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SPS.ino

SPS.ino 20 KB
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  1. /*
    2. 

  2.   SPS System mit dem Arduino.
    3. 

  3.   Version 0.12.4
    4. 

  4.   10.06.2021
    5. 

  5.   - bug: pop not working
    6. 

  6. 

  7.   Version 0.12.3
    8. 

  8.   10.06.2021
    9. 

  9.   - adding auto programming feature for the SPS Emulator
    10. 

  10.   
    11. 

  11.   Version 0.12.2
    12. 

  12.   07.06.2021
    13. 

  13.   - bug with servo in 4-bit mode, evaluate the full 8 bit.
    14. 

  14. 

  15.   Version 0.12.1
    16. 

  16.   03.09.2019
    17. 

  17.   - changing the variable names in debug mode
    18. 

  18. 

  19.   Version 0.12
    20. 

  20.   27.01.2019
    21. 

  21.   - adding demo program,
    22. 

  22.   11.01.2018
    23. 

  23.   - some refactoring
    24. 

  24. 

  25.   07.01.2018
    26. 

  26.   - programming: 1/2 duty cycle for 0 values in address display
    27. 

  27. 

  28.   Version 0.11
    29. 

  29.   17.12.2018
    30. 

  30.   - adding Shift left and shift right to register A
    31. 

  31. 

  32.   Version 0.10
    33. 

  33.   7.12.2018
    34. 

  34.   - new define for serial programming
    35. 

  35. 

  36.   18.11.2018 WKLA
    37. 

  37.   - new standard programming mode
    38. 

  38.   I added a new programming mode for the default programming, because i thing the old one was a little bit clumsy.
    39. 

  39.   the new one has a nicer interface, as you now always know where you are.
    40. 

  40.   Starting with PRG pushed after Reset.
    41. 

  41.   as a result, all LEDs will shortly blink
    42. 

  42.   now you are in programming mode.
    43. 

  43.     the D1 LED will blink
    44. 

  44.     the higher nibble of the address will be shown
    45. 

  45.     the D2 LED will blink
    46. 

  46.     the lower nibble of the address will be shown
    47. 

  47.     the D3 LED will blink
    48. 

  48.     the command part (high nibble) will be shown
    49. 

  49.     with SEL you can step thru all commands
    50. 

  50.     PRG will save the command
    51. 

  51.     the D4 LED will blink
    52. 

  52.     the data part (low nibble) will be shown
    53. 

  53.     with SEL you can step thru all datas
    54. 

  54.     PRG will save the data
    55. 

  55.     if the new value has been changed, all LEDs will flash as the byte will be written to the EEPROM
    56. 

  56.     address will be increased and now it will start with blinking of the D1 LED
    57. 

  57. 

  58.     To leave the programming simply push reset.
    59. 

  59. 

  60.   Version 0.9
    61. 

  61.   18.11.2018 WKLA
    62. 

  62.   - BUGs entfernt. Release.
    63. 

  63.   10.11.2018 WKLA
    64. 

  64.   - Implementierung Tone Befehl
    65. 

  65. 

  66.   Version 0.8
    67. 

  67.   06.11.2018 WKLA
    68. 

  68.   - Umstellung auf dbgOut
    69. 

  69.   - Display TM1637 Anbindung
    70. 

  70. 

  71.   Version 0.7
    72. 

  72.   24.09.2012 WKLA
    73. 

  73.   - neue Berechnung A = B - A und Swap A,B...
    74. 

  74.   - Stack auf 16 Bytes berschränkt, wird zu oft gepusht, werden die alten Werte rausgeschoben.
    75. 

  75. 

  76.   Basierd auf dem TPS System vom elektronik-labor.
    77. 

  77.   Erweiterungen:
    78. 

  78.   - es können bis zu 6 Unterroutinen definiert werden und diese direkt angesprungen werden.
    79. 

  79.   - neben return gibt's auch einen restart
    80. 

  80.   - 2 Servoausgänge für übliche RC Servos. (10° Auflösung in Nibble Modus, <1° Auflösung im Bytemodus)
    81. 

  81.   ACHTUNG: Servo und PWM Ausgänge sind nicht mischbar und können auch nicht gleichzeitig benutzt werden.
    82. 

  82.   - 2 RC Eingänge (16 Schritte auflösung im nibble Modus, Mitte 8, 255 Schritte im Byte Modus)
    83. 

  83.   - fkt. auch mit einem ATTiny84 (44 ist leider auf GRund der Programmgröße nicht mehr für den erweiterten Befehlssatz möglich)
    84. 

  84.   - call stack von bis zu 16 Unterfunktionen
    85. 

  85.   - neue Register e,f
    86. 

  86. */
    87. 

  87. 

  88. /*
    89. 

  89.    Here are the defines used in this software to control special parts of the implementation
    90. 

  90.    #define SPS_USE_DISPLAY: using a external TM1637 Display for displaying address and data at one time
    91. 

  91.    #define SPS_RECEIVER: using a RC receiver input
    92. 

  92.    #define SPS_ENHANCEMENT: all of the other enhancments
    93. 

  93.    #define SPS_SERVO: using servo outputs
    94. 

  94.    #define SPS_TONE: using a tone output
    95. 

  95.    #define SPS_SERIAL_PRG: activates the serial programming feature
    96. 

  96. */
    97. 

  97. // Program im Debugmodus kompilieren, dann werden zus. Ausgaben auf die serielle Schnittstelle geschrieben.
    98. 

  98. //#define debug
    99. 

  99. 

  100. // defining different hardware platforms
    101. 

  101. #ifdef __AVR_ATmega328P__
    102. 

  102. //#define SPS_USE_DISPLAY
    103. 

  103. //#define SPS_RECEIVER
    104. 

  104. #define SPS_ENHANCEMENT
    105. 

  105. #define SPS_SERIAL_PRG
    106. 

  106. #define SPS_SERVO
    107. 

  107. #define SPS_TONE
    108. 

  108. #endif
    109. 

  109. 

  110. #ifdef __AVR_ATtiny84__
    111. 

  111. #define SPS_ENHANCEMENT
    112. 

  112. #define SPS_SERIAL_PRG
    113. 

  113. #define SPS_SERVO
    114. 

  114. //#define SPS_TONE
    115. 

  115. #endif
    116. 

  116. 

  117. #ifdef __AVR_ATtiny861__
    118. 

  118. #define SPS_RCRECEIVER
    119. 

  119. #define SPS_ENHANCEMENT
    120. 

  120. #define SPS_SERIAL_PRG
    121. 

  121. //#define SPS_SERVO
    122. 

  122. #define SPS_TONE
    123. 

  123. #endif
    124. 

  124. 

  125. #ifdef __AVR_ATtiny4313__
    126. 

  126. #define SPS_RCRECEIVER
    127. 

  127. #endif
    128. 

  128. 

  129. // libraries
    130. 

  130. #include <debug.h>
    131. 

  131. #include <makros.h>
    132. 

  132. #include "EEPROM_mbv2.h"
    133. 

  133. 

  134. #ifdef SPS_SERVO
    135. 

  135. #include <Servo.h>
    136. 

  136. #endif
    137. 

  137. 

  138. #ifdef SPS_ENHANCEMENT
    139. 

  139. #include <avdweb_Switch.h>
    140. 

  140. #endif
    141. 

  141. 

  142. #ifdef SPS_TONE
    143. 

  143. #include "notes.h"
    144. 

  144. #endif
    145. 

  145. 

  146. #include "hardware.h"
    147. 

  147. 

  148. // Commands
    149. 

  149. const byte PORT = 0x10;
    150. 

  150. const byte DELAY = 0x20;
    151. 

  151. const byte JUMP_BACK = 0x30;
    152. 

  152. const byte SET_A = 0x40;
    153. 

  153. const byte IS_A = 0x50;
    154. 

  154. const byte A_IS = 0x60;
    155. 

  155. const byte CALC = 0x70;
    156. 

  156. const byte PAGE = 0x80;
    157. 

  157. const byte JUMP = 0x90;
    158. 

  158. const byte C_COUNT = 0xA0;
    159. 

  159. const byte D_COUNT = 0xB0;
    160. 

  160. const byte SKIP_IF = 0xC0;
    161. 

  161. const byte CALL = 0xD0;
    162. 

  162. const byte CALL_SUB = 0xE0;
    163. 

  163. const byte CMD_BYTE = 0xF0;
    164. 

  164. 

  165. // debouncing with 100ms
    166. 

  166. const byte DEBOUNCE = 100;
    167. 

  167. 

  168. // sub routines
    169. 

  169. const byte subCnt = 7;
    170. 

  170. word subs[subCnt];
    171. 

  171. 

  172. // the actual address of the program
    173. 

  173. word addr;
    174. 

  174. // page register
    175. 

  175. word page;
    176. 

  176. // defining register
    177. 

  177. byte a, b, c, d;
    178. 

  178. #ifdef SPS_ENHANCEMENT
    179. 

  179. byte e, f;
    180. 

  180. #endif
    181. 

  181. 

  182. #ifdef SPS_ENHANCEMENT
    183. 

  183. const byte SAVE_CNT = 16;
    184. 

  184. #else
    185. 

  185. const byte SAVE_CNT = 1;
    186. 

  186. #endif
    187. 

  187. 

  188. word saveaddr[SAVE_CNT];
    189. 

  189. byte saveCnt;
    190. 

  190. 

  191. #ifdef SPS_ENHANCEMENT
    192. 

  192. byte stack[SAVE_CNT];
    193. 

  193. byte stackCnt;
    194. 

  194. #endif
    195. 

  195. 

  196. unsigned long tmpValue;
    197. 

  197. 

  198. #ifdef SPS_SERVO
    199. 

  199. Servo servo1;
    200. 

  200. Servo servo2;
    201. 

  201. #endif
    202. 

  202. 

  203. byte data = 0;
    204. 

  204. byte cmd = 0;
    205. 

  205. 

  206. void setup() {
    207. 

  207.   pinMode(Dout_0, OUTPUT);
    208. 

  208.   pinMode(Dout_1, OUTPUT);
    209. 

  209.   pinMode(Dout_2, OUTPUT);
    210. 

  210.   pinMode(Dout_3, OUTPUT);
    211. 

  211. 

  212.   pinMode(PWM_1, OUTPUT);
    213. 

  213.   pinMode(PWM_2, OUTPUT);
    214. 

  214. 

  215.   pinMode(Din_0, INPUT_PULLUP);
    216. 

  216.   pinMode(Din_1, INPUT_PULLUP);
    217. 

  217.   pinMode(Din_2, INPUT_PULLUP);
    218. 

  218.   pinMode(Din_3, INPUT_PULLUP);
    219. 

  219. 

  220.   pinMode(SW_PRG, INPUT_PULLUP);
    221. 

  221.   pinMode(SW_SEL, INPUT_PULLUP);
    222. 

  222. 

  223.   digitalWrite(Dout_0, 1);
    224. 

  224.   delay(1000);
    225. 

  225.   digitalWrite(Dout_0, 0);
    226. 

  226. #ifdef SPS_USE_DISPLAY
    227. 

  227.   initDisplay();
    228. 

  228. #endif
    229. 

  229. 

  230.   // Serielle Schnittstelle einstellen
    231. 

  231. #ifndef __AVR_ATtiny84__
    232. 

  232.   initDebug();
    233. 

  233. #endif
    234. 

  234. 

  235.   prgDemoPrg();
    236. 

  236.   doReset();
    237. 

  237. 

  238.   if (digitalRead(SW_PRG) == 0) {
    239. 

  239.     programMode();
    240. 

  240.   }
    241. 

  241. #ifdef SPS_ENHANCEMENT
    242. 

  242.   pinMode(LED_BUILTIN, OUTPUT);
    243. 

  243. #endif
    244. 

  244. 

  245. #ifdef SPS_SERIAL_PRG
    246. 

  246.   initSerialPrg();
    247. 

  247.   if (digitalRead(SW_SEL) == 0) {
    248. 

  248.     serialPrg();
    249. 

  249.   }
    250. 

  250. #endif
    251. 

  251. }
    252. 

  252. 

  253. void doReset() {
    254. 

  254.   dbgOutLn("Reset");
    255. 

  255. #ifdef SPS_SERVO
    256. 

  256.   servo1.detach();
    257. 

  257.   servo2.detach();
    258. 

  258. #endif
    259. 

  259. 

  260.   for (int i = 0; i < subCnt; i++) {
    261. 

  261.     subs[i] = 0;
    262. 

  262.   }
    263. 

  263. 

  264.   readProgram();
    265. 

  265. 

  266.   addr = 0;
    267. 

  267.   page = 0;
    268. 

  268.   saveCnt = 0;
    269. 

  269.   a = 0;
    270. 

  270.   b = 0;
    271. 

  271.   c = 0;
    272. 

  272.   d = 0;
    273. 

  273. #ifdef SPS_ENHANCEMENT
    274. 

  274.   e = 0;
    275. 

  275.   f = 0;
    276. 

  276.   stackCnt = 0;
    277. 

  277.   for (int i = 0; i < SAVE_CNT; i++) {
    278. 

  278.     stack[i] = 0;
    279. 

  279.   }
    280. 

  280. #endif
    281. 

  281. }
    282. 

  282. 

  283. /*
    284. 

  284.   getting all addresses of sub programms
    285. 

  285. */
    286. 

  286. void readProgram() {
    287. 

  287.   dbgOutLn("Read program");
    288. 

  288.   word addr = 0;
    289. 

  289.   for ( addr = 0; addr <= STORESIZE; addr++) {
    290. 

  290.     byte value = readbyte(addr);
    291. 

  291. 

  292. #ifdef debug
    293. 

  293.     dbgOutLn();
    294. 

  294.     dbgOut2(addr, HEX);
    295. 

  295.     dbgOut(": ");
    296. 

  296. #endif
    297. 

  297. 

  298.     if (value == 0xFF) {
    299. 

  299.       // ende des Programms
    300. 

  300.       break;
    301. 

  301.     }
    302. 

  302.     byte cmd = (value & 0xF0);
    303. 

  303.     byte data = (value & 0x0F);
    304. 

  304. 

  305.     dbgOut2(cmd>>4, HEX);
    306. 

  306.     dbgOut2(data, HEX);
    307. 

  307. 

  308.     if (cmd == CALL_SUB) {
    309. 

  309.       if (data >= 8) {
    310. 

  310.         data = data - 8;
    311. 

  311.         subs[data] = addr + 1;
    312. 

  312.         dbgOut(", sub def ");
    313. 

  313.         dbgOut(data);
    314. 

  314.       }
    315. 

  315.     }
    316. 

  316. #ifdef SPS_SERVO
    317. 

  317.     if ((cmd == IS_A) && (data == 0x0B)) {
    318. 

  318.       if (!servo1.attached()) {
    319. 

  319.         dbgOut(": attach Srv1");
    320. 

  320.         servo1.attach(SERVO_1);
    321. 

  321.       }
    322. 

  322.     } else if ((cmd == CMD_BYTE) && (data == 0x06)) {
    323. 

  323.       if (!servo1.attached()) {
    324. 

  324.         dbgOut(": attach Srv1");
    325. 

  325.         servo1.attach(SERVO_1);
    326. 

  326.       }
    327. 

  327.     } else if ((cmd == IS_A) && (data == 0x0C)) {
    328. 

  328.       if (!servo2.attached()) {
    329. 

  329.         dbgOut(": attach Srv2");
    330. 

  330.         servo2.attach(SERVO_2);
    331. 

  331.       }
    332. 

  332.     } else if ((cmd == CMD_BYTE) && (data == 0x07)) {
    333. 

  333.       if (!servo2.attached()) {
    334. 

  334.         dbgOut(": attach Srv2");
    335. 

  335.         servo2.attach(SERVO_2);
    336. 

  336.       }
    337. 

  337.     }
    338. 

  338. #endif
    339. 

  339.   }
    340. 

  340.   dbgOutLn();
    341. 

  341. }
    342. 

  342. 

  343. /*
    344. 

  344.   main loop
    345. 

  345. */
    346. 

  346. void loop() {
    347. 

  347. #ifdef SPS_SERIAL_PRG
    348. 

  348.   if (Serial.available() > 0) {
    349. 

  349.     while (Serial.available() > 0) {
    350. 

  350.       char myChar = Serial.read();
    351. 

  351.       if (myChar == 'p') {
    352. 

  352.         serialPrg();
    353. 

  353.         Serial.println("end of inline programming");
    354. 

  354.         doReset();
    355. 

  355.       }
    356. 

  356.     }
    357. 

  357.   }
    358. 

  358. #endif
    359. 

  359.   byte value = readbyte(addr);
    360. 

  360.   cmd = (value & 0xF0);
    361. 

  361.   data = (value & 0x0F);
    362. 

  362. 

  363.   debugOutputRegister();
    364. 

  364. 

  365.   addr = addr + 1;
    366. 

  366.   switch (cmd) {
    367. 

  367.     case PORT:
    368. 

  368.       doPort(data);
    369. 

  369.       break;
    370. 

  370.     case DELAY:
    371. 

  371.       doDelay(data);
    372. 

  372.       break;
    373. 

  373.     case JUMP_BACK:
    374. 

  374.       doJumpBack(data);
    375. 

  375.       break;
    376. 

  376.     case SET_A:
    377. 

  377.       doSetA(data);
    378. 

  378.       break;
    379. 

  379.     case A_IS:
    380. 

  380.       doAIs(data);
    381. 

  381.       break;
    382. 

  382.     case IS_A:
    383. 

  383.       doIsA(data);
    384. 

  384.       break;
    385. 

  385.     case CALC:
    386. 

  386.       doCalc(data);
    387. 

  387.       break;
    388. 

  388.     case PAGE:
    389. 

  389.       doPage(data);
    390. 

  390.       break;
    391. 

  391.     case JUMP:
    392. 

  392.       doJump(data);
    393. 

  393.       break;
    394. 

  394.     case C_COUNT:
    395. 

  395.       doCCount(data);
    396. 

  396.       break;
    397. 

  397.     case D_COUNT:
    398. 

  398.       doDCount(data);
    399. 

  399.       break;
    400. 

  400.     case SKIP_IF:
    401. 

  401.       doSkipIf(data);
    402. 

  402.       break;
    403. 

  403.     case CALL:
    404. 

  404.       doCall(data);
    405. 

  405.       break;
    406. 

  406.     case CALL_SUB:
    407. 

  407.       doCallSub(data);
    408. 

  408.       break;
    409. 

  409.     case CMD_BYTE:
    410. 

  410.       doByte(data);
    411. 

  411.       break;
    412. 

  412.     default:
    413. 

  413.       ;
    414. 

  414.   }
    415. 

  415.   if (addr > STORESIZE) {
    416. 

  416.     doReset();
    417. 

  417.   }
    418. 

  418. }
    419. 

  419. 

  420. void debugOutputRegister() {
    421. 

  421.   dbgOut2(addr, HEX); dbgOut(":"); dbgOut2(cmd>>4, HEX); dbgOut(","); dbgOut2(data, HEX); 
    422. 

  422.   dbgOut(",reg:"); dbgOut2(a, HEX); dbgOut(","); dbgOut2(b, HEX); dbgOut(",");
    423. 

  423.   dbgOut2(c, HEX); dbgOut(","); dbgOut2(d, HEX); dbgOut(",");
    424. 

  424. #ifdef SPS_ENHANCEMENT
    425. 

  425.   dbgOut2(e, HEX); dbgOut(","); dbgOut2(f, HEX); 
    426. 

  426.   dbgOut(", s:"); dbgOut2(stackCnt, HEX); dbgOut(":");
    427. 

  427.   for (int i = 0; i < SAVE_CNT; i++) {
    428. 

  428.     dbgOut2(stack[i],HEX);dbgOut(",");
    429. 

  429.   }
    430. 

  430. #endif
    431. 

  431.   dbgOutLn();
    432. 

  432. }
    433. 

  433. 

  434. /*
    435. 

  435.   output to port
    436. 

  436. */
    437. 

  437. void doPort(byte data) {
    438. 

  438.   digitalWrite(Dout_0, (data & 0x01) > 0);
    439. 

  439.   digitalWrite(Dout_1, (data & 0x02) > 0);
    440. 

  440.   digitalWrite(Dout_2, (data & 0x04) > 0);
    441. 

  441.   digitalWrite(Dout_3, (data & 0x08) > 0);
    442. 

  442. }
    443. 

  443. 

  444. /*
    445. 

  445.   delay in ms
    446. 

  446. */
    447. 

  447. void doDelay(byte data) {
    448. 

  448.   dbgOut("dly: ");
    449. 

  449.   dbgOutLn2(data, HEX);
    450. 

  450. 

  451.   switch (data) {
    452. 

  452.     case 0:
    453. 

  453.       delay(1);
    454. 

  454.       break;
    455. 

  455.     case 1:
    456. 

  456.       delay(2);
    457. 

  457.       break;
    458. 

  458.     case 2:
    459. 

  459.       delay(5);
    460. 

  460.       break;
    461. 

  461.     case 3:
    462. 

  462.       delay(10);
    463. 

  463.       break;
    464. 

  464.     case 4:
    465. 

  465.       delay(20);
    466. 

  466.       break;
    467. 

  467.     case 5:
    468. 

  468.       delay(50);
    469. 

  469.       break;
    470. 

  470.     case 6:
    471. 

  471.       delay(100);
    472. 

  472.       break;
    473. 

  473.     case 7:
    474. 

  474.       delay(200);
    475. 

  475.       break;
    476. 

  476.     case 8:
    477. 

  477.       delay(500);
    478. 

  478.       break;
    479. 

  479.     case 9:
    480. 

  480.       delay(1000);
    481. 

  481.       break;
    482. 

  482.     case 10:
    483. 

  483.       delay(2000);
    484. 

  484.       break;
    485. 

  485.     case 11:
    486. 

  486.       delay(5000);
    487. 

  487.       break;
    488. 

  488.     case 12:
    489. 

  489.       delay(10000);
    490. 

  490.       break;
    491. 

  491.     case 13:
    492. 

  492.       delay(20000);
    493. 

  493.       break;
    494. 

  494.     case 14:
    495. 

  495.       delay(30000);
    496. 

  496.       break;
    497. 

  497.     case 15:
    498. 

  498.       delay(60000);
    499. 

  499.       break;
    500. 

  500.     default:
    501. 

  501.       break;
    502. 

  502.   }
    503. 

  503. }
    504. 

  504. 

  505. /*
    506. 

  506.   jump relative back
    507. 

  507. */
    508. 

  508. void doJumpBack(byte data) {
    509. 

  509.   addr = addr - data - 1;
    510. 

  510. }
    511. 

  511. 

  512. /*
    513. 

  513.   a = data
    514. 

  514. */
    515. 

  515. void doSetA(byte data) {
    516. 

  516.   a = data;
    517. 

  517. }
    518. 

  518. 

  519. /*
    520. 

  520.   a = somthing;
    521. 

  521. */
    522. 

  522. void doAIs(byte data) {
    523. 

  523.   switch (data) {
    524. 

  524.     case 1:
    525. 

  525.       a = b;
    526. 

  526.       break;
    527. 

  527.     case 2:
    528. 

  528.       a = c;
    529. 

  529.       break;
    530. 

  530.     case 3:
    531. 

  531.       a = d;
    532. 

  532.       break;
    533. 

  533.     case 4:
    534. 

  534.       a = digitalRead(Din_0) + (digitalRead(Din_1) << 1) + (digitalRead(Din_2) << 2) + (digitalRead(Din_3) << 3);
    535. 

  535.       break;
    536. 

  536.     case 5:
    537. 

  537.       a = digitalRead(Din_0);
    538. 

  538.       break;
    539. 

  539.     case 6:
    540. 

  540.       a = digitalRead(Din_1);
    541. 

  541.       break;
    542. 

  542.     case 7:
    543. 

  543.       a = digitalRead(Din_2);
    544. 

  544.       break;
    545. 

  545.     case 8:
    546. 

  546.       a = digitalRead(Din_3);
    547. 

  547.       break;
    548. 

  548. #ifndef __AVR_ATtiny4313__
    549. 

  549.     case 9:
    550. 

  550.       tmpValue = analogRead(ADC_0);
    551. 

  551.       a = tmpValue / 64; //(Umrechnen auf 4 bit)
    552. 

  552.       break;
    553. 

  553.     case 10:
    554. 

  554.       tmpValue = analogRead(ADC_1);
    555. 

  555.       a = tmpValue / 64; //(Umrechnen auf 4 bit)
    556. 

  556.       break;
    557. 

  557. #else
    558. 

  558.     case 9:
    559. 

  559.       a = digitalRead(ADC_0);
    560. 

  560.       break;
    561. 

  561.     case 10:
    562. 

  562.       a = digitalRead(ADC_1);
    563. 

  563.       break;
    564. 

  564. #endif
    565. 

  565. #ifdef SPS_RCRECEIVER
    566. 

  566.     case 11:
    567. 

  567.       tmpValue = pulseIn(RC_0, HIGH, 100000);
    568. 

  568.       if (tmpValue < 1000) {
    569. 

  569.         tmpValue = 1000;
    570. 

  570.       }
    571. 

  571.       if (tmpValue > 2000) {
    572. 

  572.         tmpValue = 2000;
    573. 

  573.       }
    574. 

  574.       a = (tmpValue - 1000) / 64; //(Umrechnen auf 4 bit)
    575. 

  575.       dbgOut("RC1:");
    576. 

  576.       dbgOut(tmpValue);
    577. 

  577.       dbgOut("=");
    578. 

  578.       dbgOutLn(a);
    579. 

  579.       break;
    580. 

  580.     case 12:
    581. 

  581.       tmpValue = pulseIn(RC_1, HIGH, 100000);
    582. 

  582.       if (tmpValue < 1000) {
    583. 

  583.         tmpValue = 1000;
    584. 

  584.       }
    585. 

  585.       if (tmpValue > 2000) {
    586. 

  586.         tmpValue = 2000;
    587. 

  587.       }
    588. 

  588.       a = (tmpValue - 1000) / 64; //(Umrechnen auf 4 bit)
    589. 

  589.       dbgOut("RC2:");
    590. 

  590.       dbgOut(tmpValue);
    591. 

  591.       dbgOut("=");
    592. 

  592.       dbgOutLn(a);
    593. 

  593.       break;
    594. 

  594. #endif
    595. 

  595. #ifdef SPS_ENHANCEMENT
    596. 

  596.     case 13:
    597. 

  597.       a = e;
    598. 

  598.       break;
    599. 

  599.     case 14:
    600. 

  600.       a = f;
    601. 

  601.       break;
    602. 

  602.     case 15:
    603. 

  603.       dbgOut("pop ");
    604. 

  604.       dbgOutLn(stackCnt);
    605. 

  605.       if (stackCnt > 0) {
    606. 

  606.         stackCnt -= 1;
    607. 

  607.         a = stack[stackCnt];
    608. 

  608.       } else {
    609. 

  609.         a = 0;
    610. 

  610.       }
    611. 

  611.       break;
    612. 

  612. #endif
    613. 

  613.     default:
    614. 

  614.       break;
    615. 

  615.   }
    616. 

  616. }
    617. 

  617. 

  618. /*
    619. 

  619.   somthing = a;
    620. 

  620. */
    621. 

  621. void doIsA(byte data) {
    622. 

  622.   switch (data) {
    623. 

  623. #ifdef SPS_ENHANCEMENT
    624. 

  624.     case 0:
    625. 

  625.       swap(a, b, byte);
    626. 

  626.       break;
    627. 

  627. #endif
    628. 

  628.     case 1:
    629. 

  629.       b = a;
    630. 

  630.       break;
    631. 

  631.     case 2:
    632. 

  632.       c = a;
    633. 

  633.       break;
    634. 

  634.     case 3:
    635. 

  635.       d = a;
    636. 

  636.       break;
    637. 

  637.     case 4:
    638. 

  638.       doPort(a);
    639. 

  639.       break;
    640. 

  640.     case 5:
    641. 

  641.       digitalWrite(Dout_0, (a & 0x01) > 0);
    642. 

  642.       break;
    643. 

  643.     case 6:
    644. 

  644.       digitalWrite(Dout_1, (a & 0x01) > 0);
    645. 

  645.       break;
    646. 

  646.     case 7:
    647. 

  647.       digitalWrite(Dout_2, (a & 0x01) > 0);
    648. 

  648.       break;
    649. 

  649.     case 8:
    650. 

  650.       digitalWrite(Dout_3, (a & 0x01) > 0);
    651. 

  651.       break;
    652. 

  652.     case 9:
    653. 

  653.       tmpValue = a * 16;
    654. 

  654.       dbgOut("PWM1:");
    655. 

  655.       dbgOutLn(tmpValue);
    656. 

  656.       analogWrite(PWM_1, tmpValue);
    657. 

  657.       break;
    658. 

  658.     case 10:
    659. 

  659.       tmpValue = a * 16;
    660. 

  660.       dbgOut("PWM2:");
    661. 

  661.       dbgOutLn(tmpValue);
    662. 

  662.       analogWrite(PWM_2, tmpValue);
    663. 

  663.       break;
    664. 

  664. #ifdef SPS_SERVO
    665. 

  665.     case 11:
    666. 

  666.       if (servo1.attached()) {
    667. 

  667.         tmpValue = ((a & 0x0f) * 10) + 10;
    668. 

  668.         dbgOut("Srv1:");
    669. 

  669.         dbgOutLn(tmpValue);
    670. 

  670.         servo1.write(tmpValue);
    671. 

  671.       }
    672. 

  672.       break;
    673. 

  673.     case 12:
    674. 

  674.       if (servo2.attached()) {
    675. 

  675.         tmpValue = ((a & 0x0f) * 10) + 10;
    676. 

  676.         dbgOut("Srv2:");
    677. 

  677.         dbgOutLn(tmpValue);
    678. 

  678.         servo2.write(tmpValue);
    679. 

  679.       }
    680. 

  680.       break;
    681. 

  681. #endif
    682. 

  682. #ifdef SPS_ENHANCEMENT
    683. 

  683.     case 13:
    684. 

  684.       e = a;
    685. 

  685.       break;
    686. 

  686.     case 14:
    687. 

  687.       f = a;
    688. 

  688.       break;
    689. 

  689.     case 15:
    690. 

  690.       dbgOut("push ");
    691. 

  691.       dbgOutLn(stackCnt);
    692. 

  692.       if (stackCnt < SAVE_CNT) {
    693. 

  693.         stack[stackCnt] = a;
    694. 

  694.         stackCnt += 1;
    695. 

  695.       }
    696. 

  696.       else {
    697. 

  697.         for (int i = 1; i <= SAVE_CNT; i++) {
    698. 

  698.           stack[i - 1] = stack[i];
    699. 

  699.         }
    700. 

  700.         stack[stackCnt] = a;
    701. 

  701.       }
    702. 

  702.       break;
    703. 

  703. #endif
    704. 

  704.     default:
    705. 

  705.       break;
    706. 

  706.   }
    707. 

  707. }
    708. 

  708. 

  709. /*
    710. 

  710.   calculations
    711. 

  711. */
    712. 

  712. void doCalc(byte data) {
    713. 

  713.   switch (data) {
    714. 

  714.     case 1:
    715. 

  715.       a = a + 1;
    716. 

  716.       break;
    717. 

  717.     case 2:
    718. 

  718.       a = a - 1;
    719. 

  719.       break;
    720. 

  720.     case 3:
    721. 

  721.       a = a + b;
    722. 

  722.       break;
    723. 

  723.     case 4:
    724. 

  724.       a = a - b;
    725. 

  725.       break;
    726. 

  726.     case 5:
    727. 

  727.       a = a * b;
    728. 

  728.       break;
    729. 

  729.     case 6:
    730. 

  730.       a = a / b;
    731. 

  731.       break;
    732. 

  732.     case 7:
    733. 

  733.       a = a & b;
    734. 

  734.       break;
    735. 

  735.     case 8:
    736. 

  736.       a = a | b;
    737. 

  737.       break;
    738. 

  738.     case 9:
    739. 

  739.       a = a ^ b;
    740. 

  740.       break;
    741. 

  741.     case 10:
    742. 

  742.       a = ~a;
    743. 

  743.       break;
    744. 

  744. #ifdef SPS_ENHANCEMENT
    745. 

  745.     case 11:
    746. 

  746.       a = a % b;
    747. 

  747.       break;
    748. 

  748.     case 12:
    749. 

  749.       a = a + 16 * b;
    750. 

  750.       break;
    751. 

  751.     case 13:
    752. 

  752.       a = b - a;
    753. 

  753.       break;
    754. 

  754.     case 14:
    755. 

  755.       a = a >> 1;
    756. 

  756.       break;
    757. 

  757.     case 15:
    758. 

  758.       a = a << 1;
    759. 

  759.       break;
    760. 

  760. #endif
    761. 

  761.     default:
    762. 

  762.       break;
    763. 

  763.   }
    764. 

  764. #ifndef SPS_ENHANCEMENT
    765. 

  765.   a = a & 15;
    766. 

  766. #endif
    767. 

  767. }
    768. 

  768. 

  769. /*
    770. 

  770.   setting page
    771. 

  771. */
    772. 

  772. void doPage(byte data) {
    773. 

  773.   page = data * 16;
    774. 

  774. }
    775. 

  775. 

  776. /*
    777. 

  777.   jump absolute
    778. 

  778. */
    779. 

  779. void doJump(byte data) {
    780. 

  780. #ifdef debug
    781. 

  781.   dbgOut("J");
    782. 

  782.   dbgOut2(page>>4, HEX);
    783. 

  783.   dbgOutLn2(data, HEX);
    784. 

  784. #endif
    785. 

  785.   addr = page + data;
    786. 

  786. }
    787. 

  787. 

  788. /*
    789. 

  789.   counting with c register
    790. 

  790. */
    791. 

  791. void doCCount(byte data) {
    792. 

  792.   if (c > 0) {
    793. 

  793.     c -= 1;
    794. 

  794.     c = c & 0x0F;
    795. 

  795.     doJump(data);
    796. 

  796.   }
    797. 

  797. }
    798. 

  798. 

  799. /*
    800. 

  800.   counting with d register
    801. 

  801. */
    802. 

  802. void doDCount(byte data) {
    803. 

  803.   if (d > 0) {
    804. 

  804.     d -= 1;
    805. 

  805.     d = d & 0x0F;
    806. 

  806.     doJump(data);
    807. 

  807.   }
    808. 

  808. }
    809. 

  809. 

  810. /*
    811. 

  811.   simple condition = true, skip next command
    812. 

  812. */
    813. 

  813. void doSkipIf(byte data) {
    814. 

  814.   bool skip = false;
    815. 

  815.   switch (data) {
    816. 

  816. #ifdef SPS_ENHANCEMENT
    817. 

  817.     case 0:
    818. 

  818.       skip = (a == 0);
    819. 

  819.       break;
    820. 

  820. #endif
    821. 

  821.     case 1:
    822. 

  822.       skip = (a > b);
    823. 

  823.       break;
    824. 

  824.     case 2:
    825. 

  825.       skip = (a < b);
    826. 

  826.       break;
    827. 

  827.     case 3:
    828. 

  828.       skip = (a == b);
    829. 

  829.       break;
    830. 

  830.     case 4:
    831. 

  831.       skip = digitalRead(Din_0);
    832. 

  832.       break;
    833. 

  833.     case 5:
    834. 

  834.       skip = digitalRead(Din_1);
    835. 

  835.       break;
    836. 

  836.     case 6:
    837. 

  837.       skip = digitalRead(Din_2);
    838. 

  838.       break;
    839. 

  839.     case 7:
    840. 

  840.       skip = digitalRead(Din_3);
    841. 

  841.       break;
    842. 

  842.     case 8:
    843. 

  843.       skip = !digitalRead(Din_0);
    844. 

  844.       break;
    845. 

  845.     case 9:
    846. 

  846.       skip = !digitalRead(Din_1);
    847. 

  847.       break;
    848. 

  848.     case 10:
    849. 

  849.       skip = !digitalRead(Din_2);
    850. 

  850.       break;
    851. 

  851.     case 11:
    852. 

  852.       skip = !digitalRead(Din_3);
    853. 

  853.       break;
    854. 

  854.     case 12:
    855. 

  855.       skip = !digitalRead(SW_PRG);
    856. 

  856.       break;
    857. 

  857.     case 13:
    858. 

  858.       skip = !digitalRead(SW_SEL);
    859. 

  859.       break;
    860. 

  860.     case 14:
    861. 

  861.       skip = digitalRead(SW_PRG);
    862. 

  862.       break;
    863. 

  863.     case 15:
    864. 

  864.       skip = digitalRead(SW_SEL);
    865. 

  865.       break;
    866. 

  866.     default:
    867. 

  867.       break;
    868. 

  868.   }
    869. 

  869.   if (skip) {
    870. 

  870.     addr += 1;
    871. 

  871.   }
    872. 

  872. }
    873. 

  873. 

  874. /*
    875. 

  875.   calling a subroutine
    876. 

  876. */
    877. 

  877. void doCall(byte data) {
    878. 

  878.   saveaddr[saveCnt] = addr;
    879. 

  879.   saveCnt++;
    880. 

  880.   addr = page + data;
    881. 

  881. }
    882. 

  882. 

  883. /*
    884. 

  884.   calling a subroutine, calling return and restart
    885. 

  885. */
    886. 

  886. void doCallSub(byte data) {
    887. 

  887.   if (data == 0) {
    888. 

  888.     if (saveCnt < 0) {
    889. 

  889.       doReset();
    890. 

  890.       return;
    891. 

  891.     }
    892. 

  892.     saveCnt -= 1;
    893. 

  893.     addr = saveaddr[saveCnt];
    894. 

  894.     dbgOut("r:");
    895. 

  895.     dbgOutLn(addr);
    896. 

  896.     return;
    897. 

  897.   }
    898. 

  898. #ifdef SPS_ENHANCEMENT
    899. 

  899.   if (data <= 7) {
    900. 

  900.     // call subroutine number
    901. 

  901.     doCall(addr);
    902. 

  902.     addr = subs[data - 1];
    903. 

  903.     dbgOut("c:");
    904. 

  904.     dbgOutLn(addr);
    905. 

  905.     return;
    906. 

  906.   }
    907. 

  907.   if (data == 0x0f) {
    908. 

  908.     doReset();
    909. 

  909.   }
    910. 

  910. #endif
    911. 

  911. }
    912. 

  912. 

  913. /*
    914. 

  914.   calling a byte methods
    915. 

  915. */
    916. 

  916. void doByte(byte data) {
    917. 

  917. #ifdef SPS_ENHANCEMENT
    918. 

  918.   dbgOut("B ");
    919. 

  919.   switch (data) {
    920. 

  920.     case 0:
    921. 

  921.       tmpValue = analogRead(ADC_0);
    922. 

  922.       a = tmpValue >> 2; //(Umrechnen auf 8 bit)
    923. 

  923.       break;
    924. 

  924.     case 1:
    925. 

  925.       tmpValue = analogRead(ADC_1);
    926. 

  926.       a = tmpValue >> 2; //(Umrechnen auf 8 bit)
    927. 

  927.       break;
    928. 

  928. #ifdef SPS_RCRECEIVER
    929. 

  929.     case 2:
    930. 

  930.       tmpValue = pulseIn(RC_0, HIGH, 100000);
    931. 

  931.       if (tmpValue < 1000) {
    932. 

  932.         tmpValue = 1000;
    933. 

  933.       }
    934. 

  934.       if (tmpValue > 2000) {
    935. 

  935.         tmpValue = 2000;
    936. 

  936.       }
    937. 

  937.       a = (tmpValue - 1000) / 4; //(Umrechnen auf 4 bit)
    938. 

  938.       dbgOut("RC1:");
    939. 

  939.       dbgOut(tmpValue);
    940. 

  940.       dbgOut("=");
    941. 

  941.       dbgOutLn(a);
    942. 

  942.       break;
    943. 

  943.     case 3:
    944. 

  944.       tmpValue = pulseIn(RC_1, HIGH, 100000);
    945. 

  945.       if (tmpValue < 1000) {
    946. 

  946.         tmpValue = 1000;
    947. 

  947.       }
    948. 

  948.       if (tmpValue > 2000) {
    949. 

  949.         tmpValue = 2000;
    950. 

  950.       }
    951. 

  951.       a = (tmpValue - 1000) / 4; //(Umrechnen auf 4 bit)
    952. 

  952.       dbgOut("RC2:");
    953. 

  953.       dbgOut(tmpValue);
    954. 

  954.       dbgOut("=");
    955. 

  955.       dbgOutLn(a);
    956. 

  956.       break;
    957. 

  957. #endif
    958. 

  958.     case 4:
    959. 

  959.       tmpValue = a;
    960. 

  960.       dbgOut("PWM1:");
    961. 

  961.       dbgOutLn(a);
    962. 

  962.       analogWrite(PWM_1, a);
    963. 

  963.       break;
    964. 

  964.     case 5:
    965. 

  965.       tmpValue = a;
    966. 

  966.       dbgOut("PWM2:");
    967. 

  967.       dbgOutLn(a);
    968. 

  968.       analogWrite(PWM_2, a);
    969. 

  969.       break;
    970. 

  970. #ifdef SPS_SERVO
    971. 

  971.     case 6:
    972. 

  972.       if (servo1.attached()) {
    973. 

  973.         dbgOut("Srv1:");
    974. 

  974.         tmpValue = map(a, 0, 255, 0, 180);
    975. 

  975.         dbgOutLn(tmpValue);
    976. 

  976.         servo1.write(tmpValue);
    977. 

  977.       }
    978. 

  978.       break;
    979. 

  979.     case 7:
    980. 

  980.       if (servo2.attached()) {
    981. 

  981.         dbgOut("Srv2:");
    982. 

  982.         tmpValue = map(a, 0, 255, 0, 180);
    983. 

  983.         dbgOutLn(tmpValue);
    984. 

  984.         servo2.write(tmpValue);
    985. 

  985.       }
    986. 

  986.       break;
    987. 

  987. #endif
    988. 

  988. #ifdef SPS_TONE
    989. 

  989.     case 8:
    990. 

  990.       if (a == 0) {
    991. 

  991.         dbgOutLn("Tone off");
    992. 

  992.         noTone(PWM_2);
    993. 

  993.       } else {
    994. 

  994.         if (between(a, MIDI_START, MIDI_START + MIDI_NOTES)) {
    995. 

  995.           word frequenz = pgm_read_word(a - MIDI_START + midiNoteToFreq);
    996. 

  996.           dbgOut("Tone on: midi ");
    997. 

  997.           dbgOut2(a, DEC);
    998. 

  998.           dbgOut(", ");
    999. 

  999.           dbgOut2(frequenz, DEC);
    1000. 

  1000.           dbgOutLn("Hz");
    1001. 

  1001.           tone(PWM_2, frequenz);
    1002. 

  1002.         }
    1003. 

  1003.       }
    1004. 

  1004.       break;
    1005. 

  1005. #endif
    1006. 

  1006. #ifdef __AVR_ATmega328P__
    1007. 

  1007.     case 13:
    1008. 

  1008.       digitalWrite(LED_BUILTIN, 0);
    1009. 

  1009.       break;
    1010. 

  1010.     case 14:
    1011. 

  1011.       digitalWrite(LED_BUILTIN, 1);
    1012. 

  1012.       break;
    1013. 

  1013. #endif
    1014. 

  1014.   }
    1015. 

  1015. #endif
    1016. 

  1016. }
    1017.