Esempio n. 1
0
bool GGA::Parse( const SENTENCE& sentence )
{
//   ASSERT_VALID( this );

   /*
   ** GGA - Global Positioning System Fix Data
   ** Time, Position and fix related data fora GPS receiver.
   **
   **                                                      11
   **        1         2       3 4        5 6 7  8   9  10 |  12 13  14   15
   **        |         |       | |        | | |  |   |   | |   | |   |    |
   ** $--GGA,hhmmss.ss,llll.ll,a,yyyyy.yy,a,x,xx,x.x,x.x,M,x.x,M,x.x,xxxx*hh<CR><LF>
   **
   ** Field Number:
   **  1) Universal Time Coordinated (UTC)
   **  2) Latitude
   **  3) N or S (North or South)
   **  4) Longitude
   **  5) E or W (East or West)
   **  6) GPS Quality Indicator,
   **     0 - fix not available,
   **     1 - GPS fix,
   **     2 - Differential GPS fix
   **  7) Number of satellites in view, 00 - 12
   **  8) Horizontal Dilution of precision
   **  9) Antenna Altitude above/below mean-sea-level (geoid)
   ** 10) Units of antenna altitude, meters
   ** 11) Geoidal separation, the difference between the WGS-84 earth
   **     ellipsoid and mean-sea-level (geoid), "-" means mean-sea-level
   **     below ellipsoid
   ** 12) Units of geoidal separation, meters
   ** 13) Age of differential GPS data, time in seconds since last SC104
   **     type 1 or 9 update, null field when DGPS is not used
   ** 14) Differential reference station ID, 0000-1023
   ** 15) Checksum
   */

   /*
   ** First we check the checksum...
   */

   if ( sentence.IsChecksumBad( 15 ) ==NTrue )
   {
      SetErrorMessage( _T("Invalid Checksum" ));
      return( FALSE );
   }

   UTCTime                         = sentence.Field( 1 );
   Position.Parse( 2, 3, 4, 5, sentence );
   GPSQuality                      = sentence.Integer( 6 );
   NumberOfSatellitesInUse         = sentence.Integer( 7 );
   HorizontalDilutionOfPrecision   = sentence.Double( 8 );
   AntennaAltitudeMeters           = sentence.Double( 9 );
   GeoidalSeparationMeters         = sentence.Double( 11 );
   AgeOfDifferentialGPSDataSeconds = sentence.Double( 13 );
   DifferentialReferenceStationID  = sentence.Integer( 14 );

   return( TRUE );
}
Esempio n. 2
0
BOOL STN::Parse( const SENTENCE& sentence )
{
   ASSERT_VALID( this );

   /*
   ** STN - Multiple Data ID
   **
   **        1   2
   **        |   |
   ** $--STN,x.x,*hh<CR><LF>
   **
   ** Field Number: 
   **  1) Talker ID Number
   **  2) Checksum
   */

   /*
   ** First we check the checksum...
   */

   if ( sentence.IsChecksumBad( 2 ) == True )
   {
      SetErrorMessage( "Invalid Checksum" );
      return( FALSE );
   } 

   TalkerIDNumber   = sentence.Integer( 1 );

   return( TRUE );
}
Esempio n. 3
0
bool VWE::Parse( const SENTENCE& sentence )
{
   /*
   ** VWE - Wind Track Efficiency
   **
   **        1   2
   **        |   |
   ** $--VWE,x.x,*hh<CR><LF>
   **
   ** Field Number: 
   **  1) Efficiency, Percent
   **  2) Checksum
   */

   /*
   ** First we check the checksum...
   */

   if ( sentence.IsChecksumBad( 2 ) == True )
   {
      SetErrorMessage( "Invalid Checksum" );
      return( false );
   } 

   EfficiencyPercent = sentence.Integer( 1 );

   return( true );
}
Esempio n. 4
0
void SATELLITE_DATA::Parse( int first_field_number, const SENTENCE& sentence )
{
   SatelliteNumber    = sentence.Integer( first_field_number );
   ElevationDegrees   = sentence.Integer( first_field_number + 1 );
   AzimuthDegreesTrue = sentence.Integer( first_field_number + 2 );
   
   std::string field_data = sentence.Field( first_field_number + 3 );

   if ( field_data == "" )
   {
      SignalToNoiseRatio = (-1);
   }
   else
   {
      SignalToNoiseRatio = sentence.Integer( first_field_number + 3 );
   }
     
}
Esempio n. 5
0
bool TRF::Parse( const SENTENCE& sentence )
{
   /*
   ** TRF - TRANSIT Fix Data
   **                                                                    13
   **        1         2      3       4 5        6 7   8   9   10  11  12|
   **        |         |      |       | |        | |   |   |   |   |   | |
   ** $--TRF,hhmmss.ss,xxxxxx,llll.ll,a,yyyyy.yy,a,x.x,x.x,x.x,x.x,xxx,A*hh<CR><LF>
   **
   ** Field Number: 
   **  1) UTC Time
   **  2) Date, ddmmyy
   **  3) Latitude
   **  4) N or S
   **  5) Longitude
   **  6) E or W
   **  7) Elevation Angle
   **  8) Number of iterations
   **  9) Number of Doppler intervals
   ** 10) Update distance, nautical miles
   ** 11) Satellite ID
   ** 12) Data Validity
   ** 13) Checksum
   */

   /*
   ** First we check the checksum...
   */

   if ( sentence.IsChecksumBad( 13 ) == True )
   {
      SetErrorMessage( "Invalid Checksum" );
      return( false );
   } 

   UTCTime                     = sentence.Field( 1 );
   Time                        = sentence.Time( 1 );
   Date                        = sentence.Field( 2 );
   Position.Parse( 3, 4, 5, 6, sentence );
   ElevationAngle              = sentence.Double( 7 );
   NumberOfIterations          = sentence.Double( 8 );
   NumberOfDopplerIntervals    = sentence.Double( 9 );
   UpdateDistanceNauticalMiles = sentence.Double( 10 );
   SatelliteID                 = sentence.Integer( 11 );
   IsDataValid                 = sentence.Boolean( 12 );

   return( true );
}
Esempio n. 6
0
bool GSV::Parse( const SENTENCE& sentence )
{
/*
  $GPGSV,2,1,08,01,40,083,46,02,17,308,41,12,07,344,39,14,22,228,45*75

Where:
      GSV          Satellites in view
      2            Number of sentences for full data
      1            sentence 1 of 2
      08           Number of satellites in view

      01           Satellite PRN number
      40           Elevation, degrees
      083          Azimuth, degrees
      46           SNR - higher is better
           for up to 4 satellites per sentence
      *75          the checksum data, always begins with *
*/


   /*
   ** GSV - GPS satellite Status
   **
   **        1 2 3 4 5 6 7         n
   **        | | | | | | |         |
   ** $--GSV,x,x,x,x,x,x,x.........*hh<CR><LF>
   **
   ** Field Number:
   **  1) Number of sentences for full data
   **  2) sentence number
   **  3) Number of satellites in view
   **  4) Satellite PRN number
   **  5) Elevation, degrees
   **  6) Azimuth, degrees
   **  7) SNR - higher is better
   **  Fields 4-7 may repeat up to 4 times per sentence
   **  n) Checksum
   */

   /*
   ** Ignore the checksum...
   */


   SatsInView = sentence.Integer( 3 );

   return( TRUE );
}
Esempio n. 7
0
bool RPM::Parse( const SENTENCE& sentence )
{
   /*
   ** RPM - Revolutions
   **
   **        1 2 3   4   5 6
   **        | | |   |   | |
   ** $--RPM,a,x,x.x,x.x,A*hh<CR><LF>
   **
   ** Field Number: 
   **  1) Sourse, S = Shaft, E = Engine
   **  2) Engine or shaft number
   **  3) Speed, Revolutions per minute
   **  4) Propeller pitch, % of maximum, "-" means astern
   **  5) Status, A means data is valid
   **  6) Checksum
   */

   /*
   ** First we check the checksum...
   */

   if ( sentence.IsChecksumBad( 6 ) == True )
   {
      SetErrorMessage( "Invalid Checksum" );
      return( false );
   } 

   Source                   = sentence.Field( 1 );
   SourceNumber             = sentence.Integer( 2 );
   RevolutionsPerMinute     = sentence.Double( 3 );
   PropellerPitchPercentage = sentence.Double( 4 );
   IsDataValid              = sentence.Boolean( 5 );

   return( true );
}
Esempio n. 8
0
bool ZLZ::Parse( const SENTENCE& sentence )
{
   /*
   ** ZLZ - Time of Day
   ** UTC, local time, zone
   **
   **        1         2         3  4
   **        |         |         |  |  
   ** $--ZLZ,hhmmss.ss,hhmmss.ss,xx*hh<CR><LF>
   **
   ** 1) Universal Time Coordinated (UTC)
   ** 2) Local Time
   ** 3) Local Zone Description, number of whole hours added to local time to obtain GMT
   ** 4) Checksum
   */

   /*
   ** First we check the checksum...
   */

   if ( sentence.IsChecksumBad( 4 ) == True )
   {
      SetErrorMessage( "Invalid Checksum" );
      return( false );
   }

   time_t temp_time = time(nullptr);

   struct tm * tm_p = gmtime(&temp_time);

   int year = tm_p->tm_year + 1900;
   int month = tm_p->tm_mon;
   int day = tm_p->tm_mday;

   UTCTimeString = sentence.Field( 1 );

   char temp_number[ 3 ];

   temp_number[ 2 ] = 0x00;

   temp_number[ 0 ] = UTCTimeString[ 0 ];
   temp_number[ 1 ] = UTCTimeString[ 1 ];

   int hours = ::atoi( temp_number );

   temp_number[ 0 ] = UTCTimeString[ 2 ];
   temp_number[ 1 ] = UTCTimeString[ 3 ];

   int minutes = ::atoi( temp_number );

   temp_number[ 0 ] = UTCTimeString[ 4 ];
   temp_number[ 1 ] = UTCTimeString[ 5 ];

   int seconds = ::atoi( temp_number );

   UTCTime = ctime( year, month, day, hours, minutes, seconds );

   LocalTimeString = sentence.Field( 2 );

   temp_number[ 0 ] = LocalTimeString[ 0 ];
   temp_number[ 1 ] = LocalTimeString[ 1 ];

   hours = ::atoi( temp_number );

   temp_number[ 0 ] = LocalTimeString[ 2 ];
   temp_number[ 1 ] = LocalTimeString[ 3 ];

   minutes = ::atoi( temp_number );

   temp_number[ 0 ] = LocalTimeString[ 4 ];
   temp_number[ 1 ] = LocalTimeString[ 5 ];

   seconds = ::atoi( temp_number );

   LocalTime = ctime( year, month, day, hours, minutes, seconds );

   LocalHourDeviation = sentence.Integer( 3 );

   return( true );
}
Esempio n. 9
0
bool RTE::Parse( const SENTENCE& sentence )
{
   /*
   ** RTE - Routes
   **
   **        1   2   3 4	 5		       x    n
   **        |   |   | |    |           |    |
   ** $--RTE,x.x,x.x,a,c--c,c--c, ..... c--c*hh<CR><LF>
   **
   ** Field Number:
   **  1) Total number of messages being transmitted
   **  2) Message Number
   **  3) Message mode
   **     c = complete route, all waypoints
   **     w = working route, the waypoint you just left, the waypoint you're heading to then all the rest
   **  4) Waypoint ID
   **  x) More Waypoints
   **  n) Checksum
   */

   delete_all_entries();

   int field_number = 1;

   total_number_of_messages = sentence.Integer( 1 );
//   total_number_of_messages = sentence.Double( 1 );

   int this_message_number = sentence.Integer( 2 );
//   double this_message_number = sentence.Double( 2 );

   if ( this_message_number == 1 )
   {
      /*
      ** Make sure we've got a clean list
      */

      delete_all_entries();
   }


   if ( sentence.Field( 3 ).StartsWith(_T("c")) )
   {
      TypeOfRoute = CompleteRoute;
   }
   else if ( sentence.Field( 3 ).StartsWith(_T("w")))
   {
      TypeOfRoute = WorkingRoute;
   }
   else
   {
      TypeOfRoute = RouteUnknown;
   }

   RouteName = sentence.Field( 4 );

   int number_of_data_fields = sentence.GetNumberOfDataFields();
   field_number = 5;

   while( field_number < number_of_data_fields )
   {
      Waypoints.Add( ( sentence.Field( field_number ) )) ;
      field_number++;
   }

   return( TRUE );
}
Esempio n. 10
0
bool GSV::Parse( const SENTENCE& sentence )
{
/*
  $GPGSV,2,1,08,01,40,083,46,02,17,308,41,12,07,344,39,14,22,228,45*75

Where:
      GSV          Satellites in view
      2            Number of sentences for full data
      1            sentence 1 of 2
      08           Number of satellites in view

      01           Satellite PRN number
      40           Elevation, degrees
      083          Azimuth, degrees
      46           SNR - higher is better
           for up to 4 satellites per sentence
      *75          the checksum data, always begins with *
*/


   /*
   ** GSV - GPS satellite Status
   **
   **        1 2 3 4 5 6 7         n
   **        | | | | | | |         |
   ** $--GSV,x,x,x,x,x,x,x.........*hh<CR><LF>
   **
   ** Field Number:
   **  1) Number of sentences for full data
   **  2) sentence number
   **  3) Number of satellites in view
   **  4) Satellite PRN number
   **  5) Elevation, degrees
   **  6) Azimuth, degrees
   **  7) SNR - higher is better
   **  Fields 4-7 may repeat up to 4 times per sentence
   **  n) Checksum
   */

   /*
   ** First we check the checksum...
   */

   int cksumFieldNr = 0;
   int satInfoCnt = 0;
   switch (sentence.GetNumberOfDataFields())
   {
   case 19:
         cksumFieldNr = 20;
         satInfoCnt = 4;
         break;
   case 15:
         cksumFieldNr = 16;
         satInfoCnt = 3;
         break;
   case 11:
         cksumFieldNr = 12;
         satInfoCnt = 2;
         break;
   case 7:
         cksumFieldNr = 8;
         satInfoCnt = 1;
         break;
   default:
      SetErrorMessage( _T("Invalid Field count" ));
      return( FALSE );
   }
   if ( sentence.IsChecksumBad( cksumFieldNr ) == NTrue )
   {
      SetErrorMessage( _T("Invalid Checksum" ));
      return( FALSE );
   }

   NumberOfMessages = sentence.Integer( 1 );
   MessageNumber = sentence.Integer( 2 );
   SatsInView = sentence.Integer( 3 );

   for (int idx = 0; idx < satInfoCnt; idx++)
   {
         SatInfo[idx].SatNumber = sentence.Integer( idx*4+4 );
         SatInfo[idx].ElevationDegrees = sentence.Integer( idx*4+5 );
         SatInfo[idx].AzimuthDegreesTrue = sentence.Integer( idx*4+6 );
         SatInfo[idx].SignalToNoiseRatio = sentence.Integer( idx*4+7 );
   }

   return( TRUE );
}