""" Base Page for fitting """ import sys import os import wx import numpy import time import copy import math import string import cPickle as pickle #import shutil from collections import defaultdict from wx.lib.scrolledpanel import ScrolledPanel from sans.guiframe.panel_base import PanelBase from sans.guiframe.utils import format_number, check_float from sans.guiframe.events import PanelOnFocusEvent from sans.guiframe.events import StatusEvent from sans.guiframe.events import AppendBookmarkEvent from sans.guiframe.dataFitting import Data2D from sans.guiframe.dataFitting import Data1D from sans.guiframe.dataFitting import check_data_validity from sans.dataloader.data_info import Detector from sans.dataloader.data_info import Source from sans.perspectives.fitting.pagestate import PageState from sans.guiframe.CategoryInstaller import CategoryInstaller (PageInfoEvent, EVT_PAGE_INFO) = wx.lib.newevent.NewEvent() (PreviousStateEvent, EVT_PREVIOUS_STATE) = wx.lib.newevent.NewEvent() (NextStateEvent, EVT_NEXT_STATE) = wx.lib.newevent.NewEvent() _BOX_WIDTH = 76 _QMIN_DEFAULT = 0.0005 _QMAX_DEFAULT = 0.5 _NPTS_DEFAULT = 50 #Control panel width if sys.platform.count("win32") > 0: PANEL_WIDTH = 450 FONT_VARIANT = 0 ON_MAC = False else: PANEL_WIDTH = 500 FONT_VARIANT = 1 ON_MAC = True class BasicPage(ScrolledPanel, PanelBase): """ This class provide general structure of fitpanel page """ ## Internal name for the AUI manager window_name = "Fit Page" ## Title to appear on top of the window window_caption = "Fit Page " def __init__(self, parent, color='blue', **kwargs): """ """ ScrolledPanel.__init__(self, parent, **kwargs) PanelBase.__init__(self, parent) self.SetupScrolling() #Set window's font size self.SetWindowVariant(variant=FONT_VARIANT) self.SetBackgroundColour(color) ## parent of the page self.parent = parent ## manager is the fitting plugin ## owner of the page (fitting plugin) self.event_owner = None ## current model self.model = None self.m_name = None self.index_model = None self.panel = None ## data self.data = None #list of available data self.data_list = [] self.mask = None self.uid = wx.NewId() self.graph_id = None #Q range for data set self.qmin_data_set = numpy.inf self.qmax_data_set = None self.npts_data_set = 0 ## Q range self.qmin = None self.qmax = None self.qmax_x = _QMAX_DEFAULT self.qmin_x = _QMIN_DEFAULT self.npts_x = _NPTS_DEFAULT ## total number of point: float self.npts = None self.num_points = None ## default fitengine type self.engine_type = 'scipy' ## smear default self.current_smearer = None ## 2D smear accuracy default self.smear2d_accuracy = 'Low' ## slit smear: self.dxl = None self.dxw = None ## pinhole smear self.dx_min = None self.dx_max = None ##semar attrbs self.enable_smearer = None self.disable_smearer = None self.pinhole_smearer = None self.slit_smearer = None ##weigth attrbs self.dI_noweight = None self.dI_didata = None self.dI_sqrdata = None self.dI_idata = None ##other attrbs self.dq_l = None self.dq_r = None self.tcChi = None self.disp_box = None self.model_disp = None self.Npts_fit = None self.Npts_total = None self.theory_qmin = None self.theory_qmax = None self.theory_qmin_x = None self.theory_qmax_x = None self.cb1 = None self.btEditMask = None self.btFit = None self.sld_axes = None self.multi_factor = None self.disp_cb_dict = {} #self.state = PageState(parent=parent) ## dictionary containing list of models self.model_list_box = {} ## Data member to store the dispersion object created self._disp_obj_dict = {} ## selected parameters to apply dispersion self.disp_cb_dict = {} ## smearer object self.enable2D = False self._has_magnetic = False self.magnetic_on = False self.is_mac = ON_MAC self.formfactorbox = None self.structurebox = None self.categorybox = None ##list of model parameters. each item must have same length ## each item related to a given parameters ##[cb state, name, value, "+/-", error of fit, min, max , units] self.parameters = [] # non-fittable parameter whose value is astring self.str_parameters = [] ## list of parameters to fit , must be like self.parameters self.param_toFit = [] ## list of looking like parameters but with non fittable parameters info self.fixed_param = [] ## list of looking like parameters but with fittable parameters info self.fittable_param = [] ##list of dispersion parameters self.disp_list = [] self.disp_name = "" ## list of orientation parameters self.orientation_params = [] self.orientation_params_disp = [] if self.model != None: self.disp_list = self.model.getDispParamList() self.temp_multi_functional = False ##enable model 2D draw self.enable2D = False ## check that the fit range is correct to plot the model again self.fitrange = True ## Create memento to save the current state self.state = PageState(parent=self.parent, model=self.model, data=self.data) ## flag to determine if state has change self.state_change = False ## save customized array self.values = [] self.weights = [] ## retrieve saved state self.number_saved_state = 0 ## dictionary of saved state self.saved_states = {} ## Create context menu for page self.popUpMenu = wx.Menu() id = wx.NewId() self._keep = wx.MenuItem(self.popUpMenu, id, "Add bookmark", " Keep the panel status to recall it later") self.popUpMenu.AppendItem(self._keep) self._keep.Enable(False) self._set_bookmark_flag(False) self._set_save_flag(False) wx.EVT_MENU(self, id, self.on_bookmark) self.popUpMenu.AppendSeparator() ## Default locations self._default_save_location = os.getcwd() ## save initial state on context menu #self.onSave(event=None) self.Bind(wx.EVT_CONTEXT_MENU, self.onContextMenu) # bind key event self.Bind(wx.EVT_LEFT_DOWN, self.on_left_down) ## create the basic structure of the panel with empty sizer self.define_page_structure() ## drawing Initial dispersion parameters sizer self.set_dispers_sizer() ## layout self.set_layout() def set_index_model(self, index): """ Index related to this page """ self.index_model = index def create_default_data(self): """ Given the user selection, creates a 1D or 2D data Only when the page is on theory mode. """ if not hasattr(self, "model_view"): return toggle_mode_on = self.model_view.IsEnabled() if toggle_mode_on: if self.enable2D and not check_data_validity(self.data): self._create_default_2d_data() else: self._create_default_1d_data() if self.model != None: if not self.data.is_data: self._manager.page_finder[self.uid].set_fit_data(data=\ [self.data]) self.on_smear_helper(update=True) 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 _create_default_1d_data(self): """ Create default data for fitting perspective Only when the page is on theory mode. :warning: This data is never plotted. """ x = numpy.linspace(start=self.qmin_x, stop=self.qmax_x, num=self.npts_x, endpoint=True) self.data = Data1D(x=x) self.data.xaxis('\\rm{Q}', "A^{-1}") self.data.yaxis('\\rm{Intensity}', "cm^{-1}") self.data.is_data = False self.data.id = str(self.uid) + " data" self.data.group_id = str(self.uid) + " Model1D" def _create_default_2d_data(self): """ Create 2D data by default Only when the page is on theory mode. :warning: This data is never plotted. """ self.data = Data2D() qmax = self.qmax_x / math.sqrt(2) self.data.xaxis('\\rm{Q_{x}}', 'A^{-1}') self.data.yaxis('\\rm{Q_{y}}', 'A^{-1}') self.data.is_data = False self.data.id = str(self.uid) + " data" self.data.group_id = str(self.uid) + " Model2D" ## Default values self.data.detector.append(Detector()) index = len(self.data.detector) - 1 self.data.detector[index].distance = 8000 # mm self.data.source.wavelength = 6 # A self.data.detector[index].pixel_size.x = 5 # mm self.data.detector[index].pixel_size.y = 5 # mm self.data.detector[index].beam_center.x = qmax self.data.detector[index].beam_center.y = qmax ## create x_bins and y_bins of the model 2D #pixel_width_x = self.data.detector[index].pixel_size.x #pixel_width_y = self.data.detector[index].pixel_size.y #center_x = self.data.detector[index].beam_center.x/pixel_width_x #center_y = self.data.detector[index].beam_center.y/pixel_width_y # theory default: assume the beam #center is located at the center of sqr detector xmax = qmax xmin = -qmax ymax = qmax ymin = -qmax qstep = self.npts_x x = numpy.linspace(start=xmin, stop=xmax, num=qstep, endpoint=True) y = numpy.linspace(start=ymin, stop=ymax, num=qstep, endpoint=True) ## use data info instead new_x = numpy.tile(x, (len(y), 1)) new_y = numpy.tile(y, (len(x), 1)) new_y = new_y.swapaxes(0, 1) # all data reuire now in 1d array qx_data = new_x.flatten() qy_data = new_y.flatten() q_data = numpy.sqrt(qx_data * qx_data + qy_data * qy_data) # set all True (standing for unmasked) as default mask = numpy.ones(len(qx_data), dtype=bool) # calculate the range of qx and qy: this way, # it is a little more independent #x_size = xmax - xmin #y_size = ymax - ymin # store x and y bin centers in q space x_bins = x y_bins = y # bin size: x- & y-directions #xstep = x_size / len(x_bins - 1) #ystep = y_size / len(y_bins - 1) self.data.source = Source() self.data.data = numpy.ones(len(mask)) self.data.err_data = numpy.ones(len(mask)) self.data.qx_data = qx_data self.data.qy_data = qy_data self.data.q_data = q_data self.data.mask = mask self.data.x_bins = x_bins self.data.y_bins = y_bins # max and min taking account of the bin sizes self.data.xmin = xmin self.data.xmax = xmax self.data.ymin = ymin self.data.ymax = ymax def on_set_focus(self, event): """ On Set Focus, update guimanger and menu """ if self._manager is not None: wx.PostEvent(self._manager.parent, PanelOnFocusEvent(panel=self)) self.on_tap_focus() def on_tap_focus(self): """ Update menu1 on cliking the page tap """ if self._manager.menu1 != None: chain_menu = self._manager.menu1.FindItemById(\ self._manager.id_reset_flag) chain_menu.Enable(self.batch_on) sim_menu = self._manager.menu1.FindItemById(self._manager.id_simfit) flag = self.data.is_data\ and (self.model != None) sim_menu.Enable(not self.batch_on and flag) batch_menu = \ self._manager.menu1.FindItemById(self._manager.id_batchfit) batch_menu.Enable(self.batch_on and flag) class ModelTextCtrl(wx.TextCtrl): """ Text control for model and fit parameters. Binds the appropriate events for user interactions. Default callback methods can be overwritten on initialization :param kill_focus_callback: callback method for EVT_KILL_FOCUS event :param set_focus_callback: callback method for EVT_SET_FOCUS event :param mouse_up_callback: callback method for EVT_LEFT_UP event :param text_enter_callback: callback method for EVT_TEXT_ENTER event """ ## Set to True when the mouse is clicked while whole string is selected full_selection = False ## Call back for EVT_SET_FOCUS events _on_set_focus_callback = None def __init__(self, parent, id=-1, value=wx.EmptyString, pos=wx.DefaultPosition, size=wx.DefaultSize, style=0, validator=wx.DefaultValidator, name=wx.TextCtrlNameStr, kill_focus_callback=None, set_focus_callback=None, mouse_up_callback=None, text_enter_callback=None): wx.TextCtrl.__init__(self, parent, id, value, pos, size, style, validator, name) # Bind appropriate events self._on_set_focus_callback = parent.onSetFocus \ if set_focus_callback is None else set_focus_callback self.Bind(wx.EVT_SET_FOCUS, self._on_set_focus) self.Bind(wx.EVT_KILL_FOCUS, self._silent_kill_focus \ if kill_focus_callback is None else kill_focus_callback) self.Bind(wx.EVT_TEXT_ENTER, parent._onparamEnter \ if text_enter_callback is None else text_enter_callback) if not ON_MAC: self.Bind(wx.EVT_LEFT_UP, self._highlight_text \ if mouse_up_callback is None else mouse_up_callback) def _on_set_focus(self, event): """ Catch when the text control is set in focus to highlight the whole text if necessary :param event: mouse event """ event.Skip() self.full_selection = True return self._on_set_focus_callback(event) def _highlight_text(self, event): """ Highlight text of a TextCtrl only of no text has be selected :param event: mouse event """ # Make sure the mouse event is available to other listeners event.Skip() control = event.GetEventObject() if self.full_selection: self.full_selection = False # Check that we have a TextCtrl if issubclass(control.__class__, wx.TextCtrl): # Check whether text has been selected, # if not, select the whole string (start, end) = control.GetSelection() if start == end: control.SetSelection(-1, -1) def _silent_kill_focus(self, event): """ Save the state of the page """ event.Skip() #pass def set_page_info(self, page_info): """ set some page important information at once """ ##window_name self.window_name = page_info.window_name ##window_caption self.window_caption = page_info.window_caption ## manager is the fitting plugin self._manager = page_info.manager ## owner of the page (fitting plugin) self.event_owner = page_info.event_owner ## current model self.model = page_info.model ## data self.data = page_info.data ## dictionary containing list of models self.model_list_box = page_info.model_list_box ## Data member to store the dispersion object created self.populate_box(dict=self.model_list_box) def onContextMenu(self, event): """ Retrieve the state selected state """ # Skipping the save state functionality for release 0.9.0 #return pos = event.GetPosition() pos = self.ScreenToClient(pos) self.PopupMenu(self.popUpMenu, pos) def onUndo(self, event): """ Cancel the previous action """ event = PreviousStateEvent(page=self) wx.PostEvent(self.parent, event) def onRedo(self, event): """ Restore the previous action cancelled """ event = NextStateEvent(page=self) wx.PostEvent(self.parent, event) def define_page_structure(self): """ Create empty sizer for a panel """ self.vbox = wx.BoxSizer(wx.VERTICAL) self.sizer0 = wx.BoxSizer(wx.VERTICAL) self.sizer1 = wx.BoxSizer(wx.VERTICAL) self.sizer2 = wx.BoxSizer(wx.VERTICAL) self.sizer3 = wx.BoxSizer(wx.VERTICAL) self.sizer4 = wx.BoxSizer(wx.VERTICAL) self.sizer5 = wx.BoxSizer(wx.VERTICAL) self.sizer6 = wx.BoxSizer(wx.VERTICAL) self.sizer0.SetMinSize((PANEL_WIDTH, -1)) self.sizer1.SetMinSize((PANEL_WIDTH, -1)) self.sizer2.SetMinSize((PANEL_WIDTH, -1)) self.sizer3.SetMinSize((PANEL_WIDTH, -1)) self.sizer4.SetMinSize((PANEL_WIDTH, -1)) self.sizer5.SetMinSize((PANEL_WIDTH, -1)) self.sizer6.SetMinSize((PANEL_WIDTH, -1)) self.vbox.Add(self.sizer0) self.vbox.Add(self.sizer1) self.vbox.Add(self.sizer2) self.vbox.Add(self.sizer3) self.vbox.Add(self.sizer4) self.vbox.Add(self.sizer5) self.vbox.Add(self.sizer6) def set_layout(self): """ layout """ self.vbox.Layout() self.vbox.Fit(self) self.SetSizer(self.vbox) self.Centre() def set_owner(self, owner): """ set owner of fitpage :param owner: the class responsible of plotting """ self.event_owner = owner self.state.event_owner = owner def get_state(self): """ """ return self.state def get_data(self): """ return the current data """ return self.data def get_data_list(self): """ return the current data """ return self.data_list def set_manager(self, manager): """ set panel manager :param manager: instance of plugin fitting """ self._manager = manager self.state.manager = manager def populate_box(self, dict): """ Store list of model :param dict: dictionary containing list of models """ self.model_list_box = dict self.state.model_list_box = self.model_list_box self.initialize_combox() def set_model_dictionary(self, model_dict): """ Store a dictionary linking model name -> model object :param model_dict: dictionary containing list of models """ self.model_dict = model_dict def initialize_combox(self): """ put default value in the combobox """ ## fill combox box if self.model_list_box is None: return if len(self.model_list_box) > 0: self._populate_box(self.formfactorbox, self.model_list_box["Shapes"]) if len(self.model_list_box) > 0: self._populate_box(self.structurebox, self.model_list_box["Structure Factors"]) self.structurebox.Insert("None", 0, None) self.structurebox.SetSelection(0) self.structurebox.Hide() self.text2.Hide() self.structurebox.Disable() self.text2.Disable() if self.model.__class__ in self.model_list_box["P(Q)*S(Q)"]: self.structurebox.Show() self.text2.Show() self.structurebox.Enable() self.text2.Enable() def set_dispers_sizer(self): """ fill sizer containing dispersity info """ self.sizer4.Clear(True) name = "Polydispersity and Orientational Distribution" box_description = wx.StaticBox(self, -1, name) box_description.SetForegroundColour(wx.BLUE) boxsizer1 = wx.StaticBoxSizer(box_description, wx.VERTICAL) #---------------------------------------------------- self.disable_disp = wx.RadioButton(self, -1, 'Off', (10, 10), style=wx.RB_GROUP) self.enable_disp = wx.RadioButton(self, -1, 'On', (10, 30)) # best size for MAC and PC if ON_MAC: size_q = (30, 20) else: size_q = (20, 15) self.disp_help_bt = wx.Button(self, wx.NewId(), '?', style=wx.BU_EXACTFIT, size=size_q) self.disp_help_bt.Bind(wx.EVT_BUTTON, self.on_pd_help_clicked, id=self.disp_help_bt.GetId()) self.disp_help_bt.SetToolTipString("Helps for Polydispersion.") self.Bind(wx.EVT_RADIOBUTTON, self._set_dipers_Param, id=self.disable_disp.GetId()) self.Bind(wx.EVT_RADIOBUTTON, self._set_dipers_Param, id=self.enable_disp.GetId()) #MAC needs SetValue self.disable_disp.SetValue(True) sizer_dispersion = wx.BoxSizer(wx.HORIZONTAL) sizer_dispersion.Add((20, 20)) name = "" # Polydispersity and \nOrientational Distribution " sizer_dispersion.Add(wx.StaticText(self, -1, name)) sizer_dispersion.Add(self.enable_disp) sizer_dispersion.Add((20, 20)) sizer_dispersion.Add(self.disable_disp) sizer_dispersion.Add((25, 20)) sizer_dispersion.Add(self.disp_help_bt) ## fill a sizer for dispersion boxsizer1.Add(sizer_dispersion, 0, wx.TOP | wx.BOTTOM | wx.LEFT | wx.EXPAND | wx.ADJUST_MINSIZE, border=5) self.sizer4_4 = wx.GridBagSizer(6, 5) boxsizer1.Add(self.sizer4_4) #----------------------------------------------------- self.sizer4.Add(boxsizer1, 0, wx.EXPAND | wx.ALL, 10) self.sizer4_4.Layout() self.sizer4.Layout() self.Layout() self.Refresh() ## saving the state of enable dispersity button self.state.enable_disp = self.enable_disp.GetValue() self.state.disable_disp = self.disable_disp.GetValue() self.SetupScrolling() def onResetModel(self, event): """ Reset model state """ menu = event.GetEventObject() ## post help message for the selected model msg = menu.GetHelpString(event.GetId()) msg += " reloaded" wx.PostEvent(self.parent.parent, StatusEvent(status=msg)) self.Show(False) name = menu.GetLabel(event.GetId()) self._on_select_model_helper() if self.model != None: self.m_name = self.model.name if name in self.saved_states.keys(): previous_state = self.saved_states[name] ## reset state of checkbox,textcrtl and regular parameters value self.reset_page(previous_state) self.state.m_name = self.m_name self.Show(True) def on_preview(self, event): """ Report the current fit results """ # Get plot image from plotpanel images, canvases = self.get_images() # get the report dialog self.state.report(images, canvases) def on_save(self, event): """ Save the current state into file """ self.save_current_state() new_state = self.state.clone() # Ask the user the location of the file to write to. path = None if self.parent != None: self._default_save_location = \ self.parent.parent._default_save_location dlg = wx.FileDialog(self, "Choose a file", self._default_save_location, self.window_caption, "*.fitv", wx.SAVE) if dlg.ShowModal() == wx.ID_OK: path = dlg.GetPath() self._default_save_location = os.path.dirname(path) self.parent.parent._default_save_location =\ self._default_save_location else: return None # MAC always needs the extension for saving extens = ".fitv" # Make sure the ext included in the file name fName = os.path.splitext(path)[0] + extens #the manager write the state into file self._manager.save_fit_state(filepath=fName, fitstate=new_state) return new_state def on_copy(self, event): """ Copy Parameter values to the clipboad """ if event != None: event.Skip() # It seems MAC needs wxCallAfter wx.CallAfter(self.get_copy) def on_paste(self, event): """ Paste Parameter values to the panel if possible """ #if event != None: # event.Skip() # It seems MAC needs wxCallAfter for the setvalues # for multiple textctrl items, otherwise it tends to crash once a while wx.CallAfter(self.get_paste) # messages depending on the flag #self._copy_info(True) def _copy_info(self, flag): """ Send event dpemding on flag : Param flag: flag that distinguish event """ # messages depending on the flag if flag == None: msg = " Parameter values are copied to the clipboard..." infor = 'warning' elif flag: msg = " Parameter values are pasted from the clipboad..." infor = "warning" else: msg = "Error was occured " msg += ": No valid parameter values to paste from the clipboard..." infor = "error" wx.PostEvent(self.parent.parent, StatusEvent(status=msg, info=infor)) raise # inform msg to wx wx.PostEvent(self.parent.parent, StatusEvent(status=msg, info=infor)) def _get_time_stamp(self): """ return time and date stings """ # date and time year, month, day, hour, minute, second, _, _, _ = time.localtime() current_time = str(hour) + ":" + str(minute) + ":" + str(second) current_date = str(month) + "/" + str(day) + "/" + str(year) return current_time, current_date def on_bookmark(self, event): """ save history of the data and model """ if self.model == None: msg = "Can not bookmark; Please select Data and Model first..." wx.MessageBox(msg, 'Info') return self.save_current_state() new_state = self.state.clone() ##Add model state on context menu self.number_saved_state += 1 current_time, current_date = self._get_time_stamp() #name= self.model.name+"[%g]"%self.number_saved_state name = "Fitting: %g]" % self.number_saved_state name += self.model.__class__.__name__ name += "bookmarked at %s on %s" % (current_time, current_date) self.saved_states[name] = new_state ## Add item in the context menu msg = "Model saved at %s on %s" % (current_time, current_date) ## post help message for the selected model msg += " Saved! right click on this page to retrieve this model" wx.PostEvent(self.parent.parent, StatusEvent(status=msg)) id = wx.NewId() self.popUpMenu.Append(id, name, str(msg)) wx.EVT_MENU(self, id, self.onResetModel) wx.PostEvent(self.parent.parent, AppendBookmarkEvent(title=name, hint=str(msg), handler=self._back_to_bookmark)) def _back_to_bookmark(self, event): """ Back to bookmark """ self._manager.on_perspective(event) self.onResetModel(event) self._draw_model() def onSetFocus(self, evt): """ highlight the current textcrtl and hide the error text control shown after fitting """ return def read_file(self, path): """ Read two columns file :param path: the path to the file to read """ try: if path == None: wx.PostEvent(self.parent.parent, StatusEvent(status= \ " Selected Distribution was not loaded: %s" % path)) return None, None input_f = open(path, 'r') buff = input_f.read() lines = buff.split('\n') input_f.close() angles = [] weights = [] for line in lines: toks = line.split() try: angle = float(toks[0]) weight = float(toks[1]) angles.append(angle) weights.append(weight) except: # Skip non-data lines pass return numpy.array(angles), numpy.array(weights) except: raise def createMemento(self): """ return the current state of the page """ return self.state.clone() def save_current_state(self): """ Store current state """ self.state.engine_type = copy.deepcopy(self.engine_type) ## save model option if self.model != None: self.disp_list = self.model.getDispParamList() self.state.disp_list = copy.deepcopy(self.disp_list) self.state.model = self.model.clone() #model combobox: complex code because of mac's silent error if self.structurebox != None: if self.structurebox.IsShown(): self.state.structurecombobox = 'None' s_select = self.structurebox.GetSelection() if s_select > 0: self.state.structurecombobox = self.structurebox.\ GetString(s_select) if self.formfactorbox != None: f_select = self.formfactorbox.GetSelection() if f_select > 0: self.state.formfactorcombobox = self.formfactorbox.\ GetString(f_select) if self.categorybox != None: cb_select = self.categorybox.GetSelection() if cb_select > 0: self.state.categorycombobox = self.categorybox.\ GetString(cb_select) #save radiobutton state for model selection #self.state.shape_rbutton = self.shape_rbutton.GetValue() #self.state.shape_indep_rbutton = self.shape_indep_rbutton.GetValue() #self.state.struct_rbutton = self.struct_rbutton.GetValue() #self.state.plugin_rbutton = self.plugin_rbutton.GetValue() self.state.enable2D = copy.deepcopy(self.enable2D) self.state.values = copy.deepcopy(self.values) self.state.weights = copy.deepcopy(self.weights) ## save data self.state.data = copy.deepcopy(self.data) self.state.qmax_x = self.qmax_x self.state.qmin_x = self.qmin_x self.state.dI_noweight = copy.deepcopy(self.dI_noweight.GetValue()) self.state.dI_didata = copy.deepcopy(self.dI_didata.GetValue()) self.state.dI_sqrdata = copy.deepcopy(self.dI_sqrdata.GetValue()) self.state.dI_idata = copy.deepcopy(self.dI_idata.GetValue()) self.state.dq_l = self.dq_l self.state.dq_r = self.dq_r if hasattr(self, "enable_disp"): self.state.enable_disp = self.enable_disp.GetValue() self.state.disable_disp = self.disable_disp.GetValue() self.state.smearer = copy.deepcopy(self.current_smearer) if hasattr(self, "enable_smearer"): self.state.enable_smearer = \ copy.deepcopy(self.enable_smearer.GetValue()) self.state.disable_smearer = \ copy.deepcopy(self.disable_smearer.GetValue()) self.state.pinhole_smearer = \ copy.deepcopy(self.pinhole_smearer.GetValue()) self.state.slit_smearer = copy.deepcopy(self.slit_smearer.GetValue()) if len(self._disp_obj_dict) > 0: for k, v in self._disp_obj_dict.iteritems(): self.state._disp_obj_dict[k] = v self.state.values = copy.deepcopy(self.values) self.state.weights = copy.deepcopy(self.weights) ## save plotting range self._save_plotting_range() self.state.orientation_params = [] self.state.orientation_params_disp = [] self.state.parameters = [] self.state.fittable_param = [] self.state.fixed_param = [] self.state.str_parameters = [] ## save checkbutton state and txtcrtl values self._copy_parameters_state(self.str_parameters, self.state.str_parameters) self._copy_parameters_state(self.orientation_params, self.state.orientation_params) self._copy_parameters_state(self.orientation_params_disp, self.state.orientation_params_disp) self._copy_parameters_state(self.parameters, self.state.parameters) self._copy_parameters_state(self.fittable_param, self.state.fittable_param) self._copy_parameters_state(self.fixed_param, self.state.fixed_param) #save chisqr self.state.tcChi = self.tcChi.GetValue() def save_current_state_fit(self): """ Store current state for fit_page """ ## save model option if self.model != None: self.disp_list = self.model.getDispParamList() self.state.disp_list = copy.deepcopy(self.disp_list) self.state.model = self.model.clone() if hasattr(self, "engine_type"): self.state.engine_type = copy.deepcopy(self.engine_type) self.state.enable2D = copy.deepcopy(self.enable2D) self.state.values = copy.deepcopy(self.values) self.state.weights = copy.deepcopy(self.weights) ## save data self.state.data = copy.deepcopy(self.data) if hasattr(self, "enable_disp"): self.state.enable_disp = self.enable_disp.GetValue() self.state.disable_disp = self.disable_disp.GetValue() self.state.smearer = copy.deepcopy(self.current_smearer) if hasattr(self, "enable_smearer"): self.state.enable_smearer = \ copy.deepcopy(self.enable_smearer.GetValue()) self.state.disable_smearer = \ copy.deepcopy(self.disable_smearer.GetValue()) self.state.pinhole_smearer = \ copy.deepcopy(self.pinhole_smearer.GetValue()) self.state.slit_smearer = copy.deepcopy(self.slit_smearer.GetValue()) self.state.dI_noweight = copy.deepcopy(self.dI_noweight.GetValue()) self.state.dI_didata = copy.deepcopy(self.dI_didata.GetValue()) self.state.dI_sqrdata = copy.deepcopy(self.dI_sqrdata.GetValue()) self.state.dI_idata = copy.deepcopy(self.dI_idata.GetValue()) if hasattr(self, "disp_box") and self.disp_box != None: self.state.disp_box = self.disp_box.GetCurrentSelection() if len(self.disp_cb_dict) > 0: for k, v in self.disp_cb_dict.iteritems(): if v == None: self.state.disp_cb_dict[k] = v else: try: self.state.disp_cb_dict[k] = v.GetValue() except: self.state.disp_cb_dict[k] = None if len(self._disp_obj_dict) > 0: for k, v in self._disp_obj_dict.iteritems(): self.state._disp_obj_dict[k] = v self.state.values = copy.deepcopy(self.values) self.state.weights = copy.deepcopy(self.weights) ## save plotting range self._save_plotting_range() ## save checkbutton state and txtcrtl values self._copy_parameters_state(self.orientation_params, self.state.orientation_params) self._copy_parameters_state(self.orientation_params_disp, self.state.orientation_params_disp) self._copy_parameters_state(self.parameters, self.state.parameters) self._copy_parameters_state(self.fittable_param, self.state.fittable_param) self._copy_parameters_state(self.fixed_param, self.state.fixed_param) def check_invalid_panel(self): """ check if the user can already perform some action with this panel """ if self.data is None: self.disable_smearer.SetValue(True) self.disable_disp.SetValue(True) msg = "Please load Data and select Model to start..." wx.MessageBox(msg, 'Info') return True def set_model_state(self, state): """ reset page given a model state """ self.disp_cb_dict = state.disp_cb_dict self.disp_list = state.disp_list ## set the state of the radio box #self.shape_rbutton.SetValue(state.shape_rbutton) #self.shape_indep_rbutton.SetValue(state.shape_indep_rbutton) #self.struct_rbutton.SetValue(state.struct_rbutton) #self.plugin_rbutton.SetValue(state.plugin_rbutton) ## fill model combobox self._show_combox_helper() #select the current model try: # to support older version category_pos = int(state.categorycombobox) except: category_pos = 0 for ind_cat in range(self.categorybox.GetCount()): if self.categorycombobox.GetString(ind_form) == \ state.categorycombobox: category_pos = int(ind_cat) break self.categorybox.Select(category_pos) try: # to support older version formfactor_pos = int(state.formfactorcombobox) except: formfactor_pos = 0 for ind_form in range(self.formfactorbox.GetCount()): if self.formfactorbox.GetString(ind_form) == \ state.formfactorcombobox: formfactor_pos = int(ind_form) break self.formfactorbox.Select(formfactor_pos) try: # to support older version structfactor_pos = int(state.structurecombobox) except: structfactor_pos = 0 for ind_struct in range(self.structurebox.GetCount()): if self.structurebox.GetString(ind_struct) == \ state.structurecombobox: structfactor_pos = int(ind_struct) break self.structurebox.SetSelection(structfactor_pos) if state.multi_factor != None: self.multifactorbox.SetSelection(state.multi_factor) ## reset state of checkbox,textcrtl and regular parameters value self._reset_parameters_state(self.orientation_params_disp, state.orientation_params_disp) self._reset_parameters_state(self.orientation_params, state.orientation_params) self._reset_parameters_state(self.str_parameters, state.str_parameters) self._reset_parameters_state(self.parameters, state.parameters) ## display dispersion info layer self.enable_disp.SetValue(state.enable_disp) self.disable_disp.SetValue(state.disable_disp) if hasattr(self, "disp_box") and self.disp_box != None: self.disp_box.SetSelection(state.disp_box) n = self.disp_box.GetCurrentSelection() dispersity = self.disp_box.GetClientData(n) name = dispersity.__name__ self._set_dipers_Param(event=None) if name == "ArrayDispersion": for item in self.disp_cb_dict.keys(): if hasattr(self.disp_cb_dict[item], "SetValue"): self.disp_cb_dict[item].SetValue(\ state.disp_cb_dict[item]) # Create the dispersion objects from sans.models.dispersion_models import ArrayDispersion disp_model = ArrayDispersion() if hasattr(state, "values") and \ self.disp_cb_dict[item].GetValue() == True: if len(state.values) > 0: self.values = state.values self.weights = state.weights disp_model.set_weights(self.values, state.weights) else: self._reset_dispersity() self._disp_obj_dict[item] = disp_model # Set the new model as the dispersion object #for the selected parameter self.model.set_dispersion(item, disp_model) self.model._persistency_dict[item] = \ [state.values, state.weights] else: keys = self.model.getParamList() for item in keys: if item in self.disp_list and \ not item in self.model.details: self.model.details[item] = ["", None, None] self.disp_cb_dict = copy.deepcopy(state.disp_cb_dict) self.state.disp_cb_dict = copy.deepcopy(state.disp_cb_dict) ## smearing info restore if hasattr(self, "enable_smearer"): ## set smearing value whether or not the data #contain the smearing info self.enable_smearer.SetValue(state.enable_smearer) self.disable_smearer.SetValue(state.disable_smearer) self.onSmear(event=None) self.pinhole_smearer.SetValue(state.pinhole_smearer) self.slit_smearer.SetValue(state.slit_smearer) self.dI_noweight.SetValue(state.dI_noweight) self.dI_didata.SetValue(state.dI_didata) self.dI_sqrdata.SetValue(state.dI_sqrdata) self.dI_idata.SetValue(state.dI_idata) ## we have two more options for smearing if self.pinhole_smearer.GetValue(): self.onPinholeSmear(event=None) elif self.slit_smearer.GetValue(): self.onSlitSmear(event=None) ## reset state of checkbox,textcrtl and dispersity parameters value self._reset_parameters_state(self.fittable_param, state.fittable_param) self._reset_parameters_state(self.fixed_param, state.fixed_param) ## draw the model with previous parameters value self._onparamEnter_helper() self.select_param(event=None) #Save state_fit self.save_current_state_fit() self._lay_out() self.Refresh() def reset_page_helper(self, state): """ Use page_state and change the state of existing page :precondition: the page is already drawn or created :postcondition: the state of the underlying data change as well as the state of the graphic interface """ if state == None: return # set data, etc. from the state # reset page between theory and fitting from bookmarking #if state.data == None: # data = None #else: data = state.data if data == None: data_min = state.qmin data_max = state.qmax self.qmin_x = data_min self.qmax_x = data_max self.qmin.SetValue(str(data_min)) self.qmax.SetValue(str(data_max)) self.state.data = data self.state.qmin = self.qmin_x self.state.qmax = self.qmax_x else: self.set_data(data) self.enable2D = state.enable2D try: self.magnetic_on = state.magnetic_on except: # Backward compatibility (for older state files) self.magnetic_on = False self.engine_type = state.engine_type self.disp_cb_dict = state.disp_cb_dict self.disp_list = state.disp_list ## set the state of the radio box #self.shape_rbutton.SetValue(state.shape_rbutton) #self.shape_indep_rbutton.SetValue(state.shape_indep_rbutton) #self.struct_rbutton.SetValue(state.struct_rbutton) #self.plugin_rbutton.SetValue(state.plugin_rbutton) ## fill model combobox self._show_combox_helper() #select the current model try: # to support older version category_pos = int(state.categorycombobox) except: category_pos = 0 for ind_cat in range(self.categorybox.GetCount()): if self.categorybox.GetString(ind_cat) == \ state.categorycombobox: category_pos = int(ind_cat) break self.categorybox.Select(category_pos) self._show_combox(None) try: # to support older version formfactor_pos = int(state.formfactorcombobox) except: formfactor_pos = 0 for ind_form in range(self.formfactorbox.GetCount()): if self.formfactorbox.GetString(ind_form) == \ (state.formfactorcombobox): formfactor_pos = int(ind_form) break self.formfactorbox.Select(formfactor_pos) try: # to support older version structfactor_pos = int(state.structurecombobox) except: structfactor_pos = 0 for ind_struct in range(self.structurebox.GetCount()): if self.structurebox.GetString(ind_struct) == \ (state.structurecombobox): structfactor_pos = int(ind_struct) break self.structurebox.SetSelection(structfactor_pos) if state.multi_factor != None: self.multifactorbox.SetSelection(state.multi_factor) #reset the fitting engine type self.engine_type = state.engine_type #draw the pnael according to the new model parameter self._on_select_model(event=None) # take care of 2D button if data == None and self.model_view.IsEnabled(): if self.enable2D: self.model_view.SetLabel("2D Mode") else: self.model_view.SetLabel("1D Mode") # else: if self._manager != None and self.engine_type != None: self._manager._on_change_engine(engine=self.engine_type) ## set the select all check box to the a given state self.cb1.SetValue(state.cb1) ## reset state of checkbox,textcrtl and regular parameters value self._reset_parameters_state(self.orientation_params_disp, state.orientation_params_disp) self._reset_parameters_state(self.orientation_params, state.orientation_params) self._reset_parameters_state(self.str_parameters, state.str_parameters) self._reset_parameters_state(self.parameters, state.parameters) ## display dispersion info layer self.enable_disp.SetValue(state.enable_disp) self.disable_disp.SetValue(state.disable_disp) # If the polydispersion is ON if state.enable_disp: # reset dispersion according the state self._set_dipers_Param(event=None) self._reset_page_disp_helper(state) ##plotting range restore self._reset_plotting_range(state) ## smearing info restore if hasattr(self, "enable_smearer"): ## set smearing value whether or not the data #contain the smearing info self.enable_smearer.SetValue(state.enable_smearer) self.disable_smearer.SetValue(state.disable_smearer) self.onSmear(event=None) self.pinhole_smearer.SetValue(state.pinhole_smearer) self.slit_smearer.SetValue(state.slit_smearer) try: self.dI_noweight.SetValue(state.dI_noweight) self.dI_didata.SetValue(state.dI_didata) self.dI_sqrdata.SetValue(state.dI_sqrdata) self.dI_idata.SetValue(state.dI_idata) except: # to support older state file formats self.dI_noweight.SetValue(False) self.dI_didata.SetValue(True) self.dI_sqrdata.SetValue(False) self.dI_idata.SetValue(False) ## we have two more options for smearing if self.pinhole_smearer.GetValue(): self.onPinholeSmear(event=None) elif self.slit_smearer.GetValue(): self.onSlitSmear(event=None) ## reset state of checkbox,textcrtl and dispersity parameters value self._reset_parameters_state(self.fittable_param, state.fittable_param) self._reset_parameters_state(self.fixed_param, state.fixed_param) ## draw the model with previous parameters value self._onparamEnter_helper() #reset the value of chisqr when not consistent with the value computed self.tcChi.SetValue(str(self.state.tcChi)) ## reset context menu items self._reset_context_menu() ## set the value of the current state to the state given as parameter self.state = state.clone() self.state.m_name = self.m_name def _reset_page_disp_helper(self, state): """ Help to rest page for dispersions """ keys = self.model.getParamList() for item in keys: if item in self.disp_list and \ not item in self.model.details: self.model.details[item] = ["", None, None] #for k,v in self.state.disp_cb_dict.iteritems(): self.disp_cb_dict = copy.deepcopy(state.disp_cb_dict) self.state.disp_cb_dict = copy.deepcopy(state.disp_cb_dict) self.values = copy.deepcopy(state.values) self.weights = copy.deepcopy(state.weights) for key, disp in state._disp_obj_dict.iteritems(): # From saved file, disp_model can not be sent in model obj. # it will be sent as a string here, then converted to model object. if disp.__class__.__name__ == 'str': disp_model = None com_str = "from sans.models.dispersion_models " com_str += "import %s as disp_func \ndisp_model = disp_func()" exec com_str % disp else: disp_model = disp self._disp_obj_dict[key] = disp_model param_name = key.split('.')[0] # Try to set dispersion only when available # for eg., pass the orient. angles for 1D Cal try: self.model.set_dispersion(param_name, disp_model) self.model._persistency_dict[key] = \ [state.values, state.weights] except: pass selection = self._find_polyfunc_selection(disp_model) for list in self.fittable_param: if list[1] == key and list[7] != None: list[7].SetSelection(selection) # For the array disp_model, set the values and weights if selection == 1: disp_model.set_weights(self.values[key], self.weights[key]) try: # Diables all fittable params for array list[0].SetValue(False) list[0].Disable() list[2].Disable() list[5].Disable() list[6].Disable() except: pass # For array, disable all fixed params if selection == 1: for item in self.fixed_param: if item[1].split(".")[0] == key.split(".")[0]: # try it and pass it for the orientation for 1D try: item[2].Disable() except: pass # Make sure the check box updated when all checked if self.cb1.GetValue(): self.select_all_param(None) def _selectDlg(self): """ open a dialog file to selected the customized dispersity """ if self.parent != None: self._default_save_location = \ self.parent.parent.get_save_location() dlg = wx.FileDialog(self, "Choose a weight file", self._default_save_location, "", "*.*", wx.OPEN) path = None if dlg.ShowModal() == wx.ID_OK: path = dlg.GetPath() dlg.Destroy() return path def _reset_context_menu(self): """ reset the context menu """ for name, _ in self.state.saved_states.iteritems(): self.number_saved_state += 1 ## Add item in the context menu id = wx.NewId() msg = 'Save model and state %g' % self.number_saved_state self.popUpMenu.Append(id, name, msg) wx.EVT_MENU(self, id, self.onResetModel) def _reset_plotting_range(self, state): """ Reset the plotting range to a given state """ self.qmin.SetValue(str(state.qmin)) self.qmax.SetValue(str(state.qmax)) def _save_typeOfmodel(self): """ save radiobutton containing the type model that can be selected """ #self.state.shape_rbutton = self.shape_rbutton.GetValue() #self.state.shape_indep_rbutton = self.shape_indep_rbutton.GetValue() #self.state.struct_rbutton = self.struct_rbutton.GetValue() #self.state.plugin_rbutton = self.plugin_rbutton.GetValue() self.state.structurecombobox = self.structurebox.GetLabel() self.state.formfactorcombobox = self.formfactorbox.GetLabel() self.state.categorycombobox = self.categorybox.GetLabel() ## post state to fit panel event = PageInfoEvent(page=self) wx.PostEvent(self.parent, event) def _save_plotting_range(self): """ save the state of plotting range """ self.state.qmin = self.qmin_x self.state.qmax = self.qmax_x self.state.npts = self.npts_x def _onparamEnter_helper(self): """ check if values entered by the user are changed and valid to replot model """ # Flag to register when a parameter has changed. is_modified = False self.fitrange = True is_2Ddata = False #self._undo.Enable(True) # check if 2d data if self.data.__class__.__name__ == "Data2D": is_2Ddata = True if self.model != None: try: is_modified = self._check_value_enter(self.fittable_param, is_modified) is_modified = self._check_value_enter(self.fixed_param, is_modified) is_modified = self._check_value_enter(self.parameters, is_modified) except: pass # Here we should check whether the boundaries have been modified. # If qmin and qmax have been modified, update qmin and qmax and # set the is_modified flag to True if self._validate_qrange(self.qmin, self.qmax): tempmin = float(self.qmin.GetValue()) if tempmin != self.qmin_x: self.qmin_x = tempmin is_modified = True tempmax = float(self.qmax.GetValue()) if tempmax != self.qmax_x: self.qmax_x = tempmax is_modified = True if is_2Ddata: # set mask is_modified = self._validate_Npts() else: self.fitrange = False if not self.data.is_data: is_modified = True ## if any value is modify draw model with new value if not self.fitrange: #self.btFit.Disable() if is_2Ddata: self.btEditMask.Disable() else: if is_2Ddata and self.data.is_data and not self.batch_on: self.btEditMask.Enable(True) if is_modified and self.fitrange: # Theory case: need to get npts value to draw self.npts_x = float(self.Npts_total.GetValue()) self.create_default_data() self.state_change = True self._draw_model() self.Refresh() return is_modified def _update_paramv_on_fit(self): """ make sure that update param values just before the fitting """ #flag for qmin qmax check values flag = True self.fitrange = True is_modified = False #wx.PostEvent(self._manager.parent, StatusEvent(status=" \ #updating ... ",type="update")) ##So make sure that update param values on_Fit. #self._undo.Enable(True) if self.model != None: if self.Npts_total.GetValue() != self.Npts_fit.GetValue(): if not self.data.is_data: self._manager.page_finder[self.uid].set_fit_data(data=\ [self.data]) ##Check the values self._check_value_enter(self.fittable_param, is_modified) self._check_value_enter(self.fixed_param, is_modified) self._check_value_enter(self.parameters, is_modified) # If qmin and qmax have been modified, update qmin and qmax and # Here we should check whether the boundaries have been modified. # If qmin and qmax have been modified, update qmin and qmax and # set the is_modified flag to True self.fitrange = self._validate_qrange(self.qmin, self.qmax) if self.fitrange: 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 if tempmax == tempmin: flag = False temp_smearer = None if not self.disable_smearer.GetValue(): temp_smearer = self.current_smearer if self.slit_smearer.GetValue(): flag = self.update_slit_smear() elif self.pinhole_smearer.GetValue(): flag = self.update_pinhole_smear() else: self._manager.set_smearer(smearer=temp_smearer, uid=self.uid, fid=self.data.id, qmin=float(self.qmin_x), qmax=float(self.qmax_x), enable_smearer=not self.disable_smearer.GetValue(), draw=False) elif not self._is_2D(): self._manager.set_smearer(smearer=temp_smearer, qmin=float(self.qmin_x), uid=self.uid, fid=self.data.id, qmax=float(self.qmax_x), enable_smearer=not self.disable_smearer.GetValue(), draw=False) if self.data != None: index_data = ((self.qmin_x <= self.data.x) & \ (self.data.x <= self.qmax_x)) val = str(len(self.data.x[index_data == True])) self.Npts_fit.SetValue(val) else: # No data in the panel try: self.npts_x = float(self.Npts_total.GetValue()) except: flag = False return flag flag = True if self._is_2D(): # only 2D case set mask flag = self._validate_Npts() if not flag: return flag else: flag = False else: flag = False #For invalid q range, disable the mask editor and fit button, vs. if not self.fitrange: if self._is_2D(): self.btEditMask.Disable() else: if self._is_2D() and self.data.is_data and not self.batch_on: self.btEditMask.Enable(True) if not flag: msg = "Cannot Plot or Fit :Must select a " msg += " model or Fitting range is not valid!!! " wx.PostEvent(self.parent.parent, StatusEvent(status=msg)) try: self.save_current_state() except: pass return flag def _is_modified(self, is_modified): """ return to self._is_modified """ return is_modified def _reset_parameters_state(self, listtorestore, statelist): """ Reset the parameters at the given state """ if len(statelist) == 0 or len(listtorestore) == 0: return if len(statelist) != len(listtorestore): return for j in range(len(listtorestore)): item_page = listtorestore[j] item_page_info = statelist[j] ##change the state of the check box for simple parameters if item_page[0] != None: item_page[0].SetValue(item_page_info[0]) if item_page[2] != None: item_page[2].SetValue(item_page_info[2]) if item_page[2].__class__.__name__ == "ComboBox": if item_page_info[2] in self.model.fun_list: fun_val = self.model.fun_list[item_page_info[2]] self.model.setParam(item_page_info[1], fun_val) if item_page[3] != None: ## show or hide text +/- if item_page_info[2]: item_page[3].Show(True) else: item_page[3].Hide() if item_page[4] != None: ## show of hide the text crtl for fitting error if item_page_info[4][0]: item_page[4].Show(True) item_page[4].SetValue(item_page_info[4][1]) else: item_page[3].Hide() if item_page[5] != None: ## show of hide the text crtl for fitting error item_page[5].Show(item_page_info[5][0]) item_page[5].SetValue(item_page_info[5][1]) if item_page[6] != None: ## show of hide the text crtl for fitting error item_page[6].Show(item_page_info[6][0]) item_page[6].SetValue(item_page_info[6][1]) def _reset_strparam_state(self, listtorestore, statelist): """ Reset the string parameters at the given state """ if len(statelist) == 0: return listtorestore = copy.deepcopy(statelist) for j in range(len(listtorestore)): item_page = listtorestore[j] item_page_info = statelist[j] ##change the state of the check box for simple parameters if item_page[0] != None: item_page[0].SetValue(format_number(item_page_info[0], True)) if item_page[2] != None: param_name = item_page_info[1] value = item_page_info[2] selection = value if value in self.model.fun_list: selection = self.model.fun_list[value] item_page[2].SetValue(selection) self.model.setParam(param_name, selection) def _copy_parameters_state(self, listtocopy, statelist): """ copy the state of button :param listtocopy: the list of check button to copy :param statelist: list of state object to store the current state """ if len(listtocopy) == 0: return for item in listtocopy: checkbox_state = None if item[0] != None: checkbox_state = item[0].GetValue() parameter_name = item[1] parameter_value = None if item[2] != None: parameter_value = item[2].GetValue() static_text = None if item[3] != None: static_text = item[3].IsShown() error_value = None error_state = None if item[4] != None: error_value = item[4].GetValue() error_state = item[4].IsShown() min_value = None min_state = None if item[5] != None: min_value = item[5].GetValue() min_state = item[5].IsShown() max_value = None max_state = None if item[6] != None: max_value = item[6].GetValue() max_state = item[6].IsShown() unit = None if item[7] != None: unit = item[7].GetLabel() statelist.append([checkbox_state, parameter_name, parameter_value, static_text, [error_state, error_value], [min_state, min_value], [max_state, max_value], unit]) def _set_model_sizer_selection(self, model): """ Display the sizer according to the type of the current model """ if model == None: return if hasattr(model, "s_model"): class_name = model.s_model.__class__ name = model.s_model.name flag = (name != "NoStructure") if flag and \ (class_name in self.model_list_box["Structure Factors"]): self.structurebox.Show() self.text2.Show() self.structurebox.Enable() self.text2.Enable() items = self.structurebox.GetItems() self.sizer1.Layout() for i in range(len(items)): if items[i] == str(name): self.structurebox.SetSelection(i) break if hasattr(model, "p_model"): class_name = model.p_model.__class__ name = model.p_model.name self.formfactorbox.Clear() for k, list in self.model_list_box.iteritems(): if k in["P(Q)*S(Q)", "Shapes"] and \ class_name in self.model_list_box["Shapes"]: self.shape_rbutton.SetValue(True) ## fill the form factor list with new model self._populate_box(self.formfactorbox, self.model_list_box["Shapes"]) items = self.formfactorbox.GetItems() ## set comboxbox to the selected item for i in range(len(items)): if items[i] == str(name): self.formfactorbox.SetSelection(i) break return elif k == "Shape-Independent": self.shape_indep_rbutton.SetValue(True) elif k == "Structure Factors": self.struct_rbutton.SetValue(True) elif k == "Multi-Functions": continue else: self.plugin_rbutton.SetValue(True) if class_name in list: ## fill the form factor list with new model self._populate_box(self.formfactorbox, list) items = self.formfactorbox.GetItems() ## set comboxbox to the selected item for i in range(len(items)): if items[i] == str(name): self.formfactorbox.SetSelection(i) break break else: ## Select the model from the menu class_name = model.__class__ name = model.name self.formfactorbox.Clear() items = self.formfactorbox.GetItems() for k, list in self.model_list_box.iteritems(): if k in["P(Q)*S(Q)", "Shapes"] and \ class_name in self.model_list_box["Shapes"]: if class_name in self.model_list_box["P(Q)*S(Q)"]: self.structurebox.Show() self.text2.Show() self.structurebox.Enable() self.structurebox.SetSelection(0) self.text2.Enable() else: self.structurebox.Hide() self.text2.Hide() self.structurebox.Disable() self.structurebox.SetSelection(0) self.text2.Disable() self.shape_rbutton.SetValue(True) ## fill the form factor list with new model self._populate_box(self.formfactorbox, self.model_list_box["Shapes"]) items = self.formfactorbox.GetItems() ## set comboxbox to the selected item for i in range(len(items)): if items[i] == str(name): self.formfactorbox.SetSelection(i) break return elif k == "Shape-Independent": self.shape_indep_rbutton.SetValue(True) elif k == "Structure Factors": self.struct_rbutton.SetValue(True) elif k == "Multi-Functions": continue else: self.plugin_rbutton.SetValue(True) if class_name in list: self.structurebox.SetSelection(0) self.structurebox.Disable() self.text2.Disable() ## fill the form factor list with new model self._populate_box(self.formfactorbox, list) items = self.formfactorbox.GetItems() ## set comboxbox to the selected item for i in range(len(items)): if items[i] == str(name): self.formfactorbox.SetSelection(i) break break def _draw_model(self, update_chisqr=True, source='model'): """ Method to draw or refresh a plotted model. The method will use the data member from the model page to build a call to the fitting perspective manager. :param chisqr: update chisqr value [bool] """ wx.CallAfter(self._draw_model_after, update_chisqr, source) def _draw_model_after(self, update_chisqr=True, source='model'): """ Method to draw or refresh a plotted model. The method will use the data member from the model page to build a call to the fitting perspective manager. :param chisqr: update chisqr value [bool] """ #if self.check_invalid_panel(): # return if self.model != None: temp_smear = None if hasattr(self, "enable_smearer"): if not self.disable_smearer.GetValue(): temp_smear = self.current_smearer # compute weight for the current data from .utils import get_weight flag = self.get_weight_flag() weight = get_weight(data=self.data, is2d=self._is_2D(), flag=flag) toggle_mode_on = self.model_view.IsEnabled() is_2d = self._is_2D() self._manager.draw_model(self.model, data=self.data, smearer=temp_smear, qmin=float(self.qmin_x), qmax=float(self.qmax_x), page_id=self.uid, toggle_mode_on=toggle_mode_on, state=self.state, enable2D=is_2d, update_chisqr=update_chisqr, source='model', weight=weight) def _on_show_sld(self, event=None): """ Plot SLD profile """ # get profile data x, y = self.model.getProfile() from danse.common.plottools import Data1D as pf_data1d #from sans.perspectives.theory.profile_dialog import SLDPanel from sans.guiframe.local_perspectives.plotting.profile_dialog \ import SLDPanel sld_data = pf_data1d(x, y) sld_data.name = 'SLD' sld_data.axes = self.sld_axes self.panel = SLDPanel(self, data=sld_data, axes=self.sld_axes, id=-1) self.panel.ShowModal() def _set_multfactor_combobox(self, multiplicity=10): """ Set comboBox for muitfactor of CoreMultiShellModel :param multiplicit: no. of multi-functionality """ # build content of the combobox for idx in range(0, multiplicity): self.multifactorbox.Append(str(idx), int(idx)) self._hide_multfactor_combobox() def _show_multfactor_combobox(self): """ Show the comboBox of muitfactor of CoreMultiShellModel """ if not self.mutifactor_text.IsShown(): self.mutifactor_text.Show(True) self.mutifactor_text1.Show(True) if not self.multifactorbox.IsShown(): self.multifactorbox.Show(True) def _hide_multfactor_combobox(self): """ Hide the comboBox of muitfactor of CoreMultiShellModel """ if self.mutifactor_text.IsShown(): self.mutifactor_text.Hide() self.mutifactor_text1.Hide() if self.multifactorbox.IsShown(): self.multifactorbox.Hide() def formfactor_combo_init(self): """ First time calls _show_combox_helper """ self._show_combox(None) def _show_combox_helper(self): """ Fill panel's combo box according to the type of model selected """ custom_model = 'Customized Models' mod_cat = self.categorybox.GetStringSelection() self.structurebox.SetSelection(0) self.structurebox.Disable() self.formfactorbox.Clear() if mod_cat == None: return m_list = [] try: if mod_cat == custom_model: for model in self.model_list_box[mod_cat]: str_m = str(model).split(".")[0] #self.model_box.Append(str_m) m_list.append(self.model_dict[str_m]) else: cat_dic = self.master_category_dict[mod_cat] for (model, enabled) in cat_dic: if enabled: m_list.append(self.model_dict[model]) #else: # msg = "This model is disabled by Category Manager." # wx.PostEvent(self.parent.parent, # StatusEvent(status=msg, info="error")) except: msg = "%s\n" % (sys.exc_value) wx.PostEvent(self.parent.parent, StatusEvent(status=msg, info="error")) self._populate_box(self.formfactorbox, m_list) def _on_modify_cat(self, event=None): self._manager.parent.on_category_panel(event) def _show_combox(self, event=None): """ Show combox box associate with type of model selected """ self.Show(False) self._show_combox_helper() self._on_select_model(event=None) self.Show(True) self._save_typeOfmodel() self.sizer4_4.Layout() self.sizer4.Layout() self.Layout() self.Refresh() def _populate_box(self, combobox, list): """ fill combox box with dict item :param list: contains item to fill the combox item must model class """ mlist = [] for models in list: model = models() name = model.__class__.__name__ if models.__name__ != "NoStructure": if hasattr(model, "name"): name = model.name mlist.append((name, models)) # Sort the models mlist_sorted = sorted(mlist) for item in mlist_sorted: combobox.Append(item[0], item[1]) return 0 def _onQrangeEnter(self, event): """ Check validity of value enter in the Q range field """ tcrtl = event.GetEventObject() #Clear msg if previously shown. msg = "" wx.PostEvent(self.parent, StatusEvent(status=msg)) # Flag to register when a parameter has changed. #is_modified = False if tcrtl.GetValue().lstrip().rstrip() != "": try: 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, StatusEvent(status=msg)) return except: tcrtl.SetBackgroundColour("pink") msg = "Model Error:wrong value entered: %s" % sys.exc_value wx.PostEvent(self.parent, StatusEvent(status=msg)) return #Check if # of points for theory model are valid(>0). if self.npts != None: if check_float(self.npts): temp_npts = float(self.npts.GetValue()) if temp_npts != self.num_points: self.num_points = temp_npts #is_modified = True else: msg = "Cannot Plot :No npts in that Qrange!!! " wx.PostEvent(self.parent, StatusEvent(status=msg)) else: tcrtl.SetBackgroundColour("pink") msg = "Model Error:wrong value entered!!!" wx.PostEvent(self.parent, StatusEvent(status=msg)) self.save_current_state() event = PageInfoEvent(page=self) wx.PostEvent(self.parent, event) self.state_change = False #Draw the model for a different range if not self.data.is_data: self.create_default_data() self._draw_model() def _theory_qrange_enter(self, event): """ Check validity of value enter in the Q range field """ 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.theory_qmin, self.theory_qmax): tempmin = float(self.theory_qmin.GetValue()) if tempmin != self.theory_qmin_x: self.theory_qmin_x = tempmin tempmax = float(self.theory_qmax.GetValue()) if tempmax != self.qmax_x: self.theory_qmax_x = tempmax else: tcrtl.SetBackgroundColour("pink") msg = "Model Error:wrong value entered: %s" % sys.exc_value wx.PostEvent(self._manager.parent, StatusEvent(status=msg)) return except: tcrtl.SetBackgroundColour("pink") msg = "Model Error:wrong value entered: %s" % sys.exc_value wx.PostEvent(self._manager.parent, StatusEvent(status=msg)) return #Check if # of points for theory model are valid(>0). if self.Npts_total.IsEditable(): if check_float(self.Npts_total): temp_npts = float(self.Npts_total.GetValue()) if temp_npts != self.num_points: self.num_points = temp_npts is_modified = True else: msg = "Cannot Plot :No npts in that Qrange!!! " wx.PostEvent(self.parent.parent, StatusEvent(status=msg)) else: tcrtl.SetBackgroundColour("pink") msg = "Model Error:wrong value entered!!!" wx.PostEvent(self.parent.parent, StatusEvent(status=msg)) self.save_current_state() event = PageInfoEvent(page=self) wx.PostEvent(self.parent, event) self.state_change = False #Draw the model for a different range self.create_default_data() self._draw_model() def _on_select_model_helper(self): """ call back for model selection """ ## reset dictionary containing reference to dispersion self._disp_obj_dict = {} self.disp_cb_dict = {} self.temp_multi_functional = False f_id = self.formfactorbox.GetCurrentSelection() #For MAC form_factor = None if f_id >= 0: form_factor = self.formfactorbox.GetClientData(f_id) if not form_factor in self.model_list_box["multiplication"]: self.structurebox.Hide() self.text2.Hide() self.structurebox.Disable() self.structurebox.SetSelection(0) self.text2.Disable() else: self.structurebox.Show() self.text2.Show() self.structurebox.Enable() self.text2.Enable() if form_factor != None: # set multifactor for Mutifunctional models if form_factor().__class__ in \ self.model_list_box["Multi-Functions"]: m_id = self.multifactorbox.GetCurrentSelection() multiplicity = form_factor().multiplicity_info[0] self.multifactorbox.Clear() self._set_multfactor_combobox(multiplicity) self._show_multfactor_combobox() #ToDo: this info should be called directly from the model text = form_factor().multiplicity_info[1] # 'No. of Shells: ' self.mutifactor_text.SetLabel(text) if m_id > multiplicity - 1: # default value m_id = 1 self.multi_factor = self.multifactorbox.GetClientData(m_id) if self.multi_factor == None: self.multi_factor = 0 form_factor = form_factor(int(self.multi_factor)) self.multifactorbox.SetSelection(m_id) # Check len of the text1 and max_multiplicity text = '' if form_factor.multiplicity_info[0] == \ len(form_factor.multiplicity_info[2]): text = form_factor.multiplicity_info[2][self.multi_factor] self.mutifactor_text1.SetLabel(text) # Check if model has get sld profile. if len(form_factor.multiplicity_info[3]) > 0: self.sld_axes = form_factor.multiplicity_info[3] self.show_sld_button.Show(True) else: self.sld_axes = "" else: self._hide_multfactor_combobox() self.show_sld_button.Hide() form_factor = form_factor() self.multi_factor = None else: self._hide_multfactor_combobox() self.show_sld_button.Hide() self.multi_factor = None s_id = self.structurebox.GetCurrentSelection() struct_factor = self.structurebox.GetClientData(s_id) if struct_factor != None: from sans.models.MultiplicationModel import MultiplicationModel self.model = MultiplicationModel(form_factor, struct_factor()) # multifunctional form factor if len(form_factor.non_fittable) > 0: self.temp_multi_functional = True else: if form_factor != None: self.model = form_factor else: self.model = None return self.model # check if model has magnetic parameters if len(self.model.magnetic_params) > 0: self._has_magnetic = True else: self._has_magnetic = False ## post state to fit panel self.state.parameters = [] self.state.model = self.model self.state.qmin = self.qmin_x self.state.multi_factor = self.multi_factor self.disp_list = self.model.getDispParamList() self.state.disp_list = self.disp_list self.on_set_focus(None) self.Layout() def _validate_qrange(self, qmin_ctrl, qmax_ctrl): """ Verify that the Q range controls have valid values and that Qmin < Qmax. :param qmin_ctrl: text control for Qmin :param qmax_ctrl: text control for Qmax :return: True is the Q range is value, False otherwise """ qmin_validity = check_float(qmin_ctrl) qmax_validity = check_float(qmax_ctrl) if not (qmin_validity and qmax_validity): return False else: qmin = float(qmin_ctrl.GetValue()) qmax = float(qmax_ctrl.GetValue()) if qmin < qmax: #Make sure to set both colours white. qmin_ctrl.SetBackgroundColour(wx.WHITE) qmin_ctrl.Refresh() qmax_ctrl.SetBackgroundColour(wx.WHITE) qmax_ctrl.Refresh() else: qmin_ctrl.SetBackgroundColour("pink") qmin_ctrl.Refresh() qmax_ctrl.SetBackgroundColour("pink") qmax_ctrl.Refresh() msg = "Invalid Q range: Q min must be smaller than Q max" wx.PostEvent(self.parent.parent, StatusEvent(status=msg)) return False return True def _validate_Npts(self): """ Validate the number of points for fitting is more than 10 points. If valid, setvalues Npts_fit otherwise post msg. """ #default flag flag = True # Theory if self.data == None and self.enable2D: return flag for data in self.data_list: # q value from qx and qy radius = numpy.sqrt(data.qx_data * data.qx_data + data.qy_data * data.qy_data) #get unmasked index index_data = (float(self.qmin.GetValue()) <= radius) & \ (radius <= float(self.qmax.GetValue())) index_data = (index_data) & (data.mask) index_data = (index_data) & (numpy.isfinite(data.data)) if len(index_data[index_data]) < 10: # change the color pink. self.qmin.SetBackgroundColour("pink") self.qmin.Refresh() self.qmax.SetBackgroundColour("pink") self.qmax.Refresh() msg = "Npts of Data Error :" msg += "No or too little npts of %s." % data.name wx.PostEvent(self.parent.parent, StatusEvent(status=msg)) self.fitrange = False flag = False else: self.Npts_fit.SetValue(str(len(index_data[index_data == True]))) self.fitrange = True return flag def _validate_Npts_1D(self): """ Validate the number of points for fitting is more than 5 points. If valid, setvalues Npts_fit otherwise post msg. """ #default flag flag = True # Theory if self.data == None: return flag for data in self.data_list: # q value from qx and qy radius = data.x #get unmasked index index_data = (float(self.qmin.GetValue()) <= radius) & \ (radius <= float(self.qmax.GetValue())) index_data = (index_data) & (numpy.isfinite(data.y)) if len(index_data[index_data]) < 5: # change the color pink. self.qmin.SetBackgroundColour("pink") self.qmin.Refresh() self.qmax.SetBackgroundColour("pink") self.qmax.Refresh() msg = "Npts of Data Error :" msg += "No or too little npts of %s." % data.name wx.PostEvent(self.parent.parent, StatusEvent(status=msg)) self.fitrange = False flag = False else: self.Npts_fit.SetValue(str(len(index_data[index_data == True]))) self.fitrange = True return flag def _check_value_enter(self, list, modified): """ :param list: model parameter and panel info :Note: each item of the list should be as follow: item=[check button state, parameter's name, paramater's value, string="+/-", parameter's error of fit, parameter's minimum value, parrameter's maximum value , parameter's units] """ is_modified = modified if len(list) == 0: return is_modified for item in list: #skip angle parameters for 1D if not self.enable2D: if item in self.orientation_params: continue #try: name = str(item[1]) if string.find(name, ".npts") == -1 and \ string.find(name, ".nsigmas") == -1: ## check model parameters range param_min = None param_max = None ## check minimun value if item[5] != None and item[5] != "": if item[5].GetValue().lstrip().rstrip() != "": try: param_min = float(item[5].GetValue()) if not self._validate_qrange(item[5], item[2]): if numpy.isfinite(param_min): item[2].SetValue(format_number(param_min)) item[5].SetBackgroundColour(wx.WHITE) item[2].SetBackgroundColour(wx.WHITE) except: msg = "Wrong Fit parameter range entered " wx.PostEvent(self.parent.parent, StatusEvent(status=msg)) raise ValueError, msg is_modified = True ## check maximum value if item[6] != None and item[6] != "": if item[6].GetValue().lstrip().rstrip() != "": try: param_max = float(item[6].GetValue()) if not self._validate_qrange(item[2], item[6]): if numpy.isfinite(param_max): item[2].SetValue(format_number(param_max)) item[6].SetBackgroundColour(wx.WHITE) item[2].SetBackgroundColour(wx.WHITE) except: msg = "Wrong Fit parameter range entered " wx.PostEvent(self.parent.parent, StatusEvent(status=msg)) raise ValueError, msg is_modified = True if param_min != None and param_max != None: if not self._validate_qrange(item[5], item[6]): msg = "Wrong Fit range entered for parameter " msg += "name %s of model %s " % (name, self.model.name) wx.PostEvent(self.parent.parent, StatusEvent(status=msg)) if name in self.model.details.keys(): self.model.details[name][1:3] = param_min, param_max is_modified = True else: self.model.details[name] = ["", param_min, param_max] is_modified = True try: # Check if the textctr is enabled if item[2].IsEnabled(): value = float(item[2].GetValue()) item[2].SetBackgroundColour("white") # If the value of the parameter has changed, # +update the model and set the is_modified flag if value != self.model.getParam(name) and \ numpy.isfinite(value): self.model.setParam(name, value) except: item[2].SetBackgroundColour("pink") msg = "Wrong Fit parameter value entered " wx.PostEvent(self.parent.parent, StatusEvent(status=msg)) return is_modified def _set_dipers_Param(self, event): """ respond to self.enable_disp and self.disable_disp radio box. The dispersity object is reset inside the model into Gaussian. When the user select yes , this method display a combo box for more selection when the user selects No,the combo box disappears. Redraw the model with the default dispersity (Gaussian) """ ## On selction if no model exists. if self.model == None: self.disable_disp.SetValue(True) msg = "Please select a Model first..." wx.MessageBox(msg, 'Info') wx.PostEvent(self._manager.parent, StatusEvent(status="Polydispersion: %s" % msg)) return self._reset_dispersity() if self.model == None: self.model_disp.Hide() self.sizer4_4.Clear(True) return if self.enable_disp.GetValue(): ## layout for model containing no dispersity parameters self.disp_list = self.model.getDispParamList() if len(self.disp_list) == 0 and len(self.disp_cb_dict) == 0: self._layout_sizer_noDipers() else: ## set gaussian sizer self._on_select_Disp(event=None) else: self.sizer4_4.Clear(True) ## post state to fit panel self.save_current_state() if event != None: event = PageInfoEvent(page=self) wx.PostEvent(self.parent, event) #draw the model with the current dispersity self._draw_model() self.sizer4_4.Layout() self.sizer5.Layout() self.Layout() self.Refresh() def _layout_sizer_noDipers(self): """ Draw a sizer with no dispersity info """ ix = 0 iy = 1 self.fittable_param = [] self.fixed_param = [] self.orientation_params_disp = [] self.sizer4_4.Clear(True) text = "No polydispersity available for this model" model_disp = wx.StaticText(self, -1, text) self.sizer4_4.Add(model_disp, (iy, ix), (1, 1), wx.LEFT | wx.EXPAND | wx.ADJUST_MINSIZE, 10) self.sizer4_4.Layout() self.sizer4.Layout() def _reset_dispersity(self): """ put gaussian dispersity into current model """ if len(self.param_toFit) > 0: for item in self.fittable_param: if item in self.param_toFit: self.param_toFit.remove(item) for item in self.orientation_params_disp: if item in self.param_toFit: self.param_toFit.remove(item) self.fittable_param = [] self.fixed_param = [] self.orientation_params_disp = [] self.values = {} self.weights = {} from sans.models.dispersion_models import GaussianDispersion if len(self.disp_cb_dict) == 0: self.save_current_state() self.sizer4_4.Clear(True) self.Layout() return if (len(self.disp_cb_dict) > 0): for p in self.disp_cb_dict: # The parameter was un-selected. # Go back to Gaussian model (with 0 pts) disp_model = GaussianDispersion() self._disp_obj_dict[p] = disp_model # Set the new model as the dispersion object # for the selected parameter try: self.model.set_dispersion(p, disp_model) except: pass ## save state into self.save_current_state() self.Layout() self.Refresh() def _on_select_Disp(self, event): """ allow selecting different dispersion self.disp_list should change type later .now only gaussian """ self._set_sizer_dispersion() ## Redraw the model self._draw_model() #self._undo.Enable(True) event = PageInfoEvent(page=self) wx.PostEvent(self.parent, event) self.sizer4_4.Layout() self.sizer4.Layout() self.SetupScrolling() def _on_disp_func(self, event=None): """ Select a distribution function for the polydispersion :Param event: ComboBox event """ # get ready for new event if event != None: event.Skip() # Get event object disp_box = event.GetEventObject() # Try to select a Distr. function try: disp_box.SetBackgroundColour("white") selection = disp_box.GetCurrentSelection() param_name = disp_box.Name.split('.')[0] disp_name = disp_box.GetValue() dispersity = disp_box.GetClientData(selection) #disp_model = GaussianDispersion() disp_model = dispersity() # Get param names to reset the values of the param name1 = param_name + ".width" name2 = param_name + ".npts" name3 = param_name + ".nsigmas" # Check Disp. function whether or not it is 'array' if disp_name.lower() == "array": value2 = "" value3 = "" value1 = self._set_array_disp(name=name1, disp=disp_model) else: self._del_array_values(name1) #self._reset_array_disp(param_name) self._disp_obj_dict[name1] = disp_model self.model.set_dispersion(param_name, disp_model) self.state._disp_obj_dict[name1] = disp_model value1 = str(format_number(self.model.getParam(name1), True)) value2 = str(format_number(self.model.getParam(name2))) value3 = str(format_number(self.model.getParam(name3))) # Reset fittable polydispersin parameter value for item in self.fittable_param: if item[1] == name1: item[2].SetValue(value1) item[5].SetValue("") item[6].SetValue("") # Disable for array if disp_name.lower() == "array": item[0].SetValue(False) item[0].Disable() item[2].Disable() item[3].Show(False) item[4].Show(False) item[5].Disable() item[6].Disable() else: item[0].Enable() item[2].Enable() item[5].Enable() item[6].Enable() break # Reset fixed polydispersion params for item in self.fixed_param: if item[1] == name2: item[2].SetValue(value2) # Disable Npts for array if disp_name.lower() == "array": item[2].Disable() else: item[2].Enable() if item[1] == name3: item[2].SetValue(value3) # Disable Nsigs for array if disp_name.lower() == "array": item[2].Disable() else: item[2].Enable() # Make sure the check box updated when all checked if self.cb1.GetValue(): #self.select_all_param(None) self.get_all_checked_params() # update params self._update_paramv_on_fit() # draw self._draw_model() self.Refresh() except: # Error msg msg = "Error occurred:" msg += " Could not select the distribution function..." msg += " Please select another distribution function." disp_box.SetBackgroundColour("pink") # Focus on Fit button so that users can see the pinky box self.btFit.SetFocus() wx.PostEvent(self.parent.parent, StatusEvent(status=msg, info="error")) def _set_array_disp(self, name=None, disp=None): """ Set array dispersion :param name: name of the parameter for the dispersion to be set :param disp: the polydisperion object """ # The user wants this parameter to be averaged. # Pop up the file selection dialog. path = self._selectDlg() # Array data values = [] weights = [] # If nothing was selected, just return if path is None: self.disp_cb_dict[name].SetValue(False) #self.noDisper_rbox.SetValue(True) return self._default_save_location = os.path.dirname(path) if self.parent != None: self.parent.parent._default_save_location =\ self._default_save_location basename = os.path.basename(path) values, weights = self.read_file(path) # If any of the two arrays is empty, notify the user that we won't # proceed if len(self.param_toFit) > 0: if name in self.param_toFit: self.param_toFit.remove(name) # Tell the user that we are about to apply the distribution msg = "Applying loaded %s distribution: %s" % (name, path) wx.PostEvent(self.parent.parent, StatusEvent(status=msg)) self._set_array_disp_model(name=name, disp=disp, values=values, weights=weights) return basename def _set_array_disp_model(self, name=None, disp=None, values=[], weights=[]): """ Set array dispersion model :param name: name of the parameter for the dispersion to be set :param disp: the polydisperion object """ disp.set_weights(values, weights) self._disp_obj_dict[name] = disp self.model.set_dispersion(name.split('.')[0], disp) self.state._disp_obj_dict[name] = disp self.values[name] = values self.weights[name] = weights # Store the object to make it persist outside the # scope of this method #TODO: refactor model to clean this up? self.state.values = {} self.state.weights = {} self.state.values = copy.deepcopy(self.values) self.state.weights = copy.deepcopy(self.weights) # Set the new model as the dispersion object for the #selected parameter #self.model.set_dispersion(p, disp_model) # Store a reference to the weights in the model object #so that # it's not lost when we use the model within another thread. self.state.model = self.model.clone() self.model._persistency_dict[name.split('.')[0]] = \ [values, weights] self.state.model._persistency_dict[name.split('.')[0]] = \ [values, weights] def _del_array_values(self, name=None): """ Reset array dispersion :param name: name of the parameter for the dispersion to be set """ # Try to delete values and weight of the names array dic if exists try: del self.values[name] del self.weights[name] # delete all other dic del self.state.values[name] del self.state.weights[name] del self.model._persistency_dict[name.split('.')[0]] del self.state.model._persistency_dict[name.split('.')[0]] except: pass def _lay_out(self): """ returns self.Layout :Note: Mac seems to like this better when self. Layout is called after fitting. """ self._sleep4sec() self.Layout() return def _sleep4sec(self): """ sleep for 1 sec only applied on Mac Note: This 1sec helps for Mac not to crash on self. Layout after self._draw_model """ if ON_MAC == True: time.sleep(1) def _find_polyfunc_selection(self, disp_func=None): """ FInd Comboox selection from disp_func :param disp_function: dispersion distr. function """ # List of the poly_model name in the combobox list = ["RectangleDispersion", "ArrayDispersion", "LogNormalDispersion", "GaussianDispersion", "SchulzDispersion"] # Find the selection try: selection = list.index(disp_func.__class__.__name__) return selection except: return 3 def on_reset_clicked(self, event): """ On 'Reset' button for Q range clicked """ flag = True ##For 3 different cases: Data2D, Data1D, and theory if self.model == None: msg = "Please select a model first..." wx.MessageBox(msg, 'Info') flag = False return elif self.data.__class__.__name__ == "Data2D": 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)) self.qmin_x = data_min self.qmax_x = math.sqrt(x*x + y*y) #self.data.mask = numpy.ones(len(self.data.data),dtype=bool) # check smearing if not self.disable_smearer.GetValue(): ## set smearing value whether or # not the data contain the smearing info if self.pinhole_smearer.GetValue(): flag = self.update_pinhole_smear() else: flag = True elif self.data == None: self.qmin_x = _QMIN_DEFAULT self.qmax_x = _QMAX_DEFAULT self.num_points = _NPTS_DEFAULT self.state.npts = self.num_points elif self.data.__class__.__name__ != "Data2D": self.qmin_x = min(self.data.x) self.qmax_x = max(self.data.x) # check smearing if not self.disable_smearer.GetValue(): ## set smearing value whether or # not the data contain the smearing info if self.slit_smearer.GetValue(): flag = self.update_slit_smear() elif self.pinhole_smearer.GetValue(): flag = self.update_pinhole_smear() else: flag = True else: flag = False if flag == False: msg = "Cannot Plot :Must enter a number!!! " wx.PostEvent(self.parent.parent, StatusEvent(status=msg)) else: # set relative text ctrs. self.qmin.SetValue(str(self.qmin_x)) self.qmax.SetValue(str(self.qmax_x)) self.set_npts2fit() # At this point, some button and variables satatus (disabled?) # should be checked such as color that should be reset to # white in case that it was pink. self._onparamEnter_helper() self.save_current_state() self.state.qmin = self.qmin_x self.state.qmax = self.qmax_x #reset the q range values self._reset_plotting_range(self.state) self._draw_model() def get_images(self): """ Get the images of the plots corresponding this panel for report : return graphs: list of figures : Need Move to guiframe """ # set list of graphs graphs = [] canvases = [] # call gui_manager gui_manager = self.parent.parent # loops through the panels [dic] for _, item2 in gui_manager.plot_panels.iteritems(): data_title = self.data.group_id # try to get all plots belonging to this control panel try: if item2.group_id == data_title or \ item2.group_id.count("res" + str(self.graph_id)) or \ item2.group_id.count(str(self.uid)) > 0: # append to the list graphs.append(item2.figure) canvases.append(item2.canvas) except: # Not for control panels pass # return the list of graphs return graphs, canvases def on_model_help_clicked(self, event): """ on 'More details' button """ from sans.perspectives.fitting.help_panel import HelpWindow from sans.models import get_data_path # Get models help model_function path path = get_data_path(media='media') model_path = os.path.join(path, "model_functions.html") if self.model == None: name = 'FuncHelp' else: name = self.formfactorbox.GetValue() frame = HelpWindow(None, -1, pageToOpen=model_path) # If model name exists and model is not a custom model #mod_cat = self.categorybox.GetStringSelection() if frame.rhelp.HasAnchor(name): frame.Show(True) frame.rhelp.ScrollToAnchor(name) else: if self.model != None: frame.Destroy() msg = 'Model description:\n' if str(self.model.description).rstrip().lstrip() == '': msg += "Sorry, no information is available for this model." else: msg += self.model.description + '\n' info = "Info" wx.MessageBox(msg, info) else: frame.Show(True) def _on_mag_help(self, event): """ Magnetic angles help panel """ from sans.perspectives.fitting.help_panel import HelpWindow # Get models help model_function path #import sans.perspectives.fitting as fitmedia from sans.models import get_data_path media = get_data_path(media='media') path = os.path.join(media, 'img', "M_angles_pic.bmp") name = "Polar/Magnetic Angles" frame = HelpWindow(None, -1, title=' Help: Polarization/Magnetization Angles', pageToOpen=path, size=(865, 450)) try: frame.splitter.DetachWindow(frame.lpanel) # Display only the right side one frame.lpanel.Hide() frame.Show(True) except: frame.Destroy() msg = 'Display Error\n' info = "Info" wx.MessageBox(msg, info) def _on_mag_on(self, event): """ Magnetic Parameters ON/OFF """ button = event.GetEventObject() if button.GetLabel().count('ON') > 0: self.magnetic_on = True button.SetLabel("Magnetic OFF") m_value = 1.0e-06 for key in self.model.magnetic_params: if key.count('M0') > 0: self.model.setParam(key, m_value) m_value += 0.5e-06 else: self.magnetic_on = False button.SetLabel("Magnetic ON") for key in self.model.magnetic_params: if key.count('M0') > 0: #reset mag value to zero fo safety self.model.setParam(key, 0.0) self.Show(False) self.set_model_param_sizer(self.model) #self._set_sizer_dispersion() self.state.magnetic_on = self.magnetic_on self.SetupScrolling() self.Show(True) def on_pd_help_clicked(self, event): """ Button event for PD help """ from help_panel import HelpWindow import sans.models as models # Get models help model_function path path = models.get_data_path(media='media') pd_path = os.path.join(path, "pd_help.html") frame = HelpWindow(None, -1, pageToOpen=pd_path) frame.Show(True) def on_left_down(self, event): """ Get key stroke event """ # Figuring out key combo: Cmd for copy, Alt for paste if event.CmdDown() and event.ShiftDown(): self.get_paste() elif event.CmdDown(): self.get_copy() else: event.Skip() return # make event free event.Skip() def get_copy(self): """ Get copy params to clipboard """ content = self.get_copy_params() flag = self.set_clipboard(content) self._copy_info(flag) return flag def get_copy_params(self): """ Get the string copies of the param names and values in the tap """ content = 'sansview_parameter_values:' # Do it if params exist if self.parameters != []: # go through the parameters strings = self._get_copy_helper(self.parameters, self.orientation_params) content += strings # go through the fittables strings = self._get_copy_helper(self.fittable_param, self.orientation_params_disp) content += strings # go through the fixed params strings = self._get_copy_helper(self.fixed_param, self.orientation_params_disp) content += strings # go through the str params strings = self._get_copy_helper(self.str_parameters, self.orientation_params) content += strings return content else: return False def set_clipboard(self, content=None): """ Put the string to the clipboard """ if not content: return False if wx.TheClipboard.Open(): wx.TheClipboard.SetData(wx.TextDataObject(str(content))) wx.TheClipboard.Close() return True return None def _get_copy_helper(self, param, orient_param): """ Helping get value and name of the params : param param: parameters : param orient_param = oritational params : return content: strings [list] [name,value:....] """ content = '' # go through the str params for item in param: # copy only the params shown if not item[2].IsShown(): continue disfunc = '' try: if item[7].__class__.__name__ == 'ComboBox': disfunc = str(item[7].GetValue()) except: pass # 2D if self.data.__class__.__name__ == "Data2D": try: check = item[0].GetValue() except: check = None name = item[1] value = item[2].GetValue() # 1D else: ## for 1D all parameters except orientation if not item[1] in orient_param: try: check = item[0].GetValue() except: check = None name = item[1] value = item[2].GetValue() # add to the content if disfunc != '': disfunc = ',' + disfunc # Need to support array func for copy/paste try: if disfunc.count('array') > 0: disfunc += ',' for val in self.values[name]: disfunc += ' ' + str(val) disfunc += ',' for weight in self.weights[name]: disfunc += ' ' + str(weight) except: pass content += name + ',' + str(check) + ',' + value + disfunc + ':' return content def get_clipboard(self): """ Get strings in the clipboard """ text = "" # Get text from the clip board if wx.TheClipboard.Open(): if wx.TheClipboard.IsSupported(wx.DataFormat(wx.DF_TEXT)): data = wx.TextDataObject() # get wx dataobject success = wx.TheClipboard.GetData(data) # get text if success: text = data.GetText() else: text = '' # close clipboard wx.TheClipboard.Close() return text def get_paste(self): """ Paste params from the clipboard """ text = self.get_clipboard() flag = self.get_paste_params(text) self._copy_info(flag) return flag def get_paste_params(self, text=''): """ Get the string copies of the param names and values in the tap """ context = {} # put the text into dictionary lines = text.split(':') if lines[0] != 'sansview_parameter_values': self._copy_info(False) return False for line in lines[1:-1]: if len(line) != 0: item = line.split(',') check = item[1] name = item[0] value = item[2] # Transfer the text to content[dictionary] context[name] = [check, value] # ToDo: PlugIn this poly disp function for pasting try: poly_func = item[3] context[name].append(poly_func) try: # take the vals and weights for array array_values = item[4].split(' ') array_weights = item[5].split(' ') val = [float(a_val) for a_val in array_values[1:]] weit = [float(a_weit) for a_weit in array_weights[1:]] context[name].append(val) context[name].append(weit) except: raise except: poly_func = '' context[name].append(poly_func) # Do it if params exist if self.parameters != []: # go through the parameters self._get_paste_helper(self.parameters, self.orientation_params, context) # go through the fittables self._get_paste_helper(self.fittable_param, self.orientation_params_disp, context) # go through the fixed params self._get_paste_helper(self.fixed_param, self.orientation_params_disp, context) # go through the str params self._get_paste_helper(self.str_parameters, self.orientation_params, context) return True return None def _get_paste_helper(self, param, orient_param, content): """ Helping set values of the params : param param: parameters : param orient_param: oritational params : param content: dictionary [ name, value: name1.value1,...] """ # go through the str params for item in param: # 2D if self.data.__class__.__name__ == "Data2D": name = item[1] if name in content.keys(): check = content[name][0] pd = content[name][1] if name.count('.') > 0: try: float(pd) except: #continue if not pd and pd != '': continue item[2].SetValue(str(pd)) if item in self.fixed_param and pd == '': # Only array func has pd == '' case. item[2].Enable(False) if item[2].__class__.__name__ == "ComboBox": if content[name][1] in self.model.fun_list: fun_val = self.model.fun_list[content[name][1]] self.model.setParam(name, fun_val) value = content[name][1:] self._paste_poly_help(item, value) if check == 'True': is_true = True elif check == 'False': is_true = False else: is_true = None if is_true != None: item[0].SetValue(is_true) # 1D else: ## for 1D all parameters except orientation if not item[1] in orient_param: name = item[1] if name in content.keys(): check = content[name][0] # Avoid changing combox content value = content[name][1:] pd = value[0] if name.count('.') > 0: try: pd = float(pd) except: #continue if not pd and pd != '': continue item[2].SetValue(str(pd)) if item in self.fixed_param and pd == '': # Only array func has pd == '' case. item[2].Enable(False) if item[2].__class__.__name__ == "ComboBox": if value[0] in self.model.fun_list: fun_val = self.model.fun_list[value[0]] self.model.setParam(name, fun_val) # save state self._paste_poly_help(item, value) if check == 'True': is_true = True elif check == 'False': is_true = False else: is_true = None if is_true != None: item[0].SetValue(is_true) def _paste_poly_help(self, item, value): """ Helps get paste for poly function :param item: Gui param items :param value: the values for parameter ctrols """ is_array = False if len(value[1]) > 0: # Only for dispersion func.s try: item[7].SetValue(value[1]) selection = item[7].GetCurrentSelection() name = item[7].Name param_name = name.split('.')[0] dispersity = item[7].GetClientData(selection) disp_model = dispersity() # Only for array disp try: pd_vals = numpy.array(value[2]) pd_weights = numpy.array(value[3]) if len(pd_vals) > 0 and len(pd_vals) > 0: if len(pd_vals) == len(pd_weights): self._set_disp_array_cb(item=item) self._set_array_disp_model(name=name, disp=disp_model, values=pd_vals, weights=pd_weights) is_array = True except: pass if not is_array: self._disp_obj_dict[name] = disp_model self.model.set_dispersion(name, disp_model) self.state._disp_obj_dict[name] = \ disp_model self.model.set_dispersion(param_name, disp_model) self.state.values = self.values self.state.weights = self.weights self.model._persistency_dict[param_name] = \ [self.state.values, self.state.weights] except: print "Error in BasePage._paste_poly_help: %s" % sys.exc_value def _set_disp_array_cb(self, item): """ Set cb for array disp """ item[0].SetValue(False) item[0].Enable(False) item[2].Enable(False) item[3].Show(False) item[4].Show(False) item[5].SetValue('') item[5].Enable(False) item[6].SetValue('') item[6].Enable(False) def update_pinhole_smear(self): """ Method to be called by sub-classes Moveit; This method doesn't belong here """ print "BasicPage.update_pinhole_smear was called: skipping" return def _read_category_info(self): """ Reads the categories in from file """ # # ILL mod starts here - July 2012 kieranrcampbell@gmail.com self.master_category_dict = defaultdict(list) self.by_model_dict = defaultdict(list) self.model_enabled_dict = defaultdict(bool) try: categorization_file = CategoryInstaller.get_user_file() if not os.path.isfile(categorization_file): categorization_file = CategoryInstaller.get_default_file() cat_file = open(categorization_file, 'rb') self.master_category_dict = pickle.load(cat_file) self._regenerate_model_dict() cat_file.close() except IOError: raise print 'Problem reading in category file.' print 'We even looked for it, made sure it was there.' print 'An existential crisis if there ever was one.' def _regenerate_model_dict(self): """ regenerates self.by_model_dict which has each model name as the key and the list of categories belonging to that model along with the enabled mapping """ self.by_model_dict = defaultdict(list) for category in self.master_category_dict: for (model, enabled) in self.master_category_dict[category]: self.by_model_dict[model].append(category) self.model_enabled_dict[model] = enabled def _populate_listbox(self): """ fills out the category list box """ uncat_str = 'Customized Models' self._read_category_info() self.categorybox.Clear() cat_list = sorted(self.master_category_dict.keys()) if not uncat_str in cat_list: cat_list.append(uncat_str) for category in cat_list: if category != '': self.categorybox.Append(category) if self.categorybox.GetSelection() == wx.NOT_FOUND: self.categorybox.SetSelection(0) else: self.categorybox.SetSelection( \ self.categorybox.GetSelection()) #self._on_change_cat(None) def _on_change_cat(self, event): """ Callback for category change action """ self.model_name = None category = self.categorybox.GetStringSelection() if category == None: return self.model_box.Clear() if category == 'Customized Models': for model in self.model_list_box[category]: str_m = str(model).split(".")[0] self.model_box.Append(str_m) else: for (model,enabled) in sorted(self.master_category_dict[category], key = lambda name: name[0]): if(enabled): self.model_box.Append(model) 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" self.formfactorbox = None self.multifactorbox = None self.mbox_description = wx.StaticBox(self, -1, str(title)) boxsizer1 = wx.StaticBoxSizer(self.mbox_description, wx.VERTICAL) sizer_cat = wx.BoxSizer(wx.HORIZONTAL) self.mbox_description.SetForegroundColour(wx.RED) 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, "Show 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 to 1D" self.model_view.SetToolTipString(hint) cat_set_box = wx.StaticBox(self, -1, 'Category') sizer_cat_box = wx.StaticBoxSizer(cat_set_box, wx.HORIZONTAL) sizer_cat_box.SetMinSize((200, 50)) self.categorybox = wx.ComboBox(self, -1, style=wx.CB_READONLY) self.categorybox.SetToolTip( wx.ToolTip("Select a Category/Type") ) self._populate_listbox() wx.EVT_COMBOBOX(self.categorybox, -1, self._show_combox) #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, "Uncategorized") #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 show_cat_button = wx.Button(self, -1, "Modify") cat_tip = "Modify model categories \n" cat_tip += "(also accessible from the menu bar)." show_cat_button.SetToolTip( wx.ToolTip(cat_tip) ) show_cat_button.Bind(wx.EVT_BUTTON, self._on_modify_cat) sizer_cat_box.Add(self.categorybox, 1, wx.RIGHT, 3) sizer_cat_box.Add((10,10)) sizer_cat_box.Add(show_cat_button) #self.shape_rbutton.SetValue(True) sizer_radiobutton = wx.GridSizer(2, 2, 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.RIGHT, 15) #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.RIGHT, 15) sizer_cat.Add(sizer_cat_box, 1, wx.LEFT, 2.5) sizer_cat.Add(sizer_radiobutton) 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) self.formfactorbox.SetToolTip( wx.ToolTip("Select a Model") ) 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: print "_set_model_sizer_selection: disabled." #self._set_model_sizer_selection(self.model) sizer_selection.Add(self.text1) sizer_selection.Add((10, 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((13, 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_cat) 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 on_smear_helper(self, update=False): """ Help for onSmear if implemented :param update: force or not to update """ def reset_page(self, state, first=False): """ reset the state if implemented """ def onSmear(self, event): """ Create a smear object if implemented """ def onPinholeSmear(self, event): """ Create a custom pinhole smear object if implemented """ def onSlitSmear(self, event): """ Create a custom slit smear object if implemented """ def update_slit_smear(self): """ called by kill_focus on pinhole TextCntrl to update the changes if implemented """ def select_param(self, event): """ Select TextCtrl checked if implemented """ def set_data(self, data=None): """ Sets data if implemented """ def _is_2D(self): """ Check if data_name is Data2D if implemented """ def _on_select_model(self, event=None): """ call back for model selection if implemented """ def select_all_param(self, event): """ set to true or false all checkBox if implemented """ def get_weight_flag(self): """ Get flag corresponding to a given weighting dI data if implemented """ def _set_sizer_dispersion(self): """ draw sizer for dispersity if implemented """ def get_all_checked_params(self): """ Found all parameters current check and add them to list of parameters to fit if implemented """ def set_npts2fit(self): """ setValue Npts for fitting if implemented """ def _onModel2D(self, event): """ toggle view of model from 1D to 2D or 2D from 1D if implemented """