)
{
while (in1begin != in1end)
*(out++) = op(*(in1begin++), *(in2++), *(in3++));
return out;
}
```