#------------------------------------------------------------------------------
# File: Geotag.pm
#
# Description: Geotagging utility routines
#
# Revisions: 2009/04/01 - P. Harvey Created
# 2009/09/27 - PH Added Geosync feature
# 2009/06/25 - PH Read Garmin TCX track logs
# 2009/09/11 - PH Read ITC GPS track logs
# 2012/01/08 - PH Extract orientation information from PTNTHPR
# 2012/05/08 - PH Read Winplus Beacon .TXT files
# 2015/05/30 - PH Read Bramor gEO log files
#
# References: 1) http://www.topografix.com/GPX/1/1/
# 2) http://www.gpsinformation.org/dale/nmea.htm#GSA
# 3) http://code.google.com/apis/kml/documentation/kmlreference.html
# 4) http://www.fai.org/gliding/system/files/tech_spec_gnss.pdf
#------------------------------------------------------------------------------
package Image::ExifTool::Geotag;
use strict;
use vars qw($VERSION);
use Image::ExifTool qw(:Public);
$VERSION = '1.47';
sub JITTER() { return 2 } # maximum time jitter
sub SetGeoValues($$;$);
sub PrintFixTime($);
sub PrintFix($@);
# XML tags that we recognize (keys are forced to lower case)
my %xmlTag = (
lat => 'lat', # GPX
latitude => 'lat', # Garmin
latitudedegrees => 'lat', # Garmin TCX
lon => 'lon', # GPX
longitude => 'lon', # Garmin
longitudedegrees => 'lon', # Garmin TCX
ele => 'alt', # GPX
elevation => 'alt', # PH
alt => 'alt', # PH
altitude => 'alt', # Garmin
altitudemeters => 'alt', # Garmin TCX
'time' => 'time', # GPX/Garmin
fix => 'fixtype', # GPX
hdop => 'hdop', # GPX
vdop => 'vdop', # GPX
pdop => 'pdop', # GPX
sat => 'nsats', # GPX
when => 'time', # KML
coordinates => 'coords', # KML
coord => 'coords', # KML, as written by Google Location History
course => 'dir', # (written by Arduino)
pitch => 'pitch', # (written by Arduino)
roll => 'roll', # (written by Arduino)
# XML containers (fix is reset at the opening tag of these properties)
wpt => '', # GPX
trkpt => '', # GPX
rtept => '', # GPX
trackpoint => '', # Garmin
placemark => '', # KML
);
# fix information keys which must be interpolated around a circle
my %cyclical = (lon => 1, track => 1, dir => 1, roll => 1);
# fix information keys for each of our general categories
my %fixInfoKeys = (
'pos' => [ 'lat', 'lon' ],
track => [ 'track', 'speed' ],
alt => [ 'alt' ],
orient => [ 'dir', 'pitch', 'roll' ],
);
my %isOrient = ( dir => 1, pitch => 1, roll => 1 ); # test for orientation key
my $secPerDay = 24 * 3600; # a useful constant
#------------------------------------------------------------------------------
# Load GPS track log file
# Inputs: 0) ExifTool ref, 1) track log data or file name
# Returns: geotag hash data reference or error string
# - the geotag hash has the following members:
# Points - hash of GPS fix information hashes keyed by Unix time
# Times - list of sorted Unix times (keys of Points hash)
# NoDate - flag if some points have no date (ie. referenced to 1970:01:01)
# IsDate - flag if some points have date
# Has - hash of flags for available information (track, orient, alt)
# - the fix information hash may contain:
# lat - signed latitude (required)
# lon - signed longitude (required)
# alt - signed altitude
# time - fix time in UTC as XML string
# fixtype- type of fix ('none'|'2d'|'3d'|'dgps'|'pps')
# pdop - dilution of precision
# hdop - horizontal DOP
# vdop - vertical DOP
# sats - comma-separated list of active satellites
# nsats - number of active satellites
# track - track heading (deg true)
# dir - image direction (deg true)
# pitch - pitch angle (deg)
# roll - roll angle (deg)
# speed - speed (knots)
# first - flag set for first fix of track
# - concatenates new data with existing track data stored in ExifTool NEW_VALUE
# for the Geotag tag
sub LoadTrackLog($$;$)
{
local ($_, $/, *EXIFTOOL_TRKFILE);
my ($et, $val) = @_;
my ($raf, $from, $time, $isDate, $noDate, $noDateChanged, $lastDate, $dateFlarm);
my ($nmeaStart, $fixSecs, @fixTimes, $lastFix, %nmea);
my ($canCut, $cutPDOP, $cutHDOP, $cutSats, $e0, $e1, @tmp);
unless (eval { require Time::Local }) {
return 'Geotag feature requires Time::Local installed';
}
# add data to existing track
my $geotag = $et->GetNewValues('Geotag') || { };
# get lookup for available information types
my $has = $$geotag{Has};
$has or $has = $$geotag{Has} = { 'pos' => 1 };
my $format = '';
# is $val track log data?
if ($val =~ /^(\xef\xbb\xbf)?<(\?xml|gpx)[\s>]/) {
$format = 'XML';
$/ = '>'; # set input record separator to '>' for XML/GPX data
} elsif ($val =~ /(\x0d\x0a|\x0d|\x0a)/) {
$/ = $1;
} else {
# $val is track file name
$et->Open(\*EXIFTOOL_TRKFILE, $val) or return "Error opening GPS file '$val'";
$raf = new File::RandomAccess(\*EXIFTOOL_TRKFILE);
unless ($raf->Read($_, 256)) {
close EXIFTOOL_TRKFILE;
return "Empty track file '$val'";
}
# look for XML or GPX header (might as well allow UTF-8 BOM)
if (/^(\xef\xbb\xbf)?<(\?xml|gpx)[\s>]/) {
$format = 'XML';
$/ = '>'; # set input record separator to '>' for XML/GPX data
} elsif (/(\x0d\x0a|\x0d|\x0a)/) {
$/ = $1;
} else {
close EXIFTOOL_TRKFILE;
return "Invalid track file '$val'";
}
$raf->Seek(0,0);
$from = "file '$val'";
}
unless ($from) {
# set up RAF for reading log file in memory
$raf = new File::RandomAccess(\$val);
$from = 'data';
}
# initialize track points lookup
my $points = $$geotag{Points};
$points or $points = $$geotag{Points} = { };
# initialize cuts
my $maxHDOP = $et->Options('GeoMaxHDOP');
my $maxPDOP = $et->Options('GeoMaxPDOP');
my $minSats = $et->Options('GeoMinSats');
my $isCut = $maxHDOP || $maxPDOP || $minSats;
my $numPoints = 0;
my $skipped = 0;
my $lastSecs = 0;
my $fix = { };
for (;;) {
$raf->ReadLine($_) or last;
# determine file format
if (not $format) {
if (/^<(\?xml|gpx)[\s>]/) { # look for XML or GPX header
$format = 'XML';
# check for NMEA sentence
# (must ONLY start with ones that have timestamps! eg. not GSA or PTNTHPR!)
} elsif (/^\$(GP(RMC|GGA|GLL|ZDA)|PMGNTRK),/) {
$format = 'NMEA';
$nmeaStart = $2 || $1; # save type of first sentence
} elsif (/^A(FLA|XSY|FIL)/) {
# (don't set format yet because we want to read HFDTE first)
$nmeaStart = 'B' ;
next;
} elsif (/^HFDTE(\d{2})(\d{2})(\d{2})/) {
my $year = $3 + ($3 >= 70 ? 1900 : 2000);
$dateFlarm = Time::Local::timegm(0,0,0,$1,$2-1,$year-1900);
$nmeaStart = 'B' ;
$format = 'IGC';
next;
} elsif ($nmeaStart and /^B/) {
# parse IGC fixes without a date
$format = 'IGC';
} elsif (/^TP,D,/) {
$format = 'Winplus';
} elsif (/^\s*\d+\s+.*\sypr\s*$/ and (@tmp=split) == 12) {
$format = 'Bramor';
} else {
# search only first 50 lines of file for a valid fix
last if ++$skipped > 50;
next;
}
}
#
# XML format (GPX, KML, Garmin XML/TCX etc)
#
if ($format eq 'XML') {
my ($arg, $tok, $td);
s/\s*=\s*(['"])\s*/=$1/g; # remove unnecessary white space in attributes
# Workaround for KML generated by Google Location History:
# lat/lon/alt are space-separated; we want commas.
s{(\S+)\s+(\S+)\s+(\S+)(</gx:coord>)}{$1,$2,$3$4};
foreach $arg (split) {
# parse attributes (eg. GPX 'lat' and 'lon')
# (note: ignore namespace prefixes if they exist)
if ($arg =~ /^(\w+:)?(\w+)=(['"])(.*?)\3/g) {
my $tag = $xmlTag{lc $2};
if ($tag) {
$$fix{$tag} = $4;
$$has{orient} = 1 if $isOrient{$tag};
}
}
# loop through XML elements
while ($arg =~ m{([^<>]*)<(/)?(\w+:)?(\w+)(>|$)}g) {
my $tag = $xmlTag{$tok = lc $4};
# parse as a simple property if this element has a value
if (defined $tag and not $tag) {
# a containing property was opened or closed
if (not $2) {
# opened: start a new fix
$lastFix = $fix = { };
next;
} elsif ($fix and $lastFix and %$fix) {
# closed: transfer additional tags from current fix
foreach (keys %$fix) {
$$lastFix{$_} = $$fix{$_} unless defined $$lastFix{$_};
}
undef $lastFix;
}
}
if (length $1) {
if ($tag) {
if ($tag eq 'coords') {
# read KML "Point" coordinates
@$fix{'lon','lat','alt'} = split ',', $1;
} else {
$$fix{$tag} = $1;
$$has{orient} = 1 if $isOrient{$tag};
}
}
next;
} elsif ($tok eq 'td') {
$td = 1;
}
# validate and store GPS fix
next unless defined $$fix{lat} and defined $$fix{lon} and $$fix{'time'};
unless ($$fix{lat} =~ /^[+-]?\d+\.?\d*/ and $$fix{lon} =~ /^[+-]?\d+\.?\d*/) {
$e0 or $et->VPrint(0, "Coordinate format error in $from\n"), $e0 = 1;
next;
}
unless ($$fix{'time'} =~ /^(\d{4})-(\d+)-(\d+)T(\d+):(\d+):(\d+)(\.\d+)?(.*)/) {
$e1 or $et->VPrint(0, "Timestamp format error in $from\n"), $e1 = 1;
next;
}
$time = Time::Local::timegm($6,$5,$4,$3,$2-1,$1-1900);
$time += $7 if $7; # add fractional seconds
my $tz = $8;
# adjust for time zone (otherwise assume UTC)
# - allow timezone of +-HH:MM, +-H:MM, +-HHMM or +-HH since
# the spec is unclear about timezone format
if ($tz =~ /^([-+])(\d+):(\d{2})\b/ or $tz =~ /^([-+])(\d{2})(\d{2})?\b/) {
$tz = ($2 * 60 + ($3 || 0)) * 60;
$tz *= -1 if $1 eq '+'; # opposite sign to change back to UTC
$time += $tz;
}
# validate altitude
undef $$fix{alt} if defined $$fix{alt} and $$fix{alt} !~ /^[+-]?\d+\.?\d*/;
$isDate = 1;
$canCut= 1 if defined $$fix{pdop} or defined $$fix{hdop} or defined $$fix{nsats};
$$has{alt} = 1 if $$fix{alt}; # set "has altitude" flag if appropriate
$$points{$time} = $fix;
push @fixTimes, $time; # save times of all fixes in order
$fix = { };
++$numPoints;
}
}
# last ditch check KML description for timestamp (assume it is UTC)
$$fix{'time'} = "$1T$2Z" if $td and not $$fix{'time'} and
/[\s>](\d{4}-\d{2}-\d{2})[T ](\d{2}:\d{2}:\d{2}(\.\d+)?)/;
next;
#
# Winplus Beacon text file
#
} elsif ($format eq 'Winplus') {
# TP,D, 44.933666667, -93.186555556, 10/26/2011, 19:07:28, 0
# latitude longitude date time
/^TP,D,\s*([-+]?\d+\.\d*),\s*([-+]?\d+\.\d*),\s*(\d+)\/(\d+)\/(\d{4}),\s*(\d+):(\d+):(\d+)/ or next;
$$fix{lat} = $1;
$$fix{lon} = $2;
$time = Time::Local::timegm($8,$7,$6,$4,$3-1,$5-1900);
DoneFix: $isDate = 1;
$$points{$time} = $fix;
push @fixTimes, $time;
$fix = { };
++$numPoints;
next;
#
# Bramor gEO log file
#
} elsif ($format eq 'Bramor') {
# 1 0015 18.723675 50.672752 149 169.31 22/04/2015 07:06:55 169.31 8.88 28.07 ypr
# ? index latitude longitude alt track date time dir pitch roll
my @parts = split ' ', $_;
next unless @parts == 12 and $parts[11] eq 'ypr';
my @d = split m{/}, $parts[6]; # date (dd/mm/YYYY)
my @t = split m{:}, $parts[7]; # time (HH:MM:SS)
next unless @d == 3 and @t == 3;
@$fix{qw(lat lon alt track dir pitch roll)} = @parts[2,3,4,5,8,9,10];
# (add the seconds afterwards in case some models have decimal seconds)
$time = Time::Local::timegm(0,$t[1],$t[0],$d[0],$d[1]-1,$d[2]-1900) + $t[2];
# set necessary flags for extra available information
@$has{qw(alt track orient)} = (1,1,1);
goto DoneFix; # save this fix
}
my (%fix, $secs, $date, $nmea);
if ($format eq 'NMEA') {
# ignore unrecognized NMEA sentences
next unless /^\$(GP(RMC|GGA|GLL|GSA|ZDA)|PMGNTRK|PTNTHPR),/;
$nmea = $2 || $1;
}
#
# IGC (flarm) (ref 4)
#
if ($format eq 'IGC') {
# B0939564531208N00557021EA007670089100207
# BHHMMSSDDMMmmmNDDDMMmmmEAaaaaaAAAAAxxyy
# HH MM SS DD MM mmm DDD MM mmm aaaaa AAAAA
# 1 2 3 4 5 6 7 8 9 10 11 12 13 14
/^B(\d{2})(\d{2})(\d{2})(\d{2})(\d{2})(\d{3})([NS])(\d{3})(\d{2})(\d{3})([EW])([AV])(\d{5})(\d{5})/ or next;
$fix{lat} = ($4 + ($5 + $6/1000)/60) * ($7 eq 'N' ? 1 : -1);
$fix{lon} = ($8 + ($9 +$10/1000)/60) * ($11 eq 'E' ? 1 : -1);
$fix{alt} = $12 eq 'A' ? $14 : undef;
$secs = (($1 * 60) + $2) * 60 + $3;
# wrap to next day if necessary
if ($dateFlarm) {
$dateFlarm += $secPerDay if $secs < $lastSecs - JITTER();
$date = $dateFlarm;
}
$nmea = 'B';
#
# NMEA RMC sentence (contains date)
#
} elsif ($nmea eq 'RMC') {
# $GPRMC,092204.999,A,4250.5589,S,14718.5084,E,0.00,89.68,211200,,*25
# $GPRMC,093657.007,,3652.835020,N,01053.104094,E,1.642,,290913,,,A*0F
# $GPRMC,hhmmss.sss,A/V,ddmm.mmmm,N/S,ddmmm.mmmm,E/W,spd(knots),dir(deg),DDMMYY,,*cs
/^\$GPRMC,(\d{2})(\d{2})(\d+(\.\d*)?),A?,(\d*?)(\d{1,2}\.\d+),([NS]),(\d*?)(\d{1,2}\.\d+),([EW]),(\d*\.?\d*),(\d*\.?\d*),(\d{2})(\d{2})(\d+)/ or next;
next if $13 > 31 or $14 > 12 or $15 > 99; # validate day/month/year
$fix{lat} = (($5 || 0) + $6/60) * ($7 eq 'N' ? 1 : -1);
$fix{lon} = (($8 || 0) + $9/60) * ($10 eq 'E' ? 1 : -1);
$fix{speed} = $11 if length $11;
$fix{track} = $12 if length $12;
my $year = $15 + ($15 >= 70 ? 1900 : 2000);
$secs = (($1 * 60) + $2) * 60 + $3;
$date = Time::Local::timegm(0,0,0,$13,$14-1,$year-1900);
#
# NMEA GGA sentence (no date)
#
} elsif ($nmea eq 'GGA') {
# $GPGGA,092204.999,4250.5589,S,14718.5084,E,1,04,24.4,19.7,M,,,,0000*1F
# $GPGGA,093657.000,3652.835020,N,01053.104094,E,,8,,166.924,M,40.9,M,,*77
# $GPGGA,hhmmss.sss,ddmm.mmmm,N/S,dddmm.mmmm,E/W,0=invalid,sats,hdop,alt,M,...
/^\$GPGGA,(\d{2})(\d{2})(\d+(\.\d*)?),(\d*?)(\d{1,2}\.\d+),([NS]),(\d*?)(\d{1,2}\.\d+),([EW]),[1-6]?,(\d+)?,(\.\d+|\d+\.?\d*)?,(-?\d+\.?\d*)?,M?,/ or next;
$fix{lat} = (($5 || 0) + $6/60) * ($7 eq 'N' ? 1 : -1);
$fix{lon} = (($8 || 0) + $9/60) * ($10 eq 'E' ? 1 : -1);
$fix{nsats} = $11;
$fix{hdop} = $12;
$fix{alt} = $13;
$secs = (($1 * 60) + $2) * 60 + $3;
$canCut = 1;
#
# NMEA GLL sentence (no date)
#
} elsif ($nmea eq 'GLL') {
# $GPGLL,4250.5589,S,14718.5084,E,092204.999,A*2D
# $GPGLL,ddmm.mmmm,N/S,dddmm.mmmm,E/W,hhmmss.sss,A/V*cs
/^\$GPGLL,(\d*?)(\d{1,2}\.\d+),([NS]),(\d*?)(\d{1,2}\.\d+),([EW]),(\d{2})(\d{2})(\d+(\.\d*)?),A/ or next;
$fix{lat} = (($1 || 0) + $2/60) * ($3 eq 'N' ? 1 : -1);
$fix{lon} = (($4 || 0) + $5/60) * ($6 eq 'E' ? 1 : -1);
$secs = (($7 * 60) + $8) * 60 + $9;
#
# NMEA GSA sentence (satellite status, no date)
#
} elsif ($nmea eq 'GSA') {
# $GPGSA,A,3,04,05,,,,,,,,,,,pdop,hdop,vdop*HH
/^\$GPGSA,[AM],([23]),((?:\d*,){11}(?:\d*)),(\d+\.?\d*|\.\d+)?,(\d+\.?\d*|\.\d+)?,(\d+\.?\d*|\.\d+)?\*/ or next;
@fix{qw(fixtype sats pdop hdop vdop)} = ($1.'d',$2,$3,$4,$5);
# count the number of acquired satellites
my @a = ($fix{sats} =~ /\d+/g);
$fix{nsats} = scalar @a;
$canCut = 1;
#
# NMEA ZDA sentence (date/time, contains date)
#
} elsif ($nmea eq 'ZDA') {
# $GPZDA,093655.000,29,09,2013,,*58
# $GPZDA,hhmmss.ss,DD,MM,YYYY,tzh,tzm (hhmmss in UTC)
/^\$GPZDA,(\d{2})(\d{2})(\d{2}(\.\d*)?),(\d+),(\d+),(\d+)/ or next;
$secs = (($1 * 60) + $2) * 60 + $3;
$date = Time::Local::timegm(0,0,0,$5,$6-1,$7-1900);
#
# Magellan eXplorist PMGNTRK (Proprietary MaGellaN TRacK) sentence (optional date)
#
} elsif ($nmea eq 'PMGNTRK') {
# $PMGNTRK,4415.026,N,07631.091,W,00092,M,185031.06,A,,020409*65
# $PMGNTRK,ddmm.mmm,N/S,dddmm.mmm,E/W,alt,F/M,hhmmss.ss,A/V,trkname,DDMMYY*cs
/^\$PMGNTRK,(\d+)(\d{2}\.\d+),([NS]),(\d+)(\d{2}\.\d+),([EW]),(-?\d+\.?\d*),([MF]),(\d{2})(\d{2})(\d+(\.\d*)?),A,(?:[^,]*,(\d{2})(\d{2})(\d+))?/ or next;
$fix{lat} = ($1 + $2/60) * ($3 eq 'N' ? 1 : -1);
$fix{lon} = ($4 + $5/60) * ($6 eq 'E' ? 1 : -1);
$fix{alt} = $8 eq 'M' ? $7 : $7 * 12 * 0.0254;
$secs = (($9 * 60) + $10) * 60 + $11;
if (defined $15) {
next if $13 > 31 or $14 > 12 or $15 > 99; # validate day/month/year
# optional date is available in PMGNTRK sentence
my $year = $15 + ($15 >= 70 ? 1900 : 2000);
$date = Time::Local::timegm(0,0,0,$13,$14-1,$year-1900);
}
#
# Honeywell HMR3000 PTNTHPR (Heading Pitch Roll) sentence (no date)
# (ref http://www.gpsarea.com/uploadfile/download/introduce/hmr3000_manual.pdf)
#
} elsif ($nmea eq 'PTNTHPR') {
# $PTNTHPR,85.9,N,-0.9,N,0.8,N*HH
# $PTNTHPR,heading,heading status,pitch,pitch status,roll,roll status,*cs
# status: L=low alarm, M=low warning, N=normal, O=high warning
# P=high alarm, C=tuning analog circuit
# (ignore this information on any alarm status)
/^\$PTNTHPR,(-?[\d.]+),[MNO],(-?[\d.]+),[MNO],(-?[\d.]+),[MNO],/ or next;
@fix{qw(dir pitch roll)} = ($1,$2,$3);
} else {
next; # this shouldn't happen
}
# remember the NMEA formats we successfully read
$nmea{$nmea} = 1;
# use last date if necessary (and appropriate)
if (defined $secs and not defined $date and defined $lastDate) {
# wrap to next day if necessary
if ($secs < $lastSecs - JITTER()) {
$lastSecs -= $secPerDay;
$lastDate += $secPerDay;
}
# use earlier date only if we are within 10 seconds
if ($secs - $lastSecs < 10) {
# last date is close, use it for this fix
$date = $lastDate;
} else {
# last date is old, discard it
undef $lastDate;
undef $lastSecs;
}
}
# save our last date/time
if (defined $date) {
$lastDate = $date;
$lastSecs = $secs;
}
#
# Add NMEA/IGC fix to our lookup
# (this is much more complicated than it needs to be because
# the stupid NMEA format provides no end-of-fix indication)
#
# assumptions for each NMEA sentence:
# - we only parse a time if we get a lat/lon
# - we always get a time if we have a date
if ($nmea eq $nmeaStart or (defined $secs and (not defined $fixSecs or
# don't combine sentences that are outside 10 seconds apart
($secs >= $fixSecs and $secs - $fixSecs >= 10) or
($secs < $fixSecs and $secs + $secPerDay - $fixSecs >= 10))))
{
# start a new fix
$fix = \%fix;
$fixSecs = $secs;
undef $noDateChanged;
# does this fix have a date/time or time stamp?
if (defined $date) {
$fix{isDate} = $isDate = 1;
$time = $date + $secs;
} elsif (defined $secs) {
$time = $secs;
$noDate = $noDateChanged = 1;
} else {
next; # wait until we have a time before adding to lookup
}
} else {
# add new data to existing fix (but don't overwrite earlier values to
# keep the coordinates in sync with the fix time)
foreach (keys %fix) {
$$fix{$_} = $fix{$_} unless defined $$fix{$_};
}
if (defined $date) {
next if $$fix{isDate};
# move this fix to the proper date
if (defined $fixSecs) {
delete $$points{$fixSecs};
pop @fixTimes if @fixTimes and $fixTimes[-1] == $fixSecs;
--$numPoints;
# if we wrapped to the next day since the start of this fix,
# we must shift the date back to the day of $fixSecs
$date -= $secPerDay if $secs < $fixSecs;
} else {
$fixSecs = $secs;
}
$time = $date + $fixSecs;
$$fix{isDate} = $isDate = 1;
# revert noDate flag if it was set for this fix
$noDate = 0 if $noDateChanged;
} elsif (defined $secs and not defined $fixSecs) {
$time = $fixSecs = $secs;
$noDate = $noDateChanged = 1;
} else {
next; # wait until we have a time
}
}
# add fix to our lookup
$$points{$time} = $fix;
push @fixTimes, $time; # save time of all fixes in order
++$numPoints;
}
$raf->Close();
# set date flags
if ($noDate and not $$geotag{NoDate}) {
if ($isDate) {
$et->Warn('Fixes are date-less -- will use time-only interpolation');
} else {
$et->Warn('Some fixes are date-less -- may use time-only interpolation');
}
$$geotag{NoDate} = 1;
}
$$geotag{IsDate} = 1 if $isDate;
# cut bad fixes if necessary
if ($isCut and $canCut) {
$cutPDOP = $cutHDOP = $cutSats = 0;
my @goodTimes;
foreach (@fixTimes) {
$fix = $$points{$_} or next;
if ($maxPDOP and $$fix{pdop} and $$fix{pdop} > $maxPDOP) {
delete $$points{$_};
++$cutPDOP;
} elsif ($maxHDOP and $$fix{hdop} and $$fix{hdop} > $maxHDOP) {
delete $$points{$_};
++$cutHDOP;
} elsif ($minSats and defined $$fix{nsats} and $$fix{nsats} ne '' and
$$fix{nsats} < $minSats)
{
delete $$points{$_};
++$cutSats;
} else {
push @goodTimes, $_;
}
}
@fixTimes = @goodTimes; # update fix times
$numPoints -= $cutPDOP;
$numPoints -= $cutHDOP;
$numPoints -= $cutSats;
}
# mark first fix of the track
while (@fixTimes) {
$fix = $$points{$fixTimes[0]} or shift(@fixTimes), next;
$$fix{first} = 1;
last;
}
my $verbose = $et->Options('Verbose');
if ($verbose) {
my $out = $et->Options('TextOut');
$format or $format = 'unknown';
print $out "Loaded $numPoints points from $format-format GPS track log $from\n";
print $out "Ignored $cutPDOP points due to GeoMaxPDOP cut\n" if $cutPDOP;
print $out "Ignored $cutHDOP points due to GeoMaxHDOP cut\n" if $cutHDOP;
print $out "Ignored $cutSats points due to GeoMinSats cut\n" if $cutSats;
if ($numPoints and $verbose > 1) {
my @lbl = ('start:', 'end: ');
# (fixes may be in reverse order in GPX files)
@lbl = reverse @lbl if $fixTimes[0] > $fixTimes[-1];
print $out " GPS track $lbl[0] " . PrintFixTime($fixTimes[0]) . "\n";
if ($verbose > 3) {
print $out PrintFix($points, $_) foreach @fixTimes;
}
print $out " GPS track $lbl[1] " . PrintFixTime($fixTimes[-1]) . "\n";
}
}
if ($numPoints) {
# reset timestamp list to force it to be regenerated
delete $$geotag{Times};
# set flags for available information
$$has{alt} = 1 if $nmea{GGA} or $nmea{PMGNTRK} or $nmea{B}; # alt
$$has{track} = 1 if $nmea{RMC}; # track, speed
$$has{orient} = 1 if $nmea{PTNTHPR}; # dir, pitch, roll
return $geotag; # success!
}
return "No track points found in GPS $from";
}
#------------------------------------------------------------------------------
# Apply Geosync time correction
# Inputs: 0) ExifTool ref, 1) Unix UTC time value
# Returns: sync time difference (and updates input time), or undef if no sync
sub ApplySyncCorr($$)
{
my ($et, $time) = @_;
my $sync = $et->GetNewValues('Geosync');
if (ref $sync eq 'HASH') {
my $syncTimes = $$sync{Times};
if ($syncTimes) {
# find the nearest 2 sync points
my ($i0, $i1) = (0, scalar(@$syncTimes) - 1);
while ($i1 > $i0 + 1) {
my $pt = int(($i0 + $i1) / 2);
if ($time < $$syncTimes[$pt]) {
$i1 = $pt;
} else {
$i0 = $pt;
}
}
my ($t0, $t1) = ($$syncTimes[$i0], $$syncTimes[$i1]);
# interpolate/extrapolate to account for linear camera clock drift
my $syncPoints = $$sync{Points};
my $f = $t1 == $t0 ? 0 : ($time - $t0) / ($t1 - $t0);
$sync = $$syncPoints{$t1} * $f + $$syncPoints{$t0} * (1 - $f);
} else {
$sync = $$sync{Offset}; # use fixed time offset
}
$_[1] += $sync;
} else {
undef $sync;
}
return $sync;
}
#------------------------------------------------------------------------------
# Scan outwards for a fix containing the requested parameter
# Inputs: 0) name of fix parameter, 1) reference to list of fix times,
# 2) reference to fix points hash, 3) index of starting time,
# 4) direction to scan (-1 or +1), 5) maximum time difference
# Returns: 0) time for fix containing requested information (or undef)
# 1) the corresponding fix, 2) the value of the requested fix parameter
sub ScanOutwards($$$$$$)
{
my ($key, $times, $points, $i, $dir, $maxSecs) = @_;
my $t0 = $$times[$i];
for (;;) {
$i += $dir;
last if $i < 0 or $i >= scalar @$times;
my $t = $$times[$i];
last if abs($t - $t0) > $maxSecs; # don't look too far
my $p = $$points{$t};
my $v = $$p{$key};
return($t,$p,$v) if defined $v;
}
return();
}
#------------------------------------------------------------------------------
# Find nearest fix containing the specified parameter
# Inputs: 0) ExifTool ref, 1) name of fix parameter, 2) reference to list of fix times,
# 3) reference to fix points hash, 4) index of starting time,
# 5) direction to scan (-1, +1 or undef), 6) maximum time difference
# Returns: reference to fix hash or undef
sub FindFix($$$$$$$)
{
my ($et, $key, $times, $points, $i, $dir, $maxSecs) = @_;
my ($t,$p);
if ($dir) {
($t,$p) = ScanOutwards($key, $times, $points, $i, $dir, $maxSecs);
} else {
my ($t1, $p1) = ScanOutwards($key, $times, $points, $i, -1, $maxSecs);
my ($t2, $p2) = ScanOutwards($key, $times, $points, $i, 1, $maxSecs);
if (defined $t1) {
if (defined $t2) {
# both surrounding points are valid, so take the closest one
($t, $p) = ($t - $t1 < $t2 - $t) ? ($t1, $p1) : ($t2, $p2);
} else {
($t, $p) = ($t1, $p1);
}
} elsif (defined $t2) {
($t, $p) = ($t2, $p2);
}
}
if (defined $p and $$et{OPTIONS}{Verbose} > 2) {
$et->VPrint(2, " Taking $key from fix:\n", PrintFix($points, $t))
}
return $p;
}
#------------------------------------------------------------------------------
# Set new geotagging values according to date/time
# Inputs: 0) ExifTool object ref, 1) date/time value (or undef to delete tags)
# 2) optional write group
# Returns: error string, or '' on success
# Notes: Uses track data stored in ExifTool NEW_VALUE for Geotag tag
sub SetGeoValues($$;$)
{
local $_;
my ($et, $val, $writeGroup) = @_;
my $geotag = $et->GetNewValues('Geotag');
my $verbose = $et->Options('Verbose');
my ($fix, $time, $fsec, $noDate, $secondTry, $iExt, $iDir);
# remove date if none of our fixes had date information
$val =~ s/^\S+\s+// if $val and $geotag and not $$geotag{IsDate};
# maximum time (sec) from nearest GPS fix when position is still considered valid
my $geoMaxIntSecs = $et->Options('GeoMaxIntSecs');
my $geoMaxExtSecs = $et->Options('GeoMaxExtSecs');
# use 30 minutes for a default
defined $geoMaxIntSecs or $geoMaxIntSecs = 1800;
defined $geoMaxExtSecs or $geoMaxExtSecs = 1800;
my $times = $$geotag{Times};
my $points = $$geotag{Points};
my $has = $$geotag{Has};
my $err = '';
# loop to try date/time value first, then time-only value
while (defined $val) {
unless (defined $geotag) {
$err = 'No GPS track loaded';
last;
}
unless ($times) {
# generate sorted timestamp list for binary search
my @times = sort { $a <=> $b } keys %$points;
$times = $$geotag{Times} = \@times;
}
unless ($times and @$times) {
$err = 'GPS track is empty';
last;
}
unless (eval { require Time::Local }) {
$err = 'Geotag feature requires Time::Local installed';
last;
}
# convert date/time to UTC
my ($year,$mon,$day,$hr,$min,$sec,$fs,$tz,$t0,$t1,$t2);
if ($val =~ /^(\d{4}):(\d+):(\d+)\s+(\d+):(\d+):(\d+)(\.\d*)?(Z|([-+])(\d+):(\d+))?/) {
# valid date/time value
($year,$mon,$day,$hr,$min,$sec,$fs,$tz,$t0,$t1,$t2) = ($1,$2,$3,$4,$5,$6,$7,$8,$9,$10,$11);
} elsif ($val =~ /^(\d{2}):(\d+):(\d+)(\.\d*)?(Z|([-+])(\d+):(\d+))?/) {
# valid time-only value
($hr,$min,$sec,$fs,$tz,$t0,$t1,$t2) = ($1,$2,$3,$4,$5,$6,$7,$8);
# use Jan. 2 to avoid going negative after tz adjustment
($year,$mon,$day) = (1970,1,2);
$noDate = 1;
} else {
$err = 'Invalid date/time (use YYYY:mm:dd HH:MM:SS[.ss][+/-HH:MM|Z])';
last;
}
if ($tz) {
$time = Time::Local::timegm($sec,$min,$hr,$day,$mon-1,$year-1900);
# use timezone from date/time value
if ($tz ne 'Z') {
my $tzmin = $t1 * 60 + $t2;
$time -= ($t0 eq '-' ? -$tzmin : $tzmin) * 60;
}
} else {
# assume local timezone
$time = Image::ExifTool::TimeLocal($sec,$min,$hr,$day,$mon-1,$year-1900);
}
# add fractional seconds
$time += $fs if $fs and $fs ne '.';
# bring UTC time back to Jan. 1 if no date is given
$time %= $secPerDay if $noDate;
# apply time synchronization if available
my $sync = ApplySyncCorr($et, $time);
# save fractional seconds string
$fsec = ($time =~ /(\.\d+)$/) ? $1 : '';
if ($et->Options('Verbose') > 1 and not $secondTry) {
my $out = $et->Options('TextOut');
my $str = '';
$str .= sprintf(" (incl. Geosync offset of %+.3f sec)", $sync) if defined $sync;
unless ($tz) {
my $tzs = Image::ExifTool::TimeZoneString([$sec,$min,$hr,$day,$mon-1,$year-1900],$time);
$str .= " (local timezone is $tzs)";
}
print $out ' Geotime value: ' . PrintFixTime($time) . "$str\n";
}
# interpolate GPS track at $time
if ($time < $$times[0]) {
if ($time < $$times[0] - $geoMaxExtSecs) {
$err or $err = 'Time is too far before track';
$et->VPrint(2, ' Track start: ', PrintFixTime($$times[0]), "\n") if $verbose > 2;
} else {
$fix = $$points{$$times[0]};
$iExt = 0; $iDir = 1;
$et->VPrint(2, " Taking pos from fix:\n",
PrintFix($points, $$times[0])) if $verbose > 2;
}
} elsif ($time > $$times[-1]) {
if ($time > $$times[-1] + $geoMaxExtSecs) {
$err or $err = 'Time is too far beyond track';
$et->VPrint(2, ' Track end: ', PrintFixTime($$times[-1]), "\n") if $verbose > 2;
} else {
$fix = $$points{$$times[-1]};
$iExt = $#$times; $iDir = -1;
$et->VPrint(2, " Taking pos from fix:\n",
PrintFix($points, $$times[-1])) if $verbose > 2;
}
} else {
# find nearest 2 points in time
my ($i0, $i1) = (0, scalar(@$times) - 1);
while ($i1 > $i0 + 1) {
my $pt = int(($i0 + $i1) / 2);
if ($time < $$times[$pt]) {
$i1 = $pt;
} else {
$i0 = $pt;
}
}
# do linear interpolation for position
my $t0 = $$times[$i0];
my $t1 = $$times[$i1];
my $p1 = $$points{$t1};
# check to see if we are extrapolating before the first entry in a track
my $maxSecs = ($$p1{first} and $geoMaxIntSecs) ? $geoMaxExtSecs : $geoMaxIntSecs;
# don't interpolate if fixes are too far apart
if ($t1 - $t0 > $maxSecs) {
# treat as an extrapolation -- use nearest fix if close enough
my $tn;
if ($time - $t0 < $t1 - $time) {
$tn = $t0;
$iExt = $i0;
} else {
$tn = $t1;
$iExt = $i1;
}
if (abs($time - $tn) > $geoMaxExtSecs) {
$err or $err = 'Time is too far from nearest GPS fix';
$et->VPrint(2, ' Nearest fix: ', PrintFixTime($tn), "\n") if $verbose > 2;
} else {
$fix = $$points{$tn};
$et->VPrint(2, " Taking pos from fix:\n",
PrintFix($points, $tn)) if $verbose > 2;
}
} else {
my $f0 = $t1 == $t0 ? 0 : ($time - $t0) / ($t1 - $t0);
my $p0 = $$points{$t0};
$et->VPrint(2, " Interpolating between fixes (f=$f0):\n",
PrintFix($points, $t0, $t1)) if $verbose > 2;
$fix = { };
# loop through available fix information categories
# (pos, track, alt, orient)
my ($category, $key);
Category: foreach $category (qw{pos track alt orient}) {
next unless $$has{$category};
my ($f, $p0b, $p1b, $f0b);
# loop through specific fix information keys
# (lat, lon, alt, track, speed, dir, pitch, roll)
foreach $key (@{$fixInfoKeys{$category}}) {
my $v0 = $$p0{$key};
my $v1 = $$p1{$key};
if (defined $v0 and defined $v1) {
$f = $f0;
} elsif (defined $f0b) {
$v0 = $$p0b{$key};
$v1 = $$p1b{$key};
next unless defined $v0 and defined $v1;
$f = $f0b;
} else {
# scan outwards looking for fixes with the required information
# (NOTE: SHOULD EVENTUALLY DO THIS FOR EXTRAPOLATION TOO!)
my ($t0b, $t1b);
if (defined $v0) {
$t0b = $t0; $p0b = $p0;
} else {
($t0b,$p0b,$v0) = ScanOutwards($key,$times,$points,$i0,-1,$maxSecs);
next Category unless defined $t0b;
}
if (defined $v1) {
$t1b = $t1; $p1b = $p1;
} else {
($t1b,$p1b,$v1) = ScanOutwards($key,$times,$points,$i1,1,$maxSecs);
next Category unless defined $t1b;
}
# re-calculate the interpolation factor
$f = $f0b = $t1b == $t0b ? 0 : ($time - $t0b) / ($t1b - $t0b);
$et->VPrint(2, " Interpolating $category between fixes (f=$f):\n",
PrintFix($points, $t0b, $t1b)) if $verbose > 2;
}
# must interpolate cyclical values differently
if ($cyclical{$key} and abs($v1 - $v0) > 180) {
# the acute angle spans the discontinuity, so add
# 360 degrees to the smaller angle before interpolating
$v0 < $v1 ? $v0 += 360 : $v1 += 360;
$$fix{$key} = $v1 * $f + $v0 * (1 - $f);
# longitude and roll ranges are -180 to 180, others are 0 to 360
my $max = ($key eq 'lon' or $key eq 'roll') ? 180 : 360;
$$fix{$key} -= 360 if $$fix{$key} >= $max;
} else {
# simple linear interpolation
$$fix{$key} = $v1 * $f + $v0 * (1 - $f);
}
}
}
}
}
if ($fix) {
$err = ''; # success!
} elsif ($$geotag{NoDate} and not $noDate and $val =~ s/^\S+\s+//) {
# try again with no date since some of our track points are date-less
$secondTry = 1;
next;
}
last;
}
if ($fix) {
my ($gpsDate, $gpsAlt, $gpsAltRef);
my @t = gmtime(int $time);
my $gpsTime = sprintf('%.2d:%.2d:%.2d', $t[2], $t[1], $t[0]) . $fsec;
# write GPSDateStamp if date included in track log, otherwise delete it
$gpsDate = sprintf('%.2d:%.2d:%.2d', $t[5]+1900, $t[4]+1, $t[3]) unless $noDate;
# write GPSAltitude tags if altitude included in track log, otherwise delete them
if (defined $$fix{alt}) {
$gpsAlt = abs $$fix{alt};
$gpsAltRef = ($$fix{alt} < 0 ? 1 : 0);
} elsif ($$has{alt} and defined $iExt) {
my $tFix = FindFix($et,'alt',$times,$points,$iExt,$iDir,$geoMaxExtSecs);
if ($tFix) {
$gpsAlt = abs $$tFix{alt};
$gpsAltRef = ($$tFix{alt} < 0 ? 1 : 0);
}
}
# set new GPS tag values (EXIF, or XMP if write group is 'xmp')
my ($xmp, $exif, @r);
my %opts = ( Type => 'ValueConv' ); # write ValueConv values
if ($writeGroup) {
$opts{Group} = $writeGroup;
$xmp = ($writeGroup =~ /xmp/i);
$exif = ($writeGroup =~ /^(exif|gps)$/i);
}
# (capture error messages by calling SetNewValue in list context)
@r = $et->SetNewValue(GPSLatitude => $$fix{lat}, %opts);
@r = $et->SetNewValue(GPSLongitude => $$fix{lon}, %opts);
@r = $et->SetNewValue(GPSAltitude => $gpsAlt, %opts);
@r = $et->SetNewValue(GPSAltitudeRef => $gpsAltRef, %opts);
if ($$has{track}) {
my $tFix = $fix;
if (not defined $$fix{track} and defined $iExt) {
my $p = FindFix($et,'track',$times,$points,$iExt,$iDir,$geoMaxExtSecs);
$tFix = $p if $p;
}
@r = $et->SetNewValue(GPSTrack => $$tFix{track}, %opts);
@r = $et->SetNewValue(GPSTrackRef => (defined $$tFix{track} ? 'T' : undef), %opts);
@r = $et->SetNewValue(GPSSpeed => $$tFix{speed}, %opts);
@r = $et->SetNewValue(GPSSpeedRef => (defined $$tFix{speed} ? 'N' : undef), %opts);
}
if ($$has{orient}) {
my $tFix = $fix;
if (not defined $$fix{dir} and defined $iExt) {
my $p = FindFix($et,'dir',$times,$points,$iExt,$iDir,$geoMaxExtSecs);
$tFix = $p if $p;
}
@r = $et->SetNewValue(GPSImgDirection => $$tFix{dir}, %opts);
@r = $et->SetNewValue(GPSImgDirectionRef => (defined $$tFix{dir} ? 'T' : undef), %opts);
# Note: GPSPitch and GPSRoll are non-standard, and must be user-defined
@r = $et->SetNewValue(GPSPitch => $$tFix{pitch}, %opts);
@r = $et->SetNewValue(GPSRoll => $$tFix{roll}, %opts);
}
unless ($xmp) {
@r = $et->SetNewValue(GPSLatitudeRef => ($$fix{lat} > 0 ? 'N' : 'S'), %opts);
@r = $et->SetNewValue(GPSLongitudeRef => ($$fix{lon} > 0 ? 'E' : 'W'), %opts);
@r = $et->SetNewValue(GPSDateStamp => $gpsDate, %opts);
@r = $et->SetNewValue(GPSTimeStamp => $gpsTime, %opts);
# set options to edit XMP:GPSDateTime only if it already exists
$opts{EditOnly} = 1;
$opts{Group} = 'XMP';
}
unless ($exif) {
@r = $et->SetNewValue(GPSDateTime => "$gpsDate $gpsTime", %opts);
}
} else {
my %opts;
$opts{Replace} = 2 if defined $val; # remove existing new values
$opts{Group} = $writeGroup if $writeGroup;
# reset any GPS values we might have already set
foreach (qw(GPSLatitude GPSLatitudeRef GPSLongitude GPSLongitudeRef
GPSAltitude GPSAltitudeRef GPSDateStamp GPSTimeStamp GPSDateTime
GPSTrack GPSTrackRef GPSSpeed GPSSpeedRef
GPSImgDirection GPSImgDirectionRef GPSPitch GPSRoll))
{
my @r = $et->SetNewValue($_, undef, %opts);
}
}
return $err;
}
#------------------------------------------------------------------------------
# Convert Geotagging time synchronization value
# Inputs: 0) exiftool object ref,
# 1) time difference string ("[+-]DD MM:HH:SS.ss"), geosync'd file name,
# "GPSTIME@IMAGETIME", or "GPSTIME@FILENAME"
# Returns: geosync hash
# Notes: calling this routine with more than one geosync'd file causes time drift
# correction to be implemented
sub ConvertGeosync($$)
{
my ($et, $val) = @_;
my $sync = $et->GetNewValues('Geosync') || { };
my ($syncFile, $gpsTime, $imgTime);
if ($val =~ /(.*?)\@(.*)/) {
$gpsTime = $1;
if (-f $2) {
$syncFile = $2;
} else {
$imgTime = $2;
}
# (take care because "-f '1:30'" crashes ActivePerl 5.10)
} elsif ($val !~ /^\d/ or $val !~ /:/) {
$syncFile = $val if -f $val;
}
if ($gpsTime or defined $syncFile) {
# (this is a time synchronization vector)
if (defined $syncFile) {
# check the following tags in order to obtain the image timestamp
my @timeTags = qw(SubSecDateTimeOriginal SubSecCreateDate SubSecModifyDate
DateTimeOriginal CreateDate ModifyDate FileModifyDate);
my $info = ImageInfo($syncFile, { PrintConv => 0 }, @timeTags,
'GPSDateTime', 'GPSTimeStamp');
$$info{Error} and warn("$$info{Err}\n"), return undef;
$gpsTime or $gpsTime = $$info{GPSDateTime} || $$info{GPSTimeStamp};
my $tag;
foreach $tag (@timeTags) {
if ($$info{$tag}) {
$imgTime = $$info{$tag};
$et->VPrint(2, "Geosyncing with $tag from '$syncFile'\n");
last;
}
}
$gpsTime or warn("No GPSTimeStamp in '$syncFile\n"), return undef;
$imgTime or warn("No image timestamp in '$syncFile'\n"), return undef;
}
# add date to date-less timestamps
my ($imgDateTime, $gpsDateTime, $noDate);
if ($imgTime =~ /^(\d+:\d+:\d+)\s+\d+/) {
$imgDateTime = $imgTime;
my $date = $1;
if ($gpsTime =~ /^\d+:\d+:\d+\s+\d+/) {
$gpsDateTime = $gpsTime;
} else {
$gpsDateTime = "$date $gpsTime";
}
} elsif ($gpsTime =~ /^(\d+:\d+:\d+)\s+\d+/) {
$imgDateTime = "$1 $imgTime";
$gpsDateTime = $gpsTime;
} else {
# use a today's date (so hopefully the DST setting will be intuitive)
my @tm = localtime;
my $date = sprintf('%.4d:%.2d:%.2d', $tm[5]+1900, $tm[4]+1, $tm[3]);
$gpsDateTime = "$date $gpsTime";
$imgDateTime = "$date $imgTime";
$noDate = 1;
}
# calculate Unix seconds since the epoch
my $imgSecs = Image::ExifTool::GetUnixTime($imgDateTime, 1);
defined $imgSecs or warn("Invalid image time '$imgTime'\n"), return undef;
my $gpsSecs = Image::ExifTool::GetUnixTime($gpsDateTime, 1);
defined $gpsSecs or warn("Invalid GPS time '$gpsTime'\n"), return undef;
# add fractional seconds
$gpsSecs += $1 if $gpsTime =~ /(\.\d+)/;
$imgSecs += $1 if $imgTime =~ /(\.\d+)/;
# shift dates within 12 hours of each other if either timestamp was date-less
if ($gpsDateTime ne $gpsTime or $imgDateTime ne $imgTime) {
my $diff = ($imgSecs - $gpsSecs) % (24 * 3600);
$diff -= 24 * 3600 if $diff > 12 * 3600;
$diff += 24 * 3600 if $diff < -12 * 3600;
if ($gpsDateTime ne $gpsTime) {
$gpsSecs = $imgSecs - $diff;
} else {
$imgSecs = $gpsSecs + $diff;
}
}
# save the synchronization offset
$$sync{Offset} = $gpsSecs - $imgSecs;
# save this synchronization point if either timestamp had a date
unless ($noDate) {
$$sync{Points} or $$sync{Points} = { };
$$sync{Points}{$imgSecs} = $$sync{Offset};
# print verbose output
if ($et->Options('Verbose') > 1) {
# print GPS and image timestamps in UTC
$et->VPrint(1, "Added Geosync point:\n",
' GPS time stamp: ', PrintFixTime($gpsSecs), "\n",
' Image date/time: ', PrintFixTime($imgSecs), "\n");
}
# save sorted list of image sync times if we have more than one
my @times = keys %{$$sync{Points}};
if (@times > 1) {
@times = sort { $a <=> $b } @times;
$$sync{Times} = \@times;
}
}
} else {
# (this is a simple time difference)
my @vals = $val =~ /(?=\d|\.\d)\d*(?:\.\d*)?/g; # (allow decimal values too)
@vals or warn("Invalid value (please refer to geotag documentation)\n"), return undef;
my $secs = 0;
my $mult;
foreach $mult (1, 60, 3600, $secPerDay) {
$secs += $mult * pop(@vals);
last unless @vals;
}
# set constant sync offset
$$sync{Offset} = $val =~ /^\s*-/ ? -$secs : $secs;
}
return $sync;
}
#------------------------------------------------------------------------------
# Print fix time
# Inputs: 0) time since the epoch
# Returns: UTC time string with fractional seconds
sub PrintFixTime($)
{
my $time = $_[0] + 0.0005; # round off to nearest ms
my $fsec = int(($time - int($time)) * 1000);
return sprintf('%s.%.3d UTC', Image::ExifTool::ConvertUnixTime($time), $fsec);
}
#------------------------------------------------------------------------------
# Print fix information
# Inputs: 0) lookup for all fix points, 1-n) list of fix times
# Returns: fix string (including leading indent and trailing newline)
sub PrintFix($@)
{
local $_;
my $points = shift;
my $str = '';
while (@_) {
my $time = shift;
$str .= ' ' . PrintFixTime($time) . ' -';
my $fix = $$points{$time};
if ($fix) {
foreach (sort keys %$fix) {
$str .= " $_=$$fix{$_}" unless $_ eq 'time' or not defined $$fix{$_};
}
}
$str .= "\n";
}
return $str;
}
#------------------------------------------------------------------------------
1; # end
__END__
=head1 NAME
Image::ExifTool::Geotag - Geotagging utility routines
=head1 SYNOPSIS
This module is used by Image::ExifTool
=head1 DESCRIPTION
This module loads GPS track logs, interpolates to determine position based
on time, and sets new GPS values for geotagging images. Currently supported
formats are GPX, NMEA RMC/GGA/GLL, KML, IGC, Garmin XML and TCX, Magellan
PMGNTRK, Honeywell PTNTHPR, Winplus Beacon text, and Bramor gEO log files.
Methods in this module should not be called directly. Instead, the Geotag
feature is accessed by writing the values of the ExifTool Geotag, Geosync
and Geotime tags (see the L<Extra Tags|Image::ExifTool::TagNames/Extra Tags>
in the tag name documentation).
=head1 NOTES
To take advantage of attitude information in the PTNTHPR NMEA sentence, two
user-defined tags, GPSPitch and GPSRoll, must be active.
=head1 AUTHOR
Copyright 2003-2015, Phil Harvey (phil at owl.phy.queensu.ca)
This library is free software; you can redistribute it and/or modify it
under the same terms as Perl itself.
=head1 REFERENCES
=over 4
=item L<http://www.topografix.com/GPX/1/1/>
=item L<http://www.gpsinformation.org/dale/nmea.htm#GSA>
=item L<http://code.google.com/apis/kml/documentation/kmlreference.html>
=item L<http://www.fai.org/gliding/system/files/tech_spec_gnss.pdf>
=back
=head1 ACKNOWLEDGEMENTS
Thanks to Lionel Genet for the ability to read IGC format track logs.
=head1 SEE ALSO
L<Image::ExifTool::TagNames/Extra Tags>,
L<Image::ExifTool(3pm)|Image::ExifTool>
=cut