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ESP8266_Treppenlicht
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ESP8266 Treppenlichtsteuerung mit OTA zum Firmware Upload
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ESP8266_Treppenlicht/lib/treppe/FSMTreppe2/FSMTreppe2.cpp

FSMTreppe2.cpp 6.5KB
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  1. //

  2. // Academic License - for use in teaching, academic research, and meeting

  3. // course requirements at degree granting institutions only.  Not for

  4. // government, commercial, or other organizational use.

  5. //

  6. // File: FSMTreppe.cpp

  7. //

  8. // Code generated for Simulink model 'FSMTreppe'.

  9. //

  10. // Model version                  : 1.29

  11. // Simulink Coder version         : 9.5 (R2021a) 14-Nov-2020

  12. // C/C++ source code generated on : Sat Jul  3 17:39:25 2021

  13. //

  14. // Target selection: ert.tlc

  15. // Embedded hardware selection: ARM Compatible->ARM Cortex-M

  16. // Code generation objectives: Unspecified

  17. // Validation result: Not run

  18. //

  19. #include "FSMTreppe2.h"

  20. #include <stdint.h>

  21. 

  22. // Named constants for Chart: '<Root>/FSMTreppe'

  23. const uint8_t FSMTreppe_IN_abdimmen_hoch = 1U;

  24. const uint8_t FSMTreppe_IN_abdimmen_runter = 2U;

  25. const uint8_t FSMTreppe_IN_aufdimmen_hoch = 3U;

  26. const uint8_t FSMTreppe_IN_aufdimmen_runter = 4U;

  27. const uint8_t FSMTreppe_IN_inaktiv = 5U;

  28. const uint8_t FSMTreppe_IN_ruhezustand = 6U;

  29. const uint8_t FSMTreppe_IN_warten_hoch = 7U;

  30. const uint8_t FSMTreppe_IN_warten_runter = 8U;

  31. 

  32. // Model step function

  33. void FSMTreppeModelClass::step()

  34. {

  35.   // Chart: '<Root>/FSMTreppe' incorporates:

  36.   //   Inport: '<Root>/anim_beendet'

  37.   //   Inport: '<Root>/ldr_schwelle'

  38.   //   Inport: '<Root>/sensor_oben'

  39.   //   Inport: '<Root>/sensor_unten'

  40. 

  41.   if (FSMTreppe_DW.temporalCounter_i1 < 511U) {

  42.     FSMTreppe_DW.temporalCounter_i1 = static_cast<uint16_t>

  43.       (FSMTreppe_DW.temporalCounter_i1 + 1U);

  44.   }

  45. 

  46.   if (FSMTreppe_DW.is_active_c3_FSMTreppe == 0U) {

  47.     FSMTreppe_DW.is_active_c3_FSMTreppe = 1U;

  48.     FSMTreppe_DW.is_c3_FSMTreppe = FSMTreppe_IN_inaktiv;

  49. 

  50.     // Outport: '<Root>/status'

  51.     FSMTreppe_Y.status = 0U;

  52.   } else {

  53.     switch (FSMTreppe_DW.is_c3_FSMTreppe) {

  54.      case FSMTreppe_IN_abdimmen_hoch:

  55.       // Outport: '<Root>/dimmrichtung'

  56.       FSMTreppe_Y.dimmrichtung = 0U;

  57. 

  58.       // Outport: '<Root>/status'

  59.       FSMTreppe_Y.status = 4U;

  60.       if (FSMTreppe_U.anim_beendet || (FSMTreppe_DW.temporalCounter_i1 >= 500U))

  61.       {

  62.         FSMTreppe_DW.is_c3_FSMTreppe = FSMTreppe_IN_ruhezustand;

  63. 

  64.         // Outport: '<Root>/status'

  65.         FSMTreppe_Y.status = 1U;

  66.       }

  67.       break;

  68. 

  69.      case FSMTreppe_IN_abdimmen_runter:

  70.       // Outport: '<Root>/dimmrichtung'

  71.       FSMTreppe_Y.dimmrichtung = 0U;

  72. 

  73.       // Outport: '<Root>/status'

  74.       FSMTreppe_Y.status = 7U;

  75.       if (FSMTreppe_U.anim_beendet || (FSMTreppe_DW.temporalCounter_i1 >= 500U))

  76.       {

  77.         FSMTreppe_DW.is_c3_FSMTreppe = FSMTreppe_IN_ruhezustand;

  78. 

  79.         // Outport: '<Root>/status'

  80.         FSMTreppe_Y.status = 1U;

  81.       }

  82.       break;

  83. 

  84.      case FSMTreppe_IN_aufdimmen_hoch:

  85.       // Outport: '<Root>/laufrichtung'

  86.       FSMTreppe_Y.laufrichtung = 1U;

  87. 

  88.       // Outport: '<Root>/dimmrichtung'

  89.       FSMTreppe_Y.dimmrichtung = 1U;

  90. 

  91.       // Outport: '<Root>/status'

  92.       FSMTreppe_Y.status = 2U;

  93.       if (FSMTreppe_U.anim_beendet || (FSMTreppe_DW.temporalCounter_i1 >= 500U))

  94.       {

  95.         FSMTreppe_DW.is_c3_FSMTreppe = FSMTreppe_IN_warten_hoch;

  96.         FSMTreppe_DW.temporalCounter_i1 = 0U;

  97. 

  98.         // Outport: '<Root>/status'

  99.         FSMTreppe_Y.status = 3U;

  100.       }

  101.       break;

  102. 

  103.      case FSMTreppe_IN_aufdimmen_runter:

  104.       // Outport: '<Root>/laufrichtung'

  105.       FSMTreppe_Y.laufrichtung = 0U;

  106. 

  107.       // Outport: '<Root>/dimmrichtung'

  108.       FSMTreppe_Y.dimmrichtung = 1U;

  109. 

  110.       // Outport: '<Root>/status'

  111.       FSMTreppe_Y.status = 5U;

  112.       if (FSMTreppe_U.anim_beendet || (FSMTreppe_DW.temporalCounter_i1 >= 500U))

  113.       {

  114.         FSMTreppe_DW.is_c3_FSMTreppe = FSMTreppe_IN_warten_runter;

  115.         FSMTreppe_DW.temporalCounter_i1 = 0U;

  116. 

  117.         // Outport: '<Root>/status'

  118.         FSMTreppe_Y.status = 6U;

  119.       }

  120.       break;

  121. 

  122.      case FSMTreppe_IN_inaktiv:

  123.       // Outport: '<Root>/status'

  124.       FSMTreppe_Y.status = 0U;

  125.       if (FSMTreppe_U.ldr_schwelle) {

  126.         FSMTreppe_DW.is_c3_FSMTreppe = FSMTreppe_IN_ruhezustand;

  127. 

  128.         // Outport: '<Root>/status'

  129.         FSMTreppe_Y.status = 1U;

  130.       }

  131.       break;

  132. 

  133.      case FSMTreppe_IN_ruhezustand:

  134.       // Outport: '<Root>/status'

  135.       FSMTreppe_Y.status = 1U;

  136.       if (FSMTreppe_U.sensor_unten) {

  137.         FSMTreppe_DW.is_c3_FSMTreppe = FSMTreppe_IN_aufdimmen_hoch;

  138.         FSMTreppe_DW.temporalCounter_i1 = 0U;

  139. 

  140.         // Outport: '<Root>/laufrichtung'

  141.         FSMTreppe_Y.laufrichtung = 1U;

  142. 

  143.         // Outport: '<Root>/dimmrichtung'

  144.         FSMTreppe_Y.dimmrichtung = 1U;

  145. 

  146.         // Outport: '<Root>/status'

  147.         FSMTreppe_Y.status = 2U;

  148.       } else if (FSMTreppe_U.sensor_oben) {

  149.         FSMTreppe_DW.is_c3_FSMTreppe = FSMTreppe_IN_aufdimmen_runter;

  150.         FSMTreppe_DW.temporalCounter_i1 = 0U;

  151. 

  152.         // Outport: '<Root>/laufrichtung'

  153.         FSMTreppe_Y.laufrichtung = 0U;

  154. 

  155.         // Outport: '<Root>/dimmrichtung'

  156.         FSMTreppe_Y.dimmrichtung = 1U;

  157. 

  158.         // Outport: '<Root>/status'

  159.         FSMTreppe_Y.status = 5U;

  160.       } else if (!FSMTreppe_U.ldr_schwelle) {

  161.         FSMTreppe_DW.is_c3_FSMTreppe = FSMTreppe_IN_inaktiv;

  162. 

  163.         // Outport: '<Root>/status'

  164.         FSMTreppe_Y.status = 0U;

  165.       }

  166.       break;

  167. 

  168.      case FSMTreppe_IN_warten_hoch:

  169.       // Outport: '<Root>/status'

  170.       FSMTreppe_Y.status = 3U;

  171.       if (FSMTreppe_U.sensor_oben || (FSMTreppe_DW.temporalCounter_i1 >= 500U))

  172.       {

  173.         FSMTreppe_DW.is_c3_FSMTreppe = FSMTreppe_IN_abdimmen_hoch;

  174.         FSMTreppe_DW.temporalCounter_i1 = 0U;

  175. 

  176.         // Outport: '<Root>/dimmrichtung'

  177.         FSMTreppe_Y.dimmrichtung = 0U;

  178. 

  179.         // Outport: '<Root>/status'

  180.         FSMTreppe_Y.status = 4U;

  181.       }

  182.       break;

  183. 

  184.      default:

  185.       // Outport: '<Root>/status'

  186.       // case IN_warten_runter:

  187.       FSMTreppe_Y.status = 6U;

  188.       if (FSMTreppe_U.sensor_unten || (FSMTreppe_DW.temporalCounter_i1 >= 500U))

  189.       {

  190.         FSMTreppe_DW.is_c3_FSMTreppe = FSMTreppe_IN_abdimmen_runter;

  191.         FSMTreppe_DW.temporalCounter_i1 = 0U;

  192. 

  193.         // Outport: '<Root>/dimmrichtung'

  194.         FSMTreppe_Y.dimmrichtung = 0U;

  195. 

  196.         // Outport: '<Root>/status'

  197.         FSMTreppe_Y.status = 7U;

  198.       }

  199.       break;

  200.     }

  201.   }

  202. 

  203.   // End of Chart: '<Root>/FSMTreppe'

  204. }

  205. 

  206. // Model initialize function

  207. void FSMTreppeModelClass::initialize()

  208. {

  209.   // (no initialization code required)

  210. }

  211. 

  212. // Model terminate function

  213. void FSMTreppeModelClass::terminate()

  214. {

  215.   // (no terminate code required)

  216. }

  217. 

  218. // Constructor

  219. FSMTreppeModelClass::FSMTreppeModelClass() :

  220.   FSMTreppe_DW(),

  221.   FSMTreppe_U(),

  222.   FSMTreppe_Y()

  223. {

  224.   // Currently there is no constructor body generated.

  225. }

  226. 

  227. // Destructor

  228. FSMTreppeModelClass::~FSMTreppeModelClass()

  229. {

  230.   // Currently there is no destructor body generated.

  231. }

  232. 

  233. //

  234. // File trailer for generated code.

  235. //

  236. // [EOF]

  237. //