mirror of
https://github.com/mappu/miqt.git
synced 2024-12-22 17:08:38 +00:00
353 lines
10 KiB
C++
353 lines
10 KiB
C++
#include <QByteArray>
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#include <QIODevice>
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#include <QIODeviceBase>
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#include <QMetaObject>
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#include <QObject>
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#include <QString>
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#include <QByteArray>
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#include <cstring>
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#include <qiodevice.h>
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#include "gen_qiodevice.h"
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#include "_cgo_export.h"
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QMetaObject* QIODevice_MetaObject(const QIODevice* self) {
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return (QMetaObject*) self->metaObject();
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}
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void* QIODevice_Metacast(QIODevice* self, const char* param1) {
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return self->qt_metacast(param1);
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}
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struct miqt_string QIODevice_Tr(const char* s) {
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QString _ret = QIODevice::tr(s);
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// Convert QString from UTF-16 in C++ RAII memory to UTF-8 in manually-managed C memory
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QByteArray _b = _ret.toUtf8();
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struct miqt_string _ms;
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_ms.len = _b.length();
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_ms.data = static_cast<char*>(malloc(_ms.len));
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memcpy(_ms.data, _b.data(), _ms.len);
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return _ms;
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}
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int QIODevice_OpenMode(const QIODevice* self) {
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QIODeviceBase::OpenMode _ret = self->openMode();
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return static_cast<int>(_ret);
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}
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void QIODevice_SetTextModeEnabled(QIODevice* self, bool enabled) {
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self->setTextModeEnabled(enabled);
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}
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bool QIODevice_IsTextModeEnabled(const QIODevice* self) {
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return self->isTextModeEnabled();
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}
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bool QIODevice_IsOpen(const QIODevice* self) {
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return self->isOpen();
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}
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bool QIODevice_IsReadable(const QIODevice* self) {
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return self->isReadable();
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}
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bool QIODevice_IsWritable(const QIODevice* self) {
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return self->isWritable();
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}
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bool QIODevice_IsSequential(const QIODevice* self) {
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return self->isSequential();
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}
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int QIODevice_ReadChannelCount(const QIODevice* self) {
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return self->readChannelCount();
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}
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int QIODevice_WriteChannelCount(const QIODevice* self) {
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return self->writeChannelCount();
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}
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int QIODevice_CurrentReadChannel(const QIODevice* self) {
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return self->currentReadChannel();
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}
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void QIODevice_SetCurrentReadChannel(QIODevice* self, int channel) {
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self->setCurrentReadChannel(static_cast<int>(channel));
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}
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int QIODevice_CurrentWriteChannel(const QIODevice* self) {
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return self->currentWriteChannel();
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}
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void QIODevice_SetCurrentWriteChannel(QIODevice* self, int channel) {
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self->setCurrentWriteChannel(static_cast<int>(channel));
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}
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bool QIODevice_Open(QIODevice* self, int mode) {
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return self->open(static_cast<QIODeviceBase::OpenMode>(mode));
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}
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void QIODevice_Close(QIODevice* self) {
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self->close();
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}
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long long QIODevice_Pos(const QIODevice* self) {
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qint64 _ret = self->pos();
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return static_cast<long long>(_ret);
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}
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long long QIODevice_Size(const QIODevice* self) {
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qint64 _ret = self->size();
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return static_cast<long long>(_ret);
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}
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bool QIODevice_Seek(QIODevice* self, long long pos) {
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return self->seek(static_cast<qint64>(pos));
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}
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bool QIODevice_AtEnd(const QIODevice* self) {
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return self->atEnd();
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}
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bool QIODevice_Reset(QIODevice* self) {
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return self->reset();
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}
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long long QIODevice_BytesAvailable(const QIODevice* self) {
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qint64 _ret = self->bytesAvailable();
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return static_cast<long long>(_ret);
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}
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long long QIODevice_BytesToWrite(const QIODevice* self) {
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qint64 _ret = self->bytesToWrite();
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return static_cast<long long>(_ret);
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}
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long long QIODevice_Read(QIODevice* self, char* data, long long maxlen) {
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qint64 _ret = self->read(data, static_cast<qint64>(maxlen));
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return static_cast<long long>(_ret);
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}
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struct miqt_string QIODevice_ReadWithMaxlen(QIODevice* self, long long maxlen) {
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QByteArray _qb = self->read(static_cast<qint64>(maxlen));
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struct miqt_string _ms;
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_ms.len = _qb.length();
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_ms.data = static_cast<char*>(malloc(_ms.len));
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memcpy(_ms.data, _qb.data(), _ms.len);
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return _ms;
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}
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struct miqt_string QIODevice_ReadAll(QIODevice* self) {
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QByteArray _qb = self->readAll();
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struct miqt_string _ms;
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_ms.len = _qb.length();
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_ms.data = static_cast<char*>(malloc(_ms.len));
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memcpy(_ms.data, _qb.data(), _ms.len);
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return _ms;
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}
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long long QIODevice_ReadLine(QIODevice* self, char* data, long long maxlen) {
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qint64 _ret = self->readLine(data, static_cast<qint64>(maxlen));
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return static_cast<long long>(_ret);
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}
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struct miqt_string QIODevice_ReadLine2(QIODevice* self) {
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QByteArray _qb = self->readLine();
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struct miqt_string _ms;
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_ms.len = _qb.length();
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_ms.data = static_cast<char*>(malloc(_ms.len));
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memcpy(_ms.data, _qb.data(), _ms.len);
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return _ms;
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}
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bool QIODevice_CanReadLine(const QIODevice* self) {
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return self->canReadLine();
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}
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void QIODevice_StartTransaction(QIODevice* self) {
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self->startTransaction();
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}
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void QIODevice_CommitTransaction(QIODevice* self) {
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self->commitTransaction();
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}
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void QIODevice_RollbackTransaction(QIODevice* self) {
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self->rollbackTransaction();
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}
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bool QIODevice_IsTransactionStarted(const QIODevice* self) {
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return self->isTransactionStarted();
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}
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long long QIODevice_Write(QIODevice* self, const char* data, long long lenVal) {
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qint64 _ret = self->write(data, static_cast<qint64>(lenVal));
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return static_cast<long long>(_ret);
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}
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long long QIODevice_WriteWithData(QIODevice* self, const char* data) {
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qint64 _ret = self->write(data);
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return static_cast<long long>(_ret);
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}
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long long QIODevice_Write2(QIODevice* self, struct miqt_string data) {
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QByteArray data_QByteArray(data.data, data.len);
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qint64 _ret = self->write(data_QByteArray);
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return static_cast<long long>(_ret);
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}
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long long QIODevice_Peek(QIODevice* self, char* data, long long maxlen) {
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qint64 _ret = self->peek(data, static_cast<qint64>(maxlen));
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return static_cast<long long>(_ret);
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}
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struct miqt_string QIODevice_PeekWithMaxlen(QIODevice* self, long long maxlen) {
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QByteArray _qb = self->peek(static_cast<qint64>(maxlen));
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struct miqt_string _ms;
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_ms.len = _qb.length();
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_ms.data = static_cast<char*>(malloc(_ms.len));
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memcpy(_ms.data, _qb.data(), _ms.len);
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return _ms;
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}
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long long QIODevice_Skip(QIODevice* self, long long maxSize) {
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qint64 _ret = self->skip(static_cast<qint64>(maxSize));
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return static_cast<long long>(_ret);
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}
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bool QIODevice_WaitForReadyRead(QIODevice* self, int msecs) {
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return self->waitForReadyRead(static_cast<int>(msecs));
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}
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bool QIODevice_WaitForBytesWritten(QIODevice* self, int msecs) {
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return self->waitForBytesWritten(static_cast<int>(msecs));
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}
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void QIODevice_UngetChar(QIODevice* self, char c) {
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self->ungetChar(static_cast<char>(c));
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}
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bool QIODevice_PutChar(QIODevice* self, char c) {
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return self->putChar(static_cast<char>(c));
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}
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bool QIODevice_GetChar(QIODevice* self, char* c) {
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return self->getChar(c);
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}
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struct miqt_string QIODevice_ErrorString(const QIODevice* self) {
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QString _ret = self->errorString();
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// Convert QString from UTF-16 in C++ RAII memory to UTF-8 in manually-managed C memory
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QByteArray _b = _ret.toUtf8();
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struct miqt_string _ms;
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_ms.len = _b.length();
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_ms.data = static_cast<char*>(malloc(_ms.len));
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memcpy(_ms.data, _b.data(), _ms.len);
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return _ms;
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}
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void QIODevice_ReadyRead(QIODevice* self) {
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self->readyRead();
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}
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void QIODevice_connect_ReadyRead(QIODevice* self, intptr_t slot) {
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QIODevice::connect(self, static_cast<void (QIODevice::*)()>(&QIODevice::readyRead), self, [=]() {
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miqt_exec_callback_QIODevice_ReadyRead(slot);
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});
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}
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void QIODevice_ChannelReadyRead(QIODevice* self, int channel) {
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self->channelReadyRead(static_cast<int>(channel));
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}
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void QIODevice_connect_ChannelReadyRead(QIODevice* self, intptr_t slot) {
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QIODevice::connect(self, static_cast<void (QIODevice::*)(int)>(&QIODevice::channelReadyRead), self, [=](int channel) {
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int sigval1 = channel;
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miqt_exec_callback_QIODevice_ChannelReadyRead(slot, sigval1);
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});
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}
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void QIODevice_BytesWritten(QIODevice* self, long long bytes) {
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self->bytesWritten(static_cast<qint64>(bytes));
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}
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void QIODevice_connect_BytesWritten(QIODevice* self, intptr_t slot) {
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QIODevice::connect(self, static_cast<void (QIODevice::*)(qint64)>(&QIODevice::bytesWritten), self, [=](qint64 bytes) {
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qint64 bytes_ret = bytes;
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long long sigval1 = static_cast<long long>(bytes_ret);
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miqt_exec_callback_QIODevice_BytesWritten(slot, sigval1);
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});
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}
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void QIODevice_ChannelBytesWritten(QIODevice* self, int channel, long long bytes) {
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self->channelBytesWritten(static_cast<int>(channel), static_cast<qint64>(bytes));
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}
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void QIODevice_connect_ChannelBytesWritten(QIODevice* self, intptr_t slot) {
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QIODevice::connect(self, static_cast<void (QIODevice::*)(int, qint64)>(&QIODevice::channelBytesWritten), self, [=](int channel, qint64 bytes) {
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int sigval1 = channel;
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qint64 bytes_ret = bytes;
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long long sigval2 = static_cast<long long>(bytes_ret);
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miqt_exec_callback_QIODevice_ChannelBytesWritten(slot, sigval1, sigval2);
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});
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}
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void QIODevice_AboutToClose(QIODevice* self) {
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self->aboutToClose();
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}
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void QIODevice_connect_AboutToClose(QIODevice* self, intptr_t slot) {
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QIODevice::connect(self, static_cast<void (QIODevice::*)()>(&QIODevice::aboutToClose), self, [=]() {
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miqt_exec_callback_QIODevice_AboutToClose(slot);
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});
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}
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void QIODevice_ReadChannelFinished(QIODevice* self) {
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self->readChannelFinished();
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}
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void QIODevice_connect_ReadChannelFinished(QIODevice* self, intptr_t slot) {
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QIODevice::connect(self, static_cast<void (QIODevice::*)()>(&QIODevice::readChannelFinished), self, [=]() {
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miqt_exec_callback_QIODevice_ReadChannelFinished(slot);
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});
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}
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struct miqt_string QIODevice_Tr2(const char* s, const char* c) {
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QString _ret = QIODevice::tr(s, c);
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// Convert QString from UTF-16 in C++ RAII memory to UTF-8 in manually-managed C memory
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QByteArray _b = _ret.toUtf8();
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struct miqt_string _ms;
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_ms.len = _b.length();
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_ms.data = static_cast<char*>(malloc(_ms.len));
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memcpy(_ms.data, _b.data(), _ms.len);
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return _ms;
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}
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struct miqt_string QIODevice_Tr3(const char* s, const char* c, int n) {
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QString _ret = QIODevice::tr(s, c, static_cast<int>(n));
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// Convert QString from UTF-16 in C++ RAII memory to UTF-8 in manually-managed C memory
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QByteArray _b = _ret.toUtf8();
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struct miqt_string _ms;
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_ms.len = _b.length();
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_ms.data = static_cast<char*>(malloc(_ms.len));
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memcpy(_ms.data, _b.data(), _ms.len);
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return _ms;
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}
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struct miqt_string QIODevice_ReadLine1(QIODevice* self, long long maxlen) {
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QByteArray _qb = self->readLine(static_cast<qint64>(maxlen));
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struct miqt_string _ms;
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_ms.len = _qb.length();
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_ms.data = static_cast<char*>(malloc(_ms.len));
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memcpy(_ms.data, _qb.data(), _ms.len);
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return _ms;
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}
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void QIODevice_Delete(QIODevice* self, bool isSubclass) {
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if (isSubclass) {
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delete dynamic_cast<QIODevice*>( self );
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} else {
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delete self;
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}
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}
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