...
QDataStream
QUdpSocket
| Code Block |
|---|
#include "sender.h" SenderReceiver::SenderReceiver(QObject *parent) : QObject(parent) { sendUdpSocket = new QUdpSocket(0); receiveUdpSocket = new QUdpSocket(0); receiveUdpSocket->bind(45455,QUdpSocket::ShareAddress); connect(receiveUdpSocket, SIGNAL(readyRead()), this, SLOT(processPendingDatagrams())); } //viestien lahetys void SenderReceiver::broadcastDatagram(QVector<float> v) { int error,i; QByteArray datagram; qDebug() << v; QDataStream out (&datagram,QIODevice::WriteOnly); foreach(float f,v) { out << f; } //kirjoitetaan udp-viesti, mahdollinen virhe kannattaisi tarkastaa error=sendUdpSocket->writeDatagram(datagram.data(), datagram.size(), QHostAddress::Broadcast, 45455); } //viestien vastaanotto void SenderReceiver::processPendingDatagrams() { float f; //onko vastaanotettu viesteja while (receiveUdpSocket->hasPendingDatagrams()) { QByteArray datagram; datagram.resize(receiveUdpSocket->pendingDatagramSize()); receiveUdpSocket->readDatagram(datagram.data(), datagram.size()); QDataStream in(datagram); while (!in.atEnd()){ in >> f; v2 << f; } qDebug() << v2; emit sendReceivedData(v2); } } |
| Code Block |
|---|
#ifndef SENDER_H #define SENDER_H #include <QObject> #include <QUdpSocket> class SenderReceiver : public QObject { Q_OBJECT public: explicit SenderReceiver(QObject *parent = 0); QUdpSocket *sendUdpSocket; QUdpSocket *receiveUdpSocket; void broadcastDatagram(QVector<float> v); void testia(); QVector<float> v2; signals: void sendReceivedData(QVector<float> v2); public slots: //viestejä vastaanottava slot void processPendingDatagrams(); }; #endif // SENDER_H |