/** Update task set dependencies */
private void updateTaskSetDependencies() {
Collection sets = mTask2TaskSet.values();
for (Iterator it = sets.iterator(); it.hasNext(); ) {
TaskSet set = (TaskSet) it.next();
if (!set.hasChecked) {
set.hasChecked = true;
set.getChildList().clear();
set.getParentList().clear();
for (Task task : set.getTaskList()) {
for (Iterator tIt = task.getParentList().iterator(); tIt.hasNext(); ) {
Task parent = (Task) tIt.next();
TaskSet parentSet = (TaskSet) mTask2TaskSet.get(parent);
if (!set.getParentList().contains(parentSet) && set != parentSet) {
set.getParentList().add(parentSet);
}
}
for (Iterator tIt = task.getChildList().iterator(); tIt.hasNext(); ) {
Task child = (Task) tIt.next();
TaskSet childSet = (TaskSet) mTask2TaskSet.get(child);
if (!set.getChildList().contains(childSet) && set != childSet) {
set.getChildList().add(childSet);
}
}
}
}
}
// within each method
cleanTaskSetChecked();
}
/** The main function */
@Override
public void run() {
if (clusterNum > 0 || clusterSize > 0) {
for (Iterator it = getTaskList().iterator(); it.hasNext(); ) {
Task task = (Task) it.next();
int depth = task.getDepth();
if (!mDepth2Task.containsKey(depth)) {
mDepth2Task.put(depth, new ArrayList<>());
}
List list = mDepth2Task.get(depth);
if (!list.contains(task)) {
list.add(task);
}
}
}
/** if clusters.num is set. */
if (clusterNum > 0) {
bundleClustering();
/** else if clusters.size is set. */
} else if (clusterSize > 0) {
collapseClustering();
}
updateDependencies();
addClustDelay();
}
/** Add the pair from the mRecover. */
private void recover() {
for (Iterator it = mRecover.entrySet().iterator(); it.hasNext(); ) {
Entry entry = (Entry) it.next();
Task set = (Task) entry.getKey();
Task children = (Task) entry.getValue();
set.getChildList().add(children);
children.getParentList().add(set);
}
}
/** The main function */
@Override
public void run() {
for (Iterator it = getTaskList().iterator(); it.hasNext(); ) {
Task task = (Task) it.next();
double duration = task.getCloudletLength() / 1000;
for (int i = 0; i < task.getParentList().size(); i++) {
Task parent = task.getParentList().get(i);
}
for (int i = 0; i < task.getChildList().size(); i++) {
Task child = task.getChildList().get(i);
}
int vmNum = getVmList().size();
/** Randomly choose a vm */
Random random = new Random((long) duration);
int vmId = random.nextInt(vmNum);
CondorVM vm = (CondorVM) getVmList().get(vmId);
// This shows the cpu capability of a vm
double mips = vm.getMips();
task.setVmId(vm.getId());
long deadline = Parameters.getDeadline();
}
}
/** Print out the clustering information. */
private void printOut() {
Collection sets = mTask2TaskSet.values();
for (Iterator it = sets.iterator(); it.hasNext(); ) {
TaskSet set = (TaskSet) it.next();
if (!set.hasChecked) {
set.hasChecked = true;
Log.printLine("Job");
for (Task task : set.getTaskList()) {
Log.printLine(
"Task "
+ task.getCloudletId()
+ " "
+ task.getImpact()
+ " "
+ task.getCloudletLength());
}
}
}
// within each method
cleanTaskSetChecked();
}
/**
* Check whether a task is an ancessor of another set
*
* @param ancessor ancessor
* @param set child
* @return
*/
private boolean check(Task ancessor, Task set) {
if (ancessor == null || set == null) {
return false;
}
if (ancessor == set) {
return true;
}
for (Iterator it = set.getParentList().iterator(); it.hasNext(); ) {
Task parent = (Task) it.next();
if (check(ancessor, parent)) {
return true;
} else {
// parent.hasChecked = true;
}
}
return false;
}
/** Add pairs that needs to remove to mRecover. */
private void remove() {
for (Task set : this.getTaskList()) {
if (set.getChildList().size() >= 2) {
for (int i = 0; i < set.getChildList().size(); i++) {
Task children = (Task) set.getChildList().get(i);
for (int j = i + 1; j < set.getChildList().size(); j++) {
Task another = (Task) set.getChildList().get(j);
// avoid unnecessary checks
if (children.getDepth() > another.getDepth()) {
if (check(another, children)) {
// remove i
set.getChildList().remove(children);
children.getParentList().remove(set);
i--;
mRecover.put(set, children);
// cleanTaskSetChecked();
break;
} else {
// cleanTaskSetChecked();
}
}
if (another.getDepth() > children.getDepth()) {
if (check(children, another)) {
set.getChildList().remove(another);
another.getParentList().remove(set);
i--;
mRecover.put(set, another);
// cleanTaskSetChecked();
break;
} else {
// cleanTaskSetChecked();
}
}
}
}
}
}
}
/** The main function */
@Override
public void run() {
double[][] bandwidths = Parameters.getBandwidths();
int vmNum = getVmList().size();
int taskNum = getTaskList().size();
double[] availableTime = new double[vmNum];
// cloudlet id starts from 1
double[][] earliestStartTime = new double[taskNum + 1][vmNum];
double[][] earliestFinishTime = new double[taskNum + 1][vmNum];
int[] allocation = new int[taskNum + 1];
List<Task> taskList = new ArrayList<Task>(getTaskList());
List<Task> readyList = new ArrayList<Task>();
while (!taskList.isEmpty()) {
readyList.clear();
for (Task task : taskList) {
boolean ready = true;
for (Task parent : task.getParentList()) {
if (taskList.contains(parent)) {
ready = false;
break;
}
}
if (ready) {
readyList.add(task);
}
}
taskList.removeAll(readyList);
// schedule readylist
for (Task task : readyList) {
long[] fileSizes = new long[task.getParentList().size()];
int parentIndex = 0;
for (Task parent : task.getParentList()) {
long fileSize = 0;
for (Iterator fileIter = task.getFileList().iterator(); fileIter.hasNext(); ) {
File file = (File) fileIter.next();
if (file.getType() == 1) {
for (Iterator fileIter2 = parent.getFileList().iterator(); fileIter2.hasNext(); ) {
File file2 = (File) fileIter2.next();
if (file2.getType() == 2 && file2.getName().equals(file.getName())) {
fileSize += file.getSize();
}
}
}
}
fileSizes[parentIndex] = fileSize;
parentIndex++;
}
double minTime = Double.MAX_VALUE;
int minTimeIndex = 0;
for (int vmIndex = 0; vmIndex < getVmList().size(); vmIndex++) {
Vm vm = (Vm) getVmList().get(vmIndex);
double startTime = availableTime[vm.getId()];
parentIndex = 0;
for (Task parent : task.getParentList()) {
int allocatedVmId = allocation[parent.getCloudletId()];
double actualFinishTime = earliestFinishTime[parent.getCloudletId()][allocatedVmId];
double communicationTime =
fileSizes[parentIndex] / bandwidths[allocatedVmId][vm.getId()];
if (actualFinishTime + communicationTime > startTime) {
startTime = actualFinishTime + communicationTime;
}
parentIndex++;
}
earliestStartTime[task.getCloudletId()][vm.getId()] = startTime;
double runtime = task.getCloudletLength() / vm.getMips();
earliestFinishTime[task.getCloudletId()][vm.getId()] = runtime + startTime;
if (runtime + startTime < minTime) {
minTime = runtime + startTime;
minTimeIndex = vmIndex;
}
}
allocation[task.getCloudletId()] =
minTimeIndex; // we do not really need it use task.getVmId
task.setVmId(minTimeIndex);
availableTime[minTimeIndex] = minTime;
}
}
}
/**
* Prints the job objects
*
* @param list list of jobs
*/
protected static void printJobList(List<Job> list) {
String indent = " ";
Log.printLine();
Log.printLine("========== OUTPUT ==========");
Log.printLine(
"Job ID"
+ indent
+ "Task ID"
+ indent
+ "STATUS"
+ indent
+ "Data center ID"
+ indent
+ "VM ID"
+ indent
+ indent
+ "Time"
+ indent
+ "Start Time"
+ indent
+ "Finish Time"
+ indent
+ "Depth");
DecimalFormat dft = new DecimalFormat("###.##");
for (Job job : list) {
Log.print(indent + job.getCloudletId() + indent + indent);
if (job.getClassType() == Parameters.ClassType.STAGE_IN.value) {
Log.print("Stage-in");
}
for (Task task : job.getTaskList()) {
Log.print(task.getCloudletId() + ",");
}
Log.print(indent);
if (job.getCloudletStatus() == Cloudlet.SUCCESS) {
Log.print("SUCCESS");
Log.printLine(
indent
+ indent
+ job.getResourceId()
+ indent
+ indent
+ indent
+ job.getVmId()
+ indent
+ indent
+ indent
+ dft.format(job.getActualCPUTime())
+ indent
+ indent
+ dft.format(job.getExecStartTime())
+ indent
+ indent
+ indent
+ dft.format(job.getFinishTime())
+ indent
+ indent
+ indent
+ job.getDepth());
} else if (job.getCloudletStatus() == Cloudlet.FAILED) {
Log.print("FAILED");
Log.printLine(
indent
+ indent
+ job.getResourceId()
+ indent
+ indent
+ indent
+ job.getVmId()
+ indent
+ indent
+ indent
+ dft.format(job.getActualCPUTime())
+ indent
+ indent
+ dft.format(job.getExecStartTime())
+ indent
+ indent
+ indent
+ dft.format(job.getFinishTime())
+ indent
+ indent
+ indent
+ job.getDepth());
}
}
}
