PrismLauncher/launcher/tasks/ConcurrentTask.cpp

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#include "ConcurrentTask.h"
#include <QDebug>
#include <QCoreApplication>
#include "tasks/Task.h"
ConcurrentTask::ConcurrentTask(QObject* parent, QString task_name, int max_concurrent)
: Task(parent), m_name(task_name), m_total_max_size(max_concurrent)
{ setObjectName(task_name); }
ConcurrentTask::~ConcurrentTask()
{
for (auto task : m_queue) {
if (task)
task->deleteLater();
}
}
auto ConcurrentTask::getStepProgress() const -> TaskStepProgressList
{
return m_task_progress.values();
}
void ConcurrentTask::addTask(Task::Ptr task)
{
m_queue.append(task);
}
void ConcurrentTask::executeTask()
{
// Start One task, startNext hadels starting the up to the m_total_max_size
// while tracking the number currently being done
QMetaObject::invokeMethod(this, &ConcurrentTask::startNext, Qt::QueuedConnection);
}
bool ConcurrentTask::abort()
{
m_queue.clear();
m_aborted = true;
if (m_doing.isEmpty()) {
// Don't call emitAborted() here, we want to bypass the 'is the task running' check
emit aborted();
emit finished();
return true;
}
bool suceedeed = true;
QMutableHashIterator<Task*, Task::Ptr> doing_iter(m_doing);
while (doing_iter.hasNext()) {
auto task = doing_iter.next();
suceedeed &= (task.value())->abort();
}
if (suceedeed)
emitAborted();
else
emitFailed(tr("Failed to abort all running tasks."));
return suceedeed;
}
void ConcurrentTask::clear()
{
Q_ASSERT(!isRunning());
m_done.clear();
m_failed.clear();
m_queue.clear();
m_aborted = false;
m_progress = 0;
m_stepProgress = 0;
}
void ConcurrentTask::startNext()
{
if (m_aborted || m_doing.count() > m_total_max_size)
return;
if (m_queue.isEmpty() && m_doing.isEmpty() && !wasSuccessful()) {
emitSucceeded();
return;
}
if (m_queue.isEmpty())
return;
Task::Ptr next = m_queue.dequeue();
connect(next.get(), &Task::succeeded, this, [this, next](){ subTaskSucceeded(next); });
connect(next.get(), &Task::failed, this, [this, next](QString msg) { subTaskFailed(next, msg); });
connect(next.get(), &Task::status, this, [this, next](QString msg){ subTaskStatus(next, msg); });
connect(next.get(), &Task::details, this, [this, next](QString msg){ subTaskDetails(next, msg); });
connect(next.get(), &Task::stepProgress, this, [this, next](TaskStepProgressList tp){ subTaskStepProgress(next, tp); });
connect(next.get(), &Task::progress, this, [this, next](qint64 current, qint64 total){ subTaskProgress(next, current, total); });
m_doing.insert(next.get(), next);
m_task_progress.insert(next->getUid(), std::make_shared<TaskStepProgress>(TaskStepProgress({next->getUid()})));
updateState();
updateStepProgress();
QCoreApplication::processEvents();
QMetaObject::invokeMethod(next.get(), &Task::start, Qt::QueuedConnection);
// Allow going up the number of concurrent tasks in case of tasks being added in the middle of a running task.
int num_starts = qMin(m_queue.size(), m_total_max_size - m_doing.size());
for (int i = 0; i < num_starts; i++)
QMetaObject::invokeMethod(this, &ConcurrentTask::startNext, Qt::QueuedConnection);
}
void ConcurrentTask::subTaskSucceeded(Task::Ptr task)
{
m_done.insert(task.get(), task);
m_succeeded.insert(task.get(), task);
m_doing.remove(task.get());
m_task_progress.value(task->getUid())->state = TaskStepState::Succeeded;
disconnect(task.get(), 0, this, 0);
updateState();
updateStepProgress();
startNext();
}
void ConcurrentTask::subTaskFailed(Task::Ptr task, const QString& msg)
{
m_done.insert(task.get(), task);
m_failed.insert(task.get(), task);
m_doing.remove(task.get());
m_task_progress.value(task->getUid())->state = TaskStepState::Failed;
disconnect(task.get(), 0, this, 0);
updateState();
updateStepProgress();
startNext();
}
void ConcurrentTask::subTaskStatus(Task::Ptr task, const QString& msg)
{
auto taskProgress = m_task_progress.value(task->getUid());
taskProgress->status = msg;
taskProgress->state = TaskStepState::Running;
updateStepProgress();
}
void ConcurrentTask::subTaskDetails(Task::Ptr task, const QString& msg)
{
auto taskProgress = m_task_progress.value(task->getUid());
taskProgress->details = msg;
taskProgress->state = TaskStepState::Running;
updateStepProgress();
}
void ConcurrentTask::subTaskProgress(Task::Ptr task, qint64 current, qint64 total)
{
auto taskProgress = m_task_progress.value(task->getUid());
taskProgress->current = current;
taskProgress->total = total;
taskProgress->state = TaskStepState::Running;
updateStepProgress();
updateState();
}
void ConcurrentTask::subTaskStepProgress(Task::Ptr task, TaskStepProgressList task_step_progress)
{
for (auto progress : task_step_progress) {
if (!m_task_progress.contains(progress->uid)) {
m_task_progress.insert(progress->uid, progress);
} else {
auto tp = m_task_progress.value(progress->uid);
tp->current = progress->current;
tp->total = progress->total;
tp->status = progress->status;
tp->details = progress->details;
}
}
updateStepProgress();
}
void ConcurrentTask::updateStepProgress()
{
qint64 current = 0, total = 0;
for ( auto taskProgress : m_task_progress ) {
current += taskProgress->current;
total += taskProgress->total;
}
m_stepProgress = current;
m_stepTotalProgress = total;
emit stepProgress(m_task_progress.values());
}
void ConcurrentTask::updateState()
{
if (totalSize() > 1) {
setProgress(m_done.count(), totalSize());
setStatus(tr("Executing %1 task(s) (%2 out of %3 are done)").arg(QString::number(m_doing.count()), QString::number(m_done.count()), QString::number(totalSize())));
} else {
setProgress(m_stepProgress, m_stepTotalProgress);
QString status = tr("Please wait ...");
if (m_queue.size() > 0) {
status = tr("Waiting for 1 task to start ...");
} else if (m_doing.size() > 0) {
status = tr("Executing 1 task:");
} else if (m_done.size() > 0) {
status = tr("Task finished.");
}
setStatus(status);
}
}