Metadata-Version: 2.1
Name: JupyterPiDAQ
Version: 0.6.0rc2
Summary: Data Acquisition in Jupyter notebook on Raspberry Pi
Home-page: UNKNOWN
Author: Jonathan Gutow
Author-email: gutow@uwosh.edu
License: GPL-3.0+
Description: ## JupyterPiDAQ
        
        This software allows live collection and plotting of 
        analog data in  a Jupyter notebook. The package was initially developed
        to provide an inexpensive laboratory system for teaching based on
        the Raspberry Pi.  However, as the development has progressed the data
        acquisition board drivers have been separated out of the user interface,
        so that the software has potential to work on other computers running Jupyter
        with A-to-D board specific connector code. Presently the compatible A-to-Ds are
        for Raspberry Pis: Adafruit compliant ADS1115 boards 
        ([example](https://www.amazon.com/KNACRO-4-Channel-Raspberry-ADS1115-Channel/dp/B07149WH7P),
        also available from other vendors); and the [&pi;-Plates
         DAQC2 plate](https://pi-plates.com/daqc2r1/). 
        A demo mode will run on any computer with a Jupyter notebook install and
        Python 3.6+.
        
        The goal is for the user interface to be as close to self-explanatory as
         possible. However, documentation is being developed along with some example
          experiments.
        
        __Sensors:__
        Like many commercial educational packages the software knows about the
        properties of some sensors, so can collect data directly in the units
        appropriate for the sensor, in addition to the raw voltage signal returned
        by the sensor. Not all sensors are compatible with all boards.
        The developer(s) attempt to keep this list of known sensors up-to-date, but the
        code may provide additional sensors not listed here:
        * __ADS1115 compatible__ (board can provide 3.3 V of power/reference to
         sensors):
          * voltage reading (V, mV) from any sensor that puts out a voltage in the
           range +/-3.3 V.
          * built-in thermistor (V, mV, K, C, F).
          * Vernier SS temperature probe (V, mV, K, C, F).
        * __DAQC2 compatible__ (board can provide 5.0 V of power/reference to sensors):
          * voltage reading (V, mV) from any sensor that puts out a voltage in the
           range +/- 12 V.
          * Vernier SS temperature probe (V, mV, K, C, F).
          * Compatible with standard Vernier probes. Calibrations being added.
        
        You can also hook up your own sensors and manually convert the raw voltage
        readings or write and submit a new sensor definition to the project.
        
        _Initial Author_: Jonathan Gutow <gutow@uwosh.edu>
        
        _License_: GPL V3+
        
        ### Installation
        
        Installation is meant to be done into a virtual environment
        from the PyPi repository. There are two modes "Production" 
        for end users and "Development" for those who want to
        improve the package.
        
        NOTE: If a binary distribution (whl or wheel) is not available for your
        platform, some of the required packages may need to be compiled. If you get
        compilation errors when installing try getting the python header and 
        development files for your platform. To get them on most *nix platforms use the
        command `$ sudo apt install python3-dev`.
        
        _Production_
        
        1. If not installed, install pipenv:`$ pip3 install --user pipenv`. You may
        need to add `~/.local/bin` to your `PATH` to make `pipenv`
        available in your command shell. More discussion: 
        [The Hitchhiker's Guide to
        Python](https://docs.python-guide.org/dev/virtualenvs/).
        1. Create a directory for the virtual environment you will be installing
           into (example: `$ mkdir JupyterPiDAQ`).
        1. Navigate into the directory `$ cd JupyterPiDAQ`.
        1. Create the virtual environment and enter it `$ pipenv shell`. To get out of
           the environment you can issue the `$ exit` command on the command line.
        1. While still in the shell install JupyterPiDAQ and all its requirements
           `$ pip install -U JupyterPiDAQ`. This can take a long time, especially on a
           Raspberry Pi. On a Pi 3B+ (minimum requirement) it will probably not run
           without at least 1 GB of swap. See: [Build Jupyter on a Pi](
           https://www.uwosh.edu/facstaff/gutow/computer-and-programming-how-tos/installing-jupyter-on-raspberrian)
           for a discussion of adding swap space on a Pi.
        1. Still within the environment shell test
           this by starting jupyter `$ jupyter notebook`. Jupyter should launch in your browser.
            1. Open a new notebook using the default (Python 3) kernel.
            1. In the first cell import all from DAQinstance.py: 
               `from jupyterpidaq.DAQinstance import *`.
                When run this cell should load the DAQmenu at the end of the Jupyter
                notebook menu/icon bar. If you do not have an appropriate A-to-D
                board installed you will get a message and the software
                will default to demo mode, substituting a random number
                generator for the A-to-D. Because of the demo mode it is
                possible to run this on any computer, not just a Pi.
                
        _Development_
        
        Basic requirements: Python 3.6+, associated
        pip and a Jupyter notebook.
        See: [python.org](https://python.org) and
        [Jupyter.org](https://jupyter.org).
        
        1. If not installed, install pipenv:`$ pip3 install --user pipenv`. You may
        need to add `~/.local/bin` to your `PATH` to make `pipenv`
        available in your command shell. More discussion: 
        [The Hitchhiker's Guide to Python](https://docs.python-guide.org/dev/virtualenvs/).
        1. Navigate to the directory where this package will be
        or has been downloaded to. Use `pipenv`to install an 
        ["editable" package](https://pip.pypa.io/en/stable/reference/pip_install/#editable-installs) 
        inside the directory as described below:
            1. Start a shell in the environment `$ pipenv shell`.
            1. Install using pip.
                1. If you downloaded the git repository named "JupyterPiDAQ"
                and have used that directory to build your virtual
                environment: `$ pip install -e ../JupyterPiDAQ/`.
                1. If you are downloading from PyPi
                `$ pip install -e JupyterPiDAQ`
                1. Either should install all the additional packages this
                package depends upon. On a Raspberry Pi this will take
                a long time. It probably will not run without at least 1 GB of swap. See: 
                [Build Jupyter on a Pi
                ](https://www.uwosh.edu/facstaff/gutow/computer-and-programming-how-tos/installing-jupyter-on-raspberrian).
            1. Still within the environment shell test
               this by starting jupyter `$ jupyter notebook`. Jupyter should launch in
               your browser.
                1. Open a new notebook using the default (Python 3) kernel.
                1. In the first cell import all from DAQinstance.py: 
                `from jupyterpidaq.DAQinstance import *`.
                When run this cell should load the DAQmenu at the end of the
                Jupyter notebook menu/icon bar. If you do not have an appropriate A-to-D
                board installed you will get a message and the software
                will default to demo mode, substituting a random number
                generator for the A-to-D. Because of the demo mode it is
                possible to run this on any computer, not just a Pi.
        1. If you wish, you can make this environment available to an alternate Jupyter
        install as a special kernel when you are the user.
            1. Make sure you are running in your virtual environment `$ pipenv shell` 
               in the directory for  virtual environment will do that.
            1. Issue the command to add this as a kernel to your personal space: 
            `$ python -m ipykernel install --user --name=<name-you-want-for-kernel>`.
            1. More information is available in the Jupyter/Ipython documentation. 
            A simple tutorial from Nikolai Jankiev (_Parametric Thoughts_) can be
             found [here](https://janakiev.com/til/jupyter-virtual-envs/). 
        
Platform: UNKNOWN
Classifier: Development Status :: 4 - Beta
Classifier: Intended Audience :: Developers
Classifier: Intended Audience :: Education
Classifier: Intended Audience :: End Users/Desktop
Classifier: License :: OSI Approved :: GNU General Public License v3 or later (GPLv3+)
Classifier: Programming Language :: Python :: 3
Classifier: Programming Language :: JavaScript
Classifier: Operating System :: OS Independent
Description-Content-Type: text/markdown
