Metadata-Version: 2.3
Name: sweatstack
Version: 0.11.0
Summary: The official Python library for SweatStack
Requires-Python: >=3.10
Requires-Dist: pandas
Requires-Dist: pydantic
Requires-Dist: requests
Provides-Extra: dev
Requires-Dist: datamodel-code-generator; extra == 'dev'
Provides-Extra: ipython
Requires-Dist: ipython; extra == 'ipython'
Requires-Dist: pyarrow; extra == 'ipython'
Provides-Extra: jupyterlab
Requires-Dist: jupyterlab; extra == 'jupyterlab'
Requires-Dist: matplotlib; extra == 'jupyterlab'
Requires-Dist: plotly; extra == 'jupyterlab'
Requires-Dist: pyarrow; extra == 'jupyterlab'
Provides-Extra: parquet
Requires-Dist: pyarrow; extra == 'parquet'
Provides-Extra: plotting
Requires-Dist: matplotlib; extra == 'plotting'
Requires-Dist: nbformat; extra == 'plotting'
Requires-Dist: plotly; extra == 'plotting'
Description-Content-Type: text/markdown

# SweatStack Python Library

## Overview

This is the Python library for [Sweat Stack](https://sweatstack.no), a powerfull application designed for athletes, coaches, and sports scientists to analyze athletic performance data. This library provides a seamless interface to interact with the SweatStack API, allowing users to retrieve, analyze, and visualize activity data and performance metrics.

## Installation

We recommend using `uv` to manage Python and install the library.
Read more about `uv` [here](https://docs.astral.sh/uv/getting-started/).

```bash
uv pip install sweatstack
```

You can also install it with `pip` (or `pipx`) directly.
```bash
python -m pip install sweatstack
```

## Quickstart

If you have `uv` installed, the fastest way to get started is to run the following command in your terminal:
```
uvx --from "sweatstack[jupyterlab]" sweatlab
```

This will open a JupyterLab instance with the SweatStack library pre-imported and authenticated via the browser authentication flow.

```
uvx --from "sweatstack[ipython]" sweatshell
```

This will open an interactive Python shell with the SweatStack library pre-imported and it will automatically trigger the browser authentication flow.

Alternatively, you can open a Python shell of your own choice, install the library and get started:

```python
import sweatstack as ss

ss.login()

latest_activity = ss.get_latest_activity()

print(latest_activity)  # `latest_activity` is a pandas DataFrame
```


## Authentication

To be able to access your data in Sweat Stack, you need to authenticate the library with your Sweat Stack account.
The easiest way to do this is to use your browser to login:

```python
import sweatstack as ss

ss.login()
```
This will automaticallyset the appropriate authentication tokens in your Python code.

Alternatively, you can set the `SWEAT_STACK_API_KEY` environment variable to your API key.
You can create an API key [here](https://app.sweatstack.com/account/api-keys).

```python
import os

import sweatstack as ss

os.environ["SWEAT_STACK_API_KEY"] = "your_api_key_here"

# Now you can use the library
```


## Listing activities

To list activities, you can use the `list_activities()` function:

```python
import sweatstack as ss

for activity in ss.list_activities():
    print(activity)
```
> **Info:** This method returns a summary of the activities, not the actual timeseries data.
> To get the actual data, you need to use the `get_activity_data()` or `get_latest_activity_data()`) methods documented below.

## Getting activity summaries

To get the summary of an activity, you can use the `get_activity()` function:

```python
import sweatstack as ss

activity = ss.get_activity(activity_id)
print(activity)
```

To quickly the latest activity, you can use the `get_latest_activity()` function:

```python
import sweatstack as ss

activity = ss.get_latest_activity()
print(activity)
```

## Getting activity data

To get the timeseries data of one activity, you can use the `get_activity_data()` method:

```python
import sweatstack as ss

data = ss.get_activity_data(activity_id)
print(data)
```

This method returns a pandas DataFrame.
If your are not familiar with pandas and/or DataFrames, start by reading this [introduction](https://pandas.pydata.org/docs/user_guide/10min.html).

Similar as for the summaries, you can use the `get_latest_activity_data()` method to get the timeseries data of the latest activity:

```python
import sweatstack as ss

data = ss.get_latest_activity_data()
print(data)
```

To get the timeseries data of multiple activities, you can use the `get_longitudinal_data()` method:

```python
import sweatstack as ss

longitudinal_data = ss.get_longitudinal_data(
    start=date.today() - timedelta(days=180),
    sport="running",
    metrics=["power", "heart_rate"],
)
print(longitudinal_data)
```

Because the result of `get_longitudinal_data()` can be very large, the data is retrieved in a compressed format (parquet) that requires the `pyarrow` library to be installed. If you intend to use this method, make sure to install the `sweatstack` library with this extra dependency:
```
uv pip install sweatstack[parquet]
```

Also note that depending on the amount of data that you requested, this might take a while.


## Plotting

To plot data, there are a few plotting methods available.

```python
import sweatstack as ss

ss.plot_activity_data(activity_id)
```
...wil plot the all the available columns from the specified activity.
There is also a `ss.plot_latest_activity_data()` method that will plot the latest activity data.

Additionally, there is a `ss.plot_data()` method that you can use to for example plot longitudinal data or for more generic use. This method requires you to pass the actual data as a pandas DataFrame and will not work with the activity id's used above.

```python
import sweatstack as ss

ss.plot_data(data)
```

All of these methods accept a `metrics` argument, which is a list of metrics that you want to plot, as well as a `subplots` argument, which is a boolean that specifies whether you want to plot each metrics in subplots or not.
Example:

```python
import sweatstack as ss

ss.plot_latest_activity_data(metrics=["heart_rate", "power"], subplots=True)
ss.plot_data(data, metrics=["heart_rate", "power"], subplots=False)
```

There is also a `ss.plot_scatter()` method that you can use to plot a scatter plot of any two metrics:

```python
import sweatstack as ss

ss.plot_scatter(x=data["power"], y=data["heart_rate"])
```

For plotting mean-max data, you can use the `ss.plot_mean_max()` method:

```python
import sweatstack as ss

ss.plot_mean_max(
    sport="running",
    metric="power",
)
```
By default, this method will plot the mean-max data for the last 30 days.
But you can provide explicit start and end dates (both optional) to plot the mean-max data for a different time period and these can provided as both `date` objects and `str` objects (e.g. "1970-01-01").

```python
from datetime import date, timedelta

import sweatstack as ss

ss.plot_mean_max(
    sport="running",
    metric="power",
    start=date.today() - timedelta(days=180),
    end=date.today(),
)
```

To plot the mean-max data for multiple time windows, you can provide a list of start and end dates as the `windows` argument:

```python
from datetime import date, timedelta

import sweatstack as ss

ss.plot_mean_max(
    sport="running",
    metric="power",
    windows=[
        (date.today() - timedelta(days=180), date.today()),
        (date.today() - timedelta(days=30), date.today() - timedelta(days=180)),
    ],
)
```

This opens up a lot of possibilities, for example to plot the mean-max data for each 30 day window in the last 300 days:
```python
from datetime import date, timedelta

import sweatstack as ss

ss.plot_mean_max(
    sport="running",
    metric="power",
    windows=[(date.today() - timedelta(days=i + 30), date.today() - timedelta(days=i + 1)) for i in range(0, 120, 30)],
)
```

At the moment, only the Plotly plotting backend is available, but more plotting backends (like Matplotlib) will be added in the future.

Please note that these plotting methods are just there for your convenience.
If you want to customize your plots, we recommend using a plotting library like Plotly or Matplotlib directly.
[This](https://pandas.pydata.org/docs/user_guide/visualization.html) page from the pandas documentation gives a good overview of the available plotting options for the `pandas.DataFrames` and `pandas.Series` that this library returns.


## Accessing other user's data

By default, the library will give you access to your own data.

You can list all users you have access to with the `list_accessible_users()` method:

```python
import sweatstack as ss

for user in ss.list_accessible_users():
    print(user)
```

You can switch to another user by using the `switch_user()` method:

```python
import sweatstack as ss

ss.switch_user(user)
```

Calling any of the methods above will return the data for the user you switched to.

You can easily switch back to your original user by calling the `switch_to_root_user()` method:

```python
import sweatstack as ss

ss.switch_to_root_user()
```


## Uploading activities

To upload activities (only .fit files at this moment), you can use the `upload_activity()` method:

```python
ss.upload_activity("path/to/activity.fit")
```

To upload multiple activities, you can use the `batch_upload_activities()` method:
```python
import sweatstack as ss

ss.batch_upload_activities(files=["path/to/activity1.fit", "path/to/activity2.fit", "path/to/activity3.fit"])
``` 

For both the `upload_activity()` and `batch_upload_activities()` methods, you can pass files as a file path (string or pathlib.Path) or file-like object.

In addition to this, `batch_upload_activities()` also accepts a `directory` argument (string or pathlib.Path), allowing you to upload all activities in a directory:

```python
import sweatstack as ss

ss.batch_upload_activities(directory="path/to/directory")
```


## Metrics

The API supports the following metrics:
- `power`: Power in Watt
- `speed`: Speed in m/s
- `heart_rate`: Heart rate in BPM
- `smo2`: Muscle oxygen saturation in %
- `core_temperature`: Core body temperature in °C
- `altitude`: Altitude in meters
- `cadence`: Cadence in RPM
- `temperature`: Ambient temperature in °C
- `distance`: Distance in m
- `longitude`: Longitude in degrees
- `latitude`: Latitude in degrees


## Sports

The API supports the following sports:
- `running`: Running
- `cycling`: Cycling

More sports will be added in the future.