#include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "gen_qsslsocket.h" #include "_cgo_export.h" class MiqtVirtualQSslSocket : public virtual QSslSocket { public: MiqtVirtualQSslSocket(): QSslSocket() {}; MiqtVirtualQSslSocket(QObject* parent): QSslSocket(parent) {}; virtual ~MiqtVirtualQSslSocket() = 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) { QSslSocket::resume(); return; } miqt_exec_callback_QSslSocket_Resume(this, handle__Resume); } // Wrapper to allow calling protected method void virtualbase_Resume() { QSslSocket::resume(); } // 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, QIODeviceBase::OpenMode openMode) override { if (handle__SetSocketDescriptor == 0) { return QSslSocket::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); QIODeviceBase::OpenMode openMode_ret = openMode; int sigval3 = static_cast(openMode_ret); bool callback_return_value = miqt_exec_callback_QSslSocket_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 QSslSocket::setSocketDescriptor((qintptr)(socketDescriptor), static_cast(state), static_cast(openMode)); } // 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, QIODeviceBase::OpenMode openMode, QAbstractSocket::NetworkLayerProtocol protocol) override { if (handle__ConnectToHost == 0) { QSslSocket::connectToHost(hostName, port, openMode, 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); QIODeviceBase::OpenMode openMode_ret = openMode; int sigval3 = static_cast(openMode_ret); QAbstractSocket::NetworkLayerProtocol protocol_ret = protocol; int sigval4 = static_cast(protocol_ret); miqt_exec_callback_QSslSocket_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 openMode, int protocol) { QString hostName_QString = QString::fromUtf8(hostName.data, hostName.len); QSslSocket::connectToHost(hostName_QString, static_cast(port), static_cast(openMode), 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) { QSslSocket::disconnectFromHost(); return; } miqt_exec_callback_QSslSocket_DisconnectFromHost(this, handle__DisconnectFromHost); } // Wrapper to allow calling protected method void virtualbase_DisconnectFromHost() { QSslSocket::disconnectFromHost(); } // 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) { QSslSocket::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_QSslSocket_SetSocketOption(this, handle__SetSocketOption, sigval1, sigval2); } // Wrapper to allow calling protected method void virtualbase_SetSocketOption(int option, QVariant* value) { QSslSocket::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 QSslSocket::socketOption(option); } QAbstractSocket::SocketOption option_ret = option; int sigval1 = static_cast(option_ret); QVariant* callback_return_value = miqt_exec_callback_QSslSocket_SocketOption(this, handle__SocketOption, sigval1); return *callback_return_value; } // Wrapper to allow calling protected method QVariant* virtualbase_SocketOption(int option) { return new QVariant(QSslSocket::socketOption(static_cast(option))); } // 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 QSslSocket::bytesAvailable(); } long long callback_return_value = miqt_exec_callback_QSslSocket_BytesAvailable(const_cast(this), handle__BytesAvailable); return static_cast(callback_return_value); } // Wrapper to allow calling protected method long long virtualbase_BytesAvailable() const { qint64 _ret = QSslSocket::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 QSslSocket::bytesToWrite(); } long long callback_return_value = miqt_exec_callback_QSslSocket_BytesToWrite(const_cast(this), handle__BytesToWrite); return static_cast(callback_return_value); } // Wrapper to allow calling protected method long long virtualbase_BytesToWrite() const { qint64 _ret = QSslSocket::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 QSslSocket::canReadLine(); } bool callback_return_value = miqt_exec_callback_QSslSocket_CanReadLine(const_cast(this), handle__CanReadLine); return callback_return_value; } // Wrapper to allow calling protected method bool virtualbase_CanReadLine() const { return QSslSocket::canReadLine(); } // 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) { QSslSocket::close(); return; } miqt_exec_callback_QSslSocket_Close(this, handle__Close); } // Wrapper to allow calling protected method void virtualbase_Close() { QSslSocket::close(); } // 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 QSslSocket::atEnd(); } bool callback_return_value = miqt_exec_callback_QSslSocket_AtEnd(const_cast(this), handle__AtEnd); return callback_return_value; } // Wrapper to allow calling protected method bool virtualbase_AtEnd() const { return QSslSocket::atEnd(); } // 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) { QSslSocket::setReadBufferSize(size); return; } qint64 size_ret = size; long long sigval1 = static_cast(size_ret); miqt_exec_callback_QSslSocket_SetReadBufferSize(this, handle__SetReadBufferSize, sigval1); } // Wrapper to allow calling protected method void virtualbase_SetReadBufferSize(long long size) { QSslSocket::setReadBufferSize(static_cast(size)); } // 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 QSslSocket::waitForConnected(msecs); } int sigval1 = msecs; bool callback_return_value = miqt_exec_callback_QSslSocket_WaitForConnected(this, handle__WaitForConnected, sigval1); return callback_return_value; } // Wrapper to allow calling protected method bool virtualbase_WaitForConnected(int msecs) { return QSslSocket::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 QSslSocket::waitForReadyRead(msecs); } int sigval1 = msecs; bool callback_return_value = miqt_exec_callback_QSslSocket_WaitForReadyRead(this, handle__WaitForReadyRead, sigval1); return callback_return_value; } // Wrapper to allow calling protected method bool virtualbase_WaitForReadyRead(int msecs) { return QSslSocket::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 QSslSocket::waitForBytesWritten(msecs); } int sigval1 = msecs; bool callback_return_value = miqt_exec_callback_QSslSocket_WaitForBytesWritten(this, handle__WaitForBytesWritten, sigval1); return callback_return_value; } // Wrapper to allow calling protected method bool virtualbase_WaitForBytesWritten(int msecs) { return QSslSocket::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 QSslSocket::waitForDisconnected(msecs); } int sigval1 = msecs; bool callback_return_value = miqt_exec_callback_QSslSocket_WaitForDisconnected(this, handle__WaitForDisconnected, sigval1); return callback_return_value; } // Wrapper to allow calling protected method bool virtualbase_WaitForDisconnected(int msecs) { return QSslSocket::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 QSslSocket::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_QSslSocket_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 = QSslSocket::readData(data, static_cast(maxlen)); return static_cast(_ret); } // cgo.Handle value for overwritten implementation intptr_t handle__SkipData = 0; // Subclass to allow providing a Go implementation virtual qint64 skipData(qint64 maxSize) override { if (handle__SkipData == 0) { return QSslSocket::skipData(maxSize); } qint64 maxSize_ret = maxSize; long long sigval1 = static_cast(maxSize_ret); long long callback_return_value = miqt_exec_callback_QSslSocket_SkipData(this, handle__SkipData, sigval1); return static_cast(callback_return_value); } // Wrapper to allow calling protected method long long virtualbase_SkipData(long long maxSize) { qint64 _ret = QSslSocket::skipData(static_cast(maxSize)); 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 lenVal) override { if (handle__WriteData == 0) { return QSslSocket::writeData(data, lenVal); } const char* sigval1 = (const char*) data; qint64 lenVal_ret = lenVal; long long sigval2 = static_cast(lenVal_ret); long long callback_return_value = miqt_exec_callback_QSslSocket_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 lenVal) { qint64 _ret = QSslSocket::writeData(data, static_cast(lenVal)); return static_cast(_ret); } }; void QSslSocket_new(QSslSocket** outptr_QSslSocket, QTcpSocket** outptr_QTcpSocket, QAbstractSocket** outptr_QAbstractSocket, QIODevice** outptr_QIODevice, QObject** outptr_QObject, QIODeviceBase** outptr_QIODeviceBase) { MiqtVirtualQSslSocket* ret = new MiqtVirtualQSslSocket(); *outptr_QSslSocket = ret; *outptr_QTcpSocket = static_cast(ret); *outptr_QAbstractSocket = static_cast(ret); *outptr_QIODevice = static_cast(ret); *outptr_QObject = static_cast(ret); *outptr_QIODeviceBase = static_cast(ret); } void QSslSocket_new2(QObject* parent, QSslSocket** outptr_QSslSocket, QTcpSocket** outptr_QTcpSocket, QAbstractSocket** outptr_QAbstractSocket, QIODevice** outptr_QIODevice, QObject** outptr_QObject, QIODeviceBase** outptr_QIODeviceBase) { MiqtVirtualQSslSocket* ret = new MiqtVirtualQSslSocket(parent); *outptr_QSslSocket = ret; *outptr_QTcpSocket = static_cast(ret); *outptr_QAbstractSocket = static_cast(ret); *outptr_QIODevice = static_cast(ret); *outptr_QObject = static_cast(ret); *outptr_QIODeviceBase = static_cast(ret); } QMetaObject* QSslSocket_MetaObject(const QSslSocket* self) { return (QMetaObject*) self->metaObject(); } void* QSslSocket_Metacast(QSslSocket* self, const char* param1) { return self->qt_metacast(param1); } struct miqt_string QSslSocket_Tr(const char* s) { QString _ret = QSslSocket::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; } void QSslSocket_Resume(QSslSocket* self) { self->resume(); } void QSslSocket_ConnectToHostEncrypted(QSslSocket* self, struct miqt_string hostName, uint16_t port) { QString hostName_QString = QString::fromUtf8(hostName.data, hostName.len); self->connectToHostEncrypted(hostName_QString, static_cast(port)); } void QSslSocket_ConnectToHostEncrypted2(QSslSocket* self, struct miqt_string hostName, uint16_t port, struct miqt_string sslPeerName) { QString hostName_QString = QString::fromUtf8(hostName.data, hostName.len); QString sslPeerName_QString = QString::fromUtf8(sslPeerName.data, sslPeerName.len); self->connectToHostEncrypted(hostName_QString, static_cast(port), sslPeerName_QString); } bool QSslSocket_SetSocketDescriptor(QSslSocket* self, intptr_t socketDescriptor, int state, int openMode) { return self->setSocketDescriptor((qintptr)(socketDescriptor), static_cast(state), static_cast(openMode)); } void QSslSocket_ConnectToHost(QSslSocket* self, struct miqt_string hostName, uint16_t port, int openMode, int protocol) { QString hostName_QString = QString::fromUtf8(hostName.data, hostName.len); self->connectToHost(hostName_QString, static_cast(port), static_cast(openMode), static_cast(protocol)); } void QSslSocket_DisconnectFromHost(QSslSocket* self) { self->disconnectFromHost(); } void QSslSocket_SetSocketOption(QSslSocket* self, int option, QVariant* value) { self->setSocketOption(static_cast(option), *value); } QVariant* QSslSocket_SocketOption(QSslSocket* self, int option) { return new QVariant(self->socketOption(static_cast(option))); } int QSslSocket_Mode(const QSslSocket* self) { QSslSocket::SslMode _ret = self->mode(); return static_cast(_ret); } bool QSslSocket_IsEncrypted(const QSslSocket* self) { return self->isEncrypted(); } int QSslSocket_Protocol(const QSslSocket* self) { QSsl::SslProtocol _ret = self->protocol(); return static_cast(_ret); } void QSslSocket_SetProtocol(QSslSocket* self, int protocol) { self->setProtocol(static_cast(protocol)); } int QSslSocket_PeerVerifyMode(const QSslSocket* self) { QSslSocket::PeerVerifyMode _ret = self->peerVerifyMode(); return static_cast(_ret); } void QSslSocket_SetPeerVerifyMode(QSslSocket* self, int mode) { self->setPeerVerifyMode(static_cast(mode)); } int QSslSocket_PeerVerifyDepth(const QSslSocket* self) { return self->peerVerifyDepth(); } void QSslSocket_SetPeerVerifyDepth(QSslSocket* self, int depth) { self->setPeerVerifyDepth(static_cast(depth)); } struct miqt_string QSslSocket_PeerVerifyName(const QSslSocket* self) { QString _ret = self->peerVerifyName(); // 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; } void QSslSocket_SetPeerVerifyName(QSslSocket* self, struct miqt_string hostName) { QString hostName_QString = QString::fromUtf8(hostName.data, hostName.len); self->setPeerVerifyName(hostName_QString); } long long QSslSocket_BytesAvailable(const QSslSocket* self) { qint64 _ret = self->bytesAvailable(); return static_cast(_ret); } long long QSslSocket_BytesToWrite(const QSslSocket* self) { qint64 _ret = self->bytesToWrite(); return static_cast(_ret); } bool QSslSocket_CanReadLine(const QSslSocket* self) { return self->canReadLine(); } void QSslSocket_Close(QSslSocket* self) { self->close(); } bool QSslSocket_AtEnd(const QSslSocket* self) { return self->atEnd(); } void QSslSocket_SetReadBufferSize(QSslSocket* self, long long size) { self->setReadBufferSize(static_cast(size)); } long long QSslSocket_EncryptedBytesAvailable(const QSslSocket* self) { qint64 _ret = self->encryptedBytesAvailable(); return static_cast(_ret); } long long QSslSocket_EncryptedBytesToWrite(const QSslSocket* self) { qint64 _ret = self->encryptedBytesToWrite(); return static_cast(_ret); } QSslConfiguration* QSslSocket_SslConfiguration(const QSslSocket* self) { return new QSslConfiguration(self->sslConfiguration()); } void QSslSocket_SetSslConfiguration(QSslSocket* self, QSslConfiguration* config) { self->setSslConfiguration(*config); } void QSslSocket_SetLocalCertificateChain(QSslSocket* self, struct miqt_array /* of QSslCertificate* */ localChain) { QList localChain_QList; localChain_QList.reserve(localChain.len); QSslCertificate** localChain_arr = static_cast(localChain.data); for(size_t i = 0; i < localChain.len; ++i) { localChain_QList.push_back(*(localChain_arr[i])); } self->setLocalCertificateChain(localChain_QList); } struct miqt_array /* of QSslCertificate* */ QSslSocket_LocalCertificateChain(const QSslSocket* self) { QList _ret = self->localCertificateChain(); // Convert QList<> from C++ memory to manually-managed C memory QSslCertificate** _arr = static_cast(malloc(sizeof(QSslCertificate*) * _ret.length())); for (size_t i = 0, e = _ret.length(); i < e; ++i) { _arr[i] = new QSslCertificate(_ret[i]); } struct miqt_array _out; _out.len = _ret.length(); _out.data = static_cast(_arr); return _out; } void QSslSocket_SetLocalCertificate(QSslSocket* self, QSslCertificate* certificate) { self->setLocalCertificate(*certificate); } void QSslSocket_SetLocalCertificateWithFileName(QSslSocket* self, struct miqt_string fileName) { QString fileName_QString = QString::fromUtf8(fileName.data, fileName.len); self->setLocalCertificate(fileName_QString); } QSslCertificate* QSslSocket_LocalCertificate(const QSslSocket* self) { return new QSslCertificate(self->localCertificate()); } QSslCertificate* QSslSocket_PeerCertificate(const QSslSocket* self) { return new QSslCertificate(self->peerCertificate()); } struct miqt_array /* of QSslCertificate* */ QSslSocket_PeerCertificateChain(const QSslSocket* self) { QList _ret = self->peerCertificateChain(); // Convert QList<> from C++ memory to manually-managed C memory QSslCertificate** _arr = static_cast(malloc(sizeof(QSslCertificate*) * _ret.length())); for (size_t i = 0, e = _ret.length(); i < e; ++i) { _arr[i] = new QSslCertificate(_ret[i]); } struct miqt_array _out; _out.len = _ret.length(); _out.data = static_cast(_arr); return _out; } QSslCipher* QSslSocket_SessionCipher(const QSslSocket* self) { return new QSslCipher(self->sessionCipher()); } int QSslSocket_SessionProtocol(const QSslSocket* self) { QSsl::SslProtocol _ret = self->sessionProtocol(); return static_cast(_ret); } struct miqt_array /* of QOcspResponse* */ QSslSocket_OcspResponses(const QSslSocket* self) { QList _ret = self->ocspResponses(); // Convert QList<> from C++ memory to manually-managed C memory QOcspResponse** _arr = static_cast(malloc(sizeof(QOcspResponse*) * _ret.length())); for (size_t i = 0, e = _ret.length(); i < e; ++i) { _arr[i] = new QOcspResponse(_ret[i]); } struct miqt_array _out; _out.len = _ret.length(); _out.data = static_cast(_arr); return _out; } void QSslSocket_SetPrivateKey(QSslSocket* self, QSslKey* key) { self->setPrivateKey(*key); } void QSslSocket_SetPrivateKeyWithFileName(QSslSocket* self, struct miqt_string fileName) { QString fileName_QString = QString::fromUtf8(fileName.data, fileName.len); self->setPrivateKey(fileName_QString); } QSslKey* QSslSocket_PrivateKey(const QSslSocket* self) { return new QSslKey(self->privateKey()); } bool QSslSocket_WaitForConnected(QSslSocket* self, int msecs) { return self->waitForConnected(static_cast(msecs)); } bool QSslSocket_WaitForEncrypted(QSslSocket* self) { return self->waitForEncrypted(); } bool QSslSocket_WaitForReadyRead(QSslSocket* self, int msecs) { return self->waitForReadyRead(static_cast(msecs)); } bool QSslSocket_WaitForBytesWritten(QSslSocket* self, int msecs) { return self->waitForBytesWritten(static_cast(msecs)); } bool QSslSocket_WaitForDisconnected(QSslSocket* self, int msecs) { return self->waitForDisconnected(static_cast(msecs)); } struct miqt_array /* of QSslError* */ QSslSocket_SslHandshakeErrors(const QSslSocket* self) { QList _ret = self->sslHandshakeErrors(); // Convert QList<> from C++ memory to manually-managed C memory QSslError** _arr = static_cast(malloc(sizeof(QSslError*) * _ret.length())); for (size_t i = 0, e = _ret.length(); i < e; ++i) { _arr[i] = new QSslError(_ret[i]); } struct miqt_array _out; _out.len = _ret.length(); _out.data = static_cast(_arr); return _out; } bool QSslSocket_SupportsSsl() { return QSslSocket::supportsSsl(); } long QSslSocket_SslLibraryVersionNumber() { return QSslSocket::sslLibraryVersionNumber(); } struct miqt_string QSslSocket_SslLibraryVersionString() { QString _ret = QSslSocket::sslLibraryVersionString(); // 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; } long QSslSocket_SslLibraryBuildVersionNumber() { return QSslSocket::sslLibraryBuildVersionNumber(); } struct miqt_string QSslSocket_SslLibraryBuildVersionString() { QString _ret = QSslSocket::sslLibraryBuildVersionString(); // 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_array /* of struct miqt_string */ QSslSocket_AvailableBackends() { QList _ret = QSslSocket::availableBackends(); // Convert QList<> from C++ memory to manually-managed C memory struct miqt_string* _arr = static_cast(malloc(sizeof(struct miqt_string) * _ret.length())); for (size_t i = 0, e = _ret.length(); i < e; ++i) { QString _lv_ret = _ret[i]; // Convert QString from UTF-16 in C++ RAII memory to UTF-8 in manually-managed C memory QByteArray _lv_b = _lv_ret.toUtf8(); struct miqt_string _lv_ms; _lv_ms.len = _lv_b.length(); _lv_ms.data = static_cast(malloc(_lv_ms.len)); memcpy(_lv_ms.data, _lv_b.data(), _lv_ms.len); _arr[i] = _lv_ms; } struct miqt_array _out; _out.len = _ret.length(); _out.data = static_cast(_arr); return _out; } struct miqt_string QSslSocket_ActiveBackend() { QString _ret = QSslSocket::activeBackend(); // 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 QSslSocket_SetActiveBackend(struct miqt_string backendName) { QString backendName_QString = QString::fromUtf8(backendName.data, backendName.len); return QSslSocket::setActiveBackend(backendName_QString); } struct miqt_array /* of int */ QSslSocket_SupportedProtocols() { QList _ret = QSslSocket::supportedProtocols(); // Convert QList<> from C++ memory to manually-managed C memory int* _arr = static_cast(malloc(sizeof(int) * _ret.length())); for (size_t i = 0, e = _ret.length(); i < e; ++i) { QSsl::SslProtocol _lv_ret = _ret[i]; _arr[i] = static_cast(_lv_ret); } struct miqt_array _out; _out.len = _ret.length(); _out.data = static_cast(_arr); return _out; } bool QSslSocket_IsProtocolSupported(int protocol) { return QSslSocket::isProtocolSupported(static_cast(protocol)); } struct miqt_array /* of int */ QSslSocket_ImplementedClasses() { QList _ret = QSslSocket::implementedClasses(); // Convert QList<> from C++ memory to manually-managed C memory int* _arr = static_cast(malloc(sizeof(int) * _ret.length())); for (size_t i = 0, e = _ret.length(); i < e; ++i) { QSsl::ImplementedClass _lv_ret = _ret[i]; _arr[i] = static_cast(_lv_ret); } struct miqt_array _out; _out.len = _ret.length(); _out.data = static_cast(_arr); return _out; } bool QSslSocket_IsClassImplemented(int cl) { return QSslSocket::isClassImplemented(static_cast(cl)); } struct miqt_array /* of int */ QSslSocket_SupportedFeatures() { QList _ret = QSslSocket::supportedFeatures(); // Convert QList<> from C++ memory to manually-managed C memory int* _arr = static_cast(malloc(sizeof(int) * _ret.length())); for (size_t i = 0, e = _ret.length(); i < e; ++i) { QSsl::SupportedFeature _lv_ret = _ret[i]; _arr[i] = static_cast(_lv_ret); } struct miqt_array _out; _out.len = _ret.length(); _out.data = static_cast(_arr); return _out; } bool QSslSocket_IsFeatureSupported(int feat) { return QSslSocket::isFeatureSupported(static_cast(feat)); } void QSslSocket_IgnoreSslErrors(QSslSocket* self, struct miqt_array /* of QSslError* */ errors) { QList errors_QList; errors_QList.reserve(errors.len); QSslError** errors_arr = static_cast(errors.data); for(size_t i = 0; i < errors.len; ++i) { errors_QList.push_back(*(errors_arr[i])); } self->ignoreSslErrors(errors_QList); } void QSslSocket_ContinueInterruptedHandshake(QSslSocket* self) { self->continueInterruptedHandshake(); } void QSslSocket_StartClientEncryption(QSslSocket* self) { self->startClientEncryption(); } void QSslSocket_StartServerEncryption(QSslSocket* self) { self->startServerEncryption(); } void QSslSocket_IgnoreSslErrors2(QSslSocket* self) { self->ignoreSslErrors(); } void QSslSocket_Encrypted(QSslSocket* self) { self->encrypted(); } void QSslSocket_connect_Encrypted(QSslSocket* self, intptr_t slot) { MiqtVirtualQSslSocket::connect(self, static_cast(&QSslSocket::encrypted), self, [=]() { miqt_exec_callback_QSslSocket_Encrypted(slot); }); } void QSslSocket_PeerVerifyError(QSslSocket* self, QSslError* error) { self->peerVerifyError(*error); } void QSslSocket_connect_PeerVerifyError(QSslSocket* self, intptr_t slot) { MiqtVirtualQSslSocket::connect(self, static_cast(&QSslSocket::peerVerifyError), self, [=](const QSslError& error) { const QSslError& error_ret = error; // Cast returned reference into pointer QSslError* sigval1 = const_cast(&error_ret); miqt_exec_callback_QSslSocket_PeerVerifyError(slot, sigval1); }); } void QSslSocket_SslErrors(QSslSocket* self, struct miqt_array /* of QSslError* */ errors) { QList errors_QList; errors_QList.reserve(errors.len); QSslError** errors_arr = static_cast(errors.data); for(size_t i = 0; i < errors.len; ++i) { errors_QList.push_back(*(errors_arr[i])); } self->sslErrors(errors_QList); } void QSslSocket_connect_SslErrors(QSslSocket* self, intptr_t slot) { MiqtVirtualQSslSocket::connect(self, static_cast&)>(&QSslSocket::sslErrors), self, [=](const QList& errors) { const QList& errors_ret = errors; // Convert QList<> from C++ memory to manually-managed C memory QSslError** errors_arr = static_cast(malloc(sizeof(QSslError*) * errors_ret.length())); for (size_t i = 0, e = errors_ret.length(); i < e; ++i) { errors_arr[i] = new QSslError(errors_ret[i]); } struct miqt_array errors_out; errors_out.len = errors_ret.length(); errors_out.data = static_cast(errors_arr); struct miqt_array /* of QSslError* */ sigval1 = errors_out; miqt_exec_callback_QSslSocket_SslErrors(slot, sigval1); }); } void QSslSocket_ModeChanged(QSslSocket* self, int newMode) { self->modeChanged(static_cast(newMode)); } void QSslSocket_connect_ModeChanged(QSslSocket* self, intptr_t slot) { MiqtVirtualQSslSocket::connect(self, static_cast(&QSslSocket::modeChanged), self, [=](QSslSocket::SslMode newMode) { QSslSocket::SslMode newMode_ret = newMode; int sigval1 = static_cast(newMode_ret); miqt_exec_callback_QSslSocket_ModeChanged(slot, sigval1); }); } void QSslSocket_EncryptedBytesWritten(QSslSocket* self, long long totalBytes) { self->encryptedBytesWritten(static_cast(totalBytes)); } void QSslSocket_connect_EncryptedBytesWritten(QSslSocket* self, intptr_t slot) { MiqtVirtualQSslSocket::connect(self, static_cast(&QSslSocket::encryptedBytesWritten), self, [=](qint64 totalBytes) { qint64 totalBytes_ret = totalBytes; long long sigval1 = static_cast(totalBytes_ret); miqt_exec_callback_QSslSocket_EncryptedBytesWritten(slot, sigval1); }); } void QSslSocket_PreSharedKeyAuthenticationRequired(QSslSocket* self, QSslPreSharedKeyAuthenticator* authenticator) { self->preSharedKeyAuthenticationRequired(authenticator); } void QSslSocket_connect_PreSharedKeyAuthenticationRequired(QSslSocket* self, intptr_t slot) { MiqtVirtualQSslSocket::connect(self, static_cast(&QSslSocket::preSharedKeyAuthenticationRequired), self, [=](QSslPreSharedKeyAuthenticator* authenticator) { QSslPreSharedKeyAuthenticator* sigval1 = authenticator; miqt_exec_callback_QSslSocket_PreSharedKeyAuthenticationRequired(slot, sigval1); }); } void QSslSocket_NewSessionTicketReceived(QSslSocket* self) { self->newSessionTicketReceived(); } void QSslSocket_connect_NewSessionTicketReceived(QSslSocket* self, intptr_t slot) { MiqtVirtualQSslSocket::connect(self, static_cast(&QSslSocket::newSessionTicketReceived), self, [=]() { miqt_exec_callback_QSslSocket_NewSessionTicketReceived(slot); }); } void QSslSocket_AlertSent(QSslSocket* self, int level, int typeVal, struct miqt_string description) { QString description_QString = QString::fromUtf8(description.data, description.len); self->alertSent(static_cast(level), static_cast(typeVal), description_QString); } void QSslSocket_connect_AlertSent(QSslSocket* self, intptr_t slot) { MiqtVirtualQSslSocket::connect(self, static_cast(&QSslSocket::alertSent), self, [=](QSsl::AlertLevel level, QSsl::AlertType typeVal, const QString& description) { QSsl::AlertLevel level_ret = level; int sigval1 = static_cast(level_ret); QSsl::AlertType typeVal_ret = typeVal; int sigval2 = static_cast(typeVal_ret); const QString description_ret = description; // Convert QString from UTF-16 in C++ RAII memory to UTF-8 in manually-managed C memory QByteArray description_b = description_ret.toUtf8(); struct miqt_string description_ms; description_ms.len = description_b.length(); description_ms.data = static_cast(malloc(description_ms.len)); memcpy(description_ms.data, description_b.data(), description_ms.len); struct miqt_string sigval3 = description_ms; miqt_exec_callback_QSslSocket_AlertSent(slot, sigval1, sigval2, sigval3); }); } void QSslSocket_AlertReceived(QSslSocket* self, int level, int typeVal, struct miqt_string description) { QString description_QString = QString::fromUtf8(description.data, description.len); self->alertReceived(static_cast(level), static_cast(typeVal), description_QString); } void QSslSocket_connect_AlertReceived(QSslSocket* self, intptr_t slot) { MiqtVirtualQSslSocket::connect(self, static_cast(&QSslSocket::alertReceived), self, [=](QSsl::AlertLevel level, QSsl::AlertType typeVal, const QString& description) { QSsl::AlertLevel level_ret = level; int sigval1 = static_cast(level_ret); QSsl::AlertType typeVal_ret = typeVal; int sigval2 = static_cast(typeVal_ret); const QString description_ret = description; // Convert QString from UTF-16 in C++ RAII memory to UTF-8 in manually-managed C memory QByteArray description_b = description_ret.toUtf8(); struct miqt_string description_ms; description_ms.len = description_b.length(); description_ms.data = static_cast(malloc(description_ms.len)); memcpy(description_ms.data, description_b.data(), description_ms.len); struct miqt_string sigval3 = description_ms; miqt_exec_callback_QSslSocket_AlertReceived(slot, sigval1, sigval2, sigval3); }); } void QSslSocket_HandshakeInterruptedOnError(QSslSocket* self, QSslError* error) { self->handshakeInterruptedOnError(*error); } void QSslSocket_connect_HandshakeInterruptedOnError(QSslSocket* self, intptr_t slot) { MiqtVirtualQSslSocket::connect(self, static_cast(&QSslSocket::handshakeInterruptedOnError), self, [=](const QSslError& error) { const QSslError& error_ret = error; // Cast returned reference into pointer QSslError* sigval1 = const_cast(&error_ret); miqt_exec_callback_QSslSocket_HandshakeInterruptedOnError(slot, sigval1); }); } struct miqt_string QSslSocket_Tr2(const char* s, const char* c) { QString _ret = QSslSocket::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 QSslSocket_Tr3(const char* s, const char* c, int n) { QString _ret = QSslSocket::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; } void QSslSocket_ConnectToHostEncrypted3(QSslSocket* self, struct miqt_string hostName, uint16_t port, int mode) { QString hostName_QString = QString::fromUtf8(hostName.data, hostName.len); self->connectToHostEncrypted(hostName_QString, static_cast(port), static_cast(mode)); } void QSslSocket_ConnectToHostEncrypted4(QSslSocket* self, struct miqt_string hostName, uint16_t port, int mode, int protocol) { QString hostName_QString = QString::fromUtf8(hostName.data, hostName.len); self->connectToHostEncrypted(hostName_QString, static_cast(port), static_cast(mode), static_cast(protocol)); } void QSslSocket_ConnectToHostEncrypted42(QSslSocket* self, struct miqt_string hostName, uint16_t port, struct miqt_string sslPeerName, int mode) { QString hostName_QString = QString::fromUtf8(hostName.data, hostName.len); QString sslPeerName_QString = QString::fromUtf8(sslPeerName.data, sslPeerName.len); self->connectToHostEncrypted(hostName_QString, static_cast(port), sslPeerName_QString, static_cast(mode)); } void QSslSocket_ConnectToHostEncrypted5(QSslSocket* self, struct miqt_string hostName, uint16_t port, struct miqt_string sslPeerName, int mode, int protocol) { QString hostName_QString = QString::fromUtf8(hostName.data, hostName.len); QString sslPeerName_QString = QString::fromUtf8(sslPeerName.data, sslPeerName.len); self->connectToHostEncrypted(hostName_QString, static_cast(port), sslPeerName_QString, static_cast(mode), static_cast(protocol)); } void QSslSocket_SetLocalCertificate2(QSslSocket* self, struct miqt_string fileName, int format) { QString fileName_QString = QString::fromUtf8(fileName.data, fileName.len); self->setLocalCertificate(fileName_QString, static_cast(format)); } void QSslSocket_SetPrivateKey2(QSslSocket* self, struct miqt_string fileName, int algorithm) { QString fileName_QString = QString::fromUtf8(fileName.data, fileName.len); self->setPrivateKey(fileName_QString, static_cast(algorithm)); } void QSslSocket_SetPrivateKey3(QSslSocket* self, struct miqt_string fileName, int algorithm, int format) { QString fileName_QString = QString::fromUtf8(fileName.data, fileName.len); self->setPrivateKey(fileName_QString, static_cast(algorithm), static_cast(format)); } void QSslSocket_SetPrivateKey4(QSslSocket* self, struct miqt_string fileName, int algorithm, int format, struct miqt_string passPhrase) { QString fileName_QString = QString::fromUtf8(fileName.data, fileName.len); QByteArray passPhrase_QByteArray(passPhrase.data, passPhrase.len); self->setPrivateKey(fileName_QString, static_cast(algorithm), static_cast(format), passPhrase_QByteArray); } bool QSslSocket_WaitForEncrypted1(QSslSocket* self, int msecs) { return self->waitForEncrypted(static_cast(msecs)); } struct miqt_array /* of int */ QSslSocket_SupportedProtocols1(struct miqt_string backendName) { QString backendName_QString = QString::fromUtf8(backendName.data, backendName.len); QList _ret = QSslSocket::supportedProtocols(backendName_QString); // Convert QList<> from C++ memory to manually-managed C memory int* _arr = static_cast(malloc(sizeof(int) * _ret.length())); for (size_t i = 0, e = _ret.length(); i < e; ++i) { QSsl::SslProtocol _lv_ret = _ret[i]; _arr[i] = static_cast(_lv_ret); } struct miqt_array _out; _out.len = _ret.length(); _out.data = static_cast(_arr); return _out; } bool QSslSocket_IsProtocolSupported2(int protocol, struct miqt_string backendName) { QString backendName_QString = QString::fromUtf8(backendName.data, backendName.len); return QSslSocket::isProtocolSupported(static_cast(protocol), backendName_QString); } struct miqt_array /* of int */ QSslSocket_ImplementedClasses1(struct miqt_string backendName) { QString backendName_QString = QString::fromUtf8(backendName.data, backendName.len); QList _ret = QSslSocket::implementedClasses(backendName_QString); // Convert QList<> from C++ memory to manually-managed C memory int* _arr = static_cast(malloc(sizeof(int) * _ret.length())); for (size_t i = 0, e = _ret.length(); i < e; ++i) { QSsl::ImplementedClass _lv_ret = _ret[i]; _arr[i] = static_cast(_lv_ret); } struct miqt_array _out; _out.len = _ret.length(); _out.data = static_cast(_arr); return _out; } bool QSslSocket_IsClassImplemented2(int cl, struct miqt_string backendName) { QString backendName_QString = QString::fromUtf8(backendName.data, backendName.len); return QSslSocket::isClassImplemented(static_cast(cl), backendName_QString); } struct miqt_array /* of int */ QSslSocket_SupportedFeatures1(struct miqt_string backendName) { QString backendName_QString = QString::fromUtf8(backendName.data, backendName.len); QList _ret = QSslSocket::supportedFeatures(backendName_QString); // Convert QList<> from C++ memory to manually-managed C memory int* _arr = static_cast(malloc(sizeof(int) * _ret.length())); for (size_t i = 0, e = _ret.length(); i < e; ++i) { QSsl::SupportedFeature _lv_ret = _ret[i]; _arr[i] = static_cast(_lv_ret); } struct miqt_array _out; _out.len = _ret.length(); _out.data = static_cast(_arr); return _out; } bool QSslSocket_IsFeatureSupported2(int feat, struct miqt_string backendName) { QString backendName_QString = QString::fromUtf8(backendName.data, backendName.len); return QSslSocket::isFeatureSupported(static_cast(feat), backendName_QString); } void QSslSocket_override_virtual_Resume(void* self, intptr_t slot) { dynamic_cast( (QSslSocket*)(self) )->handle__Resume = slot; } void QSslSocket_virtualbase_Resume(void* self) { ( (MiqtVirtualQSslSocket*)(self) )->virtualbase_Resume(); } void QSslSocket_override_virtual_SetSocketDescriptor(void* self, intptr_t slot) { dynamic_cast( (QSslSocket*)(self) )->handle__SetSocketDescriptor = slot; } bool QSslSocket_virtualbase_SetSocketDescriptor(void* self, intptr_t socketDescriptor, int state, int openMode) { return ( (MiqtVirtualQSslSocket*)(self) )->virtualbase_SetSocketDescriptor(socketDescriptor, state, openMode); } void QSslSocket_override_virtual_ConnectToHost(void* self, intptr_t slot) { dynamic_cast( (QSslSocket*)(self) )->handle__ConnectToHost = slot; } void QSslSocket_virtualbase_ConnectToHost(void* self, struct miqt_string hostName, uint16_t port, int openMode, int protocol) { ( (MiqtVirtualQSslSocket*)(self) )->virtualbase_ConnectToHost(hostName, port, openMode, protocol); } void QSslSocket_override_virtual_DisconnectFromHost(void* self, intptr_t slot) { dynamic_cast( (QSslSocket*)(self) )->handle__DisconnectFromHost = slot; } void QSslSocket_virtualbase_DisconnectFromHost(void* self) { ( (MiqtVirtualQSslSocket*)(self) )->virtualbase_DisconnectFromHost(); } void QSslSocket_override_virtual_SetSocketOption(void* self, intptr_t slot) { dynamic_cast( (QSslSocket*)(self) )->handle__SetSocketOption = slot; } void QSslSocket_virtualbase_SetSocketOption(void* self, int option, QVariant* value) { ( (MiqtVirtualQSslSocket*)(self) )->virtualbase_SetSocketOption(option, value); } void QSslSocket_override_virtual_SocketOption(void* self, intptr_t slot) { dynamic_cast( (QSslSocket*)(self) )->handle__SocketOption = slot; } QVariant* QSslSocket_virtualbase_SocketOption(void* self, int option) { return ( (MiqtVirtualQSslSocket*)(self) )->virtualbase_SocketOption(option); } void QSslSocket_override_virtual_BytesAvailable(void* self, intptr_t slot) { dynamic_cast( (QSslSocket*)(self) )->handle__BytesAvailable = slot; } long long QSslSocket_virtualbase_BytesAvailable(const void* self) { return ( (const MiqtVirtualQSslSocket*)(self) )->virtualbase_BytesAvailable(); } void QSslSocket_override_virtual_BytesToWrite(void* self, intptr_t slot) { dynamic_cast( (QSslSocket*)(self) )->handle__BytesToWrite = slot; } long long QSslSocket_virtualbase_BytesToWrite(const void* self) { return ( (const MiqtVirtualQSslSocket*)(self) )->virtualbase_BytesToWrite(); } void QSslSocket_override_virtual_CanReadLine(void* self, intptr_t slot) { dynamic_cast( (QSslSocket*)(self) )->handle__CanReadLine = slot; } bool QSslSocket_virtualbase_CanReadLine(const void* self) { return ( (const MiqtVirtualQSslSocket*)(self) )->virtualbase_CanReadLine(); } void QSslSocket_override_virtual_Close(void* self, intptr_t slot) { dynamic_cast( (QSslSocket*)(self) )->handle__Close = slot; } void QSslSocket_virtualbase_Close(void* self) { ( (MiqtVirtualQSslSocket*)(self) )->virtualbase_Close(); } void QSslSocket_override_virtual_AtEnd(void* self, intptr_t slot) { dynamic_cast( (QSslSocket*)(self) )->handle__AtEnd = slot; } bool QSslSocket_virtualbase_AtEnd(const void* self) { return ( (const MiqtVirtualQSslSocket*)(self) )->virtualbase_AtEnd(); } void QSslSocket_override_virtual_SetReadBufferSize(void* self, intptr_t slot) { dynamic_cast( (QSslSocket*)(self) )->handle__SetReadBufferSize = slot; } void QSslSocket_virtualbase_SetReadBufferSize(void* self, long long size) { ( (MiqtVirtualQSslSocket*)(self) )->virtualbase_SetReadBufferSize(size); } void QSslSocket_override_virtual_WaitForConnected(void* self, intptr_t slot) { dynamic_cast( (QSslSocket*)(self) )->handle__WaitForConnected = slot; } bool QSslSocket_virtualbase_WaitForConnected(void* self, int msecs) { return ( (MiqtVirtualQSslSocket*)(self) )->virtualbase_WaitForConnected(msecs); } void QSslSocket_override_virtual_WaitForReadyRead(void* self, intptr_t slot) { dynamic_cast( (QSslSocket*)(self) )->handle__WaitForReadyRead = slot; } bool QSslSocket_virtualbase_WaitForReadyRead(void* self, int msecs) { return ( (MiqtVirtualQSslSocket*)(self) )->virtualbase_WaitForReadyRead(msecs); } void QSslSocket_override_virtual_WaitForBytesWritten(void* self, intptr_t slot) { dynamic_cast( (QSslSocket*)(self) )->handle__WaitForBytesWritten = slot; } bool QSslSocket_virtualbase_WaitForBytesWritten(void* self, int msecs) { return ( (MiqtVirtualQSslSocket*)(self) )->virtualbase_WaitForBytesWritten(msecs); } void QSslSocket_override_virtual_WaitForDisconnected(void* self, intptr_t slot) { dynamic_cast( (QSslSocket*)(self) )->handle__WaitForDisconnected = slot; } bool QSslSocket_virtualbase_WaitForDisconnected(void* self, int msecs) { return ( (MiqtVirtualQSslSocket*)(self) )->virtualbase_WaitForDisconnected(msecs); } void QSslSocket_override_virtual_ReadData(void* self, intptr_t slot) { dynamic_cast( (QSslSocket*)(self) )->handle__ReadData = slot; } long long QSslSocket_virtualbase_ReadData(void* self, char* data, long long maxlen) { return ( (MiqtVirtualQSslSocket*)(self) )->virtualbase_ReadData(data, maxlen); } void QSslSocket_override_virtual_SkipData(void* self, intptr_t slot) { dynamic_cast( (QSslSocket*)(self) )->handle__SkipData = slot; } long long QSslSocket_virtualbase_SkipData(void* self, long long maxSize) { return ( (MiqtVirtualQSslSocket*)(self) )->virtualbase_SkipData(maxSize); } void QSslSocket_override_virtual_WriteData(void* self, intptr_t slot) { dynamic_cast( (QSslSocket*)(self) )->handle__WriteData = slot; } long long QSslSocket_virtualbase_WriteData(void* self, const char* data, long long lenVal) { return ( (MiqtVirtualQSslSocket*)(self) )->virtualbase_WriteData(data, lenVal); } void QSslSocket_Delete(QSslSocket* self, bool isSubclass) { if (isSubclass) { delete dynamic_cast( self ); } else { delete self; } }