source: sasview/src/sas/qtgui/Perspectives/Fitting/FittingWidget.py @ 4ea8020

ESS_GUIESS_GUI_batch_fittingESS_GUI_bumps_abstractionESS_GUI_iss1116ESS_GUI_iss879ESS_GUI_openclESS_GUI_orderingESS_GUI_sync_sascalc
Last change on this file since 4ea8020 was 4ea8020, checked in by GitHub <noreply@…>, 6 years ago

Merge branch 'ESS_GUI' into ESS_GUI_iss966

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1import json
2import os
3from collections import defaultdict
4
5import copy
6import logging
7import traceback
8from twisted.internet import threads
9import numpy as np
10import webbrowser
11
12from PyQt5 import QtCore
13from PyQt5 import QtGui
14from PyQt5 import QtWidgets
15
16from sasmodels import generate
17from sasmodels import modelinfo
18from sasmodels.sasview_model import load_standard_models
19from sasmodels.sasview_model import MultiplicationModel
20from sasmodels.weights import MODELS as POLYDISPERSITY_MODELS
21
22from sas.sascalc.fit.BumpsFitting import BumpsFit as Fit
23from sas.sascalc.fit.pagestate import PageState
24
25import sas.qtgui.Utilities.GuiUtils as GuiUtils
26import sas.qtgui.Utilities.LocalConfig as LocalConfig
27from sas.qtgui.Utilities.CategoryInstaller import CategoryInstaller
28from sas.qtgui.Plotting.PlotterData import Data1D
29from sas.qtgui.Plotting.PlotterData import Data2D
30
31from sas.qtgui.Perspectives.Fitting.UI.FittingWidgetUI import Ui_FittingWidgetUI
32from sas.qtgui.Perspectives.Fitting.FitThread import FitThread
33from sas.qtgui.Perspectives.Fitting.ConsoleUpdate import ConsoleUpdate
34
35from sas.qtgui.Perspectives.Fitting.ModelThread import Calc1D
36from sas.qtgui.Perspectives.Fitting.ModelThread import Calc2D
37from sas.qtgui.Perspectives.Fitting.FittingLogic import FittingLogic
38from sas.qtgui.Perspectives.Fitting import FittingUtilities
39from sas.qtgui.Perspectives.Fitting import ModelUtilities
40from sas.qtgui.Perspectives.Fitting.SmearingWidget import SmearingWidget
41from sas.qtgui.Perspectives.Fitting.OptionsWidget import OptionsWidget
42from sas.qtgui.Perspectives.Fitting.FitPage import FitPage
43from sas.qtgui.Perspectives.Fitting.ViewDelegate import ModelViewDelegate
44from sas.qtgui.Perspectives.Fitting.ViewDelegate import PolyViewDelegate
45from sas.qtgui.Perspectives.Fitting.ViewDelegate import MagnetismViewDelegate
46from sas.qtgui.Perspectives.Fitting.Constraint import Constraint
47from sas.qtgui.Perspectives.Fitting.MultiConstraint import MultiConstraint
48from sas.qtgui.Perspectives.Fitting.ReportPageLogic import ReportPageLogic
49
50
51TAB_MAGNETISM = 4
52TAB_POLY = 3
53CATEGORY_DEFAULT = "Choose category..."
54CATEGORY_STRUCTURE = "Structure Factor"
55CATEGORY_CUSTOM = "Plugin Models"
56STRUCTURE_DEFAULT = "None"
57
58DEFAULT_POLYDISP_FUNCTION = 'gaussian'
59
60
61logger = logging.getLogger(__name__)
62
63class ToolTippedItemModel(QtGui.QStandardItemModel):
64    """
65    Subclass from QStandardItemModel to allow displaying tooltips in
66    QTableView model.
67    """
68    def __init__(self, parent=None):
69        QtGui.QStandardItemModel.__init__(self, parent)
70
71    def headerData(self, section, orientation, role=QtCore.Qt.DisplayRole):
72        """
73        Displays tooltip for each column's header
74        :param section:
75        :param orientation:
76        :param role:
77        :return:
78        """
79        if role == QtCore.Qt.ToolTipRole:
80            if orientation == QtCore.Qt.Horizontal:
81                return str(self.header_tooltips[section])
82
83        return QtGui.QStandardItemModel.headerData(self, section, orientation, role)
84
85class FittingWidget(QtWidgets.QWidget, Ui_FittingWidgetUI):
86    """
87    Main widget for selecting form and structure factor models
88    """
89    constraintAddedSignal = QtCore.pyqtSignal(list)
90    newModelSignal = QtCore.pyqtSignal()
91    fittingFinishedSignal = QtCore.pyqtSignal(tuple)
92    batchFittingFinishedSignal = QtCore.pyqtSignal(tuple)
93    Calc1DFinishedSignal = QtCore.pyqtSignal(dict)
94    Calc2DFinishedSignal = QtCore.pyqtSignal(dict)
95
96    def __init__(self, parent=None, data=None, tab_id=1):
97
98        super(FittingWidget, self).__init__()
99
100        # Necessary globals
101        self.parent = parent
102
103        # Which tab is this widget displayed in?
104        self.tab_id = tab_id
105
106        # Globals
107        self.initializeGlobals()
108
109        # data index for the batch set
110        self.data_index = 0
111        # Main Data[12]D holders
112        # Logics.data contains a single Data1D/Data2D object
113        self._logic = [FittingLogic()]
114
115        # Main GUI setup up
116        self.setupUi(self)
117        self.setWindowTitle("Fitting")
118
119        # Set up tabs widgets
120        self.initializeWidgets()
121
122        # Set up models and views
123        self.initializeModels()
124
125        # Defaults for the structure factors
126        self.setDefaultStructureCombo()
127
128        # Make structure factor and model CBs disabled
129        self.disableModelCombo()
130        self.disableStructureCombo()
131
132        # Generate the category list for display
133        self.initializeCategoryCombo()
134
135        # Initial control state
136        self.initializeControls()
137
138        QtWidgets.QApplication.processEvents()
139
140        # Connect signals to controls
141        self.initializeSignals()
142
143        if data is not None:
144            self.data = data
145
146        # New font to display angstrom symbol
147        new_font = 'font-family: -apple-system, "Helvetica Neue", "Ubuntu";'
148        self.label_17.setStyleSheet(new_font)
149        self.label_19.setStyleSheet(new_font)
150
151    @property
152    def logic(self):
153        # make sure the logic contains at least one element
154        assert self._logic
155        # logic connected to the currently shown data
156        return self._logic[self.data_index]
157
158    @property
159    def data(self):
160        return self.logic.data
161
162    @data.setter
163    def data(self, value):
164        """ data setter """
165        # Value is either a list of indices for batch fitting or a simple index
166        # for standard fitting. Assure we have a list, regardless.
167        if isinstance(value, list):
168            self.is_batch_fitting = True
169        else:
170            value = [value]
171
172        assert isinstance(value[0], QtGui.QStandardItem)
173
174        # Keep reference to all datasets for batch
175        self.all_data = value
176
177        # Create logics with data items
178        # Logics.data contains only a single Data1D/Data2D object
179        if len(value) == 1:
180            # single data logic is already defined, update data on it
181            self._logic[0].data = GuiUtils.dataFromItem(value[0])
182        else:
183            # batch datasets
184            self._logic = []
185            for data_item in value:
186                logic = FittingLogic(data=GuiUtils.dataFromItem(data_item))
187                self._logic.append(logic)
188
189        # Overwrite data type descriptor
190        self.is2D = True if isinstance(self.logic.data, Data2D) else False
191
192        # Let others know we're full of data now
193        self.data_is_loaded = True
194
195        # Enable/disable UI components
196        self.setEnablementOnDataLoad()
197
198    def initializeGlobals(self):
199        """
200        Initialize global variables used in this class
201        """
202        # SasModel is loaded
203        self.model_is_loaded = False
204        # Data[12]D passed and set
205        self.data_is_loaded = False
206        # Batch/single fitting
207        self.is_batch_fitting = False
208        self.is_chain_fitting = False
209        # Is the fit job running?
210        self.fit_started = False
211        # The current fit thread
212        self.calc_fit = None
213        # Current SasModel in view
214        self.kernel_module = None
215        # Current SasModel view dimension
216        self.is2D = False
217        # Current SasModel is multishell
218        self.model_has_shells = False
219        # Utility variable to enable unselectable option in category combobox
220        self._previous_category_index = 0
221        # Utility variables for multishell display
222        self._n_shells_row = 0
223        self._num_shell_params = 0
224        # Dictionary of {model name: model class} for the current category
225        self.models = {}
226        # Parameters to fit
227        self.main_params_to_fit = []
228        self.poly_params_to_fit = []
229        self.magnet_params_to_fit = []
230
231        # Fit options
232        self.q_range_min = 0.005
233        self.q_range_max = 0.1
234        self.npts = 25
235        self.log_points = False
236        self.weighting = 0
237        self.chi2 = None
238        # Does the control support UNDO/REDO
239        # temporarily off
240        self.undo_supported = False
241        self.page_stack = []
242        self.all_data = []
243        # custom plugin models
244        # {model.name:model}
245        self.custom_models = self.customModels()
246        # Polydisp widget table default index for function combobox
247        self.orig_poly_index = 3
248        # copy of current kernel model
249        self.kernel_module_copy = None
250
251        # dictionaries of current params
252        self.poly_params = {}
253        self.magnet_params = {}
254
255        # Page id for fitting
256        # To keep with previous SasView values, use 200 as the start offset
257        self.page_id = 200 + self.tab_id
258
259        # Data for chosen model
260        self.model_data = None
261
262        # Which shell is being currently displayed?
263        self.current_shell_displayed = 0
264        # List of all shell-unique parameters
265        self.shell_names = []
266
267        # Error column presence in parameter display
268        self.has_error_column = False
269        self.has_poly_error_column = False
270        self.has_magnet_error_column = False
271
272        # If the widget generated theory item, save it
273        self.theory_item = None
274
275        # signal communicator
276        self.communicate = self.parent.communicate
277
278    def initializeWidgets(self):
279        """
280        Initialize widgets for tabs
281        """
282        # Options widget
283        layout = QtWidgets.QGridLayout()
284        self.options_widget = OptionsWidget(self, self.logic)
285        layout.addWidget(self.options_widget)
286        self.tabOptions.setLayout(layout)
287
288        # Smearing widget
289        layout = QtWidgets.QGridLayout()
290        self.smearing_widget = SmearingWidget(self)
291        layout.addWidget(self.smearing_widget)
292        self.tabResolution.setLayout(layout)
293
294        # Define bold font for use in various controls
295        self.boldFont = QtGui.QFont()
296        self.boldFont.setBold(True)
297
298        # Set data label
299        self.label.setFont(self.boldFont)
300        self.label.setText("No data loaded")
301        self.lblFilename.setText("")
302
303        # Magnetic angles explained in one picture
304        self.magneticAnglesWidget = QtWidgets.QWidget()
305        labl = QtWidgets.QLabel(self.magneticAnglesWidget)
306        pixmap = QtGui.QPixmap(GuiUtils.IMAGES_DIRECTORY_LOCATION + '/M_angles_pic.bmp')
307        labl.setPixmap(pixmap)
308        self.magneticAnglesWidget.setFixedSize(pixmap.width(), pixmap.height())
309
310    def initializeModels(self):
311        """
312        Set up models and views
313        """
314        # Set the main models
315        # We can't use a single model here, due to restrictions on flattening
316        # the model tree with subclassed QAbstractProxyModel...
317        self._model_model = ToolTippedItemModel()
318        self._poly_model = ToolTippedItemModel()
319        self._magnet_model = ToolTippedItemModel()
320
321        # Param model displayed in param list
322        self.lstParams.setModel(self._model_model)
323        self.readCategoryInfo()
324
325        self.model_parameters = None
326
327        # Delegates for custom editing and display
328        self.lstParams.setItemDelegate(ModelViewDelegate(self))
329
330        self.lstParams.setAlternatingRowColors(True)
331        stylesheet = """
332
333            QTreeView {
334                paint-alternating-row-colors-for-empty-area:0;
335            }
336
337            QTreeView::item {
338                border: 1px;
339                padding: 2px 1px;
340            }
341
342            QTreeView::item:hover {
343                background: qlineargradient(x1: 0, y1: 0, x2: 0, y2: 1, stop: 0 #e7effd, stop: 1 #cbdaf1);
344                border: 1px solid #bfcde4;
345            }
346
347            QTreeView::item:selected {
348                border: 1px solid #567dbc;
349            }
350
351            QTreeView::item:selected:active{
352                background: qlineargradient(x1: 0, y1: 0, x2: 0, y2: 1, stop: 0 #6ea1f1, stop: 1 #567dbc);
353            }
354
355            QTreeView::item:selected:!active {
356                background: qlineargradient(x1: 0, y1: 0, x2: 0, y2: 1, stop: 0 #6b9be8, stop: 1 #577fbf);
357            }
358           """
359        self.lstParams.setStyleSheet(stylesheet)
360        self.lstParams.setContextMenuPolicy(QtCore.Qt.CustomContextMenu)
361        self.lstParams.customContextMenuRequested.connect(self.showModelContextMenu)
362        self.lstParams.setAttribute(QtCore.Qt.WA_MacShowFocusRect, False)
363        # Poly model displayed in poly list
364        self.lstPoly.setModel(self._poly_model)
365        self.setPolyModel()
366        self.setTableProperties(self.lstPoly)
367        # Delegates for custom editing and display
368        self.lstPoly.setItemDelegate(PolyViewDelegate(self))
369        # Polydispersity function combo response
370        self.lstPoly.itemDelegate().combo_updated.connect(self.onPolyComboIndexChange)
371        self.lstPoly.itemDelegate().filename_updated.connect(self.onPolyFilenameChange)
372
373        # Magnetism model displayed in magnetism list
374        self.lstMagnetic.setModel(self._magnet_model)
375        self.setMagneticModel()
376        self.setTableProperties(self.lstMagnetic)
377        # Delegates for custom editing and display
378        self.lstMagnetic.setItemDelegate(MagnetismViewDelegate(self))
379
380    def initializeCategoryCombo(self):
381        """
382        Model category combo setup
383        """
384        category_list = sorted(self.master_category_dict.keys())
385        self.cbCategory.addItem(CATEGORY_DEFAULT)
386        self.cbCategory.addItems(category_list)
387        if CATEGORY_STRUCTURE not in category_list:
388            self.cbCategory.addItem(CATEGORY_STRUCTURE)
389        self.cbCategory.setCurrentIndex(0)
390
391    def setEnablementOnDataLoad(self):
392        """
393        Enable/disable various UI elements based on data loaded
394        """
395        # Tag along functionality
396        self.label.setText("Data loaded from: ")
397        if self.logic.data.filename:
398            self.lblFilename.setText(self.logic.data.filename)
399        else:
400            self.lblFilename.setText(self.logic.data.name)
401        self.updateQRange()
402        # Switch off Data2D control
403        self.chk2DView.setEnabled(False)
404        self.chk2DView.setVisible(False)
405        self.chkMagnetism.setEnabled(self.is2D)
406        self.tabFitting.setTabEnabled(TAB_MAGNETISM, self.chkMagnetism.isChecked())
407        # Combo box or label for file name"
408        if self.is_batch_fitting:
409            self.lblFilename.setVisible(False)
410            for dataitem in self.all_data:
411                filename = GuiUtils.dataFromItem(dataitem).filename
412                self.cbFileNames.addItem(filename)
413            self.cbFileNames.setVisible(True)
414            self.chkChainFit.setEnabled(True)
415            self.chkChainFit.setVisible(True)
416            # This panel is not designed to view individual fits, so disable plotting
417            self.cmdPlot.setVisible(False)
418        # Similarly on other tabs
419        self.options_widget.setEnablementOnDataLoad()
420        self.onSelectModel()
421        # Smearing tab
422        self.smearing_widget.updateData(self.data)
423
424    def acceptsData(self):
425        """ Tells the caller this widget can accept new dataset """
426        return not self.data_is_loaded
427
428    def disableModelCombo(self):
429        """ Disable the combobox """
430        self.cbModel.setEnabled(False)
431        self.lblModel.setEnabled(False)
432
433    def enableModelCombo(self):
434        """ Enable the combobox """
435        self.cbModel.setEnabled(True)
436        self.lblModel.setEnabled(True)
437
438    def disableStructureCombo(self):
439        """ Disable the combobox """
440        self.cbStructureFactor.setEnabled(False)
441        self.lblStructure.setEnabled(False)
442
443    def enableStructureCombo(self):
444        """ Enable the combobox """
445        self.cbStructureFactor.setEnabled(True)
446        self.lblStructure.setEnabled(True)
447
448    def togglePoly(self, isChecked):
449        """ Enable/disable the polydispersity tab """
450        self.tabFitting.setTabEnabled(TAB_POLY, isChecked)
451
452    def toggleMagnetism(self, isChecked):
453        """ Enable/disable the magnetism tab """
454        self.tabFitting.setTabEnabled(TAB_MAGNETISM, isChecked)
455
456    def toggleChainFit(self, isChecked):
457        """ Enable/disable chain fitting """
458        self.is_chain_fitting = isChecked
459
460    def toggle2D(self, isChecked):
461        """ Enable/disable the controls dependent on 1D/2D data instance """
462        self.chkMagnetism.setEnabled(isChecked)
463        self.is2D = isChecked
464        # Reload the current model
465        if self.kernel_module:
466            self.onSelectModel()
467
468    @classmethod
469    def customModels(cls):
470        """ Reads in file names in the custom plugin directory """
471        return ModelUtilities._find_models()
472
473    def initializeControls(self):
474        """
475        Set initial control enablement
476        """
477        self.cbFileNames.setVisible(False)
478        self.cmdFit.setEnabled(False)
479        self.cmdPlot.setEnabled(False)
480        self.options_widget.cmdComputePoints.setVisible(False) # probably redundant
481        self.chkPolydispersity.setEnabled(True)
482        self.chkPolydispersity.setCheckState(False)
483        self.chk2DView.setEnabled(True)
484        self.chk2DView.setCheckState(False)
485        self.chkMagnetism.setEnabled(False)
486        self.chkMagnetism.setCheckState(False)
487        self.chkChainFit.setEnabled(False)
488        self.chkChainFit.setVisible(False)
489        # Tabs
490        self.tabFitting.setTabEnabled(TAB_POLY, False)
491        self.tabFitting.setTabEnabled(TAB_MAGNETISM, False)
492        self.lblChi2Value.setText("---")
493        # Smearing tab
494        self.smearing_widget.updateData(self.data)
495        # Line edits in the option tab
496        self.updateQRange()
497
498    def initializeSignals(self):
499        """
500        Connect GUI element signals
501        """
502        # Comboboxes
503        self.cbStructureFactor.currentIndexChanged.connect(self.onSelectStructureFactor)
504        self.cbCategory.currentIndexChanged.connect(self.onSelectCategory)
505        self.cbModel.currentIndexChanged.connect(self.onSelectModel)
506        self.cbFileNames.currentIndexChanged.connect(self.onSelectBatchFilename)
507        # Checkboxes
508        self.chk2DView.toggled.connect(self.toggle2D)
509        self.chkPolydispersity.toggled.connect(self.togglePoly)
510        self.chkMagnetism.toggled.connect(self.toggleMagnetism)
511        self.chkChainFit.toggled.connect(self.toggleChainFit)
512        # Buttons
513        self.cmdFit.clicked.connect(self.onFit)
514        self.cmdPlot.clicked.connect(self.onPlot)
515        self.cmdHelp.clicked.connect(self.onHelp)
516        self.cmdMagneticDisplay.clicked.connect(self.onDisplayMagneticAngles)
517
518        # Respond to change in parameters from the UI
519        self._model_model.itemChanged.connect(self.onMainParamsChange)
520        #self.constraintAddedSignal.connect(self.modifyViewOnConstraint)
521        self._poly_model.itemChanged.connect(self.onPolyModelChange)
522        self._magnet_model.itemChanged.connect(self.onMagnetModelChange)
523        self.lstParams.selectionModel().selectionChanged.connect(self.onSelectionChanged)
524
525        # Local signals
526        self.batchFittingFinishedSignal.connect(self.batchFitComplete)
527        self.fittingFinishedSignal.connect(self.fitComplete)
528        self.Calc1DFinishedSignal.connect(self.complete1D)
529        self.Calc2DFinishedSignal.connect(self.complete2D)
530
531        # Signals from separate tabs asking for replot
532        self.options_widget.plot_signal.connect(self.onOptionsUpdate)
533
534        # Signals from other widgets
535        self.communicate.customModelDirectoryChanged.connect(self.onCustomModelChange)
536        self.communicate.saveAnalysisSignal.connect(self.savePageState)
537        self.smearing_widget.smearingChangedSignal.connect(self.onSmearingOptionsUpdate)
538        self.communicate.copyFitParamsSignal.connect(self.onParameterCopy)
539        self.communicate.pasteFitParamsSignal.connect(self.onParameterPaste)
540
541        # Communicator signal
542        self.communicate.updateModelCategoriesSignal.connect(self.onCategoriesChanged)
543
544    def modelName(self):
545        """
546        Returns model name, by default M<tab#>, e.g. M1, M2
547        """
548        return "M%i" % self.tab_id
549
550    def nameForFittedData(self, name):
551        """
552        Generate name for the current fit
553        """
554        if self.is2D:
555            name += "2d"
556        name = "%s [%s]" % (self.modelName(), name)
557        return name
558
559    def showModelContextMenu(self, position):
560        """
561        Show context specific menu in the parameter table.
562        When clicked on parameter(s): fitting/constraints options
563        When clicked on white space: model description
564        """
565        rows = [s.row() for s in self.lstParams.selectionModel().selectedRows()]
566        menu = self.showModelDescription() if not rows else self.modelContextMenu(rows)
567        try:
568            menu.exec_(self.lstParams.viewport().mapToGlobal(position))
569        except AttributeError as ex:
570            logging.error("Error generating context menu: %s" % ex)
571        return
572
573    def modelContextMenu(self, rows):
574        """
575        Create context menu for the parameter selection
576        """
577        menu = QtWidgets.QMenu()
578        num_rows = len(rows)
579        if num_rows < 1:
580            return menu
581        # Select for fitting
582        param_string = "parameter " if num_rows == 1 else "parameters "
583        to_string = "to its current value" if num_rows == 1 else "to their current values"
584        has_constraints = any([self.rowHasConstraint(i) for i in rows])
585
586        self.actionSelect = QtWidgets.QAction(self)
587        self.actionSelect.setObjectName("actionSelect")
588        self.actionSelect.setText(QtCore.QCoreApplication.translate("self", "Select "+param_string+" for fitting"))
589        # Unselect from fitting
590        self.actionDeselect = QtWidgets.QAction(self)
591        self.actionDeselect.setObjectName("actionDeselect")
592        self.actionDeselect.setText(QtCore.QCoreApplication.translate("self", "De-select "+param_string+" from fitting"))
593
594        self.actionConstrain = QtWidgets.QAction(self)
595        self.actionConstrain.setObjectName("actionConstrain")
596        self.actionConstrain.setText(QtCore.QCoreApplication.translate("self", "Constrain "+param_string + to_string))
597
598        self.actionRemoveConstraint = QtWidgets.QAction(self)
599        self.actionRemoveConstraint.setObjectName("actionRemoveConstrain")
600        self.actionRemoveConstraint.setText(QtCore.QCoreApplication.translate("self", "Remove constraint"))
601
602        self.actionMultiConstrain = QtWidgets.QAction(self)
603        self.actionMultiConstrain.setObjectName("actionMultiConstrain")
604        self.actionMultiConstrain.setText(QtCore.QCoreApplication.translate("self", "Constrain selected parameters to their current values"))
605
606        self.actionMutualMultiConstrain = QtWidgets.QAction(self)
607        self.actionMutualMultiConstrain.setObjectName("actionMutualMultiConstrain")
608        self.actionMutualMultiConstrain.setText(QtCore.QCoreApplication.translate("self", "Mutual constrain of selected parameters..."))
609
610        menu.addAction(self.actionSelect)
611        menu.addAction(self.actionDeselect)
612        menu.addSeparator()
613
614        if has_constraints:
615            menu.addAction(self.actionRemoveConstraint)
616            #if num_rows == 1:
617            #    menu.addAction(self.actionEditConstraint)
618        else:
619            menu.addAction(self.actionConstrain)
620            if num_rows == 2:
621                menu.addAction(self.actionMutualMultiConstrain)
622
623        # Define the callbacks
624        self.actionConstrain.triggered.connect(self.addSimpleConstraint)
625        self.actionRemoveConstraint.triggered.connect(self.deleteConstraint)
626        self.actionMutualMultiConstrain.triggered.connect(self.showMultiConstraint)
627        self.actionSelect.triggered.connect(self.selectParameters)
628        self.actionDeselect.triggered.connect(self.deselectParameters)
629        return menu
630
631    def showMultiConstraint(self):
632        """
633        Show the constraint widget and receive the expression
634        """
635        selected_rows = self.lstParams.selectionModel().selectedRows()
636        # There have to be only two rows selected. The caller takes care of that
637        # but let's check the correctness.
638        assert len(selected_rows) == 2
639
640        params_list = [s.data() for s in selected_rows]
641        # Create and display the widget for param1 and param2
642        mc_widget = MultiConstraint(self, params=params_list)
643        if mc_widget.exec_() != QtWidgets.QDialog.Accepted:
644            return
645
646        constraint = Constraint()
647        c_text = mc_widget.txtConstraint.text()
648
649        # widget.params[0] is the parameter we're constraining
650        constraint.param = mc_widget.params[0]
651        # parameter should have the model name preamble
652        model_name = self.kernel_module.name
653        # param_used is the parameter we're using in constraining function
654        param_used = mc_widget.params[1]
655        # Replace param_used with model_name.param_used
656        updated_param_used = model_name + "." + param_used
657        new_func = c_text.replace(param_used, updated_param_used)
658        constraint.func = new_func
659        # Which row is the constrained parameter in?
660        row = self.getRowFromName(constraint.param)
661
662        # Create a new item and add the Constraint object as a child
663        self.addConstraintToRow(constraint=constraint, row=row)
664
665    def getRowFromName(self, name):
666        """
667        Given parameter name get the row number in self._model_model
668        """
669        for row in range(self._model_model.rowCount()):
670            row_name = self._model_model.item(row).text()
671            if row_name == name:
672                return row
673        return None
674
675    def getParamNames(self):
676        """
677        Return list of all parameters for the current model
678        """
679        return [self._model_model.item(row).text()
680                for row in range(self._model_model.rowCount())
681                if self.isCheckable(row)]
682
683    def modifyViewOnRow(self, row, font=None, brush=None):
684        """
685        Chage how the given row of the main model is shown
686        """
687        fields_enabled = False
688        if font is None:
689            font = QtGui.QFont()
690            fields_enabled = True
691        if brush is None:
692            brush = QtGui.QBrush()
693            fields_enabled = True
694        self._model_model.blockSignals(True)
695        # Modify font and foreground of affected rows
696        for column in range(0, self._model_model.columnCount()):
697            self._model_model.item(row, column).setForeground(brush)
698            self._model_model.item(row, column).setFont(font)
699            self._model_model.item(row, column).setEditable(fields_enabled)
700        self._model_model.blockSignals(False)
701
702    def addConstraintToRow(self, constraint=None, row=0):
703        """
704        Adds the constraint object to requested row
705        """
706        # Create a new item and add the Constraint object as a child
707        assert isinstance(constraint, Constraint)
708        assert 0 <= row <= self._model_model.rowCount()
709        assert self.isCheckable(row)
710
711        item = QtGui.QStandardItem()
712        item.setData(constraint)
713        self._model_model.item(row, 1).setChild(0, item)
714        # Set min/max to the value constrained
715        self.constraintAddedSignal.emit([row])
716        # Show visual hints for the constraint
717        font = QtGui.QFont()
718        font.setItalic(True)
719        brush = QtGui.QBrush(QtGui.QColor('blue'))
720        self.modifyViewOnRow(row, font=font, brush=brush)
721        self.communicate.statusBarUpdateSignal.emit('Constraint added')
722
723    def addSimpleConstraint(self):
724        """
725        Adds a constraint on a single parameter.
726        """
727        min_col = self.lstParams.itemDelegate().param_min
728        max_col = self.lstParams.itemDelegate().param_max
729        for row in self.selectedParameters():
730            assert(self.isCheckable(row))
731            param = self._model_model.item(row, 0).text()
732            value = self._model_model.item(row, 1).text()
733            min_t = self._model_model.item(row, min_col).text()
734            max_t = self._model_model.item(row, max_col).text()
735            # Create a Constraint object
736            constraint = Constraint(param=param, value=value, min=min_t, max=max_t)
737            # Create a new item and add the Constraint object as a child
738            item = QtGui.QStandardItem()
739            item.setData(constraint)
740            self._model_model.item(row, 1).setChild(0, item)
741            # Assumed correctness from the validator
742            value = float(value)
743            # BUMPS calculates log(max-min) without any checks, so let's assign minor range
744            min_v = value - (value/10000.0)
745            max_v = value + (value/10000.0)
746            # Set min/max to the value constrained
747            self._model_model.item(row, min_col).setText(str(min_v))
748            self._model_model.item(row, max_col).setText(str(max_v))
749            self.constraintAddedSignal.emit([row])
750            # Show visual hints for the constraint
751            font = QtGui.QFont()
752            font.setItalic(True)
753            brush = QtGui.QBrush(QtGui.QColor('blue'))
754            self.modifyViewOnRow(row, font=font, brush=brush)
755        self.communicate.statusBarUpdateSignal.emit('Constraint added')
756
757    def deleteConstraint(self):
758        """
759        Delete constraints from selected parameters.
760        """
761        params = [s.data() for s in self.lstParams.selectionModel().selectedRows()
762                   if self.isCheckable(s.row())]
763        for param in params:
764            self.deleteConstraintOnParameter(param=param)
765
766    def deleteConstraintOnParameter(self, param=None):
767        """
768        Delete the constraint on model parameter 'param'
769        """
770        min_col = self.lstParams.itemDelegate().param_min
771        max_col = self.lstParams.itemDelegate().param_max
772        for row in range(self._model_model.rowCount()):
773            if not self.isCheckable(row):
774                continue
775            if not self.rowHasConstraint(row):
776                continue
777            # Get the Constraint object from of the model item
778            item = self._model_model.item(row, 1)
779            constraint = self.getConstraintForRow(row)
780            if constraint is None:
781                continue
782            if not isinstance(constraint, Constraint):
783                continue
784            if param and constraint.param != param:
785                continue
786            # Now we got the right row. Delete the constraint and clean up
787            # Retrieve old values and put them on the model
788            if constraint.min is not None:
789                self._model_model.item(row, min_col).setText(constraint.min)
790            if constraint.max is not None:
791                self._model_model.item(row, max_col).setText(constraint.max)
792            # Remove constraint item
793            item.removeRow(0)
794            self.constraintAddedSignal.emit([row])
795            self.modifyViewOnRow(row)
796
797        self.communicate.statusBarUpdateSignal.emit('Constraint removed')
798
799    def getConstraintForRow(self, row):
800        """
801        For the given row, return its constraint, if any
802        """
803        if self.isCheckable(row):
804            item = self._model_model.item(row, 1)
805            try:
806                return item.child(0).data()
807            except AttributeError:
808                # return none when no constraints
809                pass
810        return None
811
812    def rowHasConstraint(self, row):
813        """
814        Finds out if row of the main model has a constraint child
815        """
816        if self.isCheckable(row):
817            item = self._model_model.item(row, 1)
818            if item.hasChildren():
819                c = item.child(0).data()
820                if isinstance(c, Constraint):
821                    return True
822        return False
823
824    def rowHasActiveConstraint(self, row):
825        """
826        Finds out if row of the main model has an active constraint child
827        """
828        if self.isCheckable(row):
829            item = self._model_model.item(row, 1)
830            if item.hasChildren():
831                c = item.child(0).data()
832                if isinstance(c, Constraint) and c.active:
833                    return True
834        return False
835
836    def rowHasActiveComplexConstraint(self, row):
837        """
838        Finds out if row of the main model has an active, nontrivial constraint child
839        """
840        if self.isCheckable(row):
841            item = self._model_model.item(row, 1)
842            if item.hasChildren():
843                c = item.child(0).data()
844                if isinstance(c, Constraint) and c.func and c.active:
845                    return True
846        return False
847
848    def selectParameters(self):
849        """
850        Selected parameter is chosen for fitting
851        """
852        status = QtCore.Qt.Checked
853        self.setParameterSelection(status)
854
855    def deselectParameters(self):
856        """
857        Selected parameters are removed for fitting
858        """
859        status = QtCore.Qt.Unchecked
860        self.setParameterSelection(status)
861
862    def selectedParameters(self):
863        """ Returns list of selected (highlighted) parameters """
864        return [s.row() for s in self.lstParams.selectionModel().selectedRows()
865                if self.isCheckable(s.row())]
866
867    def setParameterSelection(self, status=QtCore.Qt.Unchecked):
868        """
869        Selected parameters are chosen for fitting
870        """
871        # Convert to proper indices and set requested enablement
872        for row in self.selectedParameters():
873            self._model_model.item(row, 0).setCheckState(status)
874
875    def getConstraintsForModel(self):
876        """
877        Return a list of tuples. Each tuple contains constraints mapped as
878        ('constrained parameter', 'function to constrain')
879        e.g. [('sld','5*sld_solvent')]
880        """
881        param_number = self._model_model.rowCount()
882        params = [(self._model_model.item(s, 0).text(),
883                    self._model_model.item(s, 1).child(0).data().func)
884                    for s in range(param_number) if self.rowHasActiveConstraint(s)]
885        return params
886
887    def getComplexConstraintsForModel(self):
888        """
889        Return a list of tuples. Each tuple contains constraints mapped as
890        ('constrained parameter', 'function to constrain')
891        e.g. [('sld','5*M2.sld_solvent')].
892        Only for constraints with defined VALUE
893        """
894        param_number = self._model_model.rowCount()
895        params = [(self._model_model.item(s, 0).text(),
896                    self._model_model.item(s, 1).child(0).data().func)
897                    for s in range(param_number) if self.rowHasActiveComplexConstraint(s)]
898        return params
899
900    def getConstraintObjectsForModel(self):
901        """
902        Returns Constraint objects present on the whole model
903        """
904        param_number = self._model_model.rowCount()
905        constraints = [self._model_model.item(s, 1).child(0).data()
906                       for s in range(param_number) if self.rowHasConstraint(s)]
907
908        return constraints
909
910    def getConstraintsForFitting(self):
911        """
912        Return a list of constraints in format ready for use in fiting
913        """
914        # Get constraints
915        constraints = self.getComplexConstraintsForModel()
916        # See if there are any constraints across models
917        multi_constraints = [cons for cons in constraints if self.isConstraintMultimodel(cons[1])]
918
919        if multi_constraints:
920            # Let users choose what to do
921            msg = "The current fit contains constraints relying on other fit pages.\n"
922            msg += "Parameters with those constraints are:\n" +\
923                '\n'.join([cons[0] for cons in multi_constraints])
924            msg += "\n\nWould you like to remove these constraints or cancel fitting?"
925            msgbox = QtWidgets.QMessageBox(self)
926            msgbox.setIcon(QtWidgets.QMessageBox.Warning)
927            msgbox.setText(msg)
928            msgbox.setWindowTitle("Existing Constraints")
929            # custom buttons
930            button_remove = QtWidgets.QPushButton("Remove")
931            msgbox.addButton(button_remove, QtWidgets.QMessageBox.YesRole)
932            button_cancel = QtWidgets.QPushButton("Cancel")
933            msgbox.addButton(button_cancel, QtWidgets.QMessageBox.RejectRole)
934            retval = msgbox.exec_()
935            if retval == QtWidgets.QMessageBox.RejectRole:
936                # cancel fit
937                raise ValueError("Fitting cancelled")
938            else:
939                # remove constraint
940                for cons in multi_constraints:
941                    self.deleteConstraintOnParameter(param=cons[0])
942                # re-read the constraints
943                constraints = self.getComplexConstraintsForModel()
944
945        return constraints
946
947    def showModelDescription(self):
948        """
949        Creates a window with model description, when right clicked in the treeview
950        """
951        msg = 'Model description:\n'
952        if self.kernel_module is not None:
953            if str(self.kernel_module.description).rstrip().lstrip() == '':
954                msg += "Sorry, no information is available for this model."
955            else:
956                msg += self.kernel_module.description + '\n'
957        else:
958            msg += "You must select a model to get information on this"
959
960        menu = QtWidgets.QMenu()
961        label = QtWidgets.QLabel(msg)
962        action = QtWidgets.QWidgetAction(self)
963        action.setDefaultWidget(label)
964        menu.addAction(action)
965        return menu
966
967    def onSelectModel(self):
968        """
969        Respond to select Model from list event
970        """
971        model = self.cbModel.currentText()
972
973        # Assure the control is active
974        if not self.cbModel.isEnabled():
975            return
976        # Empty combobox forced to be read
977        if not model:
978            return
979
980        # Reset parameters to fit
981        self.resetParametersToFit()
982        self.has_error_column = False
983        self.has_poly_error_column = False
984
985        structure = None
986        if self.cbStructureFactor.isEnabled():
987            structure = str(self.cbStructureFactor.currentText())
988        self.respondToModelStructure(model=model, structure_factor=structure)
989
990    def onSelectBatchFilename(self, data_index):
991        """
992        Update the logic based on the selected file in batch fitting
993        """
994        self.data_index = data_index
995        self.updateQRange()
996
997    def onSelectStructureFactor(self):
998        """
999        Select Structure Factor from list
1000        """
1001        model = str(self.cbModel.currentText())
1002        category = str(self.cbCategory.currentText())
1003        structure = str(self.cbStructureFactor.currentText())
1004        if category == CATEGORY_STRUCTURE:
1005            model = None
1006
1007        # Reset parameters to fit
1008        self.resetParametersToFit()
1009        self.has_error_column = False
1010        self.has_poly_error_column = False
1011
1012        self.respondToModelStructure(model=model, structure_factor=structure)
1013
1014    def resetParametersToFit(self):
1015        """
1016        Clears the list of parameters to be fitted
1017        """
1018        self.main_params_to_fit = []
1019        self.poly_params_to_fit = []
1020        self.magnet_params_to_fit = []
1021
1022    def onCustomModelChange(self):
1023        """
1024        Reload the custom model combobox
1025        """
1026        self.custom_models = self.customModels()
1027        self.readCustomCategoryInfo()
1028        # See if we need to update the combo in-place
1029        if self.cbCategory.currentText() != CATEGORY_CUSTOM: return
1030
1031        current_text = self.cbModel.currentText()
1032        self.cbModel.blockSignals(True)
1033        self.cbModel.clear()
1034        self.cbModel.blockSignals(False)
1035        self.enableModelCombo()
1036        self.disableStructureCombo()
1037        # Retrieve the list of models
1038        model_list = self.master_category_dict[CATEGORY_CUSTOM]
1039        # Populate the models combobox
1040        self.cbModel.addItems(sorted([model for (model, _) in model_list]))
1041        new_index = self.cbModel.findText(current_text)
1042        if new_index != -1:
1043            self.cbModel.setCurrentIndex(self.cbModel.findText(current_text))
1044
1045    def onSelectionChanged(self):
1046        """
1047        React to parameter selection
1048        """
1049        rows = self.lstParams.selectionModel().selectedRows()
1050        # Clean previous messages
1051        self.communicate.statusBarUpdateSignal.emit("")
1052        if len(rows) == 1:
1053            # Show constraint, if present
1054            row = rows[0].row()
1055            if self.rowHasConstraint(row):
1056                func = self.getConstraintForRow(row).func
1057                if func is not None:
1058                    self.communicate.statusBarUpdateSignal.emit("Active constrain: "+func)
1059
1060    def replaceConstraintName(self, old_name, new_name=""):
1061        """
1062        Replace names of models in defined constraints
1063        """
1064        param_number = self._model_model.rowCount()
1065        # loop over parameters
1066        for row in range(param_number):
1067            if self.rowHasConstraint(row):
1068                func = self._model_model.item(row, 1).child(0).data().func
1069                if old_name in func:
1070                    new_func = func.replace(old_name, new_name)
1071                    self._model_model.item(row, 1).child(0).data().func = new_func
1072
1073    def isConstraintMultimodel(self, constraint):
1074        """
1075        Check if the constraint function text contains current model name
1076        """
1077        current_model_name = self.kernel_module.name
1078        if current_model_name in constraint:
1079            return False
1080        else:
1081            return True
1082
1083    def updateData(self):
1084        """
1085        Helper function for recalculation of data used in plotting
1086        """
1087        # Update the chart
1088        if self.data_is_loaded:
1089            self.cmdPlot.setText("Show Plot")
1090            self.calculateQGridForModel()
1091        else:
1092            self.cmdPlot.setText("Calculate")
1093            # Create default datasets if no data passed
1094            self.createDefaultDataset()
1095
1096    def respondToModelStructure(self, model=None, structure_factor=None):
1097        # Set enablement on calculate/plot
1098        self.cmdPlot.setEnabled(True)
1099
1100        # kernel parameters -> model_model
1101        self.SASModelToQModel(model, structure_factor)
1102
1103        # Update plot
1104        self.updateData()
1105
1106        # Update state stack
1107        self.updateUndo()
1108
1109        # Let others know
1110        self.newModelSignal.emit()
1111
1112    def onSelectCategory(self):
1113        """
1114        Select Category from list
1115        """
1116        category = self.cbCategory.currentText()
1117        # Check if the user chose "Choose category entry"
1118        if category == CATEGORY_DEFAULT:
1119            # if the previous category was not the default, keep it.
1120            # Otherwise, just return
1121            if self._previous_category_index != 0:
1122                # We need to block signals, or else state changes on perceived unchanged conditions
1123                self.cbCategory.blockSignals(True)
1124                self.cbCategory.setCurrentIndex(self._previous_category_index)
1125                self.cbCategory.blockSignals(False)
1126            return
1127
1128        if category == CATEGORY_STRUCTURE:
1129            self.disableModelCombo()
1130            self.enableStructureCombo()
1131            # set the index to 0
1132            self.cbStructureFactor.setCurrentIndex(0)
1133            self.model_parameters = None
1134            self._model_model.clear()
1135            return
1136
1137        # Safely clear and enable the model combo
1138        self.cbModel.blockSignals(True)
1139        self.cbModel.clear()
1140        self.cbModel.blockSignals(False)
1141        self.enableModelCombo()
1142        self.disableStructureCombo()
1143
1144        self._previous_category_index = self.cbCategory.currentIndex()
1145        # Retrieve the list of models
1146        model_list = self.master_category_dict[category]
1147        # Populate the models combobox
1148        self.cbModel.addItems(sorted([model for (model, _) in model_list]))
1149
1150    def onPolyModelChange(self, item):
1151        """
1152        Callback method for updating the main model and sasmodel
1153        parameters with the GUI values in the polydispersity view
1154        """
1155        model_column = item.column()
1156        model_row = item.row()
1157        name_index = self._poly_model.index(model_row, 0)
1158        parameter_name = str(name_index.data()) # "distribution of sld" etc.
1159        if "istribution of" in parameter_name:
1160            # just the last word
1161            parameter_name = parameter_name.rsplit()[-1]
1162
1163        delegate = self.lstPoly.itemDelegate()
1164
1165        # Extract changed value.
1166        if model_column == delegate.poly_parameter:
1167            # Is the parameter checked for fitting?
1168            value = item.checkState()
1169            parameter_name = parameter_name + '.width'
1170            if value == QtCore.Qt.Checked:
1171                self.poly_params_to_fit.append(parameter_name)
1172            else:
1173                if parameter_name in self.poly_params_to_fit:
1174                    self.poly_params_to_fit.remove(parameter_name)
1175            self.cmdFit.setEnabled(self.haveParamsToFit())
1176
1177        elif model_column in [delegate.poly_min, delegate.poly_max]:
1178            try:
1179                value = GuiUtils.toDouble(item.text())
1180            except TypeError:
1181                # Can't be converted properly, bring back the old value and exit
1182                return
1183
1184            current_details = self.kernel_module.details[parameter_name]
1185            if self.has_poly_error_column:
1186                # err column changes the indexing
1187                current_details[model_column-2] = value
1188            else:
1189                current_details[model_column-1] = value
1190
1191        elif model_column == delegate.poly_function:
1192            # name of the function - just pass
1193            pass
1194
1195        else:
1196            try:
1197                value = GuiUtils.toDouble(item.text())
1198            except TypeError:
1199                # Can't be converted properly, bring back the old value and exit
1200                return
1201
1202            # Update the sasmodel
1203            # PD[ratio] -> width, npts -> npts, nsigs -> nsigmas
1204            #self.kernel_module.setParam(parameter_name + '.' + delegate.columnDict()[model_column], value)
1205            key = parameter_name + '.' + delegate.columnDict()[model_column]
1206            self.poly_params[key] = value
1207
1208            # Update plot
1209            self.updateData()
1210
1211        # update in param model
1212        if model_column in [delegate.poly_pd, delegate.poly_error, delegate.poly_min, delegate.poly_max]:
1213            row = self.getRowFromName(parameter_name)
1214            param_item = self._model_model.item(row)
1215            self._model_model.blockSignals(True)
1216            param_item.child(0).child(0, model_column).setText(item.text())
1217            self._model_model.blockSignals(False)
1218
1219    def onMagnetModelChange(self, item):
1220        """
1221        Callback method for updating the sasmodel magnetic parameters with the GUI values
1222        """
1223        model_column = item.column()
1224        model_row = item.row()
1225        name_index = self._magnet_model.index(model_row, 0)
1226        parameter_name = str(self._magnet_model.data(name_index))
1227
1228        if model_column == 0:
1229            value = item.checkState()
1230            if value == QtCore.Qt.Checked:
1231                self.magnet_params_to_fit.append(parameter_name)
1232            else:
1233                if parameter_name in self.magnet_params_to_fit:
1234                    self.magnet_params_to_fit.remove(parameter_name)
1235            self.cmdFit.setEnabled(self.haveParamsToFit())
1236            # Update state stack
1237            self.updateUndo()
1238            return
1239
1240        # Extract changed value.
1241        try:
1242            value = GuiUtils.toDouble(item.text())
1243        except TypeError:
1244            # Unparsable field
1245            return
1246        delegate = self.lstMagnetic.itemDelegate()
1247
1248        if model_column > 1:
1249            if model_column == delegate.mag_min:
1250                pos = 1
1251            elif model_column == delegate.mag_max:
1252                pos = 2
1253            elif model_column == delegate.mag_unit:
1254                pos = 0
1255            else:
1256                raise AttributeError("Wrong column in magnetism table.")
1257            # min/max to be changed in self.kernel_module.details[parameter_name] = ['Ang', 0.0, inf]
1258            self.kernel_module.details[parameter_name][pos] = value
1259        else:
1260            self.magnet_params[parameter_name] = value
1261            #self.kernel_module.setParam(parameter_name) = value
1262            # Force the chart update when actual parameters changed
1263            self.recalculatePlotData()
1264
1265        # Update state stack
1266        self.updateUndo()
1267
1268    def onHelp(self):
1269        """
1270        Show the "Fitting" section of help
1271        """
1272        tree_location = "/user/qtgui/Perspectives/Fitting/"
1273
1274        # Actual file will depend on the current tab
1275        tab_id = self.tabFitting.currentIndex()
1276        helpfile = "fitting.html"
1277        if tab_id == 0:
1278            helpfile = "fitting_help.html"
1279        elif tab_id == 1:
1280            helpfile = "residuals_help.html"
1281        elif tab_id == 2:
1282            helpfile = "resolution.html"
1283        elif tab_id == 3:
1284            helpfile = "pd/polydispersity.html"
1285        elif tab_id == 4:
1286            helpfile = "magnetism/magnetism.html"
1287        help_location = tree_location + helpfile
1288
1289        self.showHelp(help_location)
1290
1291    def showHelp(self, url):
1292        """
1293        Calls parent's method for opening an HTML page
1294        """
1295        self.parent.showHelp(url)
1296
1297    def onDisplayMagneticAngles(self):
1298        """
1299        Display a simple image showing direction of magnetic angles
1300        """
1301        self.magneticAnglesWidget.show()
1302
1303    def onFit(self):
1304        """
1305        Perform fitting on the current data
1306        """
1307        if self.fit_started:
1308            self.stopFit()
1309            return
1310
1311        # initialize fitter constants
1312        fit_id = 0
1313        handler = None
1314        batch_inputs = {}
1315        batch_outputs = {}
1316        #---------------------------------
1317        if LocalConfig.USING_TWISTED:
1318            handler = None
1319            updater = None
1320        else:
1321            handler = ConsoleUpdate(parent=self.parent,
1322                                    manager=self,
1323                                    improvement_delta=0.1)
1324            updater = handler.update_fit
1325
1326        # Prepare the fitter object
1327        try:
1328            fitters, _ = self.prepareFitters()
1329        except ValueError as ex:
1330            # This should not happen! GUI explicitly forbids this situation
1331            self.communicate.statusBarUpdateSignal.emit(str(ex))
1332            return
1333
1334        # keep local copy of kernel parameters, as they will change during the update
1335        self.kernel_module_copy = copy.deepcopy(self.kernel_module)
1336
1337        # Create the fitting thread, based on the fitter
1338        completefn = self.batchFittingCompleted if self.is_batch_fitting else self.fittingCompleted
1339
1340        self.calc_fit = FitThread(handler=handler,
1341                            fn=fitters,
1342                            batch_inputs=batch_inputs,
1343                            batch_outputs=batch_outputs,
1344                            page_id=[[self.page_id]],
1345                            updatefn=updater,
1346                            completefn=completefn,
1347                            reset_flag=self.is_chain_fitting)
1348
1349        if LocalConfig.USING_TWISTED:
1350            # start the trhrhread with twisted
1351            calc_thread = threads.deferToThread(self.calc_fit.compute)
1352            calc_thread.addCallback(completefn)
1353            calc_thread.addErrback(self.fitFailed)
1354        else:
1355            # Use the old python threads + Queue
1356            self.calc_fit.queue()
1357            self.calc_fit.ready(2.5)
1358
1359        self.communicate.statusBarUpdateSignal.emit('Fitting started...')
1360        self.fit_started = True
1361        # Disable some elements
1362        self.setFittingStarted()
1363
1364    def stopFit(self):
1365        """
1366        Attempt to stop the fitting thread
1367        """
1368        if self.calc_fit is None or not self.calc_fit.isrunning():
1369            return
1370        self.calc_fit.stop()
1371        #self.fit_started=False
1372        #re-enable the Fit button
1373        self.setFittingStopped()
1374
1375        msg = "Fitting cancelled."
1376        self.communicate.statusBarUpdateSignal.emit(msg)
1377
1378    def updateFit(self):
1379        """
1380        """
1381        print("UPDATE FIT")
1382        pass
1383
1384    def fitFailed(self, reason):
1385        """
1386        """
1387        self.setFittingStopped()
1388        msg = "Fitting failed with: "+ str(reason)
1389        self.communicate.statusBarUpdateSignal.emit(msg)
1390
1391    def batchFittingCompleted(self, result):
1392        """
1393        Send the finish message from calculate threads to main thread
1394        """
1395        if result is None:
1396            result = tuple()
1397        self.batchFittingFinishedSignal.emit(result)
1398
1399    def batchFitComplete(self, result):
1400        """
1401        Receive and display batch fitting results
1402        """
1403        #re-enable the Fit button
1404        self.setFittingStopped()
1405
1406        if len(result) == 0:
1407            msg = "Fitting failed."
1408            self.communicate.statusBarUpdateSignal.emit(msg)
1409            return
1410
1411        # Show the grid panel
1412        self.communicate.sendDataToGridSignal.emit(result[0])
1413
1414        elapsed = result[1]
1415        msg = "Fitting completed successfully in: %s s.\n" % GuiUtils.formatNumber(elapsed)
1416        self.communicate.statusBarUpdateSignal.emit(msg)
1417
1418        # Run over the list of results and update the items
1419        for res_index, res_list in enumerate(result[0]):
1420            # results
1421            res = res_list[0]
1422            param_dict = self.paramDictFromResults(res)
1423
1424            # create local kernel_module
1425            kernel_module = FittingUtilities.updateKernelWithResults(self.kernel_module, param_dict)
1426            # pull out current data
1427            data = self._logic[res_index].data
1428
1429            # Switch indexes
1430            self.onSelectBatchFilename(res_index)
1431
1432            method = self.complete1D if isinstance(self.data, Data1D) else self.complete2D
1433            self.calculateQGridForModelExt(data=data, model=kernel_module, completefn=method, use_threads=False)
1434
1435        # Restore original kernel_module, so subsequent fits on the same model don't pick up the new params
1436        if self.kernel_module is not None:
1437            self.kernel_module = copy.deepcopy(self.kernel_module_copy)
1438
1439    def paramDictFromResults(self, results):
1440        """
1441        Given the fit results structure, pull out optimized parameters and return them as nicely
1442        formatted dict
1443        """
1444        if results.fitness is None or \
1445            not np.isfinite(results.fitness) or \
1446            np.any(results.pvec is None) or \
1447            not np.all(np.isfinite(results.pvec)):
1448            msg = "Fitting did not converge!"
1449            self.communicate.statusBarUpdateSignal.emit(msg)
1450            msg += results.mesg
1451            logging.error(msg)
1452            return
1453
1454        param_list = results.param_list # ['radius', 'radius.width']
1455        param_values = results.pvec     # array([ 0.36221662,  0.0146783 ])
1456        param_stderr = results.stderr   # array([ 1.71293015,  1.71294233])
1457        params_and_errors = list(zip(param_values, param_stderr))
1458        param_dict = dict(zip(param_list, params_and_errors))
1459
1460        return param_dict
1461
1462    def fittingCompleted(self, result):
1463        """
1464        Send the finish message from calculate threads to main thread
1465        """
1466        if result is None:
1467            result = tuple()
1468        self.fittingFinishedSignal.emit(result)
1469
1470    def fitComplete(self, result):
1471        """
1472        Receive and display fitting results
1473        "result" is a tuple of actual result list and the fit time in seconds
1474        """
1475        #re-enable the Fit button
1476        self.setFittingStopped()
1477
1478        if len(result) == 0:
1479            msg = "Fitting failed."
1480            self.communicate.statusBarUpdateSignal.emit(msg)
1481            return
1482
1483        res_list = result[0][0]
1484        res = res_list[0]
1485        self.chi2 = res.fitness
1486        param_dict = self.paramDictFromResults(res)
1487
1488        if param_dict is None:
1489            return
1490
1491        elapsed = result[1]
1492        if self.calc_fit._interrupting:
1493            msg = "Fitting cancelled by user after: %s s." % GuiUtils.formatNumber(elapsed)
1494            logging.warning("\n"+msg+"\n")
1495        else:
1496            msg = "Fitting completed successfully in: %s s." % GuiUtils.formatNumber(elapsed)
1497        self.communicate.statusBarUpdateSignal.emit(msg)
1498
1499        # Dictionary of fitted parameter: value, error
1500        # e.g. param_dic = {"sld":(1.703, 0.0034), "length":(33.455, -0.0983)}
1501        self.updateModelFromList(param_dict)
1502
1503        self.updatePolyModelFromList(param_dict)
1504
1505        self.updateMagnetModelFromList(param_dict)
1506
1507        # update charts
1508        self.onPlot()
1509
1510        # Read only value - we can get away by just printing it here
1511        chi2_repr = GuiUtils.formatNumber(self.chi2, high=True)
1512        self.lblChi2Value.setText(chi2_repr)
1513
1514    def prepareFitters(self, fitter=None, fit_id=0):
1515        """
1516        Prepare the Fitter object for use in fitting
1517        """
1518        # fitter = None -> single/batch fitting
1519        # fitter = Fit() -> simultaneous fitting
1520
1521        # Data going in
1522        data = self.logic.data
1523        model = copy.deepcopy(self.kernel_module)
1524        qmin = self.q_range_min
1525        qmax = self.q_range_max
1526        # add polydisperse/magnet parameters if asked
1527        self.updateKernelModelWithExtraParams(model)
1528
1529        params_to_fit = self.main_params_to_fit
1530        if self.chkPolydispersity.isChecked():
1531            params_to_fit += self.poly_params_to_fit
1532        if self.chkMagnetism.isChecked():
1533            params_to_fit += self.magnet_params_to_fit
1534        if not params_to_fit:
1535            raise ValueError('Fitting requires at least one parameter to optimize.')
1536
1537        # Get the constraints.
1538        constraints = self.getComplexConstraintsForModel()
1539        if fitter is None:
1540            # For single fits - check for inter-model constraints
1541            constraints = self.getConstraintsForFitting()
1542
1543        smearer = self.smearing_widget.smearer()
1544        handler = None
1545        batch_inputs = {}
1546        batch_outputs = {}
1547
1548        fitters = []
1549        for fit_index in self.all_data:
1550            fitter_single = Fit() if fitter is None else fitter
1551            data = GuiUtils.dataFromItem(fit_index)
1552            # Potential weights added directly to data
1553            weighted_data = self.addWeightingToData(data)
1554            try:
1555                fitter_single.set_model(model, fit_id, params_to_fit, data=weighted_data,
1556                             constraints=constraints)
1557            except ValueError as ex:
1558                raise ValueError("Setting model parameters failed with: %s" % ex)
1559
1560            qmin, qmax, _ = self.logic.computeRangeFromData(weighted_data)
1561            fitter_single.set_data(data=weighted_data, id=fit_id, smearer=smearer, qmin=qmin,
1562                            qmax=qmax)
1563            fitter_single.select_problem_for_fit(id=fit_id, value=1)
1564            if fitter is None:
1565                # Assign id to the new fitter only
1566                fitter_single.fitter_id = [self.page_id]
1567            fit_id += 1
1568            fitters.append(fitter_single)
1569
1570        return fitters, fit_id
1571
1572    def iterateOverModel(self, func):
1573        """
1574        Take func and throw it inside the model row loop
1575        """
1576        for row_i in range(self._model_model.rowCount()):
1577            func(row_i)
1578
1579    def updateModelFromList(self, param_dict):
1580        """
1581        Update the model with new parameters, create the errors column
1582        """
1583        assert isinstance(param_dict, dict)
1584        if not dict:
1585            return
1586
1587        def updateFittedValues(row):
1588            # Utility function for main model update
1589            # internal so can use closure for param_dict
1590            param_name = str(self._model_model.item(row, 0).text())
1591            if not self.isCheckable(row) or param_name not in list(param_dict.keys()):
1592                return
1593            # modify the param value
1594            param_repr = GuiUtils.formatNumber(param_dict[param_name][0], high=True)
1595            self._model_model.item(row, 1).setText(param_repr)
1596            if self.has_error_column:
1597                error_repr = GuiUtils.formatNumber(param_dict[param_name][1], high=True)
1598                self._model_model.item(row, 2).setText(error_repr)
1599
1600        def updatePolyValues(row):
1601            # Utility function for updateof polydispersity part of the main model
1602            param_name = str(self._model_model.item(row, 0).text())+'.width'
1603            if not self.isCheckable(row) or param_name not in list(param_dict.keys()):
1604                return
1605            # modify the param value
1606            param_repr = GuiUtils.formatNumber(param_dict[param_name][0], high=True)
1607            self._model_model.item(row, 0).child(0).child(0,1).setText(param_repr)
1608            # modify the param error
1609            if self.has_error_column:
1610                error_repr = GuiUtils.formatNumber(param_dict[param_name][1], high=True)
1611                self._model_model.item(row, 0).child(0).child(0,2).setText(error_repr)
1612
1613        def createErrorColumn(row):
1614            # Utility function for error column update
1615            item = QtGui.QStandardItem()
1616            def createItem(param_name):
1617                error_repr = GuiUtils.formatNumber(param_dict[param_name][1], high=True)
1618                item.setText(error_repr)
1619            def curr_param():
1620                return str(self._model_model.item(row, 0).text())
1621
1622            [createItem(param_name) for param_name in list(param_dict.keys()) if curr_param() == param_name]
1623
1624            error_column.append(item)
1625
1626        def createPolyErrorColumn(row):
1627            # Utility function for error column update in the polydispersity sub-rows
1628            # NOTE: only creates empty items; updatePolyValues adds the error value
1629            item = self._model_model.item(row, 0)
1630            if not item.hasChildren():
1631                return
1632            poly_item = item.child(0)
1633            if not poly_item.hasChildren():
1634                return
1635            poly_item.insertColumn(2, [QtGui.QStandardItem("")])
1636
1637        # block signals temporarily, so we don't end up
1638        # updating charts with every single model change on the end of fitting
1639        self._model_model.blockSignals(True)
1640
1641        if not self.has_error_column:
1642            # create top-level error column
1643            error_column = []
1644            self.lstParams.itemDelegate().addErrorColumn()
1645            self.iterateOverModel(createErrorColumn)
1646
1647            # we need to enable signals for this, otherwise the final column mysteriously disappears (don't ask, I don't
1648            # know)
1649            self._model_model.blockSignals(False)
1650            self._model_model.insertColumn(2, error_column)
1651            self._model_model.blockSignals(True)
1652
1653            FittingUtilities.addErrorHeadersToModel(self._model_model)
1654
1655            # create error column in polydispersity sub-rows
1656            self.iterateOverModel(createPolyErrorColumn)
1657
1658            self.has_error_column = True
1659
1660        self.iterateOverModel(updateFittedValues)
1661        self.iterateOverModel(updatePolyValues)
1662
1663        self._model_model.blockSignals(False)
1664
1665        # Adjust the table cells width.
1666        # TODO: find a way to dynamically adjust column width while resized expanding
1667        self.lstParams.resizeColumnToContents(0)
1668        self.lstParams.resizeColumnToContents(4)
1669        self.lstParams.resizeColumnToContents(5)
1670        self.lstParams.setSizePolicy(QtWidgets.QSizePolicy.MinimumExpanding, QtWidgets.QSizePolicy.Expanding)
1671
1672    def iterateOverPolyModel(self, func):
1673        """
1674        Take func and throw it inside the poly model row loop
1675        """
1676        for row_i in range(self._poly_model.rowCount()):
1677            func(row_i)
1678
1679    def updatePolyModelFromList(self, param_dict):
1680        """
1681        Update the polydispersity model with new parameters, create the errors column
1682        """
1683        assert isinstance(param_dict, dict)
1684        if not dict:
1685            return
1686
1687        def updateFittedValues(row_i):
1688            # Utility function for main model update
1689            # internal so can use closure for param_dict
1690            if row_i >= self._poly_model.rowCount():
1691                return
1692            param_name = str(self._poly_model.item(row_i, 0).text()).rsplit()[-1] + '.width'
1693            if param_name not in list(param_dict.keys()):
1694                return
1695            # modify the param value
1696            param_repr = GuiUtils.formatNumber(param_dict[param_name][0], high=True)
1697            self._poly_model.item(row_i, 1).setText(param_repr)
1698            if self.has_poly_error_column:
1699                error_repr = GuiUtils.formatNumber(param_dict[param_name][1], high=True)
1700                self._poly_model.item(row_i, 2).setText(error_repr)
1701
1702
1703        def createErrorColumn(row_i):
1704            # Utility function for error column update
1705            if row_i >= self._poly_model.rowCount():
1706                return
1707            item = QtGui.QStandardItem()
1708
1709            def createItem(param_name):
1710                error_repr = GuiUtils.formatNumber(param_dict[param_name][1], high=True)
1711                item.setText(error_repr)
1712
1713            def poly_param():
1714                return str(self._poly_model.item(row_i, 0).text()).rsplit()[-1] + '.width'
1715
1716            [createItem(param_name) for param_name in list(param_dict.keys()) if poly_param() == param_name]
1717
1718            error_column.append(item)
1719
1720        # block signals temporarily, so we don't end up
1721        # updating charts with every single model change on the end of fitting
1722        self._poly_model.blockSignals(True)
1723        self.iterateOverPolyModel(updateFittedValues)
1724        self._poly_model.blockSignals(False)
1725
1726        if self.has_poly_error_column:
1727            return
1728
1729        self.lstPoly.itemDelegate().addErrorColumn()
1730        error_column = []
1731        self.iterateOverPolyModel(createErrorColumn)
1732
1733        # switch off reponse to model change
1734        self._poly_model.blockSignals(True)
1735        self._poly_model.insertColumn(2, error_column)
1736        self._poly_model.blockSignals(False)
1737        FittingUtilities.addErrorPolyHeadersToModel(self._poly_model)
1738
1739        self.has_poly_error_column = True
1740
1741    def iterateOverMagnetModel(self, func):
1742        """
1743        Take func and throw it inside the magnet model row loop
1744        """
1745        for row_i in range(self._magnet_model.rowCount()):
1746            func(row_i)
1747
1748    def updateMagnetModelFromList(self, param_dict):
1749        """
1750        Update the magnetic model with new parameters, create the errors column
1751        """
1752        assert isinstance(param_dict, dict)
1753        if not dict:
1754            return
1755        if self._magnet_model.rowCount() == 0:
1756            return
1757
1758        def updateFittedValues(row):
1759            # Utility function for main model update
1760            # internal so can use closure for param_dict
1761            if self._magnet_model.item(row, 0) is None:
1762                return
1763            param_name = str(self._magnet_model.item(row, 0).text())
1764            if param_name not in list(param_dict.keys()):
1765                return
1766            # modify the param value
1767            param_repr = GuiUtils.formatNumber(param_dict[param_name][0], high=True)
1768            self._magnet_model.item(row, 1).setText(param_repr)
1769            if self.has_magnet_error_column:
1770                error_repr = GuiUtils.formatNumber(param_dict[param_name][1], high=True)
1771                self._magnet_model.item(row, 2).setText(error_repr)
1772
1773        def createErrorColumn(row):
1774            # Utility function for error column update
1775            item = QtGui.QStandardItem()
1776            def createItem(param_name):
1777                error_repr = GuiUtils.formatNumber(param_dict[param_name][1], high=True)
1778                item.setText(error_repr)
1779            def curr_param():
1780                return str(self._magnet_model.item(row, 0).text())
1781
1782            [createItem(param_name) for param_name in list(param_dict.keys()) if curr_param() == param_name]
1783
1784            error_column.append(item)
1785
1786        # block signals temporarily, so we don't end up
1787        # updating charts with every single model change on the end of fitting
1788        self._magnet_model.blockSignals(True)
1789        self.iterateOverMagnetModel(updateFittedValues)
1790        self._magnet_model.blockSignals(False)
1791
1792        if self.has_magnet_error_column:
1793            return
1794
1795        self.lstMagnetic.itemDelegate().addErrorColumn()
1796        error_column = []
1797        self.iterateOverMagnetModel(createErrorColumn)
1798
1799        # switch off reponse to model change
1800        self._magnet_model.blockSignals(True)
1801        self._magnet_model.insertColumn(2, error_column)
1802        self._magnet_model.blockSignals(False)
1803        FittingUtilities.addErrorHeadersToModel(self._magnet_model)
1804
1805        self.has_magnet_error_column = True
1806
1807    def onPlot(self):
1808        """
1809        Plot the current set of data
1810        """
1811        # Regardless of previous state, this should now be `plot show` functionality only
1812        self.cmdPlot.setText("Show Plot")
1813        # Force data recalculation so existing charts are updated
1814        self.recalculatePlotData()
1815        self.showPlot()
1816
1817    def onSmearingOptionsUpdate(self):
1818        """
1819        React to changes in the smearing widget
1820        """
1821        self.calculateQGridForModel()
1822
1823    def recalculatePlotData(self):
1824        """
1825        Generate a new dataset for model
1826        """
1827        if not self.data_is_loaded:
1828            self.createDefaultDataset()
1829        self.calculateQGridForModel()
1830
1831    def showPlot(self):
1832        """
1833        Show the current plot in MPL
1834        """
1835        # Show the chart if ready
1836        data_to_show = self.data if self.data_is_loaded else self.model_data
1837        if data_to_show is not None:
1838            self.communicate.plotRequestedSignal.emit([data_to_show])
1839
1840    def onOptionsUpdate(self):
1841        """
1842        Update local option values and replot
1843        """
1844        self.q_range_min, self.q_range_max, self.npts, self.log_points, self.weighting = \
1845            self.options_widget.state()
1846        # set Q range labels on the main tab
1847        self.lblMinRangeDef.setText(str(self.q_range_min))
1848        self.lblMaxRangeDef.setText(str(self.q_range_max))
1849        self.recalculatePlotData()
1850
1851    def setDefaultStructureCombo(self):
1852        """
1853        Fill in the structure factors combo box with defaults
1854        """
1855        structure_factor_list = self.master_category_dict.pop(CATEGORY_STRUCTURE)
1856        factors = [factor[0] for factor in structure_factor_list]
1857        factors.insert(0, STRUCTURE_DEFAULT)
1858        self.cbStructureFactor.clear()
1859        self.cbStructureFactor.addItems(sorted(factors))
1860
1861    def createDefaultDataset(self):
1862        """
1863        Generate default Dataset 1D/2D for the given model
1864        """
1865        # Create default datasets if no data passed
1866        if self.is2D:
1867            qmax = self.q_range_max/np.sqrt(2)
1868            qstep = self.npts
1869            self.logic.createDefault2dData(qmax, qstep, self.tab_id)
1870            return
1871        elif self.log_points:
1872            qmin = -10.0 if self.q_range_min < 1.e-10 else np.log10(self.q_range_min)
1873            qmax = 10.0 if self.q_range_max > 1.e10 else np.log10(self.q_range_max)
1874            interval = np.logspace(start=qmin, stop=qmax, num=self.npts, endpoint=True, base=10.0)
1875        else:
1876            interval = np.linspace(start=self.q_range_min, stop=self.q_range_max,
1877                                   num=self.npts, endpoint=True)
1878        self.logic.createDefault1dData(interval, self.tab_id)
1879
1880    def readCategoryInfo(self):
1881        """
1882        Reads the categories in from file
1883        """
1884        self.master_category_dict = defaultdict(list)
1885        self.by_model_dict = defaultdict(list)
1886        self.model_enabled_dict = defaultdict(bool)
1887
1888        categorization_file = CategoryInstaller.get_user_file()
1889        if not os.path.isfile(categorization_file):
1890            categorization_file = CategoryInstaller.get_default_file()
1891        with open(categorization_file, 'rb') as cat_file:
1892            self.master_category_dict = json.load(cat_file)
1893            self.regenerateModelDict()
1894
1895        # Load the model dict
1896        models = load_standard_models()
1897        for model in models:
1898            self.models[model.name] = model
1899
1900        self.readCustomCategoryInfo()
1901
1902    def readCustomCategoryInfo(self):
1903        """
1904        Reads the custom model category
1905        """
1906        #Looking for plugins
1907        self.plugins = list(self.custom_models.values())
1908        plugin_list = []
1909        for name, plug in self.custom_models.items():
1910            self.models[name] = plug
1911            plugin_list.append([name, True])
1912        self.master_category_dict[CATEGORY_CUSTOM] = plugin_list
1913
1914    def regenerateModelDict(self):
1915        """
1916        Regenerates self.by_model_dict which has each model name as the
1917        key and the list of categories belonging to that model
1918        along with the enabled mapping
1919        """
1920        self.by_model_dict = defaultdict(list)
1921        for category in self.master_category_dict:
1922            for (model, enabled) in self.master_category_dict[category]:
1923                self.by_model_dict[model].append(category)
1924                self.model_enabled_dict[model] = enabled
1925
1926    def addBackgroundToModel(self, model):
1927        """
1928        Adds background parameter with default values to the model
1929        """
1930        assert isinstance(model, QtGui.QStandardItemModel)
1931        checked_list = ['background', '0.001', '-inf', 'inf', '1/cm']
1932        FittingUtilities.addCheckedListToModel(model, checked_list)
1933        last_row = model.rowCount()-1
1934        model.item(last_row, 0).setEditable(False)
1935        model.item(last_row, 4).setEditable(False)
1936
1937    def addScaleToModel(self, model):
1938        """
1939        Adds scale parameter with default values to the model
1940        """
1941        assert isinstance(model, QtGui.QStandardItemModel)
1942        checked_list = ['scale', '1.0', '0.0', 'inf', '']
1943        FittingUtilities.addCheckedListToModel(model, checked_list)
1944        last_row = model.rowCount()-1
1945        model.item(last_row, 0).setEditable(False)
1946        model.item(last_row, 4).setEditable(False)
1947
1948    def addWeightingToData(self, data):
1949        """
1950        Adds weighting contribution to fitting data
1951        """
1952        new_data = copy.deepcopy(data)
1953        # Send original data for weighting
1954        weight = FittingUtilities.getWeight(data=data, is2d=self.is2D, flag=self.weighting)
1955        if self.is2D:
1956            new_data.err_data = weight
1957        else:
1958            new_data.dy = weight
1959
1960        return new_data
1961
1962    def updateQRange(self):
1963        """
1964        Updates Q Range display
1965        """
1966        if self.data_is_loaded:
1967            self.q_range_min, self.q_range_max, self.npts = self.logic.computeDataRange()
1968        # set Q range labels on the main tab
1969        self.lblMinRangeDef.setText(str(self.q_range_min))
1970        self.lblMaxRangeDef.setText(str(self.q_range_max))
1971        # set Q range labels on the options tab
1972        self.options_widget.updateQRange(self.q_range_min, self.q_range_max, self.npts)
1973
1974    def SASModelToQModel(self, model_name, structure_factor=None):
1975        """
1976        Setting model parameters into table based on selected category
1977        """
1978        # Crete/overwrite model items
1979        self._model_model.clear()
1980        self._poly_model.clear()
1981        self._magnet_model.clear()
1982
1983        if model_name is None:
1984            if structure_factor not in (None, "None"):
1985                # S(Q) on its own, treat the same as a form factor
1986                self.kernel_module = None
1987                self.fromStructureFactorToQModel(structure_factor)
1988            else:
1989                # No models selected
1990                return
1991        else:
1992            self.fromModelToQModel(model_name)
1993            self.addExtraShells()
1994
1995            # Allow the SF combobox visibility for the given sasmodel
1996            self.enableStructureFactorControl(structure_factor)
1997       
1998            # Add S(Q)
1999            if self.cbStructureFactor.isEnabled():
2000                structure_factor = self.cbStructureFactor.currentText()
2001                self.fromStructureFactorToQModel(structure_factor)
2002
2003            # Add polydispersity to the model
2004            self.poly_params = {}
2005            self.setPolyModel()
2006            # Add magnetic parameters to the model
2007            self.magnet_params = {}
2008            self.setMagneticModel()
2009
2010        # Adjust the table cells width
2011        self.lstParams.resizeColumnToContents(0)
2012        self.lstParams.setSizePolicy(QtWidgets.QSizePolicy.MinimumExpanding, QtWidgets.QSizePolicy.Expanding)
2013
2014        # Now we claim the model has been loaded
2015        self.model_is_loaded = True
2016        # Change the model name to a monicker
2017        self.kernel_module.name = self.modelName()
2018        # Update the smearing tab
2019        self.smearing_widget.updateKernelModel(kernel_model=self.kernel_module)
2020
2021        # (Re)-create headers
2022        FittingUtilities.addHeadersToModel(self._model_model)
2023        self.lstParams.header().setFont(self.boldFont)
2024
2025        # Update Q Ranges
2026        self.updateQRange()
2027
2028    def fromModelToQModel(self, model_name):
2029        """
2030        Setting model parameters into QStandardItemModel based on selected _model_
2031        """
2032        name = model_name
2033        kernel_module = None
2034        if self.cbCategory.currentText() == CATEGORY_CUSTOM:
2035            # custom kernel load requires full path
2036            name = os.path.join(ModelUtilities.find_plugins_dir(), model_name+".py")
2037        try:
2038            kernel_module = generate.load_kernel_module(name)
2039        except ModuleNotFoundError as ex:
2040            pass
2041
2042        if kernel_module is None:
2043            # mismatch between "name" attribute and actual filename.
2044            curr_model = self.models[model_name]
2045            name, _ = os.path.splitext(os.path.basename(curr_model.filename))
2046            try:
2047                kernel_module = generate.load_kernel_module(name)
2048            except ModuleNotFoundError as ex:
2049                logging.error("Can't find the model "+ str(ex))
2050                return
2051
2052        if hasattr(kernel_module, 'parameters'):
2053            # built-in and custom models
2054            self.model_parameters = modelinfo.make_parameter_table(getattr(kernel_module, 'parameters', []))
2055
2056        elif hasattr(kernel_module, 'model_info'):
2057            # for sum/multiply models
2058            self.model_parameters = kernel_module.model_info.parameters
2059
2060        elif hasattr(kernel_module, 'Model') and hasattr(kernel_module.Model, "_model_info"):
2061            # this probably won't work if there's no model_info, but just in case
2062            self.model_parameters = kernel_module.Model._model_info.parameters
2063        else:
2064            # no parameters - default to blank table
2065            msg = "No parameters found in model '{}'.".format(model_name)
2066            logger.warning(msg)
2067            self.model_parameters = modelinfo.ParameterTable([])
2068
2069        # Instantiate the current sasmodel
2070        self.kernel_module = self.models[model_name]()
2071
2072        # Explicitly add scale and background with default values
2073        temp_undo_state = self.undo_supported
2074        self.undo_supported = False
2075        self.addScaleToModel(self._model_model)
2076        self.addBackgroundToModel(self._model_model)
2077        self.undo_supported = temp_undo_state
2078
2079        self.shell_names = self.shellNamesList()
2080
2081        # Get new rows for QModel
2082        new_rows = FittingUtilities.addParametersToModel(self.model_parameters, self.kernel_module, self.is2D)
2083
2084        # Add heading row
2085        FittingUtilities.addHeadingRowToModel(self._model_model, model_name)
2086
2087        # Update QModel
2088        for row in new_rows:
2089            self._model_model.appendRow(row)
2090
2091    def fromStructureFactorToQModel(self, structure_factor):
2092        """
2093        Setting model parameters into QStandardItemModel based on selected _structure factor_
2094        """
2095        if structure_factor is None or structure_factor=="None":
2096            return
2097
2098        s_kernel = self.models[structure_factor]()
2099        p_kernel = self.kernel_module
2100
2101        if p_kernel is None:
2102            # Not a product model, just S(Q)
2103            self.kernel_module = s_kernel
2104            params = modelinfo.ParameterTable(self.kernel_module._model_info.parameters.kernel_parameters)
2105            new_rows = FittingUtilities.addSimpleParametersToModel(params, self.is2D)
2106        else:
2107            p_pars_len = len(p_kernel._model_info.parameters.kernel_parameters)
2108            s_pars_len = len(s_kernel._model_info.parameters.kernel_parameters)
2109
2110            self.kernel_module = MultiplicationModel(p_kernel, s_kernel)
2111            all_params = self.kernel_module._model_info.parameters.kernel_parameters
2112            all_param_names = [param.name for param in all_params]
2113
2114            # S(Q) params from the product model are not necessarily the same as those from the S(Q) model; any
2115            # conflicting names with P(Q) params will cause a rename; we also lose radius_effective (for now...)
2116
2117            # TODO: merge rest of beta approx implementation in
2118            # This is to ensure compatibility when we merge beta approx support in...!
2119
2120            # radius_effective is always s_params[0]
2121
2122            # if radius_effective_mode is in all_params, then all_params contains radius_effective and we want to
2123            # keep it in the model
2124
2125            # if radius_effective_mode is NOT in all_params, then radius_effective should NOT be kept, because the user
2126            # cannot specify it themselves; but, make sure we only remove it if it's actually there in the first place
2127            # (sasmodels master removes it already)
2128            if "radius_effective_mode" in all_param_names:
2129                # Show all parameters
2130                s_params = modelinfo.ParameterTable(all_params[p_pars_len:p_pars_len+s_pars_len])
2131                s_params_orig = modelinfo.ParameterTable(s_kernel._model_info.parameters.kernel_parameters)
2132            else:
2133                # Ensure radius_effective is not displayed
2134                s_params_orig = modelinfo.ParameterTable(s_kernel._model_info.parameters.kernel_parameters[1:])
2135                if "radius_effective" in all_param_names:
2136                    s_params = modelinfo.ParameterTable(all_params[p_pars_len+1:p_pars_len+s_pars_len])
2137                else:
2138                    s_params = modelinfo.ParameterTable(all_params[p_pars_len:p_pars_len+s_pars_len-1])
2139
2140            # Get new rows for QModel
2141            # Any renamed parameters are stored as data in the relevant item, for later handling
2142            new_rows = FittingUtilities.addSimpleParametersToModel(s_params, self.is2D, s_params_orig)
2143
2144            # TODO: merge rest of beta approx implementation in
2145            # These parameters are not part of P(Q) nor S(Q), but are added only to the product model (e.g. specifying
2146            # structure factor calculation mode)
2147            # product_params = all_params[p_pars_len+s_pars_len:]
2148
2149        # Add heading row
2150        FittingUtilities.addHeadingRowToModel(self._model_model, structure_factor)
2151
2152        # Update QModel
2153        for row in new_rows:
2154            self._model_model.appendRow(row)
2155            # disable fitting of parameters not listed in self.kernel_module (probably radius_effective)
2156            # if row[0].text() not in self.kernel_module.params.keys():
2157            #     row_num = self._model_model.rowCount() - 1
2158            #     FittingUtilities.markParameterDisabled(self._model_model, row_num)
2159
2160    def haveParamsToFit(self):
2161        """
2162        Finds out if there are any parameters ready to be fitted
2163        """
2164        return (self.main_params_to_fit!=[]
2165                or self.poly_params_to_fit!=[]
2166                or self.magnet_params_to_fit != []) and \
2167                self.logic.data_is_loaded
2168
2169    def onMainParamsChange(self, item):
2170        """
2171        Callback method for updating the sasmodel parameters with the GUI values
2172        """
2173        model_column = item.column()
2174
2175        if model_column == 0:
2176            self.checkboxSelected(item)
2177            self.cmdFit.setEnabled(self.haveParamsToFit())
2178            # Update state stack
2179            self.updateUndo()
2180            return
2181
2182        model_row = item.row()
2183        name_index = self._model_model.index(model_row, 0)
2184        name_item = self._model_model.itemFromIndex(name_index)
2185
2186        # Extract changed value.
2187        try:
2188            value = GuiUtils.toDouble(item.text())
2189        except TypeError:
2190            # Unparsable field
2191            return
2192
2193        # if the item has user data, this is the actual parameter name (e.g. to handle duplicate names)
2194        if name_item.data(QtCore.Qt.UserRole):
2195            parameter_name = str(name_item.data(QtCore.Qt.UserRole))
2196        else:
2197            parameter_name = str(self._model_model.data(name_index))
2198
2199        # Update the parameter value - note: this supports +/-inf as well
2200        self.kernel_module.params[parameter_name] = value
2201
2202        # Update the parameter value - note: this supports +/-inf as well
2203        param_column = self.lstParams.itemDelegate().param_value
2204        min_column = self.lstParams.itemDelegate().param_min
2205        max_column = self.lstParams.itemDelegate().param_max
2206        if model_column == param_column:
2207            self.kernel_module.setParam(parameter_name, value)
2208        elif model_column == min_column:
2209            # min/max to be changed in self.kernel_module.details[parameter_name] = ['Ang', 0.0, inf]
2210            self.kernel_module.details[parameter_name][1] = value
2211        elif model_column == max_column:
2212            self.kernel_module.details[parameter_name][2] = value
2213        else:
2214            # don't update the chart
2215            return
2216
2217        # TODO: magnetic params in self.kernel_module.details['M0:parameter_name'] = value
2218        # TODO: multishell params in self.kernel_module.details[??] = value
2219
2220        # Force the chart update when actual parameters changed
2221        if model_column == 1:
2222            self.recalculatePlotData()
2223
2224        # Update state stack
2225        self.updateUndo()
2226
2227    def isCheckable(self, row):
2228        return self._model_model.item(row, 0).isCheckable()
2229
2230    def checkboxSelected(self, item):
2231        # Assure we're dealing with checkboxes
2232        if not item.isCheckable():
2233            return
2234        status = item.checkState()
2235
2236        # If multiple rows selected - toggle all of them, filtering uncheckable
2237        # Switch off signaling from the model to avoid recursion
2238        self._model_model.blockSignals(True)
2239        # Convert to proper indices and set requested enablement
2240        self.setParameterSelection(status)
2241        self._model_model.blockSignals(False)
2242
2243        # update the list of parameters to fit
2244        self.main_params_to_fit = self.checkedListFromModel(self._model_model)
2245
2246    def checkedListFromModel(self, model):
2247        """
2248        Returns list of checked parameters for given model
2249        """
2250        def isChecked(row):
2251            return model.item(row, 0).checkState() == QtCore.Qt.Checked
2252
2253        return [str(model.item(row_index, 0).text())
2254                for row_index in range(model.rowCount())
2255                if isChecked(row_index)]
2256
2257    def createNewIndex(self, fitted_data):
2258        """
2259        Create a model or theory index with passed Data1D/Data2D
2260        """
2261        if self.data_is_loaded:
2262            if not fitted_data.name:
2263                name = self.nameForFittedData(self.data.filename)
2264                fitted_data.title = name
2265                fitted_data.name = name
2266                fitted_data.filename = name
2267                fitted_data.symbol = "Line"
2268            self.updateModelIndex(fitted_data)
2269        else:
2270            if not fitted_data.name:
2271                name = self.nameForFittedData(self.kernel_module.id)
2272            else:
2273                name = fitted_data.name
2274            fitted_data.title = name
2275            fitted_data.filename = name
2276            fitted_data.symbol = "Line"
2277            self.createTheoryIndex(fitted_data)
2278
2279    def updateModelIndex(self, fitted_data):
2280        """
2281        Update a QStandardModelIndex containing model data
2282        """
2283        name = self.nameFromData(fitted_data)
2284        # Make this a line if no other defined
2285        if hasattr(fitted_data, 'symbol') and fitted_data.symbol is None:
2286            fitted_data.symbol = 'Line'
2287        # Notify the GUI manager so it can update the main model in DataExplorer
2288        GuiUtils.updateModelItemWithPlot(self.all_data[self.data_index], fitted_data, name)
2289
2290    def createTheoryIndex(self, fitted_data):
2291        """
2292        Create a QStandardModelIndex containing model data
2293        """
2294        name = self.nameFromData(fitted_data)
2295        # Notify the GUI manager so it can create the theory model in DataExplorer
2296        self.theory_item = GuiUtils.createModelItemWithPlot(fitted_data, name=name)
2297        self.communicate.updateTheoryFromPerspectiveSignal.emit(self.theory_item)
2298
2299    def nameFromData(self, fitted_data):
2300        """
2301        Return name for the dataset. Terribly impure function.
2302        """
2303        if fitted_data.name is None:
2304            name = self.nameForFittedData(self.logic.data.filename)
2305            fitted_data.title = name
2306            fitted_data.name = name
2307            fitted_data.filename = name
2308        else:
2309            name = fitted_data.name
2310        return name
2311
2312    def methodCalculateForData(self):
2313        '''return the method for data calculation'''
2314        return Calc1D if isinstance(self.data, Data1D) else Calc2D
2315
2316    def methodCompleteForData(self):
2317        '''return the method for result parsin on calc complete '''
2318        return self.completed1D if isinstance(self.data, Data1D) else self.completed2D
2319
2320    def updateKernelModelWithExtraParams(self, model=None):
2321        """
2322        Updates kernel model 'model' with extra parameters from
2323        the polydisp and magnetism tab, if the tabs are enabled
2324        """
2325        if model is None: return
2326        if not hasattr(model, 'setParam'): return
2327
2328        # add polydisperse parameters if asked
2329        if self.chkPolydispersity.isChecked():
2330            for key, value in self.poly_params.items():
2331                model.setParam(key, value)
2332        # add magnetic params if asked
2333        if self.chkMagnetism.isChecked():
2334            for key, value in self.magnet_params.items():
2335                model.setParam(key, value)
2336
2337    def calculateQGridForModelExt(self, data=None, model=None, completefn=None, use_threads=True):
2338        """
2339        Wrapper for Calc1D/2D calls
2340        """
2341        if data is None:
2342            data = self.data
2343        if model is None:
2344            model = copy.deepcopy(self.kernel_module)
2345            self.updateKernelModelWithExtraParams(model)
2346
2347        if completefn is None:
2348            completefn = self.methodCompleteForData()
2349        smearer = self.smearing_widget.smearer()
2350        weight = FittingUtilities.getWeight(data=data, is2d=self.is2D, flag=self.weighting)
2351
2352        # Awful API to a backend method.
2353        calc_thread = self.methodCalculateForData()(data=data,
2354                                               model=model,
2355                                               page_id=0,
2356                                               qmin=self.q_range_min,
2357                                               qmax=self.q_range_max,
2358                                               smearer=smearer,
2359                                               state=None,
2360                                               weight=weight,
2361                                               fid=None,
2362                                               toggle_mode_on=False,
2363                                               completefn=completefn,
2364                                               update_chisqr=True,
2365                                               exception_handler=self.calcException,
2366                                               source=None)
2367        if use_threads:
2368            if LocalConfig.USING_TWISTED:
2369                # start the thread with twisted
2370                thread = threads.deferToThread(calc_thread.compute)
2371                thread.addCallback(completefn)
2372                thread.addErrback(self.calculateDataFailed)
2373            else:
2374                # Use the old python threads + Queue
2375                calc_thread.queue()
2376                calc_thread.ready(2.5)
2377        else:
2378            results = calc_thread.compute()
2379            completefn(results)
2380
2381    def calculateQGridForModel(self):
2382        """
2383        Prepare the fitting data object, based on current ModelModel
2384        """
2385        if self.kernel_module is None:
2386            return
2387        self.calculateQGridForModelExt()
2388
2389    def calculateDataFailed(self, reason):
2390        """
2391        Thread returned error
2392        """
2393        print("Calculate Data failed with ", reason)
2394
2395    def completed1D(self, return_data):
2396        self.Calc1DFinishedSignal.emit(return_data)
2397
2398    def completed2D(self, return_data):
2399        self.Calc2DFinishedSignal.emit(return_data)
2400
2401    def complete1D(self, return_data):
2402        """
2403        Plot the current 1D data
2404        """
2405        fitted_data = self.logic.new1DPlot(return_data, self.tab_id)
2406        residuals = self.calculateResiduals(fitted_data)
2407        self.model_data = fitted_data
2408        new_plots = [fitted_data]
2409        if residuals is not None:
2410            new_plots.append(residuals)
2411
2412        if self.data_is_loaded:
2413            GuiUtils.deleteRedundantPlots(self.all_data[self.data_index], new_plots)
2414        else:
2415            # delete theory items for the model, in order to get rid of any redundant items, e.g. beta(Q), S_eff(Q)
2416            self.communicate.deleteIntermediateTheoryPlotsSignal.emit(self.kernel_module.id)
2417
2418        # Create plots for intermediate product data
2419        pq_data, sq_data = self.logic.new1DProductPlots(return_data, self.tab_id)
2420        if pq_data is not None:
2421            pq_data.symbol = "Line"
2422            self.createNewIndex(pq_data)
2423            # self.communicate.plotUpdateSignal.emit([pq_data])
2424            new_plots.append(pq_data)
2425        if sq_data is not None:
2426            sq_data.symbol = "Line"
2427            self.createNewIndex(sq_data)
2428            # self.communicate.plotUpdateSignal.emit([sq_data])
2429            new_plots.append(sq_data)
2430
2431        for plot in new_plots:
2432            self.communicate.plotUpdateSignal.emit([plot])
2433
2434    def complete2D(self, return_data):
2435        """
2436        Plot the current 2D data
2437        """
2438        fitted_data = self.logic.new2DPlot(return_data)
2439        residuals = self.calculateResiduals(fitted_data)
2440        self.model_data = fitted_data
2441        new_plots = [fitted_data]
2442        if residuals is not None:
2443            new_plots.append(residuals)
2444
2445        # Update/generate plots
2446        for plot in new_plots:
2447            self.communicate.plotUpdateSignal.emit([plot])
2448
2449    def calculateResiduals(self, fitted_data):
2450        """
2451        Calculate and print Chi2 and display chart of residuals. Returns residuals plot object.
2452        """
2453        # Create a new index for holding data
2454        fitted_data.symbol = "Line"
2455
2456        # Modify fitted_data with weighting
2457        weighted_data = self.addWeightingToData(fitted_data)
2458
2459        self.createNewIndex(weighted_data)
2460        # Calculate difference between return_data and logic.data
2461        self.chi2 = FittingUtilities.calculateChi2(weighted_data, self.logic.data)
2462        # Update the control
2463        chi2_repr = "---" if self.chi2 is None else GuiUtils.formatNumber(self.chi2, high=True)
2464        self.lblChi2Value.setText(chi2_repr)
2465
2466        # Plot residuals if actual data
2467        if not self.data_is_loaded:
2468            return
2469
2470        residuals_plot = FittingUtilities.plotResiduals(self.data, weighted_data)
2471        residuals_plot.id = "Residual " + residuals_plot.id
2472        self.createNewIndex(residuals_plot)
2473        return residuals_plot
2474
2475    def onCategoriesChanged(self):
2476            """
2477            Reload the category/model comboboxes
2478            """
2479            # Store the current combo indices
2480            current_cat = self.cbCategory.currentText()
2481            current_model = self.cbModel.currentText()
2482
2483            # reread the category file and repopulate the combo
2484            self.cbCategory.blockSignals(True)
2485            self.cbCategory.clear()
2486            self.readCategoryInfo()
2487            self.initializeCategoryCombo()
2488
2489            # Scroll back to the original index in Categories
2490            new_index = self.cbCategory.findText(current_cat)
2491            if new_index != -1:
2492                self.cbCategory.setCurrentIndex(new_index)
2493            self.cbCategory.blockSignals(False)
2494            # ...and in the Models
2495            self.cbModel.blockSignals(True)
2496            new_index = self.cbModel.findText(current_model)
2497            if new_index != -1:
2498                self.cbModel.setCurrentIndex(new_index)
2499            self.cbModel.blockSignals(False)
2500
2501            return
2502
2503    def calcException(self, etype, value, tb):
2504        """
2505        Thread threw an exception.
2506        """
2507        # TODO: remimplement thread cancellation
2508        logging.error("".join(traceback.format_exception(etype, value, tb)))
2509
2510    def setTableProperties(self, table):
2511        """
2512        Setting table properties
2513        """
2514        # Table properties
2515        table.verticalHeader().setVisible(False)
2516        table.setAlternatingRowColors(True)
2517        table.setSizePolicy(QtWidgets.QSizePolicy.MinimumExpanding, QtWidgets.QSizePolicy.Expanding)
2518        table.setSelectionBehavior(QtWidgets.QAbstractItemView.SelectRows)
2519        table.resizeColumnsToContents()
2520
2521        # Header
2522        header = table.horizontalHeader()
2523        header.setSectionResizeMode(QtWidgets.QHeaderView.ResizeToContents)
2524        header.ResizeMode(QtWidgets.QHeaderView.Interactive)
2525
2526        # Qt5: the following 2 lines crash - figure out why!
2527        # Resize column 0 and 7 to content
2528        #header.setSectionResizeMode(0, QtWidgets.QHeaderView.ResizeToContents)
2529        #header.setSectionResizeMode(7, QtWidgets.QHeaderView.ResizeToContents)
2530
2531    def setPolyModel(self):
2532        """
2533        Set polydispersity values
2534        """
2535        if not self.model_parameters:
2536            return
2537        self._poly_model.clear()
2538
2539        parameters = self.model_parameters.form_volume_parameters
2540        if self.is2D:
2541            parameters += self.model_parameters.orientation_parameters
2542
2543        [self.setPolyModelParameters(i, param) for i, param in \
2544            enumerate(parameters) if param.polydisperse]
2545
2546        FittingUtilities.addPolyHeadersToModel(self._poly_model)
2547
2548    def setPolyModelParameters(self, i, param):
2549        """
2550        Standard of multishell poly parameter driver
2551        """
2552        param_name = param.name
2553        # see it the parameter is multishell
2554        if '[' in param.name:
2555            # Skip empty shells
2556            if self.current_shell_displayed == 0:
2557                return
2558            else:
2559                # Create as many entries as current shells
2560                for ishell in range(1, self.current_shell_displayed+1):
2561                    # Remove [n] and add the shell numeral
2562                    name = param_name[0:param_name.index('[')] + str(ishell)
2563                    self.addNameToPolyModel(i, name)
2564        else:
2565            # Just create a simple param entry
2566            self.addNameToPolyModel(i, param_name)
2567
2568    def addNameToPolyModel(self, i, param_name):
2569        """
2570        Creates a checked row in the poly model with param_name
2571        """
2572        # Polydisp. values from the sasmodel
2573        width = self.kernel_module.getParam(param_name + '.width')
2574        npts = self.kernel_module.getParam(param_name + '.npts')
2575        nsigs = self.kernel_module.getParam(param_name + '.nsigmas')
2576        _, min, max = self.kernel_module.details[param_name]
2577
2578        # Update local param dict
2579        self.poly_params[param_name + '.width'] = width
2580        self.poly_params[param_name + '.npts'] = npts
2581        self.poly_params[param_name + '.nsigmas'] = nsigs
2582
2583        # Construct a row with polydisp. related variable.
2584        # This will get added to the polydisp. model
2585        # Note: last argument needs extra space padding for decent display of the control
2586        checked_list = ["Distribution of " + param_name, str(width),
2587                        str(min), str(max),
2588                        str(npts), str(nsigs), "gaussian      ",'']
2589        FittingUtilities.addCheckedListToModel(self._poly_model, checked_list)
2590
2591        # All possible polydisp. functions as strings in combobox
2592        func = QtWidgets.QComboBox()
2593        func.addItems([str(name_disp) for name_disp in POLYDISPERSITY_MODELS.keys()])
2594        # Set the default index
2595        func.setCurrentIndex(func.findText(DEFAULT_POLYDISP_FUNCTION))
2596        ind = self._poly_model.index(i,self.lstPoly.itemDelegate().poly_function)
2597        self.lstPoly.setIndexWidget(ind, func)
2598        func.currentIndexChanged.connect(lambda: self.onPolyComboIndexChange(str(func.currentText()), i))
2599
2600    def onPolyFilenameChange(self, row_index):
2601        """
2602        Respond to filename_updated signal from the delegate
2603        """
2604        # For the given row, invoke the "array" combo handler
2605        array_caption = 'array'
2606
2607        # Get the combo box reference
2608        ind = self._poly_model.index(row_index, self.lstPoly.itemDelegate().poly_function)
2609        widget = self.lstPoly.indexWidget(ind)
2610
2611        # Update the combo box so it displays "array"
2612        widget.blockSignals(True)
2613        widget.setCurrentIndex(self.lstPoly.itemDelegate().POLYDISPERSE_FUNCTIONS.index(array_caption))
2614        widget.blockSignals(False)
2615
2616        # Invoke the file reader
2617        self.onPolyComboIndexChange(array_caption, row_index)
2618
2619    def onPolyComboIndexChange(self, combo_string, row_index):
2620        """
2621        Modify polydisp. defaults on function choice
2622        """
2623        # Get npts/nsigs for current selection
2624        param = self.model_parameters.form_volume_parameters[row_index]
2625        file_index = self._poly_model.index(row_index, self.lstPoly.itemDelegate().poly_function)
2626        combo_box = self.lstPoly.indexWidget(file_index)
2627
2628        def updateFunctionCaption(row):
2629            # Utility function for update of polydispersity function name in the main model
2630            if not self.isCheckable(row):
2631                return
2632            self._model_model.blockSignals(True)
2633            param_name = str(self._model_model.item(row, 0).text())
2634            self._model_model.blockSignals(False)
2635            if param_name !=  param.name:
2636                return
2637            # Modify the param value
2638            self._model_model.blockSignals(True)
2639            if self.has_error_column:
2640                # err column changes the indexing
2641                self._model_model.item(row, 0).child(0).child(0,5).setText(combo_string)
2642            else:
2643                self._model_model.item(row, 0).child(0).child(0,4).setText(combo_string)
2644            self._model_model.blockSignals(False)
2645
2646        if combo_string == 'array':
2647            try:
2648                self.loadPolydispArray(row_index)
2649                # Update main model for display
2650                self.iterateOverModel(updateFunctionCaption)
2651                # disable the row
2652                lo = self.lstPoly.itemDelegate().poly_pd
2653                hi = self.lstPoly.itemDelegate().poly_function
2654                [self._poly_model.item(row_index, i).setEnabled(False) for i in range(lo, hi)]
2655                return
2656            except IOError:
2657                combo_box.setCurrentIndex(self.orig_poly_index)
2658                # Pass for cancel/bad read
2659                pass
2660
2661        # Enable the row in case it was disabled by Array
2662        self._poly_model.blockSignals(True)
2663        max_range = self.lstPoly.itemDelegate().poly_filename
2664        [self._poly_model.item(row_index, i).setEnabled(True) for i in range(7)]
2665        file_index = self._poly_model.index(row_index, self.lstPoly.itemDelegate().poly_filename)
2666        self._poly_model.setData(file_index, "")
2667        self._poly_model.blockSignals(False)
2668
2669        npts_index = self._poly_model.index(row_index, self.lstPoly.itemDelegate().poly_npts)
2670        nsigs_index = self._poly_model.index(row_index, self.lstPoly.itemDelegate().poly_nsigs)
2671
2672        npts = POLYDISPERSITY_MODELS[str(combo_string)].default['npts']
2673        nsigs = POLYDISPERSITY_MODELS[str(combo_string)].default['nsigmas']
2674
2675        self._poly_model.setData(npts_index, npts)
2676        self._poly_model.setData(nsigs_index, nsigs)
2677
2678        self.iterateOverModel(updateFunctionCaption)
2679        self.orig_poly_index = combo_box.currentIndex()
2680
2681    def loadPolydispArray(self, row_index):
2682        """
2683        Show the load file dialog and loads requested data into state
2684        """
2685        datafile = QtWidgets.QFileDialog.getOpenFileName(
2686            self, "Choose a weight file", "", "All files (*.*)", None,
2687            QtWidgets.QFileDialog.DontUseNativeDialog)[0]
2688
2689        if not datafile:
2690            logging.info("No weight data chosen.")
2691            raise IOError
2692
2693        values = []
2694        weights = []
2695        def appendData(data_tuple):
2696            """
2697            Fish out floats from a tuple of strings
2698            """
2699            try:
2700                values.append(float(data_tuple[0]))
2701                weights.append(float(data_tuple[1]))
2702            except (ValueError, IndexError):
2703                # just pass through if line with bad data
2704                return
2705
2706        with open(datafile, 'r') as column_file:
2707            column_data = [line.rstrip().split() for line in column_file.readlines()]
2708            [appendData(line) for line in column_data]
2709
2710        # If everything went well - update the sasmodel values
2711        self.disp_model = POLYDISPERSITY_MODELS['array']()
2712        self.disp_model.set_weights(np.array(values), np.array(weights))
2713        # + update the cell with filename
2714        fname = os.path.basename(str(datafile))
2715        fname_index = self._poly_model.index(row_index, self.lstPoly.itemDelegate().poly_filename)
2716        self._poly_model.setData(fname_index, fname)
2717
2718    def setMagneticModel(self):
2719        """
2720        Set magnetism values on model
2721        """
2722        if not self.model_parameters:
2723            return
2724        self._magnet_model.clear()
2725        [self.addCheckedMagneticListToModel(param, self._magnet_model) for param in \
2726            self.model_parameters.call_parameters if param.type == 'magnetic']
2727        FittingUtilities.addHeadersToModel(self._magnet_model)
2728
2729    def shellNamesList(self):
2730        """
2731        Returns list of names of all multi-shell parameters
2732        E.g. for sld[n], radius[n], n=1..3 it will return
2733        [sld1, sld2, sld3, radius1, radius2, radius3]
2734        """
2735        multi_names = [p.name[:p.name.index('[')] for p in self.model_parameters.iq_parameters if '[' in p.name]
2736        top_index = self.kernel_module.multiplicity_info.number
2737        shell_names = []
2738        for i in range(1, top_index+1):
2739            for name in multi_names:
2740                shell_names.append(name+str(i))
2741        return shell_names
2742
2743    def addCheckedMagneticListToModel(self, param, model):
2744        """
2745        Wrapper for model update with a subset of magnetic parameters
2746        """
2747        if param.name[param.name.index(':')+1:] in self.shell_names:
2748            # check if two-digit shell number
2749            try:
2750                shell_index = int(param.name[-2:])
2751            except ValueError:
2752                shell_index = int(param.name[-1:])
2753
2754            if shell_index > self.current_shell_displayed:
2755                return
2756
2757        checked_list = [param.name,
2758                        str(param.default),
2759                        str(param.limits[0]),
2760                        str(param.limits[1]),
2761                        param.units]
2762
2763        self.magnet_params[param.name] = param.default
2764
2765        FittingUtilities.addCheckedListToModel(model, checked_list)
2766
2767    def enableStructureFactorControl(self, structure_factor):
2768        """
2769        Add structure factors to the list of parameters
2770        """
2771        if self.kernel_module.is_form_factor or structure_factor == 'None':
2772            self.enableStructureCombo()
2773        else:
2774            self.disableStructureCombo()
2775
2776    def addExtraShells(self):
2777        """
2778        Add a combobox for multiple shell display
2779        """
2780        param_name, param_length = FittingUtilities.getMultiplicity(self.model_parameters)
2781
2782        if param_length == 0:
2783            return
2784
2785        # cell 1: variable name
2786        item1 = QtGui.QStandardItem(param_name)
2787
2788        func = QtWidgets.QComboBox()
2789        # Available range of shells displayed in the combobox
2790        func.addItems([str(i) for i in range(param_length+1)])
2791
2792        # Respond to index change
2793        func.currentIndexChanged.connect(self.modifyShellsInList)
2794
2795        # cell 2: combobox
2796        item2 = QtGui.QStandardItem()
2797        self._model_model.appendRow([item1, item2])
2798
2799        # Beautify the row:  span columns 2-4
2800        shell_row = self._model_model.rowCount()
2801        shell_index = self._model_model.index(shell_row-1, 1)
2802
2803        self.lstParams.setIndexWidget(shell_index, func)
2804        self._n_shells_row = shell_row - 1
2805
2806        # Set the index to the state-kept value
2807        func.setCurrentIndex(self.current_shell_displayed
2808                             if self.current_shell_displayed < func.count() else 0)
2809
2810    def modifyShellsInList(self, index):
2811        """
2812        Add/remove additional multishell parameters
2813        """
2814        # Find row location of the combobox
2815        first_row = self._n_shells_row + 1
2816        remove_rows = self._num_shell_params
2817
2818        if remove_rows > 1:
2819            self._model_model.removeRows(first_row, remove_rows)
2820
2821        new_rows = FittingUtilities.addShellsToModel(self.model_parameters, self._model_model, index, first_row)
2822        self._num_shell_params = len(new_rows)
2823
2824        self.current_shell_displayed = index
2825
2826        # Update relevant models
2827        self.setPolyModel()
2828        self.setMagneticModel()
2829
2830    def setFittingStarted(self):
2831        """
2832        Set buttion caption on fitting start
2833        """
2834        # Notify the user that fitting is being run
2835        # Allow for stopping the job
2836        self.cmdFit.setStyleSheet('QPushButton {color: red;}')
2837        self.cmdFit.setText('Stop fit')
2838
2839    def setFittingStopped(self):
2840        """
2841        Set button caption on fitting stop
2842        """
2843        # Notify the user that fitting is available
2844        self.cmdFit.setStyleSheet('QPushButton {color: black;}')
2845        self.cmdFit.setText("Fit")
2846        self.fit_started = False
2847
2848    def readFitPage(self, fp):
2849        """
2850        Read in state from a fitpage object and update GUI
2851        """
2852        assert isinstance(fp, FitPage)
2853        # Main tab info
2854        self.logic.data.filename = fp.filename
2855        self.data_is_loaded = fp.data_is_loaded
2856        self.chkPolydispersity.setCheckState(fp.is_polydisperse)
2857        self.chkMagnetism.setCheckState(fp.is_magnetic)
2858        self.chk2DView.setCheckState(fp.is2D)
2859
2860        # Update the comboboxes
2861        self.cbCategory.setCurrentIndex(self.cbCategory.findText(fp.current_category))
2862        self.cbModel.setCurrentIndex(self.cbModel.findText(fp.current_model))
2863        if fp.current_factor:
2864            self.cbStructureFactor.setCurrentIndex(self.cbStructureFactor.findText(fp.current_factor))
2865
2866        self.chi2 = fp.chi2
2867
2868        # Options tab
2869        self.q_range_min = fp.fit_options[fp.MIN_RANGE]
2870        self.q_range_max = fp.fit_options[fp.MAX_RANGE]
2871        self.npts = fp.fit_options[fp.NPTS]
2872        self.log_points = fp.fit_options[fp.LOG_POINTS]
2873        self.weighting = fp.fit_options[fp.WEIGHTING]
2874
2875        # Models
2876        self._model_model = fp.model_model
2877        self._poly_model = fp.poly_model
2878        self._magnet_model = fp.magnetism_model
2879
2880        # Resolution tab
2881        smearing = fp.smearing_options[fp.SMEARING_OPTION]
2882        accuracy = fp.smearing_options[fp.SMEARING_ACCURACY]
2883        smearing_min = fp.smearing_options[fp.SMEARING_MIN]
2884        smearing_max = fp.smearing_options[fp.SMEARING_MAX]
2885        self.smearing_widget.setState(smearing, accuracy, smearing_min, smearing_max)
2886
2887        # TODO: add polidyspersity and magnetism
2888
2889    def saveToFitPage(self, fp):
2890        """
2891        Write current state to the given fitpage
2892        """
2893        assert isinstance(fp, FitPage)
2894
2895        # Main tab info
2896        fp.filename = self.logic.data.filename
2897        fp.data_is_loaded = self.data_is_loaded
2898        fp.is_polydisperse = self.chkPolydispersity.isChecked()
2899        fp.is_magnetic = self.chkMagnetism.isChecked()
2900        fp.is2D = self.chk2DView.isChecked()
2901        fp.data = self.data
2902
2903        # Use current models - they contain all the required parameters
2904        fp.model_model = self._model_model
2905        fp.poly_model = self._poly_model
2906        fp.magnetism_model = self._magnet_model
2907
2908        if self.cbCategory.currentIndex() != 0:
2909            fp.current_category = str(self.cbCategory.currentText())
2910            fp.current_model = str(self.cbModel.currentText())
2911
2912        if self.cbStructureFactor.isEnabled() and self.cbStructureFactor.currentIndex() != 0:
2913            fp.current_factor = str(self.cbStructureFactor.currentText())
2914        else:
2915            fp.current_factor = ''
2916
2917        fp.chi2 = self.chi2
2918        fp.main_params_to_fit = self.main_params_to_fit
2919        fp.poly_params_to_fit = self.poly_params_to_fit
2920        fp.magnet_params_to_fit = self.magnet_params_to_fit
2921        fp.kernel_module = self.kernel_module
2922
2923        # Algorithm options
2924        # fp.algorithm = self.parent.fit_options.selected_id
2925
2926        # Options tab
2927        fp.fit_options[fp.MIN_RANGE] = self.q_range_min
2928        fp.fit_options[fp.MAX_RANGE] = self.q_range_max
2929        fp.fit_options[fp.NPTS] = self.npts
2930        #fp.fit_options[fp.NPTS_FIT] = self.npts_fit
2931        fp.fit_options[fp.LOG_POINTS] = self.log_points
2932        fp.fit_options[fp.WEIGHTING] = self.weighting
2933
2934        # Resolution tab
2935        smearing, accuracy, smearing_min, smearing_max = self.smearing_widget.state()
2936        fp.smearing_options[fp.SMEARING_OPTION] = smearing
2937        fp.smearing_options[fp.SMEARING_ACCURACY] = accuracy
2938        fp.smearing_options[fp.SMEARING_MIN] = smearing_min
2939        fp.smearing_options[fp.SMEARING_MAX] = smearing_max
2940
2941        # TODO: add polidyspersity and magnetism
2942
2943    def updateUndo(self):
2944        """
2945        Create a new state page and add it to the stack
2946        """
2947        if self.undo_supported:
2948            self.pushFitPage(self.currentState())
2949
2950    def currentState(self):
2951        """
2952        Return fit page with current state
2953        """
2954        new_page = FitPage()
2955        self.saveToFitPage(new_page)
2956
2957        return new_page
2958
2959    def pushFitPage(self, new_page):
2960        """
2961        Add a new fit page object with current state
2962        """
2963        self.page_stack.append(new_page)
2964
2965    def popFitPage(self):
2966        """
2967        Remove top fit page from stack
2968        """
2969        if self.page_stack:
2970            self.page_stack.pop()
2971
2972    def getReport(self):
2973        """
2974        Create and return HTML report with parameters and charts
2975        """
2976        index = None
2977        if self.all_data:
2978            index = self.all_data[self.data_index]
2979        else:
2980            index = self.theory_item
2981        report_logic = ReportPageLogic(self,
2982                                       kernel_module=self.kernel_module,
2983                                       data=self.data,
2984                                       index=index,
2985                                       model=self._model_model)
2986
2987        return report_logic.reportList()
2988
2989    def savePageState(self):
2990        """
2991        Create and serialize local PageState
2992        """
2993        from sas.sascalc.fit.pagestate import Reader
2994        model = self.kernel_module
2995
2996        # Old style PageState object
2997        state = PageState(model=model, data=self.data)
2998
2999        # Add parameter data to the state
3000        self.getCurrentFitState(state)
3001
3002        # Create the filewriter, aptly named 'Reader'
3003        state_reader = Reader(self.loadPageStateCallback)
3004        filepath = self.saveAsAnalysisFile()
3005        if filepath is None or filepath == "":
3006            return
3007        state_reader.write(filename=filepath, fitstate=state)
3008        pass
3009
3010    def saveAsAnalysisFile(self):
3011        """
3012        Show the save as... dialog and return the chosen filepath
3013        """
3014        default_name = "FitPage"+str(self.tab_id)+".fitv"
3015
3016        wildcard = "fitv files (*.fitv)"
3017        kwargs = {
3018            'caption'   : 'Save As',
3019            'directory' : default_name,
3020            'filter'    : wildcard,
3021            'parent'    : None,
3022        }
3023        # Query user for filename.
3024        filename_tuple = QtWidgets.QFileDialog.getSaveFileName(**kwargs)
3025        filename = filename_tuple[0]
3026        return filename
3027
3028    def loadPageStateCallback(self,state=None, datainfo=None, format=None):
3029        """
3030        This is a callback method called from the CANSAS reader.
3031        We need the instance of this reader only for writing out a file,
3032        so there's nothing here.
3033        Until Load Analysis is implemented, that is.
3034        """
3035        pass
3036
3037    def loadPageState(self, pagestate=None):
3038        """
3039        Load the PageState object and update the current widget
3040        """
3041        pass
3042
3043    def getCurrentFitState(self, state=None):
3044        """
3045        Store current state for fit_page
3046        """
3047        # save model option
3048        #if self.model is not None:
3049        #    self.disp_list = self.getDispParamList()
3050        #    state.disp_list = copy.deepcopy(self.disp_list)
3051        #    #state.model = self.model.clone()
3052
3053        # Comboboxes
3054        state.categorycombobox = self.cbCategory.currentText()
3055        state.formfactorcombobox = self.cbModel.currentText()
3056        if self.cbStructureFactor.isEnabled():
3057            state.structurecombobox = self.cbStructureFactor.currentText()
3058        state.tcChi = self.chi2
3059
3060        state.enable2D = self.is2D
3061
3062        #state.weights = copy.deepcopy(self.weights)
3063        # save data
3064        state.data = copy.deepcopy(self.data)
3065
3066        # save plotting range
3067        state.qmin = self.q_range_min
3068        state.qmax = self.q_range_max
3069        state.npts = self.npts
3070
3071        #    self.state.enable_disp = self.enable_disp.GetValue()
3072        #    self.state.disable_disp = self.disable_disp.GetValue()
3073
3074        #    self.state.enable_smearer = \
3075        #                        copy.deepcopy(self.enable_smearer.GetValue())
3076        #    self.state.disable_smearer = \
3077        #                        copy.deepcopy(self.disable_smearer.GetValue())
3078
3079        #self.state.pinhole_smearer = \
3080        #                        copy.deepcopy(self.pinhole_smearer.GetValue())
3081        #self.state.slit_smearer = copy.deepcopy(self.slit_smearer.GetValue())
3082        #self.state.dI_noweight = copy.deepcopy(self.dI_noweight.GetValue())
3083        #self.state.dI_didata = copy.deepcopy(self.dI_didata.GetValue())
3084        #self.state.dI_sqrdata = copy.deepcopy(self.dI_sqrdata.GetValue())
3085        #self.state.dI_idata = copy.deepcopy(self.dI_idata.GetValue())
3086
3087        p = self.model_parameters
3088        # save checkbutton state and txtcrtl values
3089        state.parameters = FittingUtilities.getStandardParam(self._model_model)
3090        state.orientation_params_disp = FittingUtilities.getOrientationParam(self.kernel_module)
3091
3092        #self._copy_parameters_state(self.orientation_params_disp, self.state.orientation_params_disp)
3093        #self._copy_parameters_state(self.parameters, self.state.parameters)
3094        #self._copy_parameters_state(self.fittable_param, self.state.fittable_param)
3095        #self._copy_parameters_state(self.fixed_param, self.state.fixed_param)
3096
3097    def onParameterCopy(self, format=None):
3098        """
3099        Copy current parameters into the clipboard
3100        """
3101        # run a loop over all parameters and pull out
3102        # first - regular params
3103        param_list = []
3104
3105        param_list.append(['model_name', str(self.cbModel.currentText())])
3106        def gatherParams(row):
3107            """
3108            Create list of main parameters based on _model_model
3109            """
3110            param_name = str(self._model_model.item(row, 0).text())
3111            param_checked = str(self._model_model.item(row, 0).checkState() == QtCore.Qt.Checked)
3112            param_value = str(self._model_model.item(row, 1).text())
3113            param_error = None
3114            column_offset = 0
3115            if self.has_error_column:
3116                param_error = str(self._model_model.item(row, 2).text())
3117                column_offset = 1
3118            param_min = str(self._model_model.item(row, 2+column_offset).text())
3119            param_max = str(self._model_model.item(row, 3+column_offset).text())
3120            param_list.append([param_name, param_checked, param_value, param_error, param_min, param_max])
3121
3122        def gatherPolyParams(row):
3123            """
3124            Create list of polydisperse parameters based on _poly_model
3125            """
3126            param_name = str(self._poly_model.item(row, 0).text()).split()[-1]
3127            param_checked = str(self._poly_model.item(row, 0).checkState() == QtCore.Qt.Checked)
3128            param_value = str(self._poly_model.item(row, 1).text())
3129            param_error = None
3130            column_offset = 0
3131            if self.has_poly_error_column:
3132                param_error = str(self._poly_model.item(row, 2).text())
3133                column_offset = 1
3134            param_min   = str(self._poly_model.item(row, 2+column_offset).text())
3135            param_max   = str(self._poly_model.item(row, 3+column_offset).text())
3136            param_npts  = str(self._poly_model.item(row, 4+column_offset).text())
3137            param_nsigs = str(self._poly_model.item(row, 5+column_offset).text())
3138            param_fun   = str(self._poly_model.item(row, 6+column_offset).text()).rstrip()
3139            # width
3140            name = param_name+".width"
3141            param_list.append([name, param_checked, param_value, param_error,
3142                                param_npts, param_nsigs, param_min, param_max, param_fun])
3143
3144        def gatherMagnetParams(row):
3145            """
3146            Create list of magnetic parameters based on _magnet_model
3147            """
3148            param_name = str(self._magnet_model.item(row, 0).text())
3149            param_checked = str(self._magnet_model.item(row, 0).checkState() == QtCore.Qt.Checked)
3150            param_value = str(self._magnet_model.item(row, 1).text())
3151            param_error = None
3152            column_offset = 0
3153            if self.has_magnet_error_column:
3154                param_error = str(self._magnet_model.item(row, 2).text())
3155                column_offset = 1
3156            param_min = str(self._magnet_model.item(row, 2+column_offset).text())
3157            param_max = str(self._magnet_model.item(row, 3+column_offset).text())
3158            param_list.append([param_name, param_checked, param_value, param_error, param_min, param_max])
3159
3160        self.iterateOverModel(gatherParams)
3161        if self.chkPolydispersity.isChecked():
3162            self.iterateOverPolyModel(gatherPolyParams)
3163        if self.chkMagnetism.isChecked() and self.chkMagnetism.isEnabled():
3164            self.iterateOverMagnetModel(gatherMagnetParams)
3165
3166        if format=="":
3167            formatted_output = FittingUtilities.formatParameters(param_list)
3168        elif format == "Excel":
3169            formatted_output = FittingUtilities.formatParametersExcel(param_list)
3170        elif format == "Latex":
3171            formatted_output = FittingUtilities.formatParametersLatex(param_list)
3172        else:
3173            raise AttributeError("Bad format specifier.")
3174
3175        # Dump formatted_output to the clipboard
3176        cb = QtWidgets.QApplication.clipboard()
3177        cb.setText(formatted_output)
3178
3179    def onParameterPaste(self):
3180        """
3181        Use the clipboard to update fit state
3182        """
3183        # Check if the clipboard contains right stuff
3184        cb = QtWidgets.QApplication.clipboard()
3185        cb_text = cb.text()
3186
3187        context = {}
3188        # put the text into dictionary
3189        lines = cb_text.split(':')
3190        if lines[0] != 'sasview_parameter_values':
3191            return False
3192
3193        model = lines[1].split(',')
3194
3195        if model[0] != 'model_name':
3196            return False
3197
3198        context['model_name'] = [model[1]]
3199        for line in lines[2:-1]:
3200            if len(line) != 0:
3201                item = line.split(',')
3202                check = item[1]
3203                name = item[0]
3204                value = item[2]
3205                # Transfer the text to content[dictionary]
3206                context[name] = [check, value]
3207
3208                # limits
3209                limit_lo = item[3]
3210                context[name].append(limit_lo)
3211                limit_hi = item[4]
3212                context[name].append(limit_hi)
3213
3214                # Polydisp
3215                if len(item) > 5:
3216                    value = item[5]
3217                    context[name].append(value)
3218                    try:
3219                        value = item[6]
3220                        context[name].append(value)
3221                        value = item[7]
3222                        context[name].append(value)
3223                    except IndexError:
3224                        pass
3225
3226        if str(self.cbModel.currentText()) != str(context['model_name'][0]):
3227            msg = QtWidgets.QMessageBox()
3228            msg.setIcon(QtWidgets.QMessageBox.Information)
3229            msg.setText("The model in the clipboard is not the same as the currently loaded model. \
3230                         Not all parameters saved may paste correctly.")
3231            msg.setStandardButtons(QtWidgets.QMessageBox.Ok | QtWidgets.QMessageBox.Cancel)
3232            result = msg.exec_()
3233            if result == QtWidgets.QMessageBox.Ok:
3234                pass
3235            else:
3236                return
3237
3238        self.updateFullModel(context)
3239        self.updateFullPolyModel(context)
3240
3241    def updateFullModel(self, param_dict):
3242        """
3243        Update the model with new parameters
3244        """
3245        assert isinstance(param_dict, dict)
3246        if not dict:
3247            return
3248
3249        def updateFittedValues(row):
3250            # Utility function for main model update
3251            # internal so can use closure for param_dict
3252            param_name = str(self._model_model.item(row, 0).text())
3253            if param_name not in list(param_dict.keys()):
3254                return
3255            # checkbox state
3256            param_checked = QtCore.Qt.Checked if param_dict[param_name][0] == "True" else QtCore.Qt.Unchecked
3257            self._model_model.item(row, 0).setCheckState(param_checked)
3258
3259            # modify the param value
3260            param_repr = GuiUtils.formatNumber(param_dict[param_name][1], high=True)
3261            self._model_model.item(row, 1).setText(param_repr)
3262
3263            # Potentially the error column
3264            ioffset = 0
3265            if len(param_dict[param_name])>4 and self.has_error_column:
3266                # error values are not editable - no need to update
3267                #error_repr = GuiUtils.formatNumber(param_dict[param_name][2], high=True)
3268                #self._model_model.item(row, 2).setText(error_repr)
3269                ioffset = 1
3270            # min/max
3271            param_repr = GuiUtils.formatNumber(param_dict[param_name][2+ioffset], high=True)
3272            self._model_model.item(row, 2+ioffset).setText(param_repr)
3273            param_repr = GuiUtils.formatNumber(param_dict[param_name][3+ioffset], high=True)
3274            self._model_model.item(row, 3+ioffset).setText(param_repr)
3275            self.setFocus()
3276
3277
3278        # block signals temporarily, so we don't end up
3279        # updating charts with every single model change on the end of fitting
3280        self._model_model.blockSignals(True)
3281        self.iterateOverModel(updateFittedValues)
3282        self._model_model.blockSignals(False)
3283
3284
3285    def updateFullPolyModel(self, param_dict):
3286        """
3287        Update the polydispersity model with new parameters, create the errors column
3288        """
3289        assert isinstance(param_dict, dict)
3290        if not dict:
3291            return
3292
3293        def updateFittedValues(row):
3294            # Utility function for main model update
3295            # internal so can use closure for param_dict
3296            if row >= self._poly_model.rowCount():
3297                return
3298            param_name = str(self._poly_model.item(row, 0).text()).rsplit()[-1] + '.width'
3299            if param_name not in list(param_dict.keys()):
3300                return
3301            # checkbox state
3302            param_checked = QtCore.Qt.Checked if param_dict[param_name][0] == "True" else QtCore.Qt.Unchecked
3303            self._poly_model.item(row,0).setCheckState(param_checked)
3304
3305            # modify the param value
3306            param_repr = GuiUtils.formatNumber(param_dict[param_name][1], high=True)
3307            self._poly_model.item(row, 1).setText(param_repr)
3308
3309            # Potentially the error column
3310            ioffset = 0
3311            if len(param_dict[param_name])>4 and self.has_poly_error_column:
3312                ioffset = 1
3313            # min
3314            param_repr = GuiUtils.formatNumber(param_dict[param_name][2+ioffset], high=True)
3315            self._poly_model.item(row, 2+ioffset).setText(param_repr)
3316            # max
3317            param_repr = GuiUtils.formatNumber(param_dict[param_name][3+ioffset], high=True)
3318            self._poly_model.item(row, 3+ioffset).setText(param_repr)
3319            # Npts
3320            param_repr = GuiUtils.formatNumber(param_dict[param_name][4+ioffset], high=True)
3321            self._poly_model.item(row, 4+ioffset).setText(param_repr)
3322            # Nsigs
3323            param_repr = GuiUtils.formatNumber(param_dict[param_name][5+ioffset], high=True)
3324            self._poly_model.item(row, 5+ioffset).setText(param_repr)
3325
3326            param_repr = GuiUtils.formatNumber(param_dict[param_name][5+ioffset], high=True)
3327            self._poly_model.item(row, 5+ioffset).setText(param_repr)
3328            self.setFocus()
3329
3330        # block signals temporarily, so we don't end up
3331        # updating charts with every single model change on the end of fitting
3332        self._poly_model.blockSignals(True)
3333        self.iterateOverPolyModel(updateFittedValues)
3334        self._poly_model.blockSignals(False)
3335
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