/**************************************************************************** ** Meta object code from reading C++ file 'thread.h' ** ** Created by: The Qt Meta Object Compiler version 67 (Qt 5.15.2) ** ** WARNING! All changes made in this file will be lost! *****************************************************************************/ #include #include "../thread.h" #include #include #if !defined(Q_MOC_OUTPUT_REVISION) #error "The header file 'thread.h' doesn't include ." #elif Q_MOC_OUTPUT_REVISION != 67 #error "This file was generated using the moc from 5.15.2. It" #error "cannot be used with the include files from this version of Qt." #error "(The moc has changed too much.)" #endif QT_BEGIN_MOC_NAMESPACE QT_WARNING_PUSH QT_WARNING_DISABLE_DEPRECATED struct qt_meta_stringdata_SerialThread_t { QByteArrayData data[4]; char stringdata0[38]; }; #define QT_MOC_LITERAL(idx, ofs, len) \ Q_STATIC_BYTE_ARRAY_DATA_HEADER_INITIALIZER_WITH_OFFSET(len, \ qptrdiff(offsetof(qt_meta_stringdata_SerialThread_t, stringdata0) + ofs \ - idx * sizeof(QByteArrayData)) \ ) static const qt_meta_stringdata_SerialThread_t qt_meta_stringdata_SerialThread = { { QT_MOC_LITERAL(0, 0, 12), // "SerialThread" QT_MOC_LITERAL(1, 13, 13), // "serial_signal" QT_MOC_LITERAL(2, 27, 0), // "" QT_MOC_LITERAL(3, 28, 9) // "VSPStatus" }, "SerialThread\0serial_signal\0\0VSPStatus" }; #undef QT_MOC_LITERAL static const uint qt_meta_data_SerialThread[] = { // content: 8, // revision 0, // classname 0, 0, // classinfo 2, 14, // methods 0, 0, // properties 0, 0, // enums/sets 0, 0, // constructors 0, // flags 2, // signalCount // signals: name, argc, parameters, tag, flags 1, 1, 24, 2, 0x06 /* Public */, 3, 0, 27, 2, 0x06 /* Public */, // signals: parameters QMetaType::Void, QMetaType::Int, 2, QMetaType::Void, 0 // eod }; void SerialThread::qt_static_metacall(QObject *_o, QMetaObject::Call _c, int _id, void **_a) { if (_c == QMetaObject::InvokeMetaMethod) { auto *_t = static_cast(_o); Q_UNUSED(_t) switch (_id) { case 0: _t->serial_signal((*reinterpret_cast< int(*)>(_a[1]))); break; case 1: _t->VSPStatus(); break; default: ; } } else if (_c == QMetaObject::IndexOfMethod) { int *result = reinterpret_cast(_a[0]); { using _t = void (SerialThread::*)(int ); if (*reinterpret_cast<_t *>(_a[1]) == static_cast<_t>(&SerialThread::serial_signal)) { *result = 0; return; } } { using _t = void (SerialThread::*)(); if (*reinterpret_cast<_t *>(_a[1]) == static_cast<_t>(&SerialThread::VSPStatus)) { *result = 1; return; } } } } QT_INIT_METAOBJECT const QMetaObject SerialThread::staticMetaObject = { { QMetaObject::SuperData::link(), qt_meta_stringdata_SerialThread.data, qt_meta_data_SerialThread, qt_static_metacall, nullptr, nullptr } }; const QMetaObject *SerialThread::metaObject() const { return QObject::d_ptr->metaObject ? QObject::d_ptr->dynamicMetaObject() : &staticMetaObject; } void *SerialThread::qt_metacast(const char *_clname) { if (!_clname) return nullptr; if (!strcmp(_clname, qt_meta_stringdata_SerialThread.stringdata0)) return static_cast(this); return QThread::qt_metacast(_clname); } int SerialThread::qt_metacall(QMetaObject::Call _c, int _id, void **_a) { _id = QThread::qt_metacall(_c, _id, _a); if (_id < 0) return _id; if (_c == QMetaObject::InvokeMetaMethod) { if (_id < 2) qt_static_metacall(this, _c, _id, _a); _id -= 2; } else if (_c == QMetaObject::RegisterMethodArgumentMetaType) { if (_id < 2) *reinterpret_cast(_a[0]) = -1; _id -= 2; } return _id; } // SIGNAL 0 void SerialThread::serial_signal(int _t1) { void *_a[] = { nullptr, const_cast(reinterpret_cast(std::addressof(_t1))) }; QMetaObject::activate(this, &staticMetaObject, 0, _a); } // SIGNAL 1 void SerialThread::VSPStatus() { QMetaObject::activate(this, &staticMetaObject, 1, nullptr); } struct qt_meta_stringdata_ModbusThread_t { QByteArrayData data[4]; char stringdata0[37]; }; #define QT_MOC_LITERAL(idx, ofs, len) \ Q_STATIC_BYTE_ARRAY_DATA_HEADER_INITIALIZER_WITH_OFFSET(len, \ qptrdiff(offsetof(qt_meta_stringdata_ModbusThread_t, stringdata0) + ofs \ - idx * sizeof(QByteArrayData)) \ ) static const qt_meta_stringdata_ModbusThread_t qt_meta_stringdata_ModbusThread = { { QT_MOC_LITERAL(0, 0, 12), // "ModbusThread" QT_MOC_LITERAL(1, 13, 13), // "pressureValue" QT_MOC_LITERAL(2, 27, 0), // "" QT_MOC_LITERAL(3, 28, 8) // "uint16_t" }, "ModbusThread\0pressureValue\0\0uint16_t" }; #undef QT_MOC_LITERAL static const uint qt_meta_data_ModbusThread[] = { // content: 8, // revision 0, // classname 0, 0, // classinfo 1, 14, // methods 0, 0, // properties 0, 0, // enums/sets 0, 0, // constructors 0, // flags 1, // signalCount // signals: name, argc, parameters, tag, flags 1, 2, 19, 2, 0x06 /* Public */, // signals: parameters QMetaType::Void, QMetaType::Int, 0x80000000 | 3, 2, 2, 0 // eod }; void ModbusThread::qt_static_metacall(QObject *_o, QMetaObject::Call _c, int _id, void **_a) { if (_c == QMetaObject::InvokeMetaMethod) { auto *_t = static_cast(_o); Q_UNUSED(_t) switch (_id) { case 0: _t->pressureValue((*reinterpret_cast< qint32(*)>(_a[1])),(*reinterpret_cast< uint16_t(*)>(_a[2]))); break; default: ; } } else if (_c == QMetaObject::IndexOfMethod) { int *result = reinterpret_cast(_a[0]); { using _t = void (ModbusThread::*)(qint32 , uint16_t ); if (*reinterpret_cast<_t *>(_a[1]) == static_cast<_t>(&ModbusThread::pressureValue)) { *result = 0; return; } } } } QT_INIT_METAOBJECT const QMetaObject ModbusThread::staticMetaObject = { { QMetaObject::SuperData::link(), qt_meta_stringdata_ModbusThread.data, qt_meta_data_ModbusThread, qt_static_metacall, nullptr, nullptr } }; const QMetaObject *ModbusThread::metaObject() const { return QObject::d_ptr->metaObject ? QObject::d_ptr->dynamicMetaObject() : &staticMetaObject; } void *ModbusThread::qt_metacast(const char *_clname) { if (!_clname) return nullptr; if (!strcmp(_clname, qt_meta_stringdata_ModbusThread.stringdata0)) return static_cast(this); return QThread::qt_metacast(_clname); } int ModbusThread::qt_metacall(QMetaObject::Call _c, int _id, void **_a) { _id = QThread::qt_metacall(_c, _id, _a); if (_id < 0) return _id; if (_c == QMetaObject::InvokeMetaMethod) { if (_id < 1) qt_static_metacall(this, _c, _id, _a); _id -= 1; } else if (_c == QMetaObject::RegisterMethodArgumentMetaType) { if (_id < 1) *reinterpret_cast(_a[0]) = -1; _id -= 1; } return _id; } // SIGNAL 0 void ModbusThread::pressureValue(qint32 _t1, uint16_t _t2) { void *_a[] = { nullptr, const_cast(reinterpret_cast(std::addressof(_t1))), const_cast(reinterpret_cast(std::addressof(_t2))) }; QMetaObject::activate(this, &staticMetaObject, 0, _a); } struct qt_meta_stringdata_TempratureThread_t { QByteArrayData data[3]; char stringdata0[35]; }; #define QT_MOC_LITERAL(idx, ofs, len) \ Q_STATIC_BYTE_ARRAY_DATA_HEADER_INITIALIZER_WITH_OFFSET(len, \ qptrdiff(offsetof(qt_meta_stringdata_TempratureThread_t, stringdata0) + ofs \ - idx * sizeof(QByteArrayData)) \ ) static const qt_meta_stringdata_TempratureThread_t qt_meta_stringdata_TempratureThread = { { QT_MOC_LITERAL(0, 0, 16), // "TempratureThread" QT_MOC_LITERAL(1, 17, 16), // "temperatureValue" QT_MOC_LITERAL(2, 34, 0) // "" }, "TempratureThread\0temperatureValue\0" }; #undef QT_MOC_LITERAL static const uint qt_meta_data_TempratureThread[] = { // content: 8, // revision 0, // classname 0, 0, // classinfo 1, 14, // methods 0, 0, // properties 0, 0, // enums/sets 0, 0, // constructors 0, // flags 1, // signalCount // signals: name, argc, parameters, tag, flags 1, 1, 19, 2, 0x06 /* Public */, // signals: parameters QMetaType::Void, QMetaType::Double, 2, 0 // eod }; void TempratureThread::qt_static_metacall(QObject *_o, QMetaObject::Call _c, int _id, void **_a) { if (_c == QMetaObject::InvokeMetaMethod) { auto *_t = static_cast(_o); Q_UNUSED(_t) switch (_id) { case 0: _t->temperatureValue((*reinterpret_cast< double(*)>(_a[1]))); break; default: ; } } else if (_c == QMetaObject::IndexOfMethod) { int *result = reinterpret_cast(_a[0]); { using _t = void (TempratureThread::*)(double ); if (*reinterpret_cast<_t *>(_a[1]) == static_cast<_t>(&TempratureThread::temperatureValue)) { *result = 0; return; } } } } QT_INIT_METAOBJECT const QMetaObject TempratureThread::staticMetaObject = { { QMetaObject::SuperData::link(), qt_meta_stringdata_TempratureThread.data, qt_meta_data_TempratureThread, qt_static_metacall, nullptr, nullptr } }; const QMetaObject *TempratureThread::metaObject() const { return QObject::d_ptr->metaObject ? QObject::d_ptr->dynamicMetaObject() : &staticMetaObject; } void *TempratureThread::qt_metacast(const char *_clname) { if (!_clname) return nullptr; if (!strcmp(_clname, qt_meta_stringdata_TempratureThread.stringdata0)) return static_cast(this); return QThread::qt_metacast(_clname); } int TempratureThread::qt_metacall(QMetaObject::Call _c, int _id, void **_a) { _id = QThread::qt_metacall(_c, _id, _a); if (_id < 0) return _id; if (_c == QMetaObject::InvokeMetaMethod) { if (_id < 1) qt_static_metacall(this, _c, _id, _a); _id -= 1; } else if (_c == QMetaObject::RegisterMethodArgumentMetaType) { if (_id < 1) *reinterpret_cast(_a[0]) = -1; _id -= 1; } return _id; } // SIGNAL 0 void TempratureThread::temperatureValue(double _t1) { void *_a[] = { nullptr, const_cast(reinterpret_cast(std::addressof(_t1))) }; QMetaObject::activate(this, &staticMetaObject, 0, _a); } struct qt_meta_stringdata_TorqueThread_t { QByteArrayData data[6]; char stringdata0[63]; }; #define QT_MOC_LITERAL(idx, ofs, len) \ Q_STATIC_BYTE_ARRAY_DATA_HEADER_INITIALIZER_WITH_OFFSET(len, \ qptrdiff(offsetof(qt_meta_stringdata_TorqueThread_t, stringdata0) + ofs \ - idx * sizeof(QByteArrayData)) \ ) static const qt_meta_stringdata_TorqueThread_t qt_meta_stringdata_TorqueThread = { { QT_MOC_LITERAL(0, 0, 12), // "TorqueThread" QT_MOC_LITERAL(1, 13, 16), // "rotateSpeedValue" QT_MOC_LITERAL(2, 30, 0), // "" QT_MOC_LITERAL(3, 31, 8), // "uint16_t" QT_MOC_LITERAL(4, 40, 11), // "torqueValue" QT_MOC_LITERAL(5, 52, 10) // "powerValue" }, "TorqueThread\0rotateSpeedValue\0\0uint16_t\0" "torqueValue\0powerValue" }; #undef QT_MOC_LITERAL static const uint qt_meta_data_TorqueThread[] = { // content: 8, // revision 0, // classname 0, 0, // classinfo 3, 14, // methods 0, 0, // properties 0, 0, // enums/sets 0, 0, // constructors 0, // flags 3, // signalCount // signals: name, argc, parameters, tag, flags 1, 2, 29, 2, 0x06 /* Public */, 4, 2, 34, 2, 0x06 /* Public */, 5, 2, 39, 2, 0x06 /* Public */, // signals: parameters QMetaType::Void, QMetaType::Int, 0x80000000 | 3, 2, 2, QMetaType::Void, QMetaType::Int, 0x80000000 | 3, 2, 2, QMetaType::Void, 0x80000000 | 3, 0x80000000 | 3, 2, 2, 0 // eod }; void TorqueThread::qt_static_metacall(QObject *_o, QMetaObject::Call _c, int _id, void **_a) { if (_c == QMetaObject::InvokeMetaMethod) { auto *_t = static_cast(_o); Q_UNUSED(_t) switch (_id) { case 0: _t->rotateSpeedValue((*reinterpret_cast< qint32(*)>(_a[1])),(*reinterpret_cast< uint16_t(*)>(_a[2]))); break; case 1: _t->torqueValue((*reinterpret_cast< qint32(*)>(_a[1])),(*reinterpret_cast< uint16_t(*)>(_a[2]))); break; case 2: _t->powerValue((*reinterpret_cast< uint16_t(*)>(_a[1])),(*reinterpret_cast< uint16_t(*)>(_a[2]))); break; default: ; } } else if (_c == QMetaObject::IndexOfMethod) { int *result = reinterpret_cast(_a[0]); { using _t = void (TorqueThread::*)(qint32 , uint16_t ); if (*reinterpret_cast<_t *>(_a[1]) == static_cast<_t>(&TorqueThread::rotateSpeedValue)) { *result = 0; return; } } { using _t = void (TorqueThread::*)(qint32 , uint16_t ); if (*reinterpret_cast<_t *>(_a[1]) == static_cast<_t>(&TorqueThread::torqueValue)) { *result = 1; return; } } { using _t = void (TorqueThread::*)(uint16_t , uint16_t ); if (*reinterpret_cast<_t *>(_a[1]) == static_cast<_t>(&TorqueThread::powerValue)) { *result = 2; return; } } } } QT_INIT_METAOBJECT const QMetaObject TorqueThread::staticMetaObject = { { QMetaObject::SuperData::link(), qt_meta_stringdata_TorqueThread.data, qt_meta_data_TorqueThread, qt_static_metacall, nullptr, nullptr } }; const QMetaObject *TorqueThread::metaObject() const { return QObject::d_ptr->metaObject ? QObject::d_ptr->dynamicMetaObject() : &staticMetaObject; } void *TorqueThread::qt_metacast(const char *_clname) { if (!_clname) return nullptr; if (!strcmp(_clname, qt_meta_stringdata_TorqueThread.stringdata0)) return static_cast(this); return QThread::qt_metacast(_clname); } int TorqueThread::qt_metacall(QMetaObject::Call _c, int _id, void **_a) { _id = QThread::qt_metacall(_c, _id, _a); if (_id < 0) return _id; if (_c == QMetaObject::InvokeMetaMethod) { if (_id < 3) qt_static_metacall(this, _c, _id, _a); _id -= 3; } else if (_c == QMetaObject::RegisterMethodArgumentMetaType) { if (_id < 3) *reinterpret_cast(_a[0]) = -1; _id -= 3; } return _id; } // SIGNAL 0 void TorqueThread::rotateSpeedValue(qint32 _t1, uint16_t _t2) { void *_a[] = { nullptr, const_cast(reinterpret_cast(std::addressof(_t1))), const_cast(reinterpret_cast(std::addressof(_t2))) }; QMetaObject::activate(this, &staticMetaObject, 0, _a); } // SIGNAL 1 void TorqueThread::torqueValue(qint32 _t1, uint16_t _t2) { void *_a[] = { nullptr, const_cast(reinterpret_cast(std::addressof(_t1))), const_cast(reinterpret_cast(std::addressof(_t2))) }; QMetaObject::activate(this, &staticMetaObject, 1, _a); } // SIGNAL 2 void TorqueThread::powerValue(uint16_t _t1, uint16_t _t2) { void *_a[] = { nullptr, const_cast(reinterpret_cast(std::addressof(_t1))), const_cast(reinterpret_cast(std::addressof(_t2))) }; QMetaObject::activate(this, &staticMetaObject, 2, _a); } struct qt_meta_stringdata_ModbusMotorThread_t { QByteArrayData data[4]; char stringdata0[38]; }; #define QT_MOC_LITERAL(idx, ofs, len) \ Q_STATIC_BYTE_ARRAY_DATA_HEADER_INITIALIZER_WITH_OFFSET(len, \ qptrdiff(offsetof(qt_meta_stringdata_ModbusMotorThread_t, stringdata0) + ofs \ - idx * sizeof(QByteArrayData)) \ ) static const qt_meta_stringdata_ModbusMotorThread_t qt_meta_stringdata_ModbusMotorThread = { { QT_MOC_LITERAL(0, 0, 17), // "ModbusMotorThread" QT_MOC_LITERAL(1, 18, 9), // "startMoto" QT_MOC_LITERAL(2, 28, 0), // "" QT_MOC_LITERAL(3, 29, 8) // "uint16_t" }, "ModbusMotorThread\0startMoto\0\0uint16_t" }; #undef QT_MOC_LITERAL static const uint qt_meta_data_ModbusMotorThread[] = { // content: 8, // revision 0, // classname 0, 0, // classinfo 1, 14, // methods 0, 0, // properties 0, 0, // enums/sets 0, 0, // constructors 0, // flags 1, // signalCount // signals: name, argc, parameters, tag, flags 1, 1, 19, 2, 0x06 /* Public */, // signals: parameters QMetaType::Void, 0x80000000 | 3, 2, 0 // eod }; void ModbusMotorThread::qt_static_metacall(QObject *_o, QMetaObject::Call _c, int _id, void **_a) { if (_c == QMetaObject::InvokeMetaMethod) { auto *_t = static_cast(_o); Q_UNUSED(_t) switch (_id) { case 0: _t->startMoto((*reinterpret_cast< uint16_t(*)>(_a[1]))); break; default: ; } } else if (_c == QMetaObject::IndexOfMethod) { int *result = reinterpret_cast(_a[0]); { using _t = void (ModbusMotorThread::*)(uint16_t ); if (*reinterpret_cast<_t *>(_a[1]) == static_cast<_t>(&ModbusMotorThread::startMoto)) { *result = 0; return; } } } } QT_INIT_METAOBJECT const QMetaObject ModbusMotorThread::staticMetaObject = { { QMetaObject::SuperData::link(), qt_meta_stringdata_ModbusMotorThread.data, qt_meta_data_ModbusMotorThread, qt_static_metacall, nullptr, nullptr } }; const QMetaObject *ModbusMotorThread::metaObject() const { return QObject::d_ptr->metaObject ? QObject::d_ptr->dynamicMetaObject() : &staticMetaObject; } void *ModbusMotorThread::qt_metacast(const char *_clname) { if (!_clname) return nullptr; if (!strcmp(_clname, qt_meta_stringdata_ModbusMotorThread.stringdata0)) return static_cast(this); return QThread::qt_metacast(_clname); } int ModbusMotorThread::qt_metacall(QMetaObject::Call _c, int _id, void **_a) { _id = QThread::qt_metacall(_c, _id, _a); if (_id < 0) return _id; if (_c == QMetaObject::InvokeMetaMethod) { if (_id < 1) qt_static_metacall(this, _c, _id, _a); _id -= 1; } else if (_c == QMetaObject::RegisterMethodArgumentMetaType) { if (_id < 1) *reinterpret_cast(_a[0]) = -1; _id -= 1; } return _id; } // SIGNAL 0 void ModbusMotorThread::startMoto(uint16_t _t1) { void *_a[] = { nullptr, const_cast(reinterpret_cast(std::addressof(_t1))) }; QMetaObject::activate(this, &staticMetaObject, 0, _a); } QT_WARNING_POP QT_END_MOC_NAMESPACE