/**************************************************************************/ /*! @file Adafruit_GPS.cpp @mainpage Adafruit Ultimate GPS Breakout @section intro Introduction This is the Adafruit GPS library - the ultimate GPS library for the ultimate GPS module! Tested and works great with the Adafruit Ultimate GPS module using MTK33x9 chipset ------> http://www.adafruit.com/products/746 Adafruit invests time and resources providing this open source code, please support Adafruit and open-source hardware by purchasing products from Adafruit! @section author Author Written by Limor Fried/Ladyada for Adafruit Industries. @section license License BSD license, check license.txt for more information All text above must be included in any redistribution */ /**************************************************************************/ #include static boolean strStartsWith(const char *str, const char *prefix); /**************************************************************************/ /*! @brief Parse a NMEA string @param nmea Pointer to the NMEA string @return True if we parsed it, false if it has an invalid checksum or invalid data */ /**************************************************************************/ boolean Adafruit_GPS::parse(char *nmea) { // do checksum check if (!check(nmea)) return false; // passed the check, so there's a valid source in thisSource and a valid // sentence in thisSentence // look for a few common sentences char *p = nmea; // Pointer to move through the sentence -- good parsers are // non-destructive p = strchr(p, ',') + 1; // Skip to the character after the next comma, then check sentence. if (!strcmp(thisSentence, "GGA")) { // found GGA // get time parseTime(p); // parse out latitude p = strchr(p, ',') + 1; parseLat(p); p = strchr(p, ',') + 1; if (!parseLatDir(p)) return false; // parse out longitude p = strchr(p, ',') + 1; parseLon(p); p = strchr(p, ',') + 1; if (!parseLonDir(p)) return false; p = strchr(p, ',') + 1; if (',' != *p) { fixquality = atoi(p); if (fixquality > 0) { fix = true; lastFix = sentTime; } else fix = false; } p = strchr(p, ',') + 1; if (',' != *p) { satellites = atoi(p); } p = strchr(p, ',') + 1; if (',' != *p) { HDOP = atof(p); } p = strchr(p, ',') + 1; if (',' != *p) { altitude = atof(p); } p = strchr(p, ',') + 1; p = strchr(p, ',') + 1; if (',' != *p) { geoidheight = atof(p); } } else if (!strcmp(thisSentence, "RMC")) { // found RMC // get time parseTime(p); // fix or no fix p = strchr(p, ',') + 1; if (!parseFix(p)) return false; // parse out latitude p = strchr(p, ',') + 1; parseLat(p); p = strchr(p, ',') + 1; if (!parseLatDir(p)) return false; // parse out longitude p = strchr(p, ',') + 1; parseLon(p); p = strchr(p, ',') + 1; if (!parseLonDir(p)) return false; // speed p = strchr(p, ',') + 1; if (',' != *p) { speed = atof(p); } // angle p = strchr(p, ',') + 1; if (',' != *p) { angle = atof(p); } p = strchr(p, ',') + 1; if (',' != *p) { uint32_t fulldate = atof(p); day = fulldate / 10000; month = (fulldate % 10000) / 100; year = (fulldate % 100); lastDate = sentTime; } } else if (!strcmp(thisSentence, "GLL")) { // found GLL // parse out latitude parseLat(p); p = strchr(p, ',') + 1; if (!parseLatDir(p)) return false; // parse out longitude p = strchr(p, ',') + 1; parseLon(p); p = strchr(p, ',') + 1; if (!parseLonDir(p)) return false; // get time p = strchr(p, ',') + 1; parseTime(p); // fix or no fix p = strchr(p, ',') + 1; if (!parseFix(p)) return false; } else if (!strcmp(thisSentence, "GSA")) { // found GSA // parse out Auto selection, but ignore them // parse out 3d fixquality p = strchr(p, ',') + 1; if (',' != *p) { fixquality_3d = atoi(p); } // skip 12 Satellite PDNs without interpreting them for (int i = 0; i < 12; i++) p = strchr(p, ',') + 1; // parse out PDOP p = strchr(p, ',') + 1; if (',' != *p) { PDOP = atof(p); } // parse out HDOP, we also parse this from the GGA sentence. Chipset should // report the same for both p = strchr(p, ',') + 1; if (',' != *p) { HDOP = atof(p); } // parse out VDOP p = strchr(p, ',') + 1; if (',' != *p) { VDOP = atof(p); } } // we dont parse the remaining, yet! else return false; // Record the successful parsing of where the last data came from and when strcpy(lastSource, thisSource); strcpy(lastSentence, thisSentence); lastUpdate = millis(); return true; } /**************************************************************************/ /*! @brief Check an NMEA string for basic format, valid source ID and valid and valid sentence ID. Update the values of thisCheck, thisSource and thisSentence. @param nmea Pointer to the NMEA string @return True if well formed, false if it has problems */ /**************************************************************************/ boolean Adafruit_GPS::check(char *nmea) { thisCheck = 0; // new check if (*nmea != '$') return false; // doesn't start with $ else thisCheck += NMEA_HAS_DOLLAR; // do checksum check -- first look if we even have one -- ignore all but last // * char *ast = nmea; // not strchr(nmea,'*'); for first * while (*ast) ast++; // go to the end while (*ast != '*' && ast > nmea) ast--; // then back to * if it's there if (*ast != '*') return false; // there is no asterisk else { uint16_t sum = parseHex(*(ast + 1)) * 16; // extract checksum sum += parseHex(*(ast + 2)); char *p = nmea; // check checksum for (char *p1 = p + 1; p1 < ast; p1++) sum ^= *p1; if (sum != 0) return false; // bad checksum :( else thisCheck += NMEA_HAS_CHECKSUM; } // extract source of variable length char *p = nmea + 1; const char *src = tokenOnList(p, sources); if (src) { strcpy(thisSource, src); thisCheck += NMEA_HAS_SOURCE; } else return false; p += strlen(src); // extract sentence id and check if parsed const char *snc = tokenOnList(p, sentences_parsed); if (snc) { strcpy(thisSentence, snc); thisCheck += NMEA_HAS_SENTENCE_P + NMEA_HAS_SENTENCE; } else { // check if known snc = tokenOnList(p, sentences_known); if (snc) { strcpy(thisSentence, snc); thisCheck += NMEA_HAS_SENTENCE; return false; } } return true; // passed all the tests } /**************************************************************************/ /*! @brief Check if a token at the start of a string is on a list. @param token Pointer to the string @param list A list of strings, with the final entry starting "ZZ" @return Pointer to the found token, or NULL if it fails */ /**************************************************************************/ const char *Adafruit_GPS::tokenOnList(char *token, const char **list) { int i = 0; // index in the list while (strncmp(list[i], "ZZ", 2) && i < 1000) { // stop at terminator and don't crash without it // test for a match on the sentence name if (!strncmp((const char *)list[i], (const char *)token, strlen(list[i]))) return list[i]; i++; } return NULL; // couldn't find a match } /**************************************************************************/ /*! @brief Add *CS where CS is the two character hex checksum for all but the first character in the string. The checksum is the result of an exclusive or of all the characters in the string. Also useful if you are creating new PMTK strings for controlling a GPS module and need a checksum added. @param buff Pointer to the string, which must be long enough @return none */ /**************************************************************************/ void Adafruit_GPS::addChecksum(char *buff) { char cs = 0; int i = 1; while (buff[i]) { cs ^= buff[i]; i++; } sprintf(buff, "%s*%02X", buff, cs); } /**************************************************************************/ /*! @brief Parse a part of an NMEA string for time @param p Pointer to the location of the token in the NMEA string */ /**************************************************************************/ void Adafruit_GPS::parseTime(char *p) { // get time uint32_t time = atol(p); hour = time / 10000; minute = (time % 10000) / 100; seconds = (time % 100); p = strchr(p, '.') + 1; milliseconds = atoi(p); lastTime = sentTime; } /**************************************************************************/ /*! @brief Parse a part of an NMEA string for latitude angle @param p Pointer to the location of the token in the NMEA string */ /**************************************************************************/ void Adafruit_GPS::parseLat(char *p) { int32_t degree; long minutes; char degreebuff[10]; if (',' != *p) { strncpy(degreebuff, p, 2); p += 2; degreebuff[2] = '\0'; long degree = atol(degreebuff) * 10000000; strncpy(degreebuff, p, 2); // minutes p += 3; // skip decimal point strncpy(degreebuff + 2, p, 4); degreebuff[6] = '\0'; long minutes = 50 * atol(degreebuff) / 3; latitude_fixed = degree + minutes; latitude = degree / 100000 + minutes * 0.000006F; latitudeDegrees = (latitude - 100 * int(latitude / 100)) / 60.0; latitudeDegrees += int(latitude / 100); } } /**************************************************************************/ /*! @brief Parse a part of an NMEA string for latitude direction @param p Pointer to the location of the token in the NMEA string @return True if we parsed it, false if it has invalid data */ /**************************************************************************/ boolean Adafruit_GPS::parseLatDir(char *p) { if (p[0] == 'S') { lat = 'S'; latitudeDegrees *= -1.0; latitude_fixed *= -1; } else if (p[0] == 'N') { lat = 'N'; } else if (p[0] == ',') { lat = 0; } else { return false; } return true; } /**************************************************************************/ /*! @brief Parse a part of an NMEA string for longitude angle @param p Pointer to the location of the token in the NMEA string */ /**************************************************************************/ void Adafruit_GPS::parseLon(char *p) { int32_t degree; long minutes; char degreebuff[10]; if (',' != *p) { strncpy(degreebuff, p, 3); p += 3; degreebuff[3] = '\0'; degree = atol(degreebuff) * 10000000; strncpy(degreebuff, p, 2); // minutes p += 3; // skip decimal point strncpy(degreebuff + 2, p, 4); degreebuff[6] = '\0'; minutes = 50 * atol(degreebuff) / 3; longitude_fixed = degree + minutes; longitude = degree / 100000 + minutes * 0.000006F; longitudeDegrees = (longitude - 100 * int(longitude / 100)) / 60.0; longitudeDegrees += int(longitude / 100); } } /**************************************************************************/ /*! @brief Parse a part of an NMEA string for longitude direction @param p Pointer to the location of the token in the NMEA string @return True if we parsed it, false if it has invalid data */ /**************************************************************************/ boolean Adafruit_GPS::parseLonDir(char *p) { if (',' != *p) { if (p[0] == 'W') { lon = 'W'; longitudeDegrees *= -1.0; longitude_fixed *= -1; } else if (p[0] == 'E') { lon = 'E'; } else if (p[0] == ',') { lon = 0; } else { return false; } } return true; } /**************************************************************************/ /*! @brief Parse a part of an NMEA string for whether there is a fix @param p Pointer to the location of the token in the NMEA string @return True if we parsed it, false if it has invalid data */ /**************************************************************************/ boolean Adafruit_GPS::parseFix(char *p) { if (p[0] == 'A') { fix = true; lastFix = sentTime; } else if (p[0] == 'V') fix = false; else return false; return true; } /**************************************************************************/ /*! @brief Time in seconds since the last position fix was obtained. Will fail by rolling over to zero after one millis() cycle, about 6-1/2 weeks. @return float value in seconds since last fix. */ /**************************************************************************/ float Adafruit_GPS::secondsSinceFix() { return (millis() - lastFix) / 1000.; } /**************************************************************************/ /*! @brief Time in seconds since the last GPS time was obtained. Will fail by rolling over to zero after one millis() cycle, about 6-1/2 weeks. @return float value in seconds since last GPS time. */ /**************************************************************************/ float Adafruit_GPS::secondsSinceTime() { return (millis() - lastTime) / 1000.; } /**************************************************************************/ /*! @brief Time in seconds since the last GPS date was obtained. Will fail by rolling over to zero after one millis() cycle, about 6-1/2 weeks. @return float value in seconds since last GPS date. */ /**************************************************************************/ float Adafruit_GPS::secondsSinceDate() { return (millis() - lastDate) / 1000.; } /**************************************************************************/ /*! @brief How many bytes are available to read - part of 'Print'-class functionality @return Bytes available, 0 if none */ /**************************************************************************/ size_t Adafruit_GPS::available(void) { if (paused) return 0; #if (defined(__AVR__) || defined(ESP8266)) && defined(USE_SW_SERIAL) if (gpsSwSerial) { return gpsSwSerial->available(); } #endif if (gpsHwSerial) { return gpsHwSerial->available(); } if (gpsI2C || gpsSPI) { return 1; // I2C/SPI doesnt have 'availability' so always has a byte at // least to read! } return 0; } /**************************************************************************/ /*! @brief Write a byte to the underlying transport - part of 'Print'-class functionality @param c A single byte to send @return Bytes written - 1 on success, 0 on failure */ /**************************************************************************/ size_t Adafruit_GPS::write(uint8_t c) { #if (defined(__AVR__) || defined(ESP8266)) && defined(USE_SW_SERIAL) if (gpsSwSerial) { return gpsSwSerial->write(c); } #endif if (gpsHwSerial) { return gpsHwSerial->write(c); } if (gpsI2C) { gpsI2C->beginTransmission(_i2caddr); if (gpsI2C->write(c) != 1) { return 0; } if (gpsI2C->endTransmission(true) == 0) { return 1; } } if (gpsSPI) { gpsSPI->beginTransaction(gpsSPI_settings); if (gpsSPI_cs >= 0) { digitalWrite(gpsSPI_cs, LOW); } c = gpsSPI->transfer(c); if (gpsSPI_cs >= 0) { digitalWrite(gpsSPI_cs, HIGH); } gpsSPI->endTransaction(); return 1; } return 0; } /**************************************************************************/ /*! @brief Read one character from the GPS device @return The character that we received, or 0 if nothing was available */ /**************************************************************************/ char Adafruit_GPS::read(void) { static uint32_t firstChar = 0; // first character received in current sentence uint32_t tStart = millis(); // as close as we can get to time char was sent char c = 0; if (paused) return c; #if (defined(__AVR__) || defined(ESP8266)) && defined(USE_SW_SERIAL) if (gpsSwSerial) { if (!gpsSwSerial->available()) return c; c = gpsSwSerial->read(); } #endif if (gpsHwSerial) { if (!gpsHwSerial->available()) return c; c = gpsHwSerial->read(); } if (gpsI2C) { if (_buff_idx <= _buff_max) { c = _i2cbuffer[_buff_idx]; _buff_idx++; } else { // refill the buffer! if (gpsI2C->requestFrom(0x10, GPS_MAX_I2C_TRANSFER, true) == GPS_MAX_I2C_TRANSFER) { // got data! _buff_max = 0; char curr_char = 0; for (int i = 0; i < GPS_MAX_I2C_TRANSFER; i++) { curr_char = gpsI2C->read(); if ((curr_char == 0x0A) && (last_char != 0x0D)) { // skip duplicate 0x0A's - but keep as part of a CRLF continue; } last_char = curr_char; _i2cbuffer[_buff_max] = curr_char; _buff_max++; } _buff_max--; // back up to the last valid slot if ((_buff_max == 0) && (_i2cbuffer[0] == 0x0A)) { _buff_max = -1; // ahh there was nothing to read after all } _buff_idx = 0; } return c; } } if (gpsSPI) { do { gpsSPI->beginTransaction(gpsSPI_settings); if (gpsSPI_cs >= 0) { digitalWrite(gpsSPI_cs, LOW); } c = gpsSPI->transfer(0xFF); if (gpsSPI_cs >= 0) { digitalWrite(gpsSPI_cs, HIGH); } gpsSPI->endTransaction(); // skip duplicate 0x0A's - but keep as part of a CRLF } while (((c == 0x0A) && (last_char != 0x0D)) || (!isprint(c) && !isspace(c))); last_char = c; } // Serial.print(c); currentline[lineidx++] = c; if (lineidx >= MAXLINELENGTH) lineidx = MAXLINELENGTH - 1; // ensure there is someplace to put the next received character if (c == '\n') { currentline[lineidx] = 0; if (currentline == line1) { currentline = line2; lastline = line1; } else { currentline = line1; lastline = line2; } // Serial.println("----"); // Serial.println((char *)lastline); // Serial.println("----"); lineidx = 0; recvdflag = true; recvdTime = millis(); // time we got the end of the string sentTime = firstChar; firstChar = 0; // there are no characters yet return c; // wait until next character to set time } if (firstChar == 0) firstChar = tStart; return c; } /**************************************************************************/ /*! @brief Constructor when using SoftwareSerial @param ser Pointer to SoftwareSerial device */ /**************************************************************************/ #if (defined(__AVR__) || defined(ESP8266)) && defined(USE_SW_SERIAL) Adafruit_GPS::Adafruit_GPS(SoftwareSerial *ser) { common_init(); // Set everything to common state, then... gpsSwSerial = ser; // ...override gpsSwSerial with value passed. } #endif /**************************************************************************/ /*! @brief Constructor when using HardwareSerial @param ser Pointer to a HardwareSerial object */ /**************************************************************************/ Adafruit_GPS::Adafruit_GPS(HardwareSerial *ser) { common_init(); // Set everything to common state, then... gpsHwSerial = ser; // ...override gpsHwSerial with value passed. } /**************************************************************************/ /*! @brief Constructor when using I2C @param theWire Pointer to an I2C TwoWire object */ /**************************************************************************/ Adafruit_GPS::Adafruit_GPS(TwoWire *theWire) { common_init(); // Set everything to common state, then... gpsI2C = theWire; // ...override gpsI2C } /**************************************************************************/ /*! @brief Constructor when using SPI @param theSPI Pointer to an SPI device object @param cspin The pin connected to the GPS CS, can be -1 if unused */ /**************************************************************************/ Adafruit_GPS::Adafruit_GPS(SPIClass *theSPI, int8_t cspin) { common_init(); // Set everything to common state, then... gpsSPI = theSPI; // ...override gpsSPI gpsSPI_cs = cspin; } /**************************************************************************/ /*! @brief Initialization code used by all constructor types */ /**************************************************************************/ void Adafruit_GPS::common_init(void) { #if (defined(__AVR__) || defined(ESP8266)) && defined(USE_SW_SERIAL) gpsSwSerial = NULL; // Set both to NULL, then override correct #endif gpsHwSerial = NULL; // port pointer in corresponding constructor gpsI2C = NULL; gpsSPI = NULL; recvdflag = false; paused = false; lineidx = 0; currentline = line1; lastline = line2; hour = minute = seconds = year = month = day = fixquality = fixquality_3d = satellites = 0; // uint8_t lat = lon = mag = 0; // char fix = false; // boolean milliseconds = 0; // uint16_t latitude = longitude = geoidheight = altitude = speed = angle = magvariation = HDOP = VDOP = PDOP = 0.0; // float } /**************************************************************************/ /*! @brief Start the HW or SW serial port @param baud_or_i2caddr Baud rate if using serial, I2C address if using I2C @returns True on successful hardware init, False on failure */ /**************************************************************************/ bool Adafruit_GPS::begin(uint32_t baud_or_i2caddr) { #if (defined(__AVR__) || defined(ESP8266)) && defined(USE_SW_SERIAL) if (gpsSwSerial) { gpsSwSerial->begin(baud_or_i2caddr); } #endif if (gpsHwSerial) { gpsHwSerial->begin(baud_or_i2caddr); } if (gpsI2C) { gpsI2C->begin(); if (baud_or_i2caddr > 0x7F) { _i2caddr = GPS_DEFAULT_I2C_ADDR; } else { _i2caddr = baud_or_i2caddr; } // A basic scanner, see if it ACK's gpsI2C->beginTransmission(_i2caddr); return (gpsI2C->endTransmission() == 0); } if (gpsSPI) { gpsSPI->begin(); gpsSPI_settings = SPISettings(baud_or_i2caddr, MSBFIRST, SPI_MODE0); if (gpsSPI_cs >= 0) { pinMode(gpsSPI_cs, OUTPUT); digitalWrite(gpsSPI_cs, HIGH); } } delay(10); return true; } /**************************************************************************/ /*! @brief Send a command to the GPS device @param str Pointer to a string holding the command to send */ /**************************************************************************/ void Adafruit_GPS::sendCommand(const char *str) { println(str); } /**************************************************************************/ /*! @brief Check to see if a new NMEA line has been received @return True if received, false if not */ /**************************************************************************/ boolean Adafruit_GPS::newNMEAreceived(void) { return recvdflag; } /**************************************************************************/ /*! @brief Pause/unpause receiving new data @param p True = pause, false = unpause */ /**************************************************************************/ void Adafruit_GPS::pause(boolean p) { paused = p; } /**************************************************************************/ /*! @brief Returns the last NMEA line received and unsets the received flag @return Pointer to the last line string */ /**************************************************************************/ char *Adafruit_GPS::lastNMEA(void) { recvdflag = false; return (char *)lastline; } /**************************************************************************/ /*! @brief Parse a hex character and return the appropriate decimal value @param c Hex character, e.g. '0' or 'B' @return Integer value of the hex character. Returns 0 if c is not a proper character */ /**************************************************************************/ // read a Hex value and return the decimal equivalent uint8_t Adafruit_GPS::parseHex(char c) { if (c < '0') return 0; if (c <= '9') return c - '0'; if (c < 'A') return 0; if (c <= 'F') return (c - 'A') + 10; // if (c > 'F') return 0; } /**************************************************************************/ /*! @brief Wait for a specified sentence from the device @param wait4me Pointer to a string holding the desired response @param max How long to wait, default is MAXWAITSENTENCE @param usingInterrupts True if using interrupts to read from the GPS (default is false) @return True if we got what we wanted, false otherwise */ /**************************************************************************/ boolean Adafruit_GPS::waitForSentence(const char *wait4me, uint8_t max, boolean usingInterrupts) { uint8_t i = 0; while (i < max) { if (!usingInterrupts) read(); if (newNMEAreceived()) { char *nmea = lastNMEA(); i++; if (strStartsWith(nmea, wait4me)) return true; } } return false; } /**************************************************************************/ /*! @brief Start the LOCUS logger @return True on success, false if it failed */ /**************************************************************************/ boolean Adafruit_GPS::LOCUS_StartLogger(void) { sendCommand(PMTK_LOCUS_STARTLOG); recvdflag = false; return waitForSentence(PMTK_LOCUS_STARTSTOPACK); } /**************************************************************************/ /*! @brief Stop the LOCUS logger @return True on success, false if it failed */ /**************************************************************************/ boolean Adafruit_GPS::LOCUS_StopLogger(void) { sendCommand(PMTK_LOCUS_STOPLOG); recvdflag = false; return waitForSentence(PMTK_LOCUS_STARTSTOPACK); } /**************************************************************************/ /*! @brief Read the logger status @return True if we read the data, false if there was no response */ /**************************************************************************/ boolean Adafruit_GPS::LOCUS_ReadStatus(void) { sendCommand(PMTK_LOCUS_QUERY_STATUS); if (!waitForSentence("$PMTKLOG")) return false; char *response = lastNMEA(); uint16_t parsed[10]; uint8_t i; for (i = 0; i < 10; i++) parsed[i] = -1; response = strchr(response, ','); for (i = 0; i < 10; i++) { if (!response || (response[0] == 0) || (response[0] == '*')) break; response++; parsed[i] = 0; while ((response[0] != ',') && (response[0] != '*') && (response[0] != 0)) { parsed[i] *= 10; char c = response[0]; if (isDigit(c)) parsed[i] += c - '0'; else parsed[i] = c; response++; } } LOCUS_serial = parsed[0]; LOCUS_type = parsed[1]; if (isAlpha(parsed[2])) { parsed[2] = parsed[2] - 'a' + 10; } LOCUS_mode = parsed[2]; LOCUS_config = parsed[3]; LOCUS_interval = parsed[4]; LOCUS_distance = parsed[5]; LOCUS_speed = parsed[6]; LOCUS_status = !parsed[7]; LOCUS_records = parsed[8]; LOCUS_percent = parsed[9]; return true; } /**************************************************************************/ /*! @brief Standby Mode Switches @return False if already in standby, true if it entered standby */ /**************************************************************************/ boolean Adafruit_GPS::standby(void) { if (inStandbyMode) { return false; // Returns false if already in standby mode, so that you do // not wake it up by sending commands to GPS } else { inStandbyMode = true; sendCommand(PMTK_STANDBY); // return waitForSentence(PMTK_STANDBY_SUCCESS); // don't seem to be fast // enough to catch the message, or something else just is not working return true; } } /**************************************************************************/ /*! @brief Wake the sensor up @return True if woken up, false if not in standby or failed to wake */ /**************************************************************************/ boolean Adafruit_GPS::wakeup(void) { if (inStandbyMode) { inStandbyMode = false; sendCommand(""); // send byte to wake it up return waitForSentence(PMTK_AWAKE); } else { return false; // Returns false if not in standby mode, nothing to wakeup } } /**************************************************************************/ /*! @brief Checks whether a string starts with a specified prefix @param str Pointer to a string @param prefix Pointer to the prefix @return True if str starts with prefix, false otherwise */ /**************************************************************************/ static boolean strStartsWith(const char *str, const char *prefix) { while (*prefix) { if (*prefix++ != *str++) return false; } return true; }