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//*****************************************************************************
// File Name : gpstest.c
//
// Title : example usage of gps processing library functions
// Revision : 1.0
// Notes :
// Target MCU : Atmel AVR series
// Editor Tabs : 4
//
// Revision History:
// When Who Description of change
// ----------- ----------- -----------------------
// 10-Sep-2002 pstang Created the program
//*****************************************************************************
//----- Include Files ---------------------------------------------------------
#include <avr/io.h> // include I/O definitions (port names, pin names, etc)
#include <avr/interrupt.h> // include interrupt support
//#include <math.h>
#include <stdlib.h>
#include "global.h" // include our global settings
#include "uart2.h" // include dual-uart function library
#include "rprintf.h" // include printf function library
#include "timer.h" // include timer function library (timing, PWM, etc)
#include "gps.h" // include gps data support
#include "tsip.h" // include TSIP gps packet handling
#include "nmea.h" // include NMEA gps packet handling
#include "vt100.h" // include VT100 terminal commands
// uartRxOverflow is a global variable defined in uart.c/uart2.c
// we define it here as <extern> here so that we can use its value
// in code contained in this file
extern unsigned short uartRxOverflow[2];
void gpsTsipTest(void);
void gpsNmeaTest(void);
//----- Begin Code ------------------------------------------------------------
int main(void)
{
// initialize our libraries
// initialize the UART (serial port)
uartInit();
// set the baud rate of UART 0 for our debug/reporting output
uartSetBaudRate(0,9600);
// set uart0SendByte as the output for all rprintf statements
rprintfInit(uart0SendByte);
// initialize the timer system
timerInit();
// initialize vt100 library
vt100Init();
// print a little intro message so we know things are working
vt100ClearScreen();
rprintf("\r\nWelcome to GPS Test!\r\n");
// run example gps processing loop
// (pick the one appropriate for your GPS packet format)
// gpsTsipTest();
gpsNmeaTest();
return 0;
}
void gpsTsipTest(void)
{
// set the baud rate of UART 1 for TSIP
uartSetBaudRate(1,9600);
// clear screen
vt100ClearScreen();
// initialize gps library
gpsInit();
// initialize gps packet decoder
tsipInit(uart1SendByte); // use uart1 for tsip packet output
// begin gps packet processing loop
while(1)
{
// process received gps packets until receive buffer is exhausted
while( tsipProcess(uartGetRxBuffer(1)) );
// set cursor position to top left of screen
vt100SetCursorPos(0,0);
// print/dump current formatted GPS data
gpsInfoPrint();
// print UART 1 overflow status to verify that we're processing packets
// fast enough and that our receive buffer is large enough
rprintf("Uart1RxOvfl: %d\r\n",uartRxOverflow[1]);
// pause for 100ms
timerPause(100);
}
}
void gpsNmeaTest(void)
{
// set the baud rate of UART 1 for NMEA
uartSetBaudRate(1,4800);
// clear screen
vt100ClearScreen();
// initialize gps library
gpsInit();
// initialize gps packet decoder
nmeaInit();
// begin gps packet processing loop
while(1)
{
// process received gps packets until receive buffer is exhausted
while( nmeaProcess(uartGetRxBuffer(1)) );
// set cursor position to top left of screen
vt100SetCursorPos(0,0);
// print/dump current formatted GPS data
gpsInfoPrint();
// print UART 1 overflow status to verify that we're processing packets
// fast enough and that our receive buffer is large enough
rprintf("Uart1RxOvfl: %d\r\n",uartRxOverflow[1]);
// pause for 100ms
timerPause(100);
}
}