#include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "gen_qudpsocket.h" #ifdef __cplusplus extern "C" { #endif void miqt_exec_callback_QUdpSocket_resume(QUdpSocket*, intptr_t); void miqt_exec_callback_QUdpSocket_connectToHost(QUdpSocket*, intptr_t, struct miqt_string, uint16_t, int, int); void miqt_exec_callback_QUdpSocket_disconnectFromHost(QUdpSocket*, intptr_t); long long miqt_exec_callback_QUdpSocket_bytesAvailable(const QUdpSocket*, intptr_t); long long miqt_exec_callback_QUdpSocket_bytesToWrite(const QUdpSocket*, intptr_t); bool miqt_exec_callback_QUdpSocket_canReadLine(const QUdpSocket*, intptr_t); void miqt_exec_callback_QUdpSocket_setReadBufferSize(QUdpSocket*, intptr_t, long long); intptr_t miqt_exec_callback_QUdpSocket_socketDescriptor(const QUdpSocket*, intptr_t); bool miqt_exec_callback_QUdpSocket_setSocketDescriptor(QUdpSocket*, intptr_t, intptr_t, int, int); void miqt_exec_callback_QUdpSocket_setSocketOption(QUdpSocket*, intptr_t, int, QVariant*); QVariant* miqt_exec_callback_QUdpSocket_socketOption(QUdpSocket*, intptr_t, int); void miqt_exec_callback_QUdpSocket_close(QUdpSocket*, intptr_t); bool miqt_exec_callback_QUdpSocket_isSequential(const QUdpSocket*, intptr_t); bool miqt_exec_callback_QUdpSocket_atEnd(const QUdpSocket*, intptr_t); bool miqt_exec_callback_QUdpSocket_waitForConnected(QUdpSocket*, intptr_t, int); bool miqt_exec_callback_QUdpSocket_waitForReadyRead(QUdpSocket*, intptr_t, int); bool miqt_exec_callback_QUdpSocket_waitForBytesWritten(QUdpSocket*, intptr_t, int); bool miqt_exec_callback_QUdpSocket_waitForDisconnected(QUdpSocket*, intptr_t, int); long long miqt_exec_callback_QUdpSocket_readData(QUdpSocket*, intptr_t, char*, long long); long long miqt_exec_callback_QUdpSocket_readLineData(QUdpSocket*, intptr_t, char*, long long); long long miqt_exec_callback_QUdpSocket_writeData(QUdpSocket*, intptr_t, const char*, long long); bool miqt_exec_callback_QUdpSocket_open(QUdpSocket*, intptr_t, int); long long miqt_exec_callback_QUdpSocket_pos(const QUdpSocket*, intptr_t); long long miqt_exec_callback_QUdpSocket_size(const QUdpSocket*, intptr_t); bool miqt_exec_callback_QUdpSocket_seek(QUdpSocket*, intptr_t, long long); bool miqt_exec_callback_QUdpSocket_reset(QUdpSocket*, intptr_t); bool miqt_exec_callback_QUdpSocket_event(QUdpSocket*, intptr_t, QEvent*); bool miqt_exec_callback_QUdpSocket_eventFilter(QUdpSocket*, intptr_t, QObject*, QEvent*); void miqt_exec_callback_QUdpSocket_timerEvent(QUdpSocket*, intptr_t, QTimerEvent*); void miqt_exec_callback_QUdpSocket_childEvent(QUdpSocket*, intptr_t, QChildEvent*); void miqt_exec_callback_QUdpSocket_customEvent(QUdpSocket*, intptr_t, QEvent*); void miqt_exec_callback_QUdpSocket_connectNotify(QUdpSocket*, intptr_t, QMetaMethod*); void miqt_exec_callback_QUdpSocket_disconnectNotify(QUdpSocket*, intptr_t, QMetaMethod*); #ifdef __cplusplus } /* extern C */ #endif class MiqtVirtualQUdpSocket final : public QUdpSocket { public: MiqtVirtualQUdpSocket(): QUdpSocket() {}; MiqtVirtualQUdpSocket(QObject* parent): QUdpSocket(parent) {}; virtual ~MiqtVirtualQUdpSocket() override = default; // cgo.Handle value for overwritten implementation intptr_t handle__resume = 0; // Subclass to allow providing a Go implementation virtual void resume() override { if (handle__resume == 0) { QUdpSocket::resume(); return; } miqt_exec_callback_QUdpSocket_resume(this, handle__resume); } // Wrapper to allow calling protected method void virtualbase_resume() { QUdpSocket::resume(); } // cgo.Handle value for overwritten implementation intptr_t handle__connectToHost = 0; // Subclass to allow providing a Go implementation virtual void connectToHost(const QString& hostName, quint16 port, QIODevice::OpenMode mode, QAbstractSocket::NetworkLayerProtocol protocol) override { if (handle__connectToHost == 0) { QUdpSocket::connectToHost(hostName, port, mode, protocol); return; } const QString hostName_ret = hostName; // Convert QString from UTF-16 in C++ RAII memory to UTF-8 in manually-managed C memory QByteArray hostName_b = hostName_ret.toUtf8(); struct miqt_string hostName_ms; hostName_ms.len = hostName_b.length(); hostName_ms.data = static_cast(malloc(hostName_ms.len)); memcpy(hostName_ms.data, hostName_b.data(), hostName_ms.len); struct miqt_string sigval1 = hostName_ms; quint16 port_ret = port; uint16_t sigval2 = static_cast(port_ret); QIODevice::OpenMode mode_ret = mode; int sigval3 = static_cast(mode_ret); QAbstractSocket::NetworkLayerProtocol protocol_ret = protocol; int sigval4 = static_cast(protocol_ret); miqt_exec_callback_QUdpSocket_connectToHost(this, handle__connectToHost, sigval1, sigval2, sigval3, sigval4); } // Wrapper to allow calling protected method void virtualbase_connectToHost(struct miqt_string hostName, uint16_t port, int mode, int protocol) { QString hostName_QString = QString::fromUtf8(hostName.data, hostName.len); QUdpSocket::connectToHost(hostName_QString, static_cast(port), static_cast(mode), static_cast(protocol)); } // cgo.Handle value for overwritten implementation intptr_t handle__disconnectFromHost = 0; // Subclass to allow providing a Go implementation virtual void disconnectFromHost() override { if (handle__disconnectFromHost == 0) { QUdpSocket::disconnectFromHost(); return; } miqt_exec_callback_QUdpSocket_disconnectFromHost(this, handle__disconnectFromHost); } // Wrapper to allow calling protected method void virtualbase_disconnectFromHost() { QUdpSocket::disconnectFromHost(); } // cgo.Handle value for overwritten implementation intptr_t handle__bytesAvailable = 0; // Subclass to allow providing a Go implementation virtual qint64 bytesAvailable() const override { if (handle__bytesAvailable == 0) { return QUdpSocket::bytesAvailable(); } long long callback_return_value = miqt_exec_callback_QUdpSocket_bytesAvailable(this, handle__bytesAvailable); return static_cast(callback_return_value); } // Wrapper to allow calling protected method long long virtualbase_bytesAvailable() const { qint64 _ret = QUdpSocket::bytesAvailable(); return static_cast(_ret); } // cgo.Handle value for overwritten implementation intptr_t handle__bytesToWrite = 0; // Subclass to allow providing a Go implementation virtual qint64 bytesToWrite() const override { if (handle__bytesToWrite == 0) { return QUdpSocket::bytesToWrite(); } long long callback_return_value = miqt_exec_callback_QUdpSocket_bytesToWrite(this, handle__bytesToWrite); return static_cast(callback_return_value); } // Wrapper to allow calling protected method long long virtualbase_bytesToWrite() const { qint64 _ret = QUdpSocket::bytesToWrite(); return static_cast(_ret); } // cgo.Handle value for overwritten implementation intptr_t handle__canReadLine = 0; // Subclass to allow providing a Go implementation virtual bool canReadLine() const override { if (handle__canReadLine == 0) { return QUdpSocket::canReadLine(); } bool callback_return_value = miqt_exec_callback_QUdpSocket_canReadLine(this, handle__canReadLine); return callback_return_value; } // Wrapper to allow calling protected method bool virtualbase_canReadLine() const { return QUdpSocket::canReadLine(); } // cgo.Handle value for overwritten implementation intptr_t handle__setReadBufferSize = 0; // Subclass to allow providing a Go implementation virtual void setReadBufferSize(qint64 size) override { if (handle__setReadBufferSize == 0) { QUdpSocket::setReadBufferSize(size); return; } qint64 size_ret = size; long long sigval1 = static_cast(size_ret); miqt_exec_callback_QUdpSocket_setReadBufferSize(this, handle__setReadBufferSize, sigval1); } // Wrapper to allow calling protected method void virtualbase_setReadBufferSize(long long size) { QUdpSocket::setReadBufferSize(static_cast(size)); } // cgo.Handle value for overwritten implementation intptr_t handle__socketDescriptor = 0; // Subclass to allow providing a Go implementation virtual qintptr socketDescriptor() const override { if (handle__socketDescriptor == 0) { return QUdpSocket::socketDescriptor(); } intptr_t callback_return_value = miqt_exec_callback_QUdpSocket_socketDescriptor(this, handle__socketDescriptor); return (qintptr)(callback_return_value); } // Wrapper to allow calling protected method intptr_t virtualbase_socketDescriptor() const { qintptr _ret = QUdpSocket::socketDescriptor(); return (intptr_t)(_ret); } // cgo.Handle value for overwritten implementation intptr_t handle__setSocketDescriptor = 0; // Subclass to allow providing a Go implementation virtual bool setSocketDescriptor(qintptr socketDescriptor, QAbstractSocket::SocketState state, QIODevice::OpenMode openMode) override { if (handle__setSocketDescriptor == 0) { return QUdpSocket::setSocketDescriptor(socketDescriptor, state, openMode); } qintptr socketDescriptor_ret = socketDescriptor; intptr_t sigval1 = (intptr_t)(socketDescriptor_ret); QAbstractSocket::SocketState state_ret = state; int sigval2 = static_cast(state_ret); QIODevice::OpenMode openMode_ret = openMode; int sigval3 = static_cast(openMode_ret); bool callback_return_value = miqt_exec_callback_QUdpSocket_setSocketDescriptor(this, handle__setSocketDescriptor, sigval1, sigval2, sigval3); return callback_return_value; } // Wrapper to allow calling protected method bool virtualbase_setSocketDescriptor(intptr_t socketDescriptor, int state, int openMode) { return QUdpSocket::setSocketDescriptor((qintptr)(socketDescriptor), static_cast(state), static_cast(openMode)); } // cgo.Handle value for overwritten implementation intptr_t handle__setSocketOption = 0; // Subclass to allow providing a Go implementation virtual void setSocketOption(QAbstractSocket::SocketOption option, const QVariant& value) override { if (handle__setSocketOption == 0) { QUdpSocket::setSocketOption(option, value); return; } QAbstractSocket::SocketOption option_ret = option; int sigval1 = static_cast(option_ret); const QVariant& value_ret = value; // Cast returned reference into pointer QVariant* sigval2 = const_cast(&value_ret); miqt_exec_callback_QUdpSocket_setSocketOption(this, handle__setSocketOption, sigval1, sigval2); } // Wrapper to allow calling protected method void virtualbase_setSocketOption(int option, QVariant* value) { QUdpSocket::setSocketOption(static_cast(option), *value); } // cgo.Handle value for overwritten implementation intptr_t handle__socketOption = 0; // Subclass to allow providing a Go implementation virtual QVariant socketOption(QAbstractSocket::SocketOption option) override { if (handle__socketOption == 0) { return QUdpSocket::socketOption(option); } QAbstractSocket::SocketOption option_ret = option; int sigval1 = static_cast(option_ret); QVariant* callback_return_value = miqt_exec_callback_QUdpSocket_socketOption(this, handle__socketOption, sigval1); return *callback_return_value; } // Wrapper to allow calling protected method QVariant* virtualbase_socketOption(int option) { return new QVariant(QUdpSocket::socketOption(static_cast(option))); } // cgo.Handle value for overwritten implementation intptr_t handle__close = 0; // Subclass to allow providing a Go implementation virtual void close() override { if (handle__close == 0) { QUdpSocket::close(); return; } miqt_exec_callback_QUdpSocket_close(this, handle__close); } // Wrapper to allow calling protected method void virtualbase_close() { QUdpSocket::close(); } // cgo.Handle value for overwritten implementation intptr_t handle__isSequential = 0; // Subclass to allow providing a Go implementation virtual bool isSequential() const override { if (handle__isSequential == 0) { return QUdpSocket::isSequential(); } bool callback_return_value = miqt_exec_callback_QUdpSocket_isSequential(this, handle__isSequential); return callback_return_value; } // Wrapper to allow calling protected method bool virtualbase_isSequential() const { return QUdpSocket::isSequential(); } // cgo.Handle value for overwritten implementation intptr_t handle__atEnd = 0; // Subclass to allow providing a Go implementation virtual bool atEnd() const override { if (handle__atEnd == 0) { return QUdpSocket::atEnd(); } bool callback_return_value = miqt_exec_callback_QUdpSocket_atEnd(this, handle__atEnd); return callback_return_value; } // Wrapper to allow calling protected method bool virtualbase_atEnd() const { return QUdpSocket::atEnd(); } // cgo.Handle value for overwritten implementation intptr_t handle__waitForConnected = 0; // Subclass to allow providing a Go implementation virtual bool waitForConnected(int msecs) override { if (handle__waitForConnected == 0) { return QUdpSocket::waitForConnected(msecs); } int sigval1 = msecs; bool callback_return_value = miqt_exec_callback_QUdpSocket_waitForConnected(this, handle__waitForConnected, sigval1); return callback_return_value; } // Wrapper to allow calling protected method bool virtualbase_waitForConnected(int msecs) { return QUdpSocket::waitForConnected(static_cast(msecs)); } // cgo.Handle value for overwritten implementation intptr_t handle__waitForReadyRead = 0; // Subclass to allow providing a Go implementation virtual bool waitForReadyRead(int msecs) override { if (handle__waitForReadyRead == 0) { return QUdpSocket::waitForReadyRead(msecs); } int sigval1 = msecs; bool callback_return_value = miqt_exec_callback_QUdpSocket_waitForReadyRead(this, handle__waitForReadyRead, sigval1); return callback_return_value; } // Wrapper to allow calling protected method bool virtualbase_waitForReadyRead(int msecs) { return QUdpSocket::waitForReadyRead(static_cast(msecs)); } // cgo.Handle value for overwritten implementation intptr_t handle__waitForBytesWritten = 0; // Subclass to allow providing a Go implementation virtual bool waitForBytesWritten(int msecs) override { if (handle__waitForBytesWritten == 0) { return QUdpSocket::waitForBytesWritten(msecs); } int sigval1 = msecs; bool callback_return_value = miqt_exec_callback_QUdpSocket_waitForBytesWritten(this, handle__waitForBytesWritten, sigval1); return callback_return_value; } // Wrapper to allow calling protected method bool virtualbase_waitForBytesWritten(int msecs) { return QUdpSocket::waitForBytesWritten(static_cast(msecs)); } // cgo.Handle value for overwritten implementation intptr_t handle__waitForDisconnected = 0; // Subclass to allow providing a Go implementation virtual bool waitForDisconnected(int msecs) override { if (handle__waitForDisconnected == 0) { return QUdpSocket::waitForDisconnected(msecs); } int sigval1 = msecs; bool callback_return_value = miqt_exec_callback_QUdpSocket_waitForDisconnected(this, handle__waitForDisconnected, sigval1); return callback_return_value; } // Wrapper to allow calling protected method bool virtualbase_waitForDisconnected(int msecs) { return QUdpSocket::waitForDisconnected(static_cast(msecs)); } // cgo.Handle value for overwritten implementation intptr_t handle__readData = 0; // Subclass to allow providing a Go implementation virtual qint64 readData(char* data, qint64 maxlen) override { if (handle__readData == 0) { return QUdpSocket::readData(data, maxlen); } char* sigval1 = data; qint64 maxlen_ret = maxlen; long long sigval2 = static_cast(maxlen_ret); long long callback_return_value = miqt_exec_callback_QUdpSocket_readData(this, handle__readData, sigval1, sigval2); return static_cast(callback_return_value); } // Wrapper to allow calling protected method long long virtualbase_readData(char* data, long long maxlen) { qint64 _ret = QUdpSocket::readData(data, static_cast(maxlen)); return static_cast(_ret); } // cgo.Handle value for overwritten implementation intptr_t handle__readLineData = 0; // Subclass to allow providing a Go implementation virtual qint64 readLineData(char* data, qint64 maxlen) override { if (handle__readLineData == 0) { return QUdpSocket::readLineData(data, maxlen); } char* sigval1 = data; qint64 maxlen_ret = maxlen; long long sigval2 = static_cast(maxlen_ret); long long callback_return_value = miqt_exec_callback_QUdpSocket_readLineData(this, handle__readLineData, sigval1, sigval2); return static_cast(callback_return_value); } // Wrapper to allow calling protected method long long virtualbase_readLineData(char* data, long long maxlen) { qint64 _ret = QUdpSocket::readLineData(data, static_cast(maxlen)); return static_cast(_ret); } // cgo.Handle value for overwritten implementation intptr_t handle__writeData = 0; // Subclass to allow providing a Go implementation virtual qint64 writeData(const char* data, qint64 len) override { if (handle__writeData == 0) { return QUdpSocket::writeData(data, len); } const char* sigval1 = (const char*) data; qint64 len_ret = len; long long sigval2 = static_cast(len_ret); long long callback_return_value = miqt_exec_callback_QUdpSocket_writeData(this, handle__writeData, sigval1, sigval2); return static_cast(callback_return_value); } // Wrapper to allow calling protected method long long virtualbase_writeData(const char* data, long long len) { qint64 _ret = QUdpSocket::writeData(data, static_cast(len)); return static_cast(_ret); } // cgo.Handle value for overwritten implementation intptr_t handle__open = 0; // Subclass to allow providing a Go implementation virtual bool open(QIODevice::OpenMode mode) override { if (handle__open == 0) { return QUdpSocket::open(mode); } QIODevice::OpenMode mode_ret = mode; int sigval1 = static_cast(mode_ret); bool callback_return_value = miqt_exec_callback_QUdpSocket_open(this, handle__open, sigval1); return callback_return_value; } // Wrapper to allow calling protected method bool virtualbase_open(int mode) { return QUdpSocket::open(static_cast(mode)); } // cgo.Handle value for overwritten implementation intptr_t handle__pos = 0; // Subclass to allow providing a Go implementation virtual qint64 pos() const override { if (handle__pos == 0) { return QUdpSocket::pos(); } long long callback_return_value = miqt_exec_callback_QUdpSocket_pos(this, handle__pos); return static_cast(callback_return_value); } // Wrapper to allow calling protected method long long virtualbase_pos() const { qint64 _ret = QUdpSocket::pos(); return static_cast(_ret); } // cgo.Handle value for overwritten implementation intptr_t handle__size = 0; // Subclass to allow providing a Go implementation virtual qint64 size() const override { if (handle__size == 0) { return QUdpSocket::size(); } long long callback_return_value = miqt_exec_callback_QUdpSocket_size(this, handle__size); return static_cast(callback_return_value); } // Wrapper to allow calling protected method long long virtualbase_size() const { qint64 _ret = QUdpSocket::size(); return static_cast(_ret); } // cgo.Handle value for overwritten implementation intptr_t handle__seek = 0; // Subclass to allow providing a Go implementation virtual bool seek(qint64 pos) override { if (handle__seek == 0) { return QUdpSocket::seek(pos); } qint64 pos_ret = pos; long long sigval1 = static_cast(pos_ret); bool callback_return_value = miqt_exec_callback_QUdpSocket_seek(this, handle__seek, sigval1); return callback_return_value; } // Wrapper to allow calling protected method bool virtualbase_seek(long long pos) { return QUdpSocket::seek(static_cast(pos)); } // cgo.Handle value for overwritten implementation intptr_t handle__reset = 0; // Subclass to allow providing a Go implementation virtual bool reset() override { if (handle__reset == 0) { return QUdpSocket::reset(); } bool callback_return_value = miqt_exec_callback_QUdpSocket_reset(this, handle__reset); return callback_return_value; } // Wrapper to allow calling protected method bool virtualbase_reset() { return QUdpSocket::reset(); } // cgo.Handle value for overwritten implementation intptr_t handle__event = 0; // Subclass to allow providing a Go implementation virtual bool event(QEvent* event) override { if (handle__event == 0) { return QUdpSocket::event(event); } QEvent* sigval1 = event; bool callback_return_value = miqt_exec_callback_QUdpSocket_event(this, handle__event, sigval1); return callback_return_value; } // Wrapper to allow calling protected method bool virtualbase_event(QEvent* event) { return QUdpSocket::event(event); } // cgo.Handle value for overwritten implementation intptr_t handle__eventFilter = 0; // Subclass to allow providing a Go implementation virtual bool eventFilter(QObject* watched, QEvent* event) override { if (handle__eventFilter == 0) { return QUdpSocket::eventFilter(watched, event); } QObject* sigval1 = watched; QEvent* sigval2 = event; bool callback_return_value = miqt_exec_callback_QUdpSocket_eventFilter(this, handle__eventFilter, sigval1, sigval2); return callback_return_value; } // Wrapper to allow calling protected method bool virtualbase_eventFilter(QObject* watched, QEvent* event) { return QUdpSocket::eventFilter(watched, event); } // cgo.Handle value for overwritten implementation intptr_t handle__timerEvent = 0; // Subclass to allow providing a Go implementation virtual void timerEvent(QTimerEvent* event) override { if (handle__timerEvent == 0) { QUdpSocket::timerEvent(event); return; } QTimerEvent* sigval1 = event; miqt_exec_callback_QUdpSocket_timerEvent(this, handle__timerEvent, sigval1); } // Wrapper to allow calling protected method void virtualbase_timerEvent(QTimerEvent* event) { QUdpSocket::timerEvent(event); } // cgo.Handle value for overwritten implementation intptr_t handle__childEvent = 0; // Subclass to allow providing a Go implementation virtual void childEvent(QChildEvent* event) override { if (handle__childEvent == 0) { QUdpSocket::childEvent(event); return; } QChildEvent* sigval1 = event; miqt_exec_callback_QUdpSocket_childEvent(this, handle__childEvent, sigval1); } // Wrapper to allow calling protected method void virtualbase_childEvent(QChildEvent* event) { QUdpSocket::childEvent(event); } // cgo.Handle value for overwritten implementation intptr_t handle__customEvent = 0; // Subclass to allow providing a Go implementation virtual void customEvent(QEvent* event) override { if (handle__customEvent == 0) { QUdpSocket::customEvent(event); return; } QEvent* sigval1 = event; miqt_exec_callback_QUdpSocket_customEvent(this, handle__customEvent, sigval1); } // Wrapper to allow calling protected method void virtualbase_customEvent(QEvent* event) { QUdpSocket::customEvent(event); } // cgo.Handle value for overwritten implementation intptr_t handle__connectNotify = 0; // Subclass to allow providing a Go implementation virtual void connectNotify(const QMetaMethod& signal) override { if (handle__connectNotify == 0) { QUdpSocket::connectNotify(signal); return; } const QMetaMethod& signal_ret = signal; // Cast returned reference into pointer QMetaMethod* sigval1 = const_cast(&signal_ret); miqt_exec_callback_QUdpSocket_connectNotify(this, handle__connectNotify, sigval1); } // Wrapper to allow calling protected method void virtualbase_connectNotify(QMetaMethod* signal) { QUdpSocket::connectNotify(*signal); } // cgo.Handle value for overwritten implementation intptr_t handle__disconnectNotify = 0; // Subclass to allow providing a Go implementation virtual void disconnectNotify(const QMetaMethod& signal) override { if (handle__disconnectNotify == 0) { QUdpSocket::disconnectNotify(signal); return; } const QMetaMethod& signal_ret = signal; // Cast returned reference into pointer QMetaMethod* sigval1 = const_cast(&signal_ret); miqt_exec_callback_QUdpSocket_disconnectNotify(this, handle__disconnectNotify, sigval1); } // Wrapper to allow calling protected method void virtualbase_disconnectNotify(QMetaMethod* signal) { QUdpSocket::disconnectNotify(*signal); } }; QUdpSocket* QUdpSocket_new() { return new MiqtVirtualQUdpSocket(); } QUdpSocket* QUdpSocket_new2(QObject* parent) { return new MiqtVirtualQUdpSocket(parent); } void QUdpSocket_virtbase(QUdpSocket* src, QAbstractSocket** outptr_QAbstractSocket) { *outptr_QAbstractSocket = static_cast(src); } QMetaObject* QUdpSocket_metaObject(const QUdpSocket* self) { return (QMetaObject*) self->metaObject(); } void* QUdpSocket_metacast(QUdpSocket* self, const char* param1) { return self->qt_metacast(param1); } struct miqt_string QUdpSocket_tr(const char* s) { QString _ret = QUdpSocket::tr(s); // Convert QString from UTF-16 in C++ RAII memory to UTF-8 in manually-managed C memory QByteArray _b = _ret.toUtf8(); struct miqt_string _ms; _ms.len = _b.length(); _ms.data = static_cast(malloc(_ms.len)); memcpy(_ms.data, _b.data(), _ms.len); return _ms; } struct miqt_string QUdpSocket_trUtf8(const char* s) { QString _ret = QUdpSocket::trUtf8(s); // Convert QString from UTF-16 in C++ RAII memory to UTF-8 in manually-managed C memory QByteArray _b = _ret.toUtf8(); struct miqt_string _ms; _ms.len = _b.length(); _ms.data = static_cast(malloc(_ms.len)); memcpy(_ms.data, _b.data(), _ms.len); return _ms; } bool QUdpSocket_joinMulticastGroup(QUdpSocket* self, QHostAddress* groupAddress) { return self->joinMulticastGroup(*groupAddress); } bool QUdpSocket_joinMulticastGroup2(QUdpSocket* self, QHostAddress* groupAddress, QNetworkInterface* iface) { return self->joinMulticastGroup(*groupAddress, *iface); } bool QUdpSocket_leaveMulticastGroup(QUdpSocket* self, QHostAddress* groupAddress) { return self->leaveMulticastGroup(*groupAddress); } bool QUdpSocket_leaveMulticastGroup2(QUdpSocket* self, QHostAddress* groupAddress, QNetworkInterface* iface) { return self->leaveMulticastGroup(*groupAddress, *iface); } QNetworkInterface* QUdpSocket_multicastInterface(const QUdpSocket* self) { return new QNetworkInterface(self->multicastInterface()); } void QUdpSocket_setMulticastInterface(QUdpSocket* self, QNetworkInterface* iface) { self->setMulticastInterface(*iface); } bool QUdpSocket_hasPendingDatagrams(const QUdpSocket* self) { return self->hasPendingDatagrams(); } long long QUdpSocket_pendingDatagramSize(const QUdpSocket* self) { qint64 _ret = self->pendingDatagramSize(); return static_cast(_ret); } QNetworkDatagram* QUdpSocket_receiveDatagram(QUdpSocket* self) { return new QNetworkDatagram(self->receiveDatagram()); } long long QUdpSocket_readDatagram(QUdpSocket* self, char* data, long long maxlen) { qint64 _ret = self->readDatagram(data, static_cast(maxlen)); return static_cast(_ret); } long long QUdpSocket_writeDatagram(QUdpSocket* self, QNetworkDatagram* datagram) { qint64 _ret = self->writeDatagram(*datagram); return static_cast(_ret); } long long QUdpSocket_writeDatagram2(QUdpSocket* self, const char* data, long long len, QHostAddress* host, uint16_t port) { qint64 _ret = self->writeDatagram(data, static_cast(len), *host, static_cast(port)); return static_cast(_ret); } long long QUdpSocket_writeDatagram3(QUdpSocket* self, struct miqt_string datagram, QHostAddress* host, uint16_t port) { QByteArray datagram_QByteArray(datagram.data, datagram.len); qint64 _ret = self->writeDatagram(datagram_QByteArray, *host, static_cast(port)); return static_cast(_ret); } struct miqt_string QUdpSocket_tr2(const char* s, const char* c) { QString _ret = QUdpSocket::tr(s, c); // Convert QString from UTF-16 in C++ RAII memory to UTF-8 in manually-managed C memory QByteArray _b = _ret.toUtf8(); struct miqt_string _ms; _ms.len = _b.length(); _ms.data = static_cast(malloc(_ms.len)); memcpy(_ms.data, _b.data(), _ms.len); return _ms; } struct miqt_string QUdpSocket_tr3(const char* s, const char* c, int n) { QString _ret = QUdpSocket::tr(s, c, static_cast(n)); // Convert QString from UTF-16 in C++ RAII memory to UTF-8 in manually-managed C memory QByteArray _b = _ret.toUtf8(); struct miqt_string _ms; _ms.len = _b.length(); _ms.data = static_cast(malloc(_ms.len)); memcpy(_ms.data, _b.data(), _ms.len); return _ms; } struct miqt_string QUdpSocket_trUtf82(const char* s, const char* c) { QString _ret = QUdpSocket::trUtf8(s, c); // Convert QString from UTF-16 in C++ RAII memory to UTF-8 in manually-managed C memory QByteArray _b = _ret.toUtf8(); struct miqt_string _ms; _ms.len = _b.length(); _ms.data = static_cast(malloc(_ms.len)); memcpy(_ms.data, _b.data(), _ms.len); return _ms; } struct miqt_string QUdpSocket_trUtf83(const char* s, const char* c, int n) { QString _ret = QUdpSocket::trUtf8(s, c, static_cast(n)); // Convert QString from UTF-16 in C++ RAII memory to UTF-8 in manually-managed C memory QByteArray _b = _ret.toUtf8(); struct miqt_string _ms; _ms.len = _b.length(); _ms.data = static_cast(malloc(_ms.len)); memcpy(_ms.data, _b.data(), _ms.len); return _ms; } QNetworkDatagram* QUdpSocket_receiveDatagram1(QUdpSocket* self, long long maxSize) { return new QNetworkDatagram(self->receiveDatagram(static_cast(maxSize))); } long long QUdpSocket_readDatagram3(QUdpSocket* self, char* data, long long maxlen, QHostAddress* host) { qint64 _ret = self->readDatagram(data, static_cast(maxlen), host); return static_cast(_ret); } long long QUdpSocket_readDatagram4(QUdpSocket* self, char* data, long long maxlen, QHostAddress* host, uint16_t* port) { qint64 _ret = self->readDatagram(data, static_cast(maxlen), host, static_cast(port)); return static_cast(_ret); } bool QUdpSocket_override_virtual_resume(void* self, intptr_t slot) { MiqtVirtualQUdpSocket* self_cast = dynamic_cast( (QUdpSocket*)(self) ); if (self_cast == nullptr) { return false; } self_cast->handle__resume = slot; return true; } void QUdpSocket_virtualbase_resume(void* self) { ( (MiqtVirtualQUdpSocket*)(self) )->virtualbase_resume(); } bool QUdpSocket_override_virtual_connectToHost(void* self, intptr_t slot) { MiqtVirtualQUdpSocket* self_cast = dynamic_cast( (QUdpSocket*)(self) ); if (self_cast == nullptr) { return false; } self_cast->handle__connectToHost = slot; return true; } void QUdpSocket_virtualbase_connectToHost(void* self, struct miqt_string hostName, uint16_t port, int mode, int protocol) { ( (MiqtVirtualQUdpSocket*)(self) )->virtualbase_connectToHost(hostName, port, mode, protocol); } bool QUdpSocket_override_virtual_disconnectFromHost(void* self, intptr_t slot) { MiqtVirtualQUdpSocket* self_cast = dynamic_cast( (QUdpSocket*)(self) ); if (self_cast == nullptr) { return false; } self_cast->handle__disconnectFromHost = slot; return true; } void QUdpSocket_virtualbase_disconnectFromHost(void* self) { ( (MiqtVirtualQUdpSocket*)(self) )->virtualbase_disconnectFromHost(); } bool QUdpSocket_override_virtual_bytesAvailable(void* self, intptr_t slot) { MiqtVirtualQUdpSocket* self_cast = dynamic_cast( (QUdpSocket*)(self) ); if (self_cast == nullptr) { return false; } self_cast->handle__bytesAvailable = slot; return true; } long long QUdpSocket_virtualbase_bytesAvailable(const void* self) { return ( (const MiqtVirtualQUdpSocket*)(self) )->virtualbase_bytesAvailable(); } bool QUdpSocket_override_virtual_bytesToWrite(void* self, intptr_t slot) { MiqtVirtualQUdpSocket* self_cast = dynamic_cast( (QUdpSocket*)(self) ); if (self_cast == nullptr) { return false; } self_cast->handle__bytesToWrite = slot; return true; } long long QUdpSocket_virtualbase_bytesToWrite(const void* self) { return ( (const MiqtVirtualQUdpSocket*)(self) )->virtualbase_bytesToWrite(); } bool QUdpSocket_override_virtual_canReadLine(void* self, intptr_t slot) { MiqtVirtualQUdpSocket* self_cast = dynamic_cast( (QUdpSocket*)(self) ); if (self_cast == nullptr) { return false; } self_cast->handle__canReadLine = slot; return true; } bool QUdpSocket_virtualbase_canReadLine(const void* self) { return ( (const MiqtVirtualQUdpSocket*)(self) )->virtualbase_canReadLine(); } bool QUdpSocket_override_virtual_setReadBufferSize(void* self, intptr_t slot) { MiqtVirtualQUdpSocket* self_cast = dynamic_cast( (QUdpSocket*)(self) ); if (self_cast == nullptr) { return false; } self_cast->handle__setReadBufferSize = slot; return true; } void QUdpSocket_virtualbase_setReadBufferSize(void* self, long long size) { ( (MiqtVirtualQUdpSocket*)(self) )->virtualbase_setReadBufferSize(size); } bool QUdpSocket_override_virtual_socketDescriptor(void* self, intptr_t slot) { MiqtVirtualQUdpSocket* self_cast = dynamic_cast( (QUdpSocket*)(self) ); if (self_cast == nullptr) { return false; } self_cast->handle__socketDescriptor = slot; return true; } intptr_t QUdpSocket_virtualbase_socketDescriptor(const void* self) { return ( (const MiqtVirtualQUdpSocket*)(self) )->virtualbase_socketDescriptor(); } bool QUdpSocket_override_virtual_setSocketDescriptor(void* self, intptr_t slot) { MiqtVirtualQUdpSocket* self_cast = dynamic_cast( (QUdpSocket*)(self) ); if (self_cast == nullptr) { return false; } self_cast->handle__setSocketDescriptor = slot; return true; } bool QUdpSocket_virtualbase_setSocketDescriptor(void* self, intptr_t socketDescriptor, int state, int openMode) { return ( (MiqtVirtualQUdpSocket*)(self) )->virtualbase_setSocketDescriptor(socketDescriptor, state, openMode); } bool QUdpSocket_override_virtual_setSocketOption(void* self, intptr_t slot) { MiqtVirtualQUdpSocket* self_cast = dynamic_cast( (QUdpSocket*)(self) ); if (self_cast == nullptr) { return false; } self_cast->handle__setSocketOption = slot; return true; } void QUdpSocket_virtualbase_setSocketOption(void* self, int option, QVariant* value) { ( (MiqtVirtualQUdpSocket*)(self) )->virtualbase_setSocketOption(option, value); } bool QUdpSocket_override_virtual_socketOption(void* self, intptr_t slot) { MiqtVirtualQUdpSocket* self_cast = dynamic_cast( (QUdpSocket*)(self) ); if (self_cast == nullptr) { return false; } self_cast->handle__socketOption = slot; return true; } QVariant* QUdpSocket_virtualbase_socketOption(void* self, int option) { return ( (MiqtVirtualQUdpSocket*)(self) )->virtualbase_socketOption(option); } bool QUdpSocket_override_virtual_close(void* self, intptr_t slot) { MiqtVirtualQUdpSocket* self_cast = dynamic_cast( (QUdpSocket*)(self) ); if (self_cast == nullptr) { return false; } self_cast->handle__close = slot; return true; } void QUdpSocket_virtualbase_close(void* self) { ( (MiqtVirtualQUdpSocket*)(self) )->virtualbase_close(); } bool QUdpSocket_override_virtual_isSequential(void* self, intptr_t slot) { MiqtVirtualQUdpSocket* self_cast = dynamic_cast( (QUdpSocket*)(self) ); if (self_cast == nullptr) { return false; } self_cast->handle__isSequential = slot; return true; } bool QUdpSocket_virtualbase_isSequential(const void* self) { return ( (const MiqtVirtualQUdpSocket*)(self) )->virtualbase_isSequential(); } bool QUdpSocket_override_virtual_atEnd(void* self, intptr_t slot) { MiqtVirtualQUdpSocket* self_cast = dynamic_cast( (QUdpSocket*)(self) ); if (self_cast == nullptr) { return false; } self_cast->handle__atEnd = slot; return true; } bool QUdpSocket_virtualbase_atEnd(const void* self) { return ( (const MiqtVirtualQUdpSocket*)(self) )->virtualbase_atEnd(); } bool QUdpSocket_override_virtual_waitForConnected(void* self, intptr_t slot) { MiqtVirtualQUdpSocket* self_cast = dynamic_cast( (QUdpSocket*)(self) ); if (self_cast == nullptr) { return false; } self_cast->handle__waitForConnected = slot; return true; } bool QUdpSocket_virtualbase_waitForConnected(void* self, int msecs) { return ( (MiqtVirtualQUdpSocket*)(self) )->virtualbase_waitForConnected(msecs); } bool QUdpSocket_override_virtual_waitForReadyRead(void* self, intptr_t slot) { MiqtVirtualQUdpSocket* self_cast = dynamic_cast( (QUdpSocket*)(self) ); if (self_cast == nullptr) { return false; } self_cast->handle__waitForReadyRead = slot; return true; } bool QUdpSocket_virtualbase_waitForReadyRead(void* self, int msecs) { return ( (MiqtVirtualQUdpSocket*)(self) )->virtualbase_waitForReadyRead(msecs); } bool QUdpSocket_override_virtual_waitForBytesWritten(void* self, intptr_t slot) { MiqtVirtualQUdpSocket* self_cast = dynamic_cast( (QUdpSocket*)(self) ); if (self_cast == nullptr) { return false; } self_cast->handle__waitForBytesWritten = slot; return true; } bool QUdpSocket_virtualbase_waitForBytesWritten(void* self, int msecs) { return ( (MiqtVirtualQUdpSocket*)(self) )->virtualbase_waitForBytesWritten(msecs); } bool QUdpSocket_override_virtual_waitForDisconnected(void* self, intptr_t slot) { MiqtVirtualQUdpSocket* self_cast = dynamic_cast( (QUdpSocket*)(self) ); if (self_cast == nullptr) { return false; } self_cast->handle__waitForDisconnected = slot; return true; } bool QUdpSocket_virtualbase_waitForDisconnected(void* self, int msecs) { return ( (MiqtVirtualQUdpSocket*)(self) )->virtualbase_waitForDisconnected(msecs); } bool QUdpSocket_override_virtual_readData(void* self, intptr_t slot) { MiqtVirtualQUdpSocket* self_cast = dynamic_cast( (QUdpSocket*)(self) ); if (self_cast == nullptr) { return false; } self_cast->handle__readData = slot; return true; } long long QUdpSocket_virtualbase_readData(void* self, char* data, long long maxlen) { return ( (MiqtVirtualQUdpSocket*)(self) )->virtualbase_readData(data, maxlen); } bool QUdpSocket_override_virtual_readLineData(void* self, intptr_t slot) { MiqtVirtualQUdpSocket* self_cast = dynamic_cast( (QUdpSocket*)(self) ); if (self_cast == nullptr) { return false; } self_cast->handle__readLineData = slot; return true; } long long QUdpSocket_virtualbase_readLineData(void* self, char* data, long long maxlen) { return ( (MiqtVirtualQUdpSocket*)(self) )->virtualbase_readLineData(data, maxlen); } bool QUdpSocket_override_virtual_writeData(void* self, intptr_t slot) { MiqtVirtualQUdpSocket* self_cast = dynamic_cast( (QUdpSocket*)(self) ); if (self_cast == nullptr) { return false; } self_cast->handle__writeData = slot; return true; } long long QUdpSocket_virtualbase_writeData(void* self, const char* data, long long len) { return ( (MiqtVirtualQUdpSocket*)(self) )->virtualbase_writeData(data, len); } bool QUdpSocket_override_virtual_open(void* self, intptr_t slot) { MiqtVirtualQUdpSocket* self_cast = dynamic_cast( (QUdpSocket*)(self) ); if (self_cast == nullptr) { return false; } self_cast->handle__open = slot; return true; } bool QUdpSocket_virtualbase_open(void* self, int mode) { return ( (MiqtVirtualQUdpSocket*)(self) )->virtualbase_open(mode); } bool QUdpSocket_override_virtual_pos(void* self, intptr_t slot) { MiqtVirtualQUdpSocket* self_cast = dynamic_cast( (QUdpSocket*)(self) ); if (self_cast == nullptr) { return false; } self_cast->handle__pos = slot; return true; } long long QUdpSocket_virtualbase_pos(const void* self) { return ( (const MiqtVirtualQUdpSocket*)(self) )->virtualbase_pos(); } bool QUdpSocket_override_virtual_size(void* self, intptr_t slot) { MiqtVirtualQUdpSocket* self_cast = dynamic_cast( (QUdpSocket*)(self) ); if (self_cast == nullptr) { return false; } self_cast->handle__size = slot; return true; } long long QUdpSocket_virtualbase_size(const void* self) { return ( (const MiqtVirtualQUdpSocket*)(self) )->virtualbase_size(); } bool QUdpSocket_override_virtual_seek(void* self, intptr_t slot) { MiqtVirtualQUdpSocket* self_cast = dynamic_cast( (QUdpSocket*)(self) ); if (self_cast == nullptr) { return false; } self_cast->handle__seek = slot; return true; } bool QUdpSocket_virtualbase_seek(void* self, long long pos) { return ( (MiqtVirtualQUdpSocket*)(self) )->virtualbase_seek(pos); } bool QUdpSocket_override_virtual_reset(void* self, intptr_t slot) { MiqtVirtualQUdpSocket* self_cast = dynamic_cast( (QUdpSocket*)(self) ); if (self_cast == nullptr) { return false; } self_cast->handle__reset = slot; return true; } bool QUdpSocket_virtualbase_reset(void* self) { return ( (MiqtVirtualQUdpSocket*)(self) )->virtualbase_reset(); } bool QUdpSocket_override_virtual_event(void* self, intptr_t slot) { MiqtVirtualQUdpSocket* self_cast = dynamic_cast( (QUdpSocket*)(self) ); if (self_cast == nullptr) { return false; } self_cast->handle__event = slot; return true; } bool QUdpSocket_virtualbase_event(void* self, QEvent* event) { return ( (MiqtVirtualQUdpSocket*)(self) )->virtualbase_event(event); } bool QUdpSocket_override_virtual_eventFilter(void* self, intptr_t slot) { MiqtVirtualQUdpSocket* self_cast = dynamic_cast( (QUdpSocket*)(self) ); if (self_cast == nullptr) { return false; } self_cast->handle__eventFilter = slot; return true; } bool QUdpSocket_virtualbase_eventFilter(void* self, QObject* watched, QEvent* event) { return ( (MiqtVirtualQUdpSocket*)(self) )->virtualbase_eventFilter(watched, event); } bool QUdpSocket_override_virtual_timerEvent(void* self, intptr_t slot) { MiqtVirtualQUdpSocket* self_cast = dynamic_cast( (QUdpSocket*)(self) ); if (self_cast == nullptr) { return false; } self_cast->handle__timerEvent = slot; return true; } void QUdpSocket_virtualbase_timerEvent(void* self, QTimerEvent* event) { ( (MiqtVirtualQUdpSocket*)(self) )->virtualbase_timerEvent(event); } bool QUdpSocket_override_virtual_childEvent(void* self, intptr_t slot) { MiqtVirtualQUdpSocket* self_cast = dynamic_cast( (QUdpSocket*)(self) ); if (self_cast == nullptr) { return false; } self_cast->handle__childEvent = slot; return true; } void QUdpSocket_virtualbase_childEvent(void* self, QChildEvent* event) { ( (MiqtVirtualQUdpSocket*)(self) )->virtualbase_childEvent(event); } bool QUdpSocket_override_virtual_customEvent(void* self, intptr_t slot) { MiqtVirtualQUdpSocket* self_cast = dynamic_cast( (QUdpSocket*)(self) ); if (self_cast == nullptr) { return false; } self_cast->handle__customEvent = slot; return true; } void QUdpSocket_virtualbase_customEvent(void* self, QEvent* event) { ( (MiqtVirtualQUdpSocket*)(self) )->virtualbase_customEvent(event); } bool QUdpSocket_override_virtual_connectNotify(void* self, intptr_t slot) { MiqtVirtualQUdpSocket* self_cast = dynamic_cast( (QUdpSocket*)(self) ); if (self_cast == nullptr) { return false; } self_cast->handle__connectNotify = slot; return true; } void QUdpSocket_virtualbase_connectNotify(void* self, QMetaMethod* signal) { ( (MiqtVirtualQUdpSocket*)(self) )->virtualbase_connectNotify(signal); } bool QUdpSocket_override_virtual_disconnectNotify(void* self, intptr_t slot) { MiqtVirtualQUdpSocket* self_cast = dynamic_cast( (QUdpSocket*)(self) ); if (self_cast == nullptr) { return false; } self_cast->handle__disconnectNotify = slot; return true; } void QUdpSocket_virtualbase_disconnectNotify(void* self, QMetaMethod* signal) { ( (MiqtVirtualQUdpSocket*)(self) )->virtualbase_disconnectNotify(signal); } void QUdpSocket_delete(QUdpSocket* self) { delete self; }