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Changeset 5664 in ntrip for trunk/clock_and_orbit/lib

Timestamp:

May 26, 2014, 5:09:28 PM (10 years ago)

Author:

stoecker

Message:

SSR update

Location:

trunk/clock_and_orbit/lib

Files:

: 2 edited

clock_orbit_rtcm.c (modified) (14 diffs)
clock_orbit_rtcm.h (modified) (6 diffs)

Legend:

: Unmodified
: Added
: Removed

trunk/clock_and_orbit/lib/clock_orbit_rtcm.c

-              r4981
+              r5664
+  }
+#define SCALEADDBITS(a, b, c) ADDBITS(a, (int64_t)(b*c))
+/* standard values */
+#define T_MESSAGE_NUMBER(a)              ADDBITS(12, a) /* DF002 */
+#define T_GPS_SATELLITE_ID(a)            ADDBITS(6, a)  /* DF068 */
+#define T_GPS_IODE(a)                    ADDBITS(8, a)  /* DF071 */
+#define T_GLONASS_IOD(a)                 ADDBITS(8, a)  /* DF237 */
+/* defined values */
+#define SCALEADDBITS(a, b, c) ADDBITS(a, (int64_t)(c > 0 ? b*c+0.5 : b*c-0.5))
+#define MPI         3.141592653589793
+/* GPS macros also used for other systems when matching! */
+#define T_MESSAGE_NUMBER(a)              ADDBITS(12, a)     /* DF002 */
+#define T_GPS_SATELLITE_ID(a)            ADDBITS(6, a)      /* DF068 */
+#define T_QZSS_SATELLITE_ID(a)           ADDBITS(4, a)      /* DF249 */
+#define T_GLONASS_SATELLITE_ID(a)        ADDBITS(5, a)
+#define T_GPS_IODE(a)                    ADDBITS(8, a)      /* DF071 */
+#define T_GLONASS_IOD(a)                 ADDBITS(8, a)      /* DF237 */
+#define T_GALILEO_IOD(a)                 ADDBITS(10, a)     /* DF459 */
+#define T_SBAS_T0MOD(a)                  ADDBITS(9, (a/16)) /* DF468 */
+#define T_SBAS_IODCRC(a)                 ADDBITS(24, a)     /* DF469 */
+#define T_BDS_TOEMOD(a)                  ADDBITS(10, (a/8)) /* DF470 */
+#define T_BDS_IODCRC(a)                  ADDBITS(24, a)     /* DF471 */
 #define T_DELTA_RADIAL(a)                SCALEADDBITS(22,    10000.0, a)
 #define T_DELTA_ALONG_TRACK(a)           SCALEADDBITS(20,     2500.0, a)
 …
 #define T_DELTA_CLOCK_C2(a)              SCALEADDBITS(27, 50000000.0, a)
 #define T_NO_OF_CODE_BIASES(a)           ADDBITS(5, a)
 #define T_GPS_SIGNAL_IDENTIFIER(a)       ADDBITS(5, a)
 #define T_GLONASS_SIGNAL_IDENTIFIER(a)   ADDBITS(5, a)
+#define T_NO_OF_PHASE_BIASES(a)          ADDBITS(5, a)
+#define T_SIGNAL_IDENTIFIER(a)           ADDBITS(5, a)
 #define T_CODE_BIAS(a)                   SCALEADDBITS(14,      100.0, a)
+#define T_GLONASS_SATELLITE_ID(a)        ADDBITS(5, a)
+#define T_YAW_ANGLE(a)                   SCALEADDBITS(9,   256.0/MPI, a)
+#define T_YAW_RATE(a)                    SCALEADDBITS(8,  8192.0/MPI, a)
+#define T_PHASE_BIAS(a)                  SCALEADDBITS(20,    10000.0, a)
 #define T_GPS_EPOCH_TIME(a)              ADDBITS(20, a)
 …
 #define T_NO_OF_SATELLITES(a)            ADDBITS(6, a)
 #define T_MULTIPLE_MESSAGE_INDICATOR(a)  ADDBITS(1, a)
+#define T_DISPERSIVE_BIAS_INDICATOR(a)   ADDBITS(1, a)
+#define T_MW_CONSISTENCY_INDICATOR(a)    ADDBITS(1, a)
+#define T_INTEGER_INDICATOR(a)           ADDBITS(1, a)
+#define T_WIDE_LANE_INDICATOR(a)         ADDBITS(1, a)
+#define T_DISCONTINUITY_COUNTER(a)       ADDBITS(4, a)
 #define T_SSR_URA(a)                     ADDBITS(6, a)
 #define T_HR_CLOCK_CORRECTION(a)         SCALEADDBITS(22,    10000.0, a)
 …
 #define T_SSR_PROVIDER_ID(a)             ADDBITS(16, a)
 #define T_SSR_SOLUTION_ID(a)             ADDBITS(4, a)
+#define T_NO_IONO_LAYERS(a)              ADDBITS(2, a-1)
+#define T_VTEC_QUALITY_INDICATOR(a)      SCALEADDBITS(9,        20.0, a)
+#define T_IONO_COEFF(a)                  SCALEADDBITS(16,      200.0, a)
+#define T_IONO_DEGREE(a)                 ADDBITS(4, a-1)
+#define T_IONO_ORDER(a)                  ADDBITS(4, a-1)
+#define T_IONO_HEIGHT(a)                 SCALEADDBITS(8,   1/10000.0, a)
 static double URAToValue(int ura)
 …
+}
+static const enum ClockOrbitType corbase[CLOCKORBIT_SATNUM] =
+{
+  COBBASE_GPS, COBBASE_GLONASS, COBBASE_GALILEO, COBBASE_QZSS, COBBASE_SBAS,
+  COBBASE_BDS
+};
+static const enum COR_OFFSETS satoffset[CLOCKORBIT_SATNUM+1] =
+{
+  CLOCKORBIT_OFFSETGPS, CLOCKORBIT_OFFSETGLONASS, CLOCKORBIT_OFFSETGALILEO,
+  CLOCKORBIT_OFFSETQZSS, CLOCKORBIT_OFFSETSBAS, CLOCKORBIT_OFFSETBDS,
+  CLOCKORBIT_COUNTSAT
+};
 size_t MakeClockOrbit(const struct ClockOrbit *co, enum ClockOrbitType type,
 int moremessagesfollow, char *buffer, size_t size)
+{
   int gpshr=0, gpsur=0, gpsor=0, gpscl=0, gpsco=0, glohr=0, glour=0, gloor=0,
+  glocl=0, gloco=0, mmi, i;
+  unsigned int status[CLOCKORBIT_SATNUM][COBOFS_NUM], i, s;
+  memset(status, 0, sizeof(status));
   STARTDATA
+  if(co->NumberOfGPSSat && co->HRDataSupplied
+  && (type == COTYPE_AUTO || type == COTYPE_GPSHR))
+    gpshr = 1;
+  if(co->NumberOfGPSSat && co->URADataSupplied
+  && (type == COTYPE_AUTO || type == COTYPE_GPSURA))
+    gpsur = 1;
+  if(co->NumberOfGPSSat && co->OrbitDataSupplied
+  && (type == COTYPE_AUTO || type == COTYPE_GPSORBIT))
+    gpsor = 1;
+  if(co->NumberOfGPSSat && co->ClockDataSupplied
+  && (type == COTYPE_AUTO || type == COTYPE_GPSCLOCK))
+    gpscl = 1;
+  if(co->NumberOfGPSSat && co->ClockDataSupplied && co->OrbitDataSupplied
+  && (type == COTYPE_AUTO || type == COTYPE_GPSCOMBINED)
+  /*&& co->NumberOfGPSSat <= 28*/)
+  for(s = 0; s < CLOCKORBIT_SATNUM; ++s)
+  {
+    gpsco = 1; gpsor = 0; gpscl = 0;
+  }
+  if(co->NumberOfGLONASSSat && co->HRDataSupplied
+  && (type == COTYPE_AUTO || type == COTYPE_GLONASSHR))
+    glohr = 1;
+  if(co->NumberOfGLONASSSat && co->URADataSupplied
+  && (type == COTYPE_AUTO || type == COTYPE_GLONASSURA))
+    glour = 1;
+  if(co->NumberOfGLONASSSat && co->OrbitDataSupplied
+  && (type == COTYPE_AUTO || type == COTYPE_GLONASSORBIT))
+    gloor = 1;
+  if(co->NumberOfGLONASSSat && co->ClockDataSupplied
+  && (type == COTYPE_AUTO || type == COTYPE_GLONASSCLOCK))
+    glocl = 1;
+  if(co->NumberOfGLONASSSat && co->ClockDataSupplied && co->OrbitDataSupplied
+  && (type == COTYPE_AUTO || type == COTYPE_GLONASSCOMBINED))
+    for(i = 0; i < COBOFS_NUM; ++i)
+    {
+      if(co->NumberOfSat[s] && (type == COTYPE_AUTO
+      || type == corbase[s]+i) && (co->Supplied[i] || (i <= COBOFS_CLOCK
+      && co->Supplied[COBOFS_COMBINED]) || (i == COBOFS_COMBINED
+      && co->Supplied[COBOFS_ORBIT] && co->Supplied[COBOFS_CLOCK])))
+      {
+        status[s][i] = 1;
+        if(i == COBOFS_COMBINED)
+        {
+          status[s][COBOFS_ORBIT] = status[s][COBOFS_CLOCK] = 0;
+        } /* disable single blocks for combined type */
+      } /* check for data */
+    } /* iterate over RTCM data types */
+  } /* iterate over satellite systems */
+  for(s = 0; s < CLOCKORBIT_SATNUM; ++s)
+  {
+    gloco = 1; gloor = 0; glocl = 0;
+  }
+  mmi = gpshr+gpsur+gpsor+gpscl+gpsco+glohr+glour+gloor+glocl+gloco; /* required for multimessage */
+  if(!moremessagesfollow) --mmi;
+  if(gpsor)
+  {
+    INITBLOCK
+    T_MESSAGE_NUMBER(COTYPE_GPSORBIT)
+    T_GPS_EPOCH_TIME(co->GPSEpochTime)
+    T_SSR_UPDATE_INTERVAL(co->UpdateInterval)
+    T_MULTIPLE_MESSAGE_INDICATOR(/*mmi ? 1 :*/0)
+    --mmi;
+    T_SATELLITE_REFERENCE_DATUM(co->SatRefDatum)
+    T_SSR_IOD(co->SSRIOD)
+    T_SSR_PROVIDER_ID(co->SSRProviderID)
+    T_SSR_SOLUTION_ID(co->SSRSolutionID)
+    T_NO_OF_SATELLITES(co->NumberOfGPSSat)
+    for(i = 0; i < co->NumberOfGPSSat; ++i)
+    {
+      T_GPS_SATELLITE_ID(co->Sat[i].ID)
+      T_GPS_IODE(co->Sat[i].IOD)
+      T_DELTA_RADIAL(co->Sat[i].Orbit.DeltaRadial)
+      T_DELTA_ALONG_TRACK(co->Sat[i].Orbit.DeltaAlongTrack)
+      T_DELTA_CROSS_TRACK(co->Sat[i].Orbit.DeltaCrossTrack)
+      T_DELTA_DOT_RADIAL(co->Sat[i].Orbit.DotDeltaRadial)
+      T_DELTA_DOT_ALONG_TRACK(co->Sat[i].Orbit.DotDeltaAlongTrack)
+      T_DELTA_DOT_CROSS_TRACK(co->Sat[i].Orbit.DotDeltaCrossTrack)
+    }
+    ENDBLOCK
+  }
+  if(gpscl)
+  {
+    INITBLOCK
+    T_MESSAGE_NUMBER(COTYPE_GPSCLOCK)
+    T_GPS_EPOCH_TIME(co->GPSEpochTime)
+    T_SSR_UPDATE_INTERVAL(co->UpdateInterval)
+    T_MULTIPLE_MESSAGE_INDICATOR(/*mmi ? 1 :*/0)
+    --mmi;
+    T_SSR_IOD(co->SSRIOD)
+    T_SSR_PROVIDER_ID(co->SSRProviderID)
+    T_SSR_SOLUTION_ID(co->SSRSolutionID)
+    T_NO_OF_SATELLITES(co->NumberOfGPSSat)
+    for(i = 0; i < co->NumberOfGPSSat; ++i)
+    {
+      T_GPS_SATELLITE_ID(co->Sat[i].ID)
+      T_DELTA_CLOCK_C0(co->Sat[i].Clock.DeltaA0)
+      T_DELTA_CLOCK_C1(co->Sat[i].Clock.DeltaA1)
+      T_DELTA_CLOCK_C2(co->Sat[i].Clock.DeltaA2)
+    }
+    ENDBLOCK
+  }
+  if(gpsco)
+  {
+#ifdef SPLITBLOCK
+    int nums = co->NumberOfGPSSat;
+    int left, start = 0;
+    if(nums > 28) /* split block when more than 28 sats */
+    {
+      left = nums - 28;
+      nums = 28;
+    }
+    else
+    {
+      left = 0;
+    }
+    while(nums)
+    {
+#endif
+    if(status[s][COBOFS_ORBIT])
+    {
       INITBLOCK
+      T_MESSAGE_NUMBER(COTYPE_GPSCOMBINED)
+      T_GPS_EPOCH_TIME(co->GPSEpochTime)
+      T_MESSAGE_NUMBER(corbase[s]+COBOFS_ORBIT)
+      switch(s)
+      {
+      case CLOCKORBIT_SATGPS: case CLOCKORBIT_SATGALILEO:
+      case CLOCKORBIT_SATQZSS: case CLOCKORBIT_SATSBAS:
+      case CLOCKORBIT_SATBDS:
+        T_GPS_EPOCH_TIME(co->EpochTime[s])
+        break;
+      case CLOCKORBIT_SATGLONASS:
+        T_GLONASS_EPOCH_TIME(co->EpochTime[s])
+        break;
+      }
       T_SSR_UPDATE_INTERVAL(co->UpdateInterval)
+#ifdef SPLITBLOCK
+      T_MULTIPLE_MESSAGE_INDICATOR(/*mmi || */ left ? 1 : 0)
+#else
+      T_MULTIPLE_MESSAGE_INDICATOR(/*mmi || */ 0)
+#endif
+      --mmi;
+      T_MULTIPLE_MESSAGE_INDICATOR(moremessagesfollow ? 1 : 0)
       T_SATELLITE_REFERENCE_DATUM(co->SatRefDatum)
       T_SSR_IOD(co->SSRIOD)
       T_SSR_PROVIDER_ID(co->SSRProviderID)
       T_SSR_SOLUTION_ID(co->SSRSolutionID)
+#ifdef SPLITBLOCK
+      T_NO_OF_SATELLITES(nums)
+      for(i = start; i < start+nums; ++i)
+#else
+      T_NO_OF_SATELLITES(co->NumberOfGPSSat)
+      for(i = 0; i < co->NumberOfGPSSat; ++i)
+#endif
+      {
+        T_GPS_SATELLITE_ID(co->Sat[i].ID)
+        T_GPS_IODE(co->Sat[i].IOD)
+      T_NO_OF_SATELLITES(co->NumberOfSat[s])
+      for(i = satoffset[s]; i < satoffset[s]+co->NumberOfSat[s]; ++i)
+      {
+        switch(s)
+        {
+        case CLOCKORBIT_SATGPS:
+          T_GPS_SATELLITE_ID(co->Sat[i].ID)
+          T_GPS_IODE(co->Sat[i].IOD)
+          break;
+        case CLOCKORBIT_SATGLONASS:
+          T_GLONASS_SATELLITE_ID(co->Sat[i].ID)
+          T_GLONASS_IOD(co->Sat[i].IOD)
+          break;
+        case CLOCKORBIT_SATGALILEO:
+          T_GPS_SATELLITE_ID(co->Sat[i].ID)
+          T_GALILEO_IOD(co->Sat[i].IOD)
+          break;
+        case CLOCKORBIT_SATQZSS:
+          T_QZSS_SATELLITE_ID(co->Sat[i].ID)
+          T_GPS_IODE(co->Sat[i].IOD)
+          break;
+        case CLOCKORBIT_SATSBAS:
+          T_GPS_SATELLITE_ID(co->Sat[i].ID)
+          T_SBAS_T0MOD(co->Sat[i].toe)
+          T_SBAS_IODCRC(co->Sat[i].IOD)
+          break;
+        case CLOCKORBIT_SATBDS:
+          T_GPS_SATELLITE_ID(co->Sat[i].ID)
+          T_BDS_TOEMOD(co->Sat[i].toe)
+          T_BDS_IODCRC(co->Sat[i].IOD)
+          break;
+        }
         T_DELTA_RADIAL(co->Sat[i].Orbit.DeltaRadial)
         T_DELTA_ALONG_TRACK(co->Sat[i].Orbit.DeltaAlongTrack)
 …
         T_DELTA_DOT_ALONG_TRACK(co->Sat[i].Orbit.DotDeltaAlongTrack)
         T_DELTA_DOT_CROSS_TRACK(co->Sat[i].Orbit.DotDeltaCrossTrack)
+      }
+      ENDBLOCK
+    }
+    if(status[s][COBOFS_CLOCK])
+    {
+      INITBLOCK
+      T_MESSAGE_NUMBER(corbase[s]+COBOFS_CLOCK)
+      switch(s)
+      {
+      case CLOCKORBIT_SATGPS: case CLOCKORBIT_SATGALILEO:
+      case CLOCKORBIT_SATQZSS: case CLOCKORBIT_SATSBAS:
+      case CLOCKORBIT_SATBDS:
+        T_GPS_EPOCH_TIME(co->EpochTime[s])
+        break;
+      case CLOCKORBIT_SATGLONASS:
+        T_GLONASS_EPOCH_TIME(co->EpochTime[s])
+        break;
+      }
+      T_SSR_UPDATE_INTERVAL(co->UpdateInterval)
+      T_MULTIPLE_MESSAGE_INDICATOR(moremessagesfollow ? 1 : 0)
+      T_SSR_IOD(co->SSRIOD)
+      T_SSR_PROVIDER_ID(co->SSRProviderID)
+      T_SSR_SOLUTION_ID(co->SSRSolutionID)
+      T_NO_OF_SATELLITES(co->NumberOfSat[s])
+      for(i = satoffset[s]; i < satoffset[s]+co->NumberOfSat[s]; ++i)
+      {
+        switch(s)
+        {
+        case CLOCKORBIT_SATGPS: case CLOCKORBIT_SATGALILEO:
+        case CLOCKORBIT_SATSBAS: case CLOCKORBIT_SATBDS:
+          T_GPS_SATELLITE_ID(co->Sat[i].ID)
+          break;
+        case CLOCKORBIT_SATQZSS:
+          T_QZSS_SATELLITE_ID(co->Sat[i].ID)
+          break;
+        case CLOCKORBIT_SATGLONASS:
+          T_GLONASS_SATELLITE_ID(co->Sat[i].ID)
+          break;
+        }
         T_DELTA_CLOCK_C0(co->Sat[i].Clock.DeltaA0)
         T_DELTA_CLOCK_C1(co->Sat[i].Clock.DeltaA1)
 …
+      }
       ENDBLOCK
+    }
+    if(status[s][COBOFS_COMBINED])
+    {
 #ifdef SPLITBLOCK
+      start += nums;
+      nums = left;
+      left = 0;
+      int nums = co->NumberOfSat[s];
+      int left, start = satoffset[s];
+      if(nums > 28) /* split block when more than 28 sats */
+      {
+        left = nums - 28;
+        nums = 28;
+      }
+      else
+      {
+        left = 0;
+      }
+      while(nums)
+      {
+#endif
+        INITBLOCK
+        T_MESSAGE_NUMBER(corbase[s]+COBOFS_COMBINED)
+        switch(s)
+        {
+        case CLOCKORBIT_SATGPS: case CLOCKORBIT_SATGALILEO:
+        case CLOCKORBIT_SATQZSS: case CLOCKORBIT_SATSBAS:
+        case CLOCKORBIT_SATBDS:
+          T_GPS_EPOCH_TIME(co->EpochTime[s])
+          break;
+        case CLOCKORBIT_SATGLONASS:
+          T_GLONASS_EPOCH_TIME(co->EpochTime[s])
+          break;
+        }
+        T_SSR_UPDATE_INTERVAL(co->UpdateInterval)
+#ifdef SPLITBLOCK
+        T_MULTIPLE_MESSAGE_INDICATOR((moremessagesfollow || left) ? 1 : 0)
+#else
+        T_MULTIPLE_MESSAGE_INDICATOR(moremessagesfollow ? 1 : 0)
+#endif
+        T_SATELLITE_REFERENCE_DATUM(co->SatRefDatum)
+        T_SSR_IOD(co->SSRIOD)
+        T_SSR_PROVIDER_ID(co->SSRProviderID)
+        T_SSR_SOLUTION_ID(co->SSRSolutionID)
+#ifdef SPLITBLOCK
+        T_NO_OF_SATELLITES(nums)
+        for(i = start; i < start+nums; ++i)
+#else
+        T_NO_OF_SATELLITES(co->NumberOfSat[s])
+        for(i = satoffset[s]; i < satoffset[s]+co->NumberOfSat[s]; ++i)
+#endif
+        {
+          switch(s)
+          {
+          case CLOCKORBIT_SATGPS:
+            T_GPS_SATELLITE_ID(co->Sat[i].ID)
+            T_GPS_IODE(co->Sat[i].IOD)
+            break;
+          case CLOCKORBIT_SATGLONASS:
+            T_GLONASS_SATELLITE_ID(co->Sat[i].ID)
+            T_GLONASS_IOD(co->Sat[i].IOD)
+            break;
+          case CLOCKORBIT_SATGALILEO:
+            T_GPS_SATELLITE_ID(co->Sat[i].ID)
+            T_GALILEO_IOD(co->Sat[i].IOD)
+            break;
+          case CLOCKORBIT_SATQZSS:
+            T_QZSS_SATELLITE_ID(co->Sat[i].ID)
+            T_GPS_IODE(co->Sat[i].IOD)
+            break;
+          case CLOCKORBIT_SATSBAS:
+            T_GPS_SATELLITE_ID(co->Sat[i].ID)
+            T_SBAS_T0MOD(co->Sat[i].toe)
+            T_SBAS_IODCRC(co->Sat[i].IOD)
+            break;
+          case CLOCKORBIT_SATBDS:
+            T_GPS_SATELLITE_ID(co->Sat[i].ID)
+            T_BDS_TOEMOD(co->Sat[i].toe)
+            T_BDS_IODCRC(co->Sat[i].IOD)
+            break;
+          }
+          T_DELTA_RADIAL(co->Sat[i].Orbit.DeltaRadial)
+          T_DELTA_ALONG_TRACK(co->Sat[i].Orbit.DeltaAlongTrack)
+          T_DELTA_CROSS_TRACK(co->Sat[i].Orbit.DeltaCrossTrack)
+          T_DELTA_DOT_RADIAL(co->Sat[i].Orbit.DotDeltaRadial)
+          T_DELTA_DOT_ALONG_TRACK(co->Sat[i].Orbit.DotDeltaAlongTrack)
+          T_DELTA_DOT_CROSS_TRACK(co->Sat[i].Orbit.DotDeltaCrossTrack)
+          T_DELTA_CLOCK_C0(co->Sat[i].Clock.DeltaA0)
+          T_DELTA_CLOCK_C1(co->Sat[i].Clock.DeltaA1)
+          T_DELTA_CLOCK_C2(co->Sat[i].Clock.DeltaA2)
+        }
+        ENDBLOCK
+#ifdef SPLITBLOCK
+        start += nums;
+        nums = left;
+        left = 0;
+      }
+#endif
+    }
+#endif
+    if(status[s][COBOFS_HR])
+    {
+      INITBLOCK
+      T_MESSAGE_NUMBER(corbase[s]+COBOFS_HR)
+      switch(s)
+      {
+      case CLOCKORBIT_SATGPS: case CLOCKORBIT_SATGALILEO:
+      case CLOCKORBIT_SATQZSS: case CLOCKORBIT_SATSBAS:
+      case CLOCKORBIT_SATBDS:
+        T_GPS_EPOCH_TIME(co->EpochTime[s])
+        break;
+      case CLOCKORBIT_SATGLONASS:
+        T_GLONASS_EPOCH_TIME(co->EpochTime[s])
+        break;
+      }
+      T_SSR_UPDATE_INTERVAL(co->UpdateInterval)
+      T_MULTIPLE_MESSAGE_INDICATOR(moremessagesfollow ? 1 : 0)
+      T_SSR_IOD(co->SSRIOD)
+      T_SSR_PROVIDER_ID(co->SSRProviderID)
+      T_SSR_SOLUTION_ID(co->SSRSolutionID)
+      T_NO_OF_SATELLITES(co->NumberOfSat[s])
+      for(i = satoffset[s]; i < satoffset[s]+co->NumberOfSat[s]; ++i)
+      {
+        switch(s)
+        {
+        case CLOCKORBIT_SATGPS: case CLOCKORBIT_SATGALILEO:
+        case CLOCKORBIT_SATSBAS: case CLOCKORBIT_SATBDS:
+          T_GPS_SATELLITE_ID(co->Sat[i].ID)
+          break;
+        case CLOCKORBIT_SATQZSS:
+          T_QZSS_SATELLITE_ID(co->Sat[i].ID)
+          break;
+        case CLOCKORBIT_SATGLONASS:
+          T_GLONASS_SATELLITE_ID(co->Sat[i].ID)
+          break;
+        }
+        T_HR_CLOCK_CORRECTION(co->Sat[i].hrclock)
+      }
+      ENDBLOCK
+    }
+    if(status[s][COBOFS_URA])
+    {
+      INITBLOCK
+      T_MESSAGE_NUMBER(corbase[s]+COBOFS_URA)
+      switch(s)
+      {
+      case CLOCKORBIT_SATGPS: case CLOCKORBIT_SATGALILEO:
+      case CLOCKORBIT_SATQZSS: case CLOCKORBIT_SATSBAS:
+      case CLOCKORBIT_SATBDS:
+        T_GPS_EPOCH_TIME(co->EpochTime[s])
+        break;
+      case CLOCKORBIT_SATGLONASS:
+        T_GLONASS_EPOCH_TIME(co->EpochTime[s])
+        break;
+      }
+      T_MULTIPLE_MESSAGE_INDICATOR(moremessagesfollow ? 1 : 0)
+      T_SSR_IOD(co->SSRIOD)
+      T_SSR_PROVIDER_ID(co->SSRProviderID)
+      T_SSR_SOLUTION_ID(co->SSRSolutionID)
+      T_NO_OF_SATELLITES(co->NumberOfSat[s])
+      for(i = satoffset[s]; i < satoffset[s]+co->NumberOfSat[s]; ++i)
+      {
+        switch(s)
+        {
+        case CLOCKORBIT_SATGPS: case CLOCKORBIT_SATGALILEO:
+        case CLOCKORBIT_SATSBAS: case CLOCKORBIT_SATBDS:
+          T_GPS_SATELLITE_ID(co->Sat[i].ID)
+          break;
+        case CLOCKORBIT_SATQZSS:
+          T_QZSS_SATELLITE_ID(co->Sat[i].ID)
+          break;
+        case CLOCKORBIT_SATGLONASS:
+          T_GLONASS_SATELLITE_ID(co->Sat[i].ID)
+          break;
+        }
+        T_SSR_URA(ValueToURA(co->Sat[i].UserRangeAccuracy))
+      }
+      ENDBLOCK
+    }
+  }
-  if(gpshr)
+  {
-    INITBLOCK
-    T_MESSAGE_NUMBER(COTYPE_GPSHR)
-    T_GPS_EPOCH_TIME(co->GPSEpochTime)
-    T_SSR_UPDATE_INTERVAL(co->UpdateInterval)
-    T_MULTIPLE_MESSAGE_INDICATOR(/*mmi ? 1 :*/0)
-    --mmi;
-    T_SSR_IOD(co->SSRIOD)
-    T_SSR_PROVIDER_ID(co->SSRProviderID)
-    T_SSR_SOLUTION_ID(co->SSRSolutionID)
-    T_NO_OF_SATELLITES(co->NumberOfGPSSat)
-    for(i = 0; i < co->NumberOfGPSSat; ++i)
+    {
-      T_GPS_SATELLITE_ID(co->Sat[i].ID)
-      T_HR_CLOCK_CORRECTION(co->Sat[i].hrclock)
+    }
-    ENDBLOCK
+  }
-  if(gpsur)
+  {
-    INITBLOCK
-    T_MESSAGE_NUMBER(COTYPE_GPSURA)
-    T_GPS_EPOCH_TIME(co->GPSEpochTime)
-    T_MULTIPLE_MESSAGE_INDICATOR(/*mmi ? 1 :*/0)
-    --mmi;
-    T_SSR_IOD(co->SSRIOD)
-    T_SSR_PROVIDER_ID(co->SSRProviderID)
-    T_SSR_SOLUTION_ID(co->SSRSolutionID)
-    T_NO_OF_SATELLITES(co->NumberOfGPSSat)
-    for(i = 0; i < co->NumberOfGPSSat; ++i)
+    {
-      T_GPS_SATELLITE_ID(co->Sat[i].ID)
-      T_SSR_URA(ValueToURA(co->Sat[i].UserRangeAccuracy))
+    }
-    ENDBLOCK
+  }
-  if(gloor)
+  {
-    INITBLOCK
-    T_MESSAGE_NUMBER(COTYPE_GLONASSORBIT)
-    T_GLONASS_EPOCH_TIME(co->GLONASSEpochTime)
-    T_SSR_UPDATE_INTERVAL(co->UpdateInterval)
-    T_MULTIPLE_MESSAGE_INDICATOR(/*mmi ? 1 :*/0)
-    --mmi;
-    T_SATELLITE_REFERENCE_DATUM(co->SatRefDatum)
-    T_SSR_IOD(co->SSRIOD)
-    T_SSR_PROVIDER_ID(co->SSRProviderID)
-    T_SSR_SOLUTION_ID(co->SSRSolutionID)
-    T_NO_OF_SATELLITES(co->NumberOfGLONASSSat)
-    for(i = CLOCKORBIT_NUMGPS;
-    i < CLOCKORBIT_NUMGPS+co->NumberOfGLONASSSat; ++i)
+    {
-      T_GLONASS_SATELLITE_ID(co->Sat[i].ID)
-      T_GLONASS_IOD(co->Sat[i].IOD)
-      T_DELTA_RADIAL(co->Sat[i].Orbit.DeltaRadial)
-      T_DELTA_ALONG_TRACK(co->Sat[i].Orbit.DeltaAlongTrack)
-      T_DELTA_CROSS_TRACK(co->Sat[i].Orbit.DeltaCrossTrack)
-      T_DELTA_DOT_RADIAL(co->Sat[i].Orbit.DotDeltaRadial)
-      T_DELTA_DOT_ALONG_TRACK(co->Sat[i].Orbit.DotDeltaAlongTrack)
-      T_DELTA_DOT_CROSS_TRACK(co->Sat[i].Orbit.DotDeltaCrossTrack)
+    }
-    ENDBLOCK
+  }
-  if(glocl)
+  {
-    INITBLOCK
-    T_MESSAGE_NUMBER(COTYPE_GLONASSCLOCK)
-    T_GLONASS_EPOCH_TIME(co->GLONASSEpochTime)
-    T_SSR_UPDATE_INTERVAL(co->UpdateInterval)
-    T_MULTIPLE_MESSAGE_INDICATOR(/*mmi ? 1 :*/0)
-    --mmi;
-    T_SSR_IOD(co->SSRIOD)
-    T_SSR_PROVIDER_ID(co->SSRProviderID)
-    T_SSR_SOLUTION_ID(co->SSRSolutionID)
-    T_NO_OF_SATELLITES(co->NumberOfGLONASSSat)
-    for(i = CLOCKORBIT_NUMGPS;
-    i < CLOCKORBIT_NUMGPS+co->NumberOfGLONASSSat; ++i)
+    {
-      T_GLONASS_SATELLITE_ID(co->Sat[i].ID)
-      T_DELTA_CLOCK_C0(co->Sat[i].Clock.DeltaA0)
-      T_DELTA_CLOCK_C1(co->Sat[i].Clock.DeltaA1)
-      T_DELTA_CLOCK_C2(co->Sat[i].Clock.DeltaA2)
+    }
-    ENDBLOCK
+  }
-  if(gloco)
+  {
-    INITBLOCK
-    T_MESSAGE_NUMBER(COTYPE_GLONASSCOMBINED)
-    T_GLONASS_EPOCH_TIME(co->GLONASSEpochTime)
-    T_SSR_UPDATE_INTERVAL(co->UpdateInterval)
-    T_MULTIPLE_MESSAGE_INDICATOR(/*mmi ? 1 :*/0)
-    --mmi;
-    T_SATELLITE_REFERENCE_DATUM(co->SatRefDatum)
-    T_SSR_IOD(co->SSRIOD)
-    T_SSR_PROVIDER_ID(co->SSRProviderID)
-    T_SSR_SOLUTION_ID(co->SSRSolutionID)
-    T_NO_OF_SATELLITES(co->NumberOfGLONASSSat)
-    for(i = CLOCKORBIT_NUMGPS;
-    i < CLOCKORBIT_NUMGPS+co->NumberOfGLONASSSat; ++i)
+    {
-      T_GLONASS_SATELLITE_ID(co->Sat[i].ID)
-      T_GLONASS_IOD(co->Sat[i].IOD)
-      T_DELTA_RADIAL(co->Sat[i].Orbit.DeltaRadial)
-      T_DELTA_ALONG_TRACK(co->Sat[i].Orbit.DeltaAlongTrack)
-      T_DELTA_CROSS_TRACK(co->Sat[i].Orbit.DeltaCrossTrack)
-      T_DELTA_DOT_RADIAL(co->Sat[i].Orbit.DotDeltaRadial)
-      T_DELTA_DOT_ALONG_TRACK(co->Sat[i].Orbit.DotDeltaAlongTrack)
-      T_DELTA_DOT_CROSS_TRACK(co->Sat[i].Orbit.DotDeltaCrossTrack)
-      T_DELTA_CLOCK_C0(co->Sat[i].Clock.DeltaA0)
-      T_DELTA_CLOCK_C1(co->Sat[i].Clock.DeltaA1)
-      T_DELTA_CLOCK_C2(co->Sat[i].Clock.DeltaA2)
+    }
-    ENDBLOCK
+  }
-  if(glohr)
+  {
-    INITBLOCK
-    T_MESSAGE_NUMBER(COTYPE_GLONASSHR)
-    T_GLONASS_EPOCH_TIME(co->GLONASSEpochTime)
-    T_SSR_UPDATE_INTERVAL(co->UpdateInterval)
-    T_MULTIPLE_MESSAGE_INDICATOR(/*mmi ? 1 :*/0)
-    --mmi;
-    T_SSR_IOD(co->SSRIOD)
-    T_SSR_PROVIDER_ID(co->SSRProviderID)
-    T_SSR_SOLUTION_ID(co->SSRSolutionID)
-    T_NO_OF_SATELLITES(co->NumberOfGLONASSSat)
-    for(i = CLOCKORBIT_NUMGPS;
-    i < CLOCKORBIT_NUMGPS+co->NumberOfGLONASSSat; ++i)
+    {
-      T_GPS_SATELLITE_ID(co->Sat[i].ID)
-      T_HR_CLOCK_CORRECTION(co->Sat[i].hrclock)
+    }
-    ENDBLOCK
+  }
-  if(glour)
+  {
-    INITBLOCK
-    T_MESSAGE_NUMBER(COTYPE_GLONASSURA)
-    T_GLONASS_EPOCH_TIME(co->GLONASSEpochTime)
-    T_MULTIPLE_MESSAGE_INDICATOR(/*mmi ? 1 :*/0)
-    --mmi;
-    T_SSR_IOD(co->SSRIOD)
-    T_SSR_PROVIDER_ID(co->SSRProviderID)
-    T_SSR_SOLUTION_ID(co->SSRSolutionID)
-    T_NO_OF_SATELLITES(co->NumberOfGLONASSSat)
-    for(i = CLOCKORBIT_NUMGPS;
-    i < CLOCKORBIT_NUMGPS+co->NumberOfGLONASSSat; ++i)
+    {
-      T_GPS_SATELLITE_ID(co->Sat[i].ID)
-      T_SSR_URA(ValueToURA(co->Sat[i].UserRangeAccuracy))
+    }
-    ENDBLOCK
+  }
   return ressize;
+}
 size_t MakeBias(const struct Bias *b, enum BiasType type,
+size_t MakeCodeBias(const struct CodeBias *b, enum CodeBiasType type,
 int moremessagesfollow, char *buffer, size_t size)
+{
   int gps=0, glo=0, mmi, i, j;
+  unsigned int s, i, j;
   STARTDATA
+  if(b->NumberOfGPSSat && (type == BTYPE_AUTO || type == BTYPE_GPS))
+    gps = 1;
+  if(b->NumberOfGLONASSSat && (type == BTYPE_AUTO || type == BTYPE_GLONASS))
+    glo = 1;
+  mmi = gps+glo; /* required for multimessage */
+  if(!moremessagesfollow) --mmi;
+  if(gps)
+  for(s = 0; s < CLOCKORBIT_SATNUM; ++s)
+  {
+    INITBLOCK
+    T_MESSAGE_NUMBER(BTYPE_GPS)
+    T_GPS_EPOCH_TIME(b->GPSEpochTime)
+    T_SSR_UPDATE_INTERVAL(b->UpdateInterval)
+    T_MULTIPLE_MESSAGE_INDICATOR(/*mmi ? 1 :*/0)
+    --mmi;
+    T_SSR_IOD(b->SSRIOD)
+    T_SSR_PROVIDER_ID(b->SSRProviderID)
+    T_SSR_SOLUTION_ID(b->SSRSolutionID)
+    T_NO_OF_SATELLITES(b->NumberOfGPSSat)
+    for(i = 0; i < b->NumberOfGPSSat; ++i)
+    {
+      T_GPS_SATELLITE_ID(b->Sat[i].ID)
+      T_NO_OF_CODE_BIASES(b->Sat[i].NumberOfCodeBiases)
+      for(j = 0; j < b->Sat[i].NumberOfCodeBiases; ++j)
+      {
+        T_GPS_SIGNAL_IDENTIFIER(b->Sat[i].Biases[j].Type)
+        T_CODE_BIAS(b->Sat[i].Biases[j].Bias)
+      }
+    if(b->NumberOfSat[s] && (type == BTYPE_AUTO || type == corbase[s]+COBOFS_BIAS))
+    {
+      INITBLOCK
+      T_MESSAGE_NUMBER(corbase[s]+COBOFS_BIAS)
+      switch(s)
+      {
+      case CLOCKORBIT_SATGPS: case CLOCKORBIT_SATGALILEO:
+      case CLOCKORBIT_SATQZSS: case CLOCKORBIT_SATSBAS:
+      case CLOCKORBIT_SATBDS:
+        T_GPS_EPOCH_TIME(b->EpochTime[s])
+        break;
+      case CLOCKORBIT_SATGLONASS:
+        T_GLONASS_EPOCH_TIME(b->EpochTime[s])
+        break;
+      }
+      T_SSR_UPDATE_INTERVAL(b->UpdateInterval)
+      T_MULTIPLE_MESSAGE_INDICATOR(moremessagesfollow ? 1 : 0)
+      T_SSR_IOD(b->SSRIOD)
+      T_SSR_PROVIDER_ID(b->SSRProviderID)
+      T_SSR_SOLUTION_ID(b->SSRSolutionID)
+      T_NO_OF_SATELLITES(b->NumberOfSat[s])
+      for(i = satoffset[s]; i < satoffset[s]+b->NumberOfSat[s]; ++i)
+      {
+        switch(s)
+        {
+        case CLOCKORBIT_SATGPS: case CLOCKORBIT_SATGALILEO:
+        case CLOCKORBIT_SATSBAS: case CLOCKORBIT_SATBDS:
+          T_GPS_SATELLITE_ID(b->Sat[i].ID)
+          break;
+        case CLOCKORBIT_SATQZSS:
+          T_QZSS_SATELLITE_ID(b->Sat[i].ID)
+          break;
+        case CLOCKORBIT_SATGLONASS:
+          T_GLONASS_SATELLITE_ID(b->Sat[i].ID)
+          break;
+        }
+        T_NO_OF_CODE_BIASES(b->Sat[i].NumberOfCodeBiases)
+        for(j = 0; j < b->Sat[i].NumberOfCodeBiases; ++j)
+        {
+          T_SIGNAL_IDENTIFIER(b->Sat[i].Biases[j].Type)
+          T_CODE_BIAS(b->Sat[i].Biases[j].Bias)
+        }
+      }
+      ENDBLOCK
+    }
-    ENDBLOCK
+  }
-  if(glo)
+  {
-    INITBLOCK
-    T_MESSAGE_NUMBER(BTYPE_GLONASS)
-    T_GLONASS_EPOCH_TIME(b->GLONASSEpochTime)
-    T_SSR_UPDATE_INTERVAL(b->UpdateInterval)
-    T_MULTIPLE_MESSAGE_INDICATOR(/*mmi ? 1 :*/0)
-    --mmi;
-    T_SSR_IOD(b->SSRIOD)
-    T_SSR_PROVIDER_ID(b->SSRProviderID)
-    T_SSR_SOLUTION_ID(b->SSRSolutionID)
-    T_NO_OF_SATELLITES(b->NumberOfGLONASSSat)
-    for(i = CLOCKORBIT_NUMGPS;
-    i < CLOCKORBIT_NUMGPS+b->NumberOfGLONASSSat; ++i)
+    {
-      T_GLONASS_SATELLITE_ID(b->Sat[i].ID)
-      T_NO_OF_CODE_BIASES(b->Sat[i].NumberOfCodeBiases)
-      for(j = 0; j < b->Sat[i].NumberOfCodeBiases; ++j)
+      {
-        T_GLONASS_SIGNAL_IDENTIFIER(b->Sat[i].Biases[j].Type)
-        T_CODE_BIAS(b->Sat[i].Biases[j].Bias)
+      }
+    }
-    ENDBLOCK
+  }
   return ressize;
+}
+size_t MakePhaseBias(const struct PhaseBias *b, enum PhaseBiasType type,
+int moremessagesfollow, char *buffer, size_t size)
+{
+  unsigned int s, i, j;
+  STARTDATA
+  for(s = 0; s < CLOCKORBIT_SATNUM; ++s)
+  {
+    if(b->NumberOfSat[s] && (type == PBTYPE_AUTO || type == corbase[s]+COBOFS_BIAS))
+    {
+      INITBLOCK
+      T_MESSAGE_NUMBER(corbase[s]+COBOFS_BIAS)
+      switch(s)
+      {
+      case CLOCKORBIT_SATGPS: case CLOCKORBIT_SATGALILEO:
+      case CLOCKORBIT_SATQZSS: case CLOCKORBIT_SATSBAS:
+      case CLOCKORBIT_SATBDS:
+        T_GPS_EPOCH_TIME(b->EpochTime[s])
+        break;
+      case CLOCKORBIT_SATGLONASS:
+        T_GLONASS_EPOCH_TIME(b->EpochTime[s])
+        break;
+      }
+      T_SSR_UPDATE_INTERVAL(b->UpdateInterval)
+      T_MULTIPLE_MESSAGE_INDICATOR(moremessagesfollow ? 1 : 0)
+      T_SSR_IOD(b->SSRIOD)
+      T_SSR_PROVIDER_ID(b->SSRProviderID)
+      T_SSR_SOLUTION_ID(b->SSRSolutionID)
+      T_DISPERSIVE_BIAS_INDICATOR(b->DispersiveBiasConsistencyIndicator ? 1 : 0)
+      T_MW_CONSISTENCY_INDICATOR(b->MWConsistencyIndicator ? 1 : 0)
+      T_NO_OF_SATELLITES(b->NumberOfSat[CLOCKORBIT_SATGPS])
+      for(i = satoffset[s]; i < satoffset[s]+b->NumberOfSat[s]; ++i)
+      {
+        switch(s)
+        {
+        case CLOCKORBIT_SATGPS: case CLOCKORBIT_SATGALILEO:
+        case CLOCKORBIT_SATSBAS: case CLOCKORBIT_SATBDS:
+          T_GPS_SATELLITE_ID(b->Sat[i].ID)
+          break;
+        case CLOCKORBIT_SATQZSS:
+          T_QZSS_SATELLITE_ID(b->Sat[i].ID)
+          break;
+        case CLOCKORBIT_SATGLONASS:
+          T_GLONASS_SATELLITE_ID(b->Sat[i].ID)
+          break;
+        }
+        T_NO_OF_CODE_BIASES(b->Sat[i].NumberOfPhaseBiases)
+        T_YAW_ANGLE(b->Sat[i].YawAngle)
+        T_YAW_RATE(b->Sat[i].YawRate)
+        for(j = 0; j < b->Sat[i].NumberOfPhaseBiases; ++j)
+        {
+          T_SIGNAL_IDENTIFIER(b->Sat[i].Biases[j].Type)
+          T_INTEGER_INDICATOR(b->Sat[i].Biases[j].SignalIntegerIndicator ? 1 : 0)
+          T_WIDE_LANE_INDICATOR(b->Sat[i].Biases[j].SignalsWideLaneIntegerIndicator ? 1 : 0)
+          T_DISCONTINUITY_COUNTER(b->Sat[i].Biases[j].SignalDiscontinuityCounter)
+          T_PHASE_BIAS(b->Sat[i].Biases[j].Bias)
+        }
+      }
+      ENDBLOCK
+    }
+  }
+  return ressize;
+}
+size_t MakeVTEC(const struct VTEC *v, int moremessagesfollow, char *buffer,
+size_t size)
+{
+  unsigned int l, o, d;
+  STARTDATA
+  INITBLOCK
+  T_MESSAGE_NUMBER(VTEC_BASE)
+  T_GPS_EPOCH_TIME(v->EpochTime)
+  T_SSR_UPDATE_INTERVAL(v->UpdateInterval)
+  T_MULTIPLE_MESSAGE_INDICATOR(moremessagesfollow ? 1 : 0)
+  T_SSR_IOD(v->SSRIOD)
+  T_SSR_PROVIDER_ID(v->SSRProviderID)
+  T_SSR_SOLUTION_ID(v->SSRSolutionID)
+  T_VTEC_QUALITY_INDICATOR(v->Quality)
+  T_NO_IONO_LAYERS(v->NumLayers)
+  for(l = 0; l < v->NumLayers; ++l)
+  {
+    T_IONO_HEIGHT(v->Layers[l].Height)
+    T_IONO_DEGREE(v->Layers[l].Degree)
+    T_IONO_ORDER(v->Layers[l].Order)
+    for(o = 0; o <= v->Layers[l].Order; ++o)
+    {
+      for(d = o; d <= v->Layers[l].Degree; ++d)
+      {
+        T_IONO_COEFF(v->Layers[l].Cosinus[d][o])
+      }
+    }
+    for(o = 1; o <= v->Layers[l].Order; ++o)
+    {
+      for(d = o; d <= v->Layers[l].Degree; ++d)
+      {
+        T_IONO_COEFF(v->Layers[l].Sinus[d][o])
+      }
+    }
+  }
+  ENDBLOCK
+  return ressize;
+}
 #endif /* NOENCODE */
 …
+}
+/* extract bits from data stream
+   b = variable to store result, a = number of bits */
+#define GETBITSFACTOR(b, a, c) \
+{ \
+  LOADBITS(a) \
+  b = ((bitbuffer<<(64-numbits))>>(64-(a)))*(c); \
+  numbits -= (a); \
+}
 /* extract signed floating value from data stream
    b = variable to store result, a = number of bits */
 …
+}
+/* extract floating value from data stream
+   b = variable to store result, a = number of bits, c = scale factor */
+#define GETFLOAT(b, a, c) \
+{ \
+  LOADBITS(a) \
+  b = ((double)((bitbuffer<<(sizeof(bitbuffer)*8-numbits))>>(sizeof(bitbuffer)*8-(a))))*(c); \
+  numbits -= (a); \
+}
 #define SKIPBITS(b) { LOADBITS(b) numbits -= (b); }
 /* standard values */
+/* GPS macros also used for other systems when matching! */
 #define G_HEADER(a)                      GETBITS(a,8)
 #define G_RESERVEDH(a)                   GETBITS(a,6)
 #define G_SIZE(a)                        GETBITS(a, 10)
+#define G_MESSAGE_NUMBER(a)              GETBITS(a, 12) /* DF002 */
+#define G_GPS_SATELLITE_ID(a)            GETBITS(a, 6)  /* DF068 */
+#define G_GPS_IODE(a)                    GETBITS(a, 8)  /* DF071 */
+#define G_GLONASS_IOD(a)                 GETBITS(a, 8)  /* DF237 */
+#define G_MESSAGE_NUMBER(a)              GETBITS(a, 12)          /* DF002 */
+#define G_GPS_SATELLITE_ID(a)            GETBITS(a, 6)           /* DF068 */
+#define G_QZSS_SATELLITE_ID(a)           GETBITS(a, 4)           /* DF249 */
+#define G_GLONASS_SATELLITE_ID(a)        GETBITS(a, 5)
+#define G_GPS_IODE(a)                    GETBITS(a, 8)           /* DF071 */
+#define G_GLONASS_IOD(a)                 GETBITS(a, 8)           /* DF237 */
+#define G_GALILEO_IOD(a)                 GETBITS(a, 10)          /* DF459 */
+#define G_SBAS_T0MOD(a)                  GETBITSFACTOR(a, 9, 16) /* DF468 */
+#define G_SBAS_IODCRC(a)                 GETBITS(a, 24)          /* DF469 */
+#define G_BDS_TOEMOD(a)                  GETBITSFACTOR(a, 10, 8) /* DF470 */
+#define G_BDS_IODCRC(a)                  GETBITS(a, 24)          /* DF471 */
 /* defined values */
 …
 #define G_DELTA_CLOCK_C2(a)              GETFLOATSIGN(a, 27, 1/50000000.0)
 #define G_NO_OF_CODE_BIASES(a)           GETBITS(a, 5)
 #define G_GPS_SIGNAL_IDENTIFIER(a)       GETBITS(a, 5)
 #define G_GLONASS_SIGNAL_IDENTIFIER(a)   GETBITS(a, 5)
+#define G_NO_OF_PHASE_BIASES(a)          GETBITS(a, 5)
+#define G_SIGNAL_IDENTIFIER(a)           GETBITS(a, 5)
 #define G_CODE_BIAS(a)                   GETFLOATSIGN(a, 14, 1/100.0)
+#define G_GLONASS_SATELLITE_ID(a)        GETBITS(a, 5)
+#define G_GPS_EPOCH_TIME(a, b)           {int temp; GETBITS(temp, 20) \
+#define G_YAW_ANGLE(a)                   GETFLOAT(a, 9, MPI/256.0)
+#define G_YAW_RATE(a)                    GETFLOATSIGN(a, 8, MPI/8192.0)
+#define G_PHASE_BIAS(a)                  GETFLOATSIGN(a, 20, 1/10000.0)
+#define G_GPS_EPOCH_TIME(a, b)           {unsigned int temp; GETBITS(temp, 20) \
  if(b && a != temp) return GCOBR_TIMEMISMATCH; a = temp;}
 #define G_GLONASS_EPOCH_TIME(a, b)       {int temp; GETBITS(temp, 17) \
+#define G_GLONASS_EPOCH_TIME(a, b)       {unsigned int temp; GETBITS(temp, 17) \
  if(b && a != temp) return GCOBR_TIMEMISMATCH; a = temp;}
+#define G_EPOCH_TIME(a)                  GETBITS(a, 20)
 #define G_NO_OF_SATELLITES(a)            GETBITS(a, 6)
 #define G_MULTIPLE_MESSAGE_INDICATOR(a)  GETBITS(a, 1)
+#define G_DISPERSIVE_BIAS_INDICATOR(a)   GETBITS(a, 1)
+#define G_MW_CONSISTENCY_INDICATOR(a)    GETBITS(a, 1)
+#define G_INTEGER_INDICATOR(a)           GETBITS(a, 1)
+#define G_WIDE_LANE_INDICATOR(a)         GETBITS(a, 1)
+#define G_DISCONTINUITY_COUNTER(a)       GETBITS(a, 4)
 #define G_SSR_URA(a)                     {int temp; GETBITS(temp, 6) \
  (a) = URAToValue(temp);}
 …
 #define G_SSR_SOLUTION_ID(a)             GETBITS(a, 4)
+enum GCOB_RETURN GetClockOrbitBias(struct ClockOrbit *co, struct Bias *b,
+const char *buffer, size_t size, int *bytesused)
+#define G_NO_IONO_LAYERS(a)              {unsigned int temp; GETBITS(temp, 2) a = temp+1; }
+#define G_VTEC_QUALITY_INDICATOR(a)      GETFLOAT(a, 9,      1/20.0)
+#define G_IONO_COEFF(a)                  GETFLOATSIGN(a, 16,1/200.0)
+#define G_IONO_DEGREE(a)                 {unsigned int temp; GETBITS(temp, 4) a = temp+1; }
+#define G_IONO_ORDER(a)                  {unsigned int temp; GETBITS(temp, 4) a = temp+1; }
+#define G_IONO_HEIGHT(a)                 GETFLOAT(a, 8 ,    10000.0)
+enum GCOB_RETURN GetSSR(struct ClockOrbit *co, struct CodeBias *b, struct VTEC *v,
+struct PhaseBias *pb, const char *buffer, size_t size, int *bytesused)
+{
+  int type, mmi=0, i, j, h, rs, nums, pos, id;
+  int mmi=0, h, rs;
+  unsigned int type, pos, i, j, s, nums, id;
   size_t sizeofrtcmblock;
   const char *blockstart = buffer;
 …
 #ifdef DEBUG
 fprintf(stderr, "GetClockOrbitBias START: size %d, numbits %d\n",size, numbits);
+  fprintf(stderr, "GetClockOrbitBias START: size %d, numbits %d\n",size, numbits);
 #endif
 …
   if(CRC24(sizeofrtcmblock+3, (const unsigned char *) blockstart) !=
   (uint32_t)((((unsigned char)buffer[sizeofrtcmblock])<<16)|
    (((unsigned char)buffer[sizeofrtcmblock+1])<<8)|
    (((unsigned char)buffer[sizeofrtcmblock+2]))))
+  (((unsigned char)buffer[sizeofrtcmblock+1])<<8)|
+  (((unsigned char)buffer[sizeofrtcmblock+2]))))
     return GCOBR_CRCMISMATCH;
   size = sizeofrtcmblock; /* reduce size, so overflows are detected */
 …
 fprintf(stderr, "type %d size %d\n",type,sizeofrtcmblock);
 #endif
-  switch(type)
+  {
-  case COTYPE_GPSORBIT:
-    if(!co) return GCOBR_NOCLOCKORBITPARAMETER;
-    co->messageType = COTYPE_GPSORBIT;
-    G_GPS_EPOCH_TIME(co->GPSEpochTime, co->NumberOfGPSSat)
-    co->epochGPS[co->epochSize] = co->GPSEpochTime;   /* Weber, for latency */
-    if(co->epochSize < 100) {co->epochSize += 1;}     /* Weber, for latency */
-    G_SSR_UPDATE_INTERVAL(co->UpdateInterval)
-    G_MULTIPLE_MESSAGE_INDICATOR(mmi)
-    G_SATELLITE_REFERENCE_DATUM(co->SatRefDatum)
-    G_SSR_IOD(co->SSRIOD)
-    G_SSR_PROVIDER_ID(co->SSRProviderID)
-    G_SSR_SOLUTION_ID(co->SSRSolutionID)
-    G_NO_OF_SATELLITES(nums)
-    co->OrbitDataSupplied |= 1;
-#ifdef DEBUG
-fprintf(stderr, "epochtime %d ui %d mmi %d sats %d/%d rd %d\n",co->GPSEpochTime,
-co->UpdateInterval,mmi,co->NumberOfGPSSat,nums, co->SatRefDatum);
-#endif
-    for(i = 0; i < nums; ++i)
+    {
-      G_GPS_SATELLITE_ID(id)
-      for(pos = 0; pos < co->NumberOfGPSSat && co->Sat[pos].ID != id; ++pos)
+        ;
-      if(pos >= CLOCKORBIT_NUMGPS) return GCOBR_DATAMISMATCH;
-      else if(pos == co->NumberOfGPSSat) ++co->NumberOfGPSSat;
-      co->Sat[pos].ID = id;
-      G_GPS_IODE(co->Sat[pos].IOD)
-      G_DELTA_RADIAL(co->Sat[pos].Orbit.DeltaRadial)
-      G_DELTA_ALONG_TRACK(co->Sat[pos].Orbit.DeltaAlongTrack)
-      G_DELTA_CROSS_TRACK(co->Sat[pos].Orbit.DeltaCrossTrack)
-      G_DELTA_DOT_RADIAL(co->Sat[pos].Orbit.DotDeltaRadial)
-      G_DELTA_DOT_ALONG_TRACK(co->Sat[pos].Orbit.DotDeltaAlongTrack)
-      G_DELTA_DOT_CROSS_TRACK(co->Sat[pos].Orbit.DotDeltaCrossTrack)
-#ifdef DEBUG
-fprintf(stderr, "id %2d iod %3d dr %8.3f da %8.3f dc %8.3f dr %8.3f da %8.3f dc %8.3f\n",
-co->Sat[pos].ID,co->Sat[pos].IOD,co->Sat[pos].Orbit.DeltaRadial,
-co->Sat[pos].Orbit.DeltaAlongTrack,co->Sat[pos].Orbit.DeltaCrossTrack,
-co->Sat[pos].Orbit.DotDeltaRadial,
-co->Sat[pos].Orbit.DotDeltaAlongTrack,
-co->Sat[pos].Orbit.DotDeltaCrossTrack);
-#endif
+    }
-    break;
-  case COTYPE_GPSCLOCK:
-    if(!co) return GCOBR_NOCLOCKORBITPARAMETER;
-    co->messageType = COTYPE_GPSCLOCK;
-    G_GPS_EPOCH_TIME(co->GPSEpochTime, co->NumberOfGPSSat)
-    co->epochGPS[co->epochSize] = co->GPSEpochTime;   /* Weber, for latency */
-    if(co->epochSize < 100) {co->epochSize += 1;}     /* Weber, for latency */
-    G_SSR_UPDATE_INTERVAL(co->UpdateInterval)
-    G_MULTIPLE_MESSAGE_INDICATOR(mmi)
-    G_SSR_IOD(co->SSRIOD)
-    G_SSR_PROVIDER_ID(co->SSRProviderID)
-    G_SSR_SOLUTION_ID(co->SSRSolutionID)
-    G_NO_OF_SATELLITES(nums)
-    co->ClockDataSupplied |= 1;
-#ifdef DEBUG
-fprintf(stderr, "epochtime %d ui %d mmi %d sats %d/%d\n",co->GPSEpochTime,
-co->UpdateInterval,mmi,co->NumberOfGPSSat,nums);
-#endif
-    for(i = 0; i < nums; ++i)
+    {
-      G_GPS_SATELLITE_ID(id)
-      for(pos = 0; pos < co->NumberOfGPSSat && co->Sat[pos].ID != id; ++pos)
+        ;
-      if(pos >= CLOCKORBIT_NUMGPS) return GCOBR_DATAMISMATCH;
-      else if(pos == co->NumberOfGPSSat) ++co->NumberOfGPSSat;
-      co->Sat[pos].ID = id;
-      G_DELTA_CLOCK_C0(co->Sat[pos].Clock.DeltaA0)
-      G_DELTA_CLOCK_C1(co->Sat[pos].Clock.DeltaA1)
-      G_DELTA_CLOCK_C2(co->Sat[pos].Clock.DeltaA2)
-#ifdef DEBUG
-fprintf(stderr, "id %2d c0 %8.3f c1 %8.3f c2 %8.3f\n",
-co->Sat[pos].ID, co->Sat[pos].Clock.DeltaA0, co->Sat[pos].Clock.DeltaA1,
-co->Sat[pos].Clock.DeltaA2);
-#endif
+    }
-    break;
-  case COTYPE_GPSCOMBINED:
-    if(!co) return GCOBR_NOCLOCKORBITPARAMETER;
-    co->messageType = COTYPE_GPSCOMBINED;
-    G_GPS_EPOCH_TIME(co->GPSEpochTime, co->NumberOfGPSSat)
-    co->epochGPS[co->epochSize] = co->GPSEpochTime;   /* Weber, for latency */
-    if(co->epochSize < 100) {co->epochSize += 1;}     /* Weber, for latency */
-    G_SSR_UPDATE_INTERVAL(co->UpdateInterval)
-    G_MULTIPLE_MESSAGE_INDICATOR(mmi)
-    G_SATELLITE_REFERENCE_DATUM(co->SatRefDatum)
-    G_SSR_IOD(co->SSRIOD)
-    G_SSR_PROVIDER_ID(co->SSRProviderID)
-    G_SSR_SOLUTION_ID(co->SSRSolutionID)
-    G_NO_OF_SATELLITES(nums)
-    co->OrbitDataSupplied |= 1;
-    co->ClockDataSupplied |= 1;
-    for(i = 0; i < nums; ++i)
+    {
-      G_GPS_SATELLITE_ID(id)
-      for(pos = 0; pos < co->NumberOfGPSSat && co->Sat[pos].ID != id; ++pos)
+        ;
-      if(pos >= CLOCKORBIT_NUMGPS) return GCOBR_DATAMISMATCH;
-      else if(pos == co->NumberOfGPSSat) ++co->NumberOfGPSSat;
-      co->Sat[pos].ID = id;
-      G_GPS_IODE(co->Sat[pos].IOD)
-      G_DELTA_RADIAL(co->Sat[pos].Orbit.DeltaRadial)
-      G_DELTA_ALONG_TRACK(co->Sat[pos].Orbit.DeltaAlongTrack)
-      G_DELTA_CROSS_TRACK(co->Sat[pos].Orbit.DeltaCrossTrack)
-      G_DELTA_DOT_RADIAL(co->Sat[pos].Orbit.DotDeltaRadial)
-      G_DELTA_DOT_ALONG_TRACK(co->Sat[pos].Orbit.DotDeltaAlongTrack)
-      G_DELTA_DOT_CROSS_TRACK(co->Sat[pos].Orbit.DotDeltaCrossTrack)
-      G_DELTA_CLOCK_C0(co->Sat[pos].Clock.DeltaA0)
-      G_DELTA_CLOCK_C1(co->Sat[pos].Clock.DeltaA1)
-      G_DELTA_CLOCK_C2(co->Sat[pos].Clock.DeltaA2)
+    }
-    break;
-  case COTYPE_GPSURA:
-    if(!co) return GCOBR_NOCLOCKORBITPARAMETER;
-    co->messageType = COTYPE_GPSURA;
-    G_GPS_EPOCH_TIME(co->GPSEpochTime, co->NumberOfGPSSat)
-    co->epochGPS[co->epochSize] = co->GPSEpochTime;   /* Weber, for latency */
-    if(co->epochSize < 100) {co->epochSize += 1;}     /* Weber, for latency */
-    G_MULTIPLE_MESSAGE_INDICATOR(mmi)
-    G_SSR_IOD(co->SSRIOD)
-    G_SSR_PROVIDER_ID(co->SSRProviderID)
-    G_SSR_SOLUTION_ID(co->SSRSolutionID)
-    G_NO_OF_SATELLITES(nums)
-    co->URADataSupplied |= 1;
-    for(i = 0; i < nums; ++i)
+    {
-      G_GPS_SATELLITE_ID(id)
-      for(pos = 0; pos < co->NumberOfGPSSat && co->Sat[pos].ID != id; ++pos)
+        ;
-      if(pos >= CLOCKORBIT_NUMGPS) return GCOBR_DATAMISMATCH;
-      else if(pos == co->NumberOfGPSSat) ++co->NumberOfGPSSat;
-      co->Sat[pos].ID = id;
-      G_SSR_URA(co->Sat[pos].UserRangeAccuracy)
+    }
-    break;
-  case COTYPE_GPSHR:
-    if(!co) return GCOBR_NOCLOCKORBITPARAMETER;
-    co->messageType = COTYPE_GPSHR;
-    G_GPS_EPOCH_TIME(co->GPSEpochTime, co->NumberOfGPSSat)
-    co->epochGPS[co->epochSize] = co->GPSEpochTime;   /* Weber, for latency */
-    if(co->epochSize < 100) {co->epochSize += 1;}     /* Weber, for latency */
-    G_SSR_UPDATE_INTERVAL(co->UpdateInterval)
-    G_MULTIPLE_MESSAGE_INDICATOR(mmi)
-    G_SSR_IOD(co->SSRIOD)
-    G_SSR_PROVIDER_ID(co->SSRProviderID)
-    G_SSR_SOLUTION_ID(co->SSRSolutionID)
-    G_NO_OF_SATELLITES(nums)
-    co->HRDataSupplied |= 1;
-    for(i = 0; i < nums; ++i)
+    {
-      G_GPS_SATELLITE_ID(id)
-      for(pos = 0; pos < co->NumberOfGPSSat && co->Sat[pos].ID != id; ++pos)
+        ;
-      if(pos >= CLOCKORBIT_NUMGPS) return GCOBR_DATAMISMATCH;
-      else if(pos == co->NumberOfGPSSat) ++co->NumberOfGPSSat;
-      co->Sat[pos].ID = id;
-      G_HR_CLOCK_CORRECTION(co->Sat[pos].hrclock)
+    }
-    break;
-  case COTYPE_GLONASSORBIT:
-    if(!co) return GCOBR_NOCLOCKORBITPARAMETER;
-    co->messageType = COTYPE_GLONASSORBIT;
-    G_GLONASS_EPOCH_TIME(co->GLONASSEpochTime, co->NumberOfGLONASSSat)
-    G_SSR_UPDATE_INTERVAL(co->UpdateInterval)
-    G_MULTIPLE_MESSAGE_INDICATOR(mmi)
-    G_SATELLITE_REFERENCE_DATUM(co->SatRefDatum)
-    G_SSR_IOD(co->SSRIOD)
-    G_SSR_PROVIDER_ID(co->SSRProviderID)
-    G_SSR_SOLUTION_ID(co->SSRSolutionID)
-    G_NO_OF_SATELLITES(nums)
-    co->OrbitDataSupplied |= 2;
-#ifdef DEBUG
-fprintf(stderr, "epochtime %d ui %d mmi %d sats %d/%d rd %d\n",co->GLONASSEpochTime,
-co->UpdateInterval,mmi,co->NumberOfGLONASSSat,nums, co->SatRefDatum);
-#endif
-    for(i = 0; i < nums; ++i)
+    {
-      G_GLONASS_SATELLITE_ID(id)
-      for(pos = CLOCKORBIT_NUMGPS; pos < CLOCKORBIT_NUMGPS+co->NumberOfGLONASSSat && co->Sat[pos].ID != id; ++pos)
+        ;
-      if(pos >= CLOCKORBIT_NUMGPS+CLOCKORBIT_NUMGLONASS) return GCOBR_DATAMISMATCH;
-      else if(pos == CLOCKORBIT_NUMGPS+co->NumberOfGLONASSSat) ++co->NumberOfGLONASSSat;
-      co->Sat[pos].ID = id;
-      G_GLONASS_IOD(co->Sat[pos].IOD)
-      G_DELTA_RADIAL(co->Sat[pos].Orbit.DeltaRadial)
-      G_DELTA_ALONG_TRACK(co->Sat[pos].Orbit.DeltaAlongTrack)
-      G_DELTA_CROSS_TRACK(co->Sat[pos].Orbit.DeltaCrossTrack)
-      G_DELTA_DOT_RADIAL(co->Sat[pos].Orbit.DotDeltaRadial)
-      G_DELTA_DOT_ALONG_TRACK(co->Sat[pos].Orbit.DotDeltaAlongTrack)
-      G_DELTA_DOT_CROSS_TRACK(co->Sat[pos].Orbit.DotDeltaCrossTrack)
-#ifdef DEBUG
-fprintf(stderr, "id %2d iod %3d dr %8.3f da %8.3f dc %8.3f dr %8.3f da %8.3f dc %8.3f\n",
-co->Sat[pos].ID,co->Sat[pos].IOD,co->Sat[pos].Orbit.DeltaRadial,
-co->Sat[pos].Orbit.DeltaAlongTrack,co->Sat[pos].Orbit.DeltaCrossTrack,
-co->Sat[pos].Orbit.DotDeltaRadial,
-co->Sat[pos].Orbit.DotDeltaAlongTrack,
-co->Sat[pos].Orbit.DotDeltaCrossTrack);
-#endif
+    }
-    break;
-  case COTYPE_GLONASSCLOCK:
-    if(!co) return GCOBR_NOCLOCKORBITPARAMETER;
-    co->messageType = COTYPE_GLONASSCLOCK;
-    G_GLONASS_EPOCH_TIME(co->GLONASSEpochTime, co->NumberOfGLONASSSat)
-    G_SSR_UPDATE_INTERVAL(co->UpdateInterval)
-    G_MULTIPLE_MESSAGE_INDICATOR(mmi)
-    G_SSR_IOD(co->SSRIOD)
-    G_SSR_PROVIDER_ID(co->SSRProviderID)
-    G_SSR_SOLUTION_ID(co->SSRSolutionID)
-    G_NO_OF_SATELLITES(nums)
-    co->ClockDataSupplied |= 2;
-#ifdef DEBUG
-fprintf(stderr, "epochtime %d ui %d mmi %d sats %d/%d\n",co->GLONASSEpochTime,
-co->UpdateInterval,mmi,co->NumberOfGLONASSSat,nums);
-#endif
-    for(i = 0; i < nums; ++i)
+    {
-      G_GLONASS_SATELLITE_ID(id)
-      for(pos = CLOCKORBIT_NUMGPS; pos < CLOCKORBIT_NUMGPS+co->NumberOfGLONASSSat && co->Sat[pos].ID != id; ++pos)
+        ;
-      if(pos >= CLOCKORBIT_NUMGPS+CLOCKORBIT_NUMGLONASS) return GCOBR_DATAMISMATCH;
-      else if(pos == CLOCKORBIT_NUMGPS+co->NumberOfGLONASSSat) ++co->NumberOfGLONASSSat;
-      co->Sat[pos].ID = id;
-      G_DELTA_CLOCK_C0(co->Sat[pos].Clock.DeltaA0)
-      G_DELTA_CLOCK_C1(co->Sat[pos].Clock.DeltaA1)
-      G_DELTA_CLOCK_C2(co->Sat[pos].Clock.DeltaA2)
-#ifdef DEBUG
-fprintf(stderr, "id %2d c0 %8.3f c1 %8.3f c2 %8.3f\n",
-co->Sat[pos].ID, co->Sat[pos].Clock.DeltaA0, co->Sat[pos].Clock.DeltaA1,
-co->Sat[pos].Clock.DeltaA2);
-#endif
+    }
-    break;
-  case COTYPE_GLONASSCOMBINED:
-    if(!co) return GCOBR_NOCLOCKORBITPARAMETER;
-    co->messageType = COTYPE_GLONASSCOMBINED;
-    G_GLONASS_EPOCH_TIME(co->GLONASSEpochTime, co->NumberOfGLONASSSat)
-    G_SSR_UPDATE_INTERVAL(co->UpdateInterval)
-    G_MULTIPLE_MESSAGE_INDICATOR(mmi)
-    G_SATELLITE_REFERENCE_DATUM(co->SatRefDatum)
-    G_SSR_IOD(co->SSRIOD)
-    G_SSR_PROVIDER_ID(co->SSRProviderID)
-    G_SSR_SOLUTION_ID(co->SSRSolutionID)
-    G_NO_OF_SATELLITES(nums)
-    co->OrbitDataSupplied |= 2;
-    co->ClockDataSupplied |= 2;
-    for(i = 0; i < nums; ++i)
+    {
-      G_GLONASS_SATELLITE_ID(id)
-      for(pos = CLOCKORBIT_NUMGPS; pos < CLOCKORBIT_NUMGPS+co->NumberOfGLONASSSat && co->Sat[pos].ID != id; ++pos)
+        ;
-      if(pos >= CLOCKORBIT_NUMGPS+CLOCKORBIT_NUMGLONASS) return GCOBR_DATAMISMATCH;
-      else if(pos == CLOCKORBIT_NUMGPS+co->NumberOfGLONASSSat) ++co->NumberOfGLONASSSat;
-      co->Sat[pos].ID = id;
-      G_GLONASS_IOD(co->Sat[pos].IOD)
-      G_DELTA_RADIAL(co->Sat[pos].Orbit.DeltaRadial)
-      G_DELTA_ALONG_TRACK(co->Sat[pos].Orbit.DeltaAlongTrack)
-      G_DELTA_CROSS_TRACK(co->Sat[pos].Orbit.DeltaCrossTrack)
-      G_DELTA_DOT_RADIAL(co->Sat[pos].Orbit.DotDeltaRadial)
-      G_DELTA_DOT_ALONG_TRACK(co->Sat[pos].Orbit.DotDeltaAlongTrack)
-      G_DELTA_DOT_CROSS_TRACK(co->Sat[pos].Orbit.DotDeltaCrossTrack)
-      G_DELTA_CLOCK_C0(co->Sat[pos].Clock.DeltaA0)
-      G_DELTA_CLOCK_C1(co->Sat[pos].Clock.DeltaA1)
-      G_DELTA_CLOCK_C2(co->Sat[pos].Clock.DeltaA2)
+    }
-    break;
-  case COTYPE_GLONASSURA:
-    if(!co) return GCOBR_NOCLOCKORBITPARAMETER;
-    co->messageType = COTYPE_GLONASSURA;
-    G_GLONASS_EPOCH_TIME(co->GLONASSEpochTime, co->NumberOfGLONASSSat)
-    G_MULTIPLE_MESSAGE_INDICATOR(mmi)
-    G_SSR_IOD(co->SSRIOD)
-    G_SSR_PROVIDER_ID(co->SSRProviderID)
-    G_SSR_SOLUTION_ID(co->SSRSolutionID)
-    G_NO_OF_SATELLITES(nums)
-    co->URADataSupplied |= 2;
-    for(i = 0; i < nums; ++i)
+    {
-      G_GLONASS_SATELLITE_ID(id)
-      for(pos = CLOCKORBIT_NUMGPS; pos < CLOCKORBIT_NUMGPS+co->NumberOfGLONASSSat && co->Sat[pos].ID != id; ++pos)
+        ;
-      if(pos >= CLOCKORBIT_NUMGPS+CLOCKORBIT_NUMGLONASS) return GCOBR_DATAMISMATCH;
-      else if(pos == CLOCKORBIT_NUMGPS+co->NumberOfGLONASSSat) ++co->NumberOfGLONASSSat;
-      co->Sat[pos].ID = id;
-      G_SSR_URA(co->Sat[pos].UserRangeAccuracy)
+    }
-    break;
-  case COTYPE_GLONASSHR:
-    if(!co) return GCOBR_NOCLOCKORBITPARAMETER;
-    co->messageType = COTYPE_GLONASSHR;
-    G_GLONASS_EPOCH_TIME(co->GLONASSEpochTime, co->NumberOfGLONASSSat)
-    G_SSR_UPDATE_INTERVAL(co->UpdateInterval)
-    G_MULTIPLE_MESSAGE_INDICATOR(mmi)
-    G_SSR_IOD(co->SSRIOD)
-    G_SSR_PROVIDER_ID(co->SSRProviderID)
-    G_SSR_SOLUTION_ID(co->SSRSolutionID)
-    G_NO_OF_SATELLITES(nums)
-    co->HRDataSupplied |= 2;
-    for(i = 0; i < nums; ++i)
+    {
-      G_GLONASS_SATELLITE_ID(id)
-      for(pos = CLOCKORBIT_NUMGPS; pos < CLOCKORBIT_NUMGPS+co->NumberOfGLONASSSat && co->Sat[pos].ID != id; ++pos)
+        ;
-      if(pos >= CLOCKORBIT_NUMGPS+CLOCKORBIT_NUMGLONASS) return GCOBR_DATAMISMATCH;
-      else if(pos == CLOCKORBIT_NUMGPS+co->NumberOfGLONASSSat) ++co->NumberOfGLONASSSat;
-      co->Sat[pos].ID = id;
-      G_HR_CLOCK_CORRECTION(co->Sat[pos].hrclock)
+    }
-    break;
-  case BTYPE_GPS:
-    if(!b) return GCOBR_NOBIASPARAMETER;
-    b->messageType = BTYPE_GPS;
-    G_GPS_EPOCH_TIME(b->GPSEpochTime, b->NumberOfGPSSat)
-    G_SSR_UPDATE_INTERVAL(b->UpdateInterval)
-    G_MULTIPLE_MESSAGE_INDICATOR(mmi)
-    G_SSR_IOD(b->SSRIOD)
-    G_SSR_PROVIDER_ID(b->SSRProviderID)
-    G_SSR_SOLUTION_ID(b->SSRSolutionID)
-    G_NO_OF_SATELLITES(nums)
-    for(i = 0; i < nums; ++i)
+    {
-      G_GPS_SATELLITE_ID(id)
-      for(pos = 0; pos < b->NumberOfGPSSat && b->Sat[pos].ID != id; ++pos)
+        ;
-      if(pos >= CLOCKORBIT_NUMGPS) return GCOBR_DATAMISMATCH;
-      else if(pos == b->NumberOfGPSSat) ++b->NumberOfGPSSat;
-      b->Sat[pos].ID = id;
-      G_NO_OF_CODE_BIASES(b->Sat[pos].NumberOfCodeBiases)
-      for(j = 0; j < b->Sat[pos].NumberOfCodeBiases; ++j)
+      {
-        G_GPS_SIGNAL_IDENTIFIER(b->Sat[pos].Biases[j].Type)
-        G_CODE_BIAS(b->Sat[pos].Biases[j].Bias)
+      }
+    }
-    break;
-  case BTYPE_GLONASS:
-    if(!b) return GCOBR_NOBIASPARAMETER;
-    b->messageType = BTYPE_GLONASS;
-    G_GLONASS_EPOCH_TIME(b->GLONASSEpochTime, b->NumberOfGLONASSSat)
-    G_SSR_UPDATE_INTERVAL(b->UpdateInterval)
-    G_MULTIPLE_MESSAGE_INDICATOR(mmi)
-    G_SSR_IOD(b->SSRIOD)
-    G_SSR_PROVIDER_ID(b->SSRProviderID)
-    G_SSR_SOLUTION_ID(b->SSRSolutionID)
-    G_NO_OF_SATELLITES(nums)
-    for(i = 0; i < nums; ++i)
+    {
-      G_GLONASS_SATELLITE_ID(id)
-      for(pos = CLOCKORBIT_NUMGPS; pos < CLOCKORBIT_NUMGPS+b->NumberOfGLONASSSat && b->Sat[pos].ID != id; ++pos)
+        ;
-      if(pos >= CLOCKORBIT_NUMGPS+CLOCKORBIT_NUMGLONASS) return GCOBR_DATAMISMATCH;
-      else if(pos == CLOCKORBIT_NUMGPS+b->NumberOfGLONASSSat) ++b->NumberOfGLONASSSat;
-      b->Sat[pos].ID = id;
-      G_NO_OF_CODE_BIASES(b->Sat[pos].NumberOfCodeBiases)
-      for(j = 0; j < b->Sat[pos].NumberOfCodeBiases; ++j)
+      {
-        G_GLONASS_SIGNAL_IDENTIFIER(b->Sat[pos].Biases[j].Type)
-        G_CODE_BIAS(b->Sat[pos].Biases[j].Bias)
+      }
+    }
-    break;
-  default:
-    if(bytesused)
-      *bytesused = sizeofrtcmblock+6;
-    return GCOBR_UNKNOWNTYPE;
+  }
-#ifdef DEBUG
-for(type = 0; type < (int)size && (unsigned char)buffer[type] != 0xD3; ++type)
-  numbits += 8;
-fprintf(stderr, "numbits left %d\n",numbits);
-#endif
   if(bytesused)
     *bytesused = sizeofrtcmblock+6;
+  return mmi ? GCOBR_MESSAGEFOLLOWS : GCOBR_OK;
+  if(type == VTEC_BASE)
+  {
+    unsigned int l, o, d;
+    if(!v) return GCOBR_NOVTECPARAMETER;
+    memset(v, 0, sizeof(*v));
+    G_EPOCH_TIME(v->EpochTime)
+    G_SSR_UPDATE_INTERVAL(v->UpdateInterval)
+    G_MULTIPLE_MESSAGE_INDICATOR(mmi)
+    G_SSR_IOD(v->SSRIOD)
+    G_SSR_PROVIDER_ID(v->SSRProviderID)
+    G_SSR_SOLUTION_ID(v->SSRSolutionID)
+    G_VTEC_QUALITY_INDICATOR(v->Quality)
+    G_NO_IONO_LAYERS(v->NumLayers)
+    for(l = 0; l < v->NumLayers; ++l)
+    {
+      G_IONO_HEIGHT(v->Layers[l].Height)
+      G_IONO_DEGREE(v->Layers[l].Degree)
+      G_IONO_ORDER(v->Layers[l].Order)
+      for(o = 0; o <= v->Layers[l].Order; ++o)
+      {
+        for(d = o; d <= v->Layers[l].Degree; ++d)
+        {
+          G_IONO_COEFF(v->Layers[l].Cosinus[d][o])
+        }
+      }
+      for(o = 1; o <= v->Layers[l].Order; ++o)
+      {
+        for(d = o; d <= v->Layers[l].Degree; ++d)
+        {
+          G_IONO_COEFF(v->Layers[l].Sinus[d][o])
+        }
+      }
+    }
+#ifdef DEBUG
+    for(type = 0; type < (int)size && (unsigned char)buffer[type] != 0xD3; ++type)
+      numbits += 8;
+    fprintf(stderr, "numbits left %d\n",numbits);
+#endif
+    return mmi ? GCOBR_MESSAGEFOLLOWS : GCOBR_OK;
+  }
+  for(s = CLOCKORBIT_SATNUM; s-- > 0;)
+  {
+    if(type == PBTYPE_BASE+s)
+    {
+      if(!pb) return GCOBR_NOPHASEBIASPARAMETER;
+      pb->messageType = type;
+      switch(s)
+      {
+      case CLOCKORBIT_SATGPS: case CLOCKORBIT_SATGALILEO:
+      case CLOCKORBIT_SATQZSS: case CLOCKORBIT_SATSBAS:
+      case CLOCKORBIT_SATBDS:
+        G_GPS_EPOCH_TIME(pb->EpochTime[s], pb->NumberOfSat[s])
+        break;
+      case CLOCKORBIT_SATGLONASS:
+        G_GLONASS_EPOCH_TIME(pb->EpochTime[s], pb->NumberOfSat[s])
+        break;
+      }
+      G_SSR_UPDATE_INTERVAL(pb->UpdateInterval)
+      G_MULTIPLE_MESSAGE_INDICATOR(mmi)
+      G_SSR_IOD(pb->SSRIOD)
+      G_SSR_PROVIDER_ID(pb->SSRProviderID)
+      G_SSR_SOLUTION_ID(pb->SSRSolutionID)
+      G_DISPERSIVE_BIAS_INDICATOR(pb->DispersiveBiasConsistencyIndicator)
+      G_MW_CONSISTENCY_INDICATOR(pb->MWConsistencyIndicator)
+      G_NO_OF_SATELLITES(nums)
+      for(i = 0; i < nums; ++i)
+      {
+        switch(s)
+        {
+        case CLOCKORBIT_SATGPS: case CLOCKORBIT_SATGALILEO:
+        case CLOCKORBIT_SATSBAS: case CLOCKORBIT_SATBDS:
+          G_GPS_SATELLITE_ID(id)
+          break;
+        case CLOCKORBIT_SATQZSS:
+          G_QZSS_SATELLITE_ID(id)
+          break;
+        case CLOCKORBIT_SATGLONASS:
+          G_GLONASS_SATELLITE_ID(id)
+          break;
+        }
+        for(pos = satoffset[s]; pos < satoffset[s]+pb->NumberOfSat[s] && pb->Sat[pos].ID != id; ++pos)
+          ;
+        if(pos >= satoffset[s+1]) return GCOBR_DATAMISMATCH;
+        else if(pos == pb->NumberOfSat[s] + satoffset[s]) ++pb->NumberOfSat[s];
+        pb->Sat[pos].ID = id;
+        G_NO_OF_PHASE_BIASES(pb->Sat[pos].NumberOfPhaseBiases)
+        G_YAW_ANGLE(pb->Sat[pos].YawAngle)
+        G_YAW_RATE(pb->Sat[pos].YawRate)
+        for(j = 0; j < pb->Sat[pos].NumberOfPhaseBiases; ++j)
+        {
+          G_SIGNAL_IDENTIFIER(pb->Sat[pos].Biases[j].Type)
+          G_INTEGER_INDICATOR(pb->Sat[pos].Biases[j].SignalIntegerIndicator)
+          G_WIDE_LANE_INDICATOR(pb->Sat[pos].Biases[j].SignalsWideLaneIntegerIndicator)
+          G_DISCONTINUITY_COUNTER(pb->Sat[pos].Biases[j].SignalDiscontinuityCounter)
+          G_PHASE_BIAS(pb->Sat[pos].Biases[j].Bias)
+        }
+      }
+    }
+    else if(type >= corbase[s])
+    {
+      switch(type-corbase[s])
+      {
+      case COBOFS_ORBIT:
+        if(!co) return GCOBR_NOCLOCKORBITPARAMETER;
+        co->messageType = type;
+        switch(s)
+        {
+        case CLOCKORBIT_SATGPS: case CLOCKORBIT_SATGALILEO:
+        case CLOCKORBIT_SATQZSS: case CLOCKORBIT_SATSBAS:
+        case CLOCKORBIT_SATBDS:
+          G_GPS_EPOCH_TIME(co->EpochTime[s], co->NumberOfSat[s])
+          break;
+        case CLOCKORBIT_SATGLONASS:
+          G_GLONASS_EPOCH_TIME(co->EpochTime[s], co->NumberOfSat[s])
+          break;
+        }
+        G_SSR_UPDATE_INTERVAL(co->UpdateInterval)
+        G_MULTIPLE_MESSAGE_INDICATOR(mmi)
+        G_SATELLITE_REFERENCE_DATUM(co->SatRefDatum)
+        G_SSR_IOD(co->SSRIOD)
+        G_SSR_PROVIDER_ID(co->SSRProviderID)
+        G_SSR_SOLUTION_ID(co->SSRSolutionID)
+        G_NO_OF_SATELLITES(nums)
+        co->Supplied[COBOFS_ORBIT] |= 1;
+#ifdef DEBUG
+        fprintf(stderr, "epochtime %d ui %d mmi %d sats %d/%d rd %d\n",co->EpochTime[s],
+        co->UpdateInterval,mmi,co->NumberOfSat[s],nums, co->SatRefDatum);
+#endif
+        for(i = 0; i < nums; ++i)
+        {
+          switch(s)
+          {
+          case CLOCKORBIT_SATGPS: case CLOCKORBIT_SATGALILEO:
+          case CLOCKORBIT_SATSBAS: case CLOCKORBIT_SATBDS:
+            G_GPS_SATELLITE_ID(id)
+            break;
+          case CLOCKORBIT_SATQZSS:
+            G_QZSS_SATELLITE_ID(id)
+            break;
+          case CLOCKORBIT_SATGLONASS:
+            G_GLONASS_SATELLITE_ID(id)
+            break;
+          }
+          for(pos = satoffset[s]; pos < satoffset[s]+co->NumberOfSat[s] && co->Sat[pos].ID != id; ++pos)
+            ;
+          if(pos >= satoffset[s+1]) return GCOBR_DATAMISMATCH;
+          else if(pos == co->NumberOfSat[s] + satoffset[s]) ++co->NumberOfSat[s];
+          co->Sat[pos].ID = id;
+          switch(s)
+          {
+          case CLOCKORBIT_SATGPS:
+          case CLOCKORBIT_SATQZSS:
+            G_GPS_IODE(co->Sat[pos].IOD)
+            break;
+          case CLOCKORBIT_SATGLONASS:
+            G_GLONASS_IOD(co->Sat[pos].IOD)
+            break;
+          case CLOCKORBIT_SATGALILEO:
+            G_GALILEO_IOD(co->Sat[pos].IOD)
+            break;
+          case CLOCKORBIT_SATSBAS:
+            G_SBAS_T0MOD(co->Sat[pos].toe)
+            G_SBAS_IODCRC(co->Sat[pos].IOD)
+            break;
+          case CLOCKORBIT_SATBDS:
+            G_BDS_TOEMOD(co->Sat[pos].toe)
+            G_BDS_IODCRC(co->Sat[pos].IOD)
+            break;
+          }
+          G_DELTA_RADIAL(co->Sat[pos].Orbit.DeltaRadial)
+          G_DELTA_ALONG_TRACK(co->Sat[pos].Orbit.DeltaAlongTrack)
+          G_DELTA_CROSS_TRACK(co->Sat[pos].Orbit.DeltaCrossTrack)
+          G_DELTA_DOT_RADIAL(co->Sat[pos].Orbit.DotDeltaRadial)
+          G_DELTA_DOT_ALONG_TRACK(co->Sat[pos].Orbit.DotDeltaAlongTrack)
+          G_DELTA_DOT_CROSS_TRACK(co->Sat[pos].Orbit.DotDeltaCrossTrack)
+#ifdef DEBUG
+          fprintf(stderr, "id %2d iod %3d dr %8.3f da %8.3f dc %8.3f dr %8.3f da %8.3f dc %8.3f\n",
+          co->Sat[pos].ID,co->Sat[pos].IOD,co->Sat[pos].Orbit.DeltaRadial,
+          co->Sat[pos].Orbit.DeltaAlongTrack,co->Sat[pos].Orbit.DeltaCrossTrack,
+          co->Sat[pos].Orbit.DotDeltaRadial,
+          co->Sat[pos].Orbit.DotDeltaAlongTrack,
+          co->Sat[pos].Orbit.DotDeltaCrossTrack);
+#endif
+        }
+        break;
+      case COBOFS_CLOCK:
+        if(!co) return GCOBR_NOCLOCKORBITPARAMETER;
+        co->messageType = type;
+        switch(s)
+        {
+        case CLOCKORBIT_SATGPS: case CLOCKORBIT_SATGALILEO:
+        case CLOCKORBIT_SATQZSS: case CLOCKORBIT_SATSBAS:
+        case CLOCKORBIT_SATBDS:
+          G_GPS_EPOCH_TIME(co->EpochTime[s], co->NumberOfSat[s])
+          break;
+        case CLOCKORBIT_SATGLONASS:
+          G_GLONASS_EPOCH_TIME(co->EpochTime[s], co->NumberOfSat[s])
+          break;
+        }
+        G_SSR_UPDATE_INTERVAL(co->UpdateInterval)
+        G_MULTIPLE_MESSAGE_INDICATOR(mmi)
+        G_SSR_IOD(co->SSRIOD)
+        G_SSR_PROVIDER_ID(co->SSRProviderID)
+        G_SSR_SOLUTION_ID(co->SSRSolutionID)
+        G_NO_OF_SATELLITES(nums)
+        co->Supplied[COBOFS_CLOCK] |= 1;
+#ifdef DEBUG
+        fprintf(stderr, "epochtime %d ui %d mmi %d sats %d/%d\n",co->EpochTime[s],
+        co->UpdateInterval,mmi,co->NumberOfSat[s],nums);
+#endif
+        for(i = 0; i < nums; ++i)
+        {
+          switch(s)
+          {
+          case CLOCKORBIT_SATGPS: case CLOCKORBIT_SATGALILEO:
+          case CLOCKORBIT_SATSBAS: case CLOCKORBIT_SATBDS:
+            G_GPS_SATELLITE_ID(id)
+            break;
+          case CLOCKORBIT_SATQZSS:
+            G_QZSS_SATELLITE_ID(id)
+            break;
+          case CLOCKORBIT_SATGLONASS:
+            G_GLONASS_SATELLITE_ID(id)
+            break;
+          }
+          for(pos = satoffset[s]; pos < satoffset[s]+co->NumberOfSat[s] && co->Sat[pos].ID != id; ++pos)
+            ;
+          if(pos >= satoffset[s+1]) return GCOBR_DATAMISMATCH;
+          else if(pos == co->NumberOfSat[s] + satoffset[s]) ++co->NumberOfSat[s];
+          co->Sat[pos].ID = id;
+          G_DELTA_CLOCK_C0(co->Sat[pos].Clock.DeltaA0)
+          G_DELTA_CLOCK_C1(co->Sat[pos].Clock.DeltaA1)
+          G_DELTA_CLOCK_C2(co->Sat[pos].Clock.DeltaA2)
+#ifdef DEBUG
+          fprintf(stderr, "id %2d c0 %8.3f c1 %8.3f c2 %8.3f\n",
+          co->Sat[pos].ID, co->Sat[pos].Clock.DeltaA0, co->Sat[pos].Clock.DeltaA1,
+          co->Sat[pos].Clock.DeltaA2);
+#endif
+        }
+        break;
+      case COBOFS_COMBINED:
+        if(!co) return GCOBR_NOCLOCKORBITPARAMETER;
+        co->messageType = type;
+        switch(s)
+        {
+        case CLOCKORBIT_SATGPS: case CLOCKORBIT_SATGALILEO:
+        case CLOCKORBIT_SATQZSS: case CLOCKORBIT_SATSBAS:
+        case CLOCKORBIT_SATBDS:
+          G_GPS_EPOCH_TIME(co->EpochTime[s], co->NumberOfSat[s])
+          break;
+        case CLOCKORBIT_SATGLONASS:
+          G_GLONASS_EPOCH_TIME(co->EpochTime[s], co->NumberOfSat[s])
+          break;
+        }
+        G_SSR_UPDATE_INTERVAL(co->UpdateInterval)
+        G_MULTIPLE_MESSAGE_INDICATOR(mmi)
+        G_SATELLITE_REFERENCE_DATUM(co->SatRefDatum)
+        G_SSR_IOD(co->SSRIOD)
+        G_SSR_PROVIDER_ID(co->SSRProviderID)
+        G_SSR_SOLUTION_ID(co->SSRSolutionID)
+        G_NO_OF_SATELLITES(nums)
+        co->Supplied[COBOFS_ORBIT] |= 1;
+        co->Supplied[COBOFS_CLOCK] |= 1;
+        for(i = 0; i < nums; ++i)
+        {
+          switch(s)
+          {
+          case CLOCKORBIT_SATGPS: case CLOCKORBIT_SATGALILEO:
+          case CLOCKORBIT_SATSBAS: case CLOCKORBIT_SATBDS:
+            G_GPS_SATELLITE_ID(id)
+            break;
+          case CLOCKORBIT_SATQZSS:
+            G_QZSS_SATELLITE_ID(id)
+            break;
+          case CLOCKORBIT_SATGLONASS:
+            G_GLONASS_SATELLITE_ID(id)
+            break;
+          }
+          for(pos = satoffset[s]; pos < satoffset[s]+co->NumberOfSat[s] && co->Sat[pos].ID != id; ++pos)
+            ;
+          if(pos >= satoffset[s+1]) return GCOBR_DATAMISMATCH;
+          else if(pos == co->NumberOfSat[s] + satoffset[s]) ++co->NumberOfSat[s];
+          co->Sat[pos].ID = id;
+          switch(s)
+          {
+          case CLOCKORBIT_SATGPS:
+          case CLOCKORBIT_SATQZSS:
+            G_GPS_IODE(co->Sat[pos].IOD)
+            break;
+          case CLOCKORBIT_SATGLONASS:
+            G_GLONASS_IOD(co->Sat[pos].IOD)
+            break;
+          case CLOCKORBIT_SATGALILEO:
+            G_GALILEO_IOD(co->Sat[pos].IOD)
+            break;
+          case CLOCKORBIT_SATSBAS:
+            G_SBAS_T0MOD(co->Sat[pos].toe)
+            G_SBAS_IODCRC(co->Sat[pos].IOD)
+            break;
+          case CLOCKORBIT_SATBDS:
+            G_BDS_TOEMOD(co->Sat[pos].toe)
+            G_BDS_IODCRC(co->Sat[pos].IOD)
+            break;
+          }
+          G_DELTA_RADIAL(co->Sat[pos].Orbit.DeltaRadial)
+          G_DELTA_ALONG_TRACK(co->Sat[pos].Orbit.DeltaAlongTrack)
+          G_DELTA_CROSS_TRACK(co->Sat[pos].Orbit.DeltaCrossTrack)
+          G_DELTA_DOT_RADIAL(co->Sat[pos].Orbit.DotDeltaRadial)
+          G_DELTA_DOT_ALONG_TRACK(co->Sat[pos].Orbit.DotDeltaAlongTrack)
+          G_DELTA_DOT_CROSS_TRACK(co->Sat[pos].Orbit.DotDeltaCrossTrack)
+          G_DELTA_CLOCK_C0(co->Sat[pos].Clock.DeltaA0)
+          G_DELTA_CLOCK_C1(co->Sat[pos].Clock.DeltaA1)
+          G_DELTA_CLOCK_C2(co->Sat[pos].Clock.DeltaA2)
+        }
+        break;
+      case COBOFS_URA:
+        if(!co) return GCOBR_NOCLOCKORBITPARAMETER;
+        co->messageType = type;
+        switch(s)
+        {
+        case CLOCKORBIT_SATGPS: case CLOCKORBIT_SATGALILEO:
+        case CLOCKORBIT_SATQZSS: case CLOCKORBIT_SATSBAS:
+        case CLOCKORBIT_SATBDS:
+          G_GPS_EPOCH_TIME(co->EpochTime[s], co->NumberOfSat[s])
+          break;
+        case CLOCKORBIT_SATGLONASS:
+          G_GLONASS_EPOCH_TIME(co->EpochTime[s], co->NumberOfSat[s])
+          break;
+        }
+        G_MULTIPLE_MESSAGE_INDICATOR(mmi)
+        G_SSR_IOD(co->SSRIOD)
+        G_SSR_PROVIDER_ID(co->SSRProviderID)
+        G_SSR_SOLUTION_ID(co->SSRSolutionID)
+        G_NO_OF_SATELLITES(nums)
+        co->Supplied[COBOFS_URA] |= 1;
+        for(i = 0; i < nums; ++i)
+        {
+          switch(s)
+          {
+          case CLOCKORBIT_SATGPS: case CLOCKORBIT_SATGALILEO:
+          case CLOCKORBIT_SATSBAS: case CLOCKORBIT_SATBDS:
+            G_GPS_SATELLITE_ID(id)
+            break;
+          case CLOCKORBIT_SATQZSS:
+            G_QZSS_SATELLITE_ID(id)
+            break;
+          case CLOCKORBIT_SATGLONASS:
+            G_GLONASS_SATELLITE_ID(id)
+            break;
+          }
+          for(pos = satoffset[s]; pos < satoffset[s]+co->NumberOfSat[s] && co->Sat[pos].ID != id; ++pos)
+            ;
+          if(pos >= satoffset[s+1]) return GCOBR_DATAMISMATCH;
+          else if(pos == co->NumberOfSat[s] + satoffset[s]) ++co->NumberOfSat[s];
+          co->Sat[pos].ID = id;
+          G_SSR_URA(co->Sat[pos].UserRangeAccuracy)
+        }
+        break;
+      case COBOFS_HR:
+        if(!co) return GCOBR_NOCLOCKORBITPARAMETER;
+        co->messageType = type;
+        switch(s)
+        {
+        case CLOCKORBIT_SATGPS: case CLOCKORBIT_SATGALILEO:
+        case CLOCKORBIT_SATQZSS: case CLOCKORBIT_SATSBAS:
+        case CLOCKORBIT_SATBDS:
+          G_GPS_EPOCH_TIME(co->EpochTime[s], co->NumberOfSat[s])
+          break;
+        case CLOCKORBIT_SATGLONASS:
+          G_GLONASS_EPOCH_TIME(co->EpochTime[s], co->NumberOfSat[s])
+          break;
+        }
+        G_SSR_UPDATE_INTERVAL(co->UpdateInterval)
+        G_MULTIPLE_MESSAGE_INDICATOR(mmi)
+        G_SSR_IOD(co->SSRIOD)
+        G_SSR_PROVIDER_ID(co->SSRProviderID)
+        G_SSR_SOLUTION_ID(co->SSRSolutionID)
+        G_NO_OF_SATELLITES(nums)
+        co->Supplied[COBOFS_HR] |= 1;
+        for(i = 0; i < nums; ++i)
+        {
+          switch(s)
+          {
+          case CLOCKORBIT_SATGPS: case CLOCKORBIT_SATGALILEO:
+          case CLOCKORBIT_SATSBAS: case CLOCKORBIT_SATBDS:
+            G_GPS_SATELLITE_ID(id)
+            break;
+          case CLOCKORBIT_SATQZSS:
+            G_QZSS_SATELLITE_ID(id)
+            break;
+          case CLOCKORBIT_SATGLONASS:
+            G_GLONASS_SATELLITE_ID(id)
+            break;
+          }
+          for(pos = satoffset[s]; pos < satoffset[s]+co->NumberOfSat[s] && co->Sat[pos].ID != id; ++pos)
+            ;
+          if(pos >= satoffset[s+1]) return GCOBR_DATAMISMATCH;
+          else if(pos == co->NumberOfSat[s] + satoffset[s]) ++co->NumberOfSat[s];
+          co->Sat[pos].ID = id;
+          G_HR_CLOCK_CORRECTION(co->Sat[pos].hrclock)
+        }
+        break;
+      case COBOFS_BIAS:
+        if(!b) return GCOBR_NOCODEBIASPARAMETER;
+        b->messageType = type;
+        switch(s)
+        {
+        case CLOCKORBIT_SATGPS: case CLOCKORBIT_SATGALILEO:
+        case CLOCKORBIT_SATQZSS: case CLOCKORBIT_SATSBAS:
+        case CLOCKORBIT_SATBDS:
+          G_GPS_EPOCH_TIME(b->EpochTime[s], b->NumberOfSat[s])
+          break;
+        case CLOCKORBIT_SATGLONASS:
+          G_GLONASS_EPOCH_TIME(b->EpochTime[s], b->NumberOfSat[s])
+          break;
+        }
+        G_SSR_UPDATE_INTERVAL(b->UpdateInterval)
+        G_MULTIPLE_MESSAGE_INDICATOR(mmi)
+        G_SSR_IOD(b->SSRIOD)
+        G_SSR_PROVIDER_ID(b->SSRProviderID)
+        G_SSR_SOLUTION_ID(b->SSRSolutionID)
+        G_NO_OF_SATELLITES(nums)
+        for(i = 0; i < nums; ++i)
+        {
+          switch(s)
+          {
+          case CLOCKORBIT_SATGPS: case CLOCKORBIT_SATGALILEO:
+          case CLOCKORBIT_SATSBAS: case CLOCKORBIT_SATBDS:
+            G_GPS_SATELLITE_ID(id)
+            break;
+          case CLOCKORBIT_SATQZSS:
+            G_QZSS_SATELLITE_ID(id)
+            break;
+          case CLOCKORBIT_SATGLONASS:
+            G_GLONASS_SATELLITE_ID(id)
+            break;
+          }
+          for(pos = satoffset[s]; pos < satoffset[s]+b->NumberOfSat[s] && b->Sat[pos].ID != id; ++pos)
+            ;
+          if(pos >= satoffset[s+1]) return GCOBR_DATAMISMATCH;
+          else if(pos == b->NumberOfSat[s] + satoffset[s]) ++b->NumberOfSat[s];
+          b->Sat[pos].ID = id;
+          G_NO_OF_CODE_BIASES(b->Sat[pos].NumberOfCodeBiases)
+          for(j = 0; j < b->Sat[pos].NumberOfCodeBiases; ++j)
+          {
+            G_SIGNAL_IDENTIFIER(b->Sat[pos].Biases[j].Type)
+            G_CODE_BIAS(b->Sat[pos].Biases[j].Bias)
+          }
+        }
+        break;
+      default:
+        return GCOBR_UNKNOWNTYPE;
+      }
+#ifdef COR_LATENCY
+      if(s == CLOCKORBIT_SATGPS && type-corbase[s] != COBOFS_BIAS)
+      {
+        co->epochGPS[co->epochSize] = co->EpochTime[s];
+        if(co->epochSize < COR_LATENCYCOUNT)
+          ++co->epochSize;
+      }
+#endif
+#ifdef DEBUG
+      for(type = 0; type < (int)size && (unsigned char)buffer[type] != 0xD3; ++type)
+        numbits += 8;
+      fprintf(stderr, "numbits left %d\n",numbits);
+#endif
+      return mmi ? GCOBR_MESSAGEFOLLOWS : GCOBR_OK;
+    }
+  }
+  return GCOBR_UNKNOWNTYPE;
+}
 #endif /* NODECODE */

trunk/clock_and_orbit/lib/clock_orbit_rtcm.h

-              r4241
+              r5664
 enum SatelliteReferenceDatum { DATUM_ITRF=0, DATUM_LOCAL=1 };
+enum COR_BASE {
+  COBBASE_GPS = 1057,
+  COBBASE_GLONASS = 1063,
+  COBBASE_GALILEO = 1240,
+  COBBASE_QZSS = 1246,
+  COBBASE_SBAS = 1252,
+  COBBASE_BDS = 1258,
+};
+enum COR_OFFSET {
+  COBOFS_ORBIT = 0,
+  COBOFS_CLOCK,
+  COBOFS_BIAS,
+  COBOFS_COMBINED,
+  COBOFS_URA,
+  COBOFS_HR,
+  COBOFS_NUM
+};
 enum ClockOrbitType {
+     COTYPE_GPSORBIT=1057, COTYPE_GPSCLOCK=1058,
+     COTYPE_GPSCOMBINED=1060, COTYPE_GPSURA=1061, COTYPE_GPSHR=1062,
+     COTYPE_GLONASSORBIT=1063, COTYPE_GLONASSCLOCK=1064,
+     COTYPE_GLONASSCOMBINED=1066, COTYPE_GLONASSURA=1067, COTYPE_GLONASSHR=1068,
+     COTYPE_AUTO=0 };
+enum BiasType { BTYPE_GPS=1059, BTYPE_GLONASS=1065, BTYPE_AUTO = 0 };
+  COTYPE_GPSORBIT = COBBASE_GPS + COBOFS_ORBIT,
+  COTYPE_GPSCLOCK,
+  COTYPE_GPSCOMBINED = COBBASE_GPS + COBOFS_COMBINED,
+  COTYPE_GPSURA,
+  COTYPE_GPSHR,
+  COTYPE_GLONASSORBIT = COBBASE_GLONASS + COBOFS_ORBIT,
+  COTYPE_GLONASSCLOCK,
+  COTYPE_GLONASSCOMBINED = COBBASE_GLONASS + COBOFS_COMBINED,
+  COTYPE_GLONASSURA,
+  COTYPE_GLONASSHR,
+  COTYPE_GALILEOORBIT = COBBASE_GALILEO + COBOFS_ORBIT,
+  COTYPE_GALILEOCLOCK,
+  COTYPE_GALILEOCOMBINED = COBBASE_GALILEO + COBOFS_COMBINED,
+  COTYPE_GALILEOURA,
+  COTYPE_GALILEOHR,
+  COTYPE_QZSSORBIT = COBBASE_QZSS + COBOFS_ORBIT,
+  COTYPE_QZSSCLOCK,
+  COTYPE_QZSSCOMBINED = COBBASE_QZSS + COBOFS_COMBINED,
+  COTYPE_QZSSURA,
+  COTYPE_QZSSHR,
+  COTYPE_SBASORBIT = COBBASE_SBAS + COBOFS_ORBIT,
+  COTYPE_SBASCLOCK,
+  COTYPE_SBASCOMBINED = COBBASE_QZSS + COBOFS_COMBINED,
+  COTYPE_SBASURA,
+  COTYPE_SBASHR,
+  COTYPE_BDSORBIT = COBBASE_BDS + COBOFS_ORBIT,
+  COTYPE_BDSCLOCK,
+  COTYPE_BDSCOMBINED = COBBASE_BDS + COBOFS_COMBINED,
+  COTYPE_BDSURA,
+  COTYPE_BDSHR,
+  COTYPE_AUTO = 0,
+};
+enum CodeBiasType {
+  BTYPE_GPS = COBBASE_GPS + COBOFS_BIAS,
+  BTYPE_GLONASS = COBBASE_GLONASS + COBOFS_BIAS,
+  BTYPE_GALILEO = COBBASE_GALILEO + COBOFS_BIAS,
+  BTYPE_QZSS = COBBASE_QZSS + COBOFS_BIAS,
+  BTYPE_SBAS = COBBASE_QZSS + COBOFS_BIAS,
+  BTYPE_BDS = COBBASE_BDS + COBOFS_BIAS,
+  BTYPE_AUTO = 0
+};
+enum PhaseBiasType {
+  PBTYPE_BASE = 1265,
+  PBTYPE_GPS = PBTYPE_BASE,
+  PBTYPE_GLONASS,
+  PBTYPE_GALILEO,
+  PBTYPE_QZSS,
+  PBTYPE_SBAS,
+  PBTYPE_BDS,
+  PBTYPE_AUTO = 0
+};
+enum VTECType {
+  VTEC_BASE = 1264
+};
+/* if some systems aren't supported at all, change the following numbers to zero
+for these systems to save space */
 enum COR_CONSTANTS {
   CLOCKORBIT_BUFFERSIZE=2048,
   CLOCKORBIT_NUMGPS=32,
   CLOCKORBIT_NUMGLONASS=24,
+  CLOCKORBIT_NUMBIAS=10
+  CLOCKORBIT_NUMGALILEO=36,
+  CLOCKORBIT_NUMQZSS=10,
+  CLOCKORBIT_NUMSBAS=38,
+  CLOCKORBIT_NUMBDS=37,
+  CLOCKORBIT_NUMBIAS=10,
+  CLOCKORBIT_NUMIONOLAYERS=4,
+  CLOCKORBIT_MAXIONOORDER=8,
+  CLOCKORBIT_MAXIONODEGREE=8
+};
+enum COR_SATSYSTEM {
+  CLOCKORBIT_SATGPS=0,
+  CLOCKORBIT_SATGLONASS,
+  CLOCKORBIT_SATGALILEO,
+  CLOCKORBIT_SATQZSS,
+  CLOCKORBIT_SATSBAS,
+  CLOCKORBIT_SATBDS,
+  CLOCKORBIT_SATNUM
+};
+enum COR_OFFSETS {
+  CLOCKORBIT_OFFSETGPS=0,
+  CLOCKORBIT_OFFSETGLONASS=CLOCKORBIT_NUMGPS,
+  CLOCKORBIT_OFFSETGALILEO=CLOCKORBIT_NUMGPS+CLOCKORBIT_NUMGLONASS,
+  CLOCKORBIT_OFFSETQZSS=CLOCKORBIT_NUMGPS+CLOCKORBIT_NUMGLONASS
+  +CLOCKORBIT_NUMGALILEO,
+  CLOCKORBIT_OFFSETSBAS=CLOCKORBIT_NUMGPS+CLOCKORBIT_NUMGLONASS
+  +CLOCKORBIT_NUMGALILEO+CLOCKORBIT_NUMQZSS,
+  CLOCKORBIT_OFFSETBDS=CLOCKORBIT_NUMGPS+CLOCKORBIT_NUMGLONASS
+  +CLOCKORBIT_NUMGALILEO+CLOCKORBIT_NUMQZSS+CLOCKORBIT_NUMSBAS,
+  CLOCKORBIT_COUNTSAT=CLOCKORBIT_NUMGPS+CLOCKORBIT_NUMGLONASS
+  +CLOCKORBIT_NUMGALILEO+CLOCKORBIT_NUMQZSS+CLOCKORBIT_NUMSBAS
+  +CLOCKORBIT_NUMBDS
 };
 …
   CODETYPEGLONASS_L2_CA      = 2,
   CODETYPEGLONASS_L2_P       = 3,
+  CODETYPEGALILEO_E1_A       = 0,
+  CODETYPEGALILEO_E1_B       = 1,
+  CODETYPEGALILEO_E1_C       = 2,
+  CODETYPEGALILEO_E5A_I      = 5,
+  CODETYPEGALILEO_E5A_Q      = 6,
+  CODETYPEGALILEO_E5B_I      = 8,
+  CODETYPEGALILEO_E5B_Q      = 9,
+  CODETYPEGALILEO_E5_I       = 11,
+  CODETYPEGALILEO_E5_Q       = 12,
+  CODETYPEGALILEO_E6_A       = 14,
+  CODETYPEGALILEO_E6_B       = 15,
+  CODETYPEGALILEO_E6_C       = 16,
+  CODETYPEQZSS_L1_CA         = 0,
+  CODETYPEQZSS_L1C_D         = 1,
+  CODETYPEQZSS_L1C_P         = 2,
+  CODETYPEQZSS_L2_CM         = 3,
+  CODETYPEQZSS_L2_CL         = 4,
+  CODETYPEQZSS_L2_CML        = 5,
+  CODETYPEQZSS_L5_I          = 6,
+  CODETYPEQZSS_L5_Q          = 7,
+  CODETYPEQZSS_L5_IQ         = 8,
+  CODETYPEQZSS_LEX_S         = 9,
+  CODETYPEQZSS_LEX_L         = 10,
+  CODETYPEQZSS_LEX_SL        = 11,
+  CODETYPEQZSS_L1C_DP        = 12,
+  CODETYPE_SBAS_L1_CA        = 0,
+  CODETYPE_SBAS_L5_I         = 1,
+  CODETYPE_SBAS_L5_Q         = 2,
+  CODETYPE_SBAS_L5_IQ        = 3,
+  CODETYPE_BDS_B1_I          = 0,
+  CODETYPE_BDS_B1_Q          = 1,
+  CODETYPE_BDS_B1_IQ         = 2,
+  CODETYPE_BDS_B3_I          = 3,
+  CODETYPE_BDS_B3_Q          = 4,
+  CODETYPE_BDS_B3_IQ         = 5,
+  CODETYPE_BDS_B2_I          = 6,
+  CODETYPE_BDS_B2_Q          = 7,
+  CODETYPE_BDS_B2_IQ         = 8,
 };
 #define SSR_MAXURA 5.5 /* > 5466.5mm in meter */
+/* GLONASS data is stored with offset CLOCKORBIT_NUMGPS in the data structures.
+So first GLONASS satellite is at xxx->Sat[CLOCKORBIT_NUMGPS], first
+GPS satellite is xxx->Sat[0]. */
+/* satellite system data data is stored with offset CLOCKORBIT_OFFSET...
+in the data structures. So first GLONASS satellite is at
+xxx->Sat[CLOCKORBIT_OFFSETGLONASS], first GPS satellite is
+xxx->Sat[CLOCKORBIT_OFFSETGPS]. */
+#ifdef COR_LEGACY
+/* old names */
+#define NumberOfGPSSat     NumberOfSat[CLOCKORBIT_SATGPS]
+#define NumberOfGLONASSSat NumberOfSat[CLOCKORBIT_SATGLONASS]
+#define GPSEpochTime       EpochTime[CLOCKORBIT_SATGPS] /* 0 .. 604799 s */
+#define GLONASSEpochTime   EpochTime[CLOCKORBIT_SATGLONASS] /* 0 .. 86399 s (86400 for leap second) */
+#define ClockDataSupplied  Supplied[COBOFS_CLOCK]
+#define HRDataSupplied     Supplied[COBOFS_HR]
+#define OrbitDataSupplied  Supplied[COBOFS_ORBIT]
+#define URADataSupplied    Supplied[COBOFS_URA]
+#define GetClockOrbitBias(a,b,c,d,e) GetSSR(a,b,0,0,c,d,e)
+#endif /* COR_LEGACY */
+/* latency check code, disabled by default */
+#ifdef COR_LATENCY
+#define COR_LATENCYCOUNT 100
+#endif
 struct ClockOrbit
+{
   enum ClockOrbitType messageType;
+  int GPSEpochTime;                 /* 0 .. 604799 s */
+  int GLONASSEpochTime;             /* 0 .. 86399 s (86400 for leap second) */
+  int NumberOfGPSSat;               /* 0 .. 32 */
+  int NumberOfGLONASSSat;           /* 0 .. 24 */
+  int ClockDataSupplied;            /* boolean */
+  int HRDataSupplied;               /* boolean */
+  int OrbitDataSupplied;            /* boolean */
+  int URADataSupplied;              /* boolean */
+  int epochGPS[101];                /* Weber, for latency */
+  int epochSize;                    /* Weber, for latency */
+  int SSRIOD;
+  int SSRProviderID;
+  int SSRSolutionID;
+  int UpdateInterval;
+  unsigned int EpochTime[CLOCKORBIT_SATNUM];   /* 0 .. system specific maximum */
+  unsigned int NumberOfSat[CLOCKORBIT_SATNUM]; /* 0 .. CLOCKORBIT_NUM... */
+  unsigned int Supplied[COBOFS_NUM];           /* boolean */
+#ifdef COR_LATENCY
+  unsigned int epochGPS[COR_LATENCYCOUNT+1];   /* Weber, for latency */
+  unsigned int epochSize;                      /* Weber, for latency */
+#endif
+  unsigned int SSRIOD;
+  unsigned int SSRProviderID;
+  unsigned int SSRSolutionID;
+  unsigned int UpdateInterval;
   enum SatelliteReferenceDatum SatRefDatum;
   struct SatData {
+    int ID; /* GPS or GLONASS */
+    int IOD; /* GPS or GLONASS */
+    unsigned int ID; /* all */
+    unsigned int IOD; /* all */
+    unsigned int toe; /* SBAS, BDS */
     double UserRangeAccuracy; /* accuracy values in [m] */
     double hrclock;
 …
       double DeltaA2;               /* m/ss */
     } Clock;
   } Sat[CLOCKORBIT_NUMGPS+CLOCKORBIT_NUMGLONASS];
 };
 struct Bias
+  } Sat[CLOCKORBIT_COUNTSAT];
+};
+struct CodeBias
+{
+  enum BiasType messageType;
+  int GPSEpochTime;                 /* 0 .. 604799 s */
+  int GLONASSEpochTime;             /* 0 .. 86399 s (86400 for leap second) */
+  int NumberOfGPSSat;               /* 0 .. 32 */
+  int NumberOfGLONASSSat;           /* 0 .. 24 */
+  int UpdateInterval;
+  int SSRIOD;
+  int SSRProviderID;
+  int SSRSolutionID;
+  enum CodeBiasType messageType;
+  unsigned int EpochTime[CLOCKORBIT_SATNUM];   /* 0 .. system specific maximum */
+  unsigned int NumberOfSat[CLOCKORBIT_SATNUM]; /* 0 .. CLOCKORBIT_NUM... */
+  unsigned int UpdateInterval;
+  unsigned int SSRIOD;
+  unsigned int SSRProviderID;
+  unsigned int SSRSolutionID;
   struct BiasSat
+  {
     int ID; /* GPS or GLONASS */
     int NumberOfCodeBiases;
     struct CodeBias
+    unsigned int ID; /* all */
+    unsigned int NumberOfCodeBiases;
+    struct CodeBiasEntry
+    {
       enum CodeType Type;
       float         Bias;           /* m */
     } Biases[CLOCKORBIT_NUMBIAS];
+  } Sat[CLOCKORBIT_NUMGPS+CLOCKORBIT_NUMGLONASS];
+  } Sat[CLOCKORBIT_COUNTSAT];
+};
+struct PhaseBias
+{
+  enum PhaseBiasType messageType;
+  unsigned int EpochTime[CLOCKORBIT_SATNUM];   /* 0 .. system specific maximum */
+  unsigned int NumberOfSat[CLOCKORBIT_SATNUM]; /* 0 .. CLOCKORBIT_NUM... */
+  unsigned int UpdateInterval;
+  unsigned int SSRIOD;
+  unsigned int SSRProviderID;
+  unsigned int SSRSolutionID;
+  unsigned int DispersiveBiasConsistencyIndicator;
+  unsigned int MWConsistencyIndicator;
+  struct PhaseBiasSat
+  {
+    unsigned int ID; /* all */
+    unsigned int NumberOfPhaseBiases;
+    double YawAngle; /* radiant */
+    double YawRate;  /* radiant/s */
+    struct PhaseBiasEntry
+    {
+      enum CodeType Type;
+      unsigned int  SignalIntegerIndicator;
+      unsigned int  SignalsWideLaneIntegerIndicator;
+      unsigned int  SignalDiscontinuityCounter;
+      float         Bias;           /* m */
+    } Biases[CLOCKORBIT_NUMBIAS];
+  } Sat[CLOCKORBIT_COUNTSAT];
+};
+struct VTEC
+{
+  unsigned int EpochTime; /* GPS */
+  unsigned int UpdateInterval;
+  unsigned int SSRIOD;
+  unsigned int SSRProviderID;
+  unsigned int SSRSolutionID;
+  unsigned int NumLayers; /* 1-4 */
+  double Quality;
+  struct IonoLayers {
+    double       Height; /* m */
+    unsigned int Degree; /* 1-8 */
+    unsigned int Order; /* 1-8 */
+    double       Sinus[CLOCKORBIT_MAXIONODEGREE][CLOCKORBIT_MAXIONOORDER];
+    double       Cosinus[CLOCKORBIT_MAXIONODEGREE][CLOCKORBIT_MAXIONOORDER];
+  } Layers[CLOCKORBIT_NUMIONOLAYERS];
 };
 …
 size_t MakeClockOrbit(const struct ClockOrbit *co, enum ClockOrbitType type,
        int moremessagesfollow, char *buffer, size_t size);
 size_t MakeBias(const struct Bias *b, enum BiasType type,
+size_t MakeCodeBias(const struct CodeBias *b, enum CodeBiasType type,
        int moremessagesfollow, char *buffer, size_t size);
+size_t MakePhaseBias(const struct PhaseBias *b, enum PhaseBiasType type,
+       int moremessagesfollow, char *buffer, size_t size);
+size_t MakeVTEC(const struct VTEC *b, int moremessagesfollow, char *buffer,
+       size_t size);
 enum GCOB_RETURN {
 …
   /* failed to do the work */
   GCOBR_NOCLOCKORBITPARAMETER = -10,
+  GCOBR_NOBIASPARAMETER = -11,
+  GCOBR_NOCODEBIASPARAMETER = -11,
+  GCOBR_NOPHASEBIASPARAMETER = -12,
+  GCOBR_NOVTECPARAMETER = -13,
   /* data mismatch - data in storage does not match new data */
   GCOBR_TIMEMISMATCH = -20,
 …
 /* buffer should point to a RTCM3 block */
 enum GCOB_RETURN GetClockOrbitBias(struct ClockOrbit *co, struct Bias *b,
        const char *buffer, size_t size, int *bytesused);
+enum GCOB_RETURN GetSSR(struct ClockOrbit *co, struct CodeBias *b, struct VTEC *v,
+       struct PhaseBias *pb, const char *buffer, size_t size, int *bytesused);
 #endif /* RTCM3_CLOCK_ORBIT_RTCM_H */

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Changeset 5664 in ntrip for trunk/clock_and_orbit/lib

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trunk/clock_and_orbit/lib/clock_orbit_rtcm.c

trunk/clock_and_orbit/lib/clock_orbit_rtcm.h

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