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CCS PCM C Compiler, Version 3.245, 27853 15-IV-06 16:28
Filename: D:\KAKLIK\programy\PIC_C\roboti\istrobot\3Orbis\main.lst
ROM used: 598 words (15%)
Largest free fragment is 2048
RAM used: 31 (18%) at main() level
40 (23%) worst case
Stack: 4 worst case (2 in main + 2 for interrupts)
*
0000: MOVLW 00
0001: MOVWF 0A
0002: GOTO 182
0003: NOP
.................... #include ".\main.h"
.................... #include <16F88.h>
.................... //////// Standard Header file for the PIC16F88 device ////////////////
.................... #device PIC16F88
.................... #list
....................
.................... #device adc=8
....................
.................... #FUSES NOWDT //No Watch Dog Timer
.................... #FUSES INTRC_IO
.................... #FUSES NOPUT //No Power Up Timer
.................... #FUSES MCLR //Master Clear pin enabled
.................... #FUSES NOBROWNOUT //Reset when brownout detected
.................... #FUSES NOLVP //Low Voltage Programming on B3(PIC16) or B5(PIC18)
.................... #FUSES NOCPD //No EE protection
.................... #FUSES NOWRT //Program memory not write protected
.................... #FUSES NODEBUG //No Debug mode for ICD
.................... #FUSES NOPROTECT //Code not protected from reading
.................... #FUSES NOFCMEN //Fail-safe clock monitor enabled
.................... #FUSES NOIESO //Internal External Switch Over mode enabled
....................
.................... #use delay(clock=8000000,RESTART_WDT)
000C: MOVLW 3D
000D: MOVWF 04
000E: MOVF 00,W
000F: BTFSC 03.2
0010: GOTO 023
0011: MOVLW 02
0012: MOVWF 78
0013: MOVLW BF
0014: MOVWF 77
0015: CLRWDT
0016: DECFSZ 77,F
0017: GOTO 015
0018: DECFSZ 78,F
0019: GOTO 013
001A: MOVLW 96
001B: MOVWF 77
001C: DECFSZ 77,F
001D: GOTO 01C
001E: NOP
001F: NOP
0020: CLRWDT
0021: DECFSZ 00,F
0022: GOTO 011
0023: RETLW 00
0024: MOVLW 08
0025: SUBWF 42,F
0026: BTFSS 03.0
0027: GOTO 033
0028: MOVLW 42
0029: MOVWF 04
002A: BCF 03.0
002B: RRF 00,F
002C: MOVF 00,W
002D: BTFSC 03.2
002E: GOTO 033
002F: GOTO 031
0030: CLRWDT
0031: DECFSZ 00,F
0032: GOTO 030
0033: RETLW 00
....................
....................
....................
.................... #use rtos (timer=2, minor_cycle=2ms)
....................
.................... #define STRED 128 // sredni poloha zadniho kolecka
.................... #define BEAR1 12 // 3 stupne zataceni
.................... #define BEAR2 34
.................... #define BEAR3 70
.................... #define SPEEDMAX 120 // maximalni rychlost
....................
.................... #define L 1
.................... #define S 2
.................... #define R 0
....................
.................... // servo
.................... #define SERVO PIN_A2
....................
.................... // IR
.................... #define IRTX PIN_B2
....................
.................... //motory
.................... #define FR output_low(PIN_A7); output_high(PIN_A6) // Vpred
.................... #define FL output_low(PIN_A1); output_high(PIN_A0)
.................... #define BR output_low(PIN_A6); output_high(PIN_A7) // Vzad
.................... #define BL output_low(PIN_A0); output_high(PIN_A1)
.................... #define STOPR output_low(PIN_A6);output_low(PIN_A7)
.................... #define STOPL output_low(PIN_A0);output_low(PIN_A1)
....................
.................... //HID
.................... #define LED1 PIN_B1 //oranzova
.................... #define LED2 PIN_B2 //zluta
....................
.................... #define STROBE PIN_B0
.................... //#define SW1 PIN_A2 // Motory On/off
....................
.................... unsigned int8 sensors; // pomocna promenna pro cteni cidel na caru
.................... unsigned int8 line; // na ktere strane byla detekovana cara
.................... //unsigned int8 dira; // pocita dobu po kterou je ztracena cara
.................... unsigned int8 uhel; // urcuje aktualni uhel zataceni
.................... //unsigned int8 speed; // maximalni povolena rychlost
.................... unsigned int8 rovinka; // pocitadlo na zjisteni rovinky
....................
.................... signed int16 Lmotor; // promene, ktere urcuji velikost vykonu na levem
.................... signed int16 Rmotor; // a pravem motoru
....................
.................... // makro pro PWM
.................... #define GO(motor, direction, power) if(get_timer0()<=power) \
.................... {direction##motor;} else {stop##motor;}
....................
.................... ////////////////////////////////////////////////////////////////////////////////
.................... ////////////////////////////////////////////////////////////////////////////////
.................... /*
.................... void diagnostika()
.................... {
.................... if(input(SW1))STOPR;STOPL;While(TRUE);
.................... // if(LSENSOR==true) output_high(LED2); else output_low(LED2);
.................... // if(RSENSOR==true) output_high(LED1); else output_low(LED1);
.................... }
.................... */
.................... ////////////////////////////////////////////////////////////////////////////////
.................... #task (rate=18ms,max=2ms)
.................... void zatoc() // ridi servo ktere otaci kolem
.................... {
.................... unsigned int8 n;
....................
.................... output_high(SERVO);
0034: BSF 03.5
0035: BCF 05.2
0036: BCF 03.5
0037: BSF 05.2
.................... delay_us(1100);
0038: CLRWDT
0039: MOVLW 01
003A: MOVWF 3D
003B: CALL 00C
003C: MOVLW 63
003D: MOVWF 42
003E: CALL 024
.................... for(n=uhel; n>0; n--);
003F: MOVF 23,W
0040: MOVWF 3C
0041: MOVF 3C,F
0042: BTFSC 03.2
0043: GOTO 046
0044: DECF 3C,F
0045: GOTO 041
.................... output_low(SERVO);
0046: BSF 03.5
0047: BCF 05.2
0048: BCF 03.5
0049: BCF 05.2
.................... }
004A: MOVLW 34
004B: MOVWF 2E
004C: MOVLW 00
004D: MOVWF 2F
004E: BCF 0A.3
004F: GOTO 234
0050: RETLW 00
....................
.................... ////////////////////////////////////////////////////////////////////////////////
.................... void diag() // ridi servo ktere otaci kolem
.................... {
.................... unsigned int8 n;
....................
.................... output_high(SERVO);
*
016A: BSF 03.5
016B: BCF 05.2
016C: BCF 03.5
016D: BSF 05.2
.................... delay_us(1100);
016E: CLRWDT
016F: MOVLW 01
0170: MOVWF 3D
0171: CALL 00C
0172: MOVLW 63
0173: MOVWF 42
0174: CALL 024
.................... for(n=uhel; n>0; n--);
0175: MOVF 23,W
0176: MOVWF 3A
0177: MOVF 3A,F
0178: BTFSC 03.2
0179: GOTO 17C
017A: DECF 3A,F
017B: GOTO 177
.................... output_low(SERVO);
017C: BSF 03.5
017D: BCF 05.2
017E: BCF 03.5
017F: BCF 05.2
.................... }
0180: BCF 0A.3
0181: GOTO 1D4 (RETURN)
....................
.................... ////////////////////////////////////////////////////////////////////////////////
.................... short int IRcheck() // potvrdi detekci cihly
.................... {
.................... output_high(IRTX); // vypne vysilac IR
....................
.................... output_low(STROBE);
.................... sensors = spi_read(0); // cteni senzoru
.................... output_high(STROBE);
....................
.................... if(true==bit_test(sensors,7)) // otestuje, jestli je stale detekovan IR signal
.................... {
.................... output_low(IRTX); // zapne vysilac IR
....................
.................... output_low(STROBE);
.................... sensors = spi_read(0); // cteni senzoru
.................... output_high(STROBE);
....................
.................... if(false==bit_test(sensors,7)) // otestuje, jestli je detekovana cihla
.................... {
.................... output_high(IRTX); // vypne vysilac IR
....................
.................... output_low(STROBE);
.................... sensors = spi_read(0); // cteni senzoru
.................... output_high(STROBE);
....................
.................... if(bit_test(sensors,7)) return 1; //
....................
.................... else return 0; // vrat 0 kdyz je ruseni
.................... }
.................... else return 0; // vrat 0 kdyz to nebyla cihla
.................... }
.................... else return 0; // vrat 0 kdyz je detekovano ruseni
.................... }
.................... ////////////////////////////////////////////////////////////////////////////////
.................... /*
.................... #task (rate=4ms, max=20us)
.................... void rychlost()
.................... {
.................... if(speed<255) speed++;
.................... }
.................... */
.................... ////////////////////////////////////////////////////////////////////////////////
.................... #task (rate=2ms, max=1ms)
.................... void rizeni()
.................... {
.................... unsigned int16 n;
.................... unsigned int8 i;
....................
.................... GO(L,F,Lmotor);GO(R,F,Rmotor); // zapni motory
*
0051: MOVF 01,W
0052: BTFSS 00.7
0053: GOTO 057
0054: BTFSS 26.7
0055: GOTO 05F
0056: GOTO 059
0057: BTFSC 26.7
0058: GOTO 068
0059: MOVF 26,F
005A: BTFSS 03.2
005B: GOTO 05F
005C: SUBWF 25,W
005D: BTFSS 03.0
005E: GOTO 068
005F: BSF 03.5
0060: BCF 05.1
0061: BCF 03.5
0062: BCF 05.1
0063: BSF 03.5
0064: BCF 05.0
0065: BCF 03.5
0066: BSF 05.0
0067: GOTO 070
0068: BSF 03.5
0069: BCF 05.0
006A: BCF 03.5
006B: BCF 05.0
006C: BSF 03.5
006D: BCF 05.1
006E: BCF 03.5
006F: BCF 05.1
0070: MOVF 01,W
0071: BTFSS 00.7
0072: GOTO 076
0073: BTFSS 28.7
0074: GOTO 07E
0075: GOTO 078
0076: BTFSC 28.7
0077: GOTO 087
0078: MOVF 28,F
0079: BTFSS 03.2
007A: GOTO 07E
007B: SUBWF 27,W
007C: BTFSS 03.0
007D: GOTO 087
007E: BSF 03.5
007F: BCF 05.7
0080: BCF 03.5
0081: BCF 05.7
0082: BSF 03.5
0083: BCF 05.6
0084: BCF 03.5
0085: BSF 05.6
0086: GOTO 08F
0087: BSF 03.5
0088: BCF 05.6
0089: BCF 03.5
008A: BCF 05.6
008B: BSF 03.5
008C: BCF 05.7
008D: BCF 03.5
008E: BCF 05.7
....................
.................... delay_us(500);
008F: CLRWDT
0090: MOVLW 02
0091: MOVWF 41
0092: MOVLW F7
0093: MOVWF 42
0094: CALL 024
0095: DECFSZ 41,F
0096: GOTO 092
....................
.................... output_low(STROBE);
0097: BSF 03.5
0098: BCF 06.0
0099: BCF 03.5
009A: BCF 06.0
.................... sensors = spi_read(0); // cteni senzoru
009B: MOVF 13,W
009C: CLRF 13
009D: BSF 03.5
009E: BTFSC 14.0
009F: GOTO 0A2
00A0: BCF 03.5
00A1: GOTO 09D
00A2: BCF 03.5
00A3: MOVF 13,W
00A4: MOVWF 21
.................... sensors=~sensors;
00A5: COMF 21,F
.................... output_high(STROBE);
00A6: BSF 03.5
00A7: BCF 06.0
00A8: BCF 03.5
00A9: BSF 06.0
....................
.................... i=0; // havarijni kod
00AA: CLRF 40
.................... for (n=0; n<=6; n++)
00AB: CLRF 3F
00AC: CLRF 3E
00AD: MOVF 3F,F
00AE: BTFSS 03.2
00AF: GOTO 0C4
00B0: MOVF 3E,W
00B1: SUBLW 06
00B2: BTFSS 03.0
00B3: GOTO 0C4
.................... {
.................... if(bit_test(sensors,n)) i++;
00B4: MOVF 21,W
00B5: MOVWF 77
00B6: MOVF 3E,W
00B7: MOVWF 78
00B8: BTFSC 03.2
00B9: GOTO 0BE
00BA: BCF 03.0
00BB: RRF 77,F
00BC: DECFSZ 78,F
00BD: GOTO 0BA
00BE: BTFSC 77.0
00BF: INCF 40,F
.................... }
00C0: INCF 3E,F
00C1: BTFSC 03.2
00C2: INCF 3F,F
00C3: GOTO 0AD
.................... if (i>3) rtos_terminate(); // zastavi, kdyz je cerno pod vice nez tremi cidly
00C4: MOVF 40,W
00C5: SUBLW 03
00C6: BTFSS 03.0
00C7: GOTO 241
....................
....................
.................... if(bit_test(sensors,3)) //...|...//
00C8: BTFSS 21.3
00C9: GOTO 0D8
.................... {
.................... uhel=STRED;
00CA: MOVLW 80
00CB: MOVWF 23
.................... Lmotor=SPEEDMAX;
00CC: CLRF 26
00CD: MOVLW 78
00CE: MOVWF 25
.................... Rmotor=SPEEDMAX;
00CF: CLRF 28
00D0: MOVWF 27
.................... line=S;
00D1: MOVLW 02
00D2: MOVWF 22
.................... if (rovinka<255) rovinka++;
00D3: INCFSZ 24,W
00D4: GOTO 0D6
00D5: GOTO 0D7
00D6: INCF 24,F
.................... return;
00D7: GOTO 163
.................... }
....................
.................... if(bit_test(sensors,0)) //|......// // z duvodu zkraceni doby reakce se cidla nevyhodnocuji poporade ale od krajnich k prostrednimu
00D8: BTFSS 21.0
00D9: GOTO 0E4
.................... {
.................... uhel=STRED-BEAR3;
00DA: MOVLW 3A
00DB: MOVWF 23
.................... Lmotor=0;
00DC: CLRF 26
00DD: CLRF 25
.................... Rmotor=SPEEDMAX;
00DE: CLRF 28
00DF: MOVLW 78
00E0: MOVWF 27
.................... line=L;
00E1: MOVLW 01
00E2: MOVWF 22
.................... return;
00E3: GOTO 163
.................... }
....................
.................... if(bit_test(sensors,6)) //......|//
00E4: BTFSS 21.6
00E5: GOTO 0EF
.................... {
.................... uhel=STRED+BEAR3;
00E6: MOVLW C6
00E7: MOVWF 23
.................... Rmotor=0;
00E8: CLRF 28
00E9: CLRF 27
.................... Lmotor=SPEEDMAX;
00EA: CLRF 26
00EB: MOVLW 78
00EC: MOVWF 25
.................... line=R;
00ED: CLRF 22
.................... return;
00EE: GOTO 163
....................
.................... }
....................
.................... if(bit_test(sensors,1)) //.|.....//
00EF: BTFSS 21.1
00F0: GOTO 0FC
.................... {
.................... uhel=STRED-BEAR2;
00F1: MOVLW 5E
00F2: MOVWF 23
.................... Lmotor=SPEEDMAX-50;
00F3: CLRF 26
00F4: MOVLW 46
00F5: MOVWF 25
.................... Rmotor=SPEEDMAX;
00F6: CLRF 28
00F7: MOVLW 78
00F8: MOVWF 27
.................... line=S;
00F9: MOVLW 02
00FA: MOVWF 22
.................... return;
00FB: GOTO 163
.................... }
....................
.................... if(bit_test(sensors,5)) //.....|.//
00FC: BTFSS 21.5
00FD: GOTO 109
.................... {
.................... uhel=STRED+BEAR2;
00FE: MOVLW A2
00FF: MOVWF 23
.................... Rmotor=SPEEDMAX-50;
0100: CLRF 28
0101: MOVLW 46
0102: MOVWF 27
.................... Lmotor=SPEEDMAX;
0103: CLRF 26
0104: MOVLW 78
0105: MOVWF 25
.................... line=S;
0106: MOVLW 02
0107: MOVWF 22
.................... return;
0108: GOTO 163
.................... }
....................
.................... if (bit_test(sensors,2)) //..|....//
0109: BTFSS 21.2
010A: GOTO 119
.................... {
.................... uhel=STRED-BEAR1;
010B: MOVLW 74
010C: MOVWF 23
.................... Lmotor=SPEEDMAX;
010D: CLRF 26
010E: MOVLW 78
010F: MOVWF 25
.................... Rmotor=SPEEDMAX;
0110: CLRF 28
0111: MOVWF 27
.................... line=S;
0112: MOVLW 02
0113: MOVWF 22
.................... if (rovinka<255) rovinka++;
0114: INCFSZ 24,W
0115: GOTO 117
0116: GOTO 118
0117: INCF 24,F
.................... return;
0118: GOTO 163
.................... }
....................
.................... if (bit_test(sensors,4)) //....|..//
0119: BTFSS 21.4
011A: GOTO 129
.................... {
.................... uhel=STRED+BEAR1;
011B: MOVLW 8C
011C: MOVWF 23
.................... Rmotor=SPEEDMAX;
011D: CLRF 28
011E: MOVLW 78
011F: MOVWF 27
.................... Lmotor=SPEEDMAX;
0120: CLRF 26
0121: MOVWF 25
.................... line=S;
0122: MOVLW 02
0123: MOVWF 22
.................... if (rovinka<255) rovinka++;
0124: INCFSZ 24,W
0125: GOTO 127
0126: GOTO 128
0127: INCF 24,F
.................... return;
0128: GOTO 163
.................... }
....................
.................... if ((L==line) || (R==line)) // Brzdeni pri vyjeti z trate
0129: DECFSZ 22,W
012A: GOTO 12C
012B: GOTO 12F
012C: MOVF 22,F
012D: BTFSS 03.2
012E: GOTO 160
.................... {
.................... if (rovinka>250)
012F: MOVF 24,W
0130: SUBLW FA
0131: BTFSC 03.0
0132: GOTO 15F
.................... {
.................... BL; BR;
0133: BSF 03.5
0134: BCF 05.0
0135: BCF 03.5
0136: BCF 05.0
0137: BSF 03.5
0138: BCF 05.1
0139: BCF 03.5
013A: BSF 05.1
013B: BSF 03.5
013C: BCF 05.6
013D: BCF 03.5
013E: BCF 05.6
013F: BSF 03.5
0140: BCF 05.7
0141: BCF 03.5
0142: BSF 05.7
.................... for(n=1; n<(60); n++) {rtos_yield(); delay_us(500);};
0143: CLRF 3F
0144: MOVLW 01
0145: MOVWF 3E
0146: MOVF 3F,F
0147: BTFSS 03.2
0148: GOTO 15F
0149: MOVF 3E,W
014A: SUBLW 3B
014B: BTFSS 03.0
014C: GOTO 15F
014D: MOVLW 53
014E: MOVWF 35
014F: MOVLW 01
0150: MOVWF 36
0151: BCF 0A.3
0152: GOTO 234
0153: CLRWDT
0154: MOVLW 02
0155: MOVWF 41
0156: MOVLW F7
0157: MOVWF 42
0158: CALL 024
0159: DECFSZ 41,F
015A: GOTO 156
015B: INCF 3E,F
015C: BTFSC 03.2
015D: INCF 3F,F
015E: GOTO 146
.................... };
.................... rovinka=0;
015F: CLRF 24
.................... }
....................
.................... if(bit_test(sensors,7)) // zjisti jestli neni cihla
0160: BTFSS 21.7
0161: GOTO 163
.................... {
.................... rtos_terminate();
0162: GOTO 241
.................... }
.................... }
0163: MOVLW 51
0164: MOVWF 35
0165: MOVLW 00
0166: MOVWF 36
0167: BCF 0A.3
0168: GOTO 234
0169: RETLW 00
....................
....................
....................
.................... ////////////////////////////////////////////////////////////////////////////////
.................... void main()
.................... {
*
0182: CLRF 04
0183: MOVLW 1F
0184: ANDWF 03,F
0185: MOVLW 70
0186: BSF 03.5
0187: MOVWF 0F
0188: BCF 1F.4
0189: BCF 1F.5
018A: MOVF 1B,W
018B: ANDLW 80
018C: MOVWF 1B
018D: MOVLW 07
018E: MOVWF 1C
.................... unsigned int16 i;
.................... unsigned int8 last;
....................
.................... setup_adc_ports(NO_ANALOGS);
018F: BCF 1F.4
0190: BCF 1F.5
0191: MOVF 1B,W
0192: ANDLW 80
0193: MOVWF 1B
.................... setup_adc(ADC_CLOCK_INTERNAL);
0194: BCF 1F.6
0195: BCF 03.5
0196: BSF 1F.6
0197: BSF 1F.7
0198: BSF 03.5
0199: BCF 1F.7
019A: BCF 03.5
019B: BSF 1F.0
.................... setup_spi(SPI_MASTER|SPI_H_TO_L|SPI_XMIT_L_TO_H|SPI_CLK_DIV_4);
019C: BCF 14.5
019D: BSF 03.5
019E: BCF 06.2
019F: BSF 06.1
01A0: BCF 06.4
01A1: MOVLW 30
01A2: BCF 03.5
01A3: MOVWF 14
01A4: MOVLW 00
01A5: BSF 03.5
01A6: MOVWF 14
.................... setup_timer_0(RTCC_INTERNAL|RTCC_DIV_1);
01A7: MOVF 01,W
01A8: ANDLW C7
01A9: IORLW 08
01AA: MOVWF 01
.................... setup_timer_1(T1_DISABLED);
01AB: BCF 03.5
01AC: CLRF 10
.................... setup_oscillator(OSC_8MHZ|OSC_INTRC);
01AD: MOVLW 72
01AE: BSF 03.5
01AF: MOVWF 0F
....................
.................... STOPR; STOPL; // zastav motory
01B0: BCF 05.6
01B1: BCF 03.5
01B2: BCF 05.6
01B3: BSF 03.5
01B4: BCF 05.7
01B5: BCF 03.5
01B6: BCF 05.7
01B7: BSF 03.5
01B8: BCF 05.0
01B9: BCF 03.5
01BA: BCF 05.0
01BB: BSF 03.5
01BC: BCF 05.1
01BD: BCF 03.5
01BE: BCF 05.1
.................... Lmotor=0;Rmotor=0;
01BF: CLRF 26
01C0: CLRF 25
01C1: CLRF 28
01C2: CLRF 27
....................
.................... uhel=STRED; // nastav zadni kolecko na stred
01C3: MOVLW 80
01C4: MOVWF 23
.................... rovinka=0;
01C5: CLRF 24
....................
.................... output_low(IRTX); // zapni IR vysilac
01C6: BSF 03.5
01C7: BCF 06.2
01C8: BCF 03.5
01C9: BCF 06.2
....................
.................... for(i=0;i<100;i++) // pockej, nez se zadni kolecko vystredi
01CA: CLRF 38
01CB: CLRF 37
01CC: MOVF 38,F
01CD: BTFSS 03.2
01CE: GOTO 1DB
01CF: MOVF 37,W
01D0: SUBLW 63
01D1: BTFSS 03.0
01D2: GOTO 1DB
.................... {
.................... diag();
01D3: GOTO 16A
.................... delay_ms(16);
01D4: MOVLW 10
01D5: MOVWF 3D
01D6: CALL 00C
.................... }
01D7: INCF 37,F
01D8: BTFSC 03.2
01D9: INCF 38,F
01DA: GOTO 1CC
.................... // diagnostika();
....................
.................... while(true)
.................... {
.................... rtos_run();
01DB: CLRF 29
01DC: CLRF 2B
01DD: MOVLW 09
01DE: MOVWF 2A
01DF: CLRF 2D
01E0: CLRF 2C
01E1: MOVLW 34
01E2: MOVWF 2E
01E3: MOVLW 00
01E4: MOVWF 2F
01E5: CLRF 30
01E6: CLRF 32
01E7: MOVLW 01
01E8: MOVWF 31
01E9: CLRF 34
01EA: CLRF 33
01EB: MOVLW 51
01EC: MOVWF 35
01ED: MOVLW 00
01EE: MOVWF 36
01EF: CLRF 20
01F0: MOVLW 00
01F1: MOVWF 78
01F2: IORLW 06
01F3: MOVWF 12
01F4: MOVLW FA
01F5: BSF 03.5
01F6: MOVWF 12
01F7: BCF 03.5
01F8: BCF 0C.1
01F9: MOVLW 00
01FA: MOVWF 78
01FB: IORLW 06
01FC: MOVWF 12
01FD: MOVLW FA
01FE: BSF 03.5
01FF: MOVWF 12
0200: BCF 03.5
0201: BCF 0C.1
0202: BCF 03.0
0203: RLF 20,W
0204: MOVWF 77
0205: CALL 004
0206: MOVWF 79
0207: MOVLW 01
0208: ADDWF 77,W
0209: CALL 004
020A: MOVWF 7A
020B: MOVF 79,W
020C: MOVWF 04
020D: MOVF 00,W
020E: MOVWF 79
020F: INCF 04,F
0210: MOVF 00,W
0211: MOVWF 77
0212: INCF 04,F
0213: MOVF 00,W
0214: MOVWF 78
0215: INCF 04,F
0216: INCF 00,F
0217: MOVF 00,W
0218: MOVWF 7A
0219: BTFSS 03.2
021A: GOTO 21E
021B: INCF 04,F
021C: INCF 00,F
021D: DECF 04,F
021E: INCF 04,F
021F: MOVF 00,W
0220: SUBWF 78,W
0221: BTFSS 03.2
0222: GOTO 236
0223: MOVF 77,W
0224: SUBWF 7A,W
0225: BTFSS 03.2
0226: GOTO 236
0227: DECF 04,F
0228: CLRF 00
0229: INCF 04,F
022A: CLRF 00
022B: INCF 04,F
022C: BTFSC 79.7
022D: GOTO 236
022E: INCF 04,F
022F: MOVF 00,W
0230: MOVWF 0A
0231: DECF 04,F
0232: MOVF 00,W
0233: MOVWF 02
0234: BCF 03.5
0235: BCF 03.6
0236: INCF 20,F
0237: MOVLW 02
0238: SUBWF 20,W
0239: BTFSS 03.2
023A: GOTO 202
023B: CLRF 20
023C: BTFSS 0C.1
023D: GOTO 240
023E: BSF 03.5
023F: GOTO 200
0240: GOTO 23C
0241: MOVLW FF
0242: MOVWF 20
.................... STOPR;
0243: BSF 03.5
0244: BCF 05.6
0245: BCF 03.5
0246: BCF 05.6
0247: BSF 03.5
0248: BCF 05.7
0249: BCF 03.5
024A: BCF 05.7
.................... STOPL;
024B: BSF 03.5
024C: BCF 05.0
024D: BCF 03.5
024E: BCF 05.0
024F: BSF 03.5
0250: BCF 05.1
0251: BCF 03.5
0252: BCF 05.1
.................... while(true);
0253: GOTO 253
.................... }
0254: GOTO 1DB
.................... }
0255: SLEEP
Configuration Fuses:
Word 1: 3F38 NOWDT NOPUT MCLR NOBROWNOUT NOLVP NOCPD NOWRT NODEBUG CCPB0 NOPROTECT INTRC_IO
Word 2: 3FFC NOFCMEN NOIESO