btnrf52-gps/lib/NeoGPS/examples/NMEAorder/NMEAorder.ino

248 lines
7.7 KiB
Arduino
Raw Normal View History

2020-07-08 21:46:02 +00:00
#include <NMEAGPS.h>
//======================================================================
// Program: NMEAorder.ino
//
// Description: This example program records the order of sentences
// received in each 1-second interval. The last sentence is
// important to know, as that will be used to determine when the
// GPS quiet time is starting (see NMEA.ino). It is safe to perform
// time-consuming operations at that point, and the risk of losing
// characters will be minimized (see comments in 'GPSloop').
//
// Prerequisites:
// 1) Your GPS device has been correctly powered.
// Be careful when connecting 3.3V devices.
// 2) Your GPS device is correctly connected to an Arduino serial port.
// See GPSport.h for the default connections.
// 3) You know the default baud rate of your GPS device
// Use NMEAdiagnostic.ino to scan for the correct baud rate.
// 4) NMEAGPS_RECOGNIZE_ALL must be enabled in NMEAGPS_cfg.h
//
// 'Serial' is for debug output to the Serial Monitor window.
//
// License:
// Copyright (C) 2014-2017, SlashDevin
//
// This file is part of NeoGPS
//
// NeoGPS is free software: you can redistribute it and/or modify
// it under the terms of the GNU General Public License as published by
// the Free Software Foundation, either version 3 of the License, or
// (at your option) any later version.
//
// NeoGPS is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU General Public License for more details.
//
// You should have received a copy of the GNU General Public License
// along with NeoGPS. If not, see <http://www.gnu.org/licenses/>.
//
//======================================================================
#include <GPSport.h>
//------------------------------------------------------------
// Check configuration
#ifndef NMEAGPS_RECOGNIZE_ALL
#error You must define NMEAGPS_RECOGNIZE_ALL in NMEAGPS_cfg.h!
#endif
#ifdef NMEAGPS_INTERRUPT_PROCESSING
#error You must *NOT* define NMEAGPS_INTERRUPT_PROCESSING in NMEAGPS_cfg.h!
#endif
static NMEAGPS gps ; // This parses received characters
static uint32_t last_rx = 0L; // The last millis() time a character was
// received from GPS. This is used to
// determine when the GPS quiet time begins.
//------------------------------------------------------------
static NMEAGPS::nmea_msg_t last_sentence_in_interval = NMEAGPS::NMEA_UNKNOWN;
static uint8_t prev_sentence_count = 0;
static uint8_t sentence_count = 0;
static const uint8_t MAX_SENTENCES = 20; // per second
static NMEAGPS::nmea_msg_t sentences[ MAX_SENTENCES ];
static void recordSentenceTypes()
{
// Always save the last sentence, even if we're full
sentences[ sentence_count ] = gps.nmeaMessage;
if (sentence_count < MAX_SENTENCES-1)
sentence_count++;
} // recordSentenceTypes
//-----------------------------------------------------------
static void printSentenceOrder()
{
DEBUG_PORT.println( F("\nSentence order in each 1-second interval:") );
for (uint8_t i=0; i<sentence_count; i++) {
DEBUG_PORT.print( F(" ") );
DEBUG_PORT.println( gps.string_for( sentences[i] ) );
}
if (sentences[sentence_count-1] == LAST_SENTENCE_IN_INTERVAL) {
DEBUG_PORT.print( F("\nSUCCESS: LAST_SENTENCE_IN_INTERVAL is correctly set to NMEAGPS::NMEA_") );
} else {
DEBUG_PORT.print( F("\nERROR: LAST_SENTENCE_IN_INTERVAL is incorrectly set to NMEAGPS::NMEA_") );
DEBUG_PORT.print( gps.string_for( LAST_SENTENCE_IN_INTERVAL ) );
DEBUG_PORT.print( F("!\n You must change this line in NMEAGPS_cfg.h:\n"
" #define LAST_SENTENCE_IN_INTERVAL NMEAGPS::NMEA_") );
}
DEBUG_PORT.println( gps.string_for( sentences[sentence_count-1] ) );
DEBUG_PORT.println();
} // printSentenceOrder
//------------------------------------
static void GPSloop()
{
while (gpsPort.available()) {
last_rx = millis();
if (gps.decode( gpsPort.read() ) == NMEAGPS::DECODE_COMPLETED) {
if (last_sentence_in_interval == NMEAGPS::NMEA_UNKNOWN) {
// Still building the list
recordSentenceTypes();
DEBUG_PORT.print( '.' );
}
}
}
} // GPSloop
//----------------------------------------------------------------
// Determine whether the GPS quiet time has started.
//
// This is only needed in the example programs, which must work
// for *any* GPS device.
//
// It also "pretends" to have a quiet time once per
// second so that some debug messages are emitted. This allows
// beginners to see whether the GPS device is correctly
// connected and functioning.
static bool quietTimeStarted()
{
uint32_t current_ms = millis();
uint32_t ms_since_last_rx = current_ms - last_rx;
if (ms_since_last_rx > 5) {
// The GPS device has not sent any characters for at least 5ms.
// See if we've been getting chars sometime during the last second.
// If not, the GPS may not be working or connected properly.
bool getting_chars = (ms_since_last_rx < 1000UL);
static uint32_t last_quiet_time = 0UL;
bool just_went_quiet =
(((int32_t) (last_rx - last_quiet_time)) > 10L);
bool next_quiet_time =
((current_ms - last_quiet_time) >= 1000UL);
if ((getting_chars && just_went_quiet)
||
(!getting_chars && next_quiet_time)) {
last_quiet_time = current_ms; // Remember for next loop
// If we're not getting good data, make some suggestions.
bool allDone = false;
if (!getting_chars) {
DEBUG_PORT.println( F("\nCheck GPS device and/or connections. No characters received.\n") );
allDone = true;
} else if (sentence_count == 0) {
DEBUG_PORT.println( F("No valid sentences, but characters are being received.\n"
"Check baud rate or device protocol configuration.\n" ) );
allDone = true;
}
if (allDone) {
DEBUG_PORT.print( F("\nEND.\n") );
for (;;)
; // hang!
}
// No problem, just a real GPS quiet time.
return true;
}
}
return false;
} // quietTimeStarted
//----------------------------------------------------------------
// Figure out what sentence the GPS device sends
// as the last sentence in each 1-second interval.
static void watchForLastSentence()
{
if (quietTimeStarted()) {
if (prev_sentence_count != sentence_count) {
// We have NOT received two full intervals of sentences with
// the same number of sentences in each interval. Start
// recording again.
prev_sentence_count = sentence_count;
sentence_count = 0;
} else if (sentence_count > 0) {
// Got it!
last_sentence_in_interval = sentences[ sentence_count-1 ];
}
}
} // watchForLastSentence
//--------------------------
void setup()
{
DEBUG_PORT.begin(9600);
while (!DEBUG_PORT)
;
DEBUG_PORT.print( F("NMEAorder.INO: started\n") );
DEBUG_PORT.print( F("fix object size = ") );
DEBUG_PORT.println( sizeof(gps.fix()) );
DEBUG_PORT.print( F("NMEAGPS object size = ") );
DEBUG_PORT.println( sizeof(gps) );
DEBUG_PORT.println( F("Looking for GPS device on " GPS_PORT_NAME) );
DEBUG_PORT.flush();
gpsPort.begin( 9600 );
}
//--------------------------
void loop()
{
GPSloop();
if (last_sentence_in_interval == NMEAGPS::NMEA_UNKNOWN)
watchForLastSentence();
else {
printSentenceOrder();
for (;;)
; // All done!
}
}