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CCS PCM C Compiler, Version 3.221, 27853               27-IV-05 14:16

               Filename: D:\KAKLIK\programy\PIC_C\roboti\merkur\PIC16F88\turn_R\tank.LST

               ROM used: 1587 words (39%)
                         Largest free fragment is 2048
               RAM used: 87 (50%) at main() level
                         98 (56%) worst case
               Stack:    4 worst case (3 in main + 1 for interrupts)

*
0000:  MOVLW  00
0001:  MOVWF  0A
0002:  GOTO   472
0003:  NOP
0004:  MOVWF  7F
0005:  SWAPF  03,W
0006:  CLRF   03
0007:  MOVWF  21
0008:  MOVF   7F,W
0009:  MOVWF  20
000A:  MOVF   0A,W
000B:  MOVWF  28
000C:  CLRF   0A
000D:  SWAPF  20,F
000E:  MOVF   04,W
000F:  MOVWF  22
0010:  MOVF   77,W
0011:  MOVWF  23
0012:  MOVF   78,W
0013:  MOVWF  24
0014:  MOVF   79,W
0015:  MOVWF  25
0016:  MOVF   7A,W
0017:  MOVWF  26
0018:  MOVF   7B,W
0019:  MOVWF  27
001A:  BCF    03.7
001B:  BCF    03.5
001C:  MOVLW  8C
001D:  MOVWF  04
001E:  BTFSS  00.1
001F:  GOTO   022
0020:  BTFSC  0C.1
0021:  GOTO   035
0022:  MOVF   22,W
0023:  MOVWF  04
0024:  MOVF   23,W
0025:  MOVWF  77
0026:  MOVF   24,W
0027:  MOVWF  78
0028:  MOVF   25,W
0029:  MOVWF  79
002A:  MOVF   26,W
002B:  MOVWF  7A
002C:  MOVF   27,W
002D:  MOVWF  7B
002E:  MOVF   28,W
002F:  MOVWF  0A
0030:  SWAPF  21,W
0031:  MOVWF  03
0032:  SWAPF  7F,F
0033:  SWAPF  7F,W
0034:  RETFIE
0035:  BCF    0A.3
0036:  GOTO   037
....................  #include "tank.h" 
....................  #include <16F88.h> 
....................  //////// Standard Header file for the PIC16F88 device ////////////////  
.................... #device PIC16F88  
.................... #list  
....................  
.................... #device adc=8  
.................... #fuses NOWDT,INTRC_IO, NOPUT, MCLR, NOBROWNOUT, NOLVP, NOCPD, NOWRT, NODEBUG, NOPROTECT, NOFCMEN, NOIESO  
.................... #use delay(clock=4000000)  
*
0047:  MOVLW  12
0048:  BSF    03.5
0049:  SUBWF  22,F
004A:  BTFSS  03.0
004B:  GOTO   05A
004C:  MOVLW  A2
004D:  MOVWF  04
004E:  MOVLW  FC
004F:  ANDWF  00,F
0050:  BCF    03.0
0051:  RRF    00,F
0052:  RRF    00,F
0053:  MOVF   00,W
0054:  BTFSC  03.2
0055:  GOTO   05A
0056:  GOTO   058
0057:  NOP
0058:  DECFSZ 00,F
0059:  GOTO   057
005A:  BCF    03.5
005B:  RETLW  00
*
0088:  MOVLW  74
0089:  MOVWF  04
008A:  MOVF   00,W
008B:  BTFSC  03.2
008C:  GOTO   09C
008D:  MOVLW  01
008E:  MOVWF  78
008F:  CLRF   77
0090:  DECFSZ 77,F
0091:  GOTO   090
0092:  DECFSZ 78,F
0093:  GOTO   08F
0094:  MOVLW  4A
0095:  MOVWF  77
0096:  DECFSZ 77,F
0097:  GOTO   096
0098:  NOP
0099:  NOP
009A:  DECFSZ 00,F
009B:  GOTO   08D
009C:  RETLW  00
....................   
....................  
....................   
.................... #define DEBUG  
....................   
.................... #define  TXo PIN_A3           // To the transmitter modulator  
.................... #include "AX25.c"             // podprogram pro prenos telemetrie 
.................... #list  
....................  
....................   
.................... unsigned int8 sensors;        // pomocna promenna pro cteni cidel na caru  
.................... unsigned int8 line;           // na ktere strane byla detekovana cara  
.................... unsigned int8 speed;          // rychlost zataceni  
.................... unsigned int8 rovinka;        // pocitadlo pro zjisteni rovneho useku  
.................... unsigned int8 last;           // kde byla cara, kdyz byly minule cidla mimo  
.................... unsigned int8 movement;       // obsahuje aktualni smer zataceni  
.................... unsigned int8 dira;           // pocita dobu po kterou je ztracena cara  
....................   
.................... // Konstanty pro dynamiku pohybu  
.................... #define T_DIRA       120      // po jakem case zataceni se detekuje dira  
.................... #define INC_SPEED    1        // prirustek rychlosti v jednom kroku  
.................... #define FW_POMALU    230      // trochu mimo caru vnitrni pas  
.................... #define FW_ZATACKA   240      // rychlost vnejsiho kola pri zataceni  
.................... #define FW_STREDNE   240      // trochu mimo caru vnejsi pas  
.................... #define COUVANI      750      // couvnuti zpet na caru, po detekci diry  
.................... #define PRES_DIRU    300  
.................... #define MAX_ROVINKA  (255-FW_STREDNE)  
.................... #define TRESHOLD     6        // rozhodovaci uroven komparatoru, 0xF = 0.75*Vdd  
.................... #define BUMPER_TRESHOLD 128  
.................... #define CIK_CAK      30000  
.................... #define T_CIHLA      50      // perioda detekce cihly  
....................   
.................... //motory            //Napred vypnout potom zapnout!  
.................... #define FR         output_low(PIN_B5); output_high(PIN_B4)  // Vpred  
.................... #define FL         output_low(PIN_B7); output_high(PIN_B6)  
.................... #define BR         output_low(PIN_B4); output_high(PIN_B5)  // Vzad  
.................... #define BL         output_low(PIN_B6); output_high(PIN_B7)  
.................... #define STOPR      output_low(PIN_B4);output_low(PIN_B5)    // Zastav  
.................... #define STOPL      output_low(PIN_B6);output_low(PIN_B7)  
....................   
.................... #define L 0b10  // left  
.................... #define R 0b01  // right  
.................... #define S 0b11  // straight  
....................   
.................... //cidla  
.................... #define RSENSOR    C2OUT      // Senzory na caru  
.................... #define LSENSOR    C1OUT  
.................... #define BUMPER     PIN_A4     // Senzor na cihlu  
....................   
.................... #define DIAG_SERVO      PIN_B3   // Propojka pro diagnosticky mod  
.................... #define DIAG_SENSORS    PIN_B2   // Propojka pro diagnosticky mod  
....................   
.................... #DEFINE SOUND_HI   PIN_A6     // komplementarni vystupy pro piezo pipak  
.................... #DEFINE SOUND_LO   PIN_A7  
....................   
.................... char AXstring[40];   // Buffer pro prenos telemetrie  
....................   
.................... // makro pro PWM  
.................... #define GO(motor, direction, power) if(get_timer0()<=power) \  
.................... {direction##motor;} else {stop##motor;}  
....................   
.................... #int_TIMER2  
.................... void TIMER2_isr()  
.................... {  
....................    if (speed<255) speed+=INC_SPEED;  
*
0037:  INCFSZ 42,W
0038:  GOTO   03A
0039:  GOTO   03C
003A:  MOVLW  01
003B:  ADDWF  42,F
....................    if (rovinka<MAX_ROVINKA) rovinka++;  
003C:  MOVF   43,W
003D:  SUBLW  0E
003E:  BTFSC  03.0
003F:  INCF   43,F
....................    if (dira<=T_DIRA) dira++;  
0040:  MOVF   46,W
0041:  SUBLW  78
0042:  BTFSC  03.0
0043:  INCF   46,F
.................... }  
.................... // Primitivni Pipani  
0044:  BCF    0C.1
0045:  BCF    0A.3
0046:  GOTO   022
.................... void beep(unsigned int16 period, unsigned int16 length)  
.................... {  
....................    unsigned int16 nn;  
....................   
....................    for(nn=length; nn>0; nn--)  
*
005C:  MOVF   7D,W
005D:  BSF    03.5
005E:  MOVWF  21
005F:  MOVF   7C,W
0060:  MOVWF  20
0061:  MOVF   20,F
0062:  BTFSS  03.2
0063:  GOTO   067
0064:  MOVF   21,F
0065:  BTFSC  03.2
0066:  GOTO   086
....................    {  
....................      output_high(SOUND_HI);output_low(SOUND_LO);  
0067:  BCF    05.6
0068:  BCF    03.5
0069:  BSF    05.6
006A:  BSF    03.5
006B:  BCF    05.7
006C:  BCF    03.5
006D:  BCF    05.7
....................      delay_us(period);  
006E:  MOVF   74,W
006F:  BSF    03.5
0070:  MOVWF  22
0071:  BCF    03.5
0072:  CALL   047
....................      output_high(SOUND_LO);output_low(SOUND_HI);  
0073:  BSF    03.5
0074:  BCF    05.7
0075:  BCF    03.5
0076:  BSF    05.7
0077:  BSF    03.5
0078:  BCF    05.6
0079:  BCF    03.5
007A:  BCF    05.6
....................      delay_us(period);  
007B:  MOVF   74,W
007C:  BSF    03.5
007D:  MOVWF  22
007E:  BCF    03.5
007F:  CALL   047
....................    }  
0080:  BSF    03.5
0081:  MOVF   20,W
0082:  BTFSC  03.2
0083:  DECF   21,F
0084:  DECF   20,F
0085:  GOTO   061
.................... }  
0086:  BCF    03.5
0087:  RETLW  00
.................... /******************************************************************************/  
.................... void diagnostika()  
.................... {  
....................    unsigned int16 n;  
....................   
....................    while (input(DIAG_SERVO))   // Propojka, ktera spousti diagnostiku  
....................    {  
*
009D:  BSF    03.5
009E:  BSF    06.3
009F:  BCF    03.5
00A0:  BTFSS  06.3
00A1:  GOTO   1C8
....................       for (n=500; n<800; n+=100)  
00A2:  MOVLW  01
00A3:  MOVWF  72
00A4:  MOVLW  F4
00A5:  MOVWF  71
00A6:  MOVF   72,W
00A7:  SUBLW  03
00A8:  BTFSS  03.0
00A9:  GOTO   0BE
00AA:  BTFSS  03.2
00AB:  GOTO   0B0
00AC:  MOVF   71,W
00AD:  SUBLW  1F
00AE:  BTFSS  03.0
00AF:  GOTO   0BE
....................       {  
....................          beep(n,n); //beep UP  
00B0:  MOVF   72,W
00B1:  MOVWF  75
00B2:  MOVF   71,W
00B3:  MOVWF  74
00B4:  MOVF   72,W
00B5:  MOVWF  7D
00B6:  MOVF   71,W
00B7:  MOVWF  7C
00B8:  CALL   05C
....................       };  
00B9:  MOVLW  64
00BA:  ADDWF  71,F
00BB:  BTFSC  03.0
00BC:  INCF   72,F
00BD:  GOTO   0A6
....................       Delay_ms(1000);  
00BE:  MOVLW  04
00BF:  MOVWF  73
00C0:  MOVLW  FA
00C1:  MOVWF  74
00C2:  CALL   088
00C3:  DECFSZ 73,F
00C4:  GOTO   0C0
....................       //zastav vse  
....................       STOPL; STOPR;  
00C5:  BSF    03.5
00C6:  BCF    06.6
00C7:  BCF    03.5
00C8:  BCF    06.6
00C9:  BSF    03.5
00CA:  BCF    06.7
00CB:  BCF    03.5
00CC:  BCF    06.7
00CD:  BSF    03.5
00CE:  BCF    06.4
00CF:  BCF    03.5
00D0:  BCF    06.4
00D1:  BSF    03.5
00D2:  BCF    06.5
00D3:  BCF    03.5
00D4:  BCF    06.5
....................       //pravy pas  
....................       FR; Delay_ms(1000); STOPR; Delay_ms(1000);  
00D5:  BSF    03.5
00D6:  BCF    06.5
00D7:  BCF    03.5
00D8:  BCF    06.5
00D9:  BSF    03.5
00DA:  BCF    06.4
00DB:  BCF    03.5
00DC:  BSF    06.4
00DD:  MOVLW  04
00DE:  MOVWF  73
00DF:  MOVLW  FA
00E0:  MOVWF  74
00E1:  CALL   088
00E2:  DECFSZ 73,F
00E3:  GOTO   0DF
00E4:  BSF    03.5
00E5:  BCF    06.4
00E6:  BCF    03.5
00E7:  BCF    06.4
00E8:  BSF    03.5
00E9:  BCF    06.5
00EA:  BCF    03.5
00EB:  BCF    06.5
00EC:  MOVLW  04
00ED:  MOVWF  73
00EE:  MOVLW  FA
00EF:  MOVWF  74
00F0:  CALL   088
00F1:  DECFSZ 73,F
00F2:  GOTO   0EE
....................       BR; Delay_ms(1000); STOPR; Delay_ms(1000);  
00F3:  BSF    03.5
00F4:  BCF    06.4
00F5:  BCF    03.5
00F6:  BCF    06.4
00F7:  BSF    03.5
00F8:  BCF    06.5
00F9:  BCF    03.5
00FA:  BSF    06.5
00FB:  MOVLW  04
00FC:  MOVWF  73
00FD:  MOVLW  FA
00FE:  MOVWF  74
00FF:  CALL   088
0100:  DECFSZ 73,F
0101:  GOTO   0FD
0102:  BSF    03.5
0103:  BCF    06.4
0104:  BCF    03.5
0105:  BCF    06.4
0106:  BSF    03.5
0107:  BCF    06.5
0108:  BCF    03.5
0109:  BCF    06.5
010A:  MOVLW  04
010B:  MOVWF  73
010C:  MOVLW  FA
010D:  MOVWF  74
010E:  CALL   088
010F:  DECFSZ 73,F
0110:  GOTO   10C
....................       Beep(880,100); Delay_ms(1000);  
0111:  MOVLW  03
0112:  MOVWF  75
0113:  MOVLW  70
0114:  MOVWF  74
0115:  CLRF   7D
0116:  MOVLW  64
0117:  MOVWF  7C
0118:  CALL   05C
0119:  MOVLW  04
011A:  MOVWF  73
011B:  MOVLW  FA
011C:  MOVWF  74
011D:  CALL   088
011E:  DECFSZ 73,F
011F:  GOTO   11B
....................       //levy pas  
....................       FL; Delay_ms(1000); STOPL; Delay_ms(1000);  
0120:  BSF    03.5
0121:  BCF    06.7
0122:  BCF    03.5
0123:  BCF    06.7
0124:  BSF    03.5
0125:  BCF    06.6
0126:  BCF    03.5
0127:  BSF    06.6
0128:  MOVLW  04
0129:  MOVWF  73
012A:  MOVLW  FA
012B:  MOVWF  74
012C:  CALL   088
012D:  DECFSZ 73,F
012E:  GOTO   12A
012F:  BSF    03.5
0130:  BCF    06.6
0131:  BCF    03.5
0132:  BCF    06.6
0133:  BSF    03.5
0134:  BCF    06.7
0135:  BCF    03.5
0136:  BCF    06.7
0137:  MOVLW  04
0138:  MOVWF  73
0139:  MOVLW  FA
013A:  MOVWF  74
013B:  CALL   088
013C:  DECFSZ 73,F
013D:  GOTO   139
....................       BL; Delay_ms(1000); STOPL; Delay_ms(1000);  
013E:  BSF    03.5
013F:  BCF    06.6
0140:  BCF    03.5
0141:  BCF    06.6
0142:  BSF    03.5
0143:  BCF    06.7
0144:  BCF    03.5
0145:  BSF    06.7
0146:  MOVLW  04
0147:  MOVWF  73
0148:  MOVLW  FA
0149:  MOVWF  74
014A:  CALL   088
014B:  DECFSZ 73,F
014C:  GOTO   148
014D:  BSF    03.5
014E:  BCF    06.6
014F:  BCF    03.5
0150:  BCF    06.6
0151:  BSF    03.5
0152:  BCF    06.7
0153:  BCF    03.5
0154:  BCF    06.7
0155:  MOVLW  04
0156:  MOVWF  73
0157:  MOVLW  FA
0158:  MOVWF  74
0159:  CALL   088
015A:  DECFSZ 73,F
015B:  GOTO   157
....................       Beep(880,100); Delay_ms(1000);  
015C:  MOVLW  03
015D:  MOVWF  75
015E:  MOVLW  70
015F:  MOVWF  74
0160:  CLRF   7D
0161:  MOVLW  64
0162:  MOVWF  7C
0163:  CALL   05C
0164:  MOVLW  04
0165:  MOVWF  73
0166:  MOVLW  FA
0167:  MOVWF  74
0168:  CALL   088
0169:  DECFSZ 73,F
016A:  GOTO   166
....................       //oba pasy  
....................       FL; FR; Delay_ms(1000); STOPL; STOPR; Delay_ms(1000);  
016B:  BSF    03.5
016C:  BCF    06.7
016D:  BCF    03.5
016E:  BCF    06.7
016F:  BSF    03.5
0170:  BCF    06.6
0171:  BCF    03.5
0172:  BSF    06.6
0173:  BSF    03.5
0174:  BCF    06.5
0175:  BCF    03.5
0176:  BCF    06.5
0177:  BSF    03.5
0178:  BCF    06.4
0179:  BCF    03.5
017A:  BSF    06.4
017B:  MOVLW  04
017C:  MOVWF  73
017D:  MOVLW  FA
017E:  MOVWF  74
017F:  CALL   088
0180:  DECFSZ 73,F
0181:  GOTO   17D
0182:  BSF    03.5
0183:  BCF    06.6
0184:  BCF    03.5
0185:  BCF    06.6
0186:  BSF    03.5
0187:  BCF    06.7
0188:  BCF    03.5
0189:  BCF    06.7
018A:  BSF    03.5
018B:  BCF    06.4
018C:  BCF    03.5
018D:  BCF    06.4
018E:  BSF    03.5
018F:  BCF    06.5
0190:  BCF    03.5
0191:  BCF    06.5
0192:  MOVLW  04
0193:  MOVWF  73
0194:  MOVLW  FA
0195:  MOVWF  74
0196:  CALL   088
0197:  DECFSZ 73,F
0198:  GOTO   194
....................       BL; BR; Delay_ms(1000); STOPL; STOPR; Delay_ms(1000);  
0199:  BSF    03.5
019A:  BCF    06.6
019B:  BCF    03.5
019C:  BCF    06.6
019D:  BSF    03.5
019E:  BCF    06.7
019F:  BCF    03.5
01A0:  BSF    06.7
01A1:  BSF    03.5
01A2:  BCF    06.4
01A3:  BCF    03.5
01A4:  BCF    06.4
01A5:  BSF    03.5
01A6:  BCF    06.5
01A7:  BCF    03.5
01A8:  BSF    06.5
01A9:  MOVLW  04
01AA:  MOVWF  73
01AB:  MOVLW  FA
01AC:  MOVWF  74
01AD:  CALL   088
01AE:  DECFSZ 73,F
01AF:  GOTO   1AB
01B0:  BSF    03.5
01B1:  BCF    06.6
01B2:  BCF    03.5
01B3:  BCF    06.6
01B4:  BSF    03.5
01B5:  BCF    06.7
01B6:  BCF    03.5
01B7:  BCF    06.7
01B8:  BSF    03.5
01B9:  BCF    06.4
01BA:  BCF    03.5
01BB:  BCF    06.4
01BC:  BSF    03.5
01BD:  BCF    06.5
01BE:  BCF    03.5
01BF:  BCF    06.5
01C0:  MOVLW  04
01C1:  MOVWF  73
01C2:  MOVLW  FA
01C3:  MOVWF  74
01C4:  CALL   088
01C5:  DECFSZ 73,F
01C6:  GOTO   1C2
....................    };  
01C7:  GOTO   09D
....................    while (input(DIAG_SENSORS))         // spusteni diagnostiky cidel  
....................    {  
01C8:  BSF    03.5
01C9:  BSF    06.2
01CA:  BCF    03.5
01CB:  BTFSS  06.2
01CC:  GOTO   1FB
....................       if (RSENSOR) beep(900,500);  
01CD:  BSF    03.5
01CE:  BTFSS  1C.7
01CF:  GOTO   1DB
01D0:  MOVLW  03
01D1:  MOVWF  75
01D2:  MOVLW  84
01D3:  MOVWF  74
01D4:  MOVLW  01
01D5:  MOVWF  7D
01D6:  MOVLW  F4
01D7:  MOVWF  7C
01D8:  BCF    03.5
01D9:  CALL   05C
01DA:  BSF    03.5
....................       if (LSENSOR) beep(800,500);  
01DB:  BTFSS  1C.6
01DC:  GOTO   1E8
01DD:  MOVLW  03
01DE:  MOVWF  75
01DF:  MOVLW  20
01E0:  MOVWF  74
01E1:  MOVLW  01
01E2:  MOVWF  7D
01E3:  MOVLW  F4
01E4:  MOVWF  7C
01E5:  BCF    03.5
01E6:  CALL   05C
01E7:  BSF    03.5
....................       if ((read_adc(ADC_READ_ONLY)<BUMPER_TRESHOLD)) beep(1000,500);  
01E8:  BCF    03.5
01E9:  BTFSS  1F.2
01EA:  GOTO   1ED
01EB:  BSF    03.5
01EC:  GOTO   1E8
01ED:  MOVF   1E,W
01EE:  SUBLW  7F
01EF:  BTFSS  03.0
01F0:  GOTO   1FA
01F1:  MOVLW  03
01F2:  MOVWF  75
01F3:  MOVLW  E8
01F4:  MOVWF  74
01F5:  MOVLW  01
01F6:  MOVWF  7D
01F7:  MOVLW  F4
01F8:  MOVWF  7C
01F9:  CALL   05C
....................    };  
01FA:  GOTO   1C8
.................... }  
01FB:  BCF    0A.3
01FC:  GOTO   520 (RETURN)
.................... ///////////////////////////////////////////////////////////////////////////////  
.................... void cikcak()  
.................... {  
.................... unsigned int16 n;  
.................... sem1:  
....................    n=CIK_CAK;  
01FD:  MOVLW  75
01FE:  MOVWF  75
01FF:  MOVLW  30
0200:  MOVWF  74
....................    while (0==RSENSOR||LSENSOR)       // zkontroluj caru  
....................    {  
0201:  MOVLW  00
0202:  BSF    03.5
0203:  BTFSC  1C.7
0204:  MOVLW  01
0205:  XORLW  00
0206:  BTFSC  03.2
0207:  GOTO   20A
0208:  BTFSS  1C.6
0209:  GOTO   264
....................            if (n==CIK_CAK)                                                 // zmen smer zataceni  
020A:  MOVF   74,W
020B:  SUBLW  30
020C:  BTFSS  03.2
020D:  GOTO   25E
020E:  MOVF   75,W
020F:  SUBLW  75
0210:  BTFSS  03.2
0211:  GOTO   25E
....................            {  
....................                    n=0;  
0212:  CLRF   75
0213:  CLRF   74
....................                    switch(movement)  
....................                    {  
0214:  BCF    03.5
0215:  MOVF   45,W
0216:  XORLW  02
0217:  BTFSC  03.2
0218:  GOTO   220
0219:  XORLW  03
021A:  BTFSC  03.2
021B:  GOTO   233
021C:  XORLW  02
021D:  BTFSC  03.2
021E:  GOTO   246
021F:  GOTO   25D
....................                    case L:  
....................                                            FL;BR;  
0220:  BSF    03.5
0221:  BCF    06.7
0222:  BCF    03.5
0223:  BCF    06.7
0224:  BSF    03.5
0225:  BCF    06.6
0226:  BCF    03.5
0227:  BSF    06.6
0228:  BSF    03.5
0229:  BCF    06.4
022A:  BCF    03.5
022B:  BCF    06.4
022C:  BSF    03.5
022D:  BCF    06.5
022E:  BCF    03.5
022F:  BSF    06.5
....................                                            movement=R;  
0230:  MOVLW  01
0231:  MOVWF  45
....................                                    break;  
0232:  GOTO   25D
....................                    case R:  
....................                                            FR;BL;  
0233:  BSF    03.5
0234:  BCF    06.5
0235:  BCF    03.5
0236:  BCF    06.5
0237:  BSF    03.5
0238:  BCF    06.4
0239:  BCF    03.5
023A:  BSF    06.4
023B:  BSF    03.5
023C:  BCF    06.6
023D:  BCF    03.5
023E:  BCF    06.6
023F:  BSF    03.5
0240:  BCF    06.7
0241:  BCF    03.5
0242:  BSF    06.7
....................                                            movement=L;  
0243:  MOVLW  02
0244:  MOVWF  45
....................                                    break;  
0245:  GOTO   25D
....................          case S:  
....................                                 FL;BR;  
0246:  BSF    03.5
0247:  BCF    06.7
0248:  BCF    03.5
0249:  BCF    06.7
024A:  BSF    03.5
024B:  BCF    06.6
024C:  BCF    03.5
024D:  BSF    06.6
024E:  BSF    03.5
024F:  BCF    06.4
0250:  BCF    03.5
0251:  BCF    06.4
0252:  BSF    03.5
0253:  BCF    06.5
0254:  BCF    03.5
0255:  BSF    06.5
....................                                 movement=R;  
0256:  MOVLW  01
0257:  MOVWF  45
....................                  n=CIK_CAK/2;  
0258:  MOVLW  3A
0259:  MOVWF  75
025A:  MOVLW  98
025B:  MOVWF  74
....................                          break;  
025C:  GOTO   25D
025D:  BSF    03.5
....................                    }  
....................            }  
....................            n++;  
025E:  INCF   74,F
025F:  BTFSC  03.2
0260:  INCF   75,F
....................    }  
0261:  BCF    03.5
0262:  GOTO   201
0263:  BSF    03.5
....................    STOPL;STOPR;  
0264:  BCF    06.6
0265:  BCF    03.5
0266:  BCF    06.6
0267:  BSF    03.5
0268:  BCF    06.7
0269:  BCF    03.5
026A:  BCF    06.7
026B:  BSF    03.5
026C:  BCF    06.4
026D:  BCF    03.5
026E:  BCF    06.4
026F:  BSF    03.5
0270:  BCF    06.5
0271:  BCF    03.5
0272:  BCF    06.5
....................    line = RSENSOR;         // cteni senzoru na caru  
0273:  CLRF   41
0274:  BSF    03.5
0275:  BTFSS  1C.7
0276:  GOTO   27A
0277:  BCF    03.5
0278:  INCF   41,F
0279:  BSF    03.5
....................    line |= LSENSOR << 1;  
027A:  MOVLW  00
027B:  BTFSC  1C.6
027C:  MOVLW  01
027D:  MOVWF  77
027E:  BCF    03.0
027F:  RLF    77,F
0280:  MOVF   77,W
0281:  BCF    03.5
0282:  IORWF  41,F
....................    if (line==0) goto sem1;  
0283:  MOVF   41,F
0284:  BTFSC  03.2
0285:  GOTO   1FD
....................                                                                                                    // nasli jsme caru  
....................    line=S;  
0286:  MOVLW  03
0287:  MOVWF  41
.................... }  
0288:  RETLW  00
.................... ///////////////////////////////////////////////////////////////////////////////  
.................... void objizdka()                     // objede cihlu  
.................... {  
.................... unsigned int16 n;  
....................   
....................    BL;BR;Delay_ms(150);  
0289:  BSF    03.5
028A:  BCF    06.6
028B:  BCF    03.5
028C:  BCF    06.6
028D:  BSF    03.5
028E:  BCF    06.7
028F:  BCF    03.5
0290:  BSF    06.7
0291:  BSF    03.5
0292:  BCF    06.4
0293:  BCF    03.5
0294:  BCF    06.4
0295:  BSF    03.5
0296:  BCF    06.5
0297:  BCF    03.5
0298:  BSF    06.5
0299:  MOVLW  96
029A:  MOVWF  74
029B:  CALL   088
....................    STOPR;STOPL;  
029C:  BSF    03.5
029D:  BCF    06.4
029E:  BCF    03.5
029F:  BCF    06.4
02A0:  BSF    03.5
02A1:  BCF    06.5
02A2:  BCF    03.5
02A3:  BCF    06.5
02A4:  BSF    03.5
02A5:  BCF    06.6
02A6:  BCF    03.5
02A7:  BCF    06.6
02A8:  BSF    03.5
02A9:  BCF    06.7
02AA:  BCF    03.5
02AB:  BCF    06.7
....................    beep(900,1000);  
02AC:  MOVLW  03
02AD:  MOVWF  75
02AE:  MOVLW  84
02AF:  MOVWF  74
02B0:  MOVLW  03
02B1:  MOVWF  7D
02B2:  MOVLW  E8
02B3:  MOVWF  7C
02B4:  CALL   05C
....................   // movement=S;  
....................   // cikcak();  
....................   
....................    BR; FL; Delay_ms(270);           // otoc se 70° do prava  
02B5:  BSF    03.5
02B6:  BCF    06.4
02B7:  BCF    03.5
02B8:  BCF    06.4
02B9:  BSF    03.5
02BA:  BCF    06.5
02BB:  BCF    03.5
02BC:  BSF    06.5
02BD:  BSF    03.5
02BE:  BCF    06.7
02BF:  BCF    03.5
02C0:  BCF    06.7
02C1:  BSF    03.5
02C2:  BCF    06.6
02C3:  BCF    03.5
02C4:  BSF    06.6
02C5:  MOVLW  02
02C6:  MOVWF  73
02C7:  MOVLW  87
02C8:  MOVWF  74
02C9:  CALL   088
02CA:  DECFSZ 73,F
02CB:  GOTO   2C7
....................   
....................    FR; FL; Delay_ms(500);           // popojed rovne  
02CC:  BSF    03.5
02CD:  BCF    06.5
02CE:  BCF    03.5
02CF:  BCF    06.5
02D0:  BSF    03.5
02D1:  BCF    06.4
02D2:  BCF    03.5
02D3:  BSF    06.4
02D4:  BSF    03.5
02D5:  BCF    06.7
02D6:  BCF    03.5
02D7:  BCF    06.7
02D8:  BSF    03.5
02D9:  BCF    06.6
02DA:  BCF    03.5
02DB:  BSF    06.6
02DC:  MOVLW  02
02DD:  MOVWF  73
02DE:  MOVLW  FA
02DF:  MOVWF  74
02E0:  CALL   088
02E1:  DECFSZ 73,F
02E2:  GOTO   2DE
....................   
....................    BL; Delay_ms(30);               // otoc se 90° do leva  
02E3:  BSF    03.5
02E4:  BCF    06.6
02E5:  BCF    03.5
02E6:  BCF    06.6
02E7:  BSF    03.5
02E8:  BCF    06.7
02E9:  BCF    03.5
02EA:  BSF    06.7
02EB:  MOVLW  1E
02EC:  MOVWF  74
02ED:  CALL   088
....................    STOPL; FR; Delay_ms(500);  
02EE:  BSF    03.5
02EF:  BCF    06.6
02F0:  BCF    03.5
02F1:  BCF    06.6
02F2:  BSF    03.5
02F3:  BCF    06.7
02F4:  BCF    03.5
02F5:  BCF    06.7
02F6:  BSF    03.5
02F7:  BCF    06.5
02F8:  BCF    03.5
02F9:  BCF    06.5
02FA:  BSF    03.5
02FB:  BCF    06.4
02FC:  BCF    03.5
02FD:  BSF    06.4
02FE:  MOVLW  02
02FF:  MOVWF  73
0300:  MOVLW  FA
0301:  MOVWF  74
0302:  CALL   088
0303:  DECFSZ 73,F
0304:  GOTO   300
....................   
....................    FR; FL;  Delay_ms(100);           // popojed rovne na slepo  
0305:  BSF    03.5
0306:  BCF    06.5
0307:  BCF    03.5
0308:  BCF    06.5
0309:  BSF    03.5
030A:  BCF    06.4
030B:  BCF    03.5
030C:  BSF    06.4
030D:  BSF    03.5
030E:  BCF    06.7
030F:  BCF    03.5
0310:  BCF    06.7
0311:  BSF    03.5
0312:  BCF    06.6
0313:  BCF    03.5
0314:  BSF    06.6
0315:  MOVLW  64
0316:  MOVWF  74
0317:  CALL   088
....................    for(n=40000;n>0;n--)               // popojed rovne ale kontroluj caru  
0318:  MOVLW  9C
0319:  MOVWF  72
031A:  MOVLW  40
031B:  MOVWF  71
031C:  MOVF   71,F
031D:  BTFSS  03.2
031E:  GOTO   322
031F:  MOVF   72,F
0320:  BTFSC  03.2
0321:  GOTO   33E
....................    {  
....................       line = RSENSOR;         // cteni senzoru na caru  
0322:  CLRF   41
0323:  BSF    03.5
0324:  BTFSS  1C.7
0325:  GOTO   329
0326:  BCF    03.5
0327:  INCF   41,F
0328:  BSF    03.5
....................       line |= LSENSOR << 1;  
0329:  MOVLW  00
032A:  BTFSC  1C.6
032B:  MOVLW  01
032C:  MOVWF  77
032D:  BCF    03.0
032E:  RLF    77,F
032F:  MOVF   77,W
0330:  BCF    03.5
0331:  IORWF  41,F
....................       if (line!=0) {Delay_ms(150); break;}  
0332:  MOVF   41,F
0333:  BTFSC  03.2
0334:  GOTO   339
0335:  MOVLW  96
0336:  MOVWF  74
0337:  CALL   088
0338:  GOTO   33E
.................... //     Delay_ms(1);  
....................    }  
0339:  MOVF   71,W
033A:  BTFSC  03.2
033B:  DECF   72,F
033C:  DECF   71,F
033D:  GOTO   31C
....................   
....................    BR; FL;                             // otoc se 60° do prava  
033E:  BSF    03.5
033F:  BCF    06.4
0340:  BCF    03.5
0341:  BCF    06.4
0342:  BSF    03.5
0343:  BCF    06.5
0344:  BCF    03.5
0345:  BSF    06.5
0346:  BSF    03.5
0347:  BCF    06.7
0348:  BCF    03.5
0349:  BCF    06.7
034A:  BSF    03.5
034B:  BCF    06.6
034C:  BCF    03.5
034D:  BSF    06.6
....................    for(n=40000;n>0;n--)  
034E:  MOVLW  9C
034F:  MOVWF  72
0350:  MOVLW  40
0351:  MOVWF  71
0352:  MOVF   71,F
0353:  BTFSS  03.2
0354:  GOTO   358
0355:  MOVF   72,F
0356:  BTFSC  03.2
0357:  GOTO   370
....................    {  
....................       line = RSENSOR;         // cteni senzoru na caru  
0358:  CLRF   41
0359:  BSF    03.5
035A:  BTFSS  1C.7
035B:  GOTO   35F
035C:  BCF    03.5
035D:  INCF   41,F
035E:  BSF    03.5
....................       line |= LSENSOR << 1;  
035F:  MOVLW  00
0360:  BTFSC  1C.6
0361:  MOVLW  01
0362:  MOVWF  77
0363:  BCF    03.0
0364:  RLF    77,F
0365:  MOVF   77,W
0366:  BCF    03.5
0367:  IORWF  41,F
....................       if (line!=0) break;  
0368:  MOVF   41,F
0369:  BTFSS  03.2
036A:  GOTO   370
.................... //      Delay_ms(1);  
....................    }  
036B:  MOVF   71,W
036C:  BTFSC  03.2
036D:  DECF   72,F
036E:  DECF   71,F
036F:  GOTO   352
....................    STOPR; STOPL;  
0370:  BSF    03.5
0371:  BCF    06.4
0372:  BCF    03.5
0373:  BCF    06.4
0374:  BSF    03.5
0375:  BCF    06.5
0376:  BCF    03.5
0377:  BCF    06.5
0378:  BSF    03.5
0379:  BCF    06.6
037A:  BCF    03.5
037B:  BCF    06.6
037C:  BSF    03.5
037D:  BCF    06.7
037E:  BCF    03.5
037F:  BCF    06.7
....................   
....................    movement=L; //R;  
0380:  MOVLW  02
0381:  MOVWF  45
....................    cikcak();  
0382:  CALL   1FD
....................    dira=0;  
0383:  CLRF   46
.................... }  
0384:  BCF    0A.3
0385:  GOTO   550 (RETURN)
.................... ///////////////////////////////////////////////////////////////////////////////  
.................... void prejeddiru()                    // vyresi diru  
.................... {  
.................... unsigned int16 n;  
.................... unsigned int8 speed_dira;  
....................   
....................    STOPL;STOPR;  
0386:  BSF    03.5
0387:  BCF    06.6
0388:  BCF    03.5
0389:  BCF    06.6
038A:  BSF    03.5
038B:  BCF    06.7
038C:  BCF    03.5
038D:  BCF    06.7
038E:  BSF    03.5
038F:  BCF    06.4
0390:  BCF    03.5
0391:  BCF    06.4
0392:  BSF    03.5
0393:  BCF    06.5
0394:  BCF    03.5
0395:  BCF    06.5
....................    speed_dira=speed;  
0396:  MOVF   42,W
0397:  MOVWF  73
....................    beep(1000,500);  
0398:  MOVLW  03
0399:  MOVWF  75
039A:  MOVLW  E8
039B:  MOVWF  74
039C:  MOVLW  01
039D:  MOVWF  7D
039E:  MOVLW  F4
039F:  MOVWF  7C
03A0:  CALL   05C
....................    switch (movement)                            //vrat se zpet na caru  
....................    {  
03A1:  MOVF   45,W
03A2:  XORLW  02
03A3:  BTFSC  03.2
03A4:  GOTO   3AC
03A5:  XORLW  03
03A6:  BTFSC  03.2
03A7:  GOTO   3E4
03A8:  XORLW  02
03A9:  BTFSC  03.2
03AA:  GOTO   41C
03AB:  GOTO   41E
....................    case L:  
....................          for (n=COUVANI;n>0;n--) {GO(R,B,speed_dira); Delay_ms(1);}  
03AC:  MOVLW  02
03AD:  MOVWF  72
03AE:  MOVLW  EE
03AF:  MOVWF  71
03B0:  MOVF   71,F
03B1:  BTFSS  03.2
03B2:  GOTO   3B6
03B3:  MOVF   72,F
03B4:  BTFSC  03.2
03B5:  GOTO   3D3
03B6:  MOVF   01,W
03B7:  SUBWF  73,W
03B8:  BTFSS  03.0
03B9:  GOTO   3C3
03BA:  BSF    03.5
03BB:  BCF    06.4
03BC:  BCF    03.5
03BD:  BCF    06.4
03BE:  BSF    03.5
03BF:  BCF    06.5
03C0:  BCF    03.5
03C1:  BSF    06.5
03C2:  GOTO   3CB
03C3:  BSF    03.5
03C4:  BCF    06.4
03C5:  BCF    03.5
03C6:  BCF    06.4
03C7:  BSF    03.5
03C8:  BCF    06.5
03C9:  BCF    03.5
03CA:  BCF    06.5
03CB:  MOVLW  01
03CC:  MOVWF  74
03CD:  CALL   088
03CE:  MOVF   71,W
03CF:  BTFSC  03.2
03D0:  DECF   72,F
03D1:  DECF   71,F
03D2:  GOTO   3B0
....................          STOPL;STOPR;  
03D3:  BSF    03.5
03D4:  BCF    06.6
03D5:  BCF    03.5
03D6:  BCF    06.6
03D7:  BSF    03.5
03D8:  BCF    06.7
03D9:  BCF    03.5
03DA:  BCF    06.7
03DB:  BSF    03.5
03DC:  BCF    06.4
03DD:  BCF    03.5
03DE:  BCF    06.4
03DF:  BSF    03.5
03E0:  BCF    06.5
03E1:  BCF    03.5
03E2:  BCF    06.5
....................       break;  
03E3:  GOTO   41E
....................    case R:  
....................          for (n=COUVANI;n>0;n--) {GO(L,B,speed_dira); Delay_ms(1);}  
03E4:  MOVLW  02
03E5:  MOVWF  72
03E6:  MOVLW  EE
03E7:  MOVWF  71
03E8:  MOVF   71,F
03E9:  BTFSS  03.2
03EA:  GOTO   3EE
03EB:  MOVF   72,F
03EC:  BTFSC  03.2
03ED:  GOTO   40B
03EE:  MOVF   01,W
03EF:  SUBWF  73,W
03F0:  BTFSS  03.0
03F1:  GOTO   3FB
03F2:  BSF    03.5
03F3:  BCF    06.6
03F4:  BCF    03.5
03F5:  BCF    06.6
03F6:  BSF    03.5
03F7:  BCF    06.7
03F8:  BCF    03.5
03F9:  BSF    06.7
03FA:  GOTO   403
03FB:  BSF    03.5
03FC:  BCF    06.6
03FD:  BCF    03.5
03FE:  BCF    06.6
03FF:  BSF    03.5
0400:  BCF    06.7
0401:  BCF    03.5
0402:  BCF    06.7
0403:  MOVLW  01
0404:  MOVWF  74
0405:  CALL   088
0406:  MOVF   71,W
0407:  BTFSC  03.2
0408:  DECF   72,F
0409:  DECF   71,F
040A:  GOTO   3E8
....................          STOPL;STOPR;  
040B:  BSF    03.5
040C:  BCF    06.6
040D:  BCF    03.5
040E:  BCF    06.6
040F:  BSF    03.5
0410:  BCF    06.7
0411:  BCF    03.5
0412:  BCF    06.7
0413:  BSF    03.5
0414:  BCF    06.4
0415:  BCF    03.5
0416:  BCF    06.4
0417:  BSF    03.5
0418:  BCF    06.5
0419:  BCF    03.5
041A:  BCF    06.5
....................       break;  
041B:  GOTO   41E
....................    case S:  
....................          goto sem;  
041C:  GOTO   45C
....................       break;  
041D:  GOTO   41E
....................    }  
....................    beep(1000,500);  
041E:  MOVLW  03
041F:  MOVWF  75
0420:  MOVLW  E8
0421:  MOVWF  74
0422:  MOVLW  01
0423:  MOVWF  7D
0424:  MOVLW  F4
0425:  MOVWF  7C
0426:  CALL   05C
....................   
....................    /*line=0;  
....................    FR; BL; Delay_ms(400);                 // otoc se na caru  
....................    beep(1000,500);  
....................    while(line==0)  
....................    {  
....................       line = RSENSOR;         // cteni senzoru na caru  
....................       line |= LSENSOR << 1;  
....................    }  
....................    FL;BR; Delay_ms(60);       // zabrzdi  
....................    STOPL; STOPR;  
....................   
....................    FL; BR; Delay_ms(700);     // otacka 180 deg  
....................    STOPL; STOPR;*/  
....................   
....................    FR;FL;                     //popojed rovne  
0427:  BSF    03.5
0428:  BCF    06.5
0429:  BCF    03.5
042A:  BCF    06.5
042B:  BSF    03.5
042C:  BCF    06.4
042D:  BCF    03.5
042E:  BSF    06.4
042F:  BSF    03.5
0430:  BCF    06.7
0431:  BCF    03.5
0432:  BCF    06.7
0433:  BSF    03.5
0434:  BCF    06.6
0435:  BCF    03.5
0436:  BSF    06.6
....................    for(n=PRES_DIRU;n>0;n--)  
0437:  MOVLW  01
0438:  MOVWF  72
0439:  MOVLW  2C
043A:  MOVWF  71
043B:  MOVF   71,F
043C:  BTFSS  03.2
043D:  GOTO   441
043E:  MOVF   72,F
043F:  BTFSC  03.2
0440:  GOTO   45C
....................    {  
....................       line = RSENSOR;         // cteni senzoru na caru  
0441:  CLRF   41
0442:  BSF    03.5
0443:  BTFSS  1C.7
0444:  GOTO   448
0445:  BCF    03.5
0446:  INCF   41,F
0447:  BSF    03.5
....................       line |= LSENSOR << 1;  
0448:  MOVLW  00
0449:  BTFSC  1C.6
044A:  MOVLW  01
044B:  MOVWF  77
044C:  BCF    03.0
044D:  RLF    77,F
044E:  MOVF   77,W
044F:  BCF    03.5
0450:  IORWF  41,F
....................       if (line!=0) break;  
0451:  MOVF   41,F
0452:  BTFSS  03.2
0453:  GOTO   45C
....................       Delay_ms(1);  
0454:  MOVLW  01
0455:  MOVWF  74
0456:  CALL   088
....................    }  
0457:  MOVF   71,W
0458:  BTFSC  03.2
0459:  DECF   72,F
045A:  DECF   71,F
045B:  GOTO   43B
.................... sem:  
....................    STOPL; STOPR;  
045C:  BSF    03.5
045D:  BCF    06.6
045E:  BCF    03.5
045F:  BCF    06.6
0460:  BSF    03.5
0461:  BCF    06.7
0462:  BCF    03.5
0463:  BCF    06.7
0464:  BSF    03.5
0465:  BCF    06.4
0466:  BCF    03.5
0467:  BCF    06.4
0468:  BSF    03.5
0469:  BCF    06.5
046A:  BCF    03.5
046B:  BCF    06.5
....................    movement=S;  
046C:  MOVLW  03
046D:  MOVWF  45
....................    cikcak();                                    // najdi caru  
046E:  CALL   1FD
....................    dira=0;  
046F:  CLRF   46
.................... }  
0470:  BCF    0A.3
0471:  GOTO   5E6 (RETURN)
.................... ///////////////////////////////////////////////////////////////////////////////  
.................... void main()  
.................... {  
0472:  CLRF   04
0473:  MOVLW  1F
0474:  ANDWF  03,F
0475:  BSF    03.5
0476:  BCF    1F.4
0477:  BCF    1F.5
0478:  MOVF   1B,W
0479:  ANDLW  80
047A:  MOVWF  1B
047B:  MOVLW  07
047C:  MOVWF  1C
047D:  MOVF   1C,W
047E:  BCF    03.5
047F:  BCF    0D.6
0480:  MOVLW  60
0481:  BSF    03.5
0482:  MOVWF  0F
....................    unsigned int16 n; // pro FOR  
....................   
....................    STOPL; STOPR;     // prepne vystupy na ovladani motoru na output a zastavi  
*
049F:  BSF    03.5
04A0:  BCF    06.6
04A1:  BCF    03.5
04A2:  BCF    06.6
04A3:  BSF    03.5
04A4:  BCF    06.7
04A5:  BCF    03.5
04A6:  BCF    06.7
04A7:  BSF    03.5
04A8:  BCF    06.4
04A9:  BCF    03.5
04AA:  BCF    06.4
04AB:  BSF    03.5
04AC:  BCF    06.5
04AD:  BCF    03.5
04AE:  BCF    06.5
....................   
....................    setup_oscillator(OSC_4MHZ|OSC_INTRC);     // 4 MHz interni RC oscilator  
04AF:  MOVLW  62
04B0:  BSF    03.5
04B1:  MOVWF  0F
....................   
....................    port_b_pullups(TRUE);      // pullups pro piano na diagnostiku  
04B2:  BCF    01.7
....................    setup_spi(FALSE);  
04B3:  BCF    03.5
04B4:  BCF    14.5
04B5:  BSF    03.5
04B6:  BCF    06.2
04B7:  BSF    06.1
04B8:  BCF    06.4
04B9:  MOVLW  00
04BA:  BCF    03.5
04BB:  MOVWF  14
04BC:  BSF    03.5
04BD:  MOVWF  14
....................    setup_timer_0(RTCC_INTERNAL|RTCC_DIV_1);  // Casovac pro PWM  
04BE:  MOVF   01,W
04BF:  ANDLW  C7
04C0:  IORLW  08
04C1:  MOVWF  01
....................   
....................    setup_timer_2(T2_DIV_BY_4,255,10);    // Casovac pro regulaci  
04C2:  MOVLW  48
04C3:  MOVWF  78
04C4:  IORLW  05
04C5:  BCF    03.5
04C6:  MOVWF  12
04C7:  MOVLW  FF
04C8:  BSF    03.5
04C9:  MOVWF  12
....................                                          // preruseni kazdych 10ms  
....................    setup_adc_ports(sAN2|VSS_VDD);      // nastaveni A/D prevodniku pro naraznik  
04CA:  BCF    1F.4
04CB:  BCF    1F.5
04CC:  MOVF   1B,W
04CD:  ANDLW  80
04CE:  IORLW  04
04CF:  MOVWF  1B
....................    setup_adc(ADC_CLOCK_INTERNAL);  
04D0:  BCF    1F.6
04D1:  BCF    03.5
04D2:  BSF    1F.6
04D3:  BSF    1F.7
04D4:  BSF    03.5
04D5:  BCF    1F.7
04D6:  BCF    03.5
04D7:  BSF    1F.0
....................    set_adc_channel(2);  
04D8:  MOVLW  10
04D9:  MOVWF  78
04DA:  MOVF   1F,W
04DB:  ANDLW  C7
04DC:  IORWF  78,W
04DD:  MOVWF  1F
....................    setup_timer_1(T1_INTERNAL|T1_DIV_BY_1);   // Casovac pro naraznik  
04DE:  MOVLW  85
04DF:  MOVWF  10
....................    setup_ccp1(CCP_COMPARE_RESET_TIMER);  
04E0:  BSF    03.5
04E1:  BSF    06.3
04E2:  MOVLW  0B
04E3:  BCF    03.5
04E4:  MOVWF  17
....................    CCP_1=(2^10)-1;                        // prevod kazdou 1ms  
04E5:  CLRF   16
04E6:  MOVLW  07
04E7:  MOVWF  15
....................   
....................    setup_comparator(A0_VR_A1_VR);   // inicializace komparatoru pro cidla cary  
04E8:  MOVLW  02
04E9:  BSF    03.5
04EA:  MOVWF  1C
04EB:  MOVF   05,W
04EC:  IORLW  03
04ED:  MOVWF  05
04EE:  MOVLW  03
04EF:  MOVWF  77
04F0:  DECFSZ 77,F
04F1:  GOTO   4F0
04F2:  MOVF   1C,W
04F3:  BCF    03.5
04F4:  BCF    0D.6
....................    setup_vref(VREF_HIGH|TRESHOLD);        // 32 kroku od 0.25 do 0.75 Vdd  
04F5:  MOVLW  86
04F6:  BSF    03.5
04F7:  MOVWF  1D
....................   
....................    Beep(1000,200);     //double beep  
04F8:  MOVLW  03
04F9:  MOVWF  75
04FA:  MOVLW  E8
04FB:  MOVWF  74
04FC:  CLRF   7D
04FD:  MOVLW  C8
04FE:  MOVWF  7C
04FF:  BCF    03.5
0500:  CALL   05C
....................    Delay_ms(50);  
0501:  MOVLW  32
0502:  MOVWF  74
0503:  CALL   088
....................    Beep(1000,200);  
0504:  MOVLW  03
0505:  MOVWF  75
0506:  MOVLW  E8
0507:  MOVWF  74
0508:  CLRF   7D
0509:  MOVLW  C8
050A:  MOVWF  7C
050B:  CALL   05C
....................    Delay_ms(1000);      // 1s  
050C:  MOVLW  04
050D:  MOVWF  71
050E:  MOVLW  FA
050F:  MOVWF  74
0510:  CALL   088
0511:  DECFSZ 71,F
0512:  GOTO   50E
....................   
....................          // povoleni rizeni rychlosti zataceni pres preruseni  
....................    enable_interrupts(INT_TIMER2);  
0513:  BSF    03.5
0514:  BSF    0C.1
....................    enable_interrupts(GLOBAL);  
0515:  MOVLW  C0
0516:  BCF    03.5
0517:  IORWF  0B,F
....................   
.................... /*---------------------------------------------------------------------------*/  
....................    sensors=S;  
0518:  MOVLW  03
0519:  MOVWF  40
....................    line=S;  
051A:  MOVWF  41
....................    last=S;  
051B:  MOVWF  44
....................    movement=S;  
051C:  MOVWF  45
....................    speed=FW_POMALU;  
051D:  MOVLW  E6
051E:  MOVWF  42
....................   
....................    diagnostika();  
051F:  GOTO   09D
....................    //cikcak();     // toc se, abys nasel caru  
....................    Delay_ms(500);  
0520:  MOVLW  02
0521:  MOVWF  71
0522:  MOVLW  FA
0523:  MOVWF  74
0524:  CALL   088
0525:  DECFSZ 71,F
0526:  GOTO   522
....................    Beep(1000,200);  
0527:  MOVLW  03
0528:  MOVWF  75
0529:  MOVLW  E8
052A:  MOVWF  74
052B:  CLRF   7D
052C:  MOVLW  C8
052D:  MOVWF  7C
052E:  CALL   05C
....................    Delay_ms(500);  
052F:  MOVLW  02
0530:  MOVWF  71
0531:  MOVLW  FA
0532:  MOVWF  74
0533:  CALL   088
0534:  DECFSZ 71,F
0535:  GOTO   531
....................   
....................    while(true)       // hlavni smycka (jizda podle cary)  
....................    {  
....................       sensors = RSENSOR;         // cteni senzoru na caru  
0536:  CLRF   40
0537:  BSF    03.5
0538:  BTFSS  1C.7
0539:  GOTO   53D
053A:  BCF    03.5
053B:  INCF   40,F
053C:  BSF    03.5
....................       sensors |= LSENSOR << 1;  
053D:  MOVLW  00
053E:  BTFSC  1C.6
053F:  MOVLW  01
0540:  MOVWF  77
0541:  BCF    03.0
0542:  RLF    77,F
0543:  MOVF   77,W
0544:  BCF    03.5
0545:  IORWF  40,F
....................   
....................       if ((read_adc(ADC_READ_ONLY)<BUMPER_TRESHOLD) && (dira<=T_CIHLA)) objizdka();  
0546:  BTFSC  1F.2
0547:  GOTO   546
0548:  MOVF   1E,W
0549:  SUBLW  7F
054A:  BTFSS  03.0
054B:  GOTO   550
054C:  MOVF   46,W
054D:  SUBLW  32
054E:  BTFSC  03.0
054F:  GOTO   289
....................   
....................       switch (sensors)  // zatacej podle toho, kde vidis caru  
....................       {  
0550:  MOVF   40,W
0551:  XORLW  03
0552:  BTFSC  03.2
0553:  GOTO   55B
0554:  XORLW  01
0555:  BTFSC  03.2
0556:  GOTO   56F
0557:  XORLW  03
0558:  BTFSC  03.2
0559:  GOTO   5A8
055A:  GOTO   5E1
....................          case S:                          // rovne  
....................             FL; FR;  // pokud se jede dlouho rovne, tak pridej  
055B:  BSF    03.5
055C:  BCF    06.7
055D:  BCF    03.5
055E:  BCF    06.7
055F:  BSF    03.5
0560:  BCF    06.6
0561:  BCF    03.5
0562:  BSF    06.6
0563:  BSF    03.5
0564:  BCF    06.5
0565:  BCF    03.5
0566:  BCF    06.5
0567:  BSF    03.5
0568:  BCF    06.4
0569:  BCF    03.5
056A:  BSF    06.4
....................             dira=0;  
056B:  CLRF   46
....................             movement=S;  
056C:  MOVLW  03
056D:  MOVWF  45
....................             continue;  
056E:  GOTO   536
....................          case L:                          // trochu vlevo  
....................             GO(L, F, FW_POMALU+rovinka); GO(R, F, FW_STREDNE+rovinka);  
056F:  MOVF   01,W
0570:  MOVWF  71
0571:  MOVLW  E6
0572:  ADDWF  43,W
0573:  SUBWF  71,W
0574:  BTFSC  03.2
0575:  GOTO   578
0576:  BTFSC  03.0
0577:  GOTO   581
0578:  BSF    03.5
0579:  BCF    06.7
057A:  BCF    03.5
057B:  BCF    06.7
057C:  BSF    03.5
057D:  BCF    06.6
057E:  BCF    03.5
057F:  BSF    06.6
0580:  GOTO   589
0581:  BSF    03.5
0582:  BCF    06.6
0583:  BCF    03.5
0584:  BCF    06.6
0585:  BSF    03.5
0586:  BCF    06.7
0587:  BCF    03.5
0588:  BCF    06.7
0589:  MOVF   01,W
058A:  MOVWF  71
058B:  MOVLW  F0
058C:  ADDWF  43,W
058D:  SUBWF  71,W
058E:  BTFSC  03.2
058F:  GOTO   592
0590:  BTFSC  03.0
0591:  GOTO   59B
0592:  BSF    03.5
0593:  BCF    06.5
0594:  BCF    03.5
0595:  BCF    06.5
0596:  BSF    03.5
0597:  BCF    06.4
0598:  BCF    03.5
0599:  BSF    06.4
059A:  GOTO   5A3
059B:  BSF    03.5
059C:  BCF    06.4
059D:  BCF    03.5
059E:  BCF    06.4
059F:  BSF    03.5
05A0:  BCF    06.5
05A1:  BCF    03.5
05A2:  BCF    06.5
....................             line=L;  
05A3:  MOVLW  02
05A4:  MOVWF  41
....................             dira=0;  
05A5:  CLRF   46
....................             movement=L;  
05A6:  MOVWF  45
....................             continue;  
05A7:  GOTO   536
....................          case R:                          // trochu vpravo  
....................             GO(R, F, FW_POMALU+rovinka); GO(L, F, FW_STREDNE+rovinka);  
05A8:  MOVF   01,W
05A9:  MOVWF  71
05AA:  MOVLW  E6
05AB:  ADDWF  43,W
05AC:  SUBWF  71,W
05AD:  BTFSC  03.2
05AE:  GOTO   5B1
05AF:  BTFSC  03.0
05B0:  GOTO   5BA
05B1:  BSF    03.5
05B2:  BCF    06.5
05B3:  BCF    03.5
05B4:  BCF    06.5
05B5:  BSF    03.5
05B6:  BCF    06.4
05B7:  BCF    03.5
05B8:  BSF    06.4
05B9:  GOTO   5C2
05BA:  BSF    03.5
05BB:  BCF    06.4
05BC:  BCF    03.5
05BD:  BCF    06.4
05BE:  BSF    03.5
05BF:  BCF    06.5
05C0:  BCF    03.5
05C1:  BCF    06.5
05C2:  MOVF   01,W
05C3:  MOVWF  71
05C4:  MOVLW  F0
05C5:  ADDWF  43,W
05C6:  SUBWF  71,W
05C7:  BTFSC  03.2
05C8:  GOTO   5CB
05C9:  BTFSC  03.0
05CA:  GOTO   5D4
05CB:  BSF    03.5
05CC:  BCF    06.7
05CD:  BCF    03.5
05CE:  BCF    06.7
05CF:  BSF    03.5
05D0:  BCF    06.6
05D1:  BCF    03.5
05D2:  BSF    06.6
05D3:  GOTO   5DC
05D4:  BSF    03.5
05D5:  BCF    06.6
05D6:  BCF    03.5
05D7:  BCF    06.6
05D8:  BSF    03.5
05D9:  BCF    06.7
05DA:  BCF    03.5
05DB:  BCF    06.7
....................             line=R;  
05DC:  MOVLW  01
05DD:  MOVWF  41
....................             dira=0;  
05DE:  CLRF   46
....................             movement=R;  
05DF:  MOVWF  45
....................             continue;  
05E0:  GOTO   536
....................          default:       // kdyz jsou obe cidla mimo caru, tak pokracuj dal  
....................       }  
....................    rovinka=0;  
05E1:  CLRF   43
....................       if (dira>=T_DIRA) prejeddiru();  
05E2:  MOVF   46,W
05E3:  SUBLW  77
05E4:  BTFSS  03.0
05E5:  GOTO   386
....................       if (last!=line)     // pokud si prejel caru z jedne strany na druhou stranu, tak zabrzdi  
05E6:  MOVF   41,W
05E7:  SUBWF  44,W
05E8:  BTFSC  03.2
05E9:  GOTO   5EE
....................       {  
....................          last=line;  
05EA:  MOVF   41,W
05EB:  MOVWF  44
....................          speed=FW_ZATACKA;  
05EC:  MOVLW  F0
05ED:  MOVWF  42
....................       }  
....................       if (L==line)  // kdyz jsou obe cidla mimo caru, zatoc na caru  
05EE:  MOVF   41,W
05EF:  SUBLW  02
05F0:  BTFSS  03.2
05F1:  GOTO   612
....................       {  
....................          STOPL;  
05F2:  BSF    03.5
05F3:  BCF    06.6
05F4:  BCF    03.5
05F5:  BCF    06.6
05F6:  BSF    03.5
05F7:  BCF    06.7
05F8:  BCF    03.5
05F9:  BCF    06.7
....................          GO(R, F, speed);  
05FA:  MOVF   01,W
05FB:  SUBWF  42,W
05FC:  BTFSS  03.0
05FD:  GOTO   607
05FE:  BSF    03.5
05FF:  BCF    06.5
0600:  BCF    03.5
0601:  BCF    06.5
0602:  BSF    03.5
0603:  BCF    06.4
0604:  BCF    03.5
0605:  BSF    06.4
0606:  GOTO   60F
0607:  BSF    03.5
0608:  BCF    06.4
0609:  BCF    03.5
060A:  BCF    06.4
060B:  BSF    03.5
060C:  BCF    06.5
060D:  BCF    03.5
060E:  BCF    06.5
....................          movement=L;  
060F:  MOVLW  02
0610:  MOVWF  45
....................       }  
....................       else  
0611:  GOTO   631
....................       {  
....................          STOPR;  
0612:  BSF    03.5
0613:  BCF    06.4
0614:  BCF    03.5
0615:  BCF    06.4
0616:  BSF    03.5
0617:  BCF    06.5
0618:  BCF    03.5
0619:  BCF    06.5
....................          GO(L, F, speed);  
061A:  MOVF   01,W
061B:  SUBWF  42,W
061C:  BTFSS  03.0
061D:  GOTO   627
061E:  BSF    03.5
061F:  BCF    06.7
0620:  BCF    03.5
0621:  BCF    06.7
0622:  BSF    03.5
0623:  BCF    06.6
0624:  BCF    03.5
0625:  BSF    06.6
0626:  GOTO   62F
0627:  BSF    03.5
0628:  BCF    06.6
0629:  BCF    03.5
062A:  BCF    06.6
062B:  BSF    03.5
062C:  BCF    06.7
062D:  BCF    03.5
062E:  BCF    06.7
....................          movement=R;  
062F:  MOVLW  01
0630:  MOVWF  45
....................       }  
....................    } // while(true)  
0631:  GOTO   536
.................... }  
....................   
....................  
0632:  SLEEP

Configuration Fuses:
   Word  1: 3F38   NOWDT NOPUT MCLR NOBROWNOUT NOLVP NOCPD NOWRT NODEBUG CCPB0 NOPROTECT INTRC_IO
   Word  2: 3FFC   NOFCMEN NOIESO