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README.txt
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README.txt
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===================================================
Efficient coalescent simulation in continuous space
===================================================
Simulates the coalescent for populations evolving in a spatial
continuum under the extinction/recolonisation model. This
package is a specialisation of the `ercs <https://pypi.python.org/pypi/ercs>`_
package, and provides a much more efficient method of
simulating the spatial coalescent for the disc model.
A very similar (but not identical) interface to ``ercs``
is provided.
The simulations
support:
- A sample of ``n`` individuals with ``m`` loci at arbitrary locations on a
torus of diameter ``L``.
- A fixed recombination rate between pairs of adjacent loci.
- An arbitrary number of classes of event occuring at fixed
rates.
- Simulations in one and two dimensions.
- Access to the locations of ancestors at any time in the past.
- Simulations of the locations of all pedigree ancestors, as well
as the genetic ancestors.
The ``discsim`` module supports Python 2 and 3.
-------------
Documentation
-------------
Here's a quick example for the impatient::
import ercs
import discsim
sim = discsim.Simulator(10)
sim.sample = [None, (3, 2), (6, 4), (7, 0)]
sim.event_classes = [ercs.DiscEventClass(u=0.5, r=1)]
sim.run()
pi, tau = sim.get_history()
Full documentation for ``discsim`` is available at
`<http://pythonhosted.org/discsim>`_.
------------
Installation
------------
*******************************
Quick install for Debian/Ubuntu
*******************************
If you are running Debian or Ubuntu, this should get you up and running quickly::
$ sudo apt-get install python-dev libgsl0-dev
$ sudo pip install ercs discsim
For Python 3, use ``python3-dev`` and ``pip3``.
********************
General instructions
********************
The ``discsim`` module
depends on the `GNU Scientific Library <http://www.gnu.org/software/gsl/>`_,
which must be installed before it can be built.
Fortunately, this is straightforward on most platforms. For example,
on Debian or Ubuntu use::
$ sudo apt-get install libgsl0-dev
or on Fedora::
$ sudo yum install gsl-devel
GSL is available on most packaging systems; if it is not available on your
platform, it can be installed from source.
The ``discsim`` module also depends on the
`ercs <https://pypi.python.org/pypi/ercs>`_
Python module, which
must also be installed, using the same methods as outlined below.
Once GSL has been installed we can build the ``discsim`` module using the
standard Python `methods <http://docs.python.org/install/index.html>`_. For
example, using pip we have ::
$ sudo pip install discsim
Or, we can manually download the package, unpack it and then run::
$ python setup.py build
$ sudo python setup.py install
Most of the time this will compile and install the module without difficulty.
It is also possible to download the latest development version of
``discsim`` from `github <https://github.com/jeromekelleher/discsim>`_.
******************
Potential problems
******************
On platforms that GSL is not available as part of the native packaging
system (or GSL was installed locally because of non-root access)
there can be issues with finding the correct headers and libraries
when compiling ``ercs`` and ``discsim``. For example, on FreeBSD we get something
like this::
$ python setup.py build
... [Messages cut for brevity] ...
_discsimmodule.c:515: error: 'sim_t' has no member named 'time'
_discsimmodule.c: In function 'Simulator_get_num_reproduction_events':
_discsimmodule.c:529: error: 'sim_t' has no member named 'num_reproduction_events'
_discsimmodule.c: In function 'Simulator_get_history':
_discsimmodule.c:743: error: 'sim_t' has no member named 'pi'
_discsimmodule.c:748: error: 'sim_t' has no member named 'tau'
_discsimmodule.c: In function 'Simulator_run':
_discsimmodule.c:789: error: 'sim_t' has no member named 'time'
error: command 'cc' failed with exit status 1
This can be remedied by using the ``gsl-config`` program to set the
the ``LDFLAGS`` and ``CFLAGS`` environment variables to
their correct values::
$ CFLAGS=`gsl-config --cflags` LDFLAGS=`gsl-config --libs` python setup.py build
*****
Tests
*****
``discsim`` provides some test cases to ensure that the installation has gone smoothly.
It is a good idea to run these immediately after installation::
$ python tests.py
****************
Tested platforms
****************
Discsim has been successfully built and tested on the following platforms:
================ ======== ====== ========
Operating system Platform Python Compiler
================ ======== ====== ========
Debian wheezy x86_64 2.7.3 gcc 4.7.2
Debian wheezy x86_64 3.2.3 gcc 4.7.2
Debian wheezy x86 2.7.3 gcc 4.7.2
Debian squeeze ppc64 2.6.6 gcc 4.4.5
Debian squeeze ppc64 3.1.3 gcc 4.4.5
Debian squeeze x86_64 2.6.6 gcc 4.4.5
Debian squeeze x86_64 3.1.3 gcc 4.4.5
FreeBSD 9.2 x86_64 2.7.5 gcc 4.2.1
FreeBSD 9.2 x86_64 3.3.2 gcc 4.2.1
Fedora 19 x86_64 2.7.5 gcc 4.8.1
Fedora 19 x86_64 3.3.2 gcc 4.8.1
SunOS 5.10 SPARC 3.3.2 gcc 4.8.0
================ ======== ====== ========