#include #include #include #include #include #include #include #include #include #include #include #include #include "gen_qtimeline.h" #ifndef _Bool #define _Bool bool #endif #include "_cgo_export.h" class MiqtVirtualQTimeLine : public virtual QTimeLine { public: MiqtVirtualQTimeLine(): QTimeLine() {}; MiqtVirtualQTimeLine(int duration): QTimeLine(duration) {}; MiqtVirtualQTimeLine(int duration, QObject* parent): QTimeLine(duration, parent) {}; virtual ~MiqtVirtualQTimeLine() = default; // cgo.Handle value for overwritten implementation intptr_t handle__ValueForTime = 0; // Subclass to allow providing a Go implementation virtual qreal valueForTime(int msec) const override { if (handle__ValueForTime == 0) { return QTimeLine::valueForTime(msec); } int sigval1 = msec; double callback_return_value = miqt_exec_callback_QTimeLine_ValueForTime(const_cast(this), handle__ValueForTime, sigval1); return static_cast(callback_return_value); } // Wrapper to allow calling protected method double virtualbase_ValueForTime(int msec) const { qreal _ret = QTimeLine::valueForTime(static_cast(msec)); return static_cast(_ret); } // 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) { QTimeLine::timerEvent(event); return; } QTimerEvent* sigval1 = event; miqt_exec_callback_QTimeLine_TimerEvent(this, handle__TimerEvent, sigval1); } // Wrapper to allow calling protected method void virtualbase_TimerEvent(QTimerEvent* event) { QTimeLine::timerEvent(event); } // 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 QTimeLine::event(event); } QEvent* sigval1 = event; bool callback_return_value = miqt_exec_callback_QTimeLine_Event(this, handle__Event, sigval1); return callback_return_value; } // Wrapper to allow calling protected method bool virtualbase_Event(QEvent* event) { return QTimeLine::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 QTimeLine::eventFilter(watched, event); } QObject* sigval1 = watched; QEvent* sigval2 = event; bool callback_return_value = miqt_exec_callback_QTimeLine_EventFilter(this, handle__EventFilter, sigval1, sigval2); return callback_return_value; } // Wrapper to allow calling protected method bool virtualbase_EventFilter(QObject* watched, QEvent* event) { return QTimeLine::eventFilter(watched, 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) { QTimeLine::childEvent(event); return; } QChildEvent* sigval1 = event; miqt_exec_callback_QTimeLine_ChildEvent(this, handle__ChildEvent, sigval1); } // Wrapper to allow calling protected method void virtualbase_ChildEvent(QChildEvent* event) { QTimeLine::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) { QTimeLine::customEvent(event); return; } QEvent* sigval1 = event; miqt_exec_callback_QTimeLine_CustomEvent(this, handle__CustomEvent, sigval1); } // Wrapper to allow calling protected method void virtualbase_CustomEvent(QEvent* event) { QTimeLine::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) { QTimeLine::connectNotify(signal); return; } const QMetaMethod& signal_ret = signal; // Cast returned reference into pointer QMetaMethod* sigval1 = const_cast(&signal_ret); miqt_exec_callback_QTimeLine_ConnectNotify(this, handle__ConnectNotify, sigval1); } // Wrapper to allow calling protected method void virtualbase_ConnectNotify(QMetaMethod* signal) { QTimeLine::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) { QTimeLine::disconnectNotify(signal); return; } const QMetaMethod& signal_ret = signal; // Cast returned reference into pointer QMetaMethod* sigval1 = const_cast(&signal_ret); miqt_exec_callback_QTimeLine_DisconnectNotify(this, handle__DisconnectNotify, sigval1); } // Wrapper to allow calling protected method void virtualbase_DisconnectNotify(QMetaMethod* signal) { QTimeLine::disconnectNotify(*signal); } }; QTimeLine* QTimeLine_new() { return new MiqtVirtualQTimeLine(); } QTimeLine* QTimeLine_new2(int duration) { return new MiqtVirtualQTimeLine(static_cast(duration)); } QTimeLine* QTimeLine_new3(int duration, QObject* parent) { return new MiqtVirtualQTimeLine(static_cast(duration), parent); } void QTimeLine_virtbase(QTimeLine* src, QObject** outptr_QObject) { *outptr_QObject = static_cast(src); } QMetaObject* QTimeLine_MetaObject(const QTimeLine* self) { return (QMetaObject*) self->metaObject(); } void* QTimeLine_Metacast(QTimeLine* self, const char* param1) { return self->qt_metacast(param1); } struct miqt_string QTimeLine_Tr(const char* s) { QString _ret = QTimeLine::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; } int QTimeLine_State(const QTimeLine* self) { QTimeLine::State _ret = self->state(); return static_cast(_ret); } int QTimeLine_LoopCount(const QTimeLine* self) { return self->loopCount(); } void QTimeLine_SetLoopCount(QTimeLine* self, int count) { self->setLoopCount(static_cast(count)); } int QTimeLine_Direction(const QTimeLine* self) { QTimeLine::Direction _ret = self->direction(); return static_cast(_ret); } void QTimeLine_SetDirection(QTimeLine* self, int direction) { self->setDirection(static_cast(direction)); } int QTimeLine_Duration(const QTimeLine* self) { return self->duration(); } void QTimeLine_SetDuration(QTimeLine* self, int duration) { self->setDuration(static_cast(duration)); } int QTimeLine_StartFrame(const QTimeLine* self) { return self->startFrame(); } void QTimeLine_SetStartFrame(QTimeLine* self, int frame) { self->setStartFrame(static_cast(frame)); } int QTimeLine_EndFrame(const QTimeLine* self) { return self->endFrame(); } void QTimeLine_SetEndFrame(QTimeLine* self, int frame) { self->setEndFrame(static_cast(frame)); } void QTimeLine_SetFrameRange(QTimeLine* self, int startFrame, int endFrame) { self->setFrameRange(static_cast(startFrame), static_cast(endFrame)); } int QTimeLine_UpdateInterval(const QTimeLine* self) { return self->updateInterval(); } void QTimeLine_SetUpdateInterval(QTimeLine* self, int interval) { self->setUpdateInterval(static_cast(interval)); } QEasingCurve* QTimeLine_EasingCurve(const QTimeLine* self) { return new QEasingCurve(self->easingCurve()); } void QTimeLine_SetEasingCurve(QTimeLine* self, QEasingCurve* curve) { self->setEasingCurve(*curve); } int QTimeLine_CurrentTime(const QTimeLine* self) { return self->currentTime(); } int QTimeLine_CurrentFrame(const QTimeLine* self) { return self->currentFrame(); } double QTimeLine_CurrentValue(const QTimeLine* self) { qreal _ret = self->currentValue(); return static_cast(_ret); } int QTimeLine_FrameForTime(const QTimeLine* self, int msec) { return self->frameForTime(static_cast(msec)); } double QTimeLine_ValueForTime(const QTimeLine* self, int msec) { qreal _ret = self->valueForTime(static_cast(msec)); return static_cast(_ret); } void QTimeLine_Start(QTimeLine* self) { self->start(); } void QTimeLine_Resume(QTimeLine* self) { self->resume(); } void QTimeLine_Stop(QTimeLine* self) { self->stop(); } void QTimeLine_SetPaused(QTimeLine* self, bool paused) { self->setPaused(paused); } void QTimeLine_SetCurrentTime(QTimeLine* self, int msec) { self->setCurrentTime(static_cast(msec)); } void QTimeLine_ToggleDirection(QTimeLine* self) { self->toggleDirection(); } struct miqt_string QTimeLine_Tr2(const char* s, const char* c) { QString _ret = QTimeLine::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 QTimeLine_Tr3(const char* s, const char* c, int n) { QString _ret = QTimeLine::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 QTimeLine_override_virtual_ValueForTime(void* self, intptr_t slot) { dynamic_cast( (QTimeLine*)(self) )->handle__ValueForTime = slot; } double QTimeLine_virtualbase_ValueForTime(const void* self, int msec) { return ( (const MiqtVirtualQTimeLine*)(self) )->virtualbase_ValueForTime(msec); } void QTimeLine_override_virtual_TimerEvent(void* self, intptr_t slot) { dynamic_cast( (QTimeLine*)(self) )->handle__TimerEvent = slot; } void QTimeLine_virtualbase_TimerEvent(void* self, QTimerEvent* event) { ( (MiqtVirtualQTimeLine*)(self) )->virtualbase_TimerEvent(event); } void QTimeLine_override_virtual_Event(void* self, intptr_t slot) { dynamic_cast( (QTimeLine*)(self) )->handle__Event = slot; } bool QTimeLine_virtualbase_Event(void* self, QEvent* event) { return ( (MiqtVirtualQTimeLine*)(self) )->virtualbase_Event(event); } void QTimeLine_override_virtual_EventFilter(void* self, intptr_t slot) { dynamic_cast( (QTimeLine*)(self) )->handle__EventFilter = slot; } bool QTimeLine_virtualbase_EventFilter(void* self, QObject* watched, QEvent* event) { return ( (MiqtVirtualQTimeLine*)(self) )->virtualbase_EventFilter(watched, event); } void QTimeLine_override_virtual_ChildEvent(void* self, intptr_t slot) { dynamic_cast( (QTimeLine*)(self) )->handle__ChildEvent = slot; } void QTimeLine_virtualbase_ChildEvent(void* self, QChildEvent* event) { ( (MiqtVirtualQTimeLine*)(self) )->virtualbase_ChildEvent(event); } void QTimeLine_override_virtual_CustomEvent(void* self, intptr_t slot) { dynamic_cast( (QTimeLine*)(self) )->handle__CustomEvent = slot; } void QTimeLine_virtualbase_CustomEvent(void* self, QEvent* event) { ( (MiqtVirtualQTimeLine*)(self) )->virtualbase_CustomEvent(event); } void QTimeLine_override_virtual_ConnectNotify(void* self, intptr_t slot) { dynamic_cast( (QTimeLine*)(self) )->handle__ConnectNotify = slot; } void QTimeLine_virtualbase_ConnectNotify(void* self, QMetaMethod* signal) { ( (MiqtVirtualQTimeLine*)(self) )->virtualbase_ConnectNotify(signal); } void QTimeLine_override_virtual_DisconnectNotify(void* self, intptr_t slot) { dynamic_cast( (QTimeLine*)(self) )->handle__DisconnectNotify = slot; } void QTimeLine_virtualbase_DisconnectNotify(void* self, QMetaMethod* signal) { ( (MiqtVirtualQTimeLine*)(self) )->virtualbase_DisconnectNotify(signal); } void QTimeLine_Delete(QTimeLine* self, bool isSubclass) { if (isSubclass) { delete dynamic_cast( self ); } else { delete self; } }