bool SensorRPCData::nested_read_OrientationSensors(yarp::os::idl::WireReader& reader) { { OrientationSensors.clear(); uint32_t _size47; yarp::os::idl::WireState _etype50; reader.readListBegin(_etype50, _size47); OrientationSensors.resize(_size47); uint32_t _i51; for (_i51 = 0; _i51 < _size47; ++_i51) { if (!reader.readNested(OrientationSensors[_i51])) { reader.fail(); return false; } } reader.readListEnd(); } return true; }
bool SensorRPCData::read_TemperatureSensors(yarp::os::idl::WireReader& reader) { { TemperatureSensors.clear(); uint32_t _size52; yarp::os::idl::WireState _etype55; reader.readListBegin(_etype55, _size52); TemperatureSensors.resize(_size52); uint32_t _i56; for (_i56 = 0; _i56 < _size52; ++_i56) { if (!reader.readNested(TemperatureSensors[_i56])) { reader.fail(); return false; } } reader.readListEnd(); } return true; }
bool SensorRPCData::read_OrientationSensors(yarp::os::idl::WireReader& reader) { { OrientationSensors.clear(); uint32_t _size42; yarp::os::idl::WireState _etype45; reader.readListBegin(_etype45, _size42); OrientationSensors.resize(_size42); uint32_t _i46; for (_i46 = 0; _i46 < _size42; ++_i46) { if (!reader.readNested(OrientationSensors[_i46])) { reader.fail(); return false; } } reader.readListEnd(); } return true; }
bool SensorRPCData::read_ThreeAxisGyroscopes(yarp::os::idl::WireReader& reader) { { ThreeAxisGyroscopes.clear(); uint32_t _size12; yarp::os::idl::WireState _etype15; reader.readListBegin(_etype15, _size12); ThreeAxisGyroscopes.resize(_size12); uint32_t _i16; for (_i16 = 0; _i16 < _size12; ++_i16) { if (!reader.readNested(ThreeAxisGyroscopes[_i16])) { reader.fail(); return false; } } reader.readListEnd(); } return true; }
bool SensorMeasurements::nested_read_measurements(yarp::os::idl::WireReader& reader) { { measurements.clear(); uint32_t _size5; yarp::os::idl::WireState _etype8; reader.readListBegin(_etype8, _size5); measurements.resize(_size5); uint32_t _i9; for (_i9 = 0; _i9 < _size5; ++_i9) { if (!reader.readNested(measurements[_i9])) { reader.fail(); return false; } } reader.readListEnd(); } return true; }
bool SensorRPCData::nested_read_ThreeAxisMagnetometers(yarp::os::idl::WireReader& reader) { { ThreeAxisMagnetometers.clear(); uint32_t _size37; yarp::os::idl::WireState _etype40; reader.readListBegin(_etype40, _size37); ThreeAxisMagnetometers.resize(_size37); uint32_t _i41; for (_i41 = 0; _i41 < _size37; ++_i41) { if (!reader.readNested(ThreeAxisMagnetometers[_i41])) { reader.fail(); return false; } } reader.readListEnd(); } return true; }
bool SensorMeasurements::read_measurements(yarp::os::idl::WireReader& reader) { { measurements.clear(); uint32_t _size0; yarp::os::idl::WireState _etype3; reader.readListBegin(_etype3, _size0); measurements.resize(_size0); uint32_t _i4; for (_i4 = 0; _i4 < _size0; ++_i4) { if (!reader.readNested(measurements[_i4])) { reader.fail(); return false; } } reader.readListEnd(); } return true; }
bool PointDLists::nested_read_secondList(yarp::os::idl::WireReader& reader) { { secondList.clear(); uint32_t _size15; yarp::os::idl::WireState _etype18; reader.readListBegin(_etype18, _size15); secondList.resize(_size15); uint32_t _i19; for (_i19 = 0; _i19 < _size15; ++_i19) { if (!reader.readNested(secondList[_i19])) { reader.fail(); return false; } } reader.readListEnd(); } return true; }
bool PointDLists::read_secondList(yarp::os::idl::WireReader& reader) { { secondList.clear(); uint32_t _size10; yarp::os::idl::WireState _etype13; reader.readListBegin(_etype13, _size10); secondList.resize(_size10); uint32_t _i14; for (_i14 = 0; _i14 < _size10; ++_i14) { if (!reader.readNested(secondList[_i14])) { reader.fail(); return false; } } reader.readListEnd(); } return true; }
bool PointDLists::nested_read_firstList(yarp::os::idl::WireReader& reader) { { firstList.clear(); uint32_t _size5; yarp::os::idl::WireState _etype8; reader.readListBegin(_etype8, _size5); firstList.resize(_size5); uint32_t _i9; for (_i9 = 0; _i9 < _size5; ++_i9) { if (!reader.readNested(firstList[_i9])) { reader.fail(); return false; } } reader.readListEnd(); } return true; }
bool PointDLists::read_firstList(yarp::os::idl::WireReader& reader) { { firstList.clear(); uint32_t _size0; yarp::os::idl::WireState _etype3; reader.readListBegin(_etype3, _size0); firstList.resize(_size0); uint32_t _i4; for (_i4 = 0; _i4 < _size0; ++_i4) { if (!reader.readNested(firstList[_i4])) { reader.fail(); return false; } } reader.readListEnd(); } return true; }