GPX GoPro Quick not working ? No tool working with Linux distribution. That's why I have written this small tool to extract telemetry data to enable stickers or gauges on your videos.
GPX2Video can convert the data recorded by your GoPro (GPS, accelerometer, camera settings and more) or reads an input GPX file. Visualize data or maps on your videos.
Finally, gpx2video should work with any camera and you are able to customize your gauges and much more. gpx2vidoe supports the timelapse / timewrap video too.
gpx2video is only a test tool and isn't yet a final release!
Please test and report issues. Tested with GoPro 5, 6, 7, 8 and 9 (with last firmware).
gpx2video should work with any video. Orientation, SAR & DAR video parameters are supported.
gpx2video can read and extract from your gpx input file:
- time,
- position,
- elevation,
- speed,
- average speed,
- max speed,
- heartrate,
- cadence,
- temperature
gpx2video can extract GPMD data from GoPro GPMD stream in several format:
- Text dump
- RAW dump
- GPX data
gpx2video can draw a map widget with your track. It supports multi map source:
- OpenStreetMap I © OpenStreetMap contributors
- Maps-For-Free Maps © Maps-For-Free
- OpenCycleMap Maps © thunderforest.com, Data © osm.org/copyright
- OpenTopoMap © OpenTopoMap (CC-BY-SA)
- Public Transport Maps © ÖPNVKarte, Data © OpenStreetMap contributors
- Google Maps Map provided by Google
- Google Satellite Map provided by Google
- Google Hybrid Map provided by Google
- Virtual Earth Map provided by Microsoft
- Virtual Earth Satellite Map provided by Microsoft
- Virtual Earth Hybrid Map provided by Microsoft
- IGN Essentiel Map Map provided by IGN
- IGN Essentiel Photo Map provided by IGN
gpx2video can synchronize your video with your gpx input file.
gpx2video is able to extract and parse metadata and sensor data recorded by your GoPro.
$ ffprobe GH010337.MP4
ffprobe version 3.2.2 Copyright (c) 2007-2016 the FFmpeg developers
built with gcc 6.2.1 (Debian 6.2.1-5) 20161124
...
Input #0, mov,mp4,m4a,3gp,3g2,mj2, from 'GH010337.MP4':
Metadata:
major_brand : mp41
minor_version : 538120216
compatible_brands: mp41
creation_time : 2021-12-08T09:56:26.000000Z
...
Duration: 00:00:52.38, start: 0.000000, bitrate: 100345 kb/s
Stream #0:0(eng): Video: h264 (High) (avc1 / 0x31637661), yuvj420p(pc, bt709), 2704x1520 [SAR 1:1 DAR 169:95], 100078 kb/s, 50 fps, 50 tbr, 90k tbn, 100 tbc (default)
Metadata:
creation_time : 2021-12-08T09:56:26.000000Z
handler_name : GoPro AVC
encoder : GoPro AVC encoder
timecode : 09:56:26:43
Stream #0:1(eng): Audio: aac (LC) (mp4a / 0x6134706D), 48000 Hz, stereo, fltp, 189 kb/s (default)
Metadata:
creation_time : 2021-12-08T09:56:26.000000Z
handler_name : GoPro AAC
timecode : 09:56:26:43
Stream #0:2(eng): Data: none (tmcd / 0x64636D74) (default)
Metadata:
creation_time : 2021-12-08T09:56:26.000000Z
handler_name : GoPro TCD
timecode : 09:56:26:43
Stream #0:3(eng): Data: none (gpmd / 0x646D7067), 48 kb/s (default)
Metadata:
creation_time : 2021-12-08T09:56:26.000000Z
handler_name : GoPro MET
Stream #0:4(eng): Data: none (fdsc / 0x63736466), 12 kb/s (default)
Metadata:
creation_time : 2021-12-08T09:56:26.000000Z
handler_name : GoPro SOS
gpx2video uses the creation_time
field to synchronize your video with your GPX file. Warning, creation_time
is in local time. But this date isn't synchronized with the GPS source.
If gpx2video finds the 'GoPro MET' stream, it searches packet with GPS fix to determine the offset time to use. In
this case, the creation_time
value is computed form 'GoPro MET' stream.
If the creation_time
field and 'GoPro MET' stream can't be found, gpx2video assumes that the video starts in the
same time that the GPX stream.
At last, you can overwrite creation_time
value in using --start-time option. As this option is used, gpx2video
doesn't
"sync" command permits to test the sychronization process:
$ ./gpx2video -v -m GOPR1860.MP4 sync
Time synchronization...
PACKET: 0 - PTS: 0 - TIMESTAMP: 0 ms - TIME: 2022-01-16 10:05:03 - GPS FIX: 0 - GPS TIME: 2022-01-16 10:01:38.959 - OFFSET: -205
PACKET: 1 - PTS: 1000 - TIMESTAMP: 1000 ms - TIME: 2022-01-16 10:05:04 - GPS FIX: 0 - GPS TIME: 2022-01-16 10:01:40.939 - OFFSET: -204
PACKET: 2 - PTS: 2000 - TIMESTAMP: 2000 ms - TIME: 2022-01-16 10:05:05 - GPS FIX: 0 - GPS TIME: 2022-01-16 10:01:41.929 - OFFSET: -204
PACKET: 3 - PTS: 3000 - TIMESTAMP: 3000 ms - TIME: 2022-01-16 10:05:06 - GPS FIX: 0 - GPS TIME: 2022-01-16 10:01:42.919 - OFFSET: -204
...
PACKET: 20 - PTS: 20000 - TIMESTAMP: 20000 ms - TIME: 2022-01-16 10:05:23 - GPS FIX: 0 - GPS TIME: 2022-01-16 10:01:59.969 - OFFSET: -204
PACKET: 21 - PTS: 21000 - TIMESTAMP: 21000 ms - TIME: 2022-01-16 10:05:24 - GPS FIX: 0 - GPS TIME: 2022-01-16 10:02:00.959 - OFFSET: -204
PACKET: 22 - PTS: 22000 - TIMESTAMP: 22000 ms - TIME: 2022-01-16 10:05:25 - GPS FIX: 0 - GPS TIME: 2022-01-16 10:02:01.949 - OFFSET: -204
PACKET: 23 - PTS: 23000 - TIMESTAMP: 23000 ms - TIME: 2022-01-16 10:05:26 - GPS FIX: 0 - GPS TIME: 2022-01-16 10:02:02.939 - OFFSET: -204
PACKET: 24 - PTS: 24000 - TIMESTAMP: 24000 ms - TIME: 2022-01-16 10:05:27 - GPS FIX: 2 - GPS TIME: 2022-01-16 10:02:03.929 - OFFSET: -204
Video stream synchronized with success (offset: -204 s)
Video start time is: 2022-01-16 10:01:38.960
At last, but not least, you can add an user offset (in ms).
$ ./gpx2video -m GOPR1860.MP4 --offset 9000 ...
$ ./gpx2video -m GOPR1860.MP4 --start-time "2021-12-08T09:56:26" --offset 300 ...
By default docker will use debian:12.8-slim as base image, but you can change it.
make build-docker
make build-gpx2video
Copy video files to data folder then you can start docker and try it out
make run VIDEO_DIR=~/Videos
# run gpx2video
./gpx2video -v -m /data/SOME_VID.mp4 -g /data/SOME_GPX.gpx -l /data/layout.xml -o /data/output.mp4
If you prefer build & run for ubuntu, fist create docker image, then build the application.
make ubuntu-noble
To rebuild the applicatio
make buid-ubuntu-noble
To execute the application
make run-ubuntu-noble VIDEO_DIR=~/Videos
# run gpx2video
./tools/gpx2video -v -m /data/SOME_VID.mp4 -g /data/SOME_GPX.gpx -l /data/layout.xml -o /data/output.mp4
To build gpx2video, please install all dependencies (on Debian):
apt-get install cmake g++ libevent-dev libssl-dev libcurl4-gnutls-dev \
libavutil-dev libavformat-dev libavcodec-dev libavfilter-dev \
libswresample-dev libswscale-dev libopenimageio-dev libgeographic-dev \
libcairo2-dev libopenexr-dev
Warning, on some distribution, libgeographic-dev is called libgeographiclib-dev!
Then build in using cmake tools:
$ git clone https://github.com/progweb/gpx2video.git
$ mkdir gpx2video/build
$ cd gpx2video/build
$ cmake ..
$ make
$ ./gpx2video -h
Please execute gpx2video tool from the build path so as it finds assets data.
gpx2video is a command line tool.
- To extract GoPro GPMD data from media stream:
$ ./gpx2video -v -m GOPR1860.MP4 -o output.gpx -f 3 extract
gpx2video v0.0.0
creation_time = 2020-12-13T09:56:27.000000Z
Failed to find decoder for stream #2
Failed to find decoder for stream #3
Input #0, mov,mp4,m4a,3gp,3g2,mj2, from '../../video/GOPR1860.MP4':
...
Extract GPMD data...
PACKET: 0 - PTS: 0 - TIMESTAMP: 0 ms - TIME: 1970-01-01 00:00:00
PACKET: 1 - PTS: 1001 - TIMESTAMP: 1001 ms - TIME: 1970-01-01 00:00:01
- To render image per image with telemetry data:
$ mkdir png
$ ./gpx2video -v -m GH020340.MP4 -g ACTIVITY.gpx -l layout.xml -o png/image-XXXXXX.png image
gpx2video v0.0.0
...
One image per second will be generated. 'XXXXXX' will be replaced by the frame number
- To render a video stream with telemetry data:
$ ./gpx2video -v -m GH020340.MP4 -g ACTIVITY.gpx -l layout.xml -o output.mp4 video
gpx2video v0.0.0
creation_time = 2021-12-08T10:34:50.000000Z
...
[read the input media metadata]
...
Track info:
Name : Road biking
Comment :
Description :
Source :
Type : road_biking
Number :
Segments: : 1
Output #0, mp4, to 'output-overview.mp4':
Stream #0:0: Video: h264, yuvj420p(pc), 2704x1520 [SAR 1:1 DAR 169:95], q=2-31, 32000 kb/s, 50 tbn
Stream #0:1: Audio: aac (LC), 48000 Hz, stereo, fltp, 128 kb/s
Parsing layout.xml
Load widget 'grade'
Initialize grade widget
Load widget 'speed'
Initialize speed widget
Load widget 'elevation'
Initialize elevation widget
Load widget 'cadence'
Initialize cadence widget
Load map widget
Initialize map widget
Cache initialiization...
Time synchronization...
PACKET: 0 - PTS: 0 - TIMESTAMP: 0 ms - TIME: 2021-12-08 09:34:50 - GPS TIME: - OFFSET: 478042309
PACKET: 1 - PTS: 1000 - TIMESTAMP: 1000 ms - TIME: 2021-12-08 09:34:51 - GPS TIME: 2021-12-08 09:38:36.850 - OFFSET: 225
Video stream synchronized with success
Download map from OpenStreetMap I...
Download tile 6 / 6 [##################################################] DONE
...
[Download, build map then draw your track]
...
Build map...
FRAME: 0 - PTS: 0 - TIMESTAMP: 0 ms - TIME: 2021-12-08 10:38:35
Time: 2021-12-08 10:38:38. Distance: 35.841 km in 6330.000 seconds, current speed is 25.817 (valid: true)
FRAME: 1 - PTS: 1800 - TIMESTAMP: 20 ms - TIME: 2021-12-08 10:38:35
Time: 2021-12-08 10:38:38. Distance: 35.841 km in 6330.000 seconds, current speed is 25.817 (valid: true)
[Process each frame]
...
Gauges size and position and more can be set from the layout.xml file. (see: samples/layout-1920x1080.xml)
You can edit layout.xml
file to enable/disable gauge or edit label and position or any settings:
<?xml version="1.0" encoding="UTF-8"?>
<layout>
<widget x="250" y="450" width="600" height="120" position="left" align="vertical">
<type>speed</type>
<name>VITESSE</name>
<margin>20</margin>
<padding>5</padding>
<unit>kph</unit>
</widget>
<widget x="250" y="450" width="600" height="120" position="left" align="vertical">
<type>elevation</type>
<name>ALTITUDE</name>
<margin>20</margin>
<padding>5</padding>
<unit>m</unit>
</widget>
<widget x="250" y="450" width="600" height="120" position="right" align="vertical">
<type>date</type>
<name>DATE</name>
<margin>20</margin>
<padding>5</padding>
<format>%d-%m-%Y</format>
</widget>
<widget x="250" y="450" width="600" height="120" position="left" align="vertical" display="false">
<type>heartrate</type>
<name>FREQ. CARDIAQUE</name>
<margin>20</margin>
<padding>5</padding>
</widget>
<track x="800" y="300" width="640" height="480" position="none" display="false">
</track>
<map x="800" y="300" width="640" height="480" position="none">
<source>1</source>
<zoom>12</zoom>
<factor>2.0</factor>
</map>
</layout>
Here all widget common element settings:
<widget x="250" y="450" width="600" height="120" position="left" align="vertical" at="1000" duration="9000" display="true">
<type>speed</type>
<name>VITESSE</name>
<margin>20</margin>
<padding>5</padding>
<font>/usr/share/fonts/truetype/freefont/FreeSerifItalic.ttf</font>
<text-color>#00ff00ff</text-color>
<text-ratio>2.0</text-ratio>
<text-shadow>3</text-shadow>
<text-linespace>2</text-linespace>
<label-align>left</label-align>
<value-align>right</value-align>
<border>5</border>
<border-color>#000000b0</border-color>
<background-color>#0000004c</background-color>
<with-label>true</with-label>
<with-value>true</with-value>
<with-picto>true</with-picto>
<with-unit>true</with-unit>
</widget>
Node attributes are:
- x / y: to set the widget position.
- width / height: to set the widget size.
- position: to compute the widget position.
- align: to set the align direction.
- at / duration: to display widget at a specific time (in ms) during a specific duration (in ms).
- display: to render or not the widget.
Node elements are:
- type: to set the widget type (speed, grade, distance...).
- name: to set the widget label.
- font: to set the text font.
- margin: to set the space around the widget (margin-left, margin-right, margin-top and margin-bottom are supported too).
- padding: to set the space inside the widget (padding-left, padding-right, padding-top and padding-bottom are supported too).
- border: to set the border width.
- border-color: to set the border color in #RGBA.
- background-color: to set the background color in #RGBA.
- text-color: to set the text color in #RGBA.
- text-ratio: define the label and value size ratio.
- text-shadow: text shadow thickness.
- text-linespace: line space between label and value.
- label-align: to set text alignement (left, center, right)
- value-align: to set value alignement (left, center, right)
- with-xxxx: to show or not the field (default is true).
type gauges supported are:
- speed, maxspeed, avgspeed, avgridespeed
- grade, elevation
- date, time, duration
- position
- distance
- cadence
- heartrate
- temperature
- gforce
- image
- lap
- text
position values are: none, left, right, top, bottom, bottom-left, bottom-right, top-left, top-right. If position element is set, gpx2video ignores and computes x and y values.
align values are: horizontal or vertical. If position isn't defined, align value isn't used.
display values are: true or false. It permits to render or not the widget. The display default value is true.
padding value sets the space around the text. Whereas, margin value defines the space around the widget.
<widget>
<type>speed</type>
<unit>kph</unit>
</widget>
unit values are: mph or kph.
<widget>
<type>distance</type>
<unit>km</unit>
</widget>
unit values are: m, km, ft or miles.
<widget>
<type>elevation</type>
<unit>m</unit>
</widget>
unit values are: m or ft.
<widget>
<type>date</type>
<format>%Y-%m-%d</format>
</widget>
<widget>
<type>temperature</type>
<unit>C</unit>
</widget>
unit values are: C, celsius or F, fahrenheit.
<widget>
<type>gforce</type>
<unit>g</unit>
</widget>
unit values are: g or mps2.
<widget>
<type>lap</type>
<nbr-lap>10</nbr-lap>
</widget>
nbr-lap value is the lap target number.
<widget>
<type>image</type>
<zoom>stretch</zoom>
<source>fichier.jpg</source>
</widget>
zoom values are: none, fit, fill, crop and stretch. This parameter is used only by the image widget. source is optional.
<widget>
<type>text</type>
<text>Rendered with GPX2Video application</text>
</widget>
You can specify map source from a list. Warning, all maps aren't free.
gpx2video downloads each tile with the zoom level in your ~/.gpx2video/cache
path.
Then build the map.
Finally, gpx2video renders a mapbox in applying the zoom factor.
As you use map or track command line, please provide map settings (source, zoom, factor) on the command lines.
- To render map:
$ ./gpx2video -g ACTIVITY.gpx -o map.png --map-source=1 --map-zoom=11 --map-factor 2.0 map
- To render map & track:
$ ./gpx2video -g ACTIVITY.gpx -o map.png --map-source=1 --map-zoom=11 --map-factor 2.0 track
Map settings:
<map x="250" y="450" width="600" height="120" position="left" display="true">
<source>1</source>
<zoom>11</zoom>
<factor>1.2</factor>
<marker>60</marker>
<border>5</border>
<border-color>#000000b0</border-color>
<background-color>#0000004c</background-color>
<path-thick>3.0</path-thick>
<path-border>1.4</path-border>
</map>
zoom value sets the map details. factor value applies a zoom factor as render. marker marker size in pixels. path-thick path thick. path-border border size of path.
Map widget can be auto positionned as x, y and/or width, height aren't set. At last, you can define several map widgets.
Map widget accepts the same common attibutes and elements that the standard widget (at, duration...)
You can also display only the track without the map background in using track widget.
Track settings:
<track x="250" y="450" width="600" height="120" position="left" display="true">
<marker>60</marker>
<border>5</border>
<border-color>#000000b0</border-color>
<background-color>#0000004c</background-color>
<path-thick>3.0</path-thick>
<path-border>1.4</path-border>
</widget>
Track widget accepts the same common attibutes and elements that the standard widget (at, duration...)
path-thick path thick. path-border border size of path.
You can extract and parse GoPro MET stream:
$ ./gpx2video -m GH010434.MP4 -o data.txt -f 1 extract
Or, you can extract the GoPro MET stream as raw data:
$ ./gpx2video -m GH010434.MP4 -o data.bin -f 2 extract
As exiftool, you can extract GPX from GoPro MP4 video file too:
$ ./gpx2video -m GH010434.MP4 -o track.gpx -f 3 extract
In future release, gpx2video should be able to use more data from this stream as accelerometer and gyroscope.
Telemetry data are computed from GPX (other format are supported too). As telemetry data file is loaded, you can apply different filters. You can export the results to test:
$ ./gpx2video -g ACTIVITY.gpx -o data.csv compute
This tool permits to convert GPX to CSV and/or apply a filter on the GPS data (lat. and lon. values). gpx2video interpolates data in using different methods: linear, kalman or interpolation.
By default, telemetry is updated each 1000 ms. You can overwrite this value :
$ ./gpx2video -v -m GH020340.MP4 -g ACTIVITY.gpx -l layout.xml \
--telemetry-method=3 --telemtry-rate=500 -o output.mp4 video
gpx2video accepts the same options that gpxtools.
gpxtools can be used to filter, convert or compute GPX data.
$ ./gpxtools -i ACTIVITY.gpx --telemetry-method=0 -o data.csv convert
$ ./gpxtools -i ACTIVITY.gpx --telemetry-method=0 -o data.csv compute
You can extract a part of your GPX data in using --begin and --end option. gpxtools can change samples rate too.
$ ./gpxtools -i ACTIVITY.gpx \
--begin "2024-10-28 09:00:00" --end "2024-10-28 10:00:00" \
--telemetry-method=3 --telemetry-rate=3000 \
-o data.gpx compute
As you use compute command, other settings permit to smooth data:
$ ./gpxtools -i ACTIVITY.gpx \
--telemetry-check=true \
--telemetry-filter=1 \
--telemetry-smooth=data=speed,method=1,points=2 \
--telemetry-method=3 --telemtry-rate=500 \
-o data.gpx compute
--telemetry-check drops invalid points, before compute.
--telemetry-filter filter and update all incoherent points, then compute telemetry data.
--telemetry-smooth to smooth telemetry data results on several points. Telemetry smooth argument format value is: "data=type,method=,points=". Data type can be "grade", "speed", "elevation" or "acceleration". Smooth method is given by the option --telemtry-smooth-list.
--from and --to permits to define a datetime range where compute telemetry data. It can be used as you want compute data only on a segment. Outside this segment, only few data are computed. --from and --to range has to be in the data range defined by --begin and --end.
You can set few encoder settings:
$ ./gpx2video -v -m GH020340.MP4 -g ACTIVITY.gpx -l layout.xml \
--video-codec=h264 --video-preset=ultrafast --video-crf=31 -o output.mp4 video
To use target bitrate compression method:
$ ./gpx2video -v -m GH020340.MP4 -g ACTIVITY.gpx -l layout.xml \
--video-codec=h264 --video-preset=ultrafast --video-crf=-1 -o output.mp4 video
video-options supported are:
- codec:
- h264 (default), h264_nvenc, h264_vaapi, h264_qsv
- hevc, hevc_nvenc, hevc_qsv
- hwdevice: dri node device (if not defined, print available dri nodes list)
- preset: ultrafast, superfast, veryfast, faster, fast, medium (default), slow and veryslow (or specific values for hardware codec)
- crf: constant rate factor values range from 0 to 51 (default: 27 for h264 & 31 for hevc)
- bitrate: value (default: 16000000)
- min-bitrate: value (default: 0)
- max-bitrate: value (default: 32000000)
To use target bitrate, set crf to '-1' to disable constant compression method.
$ ./gpx2video -v -m GH020340.MP4 -g ACTIVITY.gpx -l layout.xml \
--video-codec=hevc --video-preset=slow --video-crf=-1 \
--video-bitrate=16000000 --video-max-bitrate=32000000 -o output.mp4 video
- Render gauge:
- hflip: flip icon and label
- svg: add icon svg support
- Render maps (alpha, size, position, zoom...)
- Render track (color, remaining, speed gradient...)
- Gallery photo import
- User interface integration
- 360 videos support
Here, you can find other solutions working on Linux:
- GoPro Map Sync - (https://github.com/thomergil/gopro-map-sync)
- Overlaying Dashboard - (https://github.com/time4tea/gopro-dashboard-overlay)
- GPS data overlay on videos - (https://github.com/peregin/gps-overlay-on-video)
gpx2video is based on several open source libraries:
- libevent - (https://libevent.org)
- libcurl - (https://curl.se/libcurl)
- ffmpeg - (https://ffmpeg.org)
- gpxlib - (http://irdvo.nl/gpxlib)
- osm-gps-map - (http://nzjrs.github.io/osm-gps-map)
- cairo - (https://www.cairographics.org)
- olive - (https://www.olivevideoeditor.org)
- OpenImageIO - (https://sites.google.com/site/openimageio/home)