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directtools

directtools is a Python module for quickly plotting standardized \(S(Q,E)\) color fill plots as well as line profiles (cuts) in constant \(Q\) and \(E\). The module also provides a few utility functions for inspecting and manipulating the \(S(Q,E)\) workspace.

For a general introduction on using matplotlib with Mantid, see this introduction

The input workspaces are expected to have some specific sample logs, namely instrument.name, Ei, run_number, start_time, sample.temperature.

Examples

Examples of some key functionality of directtools is presented below. For a full reference of all available function and classes, see the Reference section below.

plotSofQW

The default parameters for directtools.plotSofQW() give a view of the \(S(Q,E)\) workspace around the elastic peak with sensible limits for the axes and intensity:

import directtools as dt
from mantid.simpleapi import *

DirectILLCollectData(Run='ILL/IN4/084447.nxs', OutputWorkspace='data')
DirectILLReduction(InputWorkspace='data', OutputWorkspace='SofQW')

fig, ax = dt.plotSofQW('SofQW')
#fig.show()

(Source code, png, hires.png, pdf)

../_images/DirecttoolsPythonModule-1.png

The \(Q\), \(E\) and intensity limits can be changed using the optional parameters. The utility functions directtools.validQ() and directtools.nanminmax() might be helpful when determining suitable ranges:

import directtools as dt
from mantid.simpleapi import *

DirectILLCollectData(Run='ILL/IN4/084447.nxs', OutputWorkspace='data')
DirectILLReduction(InputWorkspace='data', OutputWorkspace='SofQW')

EMin = -20.
QMax = dt.validQ('SofQW', EMin)[1]
VMax = 0.5 * dt.nanminmax('SofQW')[1]

fig, axes = dt.plotSofQW('SofQW', QMax=QMax, EMin=EMin, VMax=VMax)
#fig.show()

(Source code, png, hires.png, pdf)

../_images/DirecttoolsPythonModule-2.png

Cuts in \(S(Q,E)\)

An important aspect of examining the \(S(Q,E)\) workspace is to plot cuts at constant \(Q\) and \(E\). This can be done by directtools.plotconstQ() and directtools.plotconstE():

import directtools as dt
from mantid.simpleapi import *
import warnings

DirectILLCollectData(Run='ILL/IN4/084447.nxs', OutputWorkspace='data')
DirectILLReduction(InputWorkspace='data', OutputWorkspace='SofQW')

Q = 2.
dQ = 0.2
# plotconstQ produces a warning on some versions of numpy.
# The "with" statement catches this warning so that the automated
# builds don't fail.
with warnings.catch_warnings():
    warnings.simplefilter("ignore", category=UserWarning)
    fig, axes, cuts = dt.plotconstQ('SofQW', Q, dQ)
    #fig.show()

(Source code, png, hires.png, pdf)

../_images/DirecttoolsPythonModule-3.png

Any of the workspace, cut centre or cut width arguments can be a list instead. This enables data comparison:

import directtools as dt
from mantid.simpleapi import *

DirectILLCollectData(Run='ILL/IN4/084447.nxs', OutputWorkspace='data')
DirectILLReduction(InputWorkspace='data', OutputWorkspace='SofQW')

Q1 = 2.
Q2 = 3.
dQ = 0.2
fig, axes, cuts = dt.plotconstQ('SofQW', [Q1, Q2], dQ)
#fig.show()

(Source code, png, hires.png, pdf)

../_images/DirecttoolsPythonModule-4.png

The directtools.plotconstQ() and directtools.plotconstE() functions use directtools.plotcuts() to do the actual line profiles and plotting. The profiles are made by the LineProfile v1 algorithm, and all three plotting functions return a list of the produced line profile workspace names.

If a line profile already exists, it can be plotted using directtools.plotprofiles(). This also accepts either a single line profile workspace or a list of workspaces enabling comparison:

import directtools as dt
from mantid.simpleapi import *

DirectILLCollectData(Run='ILL/IN4/084447.nxs', OutputWorkspace='data')
DirectILLReduction(InputWorkspace='data', OutputWorkspace='SofQW')

E1 = 8.
dE = 2.
cut1 = LineProfile('SofQW', E1, dE, 'Horizontal')
label1 = 'At E = {} meV'.format(E1)
E2 = E1 - 4.
cut2 = LineProfile('SofQW', E2, dE, 'Horizontal')
label2 = 'At E = {} meV'.format(E2)
fig, axes = dt.plotprofiles([cut1, cut2], [label1, label2], style='m')
axes.legend()
#fig.show()

(Source code, png, hires.png, pdf)

../_images/DirecttoolsPythonModule-5.png

Plotting density of states

The density of states data calculated by ComputeIncoherentDOS can be plotted by the directtools.plotDOS() function. The function accepts a single workspace or a list of workspaces as its arguments. The example below shows a comparison of densities of states calculated from \(S(Q,E)\) and \(S(2\theta,E)\):

import directtools as dt
from mantid.simpleapi import *

DirectILLCollectData(Run='ILL/IN4/084447.nxs', OutputWorkspace='data')
DirectILLReduction(InputWorkspace='data', OutputWorkspace='SofQW', OutputSofThetaEnergyWorkspace='SofTW')
dosFromStw = ComputeIncoherentDOS('SofTW')
dosFromSqw = ComputeIncoherentDOS('SofQW')
fig, axes = dt.plotDOS([dosFromStw, dosFromSqw], labels=[r'from $S(2\theta, E)$', r'from $S(Q,E)$'])
#fig.show()

(Source code, png, hires.png, pdf)

../_images/DirecttoolsPythonModule-6.png

Convenience tools

directtools.SampleLogs is a convenience class to import the sample logs of a workspace into a ‘struct’ like object in Python:

import directtools as dt
from mantid.simpleapi import *

DirectILLCollectData(Run='ILL/IN4/084447.nxs', OutputWorkspace='data')
DirectILLReduction(InputWorkspace='data', OutputWorkspace='SofQW')

# Works on any workspace, not just S(Q,E).
logs = dt.SampleLogs('SofQW')
print(logs.instrument.name)
print(logs.run_number)

Output:

IN4
84447

Reference

Classes

class directtools.SampleLogs(workspace)

A convenience class to access the sample logs of mantid.api.MatrixWorkspace.

Upon initialization, this class adds the sample logs as data attributes to itself. The attributes get their names from the logs. Log names containing dots result in nested log objects. Thus, if a workspace contains logs 'a' and 'b.c':

logs = SampleLogs(workspace)
# This is equivalent of calling workspace.run().getProperty('a').value
logs.a
# This is equivalent of calling workspace.run().getProperty('b.c').value
logs.b.c
__init__(workspace)

Initialize a SampleLogs object. Transform sample log entries from workspace into attributes of this object.

Parameters:workspace (mantid.api.MatrixWorkspace) – the workspace from which to extract the sample logs

Functions

directtools.box2D(xs, vertAxis, horMin=-inf, horMax=inf, vertMin=-inf, vertMax=inf)

Return slicing for a 2D numpy array limited by given min and max values.

Parameters:
Returns:

a tuple of two slice objects, the first one for vertical dimension, the second for horizontal.

directtools.defaultrcparams()

Return a dictionary of directtools default matplotlib rc parameters.

Returns:a dict of default matplotlib rc parameters needed by directtools
directtools.dynamicsusceptibility(workspace, temperature, outputName=None, zeroEnergyEpsilon=1e-06)

Convert \(S(Q,E)\) to susceptibility \(\chi''(Q,E)\).

  1. If the X units are not in DeltaE, the workspace is transposed
  2. The Y data in workspace is multiplied by \(1 - e^{\Delta E / (kT)}\)
  3. Y data in the bin closest to 0 meV and within -zeroEnergyEpsilon < \(\Delta E\) < zeroEnergyEpsilon is set to 0
  4. If the input was transposed, transpose the output as well
Parameters:
  • workspace (mantid.api.MatrixWorkspace) – a \(S(Q,E)\) workspace to convert
  • temperature (float) – temperature in Kelvin
  • outputName (str or None) – name of the output workspace. If None, the output will be given some generated name.
  • zeroEnergyEpsilon (float) – if a bin center is within this value from 0, the bin’s value is set to zero.
Returns:

a mantid.api.MatrixWorkspace containing \(\chi''(Q,E)\)

directtools.nanminmax(workspace, horMin=-inf, horMax=inf, vertMin=-inf, vertMax=inf)

Return min and max intensities of a workspace ignoring NaNs.

The search region can be limited by horMin, horMax, vertMin and vertMax.

Parameters:
  • workspace (mantid.api.MatrixWorkspace) – a workspace
  • horMin (float) – the left edge of the search region
  • horMax (float) – the right edge of the search region
  • vertMin (float) – the bottom edge of the search region
  • vertMax (float) – the top edge of the search region
Returns:

a tuple containing the minimum and maximum

directtools.plotconstE(workspaces, E, dE, style='l', keepCutWorkspaces=True, xscale='linear', yscale='linear')

Plot line profiles at constant energy transfer from \(S(Q,E)\) workspace.

Creates cut workspaces using LineProfile v1, then plots the cuts. A list of workspaces, constant energy transfers, or cut widths, or any combination thereof can be given as parameters.

The last entry in the returned tuple is a list of cut workspace names. This will be an empty list is keeCutWorkspaces is set to False as the workspaces will not appear in the ADS.

Parameters:
  • workspaces (str, mantid.api.MatrixWorkspace or a list thereof) – a single \(S(Q,E)\) workspace or list of workspaces to cut
  • E (float or list of floats) – a constant energy transfer or a list thereof
  • dE (float or list of floats) – width of the cut or a list of widths
  • style (str) – plot style: ‘l’ for lines, ‘m’ for markers, ‘lm’ for both
  • keepCutWorkspaces (bool) – whether or not keep the cut workspaces in the ADS
  • xscale (str) – horizontal axis scaling: ‘linear’, ‘log’, ‘symlog’, ‘logit’
  • yscale (str) – vertical axis scaling: ‘linear’, ‘log’, ‘symlog’, ‘logit’
Returns:

A tuple of (matplotlib.Figure, matplotlib.Axes, a list of names)

directtools.plotconstQ(workspaces, Q, dQ, style='l', keepCutWorkspaces=True, xscale='linear', yscale='linear')

Plot line profiles at constant momentum transfer from \(S(Q,E)\) workspace.

Creates cut workspaces using LineProfile v1, then plots the cuts. A list of workspaces, constant momentum transfers, or cut widths, or any combination thereof can be given as parameters.

The last entry in the returned tuple is a list of cut workspace names. This will be an empty list is keeCutWorkspaces is set to False as the workspaces will not appear in the ADS.

Parameters:
  • workspaces (str, mantid.api.MatrixWorkspace or a list thereof) – a single \(S(Q,E)\) workspace or list of workspaces to cut
  • Q (float or list of floats) – a constant momentum transfer or a list thereof
  • dQ (float or list of floats) – width of the cut or a list of widths
  • style (str) – plot style: ‘l’ for lines, ‘m’ for markers, ‘lm’ for both
  • keepCutWorkspaces (bool) – whether or not keep the cut workspaces in the ADS
  • xscale (str) – horizontal axis scaling: ‘linear’, ‘log’, ‘symlog’, ‘logit’
  • yscale (str) – vertical axis scaling: ‘linear’, ‘log’, ‘symlog’, ‘logit’
Returns:

A tuple of (matplotlib.Figure, matplotlib.Axes, a list of names)

directtools.plotcuts(direction, workspaces, cuts, widths, quantity, unit, style='l', keepCutWorkspaces=True, xscale='linear', yscale='linear')

Cut and plot multiple line profiles.

Creates cut workspaces using LineProfile v1, then plots the cuts. A list of workspaces, cut centres, or cut widths, or any combination thereof can be given as parameters.

The last entry in the returned tuple is a list of cut workspace names. This will be an empty list is keeCutWorkspaces is set to False as the workspaces will not appear in the ADS.

Parameters:
  • direction (str) – Cut direction. Only 'Horizontal' and 'Vertical' are accepted
  • workspaces (str, mantid.api.MatrixWorkspace or a list thereof) – a single workspace or a list thereof
  • cuts (float or a list thereof) – the center of the cut or a list of centers
  • widths (float or a list thereof) – the width of the cut or a list of widths
  • quantity (str) – name of the physical quantity along which the cut is made, used for legend label
  • unit (str) – unit of quantity
  • style (str) – plot style: ‘l’ for lines, ‘m’ for markers, ‘lm’ for both
  • keepCutWorkspaces (bool) – whether or not keep the cut workspaces in the ADS
  • xscale (str) – horizontal axis scaling: ‘linear’, ‘log’, ‘symlog’, ‘logit’
  • yscale (str) – vertical axis scaling: ‘linear’, ‘log’, ‘symlog’, ‘logit’
Returns:

A tuple of (matplotlib.Figure, matplotlib.Axes, a list of names)

directtools.plotprofiles(workspaces, labels=None, style='l', xscale='linear', yscale='linear')

Plot line profile workspaces.

Plots the given single histogram cut workspaces.

Parameters:
  • workspaces (str, mantid.api.MatrixWorkspace or a list thereof) – a single workspace or a list thereof
  • labels (str, a list of strings or None) – a list of cut labels for the plot legend
  • style (str) – plot style: ‘l’ for lines, ‘m’ for markers, ‘lm’ for both
  • xscale (str) – horizontal axis scaling: ‘linear’, ‘log’, ‘symlog’, ‘logit’
  • yscale (str) – vertical axis scaling: ‘linear’, ‘log’, ‘symlog’, ‘logit’
Returns:

a tuple of (matplotlib.Figure, matplotlib.Axes)

directtools.plotDOS(workspaces, labels=None, style='l', xscale='linear', yscale='linear')

Plot density of state workspaces.

Plots the given DOS workspaces.

Parameters:
  • workspaces (str, mantid.api.MatrixWorkspace or a list thereof) – a single workspace or a list thereof
  • labels (str, a list of strings or None) – a list of labels for the plot legend
  • style (str) – plot style: ‘l’ for lines, ‘m’ for markers, ‘lm’ for both
  • xscale (str) – horizontal axis scaling: ‘linear’, ‘log’, ‘symlog’, ‘logit’
  • yscale (str) – vertical axis scaling: ‘linear’, ‘log’, ‘symlog’, ‘logit’
Returns:

a tuple of (matplotlib.Figure, matplotlib.Axes)

directtools.plotSofQW(workspace, QMin=0.0, QMax=None, EMin=None, EMax=None, VMin=0.0, VMax=None, colormap='jet', colorscale='linear')

Plot a 2D \(S(Q,E)\) workspace.

Parameters:
  • workspace (str or mantid.api.MatrixWorkspace) – a workspace to plot
  • QMin (float or None) – minimum \(Q\) to include in the plot
  • QMax (float or None) – maximum \(Q\) to include in the plot
  • EMin (float or None) – minimum energy transfer to include in the plot
  • EMax (float or None) – maximum energy transfer to include in the plot
  • VMin (float or None) – minimum intensity to show on the color bar
  • VMax (float or None) – maximum intensity to show on the color bar
  • colormap (str) – name of the colormap
  • colorscale (str) – color map scaling: ‘linear’, ‘log’
Returns:

a tuple of (matplotlib.Figure, matplotlib.Axes)

directtools.subplots(**kwargs)

Return matplotlib figure and axes with Mantid projection.

The returned figure and axes have the proper projection to plot Mantid workspaces directly.

Parameters:kwargs (dict) – keyword arguments that are directly passed to matplotlib.pyplot.subplots().
Returns:a tuple of (matplotlib.Figure, matplotlib.Axes)
directtools.validQ(workspace, E=0.0)

Return a \(Q\) range at given energy transfer where \(S(Q,E)\) is defined.

\(S(Q,E)\) is undefined when Y = NaN

Parameters:
Returns:

a tuple of (\(Q_{min}\), \(Q_{max}\))

directtools.wsreport(workspace)

Print some useful information from sample logs.

The logs are expected to contain some ILL specific fields.

Parameters:workspace (str or mantid.api.MatrixWorkspace) – a workspace from which to extract the logs
Returns:None

Category: Techniques