NAME GPSD::Parse - Parse, extract use the JSON output from GPS units SYNOPSIS use GPSD::Parse; my $gps = GPSD::Parse->new; # poll for data $gps->poll; # get all TPV data in an href my $tpv_href = $gps->tpv; # get individual TPV stats print $gps->tpv('lat'); print $gps->tpv('lon'); # timestamp of the most recent poll print $gps->time; # get all satellites in an href of hrefs my $sats = $gps->satellites; # get an individual piece of info from a single sattelite print $gps->satellites(16, 'ss'); # check which serial device the GPS is connected to print $gps->device; DESCRIPTION Simple, lightweight (core only) distribution that polls `gpsd' for data received from a UART (serial/USB) connected GPS receiver over a TCP connection. The data is fetched in JSON, and returned as Perl data. NOTES Requirements A version of gpsd that returns results in JSON format is required to have been previously installed. It should be started at system startup, with the following flags with system-specific serial port. See the above link for information on changing the listen IP and port. sudo gpsd /dev/ttyS0 -n -F /var/log/gpsd.sock Available Data Each of the methods that return data have a table in their respective documentation within the METHODS section. Specifically, look at the `tpv()', `sattelites()' and the more broad `sky()' method sections to understand what available data attributes you can extract. Conversions All output where applicable defaults to metric (metres). See the `metric' parameter in the `new()' method to change this to use imperial/standard measurements. For latitude and longitude, we default to using the signed notation. You can disable this with the `signed' parameter in `new()'. METHODS new(%args) Instantiates and returns a new GPSD::Parse object instance. Parameters: host => 127.0.0.1 Optional, String: An IP address or fully qualified domain name of the `gpsd' server. Defaults to the localhost (`127.0.0.1') if not supplied. port => 2947 Optional, Integer: The TCP port number that the `gpsd' daemon is running on. Defaults to `2947' if not sent in. metric => Bool Optional, Integer: By default, we return measurements in metric (metres). Send in a false value (`0') to use imperial/standard measurement conversions (ie. feet). Note that if returning the raw *JSON* data from the `poll()' method, the conversions will not be done. The default raw Perl return will have been converted however. signed => Bool Optional, Integer: By default, we use the signed notation for latitude and longitude. Send in a false value (`0') to disable this. Here's an example: enabled (default) disabled ----------------- -------- lat: 51.12345678 51.12345678N lon: -114.123456 114.123456W We add the letter notation at the end of the result if `signed' is disabled. file => 'filename.ext' Optional, String: For testing purposes. Instead of reading from a socket, send in a filename that contains legitimate JSON data saved from a previous `gpsd' output and we'll operate on that. Useful also for re-running previous output. poll(%args) Does a poll of `gpsd' for data, and configures the object with that data. Parameters: All parameters are sent in as a hash. file => $filename Optional, String: Used for testing, you can send in the name of a JSON file that contains `gpsd' JSON data and we'll work with that instead of polling the GPS device directly. Note that you *must* instantiate the object with the `file' parameter in new for this to have any effect and to bypass the socket creation. return => 'json' Optional, String: By default, after configuring the object, we will return the polled raw data as a Perl hash reference. Send this param in with the value of `'json'' and we'll return the data exactly as we received it from `gpsd'. Returns: The raw poll data as either a Perl hash reference structure or as the original JSON string. tpv($stat) `TPV' stands for "Time Position Velocity". This is the data that represents your location and other vital statistics. By default, we return a hash reference that is in the format `stat =' 'value'>. Parameters: $stat Optional, String. You can extract individual statistics of the TPV data by sending in the name of the stat you wish to fetch. This will then return the string value if available. Returns an empty string if the statistic doesn't exist. Available statistic/info name, example value, description. This is the default raw result: time => '2017-05-16T22:29:29.000Z' # date/time in UTC lon => '-114.000000000' # longitude lat => '51.000000' # latitude alt => '1084.9' # altitude (metres) climb => '0' # rate of ascent/decent (metres/sec) speed => '0' # rate of movement (metres/sec) track => '279.85' # heading (degrees from true north) device => '/dev/ttyS0' # GPS serial interface mode => 3 # NMEA mode epx => '3.636' # longitude error estimate (metres) epy => '4.676' # latitude error estimate (metres) epc => '8.16' # ascent/decent error estimate (meters) ept => '0.005' # timestamp error (sec) epv => '4.082' # altitude error estimate (meters) eps => '9.35' # speed error estimate (metres/sec) class => 'TPV' # data type (fixed as TPV) tag => 'ZDA' # identifier satellites($num, $stat) This method returns a hash reference of hash references, where the key is the satellite number, and the value is a hashref that contains the various information related to the specific numbered satellite. Note that the data returned by this function has been manipuated and is not exactly equivalent of that returned by `gpsd'. To get the raw data, see `sky()'. Parameters: $num Optional, Integer: Send in the satellite number and we'll return the relevant information in a hash reference for the specific satellite requested, as opposed to returning data for all the satellites. Returns `undef' if a satellite by that number doesn't exist. $stat Optional, String: Like `tpv()', you can request an individual piece of information for a satellite. This parameter is only valid if you've sent in the `$num' param, and the specified satellite exists. Available statistic/information items available for each satellite, including the name, an example value and a description: NOTE: The PRN attribute will not appear unless you're using raw data. The PRN can be found as the satellite hash reference key after we've processed the data. PRN => 16 # PRN ID of the satellite # 1-63 are GNSS satellites # 64-96 are GLONASS satellites # 100-164 are SBAS satellites ss => 20 # signal strength (dB) az => 161 # azimuth (degrees from true north) used => 1 # currently being used in calculations el => 88 # elevation in degrees sky Returns a hash reference containing all of the data that was pulled from the `SKY' information returned by `gpsd'. This information contains satellite info and other related statistics. Available information, with the attribute, example value and description: satellites => [] # array of satellite hashrefs xdop => '0.97' # longitudinal dilution of precision ydop => '1.25' # latitudinal dilution of precision pdop => '1.16' # spherical dilution of precision tdop => '2.2' # time dilution of precision vdop => '0.71' # altitude dilution of precision gdop => '3.87' # hyperspherical dilution of precision hdop => '0.92' # horizontal dilution of precision class => 'SKY' # object class, hardcoded to SKY tag => 'ZDA' # object ID device => '/dev/ttyS0' # serial port connected to the GPS direction($degree) Converts a degree from true north into a direction (eg: ESE, SW etc). Parameters: $degree Mandatory, Ineger/Decimal: A decimal ranging from 0-360. Returns the direction representing the degree from true north. A common example would be: my $heading = $gps->direction($gps->tpv('track')); Degree/direction map: N 348.75 - 11.25 NNE 11.25 - 33.75 NE 33.75 - 56.25 ENE 56.25 - 78.75 E 78.75 - 101.25 ESE 101.25 - 123.75 SE 123.75 - 146.25 SSE 146.25 - 168.75 S 168.75 - 191.25 SSW 191.25 - 213.75 SW 213.75 - 236.25 WSW 236.25 - 258.75 W 258.75 - 281.25 WNW 281.25 - 303.75 NW 303.75 - 326.25 NNW 326.25 - 348.75 device Returns a string containing the actual device the GPS is connected to (eg: `/dev/ttyS0'). time Returns a string of the date and time of the most recent poll, in UTC. on Puts `gpsd' in listening mode, ready to poll data from. We call this method internally when the object is instantiated with `new()' if we're not in file mode. Likewise, when the object is destroyed (end of program run), we call the subsequent `off()' method. If you have long periods of a program run where you don't need the GPS, you can manually run the `off()' and `on()' methods to disable and re-enable the GPS. off Turns off `gpsd' listening mode. Not necessary to call, but it will help preserve battery life if running on a portable device for long program runs where the GPS is used infrequently. Use in conjunction with `on()'. We call `off()' automatically when the object goes out of scope (program end for example). EXAMPLES Basic Features and Options Here's a simple example using some of the basic features and options. Please read through the documentation of the methods (particularly `new()' and `tpv()' to get a good grasp on what can be fetched. use warnings; use strict; use feature 'say'; use GPSD::Parse; my $gps = GPSD::Parse->new(signed => 0); $gps->poll; my $lat = $gps->tpv('lat'); my $lon = $gps->tpv('lon'); my $heading = $gps->tpv('track'); my $direction = $gps->direction($heading); my $altitude = $gps->tpv('alt'); my $speed = $gps->tpv('speed'); say "latitude: $lat"; say "longitude: $lon\n"; say "heading: $heading degrees"; say "direction: $direction\n"; say "altitude: $altitude metres\n"; say "speed: $speed metres/sec"; Output: latitude: 51.1111111N longitude: 114.11111111W heading: 31.23 degrees direction: NNE altitude: 1080.9 metres speed: 0.333 metres/sec TESTING Please note that we init and disable the GPS device on construction and deconstruction of the object respectively. It takes a few seconds for the GPS unit to initialize itself and then lock on the satellites before we can get readings. For this reason, please understand that one test sweep may pass while the next fails. I am considering adding specific checks, but considering that it's a timing thing (seconds, not microseconds that everyone is in a hurry for nowadays) I am going to wait until I get a chance to take the kit into the field before I do anything drastic. For now. I'll leave it as is; expect failure if you ram on things too quickly. SEE ALSO A very similar distribution is Net::GPSD3. However, it has a long line of prerequisite distributions that didn't always install easily on my primary target platform, the Raspberry Pi. This distribution isn't meant to replace that one, it's just a much simpler and more lightweight piece of software that pretty much does the same thing. AUTHOR Steve Bertrand, `' LICENSE AND COPYRIGHT Copyright 2017 Steve Bertrand. This program is free software; you can redistribute it and/or modify it under the terms of either: the GNU General Public License as published by the Free Software Foundation; or the Artistic License. See http://dev.perl.org/licenses/ for more information.