source: sasview/src/sas/qtgui/Plotting/Plotter2D.py @ e0da307

Last change on this file since e0da307 was fce6c55, checked in by Piotr Rozyczko <rozyczko@…>, 6 years ago

Make the plots a bit more persistent and calculate bins properly. SASVIEW-969

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[49e124c]1import copy
2import numpy
3import pylab
[092a3d9]4import functools
[d6b8a1d]5import logging
[49e124c]6
[4992ff2]7from PyQt5 import QtCore
8from PyQt5 import QtGui
9from PyQt5 import QtWidgets
[49e124c]10
[31c5b58]11DEFAULT_CMAP = pylab.cm.jet
[4992ff2]12
13#import sys
14#print("SYS.PATH = ", sys.path)
15import matplotlib as mpl
16mpl.use("Qt5Agg")
17
[9290b1a]18from mpl_toolkits.mplot3d import Axes3D
[31c5b58]19
[dc5ef15]20from sas.sascalc.dataloader.manipulations import CircularAverage
21
22from sas.qtgui.Plotting.PlotterData import Data1D
23from sas.qtgui.Plotting.PlotterData import Data2D
24
[83eb5208]25import sas.qtgui.Plotting.PlotUtilities as PlotUtilities
26import sas.qtgui.Utilities.GuiUtils as GuiUtils
27from sas.qtgui.Plotting.PlotterBase import PlotterBase
28from sas.qtgui.Plotting.ColorMap import ColorMap
29from sas.qtgui.Plotting.BoxSum import BoxSum
30from sas.qtgui.Plotting.SlicerParameters import SlicerParameters
[dc5ef15]31from sas.qtgui.Plotting.Binder import BindArtist
32
33# TODO: move to sas.qtgui namespace
34from sas.qtgui.Plotting.Slicers.BoxSlicer import BoxInteractorX
35from sas.qtgui.Plotting.Slicers.BoxSlicer import BoxInteractorY
36from sas.qtgui.Plotting.Slicers.AnnulusSlicer import AnnulusInteractor
37from sas.qtgui.Plotting.Slicers.SectorSlicer import SectorInteractor
38from sas.qtgui.Plotting.Slicers.BoxSum import BoxSumCalculator
[49e124c]39
[fecfe28]40# Minimum value of Z for which we will present data.
[3bdbfcc]41MIN_Z = -32
[fecfe28]42
[416fa8f]43class Plotter2DWidget(PlotterBase):
[c4e5400]44    """
45    2D Plot widget for use with a QDialog
[fecfe28]46    """
[416fa8f]47    def __init__(self, parent=None, manager=None, quickplot=False, dimension=2):
[55d89f8]48        self.dimension = dimension
[416fa8f]49        super(Plotter2DWidget, self).__init__(parent, manager=manager, quickplot=quickplot)
[49e124c]50
[092a3d9]51        self.cmap = DEFAULT_CMAP.name
52        # Default scale
53        self.scale = 'log_{10}'
[3bdbfcc]54        # to set the order of lines drawn first.
55        self.slicer_z = 5
56        # Reference to the current slicer
57        self.slicer = None
[57b7ee2]58        self.slicer_widget = None
[3bdbfcc]59        # Create Artist and bind it
60        self.connect = BindArtist(self.figure)
[5d89f43]61        self.vmin = None
62        self.vmax = None
[e20870bc]63        self.im = None
[092a3d9]64
[116260a]65        self.manager = manager
66
[31c5b58]67    @property
68    def data(self):
69        return self._data
70
71    @data.setter
[49e124c]72    def data(self, data=None):
73        """ data setter """
[14d9c7b]74        self._data = data
[fecfe28]75        self.qx_data = data.qx_data
76        self.qy_data = data.qy_data
77        self.xmin = data.xmin
78        self.xmax = data.xmax
79        self.ymin = data.ymin
80        self.ymax = data.ymax
81        self.zmin = data.zmin
82        self.zmax = data.zmax
83        self.label = data.name
84        self.xLabel = "%s(%s)"%(data._xaxis, data._xunit)
85        self.yLabel = "%s(%s)"%(data._yaxis, data._yunit)
[49e124c]86        self.title(title=data.title)
87
[d5c5d3d]88    def plot(self, data=None, marker=None, show_colorbar=True):
[49e124c]89        """
90        Plot 2D self._data
[5236449]91        marker - unused
[49e124c]92        """
[9290b1a]93        # Assing data
94        if isinstance(data, Data2D):
95            self.data = data
96
[3bdbfcc]97        assert self._data
[9290b1a]98
[64f1e93]99        # Toggle the scale
[092a3d9]100        zmin_2D_temp, zmax_2D_temp = self.calculateDepth()
[31c5b58]101
[64f1e93]102        # Prepare and show the plot
103        self.showPlot(data=self.data.data,
104                      qx_data=self.qx_data,
105                      qy_data=self.qy_data,
106                      xmin=self.xmin,
107                      xmax=self.xmax,
108                      ymin=self.ymin, ymax=self.ymax,
109                      cmap=self.cmap, zmin=zmin_2D_temp,
[d5c5d3d]110                      zmax=zmax_2D_temp, show_colorbar=show_colorbar)
[6d05e1d]111
[092a3d9]112    def calculateDepth(self):
113        """
114        Re-calculate the plot depth parameters depending on the scale
115        """
116        # Toggle the scale
[fbfc488]117        zmin_temp = self.zmin if self.zmin else MIN_Z
[092a3d9]118        zmax_temp = self.zmax
119        # self.scale predefined in the baseclass
[d6b8a1d]120        # in numpy > 1.12 power(int, -int) raises ValueException
121        # "Integers to negative integer powers are not allowed."
[092a3d9]122        if self.scale == 'log_{10}':
123            if self.zmin is not None:
[d6b8a1d]124                zmin_temp = numpy.power(10.0, self.zmin)
[092a3d9]125            if self.zmax is not None:
[d6b8a1d]126                zmax_temp = numpy.power(10.0, self.zmax)
[092a3d9]127        else:
128            if self.zmin is not None:
129                # min log value: no log(negative)
130                zmin_temp = MIN_Z if self.zmin <= 0 else numpy.log10(self.zmin)
131            if self.zmax is not None:
132                zmax_temp = numpy.log10(self.zmax)
133
134        return (zmin_temp, zmax_temp)
135
136
[b46f285]137    def createContextMenu(self):
[c4e5400]138        """
139        Define common context menu and associated actions for the MPL widget
140        """
141        self.defaultContextMenu()
142
[092a3d9]143        self.contextMenu.addSeparator()
144        self.actionDataInfo = self.contextMenu.addAction("&DataInfo")
145        self.actionDataInfo.triggered.connect(
[161713c]146             functools.partial(self.onDataInfo, self.data))
[092a3d9]147
148        self.actionSavePointsAsFile = self.contextMenu.addAction("&Save Points as a File")
149        self.actionSavePointsAsFile.triggered.connect(
[161713c]150             functools.partial(self.onSavePoints, self.data))
[092a3d9]151        self.contextMenu.addSeparator()
152
153        self.actionCircularAverage = self.contextMenu.addAction("&Perform Circular Average")
154        self.actionCircularAverage.triggered.connect(self.onCircularAverage)
155
156        self.actionSectorView = self.contextMenu.addAction("&Sector [Q View]")
157        self.actionSectorView.triggered.connect(self.onSectorView)
158        self.actionAnnulusView = self.contextMenu.addAction("&Annulus [Phi View]")
159        self.actionAnnulusView.triggered.connect(self.onAnnulusView)
160        self.actionBoxSum = self.contextMenu.addAction("&Box Sum")
161        self.actionBoxSum.triggered.connect(self.onBoxSum)
162        self.actionBoxAveragingX = self.contextMenu.addAction("&Box Averaging in Qx")
163        self.actionBoxAveragingX.triggered.connect(self.onBoxAveragingX)
164        self.actionBoxAveragingY = self.contextMenu.addAction("&Box Averaging in Qy")
165        self.actionBoxAveragingY.triggered.connect(self.onBoxAveragingY)
[3bdbfcc]166        # Additional items for slicer interaction
167        if self.slicer:
168            self.actionClearSlicer = self.contextMenu.addAction("&Clear Slicer")
169            self.actionClearSlicer.triggered.connect(self.onClearSlicer)
[57b7ee2]170            if self.slicer.__class__.__name__ != "BoxSumCalculator":
171                self.actionEditSlicer = self.contextMenu.addAction("&Edit Slicer Parameters")
172                self.actionEditSlicer.triggered.connect(self.onEditSlicer)
[092a3d9]173        self.contextMenu.addSeparator()
174        self.actionColorMap = self.contextMenu.addAction("&2D Color Map")
175        self.actionColorMap.triggered.connect(self.onColorMap)
176        self.contextMenu.addSeparator()
177        self.actionChangeScale = self.contextMenu.addAction("Toggle Linear/Log Scale")
178        self.actionChangeScale.triggered.connect(self.onToggleScale)
179
[b46f285]180    def createContextMenuQuick(self):
[6d05e1d]181        """
182        Define context menu and associated actions for the quickplot MPL widget
183        """
[c4e5400]184        self.defaultContextMenu()
185
[55d89f8]186        if self.dimension == 2:
187            self.actionToggleGrid = self.contextMenu.addAction("Toggle Grid On/Off")
188            self.contextMenu.addSeparator()
[6d05e1d]189        self.actionChangeScale = self.contextMenu.addAction("Toggle Linear/Log Scale")
190
191        # Define the callbacks
[c4e5400]192        self.actionChangeScale.triggered.connect(self.onToggleScale)
[55d89f8]193        if self.dimension == 2:
194            self.actionToggleGrid.triggered.connect(self.onGridToggle)
[6d05e1d]195
196    def onToggleScale(self, event):
197        """
198        Toggle axis and replot image
199        """
[092a3d9]200        # self.scale predefined in the baseclass
201        if self.scale == 'log_{10}':
202            self.scale = 'linear'
203        else:
204            self.scale = 'log_{10}'
205
[55d89f8]206        self.plot()
[6d05e1d]207
[3bdbfcc]208    def onClearSlicer(self):
209        """
210        Remove all sclicers from the chart
211        """
[b789967]212        if self.slicer is None:
213            return
214
215        self.slicer.clear()
216        self.canvas.draw()
217        self.slicer = None
[3bdbfcc]218
219    def onEditSlicer(self):
220        """
221        Present a small dialog for manipulating the current slicer
222        """
223        assert self.slicer
[57b7ee2]224        # Only show the dialog if not currently shown
225        if self.slicer_widget:
226            return
227        def slicer_closed():
228            # Need to disconnect the signal!!
229            self.slicer_widget.close_signal.disconnect()
230            # reset slicer_widget on "Edit Slicer Parameters" window close
231            self.slicer_widget = None
[3bdbfcc]232
233        self.param_model = self.slicer.model()
[57b7ee2]234        # Pass the model to the Slicer Parameters widget
[161713c]235        self.slicer_widget = SlicerParameters(model=self.param_model,
236                                              validate_method=self.slicer.validate)
[57b7ee2]237        self.slicer_widget.close_signal.connect(slicer_closed)
[9a05a8d5]238        # Add the plot to the workspace
[7969b9c]239        self.manager.parent.workspace().addSubWindow(self.slicer_widget)
[b789967]240
[3bdbfcc]241        self.slicer_widget.show()
242
[092a3d9]243    def onCircularAverage(self):
244        """
[3bdbfcc]245        Perform circular averaging on Data2D
[092a3d9]246        """
[3bdbfcc]247        # Find the best number of bins
248        npt = numpy.sqrt(len(self.data.data[numpy.isfinite(self.data.data)]))
249        npt = numpy.floor(npt)
250        # compute the maximum radius of data2D
251        self.qmax = max(numpy.fabs(self.data.xmax),
252                        numpy.fabs(self.data.xmin))
253        self.ymax = max(numpy.fabs(self.data.ymax),
254                        numpy.fabs(self.data.ymin))
255        self.radius = numpy.sqrt(numpy.power(self.qmax, 2) + numpy.power(self.ymax, 2))
256        #Compute beam width
257        bin_width = (self.qmax + self.qmax) / npt
258        # Create data1D circular average of data2D
259        circle = CircularAverage(r_min=0, r_max=self.radius, bin_width=bin_width)
260        circ = circle(self.data)
261        dxl = circ.dxl if hasattr(circ, "dxl") else None
262        dxw = circ.dxw if hasattr(circ, "dxw") else None
263
264        new_plot = Data1D(x=circ.x, y=circ.y, dy=circ.dy, dx=circ.dx)
265        new_plot.dxl = dxl
266        new_plot.dxw = dxw
267        new_plot.name = new_plot.title = "Circ avg " + self.data.name
268        new_plot.source = self.data.source
269        new_plot.interactive = True
270        new_plot.detector = self.data.detector
271
272        # Define axes if not done yet.
273        new_plot.xaxis("\\rm{Q}", "A^{-1}")
274        if hasattr(self.data, "scale") and \
275                    self.data.scale == 'linear':
276            new_plot.ytransform = 'y'
277            new_plot.yaxis("\\rm{Residuals} ", "normalized")
278        else:
279            new_plot.yaxis("\\rm{Intensity} ", "cm^{-1}")
280
281        new_plot.group_id = "2daverage" + self.data.name
282        new_plot.id = "Circ avg " + self.data.name
283        new_plot.is_data = True
[cee5c78]284        GuiUtils.updateModelItemWithPlot(self._item, new_plot, new_plot.id)
[d6b8a1d]285
[116260a]286        self.manager.communicator.plotUpdateSignal.emit([new_plot])
[3bdbfcc]287
288    def setSlicer(self, slicer):
289        """
290        Clear the previous slicer and create a new one.
291        slicer: slicer class to create
292        """
293        # Clear current slicer
294        if self.slicer is not None:
295            self.slicer.clear()
296        # Create a new slicer
297        self.slicer_z += 1
298        self.slicer = slicer(self, self.ax, item=self._item, zorder=self.slicer_z)
299        self.ax.set_ylim(self.data.ymin, self.data.ymax)
300        self.ax.set_xlim(self.data.xmin, self.data.xmax)
301        # Draw slicer
302        self.figure.canvas.draw()
303        self.slicer.update()
[092a3d9]304
[57b7ee2]305        # Reset the model on the Edit slicer parameters widget
306        self.param_model = self.slicer.model()
307        if self.slicer_widget:
308            self.slicer_widget.setModel(self.param_model)
309
[092a3d9]310    def onSectorView(self):
311        """
[3bdbfcc]312        Perform sector averaging on Q and draw sector slicer
[092a3d9]313        """
[3bdbfcc]314        self.setSlicer(slicer=SectorInteractor)
[092a3d9]315
316    def onAnnulusView(self):
317        """
[3bdbfcc]318        Perform sector averaging on Phi and draw annulus slicer
[092a3d9]319        """
[3bdbfcc]320        self.setSlicer(slicer=AnnulusInteractor)
[092a3d9]321
322    def onBoxSum(self):
323        """
[3bdbfcc]324        Perform 2D Data averaging Qx and Qy.
325        Display box slicer details.
[092a3d9]326        """
[3bdbfcc]327        self.onClearSlicer()
328        self.slicer_z += 1
329        self.slicer = BoxSumCalculator(self, self.ax, zorder=self.slicer_z)
330
331        self.ax.set_ylim(self.data.ymin, self.data.ymax)
332        self.ax.set_xlim(self.data.xmin, self.data.xmax)
333        self.figure.canvas.draw()
334        self.slicer.update()
335
336        # Get the BoxSumCalculator model.
337        self.box_sum_model = self.slicer.model()
338        # Pass the BoxSumCalculator model to the BoxSum widget
339        self.boxwidget = BoxSum(self, model=self.box_sum_model)
340        # Add the plot to the workspace
[7969b9c]341        self.manager.parent.workspace().addSubWindow(self.boxwidget)
[3bdbfcc]342        self.boxwidget.show()
[092a3d9]343
344    def onBoxAveragingX(self):
345        """
[3bdbfcc]346        Perform 2D data averaging on Qx
347        Create a new slicer.
[092a3d9]348        """
[3bdbfcc]349        self.setSlicer(slicer=BoxInteractorX)
[092a3d9]350
351    def onBoxAveragingY(self):
352        """
[3bdbfcc]353        Perform 2D data averaging on Qy
354        Create a new slicer .
[092a3d9]355        """
[3bdbfcc]356        self.setSlicer(slicer=BoxInteractorY)
[092a3d9]357
358    def onColorMap(self):
359        """
360        Display the color map dialog and modify the plot's map accordingly
361        """
362        color_map_dialog = ColorMap(self, cmap=self.cmap,
[03c372d]363                                    vmin=self.vmin,
364                                    vmax=self.vmax,
[092a3d9]365                                    data=self.data)
366
[5d89f43]367        color_map_dialog.apply_signal.connect(self.onApplyMap)
368
[4992ff2]369        if color_map_dialog.exec_() == QtWidgets.QDialog.Accepted:
[5d89f43]370            self.onApplyMap(color_map_dialog.norm(), color_map_dialog.cmap())
371
372    def onApplyMap(self, v_values, cmap):
373        """
374        Update the chart color map based on data passed from the widget
375        """
376        self.cmap = str(cmap)
377        self.vmin, self.vmax = v_values
378        # Redraw the chart with new cmap
379        self.plot()
[092a3d9]380
[64f1e93]381    def showPlot(self, data, qx_data, qy_data, xmin, xmax, ymin, ymax,
[d5c5d3d]382                 zmin, zmax, label='data2D', cmap=DEFAULT_CMAP, show_colorbar=True):
[6d05e1d]383        """
[64f1e93]384        Render and show the current data
[6d05e1d]385        """
386        self.qx_data = qx_data
387        self.qy_data = qy_data
388        self.xmin = xmin
389        self.xmax = xmax
390        self.ymin = ymin
391        self.ymax = ymax
392        self.zmin = zmin
393        self.zmax = zmax
394        # If we don't have any data, skip.
[fecfe28]395        if data is None:
[6d05e1d]396            return
[f4a1433]397        if data.ndim == 0:
398            return
399        elif data.ndim == 1:
[6d05e1d]400            output = PlotUtilities.build_matrix(data, self.qx_data, self.qy_data)
401        else:
402            output = copy.deepcopy(data)
403
[fce6c55]404        # get the x and y_bin arrays.
405        x_bins, y_bins = PlotUtilities.get_bins(self.qx_data, self.qy_data)
406        self._data.x_bins = x_bins
407        self._data.y_bins = y_bins
408
[6d05e1d]409        zmin_temp = self.zmin
410        # check scale
411        if self.scale == 'log_{10}':
412            try:
413                if  self.zmin <= 0  and len(output[output > 0]) > 0:
[092a3d9]414                    zmin_temp = self.zmin
[6d05e1d]415                    output[output > 0] = numpy.log10(output[output > 0])
416                elif self.zmin <= 0:
417                    zmin_temp = self.zmin
418                    output[output > 0] = numpy.zeros(len(output))
[fecfe28]419                    output[output <= 0] = MIN_Z
[6d05e1d]420                else:
421                    zmin_temp = self.zmin
422                    output[output > 0] = numpy.log10(output[output > 0])
423            except:
424                #Too many problems in 2D plot with scale
425                output[output > 0] = numpy.log10(output[output > 0])
426                pass
427
428        self.cmap = cmap
429        if self.dimension != 3:
430            #Re-adjust colorbar
431            self.figure.subplots_adjust(left=0.2, right=.8, bottom=.2)
432
[5d89f43]433            zmax_temp = self.zmax
434            if self.vmin is not None:
435                zmin_temp = self.vmin
436                zmax_temp = self.vmax
[e20870bc]437            if self.im is not None:
438                self.im.set_data(output)
439            else:
440                self.im = self.ax.imshow(output, interpolation='nearest',
[01cda57]441                                # origin='lower',
[5d89f43]442                                vmin=zmin_temp, vmax=zmax_temp,
[6d05e1d]443                                cmap=self.cmap,
444                                extent=(self.xmin, self.xmax,
445                                        self.ymin, self.ymax))
446
447            cbax = self.figure.add_axes([0.84, 0.2, 0.02, 0.7])
[b4b8589]448
449            # Current labels for axes
450            self.ax.set_ylabel(self.y_label)
451            self.ax.set_xlabel(self.x_label)
452
453            # Title only for regular charts
454            if not self.quickplot:
455                self.ax.set_title(label=self._title)
456
[fecfe28]457            if cbax is None:
458                ax.set_frame_on(False)
[e20870bc]459                cb = self.figure.colorbar(self.im, shrink=0.8, aspect=20)
[fecfe28]460            else:
[e20870bc]461                cb = self.figure.colorbar(self.im, cax=cbax)
[fecfe28]462
[e20870bc]463            cb.update_bruteforce(self.im)
[fecfe28]464            cb.set_label('$' + self.scale + '$')
[b4b8589]465
[092a3d9]466            self.vmin = cb.vmin
467            self.vmax = cb.vmax
468
[d5c5d3d]469            if show_colorbar is False:
470                cb.remove()
471
[6d05e1d]472        else:
473            # clear the previous 2D from memory
474            self.figure.clear()
475
476            self.figure.subplots_adjust(left=0.1, right=.8, bottom=.1)
477
[3bdbfcc]478            data_x, data_y = numpy.meshgrid(self._data.x_bins[0:-1],
479                                            self._data.y_bins[0:-1])
[6d05e1d]480
[64f1e93]481            ax = Axes3D(self.figure)
[b4b8589]482
[64f1e93]483            # Disable rotation for large sets.
484            # TODO: Define "large" for a dataset
485            SET_TOO_LARGE = 500
[3bdbfcc]486            if len(data_x) > SET_TOO_LARGE:
[64f1e93]487                ax.disable_mouse_rotation()
488
[6d05e1d]489            self.figure.canvas.resizing = False
[3bdbfcc]490            im = ax.plot_surface(data_x, data_y, output, rstride=1,
491                                 cstride=1, cmap=cmap,
[6d05e1d]492                                 linewidth=0, antialiased=False)
[55d89f8]493            self.ax.set_axis_off()
[6d05e1d]494
495        if self.dimension != 3:
496            self.figure.canvas.draw_idle()
497        else:
498            self.figure.canvas.draw()
[416fa8f]499
[3bdbfcc]500    def update(self):
501        self.figure.canvas.draw()
502
503    def draw(self):
504        self.figure.canvas.draw()
505
[0274aea]506    def replacePlot(self, id, new_plot):
507        """
508        Replace data in current chart.
[01cda57]509        This effectively refreshes the chart with changes to one of its plots
[0274aea]510        """
511        self.plot(data=new_plot)
512
[3bdbfcc]513
[4992ff2]514class Plotter2D(QtWidgets.QDialog, Plotter2DWidget):
[3bdbfcc]515    """
516    Plotter widget implementation
517    """
[416fa8f]518    def __init__(self, parent=None, quickplot=False, dimension=2):
[4992ff2]519        QtWidgets.QDialog.__init__(self)
[cad617b]520        Plotter2DWidget.__init__(self, manager=parent, quickplot=quickplot, dimension=dimension)
[c4e5400]521        icon = QtGui.QIcon()
522        icon.addPixmap(QtGui.QPixmap(":/res/ball.ico"), QtGui.QIcon.Normal, QtGui.QIcon.Off)
523        self.setWindowIcon(icon)
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