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GPX is a well-liked XML format for operating or biking tracks with geocoordinates. It is a how-to for cleansing up a GPX file by eradicating undesirable or privacy-sensitive data.
Many apps that report exercise routes and may export them as GPX information embrace extra information than the plain GPS coordinates. For example, a GPX file from my favourite recording app, Guru Maps, appears to be like like this:
<?xml model="1.0" encoding="utf-8"?>
<gpx model="1.1" creator="Guru Maps/4.5.2"
xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance"
xmlns="http://www.topografix.com/GPX/1/1"
xmlns:gom="https://gurumaps.app/gpx/v2"
xsi:schemaLocation="http://www.topografix.com/GPX/1/1 http://www.topografix.com/GPX/1/1/gpx.xsd https://gurumaps.app/gpx/v2 https://gurumaps.app/gpx/v2/schema.xsd">
<trk>
<title>Barnimer Dörferweg</title>
<kind>TrackStyle_FF7F00C8</kind>
<trkseg>
<trkpt lat="52.6254614634" lon="13.4092010169">
<ele>54.238586451</ele>
<time>2020-05-10T05:30:38.997Z</time>
<hdop>4.6875</hdop>
<vdop>3.375</vdop>
<extensions>
<gom:pace>5.5661926282</gom:pace>
<gom:course>329.1938658731</gom:course>
</extensions>
</trkpt>
…
<!-- 1000's of observe factors -->
This observe contains the next properties for every observe level:
- Geocoordinates (latitude and longitude)
- Elevation
- Timestamp
- Horizontal and vertical dilution of precision (hdop/vdop)
- Present pace
- Present course/heading
Plus, Guru Maps makes use of the observe’s <kind> attribute to encode the colour of the observe as displayed within the app in a non-standardized format (TrackStyle_FF7F00C8).
Some apps additionally embrace coronary heart charge or different health measurements.
All this information is helpful for archiving tracks or importing them into one other app. However earlier than sharing this observe publicly, I’d wish to clear the information up first:
- The one really essential items of data are the coordinates and probably the elevation.
- Timestamps are non-public information. I don’t wish to share these.
- The opposite measurements are largely irrelevant.
GPX information can grow to be fairly massive (1000’s of observe factors is widespread), so lowering the quantity of information can be good for file sizes and parsing efficiency.
Necessities
-
XmlStarlet
I take advantage of Xml to do a lot of the XML processing. On macOS, you possibly can set up XMLStarlet by way of Homebrew:
-
xmllint
One optionally available processing step makes use of xmllint, which comes preinstalled on macOS.
-
XSLT file for eradicating unused namespaces
Lastly, obtain this XSLT file
remove-unused-namespaces.xslt, both from this Gist or from my server. We’re gonna use it in a single processing step to strip unused namespaces from the GPX file.Unique supply: Dimitre Novatchev on Stack Overflow.
Operating the command
Assuming your supply file is known as enter.gpx and the XSLT file you downloaded above is within the present listing, that is the total command to course of the GPX file and save the outcome to output.gpx:
xmlstarlet ed
-d "//_:extensions"
-d "/_:gpx/_:metadata/_:time"
-d "/_:gpx/_:trk/_:kind"
-d "//_:trkpt/_:time"
-d "//_:trkpt/_:hdop"
-d "//_:trkpt/_:vdop"
-d "//_:trkpt/_:pdop"
-u "/_:gpx/@creator" -v "Shell script"
enter.gpx
| xmlstarlet tr remove-unused-namespaces.xslt -
| xmlstarlet ed -u "/_:gpx/@xsi:schemaLocation" -v "http://www.topografix.com/GPX/1/1 http://www.topografix.com/GPX/1/1/gpx.xsd"
| xmllint --c14n11 --pretty 2 -
> output.gpx
This sequence performs the next steps:
- Delete all
<extensions>components. - Delete the timestamp from the file’s
<metadata>part if current. - Delete the
<trk><kind>aspect. - Delete the
<time>,<hdop>,<vdop>, and<pdop>components from all observe factors. - Set the file’s
creatorattribute. - Now that extension fields are gone, take away all unused XML namespaces from the file header.
- Delete all
xsi:schemaLocationentries besides the one for the GPX schema. -
Run the file by way of xmllint for formatting. The
--c14n11choice performs XML Canonicalization (C14N). Amongst many different issues, canonicalization replaces numeric character entities within the XML with their regular Unicode characters, which is essential for my use case.For instance, the textual content “Dörferweg” within the supply would grow to be “Dörferweg”. I discovered that among the instruments I take advantage of insert non-ASCII characters as numeric codes and different instruments don’t show these accurately.
The processed GPX file appears to be like like this:
<gpx xmlns="http://www.topografix.com/GPX/1/1"
xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance"
creator="Shell script" model="1.1"
xsi:schemaLocation="http://www.topografix.com/GPX/1/1 http://www.topografix.com/GPX/1/1/gpx.xsd">
<trk>
<title>Barnimer Dörferweg</title>
<trkseg>
<trkpt lat="52.6254614634" lon="13.4092010169">
<ele>54.238586451</ele>
</trkpt>
<trkpt lat="52.6255090307" lon="13.4091548326">
<ele>53.9600219977</ele>
</trkpt>
…
The processing steps above are those that work for me given the apps I take advantage of. Your mileage might fluctuate in case your instruments add different information to your GPX information. Be at liberty to edit the command accordingly. XmlStarlet makes use of XPath syntax to pick which components to function on. The xmlstarlet sel command is helpful for inspecting a supply file and attempting out the required XPath incantations.
Validation
Lastly, it’s a good suggestion to validate the processed GPX file towards the official GPX schema:
xmlstarlet val --quiet --err --xsd
http://www.topografix.com/GPX/1/1/gpx.xsd
output.gpx
Pleased processing!
PS: Should you’re ever in Berlin, it is a good lengthy bike route (55 km) with minimal automotive visitors. Begins and ends at Hauptbahnhof. Obtain the (sanitized) GPX file.
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