// Generated by the protocol buffer compiler. DO NOT EDIT! // source: HardwarePidControl.proto #define INTERNAL_SUPPRESS_PROTOBUF_FIELD_DEPRECATION #include "HardwarePidControl.pb.h" #include #include #include #include #include #include #include #include #include #include // @@protoc_insertion_point(includes) namespace Tango { namespace PMR { namespace Hardware { class HardwarePidControlDefaultTypeInternal { public: ::google::protobuf::internal::ExplicitlyConstructed _instance; } _HardwarePidControl_default_instance_; namespace protobuf_HardwarePidControl_2eproto { namespace { ::google::protobuf::Metadata file_level_metadata[1]; } // namespace PROTOBUF_CONSTEXPR_VAR ::google::protobuf::internal::ParseTableField const TableStruct::entries[] GOOGLE_ATTRIBUTE_SECTION_VARIABLE(protodesc_cold) = { {0, 0, 0, ::google::protobuf::internal::kInvalidMask, 0, 0}, }; PROTOBUF_CONSTEXPR_VAR ::google::protobuf::internal::AuxillaryParseTableField const TableStruct::aux[] GOOGLE_ATTRIBUTE_SECTION_VARIABLE(protodesc_cold) = { ::google::protobuf::internal::AuxillaryParseTableField(), }; PROTOBUF_CONSTEXPR_VAR ::google::protobuf::internal::ParseTable const TableStruct::schema[] GOOGLE_ATTRIBUTE_SECTION_VARIABLE(protodesc_cold) = { { NULL, NULL, 0, -1, -1, -1, -1, NULL, false }, }; const ::google::protobuf::uint32 TableStruct::offsets[] GOOGLE_ATTRIBUTE_SECTION_VARIABLE(protodesc_cold) = { ~0u, // no _has_bits_ GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(HardwarePidControl, _internal_metadata_), ~0u, // no _extensions_ ~0u, // no _oneof_case_ ~0u, // no _weak_field_map_ GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(HardwarePidControl, hardwarepidcontroltype_), GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(HardwarePidControl, outputproportionalpowerlimit_), GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(HardwarePidControl, outputproportionalband_), GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(HardwarePidControl, integraltime_), GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(HardwarePidControl, derivativetime_), GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(HardwarePidControl, sensorcorrectionadjustment_), GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(HardwarePidControl, sensorminvalue_), GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(HardwarePidControl, sensormaxvalue_), GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(HardwarePidControl, setpointramprateorsoftstartramp_), GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(HardwarePidControl, setpointcontroloutputrate_), GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(HardwarePidControl, controloutputtype_), GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(HardwarePidControl, ssrcontroloutputtype_), GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(HardwarePidControl, outputonoffhysteresisvalue_), GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(HardwarePidControl, processvariablesamplingrate_), GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(HardwarePidControl, pvinputfilterfactormode_), GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(HardwarePidControl, outputproportionalcycletime_), GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(HardwarePidControl, acheatershalfcycletime_), GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(HardwarePidControl, proportionalgain_), }; static const ::google::protobuf::internal::MigrationSchema schemas[] GOOGLE_ATTRIBUTE_SECTION_VARIABLE(protodesc_cold) = { { 0, -1, sizeof(HardwarePidControl)}, }; static ::google::protobuf::Message const * const file_default_instances[] = { reinterpret_cast(&_HardwarePidControl_default_instance_), }; namespace { void protobuf_AssignDescriptors() { AddDescriptors(); ::google::protobuf::MessageFactory* factory = NULL; AssignDescriptors( "HardwarePidControl.proto", schemas, file_default_instances, TableStruct::offsets, factory, file_level_metadata, NULL, NULL); } void protobuf_AssignDescriptorsOnce() { static GOOGLE_PROTOBUF_DECLARE_ONCE(once); ::google::protobuf::GoogleOnceInit(&once, &protobuf_AssignDescriptors); } void protobuf_RegisterTypes(const ::std::string&) GOOGLE_ATTRIBUTE_COLD; void protobuf_RegisterTypes(const ::std::string&) { protobuf_AssignDescriptorsOnce(); ::google::protobuf::internal::RegisterAllTypes(file_level_metadata, 1); } } // namespace void TableStruct::InitDefaultsImpl() { GOOGLE_PROTOBUF_VERIFY_VERSION; ::google::protobuf::internal::InitProtobufDefaults(); ::Tango::PMR::Hardware::protobuf_HardwarePidControlType_2eproto::InitDefaults(); _HardwarePidControl_default_instance_._instance.DefaultConstruct(); ::google::protobuf::internal::OnShutdownDestroyMessage( &_HardwarePidControl_default_instance_);} void InitDefaults() { static GOOGLE_PROTOBUF_DECLARE_ONCE(once); ::google::protobuf::GoogleOnceInit(&once, &TableStruct::InitDefaultsImpl); } namespace { void AddDescriptorsImpl() { InitDefaults(); static const char descriptor[] GOOGLE_ATTRIBUTE_SECTION_VARIABLE(protodesc_cold) = { "\n\030HardwarePidControl.proto\022\022Tango.PMR.Ha" "rdware\032\034HardwarePidControlType.proto\"\366\004\n" "\022HardwarePidControl\022J\n\026HardwarePidContro" "lType\030\001 \001(\0162*.Tango.PMR.Hardware.Hardwar" "ePidControlType\022$\n\034OutputProportionalPow" "erLimit\030\002 \001(\001\022\036\n\026OutputProportionalBand\030" "\003 \001(\001\022\024\n\014IntegralTime\030\004 \001(\001\022\026\n\016Derivativ" "eTime\030\005 \001(\001\022\"\n\032SensorCorrectionAdjustmen" "t\030\006 \001(\001\022\026\n\016SensorMinValue\030\007 \001(\001\022\026\n\016Senso" "rMaxValue\030\010 \001(\001\022\'\n\037SetPointRampRateorSof" "tStartRamp\030\t \001(\001\022!\n\031SetPointControlOutpu" "tRate\030\n \001(\001\022\031\n\021ControlOutputType\030\013 \001(\001\022\034" "\n\024SsrControlOutputType\030\014 \001(\001\022\"\n\032OutputOn" "OffHysteresisValue\030\r \001(\001\022#\n\033ProcessVaria" "bleSamplingRate\030\016 \001(\001\022\037\n\027PvInputFilterFa" "ctorMode\030\017 \001(\001\022#\n\033OutputProportionalCycl" "eTime\030\020 \001(\005\022\036\n\026AcHeatersHalfCycleTime\030\021 " "\001(\005\022\030\n\020ProportionalGain\030\022 \001(\001B\036\n\034com.twi" "ne.tango.pmr.hardwareb\006proto3" }; ::google::protobuf::DescriptorPool::InternalAddGeneratedFile( descriptor, 749); ::google::protobuf::MessageFactory::InternalRegisterGeneratedFile( "HardwarePidControl.proto", &protobuf_RegisterTypes); ::Tango::PMR::Hardware::protobuf_HardwarePidControlType_2eproto::AddDescriptors(); } } // anonymous namespace void AddDescriptors() { static GOOGLE_PROTOBUF_DECLARE_ONCE(once); ::google::protobuf::GoogleOnceInit(&once, &AddDescriptorsImpl); } // Force AddDescriptors() to be called at dynamic initialization time. struct StaticDescriptorInitializer { StaticDescriptorInitializer() { AddDescriptors(); } } static_descriptor_initializer; } // namespace protobuf_HardwarePidControl_2eproto // =================================================================== #if !defined(_MSC_VER) || _MSC_VER >= 1900 const int HardwarePidControl::kHardwarePidControlTypeFieldNumber; const int HardwarePidControl::kOutputProportionalPowerLimitFieldNumber; const int HardwarePidControl::kOutputProportionalBandFieldNumber; const int HardwarePidControl::kIntegralTimeFieldNumber; const int HardwarePidControl::kDerivativeTimeFieldNumber; const int HardwarePidControl::kSensorCorrectionAdjustmentFieldNumber; const int HardwarePidControl::kSensorMinValueFieldNumber; const int HardwarePidControl::kSensorMaxValueFieldNumber; const int HardwarePidControl::kSetPointRampRateorSoftStartRampFieldNumber; const int HardwarePidControl::kSetPointControlOutputRateFieldNumber; const int HardwarePidControl::kControlOutputTypeFieldNumber; const int HardwarePidControl::kSsrControlOutputTypeFieldNumber; const int HardwarePidControl::kOutputOnOffHysteresisValueFieldNumber; const int HardwarePidControl::kProcessVariableSamplingRateFieldNumber; const int HardwarePidControl::kPvInputFilterFactorModeFieldNumber; const int HardwarePidControl::kOutputProportionalCycleTimeFieldNumber; const int HardwarePidControl::kAcHeatersHalfCycleTimeFieldNumber; const int HardwarePidControl::kProportionalGainFieldNumber; #endif // !defined(_MSC_VER) || _MSC_VER >= 1900 HardwarePidControl::HardwarePidControl() : ::google::protobuf::Message(), _internal_metadata_(NULL) { if (GOOGLE_PREDICT_TRUE(this != internal_default_instance())) { protobuf_HardwarePidControl_2eproto::InitDefaults(); } SharedCtor(); // @@protoc_insertion_point(constructor:Tango.PMR.Hardware.HardwarePidControl) } HardwarePidControl::HardwarePidControl(const HardwarePidControl& from) : ::google::protobuf::Message(), _internal_metadata_(NULL), _cached_size_(0) { _internal_metadata_.MergeFrom(from._internal_metadata_); ::memcpy(&outputproportionalpowerlimit_, &from.outputproportionalpowerlimit_, static_cast(reinterpret_cast(&acheatershalfcycletime_) - reinterpret_cast(&outputproportionalpowerlimit_)) + sizeof(acheatershalfcycletime_)); // @@protoc_insertion_point(copy_constructor:Tango.PMR.Hardware.HardwarePidControl) } void HardwarePidControl::SharedCtor() { ::memset(&outputproportionalpowerlimit_, 0, static_cast( reinterpret_cast(&acheatershalfcycletime_) - reinterpret_cast(&outputproportionalpowerlimit_)) + sizeof(acheatershalfcycletime_)); _cached_size_ = 0; } HardwarePidControl::~HardwarePidControl() { // @@protoc_insertion_point(destructor:Tango.PMR.Hardware.HardwarePidControl) SharedDtor(); } void HardwarePidControl::SharedDtor() { } void HardwarePidControl::SetCachedSize(int size) const { GOOGLE_SAFE_CONCURRENT_WRITES_BEGIN(); _cached_size_ = size; GOOGLE_SAFE_CONCURRENT_WRITES_END(); } const ::google::protobuf::Descriptor* HardwarePidControl::descriptor() { protobuf_HardwarePidControl_2eproto::protobuf_AssignDescriptorsOnce(); return protobuf_HardwarePidControl_2eproto::file_level_metadata[kIndexInFileMessages].descriptor; } const HardwarePidControl& HardwarePidControl::default_instance() { protobuf_HardwarePidControl_2eproto::InitDefaults(); return *internal_default_instance(); } HardwarePidControl* HardwarePidControl::New(::google::protobuf::Arena* arena) const { HardwarePidControl* n = new HardwarePidControl; if (arena != NULL) { arena->Own(n); } return n; } void HardwarePidControl::Clear() { // @@protoc_insertion_point(message_clear_start:Tango.PMR.Hardware.HardwarePidControl) ::google::protobuf::uint32 cached_has_bits = 0; // Prevent compiler warnings about cached_has_bits being unused (void) cached_has_bits; ::memset(&outputproportionalpowerlimit_, 0, static_cast( reinterpret_cast(&acheatershalfcycletime_) - reinterpret_cast(&outputproportionalpowerlimit_)) + sizeof(acheatershalfcycletime_)); _internal_metadata_.Clear(); } bool HardwarePidControl::MergePartialFromCodedStream( ::google::protobuf::io::CodedInputStream* input) { #define DO_(EXPRESSION) if (!GOOGLE_PREDICT_TRUE(EXPRESSION)) goto failure ::google::protobuf::uint32 tag; // @@protoc_insertion_point(parse_start:Tango.PMR.Hardware.HardwarePidControl) for (;;) { ::std::pair< ::google::protobuf::uint32, bool> p = input->ReadTagWithCutoffNoLastTag(16383u); tag = p.first; if (!p.second) goto handle_unusual; switch (::google::protobuf::internal::WireFormatLite::GetTagFieldNumber(tag)) { // .Tango.PMR.Hardware.HardwarePidControlType HardwarePidControlType = 1; case 1: { if (static_cast< ::google::protobuf::uint8>(tag) == static_cast< ::google::protobuf::uint8>(8u /* 8 & 0xFF */)) { int value; DO_((::google::protobuf::internal::WireFormatLite::ReadPrimitive< int, ::google::protobuf::internal::WireFormatLite::TYPE_ENUM>( input, &value))); set_hardwarepidcontroltype(static_cast< ::Tango::PMR::Hardware::HardwarePidControlType >(value)); } else { goto handle_unusual; } break; } // double OutputProportionalPowerLimit = 2; case 2: { if (static_cast< ::google::protobuf::uint8>(tag) == static_cast< ::google::protobuf::uint8>(17u /* 17 & 0xFF */)) { DO_((::google::protobuf::internal::WireFormatLite::ReadPrimitive< double, ::google::protobuf::internal::WireFormatLite::TYPE_DOUBLE>( input, &outputproportionalpowerlimit_))); } else { goto handle_unusual; } break; } // double OutputProportionalBand = 3; case 3: { if (static_cast< ::google::protobuf::uint8>(tag) == static_cast< ::google::protobuf::uint8>(25u /* 25 & 0xFF */)) { DO_((::google::protobuf::internal::WireFormatLite::ReadPrimitive< double, ::google::protobuf::internal::WireFormatLite::TYPE_DOUBLE>( input, &outputproportionalband_))); } else { goto handle_unusual; } break; } // double IntegralTime = 4; case 4: { if (static_cast< ::google::protobuf::uint8>(tag) == static_cast< ::google::protobuf::uint8>(33u /* 33 & 0xFF */)) { DO_((::google::protobuf::internal::WireFormatLite::ReadPrimitive< double, ::google::protobuf::internal::WireFormatLite::TYPE_DOUBLE>( input, &integraltime_))); } else { goto handle_unusual; } break; } // double DerivativeTime = 5; case 5: { if (static_cast< ::google::protobuf::uint8>(tag) == static_cast< ::google::protobuf::uint8>(41u /* 41 & 0xFF */)) { DO_((::google::protobuf::internal::WireFormatLite::ReadPrimitive< double, ::google::protobuf::internal::WireFormatLite::TYPE_DOUBLE>( input, &derivativetime_))); } else { goto handle_unusual; } break; } // double SensorCorrectionAdjustment = 6; case 6: { if (static_cast< ::google::protobuf::uint8>(tag) == static_cast< ::google::protobuf::uint8>(49u /* 49 & 0xFF */)) { DO_((::google::protobuf::internal::WireFormatLite::ReadPrimitive< double, ::google::protobuf::internal::WireFormatLite::TYPE_DOUBLE>( input, &sensorcorrectionadjustment_))); } else { goto handle_unusual; } break; } // double SensorMinValue = 7; case 7: { if (static_cast< ::google::protobuf::uint8>(tag) == static_cast< ::google::protobuf::uint8>(57u /* 57 & 0xFF */)) { DO_((::google::protobuf::internal::WireFormatLite::ReadPrimitive< double, ::google::protobuf::internal::WireFormatLite::TYPE_DOUBLE>( input, &sensorminvalue_))); } else { goto handle_unusual; } break; } // double SensorMaxValue = 8; case 8: { if (static_cast< ::google::protobuf::uint8>(tag) == static_cast< ::google::protobuf::uint8>(65u /* 65 & 0xFF */)) { DO_((::google::protobuf::internal::WireFormatLite::ReadPrimitive< double, ::google::protobuf::internal::WireFormatLite::TYPE_DOUBLE>( input, &sensormaxvalue_))); } else { goto handle_unusual; } break; } // double SetPointRampRateorSoftStartRamp = 9; case 9: { if (static_cast< ::google::protobuf::uint8>(tag) == static_cast< ::google::protobuf::uint8>(73u /* 73 & 0xFF */)) { DO_((::google::protobuf::internal::WireFormatLite::ReadPrimitive< double, ::google::protobuf::internal::WireFormatLite::TYPE_DOUBLE>( input, &setpointramprateorsoftstartramp_))); } else { goto handle_unusual; } break; } // double SetPointControlOutputRate = 10; case 10: { if (static_cast< ::google::protobuf::uint8>(tag) == static_cast< ::google::protobuf::uint8>(81u /* 81 & 0xFF */)) { DO_((::google::protobuf::internal::WireFormatLite::ReadPrimitive< double, ::google::protobuf::internal::WireFormatLite::TYPE_DOUBLE>( input, &setpointcontroloutputrate_))); } else { goto handle_unusual; } break; } // double ControlOutputType = 11; case 11: { if (static_cast< ::google::protobuf::uint8>(tag) == static_cast< ::google::protobuf::uint8>(89u /* 89 & 0xFF */)) { DO_((::google::protobuf::internal::WireFormatLite::ReadPrimitive< double, ::google::protobuf::internal::WireFormatLite::TYPE_DOUBLE>( input, &controloutputtype_))); } else { goto handle_unusual; } break; } // double SsrControlOutputType = 12; case 12: { if (static_cast< ::google::protobuf::uint8>(tag) == static_cast< ::google::protobuf::uint8>(97u /* 97 & 0xFF */)) { DO_((::google::protobuf::internal::WireFormatLite::ReadPrimitive< double, ::google::protobuf::internal::WireFormatLite::TYPE_DOUBLE>( input, &ssrcontroloutputtype_))); } else { goto handle_unusual; } break; } // double OutputOnOffHysteresisValue = 13; case 13: { if (static_cast< ::google::protobuf::uint8>(tag) == static_cast< ::google::protobuf::uint8>(105u /* 105 & 0xFF */)) { DO_((::google::protobuf::internal::WireFormatLite::ReadPrimitive< double, ::google::protobuf::internal::WireFormatLite::TYPE_DOUBLE>( input, &outputonoffhysteresisvalue_))); } else { goto handle_unusual; } break; } // double ProcessVariableSamplingRate = 14; case 14: { if (static_cast< ::google::protobuf::uint8>(tag) == static_cast< ::google::protobuf::uint8>(113u /* 113 & 0xFF */)) { DO_((::google::protobuf::internal::WireFormatLite::ReadPrimitive< double, ::google::protobuf::internal::WireFormatLite::TYPE_DOUBLE>( input, &processvariablesamplingrate_))); } else { goto handle_unusual; } break; } // double PvInputFilterFactorMode = 15; case 15: { if (static_cast< ::google::protobuf::uint8>(tag) == static_cast< ::google::protobuf::uint8>(121u /* 121 & 0xFF */)) { DO_((::google::protobuf::internal::WireFormatLite::ReadPrimitive< double, ::google::protobuf::internal::WireFormatLite::TYPE_DOUBLE>( input, &pvinputfilterfactormode_))); } else { goto handle_unusual; } break; } // int32 OutputProportionalCycleTime = 16; case 16: { if (static_cast< ::google::protobuf::uint8>(tag) == static_cast< ::google::protobuf::uint8>(128u /* 128 & 0xFF */)) { DO_((::google::protobuf::internal::WireFormatLite::ReadPrimitive< ::google::protobuf::int32, ::google::protobuf::internal::WireFormatLite::TYPE_INT32>( input, &outputproportionalcycletime_))); } else { goto handle_unusual; } break; } // int32 AcHeatersHalfCycleTime = 17; case 17: { if (static_cast< ::google::protobuf::uint8>(tag) == static_cast< ::google::protobuf::uint8>(136u /* 136 & 0xFF */)) { DO_((::google::protobuf::internal::WireFormatLite::ReadPrimitive< ::google::protobuf::int32, ::google::protobuf::internal::WireFormatLite::TYPE_INT32>( input, &acheatershalfcycletime_))); } else { goto handle_unusual; } break; } // double ProportionalGain = 18; case 18: { if (static_cast< ::google::protobuf::uint8>(tag) == static_cast< ::google::protobuf::uint8>(145u /* 145 & 0xFF */)) { DO_((::google::protobuf::internal::WireFormatLite::ReadPrimitive< double, ::google::protobuf::internal::WireFormatLite::TYPE_DOUBLE>( input, &proportionalgain_))); } else { goto handle_unusual; } break; } default: { handle_unusual: if (tag == 0) { goto success; } DO_(::google::protobuf::internal::WireFormat::SkipField( input, tag, _internal_metadata_.mutable_unknown_fields())); break; } } } success: // @@protoc_insertion_point(parse_success:Tango.PMR.Hardware.HardwarePidControl) return true; failure: // @@protoc_insertion_point(parse_failure:Tango.PMR.Hardware.HardwarePidControl) return false; #undef DO_ } void HardwarePidControl::SerializeWithCachedSizes( ::google::protobuf::io::CodedOutputStream* output) const { // @@protoc_insertion_point(serialize_start:Tango.PMR.Hardware.HardwarePidControl) ::google::protobuf::uint32 cached_has_bits = 0; (void) cached_has_bits; // .Tango.PMR.Hardware.HardwarePidControlType HardwarePidControlType = 1; if (this->hardwarepidcontroltype() != 0) { ::google::protobuf::internal::WireFormatLite::WriteEnum( 1, this->hardwarepidcontroltype(), output); } // double OutputProportionalPowerLimit = 2; if (this->outputproportionalpowerlimit() != 0) { ::google::protobuf::internal::WireFormatLite::WriteDouble(2, this->outputproportionalpowerlimit(), output); } // double OutputProportionalBand = 3; if (this->outputproportionalband() != 0) { ::google::protobuf::internal::WireFormatLite::WriteDouble(3, this->outputproportionalband(), output); } // double IntegralTime = 4; if (this->integraltime() != 0) { ::google::protobuf::internal::WireFormatLite::WriteDouble(4, this->integraltime(), output); } // double DerivativeTime = 5; if (this->derivativetime() != 0) { ::google::protobuf::internal::WireFormatLite::WriteDouble(5, this->derivativetime(), output); } // double SensorCorrectionAdjustment = 6; if (this->sensorcorrectionadjustment() != 0) { ::google::protobuf::internal::WireFormatLite::WriteDouble(6, this->sensorcorrectionadjustment(), output); } // double SensorMinValue = 7; if (this->sensorminvalue() != 0) { ::google::protobuf::internal::WireFormatLite::WriteDouble(7, this->sensorminvalue(), output); } // double SensorMaxValue = 8; if (this->sensormaxvalue() != 0) { ::google::protobuf::internal::WireFormatLite::WriteDouble(8, this->sensormaxvalue(), output); } // double SetPointRampRateorSoftStartRamp = 9; if (this->setpointramprateorsoftstartramp() != 0) { ::google::protobuf::internal::WireFormatLite::WriteDouble(9, this->setpointramprateorsoftstartramp(), output); } // double SetPointControlOutputRate = 10; if (this->setpointcontroloutputrate() != 0) { ::google::protobuf::internal::WireFormatLite::WriteDouble(10, this->setpointcontroloutputrate(), output); } // double ControlOutputType = 11; if (this->controloutputtype() != 0) { ::google::protobuf::internal::WireFormatLite::WriteDouble(11, this->controloutputtype(), output); } // double SsrControlOutputType = 12; if (this->ssrcontroloutputtype() != 0) { ::google::protobuf::internal::WireFormatLite::WriteDouble(12, this->ssrcontroloutputtype(), output); } // double OutputOnOffHysteresisValue = 13; if (this->outputonoffhysteresisvalue() != 0) { ::google::protobuf::internal::WireFormatLite::WriteDouble(13, this->outputonoffhysteresisvalue(), output); } // double ProcessVariableSamplingRate = 14; if (this->processvariablesamplingrate() != 0) { ::google::protobuf::internal::WireFormatLite::WriteDouble(14, this->processvariablesamplingrate(), output); } // double PvInputFilterFactorMode = 15; if (this->pvinputfilterfactormode() != 0) { ::google::protobuf::internal::WireFormatLite::WriteDouble(15, this->pvinputfilterfactormode(), output); } // int32 OutputProportionalCycleTime = 16; if (this->outputproportionalcycletime() != 0) { ::google::protobuf::internal::WireFormatLite::WriteInt32(16, this->outputproportionalcycletime(), output); } // int32 AcHeatersHalfCycleTime = 17; if (this->acheatershalfcycletime() != 0) { ::google::protobuf::internal::WireFormatLite::WriteInt32(17, this->acheatershalfcycletime(), output); } // double ProportionalGain = 18; if (this->proportionalgain() != 0) { ::google::protobuf::internal::WireFormatLite::WriteDouble(18, this->proportionalgain(), output); } if ((_internal_metadata_.have_unknown_fields() && ::google::protobuf::internal::GetProto3PreserveUnknownsDefault())) { ::google::protobuf::internal::WireFormat::SerializeUnknownFields( (::google::protobuf::internal::GetProto3PreserveUnknownsDefault() ? _internal_metadata_.unknown_fields() : _internal_metadata_.default_instance()), output); } // @@protoc_insertion_point(serialize_end:Tango.PMR.Hardware.HardwarePidControl) } ::google::protobuf::uint8* HardwarePidControl::InternalSerializeWithCachedSizesToArray( bool deterministic, ::google::protobuf::uint8* target) const { (void)deterministic; // Unused // @@protoc_insertion_point(serialize_to_array_start:Tango.PMR.Hardware.HardwarePidControl) ::google::protobuf::uint32 cached_has_bits = 0; (void) cached_has_bits; // .Tango.PMR.Hardware.HardwarePidControlType HardwarePidControlType = 1; if (this->hardwarepidcontroltype() != 0) { target = ::google::protobuf::internal::WireFormatLite::WriteEnumToArray( 1, this->hardwarepidcontroltype(), target); } // double OutputProportionalPowerLimit = 2; if (this->outputproportionalpowerlimit() != 0) { target = ::google::protobuf::internal::WireFormatLite::WriteDoubleToArray(2, this->outputproportionalpowerlimit(), target); } // double OutputProportionalBand = 3; if (this->outputproportionalband() != 0) { target = ::google::protobuf::internal::WireFormatLite::WriteDoubleToArray(3, this->outputproportionalband(), target); } // double IntegralTime = 4; if (this->integraltime() != 0) { target = ::google::protobuf::internal::WireFormatLite::WriteDoubleToArray(4, this->integraltime(), target); } // double DerivativeTime = 5; if (this->derivativetime() != 0) { target = ::google::protobuf::internal::WireFormatLite::WriteDoubleToArray(5, this->derivativetime(), target); } // double SensorCorrectionAdjustment = 6; if (this->sensorcorrectionadjustment() != 0) { target = ::google::protobuf::internal::WireFormatLite::WriteDoubleToArray(6, this->sensorcorrectionadjustment(), target); } // double SensorMinValue = 7; if (this->sensorminvalue() != 0) { target = ::google::protobuf::internal::WireFormatLite::WriteDoubleToArray(7, this->sensorminvalue(), target); } // double SensorMaxValue = 8; if (this->sensormaxvalue() != 0) { target = ::google::protobuf::internal::WireFormatLite::WriteDoubleToArray(8, this->sensormaxvalue(), target); } // double SetPointRampRateorSoftStartRamp = 9; if (this->setpointramprateorsoftstartramp() != 0) { target = ::google::protobuf::internal::WireFormatLite::WriteDoubleToArray(9, this->setpointramprateorsoftstartramp(), target); } // double SetPointControlOutputRate = 10; if (this->setpointcontroloutputrate() != 0) { target = ::google::protobuf::internal::WireFormatLite::WriteDoubleToArray(10, this->setpointcontroloutputrate(), target); } // double ControlOutputType = 11; if (this->controloutputtype() != 0) { target = ::google::protobuf::internal::WireFormatLite::WriteDoubleToArray(11, this->controloutputtype(), target); } // double SsrControlOutputType = 12; if (this->ssrcontroloutputtype() != 0) { target = ::google::protobuf::internal::WireFormatLite::WriteDoubleToArray(12, this->ssrcontroloutputtype(), target); } // double OutputOnOffHysteresisValue = 13; if (this->outputonoffhysteresisvalue() != 0) { target = ::google::protobuf::internal::WireFormatLite::WriteDoubleToArray(13, this->outputonoffhysteresisvalue(), target); } // double ProcessVariableSamplingRate = 14; if (this->processvariablesamplingrate() != 0) { target = ::google::protobuf::internal::WireFormatLite::WriteDoubleToArray(14, this->processvariablesamplingrate(), target); } // double PvInputFilterFactorMode = 15; if (this->pvinputfilterfactormode() != 0) { target = ::google::protobuf::internal::WireFormatLite::WriteDoubleToArray(15, this->pvinputfilterfactormode(), target); } // int32 OutputProportionalCycleTime = 16; if (this->outputproportionalcycletime() != 0) { target = ::google::protobuf::internal::WireFormatLite::WriteInt32ToArray(16, this->outputproportionalcycletime(), target); } // int32 AcHeatersHalfCycleTime = 17; if (this->acheatershalfcycletime() != 0) { target = ::google::protobuf::internal::WireFormatLite::WriteInt32ToArray(17, this->acheatershalfcycletime(), target); } // double ProportionalGain = 18; if (this->proportionalgain() != 0) { target = ::google::protobuf::internal::WireFormatLite::WriteDoubleToArray(18, this->proportionalgain(), target); } if ((_internal_metadata_.have_unknown_fields() && ::google::protobuf::internal::GetProto3PreserveUnknownsDefault())) { target = ::google::protobuf::internal::WireFormat::SerializeUnknownFieldsToArray( (::google::protobuf::internal::GetProto3PreserveUnknownsDefault() ? _internal_metadata_.unknown_fields() : _internal_metadata_.default_instance()), target); } // @@protoc_insertion_point(serialize_to_array_end:Tango.PMR.Hardware.HardwarePidControl) return target; } size_t HardwarePidControl::ByteSizeLong() const { // @@protoc_insertion_point(message_byte_size_start:Tango.PMR.Hardware.HardwarePidControl) size_t total_size = 0; if ((_internal_metadata_.have_unknown_fields() && ::google::protobuf::internal::GetProto3PreserveUnknownsDefault())) { total_size += ::google::protobuf::internal::WireFormat::ComputeUnknownFieldsSize( (::google::protobuf::internal::GetProto3PreserveUnknownsDefault() ? _internal_metadata_.unknown_fields() : _internal_metadata_.default_instance())); } // double OutputProportionalPowerLimit = 2; if (this->outputproportionalpowerlimit() != 0) { total_size += 1 + 8; } // double OutputProportionalBand = 3; if (this->outputproportionalband() != 0) { total_size += 1 + 8; } // double IntegralTime = 4; if (this->integraltime() != 0) { total_size += 1 + 8; } // double DerivativeTime = 5; if (this->derivativetime() != 0) { total_size += 1 + 8; } // double SensorCorrectionAdjustment = 6; if (this->sensorcorrectionadjustment() != 0) { total_size += 1 + 8; } // double SensorMinValue = 7; if (this->sensorminvalue() != 0) { total_size += 1 + 8; } // double SensorMaxValue = 8; if (this->sensormaxvalue() != 0) { total_size += 1 + 8; } // .Tango.PMR.Hardware.HardwarePidControlType HardwarePidControlType = 1; if (this->hardwarepidcontroltype() != 0) { total_size += 1 + ::google::protobuf::internal::WireFormatLite::EnumSize(this->hardwarepidcontroltype()); } // int32 OutputProportionalCycleTime = 16; if (this->outputproportionalcycletime() != 0) { total_size += 2 + ::google::protobuf::internal::WireFormatLite::Int32Size( this->outputproportionalcycletime()); } // double SetPointRampRateorSoftStartRamp = 9; if (this->setpointramprateorsoftstartramp() != 0) { total_size += 1 + 8; } // double SetPointControlOutputRate = 10; if (this->setpointcontroloutputrate() != 0) { total_size += 1 + 8; } // double ControlOutputType = 11; if (this->controloutputtype() != 0) { total_size += 1 + 8; } // double SsrControlOutputType = 12; if (this->ssrcontroloutputtype() != 0) { total_size += 1 + 8; } // double OutputOnOffHysteresisValue = 13; if (this->outputonoffhysteresisvalue() != 0) { total_size += 1 + 8; } // double ProcessVariableSamplingRate = 14; if (this->processvariablesamplingrate() != 0) { total_size += 1 + 8; } // double PvInputFilterFactorMode = 15; if (this->pvinputfilterfactormode() != 0) { total_size += 1 + 8; } // double ProportionalGain = 18; if (this->proportionalgain() != 0) { total_size += 2 + 8; } // int32 AcHeatersHalfCycleTime = 17; if (this->acheatershalfcycletime() != 0) { total_size += 2 + ::google::protobuf::internal::WireFormatLite::Int32Size( this->acheatershalfcycletime()); } int cached_size = ::google::protobuf::internal::ToCachedSize(total_size); GOOGLE_SAFE_CONCURRENT_WRITES_BEGIN(); _cached_size_ = cached_size; GOOGLE_SAFE_CONCURRENT_WRITES_END(); return total_size; } void HardwarePidControl::MergeFrom(const ::google::protobuf::Message& from) { // @@protoc_insertion_point(generalized_merge_from_start:Tango.PMR.Hardware.HardwarePidControl) GOOGLE_DCHECK_NE(&from, this); const HardwarePidControl* source = ::google::protobuf::internal::DynamicCastToGenerated( &from); if (source == NULL) { // @@protoc_insertion_point(generalized_merge_from_cast_fail:Tango.PMR.Hardware.HardwarePidControl) ::google::protobuf::internal::ReflectionOps::Merge(from, this); } else { // @@protoc_insertion_point(generalized_merge_from_cast_success:Tango.PMR.Hardware.HardwarePidControl) MergeFrom(*source); } } void HardwarePidControl::MergeFrom(const HardwarePidControl& from) { // @@protoc_insertion_point(class_specific_merge_from_start:Tango.PMR.Hardware.HardwarePidControl) GOOGLE_DCHECK_NE(&from, this); _internal_metadata_.MergeFrom(from._internal_metadata_); ::google::protobuf::uint32 cached_has_bits = 0; (void) cached_has_bits; if (from.outputproportionalpowerlimit() != 0) { set_outputproportionalpowerlimit(from.outputproportionalpowerlimit()); } if (from.outputproportionalband() != 0) { set_outputproportionalband(from.outputproportionalband()); } if (from.integraltime() != 0) { set_integraltime(from.integraltime()); } if (from.derivativetime() != 0) { set_derivativetime(from.derivativetime()); } if (from.sensorcorrectionadjustment() != 0) { set_sensorcorrectionadjustment(from.sensorcorrectionadjustment()); } if (from.sensorminvalue() != 0) { set_sensorminvalue(from.sensorminvalue()); } if (from.sensormaxvalue() != 0) { set_sensormaxvalue(from.sensormaxvalue()); } if (from.hardwarepidcontroltype() != 0) { set_hardwarepidcontroltype(from.hardwarepidcontroltype()); } if (from.outputproportionalcycletime() != 0) { set_outputproportionalcycletime(from.outputproportionalcycletime()); } if (from.setpointramprateorsoftstartramp() != 0) { set_setpointramprateorsoftstartramp(from.setpointramprateorsoftstartramp()); } if (from.setpointcontroloutputrate() != 0) { set_setpointcontroloutputrate(from.setpointcontroloutputrate()); } if (from.controloutputtype() != 0) { set_controloutputtype(from.controloutputtype()); } if (from.ssrcontroloutputtype() != 0) { set_ssrcontroloutputtype(from.ssrcontroloutputtype()); } if (from.outputonoffhysteresisvalue() != 0) { set_outputonoffhysteresisvalue(from.outputonoffhysteresisvalue()); } if (from.processvariablesamplingrate() != 0) { set_processvariablesamplingrate(from.processvariablesamplingrate()); } if (from.pvinputfilterfactormode() != 0) { set_pvinputfilterfactormode(from.pvinputfilterfactormode()); } if (from.proportionalgain() != 0) { set_proportionalgain(from.proportionalgain()); } if (from.acheatershalfcycletime() != 0) { set_acheatershalfcycletime(from.acheatershalfcycletime()); } } void HardwarePidControl::CopyFrom(const ::google::protobuf::Message& from) { // @@protoc_insertion_point(generalized_copy_from_start:Tango.PMR.Hardware.HardwarePidControl) if (&from == this) return; Clear(); MergeFrom(from); } void HardwarePidControl::CopyFrom(const HardwarePidControl& from) { // @@protoc_insertion_point(class_specific_copy_from_start:Tango.PMR.Hardware.HardwarePidControl) if (&from == this) return; Clear(); MergeFrom(from); } bool HardwarePidControl::IsInitialized() const { return true; } void HardwarePidControl::Swap(HardwarePidControl* other) { if (other == this) return; InternalSwap(other); } void HardwarePidControl::InternalSwap(HardwarePidControl* other) { using std::swap; swap(outputproportionalpowerlimit_, other->outputproportionalpowerlimit_); swap(outputproportionalband_, other->outputproportionalband_); swap(integraltime_, other->integraltime_); swap(derivativetime_, other->derivativetime_); swap(sensorcorrectionadjustment_, other->sensorcorrectionadjustment_); swap(sensorminvalue_, other->sensorminvalue_); swap(sensormaxvalue_, other->sensormaxvalue_); swap(hardwarepidcontroltype_, other->hardwarepidcontroltype_); swap(outputproportionalcycletime_, other->outputproportionalcycletime_); swap(setpointramprateorsoftstartramp_, other->setpointramprateorsoftstartramp_); swap(setpointcontroloutputrate_, other->setpointcontroloutputrate_); swap(controloutputtype_, other->controloutputtype_); swap(ssrcontroloutputtype_, other->ssrcontroloutputtype_); swap(outputonoffhysteresisvalue_, other->outputonoffhysteresisvalue_); swap(processvariablesamplingrate_, other->processvariablesamplingrate_); swap(pvinputfilterfactormode_, other->pvinputfilterfactormode_); swap(proportionalgain_, other->proportionalgain_); swap(acheatershalfcycletime_, other->acheatershalfcycletime_); _internal_metadata_.Swap(&other->_internal_metadata_); swap(_cached_size_, other->_cached_size_); } ::google::protobuf::Metadata HardwarePidControl::GetMetadata() const { protobuf_HardwarePidControl_2eproto::protobuf_AssignDescriptorsOnce(); return protobuf_HardwarePidControl_2eproto::file_level_metadata[kIndexInFileMessages]; } #if PROTOBUF_INLINE_NOT_IN_HEADERS // HardwarePidControl // .Tango.PMR.Hardware.HardwarePidControlType HardwarePidControlType = 1; void HardwarePidControl::clear_hardwarepidcontroltype() { hardwarepidcontroltype_ = 0; } ::Tango::PMR::Hardware::HardwarePidControlType HardwarePidControl::hardwarepidcontroltype() const { // @@protoc_insertion_point(field_get:Tango.PMR.Hardware.HardwarePidControl.HardwarePidControlType) return static_cast< ::Tango::PMR::Hardware::HardwarePidControlType >(hardwarepidcontroltype_); } void HardwarePidControl::set_hardwarepidcontroltype(::Tango::PMR::Hardware::HardwarePidControlType value) { hardwarepidcontroltype_ = value; // @@protoc_insertion_point(field_set:Tango.PMR.Hardware.HardwarePidControl.HardwarePidControlType) } // double OutputProportionalPowerLimit = 2; void HardwarePidControl::clear_outputproportionalpowerlimit() { outputproportionalpowerlimit_ = 0; } double HardwarePidControl::outputproportionalpowerlimit() const { // @@protoc_insertion_point(field_get:Tango.PMR.Hardware.HardwarePidControl.OutputProportionalPowerLimit) return outputproportionalpowerlimit_; } void HardwarePidControl::set_outputproportionalpowerlimit(double value) { outputproportionalpowerlimit_ = value; // @@protoc_insertion_point(field_set:Tango.PMR.Hardware.HardwarePidControl.OutputProportionalPowerLimit) } // double OutputProportionalBand = 3; void HardwarePidControl::clear_outputproportionalband() { outputproportionalband_ = 0; } double HardwarePidControl::outputproportionalband() const { // @@protoc_insertion_point(field_get:Tango.PMR.Hardware.HardwarePidControl.OutputProportionalBand) return outputproportionalband_; } void HardwarePidControl::set_outputproportionalband(double value) { outputproportionalband_ = value; // @@protoc_insertion_point(field_set:Tango.PMR.Hardware.HardwarePidControl.OutputProportionalBand) } // double IntegralTime = 4; void HardwarePidControl::clear_integraltime() { integraltime_ = 0; } double HardwarePidControl::integraltime() const { // @@protoc_insertion_point(field_get:Tango.PMR.Hardware.HardwarePidControl.IntegralTime) return integraltime_; } void HardwarePidControl::set_integraltime(double value) { integraltime_ = value; // @@protoc_insertion_point(field_set:Tango.PMR.Hardware.HardwarePidControl.IntegralTime) } // double DerivativeTime = 5; void HardwarePidControl::clear_derivativetime() { derivativetime_ = 0; } double HardwarePidControl::derivativetime() const { // @@protoc_insertion_point(field_get:Tango.PMR.Hardware.HardwarePidControl.DerivativeTime) return derivativetime_; } void HardwarePidControl::set_derivativetime(double value) { derivativetime_ = value; // @@protoc_insertion_point(field_set:Tango.PMR.Hardware.HardwarePidControl.DerivativeTime) } // double SensorCorrectionAdjustment = 6; void HardwarePidControl::clear_sensorcorrectionadjustment() { sensorcorrectionadjustment_ = 0; } double HardwarePidControl::sensorcorrectionadjustment() const { // @@protoc_insertion_point(field_get:Tango.PMR.Hardware.HardwarePidControl.SensorCorrectionAdjustment) return sensorcorrectionadjustment_; } void HardwarePidControl::set_sensorcorrectionadjustment(double value) { sensorcorrectionadjustment_ = value; // @@protoc_insertion_point(field_set:Tango.PMR.Hardware.HardwarePidControl.SensorCorrectionAdjustment) } // double SensorMinValue = 7; void HardwarePidControl::clear_sensorminvalue() { sensorminvalue_ = 0; } double HardwarePidControl::sensorminvalue() const { // @@protoc_insertion_point(field_get:Tango.PMR.Hardware.HardwarePidControl.SensorMinValue) return sensorminvalue_; } void HardwarePidControl::set_sensorminvalue(double value) { sensorminvalue_ = value; // @@protoc_insertion_point(field_set:Tango.PMR.Hardware.HardwarePidControl.SensorMinValue) } // double SensorMaxValue = 8; void HardwarePidControl::clear_sensormaxvalue() { sensormaxvalue_ = 0; } double HardwarePidControl::sensormaxvalue() const { // @@protoc_insertion_point(field_get:Tango.PMR.Hardware.HardwarePidControl.SensorMaxValue) return sensormaxvalue_; } void HardwarePidControl::set_sensormaxvalue(double value) { sensormaxvalue_ = value; // @@protoc_insertion_point(field_set:Tango.PMR.Hardware.HardwarePidControl.SensorMaxValue) } // double SetPointRampRateorSoftStartRamp = 9; void HardwarePidControl::clear_setpointramprateorsoftstartramp() { setpointramprateorsoftstartramp_ = 0; } double HardwarePidControl::setpointramprateorsoftstartramp() const { // @@protoc_insertion_point(field_get:Tango.PMR.Hardware.HardwarePidControl.SetPointRampRateorSoftStartRamp) return setpointramprateorsoftstartramp_; } void HardwarePidControl::set_setpointramprateorsoftstartramp(double value) { setpointramprateorsoftstartramp_ = value; // @@protoc_insertion_point(field_set:Tango.PMR.Hardware.HardwarePidControl.SetPointRampRateorSoftStartRamp) } // double SetPointControlOutputRate = 10; void HardwarePidControl::clear_setpointcontroloutputrate() { setpointcontroloutputrate_ = 0; } double HardwarePidControl::setpointcontroloutputrate() const { // @@protoc_insertion_point(field_get:Tango.PMR.Hardware.HardwarePidControl.SetPointControlOutputRate) return setpointcontroloutputrate_; } void HardwarePidControl::set_setpointcontroloutputrate(double value) { setpointcontroloutputrate_ = value; // @@protoc_insertion_point(field_set:Tango.PMR.Hardware.HardwarePidControl.SetPointControlOutputRate) } // double ControlOutputType = 11; void HardwarePidControl::clear_controloutputtype() { controloutputtype_ = 0; } double HardwarePidControl::controloutputtype() const { // @@protoc_insertion_point(field_get:Tango.PMR.Hardware.HardwarePidControl.ControlOutputType) return controloutputtype_; } void HardwarePidControl::set_controloutputtype(double value) { controloutputtype_ = value; // @@protoc_insertion_point(field_set:Tango.PMR.Hardware.HardwarePidControl.ControlOutputType) } // double SsrControlOutputType = 12; void HardwarePidControl::clear_ssrcontroloutputtype() { ssrcontroloutputtype_ = 0; } double HardwarePidControl::ssrcontroloutputtype() const { // @@protoc_insertion_point(field_get:Tango.PMR.Hardware.HardwarePidControl.SsrControlOutputType) return ssrcontroloutputtype_; } void HardwarePidControl::set_ssrcontroloutputtype(double value) { ssrcontroloutputtype_ = value; // @@protoc_insertion_point(field_set:Tango.PMR.Hardware.HardwarePidControl.SsrControlOutputType) } // double OutputOnOffHysteresisValue = 13; void HardwarePidControl::clear_outputonoffhysteresisvalue() { outputonoffhysteresisvalue_ = 0; } double HardwarePidControl::outputonoffhysteresisvalue() const { // @@protoc_insertion_point(field_get:Tango.PMR.Hardware.HardwarePidControl.OutputOnOffHysteresisValue) return outputonoffhysteresisvalue_; } void HardwarePidControl::set_outputonoffhysteresisvalue(double value) { outputonoffhysteresisvalue_ = value; // @@protoc_insertion_point(field_set:Tango.PMR.Hardware.HardwarePidControl.OutputOnOffHysteresisValue) } // double ProcessVariableSamplingRate = 14; void HardwarePidControl::clear_processvariablesamplingrate() { processvariablesamplingrate_ = 0; } double HardwarePidControl::processvariablesamplingrate() const { // @@protoc_insertion_point(field_get:Tango.PMR.Hardware.HardwarePidControl.ProcessVariableSamplingRate) return processvariablesamplingrate_; } void HardwarePidControl::set_processvariablesamplingrate(double value) { processvariablesamplingrate_ = value; // @@protoc_insertion_point(field_set:Tango.PMR.Hardware.HardwarePidControl.ProcessVariableSamplingRate) } // double PvInputFilterFactorMode = 15; void HardwarePidControl::clear_pvinputfilterfactormode() { pvinputfilterfactormode_ = 0; } double HardwarePidControl::pvinputfilterfactormode() const { // @@protoc_insertion_point(field_get:Tango.PMR.Hardware.HardwarePidControl.PvInputFilterFactorMode) return pvinputfilterfactormode_; } void HardwarePidControl::set_pvinputfilterfactormode(double value) { pvinputfilterfactormode_ = value; // @@protoc_insertion_point(field_set:Tango.PMR.Hardware.HardwarePidControl.PvInputFilterFactorMode) } // int32 OutputProportionalCycleTime = 16; void HardwarePidControl::clear_outputproportionalcycletime() { outputproportionalcycletime_ = 0; } ::google::protobuf::int32 HardwarePidControl::outputproportionalcycletime() const { // @@protoc_insertion_point(field_get:Tango.PMR.Hardware.HardwarePidControl.OutputProportionalCycleTime) return outputproportionalcycletime_; } void HardwarePidControl::set_outputproportionalcycletime(::google::protobuf::int32 value) { outputproportionalcycletime_ = value; // @@protoc_insertion_point(field_set:Tango.PMR.Hardware.HardwarePidControl.OutputProportionalCycleTime) } // int32 AcHeatersHalfCycleTime = 17; void HardwarePidControl::clear_acheatershalfcycletime() { acheatershalfcycletime_ = 0; } ::google::protobuf::int32 HardwarePidControl::acheatershalfcycletime() const { // @@protoc_insertion_point(field_get:Tango.PMR.Hardware.HardwarePidControl.AcHeatersHalfCycleTime) return acheatershalfcycletime_; } void HardwarePidControl::set_acheatershalfcycletime(::google::protobuf::int32 value) { acheatershalfcycletime_ = value; // @@protoc_insertion_point(field_set:Tango.PMR.Hardware.HardwarePidControl.AcHeatersHalfCycleTime) } // double ProportionalGain = 18; void HardwarePidControl::clear_proportionalgain() { proportionalgain_ = 0; } double HardwarePidControl::proportionalgain() const { // @@protoc_insertion_point(field_get:Tango.PMR.Hardware.HardwarePidControl.ProportionalGain) return proportionalgain_; } void HardwarePidControl::set_proportionalgain(double value) { proportionalgain_ = value; // @@protoc_insertion_point(field_set:Tango.PMR.Hardware.HardwarePidControl.ProportionalGain) } #endif // PROTOBUF_INLINE_NOT_IN_HEADERS // @@protoc_insertion_point(namespace_scope) } // namespace Hardware } // namespace PMR } // namespace Tango // @@protoc_insertion_point(global_scope)