ESP8266_Treppenlicht/lib/treppe/FSMTreppe3/FSMTreppe3.h

//
// Academic License - for use in teaching, academic research, and meeting
// course requirements at degree granting institutions only.  Not for
// government, commercial, or other organizational use.
//
// File: FSMTreppe.h
//
// Code generated for Simulink model 'FSMTreppe'.
//
// Model version                  : 1.51
// Simulink Coder version         : 9.5 (R2021a) 14-Nov-2020
// C/C++ source code generated on : Wed Jul  7 18:54:01 2021
//
// Target selection: ert.tlc
// Embedded hardware selection: ARM Compatible->ARM Cortex-M
// Code generation objectives: Unspecified
// Validation result: Not run
//
#ifndef RTW_HEADER_FSMTreppe_h_
#define RTW_HEADER_FSMTreppe_h_

#include <stdint.h>

// Class declaration for model FSMTreppe
class FSMTreppeModelClass {
  // public data and function members
 public:
  // Block states (default storage) for system '<Root>'
  struct DW_FSMTreppe_T {
    uint16_t temporalCounter_i1=0;       // '<Root>/FSMTreppe'
    uint8_t is_active_c3_FSMTreppe=0;    // '<Root>/FSMTreppe'
    uint8_t is_c3_FSMTreppe=0;           // '<Root>/FSMTreppe'
  };

  // External inputs (root inport signals with default storage)
  struct ExtU_FSMTreppe_T {
    uint32_t sensor_unten=0;            // '<Root>/sensor_unten'
    uint32_t sensor_oben=0;             // '<Root>/sensor_oben'
    uint32_t anim_beendet=0;            // '<Root>/anim_beendet'
    uint32_t ldr_schwelle=0;            // '<Root>/ldr_schwelle'
  };
 
  // External outputs (root outports fed by signals with default storage)
  struct ExtY_FSMTreppe_T {
    uint32_t laufrichtung=0;              // '<Root>/laufrichtung'
    uint32_t status=0;                    // '<Root>/status'
    uint32_t dimmrichtung=0;              // '<Root>/dimmrichtung'
  };

  // model initialize function
  void initialize();

  // model step function
  void step();

  // model terminate function
  void terminate();

  // Constructor
  FSMTreppeModelClass();

  // Destructor
  ~FSMTreppeModelClass();

  // Root-level structure-based inputs set method

  // Root inports set method
  void setExternalInputs(const ExtU_FSMTreppe_T* pExtU_FSMTreppe_T)
  {
    FSMTreppe_U.anim_beendet = pExtU_FSMTreppe_T->anim_beendet;
    FSMTreppe_U.ldr_schwelle = pExtU_FSMTreppe_T->ldr_schwelle;
    FSMTreppe_U.sensor_oben = pExtU_FSMTreppe_T->sensor_oben;
    FSMTreppe_U.sensor_unten = pExtU_FSMTreppe_T->sensor_unten;
  }

  // Root-level structure-based outputs get method

  // Root outports get method
  const FSMTreppeModelClass::ExtY_FSMTreppe_T getExternalOutputs() const
  {
    return FSMTreppe_Y;
  }

  // private data and function members
 private:
  // Block states
  DW_FSMTreppe_T FSMTreppe_DW;

  // External inputs
  ExtU_FSMTreppe_T FSMTreppe_U;

  // External outputs
  ExtY_FSMTreppe_T FSMTreppe_Y;
};

//-
//  The generated code includes comments that allow you to trace directly
//  back to the appropriate location in the model.  The basic format
//  is <system>/block_name, where system is the system number (uniquely
//  assigned by Simulink) and block_name is the name of the block.
//
//  Note that this particular code originates from a subsystem build,
//  and has its own system numbers different from the parent model.
//  Refer to the system hierarchy for this subsystem below, and use the
//  MATLAB hilite_system command to trace the generated code back
//  to the parent model.  For example,
//
//  hilite_system('FSM_Treppenlicht/FSMTreppe')    - opens subsystem FSM_Treppenlicht/FSMTreppe
//  hilite_system('FSM_Treppenlicht/FSMTreppe/Kp') - opens and selects block Kp
//
//  Here is the system hierarchy for this model
//
//  '<Root>' : 'FSM_Treppenlicht'
//  '<S1>'   : 'FSM_Treppenlicht/FSMTreppe'

#endif                                 // RTW_HEADER_FSMTreppe_h_

//
// File trailer for generated code.
//
// [EOF]
//