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RoundRobin.java
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/*
*
* @Course : Operating Systems , Lab 2
* @Author : Sanchit Mehta<[email protected]>
* @Desc: Main class that scans input and calls
* all Schedulers
*
*/
import java.util.*;
public class RoundRobin {
ArrayList<Process> procs;
ArrayList<Process> notStartedQ = new ArrayList<Process>();
Queue<Process> readyQ = new LinkedList<>();
ArrayList<Process> blockedQ= new ArrayList<Process>();
ArrayList<Process> finishedQ = new ArrayList<Process>();
ArrayList<Process> add2Ready = new ArrayList<>();
int cycleCount = 0;
int cpuTime = 0;
int ioTime = 0;
int finishedCount = 0;
int quantum = 2;
boolean detailedOP = false;
public RoundRobin(ArrayList<Process> procs,boolean detailedOP){
this.detailedOP = detailedOP;
this.procs = procs;
int numProcs = procs.size();
System.out.print("The original input was: "+numProcs);
for(int i=0;i<procs.size();i++) {
Process p = procs.get(i);
System.out.print(" ("+p.arrivalTime+" "
+p.burstTime+" "
+p.totalCPUTime+" "
+p.multiplier+") ");
}
System.out.println();
Collections.sort(procs,new CompareByArrivalTime());
System.out.print("The (sorted) input is: "+numProcs);
for(int i=0;i<procs.size();i++) {
Process p = procs.get(i);
System.out.print(" ("+p.arrivalTime+" "
+p.burstTime+" "
+p.totalCPUTime+" "
+p.multiplier+") ");
}
//default sorts by arrival time
cycleCount = 0;
Process currRunningProc = null;
for(int i=0;i<numProcs;i++)
notStartedQ.add(procs.get(i));
System.out.println("\n\n");
if(detailedOP)
printProcessState(numProcs,0);
//While all processes have not finished execution
//clock goes tick tock tick tock
while(finishedCount<numProcs){
//put unstarted process into ready
//since unstarted is sorted by arrtime, we'll only
//check the list head
boolean flag = false;
ArrayList<Process> toBeRemoved = new ArrayList<>();
for(Process p:notStartedQ){
if(p.arrivalTime == cycleCount){
readyQ.add(p);
flag=true;
toBeRemoved.add(p);
}
}
if(flag)
if(flag) {
for(Process p:toBeRemoved)
notStartedQ.remove(p);
}
//no running process, getting a process to run from ready
if(currRunningProc == null&&!readyQ.isEmpty()){
quantum=2;
currRunningProc = readyQ.remove();
if(currRunningProc.currCPUBurst<=0) {
currRunningProc.setRandomBurstForCPU();
}
}
cycleCount++;
quantum--;
if(detailedOP)
printProcessState(numProcs,quantum);
if(currRunningProc!=null){
currRunningProc.addRunTimes();
cpuTime++;
}
for(Process p:readyQ){
p.waitingTime++;
}
if(!blockedQ.isEmpty()){
ioTime++;
int addToReadyNum = 0;
Process[] blockedProcs = blockedQ.toArray(new Process [0]);
for(int i=0;i<blockedProcs.length;i++){
blockedProcs[i].ioTime++;
blockedProcs[i].currIOBurst--;
if(blockedProcs[i].currIOBurst == 0){
addToReadyNum++;
add2Ready.add(blockedProcs[i]);
blockedQ.remove(blockedProcs[i]);
}
}
//if there are multiple processes turned ready at the same time, then sort by priority
//add2Ready.addAll(addToReadyProcess);
}
if (currRunningProc != null) {
if (currRunningProc.totalCPUTimeRemaining == 0) {
finishedCount++;
currRunningProc.finishingTime = cycleCount;
readyQ.remove(currRunningProc);
finishedQ.add(currRunningProc);
currRunningProc = null;
quantum=2;
} else if ((currRunningProc.totalCPUTimeRemaining > 0 &&
currRunningProc.currCPUBurst == 0)) {
blockedQ.add(currRunningProc);
currRunningProc = null;
quantum=2;
}else if(quantum<=0){
//readyQ.add(currRunningProc);
add2Ready.add(0,currRunningProc);
currRunningProc=null;
quantum=2;
}
}
Collections.sort(add2Ready,new CompareByArrivalTime());
for(Process p :add2Ready)
readyQ.add(p);
add2Ready.clear();
}
System.out.println("\n\n\nThe scheduling algorithm used was Round Robin\n\n");
Collections.sort(procs,new CompareByArrivalTime());
float turnaround=0;
float waiting=0;
for(int i=0;i<procs.size();i++) {
Process p = procs.get(i);
System.out.println("\n");
System.out.println("Process "+i+":");
System.out.println("\t(A,B,C,M) = ("+p.arrivalTime+","
+p.burstTime+","
+p.totalCPUTime+","
+p.multiplier+")");
System.out.println("\tFinishing time: "+p.finishingTime);
System.out.println("\tTurnaround time: "+(p.finishingTime-p.arrivalTime));
System.out.println("\tI/O time: "+p.ioTime);
System.out.println("\tWaiting time: "+p.waitingTime);
turnaround+=(p.finishingTime-p.arrivalTime);
waiting+=p.waitingTime;
p.clear();
}
System.out.println("\n\nSummary Data: ");
System.out.println("\tFinishing time: "+cycleCount);
System.out.println("\tCPU Utilization: "+String.format("%.6f",(float)cpuTime/cycleCount));
System.out.println("\tI/O Utilization: "+String.format("%.6f",(float)ioTime/cycleCount));
System.out.println("\tThroughput: "+String.format("%.6f",(((float)numProcs/(float)cycleCount)*100))+" processes per hundred cycles");
System.out.println("\tAverage turnaround time: "+String.format("%.6f",(float)(turnaround/numProcs)));
System.out.println("\tAverage waiting time: "+String.format("%.6f",(float)(waiting/numProcs)));
Process.randomGenerator.resetPtr();
}
public void printProcessState(int numProcs,int quantum){
System.out.print("Before cycle:\t"+cycleCount+" ");
for(int i=0;i<numProcs;i++){
if(blockedQ.contains(procs.get(i)))
System.out.print("\tblocked "+procs.get(i).currIOBurst);
else if(readyQ.contains(procs.get(i)))
System.out.print("\tready 0");
else if(finishedQ.contains(procs.get(i)))
System.out.print("\tterminated ");
else if(notStartedQ.contains(procs.get(i)) && cycleCount <= procs.get(i).arrivalTime)
System.out.print("\tunstarted 0");
else
System.out.print("\trunning "+Math.min((quantum+1),procs.get(i).currCPUBurst));
}
System.out.println(".");
}
}