/**************************************************************************** ** Meta object code from reading C++ file 'raytracer.h' ** ** Created by: The Qt Meta Object Compiler version 68 (Qt 6.5.2) ** ** WARNING! All changes made in this file will be lost! *****************************************************************************/ #include "../../../src/raytracer/raytracer.h" #include #include #if __has_include() #include #else QT_BEGIN_MOC_NAMESPACE #endif #include #if !defined(Q_MOC_OUTPUT_REVISION) #error "The header file 'raytracer.h' doesn't include ." #elif Q_MOC_OUTPUT_REVISION != 68 #error "This file was generated using the moc from 6.5.2. It" #error "cannot be used with the include files from this version of Qt." #error "(The moc has changed too much.)" #endif #ifndef Q_CONSTINIT #define Q_CONSTINIT #endif QT_WARNING_PUSH QT_WARNING_DISABLE_DEPRECATED QT_WARNING_DISABLE_GCC("-Wuseless-cast") namespace { #ifdef QT_MOC_HAS_STRINGDATA struct qt_meta_stringdata_CLASSRayTracerENDCLASS_t {}; static constexpr auto qt_meta_stringdata_CLASSRayTracerENDCLASS = QtMocHelpers::stringData( "RayTracer", "xyRotationChanged", "", "value", "xzRotationChanged", "xwRotationChanged", "yzRotationChanged", "ywRotationChanged", "zwRotationChanged", "rotationChanged", "cameraPositionChanged", "glm::vec3", "timeValueChanged" ); #else // !QT_MOC_HAS_STRING_DATA struct qt_meta_stringdata_CLASSRayTracerENDCLASS_t { uint offsetsAndSizes[26]; char stringdata0[10]; char stringdata1[18]; char stringdata2[1]; char stringdata3[6]; char stringdata4[18]; char stringdata5[18]; char stringdata6[18]; char stringdata7[18]; char stringdata8[18]; char stringdata9[16]; char stringdata10[22]; char stringdata11[10]; char stringdata12[17]; }; #define QT_MOC_LITERAL(ofs, len) \ uint(sizeof(qt_meta_stringdata_CLASSRayTracerENDCLASS_t::offsetsAndSizes) + ofs), len Q_CONSTINIT static const qt_meta_stringdata_CLASSRayTracerENDCLASS_t qt_meta_stringdata_CLASSRayTracerENDCLASS = { { QT_MOC_LITERAL(0, 9), // "RayTracer" QT_MOC_LITERAL(10, 17), // "xyRotationChanged" QT_MOC_LITERAL(28, 0), // "" QT_MOC_LITERAL(29, 5), // "value" QT_MOC_LITERAL(35, 17), // "xzRotationChanged" QT_MOC_LITERAL(53, 17), // "xwRotationChanged" QT_MOC_LITERAL(71, 17), // "yzRotationChanged" QT_MOC_LITERAL(89, 17), // "ywRotationChanged" QT_MOC_LITERAL(107, 17), // "zwRotationChanged" QT_MOC_LITERAL(125, 15), // "rotationChanged" QT_MOC_LITERAL(141, 21), // "cameraPositionChanged" QT_MOC_LITERAL(163, 9), // "glm::vec3" QT_MOC_LITERAL(173, 16) // "timeValueChanged" }, "RayTracer", "xyRotationChanged", "", "value", "xzRotationChanged", "xwRotationChanged", "yzRotationChanged", "ywRotationChanged", "zwRotationChanged", "rotationChanged", "cameraPositionChanged", "glm::vec3", "timeValueChanged" }; #undef QT_MOC_LITERAL #endif // !QT_MOC_HAS_STRING_DATA } // unnamed namespace Q_CONSTINIT static const uint qt_meta_data_CLASSRayTracerENDCLASS[] = { // content: 11, // revision 0, // classname 0, 0, // classinfo 9, 14, // methods 0, 0, // properties 0, 0, // enums/sets 0, 0, // constructors 0, // flags 9, // signalCount // signals: name, argc, parameters, tag, flags, initial metatype offsets 1, 1, 68, 2, 0x06, 1 /* Public */, 4, 1, 71, 2, 0x06, 3 /* Public */, 5, 1, 74, 2, 0x06, 5 /* Public */, 6, 1, 77, 2, 0x06, 7 /* Public */, 7, 1, 80, 2, 0x06, 9 /* Public */, 8, 1, 83, 2, 0x06, 11 /* Public */, 9, 1, 86, 2, 0x06, 13 /* Public */, 10, 1, 89, 2, 0x06, 15 /* Public */, 12, 1, 92, 2, 0x06, 17 /* Public */, // signals: parameters QMetaType::Void, QMetaType::Float, 3, QMetaType::Void, QMetaType::Float, 3, QMetaType::Void, QMetaType::Float, 3, QMetaType::Void, QMetaType::Float, 3, QMetaType::Void, QMetaType::Float, 3, QMetaType::Void, QMetaType::Float, 3, QMetaType::Void, QMetaType::Float, 3, QMetaType::Void, 0x80000000 | 11, 3, QMetaType::Void, QMetaType::Int, 3, 0 // eod }; Q_CONSTINIT const QMetaObject RayTracer::staticMetaObject = { { QMetaObject::SuperData::link(), qt_meta_stringdata_CLASSRayTracerENDCLASS.offsetsAndSizes, qt_meta_data_CLASSRayTracerENDCLASS, qt_static_metacall, nullptr, qt_incomplete_metaTypeArray, // method 'xyRotationChanged' QtPrivate::TypeAndForceComplete, QtPrivate::TypeAndForceComplete, // method 'xzRotationChanged' QtPrivate::TypeAndForceComplete, QtPrivate::TypeAndForceComplete, // method 'xwRotationChanged' QtPrivate::TypeAndForceComplete, QtPrivate::TypeAndForceComplete, // method 'yzRotationChanged' QtPrivate::TypeAndForceComplete, QtPrivate::TypeAndForceComplete, // method 'ywRotationChanged' QtPrivate::TypeAndForceComplete, QtPrivate::TypeAndForceComplete, // method 'zwRotationChanged' QtPrivate::TypeAndForceComplete, QtPrivate::TypeAndForceComplete, // method 'rotationChanged' QtPrivate::TypeAndForceComplete, QtPrivate::TypeAndForceComplete, // method 'cameraPositionChanged' QtPrivate::TypeAndForceComplete, QtPrivate::TypeAndForceComplete, // method 'timeValueChanged' QtPrivate::TypeAndForceComplete, QtPrivate::TypeAndForceComplete >, nullptr } }; void RayTracer::qt_static_metacall(QObject *_o, QMetaObject::Call _c, int _id, void **_a) { if (_c == QMetaObject::InvokeMetaMethod) { auto *_t = static_cast(_o); (void)_t; switch (_id) { case 0: _t->xyRotationChanged((*reinterpret_cast< std::add_pointer_t>(_a[1]))); break; case 1: _t->xzRotationChanged((*reinterpret_cast< std::add_pointer_t>(_a[1]))); break; case 2: _t->xwRotationChanged((*reinterpret_cast< std::add_pointer_t>(_a[1]))); break; case 3: _t->yzRotationChanged((*reinterpret_cast< std::add_pointer_t>(_a[1]))); break; case 4: _t->ywRotationChanged((*reinterpret_cast< std::add_pointer_t>(_a[1]))); break; case 5: _t->zwRotationChanged((*reinterpret_cast< std::add_pointer_t>(_a[1]))); break; case 6: _t->rotationChanged((*reinterpret_cast< std::add_pointer_t>(_a[1]))); break; case 7: _t->cameraPositionChanged((*reinterpret_cast< std::add_pointer_t>(_a[1]))); break; case 8: _t->timeValueChanged((*reinterpret_cast< std::add_pointer_t>(_a[1]))); break; default: ; } } else if (_c == QMetaObject::IndexOfMethod) { int *result = reinterpret_cast(_a[0]); { using _t = void (RayTracer::*)(float ); if (_t _q_method = &RayTracer::xyRotationChanged; *reinterpret_cast<_t *>(_a[1]) == _q_method) { *result = 0; return; } } { using _t = void (RayTracer::*)(float ); if (_t _q_method = &RayTracer::xzRotationChanged; *reinterpret_cast<_t *>(_a[1]) == _q_method) { *result = 1; return; } } { using _t = void (RayTracer::*)(float ); if (_t _q_method = &RayTracer::xwRotationChanged; *reinterpret_cast<_t *>(_a[1]) == _q_method) { *result = 2; return; } } { using _t = void (RayTracer::*)(float ); if (_t _q_method = &RayTracer::yzRotationChanged; *reinterpret_cast<_t *>(_a[1]) == _q_method) { *result = 3; return; } } { using _t = void (RayTracer::*)(float ); if (_t _q_method = &RayTracer::ywRotationChanged; *reinterpret_cast<_t *>(_a[1]) == _q_method) { *result = 4; return; } } { using _t = void (RayTracer::*)(float ); if (_t _q_method = &RayTracer::zwRotationChanged; *reinterpret_cast<_t *>(_a[1]) == _q_method) { *result = 5; return; } } { using _t = void (RayTracer::*)(float ); if (_t _q_method = &RayTracer::rotationChanged; *reinterpret_cast<_t *>(_a[1]) == _q_method) { *result = 6; return; } } { using _t = void (RayTracer::*)(glm::vec3 ); if (_t _q_method = &RayTracer::cameraPositionChanged; *reinterpret_cast<_t *>(_a[1]) == _q_method) { *result = 7; return; } } { using _t = void (RayTracer::*)(int ); if (_t _q_method = &RayTracer::timeValueChanged; *reinterpret_cast<_t *>(_a[1]) == _q_method) { *result = 8; return; } } } } const QMetaObject *RayTracer::metaObject() const { return QObject::d_ptr->metaObject ? QObject::d_ptr->dynamicMetaObject() : &staticMetaObject; } void *RayTracer::qt_metacast(const char *_clname) { if (!_clname) return nullptr; if (!strcmp(_clname, qt_meta_stringdata_CLASSRayTracerENDCLASS.stringdata0)) return static_cast(this); return QWidget::qt_metacast(_clname); } int RayTracer::qt_metacall(QMetaObject::Call _c, int _id, void **_a) { _id = QWidget::qt_metacall(_c, _id, _a); if (_id < 0) return _id; if (_c == QMetaObject::InvokeMetaMethod) { if (_id < 9) qt_static_metacall(this, _c, _id, _a); _id -= 9; } else if (_c == QMetaObject::RegisterMethodArgumentMetaType) { if (_id < 9) *reinterpret_cast(_a[0]) = QMetaType(); _id -= 9; } return _id; } // SIGNAL 0 void RayTracer::xyRotationChanged(float _t1) { void *_a[] = { nullptr, const_cast(reinterpret_cast(std::addressof(_t1))) }; QMetaObject::activate(this, &staticMetaObject, 0, _a); } // SIGNAL 1 void RayTracer::xzRotationChanged(float _t1) { void *_a[] = { nullptr, const_cast(reinterpret_cast(std::addressof(_t1))) }; QMetaObject::activate(this, &staticMetaObject, 1, _a); } // SIGNAL 2 void RayTracer::xwRotationChanged(float _t1) { void *_a[] = { nullptr, const_cast(reinterpret_cast(std::addressof(_t1))) }; QMetaObject::activate(this, &staticMetaObject, 2, _a); } // SIGNAL 3 void RayTracer::yzRotationChanged(float _t1) { void *_a[] = { nullptr, const_cast(reinterpret_cast(std::addressof(_t1))) }; QMetaObject::activate(this, &staticMetaObject, 3, _a); } // SIGNAL 4 void RayTracer::ywRotationChanged(float _t1) { void *_a[] = { nullptr, const_cast(reinterpret_cast(std::addressof(_t1))) }; QMetaObject::activate(this, &staticMetaObject, 4, _a); } // SIGNAL 5 void RayTracer::zwRotationChanged(float _t1) { void *_a[] = { nullptr, const_cast(reinterpret_cast(std::addressof(_t1))) }; QMetaObject::activate(this, &staticMetaObject, 5, _a); } // SIGNAL 6 void RayTracer::rotationChanged(float _t1) { void *_a[] = { nullptr, const_cast(reinterpret_cast(std::addressof(_t1))) }; QMetaObject::activate(this, &staticMetaObject, 6, _a); } // SIGNAL 7 void RayTracer::cameraPositionChanged(glm::vec3 _t1) { void *_a[] = { nullptr, const_cast(reinterpret_cast(std::addressof(_t1))) }; QMetaObject::activate(this, &staticMetaObject, 7, _a); } // SIGNAL 8 void RayTracer::timeValueChanged(int _t1) { void *_a[] = { nullptr, const_cast(reinterpret_cast(std::addressof(_t1))) }; QMetaObject::activate(this, &staticMetaObject, 8, _a); } QT_WARNING_POP