I am trying to implement a Task scheduler where i have n number of tasks. The Idea behind my task scheduler is that in a loop of queues of a vector, task should get enqueued to the shortest queue among the loop of queues, which is done by the following code.

```
#include <vector>
#include <queue>
std::vector<std::queue<int> > q
int min_index = 0;
task t // implemented in the other part of the program
std::size_t size = q.size();
for( i=0; i<size; i++){ //accessing loop of queues
if(q[min_index].size() > q[i].size())
min_index = i; // Now q[min_index] is the shortest queue
}
q[min_index].push(Task);
```

Next i am trying to extend this paradigm to reduce the overhead time of the scheduler, Instead of searching the shortest queue every time, search after some condition ie. search the shortest queue after 5 tasks gets enqueued to the shortest queue.

i need to do something like this

```
#include <vector>
#include <queue>
std::vector<std::queue<int> > q
task t // implemented in the other part of the program
while(q[min_index].size()!=q[min_index].size()+5) // check whether current min_index queue's size is increased 5 more times if not goto enqueue
{
goto enqueue;
}
int min_index = 0;
std::size_t size = q.size();
for( i=0; i<size; i++){ //accessing loop of queues
if(q[min_index].size() > q[i].size())
min_index = i; // Now q[min_index] is the shortest queue
}
enqueue:
q[min_index].push(Task);
```

can someone please help me how to proceed it correctly. thanks in advance

**Updated**
Instead of having 5 ( a random number) i thought of having a number which is reliable and approximate everytime. so i thought of get the difference of min_value size and max_value size for the loop of queues and compare it with the counter each time.

```
// global variables
std::vector<std::queue<int> > q;
int counter = INT_MAX; //
int min_index = 0;
int max_size = -1;
void enqueue(scheduler::task new_task) {
if ( counter > diff_size ){
// look for new min and maximum
std::size_t size = q.size();
for( i=0; i<size; i++){
if(q[min_index].size() > q[i].size())
min_index = i;
if(q[i].size() > max_size)
max_size = q[i].size();
diff_size=max_size - min_index;
}
// counter reset
counter = 0;
}
// enqueue in minimum queue
q[min_index].push(new_task)
// increase counter
counter ++;
}
```

andresult in less-optimal scheduling. – Jerry Coffin Mar 7 '13 at 14:17