Python/numba code for manipulating time-dependent functions of spin-weighted spherical harmonics
If you use this code for academic work (I can't actually imagine any other use for it), please cite the latest version that you used in your publication. The DOI is:
Also please cite the papers for/by which it was produced:
- "Angular velocity of gravitational radiation from precessing binaries and the corotating frame", Boyle, Phys. Rev. D, 87, 104006 (2013).
- "Gravitational-wave modes from precessing black-hole binaries", Boyle et al., http://arxiv.org/abs/1409.4431 (2014).
- "Transformations of asymptotic gravitational-wave data", Boyle, Phys. Rev. D, 93, 084031 (2015).
Bibtex entries for these articles can be found here. It might also be nice of you to provide a link directly to this source code.
Assuming you have the anaconda
distribution
of python (the preferred distribution for scientific applications),
installation is as simple as
conda update -y --all
conda install -c conda-forge scri
If you need to install anaconda
first, it's very easy and doesn't require root permissions. Just download and follow the instructions — particularly setting your PATH
. Also, make sure PYTHONPATH
and PYTHONHOME
are not set. Ensure that it worked by running python --version
. It should say something about anaconda; if not, you probably forgot to set your PATH
. Now just run the installation command above.
Then, in python, you can check to make sure installation worked with
import scri
w = scri.WaveformModes()
Now, w
is an object to contain time and waveform data, as well as various
related pieces of information -- though it is trivial in this case, because we
haven't given it any data. For more information, see the docstrings of scri
,
scri.WaveformModes
, etc.
The dependencies should be taken care of automatically by the quick installation instructions above. However, if you run into problems (or if you foolishly decide not to use anaconda to install things), it may be because you are missing some or all of these:
- Standard packages (come with full anaconda installation)
- My packages, available from anaconda.org and/or github
fftw
(not actually mine, but I maintain a copy for easy installation)spinsfast
(not actually mine, but I maintain a copy with updated python features)quaternion
spherical_functions
All these dependencies are installed automatically when you use the conda
command described above. The anaconda
distribution can co-exist with your
system python with no trouble -- you simply add the path to anaconda before
your system executables. In fact, your system python probably needs to stay
crusty and old so that your system doesn't break, while you want to use a newer
version of python to actually run fancy new code like this. This is what
anaconda
does for you. It installs into your home directory, so it doesn't
require root access. It can be uninstalled easily, since it exists entirely
inside its own directory. And updates are trivial.
The instructions in the "Quick Start" section above should be sufficient, as
there really is no good reason not to use anaconda
. You will occasionally
hear people complain about it not working; these people have not installed it
correctly, and have other python-related environment variables that shouldn't
be there. You don't want to be one of those people.
Nonetheless, it is possible to install these packages without anaconda -- in
principle. The main hurdle to overcome is numba
. Maybe there are nice ways
to install numba
without anaconda
. I don't know. I don't care. But if
you're awesome enough to do that, you're awesome enough to install all the
other dependencies without advice from me. But in short, you can either use
the setup.py
files as usual, or just use pip
:
pip install git+git://github.com/moble/spinsfast
pip install git+git://github.com/moble/quaternion
pip install git+git://github.com/moble/spherical_functions
pip install git+git://github.com/moble/scri
And since you're just soooo cool, you already know that the --user
flag is
missing from those commands because you're presumably using a virtual
environment, hotshot.
(If you're really not that cool, and aren't using virtualenv
, you might think
you should sudo
those commands. But there's no need if you just use the
--user
flag instead. That installs packages into your user directory, which
is usually a better idea.)
Note that spinsfast
depends (for both building and running) on fftw
. If
you run into build problems with spinsfast
, it probably can't find the
header or library for fftw
. See the documentation of my copy of spinsfast
here for suggestions
on solving that problem. Of course, with conda
, fftw
is installed in the
right place from my channel automatically.
Tutorials and automatically generated API documentation are available on Read the Docs: scri.
This code is, of course, hosted on github; because it is an open-source project, the hosting is free, and all the wonderful features of github are available, including free wiki space and web page hosting, pull requests, a nice interface to the git logs, etc.
Every change in this code is auomatically tested on Travis-CI. This is a free service (for open-source projects like this one), which integrates beautifully with github, detecting each commit and automatically re-running the tests. The code is downloaded and installed fresh each time, and then tested, on both versions of python (2 and 3). This ensures that no change I make to the code breaks either installation or any of the features that I have written tests for.
Every change to this code is also recompiled automatically, bundled into a
conda
package, and made available for download from
anaconda.org. Again, because this is an
open-source project all those nice features are free.
The work of creating this code was supported in part by the Sherman Fairchild Foundation and by NSF Grants No. PHY-1306125 and AST-1333129.