source: sasview/src/sas/qtgui/Perspectives/Fitting/FittingWidget.py @ 085409e3

ESS_GUIESS_GUI_batch_fittingESS_GUI_bumps_abstractionESS_GUI_iss1116ESS_GUI_openclESS_GUI_orderingESS_GUI_sync_sascalc
Last change on this file since 085409e3 was 085409e3, checked in by Laura Forster <Awork@…>, 6 years ago

Fixed Copy and Paste bugs

There were several problems caused by the FittingWidget? being able to access all the open FitPage? tabs, meaning when Copy or Paste was used it was accessing multiple sets of params and models.

The functions are now being passed the currently open tab, not all open tabs.

  • Property mode set to 100644
File size: 136.0 KB
Line 
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
30from sas.qtgui.Plotting.Plotter import PlotterWidget
31
32from sas.qtgui.Perspectives.Fitting.UI.FittingWidgetUI import Ui_FittingWidgetUI
33from sas.qtgui.Perspectives.Fitting.FitThread import FitThread
34from sas.qtgui.Perspectives.Fitting.ConsoleUpdate import ConsoleUpdate
35
36from sas.qtgui.Perspectives.Fitting.ModelThread import Calc1D
37from sas.qtgui.Perspectives.Fitting.ModelThread import Calc2D
38from sas.qtgui.Perspectives.Fitting.FittingLogic import FittingLogic
39from sas.qtgui.Perspectives.Fitting import FittingUtilities
40from sas.qtgui.Perspectives.Fitting import ModelUtilities
41from sas.qtgui.Perspectives.Fitting.SmearingWidget import SmearingWidget
42from sas.qtgui.Perspectives.Fitting.OptionsWidget import OptionsWidget
43from sas.qtgui.Perspectives.Fitting.FitPage import FitPage
44from sas.qtgui.Perspectives.Fitting.ViewDelegate import ModelViewDelegate
45from sas.qtgui.Perspectives.Fitting.ViewDelegate import PolyViewDelegate
46from sas.qtgui.Perspectives.Fitting.ViewDelegate import MagnetismViewDelegate
47from sas.qtgui.Perspectives.Fitting.Constraint import Constraint
48from sas.qtgui.Perspectives.Fitting.MultiConstraint import MultiConstraint
49from sas.qtgui.Perspectives.Fitting.ReportPageLogic import ReportPageLogic
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# CRUFT: remove when new release of sasmodels is available
61# https://github.com/SasView/sasview/pull/181#discussion_r218135162
62from sasmodels.sasview_model import SasviewModel
63if not hasattr(SasviewModel, 'get_weights'):
64    def get_weights(self, name):
65        """
66        Returns the polydispersity distribution for parameter *name* as *value* and *weight* arrays.
67        """
68        # type: (str) -> Tuple(np.ndarray, np.ndarray)
69        _, x, w = self._get_weights(self._model_info.parameters[name])
70        return x, w
71
72    SasviewModel.get_weights = get_weights
73
74logger = logging.getLogger(__name__)
75
76class ToolTippedItemModel(QtGui.QStandardItemModel):
77    """
78    Subclass from QStandardItemModel to allow displaying tooltips in
79    QTableView model.
80    """
81    def __init__(self, parent=None):
82        QtGui.QStandardItemModel.__init__(self, parent)
83
84    def headerData(self, section, orientation, role=QtCore.Qt.DisplayRole):
85        """
86        Displays tooltip for each column's header
87        :param section:
88        :param orientation:
89        :param role:
90        :return:
91        """
92        if role == QtCore.Qt.ToolTipRole:
93            if orientation == QtCore.Qt.Horizontal:
94                return str(self.header_tooltips[section])
95
96        return QtGui.QStandardItemModel.headerData(self, section, orientation, role)
97
98class FittingWidget(QtWidgets.QWidget, Ui_FittingWidgetUI):
99    """
100    Main widget for selecting form and structure factor models
101    """
102    constraintAddedSignal = QtCore.pyqtSignal(list)
103    newModelSignal = QtCore.pyqtSignal()
104    fittingFinishedSignal = QtCore.pyqtSignal(tuple)
105    batchFittingFinishedSignal = QtCore.pyqtSignal(tuple)
106    Calc1DFinishedSignal = QtCore.pyqtSignal(dict)
107    Calc2DFinishedSignal = QtCore.pyqtSignal(dict)
108
109    def __init__(self, parent=None, data=None, tab_id=1):
110
111        super(FittingWidget, self).__init__()
112
113        # Necessary globals
114        self.parent = parent
115
116        # Which tab is this widget displayed in?
117        self.tab_id = tab_id
118
119        # Globals
120        self.initializeGlobals()
121
122        # data index for the batch set
123        self.data_index = 0
124        # Main Data[12]D holders
125        # Logics.data contains a single Data1D/Data2D object
126        self._logic = [FittingLogic()]
127
128        # Main GUI setup up
129        self.setupUi(self)
130        self.setWindowTitle("Fitting")
131
132        # Set up tabs widgets
133        self.initializeWidgets()
134
135        # Set up models and views
136        self.initializeModels()
137
138        # Defaults for the structure factors
139        self.setDefaultStructureCombo()
140
141        # Make structure factor and model CBs disabled
142        self.disableModelCombo()
143        self.disableStructureCombo()
144
145        # Generate the category list for display
146        self.initializeCategoryCombo()
147
148        # Initial control state
149        self.initializeControls()
150
151        QtWidgets.QApplication.processEvents()
152
153        # Connect signals to controls
154        self.initializeSignals()
155
156        if data is not None:
157            self.data = data
158
159        # New font to display angstrom symbol
160        new_font = 'font-family: -apple-system, "Helvetica Neue", "Ubuntu";'
161        self.label_17.setStyleSheet(new_font)
162        self.label_19.setStyleSheet(new_font)
163
164    @property
165    def logic(self):
166        # make sure the logic contains at least one element
167        assert self._logic
168        # logic connected to the currently shown data
169        return self._logic[self.data_index]
170
171    @property
172    def data(self):
173        return self.logic.data
174
175    @data.setter
176    def data(self, value):
177        """ data setter """
178        # Value is either a list of indices for batch fitting or a simple index
179        # for standard fitting. Assure we have a list, regardless.
180        if isinstance(value, list):
181            self.is_batch_fitting = True
182        else:
183            value = [value]
184
185        assert isinstance(value[0], QtGui.QStandardItem)
186
187        # Keep reference to all datasets for batch
188        self.all_data = value
189
190        # Create logics with data items
191        # Logics.data contains only a single Data1D/Data2D object
192        if len(value) == 1:
193            # single data logic is already defined, update data on it
194            self._logic[0].data = GuiUtils.dataFromItem(value[0])
195        else:
196            # batch datasets
197            self._logic = []
198            for data_item in value:
199                logic = FittingLogic(data=GuiUtils.dataFromItem(data_item))
200                self._logic.append(logic)
201
202        # Overwrite data type descriptor
203
204        self.is2D = True if isinstance(self.logic.data, Data2D) else False
205
206        # Let others know we're full of data now
207        self.data_is_loaded = True
208
209        # Enable/disable UI components
210        self.setEnablementOnDataLoad()
211
212    def initializeGlobals(self):
213        """
214        Initialize global variables used in this class
215        """
216        # SasModel is loaded
217        self.model_is_loaded = False
218        # Data[12]D passed and set
219        self.data_is_loaded = False
220        # Batch/single fitting
221        self.is_batch_fitting = False
222        self.is_chain_fitting = False
223        # Is the fit job running?
224        self.fit_started = False
225        # The current fit thread
226        self.calc_fit = None
227        # Current SasModel in view
228        self.kernel_module = None
229        # Current SasModel view dimension
230        self.is2D = False
231        # Current SasModel is multishell
232        self.model_has_shells = False
233        # Utility variable to enable unselectable option in category combobox
234        self._previous_category_index = 0
235        # Utility variables for multishell display
236        self._n_shells_row = 0
237        self._num_shell_params = 0
238        # Dictionary of {model name: model class} for the current category
239        self.models = {}
240        # Parameters to fit
241        self.main_params_to_fit = []
242        self.poly_params_to_fit = []
243        self.magnet_params_to_fit = []
244
245        # Fit options
246        self.q_range_min = 0.005
247        self.q_range_max = 0.1
248        self.npts = 25
249        self.log_points = False
250        self.weighting = 0
251        self.chi2 = None
252        # Does the control support UNDO/REDO
253        # temporarily off
254        self.undo_supported = False
255        self.page_stack = []
256        self.all_data = []
257        # custom plugin models
258        # {model.name:model}
259        self.custom_models = self.customModels()
260        # Polydisp widget table default index for function combobox
261        self.orig_poly_index = 3
262        # copy of current kernel model
263        self.kernel_module_copy = None
264
265        # dictionaries of current params
266        self.poly_params = {}
267        self.magnet_params = {}
268
269        # Page id for fitting
270        # To keep with previous SasView values, use 200 as the start offset
271        self.page_id = 200 + self.tab_id
272
273        # Data for chosen model
274        self.model_data = None
275
276        # Which shell is being currently displayed?
277        self.current_shell_displayed = 0
278        # List of all shell-unique parameters
279        self.shell_names = []
280
281        # Error column presence in parameter display
282        self.has_error_column = False
283        self.has_poly_error_column = False
284        self.has_magnet_error_column = False
285
286        # If the widget generated theory item, save it
287        self.theory_item = None
288
289        # list column widths
290        self.lstParamHeaderSizes = {}
291
292        # signal communicator
293        self.communicate = self.parent.communicate
294
295    def initializeWidgets(self):
296        """
297        Initialize widgets for tabs
298        """
299        # Options widget
300        layout = QtWidgets.QGridLayout()
301        self.options_widget = OptionsWidget(self, self.logic)
302        layout.addWidget(self.options_widget)
303        self.tabOptions.setLayout(layout)
304
305        # Smearing widget
306        layout = QtWidgets.QGridLayout()
307        self.smearing_widget = SmearingWidget(self)
308        layout.addWidget(self.smearing_widget)
309        self.tabResolution.setLayout(layout)
310
311        # Define bold font for use in various controls
312        self.boldFont = QtGui.QFont()
313        self.boldFont.setBold(True)
314
315        # Set data label
316        self.label.setFont(self.boldFont)
317        self.label.setText("No data loaded")
318        self.lblFilename.setText("")
319
320        # Magnetic angles explained in one picture
321        self.magneticAnglesWidget = QtWidgets.QWidget()
322        labl = QtWidgets.QLabel(self.magneticAnglesWidget)
323        pixmap = QtGui.QPixmap(GuiUtils.IMAGES_DIRECTORY_LOCATION + '/M_angles_pic.bmp')
324        labl.setPixmap(pixmap)
325        self.magneticAnglesWidget.setFixedSize(pixmap.width(), pixmap.height())
326
327    def initializeModels(self):
328        """
329        Set up models and views
330        """
331        # Set the main models
332        # We can't use a single model here, due to restrictions on flattening
333        # the model tree with subclassed QAbstractProxyModel...
334        self._model_model = ToolTippedItemModel()
335        self._poly_model = ToolTippedItemModel()
336        self._magnet_model = ToolTippedItemModel()
337
338        # Param model displayed in param list
339        self.lstParams.setModel(self._model_model)
340        self.readCategoryInfo()
341
342        self.model_parameters = None
343
344        # Delegates for custom editing and display
345        self.lstParams.setItemDelegate(ModelViewDelegate(self))
346
347        self.lstParams.setAlternatingRowColors(True)
348        stylesheet = """
349
350            QTreeView {
351                paint-alternating-row-colors-for-empty-area:0;
352            }
353
354            QTreeView::item {
355                border: 1px;
356                padding: 2px 1px;
357            }
358
359            QTreeView::item:hover {
360                background: qlineargradient(x1: 0, y1: 0, x2: 0, y2: 1, stop: 0 #e7effd, stop: 1 #cbdaf1);
361                border: 1px solid #bfcde4;
362            }
363
364            QTreeView::item:selected {
365                border: 1px solid #567dbc;
366            }
367
368            QTreeView::item:selected:active{
369                background: qlineargradient(x1: 0, y1: 0, x2: 0, y2: 1, stop: 0 #6ea1f1, stop: 1 #567dbc);
370            }
371
372            QTreeView::item:selected:!active {
373                background: qlineargradient(x1: 0, y1: 0, x2: 0, y2: 1, stop: 0 #6b9be8, stop: 1 #577fbf);
374            }
375           """
376        self.lstParams.setStyleSheet(stylesheet)
377        self.lstParams.setContextMenuPolicy(QtCore.Qt.CustomContextMenu)
378        self.lstParams.customContextMenuRequested.connect(self.showModelContextMenu)
379        self.lstParams.setAttribute(QtCore.Qt.WA_MacShowFocusRect, False)
380        # Column resize signals
381        self.lstParams.header().sectionResized.connect(self.onColumnWidthUpdate)
382
383        # Poly model displayed in poly list
384        self.lstPoly.setModel(self._poly_model)
385        self.setPolyModel()
386        self.setTableProperties(self.lstPoly)
387        # Delegates for custom editing and display
388        self.lstPoly.setItemDelegate(PolyViewDelegate(self))
389        # Polydispersity function combo response
390        self.lstPoly.itemDelegate().combo_updated.connect(self.onPolyComboIndexChange)
391        self.lstPoly.itemDelegate().filename_updated.connect(self.onPolyFilenameChange)
392
393        # Magnetism model displayed in magnetism list
394        self.lstMagnetic.setModel(self._magnet_model)
395        self.setMagneticModel()
396        self.setTableProperties(self.lstMagnetic)
397        # Delegates for custom editing and display
398        self.lstMagnetic.setItemDelegate(MagnetismViewDelegate(self))
399
400    def initializeCategoryCombo(self):
401        """
402        Model category combo setup
403        """
404        category_list = sorted(self.master_category_dict.keys())
405        self.cbCategory.addItem(CATEGORY_DEFAULT)
406        self.cbCategory.addItems(category_list)
407        if CATEGORY_STRUCTURE not in category_list:
408            self.cbCategory.addItem(CATEGORY_STRUCTURE)
409        self.cbCategory.setCurrentIndex(0)
410
411    def setEnablementOnDataLoad(self):
412        """
413        Enable/disable various UI elements based on data loaded
414        """
415        # Tag along functionality
416        self.label.setText("Data loaded from: ")
417        if self.logic.data.filename:
418            self.lblFilename.setText(self.logic.data.filename)
419        else:
420            self.lblFilename.setText(self.logic.data.name)
421        self.updateQRange()
422        # Switch off Data2D control
423        self.chk2DView.setEnabled(False)
424        self.chk2DView.setVisible(False)
425        self.chkMagnetism.setEnabled(self.is2D)
426        self.tabFitting.setTabEnabled(TAB_MAGNETISM, self.chkMagnetism.isChecked())
427        # Combo box or label for file name"
428        if self.is_batch_fitting:
429            self.lblFilename.setVisible(False)
430            for dataitem in self.all_data:
431                filename = GuiUtils.dataFromItem(dataitem).filename
432                self.cbFileNames.addItem(filename)
433            self.cbFileNames.setVisible(True)
434            self.chkChainFit.setEnabled(True)
435            self.chkChainFit.setVisible(True)
436            # This panel is not designed to view individual fits, so disable plotting
437            self.cmdPlot.setVisible(False)
438        # Similarly on other tabs
439        self.options_widget.setEnablementOnDataLoad()
440        self.onSelectModel()
441        # Smearing tab
442        self.smearing_widget.updateData(self.data)
443
444    def acceptsData(self):
445        """ Tells the caller this widget can accept new dataset """
446        return not self.data_is_loaded
447
448    def disableModelCombo(self):
449        """ Disable the combobox """
450        self.cbModel.setEnabled(False)
451        self.lblModel.setEnabled(False)
452
453    def enableModelCombo(self):
454        """ Enable the combobox """
455        self.cbModel.setEnabled(True)
456        self.lblModel.setEnabled(True)
457
458    def disableStructureCombo(self):
459        """ Disable the combobox """
460        self.cbStructureFactor.setEnabled(False)
461        self.lblStructure.setEnabled(False)
462
463    def enableStructureCombo(self):
464        """ Enable the combobox """
465        self.cbStructureFactor.setEnabled(True)
466        self.lblStructure.setEnabled(True)
467
468    def togglePoly(self, isChecked):
469        """ Enable/disable the polydispersity tab """
470        self.tabFitting.setTabEnabled(TAB_POLY, isChecked)
471
472    def toggleMagnetism(self, isChecked):
473        """ Enable/disable the magnetism tab """
474        self.tabFitting.setTabEnabled(TAB_MAGNETISM, isChecked)
475
476    def toggleChainFit(self, isChecked):
477        """ Enable/disable chain fitting """
478        self.is_chain_fitting = isChecked
479
480    def toggle2D(self, isChecked):
481        """ Enable/disable the controls dependent on 1D/2D data instance """
482        self.chkMagnetism.setEnabled(isChecked)
483        self.is2D = isChecked
484        # Reload the current model
485        if self.kernel_module:
486            self.onSelectModel()
487
488    @classmethod
489    def customModels(cls):
490        """ Reads in file names in the custom plugin directory """
491        return ModelUtilities._find_models()
492
493    def initializeControls(self):
494        """
495        Set initial control enablement
496        """
497        self.cbFileNames.setVisible(False)
498        self.cmdFit.setEnabled(False)
499        self.cmdPlot.setEnabled(False)
500        self.options_widget.cmdComputePoints.setVisible(False) # probably redundant
501        self.chkPolydispersity.setEnabled(True)
502        self.chkPolydispersity.setCheckState(False)
503        self.chk2DView.setEnabled(True)
504        self.chk2DView.setCheckState(False)
505        self.chkMagnetism.setEnabled(False)
506        self.chkMagnetism.setCheckState(False)
507        self.chkChainFit.setEnabled(False)
508        self.chkChainFit.setVisible(False)
509        # Tabs
510        self.tabFitting.setTabEnabled(TAB_POLY, False)
511        self.tabFitting.setTabEnabled(TAB_MAGNETISM, False)
512        self.lblChi2Value.setText("---")
513        # Smearing tab
514        self.smearing_widget.updateData(self.data)
515        # Line edits in the option tab
516        self.updateQRange()
517
518    def initializeSignals(self):
519        """
520        Connect GUI element signals
521        """
522        # Comboboxes
523        self.cbStructureFactor.currentIndexChanged.connect(self.onSelectStructureFactor)
524        self.cbCategory.currentIndexChanged.connect(self.onSelectCategory)
525        self.cbModel.currentIndexChanged.connect(self.onSelectModel)
526        self.cbFileNames.currentIndexChanged.connect(self.onSelectBatchFilename)
527        # Checkboxes
528        self.chk2DView.toggled.connect(self.toggle2D)
529        self.chkPolydispersity.toggled.connect(self.togglePoly)
530        self.chkMagnetism.toggled.connect(self.toggleMagnetism)
531        self.chkChainFit.toggled.connect(self.toggleChainFit)
532        # Buttons
533        self.cmdFit.clicked.connect(self.onFit)
534        self.cmdPlot.clicked.connect(self.onPlot)
535        self.cmdHelp.clicked.connect(self.onHelp)
536        self.cmdMagneticDisplay.clicked.connect(self.onDisplayMagneticAngles)
537
538        # Respond to change in parameters from the UI
539        self._model_model.itemChanged.connect(self.onMainParamsChange)
540        #self.constraintAddedSignal.connect(self.modifyViewOnConstraint)
541        self._poly_model.itemChanged.connect(self.onPolyModelChange)
542        self._magnet_model.itemChanged.connect(self.onMagnetModelChange)
543        self.lstParams.selectionModel().selectionChanged.connect(self.onSelectionChanged)
544
545        # Local signals
546        self.batchFittingFinishedSignal.connect(self.batchFitComplete)
547        self.fittingFinishedSignal.connect(self.fitComplete)
548        self.Calc1DFinishedSignal.connect(self.complete1D)
549        self.Calc2DFinishedSignal.connect(self.complete2D)
550
551        # Signals from separate tabs asking for replot
552        self.options_widget.plot_signal.connect(self.onOptionsUpdate)
553
554        # Signals from other widgets
555        self.communicate.customModelDirectoryChanged.connect(self.onCustomModelChange)
556        self.communicate.saveAnalysisSignal.connect(self.savePageState)
557        self.smearing_widget.smearingChangedSignal.connect(self.onSmearingOptionsUpdate)
558
559        # Communicator signal
560        self.communicate.updateModelCategoriesSignal.connect(self.onCategoriesChanged)
561
562    def modelName(self):
563        """
564        Returns model name, by default M<tab#>, e.g. M1, M2
565        """
566        return "M%i" % self.tab_id
567
568    def nameForFittedData(self, name):
569        """
570        Generate name for the current fit
571        """
572        if self.is2D:
573            name += "2d"
574        name = "%s [%s]" % (self.modelName(), name)
575        return name
576
577    def showModelContextMenu(self, position):
578        """
579        Show context specific menu in the parameter table.
580        When clicked on parameter(s): fitting/constraints options
581        When clicked on white space: model description
582        """
583        rows = [s.row() for s in self.lstParams.selectionModel().selectedRows()
584                if self.isCheckable(s.row())]
585        menu = self.showModelDescription() if not rows else self.modelContextMenu(rows)
586        try:
587            menu.exec_(self.lstParams.viewport().mapToGlobal(position))
588        except AttributeError as ex:
589            logger.error("Error generating context menu: %s" % ex)
590        return
591
592    def modelContextMenu(self, rows):
593        """
594        Create context menu for the parameter selection
595        """
596        menu = QtWidgets.QMenu()
597        num_rows = len(rows)
598        if num_rows < 1:
599            return menu
600        # Select for fitting
601        param_string = "parameter " if num_rows == 1 else "parameters "
602        to_string = "to its current value" if num_rows == 1 else "to their current values"
603        has_constraints = any([self.rowHasConstraint(i) for i in rows])
604
605        self.actionSelect = QtWidgets.QAction(self)
606        self.actionSelect.setObjectName("actionSelect")
607        self.actionSelect.setText(QtCore.QCoreApplication.translate("self", "Select "+param_string+" for fitting"))
608        # Unselect from fitting
609        self.actionDeselect = QtWidgets.QAction(self)
610        self.actionDeselect.setObjectName("actionDeselect")
611        self.actionDeselect.setText(QtCore.QCoreApplication.translate("self", "De-select "+param_string+" from fitting"))
612
613        self.actionConstrain = QtWidgets.QAction(self)
614        self.actionConstrain.setObjectName("actionConstrain")
615        self.actionConstrain.setText(QtCore.QCoreApplication.translate("self", "Constrain "+param_string + to_string))
616
617        self.actionRemoveConstraint = QtWidgets.QAction(self)
618        self.actionRemoveConstraint.setObjectName("actionRemoveConstrain")
619        self.actionRemoveConstraint.setText(QtCore.QCoreApplication.translate("self", "Remove constraint"))
620
621        self.actionMultiConstrain = QtWidgets.QAction(self)
622        self.actionMultiConstrain.setObjectName("actionMultiConstrain")
623        self.actionMultiConstrain.setText(QtCore.QCoreApplication.translate("self", "Constrain selected parameters to their current values"))
624
625        self.actionMutualMultiConstrain = QtWidgets.QAction(self)
626        self.actionMutualMultiConstrain.setObjectName("actionMutualMultiConstrain")
627        self.actionMutualMultiConstrain.setText(QtCore.QCoreApplication.translate("self", "Mutual constrain of selected parameters..."))
628
629        menu.addAction(self.actionSelect)
630        menu.addAction(self.actionDeselect)
631        menu.addSeparator()
632
633        if has_constraints:
634            menu.addAction(self.actionRemoveConstraint)
635            #if num_rows == 1:
636            #    menu.addAction(self.actionEditConstraint)
637        else:
638            menu.addAction(self.actionConstrain)
639            if num_rows == 2:
640                menu.addAction(self.actionMutualMultiConstrain)
641
642        # Define the callbacks
643        self.actionConstrain.triggered.connect(self.addSimpleConstraint)
644        self.actionRemoveConstraint.triggered.connect(self.deleteConstraint)
645        self.actionMutualMultiConstrain.triggered.connect(self.showMultiConstraint)
646        self.actionSelect.triggered.connect(self.selectParameters)
647        self.actionDeselect.triggered.connect(self.deselectParameters)
648        return menu
649
650    def showMultiConstraint(self):
651        """
652        Show the constraint widget and receive the expression
653        """
654        selected_rows = self.lstParams.selectionModel().selectedRows()
655        # There have to be only two rows selected. The caller takes care of that
656        # but let's check the correctness.
657        assert len(selected_rows) == 2
658
659        params_list = [s.data() for s in selected_rows]
660        # Create and display the widget for param1 and param2
661        mc_widget = MultiConstraint(self, params=params_list)
662        # Check if any of the parameters are polydisperse
663        if not np.any([FittingUtilities.isParamPolydisperse(p, self.model_parameters, is2D=self.is2D) for p in params_list]):
664            # no parameters are pd - reset the text to not show the warning
665            mc_widget.lblWarning.setText("")
666        if mc_widget.exec_() != QtWidgets.QDialog.Accepted:
667            return
668
669        constraint = Constraint()
670        c_text = mc_widget.txtConstraint.text()
671
672        # widget.params[0] is the parameter we're constraining
673        constraint.param = mc_widget.params[0]
674        # parameter should have the model name preamble
675        model_name = self.kernel_module.name
676        # param_used is the parameter we're using in constraining function
677        param_used = mc_widget.params[1]
678        # Replace param_used with model_name.param_used
679        updated_param_used = model_name + "." + param_used
680        new_func = c_text.replace(param_used, updated_param_used)
681        constraint.func = new_func
682        # Which row is the constrained parameter in?
683        row = self.getRowFromName(constraint.param)
684
685        # Create a new item and add the Constraint object as a child
686        self.addConstraintToRow(constraint=constraint, row=row)
687
688    def getRowFromName(self, name):
689        """
690        Given parameter name get the row number in self._model_model
691        """
692        for row in range(self._model_model.rowCount()):
693            row_name = self._model_model.item(row).text()
694            if row_name == name:
695                return row
696        return None
697
698    def getParamNames(self):
699        """
700        Return list of all parameters for the current model
701        """
702        return [self._model_model.item(row).text()
703                for row in range(self._model_model.rowCount())
704                if self.isCheckable(row)]
705
706    def modifyViewOnRow(self, row, font=None, brush=None):
707        """
708        Chage how the given row of the main model is shown
709        """
710        fields_enabled = False
711        if font is None:
712            font = QtGui.QFont()
713            fields_enabled = True
714        if brush is None:
715            brush = QtGui.QBrush()
716            fields_enabled = True
717        self._model_model.blockSignals(True)
718        # Modify font and foreground of affected rows
719        for column in range(0, self._model_model.columnCount()):
720            self._model_model.item(row, column).setForeground(brush)
721            self._model_model.item(row, column).setFont(font)
722            self._model_model.item(row, column).setEditable(fields_enabled)
723        self._model_model.blockSignals(False)
724
725    def addConstraintToRow(self, constraint=None, row=0):
726        """
727        Adds the constraint object to requested row
728        """
729        # Create a new item and add the Constraint object as a child
730        assert isinstance(constraint, Constraint)
731        assert 0 <= row <= self._model_model.rowCount()
732        assert self.isCheckable(row)
733
734        item = QtGui.QStandardItem()
735        item.setData(constraint)
736        self._model_model.item(row, 1).setChild(0, item)
737        # Set min/max to the value constrained
738        self.constraintAddedSignal.emit([row])
739        # Show visual hints for the constraint
740        font = QtGui.QFont()
741        font.setItalic(True)
742        brush = QtGui.QBrush(QtGui.QColor('blue'))
743        self.modifyViewOnRow(row, font=font, brush=brush)
744        self.communicate.statusBarUpdateSignal.emit('Constraint added')
745
746    def addSimpleConstraint(self):
747        """
748        Adds a constraint on a single parameter.
749        """
750        min_col = self.lstParams.itemDelegate().param_min
751        max_col = self.lstParams.itemDelegate().param_max
752        for row in self.selectedParameters():
753            assert(self.isCheckable(row))
754            param = self._model_model.item(row, 0).text()
755            value = self._model_model.item(row, 1).text()
756            min_t = self._model_model.item(row, min_col).text()
757            max_t = self._model_model.item(row, max_col).text()
758            # Create a Constraint object
759            constraint = Constraint(param=param, value=value, min=min_t, max=max_t)
760            # Create a new item and add the Constraint object as a child
761            item = QtGui.QStandardItem()
762            item.setData(constraint)
763            self._model_model.item(row, 1).setChild(0, item)
764            # Assumed correctness from the validator
765            value = float(value)
766            # BUMPS calculates log(max-min) without any checks, so let's assign minor range
767            min_v = value - (value/10000.0)
768            max_v = value + (value/10000.0)
769            # Set min/max to the value constrained
770            self._model_model.item(row, min_col).setText(str(min_v))
771            self._model_model.item(row, max_col).setText(str(max_v))
772            self.constraintAddedSignal.emit([row])
773            # Show visual hints for the constraint
774            font = QtGui.QFont()
775            font.setItalic(True)
776            brush = QtGui.QBrush(QtGui.QColor('blue'))
777            self.modifyViewOnRow(row, font=font, brush=brush)
778        self.communicate.statusBarUpdateSignal.emit('Constraint added')
779
780    def deleteConstraint(self):
781        """
782        Delete constraints from selected parameters.
783        """
784        params = [s.data() for s in self.lstParams.selectionModel().selectedRows()
785                   if self.isCheckable(s.row())]
786        for param in params:
787            self.deleteConstraintOnParameter(param=param)
788
789    def deleteConstraintOnParameter(self, param=None):
790        """
791        Delete the constraint on model parameter 'param'
792        """
793        min_col = self.lstParams.itemDelegate().param_min
794        max_col = self.lstParams.itemDelegate().param_max
795        for row in range(self._model_model.rowCount()):
796            if not self.isCheckable(row):
797                continue
798            if not self.rowHasConstraint(row):
799                continue
800            # Get the Constraint object from of the model item
801            item = self._model_model.item(row, 1)
802            constraint = self.getConstraintForRow(row)
803            if constraint is None:
804                continue
805            if not isinstance(constraint, Constraint):
806                continue
807            if param and constraint.param != param:
808                continue
809            # Now we got the right row. Delete the constraint and clean up
810            # Retrieve old values and put them on the model
811            if constraint.min is not None:
812                self._model_model.item(row, min_col).setText(constraint.min)
813            if constraint.max is not None:
814                self._model_model.item(row, max_col).setText(constraint.max)
815            # Remove constraint item
816            item.removeRow(0)
817            self.constraintAddedSignal.emit([row])
818            self.modifyViewOnRow(row)
819
820        self.communicate.statusBarUpdateSignal.emit('Constraint removed')
821
822    def getConstraintForRow(self, row):
823        """
824        For the given row, return its constraint, if any (otherwise None)
825        """
826        if not self.isCheckable(row):
827            return None
828        item = self._model_model.item(row, 1)
829        try:
830            return item.child(0).data()
831        except AttributeError:
832            return None
833
834    def rowHasConstraint(self, row):
835        """
836        Finds out if row of the main model has a constraint child
837        """
838        if not self.isCheckable(row):
839            return False
840        item = self._model_model.item(row, 1)
841        if not item.hasChildren():
842            return False
843        c = item.child(0).data()
844        if isinstance(c, Constraint):
845            return True
846        return False
847
848    def rowHasActiveConstraint(self, row):
849        """
850        Finds out if row of the main model has an active constraint child
851        """
852        if not self.isCheckable(row):
853            return False
854        item = self._model_model.item(row, 1)
855        if not item.hasChildren():
856            return False
857        c = item.child(0).data()
858        if isinstance(c, Constraint) and c.active:
859            return True
860        return False
861
862    def rowHasActiveComplexConstraint(self, row):
863        """
864        Finds out if row of the main model has an active, nontrivial constraint child
865        """
866        if not self.isCheckable(row):
867            return False
868        item = self._model_model.item(row, 1)
869        if not item.hasChildren():
870            return False
871        c = item.child(0).data()
872        if isinstance(c, Constraint) and c.func and c.active:
873            return True
874        return False
875
876    def selectParameters(self):
877        """
878        Selected parameter is chosen for fitting
879        """
880        status = QtCore.Qt.Checked
881        self.setParameterSelection(status)
882
883    def deselectParameters(self):
884        """
885        Selected parameters are removed for fitting
886        """
887        status = QtCore.Qt.Unchecked
888        self.setParameterSelection(status)
889
890    def selectedParameters(self):
891        """ Returns list of selected (highlighted) parameters """
892        return [s.row() for s in self.lstParams.selectionModel().selectedRows()
893                if self.isCheckable(s.row())]
894
895    def setParameterSelection(self, status=QtCore.Qt.Unchecked):
896        """
897        Selected parameters are chosen for fitting
898        """
899        # Convert to proper indices and set requested enablement
900        for row in self.selectedParameters():
901            self._model_model.item(row, 0).setCheckState(status)
902
903    def getConstraintsForModel(self):
904        """
905        Return a list of tuples. Each tuple contains constraints mapped as
906        ('constrained parameter', 'function to constrain')
907        e.g. [('sld','5*sld_solvent')]
908        """
909        param_number = self._model_model.rowCount()
910        params = [(self._model_model.item(s, 0).text(),
911                    self._model_model.item(s, 1).child(0).data().func)
912                    for s in range(param_number) if self.rowHasActiveConstraint(s)]
913        return params
914
915    def getComplexConstraintsForModel(self):
916        """
917        Return a list of tuples. Each tuple contains constraints mapped as
918        ('constrained parameter', 'function to constrain')
919        e.g. [('sld','5*M2.sld_solvent')].
920        Only for constraints with defined VALUE
921        """
922        param_number = self._model_model.rowCount()
923        params = [(self._model_model.item(s, 0).text(),
924                    self._model_model.item(s, 1).child(0).data().func)
925                    for s in range(param_number) if self.rowHasActiveComplexConstraint(s)]
926        return params
927
928    def getConstraintObjectsForModel(self):
929        """
930        Returns Constraint objects present on the whole model
931        """
932        param_number = self._model_model.rowCount()
933        constraints = [self._model_model.item(s, 1).child(0).data()
934                       for s in range(param_number) if self.rowHasConstraint(s)]
935
936        return constraints
937
938    def getConstraintsForFitting(self):
939        """
940        Return a list of constraints in format ready for use in fiting
941        """
942        # Get constraints
943        constraints = self.getComplexConstraintsForModel()
944        # See if there are any constraints across models
945        multi_constraints = [cons for cons in constraints if self.isConstraintMultimodel(cons[1])]
946
947        if multi_constraints:
948            # Let users choose what to do
949            msg = "The current fit contains constraints relying on other fit pages.\n"
950            msg += "Parameters with those constraints are:\n" +\
951                '\n'.join([cons[0] for cons in multi_constraints])
952            msg += "\n\nWould you like to remove these constraints or cancel fitting?"
953            msgbox = QtWidgets.QMessageBox(self)
954            msgbox.setIcon(QtWidgets.QMessageBox.Warning)
955            msgbox.setText(msg)
956            msgbox.setWindowTitle("Existing Constraints")
957            # custom buttons
958            button_remove = QtWidgets.QPushButton("Remove")
959            msgbox.addButton(button_remove, QtWidgets.QMessageBox.YesRole)
960            button_cancel = QtWidgets.QPushButton("Cancel")
961            msgbox.addButton(button_cancel, QtWidgets.QMessageBox.RejectRole)
962            retval = msgbox.exec_()
963            if retval == QtWidgets.QMessageBox.RejectRole:
964                # cancel fit
965                raise ValueError("Fitting cancelled")
966            else:
967                # remove constraint
968                for cons in multi_constraints:
969                    self.deleteConstraintOnParameter(param=cons[0])
970                # re-read the constraints
971                constraints = self.getComplexConstraintsForModel()
972
973        return constraints
974
975    def showModelDescription(self):
976        """
977        Creates a window with model description, when right clicked in the treeview
978        """
979        msg = 'Model description:\n'
980        if self.kernel_module is not None:
981            if str(self.kernel_module.description).rstrip().lstrip() == '':
982                msg += "Sorry, no information is available for this model."
983            else:
984                msg += self.kernel_module.description + '\n'
985        else:
986            msg += "You must select a model to get information on this"
987
988        menu = QtWidgets.QMenu()
989        label = QtWidgets.QLabel(msg)
990        action = QtWidgets.QWidgetAction(self)
991        action.setDefaultWidget(label)
992        menu.addAction(action)
993        return menu
994
995    def onSelectModel(self):
996        """
997        Respond to select Model from list event
998        """
999        model = self.cbModel.currentText()
1000
1001        # Assure the control is active
1002        if not self.cbModel.isEnabled():
1003            return
1004        # Empty combobox forced to be read
1005        if not model:
1006            return
1007
1008        # Reset parameters to fit
1009        self.resetParametersToFit()
1010        self.has_error_column = False
1011        self.has_poly_error_column = False
1012
1013        structure = None
1014        if self.cbStructureFactor.isEnabled():
1015            structure = str(self.cbStructureFactor.currentText())
1016        self.respondToModelStructure(model=model, structure_factor=structure)
1017
1018    def onSelectBatchFilename(self, data_index):
1019        """
1020        Update the logic based on the selected file in batch fitting
1021        """
1022        self.data_index = data_index
1023        self.updateQRange()
1024
1025    def onSelectStructureFactor(self):
1026        """
1027        Select Structure Factor from list
1028        """
1029        model = str(self.cbModel.currentText())
1030        category = str(self.cbCategory.currentText())
1031        structure = str(self.cbStructureFactor.currentText())
1032        if category == CATEGORY_STRUCTURE:
1033            model = None
1034
1035        # Reset parameters to fit
1036        self.resetParametersToFit()
1037        self.has_error_column = False
1038        self.has_poly_error_column = False
1039
1040        self.respondToModelStructure(model=model, structure_factor=structure)
1041
1042    def resetParametersToFit(self):
1043        """
1044        Clears the list of parameters to be fitted
1045        """
1046        self.main_params_to_fit = []
1047        self.poly_params_to_fit = []
1048        self.magnet_params_to_fit = []
1049
1050    def onCustomModelChange(self):
1051        """
1052        Reload the custom model combobox
1053        """
1054        self.custom_models = self.customModels()
1055        self.readCustomCategoryInfo()
1056        self.onCategoriesChanged()
1057
1058        # See if we need to update the combo in-place
1059        if self.cbCategory.currentText() != CATEGORY_CUSTOM: return
1060
1061        current_text = self.cbModel.currentText()
1062        self.cbModel.blockSignals(True)
1063        self.cbModel.clear()
1064        self.cbModel.blockSignals(False)
1065        self.enableModelCombo()
1066        self.disableStructureCombo()
1067        # Retrieve the list of models
1068        model_list = self.master_category_dict[CATEGORY_CUSTOM]
1069        # Populate the models combobox
1070        self.cbModel.addItems(sorted([model for (model, _) in model_list]))
1071        new_index = self.cbModel.findText(current_text)
1072        if new_index != -1:
1073            self.cbModel.setCurrentIndex(self.cbModel.findText(current_text))
1074
1075    def onSelectionChanged(self):
1076        """
1077        React to parameter selection
1078        """
1079        rows = self.lstParams.selectionModel().selectedRows()
1080        # Clean previous messages
1081        self.communicate.statusBarUpdateSignal.emit("")
1082        if len(rows) == 1:
1083            # Show constraint, if present
1084            row = rows[0].row()
1085            if not self.rowHasConstraint(row):
1086                return
1087            constr = self.getConstraintForRow(row)
1088            func = self.getConstraintForRow(row).func
1089            if constr.func is not None:
1090                # inter-parameter constraint
1091                update_text = "Active constraint: "+func
1092            elif constr.param == rows[0].data():
1093                # current value constraint
1094                update_text = "Value constrained to: " + str(constr.value)
1095            else:
1096                # ill defined constraint
1097                return
1098            self.communicate.statusBarUpdateSignal.emit(update_text)
1099
1100    def replaceConstraintName(self, old_name, new_name=""):
1101        """
1102        Replace names of models in defined constraints
1103        """
1104        param_number = self._model_model.rowCount()
1105        # loop over parameters
1106        for row in range(param_number):
1107            if self.rowHasConstraint(row):
1108                func = self._model_model.item(row, 1).child(0).data().func
1109                if old_name in func:
1110                    new_func = func.replace(old_name, new_name)
1111                    self._model_model.item(row, 1).child(0).data().func = new_func
1112
1113    def isConstraintMultimodel(self, constraint):
1114        """
1115        Check if the constraint function text contains current model name
1116        """
1117        current_model_name = self.kernel_module.name
1118        if current_model_name in constraint:
1119            return False
1120        else:
1121            return True
1122
1123    def updateData(self):
1124        """
1125        Helper function for recalculation of data used in plotting
1126        """
1127        # Update the chart
1128        if self.data_is_loaded:
1129            self.cmdPlot.setText("Show Plot")
1130            self.calculateQGridForModel()
1131        else:
1132            self.cmdPlot.setText("Calculate")
1133            # Create default datasets if no data passed
1134            self.createDefaultDataset()
1135            self.theory_item = None # ensure theory is recalc. before plot, see showTheoryPlot()
1136
1137    def respondToModelStructure(self, model=None, structure_factor=None):
1138        # Set enablement on calculate/plot
1139        self.cmdPlot.setEnabled(True)
1140
1141        # kernel parameters -> model_model
1142        self.SASModelToQModel(model, structure_factor)
1143
1144        for column, width in self.lstParamHeaderSizes.items():
1145            self.lstParams.setColumnWidth(column, width)
1146
1147        # Update plot
1148        self.updateData()
1149
1150        # Update state stack
1151        self.updateUndo()
1152
1153        # Let others know
1154        self.newModelSignal.emit()
1155
1156    def onSelectCategory(self):
1157        """
1158        Select Category from list
1159        """
1160        category = self.cbCategory.currentText()
1161        # Check if the user chose "Choose category entry"
1162        if category == CATEGORY_DEFAULT:
1163            # if the previous category was not the default, keep it.
1164            # Otherwise, just return
1165            if self._previous_category_index != 0:
1166                # We need to block signals, or else state changes on perceived unchanged conditions
1167                self.cbCategory.blockSignals(True)
1168                self.cbCategory.setCurrentIndex(self._previous_category_index)
1169                self.cbCategory.blockSignals(False)
1170            return
1171
1172        if category == CATEGORY_STRUCTURE:
1173            self.disableModelCombo()
1174            self.enableStructureCombo()
1175            # set the index to 0
1176            self.cbStructureFactor.setCurrentIndex(0)
1177            self.model_parameters = None
1178            self._model_model.clear()
1179            return
1180
1181        # Safely clear and enable the model combo
1182        self.cbModel.blockSignals(True)
1183        self.cbModel.clear()
1184        self.cbModel.blockSignals(False)
1185        self.enableModelCombo()
1186        self.disableStructureCombo()
1187
1188        self._previous_category_index = self.cbCategory.currentIndex()
1189        # Retrieve the list of models
1190        model_list = self.master_category_dict[category]
1191        # Populate the models combobox
1192        self.cbModel.addItems(sorted([model for (model, _) in model_list]))
1193
1194    def onPolyModelChange(self, item):
1195        """
1196        Callback method for updating the main model and sasmodel
1197        parameters with the GUI values in the polydispersity view
1198        """
1199        model_column = item.column()
1200        model_row = item.row()
1201        name_index = self._poly_model.index(model_row, 0)
1202        parameter_name = str(name_index.data()) # "distribution of sld" etc.
1203        if "istribution of" in parameter_name:
1204            # just the last word
1205            parameter_name = parameter_name.rsplit()[-1]
1206
1207        delegate = self.lstPoly.itemDelegate()
1208
1209        # Extract changed value.
1210        if model_column == delegate.poly_parameter:
1211            # Is the parameter checked for fitting?
1212            value = item.checkState()
1213            parameter_name = parameter_name + '.width'
1214            if value == QtCore.Qt.Checked:
1215                self.poly_params_to_fit.append(parameter_name)
1216            else:
1217                if parameter_name in self.poly_params_to_fit:
1218                    self.poly_params_to_fit.remove(parameter_name)
1219            self.cmdFit.setEnabled(self.haveParamsToFit())
1220
1221        elif model_column in [delegate.poly_min, delegate.poly_max]:
1222            try:
1223                value = GuiUtils.toDouble(item.text())
1224            except TypeError:
1225                # Can't be converted properly, bring back the old value and exit
1226                return
1227
1228            current_details = self.kernel_module.details[parameter_name]
1229            if self.has_poly_error_column:
1230                # err column changes the indexing
1231                current_details[model_column-2] = value
1232            else:
1233                current_details[model_column-1] = value
1234
1235        elif model_column == delegate.poly_function:
1236            # name of the function - just pass
1237            pass
1238
1239        else:
1240            try:
1241                value = GuiUtils.toDouble(item.text())
1242            except TypeError:
1243                # Can't be converted properly, bring back the old value and exit
1244                return
1245
1246            # Update the sasmodel
1247            # PD[ratio] -> width, npts -> npts, nsigs -> nsigmas
1248            #self.kernel_module.setParam(parameter_name + '.' + delegate.columnDict()[model_column], value)
1249            key = parameter_name + '.' + delegate.columnDict()[model_column]
1250            self.poly_params[key] = value
1251
1252            # Update plot
1253            self.updateData()
1254
1255        # update in param model
1256        if model_column in [delegate.poly_pd, delegate.poly_error, delegate.poly_min, delegate.poly_max]:
1257            row = self.getRowFromName(parameter_name)
1258            param_item = self._model_model.item(row).child(0).child(0, model_column)
1259            if param_item is None:
1260                return
1261            self._model_model.blockSignals(True)
1262            param_item.setText(item.text())
1263            self._model_model.blockSignals(False)
1264
1265    def onMagnetModelChange(self, item):
1266        """
1267        Callback method for updating the sasmodel magnetic parameters with the GUI values
1268        """
1269        model_column = item.column()
1270        model_row = item.row()
1271        name_index = self._magnet_model.index(model_row, 0)
1272        parameter_name = str(self._magnet_model.data(name_index))
1273
1274        if model_column == 0:
1275            value = item.checkState()
1276            if value == QtCore.Qt.Checked:
1277                self.magnet_params_to_fit.append(parameter_name)
1278            else:
1279                if parameter_name in self.magnet_params_to_fit:
1280                    self.magnet_params_to_fit.remove(parameter_name)
1281            self.cmdFit.setEnabled(self.haveParamsToFit())
1282            # Update state stack
1283            self.updateUndo()
1284            return
1285
1286        # Extract changed value.
1287        try:
1288            value = GuiUtils.toDouble(item.text())
1289        except TypeError:
1290            # Unparsable field
1291            return
1292        delegate = self.lstMagnetic.itemDelegate()
1293
1294        if model_column > 1:
1295            if model_column == delegate.mag_min:
1296                pos = 1
1297            elif model_column == delegate.mag_max:
1298                pos = 2
1299            elif model_column == delegate.mag_unit:
1300                pos = 0
1301            else:
1302                raise AttributeError("Wrong column in magnetism table.")
1303            # min/max to be changed in self.kernel_module.details[parameter_name] = ['Ang', 0.0, inf]
1304            self.kernel_module.details[parameter_name][pos] = value
1305        else:
1306            self.magnet_params[parameter_name] = value
1307            #self.kernel_module.setParam(parameter_name) = value
1308            # Force the chart update when actual parameters changed
1309            self.recalculatePlotData()
1310
1311        # Update state stack
1312        self.updateUndo()
1313
1314    def onHelp(self):
1315        """
1316        Show the "Fitting" section of help
1317        """
1318        tree_location = "/user/qtgui/Perspectives/Fitting/"
1319
1320        # Actual file will depend on the current tab
1321        tab_id = self.tabFitting.currentIndex()
1322        helpfile = "fitting.html"
1323        if tab_id == 0:
1324            helpfile = "fitting_help.html"
1325        elif tab_id == 1:
1326            helpfile = "residuals_help.html"
1327        elif tab_id == 2:
1328            helpfile = "resolution.html"
1329        elif tab_id == 3:
1330            helpfile = "pd/polydispersity.html"
1331        elif tab_id == 4:
1332            helpfile = "magnetism/magnetism.html"
1333        help_location = tree_location + helpfile
1334
1335        self.showHelp(help_location)
1336
1337    def showHelp(self, url):
1338        """
1339        Calls parent's method for opening an HTML page
1340        """
1341        self.parent.showHelp(url)
1342
1343    def onDisplayMagneticAngles(self):
1344        """
1345        Display a simple image showing direction of magnetic angles
1346        """
1347        self.magneticAnglesWidget.show()
1348
1349    def onFit(self):
1350        """
1351        Perform fitting on the current data
1352        """
1353        if self.fit_started:
1354            self.stopFit()
1355            return
1356
1357        # initialize fitter constants
1358        fit_id = 0
1359        handler = None
1360        batch_inputs = {}
1361        batch_outputs = {}
1362        #---------------------------------
1363        if LocalConfig.USING_TWISTED:
1364            handler = None
1365            updater = None
1366        else:
1367            handler = ConsoleUpdate(parent=self.parent,
1368                                    manager=self,
1369                                    improvement_delta=0.1)
1370            updater = handler.update_fit
1371
1372        # Prepare the fitter object
1373        try:
1374            fitters, _ = self.prepareFitters()
1375        except ValueError as ex:
1376            # This should not happen! GUI explicitly forbids this situation
1377            self.communicate.statusBarUpdateSignal.emit(str(ex))
1378            return
1379
1380        # keep local copy of kernel parameters, as they will change during the update
1381        self.kernel_module_copy = copy.deepcopy(self.kernel_module)
1382
1383        # Create the fitting thread, based on the fitter
1384        completefn = self.batchFittingCompleted if self.is_batch_fitting else self.fittingCompleted
1385
1386        self.calc_fit = FitThread(handler=handler,
1387                            fn=fitters,
1388                            batch_inputs=batch_inputs,
1389                            batch_outputs=batch_outputs,
1390                            page_id=[[self.page_id]],
1391                            updatefn=updater,
1392                            completefn=completefn,
1393                            reset_flag=self.is_chain_fitting)
1394
1395        if LocalConfig.USING_TWISTED:
1396            # start the trhrhread with twisted
1397            calc_thread = threads.deferToThread(self.calc_fit.compute)
1398            calc_thread.addCallback(completefn)
1399            calc_thread.addErrback(self.fitFailed)
1400        else:
1401            # Use the old python threads + Queue
1402            self.calc_fit.queue()
1403            self.calc_fit.ready(2.5)
1404
1405        self.communicate.statusBarUpdateSignal.emit('Fitting started...')
1406        self.fit_started = True
1407
1408        # Disable some elements
1409        self.disableInteractiveElements()
1410
1411    def stopFit(self):
1412        """
1413        Attempt to stop the fitting thread
1414        """
1415        if self.calc_fit is None or not self.calc_fit.isrunning():
1416            return
1417        self.calc_fit.stop()
1418        #re-enable the Fit button
1419        self.enableInteractiveElements()
1420
1421        msg = "Fitting cancelled."
1422        self.communicate.statusBarUpdateSignal.emit(msg)
1423
1424    def updateFit(self):
1425        """
1426        """
1427        print("UPDATE FIT")
1428        pass
1429
1430    def fitFailed(self, reason):
1431        """
1432        """
1433        self.enableInteractiveElements()
1434        msg = "Fitting failed with: "+ str(reason)
1435        self.communicate.statusBarUpdateSignal.emit(msg)
1436
1437    def batchFittingCompleted(self, result):
1438        """
1439        Send the finish message from calculate threads to main thread
1440        """
1441        if result is None:
1442            result = tuple()
1443        self.batchFittingFinishedSignal.emit(result)
1444
1445    def batchFitComplete(self, result):
1446        """
1447        Receive and display batch fitting results
1448        """
1449        #re-enable the Fit button
1450        self.enableInteractiveElements()
1451
1452        if len(result) == 0:
1453            msg = "Fitting failed."
1454            self.communicate.statusBarUpdateSignal.emit(msg)
1455            return
1456
1457        # Show the grid panel
1458        self.communicate.sendDataToGridSignal.emit(result[0])
1459
1460        elapsed = result[1]
1461        msg = "Fitting completed successfully in: %s s.\n" % GuiUtils.formatNumber(elapsed)
1462        self.communicate.statusBarUpdateSignal.emit(msg)
1463
1464        # Run over the list of results and update the items
1465        for res_index, res_list in enumerate(result[0]):
1466            # results
1467            res = res_list[0]
1468            param_dict = self.paramDictFromResults(res)
1469
1470            # create local kernel_module
1471            kernel_module = FittingUtilities.updateKernelWithResults(self.kernel_module, param_dict)
1472            # pull out current data
1473            data = self._logic[res_index].data
1474
1475            # Switch indexes
1476            self.onSelectBatchFilename(res_index)
1477
1478            method = self.complete1D if isinstance(self.data, Data1D) else self.complete2D
1479            self.calculateQGridForModelExt(data=data, model=kernel_module, completefn=method, use_threads=False)
1480
1481        # Restore original kernel_module, so subsequent fits on the same model don't pick up the new params
1482        if self.kernel_module is not None:
1483            self.kernel_module = copy.deepcopy(self.kernel_module_copy)
1484
1485    def paramDictFromResults(self, results):
1486        """
1487        Given the fit results structure, pull out optimized parameters and return them as nicely
1488        formatted dict
1489        """
1490        if results.fitness is None or \
1491            not np.isfinite(results.fitness) or \
1492            np.any(results.pvec is None) or \
1493            not np.all(np.isfinite(results.pvec)):
1494            msg = "Fitting did not converge!"
1495            self.communicate.statusBarUpdateSignal.emit(msg)
1496            msg += results.mesg
1497            logger.error(msg)
1498            return
1499
1500        param_list = results.param_list # ['radius', 'radius.width']
1501        param_values = results.pvec     # array([ 0.36221662,  0.0146783 ])
1502        param_stderr = results.stderr   # array([ 1.71293015,  1.71294233])
1503        params_and_errors = list(zip(param_values, param_stderr))
1504        param_dict = dict(zip(param_list, params_and_errors))
1505
1506        return param_dict
1507
1508    def fittingCompleted(self, result):
1509        """
1510        Send the finish message from calculate threads to main thread
1511        """
1512        if result is None:
1513            result = tuple()
1514        self.fittingFinishedSignal.emit(result)
1515
1516    def fitComplete(self, result):
1517        """
1518        Receive and display fitting results
1519        "result" is a tuple of actual result list and the fit time in seconds
1520        """
1521        #re-enable the Fit button
1522        self.enableInteractiveElements()
1523
1524        if len(result) == 0:
1525            msg = "Fitting failed."
1526            self.communicate.statusBarUpdateSignal.emit(msg)
1527            return
1528
1529        res_list = result[0][0]
1530        res = res_list[0]
1531        self.chi2 = res.fitness
1532        param_dict = self.paramDictFromResults(res)
1533
1534        if param_dict is None:
1535            return
1536
1537        elapsed = result[1]
1538        if self.calc_fit._interrupting:
1539            msg = "Fitting cancelled by user after: %s s." % GuiUtils.formatNumber(elapsed)
1540            logger.warning("\n"+msg+"\n")
1541        else:
1542            msg = "Fitting completed successfully in: %s s." % GuiUtils.formatNumber(elapsed)
1543        self.communicate.statusBarUpdateSignal.emit(msg)
1544
1545        # Dictionary of fitted parameter: value, error
1546        # e.g. param_dic = {"sld":(1.703, 0.0034), "length":(33.455, -0.0983)}
1547        self.updateModelFromList(param_dict)
1548
1549        self.updatePolyModelFromList(param_dict)
1550
1551        self.updateMagnetModelFromList(param_dict)
1552
1553        # update charts
1554        self.onPlot()
1555        #self.recalculatePlotData()
1556
1557
1558        # Read only value - we can get away by just printing it here
1559        chi2_repr = GuiUtils.formatNumber(self.chi2, high=True)
1560        self.lblChi2Value.setText(chi2_repr)
1561
1562    def prepareFitters(self, fitter=None, fit_id=0):
1563        """
1564        Prepare the Fitter object for use in fitting
1565        """
1566        # fitter = None -> single/batch fitting
1567        # fitter = Fit() -> simultaneous fitting
1568
1569        # Data going in
1570        data = self.logic.data
1571        model = copy.deepcopy(self.kernel_module)
1572        qmin = self.q_range_min
1573        qmax = self.q_range_max
1574        # add polydisperse/magnet parameters if asked
1575        self.updateKernelModelWithExtraParams(model)
1576
1577        params_to_fit = self.main_params_to_fit
1578        if self.chkPolydispersity.isChecked():
1579            params_to_fit += self.poly_params_to_fit
1580        if self.chkMagnetism.isChecked():
1581            params_to_fit += self.magnet_params_to_fit
1582        if not params_to_fit:
1583            raise ValueError('Fitting requires at least one parameter to optimize.')
1584
1585        # Get the constraints.
1586        constraints = self.getComplexConstraintsForModel()
1587        if fitter is None:
1588            # For single fits - check for inter-model constraints
1589            constraints = self.getConstraintsForFitting()
1590
1591        smearer = self.smearing_widget.smearer()
1592        handler = None
1593        batch_inputs = {}
1594        batch_outputs = {}
1595
1596        fitters = []
1597        for fit_index in self.all_data:
1598            fitter_single = Fit() if fitter is None else fitter
1599            data = GuiUtils.dataFromItem(fit_index)
1600            # Potential weights added directly to data
1601            weighted_data = self.addWeightingToData(data)
1602            try:
1603                fitter_single.set_model(model, fit_id, params_to_fit, data=weighted_data,
1604                             constraints=constraints)
1605            except ValueError as ex:
1606                raise ValueError("Setting model parameters failed with: %s" % ex)
1607
1608            qmin, qmax, _ = self.logic.computeRangeFromData(weighted_data)
1609            fitter_single.set_data(data=weighted_data, id=fit_id, smearer=smearer, qmin=qmin,
1610                            qmax=qmax)
1611            fitter_single.select_problem_for_fit(id=fit_id, value=1)
1612            if fitter is None:
1613                # Assign id to the new fitter only
1614                fitter_single.fitter_id = [self.page_id]
1615            fit_id += 1
1616            fitters.append(fitter_single)
1617
1618        return fitters, fit_id
1619
1620    def iterateOverModel(self, func):
1621        """
1622        Take func and throw it inside the model row loop
1623        """
1624        for row_i in range(self._model_model.rowCount()):
1625            func(row_i)
1626
1627    def updateModelFromList(self, param_dict):
1628        """
1629        Update the model with new parameters, create the errors column
1630        """
1631        assert isinstance(param_dict, dict)
1632        if not dict:
1633            return
1634
1635        def updateFittedValues(row):
1636            # Utility function for main model update
1637            # internal so can use closure for param_dict
1638            param_name = str(self._model_model.item(row, 0).text())
1639            if not self.isCheckable(row) or param_name not in list(param_dict.keys()):
1640                return
1641            # modify the param value
1642            param_repr = GuiUtils.formatNumber(param_dict[param_name][0], high=True)
1643            self._model_model.item(row, 1).setText(param_repr)
1644            self.kernel_module.setParam(param_name, param_dict[param_name][0])
1645            if self.has_error_column:
1646                error_repr = GuiUtils.formatNumber(param_dict[param_name][1], high=True)
1647                self._model_model.item(row, 2).setText(error_repr)
1648
1649        def updatePolyValues(row):
1650            # Utility function for updateof polydispersity part of the main model
1651            param_name = str(self._model_model.item(row, 0).text())+'.width'
1652            if not self.isCheckable(row) or param_name not in list(param_dict.keys()):
1653                return
1654            # modify the param value
1655            param_repr = GuiUtils.formatNumber(param_dict[param_name][0], high=True)
1656            self._model_model.item(row, 0).child(0).child(0,1).setText(param_repr)
1657            # modify the param error
1658            if self.has_error_column:
1659                error_repr = GuiUtils.formatNumber(param_dict[param_name][1], high=True)
1660                self._model_model.item(row, 0).child(0).child(0,2).setText(error_repr)
1661
1662        def createErrorColumn(row):
1663            # Utility function for error column update
1664            item = QtGui.QStandardItem()
1665            def createItem(param_name):
1666                error_repr = GuiUtils.formatNumber(param_dict[param_name][1], high=True)
1667                item.setText(error_repr)
1668            def curr_param():
1669                return str(self._model_model.item(row, 0).text())
1670
1671            [createItem(param_name) for param_name in list(param_dict.keys()) if curr_param() == param_name]
1672
1673            error_column.append(item)
1674
1675        def createPolyErrorColumn(row):
1676            # Utility function for error column update in the polydispersity sub-rows
1677            # NOTE: only creates empty items; updatePolyValues adds the error value
1678            item = self._model_model.item(row, 0)
1679            if not item.hasChildren():
1680                return
1681            poly_item = item.child(0)
1682            if not poly_item.hasChildren():
1683                return
1684            poly_item.insertColumn(2, [QtGui.QStandardItem("")])
1685
1686        if not self.has_error_column:
1687            # create top-level error column
1688            error_column = []
1689            self.lstParams.itemDelegate().addErrorColumn()
1690            self.iterateOverModel(createErrorColumn)
1691
1692            self._model_model.insertColumn(2, error_column)
1693
1694            FittingUtilities.addErrorHeadersToModel(self._model_model)
1695
1696            # create error column in polydispersity sub-rows
1697            self.iterateOverModel(createPolyErrorColumn)
1698
1699            self.has_error_column = True
1700
1701        # block signals temporarily, so we don't end up
1702        # updating charts with every single model change on the end of fitting
1703        self._model_model.itemChanged.disconnect()
1704        self.iterateOverModel(updateFittedValues)
1705        self.iterateOverModel(updatePolyValues)
1706        self._model_model.itemChanged.connect(self.onMainParamsChange)
1707
1708    def iterateOverPolyModel(self, func):
1709        """
1710        Take func and throw it inside the poly model row loop
1711        """
1712        for row_i in range(self._poly_model.rowCount()):
1713            func(row_i)
1714
1715    def updatePolyModelFromList(self, param_dict):
1716        """
1717        Update the polydispersity model with new parameters, create the errors column
1718        """
1719        assert isinstance(param_dict, dict)
1720        if not dict:
1721            return
1722
1723        def updateFittedValues(row_i):
1724            # Utility function for main model update
1725            # internal so can use closure for param_dict
1726            if row_i >= self._poly_model.rowCount():
1727                return
1728            param_name = str(self._poly_model.item(row_i, 0).text()).rsplit()[-1] + '.width'
1729            if param_name not in list(param_dict.keys()):
1730                return
1731            # modify the param value
1732            param_repr = GuiUtils.formatNumber(param_dict[param_name][0], high=True)
1733            self._poly_model.item(row_i, 1).setText(param_repr)
1734            self.kernel_module.setParam(param_name, param_dict[param_name][0])
1735            if self.has_poly_error_column:
1736                error_repr = GuiUtils.formatNumber(param_dict[param_name][1], high=True)
1737                self._poly_model.item(row_i, 2).setText(error_repr)
1738
1739        def createErrorColumn(row_i):
1740            # Utility function for error column update
1741            if row_i >= self._poly_model.rowCount():
1742                return
1743            item = QtGui.QStandardItem()
1744
1745            def createItem(param_name):
1746                error_repr = GuiUtils.formatNumber(param_dict[param_name][1], high=True)
1747                item.setText(error_repr)
1748
1749            def poly_param():
1750                return str(self._poly_model.item(row_i, 0).text()).rsplit()[-1] + '.width'
1751
1752            [createItem(param_name) for param_name in list(param_dict.keys()) if poly_param() == param_name]
1753
1754            error_column.append(item)
1755
1756        # block signals temporarily, so we don't end up
1757        # updating charts with every single model change on the end of fitting
1758        self._poly_model.itemChanged.disconnect()
1759        self.iterateOverPolyModel(updateFittedValues)
1760        self._poly_model.itemChanged.connect(self.onPolyModelChange)
1761
1762        if self.has_poly_error_column:
1763            return
1764
1765        self.lstPoly.itemDelegate().addErrorColumn()
1766        error_column = []
1767        self.iterateOverPolyModel(createErrorColumn)
1768
1769        # switch off reponse to model change
1770        self._poly_model.insertColumn(2, error_column)
1771        FittingUtilities.addErrorPolyHeadersToModel(self._poly_model)
1772
1773        self.has_poly_error_column = True
1774
1775    def iterateOverMagnetModel(self, func):
1776        """
1777        Take func and throw it inside the magnet model row loop
1778        """
1779        for row_i in range(self._magnet_model.rowCount()):
1780            func(row_i)
1781
1782    def updateMagnetModelFromList(self, param_dict):
1783        """
1784        Update the magnetic model with new parameters, create the errors column
1785        """
1786        assert isinstance(param_dict, dict)
1787        if not dict:
1788            return
1789        if self._magnet_model.rowCount() == 0:
1790            return
1791
1792        def updateFittedValues(row):
1793            # Utility function for main model update
1794            # internal so can use closure for param_dict
1795            if self._magnet_model.item(row, 0) is None:
1796                return
1797            param_name = str(self._magnet_model.item(row, 0).text())
1798            if param_name not in list(param_dict.keys()):
1799                return
1800            # modify the param value
1801            param_repr = GuiUtils.formatNumber(param_dict[param_name][0], high=True)
1802            self._magnet_model.item(row, 1).setText(param_repr)
1803            self.kernel_module.setParam(param_name, param_dict[param_name][0])
1804            if self.has_magnet_error_column:
1805                error_repr = GuiUtils.formatNumber(param_dict[param_name][1], high=True)
1806                self._magnet_model.item(row, 2).setText(error_repr)
1807
1808        def createErrorColumn(row):
1809            # Utility function for error column update
1810            item = QtGui.QStandardItem()
1811            def createItem(param_name):
1812                error_repr = GuiUtils.formatNumber(param_dict[param_name][1], high=True)
1813                item.setText(error_repr)
1814            def curr_param():
1815                return str(self._magnet_model.item(row, 0).text())
1816
1817            [createItem(param_name) for param_name in list(param_dict.keys()) if curr_param() == param_name]
1818
1819            error_column.append(item)
1820
1821        # block signals temporarily, so we don't end up
1822        # updating charts with every single model change on the end of fitting
1823        self._magnet_model.itemChanged.disconnect()
1824        self.iterateOverMagnetModel(updateFittedValues)
1825        self._magnet_model.itemChanged.connect(self.onMagnetModelChange)
1826
1827        if self.has_magnet_error_column:
1828            return
1829
1830        self.lstMagnetic.itemDelegate().addErrorColumn()
1831        error_column = []
1832        self.iterateOverMagnetModel(createErrorColumn)
1833
1834        # switch off reponse to model change
1835        self._magnet_model.insertColumn(2, error_column)
1836        FittingUtilities.addErrorHeadersToModel(self._magnet_model)
1837
1838        self.has_magnet_error_column = True
1839
1840    def onPlot(self):
1841        """
1842        Plot the current set of data
1843        """
1844        # Regardless of previous state, this should now be `plot show` functionality only
1845        self.cmdPlot.setText("Show Plot")
1846        # Force data recalculation so existing charts are updated
1847        if not self.data_is_loaded:
1848            self.showTheoryPlot()
1849        else:
1850            self.showPlot()
1851        # This is an important processEvent.
1852        # This allows charts to be properly updated in order
1853        # of plots being applied.
1854        QtWidgets.QApplication.processEvents()
1855        self.recalculatePlotData() # recalc+plot theory again (2nd)
1856
1857    def onSmearingOptionsUpdate(self):
1858        """
1859        React to changes in the smearing widget
1860        """
1861        self.calculateQGridForModel()
1862
1863    def recalculatePlotData(self):
1864        """
1865        Generate a new dataset for model
1866        """
1867        if not self.data_is_loaded:
1868            self.createDefaultDataset()
1869        self.calculateQGridForModel()
1870
1871    def showTheoryPlot(self):
1872        """
1873        Show the current theory plot in MPL
1874        """
1875        # Show the chart if ready
1876        if self.theory_item is None:
1877            self.recalculatePlotData()
1878        elif self.model_data:
1879            self._requestPlots(self.model_data.filename, self.theory_item.model())
1880
1881    def showPlot(self):
1882        """
1883        Show the current plot in MPL
1884        """
1885        # Show the chart if ready
1886        data_to_show = self.data
1887        # Any models for this page
1888        current_index = self.all_data[self.data_index]
1889        item = self._requestPlots(self.data.filename, current_index.model())
1890        if item:
1891            # fit+data has not been shown - show just data
1892            self.communicate.plotRequestedSignal.emit([item, data_to_show], self.tab_id)
1893
1894    def _requestPlots(self, item_name, item_model):
1895        """
1896        Emits plotRequestedSignal for all plots found in the given model under the provided item name.
1897        """
1898        fitpage_name = "" if self.tab_id is None else "M"+str(self.tab_id)
1899        plots = GuiUtils.plotsFromFilename(item_name, item_model)
1900        # Has the fitted data been shown?
1901        data_shown = False
1902        item = None
1903        for item, plot in plots.items():
1904            if fitpage_name in plot.name:
1905                data_shown = True
1906                self.communicate.plotRequestedSignal.emit([item, plot], self.tab_id)
1907        # return the last data item seen, if nothing was plotted; supposed to be just data)
1908        return None if data_shown else item
1909
1910    def onOptionsUpdate(self):
1911        """
1912        Update local option values and replot
1913        """
1914        self.q_range_min, self.q_range_max, self.npts, self.log_points, self.weighting = \
1915            self.options_widget.state()
1916        # set Q range labels on the main tab
1917        self.lblMinRangeDef.setText(str(self.q_range_min))
1918        self.lblMaxRangeDef.setText(str(self.q_range_max))
1919        self.recalculatePlotData()
1920
1921    def setDefaultStructureCombo(self):
1922        """
1923        Fill in the structure factors combo box with defaults
1924        """
1925        structure_factor_list = self.master_category_dict.pop(CATEGORY_STRUCTURE)
1926        factors = [factor[0] for factor in structure_factor_list]
1927        factors.insert(0, STRUCTURE_DEFAULT)
1928        self.cbStructureFactor.clear()
1929        self.cbStructureFactor.addItems(sorted(factors))
1930
1931    def createDefaultDataset(self):
1932        """
1933        Generate default Dataset 1D/2D for the given model
1934        """
1935        # Create default datasets if no data passed
1936        if self.is2D:
1937            qmax = self.q_range_max/np.sqrt(2)
1938            qstep = self.npts
1939            self.logic.createDefault2dData(qmax, qstep, self.tab_id)
1940            return
1941        elif self.log_points:
1942            qmin = -10.0 if self.q_range_min < 1.e-10 else np.log10(self.q_range_min)
1943            qmax = 10.0 if self.q_range_max > 1.e10 else np.log10(self.q_range_max)
1944            interval = np.logspace(start=qmin, stop=qmax, num=self.npts, endpoint=True, base=10.0)
1945        else:
1946            interval = np.linspace(start=self.q_range_min, stop=self.q_range_max,
1947                                   num=self.npts, endpoint=True)
1948        self.logic.createDefault1dData(interval, self.tab_id)
1949
1950    def readCategoryInfo(self):
1951        """
1952        Reads the categories in from file
1953        """
1954        self.master_category_dict = defaultdict(list)
1955        self.by_model_dict = defaultdict(list)
1956        self.model_enabled_dict = defaultdict(bool)
1957
1958        categorization_file = CategoryInstaller.get_user_file()
1959        if not os.path.isfile(categorization_file):
1960            categorization_file = CategoryInstaller.get_default_file()
1961        with open(categorization_file, 'rb') as cat_file:
1962            self.master_category_dict = json.load(cat_file)
1963            self.regenerateModelDict()
1964
1965        # Load the model dict
1966        models = load_standard_models()
1967        for model in models:
1968            self.models[model.name] = model
1969
1970        self.readCustomCategoryInfo()
1971
1972    def readCustomCategoryInfo(self):
1973        """
1974        Reads the custom model category
1975        """
1976        #Looking for plugins
1977        self.plugins = list(self.custom_models.values())
1978        plugin_list = []
1979        for name, plug in self.custom_models.items():
1980            self.models[name] = plug
1981            plugin_list.append([name, True])
1982        if plugin_list:
1983            self.master_category_dict[CATEGORY_CUSTOM] = plugin_list
1984
1985    def regenerateModelDict(self):
1986        """
1987        Regenerates self.by_model_dict which has each model name as the
1988        key and the list of categories belonging to that model
1989        along with the enabled mapping
1990        """
1991        self.by_model_dict = defaultdict(list)
1992        for category in self.master_category_dict:
1993            for (model, enabled) in self.master_category_dict[category]:
1994                self.by_model_dict[model].append(category)
1995                self.model_enabled_dict[model] = enabled
1996
1997    def addBackgroundToModel(self, model):
1998        """
1999        Adds background parameter with default values to the model
2000        """
2001        assert isinstance(model, QtGui.QStandardItemModel)
2002        checked_list = ['background', '0.001', '-inf', 'inf', '1/cm']
2003        FittingUtilities.addCheckedListToModel(model, checked_list)
2004        last_row = model.rowCount()-1
2005        model.item(last_row, 0).setEditable(False)
2006        model.item(last_row, 4).setEditable(False)
2007
2008    def addScaleToModel(self, model):
2009        """
2010        Adds scale parameter with default values to the model
2011        """
2012        assert isinstance(model, QtGui.QStandardItemModel)
2013        checked_list = ['scale', '1.0', '0.0', 'inf', '']
2014        FittingUtilities.addCheckedListToModel(model, checked_list)
2015        last_row = model.rowCount()-1
2016        model.item(last_row, 0).setEditable(False)
2017        model.item(last_row, 4).setEditable(False)
2018
2019    def addWeightingToData(self, data):
2020        """
2021        Adds weighting contribution to fitting data
2022        """
2023        new_data = copy.deepcopy(data)
2024        # Send original data for weighting
2025        weight = FittingUtilities.getWeight(data=data, is2d=self.is2D, flag=self.weighting)
2026        if self.is2D:
2027            new_data.err_data = weight
2028        else:
2029            new_data.dy = weight
2030
2031        return new_data
2032
2033    def updateQRange(self):
2034        """
2035        Updates Q Range display
2036        """
2037        if self.data_is_loaded:
2038            self.q_range_min, self.q_range_max, self.npts = self.logic.computeDataRange()
2039        # set Q range labels on the main tab
2040        self.lblMinRangeDef.setText(str(self.q_range_min))
2041        self.lblMaxRangeDef.setText(str(self.q_range_max))
2042        # set Q range labels on the options tab
2043        self.options_widget.updateQRange(self.q_range_min, self.q_range_max, self.npts)
2044
2045    def SASModelToQModel(self, model_name, structure_factor=None):
2046        """
2047        Setting model parameters into table based on selected category
2048        """
2049        # Crete/overwrite model items
2050        self._model_model.clear()
2051        self._poly_model.clear()
2052        self._magnet_model.clear()
2053
2054        if model_name is None:
2055            if structure_factor not in (None, "None"):
2056                # S(Q) on its own, treat the same as a form factor
2057                self.kernel_module = None
2058                self.fromStructureFactorToQModel(structure_factor)
2059            else:
2060                # No models selected
2061                return
2062        else:
2063            self.fromModelToQModel(model_name)
2064            self.addExtraShells()
2065
2066            # Allow the SF combobox visibility for the given sasmodel
2067            self.enableStructureFactorControl(structure_factor)
2068       
2069            # Add S(Q)
2070            if self.cbStructureFactor.isEnabled():
2071                structure_factor = self.cbStructureFactor.currentText()
2072                self.fromStructureFactorToQModel(structure_factor)
2073
2074            # Add polydispersity to the model
2075            self.poly_params = {}
2076            self.setPolyModel()
2077            # Add magnetic parameters to the model
2078            self.magnet_params = {}
2079            self.setMagneticModel()
2080
2081        # Now we claim the model has been loaded
2082        self.model_is_loaded = True
2083        # Change the model name to a monicker
2084        self.kernel_module.name = self.modelName()
2085        # Update the smearing tab
2086        self.smearing_widget.updateKernelModel(kernel_model=self.kernel_module)
2087
2088        # (Re)-create headers
2089        FittingUtilities.addHeadersToModel(self._model_model)
2090        self.lstParams.header().setFont(self.boldFont)
2091
2092        # Update Q Ranges
2093        self.updateQRange()
2094
2095    def fromModelToQModel(self, model_name):
2096        """
2097        Setting model parameters into QStandardItemModel based on selected _model_
2098        """
2099        name = model_name
2100        kernel_module = None
2101        if self.cbCategory.currentText() == CATEGORY_CUSTOM:
2102            # custom kernel load requires full path
2103            name = os.path.join(ModelUtilities.find_plugins_dir(), model_name+".py")
2104        try:
2105            kernel_module = generate.load_kernel_module(name)
2106        except ModuleNotFoundError as ex:
2107            pass
2108
2109        if kernel_module is None:
2110            # mismatch between "name" attribute and actual filename.
2111            curr_model = self.models[model_name]
2112            name, _ = os.path.splitext(os.path.basename(curr_model.filename))
2113            try:
2114                kernel_module = generate.load_kernel_module(name)
2115            except ModuleNotFoundError as ex:
2116                logger.error("Can't find the model "+ str(ex))
2117                return
2118
2119        if hasattr(kernel_module, 'parameters'):
2120            # built-in and custom models
2121            self.model_parameters = modelinfo.make_parameter_table(getattr(kernel_module, 'parameters', []))
2122
2123        elif hasattr(kernel_module, 'model_info'):
2124            # for sum/multiply models
2125            self.model_parameters = kernel_module.model_info.parameters
2126
2127        elif hasattr(kernel_module, 'Model') and hasattr(kernel_module.Model, "_model_info"):
2128            # this probably won't work if there's no model_info, but just in case
2129            self.model_parameters = kernel_module.Model._model_info.parameters
2130        else:
2131            # no parameters - default to blank table
2132            msg = "No parameters found in model '{}'.".format(model_name)
2133            logger.warning(msg)
2134            self.model_parameters = modelinfo.ParameterTable([])
2135
2136        # Instantiate the current sasmodel
2137        self.kernel_module = self.models[model_name]()
2138
2139        # Change the model name to a monicker
2140        self.kernel_module.name = self.modelName()
2141
2142        # Explicitly add scale and background with default values
2143        temp_undo_state = self.undo_supported
2144        self.undo_supported = False
2145        self.addScaleToModel(self._model_model)
2146        self.addBackgroundToModel(self._model_model)
2147        self.undo_supported = temp_undo_state
2148
2149        self.shell_names = self.shellNamesList()
2150
2151        # Add heading row
2152        FittingUtilities.addHeadingRowToModel(self._model_model, model_name)
2153
2154        # Update the QModel
2155        FittingUtilities.addParametersToModel(
2156                self.model_parameters,
2157                self.kernel_module,
2158                self.is2D,
2159                self._model_model,
2160                self.lstParams)
2161
2162    def fromStructureFactorToQModel(self, structure_factor):
2163        """
2164        Setting model parameters into QStandardItemModel based on selected _structure factor_
2165        """
2166        if structure_factor is None or structure_factor=="None":
2167            return
2168
2169        product_params = None
2170
2171        if self.kernel_module is None:
2172            # Structure factor is the only selected model; build it and show all its params
2173            self.kernel_module = self.models[structure_factor]()
2174            self.kernel_module.name = self.modelName()
2175            s_params = self.kernel_module._model_info.parameters
2176            s_params_orig = s_params
2177        else:
2178            s_kernel = self.models[structure_factor]()
2179            p_kernel = self.kernel_module
2180
2181            p_pars_len = len(p_kernel._model_info.parameters.kernel_parameters)
2182            s_pars_len = len(s_kernel._model_info.parameters.kernel_parameters)
2183
2184            self.kernel_module = MultiplicationModel(p_kernel, s_kernel)
2185            # Modify the name to correspond to shown items
2186            self.kernel_module.name = self.modelName()
2187            all_params = self.kernel_module._model_info.parameters.kernel_parameters
2188            all_param_names = [param.name for param in all_params]
2189
2190            # S(Q) params from the product model are not necessarily the same as those from the S(Q) model; any
2191            # conflicting names with P(Q) params will cause a rename
2192
2193            if "radius_effective_mode" in all_param_names:
2194                # Show all parameters
2195                # In this case, radius_effective is NOT pruned by sasmodels.product
2196                s_params = modelinfo.ParameterTable(all_params[p_pars_len:p_pars_len+s_pars_len])
2197                s_params_orig = modelinfo.ParameterTable(s_kernel._model_info.parameters.kernel_parameters)
2198                product_params = modelinfo.ParameterTable(
2199                        self.kernel_module._model_info.parameters.kernel_parameters[p_pars_len+s_pars_len:])
2200            else:
2201                # Ensure radius_effective is not displayed
2202                s_params_orig = modelinfo.ParameterTable(s_kernel._model_info.parameters.kernel_parameters[1:])
2203                if "radius_effective" in all_param_names:
2204                    # In this case, radius_effective is NOT pruned by sasmodels.product
2205                    s_params = modelinfo.ParameterTable(all_params[p_pars_len+1:p_pars_len+s_pars_len])
2206                    product_params = modelinfo.ParameterTable(
2207                            self.kernel_module._model_info.parameters.kernel_parameters[p_pars_len+s_pars_len:])
2208                else:
2209                    # In this case, radius_effective is pruned by sasmodels.product
2210                    s_params = modelinfo.ParameterTable(all_params[p_pars_len:p_pars_len+s_pars_len-1])
2211                    product_params = modelinfo.ParameterTable(
2212                            self.kernel_module._model_info.parameters.kernel_parameters[p_pars_len+s_pars_len-1:])
2213
2214        # Add heading row
2215        FittingUtilities.addHeadingRowToModel(self._model_model, structure_factor)
2216
2217        # Get new rows for QModel
2218        # Any renamed parameters are stored as data in the relevant item, for later handling
2219        FittingUtilities.addSimpleParametersToModel(
2220                parameters=s_params,
2221                is2D=self.is2D,
2222                parameters_original=s_params_orig,
2223                model=self._model_model,
2224                view=self.lstParams)
2225
2226        # Insert product-only params into QModel
2227        if product_params:
2228            prod_rows = FittingUtilities.addSimpleParametersToModel(
2229                    parameters=product_params,
2230                    is2D=self.is2D,
2231                    parameters_original=None,
2232                    model=self._model_model,
2233                    view=self.lstParams,
2234                    row_num=2)
2235
2236            # Since this all happens after shells are dealt with and we've inserted rows, fix this counter
2237            self._n_shells_row += len(prod_rows)
2238
2239    def haveParamsToFit(self):
2240        """
2241        Finds out if there are any parameters ready to be fitted
2242        """
2243        return (self.main_params_to_fit!=[]
2244                or self.poly_params_to_fit!=[]
2245                or self.magnet_params_to_fit != []) and \
2246                self.logic.data_is_loaded
2247
2248    def onMainParamsChange(self, item):
2249        """
2250        Callback method for updating the sasmodel parameters with the GUI values
2251        """
2252        model_column = item.column()
2253
2254        if model_column == 0:
2255            self.checkboxSelected(item)
2256            self.cmdFit.setEnabled(self.haveParamsToFit())
2257            # Update state stack
2258            self.updateUndo()
2259            return
2260
2261        model_row = item.row()
2262        name_index = self._model_model.index(model_row, 0)
2263        name_item = self._model_model.itemFromIndex(name_index)
2264
2265        # Extract changed value.
2266        try:
2267            value = GuiUtils.toDouble(item.text())
2268        except TypeError:
2269            # Unparsable field
2270            return
2271
2272        # if the item has user data, this is the actual parameter name (e.g. to handle duplicate names)
2273        if name_item.data(QtCore.Qt.UserRole):
2274            parameter_name = str(name_item.data(QtCore.Qt.UserRole))
2275        else:
2276            parameter_name = str(self._model_model.data(name_index))
2277
2278        # Update the parameter value - note: this supports +/-inf as well
2279        self.kernel_module.params[parameter_name] = value
2280
2281        # Update the parameter value - note: this supports +/-inf as well
2282        param_column = self.lstParams.itemDelegate().param_value
2283        min_column = self.lstParams.itemDelegate().param_min
2284        max_column = self.lstParams.itemDelegate().param_max
2285        if model_column == param_column:
2286            self.kernel_module.setParam(parameter_name, value)
2287        elif model_column == min_column:
2288            # min/max to be changed in self.kernel_module.details[parameter_name] = ['Ang', 0.0, inf]
2289            self.kernel_module.details[parameter_name][1] = value
2290        elif model_column == max_column:
2291            self.kernel_module.details[parameter_name][2] = value
2292        else:
2293            # don't update the chart
2294            return
2295
2296        # TODO: magnetic params in self.kernel_module.details['M0:parameter_name'] = value
2297        # TODO: multishell params in self.kernel_module.details[??] = value
2298
2299        # Force the chart update when actual parameters changed
2300        if model_column == 1:
2301            self.recalculatePlotData()
2302
2303        # Update state stack
2304        self.updateUndo()
2305
2306    def isCheckable(self, row):
2307        return self._model_model.item(row, 0).isCheckable()
2308
2309    def checkboxSelected(self, item):
2310        # Assure we're dealing with checkboxes
2311        if not item.isCheckable():
2312            return
2313        status = item.checkState()
2314
2315        # If multiple rows selected - toggle all of them, filtering uncheckable
2316        # Switch off signaling from the model to avoid recursion
2317        self._model_model.blockSignals(True)
2318        # Convert to proper indices and set requested enablement
2319        self.setParameterSelection(status)
2320        self._model_model.blockSignals(False)
2321
2322        # update the list of parameters to fit
2323        self.main_params_to_fit = self.checkedListFromModel(self._model_model)
2324
2325    def checkedListFromModel(self, model):
2326        """
2327        Returns list of checked parameters for given model
2328        """
2329        def isChecked(row):
2330            return model.item(row, 0).checkState() == QtCore.Qt.Checked
2331
2332        return [str(model.item(row_index, 0).text())
2333                for row_index in range(model.rowCount())
2334                if isChecked(row_index)]
2335
2336    def createNewIndex(self, fitted_data):
2337        """
2338        Create a model or theory index with passed Data1D/Data2D
2339        """
2340        if self.data_is_loaded:
2341            if not fitted_data.name:
2342                name = self.nameForFittedData(self.data.filename)
2343                fitted_data.title = name
2344                fitted_data.name = name
2345                fitted_data.filename = name
2346                fitted_data.symbol = "Line"
2347            self.updateModelIndex(fitted_data)
2348        else:
2349            if not fitted_data.name:
2350                name = self.nameForFittedData(self.kernel_module.id)
2351            else:
2352                name = fitted_data.name
2353            fitted_data.title = name
2354            fitted_data.filename = name
2355            fitted_data.symbol = "Line"
2356            self.createTheoryIndex(fitted_data)
2357            # Switch to the theory tab for user's glee
2358            self.communicate.changeDataExplorerTabSignal.emit(1)
2359
2360    def updateModelIndex(self, fitted_data):
2361        """
2362        Update a QStandardModelIndex containing model data
2363        """
2364        name = self.nameFromData(fitted_data)
2365        # Make this a line if no other defined
2366        if hasattr(fitted_data, 'symbol') and fitted_data.symbol is None:
2367            fitted_data.symbol = 'Line'
2368        # Notify the GUI manager so it can update the main model in DataExplorer
2369        GuiUtils.updateModelItemWithPlot(self.all_data[self.data_index], fitted_data, name)
2370
2371    def createTheoryIndex(self, fitted_data):
2372        """
2373        Create a QStandardModelIndex containing model data
2374        """
2375        name = self.nameFromData(fitted_data)
2376        # Notify the GUI manager so it can create the theory model in DataExplorer
2377        self.theory_item = GuiUtils.createModelItemWithPlot(fitted_data, name=name)
2378        self.communicate.updateTheoryFromPerspectiveSignal.emit(self.theory_item)
2379
2380    def nameFromData(self, fitted_data):
2381        """
2382        Return name for the dataset. Terribly impure function.
2383        """
2384        if fitted_data.name is None:
2385            name = self.nameForFittedData(self.logic.data.filename)
2386            fitted_data.title = name
2387            fitted_data.name = name
2388            fitted_data.filename = name
2389        else:
2390            name = fitted_data.name
2391        return name
2392
2393    def methodCalculateForData(self):
2394        '''return the method for data calculation'''
2395        return Calc1D if isinstance(self.data, Data1D) else Calc2D
2396
2397    def methodCompleteForData(self):
2398        '''return the method for result parsin on calc complete '''
2399        return self.completed1D if isinstance(self.data, Data1D) else self.completed2D
2400
2401    def updateKernelModelWithExtraParams(self, model=None):
2402        """
2403        Updates kernel model 'model' with extra parameters from
2404        the polydisp and magnetism tab, if the tabs are enabled
2405        """
2406        if model is None: return
2407        if not hasattr(model, 'setParam'): return
2408
2409        # add polydisperse parameters if asked
2410        if self.chkPolydispersity.isChecked() and self._poly_model.rowCount() > 0:
2411            for key, value in self.poly_params.items():
2412                model.setParam(key, value)
2413        # add magnetic params if asked
2414        if self.chkMagnetism.isChecked():
2415            for key, value in self.magnet_params.items() and self._magnet_model.rowCount() > 0:
2416                model.setParam(key, value)
2417
2418    def calculateQGridForModelExt(self, data=None, model=None, completefn=None, use_threads=True):
2419        """
2420        Wrapper for Calc1D/2D calls
2421        """
2422        if data is None:
2423            data = self.data
2424        if model is None:
2425            model = copy.deepcopy(self.kernel_module)
2426            self.updateKernelModelWithExtraParams(model)
2427
2428        if completefn is None:
2429            completefn = self.methodCompleteForData()
2430        smearer = self.smearing_widget.smearer()
2431        weight = FittingUtilities.getWeight(data=data, is2d=self.is2D, flag=self.weighting)
2432
2433        # Disable buttons/table
2434        self.disableInteractiveElements()
2435        # Awful API to a backend method.
2436        calc_thread = self.methodCalculateForData()(data=data,
2437                                               model=model,
2438                                               page_id=0,
2439                                               qmin=self.q_range_min,
2440                                               qmax=self.q_range_max,
2441                                               smearer=smearer,
2442                                               state=None,
2443                                               weight=weight,
2444                                               fid=None,
2445                                               toggle_mode_on=False,
2446                                               completefn=completefn,
2447                                               update_chisqr=True,
2448                                               exception_handler=self.calcException,
2449                                               source=None)
2450        if use_threads:
2451            if LocalConfig.USING_TWISTED:
2452                # start the thread with twisted
2453                thread = threads.deferToThread(calc_thread.compute)
2454                thread.addCallback(completefn)
2455                thread.addErrback(self.calculateDataFailed)
2456            else:
2457                # Use the old python threads + Queue
2458                calc_thread.queue()
2459                calc_thread.ready(2.5)
2460        else:
2461            results = calc_thread.compute()
2462            completefn(results)
2463
2464    def calculateQGridForModel(self):
2465        """
2466        Prepare the fitting data object, based on current ModelModel
2467        """
2468        if self.kernel_module is None:
2469            return
2470        self.calculateQGridForModelExt()
2471
2472    def calculateDataFailed(self, reason):
2473        """
2474        Thread returned error
2475        """
2476        # Bring the GUI to normal state
2477        self.enableInteractiveElements()
2478        print("Calculate Data failed with ", reason)
2479
2480    def completed1D(self, return_data):
2481        self.Calc1DFinishedSignal.emit(return_data)
2482
2483    def completed2D(self, return_data):
2484        self.Calc2DFinishedSignal.emit(return_data)
2485
2486    def complete1D(self, return_data):
2487        """
2488        Plot the current 1D data
2489        """
2490        # Bring the GUI to normal state
2491        self.enableInteractiveElements()
2492        if return_data is None:
2493            self.calculateDataFailed("Results not available.")
2494            return
2495        fitted_data = self.logic.new1DPlot(return_data, self.tab_id)
2496
2497        # assure the current index is set properly for batch
2498        if len(self._logic) > 1:
2499            for i, logic in enumerate(self._logic):
2500                if logic.data.name in fitted_data.name:
2501                    self.data_index = i
2502
2503        residuals = self.calculateResiduals(fitted_data)
2504        self.model_data = fitted_data
2505        new_plots = [fitted_data]
2506        if residuals is not None:
2507            new_plots.append(residuals)
2508
2509        if self.data_is_loaded:
2510            # delete any plots associated with the data that were not updated
2511            # (e.g. to remove beta(Q), S_eff(Q))
2512            GuiUtils.deleteRedundantPlots(self.all_data[self.data_index], new_plots)
2513            pass
2514        else:
2515            # delete theory items for the model, in order to get rid of any
2516            # redundant items, e.g. beta(Q), S_eff(Q)
2517            self.communicate.deleteIntermediateTheoryPlotsSignal.emit(self.kernel_module.id)
2518
2519        # Create plots for parameters with enabled polydispersity
2520        for plot in FittingUtilities.plotPolydispersities(return_data.get('model', None)):
2521            data_id = fitted_data.id.split()
2522            plot.id = "{} [{}] {}".format(data_id[0], plot.name, " ".join(data_id[1:]))
2523            data_name = fitted_data.name.split()
2524            plot.name = " ".join([data_name[0], plot.name] + data_name[1:])
2525            self.createNewIndex(plot)
2526            new_plots.append(plot)
2527
2528        # Create plots for intermediate product data
2529        plots = self.logic.new1DProductPlots(return_data, self.tab_id)
2530        for plot in plots:
2531            plot.symbol = "Line"
2532            self.createNewIndex(plot)
2533            new_plots.append(plot)
2534
2535        for plot in new_plots:
2536            self.communicate.plotUpdateSignal.emit([plot])
2537
2538    def complete2D(self, return_data):
2539        """
2540        Plot the current 2D data
2541        """
2542        # Bring the GUI to normal state
2543        self.enableInteractiveElements()
2544
2545        fitted_data = self.logic.new2DPlot(return_data)
2546        residuals = self.calculateResiduals(fitted_data)
2547        self.model_data = fitted_data
2548        new_plots = [fitted_data]
2549        if residuals is not None:
2550            new_plots.append(residuals)
2551
2552        # Update/generate plots
2553        for plot in new_plots:
2554            self.communicate.plotUpdateSignal.emit([plot])
2555
2556    def calculateResiduals(self, fitted_data):
2557        """
2558        Calculate and print Chi2 and display chart of residuals. Returns residuals plot object.
2559        """
2560        # Create a new index for holding data
2561        fitted_data.symbol = "Line"
2562
2563        # Modify fitted_data with weighting
2564        weighted_data = self.addWeightingToData(fitted_data)
2565
2566        self.createNewIndex(weighted_data)
2567
2568        # Calculate difference between return_data and logic.data
2569        self.chi2 = FittingUtilities.calculateChi2(weighted_data, self.data)
2570        # Update the control
2571        chi2_repr = "---" if self.chi2 is None else GuiUtils.formatNumber(self.chi2, high=True)
2572        self.lblChi2Value.setText(chi2_repr)
2573
2574        # Plot residuals if actual data
2575        if not self.data_is_loaded:
2576            return
2577
2578        residuals_plot = FittingUtilities.plotResiduals(self.data, weighted_data)
2579        if residuals_plot is None:
2580            return
2581        residuals_plot.id = "Residual " + residuals_plot.id
2582        residuals_plot.plot_role = Data1D.ROLE_RESIDUAL
2583        self.createNewIndex(residuals_plot)
2584        return residuals_plot
2585
2586    def onCategoriesChanged(self):
2587            """
2588            Reload the category/model comboboxes
2589            """
2590            # Store the current combo indices
2591            current_cat = self.cbCategory.currentText()
2592            current_model = self.cbModel.currentText()
2593
2594            # reread the category file and repopulate the combo
2595            self.cbCategory.blockSignals(True)
2596            self.cbCategory.clear()
2597            self.readCategoryInfo()
2598            self.initializeCategoryCombo()
2599
2600            # Scroll back to the original index in Categories
2601            new_index = self.cbCategory.findText(current_cat)
2602            if new_index != -1:
2603                self.cbCategory.setCurrentIndex(new_index)
2604            self.cbCategory.blockSignals(False)
2605            # ...and in the Models
2606            self.cbModel.blockSignals(True)
2607            new_index = self.cbModel.findText(current_model)
2608            if new_index != -1:
2609                self.cbModel.setCurrentIndex(new_index)
2610            self.cbModel.blockSignals(False)
2611
2612            return
2613
2614    def calcException(self, etype, value, tb):
2615        """
2616        Thread threw an exception.
2617        """
2618        # Bring the GUI to normal state
2619        self.enableInteractiveElements()
2620        # TODO: remimplement thread cancellation
2621        logger.error("".join(traceback.format_exception(etype, value, tb)))
2622
2623    def setTableProperties(self, table):
2624        """
2625        Setting table properties
2626        """
2627        # Table properties
2628        table.verticalHeader().setVisible(False)
2629        table.setAlternatingRowColors(True)
2630        table.setSizePolicy(QtWidgets.QSizePolicy.MinimumExpanding, QtWidgets.QSizePolicy.Expanding)
2631        table.setSelectionBehavior(QtWidgets.QAbstractItemView.SelectRows)
2632        table.resizeColumnsToContents()
2633
2634        # Header
2635        header = table.horizontalHeader()
2636        header.setSectionResizeMode(QtWidgets.QHeaderView.ResizeToContents)
2637        header.ResizeMode(QtWidgets.QHeaderView.Interactive)
2638
2639        # Qt5: the following 2 lines crash - figure out why!
2640        # Resize column 0 and 7 to content
2641        #header.setSectionResizeMode(0, QtWidgets.QHeaderView.ResizeToContents)
2642        #header.setSectionResizeMode(7, QtWidgets.QHeaderView.ResizeToContents)
2643
2644    def setPolyModel(self):
2645        """
2646        Set polydispersity values
2647        """
2648        if not self.model_parameters:
2649            return
2650        self._poly_model.clear()
2651
2652        parameters = self.model_parameters.form_volume_parameters
2653        if self.is2D:
2654            parameters += self.model_parameters.orientation_parameters
2655
2656        [self.setPolyModelParameters(i, param) for i, param in \
2657            enumerate(parameters) if param.polydisperse]
2658
2659        FittingUtilities.addPolyHeadersToModel(self._poly_model)
2660
2661    def setPolyModelParameters(self, i, param):
2662        """
2663        Standard of multishell poly parameter driver
2664        """
2665        param_name = param.name
2666        # see it the parameter is multishell
2667        if '[' in param.name:
2668            # Skip empty shells
2669            if self.current_shell_displayed == 0:
2670                return
2671            else:
2672                # Create as many entries as current shells
2673                for ishell in range(1, self.current_shell_displayed+1):
2674                    # Remove [n] and add the shell numeral
2675                    name = param_name[0:param_name.index('[')] + str(ishell)
2676                    self.addNameToPolyModel(i, name)
2677        else:
2678            # Just create a simple param entry
2679            self.addNameToPolyModel(i, param_name)
2680
2681    def addNameToPolyModel(self, i, param_name):
2682        """
2683        Creates a checked row in the poly model with param_name
2684        """
2685        # Polydisp. values from the sasmodel
2686        width = self.kernel_module.getParam(param_name + '.width')
2687        npts = self.kernel_module.getParam(param_name + '.npts')
2688        nsigs = self.kernel_module.getParam(param_name + '.nsigmas')
2689        _, min, max = self.kernel_module.details[param_name]
2690
2691        # Update local param dict
2692        self.poly_params[param_name + '.width'] = width
2693        self.poly_params[param_name + '.npts'] = npts
2694        self.poly_params[param_name + '.nsigmas'] = nsigs
2695
2696        # Construct a row with polydisp. related variable.
2697        # This will get added to the polydisp. model
2698        # Note: last argument needs extra space padding for decent display of the control
2699        checked_list = ["Distribution of " + param_name, str(width),
2700                        str(min), str(max),
2701                        str(npts), str(nsigs), "gaussian      ",'']
2702        FittingUtilities.addCheckedListToModel(self._poly_model, checked_list)
2703
2704        # All possible polydisp. functions as strings in combobox
2705        func = QtWidgets.QComboBox()
2706        func.addItems([str(name_disp) for name_disp in POLYDISPERSITY_MODELS.keys()])
2707        # Set the default index
2708        func.setCurrentIndex(func.findText(DEFAULT_POLYDISP_FUNCTION))
2709        ind = self._poly_model.index(i,self.lstPoly.itemDelegate().poly_function)
2710        self.lstPoly.setIndexWidget(ind, func)
2711        func.currentIndexChanged.connect(lambda: self.onPolyComboIndexChange(str(func.currentText()), i))
2712
2713    def onPolyFilenameChange(self, row_index):
2714        """
2715        Respond to filename_updated signal from the delegate
2716        """
2717        # For the given row, invoke the "array" combo handler
2718        array_caption = 'array'
2719
2720        # Get the combo box reference
2721        ind = self._poly_model.index(row_index, self.lstPoly.itemDelegate().poly_function)
2722        widget = self.lstPoly.indexWidget(ind)
2723
2724        # Update the combo box so it displays "array"
2725        widget.blockSignals(True)
2726        widget.setCurrentIndex(self.lstPoly.itemDelegate().POLYDISPERSE_FUNCTIONS.index(array_caption))
2727        widget.blockSignals(False)
2728
2729        # Invoke the file reader
2730        self.onPolyComboIndexChange(array_caption, row_index)
2731
2732    def onPolyComboIndexChange(self, combo_string, row_index):
2733        """
2734        Modify polydisp. defaults on function choice
2735        """
2736        # Get npts/nsigs for current selection
2737        param = self.model_parameters.form_volume_parameters[row_index]
2738        file_index = self._poly_model.index(row_index, self.lstPoly.itemDelegate().poly_function)
2739        combo_box = self.lstPoly.indexWidget(file_index)
2740
2741        def updateFunctionCaption(row):
2742            # Utility function for update of polydispersity function name in the main model
2743            if not self.isCheckable(row):
2744                return
2745            self._model_model.blockSignals(True)
2746            param_name = str(self._model_model.item(row, 0).text())
2747            self._model_model.blockSignals(False)
2748            if param_name !=  param.name:
2749                return
2750            # Modify the param value
2751            self._model_model.blockSignals(True)
2752            if self.has_error_column:
2753                # err column changes the indexing
2754                self._model_model.item(row, 0).child(0).child(0,5).setText(combo_string)
2755            else:
2756                self._model_model.item(row, 0).child(0).child(0,4).setText(combo_string)
2757            self._model_model.blockSignals(False)
2758
2759        if combo_string == 'array':
2760            try:
2761                self.loadPolydispArray(row_index)
2762                # Update main model for display
2763                self.iterateOverModel(updateFunctionCaption)
2764                # disable the row
2765                lo = self.lstPoly.itemDelegate().poly_pd
2766                hi = self.lstPoly.itemDelegate().poly_function
2767                [self._poly_model.item(row_index, i).setEnabled(False) for i in range(lo, hi)]
2768                return
2769            except IOError:
2770                combo_box.setCurrentIndex(self.orig_poly_index)
2771                # Pass for cancel/bad read
2772                pass
2773
2774        # Enable the row in case it was disabled by Array
2775        self._poly_model.blockSignals(True)
2776        max_range = self.lstPoly.itemDelegate().poly_filename
2777        [self._poly_model.item(row_index, i).setEnabled(True) for i in range(7)]
2778        file_index = self._poly_model.index(row_index, self.lstPoly.itemDelegate().poly_filename)
2779        self._poly_model.setData(file_index, "")
2780        self._poly_model.blockSignals(False)
2781
2782        npts_index = self._poly_model.index(row_index, self.lstPoly.itemDelegate().poly_npts)
2783        nsigs_index = self._poly_model.index(row_index, self.lstPoly.itemDelegate().poly_nsigs)
2784
2785        npts = POLYDISPERSITY_MODELS[str(combo_string)].default['npts']
2786        nsigs = POLYDISPERSITY_MODELS[str(combo_string)].default['nsigmas']
2787
2788        self._poly_model.setData(npts_index, npts)
2789        self._poly_model.setData(nsigs_index, nsigs)
2790
2791        self.iterateOverModel(updateFunctionCaption)
2792        self.orig_poly_index = combo_box.currentIndex()
2793
2794    def loadPolydispArray(self, row_index):
2795        """
2796        Show the load file dialog and loads requested data into state
2797        """
2798        datafile = QtWidgets.QFileDialog.getOpenFileName(
2799            self, "Choose a weight file", "", "All files (*.*)", None,
2800            QtWidgets.QFileDialog.DontUseNativeDialog)[0]
2801
2802        if not datafile:
2803            logger.info("No weight data chosen.")
2804            raise IOError
2805
2806        values = []
2807        weights = []
2808        def appendData(data_tuple):
2809            """
2810            Fish out floats from a tuple of strings
2811            """
2812            try:
2813                values.append(float(data_tuple[0]))
2814                weights.append(float(data_tuple[1]))
2815            except (ValueError, IndexError):
2816                # just pass through if line with bad data
2817                return
2818
2819        with open(datafile, 'r') as column_file:
2820            column_data = [line.rstrip().split() for line in column_file.readlines()]
2821            [appendData(line) for line in column_data]
2822
2823        # If everything went well - update the sasmodel values
2824        self.disp_model = POLYDISPERSITY_MODELS['array']()
2825        self.disp_model.set_weights(np.array(values), np.array(weights))
2826        # + update the cell with filename
2827        fname = os.path.basename(str(datafile))
2828        fname_index = self._poly_model.index(row_index, self.lstPoly.itemDelegate().poly_filename)
2829        self._poly_model.setData(fname_index, fname)
2830
2831    def onColumnWidthUpdate(self, index, old_size, new_size):
2832        """
2833        Simple state update of the current column widths in the  param list
2834        """
2835        self.lstParamHeaderSizes[index] = new_size
2836
2837    def setMagneticModel(self):
2838        """
2839        Set magnetism values on model
2840        """
2841        if not self.model_parameters:
2842            return
2843        self._magnet_model.clear()
2844        [self.addCheckedMagneticListToModel(param, self._magnet_model) for param in \
2845            self.model_parameters.call_parameters if param.type == 'magnetic']
2846        FittingUtilities.addHeadersToModel(self._magnet_model)
2847
2848    def shellNamesList(self):
2849        """
2850        Returns list of names of all multi-shell parameters
2851        E.g. for sld[n], radius[n], n=1..3 it will return
2852        [sld1, sld2, sld3, radius1, radius2, radius3]
2853        """
2854        multi_names = [p.name[:p.name.index('[')] for p in self.model_parameters.iq_parameters if '[' in p.name]
2855        top_index = self.kernel_module.multiplicity_info.number
2856        shell_names = []
2857        for i in range(1, top_index+1):
2858            for name in multi_names:
2859                shell_names.append(name+str(i))
2860        return shell_names
2861
2862    def addCheckedMagneticListToModel(self, param, model):
2863        """
2864        Wrapper for model update with a subset of magnetic parameters
2865        """
2866        if param.name[param.name.index(':')+1:] in self.shell_names:
2867            # check if two-digit shell number
2868            try:
2869                shell_index = int(param.name[-2:])
2870            except ValueError:
2871                shell_index = int(param.name[-1:])
2872
2873            if shell_index > self.current_shell_displayed:
2874                return
2875
2876        checked_list = [param.name,
2877                        str(param.default),
2878                        str(param.limits[0]),
2879                        str(param.limits[1]),
2880                        param.units]
2881
2882        self.magnet_params[param.name] = param.default
2883
2884        FittingUtilities.addCheckedListToModel(model, checked_list)
2885
2886    def enableStructureFactorControl(self, structure_factor):
2887        """
2888        Add structure factors to the list of parameters
2889        """
2890        if self.kernel_module.is_form_factor or structure_factor == 'None':
2891            self.enableStructureCombo()
2892        else:
2893            self.disableStructureCombo()
2894
2895    def addExtraShells(self):
2896        """
2897        Add a combobox for multiple shell display
2898        """
2899        param_name, param_length = FittingUtilities.getMultiplicity(self.model_parameters)
2900
2901        if param_length == 0:
2902            return
2903
2904        # cell 1: variable name
2905        item1 = QtGui.QStandardItem(param_name)
2906
2907        func = QtWidgets.QComboBox()
2908
2909        # cell 2: combobox
2910        item2 = QtGui.QStandardItem()
2911
2912        # cell 3: min value
2913        item3 = QtGui.QStandardItem()
2914
2915        # cell 4: max value
2916        item4 = QtGui.QStandardItem()
2917
2918        # cell 4: SLD button
2919        item5 = QtGui.QStandardItem()
2920        button = QtWidgets.QPushButton()
2921        button.setText("Show SLD Profile")
2922
2923        self._model_model.appendRow([item1, item2, item3, item4, item5])
2924
2925        # Beautify the row:  span columns 2-4
2926        shell_row = self._model_model.rowCount()
2927        shell_index = self._model_model.index(shell_row-1, 1)
2928        button_index = self._model_model.index(shell_row-1, 4)
2929
2930        self.lstParams.setIndexWidget(shell_index, func)
2931        self.lstParams.setIndexWidget(button_index, button)
2932        self._n_shells_row = shell_row - 1
2933
2934        # Get the default number of shells for the model
2935        kernel_pars = self.kernel_module._model_info.parameters.kernel_parameters
2936        shell_par = None
2937        for par in kernel_pars:
2938            if par.name == param_name:
2939                shell_par = par
2940                break
2941        if not shell_par:
2942            logger.error("Could not find %s in kernel parameters.", param_name)
2943        default_shell_count = shell_par.default
2944        shell_min = 0
2945        shell_max = 0
2946        try:
2947            shell_min = int(shell_par.limits[0])
2948            shell_max = int(shell_par.limits[1])
2949        except IndexError as ex:
2950            # no info about limits
2951            pass
2952        item3.setText(str(shell_min))
2953        item4.setText(str(shell_max))
2954
2955        # Respond to index change
2956        func.currentTextChanged.connect(self.modifyShellsInList)
2957
2958        # Respond to button press
2959        button.clicked.connect(self.onShowSLDProfile)
2960
2961        # Available range of shells displayed in the combobox
2962        func.addItems([str(i) for i in range(shell_min, shell_max+1)])
2963
2964        # Add default number of shells to the model
2965        func.setCurrentText(str(default_shell_count))
2966
2967    def modifyShellsInList(self, text):
2968        """
2969        Add/remove additional multishell parameters
2970        """
2971        # Find row location of the combobox
2972        first_row = self._n_shells_row + 1
2973        remove_rows = self._num_shell_params
2974        try:
2975            index = int(text)
2976        except ValueError:
2977            # bad text on the control!
2978            index = 0
2979            logger.error("Multiplicity incorrect! Setting to 0")
2980        self.kernel_module.multiplicity = index
2981        if remove_rows > 1:
2982            self._model_model.removeRows(first_row, remove_rows)
2983
2984        new_rows = FittingUtilities.addShellsToModel(
2985                self.model_parameters,
2986                self._model_model,
2987                index,
2988                first_row,
2989                self.lstParams)
2990
2991        self._num_shell_params = len(new_rows)
2992        self.current_shell_displayed = index
2993
2994        # Param values for existing shells were reset to default; force all changes into kernel module
2995        for row in new_rows:
2996            par = row[0].text()
2997            val = GuiUtils.toDouble(row[1].text())
2998            self.kernel_module.setParam(par, val)
2999
3000        # Change 'n' in the parameter model; also causes recalculation
3001        self._model_model.item(self._n_shells_row, 1).setText(str(index))
3002
3003        # Update relevant models
3004        self.setPolyModel()
3005        self.setMagneticModel()
3006
3007    def onShowSLDProfile(self):
3008        """
3009        Show a quick plot of SLD profile
3010        """
3011        # get profile data
3012        x, y = self.kernel_module.getProfile()
3013        y *= 1.0e6
3014        profile_data = Data1D(x=x, y=y)
3015        profile_data.name = "SLD"
3016        profile_data.scale = 'linear'
3017        profile_data.symbol = 'Line'
3018        profile_data.hide_error = True
3019        profile_data._xaxis = "R(\AA)"
3020        profile_data._yaxis = "SLD(10^{-6}\AA^{-2})"
3021
3022        plotter = PlotterWidget(self, quickplot=True)
3023        plotter.data = profile_data
3024        plotter.showLegend = True
3025        plotter.plot(hide_error=True, marker='-')
3026
3027        self.plot_widget = QtWidgets.QWidget()
3028        self.plot_widget.setWindowTitle("Scattering Length Density Profile")
3029        layout = QtWidgets.QVBoxLayout()
3030        layout.addWidget(plotter)
3031        self.plot_widget.setLayout(layout)
3032        self.plot_widget.show()
3033
3034    def setInteractiveElements(self, enabled=True):
3035        """
3036        Switch interactive GUI elements on/off
3037        """
3038        assert isinstance(enabled, bool)
3039
3040        self.lstParams.setEnabled(enabled)
3041        self.lstPoly.setEnabled(enabled)
3042        self.lstMagnetic.setEnabled(enabled)
3043
3044        self.cbCategory.setEnabled(enabled)
3045        self.cbModel.setEnabled(enabled)
3046        self.cbStructureFactor.setEnabled(enabled)
3047
3048        self.chkPolydispersity.setEnabled(enabled)
3049        self.chkMagnetism.setEnabled(enabled)
3050        self.chk2DView.setEnabled(enabled)
3051
3052    def enableInteractiveElements(self):
3053        """
3054        Set buttion caption on fitting/calculate finish
3055        Enable the param table(s)
3056        """
3057        # Notify the user that fitting is available
3058        self.cmdFit.setStyleSheet('QPushButton {color: black;}')
3059        self.cmdFit.setText("Fit")
3060        self.fit_started = False
3061        self.setInteractiveElements(True)
3062
3063    def disableInteractiveElements(self):
3064        """
3065        Set buttion caption on fitting/calculate start
3066        Disable the param table(s)
3067        """
3068        # Notify the user that fitting is being run
3069        # Allow for stopping the job
3070        self.cmdFit.setStyleSheet('QPushButton {color: red;}')
3071        self.cmdFit.setText('Stop fit')
3072        self.setInteractiveElements(False)
3073
3074    def readFitPage(self, fp):
3075        """
3076        Read in state from a fitpage object and update GUI
3077        """
3078        assert isinstance(fp, FitPage)
3079        # Main tab info
3080        self.logic.data.filename = fp.filename
3081        self.data_is_loaded = fp.data_is_loaded
3082        self.chkPolydispersity.setCheckState(fp.is_polydisperse)
3083        self.chkMagnetism.setCheckState(fp.is_magnetic)
3084        self.chk2DView.setCheckState(fp.is2D)
3085
3086        # Update the comboboxes
3087        self.cbCategory.setCurrentIndex(self.cbCategory.findText(fp.current_category))
3088        self.cbModel.setCurrentIndex(self.cbModel.findText(fp.current_model))
3089        if fp.current_factor:
3090            self.cbStructureFactor.setCurrentIndex(self.cbStructureFactor.findText(fp.current_factor))
3091
3092        self.chi2 = fp.chi2
3093
3094        # Options tab
3095        self.q_range_min = fp.fit_options[fp.MIN_RANGE]
3096        self.q_range_max = fp.fit_options[fp.MAX_RANGE]
3097        self.npts = fp.fit_options[fp.NPTS]
3098        self.log_points = fp.fit_options[fp.LOG_POINTS]
3099        self.weighting = fp.fit_options[fp.WEIGHTING]
3100
3101        # Models
3102        self._model_model = fp.model_model
3103        self._poly_model = fp.poly_model
3104        self._magnet_model = fp.magnetism_model
3105
3106        # Resolution tab
3107        smearing = fp.smearing_options[fp.SMEARING_OPTION]
3108        accuracy = fp.smearing_options[fp.SMEARING_ACCURACY]
3109        smearing_min = fp.smearing_options[fp.SMEARING_MIN]
3110        smearing_max = fp.smearing_options[fp.SMEARING_MAX]
3111        self.smearing_widget.setState(smearing, accuracy, smearing_min, smearing_max)
3112
3113        # TODO: add polidyspersity and magnetism
3114
3115    def saveToFitPage(self, fp):
3116        """
3117        Write current state to the given fitpage
3118        """
3119        assert isinstance(fp, FitPage)
3120
3121        # Main tab info
3122        fp.filename = self.logic.data.filename
3123        fp.data_is_loaded = self.data_is_loaded
3124        fp.is_polydisperse = self.chkPolydispersity.isChecked()
3125        fp.is_magnetic = self.chkMagnetism.isChecked()
3126        fp.is2D = self.chk2DView.isChecked()
3127        fp.data = self.data
3128
3129        # Use current models - they contain all the required parameters
3130        fp.model_model = self._model_model
3131        fp.poly_model = self._poly_model
3132        fp.magnetism_model = self._magnet_model
3133
3134        if self.cbCategory.currentIndex() != 0:
3135            fp.current_category = str(self.cbCategory.currentText())
3136            fp.current_model = str(self.cbModel.currentText())
3137
3138        if self.cbStructureFactor.isEnabled() and self.cbStructureFactor.currentIndex() != 0:
3139            fp.current_factor = str(self.cbStructureFactor.currentText())
3140        else:
3141            fp.current_factor = ''
3142
3143        fp.chi2 = self.chi2
3144        fp.main_params_to_fit = self.main_params_to_fit
3145        fp.poly_params_to_fit = self.poly_params_to_fit
3146        fp.magnet_params_to_fit = self.magnet_params_to_fit
3147        fp.kernel_module = self.kernel_module
3148
3149        # Algorithm options
3150        # fp.algorithm = self.parent.fit_options.selected_id
3151
3152        # Options tab
3153        fp.fit_options[fp.MIN_RANGE] = self.q_range_min
3154        fp.fit_options[fp.MAX_RANGE] = self.q_range_max
3155        fp.fit_options[fp.NPTS] = self.npts
3156        #fp.fit_options[fp.NPTS_FIT] = self.npts_fit
3157        fp.fit_options[fp.LOG_POINTS] = self.log_points
3158        fp.fit_options[fp.WEIGHTING] = self.weighting
3159
3160        # Resolution tab
3161        smearing, accuracy, smearing_min, smearing_max = self.smearing_widget.state()
3162        fp.smearing_options[fp.SMEARING_OPTION] = smearing
3163        fp.smearing_options[fp.SMEARING_ACCURACY] = accuracy
3164        fp.smearing_options[fp.SMEARING_MIN] = smearing_min
3165        fp.smearing_options[fp.SMEARING_MAX] = smearing_max
3166
3167        # TODO: add polidyspersity and magnetism
3168
3169    def updateUndo(self):
3170        """
3171        Create a new state page and add it to the stack
3172        """
3173        if self.undo_supported:
3174            self.pushFitPage(self.currentState())
3175
3176    def currentState(self):
3177        """
3178        Return fit page with current state
3179        """
3180        new_page = FitPage()
3181        self.saveToFitPage(new_page)
3182
3183        return new_page
3184
3185    def pushFitPage(self, new_page):
3186        """
3187        Add a new fit page object with current state
3188        """
3189        self.page_stack.append(new_page)
3190
3191    def popFitPage(self):
3192        """
3193        Remove top fit page from stack
3194        """
3195        if self.page_stack:
3196            self.page_stack.pop()
3197
3198    def getReport(self):
3199        """
3200        Create and return HTML report with parameters and charts
3201        """
3202        index = None
3203        if self.all_data:
3204            index = self.all_data[self.data_index]
3205        else:
3206            index = self.theory_item
3207        report_logic = ReportPageLogic(self,
3208                                       kernel_module=self.kernel_module,
3209                                       data=self.data,
3210                                       index=index,
3211                                       model=self._model_model)
3212
3213        return report_logic.reportList()
3214
3215    def savePageState(self):
3216        """
3217        Create and serialize local PageState
3218        """
3219        from sas.sascalc.fit.pagestate import Reader
3220        model = self.kernel_module
3221
3222        # Old style PageState object
3223        state = PageState(model=model, data=self.data)
3224
3225        # Add parameter data to the state
3226        self.getCurrentFitState(state)
3227
3228        # Create the filewriter, aptly named 'Reader'
3229        state_reader = Reader(self.loadPageStateCallback)
3230        filepath = self.saveAsAnalysisFile()
3231        if filepath is None or filepath == "":
3232            return
3233        state_reader.write(filename=filepath, fitstate=state)
3234        pass
3235
3236    def saveAsAnalysisFile(self):
3237        """
3238        Show the save as... dialog and return the chosen filepath
3239        """
3240        default_name = "FitPage"+str(self.tab_id)+".fitv"
3241
3242        wildcard = "fitv files (*.fitv)"
3243        kwargs = {
3244            'caption'   : 'Save As',
3245            'directory' : default_name,
3246            'filter'    : wildcard,
3247            'parent'    : None,
3248        }
3249        # Query user for filename.
3250        filename_tuple = QtWidgets.QFileDialog.getSaveFileName(**kwargs)
3251        filename = filename_tuple[0]
3252        return filename
3253
3254    def loadPageStateCallback(self,state=None, datainfo=None, format=None):
3255        """
3256        This is a callback method called from the CANSAS reader.
3257        We need the instance of this reader only for writing out a file,
3258        so there's nothing here.
3259        Until Load Analysis is implemented, that is.
3260        """
3261        pass
3262
3263    def loadPageState(self, pagestate=None):
3264        """
3265        Load the PageState object and update the current widget
3266        """
3267        pass
3268
3269    def getCurrentFitState(self, state=None):
3270        """
3271        Store current state for fit_page
3272        """
3273        # save model option
3274        #if self.model is not None:
3275        #    self.disp_list = self.getDispParamList()
3276        #    state.disp_list = copy.deepcopy(self.disp_list)
3277        #    #state.model = self.model.clone()
3278
3279        # Comboboxes
3280        state.categorycombobox = self.cbCategory.currentText()
3281        state.formfactorcombobox = self.cbModel.currentText()
3282        if self.cbStructureFactor.isEnabled():
3283            state.structurecombobox = self.cbStructureFactor.currentText()
3284        state.tcChi = self.chi2
3285
3286        state.enable2D = self.is2D
3287
3288        #state.weights = copy.deepcopy(self.weights)
3289        # save data
3290        state.data = copy.deepcopy(self.data)
3291
3292        # save plotting range
3293        state.qmin = self.q_range_min
3294        state.qmax = self.q_range_max
3295        state.npts = self.npts
3296
3297        #    self.state.enable_disp = self.enable_disp.GetValue()
3298        #    self.state.disable_disp = self.disable_disp.GetValue()
3299
3300        #    self.state.enable_smearer = \
3301        #                        copy.deepcopy(self.enable_smearer.GetValue())
3302        #    self.state.disable_smearer = \
3303        #                        copy.deepcopy(self.disable_smearer.GetValue())
3304
3305        #self.state.pinhole_smearer = \
3306        #                        copy.deepcopy(self.pinhole_smearer.GetValue())
3307        #self.state.slit_smearer = copy.deepcopy(self.slit_smearer.GetValue())
3308        #self.state.dI_noweight = copy.deepcopy(self.dI_noweight.GetValue())
3309        #self.state.dI_didata = copy.deepcopy(self.dI_didata.GetValue())
3310        #self.state.dI_sqrdata = copy.deepcopy(self.dI_sqrdata.GetValue())
3311        #self.state.dI_idata = copy.deepcopy(self.dI_idata.GetValue())
3312
3313        p = self.model_parameters
3314        # save checkbutton state and txtcrtl values
3315        state.parameters = FittingUtilities.getStandardParam(self._model_model)
3316        state.orientation_params_disp = FittingUtilities.getOrientationParam(self.kernel_module)
3317
3318        #self._copy_parameters_state(self.orientation_params_disp, self.state.orientation_params_disp)
3319        #self._copy_parameters_state(self.parameters, self.state.parameters)
3320        #self._copy_parameters_state(self.fittable_param, self.state.fittable_param)
3321        #self._copy_parameters_state(self.fixed_param, self.state.fixed_param)
3322
3323    def onParameterCopy(self, format=None):
3324        """
3325        Copy current parameters into the clipboard
3326        """
3327        # run a loop over all parameters and pull out
3328        # first - regular params
3329        param_list = []
3330
3331        param_list.append(['model_name', str(self.cbModel.currentText())])
3332        def gatherParams(row):
3333            """
3334            Create list of main parameters based on _model_model
3335            """
3336            param_name = str(self._model_model.item(row, 0).text())
3337            param_checked = str(self._model_model.item(row, 0).checkState() == QtCore.Qt.Checked)
3338            param_value = str(self._model_model.item(row, 1).text())
3339            param_error = None
3340            param_min = None
3341            param_max = None
3342            column_offset = 0
3343            if self.has_error_column:
3344                param_error = str(self._model_model.item(row, 2).text())
3345                column_offset = 1
3346
3347            try:
3348                param_min = str(self._model_model.item(row, 2+column_offset).text())
3349                param_max = str(self._model_model.item(row, 3+column_offset).text())
3350            except:
3351                pass
3352
3353            param_list.append([param_name, param_checked, param_value, param_error, param_min, param_max])
3354
3355        def gatherPolyParams(row):
3356            """
3357            Create list of polydisperse parameters based on _poly_model
3358            """
3359            param_name = str(self._poly_model.item(row, 0).text()).split()[-1]
3360            param_checked = str(self._poly_model.item(row, 0).checkState() == QtCore.Qt.Checked)
3361            param_value = str(self._poly_model.item(row, 1).text())
3362            param_error = None
3363            column_offset = 0
3364            if self.has_poly_error_column:
3365                param_error = str(self._poly_model.item(row, 2).text())
3366                column_offset = 1
3367            param_min   = str(self._poly_model.item(row, 2+column_offset).text())
3368            param_max   = str(self._poly_model.item(row, 3+column_offset).text())
3369            param_npts  = str(self._poly_model.item(row, 4+column_offset).text())
3370            param_nsigs = str(self._poly_model.item(row, 5+column_offset).text())
3371            param_fun   = str(self._poly_model.item(row, 6+column_offset).text()).rstrip()
3372            # width
3373            name = param_name+".width"
3374            param_list.append([name, param_checked, param_value, param_error,
3375                                param_npts, param_nsigs, param_min, param_max, param_fun])
3376
3377        def gatherMagnetParams(row):
3378            """
3379            Create list of magnetic parameters based on _magnet_model
3380            """
3381            param_name = str(self._magnet_model.item(row, 0).text())
3382            param_checked = str(self._magnet_model.item(row, 0).checkState() == QtCore.Qt.Checked)
3383            param_value = str(self._magnet_model.item(row, 1).text())
3384            param_error = None
3385            column_offset = 0
3386            if self.has_magnet_error_column:
3387                param_error = str(self._magnet_model.item(row, 2).text())
3388                column_offset = 1
3389            param_min = str(self._magnet_model.item(row, 2+column_offset).text())
3390            param_max = str(self._magnet_model.item(row, 3+column_offset).text())
3391            param_list.append([param_name, param_checked, param_value, param_error, param_min, param_max])
3392
3393        self.iterateOverModel(gatherParams)
3394        if self.chkPolydispersity.isChecked():
3395            self.iterateOverPolyModel(gatherPolyParams)
3396        if self.chkMagnetism.isChecked() and self.chkMagnetism.isEnabled():
3397            self.iterateOverMagnetModel(gatherMagnetParams)
3398
3399        if format=="":
3400            formatted_output = FittingUtilities.formatParameters(param_list)
3401        elif format == "Excel":
3402            formatted_output = FittingUtilities.formatParametersExcel(param_list[1:])
3403        elif format == "Latex":
3404            formatted_output = FittingUtilities.formatParametersLatex(param_list[1:])
3405        else:
3406            raise AttributeError("Bad format specifier.")
3407
3408        # Dump formatted_output to the clipboard
3409        cb = QtWidgets.QApplication.clipboard()
3410        cb.setText(formatted_output)
3411
3412    def onParameterPaste(self):
3413        """
3414        Use the clipboard to update fit state
3415        """
3416        # Check if the clipboard contains right stuff
3417        cb = QtWidgets.QApplication.clipboard()
3418        cb_text = cb.text()
3419
3420        context = {}
3421        # put the text into dictionary
3422        lines = cb_text.split(':')
3423        if lines[0] != 'sasview_parameter_values':
3424            return False
3425
3426        model = lines[1].split(',')
3427
3428        if model[0] != 'model_name':
3429            return False
3430
3431        context['model_name'] = [model[1]]
3432        for line in lines[2:-1]:
3433            if len(line) != 0:
3434                item = line.split(',')
3435                check = item[1]
3436                name = item[0]
3437                value = item[2]
3438                # Transfer the text to content[dictionary]
3439                context[name] = [check, value]
3440
3441                # limits
3442                try:
3443                    limit_lo = item[3]
3444                    context[name].append(limit_lo)
3445                    limit_hi = item[4]
3446                    context[name].append(limit_hi)
3447                except:
3448                    pass
3449
3450                # Polydisp
3451                if len(item) > 5:
3452                    value = item[5]
3453                    context[name].append(value)
3454                    try:
3455                        value = item[6]
3456                        context[name].append(value)
3457                        value = item[7]
3458                        context[name].append(value)
3459                    except IndexError:
3460                        pass
3461
3462        if str(self.cbModel.currentText()) != str(context['model_name'][0]):
3463            msg = QtWidgets.QMessageBox()
3464            msg.setIcon(QtWidgets.QMessageBox.Information)
3465            msg.setText("The model in the clipboard is not the same as the currently loaded model. \
3466                         Not all parameters saved may paste correctly.")
3467            msg.setStandardButtons(QtWidgets.QMessageBox.Ok | QtWidgets.QMessageBox.Cancel)
3468            result = msg.exec_()
3469            if result == QtWidgets.QMessageBox.Ok:
3470                pass
3471            else:
3472                return
3473
3474        self.updateFullModel(context)
3475        self.updateFullPolyModel(context)
3476
3477    def updateFullModel(self, param_dict):
3478        """
3479        Update the model with new parameters
3480        """
3481        assert isinstance(param_dict, dict)
3482        if not dict:
3483            return
3484
3485        def updateFittedValues(row):
3486            # Utility function for main model update
3487            # internal so can use closure for param_dict
3488            param_name = str(self._model_model.item(row, 0).text())
3489            if param_name not in list(param_dict.keys()):
3490                return
3491            # checkbox state
3492            param_checked = QtCore.Qt.Checked if param_dict[param_name][0] == "True" else QtCore.Qt.Unchecked
3493            self._model_model.item(row, 0).setCheckState(param_checked)
3494
3495            # modify the param value
3496            param_repr = GuiUtils.formatNumber(param_dict[param_name][1], high=True)
3497            self._model_model.item(row, 1).setText(param_repr)
3498
3499            # Potentially the error column
3500            ioffset = 0
3501            if len(param_dict[param_name])>4 and self.has_error_column:
3502                # error values are not editable - no need to update
3503                #error_repr = GuiUtils.formatNumber(param_dict[param_name][2], high=True)
3504                #self._model_model.item(row, 2).setText(error_repr)
3505                ioffset = 1
3506            # min/max
3507            try:
3508                param_repr = GuiUtils.formatNumber(param_dict[param_name][2+ioffset], high=True)
3509                self._model_model.item(row, 2+ioffset).setText(param_repr)
3510                param_repr = GuiUtils.formatNumber(param_dict[param_name][3+ioffset], high=True)
3511                self._model_model.item(row, 3+ioffset).setText(param_repr)
3512            except:
3513                pass
3514
3515            self.setFocus()
3516
3517
3518
3519        # block signals temporarily, so we don't end up
3520        # updating charts with every single model change on the end of fitting
3521        self._model_model.blockSignals(True)
3522        self.iterateOverModel(updateFittedValues)
3523        self._model_model.blockSignals(False)
3524
3525
3526    def updateFullPolyModel(self, param_dict):
3527        """
3528        Update the polydispersity model with new parameters, create the errors column
3529        """
3530        assert isinstance(param_dict, dict)
3531        if not dict:
3532            return
3533
3534        def updateFittedValues(row):
3535            # Utility function for main model update
3536            # internal so can use closure for param_dict
3537            if row >= self._poly_model.rowCount():
3538                return
3539            param_name = str(self._poly_model.item(row, 0).text()).rsplit()[-1] + '.width'
3540            if param_name not in list(param_dict.keys()):
3541                return
3542            # checkbox state
3543            param_checked = QtCore.Qt.Checked if param_dict[param_name][0] == "True" else QtCore.Qt.Unchecked
3544            self._poly_model.item(row,0).setCheckState(param_checked)
3545
3546            # modify the param value
3547            param_repr = GuiUtils.formatNumber(param_dict[param_name][1], high=True)
3548            self._poly_model.item(row, 1).setText(param_repr)
3549
3550            # Potentially the error column
3551            ioffset = 0
3552            if len(param_dict[param_name])>4 and self.has_poly_error_column:
3553                ioffset = 1
3554            # min
3555            param_repr = GuiUtils.formatNumber(param_dict[param_name][2+ioffset], high=True)
3556            self._poly_model.item(row, 2+ioffset).setText(param_repr)
3557            # max
3558            param_repr = GuiUtils.formatNumber(param_dict[param_name][3+ioffset], high=True)
3559            self._poly_model.item(row, 3+ioffset).setText(param_repr)
3560            # Npts
3561            param_repr = GuiUtils.formatNumber(param_dict[param_name][4+ioffset], high=True)
3562            self._poly_model.item(row, 4+ioffset).setText(param_repr)
3563            # Nsigs
3564            param_repr = GuiUtils.formatNumber(param_dict[param_name][5+ioffset], high=True)
3565            self._poly_model.item(row, 5+ioffset).setText(param_repr)
3566
3567            param_repr = GuiUtils.formatNumber(param_dict[param_name][5+ioffset], high=True)
3568            self._poly_model.item(row, 5+ioffset).setText(param_repr)
3569            self.setFocus()
3570
3571        # block signals temporarily, so we don't end up
3572        # updating charts with every single model change on the end of fitting
3573        self._poly_model.blockSignals(True)
3574        self.iterateOverPolyModel(updateFittedValues)
3575        self._poly_model.blockSignals(False)
3576
3577
3578
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