Merging in MicroPy GPS
This commit is contained in:
parent
cbcdb9f331
commit
023b733b53
2
main.py
2
main.py
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@ -2,6 +2,8 @@ import uPyConfig
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hw = uPyConfig.esp32(variant='wemos-lolin32')
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#print family, variant and IP address (using oled, if available on-board)
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import webrepl
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webrepl.start()
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import init_sample
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init_sample.PrintHWInfo(hw)
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@ -0,0 +1,817 @@
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"""
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# MicropyGPS - a GPS NMEA sentence parser for Micropython/Python 3.X
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# Copyright (c) 2017 Michael Calvin McCoy (calvin.mccoy@gmail.com)
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# The MIT License (MIT) - see LICENSE file
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"""
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# TODO:
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# Time Since First Fix
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# Distance/Time to Target
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# More Helper Functions
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# Dynamically limit sentences types to parse
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from math import floor, modf
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# Import utime or time for fix time handling
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try:
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# Assume running on MicroPython
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import utime
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except ImportError:
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# Otherwise default to time module for non-embedded implementations
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# Should still support millisecond resolution.
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import time
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class MicropyGPS(object):
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"""GPS NMEA Sentence Parser. Creates object that stores all relevant GPS data and statistics.
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Parses sentences one character at a time using update(). """
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# Max Number of Characters a valid sentence can be (based on GGA sentence)
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SENTENCE_LIMIT = 76
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__HEMISPHERES = ('N', 'S', 'E', 'W')
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__NO_FIX = 1
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__FIX_2D = 2
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__FIX_3D = 3
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__DIRECTIONS = ['N', 'NNE', 'NE', 'ENE', 'E', 'ESE', 'SE', 'SSE', 'S', 'SSW', 'SW', 'WSW', 'W',
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'WNW', 'NW', 'NNW']
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__MONTHS = ('January', 'February', 'March', 'April', 'May',
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'June', 'July', 'August', 'September', 'October',
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'November', 'December')
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def __init__(self, local_offset=0, location_formatting='ddm'):
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"""
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Setup GPS Object Status Flags, Internal Data Registers, etc
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local_offset (int): Timzone Difference to UTC
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location_formatting (str): Style For Presenting Longitude/Latitude:
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Decimal Degree Minute (ddm) - 40° 26.767′ N
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Degrees Minutes Seconds (dms) - 40° 26′ 46″ N
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Decimal Degrees (dd) - 40.446° N
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"""
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#####################
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# Object Status Flags
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self.sentence_active = False
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self.active_segment = 0
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self.process_crc = False
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self.gps_segments = []
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self.crc_xor = 0
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self.char_count = 0
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self.fix_time = 0
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#####################
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# Sentence Statistics
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self.crc_fails = 0
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self.clean_sentences = 0
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self.parsed_sentences = 0
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#####################
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# Logging Related
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self.log_handle = None
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self.log_en = False
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#####################
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# Data From Sentences
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# Time
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self.timestamp = (0, 0, 0)
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self.date = (0, 0, 0)
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self.local_offset = local_offset
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# Position/Motion
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self._latitude = (0, 0.0, 'N')
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self._longitude = (0, 0.0, 'W')
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self.coord_format = location_formatting
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self.speed = (0.0, 0.0, 0.0)
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self.course = 0.0
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self.altitude = 0.0
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self.geoid_height = 0.0
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# GPS Info
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self.satellites_in_view = 0
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self.satellites_in_use = 0
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self.satellites_used = []
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self.last_sv_sentence = 0
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self.total_sv_sentences = 0
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self.satellite_data = dict()
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self.hdop = 0.0
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self.pdop = 0.0
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self.vdop = 0.0
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self.valid = False
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self.fix_stat = 0
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self.fix_type = 1
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########################################
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# Coordinates Translation Functions
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########################################
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@property
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def latitude(self):
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"""Format Latitude Data Correctly"""
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if self.coord_format == 'dd':
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decimal_degrees = self._latitude[0] + (self._latitude[1] / 60)
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return [decimal_degrees, self._latitude[2]]
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elif self.coord_format == 'dms':
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minute_parts = modf(self._latitude[1])
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seconds = round(minute_parts[0] * 60)
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return [self._latitude[0], int(minute_parts[1]), seconds, self._latitude[2]]
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else:
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return self._latitude
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@property
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def longitude(self):
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"""Format Longitude Data Correctly"""
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if self.coord_format == 'dd':
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decimal_degrees = self._longitude[0] + (self._longitude[1] / 60)
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return [decimal_degrees, self._longitude[2]]
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elif self.coord_format == 'dms':
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minute_parts = modf(self._longitude[1])
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seconds = round(minute_parts[0] * 60)
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return [self._longitude[0], int(minute_parts[1]), seconds, self._longitude[2]]
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else:
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return self._longitude
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########################################
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# Logging Related Functions
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########################################
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def start_logging(self, target_file, mode="append"):
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"""
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Create GPS data log object
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"""
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# Set Write Mode Overwrite or Append
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mode_code = 'w' if mode == 'new' else 'a'
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try:
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self.log_handle = open(target_file, mode_code)
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except AttributeError:
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print("Invalid FileName")
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return False
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self.log_en = True
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return True
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def stop_logging(self):
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"""
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Closes the log file handler and disables further logging
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"""
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try:
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self.log_handle.close()
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except AttributeError:
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print("Invalid Handle")
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return False
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self.log_en = False
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return True
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def write_log(self, log_string):
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"""Attempts to write the last valid NMEA sentence character to the active file handler
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"""
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try:
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self.log_handle.write(log_string)
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except TypeError:
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return False
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return True
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########################################
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# Sentence Parsers
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########################################
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def gprmc(self):
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"""Parse Recommended Minimum Specific GPS/Transit data (RMC)Sentence.
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Updates UTC timestamp, latitude, longitude, Course, Speed, Date, and fix status
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"""
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# UTC Timestamp
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try:
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utc_string = self.gps_segments[1]
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if utc_string: # Possible timestamp found
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hours = (int(utc_string[0:2]) + self.local_offset) % 24
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minutes = int(utc_string[2:4])
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seconds = float(utc_string[4:])
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self.timestamp = (hours, minutes, seconds)
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else: # No Time stamp yet
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self.timestamp = (0, 0, 0)
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except ValueError: # Bad Timestamp value present
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return False
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# Date stamp
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try:
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date_string = self.gps_segments[9]
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# Date string printer function assumes to be year >=2000,
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# date_string() must be supplied with the correct century argument to display correctly
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if date_string: # Possible date stamp found
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day = int(date_string[0:2])
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month = int(date_string[2:4])
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year = int(date_string[4:6])
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self.date = (day, month, year)
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else: # No Date stamp yet
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self.date = (0, 0, 0)
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except ValueError: # Bad Date stamp value present
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return False
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# Check Receiver Data Valid Flag
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if self.gps_segments[2] == 'A': # Data from Receiver is Valid/Has Fix
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# Longitude / Latitude
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try:
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# Latitude
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l_string = self.gps_segments[3]
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lat_degs = int(l_string[0:2])
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lat_mins = float(l_string[2:])
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lat_hemi = self.gps_segments[4]
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# Longitude
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l_string = self.gps_segments[5]
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lon_degs = int(l_string[0:3])
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lon_mins = float(l_string[3:])
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lon_hemi = self.gps_segments[6]
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except ValueError:
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return False
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if lat_hemi not in self.__HEMISPHERES:
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return False
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if lon_hemi not in self.__HEMISPHERES:
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return False
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# Speed
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try:
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spd_knt = float(self.gps_segments[7])
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except ValueError:
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return False
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# Course
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try:
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course = float(self.gps_segments[8])
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except ValueError:
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return False
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# TODO - Add Magnetic Variation
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# Update Object Data
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self._latitude = (lat_degs, lat_mins, lat_hemi)
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self._longitude = (lon_degs, lon_mins, lon_hemi)
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# Include mph and hm/h
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self.speed = (spd_knt, spd_knt * 1.151, spd_knt * 1.852)
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self.course = course
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self.valid = True
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# Update Last Fix Time
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self.new_fix_time()
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else: # Clear Position Data if Sentence is 'Invalid'
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self._latitude = (0, 0.0, 'N')
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self._longitude = (0, 0.0, 'W')
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self.speed = (0.0, 0.0, 0.0)
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self.course = 0.0
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self.date = (0, 0, 0)
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self.valid = False
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return True
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def gpgll(self):
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"""Parse Geographic Latitude and Longitude (GLL)Sentence. Updates UTC timestamp, latitude,
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longitude, and fix status"""
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# UTC Timestamp
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try:
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utc_string = self.gps_segments[5]
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if utc_string: # Possible timestamp found
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hours = (int(utc_string[0:2]) + self.local_offset) % 24
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minutes = int(utc_string[2:4])
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seconds = float(utc_string[4:])
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self.timestamp = (hours, minutes, seconds)
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else: # No Time stamp yet
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self.timestamp = (0, 0, 0)
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except ValueError: # Bad Timestamp value present
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return False
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# Check Receiver Data Valid Flag
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if self.gps_segments[6] == 'A': # Data from Receiver is Valid/Has Fix
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# Longitude / Latitude
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try:
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# Latitude
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l_string = self.gps_segments[1]
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lat_degs = int(l_string[0:2])
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lat_mins = float(l_string[2:])
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lat_hemi = self.gps_segments[2]
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# Longitude
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l_string = self.gps_segments[3]
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lon_degs = int(l_string[0:3])
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lon_mins = float(l_string[3:])
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lon_hemi = self.gps_segments[4]
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except ValueError:
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return False
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if lat_hemi not in self.__HEMISPHERES:
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return False
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if lon_hemi not in self.__HEMISPHERES:
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return False
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# Update Object Data
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self._latitude = (lat_degs, lat_mins, lat_hemi)
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self._longitude = (lon_degs, lon_mins, lon_hemi)
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self.valid = True
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# Update Last Fix Time
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self.new_fix_time()
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else: # Clear Position Data if Sentence is 'Invalid'
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self._latitude = (0, 0.0, 'N')
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self._longitude = (0, 0.0, 'W')
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self.valid = False
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return True
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def gpvtg(self):
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"""Parse Track Made Good and Ground Speed (VTG) Sentence. Updates speed and course"""
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try:
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course = float(self.gps_segments[1])
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spd_knt = float(self.gps_segments[5])
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except ValueError:
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return False
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# Include mph and km/h
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self.speed = (spd_knt, spd_knt * 1.151, spd_knt * 1.852)
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self.course = course
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return True
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def gpgga(self):
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"""Parse Global Positioning System Fix Data (GGA) Sentence. Updates UTC timestamp, latitude, longitude,
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fix status, satellites in use, Horizontal Dilution of Precision (HDOP), altitude, geoid height and fix status"""
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try:
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# UTC Timestamp
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utc_string = self.gps_segments[1]
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# Skip timestamp if receiver doesn't have on yet
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if utc_string:
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hours = (int(utc_string[0:2]) + self.local_offset) % 24
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minutes = int(utc_string[2:4])
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seconds = float(utc_string[4:])
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else:
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hours = 0
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minutes = 0
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seconds = 0.0
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# Number of Satellites in Use
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satellites_in_use = int(self.gps_segments[7])
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# Horizontal Dilution of Precision
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hdop = float(self.gps_segments[8])
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# Get Fix Status
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fix_stat = int(self.gps_segments[6])
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except ValueError:
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return False
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# Process Location and Speed Data if Fix is GOOD
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if fix_stat:
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# Longitude / Latitude
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try:
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# Latitude
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l_string = self.gps_segments[2]
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lat_degs = int(l_string[0:2])
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lat_mins = float(l_string[2:])
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lat_hemi = self.gps_segments[3]
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# Longitude
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l_string = self.gps_segments[4]
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lon_degs = int(l_string[0:3])
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lon_mins = float(l_string[3:])
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lon_hemi = self.gps_segments[5]
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except ValueError:
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return False
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if lat_hemi not in self.__HEMISPHERES:
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return False
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if lon_hemi not in self.__HEMISPHERES:
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return False
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# Altitude / Height Above Geoid
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try:
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altitude = float(self.gps_segments[9])
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geoid_height = float(self.gps_segments[11])
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except ValueError:
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return False
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# Update Object Data
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self._latitude = (lat_degs, lat_mins, lat_hemi)
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self._longitude = (lon_degs, lon_mins, lon_hemi)
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self.altitude = altitude
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self.geoid_height = geoid_height
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# Update Object Data
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self.timestamp = (hours, minutes, seconds)
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self.satellites_in_use = satellites_in_use
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self.hdop = hdop
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self.fix_stat = fix_stat
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# If Fix is GOOD, update fix timestamp
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if fix_stat:
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self.new_fix_time()
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return True
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def gpgsa(self):
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"""Parse GNSS DOP and Active Satellites (GSA) sentence. Updates GPS fix type, list of satellites used in
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fix calculation, Position Dilution of Precision (PDOP), Horizontal Dilution of Precision (HDOP), Vertical
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Dilution of Precision, and fix status"""
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# Fix Type (None,2D or 3D)
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try:
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fix_type = int(self.gps_segments[2])
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except ValueError:
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return False
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# Read All (up to 12) Available PRN Satellite Numbers
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sats_used = []
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for sats in range(12):
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sat_number_str = self.gps_segments[3 + sats]
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if sat_number_str:
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try:
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sat_number = int(sat_number_str)
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sats_used.append(sat_number)
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except ValueError:
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return False
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else:
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break
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# PDOP,HDOP,VDOP
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try:
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pdop = float(self.gps_segments[15])
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hdop = float(self.gps_segments[16])
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vdop = float(self.gps_segments[17])
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except ValueError:
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return False
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# Update Object Data
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self.fix_type = fix_type
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# If Fix is GOOD, update fix timestamp
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if fix_type > self.__NO_FIX:
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self.new_fix_time()
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self.satellites_used = sats_used
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self.hdop = hdop
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self.vdop = vdop
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self.pdop = pdop
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return True
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def gpgsv(self):
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"""Parse Satellites in View (GSV) sentence. Updates number of SV Sentences,the number of the last SV sentence
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parsed, and data on each satellite present in the sentence"""
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try:
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num_sv_sentences = int(self.gps_segments[1])
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current_sv_sentence = int(self.gps_segments[2])
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sats_in_view = int(self.gps_segments[3])
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except ValueError:
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return False
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# Create a blank dict to store all the satellite data from this sentence in:
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# satellite PRN is key, tuple containing telemetry is value
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satellite_dict = dict()
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# Calculate Number of Satelites to pull data for and thus how many segment positions to read
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if num_sv_sentences == current_sv_sentence:
|
||||
# Last sentence may have 1-4 satellites; 5 - 20 positions
|
||||
sat_segment_limit = (sats_in_view - ((num_sv_sentences - 1) * 4)) * 5
|
||||
else:
|
||||
sat_segment_limit = 20 # Non-last sentences have 4 satellites and thus read up to position 20
|
||||
|
||||
# Try to recover data for up to 4 satellites in sentence
|
||||
for sats in range(4, sat_segment_limit, 4):
|
||||
|
||||
# If a PRN is present, grab satellite data
|
||||
if self.gps_segments[sats]:
|
||||
try:
|
||||
sat_id = int(self.gps_segments[sats])
|
||||
except (ValueError,IndexError):
|
||||
return False
|
||||
|
||||
try: # elevation can be null (no value) when not tracking
|
||||
elevation = int(self.gps_segments[sats+1])
|
||||
except (ValueError,IndexError):
|
||||
elevation = None
|
||||
|
||||
try: # azimuth can be null (no value) when not tracking
|
||||
azimuth = int(self.gps_segments[sats+2])
|
||||
except (ValueError,IndexError):
|
||||
azimuth = None
|
||||
|
||||
try: # SNR can be null (no value) when not tracking
|
||||
snr = int(self.gps_segments[sats+3])
|
||||
except (ValueError,IndexError):
|
||||
snr = None
|
||||
# If no PRN is found, then the sentence has no more satellites to read
|
||||
else:
|
||||
break
|
||||
|
||||
# Add Satellite Data to Sentence Dict
|
||||
satellite_dict[sat_id] = (elevation, azimuth, snr)
|
||||
|
||||
# Update Object Data
|
||||
self.total_sv_sentences = num_sv_sentences
|
||||
self.last_sv_sentence = current_sv_sentence
|
||||
self.satellites_in_view = sats_in_view
|
||||
|
||||
# For a new set of sentences, we either clear out the existing sat data or
|
||||
# update it as additional SV sentences are parsed
|
||||
if current_sv_sentence == 1:
|
||||
self.satellite_data = satellite_dict
|
||||
else:
|
||||
self.satellite_data.update(satellite_dict)
|
||||
|
||||
return True
|
||||
|
||||
##########################################
|
||||
# Data Stream Handler Functions
|
||||
##########################################
|
||||
|
||||
def new_sentence(self):
|
||||
"""Adjust Object Flags in Preparation for a New Sentence"""
|
||||
self.gps_segments = ['']
|
||||
self.active_segment = 0
|
||||
self.crc_xor = 0
|
||||
self.sentence_active = True
|
||||
self.process_crc = True
|
||||
self.char_count = 0
|
||||
|
||||
def update(self, new_char):
|
||||
"""Process a new input char and updates GPS object if necessary based on special characters ('$', ',', '*')
|
||||
Function builds a list of received string that are validate by CRC prior to parsing by the appropriate
|
||||
sentence function. Returns sentence type on successful parse, None otherwise"""
|
||||
|
||||
valid_sentence = False
|
||||
|
||||
# Validate new_char is a printable char
|
||||
ascii_char = ord(new_char)
|
||||
|
||||
if 10 <= ascii_char <= 126:
|
||||
self.char_count += 1
|
||||
|
||||
# Write Character to log file if enabled
|
||||
if self.log_en:
|
||||
self.write_log(new_char)
|
||||
|
||||
# Check if a new string is starting ($)
|
||||
if new_char == '$':
|
||||
self.new_sentence()
|
||||
return None
|
||||
|
||||
elif self.sentence_active:
|
||||
|
||||
# Check if sentence is ending (*)
|
||||
if new_char == '*':
|
||||
self.process_crc = False
|
||||
self.active_segment += 1
|
||||
self.gps_segments.append('')
|
||||
return None
|
||||
|
||||
# Check if a section is ended (,), Create a new substring to feed
|
||||
# characters to
|
||||
elif new_char == ',':
|
||||
self.active_segment += 1
|
||||
self.gps_segments.append('')
|
||||
|
||||
# Store All Other printable character and check CRC when ready
|
||||
else:
|
||||
self.gps_segments[self.active_segment] += new_char
|
||||
|
||||
# When CRC input is disabled, sentence is nearly complete
|
||||
if not self.process_crc:
|
||||
|
||||
if len(self.gps_segments[self.active_segment]) == 2:
|
||||
try:
|
||||
final_crc = int(self.gps_segments[self.active_segment], 16)
|
||||
if self.crc_xor == final_crc:
|
||||
valid_sentence = True
|
||||
else:
|
||||
self.crc_fails += 1
|
||||
except ValueError:
|
||||
pass # CRC Value was deformed and could not have been correct
|
||||
|
||||
# Update CRC
|
||||
if self.process_crc:
|
||||
self.crc_xor ^= ascii_char
|
||||
|
||||
# If a Valid Sentence Was received and it's a supported sentence, then parse it!!
|
||||
if valid_sentence:
|
||||
self.clean_sentences += 1 # Increment clean sentences received
|
||||
self.sentence_active = False # Clear Active Processing Flag
|
||||
|
||||
if self.gps_segments[0] in self.supported_sentences:
|
||||
|
||||
# parse the Sentence Based on the message type, return True if parse is clean
|
||||
if self.supported_sentences[self.gps_segments[0]](self):
|
||||
|
||||
# Let host know that the GPS object was updated by returning parsed sentence type
|
||||
self.parsed_sentences += 1
|
||||
return self.gps_segments[0]
|
||||
|
||||
# Check that the sentence buffer isn't filling up with Garage waiting for the sentence to complete
|
||||
if self.char_count > self.SENTENCE_LIMIT:
|
||||
self.sentence_active = False
|
||||
|
||||
# Tell Host no new sentence was parsed
|
||||
return None
|
||||
|
||||
def new_fix_time(self):
|
||||
"""Updates a high resolution counter with current time when fix is updated. Currently only triggered from
|
||||
GGA, GSA and RMC sentences"""
|
||||
try:
|
||||
self.fix_time = utime.ticks_ms()
|
||||
except NameError:
|
||||
self.fix_time = time.time()
|
||||
|
||||
#########################################
|
||||
# User Helper Functions
|
||||
# These functions make working with the GPS object data easier
|
||||
#########################################
|
||||
|
||||
def satellite_data_updated(self):
|
||||
"""
|
||||
Checks if the all the GSV sentences in a group have been read, making satellite data complete
|
||||
:return: boolean
|
||||
"""
|
||||
if self.total_sv_sentences > 0 and self.total_sv_sentences == self.last_sv_sentence:
|
||||
return True
|
||||
else:
|
||||
return False
|
||||
|
||||
def satellites_visible(self):
|
||||
"""
|
||||
Returns a list of of the satellite PRNs currently visible to the receiver
|
||||
:return: list
|
||||
"""
|
||||
return list(self.satellite_data.keys())
|
||||
|
||||
def time_since_fix(self):
|
||||
"""Returns number of millisecond since the last sentence with a valid fix was parsed. Returns 0 if
|
||||
no fix has been found"""
|
||||
|
||||
# Test if a Fix has been found
|
||||
if self.fix_time == 0:
|
||||
return -1
|
||||
|
||||
# Try calculating fix time using utime; if not running MicroPython
|
||||
# time.time() returns a floating point value in secs
|
||||
try:
|
||||
current = utime.ticks_diff(utime.ticks_ms(), self.fix_time)
|
||||
except NameError:
|
||||
current = (time.time() - self.fix_time) * 1000 # ms
|
||||
|
||||
return current
|
||||
|
||||
def compass_direction(self):
|
||||
"""
|
||||
Determine a cardinal or inter-cardinal direction based on current course.
|
||||
:return: string
|
||||
"""
|
||||
# Calculate the offset for a rotated compass
|
||||
if self.course >= 348.75:
|
||||
offset_course = 360 - self.course
|
||||
else:
|
||||
offset_course = self.course + 11.25
|
||||
|
||||
# Each compass point is separated by 22.5 degrees, divide to find lookup value
|
||||
dir_index = floor(offset_course / 22.5)
|
||||
|
||||
final_dir = self.__DIRECTIONS[dir_index]
|
||||
|
||||
return final_dir
|
||||
|
||||
def latitude_string(self):
|
||||
"""
|
||||
Create a readable string of the current latitude data
|
||||
:return: string
|
||||
"""
|
||||
if self.coord_format == 'dd':
|
||||
formatted_latitude = self.latitude
|
||||
lat_string = str(formatted_latitude[0]) + '° ' + str(self._latitude[2])
|
||||
elif self.coord_format == 'dms':
|
||||
formatted_latitude = self.latitude
|
||||
lat_string = str(formatted_latitude[0]) + '° ' + str(formatted_latitude[1]) + "' " + str(formatted_latitude[2]) + '" ' + str(formatted_latitude[3])
|
||||
else:
|
||||
lat_string = str(self._latitude[0]) + '° ' + str(self._latitude[1]) + "' " + str(self._latitude[2])
|
||||
return lat_string
|
||||
|
||||
def longitude_string(self):
|
||||
"""
|
||||
Create a readable string of the current longitude data
|
||||
:return: string
|
||||
"""
|
||||
if self.coord_format == 'dd':
|
||||
formatted_longitude = self.longitude
|
||||
lon_string = str(formatted_longitude[0]) + '° ' + str(self._longitude[2])
|
||||
elif self.coord_format == 'dms':
|
||||
formatted_longitude = self.longitude
|
||||
lon_string = str(formatted_longitude[0]) + '° ' + str(formatted_longitude[1]) + "' " + str(formatted_longitude[2]) + '" ' + str(formatted_longitude[3])
|
||||
else:
|
||||
lon_string = str(self._longitude[0]) + '° ' + str(self._longitude[1]) + "' " + str(self._longitude[2])
|
||||
return lon_string
|
||||
|
||||
def speed_string(self, unit='kph'):
|
||||
"""
|
||||
Creates a readable string of the current speed data in one of three units
|
||||
:param unit: string of 'kph','mph, or 'knot'
|
||||
:return:
|
||||
"""
|
||||
if unit == 'mph':
|
||||
speed_string = str(self.speed[1]) + ' mph'
|
||||
|
||||
elif unit == 'knot':
|
||||
if self.speed[0] == 1:
|
||||
unit_str = ' knot'
|
||||
else:
|
||||
unit_str = ' knots'
|
||||
speed_string = str(self.speed[0]) + unit_str
|
||||
|
||||
else:
|
||||
speed_string = str(self.speed[2]) + ' km/h'
|
||||
|
||||
return speed_string
|
||||
|
||||
def date_string(self, formatting='s_mdy', century='20'):
|
||||
"""
|
||||
Creates a readable string of the current date.
|
||||
Can select between long format: Januray 1st, 2014
|
||||
or two short formats:
|
||||
11/01/2014 (MM/DD/YYYY)
|
||||
01/11/2014 (DD/MM/YYYY)
|
||||
:param formatting: string 's_mdy', 's_dmy', or 'long'
|
||||
:param century: int delineating the century the GPS data is from (19 for 19XX, 20 for 20XX)
|
||||
:return: date_string string with long or short format date
|
||||
"""
|
||||
|
||||
# Long Format Januray 1st, 2014
|
||||
if formatting == 'long':
|
||||
# Retrieve Month string from private set
|
||||
month = self.__MONTHS[self.date[1] - 1]
|
||||
|
||||
# Determine Date Suffix
|
||||
if self.date[0] in (1, 21, 31):
|
||||
suffix = 'st'
|
||||
elif self.date[0] in (2, 22):
|
||||
suffix = 'nd'
|
||||
elif self.date[0] == (3, 23):
|
||||
suffix = 'rd'
|
||||
else:
|
||||
suffix = 'th'
|
||||
|
||||
day = str(self.date[0]) + suffix # Create Day String
|
||||
|
||||
year = century + str(self.date[2]) # Create Year String
|
||||
|
||||
date_string = month + ' ' + day + ', ' + year # Put it all together
|
||||
|
||||
else:
|
||||
# Add leading zeros to day string if necessary
|
||||
if self.date[0] < 10:
|
||||
day = '0' + str(self.date[0])
|
||||
else:
|
||||
day = str(self.date[0])
|
||||
|
||||
# Add leading zeros to month string if necessary
|
||||
if self.date[1] < 10:
|
||||
month = '0' + str(self.date[1])
|
||||
else:
|
||||
month = str(self.date[1])
|
||||
|
||||
# Add leading zeros to year string if necessary
|
||||
if self.date[2] < 10:
|
||||
year = '0' + str(self.date[2])
|
||||
else:
|
||||
year = str(self.date[2])
|
||||
|
||||
# Build final string based on desired formatting
|
||||
if formatting == 's_dmy':
|
||||
date_string = day + '/' + month + '/' + year
|
||||
|
||||
else: # Default date format
|
||||
date_string = month + '/' + day + '/' + year
|
||||
|
||||
return date_string
|
||||
|
||||
# All the currently supported NMEA sentences
|
||||
supported_sentences = {'GPRMC': gprmc, 'GLRMC': gprmc,
|
||||
'GPGGA': gpgga, 'GLGGA': gpgga,
|
||||
'GPVTG': gpvtg, 'GLVTG': gpvtg,
|
||||
'GPGSA': gpgsa, 'GLGSA': gpgsa,
|
||||
'GPGSV': gpgsv, 'GLGSV': gpgsv,
|
||||
'GPGLL': gpgll, 'GLGLL': gpgll,
|
||||
'GNGGA': gpgga, 'GNRMC': gprmc,
|
||||
'GNVTG': gpvtg,
|
||||
}
|
||||
|
||||
if __name__ == "__main__":
|
||||
pass
|
Loading…
Reference in New Issue