/************************************************************************* * Data2Kml - Converting OBD-II/GPS logger data to KML (Google Earth) * Distributed under GPL v2.0 * (c)2013 Written by Stanley Huang *************************************************************************/ #include #include #include #include #include #include #include "logdata.h" typedef struct { uint32_t timestamp; float lat; float lng; uint16_t speed; uint16_t speedgps; uint16_t rpm; uint16_t throttle; uint16_t coolant; uint16_t intake; uint16_t load; uint16_t absload; uint16_t alt; int16_t acc[3]; } DATASET; typedef struct { int state; FILE* fp; HEADER hdr; char buffer[256]; int bufbytes; DATASET* dataset; int datacount; float startLat; float startLng; uint32_t curDate; uint32_t curTime; uint32_t ts; uint32_t lastts; float lastLat; float lastLng; uint32_t lastTime; DATASET datas; } KML_DATA; uint16_t hex2uint16(const char *p) { char c = *p; uint16_t i = 0; for (char n = 0; c && n < 4; c = *(++p)) { if (c >= 'A' && c <= 'F') { c -= 7; } else if (c >= 'a' && c <= 'f') { c -= 39; } else if (c == ' ') { continue; } else if (c < '0' || c > '9') { break; } i = (i << 4) | (c & 0xF); n++; } return i; } void WriteKMLData(KML_DATA* kd, uint32_t timestamp, uint16_t pid, int value[]) { kd->ts = timestamp; switch (pid) { case PID_GPS_LATITUDE: kd->datas.lat = (float)value[0] / 1000000; if (!kd->startLat) { kd->startLat = kd->datas.lat; } if (kd->datacount > 0) { float diff = kd->datas.lat - kd->dataset[kd->datacount - 1].lat; if (diff > 0.1 || diff < -0.1) kd->datas.lat = 0; } break; case PID_GPS_LONGITUDE: kd->datas.lng = (float)value[0] / 1000000; if (!kd->startLng) { kd->startLng = kd->datas.lng; } if (kd->datacount > 0) { float diff = kd->datas.lng - kd->dataset[kd->datacount - 1].lng; if (diff > 0.1 || diff < -0.1) kd->datas.lng = 0; } break; case PID_GPS_ALTITUDE: kd->datas.alt = value[0]; break; case PID_SPEED: kd->datas.speed = (uint16_t)value[0]; break; case PID_RPM: kd->datas.rpm = (uint16_t)value[0]; break; case PID_THROTTLE: kd->datas.throttle = (uint16_t)value[0]; break; case PID_COOLANT_TEMP: kd->datas.coolant = (uint16_t)value[0]; break; case PID_INTAKE_TEMP: kd->datas.intake = (uint16_t)value[0]; break; case PID_ENGINE_LOAD: kd->datas.load = (uint16_t)value[0]; break; case PID_ABS_ENGINE_LOAD: kd->datas.absload = (uint16_t)value[0]; break; case PID_GPS_SPEED: kd->datas.speedgps = (uint16_t)value[0]; break; case PID_ACC: kd->datas.acc[0] = (int16_t)value[0]; kd->datas.acc[1] = (int16_t)value[1]; kd->datas.acc[2] = (int16_t)value[2]; break; case PID_GPS_DATE: kd->curDate = (uint32_t)value[0]; break; case PID_GPS_TIME: kd->curTime = (uint32_t)value[0]; break; } if (kd->curTime != kd->lastTime && kd->datas.lat && kd->datas.lng) { fprintf(kd->fp, ""); if (kd->curDate) { fprintf(kd->fp, "%04u-%02u-%02u", 2000 + (kd->curDate % 100), (kd->curDate / 100) % 100, kd->curDate / 10000); } else { time_t yesterday = time(0) - 86400; struct tm *btm = localtime(&yesterday); fprintf(kd->fp, "%04d-%02d-%02d", 1900+btm->tm_year, btm->tm_mon + 1, btm->tm_mday); } if (kd->curTime) { fprintf(kd->fp, "T%02u:%02u:%02u.%03uZ", kd->curTime / 1000000, (kd->curTime / 10000) % 100, (kd->curTime / 100) % 100, (kd->curTime % 100) * 10); } fprintf(kd->fp, ""); fprintf(kd->fp, "%f %f %d", kd->datas.lng, kd->datas.lat, kd->datas.alt); kd->datas.timestamp = timestamp; kd->dataset = (DATASET*)realloc(kd->dataset, sizeof(DATASET) * (kd->datacount + 1)); memcpy(kd->dataset + kd->datacount, &kd->datas, sizeof(DATASET)); kd->datacount++; kd->lastLat = kd->datas.lat; kd->lastLng = kd->datas.lng; kd->lastTime = kd->curTime; } } void AppendFile(FILE* fp, char* filename) { int uint8_ts; char buffer[256]; FILE* fpHeader = fopen(filename, "rb"); if (!fpHeader) return; while ((uint8_ts = fread(buffer, 1, sizeof(buffer), fpHeader)) > 0) { fwrite(buffer, 1, uint8_ts, fp); } fclose(fpHeader); } void WriteKMLTail(KML_DATA* kd) { int i; int lowThrottle = 50; printf("Generating extended data\n"); fprintf(kd->fp, ""); fprintf(kd->fp, ""); for (i = 0; i < kd->datacount; i++) { fprintf(kd->fp, "%d", kd->dataset[i].speed); } fprintf(kd->fp, ""); /* fprintf(kd->fp, ""); for (i = 0; i < kd->datacount; i++) { fprintf(kd->fp, "%d", kd->dataset[i].speedgps); } fprintf(kd->fp, ""); */ fprintf(kd->fp, ""); for (i = 0; i < kd->datacount; i++) { fprintf(kd->fp, "%d", kd->dataset[i].rpm); } fprintf(kd->fp, ""); fprintf(kd->fp, ""); for (i = 0; i < kd->datacount; i++) { fprintf(kd->fp, "%d", kd->dataset[i].speed ? kd->dataset[i].rpm / kd->dataset[i].speed : 1); } fprintf(kd->fp, ""); fprintf(kd->fp, ""); for (i = 0; i < kd->datacount; i++) { fprintf(kd->fp, "%d", kd->dataset[i].coolant); } fprintf(kd->fp, ""); fprintf(kd->fp, ""); for (i = 0; i < kd->datacount; i++) { fprintf(kd->fp, "%d", kd->dataset[i].intake); } fprintf(kd->fp, ""); fprintf(kd->fp, ""); for (i = 0; i < kd->datacount; i++) { fprintf(kd->fp, "%d", kd->dataset[i].load); } fprintf(kd->fp, ""); /* fprintf(kd->fp, ""); for (i = 0; i < kd->datacount; i++) { fprintf(kd->fp, "%d", kd->dataset[i].absload); } fprintf(kd->fp, ""); */ fprintf(kd->fp, ""); for (i = 0; i < kd->datacount; i++) { fprintf(kd->fp, "%d", kd->dataset[i].throttle); if (kd->dataset[i].speed == 0) lowThrottle = kd->dataset[i].throttle; } fprintf(kd->fp, ""); fprintf(kd->fp, ""); for (i = 0; i < kd->datacount; i++) { fprintf(kd->fp, "%.2f", (float)kd->dataset[i].alt / 100); } fprintf(kd->fp, ""); /* fprintf(kd->fp, ""); for (i = 0; i < kd->datacount; i++) { fprintf(kd->fp, "%d", kd->dataset[i].sats); } fprintf(kd->fp, ""); */ fprintf(kd->fp, ""); for (i = 0; i < kd->datacount; i++) { fprintf(kd->fp, "X:%d Y:%d Z:%d", kd->dataset[i].acc[0] / 64, kd->dataset[i].acc[1] / 64, kd->dataset[i].acc[2] / 64); } fprintf(kd->fp, ""); fprintf(kd->fp, ""); for (i = 0; i < kd->datacount; i++) { fprintf(kd->fp, "%u", kd->dataset[i].timestamp); } fprintf(kd->fp, ""); fprintf(kd->fp, "\r\n"); int n = 0; for (i = 0; i < kd->datacount - 1; i++) { if (kd->dataset[i].speed < 25) { continue; } if (kd->dataset[i].throttle > lowThrottle + 2) { // throttle pedal is still down continue; } float g = 0; if (kd->dataset[i + 1].speed < kd->dataset[i].speed) g = (((float)kd->dataset[i + 1].speed - kd->dataset[i].speed) * 1000 / (kd->dataset[i + 1].timestamp - kd->dataset[i].timestamp) / 3.6) / 9.8f; else if (kd->dataset[i].speed < kd->dataset[i - 1].speed) g = (((float)kd->dataset[i].speed - kd->dataset[i - 1].speed) * 1000 / (kd->dataset[i].timestamp - kd->dataset[i - 1].timestamp) / 3.6) / 9.8f; else continue; if (g <= -0.15f) { n++; fprintf(kd->fp, "#%d %u:%02u", n, kd->dataset[i].timestamp / 60000, (kd->dataset[i].timestamp / 1000) % 60); fprintf(kd->fp, "#brakepoint%f,%f", kd->dataset[i].lng, kd->dataset[i].lat); fprintf(kd->fp, ""); fprintf(kd->fp, "%d", kd->dataset[i].speed); fprintf(kd->fp, "%d", kd->dataset[i].rpm); fprintf(kd->fp, "%.2fG", g); fprintf(kd->fp, ""); fprintf(kd->fp, "\r\n"); uint32_t t = kd->dataset[i].timestamp + 500; while (kd->dataset[++i].timestamp < t); } } fprintf(kd->fp, ""); } void Cleanup(KML_DATA* kd) { if (kd->dataset) free(kd->dataset); if (kd->fp) fclose(kd->fp); free(kd); } int ReadLine(FILE* fp, char* buf, int bufsize) { int c; int n = 0; for (;;) { c = fgetc(fp); if (c == -1) break; if (c == '\r' || c == '\n') { if (n == 0) continue; else break; } if (n == bufsize - 1) break; buf[n++] = c; } buf[n] = 0; return n; } int ConvertToKML(const char* logfile, const char* kmlfile, uint32_t startpos, uint32_t endpos) { FILE* fp = fopen(logfile, "r"); if (!fp) { printf("Error opening file - %s\n", logfile); return -1; } uint32_t ts = 0; KML_DATA* kd = (KML_DATA*)calloc(1, sizeof(KML_DATA)); kd->fp = fopen(kmlfile, "w"); //fprintf(kd->fp, "%s", kmlhead); AppendFile(kd->fp, "kmlhead.txt"); int elapsed; int pid; char buf[1024]; while (ReadLine(fp, buf, sizeof(buf)) > 0) { if (buf[0] == '#') { // absolute timestamp ts = atoi(buf + 1); } else { ts += atoi(buf); } char *p = strchr(buf, ','); if (!p++) continue; pid = 0; if (*(p + 3) == ',') { if (!memcmp(p, "DTE", 3)) pid = PID_GPS_DATE; else if (!memcmp(p, "UTC", 3)) pid = PID_GPS_TIME; else if (!memcmp(p, "UTC", 3)) pid = PID_GPS_TIME; else if (!memcmp(p, "LAT", 3)) pid = PID_GPS_LATITUDE; else if (!memcmp(p, "LNG", 3)) pid = PID_GPS_LONGITUDE; else if (!memcmp(p, "ALT", 3)) pid = PID_GPS_ALTITUDE; else if (!memcmp(p, "SPD", 3)) pid = PID_GPS_SPEED; else if (!memcmp(p, "CRS", 3)) pid = PID_GPS_HEADING; else if (!memcmp(p, "SAT", 3)) pid = PID_GPS_SAT_COUNT; else if (!memcmp(p, "ACC", 3)) pid = PID_ACC; else if (!memcmp(p, "GYR", 3)) pid = PID_GYRO; else if (!memcmp(p, "MAG", 3)) pid = PID_COMPASS; else if (!memcmp(p, "BAT", 3)) pid = PID_BATTERY_VOLTAGE; } if (pid == 0) pid = hex2uint16(p); p = strchr(p, ','); if (!p++) continue; int value[3] = {0}; int i = 0; int total = 0; do { value[i] = atoi(p); p = strchr(p, ','); if (!p++) break; total = ++i; } while (i < 3); printf("Time=%.2f ", (float)ts / 1000); if (total == 1) { printf("%X=%d", pid, value[0]); } else { printf("%X=%d,%d,%d", pid, value[0], value[1], value[2]); } printf("\n"); WriteKMLData(kd, ts, pid, value); if (endpos && ts > endpos) break; } WriteKMLTail(kd); Cleanup(kd); fclose(fp); return 0; } int main(int argc, const char* argv[]) { int startpos = 0; int endpos = 0; char outfile[256]; printf("Data2KML (C)2013-14 Written by Stanley Huang \n\n"); if (argc <= 1) { printf("Usage: %s [Input file] [Output file] [Start Pos] [End Pos]\n\n", argv[0]); printf("Description about the arguments:\n\n\ Input file: path to logged CSV file\n\ Output file: path to KML file (output in the input directory if unspecified)\n\ Start Pos: start time (seconds) for processing\n\ End Pos: end time (seconds) for processing\n"); return -1; } if (argc > 3) startpos = (uint32_t)atoi(argv[3]) * 1000; if (argc > 4) endpos = (uint32_t)atoi(argv[4]) * 1000; _snprintf(outfile, sizeof(outfile), "%s.kml", argv[1]); ConvertToKML(argv[1], argc > 2 ? argv[2] : outfile, startpos, endpos); return 0; }