import pylab
from . import log
+from . import PYSAWSIM_LOG_LEVEL_MSG as _PYSAWSIM_LOG_LEVEL_MSG
from .histogram import Histogram
-from .manager import MANAGERS, get_manager
from .sawsim_histogram import sawsim_histogram
from .sawsim import SawsimRunner
+_multiprocess_can_split_ = True
+"""Allow nosetests to split tests between processes.
+"""
+
FIGURE = pylab.figure() # avoid memory problems.
"""`pylab` keeps internal references to all created figures, so share
a single instance.
#HISTOGRAM: -v 6e-7
#Force (N)\tUnfolding events
-1.8e-10\t1
-1.9e-10\t0
-2e-10\t0
-2.1e-10\t0
-2.2e-10\t0
-2.3e-10\t0
-2.4e-10\t1
-2.5e-10\t0
-2.6e-10\t2
-2.7e-10\t0
-2.8e-10\t1
-2.9e-10\t6
-3e-10\t2
-3.1e-10\t3
+1.4e-10\t1
+1.5e-10\t0
+1.6e-10\t4
+1.7e-10\t6
+1.8e-10\t8
+1.9e-10\t20
+2e-10\t28
+2.1e-10\t38
+2.2e-10\t72
+2.3e-10\t110
+2.4e-10\t155
+2.5e-10\t247
+2.6e-10\t395
+2.7e-10\t451
+2.8e-10\t430
+2.9e-10\t300
+3e-10\t116
+3.1e-10\t18
+3.2e-10\t1
#HISTOGRAM: -v 8e-7
#Force (N)\tUnfolding events
-2.4e-10\t1
-2.5e-10\t0
-2.6e-10\t4
-2.7e-10\t2
-2.8e-10\t2
-2.9e-10\t3
-3e-10\t2
-3.1e-10\t1
-3.2e-10\t1
+8e-11\t1
+9e-11\t0
+1e-10\t0
+1.1e-10\t1
+1.2e-10\t0
+1.3e-10\t0
+1.4e-10\t0
+1.5e-10\t3
+1.6e-10\t3
+1.7e-10\t4
+1.8e-10\t4
+1.9e-10\t13
+2e-10\t29
+2.1e-10\t39
+2.2e-10\t60
+2.3e-10\t102
+2.4e-10\t154
+2.5e-10\t262
+2.6e-10\t402
+2.7e-10\t497
+2.8e-10\t541
+2.9e-10\t555
+3e-10\t325
+3.1e-10\t142
+3.2e-10\t50
+3.3e-10\t13
#HISTOGRAM: -v 1e-6
#Force (N)\tUnfolding events
-2e-10\t1
-2.1e-10\t0
-2.2e-10\t1
-2.3e-10\t1
-2.4e-10\t1
-2.5e-10\t0
-2.6e-10\t2
-2.7e-10\t1
-2.8e-10\t4
-2.9e-10\t2
-3e-10\t2
-3.1e-10\t0
-3.2e-10\t1
+1.5e-10\t2
+1.6e-10\t3
+1.7e-10\t7
+1.8e-10\t8
+1.9e-10\t7
+2e-10\t25
+2.1e-10\t30
+2.2e-10\t58
+2.3e-10\t76
+2.4e-10\t159
+2.5e-10\t216
+2.6e-10\t313
+2.7e-10\t451
+2.8e-10\t568
+2.9e-10\t533
+3e-10\t416
+3.1e-10\t222
+3.2e-10\t80
+3.3e-10\t24
+3.4e-10\t2
"""
unique to that experiment.
>>> from .manager.thread import ThreadManager
- >>> velocity_stream = StringIO(EXAMPLE_HISTOGRAM_FILE_CONTENTS)
+ >>> histogram_stream = StringIO(EXAMPLE_HISTOGRAM_FILE_CONTENTS)
>>> param_format_string = (
... '-s cantilever,hooke,0.05 -N1 '
... '-s folded,null -N8 '
... '-s "unfolded,wlc,{0.39e-9,28e-9}" '
... '-k "folded,unfolded,bell,{%g,%g}" -q folded')
>>> m = ThreadManager()
- >>> sr = SawsimRunner(sawsim='bin/sawsim', manager=m)
- >>> hm = HistogramMatcher(velocity_stream, param_format_string, sr, N=3)
+ >>> sr = SawsimRunner(manager=m)
+ >>> hm = HistogramMatcher(histogram_stream, param_format_string, sr, N=3)
>>> hm.plot([[1e-5,1e-3,3],[0.1e-9,1e-9,3]], logx=True, logy=False)
>>> m.teardown()
"""
def __init__(self, histogram_stream, param_format_string,
sawsim_runner, N=400, residual_type='jensen-shannon',
- plot=True):
+ plot=False):
self.experiment_histograms = self._read_force_histograms(
histogram_stream)
self.param_format_string = param_format_string
def _read_force_histograms(self, stream):
"""
File format:
- # comment and blank lines ignored
- <velocity in m/s><whitespace><path to histogram file>
- ...
+
+ # comment and blank lines ignored
+ #HISTOGRAM: <histogram-specific params>
+ <pysawsim.histogram.Histogram-compatible histogram>
+ #HISTOGRAM: <other histogram-specific params>
+ <another pysawsim.histogram.Histogram-compatible histogram>
+ ...
>>> import sys
>>> stream = StringIO(EXAMPLE_HISTOGRAM_FILE_CONTENTS)
>>> histograms['-v 1e-6'].to_stream(sys.stdout)
... # doctest: +NORMALIZE_WHITESPACE, +REPORT_UDIFF
#Force (N)\tUnfolding events
- 2e-10\t1
- 2.1e-10\t0
- 2.2e-10\t1
- 2.3e-10\t1
- 2.4e-10\t1
- 2.5e-10\t0
- 2.6e-10\t2
- 2.7e-10\t1
- 2.8e-10\t4
- 2.9e-10\t2
- 3e-10\t2
- 3.1e-10\t0
- 3.2e-10\t1
+ 1.5e-10\t2
+ 1.6e-10\t3
+ 1.7e-10\t7
+ 1.8e-10\t8
+ 1.9e-10\t7
+ 2e-10\t25
+ 2.1e-10\t30
+ 2.2e-10\t58
+ 2.3e-10\t76
+ 2.4e-10\t159
+ 2.5e-10\t216
+ 2.6e-10\t313
+ 2.7e-10\t451
+ 2.8e-10\t568
+ 2.9e-10\t533
+ 3e-10\t416
+ 3.1e-10\t222
+ 3.2e-10\t80
+ 3.3e-10\t24
+ 3.4e-10\t2
"""
token = '#HISTOGRAM:'
hist_blocks = {None: []}
return '%s %s' % (
self.param_format_string % tuple(params), hist_params)
- def get_all_unfolding_data(self, dirname, velocity_string):
- datafile = os.path.join(dirname, "data_" + velocity_string)
- return numpy.fromfile(datafile, sep=" ")
-
- sawsim_histograms = {}
- for velocity in velocities:
- unfolding_forces = self.get_all_unfolding_data(dirname, str(velocity))
- bin_edges = histograms[velocity].bin_edges
- h = Histogram()
- h.from_data(unfolding_forces, bin_edges)
- sawsim_histograms[velocity] = h
- sawsim_histograms[velocity].normalize()
- return sawsim_histograms
-
- def _residual(self, params):
+ def residual(self, params):
residual = 0
for hist_params,experiment_hist in self.experiment_histograms.iteritems():
sawsim_hist = sawsim_histogram(
self._plot_residual_comparison(
experiment_hist, sawsim_hist, residual=r,
title=title, filename=filename)
- log().debug('residual: %g' % residual)
+ log().debug('residual %s: %g' % (params, residual))
return residual
- def plot(self, param_ranges, logx=False, logy=False, contour=False):
+ def plot(self, param_ranges, logx=False, logy=False, contour=False,
+ csv=None):
+ if csv:
+ csv.write(','.join(('param 1', 'param 2', 'fit quality')) + '\n')
xranges = param_ranges[0]
yranges = param_ranges[1]
if logx == False:
log().info('point %d %d (%d of %d)'
% (i, j, i*(len(y)-1) + j, (len(x)-1)*(len(y)-1)))
params = (xi,yj)
- r = self._residual(params)
+ r = self.residual(params)
+ if csv:
+ csv.write(','.join([str(v) for v in (xi,yj,r)]) + '\n')
C[j,i] = numpy.log(r) # better resolution in valleys
if MEM_DEBUG == True:
log().debug('RSS: %d KB' % rss())
>>> parse_param_ranges_string('[1,2,3],[4,5,6]')
[[1.0, 2.0, 3.0], [4.0, 5.0, 6.0]]
+ >>> parse_param_ranges_string('[1,2,3]')
+ [[1.0, 2.0, 3.0]]
"""
ranges = []
for range_string in string.split("],["):
>>> f = tempfile.NamedTemporaryFile()
>>> f.write(EXAMPLE_HISTOGRAM_FILE_CONTENTS)
>>> f.flush()
- >>> main(['-s', 'bin/sawsim',
- ... '-r', '[1e-5,1e-3,3],[0.1e-9,1e-9,3]',
+ >>> main(['-r', '[1e-5,1e-3,3],[0.1e-9,1e-9,3]',
... '-N', '2',
... f.name])
>>> f.close()
'`<bin_edge>` should mark the left-hand side of the bin, and',
'all bins should be of equal width (so we know where the last',
'one ends).',
+ PYSAWSIM_LOG_LEVEL_MSG,
])
parser = OptionParser(usage, epilog=epilog)
parser.format_epilog = lambda formatter: epilog+'\n'
if option.dest == 'param_string':
continue
parser.add_option(option)
- parser.add_option("-f","--param-format", dest="param_format",
- metavar="FORMAT",
- help="Convert params to sawsim options (%default).",
+ parser.add_option('-f','--param-format', dest='param_format',
+ metavar='FORMAT',
+ help='Convert params to sawsim options (%default).',
default=('-s cantilever,hooke,0.05 -N1 -s folded,null -N8 -s "unfolded,wlc,{0.39e-9,28e-9}" -k "folded,unfolded,bell,{%g,%g}" -q folded'))
- parser.add_option("-p","--initial-params", dest="initial_params",
- metavar="PARAMS",
- help="Initial params for fitting (%default).",
+ parser.add_option('-p','--initial-params', dest='initial_params',
+ metavar='PARAMS',
+ help='Initial params for fitting (%default).',
default='3.3e-4,0.25e-9')
- parser.add_option("-r","--param-range", dest="param_range",
- metavar="PARAMS",
- help="Param range for plotting (%default).",
+ parser.add_option('-r','--param-range', dest='param_range',
+ metavar='PARAMS',
+ help='Param range for plotting (%default).',
default='[1e-5,1e-3,20],[0.1e-9,1e-9,20]')
- parser.add_option("-R","--residual", dest="residual",
- metavar="STRING",
- help="Residual type (from 'jensen-shannon', 'chi-squared', 'mean', 'std-dev'; default: %default).",
+ parser.add_option('--logx', dest='logx',
+ help='Use a log scale for the x range.',
+ default=False, action='store_true')
+ parser.add_option('--logy', dest='logy',
+ help='Use a log scale for the y range.',
+ default=False, action='store_true')
+ parser.add_option('-R','--residual', dest='residual',
+ metavar='STRING',
+ help='Residual type (from %s; default: %%default).'
+ % ', '.join(Histogram().types()),
default='jensen-shannon')
- parser.add_option("-P","--plot-residuals", dest="plot_residuals",
- help="Generate residual difference plots for each point in the plot range.",
- default=False, action="store_true")
- parser.add_option("--logx", dest="logx",
- help="Use a log scale for the x range.",
- default=False, action="store_true")
- parser.add_option("--logy", dest="logy",
- help="Use a log scale for the y range.",
- default=False, action="store_true")
- parser.add_option("-c","--contour-plot", dest="contour_plot",
- help="Select contour plot (vs. the default pseudocolor plot).",
- default=False, action="store_true")
+ parser.add_option('-P','--plot-residuals', dest='plot_residuals',
+ help='Generate residual difference plots for each point in the plot range.',
+ default=False, action='store_true')
+ parser.add_option('-c','--contour-plot', dest='contour_plot',
+ help='Select contour plot (vs. the default pseudocolor plot).',
+ default=False, action='store_true')
+ parser.add_option('--csv', dest='csv', metavar='FILE',
+ help='Save fit qualities to a comma-separated value file FILE.'),
options,args = parser.parse_args(argv)
initial_params = [float(p) for p in options.initial_params.split(",")]
param_ranges = parse_param_ranges_string(options.param_range)
- velocity_file = args[0]
+ histogram_file = args[0]
+ csv = None
sr_call_params = sr.initialize_from_options(options)
try:
hm = HistogramMatcher(
- file(velocity_file, 'r'), param_format_string=options.param_format,
+ file(histogram_file, 'r'),
+ param_format_string=options.param_format,
sawsim_runner=sr, residual_type=options.residual,
plot=options.plot_residuals, **sr_call_params)
#hm.fit(initial_params)
+ if options.csv:
+ csv = open(options.csv, 'w')
hm.plot(param_ranges, logx=options.logx, logy=options.logy,
- contour=options.contour_plot)
+ contour=options.contour_plot, csv=csv)
finally:
sr.teardown()
+ if csv:
+ csv.close()