Sample code for GNSS position information

//--------------------------------------------------------------------------------------------------
/**
 * Handler function for Position Notifications.
 *
 */
//--------------------------------------------------------------------------------------------------
static void PositionHandlerFunction
(
    le_gnss_SampleRef_t positionSampleRef,
    void* contextPtr
)
{
    le_result_t result;
    // Date parameters
    uint16_t year;
    uint16_t month;
    uint16_t day;
    // Time parameters
    uint16_t hours;
    uint16_t minutes;
    uint16_t seconds;
    uint16_t milliseconds;
    // GPS time
    uint32_t gpsWeek;
    uint32_t gpsTimeOfWeek;
    // Time accuracy
    uint32_t timeAccuracy;
    // Position state
    le_gnss_FixState_t state;
    // Location
    int32_t     latitude;
    int32_t     longitude;
    int32_t     altitude;
    int32_t     hAccuracy;
    int32_t     vAccuracy;
    // DOP parameter
    uint16_t hdop;
    uint16_t vdop;
    uint16_t pdop;
    // Horizontal speed
    uint32_t hspeed;
    uint32_t hspeedAccuracy;
    // Vertical speed
    int32_t vspeed;
    int32_t vspeedAccuracy;
    // Direction
    int32_t direction;
    int32_t directionAccuracy;
 
    if(positionSampleRef == NULL)
    {
        LE_ERROR("New Position sample is NULL!");
    }
    else
    {
        LE_DEBUG("New Position sample %p", positionSampleRef);
    }
 
    // Get UTC time
    result = le_gnss_GetDate(positionSampleRef
                            , &year
                            , &month
                            , &day);
    LE_ASSERT((result == LE_OK)||(result == LE_OUT_OF_RANGE));
 
    result = le_gnss_GetTime(positionSampleRef
                            , &hours
                            , &minutes
                            , &seconds
                            , &milliseconds);
    LE_ASSERT((result == LE_OK)||(result == LE_OUT_OF_RANGE));
 
    // Display time/date format 13:45:30 2009-06-15
    LE_INFO("%02d:%02d:%02d %d-%02d-%02d,"
            , hours, minutes, seconds
            , year, month, day);
 
    // Get GPS time
    result = le_gnss_GetGpsTime(positionSampleRef
                            , &gpsWeek
                            , &gpsTimeOfWeek);
    LE_ASSERT((result == LE_OK)||(result == LE_OUT_OF_RANGE));
 
    LE_INFO("GPS time W %02d:ToW %dms"
            , gpsWeek
            , gpsTimeOfWeek);
 
    // Get time accuracy
    result = le_gnss_GetTimeAccuracy(positionSampleRef
                            , &timeAccuracy);
    LE_ASSERT((result == LE_OK)||(result == LE_OUT_OF_RANGE));
 
    LE_INFO("GPS time acc %d"
            , timeAccuracy);
 
    // Get position state
    result = le_gnss_GetPositionState( positionSampleRef, &state);
    LE_ASSERT((result == LE_OK));
    LE_DEBUG("Position state: %s", (state == LE_GNSS_STATE_FIX_NO_POS)?"No Fix"
                                 :(state == LE_GNSS_STATE_FIX_2D)?"2D Fix"
                                 :(state == LE_GNSS_STATE_FIX_3D)?"3D Fix"
                                 : "Unknown");
 
    // Get Location
    result = le_gnss_GetLocation( positionSampleRef
                                , &latitude
                                , &longitude
                                , &hAccuracy);
    LE_ASSERT((result == LE_OK)||(result == LE_OUT_OF_RANGE));
    if(result == LE_OK)
    {
         LE_INFO("Position lat.%d, long.%d, hAccuracy.%d"
            , latitude, longitude, hAccuracy/10);
    }
    else
    {
        LE_INFO("Position unknown [%d,%d,%d]"
            , latitude, longitude, hAccuracy);
    }
 
    // Get altitude
    result = le_gnss_GetAltitude( positionSampleRef
                                , &altitude
                                , &vAccuracy);
    LE_ASSERT((result == LE_OK)||(result == LE_OUT_OF_RANGE));
 
    if(result == LE_OK)
    {
         LE_INFO("Altitude.%d, vAccuracy.%d"
                , altitude/1000, vAccuracy/10);
    }
    else
    {
         LE_INFO("Altitude unknown [%d,%d]"
                , altitude, vAccuracy);
    }
 
    // Get DOP parameter
    result = le_gnss_GetDop( positionSampleRef
                            , &hdop
                            , &vdop
                            , &pdop);
    LE_ASSERT((result == LE_OK)||(result == LE_OUT_OF_RANGE));
    LE_INFO("DOP [H%.1f,V%.1f,P%.1f]"
            , (float)(hdop)/100, (float)(vdop)/100, (float)(pdop)/100);
 
    // Get horizontal speed
    result = le_gnss_GetHorizontalSpeed( positionSampleRef
                            , &hspeed
                            , &hspeedAccuracy);
    LE_ASSERT((result == LE_OK)||(result == LE_OUT_OF_RANGE));
 
    if(result == LE_OK)
    {
        LE_INFO("hSpeed %d - Accuracy %d"
                , hspeed/100, hspeedAccuracy/10);
    }
    else
    {
        LE_INFO("hSpeed unknown [%d,%d]"
                , hspeed, hspeedAccuracy);
    }
 
    // Get vertical speed
    result = le_gnss_GetVerticalSpeed( positionSampleRef
                            , &vspeed
                            , &vspeedAccuracy);
    LE_ASSERT((result == LE_OK)||(result == LE_OUT_OF_RANGE));
    if(result == LE_OK)
    {
        LE_INFO("vSpeed %d - Accuracy %d"
                , vspeed/100, vspeedAccuracy/10);
    }
    else
    {
        LE_INFO("vSpeed unknown [%d,%d]"
                , vspeed, vspeedAccuracy);
    }
 
    // Get direction
    result = le_gnss_GetDirection( positionSampleRef
                            , &direction
                            , &directionAccuracy);
    LE_ASSERT((result == LE_OK)||(result == LE_OUT_OF_RANGE));
    if(result == LE_OK)
    {
        LE_INFO("direction %d - Accuracy %d"
                , direction/10, directionAccuracy/10);
    }
    else
    {
        LE_INFO("direction unknown [%d,%d]"
                , direction, directionAccuracy);
    }
 
    /* Satellites status */
    uint8_t satsInViewCount;
    uint8_t satsTrackingCount;
    uint8_t satsUsedCount;
    result =  le_gnss_GetSatellitesStatus(positionSampleRef
                                            , &satsInViewCount
                                            , &satsTrackingCount
                                            , &satsUsedCount);
 
    LE_ASSERT((result == LE_OK)||(result == LE_OUT_OF_RANGE));
 
    LE_INFO("satsInView %d - satsTracking %d - satsUsed %d"
            , satsInViewCount, satsTrackingCount, satsUsedCount);
 
    /* Satellites information */
    uint16_t satIdPtr[LE_GNSS_SV_INFO_MAX_LEN];
    size_t satIdNumElements = sizeof(satIdPtr);
    le_gnss_Constellation_t satConstPtr[LE_GNSS_SV_INFO_MAX_LEN];
    size_t satConstNumElements = sizeof(satConstPtr);
    bool satUsedPtr[LE_GNSS_SV_INFO_MAX_LEN];
    size_t satUsedNumElements = sizeof(satUsedPtr);
    uint8_t satSnrPtr[LE_GNSS_SV_INFO_MAX_LEN];
    size_t satSnrNumElements = sizeof(satSnrPtr);
    uint16_t satAzimPtr[LE_GNSS_SV_INFO_MAX_LEN];
    size_t satAzimNumElements = sizeof(satAzimPtr);
    uint8_t satElevPtr[LE_GNSS_SV_INFO_MAX_LEN];
    size_t satElevNumElements = sizeof(satElevPtr);
    int i;
 
    result =  le_gnss_GetSatellitesInfo(positionSampleRef
                                            , satIdPtr
                                            , &satIdNumElements
                                            , satConstPtr
                                            , &satConstNumElements
                                            , satUsedPtr
                                            , &satUsedNumElements
                                            , satSnrPtr
                                            , &satSnrNumElements
                                            , satAzimPtr
                                            , &satAzimNumElements
                                            , satElevPtr
                                            , &satElevNumElements);
 
    LE_ASSERT((result == LE_OK)||(result == LE_OUT_OF_RANGE));
 
    // Satellite Vehicle information
    for(i=0; i<satIdNumElements; i++)
    {
        if((satIdPtr[i] != 0)&&(satIdPtr[i] != UINT8_MAX))
        {
            LE_INFO("[%02d] SVid %03d - C%01d - U%d - SNR%02d - Azim%03d - Elev%02d"
                    , i
                    , satIdPtr[i]
                    , satConstPtr[i]
                    , satUsedPtr[i]
                    , satSnrPtr[i]
                    , satAzimPtr[i]
                    , satElevPtr[i]);
        }
    }
 
    // Release provided Position sample reference
    le_gnss_ReleaseSampleRef(positionSampleRef);
}
 
 
//--------------------------------------------------------------------------------------------------
/**
 * Test: Add Position Handler
 *
*/
//--------------------------------------------------------------------------------------------------
static void* PositionThread
(
    void* context
)
{
 
    le_gnss_ConnectService();
 
    LE_INFO("======== Position Handler thread  ========");
    PositionHandlerRef = le_gnss_AddPositionHandler(PositionHandlerFunction, NULL);
    LE_ASSERT((PositionHandlerRef != NULL));
 
    le_event_RunLoop();
    return NULL;
}
 
//--------------------------------------------------------------------------------------------------
/**
 * Test: GNSS position handler
 *
 */
//--------------------------------------------------------------------------------------------------
static void TestLeGnssPositionHandler
(
    void
)
{
    le_thread_Ref_t positionThreadRef;
 
    LE_INFO("Start Test Testle_gnss_PositionHandlerTest");
 
    LE_INFO("Start GNSS");
    LE_ASSERT((le_gnss_Start()) == LE_OK);
    LE_INFO("Wait 5 seconds");
    sleep(5);
 
    // Add Position Handler Test
    positionThreadRef = le_thread_Create("PositionThread",PositionThread,NULL);
    le_thread_Start(positionThreadRef);
 
    LE_INFO("Wait for a 3D fix");
    sleep(60);
 
    le_gnss_RemovePositionHandler(PositionHandlerRef);
 
    LE_INFO("Wait 5 seconds");
    sleep(5);
 
    // stop thread
    le_thread_Cancel(positionThreadRef);
 
    LE_INFO("Stop GNSS");
    LE_ASSERT((le_gnss_Stop()) == LE_OK);
}