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#include "GPSAnalyse.h"
GPSAnalyse::GPSAnalyse() { _GPS_Str.clear(); }
void GPSAnalyse::setSerialPtr(HardwareSerial &serial) { _serial = &serial; _xSemaphore = xSemaphoreCreateMutex(); }
GPSAnalyse::~GPSAnalyse() {
}
void GPSAnalyse::run(void *data) { GPSReadBuff = (char*)calloc(1024,sizeof(char)); Serial.println("GPS Task"); while (1) { if (_serial->available()) { memset(GPSReadBuff, 1024, sizeof(char)); _serial->readBytes(GPSReadBuff, _serial->available()); _GPS_Str.concat(GPSReadBuff); xSemaphoreTake(_xSemaphore, portMAX_DELAY); Analyse(); xSemaphoreGive(_xSemaphore); delay(1); } else { delay(5); } } }
void GPSAnalyse::upDate() { xSemaphoreTake(_xSemaphore, portMAX_DELAY); memcpy(&s_GNRMC,&_s_GNRMC,sizeof(GNRMC_t)); memcpy(&s_GNGAS,&_s_GNGAS,sizeof(GNGSA_t)); memcpy(&s_GPGSV,&_s_GPGSV,sizeof(GPGSV_t)); xSemaphoreGive(_xSemaphore); }
void GPSAnalyse::AnaGPRMC(String str) { str = str.substring(str.indexOf("GNRMC"), str.length()); if (str.indexOf('*') != -1) { int indexsub = str.indexOf('*'); String sumstr = str.substring(indexsub + 1, str.length()); str = str.substring(0, indexsub); //Serial.println(sumstr);
}
int index = 0, last_index = 0, pamindex = 1;
while (str.indexOf(',', index) != -1) { index = str.indexOf(',', index + 1); last_index = str.indexOf(',', index + 1); //Serial.printf("index:%d,%d\n", index, last_index);
if (index != -1) { last_index = (last_index == -1) ? str.length() : last_index; if ((last_index - index) > 1) { String pamstr = str.substring(index + 1, last_index); #ifdef DEBUG_GPS
Serial.printf("%d:", pamindex); Serial.println(pamstr); #endif
_s_GNRMC.pamstr[pamindex] = pamstr; } else { _s_GNRMC.pamstr[pamindex].clear(); }
pamindex++; } }
_s_GNRMC.Utc = _s_GNRMC.pamstr[1]; if (_s_GNRMC.pamstr[2].length() != 0) { _s_GNRMC.State = _s_GNRMC.pamstr[2].charAt(0); }
{ _s_GNRMC.Latitude = _s_GNRMC.pamstr[3].substring(0, 2).toDouble() + _s_GNRMC.pamstr[3].substring(2, 4).toDouble() / 60 + _s_GNRMC.pamstr[3].substring(5, 9).toDouble() / 600000; } //_s_GNRMC.Latitude = _s_GNRMC.pamstr[3].toDouble();
_s_GNRMC.LatitudeMark = _s_GNRMC.pamstr[4].charAt(0); { _s_GNRMC.Longitude = _s_GNRMC.pamstr[5].substring(0, 3).toDouble() + _s_GNRMC.pamstr[5].substring(3, 5).toDouble() / 60 + _s_GNRMC.pamstr[5].substring(6, 10).toDouble() / 600000; } //_s_GNRMC.Longitude = _s_GNRMC.pamstr[5].toDouble();
_s_GNRMC.LongitudeMark = _s_GNRMC.pamstr[6].charAt(0); _s_GNRMC.TrackSpeed = _s_GNRMC.pamstr[7].toFloat(); _s_GNRMC.TrackAngle = _s_GNRMC.pamstr[8].toFloat(); _s_GNRMC.Date = _s_GNRMC.pamstr[9]; _s_GNRMC.Magnetic = _s_GNRMC.pamstr[10].toFloat(); _s_GNRMC.Declination = _s_GNRMC.pamstr[11].charAt(0); _s_GNRMC.mode = _s_GNRMC.pamstr[12].charAt(0); }
void GPSAnalyse::AnaGNGAS(String str) { str = str.substring(str.indexOf("GNGSA"), str.length());
if (str.indexOf('*') != -1) { int indexsub = str.indexOf('*'); String sumstr = str.substring(indexsub + 1, str.length()); str = str.substring(0, indexsub); //Serial.println(sumstr);
}
int index = 0, last_index = 0, pamindex = 1; while (str.indexOf(',', index) != -1) { index = str.indexOf(',', index + 1); last_index = str.indexOf(',', index + 1); if (index != -1) { last_index = (last_index == -1) ? str.length() : last_index; if ((last_index - index) > 1) { String pamstr = str.substring(index + 1, last_index); #ifdef DEBUG_GPS
Serial.printf("%d:", pamindex); Serial.println(pamstr); #endif
_s_GNGAS.pamstr[pamindex] = pamstr; } else { _s_GNGAS.pamstr[pamindex].clear(); } pamindex++; } }
_s_GNGAS.mode2 = _s_GNGAS.pamstr[1].charAt(0); _s_GNGAS.mode1 = _s_GNGAS.pamstr[2].toInt(); for (size_t i = 0; i < 12; i++) { _s_GNGAS.PINMap[i] = _s_GNGAS.pamstr[3 + i].toInt(); } _s_GNGAS.PDOP = _s_GNGAS.pamstr[15].toFloat(); _s_GNGAS.HDOP = _s_GNGAS.pamstr[16].toFloat(); _s_GNGAS.VDOP = _s_GNGAS.pamstr[17].toFloat(); }
void GPSAnalyse::AnaGPGSV(String str) { //Serial.println(str);
str = str.substring(str.indexOf("GPGSV"), str.length());
if (str.indexOf('*') != -1) { int indexsub = str.indexOf('*'); String sumstr = str.substring(indexsub + 1, str.length()); str = str.substring(0, indexsub); //Serial.println(sumstr);
}
int index = 0, last_index = 0, pamindex = 1; while (str.indexOf(',', index) != -1) { index = str.indexOf(',', index + 1); last_index = str.indexOf(',', index + 1); if (index != -1) { last_index = (last_index == -1) ? str.length() : last_index; if ((last_index - index) > 1) { String pamstr = str.substring(index + 1, last_index); #ifdef DEBUG_GPS
Serial.printf("%d:", pamindex); Serial.println(pamstr); #endif
_s_GPGSV.pamstr[pamindex] = pamstr; } else { _s_GPGSV.pamstr[pamindex].clear(); } pamindex++; } } int SatelliteSize = (pamindex - 4) / 4; //Serial.printf("Number%d\n", SatelliteSize);
_s_GPGSV.size = _s_GPGSV.pamstr[1].toInt(); _s_GPGSV.Number = _s_GPGSV.pamstr[2].toInt(); _s_GPGSV.SatelliteSize = _s_GPGSV.pamstr[3].toInt();
if (_s_GPGSV.Number == 1) { for (size_t i = 0; i < 32; i++) { _s_GPGSV.Satellite[i].flag = false; } } for (size_t i = 0; i < SatelliteSize; i++) { int id = _s_GPGSV.pamstr[4 + (i * 4) + 0].toInt(); if( id >= 32 ) continue; if(( 7 + (i * 4)) > 50 ) { break; } _s_GPGSV.Satellite[id].elevation = _s_GPGSV.pamstr[4 + (i * 4) + 1].toInt(); _s_GPGSV.Satellite[id].Azimuth = _s_GPGSV.pamstr[4 + (i * 4) + 2].toInt(); _s_GPGSV.Satellite[id].SNR = (_s_GPGSV.pamstr[4 + (i * 4) + 3].length() == 0) ? -1 : _s_GPGSV.pamstr[4 + (i * 4) + 3].toInt(); _s_GPGSV.Satellite[id].flag = true; }
if (_s_GPGSV.Number == _s_GPGSV.size) { for (size_t i = 0; i < 32; i++) { if (_s_GPGSV.Satellite[i].flag == true) { #ifdef DEBUG_GPS
Serial.printf("ID %d:%d,%d,%d\n", i, _s_GPGSV.Satellite[i].elevation, _s_GPGSV.Satellite[i].Azimuth, _s_GPGSV.Satellite[i].SNR); #endif
} } } }
void GPSAnalyse::Analyse() { while (_GPS_Str.indexOf('\r') != -1) { int index = _GPS_Str.indexOf('\r'); String str = _GPS_Str.substring(0, index); _GPS_Str = _GPS_Str.substring(index + 3, _GPS_Str.length());
str.trim();
//Serial.println(str);
if (str.indexOf("GNRMC") != -1) { AnaGPRMC(str); } else if (str.indexOf("GPVTG") != -1) { } else if (str.indexOf("GPGGA") != -1) {
} else if (str.indexOf("GNGSA") != -1) { //Serial.print("GNGSA:");
//AnaGNGAS(str);
} else if (str.indexOf("GPGSV") != -1) { //Serial.print("GPGSV:");
AnaGPGSV(str); } else if (str.indexOf("GPGLL") != -1) { } } }
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