""" FitPanel class contains fields allowing to display results when fitting a model and one data """ import sys import wx import wx.lib.newevent import numpy import copy import math import time import traceback from sasmodels.weights import MODELS as POLYDISPERSITY_MODELS from sas.sasgui.guiframe.events import StatusEvent, NewPlotEvent, \ PlotQrangeEvent from sas.sasgui.guiframe.dataFitting import check_data_validity from sas.sasgui.guiframe.utils import format_number, check_float from sas.sasgui.guiframe.documentation_window import DocumentationWindow from sas.sasgui.perspectives.fitting.basepage import BasicPage as BasicPage from sas.sasgui.perspectives.fitting.basepage import PageInfoEvent as \ PageInfoEvent from sas.sascalc.data_util.qsmearing import smear_selection from .basepage import ModelTextCtrl (Chi2UpdateEvent, EVT_CHI2_UPDATE) = wx.lib.newevent.NewEvent() _BOX_WIDTH = 76 _DATA_BOX_WIDTH = 300 SMEAR_SIZE_L = 0.00 SMEAR_SIZE_H = 0.00 CUSTOM_MODEL = 'Plugin Models' class FitPage(BasicPage): """ FitPanel class contains fields allowing to display results when fitting a model and one data :note: For Fit to be performed the user should check at least one parameter on fit Panel window. """ def __init__(self, parent, color=None): """ Initialization of the Panel """ BasicPage.__init__(self, parent, color=color) # draw sizer self._fill_data_sizer() self.is_2D = None self.fit_started = False self.weightbt_string = None self.m_name = None # get smear info from data self._get_smear_info() self._fill_model_sizer(self.sizer1) self._get_defult_custom_smear() self._fill_range_sizer() self._set_smear(self.data) self.Bind(EVT_CHI2_UPDATE, self.on_complete_chisqr) # bind key event self.Bind(wx.EVT_RIGHT_DOWN, self.on_right_down) self._set_bookmark_flag(False) self._set_save_flag(False) self._set_preview_flag(False) self._set_copy_flag(False) self._set_paste_flag(False) self.btFit.SetFocus() self.enable_fit_button() self.fill_data_combobox(data_list=self.data_list) # create a default data for an empty panel self.create_default_data() self._manager.frame.Bind(wx.EVT_SET_FOCUS, self.on_set_focus) def enable_fit_button(self): """ Enable fit button if data is valid and model is valid """ flag = check_data_validity(self.data) & (self.model is not None) self.btFit.Enable(flag) def on_set_focus(self, event): """ Override the basepage focus method to ensure the save flag is set properly when focusing on the fit page. """ flag = check_data_validity(self.data) & (self.model is not None) self._set_save_flag(flag) self.parent.on_set_focus(event) self.on_tap_focus() def _fill_data_sizer(self): """ fill sizer 0 with data info """ self.data_box_description = wx.StaticBox(self, wx.ID_ANY, 'I(q) Data Source') if check_data_validity(self.data): dname_color = wx.BLUE else: dname_color = wx.RED self.data_box_description.SetForegroundColour(dname_color) boxsizer1 = wx.StaticBoxSizer(self.data_box_description, wx.VERTICAL) # ---------------------------------------------------------- sizer_data = wx.BoxSizer(wx.HORIZONTAL) self.dataSource = wx.ComboBox(self, wx.ID_ANY, style=wx.CB_READONLY) wx.EVT_COMBOBOX(self.dataSource, wx.ID_ANY, self.on_select_data) self.dataSource.SetMinSize((_DATA_BOX_WIDTH, -1)) sizer_data.Add(wx.StaticText(self, wx.ID_ANY, 'Name : ')) sizer_data.Add(self.dataSource) sizer_data.Add((0, 5)) boxsizer1.Add(sizer_data, 0, wx.ALL, 10) self.sizer0.Add(boxsizer1, 0, wx.EXPAND | wx.ALL, 10) self.sizer0.Layout() def enable_datasource(self): """ Enable or disable data source control depending on existing data """ if not self.data_list: self.dataSource.Disable() else: self.dataSource.Enable() def fill_data_combobox(self, data_list): """ Get a list of data and fill the corresponding combobox """ self.dataSource.Clear() self.data_list = data_list self.enable_datasource() if len(data_list) > 0: # find the maximum range covering all data qmin, qmax, npts = self.compute_data_set_range(data_list) self.qmin_data_set = qmin self.qmax_data_set = qmax self.npts_data_set = npts self.qmin.SetValue(str(self.qmin_data_set)) self.qmax.SetValue(str(self.qmax_data_set)) self.qmin.SetBackgroundColour("white") self.qmax.SetBackgroundColour("white") self.qmin_x = self.qmin_data_set self.qmax_x = self.qmax_data_set self.state.qmin = self.qmin_x self.state.qmax = self.qmax_x is_data = False for data in self.data_list: if data is not None: self.dataSource.Append(str(data.name), clientData=data) if not is_data: is_data = check_data_validity(data) if is_data: self.dataSource.SetSelection(0) self.on_select_data(event=None) if len(data_list) == 1: self.dataSource.Disable() def on_select_data(self, event=None): """ On_select_data """ if event is None and self.dataSource.GetCount() > 0: data = self.dataSource.GetClientData(0) self.set_data(data) elif self.dataSource.GetCount() > 0: pos = self.dataSource.GetSelection() data = self.dataSource.GetClientData(pos) self.set_data(data) def _on_fit_complete(self): """ When fit is complete ,reset the fit button label. """ self.fit_started = False self.set_fitbutton() def _is_2D(self): """ Check if data_name is Data2D :return: True or False """ if self.data.__class__.__name__ == "Data2D" or \ self.enable2D: return True return False def _fill_range_sizer(self): """ Fill the Fitting sizer on the fit panel which contains: the smearing information (dq), the weighting information (dI or other), the plotting range, access to the 2D mask editor, the compute, fit, and help buttons, xi^2, number of points etc. """ is_2d_data = False # Check if data is 2D if self.data.__class__.__name__ == "Data2D" or \ self.enable2D: is_2d_data = True title = "Fitting" # smear messages & titles smear_message_none = "No smearing is selected..." smear_message_dqdata = "The dQ data is being used for smearing..." smear_message_2d = \ "Higher accuracy is very time-expensive. Use it with care..." smear_message_new_ssmear = \ "Please enter only the value of interest to customize smearing..." smear_message_new_psmear = \ "Please enter both; the dQ will be generated by interpolation..." smear_message_2d_x_title = "[1/A]:" smear_message_2d_y_title = "[1/A]:" smear_message_pinhole_min_title = "dQ_low[1/A]:" smear_message_pinhole_max_title = "dQ_high[1/A]:" smear_message_slit_height_title = "Slit height[1/A]:" smear_message_slit_width_title = "Slit width[1/A]:" self._get_smear_info() # Sizers box_description_range = wx.StaticBox(self, wx.ID_ANY, str(title)) box_description_range.SetForegroundColour(wx.BLUE) boxsizer_range = wx.StaticBoxSizer(box_description_range, wx.VERTICAL) self.sizer_set_smearer = wx.BoxSizer(wx.VERTICAL) sizer_smearer = wx.BoxSizer(wx.HORIZONTAL) self.sizer_new_smear = wx.BoxSizer(wx.HORIZONTAL) self.sizer_set_masking = wx.BoxSizer(wx.HORIZONTAL) sizer_chi2 = wx.BoxSizer(wx.VERTICAL) smear_set_box = wx.StaticBox(self, wx.ID_ANY, 'Set Instrumental Smearing') sizer_smearer_box = wx.StaticBoxSizer(smear_set_box, wx.HORIZONTAL) sizer_smearer_box.SetMinSize((_DATA_BOX_WIDTH, 60)) weighting_set_box = wx.StaticBox(self, wx.ID_ANY, 'Set Weighting by Selecting dI Source') weighting_box = wx.StaticBoxSizer(weighting_set_box, wx.HORIZONTAL) sizer_weighting = wx.BoxSizer(wx.HORIZONTAL) weighting_box.SetMinSize((_DATA_BOX_WIDTH, 40)) # Filling the sizer containing weighting info. self.dI_noweight = wx.RadioButton(self, wx.ID_ANY, 'No Weighting', style=wx.RB_GROUP) self.dI_didata = wx.RadioButton(self, wx.ID_ANY, 'Use dI Data') self.dI_sqrdata = wx.RadioButton(self, wx.ID_ANY, 'Use |sqrt(I Data)|') self.dI_idata = wx.RadioButton(self, wx.ID_ANY, 'Use |I Data|') self.Bind(wx.EVT_RADIOBUTTON, self.onWeighting, id=self.dI_noweight.GetId()) self.Bind(wx.EVT_RADIOBUTTON, self.onWeighting, id=self.dI_didata.GetId()) self.Bind(wx.EVT_RADIOBUTTON, self.onWeighting, id=self.dI_sqrdata.GetId()) self.Bind(wx.EVT_RADIOBUTTON, self.onWeighting, id=self.dI_idata.GetId()) self.dI_didata.SetValue(True) # add 4 types of weighting to the sizer sizer_weighting.Add(self.dI_noweight, 0, wx.LEFT, 10) sizer_weighting.Add((14, 10)) sizer_weighting.Add(self.dI_didata) sizer_weighting.Add((14, 10)) sizer_weighting.Add(self.dI_sqrdata) sizer_weighting.Add((14, 10)) sizer_weighting.Add(self.dI_idata) sizer_weighting.Add((10, 10)) self.dI_noweight.Enable(False) self.dI_didata.Enable(False) self.dI_sqrdata.Enable(False) self.dI_idata.Enable(False) weighting_box.Add(sizer_weighting) # combobox for smear2d accuracy selection self.smear_accuracy = wx.ComboBox(self, wx.ID_ANY, size=(50, -1), style=wx.CB_READONLY) self._set_accuracy_list() self.smear_accuracy.SetValue(self.smear2d_accuracy) self.smear_accuracy.SetSelection(0) self.smear_accuracy.SetToolTipString( "'Higher' uses more Gaussian points for smearing computation.") wx.EVT_COMBOBOX(self.smear_accuracy, wx.ID_ANY, self._on_select_accuracy) # Fit button self.btFit = wx.Button(self, self._ids.next(), 'Fit') self.default_bt_colour = self.btFit.GetDefaultAttributes() self.btFit.Bind(wx.EVT_BUTTON, self._onFit, id=self.btFit.GetId()) self.btFit.SetToolTipString("Start fitting.") # General Help button self.btFitHelp = wx.Button(self, wx.ID_ANY, 'Help') self.btFitHelp.SetToolTipString("General fitting help.") self.btFitHelp.Bind(wx.EVT_BUTTON, self._onFitHelp) # Resolution Smearing Help button (for now use same technique as # used for dI help to get tiniest possible button that works # both on MAC and PC. Should completely rewrite the fitting sizer # in future. This is minimum to get out release 3.1 # comment June 14, 2015 --- PDB if sys.platform.count("win32") > 0: size_q = (20, 15) # on PC else: size_q = (30, 20) # on MAC self.btSmearHelp = wx.Button(self, wx.ID_ANY, '?', style=wx.BU_EXACTFIT, size=size_q) self.btSmearHelp.SetToolTipString("Resolution smearing help.") self.btSmearHelp.Bind(wx.EVT_BUTTON, self._onSmearHelp) # textcntrl for custom resolution self.smear_pinhole_max = ModelTextCtrl(self, wx.ID_ANY, size=(_BOX_WIDTH - 25, 20), style=wx.TE_PROCESS_ENTER, text_enter_callback=self.onPinholeSmear) self.smear_pinhole_min = ModelTextCtrl(self, wx.ID_ANY, size=(_BOX_WIDTH - 25, 20), style=wx.TE_PROCESS_ENTER, text_enter_callback=self.onPinholeSmear) self.smear_slit_height = ModelTextCtrl(self, wx.ID_ANY, size=(_BOX_WIDTH - 25, 20), style=wx.TE_PROCESS_ENTER, text_enter_callback=self.onSlitSmear) self.smear_slit_width = ModelTextCtrl(self, wx.ID_ANY, size=(_BOX_WIDTH - 25, 20), style=wx.TE_PROCESS_ENTER, text_enter_callback=self.onSlitSmear) # smear self.smear_data_left = BGTextCtrl(self, wx.ID_ANY, size=(_BOX_WIDTH - 25, 20), style=0) self.smear_data_left.SetValue(str(self.dq_l)) self.smear_data_right = BGTextCtrl(self, wx.ID_ANY, size=(_BOX_WIDTH - 25, 20), style=0) self.smear_data_right.SetValue(str(self.dq_r)) # set default values for smear self.smear_pinhole_max.SetValue(str(self.dx_max)) self.smear_pinhole_min.SetValue(str(self.dx_min)) self.smear_slit_height.SetValue(str(self.dxl)) self.smear_slit_width.SetValue(str(self.dxw)) # Filling the sizer containing instruments smearing info. self.disable_smearer = wx.RadioButton(self, wx.ID_ANY, 'None', style=wx.RB_GROUP) self.enable_smearer = wx.RadioButton(self, wx.ID_ANY, 'Use dQ Data') # self.enable_smearer.SetToolTipString( # "Click to use the loaded dQ data for smearing.") self.pinhole_smearer = wx.RadioButton(self, wx.ID_ANY, 'Custom Pinhole Smear') # self.pinhole_smearer.SetToolTipString # ("Click to input custom resolution for pinhole smearing.") self.slit_smearer = wx.RadioButton(self, wx.ID_ANY, 'Custom Slit Smear') # self.slit_smearer.SetToolTipString # ("Click to input custom resolution for slit smearing.") self.Bind(wx.EVT_RADIOBUTTON, self.onSmear, id=self.disable_smearer.GetId()) self.Bind(wx.EVT_RADIOBUTTON, self.onSmear, id=self.enable_smearer.GetId()) self.Bind(wx.EVT_RADIOBUTTON, self.onPinholeSmear, id=self.pinhole_smearer.GetId()) self.Bind(wx.EVT_RADIOBUTTON, self.onSlitSmear, id=self.slit_smearer.GetId()) self.disable_smearer.SetValue(True) sizer_smearer.Add(self.disable_smearer, 0, wx.LEFT, 10) sizer_smearer.Add(self.enable_smearer) sizer_smearer.Add(self.pinhole_smearer) sizer_smearer.Add(self.slit_smearer) sizer_smearer.Add(self.btSmearHelp) sizer_smearer.Add((10, 10)) # StaticText for chi2, N(for fitting), Npts + Log/linear spacing self.tcChi = BGTextCtrl(self, wx.ID_ANY, "-", size=(75, 20), style=0) self.tcChi.SetToolTipString("Chi2/Npts(Fit)") self.Npts_fit = BGTextCtrl(self, wx.ID_ANY, "-", size=(75, 20), style=0) self.Npts_fit.SetToolTipString( " Npts : number of points selected for fitting") self.Npts_total = ModelTextCtrl(self, wx.ID_ANY, size=(_BOX_WIDTH, 20), style=wx.TE_PROCESS_ENTER, text_enter_callback=self._onQrangeEnter) self.Npts_total.SetValue(format_number(self.npts_x)) self.Npts_total.SetToolTipString( " Total Npts : total number of data points") # Update and Draw button self.draw_button = wx.Button(self, self._ids.next(), 'Compute') self.draw_button.Bind(wx.EVT_BUTTON, self._onDraw, id=self.draw_button.GetId()) self.draw_button.SetToolTipString("Compute and Draw.") self.points_sizer = wx.BoxSizer(wx.HORIZONTAL) self.pointsbox = wx.CheckBox(self, wx.ID_ANY, 'Log?', (10, 10)) self.pointsbox.SetValue(False) self.pointsbox.SetToolTipString("Check mark to use log spaced points") wx.EVT_CHECKBOX(self, self.pointsbox.GetId(), self.select_log) self.points_sizer.Add(wx.StaticText(self, wx.ID_ANY, 'Npts ')) self.points_sizer.Add(self.pointsbox) box_description_1 = wx.StaticText(self, wx.ID_ANY, ' Chi2/Npts') box_description_2 = wx.StaticText(self, wx.ID_ANY, 'Npts(Fit)') # StaticText for smear self.smear_description_none = wx.StaticText(self, wx.ID_ANY, smear_message_none, style=wx.ALIGN_LEFT) self.smear_description_dqdata = wx.StaticText(self, wx.ID_ANY, smear_message_dqdata, style=wx.ALIGN_LEFT) self.smear_description_type = wx.StaticText(self, wx.ID_ANY, "Type:", style=wx.ALIGN_LEFT) self.smear_description_accuracy_type = wx.StaticText(self, wx.ID_ANY, "Accuracy:", style=wx.ALIGN_LEFT) self.smear_description_smear_type = BGTextCtrl(self, wx.ID_ANY, size=(57, 20), style=0) self.smear_description_smear_type.SetValue(str(self.dq_l)) self.SetBackgroundColour(self.GetParent().GetBackgroundColour()) self.smear_description_2d = wx.StaticText(self, wx.ID_ANY, smear_message_2d, style=wx.ALIGN_LEFT) self.smear_message_new_s = wx.StaticText(self, wx.ID_ANY, smear_message_new_ssmear, style=wx.ALIGN_LEFT) self.smear_message_new_p = wx.StaticText(self, wx.ID_ANY, smear_message_new_psmear, style=wx.ALIGN_LEFT) self.smear_description_2d_x = wx.StaticText(self, wx.ID_ANY, smear_message_2d_x_title, style=wx.ALIGN_LEFT) self.smear_description_2d_x.SetToolTipString( " dQp(parallel) in q_r direction.") self.smear_description_2d_y = wx.StaticText(self, wx.ID_ANY, smear_message_2d_y_title, style=wx.ALIGN_LEFT) self.smear_description_2d_y.SetToolTipString( " dQs(perpendicular) in q_phi direction.") self.smear_description_pin_min = wx.StaticText(self, wx.ID_ANY, smear_message_pinhole_min_title, style=wx.ALIGN_LEFT) self.smear_description_pin_max = wx.StaticText(self, wx.ID_ANY, smear_message_pinhole_max_title, style=wx.ALIGN_LEFT) self.smear_description_slit_height = wx.StaticText(self, wx.ID_ANY, smear_message_slit_height_title, style=wx.ALIGN_LEFT) self.smear_description_slit_width = wx.StaticText(self, wx.ID_ANY, smear_message_slit_width_title, style=wx.ALIGN_LEFT) # arrange sizers self.sizer_set_smearer.Add(sizer_smearer) self.sizer_set_smearer.Add((10, 10)) self.sizer_set_smearer.Add(self.smear_description_none, 0, wx.CENTER, 10) self.sizer_set_smearer.Add(self.smear_description_dqdata, 0, wx.CENTER, 10) self.sizer_set_smearer.Add(self.smear_description_2d, 0, wx.CENTER, 10) self.sizer_new_smear.Add(self.smear_description_type, 0, wx.CENTER, 10) self.sizer_new_smear.Add(self.smear_description_accuracy_type, 0, wx.CENTER, 10) self.sizer_new_smear.Add(self.smear_accuracy) self.sizer_new_smear.Add(self.smear_description_smear_type, 0, wx.CENTER, 10) self.sizer_new_smear.Add((15, -1)) self.sizer_new_smear.Add(self.smear_description_2d_x, 0, wx.CENTER, 10) self.sizer_new_smear.Add(self.smear_description_pin_min, 0, wx.CENTER, 10) self.sizer_new_smear.Add(self.smear_description_slit_height, 0, wx.CENTER, 10) self.sizer_new_smear.Add(self.smear_pinhole_min, 0, wx.CENTER, 10) self.sizer_new_smear.Add(self.smear_slit_height, 0, wx.CENTER, 10) self.sizer_new_smear.Add(self.smear_data_left, 0, wx.CENTER, 10) self.sizer_new_smear.Add((20, -1)) self.sizer_new_smear.Add(self.smear_description_2d_y, 0, wx.CENTER, 10) self.sizer_new_smear.Add(self.smear_description_pin_max, 0, wx.CENTER, 10) self.sizer_new_smear.Add(self.smear_description_slit_width, 0, wx.CENTER, 10) self.sizer_new_smear.Add(self.smear_pinhole_max, 0, wx.CENTER, 10) self.sizer_new_smear.Add(self.smear_slit_width, 0, wx.CENTER, 10) self.sizer_new_smear.Add(self.smear_data_right, 0, wx.CENTER, 10) self.sizer_set_smearer.Add(self.smear_message_new_s, 0, wx.CENTER, 10) self.sizer_set_smearer.Add(self.smear_message_new_p, 0, wx.CENTER, 10) self.sizer_set_smearer.Add((5, 2)) self.sizer_set_smearer.Add(self.sizer_new_smear, 0, wx.CENTER, 10) # add all to chi2 sizer sizer_smearer_box.Add(self.sizer_set_smearer) sizer_chi2.Add(sizer_smearer_box) sizer_chi2.Add((-1, 5)) sizer_chi2.Add(weighting_box) sizer_chi2.Add((-1, 5)) # hide all smear messages and textctrl self._hide_all_smear_info() # get smear_selection self.current_smearer = smear_selection(self.data, self.model) # Show only the relevant smear messages, etc if self.current_smearer is None: if not is_2d_data: self.smear_description_none.Show(True) self.enable_smearer.Disable() else: self.smear_description_none.Show(True) self.slit_smearer.Disable() if self.data is None: self.slit_smearer.Disable() self.pinhole_smearer.Disable() self.enable_smearer.Disable() else: self._show_smear_sizer() boxsizer_range.Add(self.sizer_set_masking) # 2D data? default is_2d_data = False # check if it is 2D data if self.data.__class__.__name__ == "Data2D" or self.enable2D: is_2d_data = True self.sizer5.Clear(True) self.qmin = ModelTextCtrl(self, wx.ID_ANY, size=(_BOX_WIDTH, 20), style=wx.TE_PROCESS_ENTER, set_focus_callback=self.qrang_set_focus, text_enter_callback=self._onQrangeEnter, name='qmin') self.qmin.SetValue(str(self.qmin_x)) q_tip = "Click outside of the axes\n to remove the lines." qmin_tip = "Minimun value of Q.\n" qmin_tip += q_tip self.qmin.SetToolTipString(qmin_tip) self.qmax = ModelTextCtrl(self, wx.ID_ANY, size=(_BOX_WIDTH, 20), style=wx.TE_PROCESS_ENTER, set_focus_callback=self.qrang_set_focus, text_enter_callback=self._onQrangeEnter, name='qmax') self.qmax.SetValue(str(self.qmax_x)) qmax_tip = "Maximum value of Q.\n" qmax_tip += q_tip self.qmax.SetToolTipString(qmax_tip) self.qmin.Bind(wx.EVT_MOUSE_EVENTS, self.qrange_click) self.qmax.Bind(wx.EVT_MOUSE_EVENTS, self.qrange_click) self.qmin.Bind(wx.EVT_KEY_DOWN, self.on_key) self.qmax.Bind(wx.EVT_KEY_DOWN, self.on_key) self.qmin.Bind(wx.EVT_TEXT, self.on_qrange_text) self.qmax.Bind(wx.EVT_TEXT, self.on_qrange_text) wx_id = self._ids.next() self.reset_qrange = wx.Button(self, wx_id, 'Reset') self.reset_qrange.Bind(wx.EVT_BUTTON, self.on_reset_clicked, id=wx_id) self.reset_qrange.SetToolTipString("Reset Q range to the default") sizer = wx.GridSizer(5, 5, 2, 6) self.btEditMask = wx.Button(self, self._ids.next(), 'Editor') self.btEditMask.Bind(wx.EVT_BUTTON, self._onMask, id=self.btEditMask.GetId()) self.btEditMask.SetToolTipString("Edit Mask.") self.EditMask_title = wx.StaticText(self, wx.ID_ANY, ' Masking(2D)') sizer.Add(wx.StaticText(self, wx.ID_ANY, ' Q range')) sizer.Add(wx.StaticText(self, wx.ID_ANY, ' Min[1/A]')) sizer.Add(wx.StaticText(self, wx.ID_ANY, ' Max[1/A]')) sizer.Add(self.EditMask_title) sizer.Add((-1, 5)) sizer.Add(self.reset_qrange) sizer.Add(self.qmin) sizer.Add(self.qmax) sizer.Add(self.btEditMask) sizer.Add((-1, 5)) sizer.AddMany(5*[(-1, 5)]) sizer.Add(box_description_1, 0, 0) sizer.Add(box_description_2, 0, 0) sizer.Add(self.points_sizer, 0, 0) sizer.Add(self.draw_button, 0, 0) sizer.Add((-1, 5)) sizer.Add(self.tcChi, 0, 0) sizer.Add(self.Npts_fit, 0, 0) sizer.Add(self.Npts_total, 0, 0) sizer.Add(self.btFit, 0, 0) sizer.Add(self.btFitHelp, 0, 0) boxsizer_range.Add(sizer_chi2) boxsizer_range.Add(sizer) if is_2d_data: self.btEditMask.Enable() self.EditMask_title.Enable() else: self.btEditMask.Disable() self.EditMask_title.Disable() # save state self.save_current_state() self.sizer5.Add(boxsizer_range, 0, wx.EXPAND | wx.ALL, 10) self.sizer5.Layout() def _set_sizer_dispersion(self): """ draw sizer with gaussian dispersity parameters """ self.fittable_param = [] self.fixed_param = [] self.orientation_params_disp = [] self.sizer4_4.Clear(True) if self.model is None: # no model is selected return if not self.enable_disp.GetValue(): # the user didn't select dispersity display return self._reset_dispersity() # fill a sizer with the combobox to select dispersion type model_disp = wx.StaticText(self, wx.ID_ANY, 'Function') CHECK_STATE = False ix = 0 iy = 0 disp = wx.StaticText(self, wx.ID_ANY, ' ') self.sizer4_4.Add(disp, (iy, ix), (1, 1), wx.LEFT | wx.EXPAND | wx.ADJUST_MINSIZE, 15) ix += 1 values = wx.StaticText(self, wx.ID_ANY, 'PD[ratio]') polytext = "Polydispersity (= STD/mean); " polytext += "the standard deviation over the mean value." values.SetToolTipString(polytext) self.sizer4_4.Add(values, (iy, ix), (1, 1), wx.EXPAND | wx.ADJUST_MINSIZE, 0) ix += 2 if self.is_mac: err_text = 'Error' else: err_text = '' self.text_disp_1 = wx.StaticText(self, wx.ID_ANY, err_text) self.sizer4_4.Add(self.text_disp_1, (iy, ix), (1, 1), wx.EXPAND | wx.ADJUST_MINSIZE, 0) ix += 1 self.text_disp_min = wx.StaticText(self, wx.ID_ANY, 'Min') self.sizer4_4.Add(self.text_disp_min, (iy, ix), (1, 1), wx.EXPAND | wx.ADJUST_MINSIZE, 0) ix += 1 self.text_disp_max = wx.StaticText(self, wx.ID_ANY, 'Max') self.sizer4_4.Add(self.text_disp_max, (iy, ix), (1, 1), wx.EXPAND | wx.ADJUST_MINSIZE, 0) ix += 1 npts = wx.StaticText(self, wx.ID_ANY, 'Npts') npts.SetToolTipString("Number of sampling points for the numerical\n\ integration over the distribution function.") self.sizer4_4.Add(npts, (iy, ix), (1, 1), wx.EXPAND | wx.ADJUST_MINSIZE, 0) ix += 1 nsigmas = wx.StaticText(self, wx.ID_ANY, 'Nsigs') nsigmas.SetToolTipString("Number of sigmas between which the range\n\ of the distribution function will be used for weighting. \n\ The value '3' covers 99.5% for Gaussian distribution \n\ function. Note: Not recommended to change this value.") self.sizer4_4.Add(nsigmas, (iy, ix), (1, 1), wx.EXPAND | wx.ADJUST_MINSIZE, 0) ix += 1 self.sizer4_4.Add(model_disp, (iy, ix), (1, 1), wx.EXPAND | wx.ADJUST_MINSIZE, 0) self.text_disp_max.Show(True) self.text_disp_min.Show(True) for item in self.model.dispersion.keys(): if not self.magnetic_on: if item in self.model.magnetic_params: continue if item not in self.model.orientation_params: if item not in self.disp_cb_dict: self.disp_cb_dict[item] = None name0 = "Distribution of " + item name1 = item + ".width" name2 = item + ".npts" name3 = item + ".nsigmas" if name1 not in self.model.details: self.model.details[name1] = ["", None, None] iy += 1 for p in self.model.dispersion[item].keys(): if p == "width": ix = 0 cb = wx.CheckBox(self, wx.ID_ANY, name0, (10, 10)) cb.SetValue(CHECK_STATE) cb.SetToolTipString("Check mark to fit") wx.EVT_CHECKBOX(self, cb.GetId(), self.select_param) self.sizer4_4.Add(cb, (iy, ix), (1, 1), wx.LEFT | wx.EXPAND | wx.ADJUST_MINSIZE, 5) ix = 1 value = self.model.getParam(name1) ctl1 = ModelTextCtrl(self, wx.ID_ANY, size=(_BOX_WIDTH / 1.3, 20), style=wx.TE_PROCESS_ENTER) ctl1.SetLabel('PD[ratio]') poly_text = "Polydispersity (STD/mean) of %s\n" % item poly_text += "STD: the standard deviation" poly_text += " from the mean value." ctl1.SetToolTipString(poly_text) ctl1.SetValue(str(format_number(value, True))) self.sizer4_4.Add(ctl1, (iy, ix), (1, 1), wx.EXPAND) # text to show error sign ix = 2 text2 = wx.StaticText(self, wx.ID_ANY, '+/-') self.sizer4_4.Add(text2, (iy, ix), (1, 1), wx.EXPAND | wx.ADJUST_MINSIZE, 0) if not self.is_mac: text2.Hide() ix = 3 ctl2 = wx.TextCtrl(self, wx.ID_ANY, size=(_BOX_WIDTH / 1.3, 20), style=0) self.sizer4_4.Add(ctl2, (iy, ix), (1, 1), wx.EXPAND | wx.ADJUST_MINSIZE, 0) if not self.is_mac: ctl2.Hide() ix = 4 ctl3 = ModelTextCtrl(self, wx.ID_ANY, size=(_BOX_WIDTH / 2, 20), style=wx.TE_PROCESS_ENTER, text_enter_callback=self._onparamRangeEnter) self.sizer4_4.Add(ctl3, (iy, ix), (1, 1), wx.EXPAND | wx.ADJUST_MINSIZE, 0) ix = 5 ctl4 = ModelTextCtrl(self, wx.ID_ANY, size=(_BOX_WIDTH / 2, 20), style=wx.TE_PROCESS_ENTER, text_enter_callback=self._onparamRangeEnter) self.sizer4_4.Add(ctl4, (iy, ix), (1, 1), wx.EXPAND | wx.ADJUST_MINSIZE, 0) ctl3.Show(True) ctl4.Show(True) elif p == "npts": ix = 6 value = self.model.getParam(name2) Tctl = ModelTextCtrl(self, wx.ID_ANY, size=(_BOX_WIDTH / 2.2, 20), style=wx.TE_PROCESS_ENTER) Tctl.SetValue(str(format_number(value))) self.sizer4_4.Add(Tctl, (iy, ix), (1, 1), wx.EXPAND | wx.ADJUST_MINSIZE, 0) self.fixed_param.append([None, name2, Tctl, None, None, None, None, None]) elif p == "nsigmas": ix = 7 value = self.model.getParam(name3) Tct2 = ModelTextCtrl(self, wx.ID_ANY, size=(_BOX_WIDTH / 2.2, 20), style=wx.TE_PROCESS_ENTER) Tct2.SetValue(str(format_number(value))) self.sizer4_4.Add(Tct2, (iy, ix), (1, 1), wx.EXPAND | wx.ADJUST_MINSIZE, 0) self.fixed_param.append([None, name3, Tct2, None, None, None, None, None]) ix = 8 disp_box = wx.ComboBox(self, wx.ID_ANY, size=(65, -1), style=wx.CB_READONLY, name='%s' % name1) for key, value in POLYDISPERSITY_MODELS.iteritems(): name_disp = str(key) disp_box.Append(name_disp, value) disp_box.SetStringSelection("gaussian") wx.EVT_COMBOBOX(disp_box, wx.ID_ANY, self._on_disp_func) self.sizer4_4.Add(disp_box, (iy, ix), (1, 1), wx.EXPAND) self.fittable_param.append([cb, name1, ctl1, text2, ctl2, ctl3, ctl4, disp_box]) ix = 0 iy += 1 self.sizer4_4.Add((20, 20), (iy, ix), (1, 1), wx.LEFT | wx.EXPAND | wx.ADJUST_MINSIZE, 15) first_orient = True for item in self.model.dispersion.keys(): if not self.magnetic_on: if item in self.model.magnetic_params: continue if item in self.model.orientation_params: if item not in self.disp_cb_dict: self.disp_cb_dict[item] = None name0 = "Distribution of " + item name1 = item + ".width" name2 = item + ".npts" name3 = item + ".nsigmas" if name1 not in self.model.details: self.model.details[name1] = ["", None, None] iy += 1 for p in self.model.dispersion[item].keys(): if p == "width": ix = 0 cb = wx.CheckBox(self, wx.ID_ANY, name0, (10, 10)) cb.SetValue(CHECK_STATE) cb.SetToolTipString("Check mark to fit") wx.EVT_CHECKBOX(self, cb.GetId(), self.select_param) self.sizer4_4.Add(cb, (iy, ix), (1, 1), wx.LEFT | wx.EXPAND | wx.ADJUST_MINSIZE, 5) if self.data.__class__.__name__ == "Data2D" or \ self.enable2D: cb.Show(True) elif cb.IsShown(): cb.Hide() ix = 1 value = self.model.getParam(name1) ctl1 = ModelTextCtrl(self, wx.ID_ANY, size=(_BOX_WIDTH / 1.3, 20), style=wx.TE_PROCESS_ENTER) poly_tip = "Absolute Sigma for %s." % item ctl1.SetToolTipString(poly_tip) ctl1.SetValue(str(format_number(value, True))) if self.data.__class__.__name__ == "Data2D" or \ self.enable2D: if first_orient: values.SetLabel('PD[ratio], Sig[deg]') poly_text = "PD(polydispersity for lengths):\n" poly_text += "It should be a value between" poly_text += "0 and 1\n" poly_text += "Sigma for angles: \n" poly_text += "It is the STD (ratio*mean)" poly_text += " of the distribution.\n " values.SetToolTipString(poly_text) first_orient = False ctl1.Show(True) elif ctl1.IsShown(): ctl1.Hide() self.sizer4_4.Add(ctl1, (iy, ix), (1, 1), wx.EXPAND) # text to show error sign ix = 2 text2 = wx.StaticText(self, wx.ID_ANY, '+/-') self.sizer4_4.Add(text2, (iy, ix), (1, 1), wx.EXPAND | wx.ADJUST_MINSIZE, 0) text2.Hide() ix = 3 ctl2 = wx.TextCtrl(self, wx.ID_ANY, size=(_BOX_WIDTH / 1.3, 20), style=0) self.sizer4_4.Add(ctl2, (iy, ix), (1, 1), wx.EXPAND | wx.ADJUST_MINSIZE, 0) ctl2.Hide() if self.data.__class__.__name__ == "Data2D" or \ self.enable2D: if self.is_mac: text2.Show(True) ctl2.Show(True) ix = 4 ctl3 = ModelTextCtrl(self, wx.ID_ANY, size=(_BOX_WIDTH / 2, 20), style=wx.TE_PROCESS_ENTER, text_enter_callback=self._onparamRangeEnter) self.sizer4_4.Add(ctl3, (iy, ix), (1, 1), wx.EXPAND | wx.ADJUST_MINSIZE, 0) ctl3.Hide() ix = 5 ctl4 = ModelTextCtrl(self, wx.ID_ANY, size=(_BOX_WIDTH / 2, 20), style=wx.TE_PROCESS_ENTER, text_enter_callback=self._onparamRangeEnter) self.sizer4_4.Add(ctl4, (iy, ix), (1, 1), wx.EXPAND | wx.ADJUST_MINSIZE, 0) ctl4.Hide() if self.data.__class__.__name__ == "Data2D" or \ self.enable2D: ctl3.Show(True) ctl4.Show(True) elif p == "npts": ix = 6 value = self.model.getParam(name2) Tctl = ModelTextCtrl(self, wx.ID_ANY, size=(_BOX_WIDTH / 2.2, 20), style=wx.TE_PROCESS_ENTER) Tctl.SetValue(str(format_number(value))) if self.data.__class__.__name__ == "Data2D" or \ self.enable2D: Tctl.Show(True) else: Tctl.Hide() self.sizer4_4.Add(Tctl, (iy, ix), (1, 1), wx.EXPAND | wx.ADJUST_MINSIZE, 0) self.fixed_param.append([None, name2, Tctl, None, None, None, None, None]) self.orientation_params_disp.append([None, name2, Tctl, None, None, None, None, None]) elif p == "nsigmas": ix = 7 value = self.model.getParam(name3) Tct2 = ModelTextCtrl(self, wx.ID_ANY, size=(_BOX_WIDTH / 2.2, 20), style=wx.TE_PROCESS_ENTER) Tct2.SetValue(str(format_number(value))) if self.data.__class__.__name__ == "Data2D" or \ self.enable2D: Tct2.Show(True) else: Tct2.Hide() self.sizer4_4.Add(Tct2, (iy, ix), (1, 1), wx.EXPAND | wx.ADJUST_MINSIZE, 0) self.fixed_param.append([None, name3, Tct2, None, None, None, None, None]) self.orientation_params_disp.append([None, name3, Tct2, None, None, None, None, None]) ix = 8 disp_box = wx.ComboBox(self, wx.ID_ANY, size=(65, -1), style=wx.CB_READONLY, name='%s' % name1) for key, value in POLYDISPERSITY_MODELS.iteritems(): name_disp = str(key) disp_box.Append(name_disp, value) disp_box.SetStringSelection("gaussian") wx.EVT_COMBOBOX(disp_box, wx.ID_ANY, self._on_disp_func) self.sizer4_4.Add(disp_box, (iy, ix), (1, 1), wx.EXPAND) self.fittable_param.append([cb, name1, ctl1, text2, ctl2, ctl3, ctl4, disp_box]) self.orientation_params_disp.append([cb, name1, ctl1, text2, ctl2, ctl3, ctl4, disp_box]) if self.data.__class__.__name__ == "Data2D" or \ self.enable2D: disp_box.Show(True) else: disp_box.Hide() self.state.disp_cb_dict = copy.deepcopy(self.disp_cb_dict) self.state.model = self.model.clone() # save state into self._copy_parameters_state(self.parameters, self.state.parameters) self._copy_parameters_state(self.orientation_params_disp, self.state.orientation_params_disp) self._copy_parameters_state(self.fittable_param, self.state.fittable_param) self._copy_parameters_state(self.fixed_param, self.state.fixed_param) wx.PostEvent(self.parent, StatusEvent(status=" Selected Distribution: Gaussian")) # Fill the list of fittable parameters self.get_all_checked_params() self.Layout() def _onDraw(self, event): """ Update and Draw the model """ if self.model is None: msg = "Please select a Model first..." wx.MessageBox(msg, 'Info') return """ if not self.data.is_data: self.npts_x = self.Npts_total.GetValue() self.Npts_fit.SetValue(self.npts_x) self.create_default_data() """ flag, is_modified = self._update_paramv_on_fit() wx.CallAfter(self._onparamEnter_helper, is_modified) if not flag: msg = "The parameters are invalid" wx.PostEvent(self._manager.parent, StatusEvent(status=msg)) return def _onFit(self, event): """ Allow to fit """ if event is not None: event.Skip() if self.fit_started: self._StopFit() self.fit_started = False wx.CallAfter(self.set_fitbutton) return if self.data is None: msg = "Please get Data first..." wx.MessageBox(msg, 'Info') wx.PostEvent(self._manager.parent, StatusEvent(status="Fit: %s" % msg)) return if self.model is None: msg = "Please select a Model first..." wx.MessageBox(msg, 'Info') wx.PostEvent(self._manager.parent, StatusEvent(status="Fit: %s" % msg, type="stop")) return if len(self.param_toFit) <= 0: msg = "Select at least one parameter to fit" wx.MessageBox(msg, 'Info') wx.PostEvent(self._manager.parent, StatusEvent(status=msg, type="stop")) return flag = self._update_paramv_on_fit() if self.batch_on and not self._is_2D(): if not self._validate_Npts_1D(): return if not flag: msg = "Fitting range or parameters are invalid" wx.PostEvent(self._manager.parent, StatusEvent(status=msg, type="stop")) return self.select_param() # Remove or do not allow fitting on the Q=0 point, especially # when y(q=0)=None at x[0]. self.qmin_x = float(self.qmin.GetValue()) self.qmax_x = float(self.qmax.GetValue()) self._manager._reset_schedule_problem(value=0, uid=self.uid) self._manager.schedule_for_fit(uid=self.uid, value=1) self._manager.set_fit_range(uid=self.uid, qmin=self.qmin_x, qmax=self.qmax_x) # single fit # self._manager.onFit(uid=self.uid) self.fit_started = self._manager.onFit(uid=self.uid) wx.CallAfter(self.set_fitbutton) def _onFitHelp(self, event): """ Bring up the Full Fitting Documentation whenever the HELP button is clicked. Calls DocumentationWindow with the path of the location within the documentation tree (after /doc/ ....". Note that when using old versions of Wx (before 2.9) and thus not the release version of installers, the help comes up at the top level of the file as web browser does not pass anything past the # to the browser when it is running "file:///...." :param evt: Triggers on clicking the help button """ _TreeLocation = "user/sasgui/perspectives/fitting/fitting_help.html" _doc_viewer = DocumentationWindow(self, wx.ID_ANY, _TreeLocation, "", "General Fitting Help") def _onSmearHelp(self, event): """ Bring up the instrumental resolution smearing Documentation whenever the ? button in the smearing box is clicked. Calls DocumentationWindow with the path of the location within the documentation tree (after /doc/ ....". Note that when using old versions of Wx (before 2.9) and thus not the release version of installers, the help comes up at the top level of the file as web browser does not pass anything past the # to the browser when it is running "file:///...." :param evt: Triggers on clicking the help button """ _TreeLocation = "user/sasgui/perspectives/fitting/sm_help.html" _doc_viewer = DocumentationWindow(self, wx.ID_ANY, _TreeLocation, "", "Instrumental Resolution Smearing \ Help") def set_fitbutton(self): """ Set fit button label depending on the fit_started[bool] """ # Skip this feature if we are not on Windows # NOTE: the is_mac data member actually means "is no Windows". if self.is_mac: return if self.fit_started: label = "Stop" color = "red" else: label = "Fit" color = "black" # self.btFit.Enable(False) self.btFit.SetLabel(label) self.btFit.SetForegroundColour(color) self.btFit.Enable(True) def get_weight_flag(self): """ Get flag corresponding to a given weighting dI data. """ button_list = [self.dI_noweight, self.dI_didata, self.dI_sqrdata, self.dI_idata] flag = 1 for item in button_list: if item.GetValue(): if button_list.index(item) == 0: flag = 0 # dy = numpy.ones_like(dy_data) elif button_list.index(item) == 1: flag = 1 # dy = dy_data elif button_list.index(item) == 2: flag = 2 # dy = numpy.sqrt(numpy.abs(data)) elif button_list.index(item) == 3: flag = 3 # dy = numpy.abs(data) break return flag def _StopFit(self, event=None): """ Stop fit """ if event is not None: event.Skip() self._manager.stop_fit(self.uid) self._manager._reset_schedule_problem(value=0) self._on_fit_complete() def rename_model(self): """ find a short name for model """ if self.model is not None: self.model.name = "M" + str(self.index_model) def _on_select_model(self, event=None): """ call back for model selection """ self.Show(False) copy_flag = False is_poly_enabled = None if event is not None: if (event.GetEventObject() == self.formfactorbox and self.structurebox.GetLabel() != 'None')\ or event.GetEventObject() == self.structurebox\ or event.GetEventObject() == self.multifactorbox: copy_flag = self.get_copy_params() is_poly_enabled = self.enable_disp.GetValue() self._on_select_model_helper() self.set_model_param_sizer(self.model) if self.model is None: self._set_bookmark_flag(False) self._keep.Enable(False) self._set_save_flag(False) self.enable_disp.SetValue(False) self.disable_disp.SetValue(True) # TODO: should not have an untrapped exception when displaying disperser # TODO: do we need to create the disperser panel on every model change? # Note: if we fix this, then remove ID_DISPERSER_HELP from basepage try: self.set_dispers_sizer() except: pass self.state.enable_disp = self.enable_disp.GetValue() self.state.disable_disp = self.disable_disp.GetValue() self.state.pinhole_smearer = self.pinhole_smearer.GetValue() self.state.slit_smearer = self.slit_smearer.GetValue() self.state.structurecombobox = self.structurebox.GetValue() self.state.formfactorcombobox = self.formfactorbox.GetValue() self.state.categorycombobox = self.categorybox.GetValue() self.enable_fit_button() if self.model is not None: self.m_name = self.model.name self.state.m_name = self.m_name self.rename_model() self._set_copy_flag(True) self._set_paste_flag(True) if self.data is not None: is_data = check_data_validity(self.data) if is_data: self._set_bookmark_flag(not self.batch_on) self._keep.Enable(not self.batch_on) self._set_save_flag(True) #Setting smearing for cases with and without data. self._set_smear(self.data) # more disables for 2D self._set_smear_buttons() try: # update smearer sizer #This call for smearing set up caused double evaluation of #I(q) and double compilation as results #self.onSmear(None) temp_smear = None if not self.disable_smearer.GetValue(): # Set the smearer environments temp_smear = self.current_smearer except: raise # error occured on chisqr computation # pass # event to post model to fit to fitting plugins (ModelEventbox, EVT_MODEL_BOX) = wx.lib.newevent.NewEvent() # set smearing value whether or not data contain the smearing info evt = ModelEventbox(model=self.model, smearer=temp_smear, enable_smearer=not self.disable_smearer.GetValue(), qmin=float(self.qmin_x), uid=self.uid, caption=self.window_caption, qmax=float(self.qmax_x)) self._manager._on_model_panel(evt=evt) self.mbox_description.SetLabel("Model [ %s ]" % str(self.model.name)) self.mbox_description.SetForegroundColour(wx.BLUE) self.state.model = self.model.clone() self.state.model.name = self.model.name if event is not None: # post state to fit panel new_event = PageInfoEvent(page=self) wx.PostEvent(self.parent, new_event) # update list of plugins if new plugin is available custom_model = CUSTOM_MODEL mod_cat = self.categorybox.GetStringSelection() if mod_cat == custom_model: temp = self.parent.update_model_list() if temp: self.model_list_box = temp current_val = self.formfactorbox.GetLabel() pos = self.formfactorbox.GetSelection() self._show_combox_helper() self.formfactorbox.SetSelection(pos) self.formfactorbox.SetValue(current_val) # when select a model only from guictr/button if is_poly_enabled is not None: self.enable_disp.SetValue(is_poly_enabled) self.disable_disp.SetValue(not is_poly_enabled) self._set_dipers_Param(event=None) self.state.enable_disp = self.enable_disp.GetValue() self.state.disable_disp = self.disable_disp.GetValue() # Keep the previous param values if copy_flag: self.get_paste_params(copy_flag) wx.CallAfter(self._onDraw, None) else: self._draw_model() if self.batch_on: self.slit_smearer.Enable(False) self.pinhole_smearer.Enable(False) self.btEditMask.Disable() self.EditMask_title.Disable() self.Show(True) self.SetupScrolling() def _onparamEnter(self, event): """ when enter value on panel redraw model according to changed """ if self.model is None: msg = "Please select a Model first..." wx.MessageBox(msg, 'Info') return # default flag flag = False self.fitrange = True # get event object tcrtl = event.GetEventObject() # Clear msg if previously shown. msg = "" wx.PostEvent(self._manager.parent, StatusEvent(status=msg)) if check_float(tcrtl): flag = self._onparamEnter_helper() self.show_npts2fit() if self.fitrange: temp_smearer = None if not self.disable_smearer.GetValue(): temp_smearer = self.current_smearer # set smearing value whether or not data contain the # smearing info if self.slit_smearer.GetValue(): flag1 = self.update_slit_smear() flag = flag or flag1 elif self.pinhole_smearer.GetValue(): flag1 = self.update_pinhole_smear() flag = flag or flag1 elif self.data.__class__.__name__ != "Data2D" and \ not self.enable2D: enable_smearer = not self.disable_smearer.GetValue() self._manager.set_smearer(smearer=temp_smearer, fid=self.data.id, uid=self.uid, qmin=float(self.qmin_x), qmax=float(self.qmax_x), enable_smearer=enable_smearer) if flag: # self.compute_chisqr(smearer= temp_smearer) # new state posted if self.state_change: # self._undo.Enable(True) event = PageInfoEvent(page=self) wx.PostEvent(self.parent, event) self.state_change = False else: # invalid fit range: do nothing here: # msg already displayed in validate return else: self.save_current_state() msg = "Cannot Plot: Must enter a number!!! " wx.PostEvent(self._manager.parent, StatusEvent(status=msg)) self.save_current_state() return def _onparamRangeEnter(self, event): """ Check validity of value enter in the parameters range field """ tcrtl = event.GetEventObject() # Clear msg if previously shown. msg = "" wx.PostEvent(self._manager.parent, StatusEvent(status=msg)) # Flag to register when a parameter has changed. is_modified = False if tcrtl.GetValue().lstrip().rstrip() != "": try: tcrtl.SetBackgroundColour(wx.WHITE) self._check_value_enter(self.fittable_param) self._check_value_enter(self.parameters) except: tcrtl.SetBackgroundColour("pink") msg = "Model Error:wrong value entered : %s" % sys.exc_value wx.PostEvent(self._manager.parent, StatusEvent(status=msg)) return else: tcrtl.SetBackgroundColour(wx.WHITE) # self._undo.Enable(True) self.save_current_state() event = PageInfoEvent(page=self) wx.PostEvent(self.parent, event) self.state_change = False def qrang_set_focus(self, event=None): """ ON Qrange focus """ if event is not None: event.Skip() # tcrtl = event.GetEventObject() self._validate_qrange(self.qmin, self.qmax) def qrange_click(self, event): """ On Qrange textctrl click, make the qrange lines in the plot """ if event is not None: event.Skip() if self.data.__class__.__name__ == "Data2D": return is_click = event.LeftDown() if is_click: d_id = self.data.id d_group_id = self.data.group_id act_ctrl = event.GetEventObject() wx.PostEvent(self._manager.parent, PlotQrangeEvent(ctrl=[self.qmin, self.qmax], id=d_id, group_id=d_group_id, leftdown=is_click, active=act_ctrl)) def on_qrange_text(self, event): """ #On q range value updated. DO not combine with qrange_click(). """ if event is not None: event.Skip() if self.data.__class__.__name__ == "Data2D": return act_ctrl = event.GetEventObject() d_id = self.data.id d_group_id = self.data.group_id wx.PostEvent(self._manager.parent, PlotQrangeEvent(ctrl=[self.qmin, self.qmax], id=d_id, group_id=d_group_id, leftdown=False, active=act_ctrl)) self._validate_qrange(self.qmin, self.qmax) def on_key(self, event): """ On Key down """ event.Skip() if self.data.__class__.__name__ == "Data2D": return ctrl = event.GetEventObject() try: x_data = float(ctrl.GetValue()) except: return key = event.GetKeyCode() length = len(self.data.x) indx = (numpy.abs(self.data.x - x_data)).argmin() # return array.flat[idx] if key == wx.WXK_PAGEUP or key == wx.WXK_NUMPAD_PAGEUP: indx += 1 if indx >= length: indx = length - 1 elif key == wx.WXK_PAGEDOWN or key == wx.WXK_NUMPAD_PAGEDOWN: indx -= 1 if indx < 0: indx = 0 else: return ctrl.SetValue(str(self.data.x[indx])) self._validate_qrange(self.qmin, self.qmax) def _onQrangeEnter(self, event): """ Check validity of value enter in the Q range field """ tcrtl = event.GetEventObject() # Clear msg if previously shown. msg = "" wx.PostEvent(self._manager.parent, StatusEvent(status=msg)) # For theory mode if not self.data.is_data: self.npts_x = self.Npts_total.GetValue() self.Npts_fit.SetValue(self.npts_x) self.create_default_data() # Flag to register when a parameter has changed. if tcrtl.GetValue().lstrip().rstrip() != "": try: tcrtl.SetBackgroundColour(wx.WHITE) # If qmin and qmax have been modified, update qmin and qmax if self._validate_qrange(self.qmin, self.qmax): tempmin = float(self.qmin.GetValue()) if tempmin != self.qmin_x: self.qmin_x = tempmin tempmax = float(self.qmax.GetValue()) if tempmax != self.qmax_x: self.qmax_x = tempmax else: tcrtl.SetBackgroundColour("pink") msg = "Model Error:wrong value entered : %s" % sys.exc_value wx.PostEvent(self._manager.parent, StatusEvent(status=msg)) return except: tcrtl.SetBackgroundColour("pink") msg = "Model Error:wrong value entered : %s" % sys.exc_value wx.PostEvent(self._manager.parent, StatusEvent(status=msg)) return # Check if # of points for theory model are valid(>0). # check for 2d if self.data.__class__.__name__ == "Data2D" or \ self.enable2D: # set mask radius = numpy.sqrt(self.data.qx_data * self.data.qx_data + self.data.qy_data * self.data.qy_data) index_data = ((self.qmin_x <= radius) & (radius <= self.qmax_x)) index_data = (index_data) & (self.data.mask) index_data = (index_data) & (numpy.isfinite(self.data.data)) if len(index_data[index_data]) < 10: msg = "Cannot Plot :No or too little npts in" msg += " that data range!!! " wx.PostEvent(self._manager.parent, StatusEvent(status=msg)) return else: # self.data.mask = index_data # self.Npts_fit.SetValue(str(len(self.data.mask))) self.show_npts2fit() else: index_data = ((self.qmin_x <= self.data.x) & (self.data.x <= self.qmax_x)) self.Npts_fit.SetValue(str(len(self.data.x[index_data]))) self.npts_x = self.Npts_total.GetValue() self.create_default_data() self._save_plotting_range() else: tcrtl.SetBackgroundColour("pink") msg = "Model Error:wrong value entered!!!" wx.PostEvent(self._manager.parent, StatusEvent(status=msg)) self._draw_model() self.save_current_state() event = PageInfoEvent(page=self) wx.PostEvent(self.parent, event) self.state_change = False return def _clear_Err_on_Fit(self): """ hide the error text control shown after fitting """ if self.is_mac: return if hasattr(self, "text2_3"): self.text2_3.Hide() if len(self.parameters) > 0: for item in self.parameters: if item[0].IsShown(): # Skip the angle parameters if 1D data if self.data.__class__.__name__ != "Data2D" and \ not self.enable2D: if item in self.orientation_params: continue if item in self.param_toFit: continue # hide statictext +/- if len(item) < 4: continue if item[3] is not None and item[3].IsShown(): item[3].Hide() # hide textcrtl for error after fit if item[4] is not None and item[4].IsShown(): item[4].Hide() if len(self.fittable_param) > 0: for item in self.fittable_param: if item[0].IsShown(): # Skip the angle parameters if 1D data if self.data.__class__.__name__ != "Data2D" and \ not self.enable2D: if item in self.orientation_params: continue if item in self.param_toFit: continue if len(item) < 4: continue # hide statictext +/- if item[3] is not None and item[3].IsShown(): item[3].Hide() # hide textcrtl for error after fit if item[4] is not None and item[4].IsShown(): item[4].Hide() return def _get_defult_custom_smear(self): """ Get the defult values for custum smearing. """ # get the default values if self.dxl is None: self.dxl = 0.0 if self.dxw is None: self.dxw = "" if self.dx_min is None: self.dx_min = SMEAR_SIZE_L if self.dx_max is None: self.dx_max = SMEAR_SIZE_H def _get_smear_info(self): """ Get the smear info from data. :return: self.smear_type, self.dq_l and self.dq_r, respectively the type of the smear, dq_min and dq_max for pinhole smear data while dxl and dxw for slit smear """ # default self.smear_type = None self.dq_l = None self.dq_r = None data = self.data if self.data is None: return elif self.data.__class__.__name__ == "Data2D" or \ self.enable2D: if data.dqx_data is None or data.dqy_data is None: return elif self.current_smearer is not None \ and data.dqx_data.any() != 0 \ and data.dqx_data.any() != 0: self.smear_type = "Pinhole2d" self.dq_l = format_number(numpy.average(data.dqx_data)) self.dq_r = format_number(numpy.average(data.dqy_data)) return else: return # check if it is pinhole smear and get min max if it is. if data.dx is not None and numpy.any(data.dx): self.smear_type = "Pinhole" self.dq_l = data.dx[0] self.dq_r = data.dx[-1] # check if it is slit smear and get min max if it is. elif data.dxl is not None or data.dxw is not None: self.smear_type = "Slit" if data.dxl is not None and not numpy.all(data.dxl, 0): self.dq_l = data.dxl[0] if data.dxw is not None and not numpy.all(data.dxw, 0): self.dq_r = data.dxw[0] # return self.smear_type,self.dq_l,self.dq_r def _show_smear_sizer(self): """ Show only the sizers depending on smear selection """ # smear disabled if self.disable_smearer.GetValue(): self.smear_description_none.Show(True) # 2Dsmear elif self._is_2D(): self.smear_description_accuracy_type.Show(True) self.smear_accuracy.Show(True) self.smear_description_accuracy_type.Show(True) self.smear_description_2d.Show(True) self.smear_description_2d_x.Show(True) self.smear_description_2d_y.Show(True) if self.pinhole_smearer.GetValue(): self.smear_pinhole_min.Show(True) self.smear_pinhole_max.Show(True) # smear from data elif self.enable_smearer.GetValue(): self.smear_description_dqdata.Show(True) if self.smear_type is not None: self.smear_description_smear_type.Show(True) if self.smear_type == 'Slit': self.smear_description_slit_height.Show(True) self.smear_description_slit_width.Show(True) elif self.smear_type == 'Pinhole': self.smear_description_pin_min.Show(True) self.smear_description_pin_max.Show(True) self.smear_description_smear_type.Show(True) self.smear_description_type.Show(True) self.smear_data_left.Show(True) self.smear_data_right.Show(True) # custom pinhole smear elif self.pinhole_smearer.GetValue(): if self.smear_type == 'Pinhole': self.smear_message_new_p.Show(True) self.smear_description_pin_min.Show(True) self.smear_description_pin_max.Show(True) self.smear_pinhole_min.Show(True) self.smear_pinhole_max.Show(True) # custom slit smear elif self.slit_smearer.GetValue(): self.smear_message_new_s.Show(True) self.smear_description_slit_height.Show(True) self.smear_slit_height.Show(True) self.smear_description_slit_width.Show(True) self.smear_slit_width.Show(True) def _hide_all_smear_info(self): """ Hide all smearing messages in the set_smearer sizer """ self.smear_description_none.Hide() self.smear_description_dqdata.Hide() self.smear_description_type.Hide() self.smear_description_smear_type.Hide() self.smear_description_accuracy_type.Hide() self.smear_description_2d_x.Hide() self.smear_description_2d_y.Hide() self.smear_description_2d.Hide() self.smear_accuracy.Hide() self.smear_data_left.Hide() self.smear_data_right.Hide() self.smear_description_pin_min.Hide() self.smear_pinhole_min.Hide() self.smear_description_pin_max.Hide() self.smear_pinhole_max.Hide() self.smear_description_slit_height.Hide() self.smear_slit_height.Hide() self.smear_description_slit_width.Hide() self.smear_slit_width.Hide() self.smear_message_new_p.Hide() self.smear_message_new_s.Hide() def _set_accuracy_list(self): """ Set the list of an accuracy in 2D custum smear: Xhigh, High, Med, or Low """ # list of accuracy choices list = ['Low', 'Med', 'High', 'Xhigh'] for idx in range(len(list)): self.smear_accuracy.Append(list[idx], idx) def _set_fun_box_list(self, fun_box): """ Set the list of func for multifunctional models """ # Check if it is multi_functional model if self.model.__class__ not in self.model_list_box["Multi-Functions"] \ and not self.temp_multi_functional: return None # Get the func name list list = self.model.fun_list if len(list) == 0: return None # build function (combo)box ind = 0 while(ind < len(list)): for key, val in list.iteritems(): if (val == ind): fun_box.Append(key, val) break ind += 1 def _on_select_accuracy(self, event): """ Select an accuracy in 2D custom smear: Xhigh, High, Med, or Low """ # event.Skip() # Check if the accuracy is same as before # self.smear2d_accuracy = event.GetEventObject().GetValue() self.smear2d_accuracy = self.smear_accuracy.GetValue() if self.pinhole_smearer.GetValue(): self.onPinholeSmear(event=None) else: self.onSmear(event=None) if self.current_smearer is not None: self.current_smearer.set_accuracy(accuracy=\ self.smear2d_accuracy) event.Skip() def _on_fun_box(self, event): """ Select an func: Erf,Rparabola,LParabola """ fun_val = None fun_box = event.GetEventObject() name = fun_box.Name value = fun_box.GetValue() if value in self.model.fun_list: fun_val = self.model.fun_list[value] self.model.setParam(name, fun_val) # save state self._copy_parameters_state(self.str_parameters, self.state.str_parameters) # update params self._update_paramv_on_fit() # draw self._draw_model() self.Refresh() # get ready for new event event.Skip() def _onMask(self, event): """ Build a panel to allow to edit Mask """ from sas.sasgui.guiframe.local_perspectives.plotting.masking import \ MaskPanel as MaskDialog self.panel = MaskDialog(base=self, data=self.data, id=wx.NewId()) self.panel.ShowModal() def _draw_masked_model(self, event): """ Draw model image w/mask """ is_valid_qrange = self._update_paramv_on_fit() if is_valid_qrange and self.model is not None: self.panel.MakeModal(False) event.Skip() # try re draw the model plot if it exists self._draw_model() self.show_npts2fit() elif self.model is None: self.panel.MakeModal(False) event.Skip() self.show_npts2fit() msg = "No model is found on updating MASK in the model plot... " wx.PostEvent(self._manager.parent, StatusEvent(status=msg)) else: event.Skip() msg = ' Please consider your Q range, too.' self.panel.ShowMessage(msg) def _set_smear(self, data): """ Set_smear """ if data is None: return self.current_smearer = smear_selection(data, self.model) flag = self.disable_smearer.GetValue() if self.current_smearer is None: self.enable_smearer.Disable() else: self.enable_smearer.Enable() if not flag: self.onSmear(None) def _mac_sleep(self, sec=0.2): """ Give sleep to MAC """ if self.is_mac: time.sleep(sec) def get_view_mode(self): """ return True if the panel allow 2D or False if 1D """ return self.enable2D def compute_data_set_range(self, data_list): """ find the range that include all data in the set return the minimum and the maximum values """ if data_list is not None and data_list != []: for data in data_list: qmin, qmax, npts = self.compute_data_range(data) self.qmin_data_set = min(self.qmin_data_set, qmin) self.qmax_data_set = max(self.qmax_data_set, qmax) self.npts_data_set += npts return self.qmin_data_set, self.qmax_data_set, self.npts_data_set def compute_data_range(self, data): """ compute the minimum and the maximum range of the data return the npts contains in data :param data: """ qmin, qmax, npts = None, None, None if data is not None: if not hasattr(data, "data"): try: qmin = min(data.x) # Maximum value of data qmax = max(data.x) npts = len(data.x) except: msg = "Unable to find min/max/length of \n data named %s" %\ data.filename wx.PostEvent(self._manager.parent, StatusEvent(status=msg, info="error")) raise ValueError, msg else: qmin = 0 try: x = max(math.fabs(data.xmin), math.fabs(data.xmax)) y = max(math.fabs(data.ymin), math.fabs(data.ymax)) except: msg = "Unable to find min/max of \n data named %s" % \ data.filename wx.PostEvent(self._manager.parent, StatusEvent(status=msg, info="error")) raise ValueError, msg # Maximum value of data qmax = math.sqrt(x * x + y * y) npts = len(data.data) return qmin, qmax, npts def set_data(self, data): """ reset the current data """ id = None flag = False is_data = False npts = 0 try: old_id = self.data.id old_group_id = self.data.group_id except: old_id = id old_group_id = id if self.data is not None: is_data = check_data_validity(self.data) if not is_data and data is not None: flag = True if data is not None: if is_data: self.graph_id = self.data.group_id flag = (data.id != self.data.id) self.data = data if check_data_validity(data): self.graph_id = data.group_id self.data.group_id = self.graph_id if self.data is None: data_name = "" self._set_bookmark_flag(False) self._keep.Enable(False) self._set_save_flag(False) else: if self.model is not None: self._set_bookmark_flag(not self.batch_on) self._keep.Enable(not self.batch_on) if self.data.is_data: self._set_save_flag(True) self._set_preview_flag(True) # more disables for 2D di_flag = False dq_flag = False if self.data.__class__.__name__ == "Data2D" or \ self.enable2D: self.slit_smearer.Disable() self.pinhole_smearer.Enable(True) self.default_mask = copy.deepcopy(self.data.mask) if self.data.err_data is not None \ and numpy.any(self.data.err_data): di_flag = True if self.data.dqx_data is not None \ and numpy.any(self.data.dqx_data): dq_flag = True else: self.slit_smearer.Enable(True) self.pinhole_smearer.Enable(True) if self.data.dy is not None and numpy.any(self.data.dy): di_flag = True if self.data.dx is not None and numpy.any(self.data.dx): dq_flag = True elif self.data.dxl is not None and numpy.any(self.data.dxl): dq_flag = True if dq_flag: self.enable_smearer.Enable(True) self.enable_smearer.SetValue(True) self.disable_smearer.SetValue(False) else: self.enable_smearer.Disable() self.disable_smearer.Enable(True) self.disable_smearer.SetValue(True) if di_flag: self.dI_didata.Enable(True) self.dI_didata.SetValue(True) self.weightbt_string = self.dI_didata.GetLabelText() else: self.dI_didata.Enable(False) self.dI_noweight.SetValue(True) self.weightbt_string = self.dI_noweight.GetLabelText() # Enable weighting radio buttons self.dI_noweight.Enable(True) self.dI_sqrdata.Enable(True) self.dI_idata.Enable(True) self.formfactorbox.Enable() self.structurebox.Enable() data_name = self.data.name _, _, npts = self.compute_data_range(self.data) # set maximum range for x in linear scale if not hasattr(self.data, "data"): # Display only for 1D data fit self.btEditMask.Disable() self.EditMask_title.Disable() else: self.btEditMask.Enable() self.EditMask_title.Enable() self.Npts_total.SetValue(str(npts)) # default:number of data points selected to fit self.Npts_fit.SetValue(str(npts)) self.Npts_total.SetEditable(False) self.Npts_total.SetBackgroundColour( self.GetParent().GetBackgroundColour()) self.Npts_total.Bind(wx.EVT_MOUSE_EVENTS, self._npts_click) self.pointsbox.Disable() self.dataSource.SetValue(data_name) self.state.data = data self.enable_fit_button() # send graph_id to page_finder self._manager.set_graph_id(uid=self.uid, graph_id=self.graph_id) # focus the page if check_data_validity(data): self.data_box_description.SetForegroundColour(wx.BLUE) if self.batch_on: self.slit_smearer.Enable(False) self.pinhole_smearer.Enable(False) self.btEditMask.Disable() self.EditMask_title.Disable() self.onSmear(event=None) self.on_set_focus(None) self.Refresh() # update model plot with new data information if flag: if self.data.__class__.__name__ == "Data2D": self.enable2D = True self.model_view.SetLabel("2D Mode") else: self.enable2D = False self.model_view.SetLabel("1D Mode") self.model_view.Disable() # replace data plot on combo box selection # by removing the previous selected data try: wx.PostEvent(self._manager.parent, NewPlotEvent(action="delete", group_id=old_group_id, id=old_id)) except: pass # plot the current selected data wx.PostEvent(self._manager.parent, NewPlotEvent(action="check", plot=self.data, title=str(self.data.title))) self._draw_model() def _npts_click(self, event): """ Prevent further handling of the mouse event on Npts_total by not calling Skip(). """ pass def reset_page(self, state, first=False): """ reset the state """ try: self.reset_page_helper(state) self.select_param() # Save state_fit self.save_current_state_fit() except: self._show_combox_helper() msg = "Error: This model state has missing or outdated " msg += "information.\n" msg += traceback.format_exc() wx.PostEvent(self._manager.parent, StatusEvent(status=msg, info="error")) self._lay_out() self.Refresh() def get_range(self): """ return the fitting range """ return float(self.qmin_x), float(self.qmax_x) def get_npts2fit(self): """ return numbers of data points within qrange :Note: This is to normalize chisq by Npts of fit """ if self.data is None: return npts2fit = 0 qmin, qmax = self.get_range() if self.data.__class__.__name__ == "Data2D" or \ self.enable2D: radius = numpy.sqrt(self.data.qx_data * self.data.qx_data + self.data.qy_data * self.data.qy_data) index_data = (self.qmin_x <= radius) & (radius <= self.qmax_x) index_data = (index_data) & (self.data.mask) index_data = (index_data) & (numpy.isfinite(self.data.data)) npts2fit = len(self.data.data[index_data]) else: for qx in self.data.x: if qmax >= qx >= qmin: npts2fit += 1 return npts2fit def show_npts2fit(self): """ setValue Npts for fitting """ self.Npts_fit.SetValue(str(self.get_npts2fit())) def get_chi2(self): """ return the current chi2 """ return self.tcChi.GetValue() def onsetValues(self, chisqr, p_name, out, cov): """ Build the panel from the fit result :param chisqr: Value of the goodness of fit metric :param p_name: the name of parameters :param out: list of parameter with the best value found during fitting :param cov: Covariance matrix """ # make sure stop button to fit button all the time self._on_fit_complete() if out is None or not numpy.isfinite(chisqr): raise ValueError, "Fit error occured..." is_modified = False has_error = False dispersity = '' # Hide textctrl boxes of errors. self._clear_Err_on_Fit() # Check if chi2 is finite if chisqr is not None and numpy.isfinite(chisqr): # format chi2 chi2 = format_number(chisqr, True) self.tcChi.SetValue(chi2) self.tcChi.Refresh() else: self.tcChi.SetValue("-") # Hide error title if self.text2_3.IsShown() and not self.is_mac: self.text2_3.Hide() try: if self.enable_disp.GetValue(): if hasattr(self, "text_disp_1"): if self.text_disp_1 is not None and not self.is_mac: self.text_disp_1.Hide() except: dispersity = None pass i = 0 # Set the panel when fit result are list for item in self.param_toFit: if len(item) > 5 and item is not None: if item[0].IsShown(): # reset error value to initial state if not self.is_mac: item[3].Hide() item[4].Hide() for ind in range(len(out)): if item[1] == p_name[ind]: break if len(out) > 0 and out[ind] is not None: val_out = format_number(out[ind], True) item[2].SetValue(val_out) if(cov is not None and len(cov) == len(out)): try: if dispersity is not None: if self.enable_disp.GetValue(): if hasattr(self, "text_disp_1"): if self.text_disp_1 is not None: if not self.text_disp_1.IsShown()\ and not self.is_mac: self.text_disp_1.Show(True) except: pass if cov[ind] is not None: if numpy.isfinite(float(cov[ind])): val_err = format_number(cov[ind], True) item[4].SetForegroundColour(wx.BLACK) else: val_err = 'NaN' item[4].SetForegroundColour(wx.RED) if not self.is_mac: item[3].Show(True) item[4].Show(True) item[4].SetValue(val_err) has_error = True i += 1 else: raise ValueError, "onsetValues: Invalid parameters..." # Show error title when any errors displayed if has_error: if not self.text2_3.IsShown(): self.text2_3.Show(True) # save current state self.save_current_state() if not self.is_mac: self.Layout() self.Refresh() self._mac_sleep(0.1) # plot model ( when drawing, do not update chisqr value again) self._draw_model(update_chisqr=False, source='fit') def onWeighting(self, event): """ On Weighting radio button event, sets the weightbt_string """ self.weightbt_string = event.GetEventObject().GetLabelText() self._set_weight() def _set_weight(self, is_2D=None): """ Set weight in fit problem """ # compute weight for the current data flag_weight = self.get_weight_flag() if is_2D is None: is_2D = self._is_2D() self._manager.set_fit_weight(uid=self.uid, flag=flag_weight, is2d=is_2D, fid=None) def onPinholeSmear(self, event): """ Create a custom pinhole smear object that will change the way residuals are compute when fitting :Note: accuracy is given by strings'High','Med', 'Low' FOR 2d, None for 1D """ # Need update param values self._update_paramv_on_fit() if event is not None: tcrtl = event.GetEventObject() # event case of radio button if tcrtl.GetValue(): self.dx_min = 0.0 self.dx_max = 0.0 is_new_pinhole = True else: is_new_pinhole = self._is_changed_pinhole() else: is_new_pinhole = True # if any value is changed if is_new_pinhole: self._set_pinhole_smear() # hide all silt sizer self._hide_all_smear_info() # show relevant slit sizers self._show_smear_sizer() self.sizer_set_smearer.Layout() # we need FitInside here not just self.Layout to ensure all the sizers # end up with the necessasary space to in the scroll panel. In # particular the compute and fit buttons end up on top of each other # PDB Nov 28 2015. self.FitInside() if event is not None: event.Skip() # self._undo.Enable(True) self.save_current_state() event = PageInfoEvent(page=self) wx.PostEvent(self.parent, event) def _is_changed_pinhole(self): """ check if any of pinhole smear is changed :return: True or False """ # get the values pin_min = self.smear_pinhole_min.GetValue() pin_max = self.smear_pinhole_max.GetValue() # Check changes in slit width try: dx_min = float(pin_min) except: return True if self.dx_min != dx_min: return True # Check changes in slit heigth try: dx_max = float(pin_max) except: return True if self.dx_max != dx_max: return True return False def _set_pinhole_smear(self): """ Set custom pinhole smear :return: msg """ # copy data data = copy.deepcopy(self.data) if self._is_2D(): self.smear_type = 'Pinhole2d' len_data = len(data.data) data.dqx_data = numpy.zeros(len_data) data.dqy_data = numpy.zeros(len_data) else: self.smear_type = 'Pinhole' len_data = len(data.x) data.dx = numpy.zeros(len_data) data.dxl = None data.dxw = None msg = None get_pin_min = self.smear_pinhole_min get_pin_max = self.smear_pinhole_max if not check_float(get_pin_min): get_pin_min.SetBackgroundColour("pink") msg = "Model Error:wrong value entered!!!" elif not check_float(get_pin_max): get_pin_max.SetBackgroundColour("pink") msg = "Model Error:wrong value entered!!!" else: if len_data < 2: len_data = 2 self.dx_min = float(get_pin_min.GetValue()) self.dx_max = float(get_pin_max.GetValue()) if self.dx_min < 0: get_pin_min.SetBackgroundColour("pink") msg = "Model Error:This value can not be negative!!!" elif self.dx_max < 0: get_pin_max.SetBackgroundColour("pink") msg = "Model Error:This value can not be negative!!!" elif self.dx_min is not None and self.dx_max is not None: if self._is_2D(): data.dqx_data[data.dqx_data == 0] = self.dx_min data.dqy_data[data.dqy_data == 0] = self.dx_max elif self.dx_min == self.dx_max: data.dx[data.dx == 0] = self.dx_min else: step = (self.dx_max - self.dx_min) / (len_data - 1) data.dx = numpy.arange(self.dx_min, self.dx_max + step / 1.1, step) elif self.dx_min is not None: if self._is_2D(): data.dqx_data[data.dqx_data == 0] = self.dx_min else: data.dx[data.dx == 0] = self.dx_min elif self.dx_max is not None: if self._is_2D(): data.dqy_data[data.dqy_data == 0] = self.dx_max else: data.dx[data.dx == 0] = self.dx_max self.current_smearer = smear_selection(data, self.model) # 2D need to set accuracy if self._is_2D(): self.current_smearer.set_accuracy( accuracy=self.smear2d_accuracy) if msg is not None: wx.PostEvent(self._manager.parent, StatusEvent(status=msg)) else: get_pin_min.SetBackgroundColour("white") get_pin_max.SetBackgroundColour("white") # set smearing value whether or not the data contain the smearing info enable_smearer = not self.disable_smearer.GetValue() self._manager.set_smearer(smearer=self.current_smearer, fid=self.data.id, qmin=float(self.qmin_x), qmax=float(self.qmax_x), enable_smearer=enable_smearer, uid=self.uid) return msg def update_pinhole_smear(self): """ called by kill_focus on pinhole TextCntrl to update the changes :return: False when wrong value was entered """ # msg default msg = None # check if any value is changed if self._is_changed_pinhole(): msg = self._set_pinhole_smear() wx.CallAfter(self.save_current_state) if msg is not None: return False else: return True def onSlitSmear(self, event): """ Create a custom slit smear object that will change the way residuals are compute when fitting """ # Need update param values self._update_paramv_on_fit() # msg default msg = None # for event given if event is not None: tcrtl = event.GetEventObject() # event case of radio button if tcrtl.GetValue(): self.dxl = 0.0 self.dxw = 0.0 is_new_slit = True else: is_new_slit = self._is_changed_slit() else: is_new_slit = True # if any value is changed if is_new_slit: msg = self._set_slit_smear() # hide all silt sizer self._hide_all_smear_info() # show relevant slit sizers self._show_smear_sizer() self.sizer_set_smearer.Layout() # we need FitInside here not just self.Layout to ensure all the sizers # end up with the necessasary space to in the scroll panel. In # particular the compute and fit buttons end up on top of each other # PDB Nov 28 2015. self.FitInside() if event is not None: event.Skip() self.save_current_state() event = PageInfoEvent(page=self) wx.PostEvent(self.parent, event) if msg is not None: wx.PostEvent(self._manager.parent, StatusEvent(status=msg)) def _is_changed_slit(self): """ check if any of slit lengths is changed :return: True or False """ # get the values width = self.smear_slit_width.GetValue() height = self.smear_slit_height.GetValue() # check and change the box bg color if it was pink # but it should be white now # because this is the case that _set_slit_smear() will not handle if height.lstrip().rstrip() == "": self.smear_slit_height.SetBackgroundColour(wx.WHITE) if width.lstrip().rstrip() == "": self.smear_slit_width.SetBackgroundColour(wx.WHITE) # Check changes in slit width if width == "": dxw = 0.0 else: try: dxw = float(width) except: return True if self.dxw != dxw: return True # Check changes in slit heigth if height == "": dxl = 0.0 else: try: dxl = float(height) except: return True if self.dxl != dxl: return True return False def _set_slit_smear(self): """ Set custom slit smear :return: message to inform the user about the validity of the values entered for slit smear """ if self.data.__class__.__name__ == "Data2D" or self.enable2D: return # make sure once more if it is smearer data = copy.deepcopy(self.data) data_len = len(data.x) data.dx = None data.dxl = None data.dxw = None msg = None try: self.dxl = float(self.smear_slit_height.GetValue()) data.dxl = self.dxl * numpy.ones(data_len) self.smear_slit_height.SetBackgroundColour(wx.WHITE) except: self.dxl = None data.dxl = numpy.zeros(data_len) if self.smear_slit_height.GetValue().lstrip().rstrip() != "": self.smear_slit_height.SetBackgroundColour("pink") msg = "Wrong value entered... " else: self.smear_slit_height.SetBackgroundColour(wx.WHITE) try: self.dxw = float(self.smear_slit_width.GetValue()) self.smear_slit_width.SetBackgroundColour(wx.WHITE) data.dxw = self.dxw * numpy.ones(data_len) except: self.dxw = None data.dxw = numpy.zeros(data_len) if self.smear_slit_width.GetValue().lstrip().rstrip() != "": self.smear_slit_width.SetBackgroundColour("pink") msg = "Wrong Fit value entered... " else: self.smear_slit_width.SetBackgroundColour(wx.WHITE) self.current_smearer = smear_selection(data, self.model) # set smearing value whether or not the data contain the smearing info enable_smearer = not self.disable_smearer.GetValue() self._manager.set_smearer(smearer=self.current_smearer, fid=self.data.id, qmin=float(self.qmin_x), qmax=float(self.qmax_x), enable_smearer=enable_smearer, uid=self.uid) return msg def update_slit_smear(self): """ called by kill_focus on pinhole TextCntrl to update the changes :return: False when wrong value was entered """ # msg default msg = None # check if any value is changed if self._is_changed_slit(): msg = self._set_slit_smear() # self._undo.Enable(True) self.save_current_state() if msg is not None: return False else: return True def onSmear(self, event): """ Create a smear object that will change the way residuals are computed when fitting """ if event is not None: event.Skip() if self.data is None: return # Need update param values self._update_paramv_on_fit() if self.model is not None: if self.data.is_data: self._manager.page_finder[self.uid].add_data(data=self.data) temp_smearer = self.on_smear_helper() self.sizer_set_smearer.Layout() # we need FitInside here not just self.Layout to ensure all the sizers # end up with the necessasary space to in the scroll panel. In # particular the compute and fit buttons end up on top of each other # PDB Nov 28 2015. self.FitInside() self._set_weight() # set smearing value whether or not the data contain the smearing info enable_smearer = not self.disable_smearer.GetValue() wx.CallAfter(self._manager.set_smearer, uid=self.uid, smearer=temp_smearer, fid=self.data.id, qmin=float(self.qmin_x), qmax=float(self.qmax_x), enable_smearer=enable_smearer) self.state.enable_smearer = self.enable_smearer.GetValue() self.state.disable_smearer = self.disable_smearer.GetValue() self.state.pinhole_smearer = self.pinhole_smearer.GetValue() self.state.slit_smearer = self.slit_smearer.GetValue() def on_smear_helper(self, update=False): """ Help for onSmear :param update: force or not to update """ self._get_smear_info() # renew smear sizer if self.smear_type is not None: self.smear_description_smear_type.SetValue(str(self.smear_type)) self.smear_data_left.SetValue(str(self.dq_l)) self.smear_data_right.SetValue(str(self.dq_r)) self._hide_all_smear_info() data = copy.deepcopy(self.data) # make sure once more if it is smearer temp_smearer = smear_selection(data, self.model) if self.current_smearer != temp_smearer or update: self.current_smearer = temp_smearer if self.enable_smearer.GetValue(): if self.current_smearer is None: wx.PostEvent(self._manager.parent, StatusEvent(status="Data contains no smearing information")) else: wx.PostEvent(self._manager.parent, StatusEvent(status="Data contains smearing information")) self.smear_data_left.Show(True) self.smear_data_right.Show(True) temp_smearer = self.current_smearer elif self.disable_smearer.GetValue(): self.smear_description_none.Show(True) elif self.pinhole_smearer.GetValue(): self.onPinholeSmear(None) elif self.slit_smearer.GetValue(): self.onSlitSmear(None) self._show_smear_sizer() return temp_smearer def on_complete_chisqr(self, event): """ Display result chisqr on the panel :event: activated by fitting/ complete after draw """ try: if event is None: output = "-" elif not numpy.isfinite(event.output): output = "-" else: output = event.output self.tcChi.SetValue(str(format_number(output, True))) self.state.tcChi = self.tcChi.GetValue() except: pass def get_all_checked_params(self): """ Found all parameters current check and add them to list of parameters to fit """ self.param_toFit = [] for item in self.parameters: if item[0].GetValue() and item not in self.param_toFit: if item[0].IsShown(): self.param_toFit.append(item) for item in self.fittable_param: if item[0].GetValue() and item not in self.param_toFit: if item[0].IsShown(): self.param_toFit.append(item) self.save_current_state_fit() event = PageInfoEvent(page=self) wx.PostEvent(self.parent, event) param2fit = [] for item in self.param_toFit: if item[0] and item[0].IsShown(): param2fit.append(item[1]) self._manager.set_param2fit(self.uid, param2fit) def select_param(self, event=None): """ Select TextCtrl checked for fitting purpose and stores them in self.param_toFit=[] list """ self.param_toFit = [] for item in self.parameters: # Skip t ifhe angle parameters if 1D data if self.data.__class__.__name__ != "Data2D" and\ not self.enable2D: if item in self.orientation_params: continue # Select parameters to fit for list of primary parameters if item[0].GetValue() and item[0].IsShown(): if not (item in self.param_toFit): self.param_toFit.append(item) else: #remove parameters from the fitting list if item in self.param_toFit: self.param_toFit.remove(item) # Select parameters to fit for list of fittable parameters # with dispersion for item in self.fittable_param: # Skip t ifhe angle parameters if 1D data if self.data.__class__.__name__ != "Data2D" and\ not self.enable2D: if item in self.orientation_params: continue if item[0].GetValue() and item[0].IsShown(): if not (item in self.param_toFit): self.param_toFit.append(item) else: # remove parameters from the fitting list if item in self.param_toFit: self.param_toFit.remove(item) # Calculate num. of angle parameters if self.data.__class__.__name__ == "Data2D" or \ self.enable2D: len_orient_para = 0 else: len_orient_para = len(self.orientation_params) # assume even len # Total num. of angle parameters if len(self.fittable_param) > 0: len_orient_para *= 2 self.save_current_state_fit() if event is not None: # post state to fit panel event = PageInfoEvent(page=self) wx.PostEvent(self.parent, event) param2fit = [] for item in self.param_toFit: if item[0] and item[0].IsShown(): param2fit.append(item[1]) self._manager.set_param2fit(self.uid, param2fit) def set_model_param_sizer(self, model): """ Build the panel from the model content :param model: the model selected in combo box for fitting purpose """ self.sizer3.Clear(True) self.parameters = [] self.str_parameters = [] self.param_toFit = [] self.fittable_param = [] self.fixed_param = [] self.orientation_params = [] self.orientation_params_disp = [] if model is None: self.sizer3.Layout() self.SetupScrolling() return box_description = wx.StaticBox(self, wx.ID_ANY, str("Model Parameters")) boxsizer1 = wx.StaticBoxSizer(box_description, wx.VERTICAL) sizer = wx.GridBagSizer(5, 5) # save the current model self.model = model keys = self.model.getParamList() # list of dispersion parameters self.disp_list = self.model.getDispParamList() def custom_compare(a, b): """ Custom compare to order, first by alphabets then second by number. """ # number at the last digit a_last = a[len(a) - 1] b_last = b[len(b) - 1] # default num_a = None num_b = None # split the names a2 = a.lower().split('_') b2 = b.lower().split('_') # check length of a2, b2 len_a2 = len(a2) len_b2 = len(b2) # check if it contains a int number(<10) try: num_a = int(a_last) except: pass try: num_b = int(b_last) except: pass # Put 'scale' near the top; happens # when numbered param name exists if a == 'scale': return -1 # both have a number if num_a is not None and num_b is not None: if num_a > num_b: return -1 # same number elif num_a == num_b: # different last names if a2[len_a2 - 1] != b2[len_b2 - 1] and num_a != 0: return -cmp(a2[len_a2 - 1], b2[len_b2 - 1]) else: return cmp(a, b) else: return 1 # one of them has a number elif num_a is not None: return 1 elif num_b is not None: return -1 # no numbers else: return cmp(a.lower(), b.lower()) # keys obtained now from ordered dict, so commenting alphabetical # ordering keys.sort(custom_compare) iy = 0 ix = 0 sizer.Add(wx.StaticText(self, wx.ID_ANY, 'Parameter'), (iy, ix), (1, 1), wx.EXPAND | wx.ADJUST_MINSIZE, 0) ix += 1 self.text2_2 = wx.StaticText(self, wx.ID_ANY, 'Value') sizer.Add(self.text2_2, (iy, ix), (1, 1), wx.EXPAND | wx.ADJUST_MINSIZE, 0) ix += 2 self.text2_3 = wx.StaticText(self, wx.ID_ANY, 'Error') sizer.Add(self.text2_3, (iy, ix), (1, 1), wx.EXPAND | wx.ADJUST_MINSIZE, 0) if not self.is_mac: self.text2_3.Hide() ix += 1 self.text2_min = wx.StaticText(self, wx.ID_ANY, 'Min') sizer.Add(self.text2_min, (iy, ix), (1, 1), wx.EXPAND | wx.ADJUST_MINSIZE, 0) # self.text2_min.Hide() ix += 1 self.text2_max = wx.StaticText(self, wx.ID_ANY, 'Max') sizer.Add(self.text2_max, (iy, ix), (1, 1), wx.EXPAND | wx.ADJUST_MINSIZE, 0) # self.text2_max.Hide() ix += 1 self.text2_4 = wx.StaticText(self, wx.ID_ANY, '[Units]') sizer.Add(self.text2_4, (iy, ix), (1, 1), wx.EXPAND | wx.ADJUST_MINSIZE, 0) self.text2_4.Hide() CHECK_STATE = False for item in keys: if item not in self.disp_list and not item in \ self.model.orientation_params: # prepare a spot to store errors if item not in self.model.details: self.model.details[item] = ["", None, None] iy += 1 ix = 0 if (self.model.__class__ in self.model_list_box["Multi-Functions"] or self.temp_multi_functional)\ and (item in self.model.non_fittable): non_fittable_name = wx.StaticText(self, wx.ID_ANY, item) sizer.Add(non_fittable_name, (iy, ix), (1, 1), wx.LEFT | wx.EXPAND | wx.ADJUST_MINSIZE, 21) # add parameter value ix += 1 value = self.model.getParam(item) if len(self.model.fun_list) > 0: # num = item.split('_')[1][5:7] fun_box = wx.ComboBox(self, wx.ID_ANY, size=(100, -1), style=wx.CB_READONLY, name='%s' % item) self._set_fun_box_list(fun_box) fun_box.SetSelection(0) # self.fun_box.SetToolTipString("A function # describing the interface") wx.EVT_COMBOBOX(fun_box, wx.ID_ANY, self._on_fun_box) else: fun_box = ModelTextCtrl(self, wx.ID_ANY, size=(_BOX_WIDTH, 20), style=wx.TE_PROCESS_ENTER, name='%s' % item) fun_box.SetToolTipString( "Hit 'Enter' after typing to update the plot.") fun_box.SetValue(format_number(value, True)) sizer.Add(fun_box, (iy, ix), (1, 1), wx.EXPAND) self.str_parameters.append([None, item, fun_box, None, None, None, None, None]) else: # add parameters name with checkbox for selecting to fit cb = wx.CheckBox(self, wx.ID_ANY, item) cb.SetValue(CHECK_STATE) cb.SetToolTipString(" Check mark to fit.") # cb.SetValue(True) wx.EVT_CHECKBOX(self, cb.GetId(), self.select_param) sizer.Add(cb, (iy, ix), (1, 1), wx.LEFT | wx.EXPAND | wx.ADJUST_MINSIZE, 5) # add parameter value ix += 1 value = self.model.getParam(item) ctl1 = ModelTextCtrl(self, wx.ID_ANY, size=(_BOX_WIDTH, 20), style=wx.TE_PROCESS_ENTER) ctl1.SetToolTipString( "Hit 'Enter' after typing to update the plot.") ctl1.SetValue(format_number(value, True)) sizer.Add(ctl1, (iy, ix), (1, 1), wx.EXPAND) # text to show error sign ix += 1 text2 = wx.StaticText(self, wx.ID_ANY, '+/-') sizer.Add(text2, (iy, ix), (1, 1), wx.EXPAND | wx.ADJUST_MINSIZE, 0) if not self.is_mac: text2.Hide() ix += 1 ctl2 = wx.TextCtrl(self, wx.ID_ANY, size=(_BOX_WIDTH / 1.2, 20), style=0) sizer.Add(ctl2, (iy, ix), (1, 1), wx.EXPAND | wx.ADJUST_MINSIZE, 0) if not self.is_mac: ctl2.Hide() ix += 1 ctl3 = ModelTextCtrl(self, wx.ID_ANY, size=(_BOX_WIDTH / 1.9, 20), style=wx.TE_PROCESS_ENTER, text_enter_callback=self._onparamRangeEnter) min_bound = self.model.details[item][1] if min_bound is not None: ctl3.SetValue(format_number(min_bound, True)) sizer.Add(ctl3, (iy, ix), (1, 1), wx.EXPAND | wx.ADJUST_MINSIZE, 0) ix += 1 ctl4 = ModelTextCtrl(self, wx.ID_ANY, size=(_BOX_WIDTH / 1.9, 20), style=wx.TE_PROCESS_ENTER, text_enter_callback=self._onparamRangeEnter) max_bound = self.model.details[item][2] if max_bound is not None: ctl4.SetValue(format_number(max_bound, True)) sizer.Add(ctl4, (iy, ix), (1, 1), wx.EXPAND | wx.FIXED_MINSIZE, 0) ix += 1 # Units if item in self.model.details: units = wx.StaticText(self, wx.ID_ANY, self.model.details[item][0], style=wx.ALIGN_LEFT) else: units = wx.StaticText(self, wx.ID_ANY, "", style=wx.ALIGN_LEFT) sizer.Add(units, (iy, ix), (1, 1), wx.EXPAND | wx.ADJUST_MINSIZE, 0) self.parameters.append([cb, item, ctl1, text2, ctl2, ctl3, ctl4, units]) iy += 1 sizer.Add((10, 10), (iy, ix), (1, 1), wx.LEFT | wx.EXPAND | wx.ADJUST_MINSIZE, 15) # type can be either Guassian or Array if len(self.model.dispersion.values()) > 0: type = self.model.dispersion.values()[0]["type"] else: type = "Gaussian" iy += 1 ix = 0 # Add tile for orientational angle for item in keys: if item in self.model.orientation_params: orient_angle = wx.StaticText(self, wx.ID_ANY, '[For 2D only]:') mag_on_button = wx.Button(self, wx.ID_ANY, "Magnetic ON") mag_on_button.SetToolTipString("Turn Pol Beam/Mag scatt on/off") mag_on_button.Bind(wx.EVT_BUTTON, self._on_mag_on) mag_angle_help_button = wx.Button(self, wx.ID_ANY, "Magnetic angles?") mag_angle_help_button.SetToolTipString("see angle definitions") mag_help_button = wx.Button(self, wx.ID_ANY, "Mag HELP") mag_help_button.SetToolTipString("Help on pol beam/mag fitting") mag_help_button.Bind(wx.EVT_BUTTON, self._on_mag_help) mag_angle_help_button.Bind(wx.EVT_BUTTON, self._on_mag_angle_help) sizer.Add(orient_angle, (iy, ix), (1, 1), wx.LEFT | wx.EXPAND | wx.ADJUST_MINSIZE, 15) iy += 1 sizer.Add(mag_on_button, (iy, ix), (1, 1), wx.LEFT | wx.EXPAND | wx.ADJUST_MINSIZE, 15) ix += 1 sizer.Add(mag_angle_help_button, (iy, ix), (1, 1), wx.LEFT | wx.EXPAND | wx.ADJUST_MINSIZE, 15) sizer.Add(mag_help_button, (iy, ix + 1), (1, 1), wx.LEFT | wx.EXPAND | wx.ADJUST_MINSIZE, 15) # handle the magnetic buttons # clean this up so that assume mag is off then turn # all buttons on IF mag has mag and has 2D if not self._has_magnetic: mag_on_button.Show(False) elif not self.data.__class__.__name__ == "Data2D": mag_on_button.Show(False) else: mag_on_button.Show(True) mag_help_button.Show(False) mag_angle_help_button.Show(False) if mag_on_button.IsShown(): if self.magnetic_on: mag_on_button.SetLabel("Magnetic OFF") mag_help_button.Show(True) mag_angle_help_button.Show(True) else: mag_on_button.SetLabel("Magnetic ON") mag_help_button.Show(False) mag_angle_help_button.Show(False) if not self.data.__class__.__name__ == "Data2D" and \ not self.enable2D: orient_angle.Hide() else: orient_angle.Show(True) break # For Gaussian only if type.lower() != "array": for item in self.model.orientation_params: if not self.magnetic_on: if item in self.model.magnetic_params: continue if item not in self.disp_list: # prepare a spot to store min max if item not in self.model.details: self.model.details[item] = ["", None, None] iy += 1 ix = 0 # add parameters name with checkbox for selecting to fit cb = wx.CheckBox(self, wx.ID_ANY, item) cb.SetValue(CHECK_STATE) cb.SetToolTipString("Check mark to fit") wx.EVT_CHECKBOX(self, cb.GetId(), self.select_param) if self.data.__class__.__name__ == "Data2D" or \ self.enable2D: cb.Show(True) else: cb.Hide() sizer.Add(cb, (iy, ix), (1, 1), wx.LEFT | wx.EXPAND | wx.ADJUST_MINSIZE, 5) # add parameter value ix += 1 value = self.model.getParam(item) ctl1 = ModelTextCtrl(self, -1, size=(_BOX_WIDTH, 20), style=wx.TE_PROCESS_ENTER) ctl1.SetToolTipString( "Hit 'Enter' after typing to update the plot.") ctl1.SetValue(format_number(value, True)) if self.data.__class__.__name__ == "Data2D" or \ self.enable2D: ctl1.Show(True) else: ctl1.Hide() sizer.Add(ctl1, (iy, ix), (1, 1), wx.EXPAND) # text to show error sign ix += 1 text2 = wx.StaticText(self, -1, '+/-') sizer.Add(text2, (iy, ix), (1, 1), wx.EXPAND | wx.ADJUST_MINSIZE, 0) text2.Hide() ix += 1 ctl2 = wx.TextCtrl(self, -1, size=(_BOX_WIDTH / 1.2, 20), style=0) sizer.Add(ctl2, (iy, ix), (1, 1), wx.EXPAND | wx.ADJUST_MINSIZE, 0) ctl2.Hide() ix += 1 ctl3 = ModelTextCtrl(self, -1, size=(_BOX_WIDTH / 1.8, 20), style=wx.TE_PROCESS_ENTER, text_enter_callback=self._onparamRangeEnter) sizer.Add(ctl3, (iy, ix), (1, 1), wx.EXPAND | wx.ADJUST_MINSIZE, 0) ctl3.Hide() ix += 1 ctl4 = ModelTextCtrl(self, -1, size=(_BOX_WIDTH / 1.8, 20), style=wx.TE_PROCESS_ENTER, text_enter_callback=self._onparamRangeEnter) sizer.Add(ctl4, (iy, ix), (1, 1), wx.EXPAND | wx.ADJUST_MINSIZE, 0) ctl4.Hide() if self.data.__class__.__name__ == "Data2D" or \ self.enable2D: if self.is_mac: text2.Show(True) ctl2.Show(True) ctl3.Show(True) ctl4.Show(True) ix += 1 # Units if item in self.model.details: units = wx.StaticText(self, -1, self.model.details[item][0], style=wx.ALIGN_LEFT) else: units = wx.StaticText(self, -1, "", style=wx.ALIGN_LEFT) if self.data.__class__.__name__ == "Data2D" or \ self.enable2D: units.Show(True) else: units.Hide() sizer.Add(units, (iy, ix), (1, 1), wx.EXPAND | wx.ADJUST_MINSIZE, 0) self.parameters.append([cb, item, ctl1, text2, ctl2, ctl3, ctl4, units]) self.orientation_params.append([cb, item, ctl1, text2, ctl2, ctl3, ctl4, units]) iy += 1 box_description.SetForegroundColour(wx.BLUE) # Display units text on panel for item in keys: if item in self.model.details: self.text2_4.Show() # Fill the list of fittable parameters self.get_all_checked_params() self.save_current_state_fit() boxsizer1.Add(sizer) self.sizer3.Add(boxsizer1, 0, wx.EXPAND | wx.ALL, 10) self.sizer3.Layout() self.Layout() def on_right_down(self, event): """ Get key stroke event """ if self.data is None: return # Figuring out key combo: Cmd for copy, Alt for paste if event.AltDown() and event.ShiftDown(): flag = True elif event.AltDown() or event.ShiftDown(): flag = False else: return # make event free event.Skip() # messages depending on the flag if not flag: infor = 'warning' # inform msg to wx wx.PostEvent(self._manager.parent, StatusEvent(status=msg, info=infor)) def _onModel2D(self, event): """ toggle view of model from 1D to 2D or 2D from 1D """ if self.model_view.GetLabelText() == "Show 2D": self.model_view.SetLabel("Show 1D") self.enable2D = True else: self.model_view.SetLabel("Show 2D") self.enable2D = False self.Show(False) self.create_default_data() self._manager.store_data(self.uid, data_list=[self.data]) self.set_model_param_sizer(self.model) self._set_sizer_dispersion() self._set_weight(is_2D=self.enable2D) self._set_smear_buttons() self.Show(True) self.SetupScrolling() self._draw_model() self.state.enable2D = copy.deepcopy(self.enable2D) def _set_smear_buttons(self): """ Set semarer radio buttons """ # more disables for 2D if self.data.__class__.__name__ == "Data2D" or \ self.enable2D: self.slit_smearer.Disable() self.pinhole_smearer.Enable(True) self.default_mask = copy.deepcopy(self.data.mask) else: self.slit_smearer.Enable(True) self.pinhole_smearer.Enable(True) class BGTextCtrl(wx.TextCtrl): """ Text control used to display outputs. No editing allowed. The background is grayed out. User can't select text. """ def __init__(self, *args, **kwds): wx.TextCtrl.__init__(self, *args, **kwds) self.SetEditable(False) self.SetBackgroundColour(self.GetParent().parent.GetBackgroundColour()) # Bind to mouse event to avoid text highlighting # The event will be skipped once the call-back # is called. self.Bind(wx.EVT_MOUSE_EVENTS, self._click) def _click(self, event): """ Prevent further handling of the mouse event by not calling Skip(). """ pass