Metadata-Version: 2.4
Name: ssscoring
Version: 2.8.9
Summary: ssscoring - Speed Skydiving scoring tools
Author-email: Eugene Ciurana pr3d4t0r <ssscoring.project@cime.net>
License-Expression: BSD-3-Clause
Classifier: Intended Audience :: Other Audience
Classifier: Operating System :: MacOS
Classifier: Operating System :: Unix
Classifier: Programming Language :: Python :: 3
Classifier: Programming Language :: Python :: 3.9
Requires-Python: >=3.9.9
Description-Content-Type: text/markdown
License-File: LICENSE.txt
Requires-Dist: bokeh==2.4.3
Requires-Dist: click
Requires-Dist: geopy
Requires-Dist: haversine
Requires-Dist: importlib-resources
Requires-Dist: jupyter_bokeh==3.0.4
Requires-Dist: numpy<1.26.4
Requires-Dist: psutil
Requires-Dist: pydeck
Requires-Dist: streamlit==1.44.1
Dynamic: license-file

% ssscoring(3) Version 2.8.8 | Speed Skydiving Scoring API documentation

Name
====

**SSScoring** - Speed Skydiving Scoring high level library in Python


Synopsis
========
```bash
pip install -U ssscoring
```

Have one or more FlySight speed run track files available (can be v1 or v2), set
the source directory to the data lake containing them.

```python
# synopsys.py
from ssscoring.calc import aggregateResults
from ssscoring.calc import processAllJumpFiles
from ssscoring.calc import roundedAggregateResults
from ssscoring.flysight import getAllSpeedJumpFilesFrom

DATA_LAKE = './resources' # can be anywhere
jumpResults = processAllJumpFiles(getAllSpeedJumpFilesFrom(DATA_LAKE))
print(roundedAggregateResults(aggregateResults(jumpResults)))
```

Output:

```bash
python synopsys.py
                           score  5.0  10.0  15.0  20.0  25.0  finalTime  maxSpeed
01-00-00:v2                  472  181   329   420   472   451       24.7       475
resources test-data-00:v1    443  175   299   374   427   449       25.0       449
resources test-data-01:v1    441  176   305   388   432   442       25.0       442
resources test-data-02:v1    451  164   295   387   441   452       25.0       453
```

![Speed run summary example](https://github.com/pr3d4t0r/SSScoring/blob/master/resources/SSScoring-speed-run-summary.png?raw=true)
Speed run summary example:
https://raw.githubusercontent.com/pr3d4t0r/SSScoring/refs/heads/master/resources/SSScoring-speed-run-summary.png

SSScoring processes all FlySight files (tagged as v1 or v2, depending on the
device) and SkyTrax files.  It aggregates and summarizes the results.  Full
API documentation is available at:

https://pr3d4t0r.github.io/SSScoring/ssscoring.html

SSScore app is available for interactive scoring from:

https://ssscore.streamlit.app


Installation and Requirements
=============================

- Python 3.9.9 or later
- pandas and NumPy

The [requirements.txt](./requirements.txt) file lists all the packages required
for running SSScoring or using the API.


Quickstart
==========

- The [SSScoring interactive quickstart](./quickstart.ipynb) notebook for
  Jupyter/Lucyfer is the fastest way to learn how to use the library
- The `ssscore` command line tool implements the same functionality as the
  interactive quickstart, can be used for scoring speed skydives from the
  command line with minimum installation
- Read the <a href='https://pr3d4t0r.github.io/SSScoring/ssscoring.html' target='_blank'>SSScoring API documentation</a>


### SSScore web tool

Analyze single tracks or a group of tracks using the SSScoring API in a
full-featured web application.  Requires Internet connectivity.

URL:  <a href='https://ssscore.streamlit.app/' target='_blank'>SSScore 2</a>


### ssscore command line tool

`ssscore` is a comnand line tool that scores one or more speed skydiving files
with as little user participation as possible.  It supports options for
specifying the DZ altitude MSL in feet and for "simple training output" that
shows rounded speed values, useful for physical log book updates.

```bash
ssscore -e 616 -t ./TRACKS
```

Produces this outout:

```
elevation = 187.76 m (616.00')
Processing speed tracks in quickstart-example/...

                                   score  5.0  10.0  ...  25.0  finalTime  maxSpeed
R3_13-32-20:v2                       490  187   333  ...   490       24.2       493
quickstart-example R1_09-20-26:v1    325  135   211  ...   319       25.0       328
quickstart-example R2_11-00-34:v1    476  185   333  ...   315       24.9       481

[3 rows x 8 columns]

Total score = 1291.00, mean speed = 430.33
```

See the <a href='https://github.com/pr3d4t0r/SSScoring/blob/master/ssscore.md' target='_blank'>`ssscore` man page</a>
for details on this quickstart tool.


Running the stand-alone apps
============================

While the web-based app shows the single and multiple jumps scoring functions as
part of a single app, they are two distinct executables.  During development and
for local execution, it's easier to run them from the command line.

These commands assume that the code is installed in a Python virtual environment
and that the `streamlit` package is installed.

**Prepare the local run-time environment**

Installs all the required packages via `pip -e .` in the `local` target, and
it only needs to run once per session, and only after `make test` or `make clean`.

```bash
make local
```

**Scoring a multiple jumps set**

```bash
# installs all the required packages via pip -e .
# it only needs to run once per session, and only after make test or make clean
make local
streamlit run ssscoring/ssscoremultiple.py
```

**Scoring and analyzing a single jump**

```bash
make local
streamlit run ssscoring/ssscoresingle.py
```

These commands will start a new SSScore instance, current branch version, in the
system's default web browser.


Description
===========
SSScoring provides analsysis tools for individual or bulk processing of FlySight
GPS competition data gathered during speed skydiving training and competition.
Scoring methodology adheres to International Skydiving Commission (ISC),
International Speed Skydiving Association (ISSA), and United States Parachute
Association (USPA) published competition and scoring rules.  Though FlySight is
the only Speed Measuring Device (SMD) accepted by all these organizations,
SSScoring libraries and tools also operate with track data files produced by
these devices:

- FlySight 1
- FlySight 2
- SkyTrax GPS and barometric device

SSScoring leverages data manipulation tools in the pandas and NumPy data
analysis libraries.  All the SSScoring code is written in pure Python, but the
implementation leverages libraries that may require native code for GPU and AI
chipset support like Nvidia and M-chipsets.


### Features

- Pure Python
- Supports output from FlySight versions v1 and v2, and SkyTrax devices
- Automatic file version detection
- Bulk file processing via data lake scanning
- Automatic selection of FlySight-like files mixed among files of multiple types
  and from different applications and operating systems
- Individual file processing
- Automatic jump file validation according to competition rules
- Automatic skydiver exit detection
- Automatic jump scoring with robust error detection based on exit altitude,
  break off altitude, scoring window, and validation window
- Produces time series dataframes for the speed run, summary data in 5-second
  intervals, scoring window, speed skydiver track angle with respect to the
  ground, horizontal distance from exit, etc.
- Reports max speed, exit altitude, scoring window end, distance traveled from
  exit, and other data relevant to competitors during training
- Internal data representation includes SI and Imperial units; implementers may
  choose either one when working with the API

The latest SSScoring API is available on GitHub:
https://pr3d4t0r.github.io/SSScoring/ssscoring.html

The SSScoring package can be installed into any Python environment version 3.9
or later.
https://pypi.org/project/ssscoring

SSScoring also includes Lucyfer/Jupyter notebooks for dataset exploratory
analysis and for code troubleshooting.  Unit test coverage is greater than 92%,
limited only by Jupyter-specific components that can't be tested in a standalone
environment.


### What is a data lake?

A **data lake** is a files repository that stores data in its raw, unprocessed
form.  A speed skydiving data lake often has one or more of these types of
files:

- FlySight versions 1 or 2 files
- SkyTrax files
- Video files (MP4 or MOV of whatever)
- PDFs of meet bulletins and related event information
- Miscellaneous other junk

SSScoring identifies FlySight and SkyTrax files regardless of what other file
types are available in the data lake.  SSScoring also identifies speed files
from other types of tracks (e.g. wingsuit) based on the performance profile and
scoring windows.  Tell the SSScoring tools where to get all the track files,
even if they are several levels deep in the directory structure, and SSScoring
will find, validate, and score only the speed skydiving files regardless of what
else is available in the data lake.  The only limitation is available memory.
SSScoring has been tested with as many as 467 speed files during a single run,
representing all the training files for a competitive skydiver over 10 months.


### Additional tools

- `nospot` shell script for disabling Spotlight scanning of FlySight file
  systems
- `umountFlySight` Mac app and shell script for safe unmounting of a FlySight
  device from a Macintosh computer


Contributors
============

| Name | GitHub |
|------|--------|
|Jochen Althoff|@Quadriga14193|
|Eugene Ciurana|@pr3d4t0r|
|Nik Daniel|n/a|
|Alexey Galda|@alexgalda|
|Marco Hepp|n/a|


See Also
========
<a href='https://pr3d4t0r.github.io/SSScoring/ssscoring.html' target='_blank'>SSScoring API documentation</a> - github.io
<a href='https://ssscore.streamlit.app' target='_blank'>SSScore app on-line</a> - Streamlit Cloud
ssscore(1)
https://github.com/pr3d4t0r/SSScoring/blob/master/ssscore.md


License
=======
The **SSScoring** package, documentation and examples are licensed under the
[BSD-3 open source license](https://github.com/pr3d4t0r/SSScoring/blob/master/LICENSE.txt).

