WebSVN – svnkaklik – Blame – /schemata/prenos/letadlo/SW/prijimac/zaloha/01/MAIN.LST

Rev	Author	Line No.	Line
6	kaklik	1	`CCS PCW C Compiler, Version 3.110, 15448`
		2
		3	`Filename: d:\@kaklik\programy\pic_c\prenos\letadlo\prijimac\main.LST`
		4
		5	`ROM used: 730 (71%)`
		6	`Largest free fragment is 294`
		7	`RAM used: 9 (13%) at main() level`
		8	`26 (38%) worst case`
		9	`Stack: 5 locations`
		10
		11	`*`
		12	`0000: MOVLW 00`
		13	`0001: MOVWF 0A`
		14	`0002: GOTO 251`
		15	`0003: NOP`
		16	`.................... #include "main.h"`
		17	`.................... #include <16F84.h>`
		18	`.................... //////// Standard Header file for the PIC16F84 device ////////////////`
		19	`.................... #device PIC16F84`
		20	`.................... #list`
		21	`....................`
		22	`.................... #use delay(clock=4000000)`
		23	`*`
		24	`000C: MOVLW 1A`
		25	`000D: MOVWF 04`
		26	`000E: MOVF 00,W`
		27	`000F: BTFSC 03.2`
		28	`0010: GOTO 020`
		29	`0011: MOVLW 01`
		30	`0012: MOVWF 0D`
		31	`0013: CLRF 0C`
		32	`0014: DECFSZ 0C,F`
		33	`0015: GOTO 014`
		34	`0016: DECFSZ 0D,F`
		35	`0017: GOTO 013`
		36	`0018: MOVLW 4A`
		37	`0019: MOVWF 0C`
		38	`001A: DECFSZ 0C,F`
		39	`001B: GOTO 01A`
		40	`001C: NOP`
		41	`001D: NOP`
		42	`001E: DECFSZ 00,F`
		43	`001F: GOTO 011`
		44	`0020: RETLW 00`
		45	`*`
		46	`011B: MOVLW 1D`
		47	`011C: MOVWF 04`
		48	`011D: MOVLW FC`
		49	`011E: ANDWF 00,F`
		50	`011F: RRF 00,F`
		51	`0120: RRF 00,F`
		52	`0121: MOVF 00,W`
		53	`0122: BTFSC 03.2`
		54	`0123: GOTO 128`
		55	`0124: GOTO 126`
		56	`0125: NOP`
		57	`0126: DECFSZ 00,F`
		58	`0127: GOTO 125`
		59	`0128: GOTO 154 (RETURN)`
		60	`.................... #fuses XT,NOWDT,PUT`
		61	`....................`
		62	`....................`
		63	`.................... #include "..\common.h"`
		64	`.................... #DEFINE OSA_X 0 // adresy os`
		65	`.................... #DEFINE OSA_Y 1`
		66	`.................... #DEFINE TLs 2`
		67	`.................... #DEFINE IMPULS 250 // sirka impulsu`
		68	`....................`
		69	`....................`
		70	`.................... #DEFINE LCD_RS PIN_B1 // rizeni registru LCD displeje`
		71	`.................... #DEFINE LCD_E PIN_B0 // enable LCD displeje`
		72	`.................... #DEFINE LCD_DATA_LSB PIN_B2 // pripojeni LSB bitu datoveho portu LCD displeje (celkem 4 bity vzestupne za sebou)`
		73	`.................... #INCLUDE "MYLCD.C"`
		74	`.................... // LCD modul pro ovladani dvouradkoveho LCD modulu se standardnim Hitachi radicem`
		75	`.................... // (c)miho 2002`
		76	`.................... //`
		77	`.................... // Historie:`
		78	`.................... //`
		79	`.................... // 0.0 Uvodni verze se snadnou definici portu LCD displeje`
		80	`.................... //`
		81	`.................... //`
		82	`.................... // Funkce:`
		83	`.................... //`
		84	`.................... // lcd_init() inicializuje LCD displej a porty, nutno volat jako prvni`
		85	`.................... //`
		86	`.................... // lcd_putc(c) zapis snaku do lcd displeje, zpracovava nasledujici ridici znaky`
		87	`.................... // \f = \x0C - nova stranka - smazani displeje`
		88	`.................... // \n = \x0A - odradkovani (prechod na druhou radku)`
		89	`.................... // \b = \x08 - backspace - posunuti kurzoru o 1 pozici zpet`
		90	`.................... // \r = \x0D - goto home to position 1,1`
		91	`.................... // \0 .. \7 - definovatelne znaky v pozicich 0 az 7 v CGRAM`
		92	`.................... // \20 .. \27 - alternativne zapsane znaky (oktalove) v pozicich 0 az 7 CGRAM`
		93	`.................... // Pozor na to, ze funkce printf konci tisk pokud narazi na \0 (konec retezce)`
		94	`.................... //`
		95	`.................... // lcd_gotoxy(x,y) presune kurzor na uvedenou adresu`
		96	`.................... // nekontroluje parametry`
		97	`.................... //`
		98	`.................... // lcd_cursor_on zapne kurzor`
		99	`.................... // lcd_cursor_off vypne kurzor`
		100	`.................... //`
		101	`.................... // lcd_define_char(Index, Def) Makro, ktere definuje znaky od pozice Index obsahem definicniho`
		102	`.................... // retezce Def. Kazdych 8 znaku retezce Def definuje dalsi znak v CGRAM.`
		103	`.................... // Kapacita CGRAM je celkem 8 znaku s indexem 0 az 7.`
		104	`.................... // Na konci se provede lcd_gotoxy(1,1).`
		105	`.................... // Na konci teto knihovny je priklad pouziti definovanych znaku`
		106	`.................... //`
		107	`.................... // Definice portu:`
		108	`.................... //`
		109	`.................... // #DEFINE LCD_RS PIN_B2 // rizeni registru LCD displeje`
		110	`.................... // #DEFINE LCD_E PIN_B1 // enable LCD displeje`
		111	`.................... // #DEFINE LCD_DATA_LSB PIN_C2 // pripojeni LSB bitu datoveho portu LCD displeje (celkem 4 bity vzestupne za sebou)`
		112	`....................`
		113	`....................`
		114	`....................`
		115	`....................`
		116	`.................... // Privatni sekce, cist jen v pripade, ze neco nefunguje`
		117	`....................`
		118	`....................`
		119	`....................`
		120	`....................`
		121	`.................... // Generovane defince portu pro ucely teto knihovny aby kod generoval spravne IO operace a soucasne`
		122	`.................... // bylo mozne jednoduse deklarovat pripojene piny LCD displeje pri pouziti teto knihovny. Problem spociva`
		123	`.................... // v tom, ze se musi spravne ridit smery portu a soucasne datovy port zabira jen 4 bity ze zadaneho portu`
		124	`.................... //`
		125	`.................... #DEFINE LCD_SHIFT (LCD_DATA_LSB&7) // pocet bitu posuvu dataoveho kanalu v datovem portu`
		126	`.................... #DEFINE LCD_PORT (LCD_DATA_LSB>>3) // adresa LCD datoveho portu`
		127	`.................... #DEFINE LCD_TRIS (LCD_PORT+0x80) // adresa prislusneho TRIS registru`
		128	`.................... #DEFINE LCD_MASK (0xF<<LCD_SHIFT) // maska platnych bitu`
		129	`.................... //`
		130	`.................... #IF LCD_SHIFT>4 // kontrola mezi`
		131	`.................... #ERROR LCD data port LSB bit not in range 0..4`
		132	`.................... #ENDIF`
		133	`....................`
		134	`....................`
		135	`.................... // Definice konstant pro LCD display`
		136	`.................... //`
		137	`.................... #define LCD_CURSOR_ON_ 0x0E // kurzor jako blikajici radka pod znakem`
		138	`.................... #define LCD_CURSOR_OFF_ 0x0C // zadny kurzor`
		139	`.................... #define LCD_LINE_2 0x40 // adresa 1. znaku 2. radky`
		140	`....................`
		141	`....................`
		142	`.................... // Definice rezimu LCD displeje`
		143	`.................... //`
		144	`.................... BYTE const LCD_INIT_STRING[4] =`
		145	`.................... {`
		146	`.................... 0x28, // intrfejs 4 bity, 2 radky, font 5x7`
		147	`.................... LCD_CURSOR_OFF_, // display on, kurzor off,`
		148	`.................... 0x01, // clear displeje`
		149	`.................... 0x06 // inkrement pozice kurzoru (posun kurzoru doprava)`
		150	`.................... };`
		151	`*`
		152	`0004: BCF 0A.0`
		153	`0005: BCF 0A.1`
		154	`0006: BCF 0A.2`
		155	`0007: ADDWF 02,F`
		156	`0008: RETLW 28`
		157	`0009: RETLW 0C`
		158	`000A: RETLW 01`
		159	`000B: RETLW 06`
		160	`....................`
		161	`....................`
		162	`.................... // Odesle nibble do displeje (posle data a klikne signalem e)`
		163	`.................... //`
		164	`.................... void lcd_send_nibble( BYTE n )`
		165	`.................... {`
		166	`.................... LCD_PORT = (LCD_PORT & ~LCD_MASK) \| ((n << LCD_SHIFT) & LCD_MASK); // nastav datove bity portu a ostatni zachovej`
		167	`*`
		168	`0021: MOVF 06,W`
		169	`0022: ANDLW C3`
		170	`0023: MOVWF 21`
		171	`0024: RLF 20,W`
		172	`0025: MOVWF 0C`
		173	`0026: RLF 0C,F`
		174	`0027: MOVLW FC`
		175	`0028: ANDWF 0C,F`
		176	`0029: MOVF 0C,W`
		177	`002A: ANDLW 3C`
		178	`002B: IORWF 21,W`
		179	`002C: MOVWF 06`
		180	`.................... output_bit(LCD_E,1); // vzestupna hrana`
		181	`002D: BSF 06.0`
		182	`002E: BSF 03.5`
		183	`002F: BCF 06.0`
		184	`.................... delay_us(1); // pockej alespon 450ns od e nebo alespon 195ns od dat`
		185	`0030: NOP`
		186	`.................... output_bit(LCD_E,0); // sestupna hrana (minimalni perioda e je 1us)`
		187	`0031: BCF 03.5`
		188	`0032: BCF 06.0`
		189	`0033: BSF 03.5`
		190	`0034: BCF 06.0`
		191	`0035: BCF 03.5`
		192	`0036: RETLW 00`
		193	`.................... }`
		194	`....................`
		195	`....................`
		196	`.................... // Odesle bajt do registru LCD`
		197	`.................... //`
		198	`.................... // Pokud je Adr=0 .. instrukcni registr`
		199	`.................... // Pokud je Adr=1 .. datovy registr`
		200	`.................... //`
		201	`.................... void lcd_send_byte( BOOLEAN Adr, BYTE n )`
		202	`.................... {`
		203	`.................... output_bit(LCD_RS,Adr); // vyber registr`
		204	`0037: MOVF 1E,F`
		205	`0038: BTFSS 03.2`
		206	`0039: GOTO 03C`
		207	`003A: BCF 06.1`
		208	`003B: GOTO 03D`
		209	`003C: BSF 06.1`
		210	`003D: BSF 03.5`
		211	`003E: BCF 06.1`
		212	`.................... swap(n);`
		213	`003F: BCF 03.5`
		214	`0040: SWAPF 1F,F`
		215	`.................... lcd_send_nibble(n); // posli horni pulku bajtu`
		216	`0041: MOVF 1F,W`
		217	`0042: MOVWF 20`
		218	`0043: CALL 021`
		219	`.................... swap(n);`
		220	`0044: SWAPF 1F,F`
		221	`.................... lcd_send_nibble(n); // posli spodni pulku bajtu`
		222	`0045: MOVF 1F,W`
		223	`0046: MOVWF 20`
		224	`0047: CALL 021`
		225	`.................... delay_us(40); // minimalni doba na provedeni prikazu`
		226	`0048: MOVLW 0D`
		227	`0049: MOVWF 0C`
		228	`004A: DECFSZ 0C,F`
		229	`004B: GOTO 04A`
		230	`004C: RETLW 00`
		231	`.................... }`
		232	`....................`
		233	`....................`
		234	`.................... // Provede inicializaci LCD displeje, smaze obsah a nastavi mod displeje`
		235	`.................... //`
		236	`.................... // Tato procedura se musi volat pred pouzitim ostatnich lcd_ procedur`
		237	`.................... //`
		238	`.................... void lcd_init()`
		239	`.................... {`
		240	`....................`
		241	`.................... int i; // pocitadlo cyklu`
		242	`....................`
		243	`.................... delay_ms(20); // spozdeni pro provedeni startu displeje po zapnuti napajeni`
		244	`004D: MOVLW 14`
		245	`004E: MOVWF 1A`
		246	`004F: CALL 00C`
		247	`....................`
		248	`.................... LCD_TRIS = LCD_TRIS & ~LCD_MASK; // nuluj odpovidajici bity tris registru datoveho portu LCD`
		249	`0050: MOVLW C3`
		250	`0051: BSF 03.5`
		251	`0052: ANDWF 06,F`
		252	`....................`
		253	`.................... output_bit(LCD_RS,0); // nastav jako vystup a nastav klidovy stav`
		254	`0053: BCF 03.5`
		255	`0054: BCF 06.1`
		256	`0055: BSF 03.5`
		257	`0056: BCF 06.1`
		258	`.................... output_bit(LCD_E,0); // nastav jako vystup a nastav klidovy stav`
		259	`0057: BCF 03.5`
		260	`0058: BCF 06.0`
		261	`0059: BSF 03.5`
		262	`005A: BCF 06.0`
		263	`....................`
		264	`.................... for (i=0; i<3; i++) // nastav lcd do rezimu 8 bitu sbernice`
		265	`005B: BCF 03.5`
		266	`005C: CLRF 17`
		267	`005D: MOVF 17,W`
		268	`005E: SUBLW 02`
		269	`005F: BTFSS 03.0`
		270	`0060: GOTO 069`
		271	`.................... {`
		272	`.................... delay_ms(2); // muze byt rozdelany prenos dat (2x 4 bity) nebo pomaly povel`
		273	`0061: MOVLW 02`
		274	`0062: MOVWF 1A`
		275	`0063: CALL 00C`
		276	`.................... lcd_send_nibble(3); // rezim 8 bitu`
		277	`0064: MOVLW 03`
		278	`0065: MOVWF 20`
		279	`0066: CALL 021`
		280	`.................... }`
		281	`0067: INCF 17,F`
		282	`0068: GOTO 05D`
		283	`....................`
		284	`.................... delay_us(40); // cas na zpracovani`
		285	`0069: MOVLW 0D`
		286	`006A: MOVWF 0C`
		287	`006B: DECFSZ 0C,F`
		288	`006C: GOTO 06B`
		289	`.................... lcd_send_nibble(2); // nastav rezim 4 bitu (plati od nasledujiciho prenosu)`
		290	`006D: MOVLW 02`
		291	`006E: MOVWF 20`
		292	`006F: CALL 021`
		293	`.................... delay_us(40); // cas na zpracovani`
		294	`0070: MOVLW 0D`
		295	`0071: MOVWF 0C`
		296	`0072: DECFSZ 0C,F`
		297	`0073: GOTO 072`
		298	`....................`
		299	`.................... for (i=0;i<3;i++) // proved inicializaci (nastaveni modu, smazani apod)`
		300	`0074: CLRF 17`
		301	`0075: MOVF 17,W`
		302	`0076: SUBLW 02`
		303	`0077: BTFSS 03.0`
		304	`0078: GOTO 085`
		305	`.................... {`
		306	`.................... lcd_send_byte(0,LCD_INIT_STRING[i]);`
		307	`0079: MOVF 17,W`
		308	`007A: CALL 004`
		309	`007B: MOVWF 18`
		310	`007C: CLRF 1E`
		311	`007D: MOVF 18,W`
		312	`007E: MOVWF 1F`
		313	`007F: CALL 037`
		314	`.................... delay_ms(2);`
		315	`0080: MOVLW 02`
		316	`0081: MOVWF 1A`
		317	`0082: CALL 00C`
		318	`.................... }`
		319	`0083: INCF 17,F`
		320	`0084: GOTO 075`
		321	`0085: GOTO 256 (RETURN)`
		322	`.................... }`
		323	`....................`
		324	`....................`
		325	`.................... // Proved presun kurzoru`
		326	`.................... //`
		327	`.................... // Pozice 1.1 je domu`
		328	`.................... //`
		329	`.................... void lcd_gotoxy( BYTE x, BYTE y)`
		330	`.................... {`
		331	`....................`
		332	`.................... BYTE Adr;`
		333	`....................`
		334	`.................... Adr=x-1;`
		335	`*`
		336	`01C1: MOVLW 01`
		337	`01C2: SUBWF 1A,W`
		338	`01C3: MOVWF 1C`
		339	`.................... if(y==2)`
		340	`01C4: MOVF 1B,W`
		341	`01C5: SUBLW 02`
		342	`01C6: BTFSS 03.2`
		343	`01C7: GOTO 1CA`
		344	`.................... Adr+=LCD_LINE_2;`
		345	`01C8: MOVLW 40`
		346	`01C9: ADDWF 1C,F`
		347	`....................`
		348	`.................... lcd_send_byte(0,0x80\|Adr);`
		349	`01CA: MOVF 1C,W`
		350	`01CB: IORLW 80`
		351	`01CC: MOVWF 1D`
		352	`01CD: CLRF 1E`
		353	`01CE: MOVF 1D,W`
		354	`01CF: MOVWF 1F`
		355	`01D0: CALL 037`
		356	`01D1: RETLW 00`
		357	`.................... }`
		358	`....................`
		359	`....................`
		360	`.................... // Zapis znaku na displej, zpracovani ridicich znaku`
		361	`.................... //`
		362	`.................... void lcd_putc( char c)`
		363	`.................... {`
		364	`....................`
		365	`.................... switch (c)`
		366	`01D2: MOVF 19,W`
		367	`01D3: MOVWF 0C`
		368	`01D4: MOVLW 0C`
		369	`01D5: SUBWF 0C,W`
		370	`01D6: BTFSC 03.2`
		371	`01D7: GOTO 1E5`
		372	`01D8: MOVLW 0A`
		373	`01D9: SUBWF 0C,W`
		374	`01DA: BTFSC 03.2`
		375	`01DB: GOTO 1ED`
		376	`01DC: MOVLW 0D`
		377	`01DD: SUBWF 0C,W`
		378	`01DE: BTFSC 03.2`
		379	`01DF: GOTO 1F3`
		380	`01E0: MOVLW 08`
		381	`01E1: SUBWF 0C,W`
		382	`01E2: BTFSC 03.2`
		383	`01E3: GOTO 1F8`
		384	`01E4: GOTO 1FD`
		385	`.................... {`
		386	`.................... case '\f' : lcd_send_byte(0,1); // smaz displej`
		387	`01E5: CLRF 1E`
		388	`01E6: MOVLW 01`
		389	`01E7: MOVWF 1F`
		390	`01E8: CALL 037`
		391	`.................... delay_ms(2);`
		392	`01E9: MOVLW 02`
		393	`01EA: MOVWF 1A`
		394	`01EB: CALL 00C`
		395	`.................... break;`
		396	`01EC: GOTO 209`
		397	`.................... case '\n' : lcd_gotoxy(1,2); break; // presun se na 1. znak 2. radky`
		398	`01ED: MOVLW 01`
		399	`01EE: MOVWF 1A`
		400	`01EF: MOVLW 02`
		401	`01F0: MOVWF 1B`
		402	`01F1: CALL 1C1`
		403	`01F2: GOTO 209`
		404	`.................... case '\r' : lcd_gotoxy(1,1); break; // presun home`
		405	`01F3: MOVLW 01`
		406	`01F4: MOVWF 1A`
		407	`01F5: MOVWF 1B`
		408	`01F6: CALL 1C1`
		409	`01F7: GOTO 209`
		410	`.................... case '\b' : lcd_send_byte(0,0x10); break; // posun kurzor o 1 zpet`
		411	`01F8: CLRF 1E`
		412	`01F9: MOVLW 10`
		413	`01FA: MOVWF 1F`
		414	`01FB: CALL 037`
		415	`01FC: GOTO 209`
		416	`.................... default : if (c<0x20) c&=0x7; // preklopeni definovatelnych znaku na rozsah 0 az 0x1F`
		417	`01FD: MOVF 19,W`
		418	`01FE: SUBLW 1F`
		419	`01FF: BTFSS 03.0`
		420	`0200: GOTO 203`
		421	`0201: MOVLW 07`
		422	`0202: ANDWF 19,F`
		423	`.................... lcd_send_byte(1,c); break; // zapis znak`
		424	`0203: MOVLW 01`
		425	`0204: MOVWF 1E`
		426	`0205: MOVF 19,W`
		427	`0206: MOVWF 1F`
		428	`0207: CALL 037`
		429	`0208: GOTO 209`
		430	`.................... }`
		431	`0209: RETLW 00`
		432	`.................... }`
		433	`....................`
		434	`....................`
		435	`.................... // Zapni kurzor`
		436	`.................... //`
		437	`.................... void lcd_cursor_on()`
		438	`.................... {`
		439	`.................... lcd_send_byte(0,LCD_CURSOR_ON_);`
		440	`.................... }`
		441	`....................`
		442	`....................`
		443	`.................... // Vypni kurzor`
		444	`.................... //`
		445	`.................... void lcd_cursor_off()`
		446	`.................... {`
		447	`.................... lcd_send_byte(0,LCD_CURSOR_OFF_);`
		448	`.................... }`
		449	`....................`
		450	`....................`
		451	`.................... // Definice vlastnich fontu`
		452	`.................... //`
		453	`.................... // Vlastnich definic muze byt jen 8 do pozic 0 az 7 pameti CGRAM radice lcd displeje`
		454	`.................... // Pro snadne definovani jsou pripraveny nasledujici definice a na konci souboru je uveden`
		455	`.................... // priklad pouziti definovanych znaku.`
		456	`....................`
		457	`....................`
		458	`.................... // Pomocna procedura pro posilani ridicich dat do radice displeje`
		459	`.................... //`
		460	`.................... void lcd_putc2(int Data)`
		461	`.................... {`
		462	`.................... lcd_send_byte(1,Data);`
		463	`.................... }`
		464	`....................`
		465	`....................`
		466	`.................... // Pomocne definice pro programovani obsahu CGRAM`
		467	`.................... //`
		468	`.................... #DEFINE lcd_define_start(Code) lcd_send_byte(0,0x40+(Code<<3)); delay_ms(2)`
		469	`.................... #DEFINE lcd_define_def(String) printf(lcd_putc2,String);`
		470	`.................... #DEFINE lcd_define_end() lcd_send_byte(0,3); delay_ms(2)`
		471	`....................`
		472	`....................`
		473	`.................... // Vlastni vykonne makro pro definovani fontu do pozice Index CGRAM s definicnim retezcem Def`
		474	`.................... //`
		475	`.................... #DEFINE lcd_define_char(Index, Def) lcd_define_start(Index); lcd_define_def(Def); lcd_define_end();`
		476	`....................`
		477	`....................`
		478	`.................... // Pripravene definice fontu vybranych znaku`
		479	`.................... // V tabulce nesmi byt 00 (konec retezce v printf()), misto toho davame 80`
		480	`.................... //`
		481	`.................... #DEFINE LCD_CHAR_BAT100 "\x0E\x1F\x1F\x1F\x1F\x1F\x1F\x1F" /* symbol plne baterie */`
		482	`.................... #DEFINE LCD_CHAR_BAT50 "\x0E\x1F\x11\x11\x13\x17\x1F\x1F" /* symbol polovicni baterie */`
		483	`.................... #DEFINE LCD_CHAR_BAT0 "\x0E\x1F\x11\x11\x11\x11\x11\x1F" /* symbol vybite baterie */`
		484	`.................... #DEFINE LCD_CHAR_LUA "\x04\x0E\x11\x11\x1F\x11\x11\x80" /* A s carkou */`
		485	`.................... #DEFINE LCD_CHAR_LLA "\x01\x02\x0E\x01\x1F\x11\x0F\x80" /* a s carkou */`
		486	`.................... #DEFINE LCD_CHAR_HUC "\x0A\x0E\x11\x10\x10\x11\x0E\x80" /* C s hackem */`
		487	`.................... #DEFINE LCD_CHAR_HLC "\x0A\x04\x0E\x10\x10\x11\x0E\x80" /* c s hackem */`
		488	`.................... #DEFINE LCD_CHAR_HUD "\x0A\x1C\x12\x11\x11\x12\x1C\x80" /* D s hackem */`
		489	`.................... #DEFINE LCD_CHAR_HLD "\x05\x03\x0D\x13\x11\x11\x0F\x80" /* d s hackem */`
		490	`.................... #DEFINE LCD_CHAR_LUE "\x04\x1F\x10\x10\x1E\x10\x1F\x80" /* E s carkou */`
		491	`.................... #DEFINE LCD_CHAR_LLE "\x01\x02\x0E\x11\x1F\x10\x0E\x80" /* e s carkou */`
		492	`.................... #DEFINE LCD_CHAR_HUE "\x0A\x1F\x10\x1E\x10\x10\x1F\x80" /* E s hackem */`
		493	`.................... #DEFINE LCD_CHAR_HLE "\x0A\x04\x0E\x11\x1F\x10\x0E\x80" /* e s hackem */`
		494	`.................... #DEFINE LCD_CHAR_LUI "\x04\x0E\x04\x04\x04\x04\x0E\x80" /* I s carkou */`
		495	`.................... #DEFINE LCD_CHAR_LLI "\x02\x04\x80\x0C\x04\x04\x0E\x80" /* i s carkou */`
		496	`.................... #DEFINE LCD_CHAR_HUN "\x0A\x15\x11\x19\x15\x13\x11\x80" /* N s hackem */`
		497	`.................... #DEFINE LCD_CHAR_HLN "\x0A\x04\x16\x19\x11\x11\x11\x80" /* n s hackem */`
		498	`.................... #DEFINE LCD_CHAR_LUO "\x04\x0E\x11\x11\x11\x11\x0E\x80" /* O s carkou */`
		499	`.................... #DEFINE LCD_CHAR_LLO "\x02\x04\x0E\x11\x11\x11\x0E\x80" /* o s carkou */`
		500	`.................... #DEFINE LCD_CHAR_HUR "\x0A\x1E\x11\x1E\x14\x12\x11\x80" /* R s hackem */`
		501	`.................... #DEFINE LCD_CHAR_HLR "\x0A\x04\x16\x19\x10\x10\x10\x80" /* r s hackem */`
		502	`.................... #DEFINE LCD_CHAR_HUS "\x0A\x0F\x10\x0E\x01\x01\x1E\x80" /* S s hackem */`
		503	`.................... #DEFINE LCD_CHAR_HLS "\x0A\x04\x0E\x10\x0E\x01\x1E\x80" /* s s hackem */`
		504	`.................... #DEFINE LCD_CHAR_HUT "\x0A\x1F\x04\x04\x04\x04\x04\x80" /* T s hackem */`
		505	`.................... #DEFINE LCD_CHAR_HLT "\x0A\x0C\x1C\x08\x08\x09\x06\x80" /* t s hackem */`
		506	`.................... #DEFINE LCD_CHAR_LUU "\x02\x15\x11\x11\x11\x11\x0E\x80" /* U s carkou */`
		507	`.................... #DEFINE LCD_CHAR_LLU "\x02\x04\x11\x11\x11\x13\x0D\x80" /* u s carkou */`
		508	`.................... #DEFINE LCD_CHAR_CUU "\x06\x17\x11\x11\x11\x11\x0E\x80" /* U s krouzkem */`
		509	`.................... #DEFINE LCD_CHAR_CLU "\x06\x06\x11\x11\x11\x11\x0E\x80" /* u s krouzkem */`
		510	`.................... #DEFINE LCD_CHAR_LUY "\x02\x15\x11\x0A\x04\x04\x04\x80" /* Y s carkou */`
		511	`.................... #DEFINE LCD_CHAR_LLY "\x02\x04\x11\x11\x0F\x01\x0E\x80" /* y s carkou */`
		512	`.................... #DEFINE LCD_CHAR_HUZ "\x0A\x1F\x01\x02\x04\x08\x1F\x80" /* Z s hackem */`
		513	`.................... #DEFINE LCD_CHAR_HLZ "\x0A\x04\x1F\x02\x04\x08\x1F\x80" /* z s hackem */`
		514	`....................`
		515	`....................`
		516	`.................... // Priklad pouziti definovanych znaku`
		517	`.................... //`
		518	`.................... //`
		519	`.................... //void lcd_sample()`
		520	`.................... //{`
		521	`.................... // lcd_define_char(0,LCD_CHAR_BAT50); // Priklad definice znaku baterie do pozice 0`
		522	`.................... // lcd_define_char(2,LCD_CHAR_HLE LCD_CHAR_LUI); // Priklad definice znaku e s hackem a I s carkou od pozice 2`
		523	`.................... // // vsimnete si, ze neni carka mezi retezci s definici (oba retezce definuji`
		524	`.................... // // jediny definicni retezec)`
		525	`.................... // printf(lcd_putc,"\fZnaky:\20\22\23"); // priklad vypisu znaku z pozice 0, 2 a 3`
		526	`.................... // delay_ms(1000);`
		527	`.................... // lcd_define_char(0,LCD_CHAR_BAT0); // Predefinovani tvaru znaku v pozici 0`
		528	`.................... // delay_ms(1000);`
		529	`.................... //}`
		530	`....................`
		531	`.................... #DEFINE PRIJIMAC PIN_A3 // pin na ktery je pripojen prijimac`
		532	`.................... #DEFINE SERVO_X PIN_A0 // pin na ktery je pripojeno servo`
		533	`.................... #DEFINE SERVO_Y PIN_A1`
		534	`....................`
		535	`.................... int8 bit,x,y;`
		536	`.................... int counter; // pocitadlo 1 a 0 v detektoru`
		537	`.................... int x_old=0,y_old;`
		538	`....................`
		539	`.................... void servo(int uhel, int souradnice)`
		540	`.................... {`
		541	`....................`
		542	`....................`
		543	`.................... if (X==souradnice) output_high(SERVO_X); else output_high(SERVO_Y);`
		544	`*`
		545	`0129: MOVF 18,W`
		546	`012A: SUBWF 0F,W`
		547	`012B: BTFSS 03.2`
		548	`012C: GOTO 132`
		549	`012D: BSF 03.5`
		550	`012E: BCF 05.0`
		551	`012F: BCF 03.5`
		552	`0130: BSF 05.0`
		553	`0131: GOTO 136`
		554	`0132: BSF 03.5`
		555	`0133: BCF 05.1`
		556	`0134: BCF 03.5`
		557	`0135: BSF 05.1`
		558	`....................`
		559	`.................... delay_us(62.5*uhel);`
		560	`0136: CLRF 1A`
		561	`0137: MOVF 17,W`
		562	`0138: MOVWF 19`
		563	`0139: GOTO 086`
		564	`013A: CLRF 1C`
		565	`013B: CLRF 1B`
		566	`013C: MOVLW 7A`
		567	`013D: MOVWF 1A`
		568	`013E: MOVLW 84`
		569	`013F: MOVWF 19`
		570	`0140: MOVF 0F,W`
		571	`0141: MOVWF 20`
		572	`0142: MOVF 0E,W`
		573	`0143: MOVWF 1F`
		574	`0144: MOVF 0D,W`
		575	`0145: MOVWF 1E`
		576	`0146: MOVF 0C,W`
		577	`0147: MOVWF 1D`
		578	`0148: GOTO 0A4`
		579	`0149: MOVF 0C,W`
		580	`014A: MOVWF 19`
		581	`014B: MOVF 0D,W`
		582	`014C: MOVWF 1A`
		583	`014D: MOVF 0E,W`
		584	`014E: MOVWF 1B`
		585	`014F: MOVF 0F,W`
		586	`0150: MOVWF 1C`
		587	`0151: MOVF 0C,W`
		588	`0152: MOVWF 1D`
		589	`0153: GOTO 11B`
		590	`....................`
		591	`.................... if (SERVO_X==souradnice) output_low(SERVO_X); else output_low(SERVO_Y);`
		592	`0154: MOVF 18,W`
		593	`0155: SUBLW 28`
		594	`0156: BTFSS 03.2`
		595	`0157: GOTO 15D`
		596	`0158: BSF 03.5`
		597	`0159: BCF 05.0`
		598	`015A: BCF 03.5`
		599	`015B: BCF 05.0`
		600	`015C: GOTO 161`
		601	`015D: BSF 03.5`
		602	`015E: BCF 05.1`
		603	`015F: BCF 03.5`
		604	`0160: BCF 05.1`
		605	`0161: RETLW 00`
		606	`.................... // delay_ms(10);`
		607	`....................`
		608	`....................`
		609	`.................... }`
		610	`....................`
		611	`.................... int8 prijmout(int8* bit)`
		612	`.................... {`
		613	`.................... // \|\| \|`
		614	`.................... // \|--\|_____ 1`
		615	`.................... // \|`
		616	`.................... // \|-\|__\|-\|_ 0`
		617	`....................`
		618	`.................... while (!input(PRIJIMAC)) ; // cekej na jednicku`
		619	`0162: BSF 03.5`
		620	`0163: BSF 05.3`
		621	`0164: BCF 03.5`
		622	`0165: BTFSS 05.3`
		623	`0166: GOTO 162`
		624	`.................... delay_us(IMPULS/4); // presvec se, jestli je stale 1 po 1/4 impulsu`
		625	`0167: MOVLW 14`
		626	`0168: MOVWF 0C`
		627	`0169: DECFSZ 0C,F`
		628	`016A: GOTO 169`
		629	`016B: NOP`
		630	`.................... if (!input(PRIJIMAC)) return(false); // vrat chybu, kdyz neni stale 1`
		631	`016C: BSF 03.5`
		632	`016D: BSF 05.3`
		633	`016E: BCF 03.5`
		634	`016F: BTFSC 05.3`
		635	`0170: GOTO 174`
		636	`0171: MOVLW 00`
		637	`0172: MOVWF 0D`
		638	`0173: GOTO 198`
		639	`.................... delay_us(3*IMPULS); // pockej na rozhodovaci misto`
		640	`0174: MOVLW F9`
		641	`0175: MOVWF 0C`
		642	`0176: DECFSZ 0C,F`
		643	`0177: GOTO 176`
		644	`0178: NOP`
		645	`0179: NOP`
		646	`.................... if (input(PRIJIMAC)) bit=0; else bit=1; // dekoduj 1 nebo 0`
		647	`017A: BSF 03.5`
		648	`017B: BSF 05.3`
		649	`017C: BCF 03.5`
		650	`017D: BTFSS 05.3`
		651	`017E: GOTO 183`
		652	`017F: MOVF 1A,W`
		653	`0180: MOVWF 04`
		654	`0181: CLRF 00`
		655	`0182: GOTO 187`
		656	`0183: MOVF 1A,W`
		657	`0184: MOVWF 04`
		658	`0185: MOVLW 01`
		659	`0186: MOVWF 00`
		660	`.................... delay_us(IMPULS); // pockej na konec znaku`
		661	`0187: MOVLW 53`
		662	`0188: MOVWF 0C`
		663	`0189: DECFSZ 0C,F`
		664	`018A: GOTO 189`
		665	`....................`
		666	`.................... output_bit(PIN_A0, *bit); // kontrolni vystup`
		667	`018B: MOVF 1A,W`
		668	`018C: MOVWF 04`
		669	`018D: MOVF 00,F`
		670	`018E: BTFSS 03.2`
		671	`018F: GOTO 192`
		672	`0190: BCF 05.0`
		673	`0191: GOTO 193`
		674	`0192: BSF 05.0`
		675	`0193: BSF 03.5`
		676	`0194: BCF 05.0`
		677	`....................`
		678	`.................... return(true); // vrat, ze se cteni povedlo`
		679	`0195: MOVLW 01`
		680	`0196: BCF 03.5`
		681	`0197: MOVWF 0D`
		682	`0198: RETLW 00`
		683	`.................... }`
		684	`....................`
		685	`.................... int8 read_nibble(int8* value)`
		686	`.................... {`
		687	`.................... int8 n; // citac`
		688	`.................... int8 bit; // pomocna promenna`
		689	`....................`
		690	`.................... *value=0;`
		691	`0199: MOVF 17,W`
		692	`019A: MOVWF 04`
		693	`019B: CLRF 00`
		694	`.................... for (n=1; n<=4; n++) // prijmi 4 bity`
		695	`019C: MOVLW 01`
		696	`019D: MOVWF 18`
		697	`019E: MOVF 18,W`
		698	`019F: SUBLW 04`
		699	`01A0: BTFSS 03.0`
		700	`01A1: GOTO 1BE`
		701	`.................... {`
		702	`.................... *value >>= 1; // posun jiz prectene do leva`
		703	`01A2: MOVF 17,W`
		704	`01A3: MOVWF 04`
		705	`01A4: BCF 03.0`
		706	`01A5: RRF 00,W`
		707	`01A6: MOVWF 0C`
		708	`01A7: MOVWF 00`
		709	`.................... if (0==prijmout(&bit)) return(false); // prijmi bit; pri chybe cteni vrat chybu`
		710	`01A8: MOVLW 19`
		711	`01A9: MOVWF 1A`
		712	`01AA: CALL 162`
		713	`01AB: MOVF 0D,F`
		714	`01AC: BTFSS 03.2`
		715	`01AD: GOTO 1B1`
		716	`01AE: MOVLW 00`
		717	`01AF: MOVWF 0D`
		718	`01B0: GOTO 1C0`
		719	`.................... *value \|= bit << 3; // pridej bit do nibblu`
		720	`01B1: MOVF 17,W`
		721	`01B2: MOVWF 04`
		722	`01B3: RLF 19,W`
		723	`01B4: MOVWF 0C`
		724	`01B5: RLF 0C,F`
		725	`01B6: RLF 0C,F`
		726	`01B7: MOVLW F8`
		727	`01B8: ANDWF 0C,F`
		728	`01B9: MOVF 0C,W`
		729	`01BA: IORWF 00,W`
		730	`01BB: MOVWF 00`
		731	`.................... };`
		732	`01BC: INCF 18,F`
		733	`01BD: GOTO 19E`
		734	`.................... return(true); // vrat 1, jako ,ze je vse O.K.`
		735	`01BE: MOVLW 01`
		736	`01BF: MOVWF 0D`
		737	`01C0: RETLW 00`
		738	`.................... }`
		739	`....................`
		740	`.................... /*void dekodovat(void)`
		741	`.................... {`
		742	`.................... int8 osa, hodnota, kontrola;`
		743	`....................`
		744	`.................... counter=4;`
		745	`....................`
		746	`.................... decoder:`
		747	`....................`
		748	`.................... counter=0; // vynuluj citac`
		749	`.................... do // vyhledej synchronizacni jednicky`
		750	`.................... {`
		751	`.................... if (!prijmout(&bit)) goto decoder; // prijmi bit; pri chybe zacni znovu`
		752	`.................... if (1==bit) counter++; else goto decoder; // kdyz je bit 1, tak zvys citac; jinak zacni znovu`
		753	`.................... } while(counter<4); // pockej na 4 jednicky`
		754	`....................`
		755	`.................... if (!read_nibble(&osa)) goto decoder; // nacti identifikator osy`
		756	`....................`
		757	`.................... if (!read_nibble(&hodnota)) goto decoder; // nacti 1. nibble; pri chybe zacni znovu`
		758	`.................... if (!read_nibble(&kontrola)) goto decoder; // nacti 2. nibble; pri chybe zacni znovu`
		759	`.................... if (hodnota != kontrola) goto decoder; // zacni znovu, pokud jsou ruzne nibble`
		760	`....................`
		761	`.................... switch (osa) // rozeskoc se podle adresy osy`
		762	`.................... {`
		763	`.................... case OSA_X:`
		764	`.................... {`
		765	`.................... x=hodnota;`
		766	`.................... break;`
		767	`.................... };`
		768	`.................... case OSA_Y:`
		769	`.................... {`
		770	`.................... y=hodnota;`
		771	`.................... break;`
		772	`.................... };`
		773	`.................... case TLs:`
		774	`.................... {`
		775	`.................... break;`
		776	`.................... };`
		777	`.................... };`
		778	`.................... }`
		779	`.................... */`
		780	`.................... void main()`
		781	`.................... {`
		782	`*`
		783	`0251: CLRF 04`
		784	`0252: MOVLW 1F`
		785	`0253: ANDWF 03,F`
		786	`0254: CLRF 12`
		787	`.................... lcd_init(); // zinicializuj LCD display`
		788	`0255: GOTO 04D`
		789	`....................`
		790	`.................... while (true)`
		791	`.................... {`
		792	`.................... int8 osa, hodnota, kontrola;`
		793	`....................`
		794	`.................... counter=4;`
		795	`0256: MOVLW 04`
		796	`0257: MOVWF 11`
		797	`....................`
		798	`.................... decoder:`
		799	`....................`
		800	`.................... servo(x_old,SERVO_X);`
		801	`0258: MOVF 12,W`
		802	`0259: MOVWF 17`
		803	`025A: MOVLW 28`
		804	`025B: MOVWF 18`
		805	`025C: CALL 129`
		806	`....................`
		807	`.................... servo(y_old,SERVO_Y);`
		808	`025D: MOVF 13,W`
		809	`025E: MOVWF 17`
		810	`025F: MOVLW 29`
		811	`0260: MOVWF 18`
		812	`0261: CALL 129`
		813	`....................`
		814	`.................... counter=0; // vynuluj citac`
		815	`0262: CLRF 11`
		816	`.................... do // vyhledej synchronizacni jednicky`
		817	`.................... {`
		818	`.................... if (!prijmout(&bit)) goto decoder; // prijmi bit; pri chybe zacni znovu`
		819	`0263: MOVLW 0E`
		820	`0264: MOVWF 1A`
		821	`0265: CALL 162`
		822	`0266: MOVF 0D,F`
		823	`0267: BTFSS 03.2`
		824	`0268: GOTO 26A`
		825	`0269: GOTO 258`
		826	`.................... if (1==bit) counter++; else goto decoder; // kdyz je bit 1, tak zvys citac; jinak zacni znovu`
		827	`026A: DECFSZ 0E,W`
		828	`026B: GOTO 26E`
		829	`026C: INCF 11,F`
		830	`026D: GOTO 26F`
		831	`026E: GOTO 258`
		832	`.................... } while(counter<4); // pockej na 4 jednicky`
		833	`026F: MOVF 11,W`
		834	`0270: SUBLW 03`
		835	`0271: BTFSC 03.0`
		836	`0272: GOTO 263`
		837	`....................`
		838	`.................... if (!read_nibble(&osa)) goto decoder; // nacti identifikator osy`
		839	`0273: MOVLW 14`
		840	`0274: MOVWF 17`
		841	`0275: CALL 199`
		842	`0276: MOVF 0D,F`
		843	`0277: BTFSS 03.2`
		844	`0278: GOTO 27A`
		845	`0279: GOTO 258`
		846	`....................`
		847	`.................... if (!read_nibble(&hodnota)) goto decoder; // nacti 1. nibble; pri chybe zacni znovu`
		848	`027A: MOVLW 15`
		849	`027B: MOVWF 17`
		850	`027C: CALL 199`
		851	`027D: MOVF 0D,F`
		852	`027E: BTFSS 03.2`
		853	`027F: GOTO 281`
		854	`0280: GOTO 258`
		855	`.................... if (!read_nibble(&kontrola)) goto decoder; // nacti 2. nibble; pri chybe zacni znovu`
		856	`0281: MOVLW 16`
		857	`0282: MOVWF 17`
		858	`0283: CALL 199`
		859	`0284: MOVF 0D,F`
		860	`0285: BTFSS 03.2`
		861	`0286: GOTO 288`
		862	`0287: GOTO 258`
		863	`.................... if (hodnota != kontrola) goto decoder; // zacni znovu, pokud jsou ruzne nibble`
		864	`0288: MOVF 16,W`
		865	`0289: SUBWF 15,W`
		866	`028A: BTFSC 03.2`
		867	`028B: GOTO 28D`
		868	`028C: GOTO 258`
		869	`....................`
		870	`.................... switch (osa) // rozeskoc se podle adresy osy`
		871	`028D: MOVF 14,W`
		872	`028E: ADDLW FD`
		873	`028F: BTFSC 03.0`
		874	`0290: GOTO 29E`
		875	`0291: ADDLW 03`
		876	`0292: GOTO 2D3`
		877	`.................... {`
		878	`.................... case OSA_X:`
		879	`.................... {`
		880	`....................`
		881	`.................... x=hodnota;`
		882	`0293: MOVF 15,W`
		883	`0294: MOVWF 0F`
		884	`.................... x_old=x;`
		885	`0295: MOVF 0F,W`
		886	`0296: MOVWF 12`
		887	`....................`
		888	`.................... break;`
		889	`0297: GOTO 29E`
		890	`.................... };`
		891	`.................... case OSA_Y:`
		892	`.................... {`
		893	`.................... y=hodnota;`
		894	`0298: MOVF 15,W`
		895	`0299: MOVWF 10`
		896	`.................... y_old=y;`
		897	`029A: MOVF 10,W`
		898	`029B: MOVWF 13`
		899	`....................`
		900	`.................... break;`
		901	`029C: GOTO 29E`
		902	`.................... };`
		903	`.................... case TLs:`
		904	`.................... {`
		905	`.................... break;`
		906	`029D: GOTO 29E`
		907	`.................... };`
		908	`.................... };`
		909	`*`
		910	`02D3: BCF 0A.0`
		911	`02D4: BSF 0A.1`
		912	`02D5: BCF 0A.2`
		913	`02D6: ADDWF 02,F`
		914	`02D7: GOTO 293`
		915	`02D8: GOTO 298`
		916	`02D9: GOTO 29D`
		917	`....................`
		918	`....................`
		919	`.................... lcd_gotoxy(1,1); // vytiskni X a Y`
		920	`*`
		921	`029E: MOVLW 01`
		922	`029F: MOVWF 1A`
		923	`02A0: MOVWF 1B`
		924	`02A1: CALL 1C1`
		925	`.................... printf(lcd_putc,"X: %U ", x);`
		926	`*`
		927	`021F: MOVF 0D,W`
		928	`0220: MOVF 17,W`
		929	`0221: MOVWF 19`
		930	`0222: MOVLW 64`
		931	`0223: MOVWF 1A`
		932	`0224: CALL 20A`
		933	`0225: MOVF 0C,W`
		934	`0226: MOVWF 17`
		935	`0227: MOVF 0D,W`
		936	`0228: MOVLW 30`
		937	`0229: BTFSS 03.2`
		938	`022A: GOTO 232`
		939	`022B: BTFSC 18.0`
		940	`022C: BSF 18.3`
		941	`022D: BTFSC 18.3`
		942	`022E: GOTO 238`
		943	`022F: BTFSC 18.4`
		944	`0230: MOVLW 20`
		945	`0231: GOTO 234`
		946	`0232: BCF 18.3`
		947	`0233: BCF 18.4`
		948	`0234: ADDWF 0D,F`
		949	`0235: MOVF 0D,W`
		950	`0236: MOVWF 19`
		951	`0237: CALL 1D2`
		952	`0238: MOVF 17,W`
		953	`0239: MOVWF 19`
		954	`023A: MOVLW 0A`
		955	`023B: MOVWF 1A`
		956	`023C: CALL 20A`
		957	`023D: MOVF 0C,W`
		958	`023E: MOVWF 17`
		959	`023F: MOVF 0D,W`
		960	`0240: MOVLW 30`
		961	`0241: BTFSS 03.2`
		962	`0242: GOTO 247`
		963	`0243: BTFSC 18.3`
		964	`0244: GOTO 24B`
		965	`0245: BTFSC 18.4`
		966	`0246: MOVLW 20`
		967	`0247: ADDWF 0D,F`
		968	`0248: MOVF 0D,W`
		969	`0249: MOVWF 19`
		970	`024A: CALL 1D2`
		971	`024B: MOVLW 30`
		972	`024C: ADDWF 17,F`
		973	`024D: MOVF 17,W`
		974	`024E: MOVWF 19`
		975	`024F: CALL 1D2`
		976	`0250: RETLW 00`
		977	`*`
		978	`02A2: MOVLW 58`
		979	`02A3: MOVWF 19`
		980	`02A4: CALL 1D2`
		981	`02A5: MOVLW 3A`
		982	`02A6: MOVWF 19`
		983	`02A7: CALL 1D2`
		984	`02A8: MOVLW 20`
		985	`02A9: MOVWF 19`
		986	`02AA: CALL 1D2`
		987	`02AB: MOVF 0F,W`
		988	`02AC: MOVWF 17`
		989	`02AD: MOVLW 18`
		990	`02AE: MOVWF 18`
		991	`02AF: CALL 21F`
		992	`02B0: MOVLW 06`
		993	`02B1: MOVWF 17`
		994	`02B2: MOVLW 20`
		995	`02B3: MOVWF 19`
		996	`02B4: CALL 1D2`
		997	`02B5: DECFSZ 17,F`
		998	`02B6: GOTO 2B2`
		999	`.................... lcd_gotoxy(1,2);`
		1000	`02B7: MOVLW 01`
		1001	`02B8: MOVWF 1A`
		1002	`02B9: MOVLW 02`
		1003	`02BA: MOVWF 1B`
		1004	`02BB: CALL 1C1`
		1005	`.................... printf(lcd_putc,"Y: %U ", y);`
		1006	`02BC: MOVLW 59`
		1007	`02BD: MOVWF 19`
		1008	`02BE: CALL 1D2`
		1009	`02BF: MOVLW 3A`
		1010	`02C0: MOVWF 19`
		1011	`02C1: CALL 1D2`
		1012	`02C2: MOVLW 20`
		1013	`02C3: MOVWF 19`
		1014	`02C4: CALL 1D2`
		1015	`02C5: MOVF 10,W`
		1016	`02C6: MOVWF 17`
		1017	`02C7: MOVLW 18`
		1018	`02C8: MOVWF 18`
		1019	`02C9: CALL 21F`
		1020	`02CA: MOVLW 06`
		1021	`02CB: MOVWF 17`
		1022	`02CC: MOVLW 20`
		1023	`02CD: MOVWF 19`
		1024	`02CE: CALL 1D2`
		1025	`02CF: DECFSZ 17,F`
		1026	`02D0: GOTO 2CC`
		1027	`.................... }`
		1028	`02D1: GOTO 256`
		1029	`.................... }`
		1030	`....................`
		1031	`02D2: SLEEP`
		1032	`....................`
		1033	`....................`

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