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https://github.com/jkeger/seagen

Stretched Equal Area (SEA) Generator - Make spherically symmetric arrangements of particles with accurate particle densities, e.g. for SPH initial conditions that precisely match an arbitrary density profile (Kegerreis et al. 2019, MNRAS 487:4, https://doi.org/10.1093/mnras/stz1606). See also https://github.com/srbonilla/WoMa for making the initial profiles, placing particles with SEAGen, and modifications for spinning planets!
https://github.com/jkeger/seagen

arrangement density particles python shell sph sphere

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Stretched Equal Area (SEA) Generator - Make spherically symmetric arrangements of particles with accurate particle densities, e.g. for SPH initial conditions that precisely match an arbitrary density profile (Kegerreis et al. 2019, MNRAS 487:4, https://doi.org/10.1093/mnras/stz1606). See also https://github.com/srbonilla/WoMa for making the initial profiles, placing particles with SEAGen, and modifications for spinning planets!

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README 

          
SEAGen

======



A python implementation of the stretched equal area (SEA) algorithm for

generating spherically symmetric arrangements of particles with accurate

particle densities, e.g. for SPH initial conditions that precisely match an

arbitrary density profile, as presented in Kegerreis et al. (2019), MNRAS 487:4,

5029-5040, https://doi.org/10.1093/mnras/stz1606.



See also https://github.com/srbonilla/WoMa for making input planetary profiles,

placing particles with SEAGen, and modifications for spinning bodies.



Jacob Kegerreis (2020) jacob.kegerreis@durham.ac.uk  

Josh Borrow



Visit https://github.com/jkeger/seagen to download the code including examples

and for support.



This program has been tested for a wide range of cases but not exhaustively. If

you find any bugs, potential improvements, or features worth adding, then please

let us know!



Contents

--------

+ `seagen.py` The main program classes and functions.

+ `examples.py` Examples to demonstrate how to use the SEAGen module.

+ `setup.py`, `setup.cfg`, `__init__.py`, `MANIFEST.in` Python package files.

+ `LICENSE.txt` GNU general public license v3+.



Basic Usage

-----------

+ See the doc strings in `seagen.py` for all the details.

+ Create a single shell of particles and print their positions:

    ```python

    import seagen

    N = 100

    r = 1



    particles = seagen.GenShell(N, r)



    print(particles.x, particles.y, particles.z)

    ```

+ Create a full sphere of particles on a simple density profile and print their

    positions and masses:

    ```python

    import seagen

    import numpy as np

    N = 100000

    radii = np.arange(0.01, 10, 0.01)

    densities = np.ones(len(radii))     # e.g. constant density



    particles = seagen.GenSphere(N, radii, densities)



    print(particles.x, particles.y, particles.z, particles.m)

    ```

+ See `examples.py` for other working examples, e.g. an arbitrary density

    profile with multiple layers and extra temperature information.



Installation

------------

+ `PyPI`: Automatically install the package with `pip install seagen`, see

    https://pypi.org/project/seagen/

+ Direct download: The single `seagen.py` file can be imported and used without

    any extra installation, so you can just download this repository and place

    the file in a local directory or wherever your python will look for modules.



Requirements

------------

+ Python 3 (tested with 3.6.0).



Notation etc.

-------------

+ Formatted with [black](https://github.com/psf/black).

+ Arrays are explicitly labelled with a prefix `A1_`, or `An_` for an

    `n`-dimensional array.

+ Particle is abbreviated to `picle`.