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pyfmmlib: A Python Interface to FMMLIB
======================================
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:target: http://pypi.python.org/pypi/pyfmmlib
pyfmmlib is a Python wrapper for `fmmlib2d
<https://cims.nyu.edu/cmcl/fmm2dlib/fmm2dlib.html>`_ and `fmmlib3d
<https://cims.nyu.edu/cmcl/fmm3dlib/fmm3dlib.html>`_ implementations of the
`fast multipole method <https://en.wikipedia.org/wiki/Fast_multipole_method>`_ for
`Laplace <https://en.wikipedia.org/wiki/Laplace%27s_equation>`_ and
`Helmholtz <https://en.wikipedia.org/wiki/Helmholtz_equation>`_ potentials by
Zydrunas Gimbutas and Leslie Greengard (and including code by many more people).
This wrapper is far from comprehensive. It just catches the things I ended up
needing. Nonetheless, the FMMs and a fair bit of other useful stuff is accessible.
Installation
------------
To build this, you need
* `numpy <http://numpy.org>`_
* `mako <http://makotemplates.org>`_ (`pip <https://pypi.python.org/pypi/pip>`_ install mako or `ez_install mako`)
python setup.py install
as usual and cross your fingers.
Documentation
-------------
Not much, unfortunately. Here's what I do to figure out how to use stuff::
>>> import pyfmmlib
>>> dir(pyfmmlib)
['__builtins__', '__doc__', '__file__', '__name__', '__package__', '_add_plot', ...]
Fish the desired function from this list (let's use 'legefder' as an
example) and run:
>>> print pyfmmlib.legefder.__doc__
legefder - Function signature:
val,der = legefder(x,pexp,[n])
Required arguments:
x : input float
pexp : input rank-1 array('d') with bounds (n + 1)
Optional arguments:
n := (len(pexp)-1) input int
Return objects:
val : float
der : float
This tells you how to call the function from Python.
You can then use grep to fish out the right Fortran source::
$ grep -icl 'legefder' fmmlib*/*/*.f
fmmlib3d/src/legeexps.f
Then look at the docs there, and you're in business. No idea what
function name to look for? Just use the same grep procedure to look
for keywords.
Crude, but effective. :)
Two more things:
* Some functions are wrapped with a ``_vec`` suffix. This means they
apply to whole vectors of arguments at once. They're also parallel
via OpenMP.
* ``pyfmmlib.fmm_part`` and ``pyfmmlib.fmm_tria`` are (dimension-independent)
wrappers that make the calling sequence for the FMMs just a wee bit less
Here's a rough idea how these are called::
from pyfmmlib import fmm_part, HelmholtzKernel
pot, grad = fmm_part("PG", iprec=2, kernel=HelmholtzKernel(5),
sources=sources, mop_charge=1, target=targets)
Unlike the rest of the library (which calls directly into Fortran),
these routines expect ``(n,3)``-shaped (that is, C-Order) arrays.
`fmmlib{2,3}d` are licensed under the 3-clause BSD license. (as of November 2017)
This wrapper is licensed under the MIT license, as below.
Copyright (C) 2013 Andreas Kloeckner
Permission is hereby granted, free of charge, to any person obtaining a copy of
this software and associated documentation files (the "Software"), to deal in
the Software without restriction, including without limitation the rights to
use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies
of the Software, and to permit persons to whom the Software is furnished to do
so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in all
copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
SOFTWARE.