import sys import wx import wx.lib.newevent import numpy import copy import math import time from sans.models.dispersion_models import ArrayDispersion, GaussianDispersion from DataLoader.data_info import Data1D from sans.guiframe.events import StatusEvent from sans.guiframe.utils import format_number,check_float (Chi2UpdateEvent, EVT_CHI2_UPDATE) = wx.lib.newevent.NewEvent() _BOX_WIDTH = 76 _DATA_BOX_WIDTH = 300 SMEAR_SIZE_L = 0.005 SMEAR_SIZE_H = 0.006 import basepage from basepage import BasicPage from basepage import PageInfoEvent from sans.models.qsmearing import smear_selection 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='rand'): """ Initialization of the Panel """ BasicPage.__init__(self, parent, color=color) ## draw sizer self._fill_datainfo_sizer() # 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) self._set_bookmark_flag(False) self._set_save_flag(False) def _on_fit_complete(self): """ When fit is complete ,reset the fit button label. """ self.btFit.SetLabel("Fit") self.bind_fit_button() def _is_2D(self): """ Check if data_name is Data2D :return: True or False """ if self.data.__class__.__name__ =="Data2D": return True return False def _on_engine_change(self, name): """ get the current name of the fit engine type and update the panel accordingly """ self.engine_type = str(name) self.state.engine_type = self.engine_type if len(self.parameters) == 0: self.Layout() return for item in self.parameters: if self.engine_type =="scipy" : item[5].SetValue("") item[5].Hide() item[6].SetValue("") item[6].Hide() self.text2_min.Hide() self.text2_max.Hide() else: item[5].Show(True) item[6].Show(True) self.text2_min.Show(True) self.text2_max.Show(True) for item in self.fittable_param: if item[5]!=None and item[6]!=None and not \ item in self.orientation_params_disp: if self.engine_type =="scipy" and \ not item in self.orientation_params: item[5].SetValue("") item[5].Hide() item[6].SetValue("") item[6].Hide() self.text2_min.Hide() self.text2_max.Hide() self.text_disp_min.Hide() self.text_disp_max.Hide() else: item[5].Show(True) item[6].Show(True) self.text2_min.Show(True) self.text2_max.Show(True) self.text_disp_min.Show(True) self.text_disp_max.Show(True) for item in self.orientation_params: if item[5]!=None and item[6]!=None: if self.engine_type =="scipy" or \ self.data.__class__.__name__ !="Data2D": item[5].SetValue("") item[5].Hide() item[6].SetValue("") item[6].Hide() else: item[5].Show(True) item[6].Show(True) for item in self.orientation_params_disp: if item[5]!=None and item[6]!=None: if self.engine_type =="scipy" or \ self.data.__class__.__name__ !="Data2D": item[5].SetValue("") item[5].Hide() item[6].SetValue("") item[6].Hide() else: item[5].Show(True) item[6].Show(True) self.Layout() self.Refresh() def _fill_range_sizer(self): """ Fill the sizer containing the plotting range add access to npts """ is_2Ddata = False # Check if data is 2D if self.data.__class__.__name__ == 'Data2D': is_2Ddata = 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, -1,str(title)) 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, -1,'Set Instrumental Smearing') sizer_smearer_box = wx.StaticBoxSizer(smear_set_box, wx.HORIZONTAL) sizer_smearer_box.SetMinSize((_DATA_BOX_WIDTH,85)) sizer_fit = wx.GridSizer(2, 4,2,6) # combobox for smear2d accuracy selection self.smear_accuracy = wx.ComboBox(self, -1,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,-1, self._on_select_accuracy) #Fit button self.btFit = wx.Button(self,wx.NewId(),'Fit', size=(88,25)) self.default_bt_colour = self.btFit.GetBackgroundColour() self.btFit.Bind(wx.EVT_BUTTON, self._onFit,id= self.btFit.GetId()) self.btFit.SetToolTipString("Start fitting.") #textcntrl for custom resolution self.smear_pinhole_max = self.ModelTextCtrl(self, -1,size=(_BOX_WIDTH-25,20),style=wx.TE_PROCESS_ENTER, text_enter_callback = self.onPinholeSmear) self.smear_pinhole_min = self.ModelTextCtrl(self, -1,size=(_BOX_WIDTH-25,20),style=wx.TE_PROCESS_ENTER, text_enter_callback = self.onPinholeSmear) self.smear_slit_height= self.ModelTextCtrl(self, -1,size=(_BOX_WIDTH-25,20),style=wx.TE_PROCESS_ENTER, text_enter_callback = self.onSlitSmear) self.smear_slit_width = self.ModelTextCtrl(self, -1,size=(_BOX_WIDTH-25,20),style=wx.TE_PROCESS_ENTER, text_enter_callback = self.onSlitSmear) ## smear self.smear_data_left= BGTextCtrl(self, -1, size=(_BOX_WIDTH-25,20), style=0) self.smear_data_left.SetValue(str(self.dq_l)) self.smear_data_right = BGTextCtrl(self, -1, 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, -1, 'None', style=wx.RB_GROUP) self.enable_smearer = wx.RadioButton(self, -1, 'Use dQ Data') #self.enable_smearer.SetToolTipString("Click to use the loaded dQ data for smearing.") self.pinhole_smearer = wx.RadioButton(self, -1, 'Custom Pinhole Smear') #self.pinhole_smearer.SetToolTipString("Click to input custom resolution for pinhole smearing.") self.slit_smearer = wx.RadioButton(self, -1, '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) # add 4 types of smearing to the sizer sizer_smearer.Add( self.disable_smearer,0, wx.LEFT, 10) sizer_smearer.Add((10,10)) sizer_smearer.Add( self.enable_smearer) sizer_smearer.Add((10,10)) sizer_smearer.Add( self.pinhole_smearer ) sizer_smearer.Add((10,10)) sizer_smearer.Add( self.slit_smearer ) sizer_smearer.Add((10,10)) # StaticText for chi2, N(for fitting), Npts self.tcChi = BGTextCtrl(self, -1, "-", size=(75,20), style=0) self.tcChi.SetToolTipString("Chi2/Npts") self.Npts_fit = BGTextCtrl(self, -1, "-", size=(75,20), style=0) self.Npts_fit.SetToolTipString(" Npts : number of points selected for fitting") self.Npts_total = BGTextCtrl(self, -1, "-", size=(75,20), style=0) self.Npts_total.SetToolTipString(" Total Npts : total number of data points") box_description_1= wx.StaticText(self, -1,' Chi2/Npts') box_description_2= wx.StaticText(self, -1,'Fitted Npts') box_description_3= wx.StaticText(self, -1,'Data Npts') box_description_4= wx.StaticText(self, -1,' ') sizer_fit.Add(box_description_1,0,0) sizer_fit.Add(box_description_2,0,0) sizer_fit.Add(box_description_3,0,0) sizer_fit.Add(box_description_4,0,0) sizer_fit.Add(self.tcChi,0,0) sizer_fit.Add(self.Npts_fit ,0,0) sizer_fit.Add(self.Npts_total,0,0) sizer_fit.Add(self.btFit,0,0) # StaticText for smear #self.tcChi = wx.StaticText(self, -1, "-", style=wx.ALIGN_LEFT) self.smear_description_none = wx.StaticText(self, -1, smear_message_none , style=wx.ALIGN_LEFT) self.smear_description_dqdata = wx.StaticText(self, -1, smear_message_dqdata , style=wx.ALIGN_LEFT) self.smear_description_type = wx.StaticText(self, -1, "Type:" , style=wx.ALIGN_LEFT) self.smear_description_accuracy_type = wx.StaticText(self, -1, "Accuracy:" , style=wx.ALIGN_LEFT) self.smear_description_smear_type = BGTextCtrl(self, -1, 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, -1, smear_message_2d , style=wx.ALIGN_LEFT) self.smear_message_new_s = wx.StaticText(self, -1, smear_message_new_ssmear , style=wx.ALIGN_LEFT) self.smear_message_new_p = wx.StaticText(self, -1, smear_message_new_psmear , style=wx.ALIGN_LEFT) self.smear_description_2d_x = wx.StaticText(self, -1, smear_message_2d_x_title , style=wx.ALIGN_LEFT) self.smear_description_2d_y = wx.StaticText(self, -1, smear_message_2d_y_title , style=wx.ALIGN_LEFT) self.smear_description_pin_min = wx.StaticText(self, -1, smear_message_pinhole_min_title , style=wx.ALIGN_LEFT) self.smear_description_pin_max = wx.StaticText(self, -1, smear_message_pinhole_max_title , style=wx.ALIGN_LEFT) self.smear_description_slit_height = wx.StaticText(self, -1, smear_message_slit_height_title , style=wx.ALIGN_LEFT) self.smear_description_slit_width = wx.StaticText(self, -1, smear_message_slit_width_title , style=wx.ALIGN_LEFT) #arrange sizers #boxsizer1.Add( self.tcChi ) 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)) # 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 == None: if not is_2Ddata: self.smear_description_none.Show(True) self.enable_smearer.Disable() else: self.smear_description_none.Show(True) #self.smear_description_2d.Show(True) #self.pinhole_smearer.Disable() self.slit_smearer.Disable() #self.enable_smearer.Disable() else: self._show_smear_sizer() boxsizer_range.Add(self.sizer_set_masking) #2D data? default is_2Ddata = False #check if it is 2D data if self.data.__class__.__name__ == 'Data2D': is_2Ddata = True self.sizer5.Clear(True) self.qmin = self.ModelTextCtrl(self, -1,size=(_BOX_WIDTH,20), style=wx.TE_PROCESS_ENTER, text_enter_callback = self._onQrangeEnter) self.qmin.SetValue(str(self.qmin_x)) self.qmin.SetToolTipString("Minimun value of Q in linear scale.") self.qmax = self.ModelTextCtrl(self, -1,size=(_BOX_WIDTH,20), style=wx.TE_PROCESS_ENTER, text_enter_callback=self._onQrangeEnter) self.qmax.SetValue(str(self.qmax_x)) self.qmax.SetToolTipString("Maximum value of Q in linear scale.") self.theory_npts_tcrtl = self.ModelTextCtrl(self, -1, size=(_BOX_WIDTH, 20), style=wx.TE_PROCESS_ENTER, text_enter_callback=self._onQrangeEnter) self.theory_npts_tcrtl.SetValue(format_number(self.npts_x)) self.theory_npts_tcrtl.SetToolTipString("Number of point to plot.") id = wx.NewId() self.reset_qrange =wx.Button(self,id,'Reset',size=(77,20)) self.reset_qrange.Bind(wx.EVT_BUTTON, self.on_reset_clicked,id=id) self.reset_qrange.SetToolTipString("Reset Q range to the default values") sizer_horizontal=wx.BoxSizer(wx.HORIZONTAL) sizer= wx.GridSizer(2, 5,0, 0) self.btEditMask = wx.Button(self,wx.NewId(),'Editor', size=(88,23)) self.btEditMask.Bind(wx.EVT_BUTTON, self._onMask,id= self.btEditMask.GetId()) self.btEditMask.SetToolTipString("Edit Mask.") self.EditMask_title = wx.StaticText(self, -1, ' Masking(2D)') sizer.Add(wx.StaticText(self, -1, 'Q range')) sizer.Add(wx.StaticText(self, -1, ' Min[1/A]')) sizer.Add(wx.StaticText(self, -1, ' Max[1/A]')) sizer.Add(wx.StaticText(self, -1, ' Theory Npts')) sizer.Add(self.EditMask_title) sizer.Add(self.reset_qrange) sizer.Add(self.qmin) sizer.Add(self.qmax) sizer.Add(self.theory_npts_tcrtl) sizer.Add(self.btEditMask) boxsizer_range.Add(sizer_chi2) boxsizer_range.Add((10,10)) boxsizer_range.Add(sizer) boxsizer_range.Add((10,15)) boxsizer_range.Add(sizer_fit) if is_2Ddata: 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 _fill_datainfo_sizer(self): """ fill sizer 0 with data info """ ## no loaded data , don't fill the sizer if self.data is None: data_min = "" data_max = "" data_name = "" else: data_name = self.data.name #set maximum range for x in linear scale if not hasattr(self.data,"data"): #Display only for 1D data fit # Minimum value of data data_min = min(self.data.x) # Maximum value of data data_max = max(self.data.x) else: ## Minimum value of data data_min = 0 x = max(math.fabs(self.data.xmin), math.fabs(self.data.xmax)) y = max(math.fabs(self.data.ymin), math.fabs(self.data.ymax)) ## Maximum value of data data_max = math.sqrt(x*x + y*y) ## set q range to plot self.qmin_x = data_min self.qmax_x = data_max box_description= wx.StaticBox(self, -1, 'Data') boxsizer1 = wx.StaticBoxSizer(box_description, wx.VERTICAL) #---------------------------------------------------------- sizer_data = wx.BoxSizer(wx.HORIZONTAL) #Filling the sizer containing data related fields #self.dataSource = wx.StaticText(self, -1,str(self.data.name)) self.dataSource = BGTextCtrl(self, -1) self.dataSource.SetValue(str(data_name)) #self.dataSource.SetEditable(False) self.dataSource.SetMinSize((_DATA_BOX_WIDTH, -1)) sizer_data.Add(wx.StaticText(self, -1, 'Source Name : ')) sizer_data.Add(self.dataSource ) sizer_data.Add( (0,5) ) #---------sizer 2 draw-------------------------------- text4_3 = wx.StaticText(self, -1, 'Total Q Range (1/A)', style=wx.ALIGN_LEFT) sizer_range = wx.BoxSizer(wx.HORIZONTAL) sizer_range.Add( text4_3 ,0, wx.RIGHT, 10) self.minimum_q = BGTextCtrl(self, -1, size=(_BOX_WIDTH,20)) self.minimum_q.SetValue(str(data_min)) self.maximum_q = BGTextCtrl(self, -1,size=(_BOX_WIDTH,20)) self.maximum_q.SetValue(str(data_max)) sizer_range.Add(wx.StaticText(self, -1, "Min: "),0, wx.LEFT, 10) sizer_range.Add(self.minimum_q,0, wx.LEFT, 10) sizer_range.Add(wx.StaticText(self, -1, "Max: "),0, wx.LEFT, 10) sizer_range.Add(self.maximum_q,0, wx.LEFT, 10) boxsizer1.Add(sizer_data,0, wx.ALL, 10) boxsizer1.Add(sizer_range, 0 , wx.LEFT, 10) #------------------------------------------------------------ self.sizer0.Add(boxsizer1,0, wx.EXPAND | wx.ALL, 10) self.sizer0.Layout() def _fill_model_sizer(self, sizer): """ fill sizer containing model info """ ##Add model function Details button in fitpanel. ##The following 3 lines are for Mac. Let JHC know before modifying... title = "Model" box_description= wx.StaticBox(self, -1,str(title)) boxsizer1 = wx.StaticBoxSizer(box_description, wx.VERTICAL) id = wx.NewId() self.model_help =wx.Button(self,id,'Details', size=(80,23)) self.model_help.Bind(wx.EVT_BUTTON, self.on_model_help_clicked,id=id) self.model_help.SetToolTipString("Model Function Help") id = wx.NewId() self.model_view = wx.Button(self, id,"Switch to 2D", size=(80, 23)) self.model_view.Bind(wx.EVT_BUTTON, self._onModel2D, id=id) hint = "toggle view of model from 1D to 2D or 2D from 1D" self.model_view.SetToolTipString(hint) self.shape_rbutton = wx.RadioButton(self, -1, 'Shapes', style=wx.RB_GROUP) self.shape_indep_rbutton = wx.RadioButton(self, -1, "Shape-Independent") self.struct_rbutton = wx.RadioButton(self, -1, "Structure Factor ") self.plugin_rbutton = wx.RadioButton(self, -1, "Customized Models") self.Bind(wx.EVT_RADIOBUTTON, self._show_combox, id= self.shape_rbutton.GetId()) self.Bind(wx.EVT_RADIOBUTTON, self._show_combox, id= self.shape_indep_rbutton.GetId()) self.Bind(wx.EVT_RADIOBUTTON, self._show_combox, id= self.struct_rbutton.GetId()) self.Bind(wx.EVT_RADIOBUTTON, self._show_combox, id= self.plugin_rbutton.GetId()) #MAC needs SetValue self.shape_rbutton.SetValue(True) sizer_radiobutton = wx.GridSizer(2, 3, 5, 5) sizer_radiobutton.Add(self.shape_rbutton) sizer_radiobutton.Add(self.shape_indep_rbutton) #sizer_radiobutton.Add((5, 5)) sizer_radiobutton.Add(self.model_view,1, wx.LEFT, 20) sizer_radiobutton.Add(self.plugin_rbutton) sizer_radiobutton.Add(self.struct_rbutton) #sizer_radiobutton.Add((5, 5)) sizer_radiobutton.Add(self.model_help,1, wx.LEFT, 20) sizer_selection = wx.BoxSizer(wx.HORIZONTAL) mutifactor_selection = wx.BoxSizer(wx.HORIZONTAL) self.text1 = wx.StaticText(self,-1,"" ) self.text2 = wx.StaticText(self,-1,"P(Q)*S(Q)" ) self.mutifactor_text = wx.StaticText( self,-1,"No. of Shells: ") self.mutifactor_text1 = wx.StaticText( self,-1,"" ) self.show_sld_button = wx.Button( self,-1,"Show SLD Profile" ) self.show_sld_button.Bind(wx.EVT_BUTTON,self._on_show_sld) self.formfactorbox = wx.ComboBox(self, -1,style=wx.CB_READONLY) if self.model!= None: self.formfactorbox.SetValue(self.model.name) self.structurebox = wx.ComboBox(self, -1, style=wx.CB_READONLY) self.multifactorbox = wx.ComboBox(self, -1, style=wx.CB_READONLY) self.initialize_combox() wx.EVT_COMBOBOX(self.formfactorbox, -1, self._on_select_model) wx.EVT_COMBOBOX(self.structurebox, -1, self._on_select_model) wx.EVT_COMBOBOX(self.multifactorbox, -1, self._on_select_model) ## check model type to show sizer if self.model !=None: self._set_model_sizer_selection(self.model) sizer_selection.Add(self.text1) sizer_selection.Add((5, 5)) sizer_selection.Add(self.formfactorbox) sizer_selection.Add((5, 5)) sizer_selection.Add(self.text2) sizer_selection.Add((5, 5)) sizer_selection.Add(self.structurebox) mutifactor_selection.Add((10,5)) mutifactor_selection.Add(self.mutifactor_text) mutifactor_selection.Add(self.multifactorbox) mutifactor_selection.Add((5, 5)) mutifactor_selection.Add(self.mutifactor_text1) mutifactor_selection.Add((10, 5)) mutifactor_selection.Add(self.show_sld_button) boxsizer1.Add(sizer_radiobutton) boxsizer1.Add((10, 10)) boxsizer1.Add(sizer_selection) boxsizer1.Add((10, 10)) boxsizer1.Add(mutifactor_selection) self._set_multfactor_combobox() self.multifactorbox.SetSelection(1) self.show_sld_button.Hide() sizer.Add(boxsizer1,0, wx.EXPAND | wx.ALL, 10) sizer.Layout() def _set_sizer_dispersion(self, dispersity): """ draw sizer with gaussian dispersity parameters """ self.fittable_param=[] self.fixed_param=[] self.orientation_params_disp=[] self.sizer4_4.Clear(True) if self.model==None: ##no model is selected return if not self.enable_disp.GetValue(): ## the user didn't select dispersity display return self._reset_dispersity() # Create the dispersion objects for item in self.model.dispersion.keys(): #disp_model = GaussianDispersion() disp_model = dispersity() self._disp_obj_dict[item] = disp_model self.model.set_dispersion(item, disp_model) self.state._disp_obj_dict[item]= disp_model ix=0 iy=1 disp = wx.StaticText(self, -1, ' ') self.sizer4_4.Add(disp,( iy, ix),(1,1), wx.LEFT|wx.EXPAND|wx.ADJUST_MINSIZE, 15) ix += 1 values = wx.StaticText(self, -1, '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 self.text_disp_1 = wx.StaticText(self, -1, '') self.sizer4_4.Add( self.text_disp_1,(iy, ix),(1,1),\ wx.EXPAND|wx.ADJUST_MINSIZE, 0) self.text_disp_1.Hide() ix +=1 self.text_disp_min = wx.StaticText(self, -1, 'Min') self.sizer4_4.Add(self.text_disp_min,(iy, ix),(1,1),\ wx.EXPAND|wx.ADJUST_MINSIZE, 0) self.text_disp_min.Hide() ix +=1 self.text_disp_max = wx.StaticText(self, -1, 'Max') self.sizer4_4.Add(self.text_disp_max,(iy, ix),(1,1),\ wx.EXPAND|wx.ADJUST_MINSIZE, 0) self.text_disp_max.Hide() ix += 1 npts = wx.StaticText(self, -1, '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, -1, 'Nsigmas') 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) if self.engine_type=="park": self.text_disp_max.Show(True) self.text_disp_min.Show(True) for item in self.model.dispersion.keys(): if not item in self.model.orientation_params: if not self.disp_cb_dict.has_key(item): self.disp_cb_dict[item]= None name0="Distribution of " + item name1=item+".width" name2=item+".npts" name3=item+".nsigmas" if not self.model.details.has_key(name1): 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, -1, name0, (10, 10)) cb.SetToolTipString("Check for fitting") 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, 15) ix = 1 value= self.model.getParam(name1) ctl1 = self.ModelTextCtrl(self, -1, size=(_BOX_WIDTH,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))) self.sizer4_4.Add(ctl1, (iy,ix),(1,1),wx.EXPAND) ## text to show error sign ix = 2 text2=wx.StaticText(self, -1, '+/-') self.sizer4_4.Add(text2,(iy, ix),(1,1), wx.EXPAND|wx.ADJUST_MINSIZE, 0) text2.Hide() ix = 3 ctl2 = wx.TextCtrl(self, -1, size=(_BOX_WIDTH,20), style=0) self.sizer4_4.Add(ctl2, (iy,ix),(1,1), wx.EXPAND|wx.ADJUST_MINSIZE, 0) ctl2.Hide() ix = 4 ctl3 = self.ModelTextCtrl(self, -1, 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 = self.ModelTextCtrl(self, -1, 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.engine_type=="park": ctl3.Show(True) ctl4.Show(True) self.fittable_param.append([cb,name1,ctl1,text2, ctl2, ctl3, ctl4,None]) elif p=="npts": ix = 6 value= self.model.getParam(name2) Tctl = self.ModelTextCtrl(self, -1, size=(_BOX_WIDTH/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 = self.ModelTextCtrl(self, -1, size=(_BOX_WIDTH/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) ix +=1 self.sizer4_4.Add((20,20), (iy,ix),(1,1), wx.EXPAND|wx.ADJUST_MINSIZE, 0) self.fixed_param.append([None,name3, Tct2 ,None,None,None, None,None]) 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 item in self.model.orientation_params: if not self.disp_cb_dict.has_key(item): self.disp_cb_dict[item]= None name0="Distribution of " + item name1=item+".width" name2=item+".npts" name3=item+".nsigmas" if not self.model.details.has_key(name1): 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, -1, name0, (10, 10)) cb.SetToolTipString("Check for fitting") 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, 15) if self.data.__class__.__name__ =="Data2D": cb.Show(True) elif cb.IsShown(): cb.Hide() ix = 1 value= self.model.getParam(name1) ctl1 = self.ModelTextCtrl(self, -1, size=(_BOX_WIDTH, 20),style=wx.TE_PROCESS_ENTER) poly_tip = "Absolute Sigma for %s." % item ctl1.SetToolTipString(poly_tip) ctl1.SetValue(str (format_number(value))) if self.data.__class__.__name__ =="Data2D": 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, -1, '+/-') self.sizer4_4.Add(text2,(iy, ix),(1,1), wx.EXPAND|wx.ADJUST_MINSIZE, 0) text2.Hide() ix = 3 ctl2 = wx.TextCtrl(self, -1, size=(_BOX_WIDTH,20), style=0) self.sizer4_4.Add(ctl2, (iy,ix),(1,1), wx.EXPAND|wx.ADJUST_MINSIZE, 0) ctl2.Hide() ix = 4 ctl3 = self.ModelTextCtrl(self, -1, 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 = self.ModelTextCtrl(self, -1, 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": #ctl4.Enable(True) #elif ctl4.Shown(): #ctl4.Hide() if self.engine_type=="park" and \ self.data.__class__.__name__ =="Data2D": ctl3.Show(True) ctl4.Show(True) self.fittable_param.append([cb,name1,ctl1,text2, ctl2, ctl3, ctl4,None]) self.orientation_params_disp.append([cb,name1,ctl1, text2, ctl2, ctl3, ctl4,None]) elif p=="npts": ix = 6 value= self.model.getParam(name2) Tctl = self.ModelTextCtrl(self, -1, size=(_BOX_WIDTH/2,20), style=wx.TE_PROCESS_ENTER) Tctl.SetValue(str (format_number(value))) if self.data.__class__.__name__ =="Data2D": 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 = self.ModelTextCtrl(self, -1, size=(_BOX_WIDTH/2,20), style=wx.TE_PROCESS_ENTER) Tct2.SetValue(str (format_number(value))) if self.data.__class__.__name__ =="Data2D": Tct2.Show(True) else: Tct2.Hide() self.sizer4_4.Add(Tct2, (iy,ix),(1,1), wx.EXPAND|wx.ADJUST_MINSIZE, 0) ix +=1 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]) self.state.disp_cb_dict = copy.deepcopy(self.disp_cb_dict) self.state.model = self.model.clone() ## save state into self.state.cb1 = self.cb1.GetValue() 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.select_all_param(event=None) self.Layout() def _onFit(self, event): """ Allow to fit """ if self.data is None: msg = "Please select a 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)) return flag = self._update_paramv_on_fit() if not flag: msg= "Fitting range or parameters are invalid" wx.PostEvent(self.parent.parent, StatusEvent(status= msg )) return if len(self.param_toFit) <= 0: msg= "Select at least one parameter to fit" wx.PostEvent(self.parent.parent, StatusEvent(status= msg )) return self.select_param(event =None) #Clear errors if exist from previous fitting #self._clear_Err_on_Fit() # 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) self._manager.schedule_for_fit(uid=self.uid,value=1, fitproblem =None) self._manager.set_fit_range(uid=self.uid,qmin= self.qmin_x, qmax= self.qmax_x) #single fit self._manager.onFit() self.btFit.SetLabel("Stop") self.bind_fit_button() def bind_fit_button(self): """ bind the fit button to either fit handler or stop fit handler """ self.btFit.Unbind(event=wx.EVT_BUTTON, id= self.btFit.GetId()) if self.btFit.GetLabel().lower() == "stop": self.btFit.SetBackgroundColour('red') self.btFit.Bind(event=wx.EVT_BUTTON, handler=self._StopFit, id=self.btFit.GetId()) elif self.btFit.GetLabel().lower() == "fit": self.btFit.SetBackgroundColour(self.default_bt_colour) self.btFit.Bind(event=wx.EVT_BUTTON, handler=self._onFit, id=self.btFit.GetId()) else: msg = "FitPage: fit button has unknown label" raise ValuerError, msg self._manager._reset_schedule_problem(value=0) def _StopFit(self, event): """ Stop fit """ #if self.engine_type=="scipy": self._manager.stop_fit(self.uid) self._manager._reset_schedule_problem(value=0) self._on_fit_complete() def _on_select_model(self, event=None): """ call back for model selection """ self._on_select_model_helper() self.set_model_param_sizer(self.model) if self.model is None: self._set_bookmark_flag(False) self._set_save_flag(False) self.enable_disp.SetValue(False) self.disable_disp.SetValue(True) try: self.set_dispers_sizer() except: pass self.btFit.SetFocus() 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.GetCurrentSelection() self.state.formfactorcombobox = self.formfactorbox.GetCurrentSelection() if self.model != None: self._set_bookmark_flag(True) self._set_save_flag(True) # Reset smearer, model and data self._set_smear(self.data) try: # update smearer sizer self.onSmear(None) temp_smear = None if self.enable_smearer.GetValue(): # Set the smearer environments temp_smear = self.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 # the data contain the smearing info evt = ModelEventbox(model=self.model, smearer=temp_smear, qmin=float(self.qmin_x), uid=self.uid, qmax=float(self.qmax_x)) self._manager._on_model_panel(evt=evt) self.state.model = self.model.clone() self.state.model.name = self.model.name if event is not None: self._draw_model() if event != None: ## post state to fit panel event = PageInfoEvent(page = self) wx.PostEvent(self.parent, event) self.SetupScrolling() def _onparamEnter(self,event): """ when enter value on panel redraw model according to changed """ if self.model ==None: msg="Please select a Model first..." wx.MessageBox(msg, 'Info') #wx.PostEvent(self._manager.parent, StatusEvent(status=\ # "Parameters: %s"%msg)) return #default flag flag = False self.fitrange = True #get event object tcrtl = event.GetEventObject() #wx.PostEvent(self._manager.parent, StatusEvent(status=" \ # updating ... ",type="update")) #Clear msg if previously shown. msg= "" wx.PostEvent(self.parent.parent, StatusEvent(status = msg )) if check_float(tcrtl): flag = self._onparamEnter_helper() self.set_npts2fit() if self.fitrange: temp_smearer = None if not self.disable_smearer.GetValue(): temp_smearer= self.current_smearer ## set smearing value whether or not # the 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": self._manager.set_smearer(smearer=temp_smearer, uid=self.uid, qmin= float(self.qmin_x), qmax= float(self.qmax_x), draw=True) 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.parent.parent, StatusEvent(status = msg )) self.save_current_state() return def _onparamRangeEnter(self, event): """ Check validity of value enter in the parameters range field """ #if self.check_invalid_panel(): # return tcrtl= event.GetEventObject() #Clear msg if previously shown. msg= "" wx.PostEvent(self.parent.parent, StatusEvent(status = msg )) # Flag to register when a parameter has changed. is_modified = False if tcrtl.GetValue().lstrip().rstrip()!="": try: value = float(tcrtl.GetValue()) tcrtl.SetBackgroundColour(wx.WHITE) self._check_value_enter(self.fittable_param ,is_modified) self._check_value_enter(self.parameters ,is_modified) except: tcrtl.SetBackgroundColour("pink") msg= "Model Error:wrong value entered : %s"% sys.exc_value wx.PostEvent(self.parent.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 _onQrangeEnter(self, event): """ Check validity of value enter in the Q range field """ #if self.check_invalid_panel(): # return tcrtl= event.GetEventObject() #Clear msg if previously shown. msg= "" wx.PostEvent(self.parent.parent, StatusEvent(status = msg )) # Flag to register when a parameter has changed. is_modified = False if tcrtl.GetValue().lstrip().rstrip()!="": try: value = float(tcrtl.GetValue()) 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.parent.parent, StatusEvent(status = msg )) return except: tcrtl.SetBackgroundColour("pink") msg= "Model Error:wrong value entered : %s"% sys.exc_value wx.PostEvent(self.parent.parent, StatusEvent(status = msg )) return #Check if # of points for theory model are valid(>0). # check for 2d if self.data.__class__.__name__ =="Data2D": # 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.parent.parent, StatusEvent(status = msg )) return else: self.data.mask = index_data #self.Npts_fit.SetValue(str(len(self.data.mask))) self.set_npts2fit() else: if self.data is not None: 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]))) else: tcrtl.SetBackgroundColour("pink") msg= "Model Error:wrong value entered!!!" wx.PostEvent(self.parent.parent, StatusEvent(status = msg )) self._draw_model() ##update chi2 #self.compute_chisqr(smearer= temp_smearer) #self._undo.Enable(True) 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 hasattr(self,"text2_3"): self.text2_3.Hide() if len(self.parameters)>0: for item in self.parameters: #Skip t ifhe angle parameters if 1D data if self.data.__class__.__name__ !="Data2D": if item in self.orientation_params: continue if item in self.param_toFit: continue ## hide statictext +/- if item[3]!=None and item[3].IsShown(): item[3].Hide() ## hide textcrtl for error after fit if item[4]!=None and item[4].IsShown(): item[4].Hide() if len(self.fittable_param)>0: for item in self.fittable_param: #Skip t ifhe angle parameters if 1D data if self.data.__class__.__name__ !="Data2D": if item in self.orientation_params: continue if item in self.param_toFit: continue ## hide statictext +/- if item[3]!=None and item[3].IsShown(): item[3].Hide() ## hide textcrtl for error after fit if item[4]!=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 == None: self.dxl = 0.0 if self.dxw == None: self.dxw = "" if self.dx_min == None: self.dx_min = SMEAR_SIZE_L if self.dx_max == 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': if data.dqx_data == None or data.dqy_data ==None: return elif self.smearer != 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 != None and all(data.dx !=0): 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 != None or data.dxw != None: self.smear_type = "Slit" if data.dxl != None and all(data.dxl !=0): self.dq_l = data.dxl[0] if data.dxw != None and 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 != 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"]: 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 != 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 self.model.fun_list.has_key(value): 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 sans.guiframe.local_perspectives.plotting.masking \ import MaskPanel as MaskDialog self.panel = MaskDialog(self, data=self.data,id =-1 ) self.panel.Bind(wx.EVT_CLOSE, self._draw_masked_model) self.panel.ShowModal() #wx.PostEvent(self.parent, event) def _draw_masked_model(self,event): """ Draw model image w/mask """ event.Skip() is_valid_qrange = self._update_paramv_on_fit() if is_valid_qrange: # try re draw the model plot if it exists self._draw_model() self.panel.Destroy() # frame self.set_npts2fit() elif self.model == None: self.panel.Destroy() self.set_npts2fit() msg= "No model is found on updating MASK in the model plot... " wx.PostEvent(self.parent.parent, StatusEvent(status = msg )) else: msg = ' Please consider your Q range, too.' self.panel.ShowMessage(msg) def _set_smear(self, data): """ """ if data is None: return self.smearer = smear_selection(self.data, self.model) self.disable_smearer.SetValue(True) if self.smearer == None: self.enable_smearer.Disable() else: self.enable_smearer.Enable() def get_view_mode(self): """ return True if the panel allow 2D or False if 1D """ return self.enable2D def set_data(self, data): """ reset the current data """ flag = False if self.data is None and data is not None: self.window_name = str(data.name) ## Title to appear on top of the window self.window_caption = str(data.name) flag = True self.data = data if self.data is None: data_min = "" data_max = "" data_name = "" self._set_bookmark_flag(False) self._set_save_flag(False) else: self._set_bookmark_flag(True) self._set_save_flag(True) self._set_smear(data) # more disables for 2D if self.data.__class__.__name__ =="Data2D": self.slit_smearer.Disable() self.default_mask = copy.deepcopy(self.data.mask) self.formfactorbox.Enable() self.structurebox.Enable() data_name = self.data.name #set maximum range for x in linear scale if not hasattr(self.data,"data"): #Display only for 1D data fit # Minimum value of data data_min = min(self.data.x) # Maximum value of data data_max = max(self.data.x) #number of total data points self.Npts_total.SetValue(str(len(self.data.x))) #default:number of data points selected to fit self.Npts_fit.SetValue(str(len(self.data.x))) self.btEditMask.Disable() self.EditMask_title.Disable() else: ## Minimum value of data data_min = 0 x = max(math.fabs(self.data.xmin), math.fabs(self.data.xmax)) y = max(math.fabs(self.data.ymin), math.fabs(self.data.ymax)) ## Maximum value of data data_max = math.sqrt(x*x + y*y) #number of total data points self.Npts_total.SetValue(str(len(self.data.data))) #default:number of data points selected to fit self.Npts_fit.SetValue(str(len(self.data.data))) self.btEditMask.Enable() self.EditMask_title.Enable() self.dataSource.SetValue(data_name) self.qmin_x = data_min self.qmax_x = data_max self.minimum_q.SetValue(str(data_min)) self.maximum_q.SetValue(str(data_max)) self.qmin.SetValue(str(data_min)) self.qmax.SetValue(str(data_max)) self.qmin.SetBackgroundColour("white") self.qmax.SetBackgroundColour("white") self.state.data = data self.state.qmin = self.qmin_x self.state.qmax = self.qmax_x #update model plot with new data information if flag: #set model view button 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() self._draw_model() def reset_page(self, state,first=False): """ reset the state """ self.reset_page_helper(state) #import sans.guiframe.gui_manager #evt = ModelEventbox(model=state.model) #wx.PostEvent(self.event_owner, evt) if self.engine_type != None: self._manager._on_change_engine(engine=self.engine_type) self.select_param(event = None) #Save state_fit self.save_current_state_fit() 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 for Park where chi2 is not normalized by Npts of fit """ if self.data is None: return npts2fit = 0 qmin,qmax = self.get_range() if self.data.__class__.__name__ =="Data2D": 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 qx >= qmin and qx <= qmax: npts2fit += 1 return npts2fit def set_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 get_param_list(self): """ :return self.param_toFit: list containing references to TextCtrl checked.Theses TextCtrl will allow reference to parameters to fit. :raise: if return an empty list of parameter fit will nnote work properly so raise ValueError,"missing parameter to fit" """ if self.param_toFit !=[]: return self.param_toFit else: raise ValueError,"missing parameter to fit" 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 """ if out == None or not numpy.isfinite(chisqr): raise ValueError,"Fit error occured..." is_modified = False has_error = False #Hide textctrl boxes of errors. self._clear_Err_on_Fit() #Check if chi2 is finite if chisqr != None or numpy.isfinite(chisqr): #format chi2 if self.engine_type == "park": npt_fit = float(self.get_npts2fit()) if npt_fit > 0: chisqr =chisqr/npt_fit chi2 = format_number(chisqr) self.tcChi.SetValue(chi2) self.tcChi.Refresh() else: self.tcChi.SetValue("-") #Hide error title if self.text2_3.IsShown(): self.text2_3.Hide() try: n = self.disp_box.GetCurrentSelection() dispersity= self.disp_box.GetClientData(n) if dispersity !=None and self.enable_disp.GetValue(): name= dispersity.__name__ if name == "GaussianDispersion": if hasattr(self,"text_disp_1" ): if self.text_disp_1 !=None: self.text_disp_1.Hide() except: dispersty = None pass #set the panel when fit result are float not list if out.__class__== numpy.float64: self.param_toFit[0][2].SetValue(format_number(out)) if self.param_toFit[0][4].IsShown: self.param_toFit[0][4].Hide() if cov !=None : self.text2_3.Show(True) try: if dispersity !=None: name= dispersity.__name__ if name == "GaussianDispersion" and \ self.enable_disp.GetValue(): if hasattr(self,"text_disp_1" ): if self.text_disp_1 !=None: self.text_disp_1.Show(True) except: pass if cov[0]==None or not numpy.isfinite(cov[0]): if self.param_toFit[0][3].IsShown: self.param_toFit[0][3].Hide() else: self.param_toFit[0][3].Show(True) self.param_toFit[0][4].Show(True) self.param_toFit[0][4].SetValue(format_number(cov[0])) has_error = True else: i = 0 #Set the panel when fit result are list for item in self.param_toFit: if len(item)>5 and item != None: ## reset error value to initial state item[3].Hide() item[4].Hide() for ind in range(len(out)): if item[1] == p_name[ind]: break if len(out)<=len(self.param_toFit) and out[ind] !=None: val_out = format_number(out[ind]) item[2].SetValue(val_out) if(cov !=None): try: if dispersity !=None: name= dispersity.__name__ if name == "GaussianDispersion" and \ self.enable_disp.GetValue(): if hasattr(self,"text_disp_1" ): if self.text_disp_1!=None: if not self.text_disp_1.IsShown(): self.text_disp_1.Show(True) except: pass if cov[ind]!=None : if numpy.isfinite(float(cov[ind])): val_err = format_number(cov[ind]) item[3].Show(True) item[4].Show(True) item[4].SetValue(val_err) has_error = True i += 1 #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() #plot model self._draw_model() self._lay_out() #PostStatusEvent msg = "Fit completed! " wx.PostEvent(self._manager.parent, StatusEvent(status=msg)) 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 """ #if self.check_invalid_panel(): # return if self.model ==None: self.disable_smearer.SetValue(True) msg="Please select a Model first..." wx.MessageBox(msg, 'Info') wx.PostEvent(self._manager.parent, StatusEvent(status=\ "Smear: %s"%msg)) return # Need update param values self._update_paramv_on_fit() # msg default msg = None if event != None: tcrtl= event.GetEventObject() # event case of radio button if tcrtl.GetValue()== True: 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: msg = self._set_pinhole_smear() # hide all silt sizer self._hide_all_smear_info() ##Calculate chi2 temp_smearer = self.current_smearer #self.compute_chisqr(smearer= temp_smearer) # show relevant slit sizers self._show_smear_sizer() self.sizer_set_smearer.Layout() self.Layout() if event != 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 != None and self.dx_max != 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 != 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 != 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 != 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 self._manager.set_smearer(smearer=self.current_smearer, qmin=float(self.qmin_x), qmax= float(self.qmax_x), 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() #self._undo.Enable(True) self.save_current_state() if msg != 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 """ #if self.check_invalid_panel(): # return if self.model ==None: self.disable_smearer.SetValue(True) msg="Please select a Model first..." wx.MessageBox(msg, 'Info') wx.PostEvent(self._manager.parent, StatusEvent(status=\ "Smear: %s"%msg)) return # Need update param values self._update_paramv_on_fit() # msg default msg = None # for event given if event != 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() ##Calculate chi2 #self.compute_chisqr(smearer= self.current_smearer) # show relevant slit sizers self._show_smear_sizer() self.sizer_set_smearer.Layout() self.Layout() if event != None: event.Skip() #self._undo.Enable(True) self.save_current_state() event = PageInfoEvent(page = self) wx.PostEvent(self.parent, event) if msg != 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": return temp_smearer = None # 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: 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: 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) #temp_smearer = self.current_smearer ## set smearing value whether or not the data contain the smearing info self._manager.set_smearer(smearer=self.current_smearer, qmin=float(self.qmin_x), qmax= float(self.qmax_x), id=self.id) 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 != None: return False else: return True def onSmear(self, event): """ Create a smear object that will change the way residuals are compute when fitting """ if event != None: event.Skip() if self.data is None: return if self.model == None: self.disable_smearer.SetValue(True) msg="Please select a Model first..." wx.MessageBox(msg, 'Info') wx.PostEvent(self._manager.parent, StatusEvent(status=\ "Smear: %s"%msg)) return # Need update param values self._update_paramv_on_fit() temp_smearer = None self._get_smear_info() #renew smear sizer if self.smear_type != 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 self.current_smearer = smear_selection(data, self.model) if self.enable_smearer.GetValue(): if hasattr(self.data,"dxl"): msg= ": Resolution smearing parameters" if hasattr(self.data,"dxw"): msg= ": Slit smearing parameters" if self.smearer ==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_description_dqdata.Show(True) 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) self._show_smear_sizer() self.sizer_set_smearer.Layout() self.Layout() ## set smearing value whether or not the data contain the smearing info self._manager.set_smearer(uid=self.uid, smearer=temp_smearer, qmin= float(self.qmin_x), qmax= float(self.qmax_x), draw=True) ##Calculate chi2 #self.compute_chisqr(smearer= temp_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_complete_chisqr(self, event): """ print result chisqr :event: activated by fitting/ complete after draw """ try: if event ==None: output= "-" else: output = event.output self.tcChi.SetValue(str(format_number(output))) self.state.tcChi = self.tcChi.GetValue() except: pass def select_all_param(self,event): """ set to true or false all checkBox given the main checkbox value cb1 """ self.param_toFit=[] if self.parameters !=[]: if self.cb1.GetValue(): for item in self.parameters: ## for data2D select all to fit if self.data.__class__.__name__=="Data2D": item[0].SetValue(True) self.param_toFit.append(item ) else: ## for 1D all parameters except orientation if not item in self.orientation_params: item[0].SetValue(True) self.param_toFit.append(item ) #if len(self.fittable_param)>0: for item in self.fittable_param: if self.data.__class__.__name__=="Data2D": item[0].SetValue(True) self.param_toFit.append(item ) else: ## for 1D all parameters except orientation if not item in self.orientation_params_disp: item[0].SetValue(True) self.param_toFit.append(item ) else: for item in self.parameters: item[0].SetValue(False) for item in self.fittable_param: item[0].SetValue(False) self.param_toFit=[] self.save_current_state_fit() if event !=None: #self._undo.Enable(True) ## post state to fit panel event = PageInfoEvent(page = self) wx.PostEvent(self.parent, event) def select_param(self,event): """ 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": if item in self.orientation_params: continue #Select parameters to fit for list of primary parameters if item[0].GetValue(): 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": if item in self.orientation_params: continue if item[0].GetValue(): 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": 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 #Set the value of checkbox that selected every checkbox or not if len(self.parameters)+len(self.fittable_param)-len_orient_para ==\ len(self.param_toFit): self.cb1.SetValue(True) else: self.cb1.SetValue(False) self.save_current_state_fit() if event !=None: #self._undo.Enable(True) ## post state to fit panel event = PageInfoEvent(page = self) wx.PostEvent(self.parent, event) 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 ==None: self.sizer3.Layout() self.SetupScrolling() return ## the panel is drawn using the current value of the fit engine if self.engine_type==None and self._manager !=None: self.engine_type= self._manager._return_engine_type() box_description= wx.StaticBox(self, -1,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 paramaters 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 != None and num_b != 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 != None: return 1 elif num_b != None: return -1 # no numbers else: return cmp(a.lower(), b.lower()) keys.sort(custom_compare) iy = 0 ix = 0 select_text = "Select All" self.cb1 = wx.CheckBox(self, -1,str(select_text), (10, 10)) wx.EVT_CHECKBOX(self, self.cb1.GetId(), self.select_all_param) self.cb1.SetToolTipString("To check/uncheck all the boxes below.") #self.cb1.SetValue(True) sizer.Add(self.cb1,(iy, ix),(1,1),\ wx.LEFT|wx.EXPAND|wx.ADJUST_MINSIZE, 5) ix +=1 self.text2_2 = wx.StaticText(self, -1, 'Values') sizer.Add(self.text2_2,(iy, ix),(1,1),\ wx.EXPAND|wx.ADJUST_MINSIZE, 0) ix +=2 self.text2_3 = wx.StaticText(self, -1, 'Errors') sizer.Add(self.text2_3,(iy, ix),(1,1),\ wx.EXPAND|wx.ADJUST_MINSIZE, 0) self.text2_3.Hide() ix +=1 self.text2_min = wx.StaticText(self, -1, '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, -1, '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, -1, '[Units]') sizer.Add(self.text2_4,(iy, ix),(1,1),\ wx.EXPAND|wx.ADJUST_MINSIZE, 0) self.text2_4.Hide() if self.engine_type=="park": self.text2_max.Show(True) self.text2_min.Show(True) for item in keys: if not item in self.disp_list and not item in \ self.model.orientation_params: ##prepare a spot to store errors if not self.model.details.has_key(item): self.model.details [item] = ["",None,None] iy += 1 ix = 0 if self.model.__class__ in \ self.model_list_box["Multi-Functions"] \ and item in self.model.non_fittable: non_fittable_name = wx.StaticText(self, -1, 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, -1,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,-1, self._on_fun_box) else: fun_box = self.ModelTextCtrl(self, -1, size=(_BOX_WIDTH,20), style=wx.TE_PROCESS_ENTER, name ='%s'% item) fun_box.SetToolTipString("Hit 'Enter' after typing.") fun_box.SetValue(format_number(value)) 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, -1, item ) cb.SetToolTipString(" Check for fitting.") #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 = self.ModelTextCtrl(self, -1, size=(_BOX_WIDTH,20), style=wx.TE_PROCESS_ENTER) ctl1.SetToolTipString("Hit 'Enter' after typing.") ctl1.SetValue(format_number(value)) 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,20), style=0) sizer.Add(ctl2, (iy,ix),(1,1), wx.EXPAND|wx.ADJUST_MINSIZE, 0) ctl2.Hide() ix += 1 ctl3 = self.ModelTextCtrl(self, -1, size=(_BOX_WIDTH/2,20), 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 = self.ModelTextCtrl(self, -1, size=(_BOX_WIDTH/2,20), 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.engine_type=="park": ctl3.Show(True) ctl4.Show(True) ix +=1 # Units if self.model.details.has_key(item): units = wx.StaticText(self, -1, self.model.details[item][0], style=wx.ALIGN_LEFT) else: units = wx.StaticText(self, -1, "", style=wx.ALIGN_LEFT) sizer.Add(units, (iy,ix),(1,1), wx.EXPAND|wx.ADJUST_MINSIZE, 0) ##[cb state, name, value, "+/-", error of fit, min, max , units] 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, -1, '[For 2D only]:') sizer.Add(orient_angle,(iy, ix),(1,1), wx.LEFT|wx.EXPAND|wx.ADJUST_MINSIZE, 15) if not self.data.__class__.__name__ =="Data2D": 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 item in self.disp_list: ##prepare a spot to store min max if not self.model.details.has_key(item): self.model.details [item] = ["",None,None] iy += 1 ix = 0 ## add parameters name with checkbox for selecting to fit cb = wx.CheckBox(self, -1, item ) cb.SetValue(False) cb.SetToolTipString("Check for fitting") wx.EVT_CHECKBOX(self, cb.GetId(), self.select_param) if self.data.__class__.__name__ =="Data2D": 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 = self.ModelTextCtrl(self, -1, size=(_BOX_WIDTH,20), style=wx.TE_PROCESS_ENTER) ctl1.SetToolTipString("Hit 'Enter' after typing.") ctl1.SetValue(format_number(value)) if self.data.__class__.__name__ =="Data2D": 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,20), style=0) sizer.Add(ctl2, (iy,ix),(1,1), wx.EXPAND|wx.ADJUST_MINSIZE, 0) ctl2.Hide() ix += 1 ctl3 = self.ModelTextCtrl(self, -1, size=(_BOX_WIDTH/2,20), 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 = self.ModelTextCtrl(self, -1, size=(_BOX_WIDTH/2,20), 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.engine_type =="park" and \ self.data.__class__.__name__ =="Data2D": ctl3.Show(True) ctl4.Show(True) ix +=1 # Units if self.model.details.has_key(item): 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": units.Show(True) else: units.Hide() sizer.Add(units, (iy,ix),(1,1), wx.EXPAND|wx.ADJUST_MINSIZE, 0) ##[cb state, name, value, "+/-", error of fit,min,max,units] 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 #Display units text on panel for item in keys: if self.model.details.has_key(item): self.text2_4.Show() #Fill the list of fittable parameters self.select_all_param(event=None) self.save_current_state_fit() boxsizer1.Add(sizer) self.sizer3.Add(boxsizer1,0, wx.EXPAND | wx.ALL, 10) self.sizer3.Layout() self.Layout() self.Refresh() def _onModel2D(self, event): """ toggle view of model from 1D to 2D or 2D from 1D """ if self.model_view.GetLabelText() == "Switch to 2D": self.model_view.SetLabel("Switch to 1D") self.enable2D = True else: self.model_view.SetLabel("Switch to 2D") self.enable2D = False self._draw_model() 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().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