/*
Ovladani domu rozvadec 1. n.p. pod schodama
Syntaxe prikazu:
<Roleta/Svetlo><#patro><#mistnost><Nord/Jih/Vychod/Zapad/A/B><Up/Down>
R2aNU - roleta, 2. n.p., mistnost 10, sever, nahoru
S12A - svetlo, 1. n.p., mistnost 2, prostredni
Rozmisteni desek:
[IN B] [IN D]
[CPU]
[IN A] [CAN] [IN E] [IN F]
*/
#include "main.h"
#case
#define S105AN input(PIN_A0) // Kuchyne hlavni svetlo severni vypinac
#define R110NJU input(PIN_A1) // Roleta koupelna
#define R110NJD input(PIN_A2)
#define S104AZ input(PIN_A3) // Svetlo laborator vypinac u dveri
#define R104VZU input(PIN_A4) // Roleta laborator vychod
#define R104VZD input(PIN_A5)
#define R104JZU input(PIN_A6) // Roleta laborator jih
#define R104JZD input(PIN_A7)
#define S103JZ input(PIN_B0) // A Svetlo loznice jih vypinac u dveri
#define S103JN input(PIN_B1) // B -"- vypinac KAKL
#define S103JV input(PIN_B2) // C -"- vypinac mama
#define R103VZU input(PIN_B3) // D Roleta loznice vypinac u dveri
#define R103VZD input(PIN_B4) // E
//#define S input(PIN_B5) // F
#define S107AN input(PIN_B6) // G Svetlo satna vypinac do chodby
#define S109AJ input(PIN_B7) // H Svetlo tech. mistnost vypinac do chodby
#define OS101A PIN_C0 // Spinac svetla v bunecce prizemi
#define OS105V PIN_C1 // Svetlo nad chlebarnou
#define OS105N PIN_C2 // Severni svetlo kuchyne
//#define PIN_C3 31763
//#define PIN_C4 31764
//#define PIN_C5 31765
//#define PIN_C6 31766 //TX
//#define PIN_C7 31767 //RX
#define S101AN input(PIN_D0) // Hlavni svetlo bunecka severni vypinac bliz u dveri
#define S101AJ input(PIN_D1) // Hlavni svetlo bunecka jizni vypinac
#define S105VV input(PIN_D2) // Vypinac nad chlebarnou
#define S105NZ input(PIN_D3) // Svetlo kuchyne sever vypinac zapadni
#define S105ZZ input(PIN_D4) // Svetlo kuchyne zapad vypinac zapadni
#define S102AN input(PIN_D5) // Vypinac chodba dole u schodu
#define S110AN input(PIN_D6) // Vypinac koupelna sever
#define S108AV input(PIN_D7) // Dvere do spajzu
//#define S input(PIN_E0) // A
//#define S input(PIN_E1) // B
//#define S input(PIN_E2) // C
//#define S input(PIN_E3) // D
//#define S input(PIN_E4) // E
//#define S input(PIN_E5) // F
//#define S input(PIN_E6) // G
//#define S input(PIN_E7) // H
#define S106AV input(PIN_F0) // A Hlavni svetlo trucovna vypinac u dveri do kuchyne
#define R106JVD input(PIN_F1) // B Roleta trucovna jih vypinac u dveri do kuchyne
#define R106JVU input(PIN_F2) // C
#define R106ZVD input(PIN_F3) // D Roleta trucovna zapad vypinac u dveri do kuchyne
#define R106ZVU input(PIN_F4) // E
#define S107AJ input(PIN_F5) // F Svetlo satna vypinac u trucovny
#define S109AN input(PIN_F6) // G Svetlo technologicka mistnost vypinac do prujezdu
#define S106AN input(PIN_F7) // H Hlavni svetlo trucovna vypinac u dveri do satny
/*
#define PIN_G0 31792
#define PIN_G1 31793
#define PIN_G2 31794
#define PIN_G3 31795
#define PIN_G4 31796
#define PIN_G5 31797
#define PIN_H0 31800
#define PIN_H1 31801
#define PIN_H2 31802
#define PIN_H3 31803
#define PIN_H4 31804
#define PIN_H5 31805
#define PIN_H6 31806
#define PIN_H7 31807
#define PIN_J0 31808
#define PIN_J1 31809
#define PIN_J2 31810
#define PIN_J3 31811
#define PIN_J4 31812
#define PIN_J5 31813
#define PIN_J6 31814
#define PIN_J7 31815
*/
#define LED1 PIN_J7
#define LED2 PIN_J6
#define ON(port) output_low(port);
#define OFF(port) output_high(port);
int1 s105AN; // Predchozi stav vypinacu
int1 r110NJU;
int1 r110NJD;
int1 s104AZ;
int1 r104VZU;
int1 r104VZD;
int1 r104JZU;
int1 r104JZD;
int1 s103JZ;
int1 s103JN;
int1 s103JV;
int1 r103VZU;
int1 r103VZD;
int1 s107AN;
int1 s109AJ;
int1 s101AN;
int1 s101AJ;
int1 s105VV;
int1 s105NZ;
int1 s105ZZ;
int1 s102AN;
int1 s110AN;
int1 s108AV;
int1 r106JVU;
int1 r106JVD;
int1 r106ZVU;
int1 r106ZVD;
int1 s106AV;
int1 s106AN;
int1 s107AJ;
int1 s109AN;
#define send(s) \
{\
printf("%s\r\n",#s);\
output_toggle(LED1);\
delay_ms(100);\
}
void main()
{
setup_adc_ports(NO_ANALOGS|VSS_VDD);
setup_adc(ADC_CLOCK_DIV_2);
setup_psp(PSP_DISABLED);
setup_spi(SPI_SS_DISABLED);
setup_wdt(WDT_OFF);
setup_timer_0(RTCC_INTERNAL);
setup_timer_1(T1_DISABLED);
setup_timer_2(T2_DISABLED,0,1);
setup_timer_3(T3_DISABLED|T3_DIV_BY_1);
setup_ccp1(CCP_OFF);
setup_comparator(NC_NC_NC_NC);
setup_vref(FALSE);
OFF(OS101A);
{
int n;
for(n=0;n<10;n++)
{
output_low(LED1); // Indikace restartu (pockame na nabiti kondenzatoru ve vstupnich obvodech)
delay_ms(100);
output_high(LED1);
delay_ms(100);
restart_wdt();
}
}
s105AN=S105AN; // Poznamenej vychozi stav vypinacu
r110NJU=R110NJU;
r110NJD=R110NJD;
s104AZ=S104AZ;
r104VZU=R104VZU;
r104VZD=R104VZD;
r104JZU=R104JZU;
r104JZD=R104JZD;
s103JZ=S103JZ;
s103JN=S103JN;
s103JV=S103JV;
r103VZU=R103VZU;
r103VZD=R103VZD;
s107AN=S107AN;
s109AJ=S109AJ;
s101AN=S101AN;
s101AJ=S101AJ;
s105VV=S105VV;
s105NZ=S105NZ;
s105ZZ=S105ZZ;
s102AN=S102AN;
s110AN=S110AN;
s108AV=S108AV;
r106JVU=R106JVU;
r106JVD=R106JVD;
r106ZVU=R106ZVU;
r106ZVD=R106ZVD;
s106AV=S106AV;
s106AN=S106AN;
s107AJ=S107AJ;
s109AN=S109AN;
while(TRUE)
{
if(s105AN!=S105AN) {s105AN=S105AN; send(S15A);}
if(r110NJU!=R110NJU) {r110NJU=R110NJU; send(R1aNU);}
if(r110NJD!=R110NJD) {r110NJD=R110NJD; send(R1aND);}
if(!S105VV) {output_low(OS105V);} else {output_high(OS105V);}
if(!S105NZ) {output_low(OS105N);} else {output_high(OS105N);}
if(s105ZZ!=S105ZZ) {s105ZZ=S105ZZ; send(S15Z);}
if(s104AZ!=S104AZ) {s104AZ=S104AZ; send(S14A);}
if(r104VZU!=R104VZU) {r104VZU=R104VZU; send(R14VU);}
if(r104VZD!=R104VZD) {r104VZD=R104VZD; send(R14VD);}
if(r104JZU!=R104JZU) {r104JZU=R104JZU; send(R14JU);}
if(r104JZD!=R104JZD) {r104JZD=R104JZD; send(R14JD);}
if(s103JZ!=S103JZ) {s103JZ=S103JZ; send(S13A);}
if(s103JN!=S103JN) {s103JN=S103JN; send(S13A);}
if(s103JV!=S103JV) {s103JV=S103JV; send(S13A);}
if(r103VZU!=R103VZU) {r103VZU=R103VZU; send(R13VU);}
if(r103VZD!=R103VZD) {r103VZD=R103VZD; send(R13VD);}
if(s107AN!=S107AN) {s107AN=S107AN; send(S17A);}
if(s109AJ!=S109AJ) {s109AJ=S109AJ; send(S19A);}
if(s101AN!=S101AN) {s101AN=S101AN; output_toggle(OS101A); delay_ms(100);}
if(s101AJ!=S101AJ) {s101AJ=S101AJ; output_toggle(OS101A); delay_ms(100);}
if(s102AN!=S102AN) {s102AN=S102AN; send(S12A);}
if(s110AN!=S110AN) {s110AN=S110AN; send(S1aA);}
if(s108AV!=S108AV) {s108AV=S108AV; send(S18A);}
if(r106JVU!=R106JVU) {r106JVU=R106JVU; send(R16JU);}
if(r106JVD!=R106JVD) {r106JVD=R106JVD; send(R16JD);}
if(r106ZVU!=R106ZVU) {r106ZVU=R106ZVU; send(R16ZU);}
if(r106ZVD!=R106ZVD) {r106ZVD=R106ZVD; send(R16ZD);}
if(s106AV!=S106AV) {s106AV=S106AV; send(S16A);}
if(s106AN!=S106AN) {s106AN=S106AN; send(S16A);}
if(s107AJ!=S107AJ) {s107AJ=S107AJ; send(S17A);}
if(s109AN!=S109AN) {s109AN=S109AN; send(S19A);}
if(get_timer0()>65000) {output_toggle(LED2); set_timer0(0);}
}
}