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I am making a clock-driven simulation program and, among other issues, my main while loop, while(jobsCompleted < jobsToComplete) is looping more times than expected/wanted. For example, if I were to assign 500 to jobsToComplete, the output at the end of the program would tell me that there were 505 jobs completed. I have tried to debug this one issue for at least an hour now, but to no avail. Any help is appreciated. Thanks!

#include <iostream>
#include <string>
#include <stdlib.h>
#include <queue>
#include <fstream>
#include "job.cpp"

using namespace std;

int main()
{
  ofstream cpuSim;
  cpuSim.open("cpuSim.out.txt");

  int clock = 0, jobsCompleted = 0, jobsToComplete = 0, probUser = 0, probability, id = 0;
  jobType_t job_type;
  int inWQ, outWQ, inCPUQ, outCPUQ, required, given, jobTypeInt, timeSpentInCPUqueue = 0, timeSpentInWaitQueue = 0, CPUidle = 0;
  queue<job> CPUqueue, waitQueue;

  int numIO = 0, numCPU = 0;

  srand(time(NULL));

  cout << "Enter how many jobs need to be completed: ";
  cin >> jobsToComplete;
  cout << endl <<  "Enter the probability that a new job is created: ";
  cin >> probUser;
  cout << endl;

  while(jobsCompleted < jobsToComplete)
    {
      clock++;
      probability = rand() % 100 + 1;

      if(probability > probUser)
    {
      for(int i=0; i<jobsToComplete; i++)
        {
          id = rand() % 1000 + 1;
          jobTypeInt = rand() % 100 + 1;
          if(jobTypeInt >= 50)
        job_type = IO_bound;
          else
              job_type = CPU_bound;
      required = rand() % 10;
          job *newJob = new job(id, job_type, inWQ, outWQ, inCPUQ, outCPUQ, required, given);
          waitQueue.push(*newJob);
        }

      while((CPUqueue.size() <= 10) && waitQueue.empty() == false)
        {
          waitQueue.front();
          job temp = waitQueue.back();
          waitQueue.pop();
          temp.setTimeExitedWQueue(clock);
          temp.setTimeEnteredCPUQueue(clock);     
          CPUqueue.push(temp);
        }

      double oneSecond = 1.0, timeSpent = 0;

      while((oneSecond > 0.0) && (!CPUqueue.empty()))
        {
          job top = CPUqueue.front();
          CPUqueue.pop();
          if(top.getJobType() == IO_bound)
        {        
          top.setTimeGiven(top.getTimeGiven() + .1);
          timeSpent = .1;
          numIO++;
        }
          else
        {
          top.setTimeGiven(top.getTimeGiven() + .2);
          timeSpent = .2;
          numCPU++;
        }

          if(top.getTimeRequired() <= top.getTimeGiven())
        {
          top.setTimeExitedCPUQueue(clock);
          jobsCompleted++;

          timeSpentInWaitQueue += (top.getTimeExitedWQueue() - top.getTimeEnteredWQueue());
          timeSpentInCPUqueue += (top.getTimeExitedCPUQueue() - top.getTimeEnteredCPUQueue());
        }
          else
        CPUqueue.push(top);
          oneSecond -= timeSpent;

          if((clock%60 == 0) && (clock > 600)) //every 60 seconds after the first 10 minutes
        {
              cout << "After the first 10 minutes:" << endl;
      cout << "Time: " << clock << endl;
          cout << "Number of jobs in the wait queue: " << waitQueue.size() << endl;

          cout << "Number of jobs in the CPU queue: " << CPUqueue.size() << endl;
                  job temp1 = waitQueue.front();
          job temp2 = CPUqueue.front();
          cout << "Job number of front wait job: " << temp1.getID() << endl;
          cout << "Job number of front CPU job: " << temp2.getID() << endl;
        }
          else
        {
          cout << "Job Number: " << jobsCompleted << endl;
          cout << "Job ID: " << top.getID() << endl;
          cout << "Job Type: " << top.getJobType() << endl;
          cout << "Time in CPU Queue: " << timeSpentInCPUqueue << endl;
          cout << "Time Entered CPU Queue: " << top.getTimeEnteredCPUQueue() << endl << endl;
        }
        }

      if((oneSecond > 0) && (CPUqueue.empty()))
        CPUidle += oneSecond;
    }
    }
  cout << "I/O_bound jobs: " << numIO << endl;
  cout << "CPU_bound jobs: " << numCPU << endl;
  cout << "*****JOBS COMPLETED: " << jobsCompleted << " *****" << endl << endl;

  return 0;
}

And as a less pertinent question, I cannot get my enumerated data types to print out correctly nor my IDs at the very begging to pass into *newJob correctly...

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2  
Everything in main? Seriously? –  Jerry Coffin Dec 6 '12 at 23:28

2 Answers 2

Let's say it's been looping for a while and now jobsCompleted is 499 (and your jobsToComplete is 500). Okay, so this is the last loop right? Yes! But the incrementing of jobsCompleted happens within another nested while loop. So if that nested loop occurs 6 times, jobsCompleted will be 505 and then the outer while loop will end, leaving you with a total number of jobs completed at 505.

Telling you how to fix it would require understanding the logic of your code, but there's a bit too much for me to figure out. Maybe this will help you.

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I think this does, thank you! –  Vincent Giuliana Dec 6 '12 at 23:32

By looking at the code it's clear that this happens because you have a situation like the following

while (x < y) {
  ...
  while (condition) {
    ...
    if (condition) {
      ++x;
    }
  }
}

This means that for every outer iteration it may happen that you are incrementing x more than once, so you enter the last iteration (x == 499) and then increment it 6 times while inside the inner loop. You should debug that part of code to understand why it happens, explicitly you should check these two conditions:

while((oneSecond > 0.0) && (!CPUqueue.empty()))
if(top.getTimeRequired() <= top.getTimeGiven())

because on last iteration the are both true at least 6 times.

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