import os import wx import wx.lib.newevent import numpy import copy import math from sans.guiframe.panel_base import PanelBase from sans.models.dispersion_models import ArrayDispersion from sans.models.dispersion_models import GaussianDispersion from sans.guiframe.events import StatusEvent from sans.guiframe.utils import format_number import basepage from basepage import BasicPage from basepage import PageInfoEvent (ModelEventbox, EVT_MODEL_BOX) = wx.lib.newevent.NewEvent() _BOX_WIDTH = 76 class ModelPanel(BasicPage, PanelBase): """ 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. """ ## Flag to tell the AUI manager to put this panel in the center pane CENTER_PANE = True ## Internal name for the AUI manager window_name = "Theory model" ## Title to appear on top of the window window_caption = "Theory Model" def __init__(self, parent, page_info, model_list_box): BasicPage.__init__(self, parent, page_info, model_list_box) PanelBase.__init__(self, parent) """ Initialization of the Panel """ self._fill_model_sizer( self.sizer1) self._fill_range_sizer() self.engine_type = None description = "" if self.model != None: description = self.model.description self.select_model(self.model) self.set_model_description(description, self.sizer2) def _on_display_description(self, event): """ Show or Hide description :param event: wx.EVT_RADIOBUTTON """ self._on_display_description_helper() self.SetupScrolling() self.Refresh() def _on_display_description_helper(self): """ Show or Hide description :param event: wx.EVT_RADIOBUTTON """ ## Show description if self.description_hide.GetValue(): self.sizer_description.Clear(True) else: description="Model contains no description" if self.model != None: description = self.model.description if description.lstrip().rstrip() == "": description="Model contains no description" self.description = wx.StaticText(self, -1, str(description)) self.sizer_description.Add(self.description, 1, wx.EXPAND|wx.ALL, 10) self.Layout() def _fill_range_sizer(self): """ Fill the sizer containing the plotting range add access to npts """ ##The following 3 lines are for Mac. Let JHC know before modifying.. title = "Plotted Q Range" box_description = wx.StaticBox(self, -1, str(title)) boxsizer1 = wx.StaticBoxSizer(box_description, wx.VERTICAL) sizer_npts= wx.GridSizer(1, 1, 5, 5) self.npts = self.ModelTextCtrl(self, -1, size=(_BOX_WIDTH, 20), style=wx.TE_PROCESS_ENTER) self.npts.SetValue(format_number(self.num_points)) self.npts.SetToolTipString("Number of point to plot.") sizer_npts.Add(wx.StaticText(self, -1, 'Npts'), 1, wx.LEFT|wx.EXPAND|wx.ADJUST_MINSIZE, 13) sizer_npts.Add(self.npts, 1, wx.LEFT|wx.EXPAND|wx.ADJUST_MINSIZE, 10) self._set_range_sizer(title=title, box_sizer=boxsizer1, object=sizer_npts) def _on_select_model(self, event): """ call back for model selection """ self._on_select_model_helper() #Reset dispersity that was not done in _on_select_model_helper() self._reset_dispersity() self.select_model(self.model) def _fill_model_sizer(self, sizer): """ fill sizer containing model info """ ##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_view = wx.Button(self, id,'View 2D', size=(80, 23)) self.model_view.Bind(wx.EVT_BUTTON, self._onModel2D, id=id) self.model_view.SetToolTipString("View model in 2D") ## class base method to add view 2d button self._set_model_sizer(sizer=sizer, box_sizer=boxsizer1, title=title, object=self.model_view) #def _set_sizer_gaussian(self): def _set_sizer_dispersion(self, dispersity): """ draw sizer with gaussian, log or schulz dispersity parameters """ self.fittable_param = [] self.fixed_param = [] self.orientation_params_disp = [] #self.temp=[] 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 += 1 npts = wx.StaticText(self, -1, 'Npts') hint_msg = "Number of sampling points for the numerical\n" hint_msg += "integration over the distribution function." npts.SetToolTipString(hint_msg) self.sizer4_4.Add(npts, (iy, ix), (1, 1), wx.EXPAND|wx.ADJUST_MINSIZE, 0) ix += 1 nsigmas = wx.StaticText(self, -1, 'Nsigmas') hint_msg = "Number of sigmas between which the range\n" hint_msg += "of the distribution function will be used for " hint_msg += "weighting.\n The value '3' covers 99.5% for Gaussian " hint_msg += " distribution \n function. " hint_msg += "Note: Not recommended to change this value." nsigmas.SetToolTipString(hint_msg) self.sizer4_4.Add(nsigmas, (iy, ix), (1, 1), wx.EXPAND|wx.ADJUST_MINSIZE, 0) for item in self.model.dispersion.keys(): if not item in self.model.orientation_params: self.disp_cb_dict[item] = None name0 = "Distribution of " + item name1 = item + ".width" name2=item+".npts" name3=item+".nsigmas" iy += 1 for p in self.model.dispersion[item].keys(): if p == "width": ix = 0 name = wx.StaticText(self, -1, name0) self.sizer4_4.Add( name,( 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) self.fittable_param.append([None,name1,ctl1,None, None, None, None,None]) elif p=="npts": ix =2 value= self.model.getParam(name2) Tctl1 = self.ModelTextCtrl(self, -1, size=(_BOX_WIDTH/2,20), style=wx.TE_PROCESS_ENTER) Tctl1.SetValue(str (format_number(value))) self.sizer4_4.Add(Tctl1, (iy,ix),(1,1), wx.EXPAND|wx.ADJUST_MINSIZE, 0) self.fixed_param.append([None,name2, Tctl1,None,None, None, None,None]) elif p=="nsigmas": ix =3 value= self.model.getParam(name3) Tctl2 = self.ModelTextCtrl(self, -1, size=(_BOX_WIDTH/2,20), style=wx.TE_PROCESS_ENTER) Tctl2.SetValue(str (format_number(value))) self.sizer4_4.Add(Tctl2, (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, Tctl2, None,None, None, None,None]) first_orient = True for item in self.model.dispersion.keys(): if item in self.model.orientation_params: self.disp_cb_dict[item]= None name0="Distribution of " + item name1=item+".width" name2=item+".npts" name3=item+".nsigmas" iy += 1 for p in self.model.dispersion[item].keys(): if p=="width": ix = 0 name = wx.StaticText(self, -1, name0) self.sizer4_4.Add( name,( iy, ix),(1,1), wx.LEFT|wx.EXPAND|wx.ADJUST_MINSIZE, 15) if not self.enable2D: name.Hide() else: name.Show(True) 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 not self.enable2D: ctl1.Hide() ctl1.Disable() else: # in the case of 2D and angle parameter 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) ctl1.Enable() self.sizer4_4.Add(ctl1, (iy,ix),(1,1), wx.EXPAND) self.fittable_param.append([None,name1,ctl1,None, None, None, None,None]) self.orientation_params_disp.append([None,name1,ctl1,None, None, None, None,None]) elif p=="npts": ix =2 value= self.model.getParam(name2) Tctl1 = self.ModelTextCtrl(self, -1, size=(_BOX_WIDTH/2,20), style=wx.TE_PROCESS_ENTER) Tctl1.SetValue(str (format_number(value))) if not self.enable2D: Tctl1.Hide() Tctl1.Disable() else: Tctl1.Show(True) Tctl1.Enable() self.sizer4_4.Add(Tctl1, (iy,ix),(1,1), wx.EXPAND|wx.ADJUST_MINSIZE, 0) self.fixed_param.append([None,name2, Tctl1,None,None, None, None,None]) self.orientation_params_disp.append([None,name2, Tctl1,None,None, None, None,None]) elif p=="nsigmas": ix =3 value= self.model.getParam(name3) Tctl2 = self.ModelTextCtrl(self, -1, size=(_BOX_WIDTH/2,20), style=wx.TE_PROCESS_ENTER) Tctl2.SetValue(str (format_number(value))) if not self.enable2D: Tctl2.Hide() Tctl2.Disable() else: Tctl2.Show(True) Tctl2.Enable() self.sizer4_4.Add(Tctl2, (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, Tctl2, None,None, None, None,None]) self.orientation_params_disp.append([None,name3, Tctl2, None,None, None, None,None]) msg = " Selected Distribution: Gaussian" wx.PostEvent(self.parent, StatusEvent( status= msg )) self.state.disp_cb_dict = copy.deepcopy(self.disp_cb_dict) ix =0 iy +=1 #self.sizer4_4.Add((20,20),(iy,ix),(1,1), wx.LEFT|wx.EXPAND|wx.ADJUST_MINSIZE, 15) self.sizer4_4.Layout() self.sizer4.Layout() self.SetupScrolling() def _onModel2D(self, event): """ call manager to plot model in 2D """ # If the 2D display is not currently enabled, plot the model in 2D # and set the enable2D flag. if self.fitrange: self.enable2D = True if self.enable2D: self._draw_model() self.model_view.Disable() n = self.disp_box.GetCurrentSelection() dispersity= self.disp_box.GetClientData(n) #TODO:Find a better way to reinitialize the parameters containers # when resetting the page and 2D view is enable #self.set_model_param_sizer(self.model): called here is using a lot #of for loops and redraw the sizer again .How to avoid it? self.set_model_param_sizer(self.model) if len(self.orientation_params)>0: for item in self.orientation_params: if item[2]!=None: item[2].Enable() # same as above why do we have to redraw the sizer of dispersity to get # the appropriate value of parameters containers on reset page? # Reset containers of dispersity parameters for the appropriate dispersity #and model if self.disp_name.lower()in ["array","arraydispersion"]: self._set_sizer_arraydispersion() else: self._set_sizer_dispersion(dispersity) if len(self.orientation_params_disp)>0: for item in self.orientation_params_disp: if item[2]!=None: item[2].Enable() self.state.enable2D = copy.deepcopy(self.enable2D) self.Layout() ## post state to fit panel #self._undo.Enable(True) event = PageInfoEvent(page = self) wx.PostEvent(self.parent, event) def _set_fun_box_list(self,fun_box): """ Set the list of func for multifunctional models :param fun_box: function combo box """ # 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_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 set_data(self, list=[], state=None): """ Receive a list of data from gui_manager to plot theory """ pass def reset_page(self, state): """ reset the state """ self.reset_page_helper(state) def select_model(self, model): """ Select a new model :param model: model object """ self.model = model if self.model !=None: self.disp_list= self.model.getDispParamList() self.set_model_param_sizer(self.model) ## keep the sizer view consistent with the model menu selecting self._set_model_sizer_selection( self.model ) self.enable_disp.SetValue(False) self.disable_disp.SetValue(True) self.set_dispers_sizer() self.model_view.SetFocus() if self.model !=None: self._draw_model() self.state.structurecombobox = self.structurebox.GetCurrentSelection() self.state.formfactorcombobox = self.formfactorbox.GetCurrentSelection() ## post state to fit panel #self._undo.Enable(True) event = PageInfoEvent(page = self) wx.PostEvent(self.parent, event) def set_model_description(self,description,sizer): """ fill a sizer with description :param description: of type string :param sizer: wx.BoxSizer() """ sizer.Clear(True) box_description= wx.StaticBox(self, -1, 'Model Description') boxsizer1 = wx.StaticBoxSizer(box_description, wx.VERTICAL) sizer_selection=wx.BoxSizer(wx.HORIZONTAL) self.description_hide = wx.RadioButton(self, -1, 'Hide', style=wx.RB_GROUP) self.description_show = wx.RadioButton(self, -1, 'Show') if description == "": self.description_hide.SetValue(True) description = " Description unavailable. Click for details" self.description = wx.StaticText( self,-1,str(description) ) self.Bind( wx.EVT_RADIOBUTTON, self._on_display_description, id=self.description_hide.GetId() ) self.Bind( wx.EVT_RADIOBUTTON, self._on_display_description, id=self.description_show.GetId() ) #MAC needs SetValue self.description_hide.SetValue(True) self.model_description = wx.Button(self,-1, label="Details", size=(80,23)) self.model_description.Bind(wx.EVT_BUTTON,self.on_button_clicked) self.model_description.SetToolTipString("Click Model Functions in HelpWindow...") self.model_description.SetFocus() sizer_selection.Add( self.description_show ) sizer_selection.Add( (20,20)) sizer_selection.Add( self.description_hide ) sizer_selection.Add((20,20),0, wx.LEFT|wx.RIGHT|wx.EXPAND,75) sizer_selection.Add( self.model_description ) self.sizer_description=wx.BoxSizer(wx.HORIZONTAL) self.sizer_description.Add( self.description, 1, wx.EXPAND | wx.ALL, 10 ) boxsizer1.Add( sizer_selection) boxsizer1.Add( (20,20)) boxsizer1.Add( self.sizer_description) self._on_display_description(event=None) sizer.Add(boxsizer1,0, wx.EXPAND | wx.ALL, 10) sizer.Layout() def on_button_clicked(self,event): """ On 'More details' button """ from help_panel import HelpWindow import sans.models as models # Get models help model_function path path = models.get_data_path(media='media') model_path = os.path.join(path,"model_functions.html") if self.model == None: name = 'FuncHelp' else: name = self.model.name frame = HelpWindow(None, -1, pageToOpen=model_path) frame.Show(True) if frame.rhelp.HasAnchor(name): frame.rhelp.ScrollToAnchor(name) else: msg= "Model does not contains an available description " msg +="Please.Search in the Help window" wx.PostEvent(self.parent, StatusEvent(status = msg )) def set_range(self, qmin_x, qmax_x, npts): """ Set the range for the plotted models :param qmin: minimum Q :param qmax: maximum Q :param npts: number of Q bins """ # Set the data members self.qmin_x = qmin_x self.qmax_x = qmax_x self.num_points = npts # Set the controls #For qmin and qmax, do not use format_number.(If do, qmin and max could be different from what is in the data.) self.qmin.SetValue(str(self.qmin_x)) self.qmax.SetValue(str(self.qmax_x)) self.npts.SetValue(format_number(self.num_points)) 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.fixed_param=[] self.orientation_params=[] self.orientation_params_disp=[] #self.temp=[] if model ==None: ##no model avaiable to draw sizer self.sizer3.Layout() self.SetupScrolling() return box_description= wx.StaticBox(self, -1,str("Model Parameters")) boxsizer1 = wx.StaticBoxSizer(box_description, wx.VERTICAL) sizer = wx.GridBagSizer(5,5) self.model = model self.set_model_description(self.model.description,self.sizer2) 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 != 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 self.text1_2 = wx.StaticText(self, -1, 'Names') sizer.Add(self.text1_2,(iy, ix),(1,1),\ wx.LEFT|wx.EXPAND|wx.ADJUST_MINSIZE, 15) 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 +=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() for item in keys: if not item in self.disp_list and not item in self.model.orientation_params: 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, 15) ## 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) ##[cb state, name, value, "+/-", error of fit, min, max , units] self.str_parameters.append([None,item, fun_box, \ None,None,None,None,None]) else: name = wx.StaticText(self, -1,item) sizer.Add( name,( iy, ix),(1,1), wx.LEFT|wx.EXPAND|wx.ADJUST_MINSIZE, 15) ix += 1 value= self.model.getParam(item) ctl1 = self.ModelTextCtrl(self, -1, size=(_BOX_WIDTH,20), style=wx.TE_PROCESS_ENTER) ctl1.SetValue(str (format_number(value))) sizer.Add(ctl1, (iy,ix),(1,1), wx.EXPAND) 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([None,item, ctl1, None,None, None, None,None]) iy+=1 sizer.Add((10,10),(iy,ix),(1,1), wx.LEFT|wx.EXPAND|wx.ADJUST_MINSIZE, 15) iy += 1 ix = 0 #Add tile for orientational angle parameters 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.enable2D: orient_angle.Hide() else: orient_angle.Show(True) break for item in self.model.orientation_params: if not item in self.disp_list and item in keys: iy += 1 ix = 0 name = wx.StaticText(self, -1,item) sizer.Add( name,( iy, ix),(1,1), wx.LEFT|wx.EXPAND|wx.ADJUST_MINSIZE, 15) if not self.enable2D: name.Hide() else: name.Show(True) ix += 1 value= self.model.getParam(item) ctl1 = self.ModelTextCtrl(self, -1, size=(_BOX_WIDTH,20), style=wx.TE_PROCESS_ENTER) ctl1.SetValue(str (format_number(value))) if not self.enable2D: ctl1.Hide() ctl1.Disable() else: ctl1.Show(True) ctl1.Enable() sizer.Add(ctl1, (iy,ix),(1,1), wx.EXPAND) 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 not self.enable2D: units.Hide() else: units.Show(True) sizer.Add(units, (iy,ix),(1,1), wx.EXPAND|wx.ADJUST_MINSIZE, 0) #Save 2D orient. params #self.temp.append([name,ctl1,units,orient_angle]) ##[cb state, name, value, "+/-", error of fit, min, max , units] self.parameters.append([None,item, ctl1, None,None, None, None,None]) self.orientation_params.append([None,item, ctl1, None,None, None, None,None]) iy += 1 #Display units text on panel for item in keys: self.text2_4.Show() boxsizer1.Add(sizer) self.sizer3.Add(boxsizer1,0, wx.EXPAND | wx.ALL, 10) self.sizer3.Layout() self.SetupScrolling()