/*! * * Copyright (c) 2020-2024 Diality Inc. - All Rights Reserved. * \copyright * THIS CODE MAY NOT BE COPIED OR REPRODUCED IN ANY FORM, IN PART OR IN * WHOLE, WITHOUT THE EXPLICIT PERMISSION OF THE COPYRIGHT OWNER. * * \file MFPTemperatureData.h * \author (last) Behrouz NematiPour * \date (last) 10-Feb-2023 * \author (original) Behrouz NemaiPour * \date (original) 02-Jul-2020 * */ #pragma once // Qt #include // PBoostject #include "MAbstract.h" #include "types.h" // forward declarations class tst_models; namespace Model { /*! * \brief The MFPTemperature class * \details The FP Temperature data model * * | MSG | CAN ID | Box | Type | Ack | Src | Dst | Description | * |:----:|:------:|:---:|:------:|:---:|:---:|:---:|:-----------: | * |0x3900| 0x102 | 8 | 1 Hz | N | FP | All | FP Temperature Data | * * | Payload || * | || * | #01:(U32) | \ref Data::mM3Temp | * | #02:(U32) | \ref Data::mP8Temp | * | #03:(U32) | \ref Data::mP13Temp | * | #04:(F32) | \ref Data::mP17Temp | * | #05:(F32) | \ref Data::mP46Temp | * | #06:(F32) | \ref Data::mP10Temp | * | #07:(F32) | \ref Data::mP19Temp | * | #08:(F32) | \ref Data::mP7Temp | * | #09:(F32) | \ref Data::mP16Temp | * | #10:(F32) | \ref Data::mP7InternalTemp | * | #11:(F32) | \ref Data::mP16InternalTemp | * * \sa Data * *

Logging info

* | || * | || * | typeText | Datum | * | unitText | FP | * | infoText | Temperature | * */ class MFPTemperature : public MAbstract { // friends friend class ::tst_models; QVariantList parameters() const override; struct { Types::F32 mM3Temp ; ///< Temperature after pressure regulator (M3) Types::F32 mP8Temp ; ///< Temperature before inlet conductivity sensor (P8) Types::F32 mP13Temp ; ///< Temperature before RO filter (P13) Types::F32 mP17Temp ; ///< Temperature after RO filter (P17) Types::F32 mP46Temp ; ///< P19 temperature from outlet conductivity sensor. Types::F32 mP10Temp ; ///< P10 temperature from inlet conductivity sensor. Types::F32 mP19Temp ; ///< P10 temperature from inlet conductivity sensor. Types::F32 mP7Temp ; ///< Temperature RO inlet Types::F32 mP16Temp ; ///< Temperature RO outlet Types::F32 mP7InternalTemp ; ///< Temperature before RO pump (X1) Types::F32 mP16InternalTemp ; ///< Temperature RO Concentrate } _data; public: Type_Enum typeText () const override { return Type_Enum::eDatum ; } Unit_Enum unitText () const override { return Unit_Enum::eFP ; } QString infoText () const override { return QString("Temperature") ; } struct Data { float mM3Temp = 0; ///< P10 temperature from inlet conductivity sensor. float mP8Temp = 0; ///< P19 temperature from outlet conductivity sensor. float mP13Temp = 0; ///< Temperature before pressure regulator (M1) float mP17Temp = 0; ///< Temperature after pressure regulator (M3) float mP46Temp = 0; ///< Temperature before inlet conductivity sensor (P8) float mP10Temp = 0; ///< Temperature before RO filter (P13) float mP19Temp = 0; ///< Temperature after RO filter (P17) float mP7Temp = 0; ///< Temperature before RO pump (X1) float mP16Temp = 0; ///< Temperature RO Concentrate float mP7InternalTemp = 0; ///< Temperature RO Concentrate drop float mP16InternalTemp = 0; ///< Temperature drain drop }; MFPTemperature () {} bool fromByteArray (const QByteArray &vByteArray , int *vIndex = nullptr) override; Data data ( ) const ; }; } typedef Model::MFPTemperature::Data FPTemperatureData;