Qt signaling across threads, one is GUI thread?
What does it mean to move a object from one thread to another in Qt using moveToThread? Everything seems to work even before using moveToThread, which moves the object from one thread (GUI thread) to a another thread ( worked) and Qt:connect calls the appropriate slot on object.
Is there any difference because of where the object lives, GUI thread or the worker thread?
EDIT: I made a small program, but I don't understand how QThread works along with Signal and slot function, I would appreciate if you could explain what is the use of moveToThread with the example
#include <QtGui/QApplication>
#include <QPushButton>
#include <QHBoxLayout>
#include <QLineEdit>
#include <QString>
#include "mythread.h"
//GUI calls a thread to do some job and sub update the text box once it is done
int main(int argc, char *argv[])
{
QApplication a(argc,开发者_StackOverflow社区 argv);
QWidget w;
QHBoxLayout * pH = new QHBoxLayout(&w);
QPushButton * pushButton = new QPushButton("asdad");
QLineEdit * lineEdit = new QLineEdit("AAA");
pH->addWidget(pushButton);
pH->addWidget(lineEdit);
w.setLayout(pH);
w.show();
MyThread thread;
qDebug("Thread id %d",(int)QThread::currentThreadId());
QObject::connect(pushButton,SIGNAL(clicked()),&thread,SLOT(callRun())) ;
QObject::connect(&thread,SIGNAL(signalGUI(QString)),lineEdit,SLOT(setText(QString)));
return a.exec();
}
#ifndef MYTHREAD_H
#define MYTHREAD_H
#include <QThread>
#include <QMutex>
class MyThread : public QThread
{
Q_OBJECT
public:
MyThread();
public slots:
void callRun();
void run();
signals:
void signalGUI(QString);
private:
QMutex mutex;
};
#endif // MYTHREAD_H
#include "mythread.h"
#include <QDebug>
#include <QString>
#include <QMutexLocker>
MyThread::MyThread()
{
}
void MyThread::callRun()
{
qDebug("in thread");
if(!isRunning())
{
this->start(LowestPriority);
exec();
}
else
{
run();
}
}
void MyThread::run()
{
QMutexLocker fn_scope(&mutex);
static int a = 0;
++a;
qDebug("Thread id inside run %d",(int)QThread::currentThreadId());
this->sleep(3);
static QString number;
QString temp;
number += temp.setNum(a);
emit signalGUI(number);
}
Take a look at Signals and slots across threads. If you always use signals and slots to communicate with the worker thread, Qt handles the moveToThread for you if it's needed and you used the correct connection.
Edit: I would guess the article's author was seeing his problem since he was calling start in the constructor before the thread was actually created. In other words, don't trust third-party code blindly.
Edit: In response to your comment, look at the Mandelbrot example, under the MandelbrotWidget Class Implementation
header:
With queued connections, Qt must store a copy of the arguments that were passed to the signal so that it can pass them to the slot later on. Qt knows how to take of copy of many C++ and Qt types, but QImage isn't one of them. We must therefore call the template function qRegisterMetaType() before we can use QImage as parameter in queued connections.
I believe this is slightly outdated, here are the valid meta types. Since signals and slots across threads use queued connections, you should not have to do the moveToThread calls in most cases.
Edit: I will try to explain things with a similar example:
mythread.h:
#ifndef MYTHREAD_H
#define MYTHREAD_H
#include <QThread>
#include <QMutex>
class MyThread : public QThread
{
Q_OBJECT
protected:
virtual void run();
signals:
void signalGUI(QString);
};
#endif // MYTHREAD_H
mythread.cpp:
#include "mythread.h"
#include <QString>
void MyThread::run()
{
qDebug("Thread id inside run %d",(int)QThread::currentThreadId());
static int run = 0;
QString temp = QString("Run: %1").arg(run++);
qDebug("String address inside run %p", &temp);
emit signalGUI(temp);
}
mylineedit.h
#ifndef MYLINEEDIT_H
#define MYLINEEDIT_H
#include <QLineEdit>
class MyLineEdit : public QLineEdit
{
Q_OBJECT
public:
explicit MyLineEdit(QWidget *parent = 0);
public slots:
void setText(const QString &string);
};
#endif // MYLINEEDIT_H
mylineedit.cpp
#include "mylineedit.h"
#include <QThread>
MyLineEdit::MyLineEdit(QWidget *parent) :
QLineEdit(parent)
{
}
void MyLineEdit::setText(const QString &string)
{
qDebug("Thread id inside setText %d",(int)QThread::currentThreadId());
qDebug("String address inside setText %p\n", &string);
QLineEdit::setText(string);
}
main.cpp:
#include <QApplication>
#include <QPushButton>
#include <QHBoxLayout>
#include "mythread.h"
#include "mylineedit.h"
//GUI calls a thread to do some job and sub update the text box once it is done
int main(int argc, char *argv[])
{
QApplication a(argc, argv);
QWidget w;
QHBoxLayout * pH = new QHBoxLayout(&w);
QPushButton * pushButton = new QPushButton("Run Thread", &w);
MyLineEdit * lineEdit = new MyLineEdit(&w);
pH->addWidget(pushButton);
pH->addWidget(lineEdit);
w.show();
MyThread thread;
qDebug("Thread id %d",(int)QThread::currentThreadId());
QObject::connect(pushButton,SIGNAL(clicked()),&thread,SLOT(start())) ;
QObject::connect(&thread,SIGNAL(signalGUI(const QString&)),lineEdit,SLOT(setText(const QString&)));
return a.exec();
}
Sample output after clicking button:
Thread id 1088110320 Thread id inside run 1093176208 String address inside run 0x41288350 Thread id inside setText 1088110320 String address inside setText 0x974af58
As you can see, the run thread is different than the main GUI thread. Also, even though you pass a const reference to a QString, since it crosses thread boundaries it copies it. I strongly encourage you to read Threads and QObject.
The
QThread::start()
method creates the thread and calls yourrun()
implementation. If you want to handle events or received signals on the thread you have to callQThread::exec()
inside yourrun()
implementation. You should never callrun()
explicitly and you should never callexec()
outside ofrun()
.The owner thread makes a difference only when a slot is connected to a signal with the connection type other than
Qt::DirectConnection
. Then Qt will ensure that the slot runs on the owner thread, but for that the owner thread must be running an event loop withQThread::exec()
. In this case callingmyObj.moveToThread(myThread)
will ensure thatmyObj
slots run on the threadmyThread
.The thread object belongs to the thread where it was created, not on the thread that it manages (and where the run method will run). So when you connect a signal to a thread object's slot, that slot will run in the thread where the thread object was created unless you call
moveToThread()
.
When moving an object between threads, you decide which event loop it belongs to. When making connections inside a thread, the signaling code directly calls each one of the slots (having to wait for them to finish). Signalling across thread boundaries places the signal call on the event loop, letting the slot's thread make the call to the slot when ready.
Making direct calls between threads requires you to make sure that your functions are reentrant. You must also make sure to protect your data using mutexes or semaphores and at the same time avoid race conditions.
In the article, I guess that the delay is due to the call being direct, i.e. not at all processed in the background (but I only skimmed the text).
#include <QtGui/QApplication>
#include <QPushButton>
#include <QHBoxLayout>
#include <QLineEdit>
#include <QString>
#include "mythread.h"
//GUI calls a thread to do some job and sub update the text box once it is done
int main(int argc, char *argv[])
{
QApplication a(argc, argv);
QWidget w;
QHBoxLayout * pH = new QHBoxLayout(&w);
QPushButton * pushButton = new QPushButton("asdad");
QLineEdit * lineEdit = new QLineEdit("AAA");
pH->addWidget(pushButton);
pH->addWidget(lineEdit);
w.setLayout(pH);
w.show();
MyThread thread;
thread.moveToThread(&thread);
thread.start();
qDebug("Thread id %d",(int)QThread::currentThreadId());
QObject::connect(pushButton,SIGNAL(clicked()),&thread,SLOT(callRun()),Qt::QueuedConnection) ;
QObject::connect(&thread,SIGNAL(signalGUI(QString)),lineEdit,SLOT(setText(QString)),Qt::DirectConnection);
return a.exec();
}
#ifndef MYTHREAD_H
#define MYTHREAD_H
#include <QThread>
#include <QMutex>
class MyThread : public QThread
{
Q_OBJECT
public:
MyThread();
public slots:
void callRun();
void run();
signals:
void signalGUI(QString);
private:
QMutex mutex;
};
#endif // MYTHREAD_H
#include "mythread.h"
#include <QDebug>
#include <QString>
#include <QMutexLocker>
MyThread::MyThread()
{
}
void MyThread::callRun()
{
QMutexLocker fn_scope(&mutex);
static int a = 0;
++a;
qDebug("Thread id inside run %d",(int)QThread::currentThreadId());
this->sleep(3);
static QString number;
QString temp;
number += temp.setNum(a);
emit signalGUI(number);
}
void MyThread::run()
{
exec();
}
New thread object is created and the thread object is moved to the same thread. Signals are now across threads and connection type are both queue and it works as expected.
some objects only can be used on the owner thread. for example if you create and socket object in one thread and you want to send and recv data in another thread it is'nt possible. therefore one solution is to move your object from one thread to other and operate on it.
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