/** * @file JARampupGAM.h * @brief Header file for class JARampupGAM * @date Jan, 2019 * @author rhari * * @copyright Copyright 2015 F4E | European Joint Undertaking for ITER and * the Development of Fusion Energy ('Fusion for Energy'). * Licensed under the EUPL, Version 1.1 or - as soon they will be approved * by the European Commission - subsequent versions of the EUPL (the "Licence") * You may not use this work except in compliance with the Licence. * You may obtain a copy of the Licence at: http://ec.europa.eu/idabc/eupl * * @warning Unless required by applicable law or agreed to in writing, * software distributed under the Licence is distributed on an "AS IS" * basis, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express * or implied. See the Licence permissions and limitations under the Licence. * @details This header file contains the declaration of the class JARampupGAM * with all of its public, protected and private members. It may also include * definitions for inline methods which need to be visible to the compiler. */ #ifndef GAMS_JARampupGAM_H_ #define GAMS_JARampupGAM_H_ /*---------------------------------------------------------------------------*/ /* Standard header includes */ /*---------------------------------------------------------------------------*/ /*---------------------------------------------------------------------------*/ /* Project header includes */ /*---------------------------------------------------------------------------*/ #include "GAM.h" /*---------------------------------------------------------------------------*/ /* Class declaration */ /*---------------------------------------------------------------------------*/ /** * @brief GAM that rampup output value with specified target value and duration. * * The configuration syntax is (names and signal quantity are only given as an example): * 
 *      +FHPSRampupGAM = {
 *         Class = JARampupGAM
 *         InputSignals = {
 *             Currspv = {
 *                 Alias = FHPS_REF
 *                 DataSource = DDB1
 *                 Type = float32
 *             }
 *             Targetv = {
 *                 Alias = FHPS_AUTO_TAGV
 *                 DataSource = EPICSCAInput
 *                 Type = float32
 *             }
 *             Time = {
 *                 Alias = FHPS_AUTO_TIME
 *                 DataSource = EPICSCAInput
 *                 Type = float32
 *             }
 *             Start = {
 *                 Alias = FHPS_AUTO_START
 *                 DataSource = EPICSCAInput
 *                 Type = uint32
 *             }
 *         }
 *         OutputSignals = {
 *             FHPS_REF = {
 *                 DataSource = DDB1
 *                 Type = float32
 *             }
 *         }
 *       }
 *  
 *
* */ class JARampupGAM : public MARTe::GAM, public MARTe::StatefulI { public: CLASS_REGISTER_DECLARATION() JARampupGAM(); virtual ~JARampupGAM(); virtual bool Initialise(MARTe::StructuredDataI & data); virtual bool Setup(); virtual bool Execute(); virtual bool PrepareNextState(const MARTe::char8 * const currentStateName, const MARTe::char8 * const nextStateName); private: // Input signal containing the frequency of the waveform. MARTe::float32 *target_value; // Input signal containing the amplitude of the waveform. MARTe::float32 *rampup_time; // Input signal containing CCPS_ON_REQUEST MARTe::uint32 *start; // Input signal PLC_STANDBY MARTe::uint8 *standby; // MANUAL AUTO button MARTe::uint32 *isAuto; // Input signal MARTe::float32 *FHPS_PrePro; // Output MARTe::float32 *output; // State output MARTe::uint32 *state; //0:NotOperation, 1:InOperation, 2:Finish, 3:Error // Internal variables MARTe::float32 rampup_rate; bool inRampup; bool resetFlag; bool inWaitHVON; bool inWaitStandby; }; /*---------------------------------------------------------------------------*/ /* Inline method definitions */ /*---------------------------------------------------------------------------*/ #endif /* GAMS_JARampupGAM_H_ */