def __init__(self, eegplot, packstart=None, packend=None): gtk.Window.__init__(self) Observer.__init__(self) self.set_size_request(*self._size) self.eegplot = eegplot self.eeg = eegplot.get_eeg() self.eoi = eegplot.get_eoi() self._filterButter = Filter(self) self._filter = FilterBase() # no filtering self._filterGM = self.eegplot.filterGM vbox = gtk.VBox() vbox.show() vbox.set_spacing(3) self.add(vbox) if packstart is not None: for w, expand, fill in packstart: vbox.pack_start(w, expand, fill) self.fig = Figure() self.axes = self.fig.add_subplot(111) self.canvas = FigureCanvas(self.fig) # a gtk.DrawingArea self.canvas.set_size_request(0,0) self.canvas.show() vbox.pack_start(self.canvas, True, True) if packend is not None: for w, expand, fill in packend: vbox.pack_start(w, expand, fill) self.toolbar = self.make_toolbar() self.toolbar.show() vbox.pack_end(self.toolbar, False, False) self.set_title(self._title) self.set_border_width(10) def remove(*args): Observer.observers.remove(self) self.connect('delete-event', remove) self._init() # last call before make_plot self.make_plot() #last line!
def __init__(self, eegplot): gtk.Window.__init__(self) Observer.__init__(self) self.set_size_request(300, 300) self.eegplot = eegplot self.eeg = eegplot.get_eeg() self.eoi = eegplot.get_eoi() vbox = gtk.VBox() vbox.show() vbox.set_spacing(3) self.add(vbox) #print "EmbedWin.__init__(): making GLExtVTKRenderWindowInteractor" interactor = GtkGLExtVTKRenderWindowInteractor() vbox.pack_start(interactor, True, True) toolbar = self.make_toolbar() toolbar.show() vbox.pack_start(toolbar, False, False) #print "EmbedWin.__init__(): to interactor: show(), Initialize(), Start(), AddObserver('ExitEvent', ...)" interactor.show() interactor.Initialize() interactor.Start() interactor.AddObserver("ExitEvent", lambda o,e,x=None: x) self.renderer = vtk.vtkRenderer() #print "EmbedWin.__init__(): " interactor.GetRenderWindow().AddRenderer(self.renderer) self.interactor = interactor self.set_title("Embedding Window") self.set_border_width(10) self.scatterActor = None self.make_embed() #last line!
def __init__(self, eegplot): gtk.Window.__init__(self) Observer.__init__(self) self.set_size_request(300, 300) self.eegplot = eegplot self.eeg = eegplot.get_eeg() self.eoi = eegplot.get_eoi() vbox = gtk.VBox() vbox.show() vbox.set_spacing(3) self.add(vbox) #print "EmbedWin.__init__(): making GLExtVTKRenderWindowInteractor" interactor = GtkGLExtVTKRenderWindowInteractor() vbox.pack_start(interactor, True, True) toolbar = self.make_toolbar() toolbar.show() vbox.pack_start(toolbar, False, False) #print "EmbedWin.__init__(): to interactor: show(), Initialize(), Start(), AddObserver('ExitEvent', ...)" interactor.show() interactor.Initialize() interactor.Start() interactor.AddObserver("ExitEvent", lambda o, e, x=None: x) self.renderer = vtk.vtkRenderer() #print "EmbedWin.__init__(): " interactor.GetRenderWindow().AddRenderer(self.renderer) self.interactor = interactor self.set_title("Embedding Window") self.set_border_width(10) self.scatterActor = None self.make_embed() #last line!
def __init__(self, eoi, freq, t, data, trial_length, offset, window_length): gtk.Window.__init__(self) Observer.__init__(self) self.choose_file() self.channels = eoi self.selected_channels = [] # wavelets is a dict from name to np array self.wavelets = {} self.selected_wavelets = [] self.eegfreq = freq self.t = t # an array of ms exactly indexed into self.data[0] self.trial_length = trial_length self.offset = offset print t print data.shape print self.channels self.data = data self.fig = Figure(figsize=(15, 15), dpi=72) self.canvas = FigureCanvas(self.fig) # a gtk.DrawingArea self.canvas.show() self.resize(700, 512) self.set_title('Wavelet Runner') vbox = gtk.VBox() vbox.show() self.add(vbox) buttonChans = gtk.Button("Chans") buttonChans.show() buttonChans.connect('clicked', self.load_chans) buttonWB = gtk.Button("Wavelet Toolbox") buttonWB.show() buttonWB.connect('clicked', self.load_wavelets) buttonPlot = gtk.Button(stock=gtk.STOCK_EXECUTE) buttonPlot.show() buttonPlot.connect('clicked', self.execute) lwindow = gtk.Label() lwindow.set_text("window in ms") lwindow.show() self.window_length_entry = gtk.Entry() self.window_length_entry.set_text( str((window_length / float(self.eegfreq)) * 1000)) self.window_length_entry.show() lmod = gtk.Label() lmod.set_text("modval") lmod.show() self.modval_entry = gtk.Entry() self.modval_entry.set_text('7.0') self.modval_entry.show() hbox = gtk.HBox() hbox.show() hbox.set_spacing(3) vbox.pack_start(hbox, False, False) hbox.pack_start(buttonChans, False, False) hbox.pack_start(buttonWB, False, False) hbox.pack_start(buttonPlot, False, False) hbox.pack_start(lwindow, False, False) hbox.pack_start(self.window_length_entry, False, False) hbox.pack_start(lmod, False, False) hbox.pack_start(self.modval_entry, False, False) self.statBar = gtk.Label() self.statBar.set_alignment(0, 0) self.statBar.show() self.progBar = gtk.ProgressBar() self.progBar.set_orientation(0) # bottom-to-top self.progBar.set_fraction(0) self.progBar.show() vbox.pack_start(self.canvas, True, True) vbox.pack_start(self.statBar, False, False) vbox.pack_start(self.progBar, False, False)
def __init__(self, gridManager, X, channels, amp, addview3, view3, start_time=None, end_time=None): ScalarMapper.__init__(self, gridManager) gtk.Window.__init__(self) Observer.__init__(self) self.resize(512, 570) self.set_title('Array data') self.view3 = view3 self.addview3 = addview3 self.channels = channels self.amp = amp self.trodes = [(gname, gnum) for cnum, gname, gnum in amp] self.X = X self.ax = None self.numChannels, self.numSamples = X.shape self.addview3destroy = False self.time_in_secs = False self.start_time = None self.end_time = None if ((start_time != None) & (end_time != None)): self.time_in_secs = True self.start_time = start_time self.end_time = end_time vbox = gtk.VBox() vbox.show() self.add(vbox) self.fig = self.make_fig(start_time, end_time) if self.addview3: button = gtk.Button('Remove from View3') button.show() #button.set_active(False) vbox.pack_start(button, False, False) button.connect('clicked', self.view3_remove) if self.addview3destroy == False: self.broadcast(Observer.ARRAY_CREATED, self.fig, True, False) self.addview3Button = button self.canvas = FigureCanvas(self.fig) # a gtk.DrawingArea self.canvas.show() vbox.pack_start(self.canvas, True, True) hbox = gtk.HBox() hbox.show() vbox.pack_start(hbox, False, False) label = gtk.Label('Sample num') label.show() hbox.pack_start(label, False, False) scrollbar = gtk.HScrollbar() scrollbar.show() hbox.pack_start(scrollbar, True, True) if (self.time_in_secs == True): scrollbar.set_range(start_time, end_time) #scrollbar.set_increments(1,1) print "set_increments(%f, %f)" % ( (end_time - start_time) / float(self.numSamples), (end_time - start_time) / float(self.numSamples)) scrollbar.set_increments( (end_time - start_time) / float(self.numSamples), (end_time - start_time) / float(self.numSamples)) scrollbar.set_value(start_time + (end_time - start_time) / 2.0) else: scrollbar.set_range(0, self.numSamples - 1) scrollbar.set_increments(1, 1) scrollbar.set_value(self.numSamples / 2.0) scrollbar.connect('value_changed', self.set_sample_num) self.scrollbarIndex = scrollbar self.numlabel = gtk.Label(str(scrollbar.get_value())) self.numlabel.show() hbox.pack_start(self.numlabel, False, False) hbox2 = gtk.HBox() hbox2.show() toolbar = NavigationToolbar(self.canvas, self) toolbar.show() hbox2.pack_start(toolbar, True, True) button = gtk.Button('Coh. Here') button.show() hbox2.pack_start(button, False, False) button.connect('clicked', self.coh_here) vbox.pack_start(hbox2, False, False) self.set_sample_num(scrollbar) self.connect("destroy", self.on_destroy)
def __init__(self, gridManager, X, channels, amp, addview3, view3, start_time=None, end_time=None): ScalarMapper.__init__(self, gridManager) gtk.Window.__init__(self) Observer.__init__(self) self.resize(512,570) self.set_title('Array data') self.view3 = view3 self.addview3 = addview3 self.channels = channels self.amp = amp self.trodes = [(gname, gnum) for cnum, gname, gnum in amp] self.X = X self.ax = None self.numChannels, self.numSamples = X.shape self.addview3destroy = False self.time_in_secs = False self.start_time = None self.end_time = None if ((start_time != None) & (end_time != None)) : self.time_in_secs = True self.start_time = start_time self.end_time = end_time vbox = gtk.VBox() vbox.show() self.add(vbox) self.fig = self.make_fig(start_time, end_time) if self.addview3: button = gtk.Button('Remove from View3') button.show() #button.set_active(False) vbox.pack_start(button, False, False) button.connect('clicked', self.view3_remove) if self.addview3destroy == False: self.broadcast(Observer.ARRAY_CREATED, self.fig, True, False) self.addview3Button = button self.canvas = FigureCanvas(self.fig) # a gtk.DrawingArea self.canvas.show() vbox.pack_start(self.canvas, True, True) hbox = gtk.HBox() hbox.show() vbox.pack_start(hbox, False, False) label = gtk.Label('Sample num') label.show() hbox.pack_start(label, False, False) scrollbar = gtk.HScrollbar() scrollbar.show() hbox.pack_start(scrollbar, True, True) if (self.time_in_secs == True): scrollbar.set_range(start_time, end_time) #scrollbar.set_increments(1,1) print "set_increments(%f, %f)" % ((end_time-start_time)/float(self.numSamples), (end_time-start_time)/float(self.numSamples)) scrollbar.set_increments((end_time-start_time)/float(self.numSamples), (end_time-start_time)/float(self.numSamples)) scrollbar.set_value(start_time + (end_time-start_time)/2.0) else: scrollbar.set_range(0, self.numSamples-1) scrollbar.set_increments(1,1) scrollbar.set_value(self.numSamples/2.0) scrollbar.connect('value_changed', self.set_sample_num) self.scrollbarIndex = scrollbar self.numlabel = gtk.Label(str(scrollbar.get_value())) self.numlabel.show() hbox.pack_start(self.numlabel,False, False) hbox2 = gtk.HBox() hbox2.show() toolbar = NavigationToolbar(self.canvas, self) toolbar.show() hbox2.pack_start(toolbar, True, True) button = gtk.Button('Coh. Here') button.show() hbox2.pack_start(button, False, False) button.connect('clicked', self.coh_here) vbox.pack_start(hbox2, False, False) self.set_sample_num(scrollbar) self.connect("destroy", self.on_destroy)
def __init__(self): Observer.__init__(self)