/usr/share/pyshared/brian/plotting.py is in python-brian 1.3.1-1build1.
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# Copyright ENS, INRIA, CNRS
# Contributors: Romain Brette (brette@di.ens.fr) and Dan Goodman (goodman@di.ens.fr)
#
# Brian is a computer program whose purpose is to simulate models
# of biological neural networks.
#
# This software is governed by the CeCILL license under French law and
# abiding by the rules of distribution of free software. You can use,
# modify and/ or redistribute the software under the terms of the CeCILL
# license as circulated by CEA, CNRS and INRIA at the following URL
# "http://www.cecill.info".
#
# As a counterpart to the access to the source code and rights to copy,
# modify and redistribute granted by the license, users are provided only
# with a limited warranty and the software's author, the holder of the
# economic rights, and the successive licensors have only limited
# liability.
#
# In this respect, the user's attention is drawn to the risks associated
# with loading, using, modifying and/or developing or reproducing the
# software by the user in light of its specific status of free software,
# that may mean that it is complicated to manipulate, and that also
# therefore means that it is reserved for developers and experienced
# professionals having in-depth computer knowledge. Users are therefore
# encouraged to load and test the software's suitability as regards their
# requirements in conditions enabling the security of their systems and/or
# data to be ensured and, more generally, to use and operate it in the
# same conditions as regards security.
#
# The fact that you are presently reading this means that you have had
# knowledge of the CeCILL license and that you accept its terms.
# ----------------------------------------------------------------------------------
#
"""
Plotting routines for Brian
Functions:
* ``raster_plot(monitors...,options...)``
* ``hist_plot(monitor,options...)``
"""
__docformat__ = "restructuredtext en"
__all__ = ['plot', 'show', 'figure', 'xlabel', 'ylabel', 'title', 'axis',
'raster_plot', 'raster_plot_spiketimes', 'hist_plot']
try:
from pylab import plot, show, figure, xlabel, ylabel, title, axis, xlim
import pylab, matplotlib
except:
plot, show, figure, xlabel, ylabel, title, axis, xlim = (None,)*8
from stdunits import *
import magic
from connections import *
from monitor import *
from monitor import HistogramMonitorBase
from network import network_operation
from clock import EventClock
import warnings
from log import *
from numpy import amax, amin, array, hstack
import bisect
def _take_options(myopts, givenopts):
"""Takes options from one dict into another
Any key defined in myopts and givenopts will be removed
from givenopts and placed in myopts.
"""
for k in myopts.keys():
if k in givenopts:
myopts[k] = givenopts.pop(k)
def raster_plot(*monitors, **plotoptions):
"""Raster plot of a :class:`SpikeMonitor`
**Usage**
``raster_plot(monitor,options...)``
Plots the spike times of the monitor
on the x-axis, and the neuron number on the y-axis
``raster_plot(monitor0,monitor1,...,options...)``
Plots the spike times
for all the monitors given, with y-axis defined by placing a spike
from neuron n of m in monitor i at position i+n/m
``raster_plot(options...)``
Guesses the monitors to plot automagically
**Options**
Any of PyLab options for the ``plot`` command can be given, as well as:
``showplot=False``
set to ``True`` to run pylab's ``show()`` function
``newfigure=False``
set to ``True`` to create a new figure with pylab's ``figure()`` function
``xlabel``
label for the x-axis
``ylabel``
label for the y-axis
``title``
title for the plot
``showgrouplines=False``
set to ``True`` to show a line between each monitor
``grouplinecol``
colour for group lines
``spacebetweengroups``
value between 0 and 1 to insert a space between
each group on the y-axis
``refresh``
Specify how often (in simulation time) you would like the plot to
refresh. Note that this will only work if pylab is in interactive mode,
to ensure this call the pylab ``ion()`` command.
``showlast``
If you are using the ``refresh`` option above, plots are much quicker
if you specify a fixed time window to display (e.g. the last 100ms).
``redraw``
If you are using more than one realtime monitor, only one of them needs
to issue a redraw command, therefore set this to ``False`` for all but
one of them.
Note that with some IDEs, interactive plotting will not work with the
default matplotlib backend, try doing something like this at the
beginning of your script (before importing brian)::
import matplotlib
matplotlib.use('WXAgg')
You may need to experiment, try WXAgg, GTKAgg, QTAgg, TkAgg.
"""
if len(monitors) == 0:
(monitors, monitornames) = magic.find_instances(SpikeMonitor)
if len(monitors):
# OPTIONS
# Defaults
myopts = {"title":"", "xlabel":"Time (ms)", "showplot":False, "showgrouplines":False, \
"spacebetweengroups":0.0, "grouplinecol":"k", 'newfigure':False,
'refresh':None, 'showlast':None, 'redraw':True}
if len(monitors) == 1:
myopts["ylabel"] = 'Neuron number'
else:
myopts["ylabel"] = 'Group number'
# User options
_take_options(myopts, plotoptions)
# PLOTTING ROUTINE
spacebetween = myopts['spacebetweengroups']
class SecondTupleArray(object):
def __init__(self, obj):
self.obj = obj
def __getitem__(self, i):
return float(self.obj[i][1])
def __len__(self):
return len(self.obj)
def get_plot_coords(tmin=None, tmax=None):
allsn = []
allst = []
for i, m in enumerate(monitors):
mspikes = m.spikes
if tmin is not None and tmax is not None:
x = SecondTupleArray(mspikes)
imin = bisect.bisect_left(x, tmin)
imax = bisect.bisect_right(x, tmax)
mspikes = mspikes[imin:imax]
if len(mspikes):
sn, st = array(mspikes).T
else:
sn, st = array([]), array([])
st /= ms
if len(monitors) == 1:
allsn = [sn]
else:
allsn.append(i + ((1. - spacebetween) / float(len(m.source))) * sn)
allst.append(st)
sn = hstack(allsn)
st = hstack(allst)
if len(monitors) == 1:
nmax = len(monitors[0].source)
else:
nmax = len(monitors)
return st, sn, nmax
st, sn, nmax = get_plot_coords()
if myopts['newfigure']:
pylab.figure()
if myopts['refresh'] is None:
line, = pylab.plot(st, sn, '.', **plotoptions)
else:
line, = pylab.plot([], [], '.', **plotoptions)
if myopts['refresh'] is not None:
pylab.axis(ymin=0, ymax=nmax)
if myopts['showlast'] is not None:
pylab.axis(xmin= -myopts['showlast'] / ms, xmax=0)
ax = pylab.gca()
if myopts['showgrouplines']:
for i in range(len(monitors)):
pylab.axhline(i, color=myopts['grouplinecol'])
pylab.axhline(i + (1 - spacebetween), color=myopts['grouplinecol'])
pylab.ylabel(myopts['ylabel'])
pylab.xlabel(myopts['xlabel'])
pylab.title(myopts["title"])
if myopts["showplot"]:
pylab.show()
if myopts['refresh'] is not None:
@network_operation(clock=EventClock(dt=myopts['refresh']))
def refresh_raster_plot(clk):
if matplotlib.is_interactive():
if myopts['showlast'] is None:
st, sn, nmax = get_plot_coords()
line.set_xdata(st)
line.set_ydata(sn)
ax.set_xlim(0, amax(st))
else:
st, sn, nmax = get_plot_coords(clk._t - float(myopts['showlast']), clk._t)
ax.set_xlim((clk.t - myopts['showlast']) / ms, clk.t / ms)
line.set_xdata(array(st))
line.set_ydata(sn)
if myopts['redraw']:
pylab.draw()
pylab.get_current_fig_manager().canvas.flush_events()
monitors[0].contained_objects.append(refresh_raster_plot)
def raster_plot_spiketimes(spiketimes):
"""
Raster plot of a list of spike times
"""
m = Monitor()
m.source = []
m.spikes = spiketimes
raster_plot(m)
t = array(spiketimes)[:,1]
def hist_plot(histmon=None, **plotoptions):
"""Plot a histogram
**Usage**
``hist_plot(histmon,options...)``
Plot the given histogram monitor
``hist_plot(options...)``
Guesses which histogram monitor to use
with argument:
``histmon``
is a monitor of histogram type
**Notes**
Plots only the first n-1 of n bars in the histogram, because
the nth bar is for the interval (-,infinity).
**Options**
Any of PyLab options for bar can be given, as well as:
``showplot=False``
set to ``True`` to run pylab's ``show()`` function
``newfigure=True``
set to ``False`` not to create a new figure with pylab's ``figure()`` function
``xlabel``
label for the x-axis
``ylabel``
label for the y-axis
``title``
title for the plot
"""
if histmon is None:
(histmons, histmonnames) = magic.find_instances(HistogramMonitorBase)
if len(histmons) == 0:
raise TypeError, "No histogram monitors found."
elif len(histmons) > 1:
log_info('brian.hist_plot', "Found more than one histogram monitor, using first one.")
histmon = histmons[0]
# OPTIONS
# Defaults
myopts = {"title":"", "xlabel":"Time (ms)", "ylabel":"Count", "showplot":False, 'newfigure':True }
# User options
_take_options(myopts, plotoptions)
# PLOTTING ROUTINE
if myopts['newfigure']:
pylab.figure()
pylab.bar(histmon.bins[:-1] / ms, histmon.count[:-1], (histmon.bins[1:] - histmon.bins[:-1]) / ms, **plotoptions)
pylab.ylabel(myopts['ylabel'])
pylab.xlabel(myopts['xlabel'])
pylab.title(myopts["title"])
if myopts["showplot"]:
pylab.show()
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