################################################################################ #This software was developed by the University of Tennessee as part of the #Distributed Data Analysis of Neutron Scattering Experiments (DANSE) #project funded by the US National Science Foundation. # #See the license text in license.txt # #copyright 2010, University of Tennessee ################################################################################ """ This module provides Graphic interface for the data_manager module. """ import wx import sys import warnings from wx.lib.scrolledpanel import ScrolledPanel import wx.lib.agw.customtreectrl as CT from sans.guiframe.dataFitting import Data1D from sans.guiframe.dataFitting import Data2D from sans.guiframe.panel_base import PanelBase PANEL_WIDTH = 180 #PANEL_HEIGHT = 560 PANEL_HEIGHT = 700 STYLE_FLAG =wx.RAISED_BORDER|CT.TR_HAS_BUTTONS| CT.TR_HIDE_ROOT|\ wx.WANTS_CHARS|CT.TR_HAS_VARIABLE_ROW_HEIGHT class DataTreeCtrl(CT.CustomTreeCtrl): """ Check list control to be used for Data Panel """ def __init__(self, parent,*args, **kwds): #agwstyle is introduced in wx.2.8.11 but is not working for mac if sys.platform.count("darwin") != 0: try: kwds['style'] = STYLE_FLAG except: raise else: #agwstyle is introduced in wx.2.8.11 .argument working only for windows try: kwds['agwStyle'] = STYLE_FLAG except: try: kwds['style'] = STYLE_FLAG except: raise CT.CustomTreeCtrl.__init__(self, parent, *args, **kwds) self.root = self.AddRoot("Available Data") class DataPanel(ScrolledPanel, PanelBase): """ This panel displays data available in the application and widgets to interact with data. """ ## Internal name for the AUI manager window_name = "Data Panel" ## Title to appear on top of the window window_caption = "Data Explorer" #type of window window_type = "Data Panel" ## Flag to tell the GUI manager that this panel is not # tied to any perspective #ALWAYS_ON = True def __init__(self, parent, list=[],list_of_perspective=[], size=(PANEL_WIDTH,PANEL_HEIGHT), manager=None, *args, **kwds): kwds['size']= size kwds['style'] = STYLE_FLAG ScrolledPanel.__init__(self, parent=parent, *args, **kwds) PanelBase.__init__(self) self.SetupScrolling() self.all_data1d = True self.parent = parent self.manager = manager self.list_of_data = list self.list_of_perspective = list_of_perspective self.list_rb_perspectives= [] self.list_cb_data = {} self.list_cb_theory = {} self.owner = None self.do_layout() self.Bind(wx.EVT_SHOW, self.on_close_page) def do_layout(self): """ """ self.define_panel_structure() self.layout_selection() self.layout_data_list() self.layout_button() self.layout_batch() def define_panel_structure(self): """ Define the skeleton of the panel """ w, h = self.parent.GetSize() self.vbox = wx.BoxSizer(wx.VERTICAL) self.sizer1 = wx.BoxSizer(wx.VERTICAL) self.sizer1.SetMinSize((w/13, h*2/5)) self.sizer2 = wx.BoxSizer(wx.VERTICAL) self.sizer3 = wx.GridBagSizer(5,5) self.sizer4 = wx.BoxSizer(wx.HORIZONTAL) self.sizer5 = wx.BoxSizer(wx.VERTICAL) self.vbox.Add(self.sizer5, 0,wx.EXPAND|wx.ALL,10) self.vbox.Add(self.sizer1, 0,wx.EXPAND|wx.ALL,0) self.vbox.Add(self.sizer2, 0,wx.EXPAND|wx.ALL,10) self.vbox.Add(self.sizer3, 0,wx.EXPAND|wx.ALL,10) self.vbox.Add(self.sizer4, 0,wx.EXPAND|wx.ALL,10) self.SetSizer(self.vbox) def layout_selection(self): """ """ select_txt = wx.StaticText(self, -1, 'Selection Options') select_txt.SetForegroundColour('blue') self.selection_cbox = wx.ComboBox(self, -1, style=wx.CB_READONLY) list_of_options = ['Select all Data', 'Unselect all Data', 'Select all Data 1D', 'Unselect all Data 1D', 'Select all Data 2D', 'Unselect all Data 2D' ] for option in list_of_options: self.selection_cbox.Append(str(option)) self.selection_cbox.SetValue('Select all Data') wx.EVT_COMBOBOX(self.selection_cbox,-1, self._on_selection_type) self.sizer5.AddMany([(select_txt,0, wx.ALL,5), (self.selection_cbox,0, wx.ALL,5)]) def layout_perspective(self, list_of_perspective=[]): """ Layout widgets related to the list of plug-ins of the gui_manager """ if len(list_of_perspective)==0: return w, h = self.parent.GetSize() box_description_2= wx.StaticBox(self, -1, "Set Active Perspective") self.boxsizer_2 = wx.StaticBoxSizer(box_description_2, wx.HORIZONTAL) self.sizer_perspective = wx.GridBagSizer(5,5) self.boxsizer_2.Add(self.sizer_perspective) self.sizer2.Add(self.boxsizer_2,1, wx.ALL, 10) self.list_of_perspective = list_of_perspective self.sizer_perspective.Clear(True) self.list_rb_perspectives = [] nb_active_perspective = 0 if list_of_perspective: ix = 0 iy = 0 for perspective_name, is_active in list_of_perspective: if is_active: nb_active_perspective += 1 if nb_active_perspective == 1: rb = wx.RadioButton(self, -1, perspective_name, style=wx.RB_GROUP) rb.SetToolTipString("Data will be applied to this perspective") rb.SetValue(is_active) else: rb = wx.RadioButton(self, -1, perspective_name) rb.SetToolTipString("Data will be applied to this perspective") #only one perpesctive can be active rb.SetValue(False) self.Bind(wx.EVT_RADIOBUTTON, self.on_set_active_perspective, id=rb.GetId()) self.list_rb_perspectives.append(rb) self.sizer_perspective.Add(rb,(iy, ix),(1,1), wx.LEFT|wx.EXPAND|wx.ADJUST_MINSIZE, 10) iy += 1 else: rb = wx.RadioButton(self, -1, 'No Perspective', style=wx.RB_GROUP) rb.SetValue(True) rb.Disable() ix = 0 iy = 0 self.sizer_perspective.Add(rb,(iy, ix),(1,1), wx.LEFT|wx.EXPAND|wx.ADJUST_MINSIZE, 10) def _on_selection_type(self, event): """ Select data according to patterns """ list_of_options = ['Select all Data', 'Unselect all Data', 'Select all Data 1D', 'Unselect all Data 1D', 'Select all Data 2D', 'Unselect all Data 2D' ] option = self.selection_cbox.GetValue() pos = self.selection_cbox.GetSelection() if pos == wx.NOT_FOUND: return option = self.selection_cbox.GetString(pos) for item in self.list_cb_data.values(): data_ctrl, _, _, _,_, _ = item data_id, data_class, _ = self.tree_ctrl.GetItemPyData(data_ctrl) if option == 'Select all Data': self.tree_ctrl.CheckItem(data_ctrl, True) elif option == 'Unselect all Data': self.tree_ctrl.CheckItem(data_ctrl, False) elif option == 'Select all Data 1D': if data_class == 'Data1D': self.tree_ctrl.CheckItem(data_ctrl, True) elif option == 'Unselect all Data 1D': if data_class == 'Data1D': self.tree_ctrl.CheckItem(data_ctrl, False) elif option == 'Select all Data 1D': if data_class == 'Data1D': self.tree_ctrl.CheckItem(data_ctrl, True) elif option == 'Select all Data 2D': if data_class == 'Data2D': self.tree_ctrl.CheckItem(data_ctrl, True) elif option == 'Unselect all Data 2D': if data_class == 'Data2D': self.tree_ctrl.CheckItem(data_ctrl, False) def on_set_active_perspective(self, event): """ Select the active perspective """ ctrl = event.GetEventObject() def layout_button(self): """ Layout widgets related to buttons """ self.bt_import = wx.Button(self, wx.NewId(), "Send To") self.bt_import.SetToolTipString("Send set of Data to active perspective") wx.EVT_BUTTON(self, self.bt_import.GetId(), self.on_import) self.bt_append_plot = wx.Button(self, wx.NewId(), "Append Plot To") self.bt_append_plot.SetToolTipString("Plot the selected data in the active panel") wx.EVT_BUTTON(self, self.bt_append_plot.GetId(), self.on_append_plot) self.bt_plot = wx.Button(self, wx.NewId(), "New Plot") self.bt_plot.SetToolTipString("To trigger plotting") wx.EVT_BUTTON(self, self.bt_plot.GetId(), self.on_plot) self.bt_freeze = wx.Button(self, wx.NewId(), "Freeze Theory") self.bt_freeze.SetToolTipString("To trigger freeze a theory") wx.EVT_BUTTON(self, self.bt_freeze.GetId(), self.on_freeze) self.bt_remove = wx.Button(self, wx.NewId(), "Remove Data") self.bt_remove.SetToolTipString("Remove data from the application") wx.EVT_BUTTON(self, self.bt_remove.GetId(), self.on_remove) self.tctrl_perspective = wx.StaticText(self, -1, 'No Active Application', style=wx.SUNKEN_BORDER|wx.ALIGN_LEFT) self.tctrl_perspective.SetToolTipString("Active Application") perspective_font = self.tctrl_perspective.GetFont() perspective_font.SetWeight(wx.BOLD) self.tctrl_perspective.SetFont(perspective_font) self.tctrl_perspective.SetClientSize((80,20)) self.cb_plotpanel = wx.ComboBox(self, -1, style=wx.CB_READONLY|wx.CB_SORT) wx.EVT_COMBOBOX(self.cb_plotpanel,-1, self._on_plot_selection) self.cb_plotpanel.Append('None') self.cb_plotpanel.SetStringSelection('None') #self.tctrl_plotpanel = wx.StaticText(self, -1, 'No Plot panel on focus') #self.tctrl_plotpanel.SetToolTipString("Active Plot Panel") ix = 0 iy = 0 self.sizer3.Add(self.bt_import,( iy, ix),(1,1), wx.LEFT|wx.EXPAND|wx.ADJUST_MINSIZE, 15) ix += 1 self.sizer3.Add(self.tctrl_perspective,(iy, ix),(1,1), wx.EXPAND|wx.ADJUST_MINSIZE, 0) ix = 0 iy += 1 self.sizer3.Add(self.bt_append_plot,( iy, ix),(1,1), wx.LEFT|wx.EXPAND|wx.ADJUST_MINSIZE, 15) ix += 1 self.sizer3.Add(self.cb_plotpanel,(iy, ix),(1,1), wx.EXPAND|wx.ADJUST_MINSIZE, 0) ix = 0 iy += 1 self.sizer3.Add(self.bt_plot,( iy, ix),(1,1), wx.LEFT|wx.EXPAND|wx.ADJUST_MINSIZE, 15) ix = 0 iy += 1 self.sizer3.Add(self.bt_freeze,( iy, ix),(1,1), wx.LEFT|wx.EXPAND|wx.ADJUST_MINSIZE, 15) ix = 0 iy += 1 self.sizer3.Add(self.bt_remove,( iy, ix),(1,1), wx.LEFT|wx.EXPAND|wx.ADJUST_MINSIZE, 15) def layout_batch(self): """ """ self.rb_single_mode = wx.RadioButton(self, -1, 'Single Mode', style=wx.RB_GROUP) self.rb_batch_mode = wx.RadioButton(self, -1, 'Batch Mode') self.rb_single_mode.SetValue(True) self.rb_batch_mode.SetValue(False) self.sizer4.AddMany([(self.rb_single_mode,0, wx.ALL,5), (self.rb_batch_mode,0, wx.ALL,5)]) def old_layout_data_list(self): """ Add a listcrtl in the panel """ self.tree_ctrl = DataTreeCtrl(parent=self) self.tree_ctrl.Bind(CT.EVT_TREE_ITEM_CHECKING, self.on_check_item) self.sizer1.Add(self.tree_ctrl,1, wx.EXPAND|wx.ALL, 10) self.theory_root = self.tree_ctrl.InsertItem(self.tree_ctrl.root,0, "THEORIES", ct_type=0) def layout_data_list(self): """ Add a listcrtl in the panel """ tree_ctrl_label = wx.StaticText(self, -1, "Data") tree_ctrl_label.SetForegroundColour('blue') self.tree_ctrl = DataTreeCtrl(parent=self) self.tree_ctrl.Bind(CT.EVT_TREE_ITEM_CHECKING, self.on_check_item) tree_ctrl_theory_label = wx.StaticText(self, -1, "Theory") tree_ctrl_theory_label.SetForegroundColour('blue') self.tree_ctrl_theory = DataTreeCtrl(parent=self) self.tree_ctrl_theory.Bind(CT.EVT_TREE_ITEM_CHECKING, self.on_check_item) self.sizer1.Add(tree_ctrl_label, 0, wx.LEFT, 10) self.sizer1.Add(self.tree_ctrl, 1, wx.EXPAND|wx.ALL, 10) self.sizer1.Add(tree_ctrl_theory_label, 0, wx.LEFT, 10) self.sizer1.Add(self.tree_ctrl_theory, 1, wx.EXPAND|wx.ALL, 10) 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 on_check_item(self, event): """ """ item = event.GetItem() item.Check(not item.IsChecked()) self.enable_button(item) event.Skip() def enable_button(self, item): """ """ # Not implemented return """ _, data_class, _= self.tree_ctrl.GetItemPyData(item) if item.IsChecked(): self.all_data1d &= (data_class != "Data2D") if self.all_data1d: self.bt_freeze.Enable() else: self.bt_freeze.Disable() else: self.all_data1d |= True self.all_data1d &= (data_class != "Data2D") if self.all_data1d: self.bt_freeze.Enable() else: self.bt_freeze.Disable() """ def load_data_list(self, list): """ add need data with its theory under the tree """ if not list: return # uncheck previous items self._uncheck_all() for state_id, dstate in list.iteritems(): data = dstate.get_data() theory_list = dstate.get_theory() if data is not None: data_name = data.name data_class = data.__class__.__name__ path = dstate.get_path() process_list = data.process data_id = data.id if state_id not in self.list_cb_data: #new state data_c = self.tree_ctrl.InsertItem(self.tree_ctrl.root,0, data_name, ct_type=1, data=(data_id, data_class, state_id)) data_c.Check(True) self.enable_button(data_c) d_i_c = self.tree_ctrl.AppendItem(data_c, 'Info') i_c_c = self.tree_ctrl.AppendItem(d_i_c, 'Type: %s' % data_class) p_c_c = self.tree_ctrl.AppendItem(d_i_c, 'Path: %s' % str(path)) d_p_c = self.tree_ctrl.AppendItem(d_i_c, 'Process') for process in process_list: i_t_c = self.tree_ctrl.AppendItem(d_p_c, process.__str__()) theory_child = self.tree_ctrl.AppendItem(data_c, "THEORIES") self.list_cb_data[state_id] = [data_c, d_i_c, i_c_c, p_c_c, d_p_c, theory_child] else: data_ctrl_list = self.list_cb_data[state_id] #This state is already display replace it contains data_c, d_i_c, i_c_c, p_c_c, d_p_c, t_c = data_ctrl_list self.tree_ctrl.SetItemText(data_c, data_name) temp = (data_id, data_class, state_id) self.tree_ctrl.SetItemPyData(data_c, temp) self.tree_ctrl.SetItemText(i_c_c, 'Type: %s' % data_class) self.tree_ctrl.SetItemText(p_c_c, 'Path: %s' % str(path)) self.tree_ctrl.DeleteChildren(d_p_c) for process in process_list: i_t_c = self.tree_ctrl.AppendItem(d_p_c, process.__str__()) self.append_theory(state_id, theory_list) def _uncheck_all(self): """ Uncheck all check boxes """ for item in self.list_cb_data.values(): data_ctrl, _, _, _,_, _ = item self.tree_ctrl.CheckItem(data_ctrl, False) def old_append_theory(self, state_id, theory_list): """ append theory object under data from a state of id = state_id replace that theory if already displayed """ if not theory_list: return if state_id not in self.list_cb_data.keys(): root = self.theory_root else: item = self.list_cb_data[state_id] data_c, _, _, _, _, _ = item root = data_c if root is not None: self.append_theory_helper(root=root, state_id=state_id, theory_list=theory_list) def append_theory(self, state_id, theory_list): """ append theory object under data from a state of id = state_id replace that theory if already displayed """ if not theory_list: return if state_id not in self.list_cb_data.keys(): root = self.tree_ctrl_theory.root tree = self.tree_ctrl_theory else: item = self.list_cb_data[state_id] data_c, _, _, _, _, _ = item root = data_c tree = self.tree_ctrl if root is not None: self.append_theory_helper(tree=tree, root=root, state_id=state_id, theory_list=theory_list) def append_theory_helper(self, tree, root, state_id, theory_list): """ """ if state_id in self.list_cb_theory.keys(): #update current list of theory for this data theory_list_ctrl = self.list_cb_theory[state_id] for theory_id, item in theory_list.iteritems(): theory_data, theory_state = item if theory_data is None: name = "Unknown" theory_class = "Unknown" theory_id = "Unknown" temp = (None, None, None) else: name = theory_data.name theory_class = theory_data.__class__.__name__ theory_id = theory_data.id #if theory_state is not None: # name = theory_state.model.name temp = (theory_id, theory_class, state_id) if theory_id not in theory_list_ctrl: #add new theory t_child = tree.AppendItem(root, name, ct_type=1, data=temp) t_i_c = tree.AppendItem(t_child, 'Info') i_c_c = tree.AppendItem(t_i_c, 'Type: %s' % theory_class) t_p_c = tree.AppendItem(t_i_c, 'Process') for process in theory_data.process: i_t_c = tree.AppendItem(t_p_c, process.__str__()) theory_list_ctrl[theory_id] = [t_child, i_c_c, t_p_c] else: #replace theory t_child, i_c_c, t_p_c = theory_list_ctrl[theory_id] tree.SetItemText(t_child, name) tree.SetItemPyData(t_child, temp) tree.SetItemText(i_c_c, 'Type: %s' % theory_class) tree.DeleteChildren(t_p_c) for process in theory_data.process: i_t_c = tree.AppendItem(t_p_c, process.__str__()) else: #data didn't have a theory associated it before theory_list_ctrl = {} for theory_id, item in theory_list.iteritems(): theory_data, theory_state = item if theory_data is not None: name = theory_data.name theory_class = theory_data.__class__.__name__ theory_id = theory_data.id #if theory_state is not None: # name = theory_state.model.name temp = (theory_id, theory_class, state_id) t_child = tree.AppendItem(root, name, ct_type=1, data=(theory_data.id, theory_class, state_id)) t_i_c = tree.AppendItem(t_child, 'Info') i_c_c = tree.AppendItem(t_i_c, 'Type: %s' % theory_class) t_p_c = tree.AppendItem(t_i_c, 'Process') for process in theory_data.process: i_t_c = tree.AppendItem(t_p_c, process.__str__()) theory_list_ctrl[theory_id] = [t_child, i_c_c, t_p_c] #self.list_cb_theory[data_id] = theory_list_ctrl self.list_cb_theory[state_id] = theory_list_ctrl def set_data_helper(self): """ """ data_to_plot = [] state_to_plot = [] theory_to_plot = [] for value in self.list_cb_data.values(): item, _, _, _, _, _ = value if item.IsChecked(): data_id, _, state_id = self.tree_ctrl.GetItemPyData(item) data_to_plot.append(data_id) if state_id not in state_to_plot: state_to_plot.append(state_id) for theory_dict in self.list_cb_theory.values(): for key, value in theory_dict.iteritems(): item, _, _ = value if item.IsChecked(): theory_id, _, state_id = self.tree_ctrl.GetItemPyData(item) theory_to_plot.append(theory_id) if state_id not in state_to_plot: state_to_plot.append(state_id) return data_to_plot, theory_to_plot, state_to_plot def remove_by_id(self, id): """ """ for item in self.list_cb_data.values(): data_c, _, _, _, _, theory_child = item data_id, _, state_id = self.tree_ctrl.GetItemPyData(data_c) if id == data_id: self.tree_ctrl.Delete(data_c) del self.list_cb_data[state_id] del self.list_cb_theory[data_id] def on_remove(self, event): """ Get a list of item checked and remove them from the treectrl Ask the parent to remove reference to this item """ data_to_remove, theory_to_remove, _ = self.set_data_helper() data_key = [] theory_key = [] #remove data from treectrl for d_key, item in self.list_cb_data.iteritems(): data_c, d_i_c, i_c_c, p_c_c, d_p_c, t_c = item if data_c.IsChecked(): self.tree_ctrl.Delete(data_c) data_key.append(d_key) if d_key in self.list_cb_theory.keys(): theory_list_ctrl = self.list_cb_theory[d_key] theory_to_remove += theory_list_ctrl.keys() # Remove theory from treectrl for t_key, theory_dict in self.list_cb_theory.iteritems(): for key, value in theory_dict.iteritems(): item, _, _ = value if item.IsChecked(): self.tree_ctrl.Delete(item) theory_key.append(key) #Remove data and related theory references for key in data_key: del self.list_cb_data[key] if key in theory_key: del self.list_cb_theory[key] #remove theory references independently of data for key in theory_key: for t_key, theory_dict in self.list_cb_theory.iteritems(): if key in theory_dict: del theory_dict[key] self.parent.remove_data(data_id=data_to_remove, theory_id=theory_to_remove) def on_import(self, event=None): """ Get all select data and set them to the current active perspetive """ data_id, theory_id, state_id = self.set_data_helper() self.parent.set_data(data_id) self.parent.set_data(data_id=state_id, theory_id=theory_id) def on_append_plot(self, event=None): """ append plot to plot panel on focus """ self._on_plot_selection() data_id, theory_id, state_id = self.set_data_helper() self.parent.plot_data(data_id=data_id, state_id=state_id, theory_id=theory_id, append=True) def on_plot(self, event=None): """ Send a list of data names to plot """ data_id, theory_id, state_id = self.set_data_helper() self.parent.plot_data(data_id=data_id, state_id=state_id, theory_id=theory_id, append=False) def on_close_page(self, event=None): """ On close """ if event != None: event.Skip() # send parent to update menu with no show nor hide action self.parent.show_data_panel(action=False) def on_freeze(self, event): """ """ _, theory_id, state_id = self.set_data_helper() self.parent.freeze(data_id=state_id, theory_id=theory_id) def set_active_perspective(self, name): """ set the active perspective """ self.tctrl_perspective.SetLabel(str(name)) #perspective_font = self.tctrl_perspective.GetFont() #perspective_font.SetWeight(wx.BOLD) self.tctrl_perspective.SetClientSize((80,20))#SetFont(perspective_font) def set_panel_on_focus(self, name): """ set the plot panel on focus """ for key, value in self.parent.plot_panels.iteritems(): name_plot_panel = str(value.window_caption) if name_plot_panel not in self.cb_plotpanel.GetItems(): self.cb_plotpanel.Append(name_plot_panel, value) self.cb_plotpanel.SetStringSelection(name_plot_panel) def _on_plot_selection(self, event = None): """ On source combobox selection """ if event != None: combo = event.GetEventObject() event.Skip() else: combo = self.cb_plotpanel selection = combo.GetSelection() if combo.GetValue() != 'None': panel = combo.GetClientData(selection) self.parent.on_set_plot_focus(panel) class DataFrame(wx.Frame): ## Internal name for the AUI manager window_name = "Data Panel" ## Title to appear on top of the window window_caption = "Data Panel" ## Flag to tell the GUI manager that this panel is not # tied to any perspective ALWAYS_ON = True def __init__(self, parent=None, owner=None, manager=None,size=(200, 800), list_of_perspective=[],list=[], *args, **kwds): kwds['size'] = size kwds['id'] = -1 kwds['title']= "Loaded Data" wx.Frame.__init__(self, parent=parent, *args, **kwds) self.parent = parent self.owner = owner self.manager = manager self.panel = DataPanel(parent=self, #size=size, list_of_perspective=list_of_perspective) def load_data_list(self, list=[]): """ Fill the list inside its panel """ self.panel.load_data_list(list=list) def layout_perspective(self, list_of_perspective=[]): """ """ self.panel.layout_perspective(list_of_perspective=list_of_perspective) from dataFitting import Data1D from dataFitting import Data2D, Theory1D from data_state import DataState import sys class State(): def __init__(self): self.msg = "" def __str__(self): self.msg = "model mane : model1\n" self.msg += "params : \n" self.msg += "name value\n" return msg def set_data_state(data=None, path=None, theory=None, state=None): dstate = DataState(data=data) dstate.set_path(path=path) dstate.set_theory(theory, state) return dstate """' data_list = [1:('Data1', 'Data1D', '07/01/2010', "theory1d", "state1"), ('Data2', 'Data2D', '07/03/2011', "theory2d", "state1"), ('Data3', 'Theory1D', '06/01/2010', "theory1d", "state1"), ('Data4', 'Theory2D', '07/01/2010', "theory2d", "state1"), ('Data5', 'Theory2D', '07/02/2010', "theory2d", "state1")] """ if __name__ == "__main__": app = wx.App() try: list_of_perspective = [('perspective2', False), ('perspective1', True)] data_list = {} # state 1 data = Data2D() data.name = "data2" data.id = 1 data.append_empty_process() process = data.process[len(data.process)-1] process.data = "07/01/2010" theory = Data2D() theory.id = 34 theory.name = "theory1" path = "path1" state = State() data_list['1']=set_data_state(data, path,theory, state) #state 2 data = Data2D() data.name = "data2" data.id = 76 theory = Data2D() theory.id = 78 theory.name = "CoreShell 07/24/25" path = "path2" #state3 state = State() data_list['2']=set_data_state(data, path,theory, state) data = Data1D() data.id = 3 data.name = "data2" theory = Theory1D() theory.name = "CoreShell" theory.id = 4 theory.append_empty_process() process = theory.process[len(theory.process)-1] process.description = "this is my description" path = "path3" data.append_empty_process() process = data.process[len(data.process)-1] process.data = "07/22/2010" data_list['4']=set_data_state(data, path,theory, state) #state 4 temp_data_list = {} data.name = "data5 erasing data2" temp_data_list['4'] = set_data_state(data, path,theory, state) #state 5 data = Data2D() data.name = "data3" data.id = 5 data.append_empty_process() process = data.process[len(data.process)-1] process.data = "07/01/2010" theory = Theory1D() theory.name = "Cylinder" path = "path2" state = State() dstate= set_data_state(data, path,theory, state) theory = Theory1D() theory.id = 6 theory.name = "CoreShell" dstate.set_theory(theory) theory = Theory1D() theory.id = 6 theory.name = "CoreShell replacing coreshell in data3" dstate.set_theory(theory) data_list['3'] = dstate #state 6 data_list['6']=set_data_state(None, path,theory, state) data_list['6']=set_data_state(theory=theory, state=None) theory = Theory1D() theory.id = 7 data_list['6']=set_data_state(theory=theory, state=None) data_list['7']=set_data_state(theory=theory, state=None) window = DataFrame(list=data_list) window.load_data_list(list=data_list) #window.layout_perspective(list_of_perspective=list_of_perspective) window.Show(True) window.load_data_list(list=temp_data_list) except: #raise print "error",sys.exc_value app.MainLoop()