Metadata-Version: 2.3
Name: LAMP-cortex
Version: 2025.4.18
Summary: The Cortex data analysis toolkit for the LAMP Platform.
License: BSD-3-Clause
Keywords: LAMP Cortex
Author: Division of Digital Psychiatry at Beth Israel Deaconess Medical Center
Author-email: team@digitalpsych.org
Requires-Python: >=3.8,<4.0
Classifier: License :: OSI Approved :: BSD License
Classifier: Programming Language :: Python :: 3
Classifier: Programming Language :: Python :: 3.8
Classifier: Programming Language :: Python :: 3.9
Classifier: Programming Language :: Python :: 3.10
Classifier: Programming Language :: Python :: 3.11
Classifier: Programming Language :: Python :: 3.12
Classifier: Programming Language :: Python :: 3.13
Requires-Dist: DateTime (>=4.3,<5.0)
Requires-Dist: LAMP-core (>=2021.5.18,<2022.0.0)
Requires-Dist: altair (>=4.1.0,<5.0.0)
Requires-Dist: compress-pickle (>=2.0.1,<3.0.0)
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Requires-Dist: geopy (>=2.1.0,<3.0.0)
Requires-Dist: matplotlib (>=3.9.0,<4.0.0)
Requires-Dist: numpy (>=1.20.3,<2.0.0)
Requires-Dist: pandas (>=1.2.4,<2.0.0)
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Requires-Dist: requests (>=2.16.2,<3.0.0)
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Requires-Dist: statsmodels (>=0.14.4,<0.15.0)
Requires-Dist: tzwhere (>=3.0.3,<4.0.0)
Project-URL: Bug Tracker, https://github.com/BIDMCDigitalPsychiatry/LAMP-platform/issues
Project-URL: Documentation, https://docs.lamp.digital
Project-URL: Homepage, https://docs.lamp.digital
Project-URL: Repository, https://github.com/BIDMCDigitalPsychiatry/LAMP-cortex
Description-Content-Type: text/markdown

# Cortex data analysis pipeline for the LAMP Platform.

## Overview

This API client is used to process and featurize data collected in LAMP. [Visit our documentation](https://docs.lamp.digital/data_science/cortex/getting-started) for more information about using cortex and the LAMP API.

### Jump to:

- [Setting up Cortex](#setting_up_cortex)
- [Cortex example](#example_cortex_query)
- [Find a bug?](#bug_report)
- [Developing Cortex](#cortex_dev)
- [Command-line usage](#advanced)

<a name="setting_up_cortex"></a>
# Setting up Cortex

You will need Python 3.4+ and `pip` installed in order to use Cortex. 
  - You may need root permissions, using `sudo`.
  - Alternatively, to install locally, use `pip --user`.
  - If `pip` is not recognized as a command, use `python3 -m pip`.

If you meet the prerequisites, install Cortex:

```sh
pip install git+https://github.com/BIDMCDigitalPsychiatry/LAMP-cortex.git@master
```

If you do not have your environment variables set up you will need to perform the initial server credentials configuraton below:

```python
import os
os.environ['LAMP_ACCESS_KEY'] = 'YOUR_EMAIL_ADDRESS'
os.environ['LAMP_SECRET_KEY'] = 'YOUR_PASSWORD'
os.environ['LAMP_SERVER_ADDRESS'] = 'YOUR_SERVER_ADDRESS'
```

<a name="example_cortex_query"></a>
## Example: Passive data features from Cortex
The primary function of Cortex is to provide a set of features derived from pasive data. Data can be pulled either by calling Cortex functions directly, or by using the `cortex.run()` function to parse multiple participants or features simultaneously. For example, one feature of interest is screen_duration or the time spent with the phone "on".

First, we can pull this data using the Cortex function. Let's say we want to compute the amount of time spent by
participant: "U1234567890" from 11/15/21 (epoch time: 1636952400000) to 11/30/21 (epoch time: 1638248400000) each day (resolution = miliseconds in a day = 86400000):

```python
import cortex
screen_dur = cortex.secondary.screen_duration.screen_duration("U1234567890", start=1636952400000, end=1638248400000, resolution=86400000)
```

The output would look something like this:
```
{'timestamp': 1636952400000,
 'duration': 1296000000,
 'resolution': 86400000,
 'data': [{'timestamp': 1636952400000, 'value': 0.0},
  {'timestamp': 1637038800000, 'value': 0.0},
  {'timestamp': 1637125200000, 'value': 0.0},
  {'timestamp': 1637211600000, 'value': 0.0},
  {'timestamp': 1637298000000, 'value': 0.0},
  {'timestamp': 1637384400000, 'value': 0.0},
  {'timestamp': 1637470800000, 'value': 8425464},
  {'timestamp': 1637557200000, 'value': 54589034},
  {'timestamp': 1637643600000, 'value': 50200716},
  {'timestamp': 1637730000000, 'value': 38500923},
  {'timestamp': 1637816400000, 'value': 38872835},
  {'timestamp': 1637902800000, 'value': 46796405},
  {'timestamp': 1637989200000, 'value': 42115755},
  {'timestamp': 1638075600000, 'value': 44383154}]}
 ```
The 'data' in the dictionary holds the start timestamps (of each day from 11/15/21 to 11/29/21) and the screen duration for each of these days.
 
Second, we could have pulled this same data using the `cortex.run` function. Note that `resolution` is automatically set to a day in `cortex.run`. To invoke `cortex.run`, you must provide a specific ID or a `list` of IDs (only `Researcher`, `Study`, or `Participant` IDs are supported). Then, you specify the behavioral features to generate and extract. Once Cortex finishes running, you will be provided a `dict` where each key is the behavioral feature name, and the value is a dataframe. You can use this dataframe to save your output to a CSV file, for example, or continue data processing and visualization. This function call would look like this:

 ```python
import cortex
screen_dur = cortex.run("U1234567890", ['screen_duration'], start=1636952400000, end=1638248400000)
```
And the output might look like:
```
{'screen_duration':              id           timestamp       value
 0   U1234567890 2021-11-15 05:00:00         0.0
 1   U1234567890 2021-11-16 05:00:00         0.0
 2   U1234567890 2021-11-17 05:00:00         0.0
 3   U1234567890 2021-11-18 05:00:00         0.0
 4   U1234567890 2021-11-19 05:00:00         0.0
 5   U1234567890 2021-11-20 05:00:00         0.0
 6   U1234567890 2021-11-21 05:00:00   8425464.0
 7   U1234567890 2021-11-22 05:00:00  54589034.0
 8   U1234567890 2021-11-23 05:00:00  50200716.0
 9   U1234567890 2021-11-24 05:00:00  38500923.0
 10  U1234567890 2021-11-25 05:00:00  38872835.0
 11  U1234567890 2021-11-26 05:00:00  46796405.0
 12  U1234567890 2021-11-27 05:00:00  42115755.0
 13  U1234567890 2021-11-28 05:00:00  44383154.0}
 ```
The output is the same as above, except the 'data' has been transformed into a Pandas DataFrame. Additionally, the dictionary is indexed by feature -- this way you can add to the list of features processed at once. Finally, a column "id" has been added so that multiple participants can be processed simultaneously. 

<a name="bug_report"></a>
### Find a bug?

Our forum has many answers to common questions. If you find a bug, need help with working with Cortex, or have a suggestion for how the code can be improved please make a post [on the forum] (https://mindlamp.discourse.group/).

<a name="cortex_dev"></a>
### Adding features to Cortex
If you are interesting in developing new features for Cortex, please check out our docs [here] (https://docs.lamp.digital/data_science/cortex/developing_cortex). Note that the unittests in this repository will fail for users outside of BIDMC since you do not have access to our data.

<a name="advanced"></a>
### Advanced Configuration

Ensure your `server_address` is set correctly. If using the default server, it will be `api.lamp.digital`. Keep your `access_key` (sometimes an email address) and `secret_key` (sometimes a password) private and do not share them with others. While you are able to set these parameters as arguments to the `cortex` executable, it is preferred to set them as session-wide environment variables. You can also run the script from the command line:

```bash
LAMP_SERVER_ADDRESS=api.lamp.digital LAMP_ACCESS_KEY=XXX LAMP_SECRET_KEY=XXX python3 -m \
  cortex significant_locations \
    --id=U26468383 \
    --start=1583532346000 \
    --end=1583618746000 \
    --k_max=9
```

Or another example using the CLI arguments instead of environment variables (and outputting to a file):

```bash
python3 -m \
  cortex --format=csv --server-address=api.lamp.digital --access-key=XXX --secret-key=XXX \
    survey --id=U26468383 --start=1583532346000 --end=1583618746000 \
    2>/dev/null 1>./my_cortex_output.csv
```

