/**** GPS skrysohledac ****/
#define ID "$Id: gps.c 936 2008-01-02 22:01:37Z kakl $"
#include "gps.h"
#include <math.h>
#include <stdlib.h>
#include <stdlibm.h>
#define LCD_RS PIN_B1 // LCD control
#define LCD_E PIN_B0 // LCD enable
#define LCD_DATA_LSB PIN_B4 // LSB data bit LCD
#include "MYLCD.C"
// NMEA
#define TIME 6 // For NMEA parsing
#define TIME_LEN 10
#define LATDEG 19
#define LATMIN 21
#define LONDEG 32
#define LONMIN 34
#define DEG_LEN 2
#define MIN_LEN 7
#define AZIMUTH 46
float lat,lon; // Latitude, Longitude, Azimuth
int16 az;
#define NMEA_LINESIZE 72
inline void read_NMEA() // NMEA parsing
{
auto char item[16];
char *ptr,*line;
auto int8 n;
auto char c;
line=malloc(NMEA_LINESIZE); // Space for one line
if (line==NULL) {printf(lcd_putc,"Error"); sleep();};
line[NMEA_LINESIZE-1]=0;
while(fgetc(NMEA)!='$'); // Waiting for start character
for(n=0;n<(NMEA_LINESIZE-1);n++) // Read line up to checksum
{
c=fgetc(NMEA);
if(c=='*')
{
line[n]=0;
break;
};
line[n]=c;
};
lcd_gotoxy(12,4);
printf(lcd_putc,"%c %06.0g ",line[17],strtod(&line[TIME],&ptr));
lcd_gotoxy(1,3);
strncpy(item,&line[LATDEG],DEG_LEN+MIN_LEN); item[DEG_LEN+MIN_LEN]=0;
printf(lcd_putc,"%s*",item);
strncpy(item,&line[LONDEG],DEG_LEN+MIN_LEN); item[DEG_LEN+MIN_LEN]=0;
printf(lcd_putc,"%s*",item);
lcd_gotoxy(1,2);
lat=strtod(&line[LATMIN],&ptr);
line[LATMIN]=0;
lat+=60*strtod(&line[LATDEG],&ptr);
lon=strtod(&line[LONMIN],&ptr);
line[LONMIN]=0;
lon+=60*strtod(&line[LONDEG],&ptr);
strtod(&line[AZIMUTH],&ptr);
az=strtoul(ptr+1,&ptr,10);
printf(lcd_putc,"%.3g*%.3g*%03Lu",lat,lon,az);
free(line);
}
void main()
{
setup_adc_ports(NO_ANALOGS);
setup_adc(ADC_OFF);
setup_spi(FALSE);
setup_timer_0(RTCC_INTERNAL|RTCC_DIV_1);
setup_timer_1(T1_DISABLED);
setup_timer_2(T2_DISABLED,0,1);
setup_comparator(NC_NC_NC_NC);
setup_vref(VREF_LOW|-2);
lcd_init();
while(TRUE)
{
const float gc_lat=49*60+12.4452,gc_lon=14*60+18.9079; // Testovaci souradnice: Cisticka
float bearing, heading, azim;
read_NMEA(); // Read one NMEA line and parse
lon=(gc_lon-lon)*1214; // Kakona's projection :)
lat=(gc_lat-lat)*1854;
lcd_gotoxy(1,4);
printf(lcd_putc,"%.0g* ",sqrt((lon*lon) + (lat*lat))); // Distance
lcd_gotoxy(1,1);
if (lon==0) lon=0.001; // Divided by zero cure
bearing=3-(6/PI*atan2(lat,lon)); // Bearing
if (bearing<0) bearing+=12; // overflow cure
if (bearing>12) bearing-=12;
printf(lcd_putc,"BE%2.0g*",bearing);
azim=12.0/360*az; // Azimuth of the movement
heading=bearing-lat; // Heading
if (heading<0) heading+=12; // overflow cure
if (heading>12) heading-=12;
printf(lcd_putc,"HE%2.0g*AZ%2.0g* ",heading,azim);
}
}