From: illysam Date: Fri, 7 Aug 2009 13:21:48 +0000 (+0000) Subject: fixed: plot does not display on Windows at program launch (troubleshooting issue 1) X-Git-Tag: 0.9.0~1 X-Git-Url: http://git.tremily.us/?a=commitdiff_plain;h=2276f0c30b932c3363ef50cd8d1b0137d4d08a06;p=hooke.git fixed: plot does not display on Windows at program launch (troubleshooting issue 1) fixed: driver tries to open a directory (issue 15) --- diff --git a/hooke.py b/hooke.py index 3a90baa..21cd509 100755 --- a/hooke.py +++ b/hooke.py @@ -1,804 +1,814 @@ -#!/usr/bin/env python - -''' -HOOKE - A force spectroscopy review & analysis tool - -(C) 2008 Massimo Sandal - -Copyright (C) 2008 Massimo Sandal (University of Bologna, Italy). - -This program is released under the GNU General Public License version 2. -''' - -from libhooke import HOOKE_VERSION -from libhooke import WX_GOOD - -import os - -import wxversion -wxversion.select(WX_GOOD) -import wx -import wxmpl -from wx.lib.newevent import NewEvent - -import matplotlib.numerix as nx -import scipy as sp - -from threading import * -import Queue - -from hooke_cli import HookeCli -from libhooke import * -import libhookecurve as lhc - -#import file versions, just to know with what we're working... -from hooke_cli import __version__ as hookecli_version - -global __version__ -global events_from_gui -global config -global CLI_PLUGINS -global GUI_PLUGINS -global LOADED_PLUGINS -global PLOTMANIP_PLUGINS -global FILE_DRIVERS - -__version__=HOOKE_VERSION[0] -__release_name__=HOOKE_VERSION[1] - -events_from_gui=Queue.Queue() #GUI ---> CLI COMMUNICATION - -print 'Starting Hooke.' -#CONFIGURATION FILE PARSING -config_obj=HookeConfig() -config=config_obj.load_config('hooke.conf') - -#IMPORTING PLUGINS - -CLI_PLUGINS=[] -GUI_PLUGINS=[] -PLOTMANIP_PLUGINS=[] -LOADED_PLUGINS=[] - -plugin_commands_namespaces=[] -plugin_gui_namespaces=[] -for plugin_name in config['plugins']: - try: - plugin=__import__(plugin_name) - try: - eval('CLI_PLUGINS.append(plugin.'+plugin_name+'Commands)') #take Command plugin classes - plugin_commands_namespaces.append(dir(eval('plugin.'+plugin_name+'Commands'))) - except: - pass - try: - eval('GUI_PLUGINS.append(plugin.'+plugin_name+'Gui)') #take Gui plugin classes - plugin_gui_namespaces.append(dir(eval('plugin.'+plugin_name+'Gui'))) - except: - pass - except ImportError: - print 'Cannot find plugin ',plugin_name - else: - LOADED_PLUGINS.append(plugin_name) - print 'Imported plugin ',plugin_name - -#eliminate names common to all namespaces -for i in range(len(plugin_commands_namespaces)): - plugin_commands_namespaces[i]=[item for item in plugin_commands_namespaces[i] if (item != '__doc__' and item != '__module__' and item != '_plug_init')] -#check for conflicts in namespaces between plugins -#FIXME: only in commands now, because I don't have Gui plugins to check -#FIXME: how to check for plugin-defined variables (self.stuff) ?? -plugin_commands_names=[] -whatplugin_defines=[] -plugin_gui_names=[] -for namespace,plugin_name in zip(plugin_commands_namespaces, config['plugins']): - for item in namespace: - if item in plugin_commands_names: - i=plugin_commands_names.index(item) #we exploit the fact index gives the *first* occurrence of a name... - print 'Error. Plugin ',plugin_name,' defines a function already defined by ',whatplugin_defines[i],'!' - print 'This should not happen. Please disable one or both plugins and contact the plugin authors to solve the conflict.' - print 'Hooke cannot continue.' - exit() - else: - plugin_commands_names.append(item) - whatplugin_defines.append(plugin_name) - - -config['loaded_plugins']=LOADED_PLUGINS #FIXME: kludge -this should be global but not in config! -#IMPORTING DRIVERS -#FIXME: code duplication -FILE_DRIVERS=[] -LOADED_DRIVERS=[] -for driver_name in config['drivers']: - try: - driver=__import__(driver_name) - try: - eval('FILE_DRIVERS.append(driver.'+driver_name+'Driver)') - except: - pass - except ImportError: - print 'Cannot find driver ',driver_name - else: - LOADED_DRIVERS.append(driver_name) - print 'Imported driver ',driver_name -config['loaded_drivers']=LOADED_DRIVERS - -#LIST OF CUSTOM WX EVENTS FOR CLI ---> GUI COMMUNICATION -#FIXME: do they need to be here? -list_of_events={} - -plot_graph, EVT_PLOT = NewEvent() -list_of_events['plot_graph']=plot_graph - -plot_contact, EVT_PLOT_CONTACT = NewEvent() -list_of_events['plot_contact']=plot_contact - -measure_points, EVT_MEASURE_POINTS = NewEvent() -list_of_events['measure_points']=measure_points - -export_image, EVT_EXPORT_IMAGE = NewEvent() -list_of_events['export_image']=export_image - -close_plot, EVT_CLOSE_PLOT = NewEvent() -list_of_events['close_plot'] = close_plot - -show_plots, EVT_SHOW_PLOTS = NewEvent() -list_of_events['show_plots'] = show_plots - -get_displayed_plot, EVT_GET_DISPLAYED_PLOT = NewEvent() -list_of_events['get_displayed_plot'] = get_displayed_plot -#------------ - -class CliThread(Thread): - - def __init__(self,frame,list_of_events): - Thread.__init__(self) - - #here we have to put temporary references to pass to the cli object. - self.frame=frame - self.list_of_events=list_of_events - - self.debug=0 #to be used in the future - - def run(self): - print '\n\nThis is Hooke, version',__version__ , __release_name__ - print - print '(c) Massimo Sandal & others, 2006-2008. Released under the GNU Lesser General Public License Version 3' - print 'Hooke is Free software.' - print '----' - print '' - - def make_command_class(*bases): - #FIXME: perhaps redundant - return type(HookeCli)("HookeCliPlugged", bases + (HookeCli,), {}) - cli = make_command_class(*CLI_PLUGINS)(self.frame,self.list_of_events,events_from_gui,config,FILE_DRIVERS) - cli.cmdloop() - -''' -GUI CODE - -FIXME: put it in a separate module in the future? -''' -class MainMenuBar(wx.MenuBar): - ''' - Creates the menu bar - ''' - def __init__(self): - wx.MenuBar.__init__(self) - '''the menu description. the key of the menu is XX&Menu, where XX is a number telling - the order of the menus on the menubar. - &Menu is the Menu text - the corresponding argument is ('&Item', 'itemname'), where &Item is the item text and itemname - the inner reference to use in the self.menu_items dictionary. - - See create_menus() to see how it works - - Note: the mechanism on page 124 of "wxPython in Action" is less awkward, maybe, but I want - binding to be performed later. Perhaps I'm wrong :) - ''' - - self.menu_desc={'00&File':[('&Open playlist','openplaymenu'),('&Exit','exitmenu')], - '01&Edit':[('&Export text...','exporttextmenu'),('&Export image...','exportimagemenu')], - '02&Help':[('&About Hooke','aboutmenu')]} - self.create_menus() - - def create_menus(self): - ''' - Smartish routine to create the menu from the self.menu_desc dictionary - Hope it's a workable solution for the future. - ''' - self.menus=[] #the menu objects to append to the menubar - self.menu_items={} #the single menu items dictionary, to bind to events - - names=self.menu_desc.keys() #we gotta sort, because iterating keys goes in odd order - names.sort() - - for name in names: - self.menus.append(wx.Menu()) - for menu_item in self.menu_desc[name]: - self.menu_items[menu_item[1]]=self.menus[-1].Append(-1, menu_item[0]) - - for menu,name in zip(self.menus,names): - self.Append(menu,name[2:]) - -class MainPanel(wx.Panel): - def __init__(self,parent,id): - - wx.Panel.__init__(self,parent,id) - self.splitter = wx.SplitterWindow(self) - -ID_FRAME=100 -class MainWindow(wx.Frame): - '''we make a frame inheriting wx.Frame and setting up things on the init''' - def __init__(self,parent,id,title): - - #----------------------------- - #WX WIDGETS INITIALIZATION - - wx.Frame.__init__(self,parent,ID_FRAME,title,size=(800,600),style=wx.DEFAULT_FRAME_STYLE|wx.NO_FULL_REPAINT_ON_RESIZE) - - self.mainpanel=MainPanel(self,-1) - self.cpanels=[] - - self.cpanels.append(wx.Panel(self.mainpanel.splitter,-1)) - self.cpanels.append(wx.Panel(self.mainpanel.splitter,-1)) - - self.statusbar=wx.StatusBar(self,-1) - self.SetStatusBar(self.statusbar) - - self.mainmenubar=MainMenuBar() - self.SetMenuBar(self.mainmenubar) - - self.controls=[] - self.figures=[] - self.axes=[] - - #This is our matplotlib plot - self.controls.append(wxmpl.PlotPanel(self.cpanels[0],-1)) - self.controls.append(wxmpl.PlotPanel(self.cpanels[1],-1)) - #These are our figure and axes, so to have easy references - #Also, we initialize - self.figures=[control.get_figure() for control in self.controls] - self.axes=[figure.gca() for figure in self.figures] - - self.cpanels[1].Hide() - self.mainpanel.splitter.Initialize(self.cpanels[0]) - - self.sizer_dance() #place/size the widgets - - self.controls[0].SetSize(self.cpanels[0].GetSize()) - self.controls[1].SetSize(self.cpanels[1].GetSize()) - - #------------------------------------------- - #NON-WX WIDGETS INITIALIZATION - - #Flags. - self.click_plot=0 - - #FIXME: These could become a single flag with different (string?) values - #self.on_measure_distance=False - #self.on_measure_force=False - - self.plot_fit=False - - #Number of points to be clicked - self.num_of_points = 2 - - #Data. - ''' - self.current_x_ext=[[],[]] - self.current_y_ext=[[],[]] - self.current_x_ret=[[],[]] - self.current_y_ret=[[],[]] - - - self.current_x_unit=[None,None] - self.current_y_unit=[None,None] - ''' - - #Initialize xaxes, yaxes - #FIXME: should come from config - self.current_xaxes=0 - self.current_yaxes=0 - - #Other - - - self.index_buffer=[] - - self.clicked_points=[] - - self.measure_set=None - - self.events_from_gui = events_from_gui - - ''' - This dictionary keeps all the flags and the relative functon names that - have to be called when a point is clicked. - That is: - - if point is clicked AND foo_flag=True - - foo() - - Conversely, foo_flag is True if a corresponding event is launched by the CLI. - - self.ClickedPoints() takes care of handling this - ''' - - self.click_flags_functions={'measure_points':[False, 'MeasurePoints']} - - #Binding of custom events from CLI --> GUI functions! - #FIXME: Should use the self.Bind() syntax - EVT_PLOT(self, self.PlotCurve) - EVT_PLOT_CONTACT(self, self.PlotContact) - EVT_GET_DISPLAYED_PLOT(self, self.OnGetDisplayedPlot) - EVT_MEASURE_POINTS(self, self.OnMeasurePoints) - EVT_EXPORT_IMAGE(self,self.ExportImage) - EVT_CLOSE_PLOT(self, self.OnClosePlot) - EVT_SHOW_PLOTS(self, self.OnShowPlots) - - #This event and control decide what happens when I click on the plot 0. - wxmpl.EVT_POINT(self, self.controls[0].GetId(), self.ClickPoint0) - wxmpl.EVT_POINT(self, self.controls[1].GetId(), self.ClickPoint1) - - #RUN PLUGIN-SPECIFIC INITIALIZATION - #make sure we execute _plug_init() for every command line plugin we import - for plugin_name in config['plugins']: - try: - plugin=__import__(plugin_name) - try: - eval('plugin.'+plugin_name+'Gui._plug_init(self)') - pass - except AttributeError: - pass - except ImportError: - pass - - - - #WX-SPECIFIC FUNCTIONS - def sizer_dance(self): - ''' - adjust size and placement of wxpython widgets. - ''' - self.splittersizer = wx.BoxSizer(wx.VERTICAL) - self.splittersizer.Add(self.mainpanel.splitter, 1, wx.EXPAND) - - self.plot1sizer = wx.BoxSizer() - self.plot1sizer.Add(self.controls[0], 1, wx.EXPAND) - - self.plot2sizer = wx.BoxSizer() - self.plot2sizer.Add(self.controls[1], 1, wx.EXPAND) - - self.panelsizer=wx.BoxSizer() - self.panelsizer.Add(self.mainpanel, -1, wx.EXPAND) - - self.cpanels[0].SetSizer(self.plot1sizer) - self.cpanels[1].SetSizer(self.plot2sizer) - - self.mainpanel.SetSizer(self.splittersizer) - self.SetSizer(self.panelsizer) - - def binding_dance(self): - self.Bind(wx.EVT_MENU, self.OnOpenPlayMenu, self.menubar.menu_items['openplaymenu']) - self.Bind(wx.EVT_MENU, self.OnExitMenu, self.menubar.menu_items['exitmenu']) - self.Bind(wx.EVT_MENU, self.OnExportText, self.menubar.menu_items['exporttextmenu']) - self.Bind(wx.EVT_MENU, self.OnExportImage, self.menubar.menu_items['exportimagemenu']) - self.Bind(wx.EVT_MENU, self.OnAboutMenu, self.menubar.menu_items['aboutmenu']) - - # DOUBLE PLOT MANAGEMENT - #---------------------- - def show_both(self): - ''' - Shows both plots. - ''' - self.mainpanel.splitter.SplitHorizontally(self.cpanels[0],self.cpanels[1]) - self.mainpanel.splitter.SetSashGravity(0.5) - self.mainpanel.splitter.SetSashPosition(300) #FIXME: we should get it and restore it - self.mainpanel.splitter.UpdateSize() - - def close_plot(self,plot): - ''' - Closes one plot - only if it's open - ''' - if not self.cpanels[plot].IsShown(): - return - if plot != 0: - self.current_plot_dest = 0 - else: - self.current_plot_dest = 1 - self.cpanels[plot].Hide() - self.mainpanel.splitter.Unsplit(self.cpanels[plot]) - self.mainpanel.splitter.UpdateSize() - - - def OnClosePlot(self,event): - self.close_plot(event.to_close) - - def OnShowPlots(self,event): - self.show_both() - - - #FILE MENU FUNCTIONS - #-------------------- - def OnOpenPlayMenu(self, event): - pass - - def OnExitMenu(self,event): - pass - - def OnExportText(self,event): - pass - - def OnExportImage(self,event): - pass - - def OnAboutMenu(self,event): - pass - - #PLOT INTERACTION - #---------------- - def PlotCurve(self,event): - ''' - plots the current ext,ret curve. - ''' - dest=0 - - #FIXME: BAD kludge following. There should be a well made plot queue mechanism, with replacements etc. - #--- - #If we have only one plot in the event, we already have one in self.plots and this is a secondary plot, - #do not erase self.plots but append the new plot to it. - if len(event.plots) == 1 and event.plots[0].destination != 0 and len(self.plots) == 1: - self.plots.append(event.plots[0]) - #if we already have two plots and a new secondary plot comes, we substitute the previous - if len(event.plots) == 1 and event.plots[0].destination != 0 and len(self.plots) > 1: - self.plots[1] = event.plots[0] - else: - self.plots = event.plots - - #FIXME. Should be in PlotObject, somehow - c=0 - for plot in self.plots: - if self.plots[c].styles==[]: - self.plots[c].styles=[None for item in plot.vectors] - if self.plots[c].colors==[]: - self.plots[c].colors=[None for item in plot.vectors] - - for plot in self.plots: - ''' - MAIN LOOP FOR ALL PLOTS (now only 2 are allowed but...) - ''' - if 'destination' in dir(plot): - dest=plot.destination - - #if the requested panel is not shown, show it - if not ( self.cpanels[dest].IsShown() ): - self.show_both() - - self.axes[dest].hold(False) - self.current_vectors=plot.vectors - self.current_title=plot.title - self.current_plot_dest=dest #let's try this way to take into account the destination plot... - - c=0 - - if len(plot.colors)==0: - plot.colors=[None] * len(plot.vectors) - if len(plot.styles)==0: - plot.styles=[None] * len(plot.vectors) - - for vectors_to_plot in self.current_vectors: - if plot.styles[c]=='scatter': - if plot.colors[c]==None: - self.axes[dest].scatter(vectors_to_plot[0], vectors_to_plot[1]) - else: - self.axes[dest].scatter(vectors_to_plot[0], vectors_to_plot[1],color=plot.colors[c]) - else: - if plot.colors[c]==None: - self.axes[dest].plot(vectors_to_plot[0], vectors_to_plot[1]) - else: - self.axes[dest].plot(vectors_to_plot[0], vectors_to_plot[1], color=plot.colors[c]) - self.axes[dest].hold(True) - c+=1 - - ''' - for vectors_to_plot in self.current_vectors: - if len(vectors_to_plot)==2: #3d plots are to come... - if len(plot.styles) > 0 and plot.styles[c] == 'scatter': - self.axes[dest].scatter(vectors_to_plot[0],vectors_to_plot[1]) - elif len(plot.styles) > 0 and plot.styles[c] == 'scatter_red': - self.axes[dest].scatter(vectors_to_plot[0],vectors_to_plot[1],color='red') - else: - self.axes[dest].plot(vectors_to_plot[0],vectors_to_plot[1]) - - self.axes[dest].hold(True) - c+=1 - else: - pass - ''' - #FIXME: tackles only 2d plots - self.axes[dest].set_xlabel(plot.units[0]) - self.axes[dest].set_ylabel(plot.units[1]) - - #FIXME: set smaller fonts - self.axes[dest].set_title(plot.title) - - if plot.xaxes: - #swap X axis - xlim=self.axes[dest].get_xlim() - self.axes[dest].set_xlim((xlim[1],xlim[0])) - if plot.yaxes: - #swap Y axis - ylim=self.axes[dest].get_ylim() - self.axes[dest].set_ylim((ylim[1],ylim[0])) - - self.controls[dest].draw() - - - def PlotContact(self,event): - ''' - plots the contact point - DEPRECATED! - ''' - self.axes[0].hold(True) - self.current_contact_index=event.contact_index - - #now we fake a clicked point - self.clicked_points.append(ClickedPoint()) - self.clicked_points[-1].absolute_coords=self.current_x_ret[dest][self.current_contact_index], self.current_y_ret[dest][self.current_contact_index] - self.clicked_points[-1].is_marker=True - - self._replot() - self.clicked_points=[] - - def OnMeasurePoints(self,event): - ''' - trigger flags to measure N points - ''' - self.click_flags_functions['measure_points'][0]=True - if 'num_of_points' in dir(event): - self.num_of_points=event.num_of_points - if 'set' in dir(event): - self.measure_set=event.set - - def ClickPoint0(self,event): - self.current_plot_dest=0 - self.ClickPoint(event) - def ClickPoint1(self,event): - self.current_plot_dest=1 - self.ClickPoint(event) - - def ClickPoint(self,event): - ''' - this function decides what to do when we receive a left click on the axes. - We trigger other functions: - - the action chosen by the CLI sends an event - - the event raises a flag : self.click_flags_functions['foo'][0] - - the raised flag wants the function in self.click_flags_functions[1] to be called after a click - ''' - for key, value in self.click_flags_functions.items(): - if value[0]: - eval('self.'+value[1]+'(event)') - - - - def MeasurePoints(self,event,current_set=1): - dest=self.current_plot_dest - try: - current_set=self.measure_set - except AttributeError: - pass - - #find the current plot matching the clicked destination - plot=self._plot_of_dest() - if len(plot.vectors)-1 < current_set: #what happens if current_set is 1 and we have only 1 vector? - current_set=current_set-len(plot.vectors) - - xvector=plot.vectors[current_set][0] - yvector=plot.vectors[current_set][1] - - self.clicked_points.append(ClickedPoint()) - self.clicked_points[-1].absolute_coords=event.xdata, event.ydata - self.clicked_points[-1].find_graph_coords(xvector,yvector) - self.clicked_points[-1].is_marker=True - self.clicked_points[-1].is_line_edge=True - self.clicked_points[-1].dest=dest - - self._replot() - - if len(self.clicked_points)==self.num_of_points: - self.events_from_gui.put(self.clicked_points) - #restore to default state: - self.clicked_points=[] - self.click_flags_functions['measure_points'][0]=False - - - def OnGetDisplayedPlot(self,event): - if 'dest' in dir(event): - self.GetDisplayedPlot(event.dest) - else: - self.GetDisplayedPlot(self.current_plot_dest) - - def GetDisplayedPlot(self,dest): - ''' - returns to the CLI the currently displayed plot for the given destination - ''' - displayed_plot=self._plot_of_dest(dest) - events_from_gui.put(displayed_plot) - - def ExportImage(self,event): - ''' - exports an image as a file. - Current supported file formats: png, eps - (matplotlib docs say that jpeg should be supported too, but with .jpg it doesn't work for me!) - ''' - #dest=self.current_plot_dest - dest=event.dest - filename=event.name - self.figures[dest].savefig(filename) - - ''' - def _find_nearest_point(self, mypoint, dataset=1): - - #Given a clicked point on the plot, finds the nearest point in the dataset (in X) that - #corresponds to the clicked point. - - dest=self.current_plot_dest - - xvector=plot.vectors[dataset][0] - yvector=plot.vectors[dataset][1] - - #Ye Olde sorting algorithm... - #FIXME: is there a better solution? - index=0 - best_index=0 - best_diff=10^9 #hope we never go over this magic number :( - for point in xvector: - diff=abs(point-mypoint) - if diff 0 and plot.styles[c]=='scatter': - self.axes[dest].scatter(plotset[0], plotset[1],color=plot.colors[c]) - elif len(plot.styles) > 0 and plot.styles[c] == 'scatter_red': - self.axes[dest].scatter(plotset[0],plotset[1],color='red') - else: - self.axes[dest].plot(plotset[0], plotset[1]) - ''' - c+=1 - #plot points we have clicked - for item in self.clicked_points: - if item.is_marker: - if item.graph_coords==(None,None): #if we have no graph coords, we display absolute coords - self.axes[dest].scatter([item.absolute_coords[0]],[item.absolute_coords[1]]) - else: - self.axes[dest].scatter([item.graph_coords[0]],[item.graph_coords[1]]) - - if self.plot_fit: - print 'DEBUGGING WARNING: use of self.plot_fit is deprecated!' - self.axes[dest].plot(self.plot_fit[0],self.plot_fit[1]) - - self.axes[dest].hold(True) - #set old axes again - self.axes[dest].set_xlim(xlim) - self.axes[dest].set_ylim(ylim) - #set title and names again... - self.axes[dest].set_title(self.current_title) - self.axes[dest].set_xlabel(plot.units[0]) - self.axes[dest].set_ylabel(plot.units[1]) - #and redraw! - self.controls[dest].draw() - - -class MySplashScreen(wx.SplashScreen): - """ - Create a splash screen widget. - That's just a fancy addition... every serious application has a splash screen! - """ - def __init__(self, frame): - # This is a recipe to a the screen. - # Modify the following variables as necessary. - #aBitmap = wx.Image(name = "wxPyWiki.jpg").ConvertToBitmap() - aBitmap=wx.Image(name='hooke.jpg').ConvertToBitmap() - splashStyle = wx.SPLASH_CENTRE_ON_SCREEN | wx.SPLASH_TIMEOUT - splashDuration = 2000 # milliseconds - splashCallback = None - # Call the constructor with the above arguments in exactly the - # following order. - wx.SplashScreen.__init__(self, aBitmap, splashStyle, - splashDuration, None, -1) - wx.EVT_CLOSE(self, self.OnExit) - self.frame=frame - wx.Yield() - - def OnExit(self, evt): - self.Hide() - - self.frame.Show() - # The program will freeze without this line. - evt.Skip() # Make sure the default handler runs too... - - -#------------------------------------------------------------------------------ - -def main(): - - #save the directory where Hooke is located - config['hookedir']=os.getcwd() - - #now change to the working directory. - try: - os.chdir(config['workdir']) - except OSError: - print "Warning: Invalid work directory." - - app=wx.PySimpleApp() - - def make_gui_class(*bases): - return type(MainWindow)("MainWindowPlugged", bases + (MainWindow,), {}) - - main_frame = make_gui_class(*GUI_PLUGINS)(None, -1, ('Hooke '+__version__)) - - #FIXME. The frame.Show() is called by the splashscreen here! Ugly as hell. - - mysplash=MySplashScreen(main_frame) - mysplash.Show() - - my_cmdline=CliThread(main_frame, list_of_events) - my_cmdline.start() - - - app.MainLoop() - -main() +#!/usr/bin/env python + +''' +HOOKE - A force spectroscopy review & analysis tool + +(C) 2008 Massimo Sandal + +Copyright (C) 2008 Massimo Sandal (University of Bologna, Italy). + +This program is released under the GNU General Public License version 2. +''' + +from libhooke import HOOKE_VERSION +from libhooke import WX_GOOD + +import os + +import wxversion +wxversion.select(WX_GOOD) +import wx +import wxmpl +from wx.lib.newevent import NewEvent + +import matplotlib.numerix as nx +import scipy as sp + +from threading import * +import Queue + +from hooke_cli import HookeCli +from libhooke import * +import libhookecurve as lhc + +#import file versions, just to know with what we're working... +from hooke_cli import __version__ as hookecli_version + +global __version__ +global events_from_gui +global config +global CLI_PLUGINS +global GUI_PLUGINS +global LOADED_PLUGINS +global PLOTMANIP_PLUGINS +global FILE_DRIVERS + +__version__=HOOKE_VERSION[0] +__release_name__=HOOKE_VERSION[1] + +events_from_gui=Queue.Queue() #GUI ---> CLI COMMUNICATION + +print 'Starting Hooke.' +#CONFIGURATION FILE PARSING +config_obj=HookeConfig() +config=config_obj.load_config('hooke.conf') + +#IMPORTING PLUGINS + +CLI_PLUGINS=[] +GUI_PLUGINS=[] +PLOTMANIP_PLUGINS=[] +LOADED_PLUGINS=[] + +plugin_commands_namespaces=[] +plugin_gui_namespaces=[] +for plugin_name in config['plugins']: + try: + plugin=__import__(plugin_name) + try: + eval('CLI_PLUGINS.append(plugin.'+plugin_name+'Commands)') #take Command plugin classes + plugin_commands_namespaces.append(dir(eval('plugin.'+plugin_name+'Commands'))) + except: + pass + try: + eval('GUI_PLUGINS.append(plugin.'+plugin_name+'Gui)') #take Gui plugin classes + plugin_gui_namespaces.append(dir(eval('plugin.'+plugin_name+'Gui'))) + except: + pass + except ImportError: + print 'Cannot find plugin ',plugin_name + else: + LOADED_PLUGINS.append(plugin_name) + print 'Imported plugin ',plugin_name + +#eliminate names common to all namespaces +for i in range(len(plugin_commands_namespaces)): + plugin_commands_namespaces[i]=[item for item in plugin_commands_namespaces[i] if (item != '__doc__' and item != '__module__' and item != '_plug_init')] +#check for conflicts in namespaces between plugins +#FIXME: only in commands now, because I don't have Gui plugins to check +#FIXME: how to check for plugin-defined variables (self.stuff) ?? +plugin_commands_names=[] +whatplugin_defines=[] +plugin_gui_names=[] +for namespace,plugin_name in zip(plugin_commands_namespaces, config['plugins']): + for item in namespace: + if item in plugin_commands_names: + i=plugin_commands_names.index(item) #we exploit the fact index gives the *first* occurrence of a name... + print 'Error. Plugin ',plugin_name,' defines a function already defined by ',whatplugin_defines[i],'!' + print 'This should not happen. Please disable one or both plugins and contact the plugin authors to solve the conflict.' + print 'Hooke cannot continue.' + exit() + else: + plugin_commands_names.append(item) + whatplugin_defines.append(plugin_name) + + +config['loaded_plugins']=LOADED_PLUGINS #FIXME: kludge -this should be global but not in config! +#IMPORTING DRIVERS +#FIXME: code duplication +FILE_DRIVERS=[] +LOADED_DRIVERS=[] +for driver_name in config['drivers']: + try: + driver=__import__(driver_name) + try: + eval('FILE_DRIVERS.append(driver.'+driver_name+'Driver)') + except: + pass + except ImportError: + print 'Cannot find driver ',driver_name + else: + LOADED_DRIVERS.append(driver_name) + print 'Imported driver ',driver_name +config['loaded_drivers']=LOADED_DRIVERS + +#LIST OF CUSTOM WX EVENTS FOR CLI ---> GUI COMMUNICATION +#FIXME: do they need to be here? +list_of_events={} + +plot_graph, EVT_PLOT = NewEvent() +list_of_events['plot_graph']=plot_graph + +plot_contact, EVT_PLOT_CONTACT = NewEvent() +list_of_events['plot_contact']=plot_contact + +measure_points, EVT_MEASURE_POINTS = NewEvent() +list_of_events['measure_points']=measure_points + +export_image, EVT_EXPORT_IMAGE = NewEvent() +list_of_events['export_image']=export_image + +close_plot, EVT_CLOSE_PLOT = NewEvent() +list_of_events['close_plot'] = close_plot + +show_plots, EVT_SHOW_PLOTS = NewEvent() +list_of_events['show_plots'] = show_plots + +get_displayed_plot, EVT_GET_DISPLAYED_PLOT = NewEvent() +list_of_events['get_displayed_plot'] = get_displayed_plot +#------------ + +class CliThread(Thread): + + def __init__(self,frame,list_of_events): + Thread.__init__(self) + + #here we have to put temporary references to pass to the cli object. + self.frame=frame + self.list_of_events=list_of_events + + self.debug=0 #to be used in the future + + def run(self): + print '\n\nThis is Hooke, version',__version__ , __release_name__ + print + print '(c) Massimo Sandal & others, 2006-2008. Released under the GNU Lesser General Public License Version 3' + print 'Hooke is Free software.' + print '----' + print '' + + def make_command_class(*bases): + #FIXME: perhaps redundant + return type(HookeCli)("HookeCliPlugged", bases + (HookeCli,), {}) + cli = make_command_class(*CLI_PLUGINS)(self.frame,self.list_of_events,events_from_gui,config,FILE_DRIVERS) + cli.cmdloop() + +''' +GUI CODE + +FIXME: put it in a separate module in the future? +''' +class MainMenuBar(wx.MenuBar): + ''' + Creates the menu bar + ''' + def __init__(self): + wx.MenuBar.__init__(self) + '''the menu description. the key of the menu is XX&Menu, where XX is a number telling + the order of the menus on the menubar. + &Menu is the Menu text + the corresponding argument is ('&Item', 'itemname'), where &Item is the item text and itemname + the inner reference to use in the self.menu_items dictionary. + + See create_menus() to see how it works + + Note: the mechanism on page 124 of "wxPython in Action" is less awkward, maybe, but I want + binding to be performed later. Perhaps I'm wrong :) + ''' + + self.menu_desc={'00&File':[('&Open playlist','openplaymenu'),('&Exit','exitmenu')], + '01&Edit':[('&Export text...','exporttextmenu'),('&Export image...','exportimagemenu')], + '02&Help':[('&About Hooke','aboutmenu')]} + self.create_menus() + + def create_menus(self): + ''' + Smartish routine to create the menu from the self.menu_desc dictionary + Hope it's a workable solution for the future. + ''' + self.menus=[] #the menu objects to append to the menubar + self.menu_items={} #the single menu items dictionary, to bind to events + + names=self.menu_desc.keys() #we gotta sort, because iterating keys goes in odd order + names.sort() + + for name in names: + self.menus.append(wx.Menu()) + for menu_item in self.menu_desc[name]: + self.menu_items[menu_item[1]]=self.menus[-1].Append(-1, menu_item[0]) + + for menu,name in zip(self.menus,names): + self.Append(menu,name[2:]) + +class MainPanel(wx.Panel): + def __init__(self,parent,id): + + wx.Panel.__init__(self,parent,id) + self.splitter = wx.SplitterWindow(self) + +ID_FRAME=100 +class MainWindow(wx.Frame): + '''we make a frame inheriting wx.Frame and setting up things on the init''' + def __init__(self,parent,id,title): + + #----------------------------- + #WX WIDGETS INITIALIZATION + + wx.Frame.__init__(self,parent,ID_FRAME,title,size=(800,600),style=wx.DEFAULT_FRAME_STYLE|wx.NO_FULL_REPAINT_ON_RESIZE) + + self.mainpanel=MainPanel(self,-1) + self.cpanels=[] + + self.cpanels.append(wx.Panel(self.mainpanel.splitter,-1)) + self.cpanels.append(wx.Panel(self.mainpanel.splitter,-1)) + + self.statusbar=wx.StatusBar(self,-1) + self.SetStatusBar(self.statusbar) + + self.mainmenubar=MainMenuBar() + self.SetMenuBar(self.mainmenubar) + + self.controls=[] + self.figures=[] + self.axes=[] + + #This is our matplotlib plot + self.controls.append(wxmpl.PlotPanel(self.cpanels[0],-1)) + self.controls.append(wxmpl.PlotPanel(self.cpanels[1],-1)) + #These are our figure and axes, so to have easy references + #Also, we initialize + self.figures=[control.get_figure() for control in self.controls] + self.axes=[figure.gca() for figure in self.figures] + + self.cpanels[1].Hide() + self.mainpanel.splitter.Initialize(self.cpanels[0]) + + self.sizer_dance() #place/size the widgets + + self.controls[0].SetSize(self.cpanels[0].GetSize()) + self.controls[1].SetSize(self.cpanels[1].GetSize()) + + #resize the frame to properly draw on Windows + frameSize=self.GetSize() + frameSize.DecBy(1, 1) + self.SetSize(frameSize) + ''' + #if you need the exact same size as before DecBy, uncomment this block + frameSize.IncBy(1, 1) + self.SetSize(frameSize) + ''' + + #------------------------------------------- + #NON-WX WIDGETS INITIALIZATION + + #Flags. + self.click_plot=0 + + #FIXME: These could become a single flag with different (string?) values + #self.on_measure_distance=False + #self.on_measure_force=False + + self.plot_fit=False + + #Number of points to be clicked + self.num_of_points = 2 + + #Data. + ''' + self.current_x_ext=[[],[]] + self.current_y_ext=[[],[]] + self.current_x_ret=[[],[]] + self.current_y_ret=[[],[]] + + + self.current_x_unit=[None,None] + self.current_y_unit=[None,None] + ''' + + #Initialize xaxes, yaxes + #FIXME: should come from config + self.current_xaxes=0 + self.current_yaxes=0 + + #Other + + + self.index_buffer=[] + + self.clicked_points=[] + + self.measure_set=None + + self.events_from_gui = events_from_gui + + ''' + This dictionary keeps all the flags and the relative functon names that + have to be called when a point is clicked. + That is: + - if point is clicked AND foo_flag=True + - foo() + + Conversely, foo_flag is True if a corresponding event is launched by the CLI. + + self.ClickedPoints() takes care of handling this + ''' + + self.click_flags_functions={'measure_points':[False, 'MeasurePoints']} + + #Binding of custom events from CLI --> GUI functions! + #FIXME: Should use the self.Bind() syntax + EVT_PLOT(self, self.PlotCurve) + EVT_PLOT_CONTACT(self, self.PlotContact) + EVT_GET_DISPLAYED_PLOT(self, self.OnGetDisplayedPlot) + EVT_MEASURE_POINTS(self, self.OnMeasurePoints) + EVT_EXPORT_IMAGE(self,self.ExportImage) + EVT_CLOSE_PLOT(self, self.OnClosePlot) + EVT_SHOW_PLOTS(self, self.OnShowPlots) + + #This event and control decide what happens when I click on the plot 0. + wxmpl.EVT_POINT(self, self.controls[0].GetId(), self.ClickPoint0) + wxmpl.EVT_POINT(self, self.controls[1].GetId(), self.ClickPoint1) + + #RUN PLUGIN-SPECIFIC INITIALIZATION + #make sure we execute _plug_init() for every command line plugin we import + for plugin_name in config['plugins']: + try: + plugin=__import__(plugin_name) + try: + eval('plugin.'+plugin_name+'Gui._plug_init(self)') + pass + except AttributeError: + pass + except ImportError: + pass + + + + #WX-SPECIFIC FUNCTIONS + def sizer_dance(self): + ''' + adjust size and placement of wxpython widgets. + ''' + self.splittersizer = wx.BoxSizer(wx.VERTICAL) + self.splittersizer.Add(self.mainpanel.splitter, 1, wx.EXPAND) + + self.plot1sizer = wx.BoxSizer() + self.plot1sizer.Add(self.controls[0], 1, wx.EXPAND) + + self.plot2sizer = wx.BoxSizer() + self.plot2sizer.Add(self.controls[1], 1, wx.EXPAND) + + self.panelsizer=wx.BoxSizer() + self.panelsizer.Add(self.mainpanel, -1, wx.EXPAND) + + self.cpanels[0].SetSizer(self.plot1sizer) + self.cpanels[1].SetSizer(self.plot2sizer) + + self.mainpanel.SetSizer(self.splittersizer) + self.SetSizer(self.panelsizer) + + def binding_dance(self): + self.Bind(wx.EVT_MENU, self.OnOpenPlayMenu, self.menubar.menu_items['openplaymenu']) + self.Bind(wx.EVT_MENU, self.OnExitMenu, self.menubar.menu_items['exitmenu']) + self.Bind(wx.EVT_MENU, self.OnExportText, self.menubar.menu_items['exporttextmenu']) + self.Bind(wx.EVT_MENU, self.OnExportImage, self.menubar.menu_items['exportimagemenu']) + self.Bind(wx.EVT_MENU, self.OnAboutMenu, self.menubar.menu_items['aboutmenu']) + + # DOUBLE PLOT MANAGEMENT + #---------------------- + def show_both(self): + ''' + Shows both plots. + ''' + self.mainpanel.splitter.SplitHorizontally(self.cpanels[0],self.cpanels[1]) + self.mainpanel.splitter.SetSashGravity(0.5) + self.mainpanel.splitter.SetSashPosition(300) #FIXME: we should get it and restore it + self.mainpanel.splitter.UpdateSize() + + def close_plot(self,plot): + ''' + Closes one plot - only if it's open + ''' + if not self.cpanels[plot].IsShown(): + return + if plot != 0: + self.current_plot_dest = 0 + else: + self.current_plot_dest = 1 + self.cpanels[plot].Hide() + self.mainpanel.splitter.Unsplit(self.cpanels[plot]) + self.mainpanel.splitter.UpdateSize() + + + def OnClosePlot(self,event): + self.close_plot(event.to_close) + + def OnShowPlots(self,event): + self.show_both() + + + #FILE MENU FUNCTIONS + #-------------------- + def OnOpenPlayMenu(self, event): + pass + + def OnExitMenu(self,event): + pass + + def OnExportText(self,event): + pass + + def OnExportImage(self,event): + pass + + def OnAboutMenu(self,event): + pass + + #PLOT INTERACTION + #---------------- + def PlotCurve(self,event): + ''' + plots the current ext,ret curve. + ''' + dest=0 + + #FIXME: BAD kludge following. There should be a well made plot queue mechanism, with replacements etc. + #--- + #If we have only one plot in the event, we already have one in self.plots and this is a secondary plot, + #do not erase self.plots but append the new plot to it. + if len(event.plots) == 1 and event.plots[0].destination != 0 and len(self.plots) == 1: + self.plots.append(event.plots[0]) + #if we already have two plots and a new secondary plot comes, we substitute the previous + if len(event.plots) == 1 and event.plots[0].destination != 0 and len(self.plots) > 1: + self.plots[1] = event.plots[0] + else: + self.plots = event.plots + + #FIXME. Should be in PlotObject, somehow + c=0 + for plot in self.plots: + if self.plots[c].styles==[]: + self.plots[c].styles=[None for item in plot.vectors] + if self.plots[c].colors==[]: + self.plots[c].colors=[None for item in plot.vectors] + + for plot in self.plots: + ''' + MAIN LOOP FOR ALL PLOTS (now only 2 are allowed but...) + ''' + if 'destination' in dir(plot): + dest=plot.destination + + #if the requested panel is not shown, show it + if not ( self.cpanels[dest].IsShown() ): + self.show_both() + + self.axes[dest].hold(False) + self.current_vectors=plot.vectors + self.current_title=plot.title + self.current_plot_dest=dest #let's try this way to take into account the destination plot... + + c=0 + + if len(plot.colors)==0: + plot.colors=[None] * len(plot.vectors) + if len(plot.styles)==0: + plot.styles=[None] * len(plot.vectors) + + for vectors_to_plot in self.current_vectors: + if plot.styles[c]=='scatter': + if plot.colors[c]==None: + self.axes[dest].scatter(vectors_to_plot[0], vectors_to_plot[1]) + else: + self.axes[dest].scatter(vectors_to_plot[0], vectors_to_plot[1],color=plot.colors[c]) + else: + if plot.colors[c]==None: + self.axes[dest].plot(vectors_to_plot[0], vectors_to_plot[1]) + else: + self.axes[dest].plot(vectors_to_plot[0], vectors_to_plot[1], color=plot.colors[c]) + self.axes[dest].hold(True) + c+=1 + + ''' + for vectors_to_plot in self.current_vectors: + if len(vectors_to_plot)==2: #3d plots are to come... + if len(plot.styles) > 0 and plot.styles[c] == 'scatter': + self.axes[dest].scatter(vectors_to_plot[0],vectors_to_plot[1]) + elif len(plot.styles) > 0 and plot.styles[c] == 'scatter_red': + self.axes[dest].scatter(vectors_to_plot[0],vectors_to_plot[1],color='red') + else: + self.axes[dest].plot(vectors_to_plot[0],vectors_to_plot[1]) + + self.axes[dest].hold(True) + c+=1 + else: + pass + ''' + #FIXME: tackles only 2d plots + self.axes[dest].set_xlabel(plot.units[0]) + self.axes[dest].set_ylabel(plot.units[1]) + + #FIXME: set smaller fonts + self.axes[dest].set_title(plot.title) + + if plot.xaxes: + #swap X axis + xlim=self.axes[dest].get_xlim() + self.axes[dest].set_xlim((xlim[1],xlim[0])) + if plot.yaxes: + #swap Y axis + ylim=self.axes[dest].get_ylim() + self.axes[dest].set_ylim((ylim[1],ylim[0])) + + self.controls[dest].draw() + + + def PlotContact(self,event): + ''' + plots the contact point + DEPRECATED! + ''' + self.axes[0].hold(True) + self.current_contact_index=event.contact_index + + #now we fake a clicked point + self.clicked_points.append(ClickedPoint()) + self.clicked_points[-1].absolute_coords=self.current_x_ret[dest][self.current_contact_index], self.current_y_ret[dest][self.current_contact_index] + self.clicked_points[-1].is_marker=True + + self._replot() + self.clicked_points=[] + + def OnMeasurePoints(self,event): + ''' + trigger flags to measure N points + ''' + self.click_flags_functions['measure_points'][0]=True + if 'num_of_points' in dir(event): + self.num_of_points=event.num_of_points + if 'set' in dir(event): + self.measure_set=event.set + + def ClickPoint0(self,event): + self.current_plot_dest=0 + self.ClickPoint(event) + def ClickPoint1(self,event): + self.current_plot_dest=1 + self.ClickPoint(event) + + def ClickPoint(self,event): + ''' + this function decides what to do when we receive a left click on the axes. + We trigger other functions: + - the action chosen by the CLI sends an event + - the event raises a flag : self.click_flags_functions['foo'][0] + - the raised flag wants the function in self.click_flags_functions[1] to be called after a click + ''' + for key, value in self.click_flags_functions.items(): + if value[0]: + eval('self.'+value[1]+'(event)') + + + + def MeasurePoints(self,event,current_set=1): + dest=self.current_plot_dest + try: + current_set=self.measure_set + except AttributeError: + pass + + #find the current plot matching the clicked destination + plot=self._plot_of_dest() + if len(plot.vectors)-1 < current_set: #what happens if current_set is 1 and we have only 1 vector? + current_set=current_set-len(plot.vectors) + + xvector=plot.vectors[current_set][0] + yvector=plot.vectors[current_set][1] + + self.clicked_points.append(ClickedPoint()) + self.clicked_points[-1].absolute_coords=event.xdata, event.ydata + self.clicked_points[-1].find_graph_coords(xvector,yvector) + self.clicked_points[-1].is_marker=True + self.clicked_points[-1].is_line_edge=True + self.clicked_points[-1].dest=dest + + self._replot() + + if len(self.clicked_points)==self.num_of_points: + self.events_from_gui.put(self.clicked_points) + #restore to default state: + self.clicked_points=[] + self.click_flags_functions['measure_points'][0]=False + + + def OnGetDisplayedPlot(self,event): + if 'dest' in dir(event): + self.GetDisplayedPlot(event.dest) + else: + self.GetDisplayedPlot(self.current_plot_dest) + + def GetDisplayedPlot(self,dest): + ''' + returns to the CLI the currently displayed plot for the given destination + ''' + displayed_plot=self._plot_of_dest(dest) + events_from_gui.put(displayed_plot) + + def ExportImage(self,event): + ''' + exports an image as a file. + Current supported file formats: png, eps + (matplotlib docs say that jpeg should be supported too, but with .jpg it doesn't work for me!) + ''' + #dest=self.current_plot_dest + dest=event.dest + filename=event.name + self.figures[dest].savefig(filename) + + ''' + def _find_nearest_point(self, mypoint, dataset=1): + + #Given a clicked point on the plot, finds the nearest point in the dataset (in X) that + #corresponds to the clicked point. + + dest=self.current_plot_dest + + xvector=plot.vectors[dataset][0] + yvector=plot.vectors[dataset][1] + + #Ye Olde sorting algorithm... + #FIXME: is there a better solution? + index=0 + best_index=0 + best_diff=10^9 #hope we never go over this magic number :( + for point in xvector: + diff=abs(point-mypoint) + if diff 0 and plot.styles[c]=='scatter': + self.axes[dest].scatter(plotset[0], plotset[1],color=plot.colors[c]) + elif len(plot.styles) > 0 and plot.styles[c] == 'scatter_red': + self.axes[dest].scatter(plotset[0],plotset[1],color='red') + else: + self.axes[dest].plot(plotset[0], plotset[1]) + ''' + c+=1 + #plot points we have clicked + for item in self.clicked_points: + if item.is_marker: + if item.graph_coords==(None,None): #if we have no graph coords, we display absolute coords + self.axes[dest].scatter([item.absolute_coords[0]],[item.absolute_coords[1]]) + else: + self.axes[dest].scatter([item.graph_coords[0]],[item.graph_coords[1]]) + + if self.plot_fit: + print 'DEBUGGING WARNING: use of self.plot_fit is deprecated!' + self.axes[dest].plot(self.plot_fit[0],self.plot_fit[1]) + + self.axes[dest].hold(True) + #set old axes again + self.axes[dest].set_xlim(xlim) + self.axes[dest].set_ylim(ylim) + #set title and names again... + self.axes[dest].set_title(self.current_title) + self.axes[dest].set_xlabel(plot.units[0]) + self.axes[dest].set_ylabel(plot.units[1]) + #and redraw! + self.controls[dest].draw() + + +class MySplashScreen(wx.SplashScreen): + """ + Create a splash screen widget. + That's just a fancy addition... every serious application has a splash screen! + """ + def __init__(self, frame): + # This is a recipe to a the screen. + # Modify the following variables as necessary. + #aBitmap = wx.Image(name = "wxPyWiki.jpg").ConvertToBitmap() + aBitmap=wx.Image(name='hooke.jpg').ConvertToBitmap() + splashStyle = wx.SPLASH_CENTRE_ON_SCREEN | wx.SPLASH_TIMEOUT + splashDuration = 2000 # milliseconds + splashCallback = None + # Call the constructor with the above arguments in exactly the + # following order. + wx.SplashScreen.__init__(self, aBitmap, splashStyle, + splashDuration, None, -1) + wx.EVT_CLOSE(self, self.OnExit) + self.frame=frame + wx.Yield() + + def OnExit(self, evt): + self.Hide() + + self.frame.Show() + # The program will freeze without this line. + evt.Skip() # Make sure the default handler runs too... + + +#------------------------------------------------------------------------------ + +def main(): + + #save the directory where Hooke is located + config['hookedir']=os.getcwd() + + #now change to the working directory. + try: + os.chdir(config['workdir']) + except OSError: + print "Warning: Invalid work directory." + + app=wx.PySimpleApp() + + def make_gui_class(*bases): + return type(MainWindow)("MainWindowPlugged", bases + (MainWindow,), {}) + + main_frame = make_gui_class(*GUI_PLUGINS)(None, -1, ('Hooke '+__version__)) + + #FIXME. The frame.Show() is called by the splashscreen here! Ugly as hell. + + mysplash=MySplashScreen(main_frame) + mysplash.Show() + + my_cmdline=CliThread(main_frame, list_of_events) + my_cmdline.start() + + + app.MainLoop() + +main() diff --git a/hooke_cli.py b/hooke_cli.py index 0d38042..4746ca5 100755 --- a/hooke_cli.py +++ b/hooke_cli.py @@ -305,7 +305,8 @@ Syntax: genlist [input files] self.current_list=[] for item in list_files: try: - self.current_list.append(lhc.HookeCurve(os.path.abspath(item))) + if os.path.isfile(item): + self.current_list.append(lhc.HookeCurve(os.path.abspath(item))) except: pass