I came about this by chance, very old post, but it may help some others who read it in the future.

I don't quite understand the problem, it seems, because I don't see the problem.

Basically, we need to save the states of i & j. Why not use just a simple C++ class?

The only point is to know where to stop, and in my example I am actually returning std::pair, first element with a bool indicating if there are more elements, and the second with the real value.

```
#include <iostream>
#include <functional>
using ReturnDataType = std::pair<long, long>;
using ReturnGeneratorType = std::pair<bool, ReturnDataType>;
size_t MaxIndex = 5;
class Generator
{
public:
ReturnGeneratorType operator()()
{
while (m_i < MaxIndex)
{
while (m_j < MaxIndex)
{
return {true, {m_i, m_j++}};
}
++m_i;
m_j = 0;
}
return {false, {}};
}
private:
long m_i{0};
long m_j{0};
};
```

And so we can use it like this :

```
int main(void)
{
Generator sequence1;
Generator sequence2;
bool sequence1Finished = false;
bool sequence2Finished = false;
size_t blockIndex = 0;
while (!sequence1Finished && !sequence2Finished)
{
std::cout << "Block number #" << blockIndex << "\n";
for (int iteration = 0; iteration < 10; iteration++)
{
const auto [notFinished, result] = sequence1();
if (notFinished)
{
std::cout << "Sequence1 returns (" << result.first << ", " << result.second << ")\n";
}
else
{
std::cout << "Sequence1 finished\n";
sequence1Finished = true;
}
}
for (int iteration = 0; iteration < 10; iteration++)
{
const auto [notFinished, result] = sequence2();
if (notFinished)
{
std::cout << "Sequence2 returns (" << result.first << ", " << result.second << ")\n";
}
else
{
std::cout << "Sequence2 finished\n";
sequence2Finished = true;
}
}
}
}
```

Output :

```
Block number #0
Sequence1 returns (0, 0)
Sequence1 returns (0, 1)
Sequence1 returns (0, 2)
Sequence1 returns (0, 3)
Sequence1 returns (0, 4)
Sequence1 returns (1, 0)
Sequence1 returns (1, 1)
Sequence1 returns (1, 2)
Sequence1 returns (1, 3)
Sequence1 returns (1, 4)
Sequence2 returns (0, 0)
Sequence2 returns (0, 1)
Sequence2 returns (0, 2)
Sequence2 returns (0, 3)
Sequence2 returns (0, 4)
Sequence2 returns (1, 0)
Sequence2 returns (1, 1)
Sequence2 returns (1, 2)
Sequence2 returns (1, 3)
Sequence2 returns (1, 4)
Block number #1
Sequence1 returns (2, 0)
Sequence1 returns (2, 1)
Sequence1 returns (2, 2)
Sequence1 returns (2, 3)
Sequence1 returns (2, 4)
Sequence1 returns (3, 0)
Sequence1 returns (3, 1)
Sequence1 returns (3, 2)
Sequence1 returns (3, 3)
Sequence1 returns (3, 4)
Sequence2 returns (2, 0)
Sequence2 returns (2, 1)
Sequence2 returns (2, 2)
Sequence2 returns (2, 3)
Sequence2 returns (2, 4)
Sequence2 returns (3, 0)
Sequence2 returns (3, 1)
Sequence2 returns (3, 2)
Sequence2 returns (3, 3)
Sequence2 returns (3, 4)
Block number #2
Sequence1 returns (4, 0)
Sequence1 returns (4, 1)
Sequence1 returns (4, 2)
Sequence1 returns (4, 3)
Sequence1 returns (4, 4)
Sequence1 finished
Sequence1 finished
Sequence1 finished
Sequence1 finished
Sequence1 finished
Sequence2 returns (4, 0)
Sequence2 returns (4, 1)
Sequence2 returns (4, 2)
Sequence2 returns (4, 3)
Sequence2 returns (4, 4)
Sequence2 finished
Sequence2 finished
Sequence2 finished
Sequence2 finished
Sequence2 finished
```

This is just normal C++. Now, does it have to be a function and not a C++ object?
Simple, we encapsulate the objects in a lambda:

```
auto sequence1 = []() {static Generator sequence; return sequence();};
auto sequence2 = []() {static Generator sequence; return sequence();};
```

Sometimes I need generators in C++, and if the code is not long I just encapsulate them in a lambda. The static members declared inside belong only to that instance of the lambda, so I can have several instances. This would not work with just a function, where static storage is only one.