btnrf52-gps/lib/NeoGPS/extras/doc/Examples.md

Examples
======
In an attempt to be reusable in a variety of different programming styles, this library supports:
* sync or async operation (main `loop()` vs interrupt processing)
* fused or not fused (multiple reports into one fix)
* optional buffering of fixes
* optional floating point
* configurable message sets, including hooks for implementing proprietary NMEA messages
* configurable message fields
* multiple protocols from same device

These example programs demonstrate how to use the classes in the different programming styles:
* [NMEA](/examples/NMEA/NMEA.ino) - sync, single fix, standard NMEA only (RMC sentence only)
* [NMEA_isr](/examples/NMEA_isr/NMEA_isr.ino) - **async**, single fix, standard NMEA only (RMC sentence only)
* [NMEAblink](/examples/NMEAblink/NMEAblink.ino) - sync, single fix, standard NMEA only, minimal example, only blinks LED
* [NMEAloc](/examples/NMEAloc/NMEAloc.ino) - sync, single fix, minimal example using only standard NMEA RMC sentence
* [NMEAlocDMS](/examples/NMEAlocDMS/NMEAlocDMS.ino) - same as NMEAloc.ino, but displays location in Degrees, Minutes and Seconds
* [NMEAaverage](/examples/NMEAaverage/NMEAaverage.ino) - sync, single fix, averages a high-accuracy location over time
* [NMEAtimezone](/examples/NMEAtimezone/NMEAtimezone.ino) - same as NMEAloc.ino, but displays local time instead of UTC (GMT)
* [NMEASDlog](/examples/NMEASDlog/NMEASDlog.ino) - **async**, buffered fixes, standard NMEA only (RMC sentence only), logging to SD card
* [PUBX](/examples/PUBX/PUBX.ino) - sync, coherent fix, standard NMEA + ublox proprietary NMEA
* [ublox](/examples/ublox/ublox.ino) - sync or **async**, coherent fix, ublox binary protocol UBX

Preprocessor symbol `USE_FLOAT` can be used in [Streamers.cpp](/src/Streamers.cpp) to select integer or floating-point output.

See also important information in `NMEAorder.ino` below, and the [Installing](Installing.md), [Configurations](Configurations.md) and [Troubleshooting](Troubleshooting.md) sections.

##Diagnostics
Several programs are provided to help diagnose GPS device problems:

### Connection and Baud Rate

* [NMEAdiagnostic](/examples/NMEAdiagnostic/NMEAdiagnostic.ino)
 
This program listens for sentences and, if none are detected, tries a different baud rate.  When sentences are detected, the correct baud rate is displayed.  The received data may help you determine the problem (e.g., dropped characters or binary protocol).

See the [Troubleshooting](Troubleshooting.md) section for more details.

### Sentence order

* [NMEAorder](/examples/NMEAorder/NMEAorder.ino)

This program determines the order of NMEA sentences sent during each 1-second interval:

```
NMEAorder.INO: started
fix object size = 44
NMEAGPS object size = 72
Looking for GPS device on Serial1
.....................
Sentence order in each 1-second interval:
  RMC
  VTG
  GGA
  GSA
  GSV
  GSV
  GSV
  GSV
  GLL
```

The last sentence is of particular interest, as it is used to determine when the quiet time begins.  All example programs **depend** on knowing the last sentence (see [Quiet Time Interval](Troubleshooting#quiet-time-interval)).

### Self-test Program

* [NMEAtest](/examples/NMEAtest/NMEAtest.ino)

For this program, **No GPS device is required**.  Test bytes are streamed from PROGMEM character arrays.  Various strings are passed to `decode` and the expected pass or fail results are displayed.  If **NeoGPS** is correctly configured, you should see this on your SerialMonitor:

```
NMEA test: started
fix object size = 44
NMEAGPS object size = 72
Test string length = 75
PASSED 11 tests.
------ Samples ------
Results format:
  Status,UTC Date/Time,Lat,Lon,Hdg,Spd,Alt,HDOP,VDOP,PDOP,Lat err,Lon err,Alt err,Sats,[sat],

Input:  $GPGGA,092725.00,4717.11399,N,00833.91590,E,1,8,1.01,499.6,M,48.0,M,,0*5B
Results:  3,2000-01-01 09:27:25.00,472852332,85652650,,,49960,1010,,,,,,8,[],

Input:  $GPRMC,092725.00,A,2520.69213,S,13101.94948,E,0.004,77.52,091202,,,A*43
Results:  3,2002-12-09 09:27:25.00,-253448688,1310324913,7752,4,,,,,,,,,[],

Input:  $GPRMC,162254.00,A,3647.6643,N,8957.5193,W,0.820,188.36,110706,,,A*49
Results:  3,2006-07-11 16:22:54.00,367944050,-899586550,18836,820,,,,,,,,,[],

Input:  $GPRMC,235959.99,A,2149.65726,N,16014.69256,W,8.690,359.99,051015,9.47,E,A*26
Results:  3,2015-10-05 23:59:59.99,218276210,-1602448760,35999,8690,,,,,,,,,[],

Input:  $GNGLL,0105.60764,S,03701.70233,E,225627.00,A,A*6B
Results:  3,2000-01-01 22:56:27.00,-10934607,370283722,,,,,,,,,,,[],

Input:  $GPGGA,064951.000,2307.1256,N,12016.4438,E,1,8,0.95,39.9,M,17.8,M,,*63
Results:  3,2000-01-01 06:49:51.00,231187600,1202740633,,,3990,950,,,,,,8,[],

Input:  $GPRMC,064951.000,A,2307.1256,N,12016.4438,E,0.03,165.48,260406,3.05,W,A*2C
Results:  3,2006-04-26 06:49:51.00,231187600,1202740633,16548,30,,,,,,,,,[],

Input:  $GPVTG,165.48,T,,M,0.03,N,0.06,K,A*36
Results:  3,,,,16548,30,,,,,,,,,[],

Input:  $GPGSA,A,3,29,21,26,15,18,09,06,10,,,,,2.32,0.95,2.11*00
Results:  3,,,,,,,950,,2320,,,,,[],

Input:  $GPGSV,3,1,09,29,36,029,42,21,46,314,43,26,44,020,43,15,21,321,39*7D
Results:  ,,,,,,,,,,,,,9,[29,21,26,15,],

Input:  $GPGSV,3,2,09,18,26,314,40,09,57,170,44,06,20,229,37,10,26,084,37*77
Results:  ,,,,,,,,,,,,,9,[29,21,26,15,18,9,6,10,],

Input:  $GPGSV,3,3,09,07,,,26*73
Results:  ,,,,,,,,,,,,,9,[29,21,26,15,18,9,6,10,7,],

Input:  $GNGST,082356.00,1.8,,,,1.7,1.3,2.2*60
Results:  ,2000-01-01 08:23:56.00,,,,,,,,,170,130,,,[29,21,26,15,18,9,6,10,7,],

Input:  $GNRMC,083559.00,A,4717.11437,N,00833.91522,E,0.004,77.52,091202,,,A,V*33
Results:  3,2002-12-09 08:35:59.00,472852395,85652537,7752,4,,,,,,,,,[29,21,26,15,18,9,6,10,7,],

Input:  $GNGGA,092725.00,4717.11399,N,00833.91590,E,1,08,1.01,499.6,M,48.0,M,,*45
Results:  3,2000-01-01 09:27:25.00,472852332,85652650,,,49960,1010,,,,,,8,[29,21,26,15,18,9,6,10,7,],

Input:  $GLZDA,225627.00,21,09,2015,00,00*70
Results:  ,2015-09-21 22:56:27.00,,,,,,,,,,,,,[29,21,26,15,18,9,6,10,7,],

--- floating point conversion tests ---

Input:  $GPGGA,092725.00,3242.9000,N,11705.8169,W,1,8,1.01,499.6,M,48.0,M,,0*49
Results:  3,2000-01-01 09:27:25.00,327150000,-1170969483,,,49960,1010,,,,,,8,[29,21,26,15,18,9,6,10,7,],

Input:  $GPGGA,092725.00,3242.9000,N,11705.8170,W,1,8,1.01,499.6,M,48.0,M,,0*41
Results:  3,2000-01-01 09:27:25.00,327150000,-1170969500,,,49960,1010,,,,,,8,[29,21,26,15,18,9,6,10,7,],

Input:  $GPGGA,092725.00,3242.9000,N,11705.8171,W,1,8,1.01,499.6,M,48.0,M,,0*40
Results:  3,2000-01-01 09:27:25.00,327150000,-1170969517,,,49960,1010,,,,,,8,[29,21,26,15,18,9,6,10,7,],

Input:  $GPGGA,092725.00,3242.9000,N,11705.8172,W,1,8,1.01,499.6,M,48.0,M,,0*43
Results:  3,2000-01-01 09:27:25.00,327150000,-1170969533,,,49960,1010,,,,,,8,[29,21,26,15,18,9,6,10,7,],

Input:  $GPGGA,092725.00,3242.9000,N,11705.8173,W,1,8,1.01,499.6,M,48.0,M,,0*42
Results:  3,2000-01-01 09:27:25.00,327150000,-1170969550,,,49960,1010,,,,,,8,[29,21,26,15,18,9,6,10,7,],

Input:  $GPGGA,092725.00,3242.9000,N,11705.8174,W,1,8,1.01,499.6,M,48.0,M,,0*45
Results:  3,2000-01-01 09:27:25.00,327150000,-1170969567,,,49960,1010,,,,,,8,[29,21,26,15,18,9,6,10,7,],

Input:  $GPGGA,092725.00,3242.9000,N,11705.8175,W,1,8,1.01,499.6,M,48.0,M,,0*44
Results:  3,2000-01-01 09:27:25.00,327150000,-1170969583,,,49960,1010,,,,,,8,[29,21,26,15,18,9,6,10,7,],

Input:  $GPGGA,092725.00,3242.9000,N,11705.8176,W,1,8,1.01,499.6,M,48.0,M,,0*47
Results:  3,2000-01-01 09:27:25.00,327150000,-1170969600,,,49960,1010,,,,,,8,[29,21,26,15,18,9,6,10,7,],
```

### Benchmark

*  [NMEAbenchmark](/examples/NMEAbenchmark/NMEAbenchmark.ino)
  
For this program, **No GPS device is required**.  GGA, RMC and GSV sentences can be tested.  Bytes are streamed from PROGMEM character arrays and parsed to determine execution times.  All times are displayed in microseconds:

```
NMEAbenchmark: started
fix object size = 22
NMEAGPS object size = 29
GGA time = 844
GGA no lat time = 497
```
First Commit 2020-07-08 21:46:02 +00:00			`Examples`
			`======`
			`In an attempt to be reusable in a variety of different programming styles, this library supports:`
			* sync or async operation (main `loop()` vs interrupt processing)
			`* fused or not fused (multiple reports into one fix)`
			`* optional buffering of fixes`
			`* optional floating point`
			`* configurable message sets, including hooks for implementing proprietary NMEA messages`
			`* configurable message fields`
			`* multiple protocols from same device`

			`These example programs demonstrate how to use the classes in the different programming styles:`
			`* [NMEA](/examples/NMEA/NMEA.ino) - sync, single fix, standard NMEA only (RMC sentence only)`
			`* [NMEA_isr](/examples/NMEA_isr/NMEA_isr.ino) - async, single fix, standard NMEA only (RMC sentence only)`
			`* [NMEAblink](/examples/NMEAblink/NMEAblink.ino) - sync, single fix, standard NMEA only, minimal example, only blinks LED`
			`* [NMEAloc](/examples/NMEAloc/NMEAloc.ino) - sync, single fix, minimal example using only standard NMEA RMC sentence`
			`* [NMEAlocDMS](/examples/NMEAlocDMS/NMEAlocDMS.ino) - same as NMEAloc.ino, but displays location in Degrees, Minutes and Seconds`
			`* [NMEAaverage](/examples/NMEAaverage/NMEAaverage.ino) - sync, single fix, averages a high-accuracy location over time`
			`* [NMEAtimezone](/examples/NMEAtimezone/NMEAtimezone.ino) - same as NMEAloc.ino, but displays local time instead of UTC (GMT)`
			`* [NMEASDlog](/examples/NMEASDlog/NMEASDlog.ino) - async, buffered fixes, standard NMEA only (RMC sentence only), logging to SD card`
			`* [PUBX](/examples/PUBX/PUBX.ino) - sync, coherent fix, standard NMEA + ublox proprietary NMEA`
			`* [ublox](/examples/ublox/ublox.ino) - sync or async, coherent fix, ublox binary protocol UBX`

			Preprocessor symbol `USE_FLOAT` can be used in [Streamers.cpp](/src/Streamers.cpp) to select integer or floating-point output.

			See also important information in `NMEAorder.ino` below, and the [Installing](Installing.md), [Configurations](Configurations.md) and [Troubleshooting](Troubleshooting.md) sections.

			`##Diagnostics`
			`Several programs are provided to help diagnose GPS device problems:`

			`### Connection and Baud Rate`

			`* [NMEAdiagnostic](/examples/NMEAdiagnostic/NMEAdiagnostic.ino)`

			`This program listens for sentences and, if none are detected, tries a different baud rate. When sentences are detected, the correct baud rate is displayed. The received data may help you determine the problem (e.g., dropped characters or binary protocol).`

			`See the [Troubleshooting](Troubleshooting.md) section for more details.`

			`### Sentence order`

			`* [NMEAorder](/examples/NMEAorder/NMEAorder.ino)`

			`This program determines the order of NMEA sentences sent during each 1-second interval:`

			```
			`NMEAorder.INO: started`
			`fix object size = 44`
			`NMEAGPS object size = 72`
			`Looking for GPS device on Serial1`
			`.....................`
			`Sentence order in each 1-second interval:`
			`RMC`
			`VTG`
			`GGA`
			`GSA`
			`GSV`
			`GSV`
			`GSV`
			`GSV`
			`GLL`
			```

			`The last sentence is of particular interest, as it is used to determine when the quiet time begins. All example programs depend on knowing the last sentence (see [Quiet Time Interval](Troubleshooting#quiet-time-interval)).`

			`### Self-test Program`

			`* [NMEAtest](/examples/NMEAtest/NMEAtest.ino)`

			For this program, No GPS device is required. Test bytes are streamed from PROGMEM character arrays. Various strings are passed to `decode` and the expected pass or fail results are displayed. If NeoGPS is correctly configured, you should see this on your SerialMonitor:

			```
			`NMEA test: started`
			`fix object size = 44`
			`NMEAGPS object size = 72`
			`Test string length = 75`
			`PASSED 11 tests.`
			`------ Samples ------`
			`Results format:`
			`Status,UTC Date/Time,Lat,Lon,Hdg,Spd,Alt,HDOP,VDOP,PDOP,Lat err,Lon err,Alt err,Sats,[sat],`

			`Input: $GPGGA,092725.00,4717.11399,N,00833.91590,E,1,8,1.01,499.6,M,48.0,M,,0*5B`
			`Results: 3,2000-01-01 09:27:25.00,472852332,85652650,,,49960,1010,,,,,,8,[],`

			`Input: $GPRMC,092725.00,A,2520.69213,S,13101.94948,E,0.004,77.52,091202,,,A*43`
			`Results: 3,2002-12-09 09:27:25.00,-253448688,1310324913,7752,4,,,,,,,,,[],`

			`Input: $GPRMC,162254.00,A,3647.6643,N,8957.5193,W,0.820,188.36,110706,,,A*49`
			`Results: 3,2006-07-11 16:22:54.00,367944050,-899586550,18836,820,,,,,,,,,[],`

			`Input: $GPRMC,235959.99,A,2149.65726,N,16014.69256,W,8.690,359.99,051015,9.47,E,A*26`
			`Results: 3,2015-10-05 23:59:59.99,218276210,-1602448760,35999,8690,,,,,,,,,[],`

			`Input: $GNGLL,0105.60764,S,03701.70233,E,225627.00,A,A*6B`
			`Results: 3,2000-01-01 22:56:27.00,-10934607,370283722,,,,,,,,,,,[],`

			`Input: $GPGGA,064951.000,2307.1256,N,12016.4438,E,1,8,0.95,39.9,M,17.8,M,,*63`
			`Results: 3,2000-01-01 06:49:51.00,231187600,1202740633,,,3990,950,,,,,,8,[],`

			`Input: $GPRMC,064951.000,A,2307.1256,N,12016.4438,E,0.03,165.48,260406,3.05,W,A*2C`
			`Results: 3,2006-04-26 06:49:51.00,231187600,1202740633,16548,30,,,,,,,,,[],`

			`Input: $GPVTG,165.48,T,,M,0.03,N,0.06,K,A*36`
			`Results: 3,,,,16548,30,,,,,,,,,[],`

			`Input: $GPGSA,A,3,29,21,26,15,18,09,06,10,,,,,2.32,0.95,2.11*00`
			`Results: 3,,,,,,,950,,2320,,,,,[],`

			`Input: $GPGSV,3,1,09,29,36,029,42,21,46,314,43,26,44,020,43,15,21,321,39*7D`
			`Results: ,,,,,,,,,,,,,9,[29,21,26,15,],`

			`Input: $GPGSV,3,2,09,18,26,314,40,09,57,170,44,06,20,229,37,10,26,084,37*77`
			`Results: ,,,,,,,,,,,,,9,[29,21,26,15,18,9,6,10,],`

			`Input: $GPGSV,3,3,09,07,,,26*73`
			`Results: ,,,,,,,,,,,,,9,[29,21,26,15,18,9,6,10,7,],`

			`Input: $GNGST,082356.00,1.8,,,,1.7,1.3,2.2*60`
			`Results: ,2000-01-01 08:23:56.00,,,,,,,,,170,130,,,[29,21,26,15,18,9,6,10,7,],`

			`Input: $GNRMC,083559.00,A,4717.11437,N,00833.91522,E,0.004,77.52,091202,,,A,V*33`
			`Results: 3,2002-12-09 08:35:59.00,472852395,85652537,7752,4,,,,,,,,,[29,21,26,15,18,9,6,10,7,],`

			`Input: $GNGGA,092725.00,4717.11399,N,00833.91590,E,1,08,1.01,499.6,M,48.0,M,,*45`
			`Results: 3,2000-01-01 09:27:25.00,472852332,85652650,,,49960,1010,,,,,,8,[29,21,26,15,18,9,6,10,7,],`

			`Input: $GLZDA,225627.00,21,09,2015,00,00*70`
			`Results: ,2015-09-21 22:56:27.00,,,,,,,,,,,,,[29,21,26,15,18,9,6,10,7,],`

			`--- floating point conversion tests ---`

			`Input: $GPGGA,092725.00,3242.9000,N,11705.8169,W,1,8,1.01,499.6,M,48.0,M,,0*49`
			`Results: 3,2000-01-01 09:27:25.00,327150000,-1170969483,,,49960,1010,,,,,,8,[29,21,26,15,18,9,6,10,7,],`

			`Input: $GPGGA,092725.00,3242.9000,N,11705.8170,W,1,8,1.01,499.6,M,48.0,M,,0*41`
			`Results: 3,2000-01-01 09:27:25.00,327150000,-1170969500,,,49960,1010,,,,,,8,[29,21,26,15,18,9,6,10,7,],`

			`Input: $GPGGA,092725.00,3242.9000,N,11705.8171,W,1,8,1.01,499.6,M,48.0,M,,0*40`
			`Results: 3,2000-01-01 09:27:25.00,327150000,-1170969517,,,49960,1010,,,,,,8,[29,21,26,15,18,9,6,10,7,],`

			`Input: $GPGGA,092725.00,3242.9000,N,11705.8172,W,1,8,1.01,499.6,M,48.0,M,,0*43`
			`Results: 3,2000-01-01 09:27:25.00,327150000,-1170969533,,,49960,1010,,,,,,8,[29,21,26,15,18,9,6,10,7,],`

			`Input: $GPGGA,092725.00,3242.9000,N,11705.8173,W,1,8,1.01,499.6,M,48.0,M,,0*42`
			`Results: 3,2000-01-01 09:27:25.00,327150000,-1170969550,,,49960,1010,,,,,,8,[29,21,26,15,18,9,6,10,7,],`

			`Input: $GPGGA,092725.00,3242.9000,N,11705.8174,W,1,8,1.01,499.6,M,48.0,M,,0*45`
			`Results: 3,2000-01-01 09:27:25.00,327150000,-1170969567,,,49960,1010,,,,,,8,[29,21,26,15,18,9,6,10,7,],`

			`Input: $GPGGA,092725.00,3242.9000,N,11705.8175,W,1,8,1.01,499.6,M,48.0,M,,0*44`
			`Results: 3,2000-01-01 09:27:25.00,327150000,-1170969583,,,49960,1010,,,,,,8,[29,21,26,15,18,9,6,10,7,],`

			`Input: $GPGGA,092725.00,3242.9000,N,11705.8176,W,1,8,1.01,499.6,M,48.0,M,,0*47`
			`Results: 3,2000-01-01 09:27:25.00,327150000,-1170969600,,,49960,1010,,,,,,8,[29,21,26,15,18,9,6,10,7,],`
			```

			`### Benchmark`

			`* [NMEAbenchmark](/examples/NMEAbenchmark/NMEAbenchmark.ino)`

			`For this program, No GPS device is required. GGA, RMC and GSV sentences can be tested. Bytes are streamed from PROGMEM character arrays and parsed to determine execution times. All times are displayed in microseconds:`

			```
			`NMEAbenchmark: started`
			`fix object size = 22`
			`NMEAGPS object size = 29`
			`GGA time = 844`
			`GGA no lat time = 497`
			```