Create artistic visualisations with your exercise data (Python version).

This is a port of the R strava package to Python.

Install via pip:

python3 -m pip install stravavis

For development:

git clone https://github.com/marcusvolz/strava_py
cd strava_py
pip install -e .

Then run from the terminal:

stravavis --help

If your activity data is in a folder called activities, run the following command:

stravavis activities

By default, this will create output images prefixed strava-.

If you have an activities.csv file:

stravavis activities --activities_path activities.csv

To only map activities contained within a bounding box:

stravavis activities --bbox 24.782802,59.922486,25.254511,60.29785`

Or as a shortcut, save bounding-box coordinates to a file:

echo 24.782802,59.922486,25.254511,60.29785 > helsinki.bbox
stravavis activities --bbox helsinki.bbox

To only plot certain visualisations:

stravavis activities --plot map facets landscape

A plot of activities as small multiples. The concept behind this plot was originally inspired by Sisu.

A map of activities viewed in plan.

A plot of activity elevation profiles as small multiples.

Elevation profiles superimposed.

Calendar heatmap showing daily activity distance, using the calmap package. Requires "activities.csv" from the bulk Strava export.

Activities shown as horizontal lines by time of day and day of year, facetted by year. Requires "activities.csv" from the bulk Strava export.

The process for downloading data is described on the Strava website here: [https://support.strava.com/hc/en-us/articles/216918437-Exporting-your-Data-and-Bulk-Export#Bulk], but in essence, do the following:

1. Log in to Strava
2. Select "Settings" from the main drop-down menu at top right of the screen
3. Select "My Account" from the navigation menu to the left of the screen.
4. Under the "Download or Delete Your Account" heading, click the "Get Started" button.
5. Under the "Download Request", heading, click the "Request Your Archive" button. Don't click anything else on that page, i.e. particularly not the "Request Account Deletion" button.
6. Wait for an email to be sent
7. Click the link in email to download zipped folder containing activities
8. Unzip files

The package can also be used programmatically. The following code snippets demonstrate how to use the package to create the visualisations.

The main function for importing and processing activity files expects a path to a directory of unzipped GPX and / or FIT files. If required, the fit2gpx package provides useful tools for pre-processing bulk files exported from Strava, e.g. unzipping activity files (see Use Case 3: Strava Bulk Export Tools).

df = process_data("<path to folder with GPX and / or FIT files>")

Some plots use the "activities.csv" file from the Strava bulk export zip. For those plots, create an "activities" dataframe using the following function:

activities = process_activities("<path to activities.csv file>")

plot_facets(df, output_file = 'plot.png')

plot_map(df, lon_min=None, lon_max= None, lat_min=None, lat_max=None,
             alpha=0.3, linewidth=0.3, output_file="map.png")

plot_elevations(df, output_file = 'elevations.png')

plot_landscape(df, output_file = 'landscape.png')

plot_calendar(activities, year_min=2015, year_max=2017, max_dist=50,
              fig_height=9, fig_width=15, output_file="calendar.png")

plot_dumbbell(activities, year_min=2012, year_max=2015, local_timezone='Australia/Melbourne',
              fig_height=34, fig_width=34, output_file="dumbbell.png")