def __init__(self, trees, root=None): if len(trees) == 0: print "No trees to display." return newroot = False if root is None: root = Tkinter.Tk() window = root newroot = True else: window = Tkinter.Toplevel(root) window.title("Parse Tree") window.geometry("600x400") self.cf = CanvasFrame(window) self.cf.pack(side='top', expand=1, fill='both') buttons = Tkinter.Frame(window) buttons.pack(side='bottom', fill='x') self.spin = Tkinter.Spinbox(buttons, from_=1, to=len(trees), command=self.showtree, width=3) if len(trees) > 1: self.spin.pack(side='left') self.label = Tkinter.Label(buttons, text="of %d" % len(trees)) if len(trees) > 1: self.label.pack(side='left') self.done = Tkinter.Button(buttons, text="Done", command=window.destroy) self.done.pack(side='right') self.printps = Tkinter.Button(buttons, text="Print to Postscript", command=self.cf.print_to_file) self.printps.pack(side='right') self.trees = trees self.treeWidget = None self.showtree() if newroot: root.mainloop()
def __init__(self, root, rli): CanvasFrame.__init__(self, root) self.rli = rli self.view_index = self.index = 0 self.text = '' self.parses = [] self.frames = [] self.models = [] self.result = self.index = 0 self.actionCond = '' self.viewDesc = '' self.director = None self.StartPlace = None self.DestPlace = None self.instructionSet = None self.model_change = True self.stages = { 'Reading': 'text', 'Parsing': 'parses', 'Framing': 'frames', 'Modeling': 'models', 'Executing': 'result', 'CompoundAction': 'actionCond', 'Recognize': 'viewDesc', 'Director': 'director', 'Start Place': 'StartPlace', 'Destination': 'DestPlace', 'Set': 'instructionSet', } labelKW = {'color': 'blue', 'font': ('times', -15, 'bold')} self.sentenceStack = TextStack(self, 'Sentences', **labelKW) self.frame = LabeledStructure(self, 'Frame', FVM, 'set_fvm', FeatureStructure(none=0), self, 'frames', **labelKW) self.frame.widget._topwidget = '' self.model = LabeledStructure(self, 'Model', TextWidget, 'set_text', 'None', self, 'models', **labelKW) self.children = [self.sentenceStack, self.frame, self.model] self.lingStack = StackWidget(self._canvas, align='left', ordered=True, *self.children) self.add_widget(self.lingStack)
def _init_canvas(self, parent): self._cframe = CanvasFrame(parent, background='white', #width=525, height=250, closeenough=10, border=2, relief='sunken') self._cframe.pack(expand=1, fill='both', side='top', pady=2) canvas = self._canvas = self._cframe.canvas() # Initially, there's no tree or text self._tree = None self._textwidgets = [] self._textline = None
class TreeView: def __init__(self, trees, root=None): newroot = False if root is None: root = Tkinter.Tk() window = root newroot = True else: window = Tkinter.Toplevel(root) window.title("Parse Tree") window.geometry("600x400") self.cf = CanvasFrame(window) self.cf.pack(side='top', expand=1, fill='both') buttons = Tkinter.Frame(window) buttons.pack(side='bottom', fill='x') self.spin = Tkinter.Spinbox(buttons, from_=1, to=len(trees), command=self.showtree, width=3) if len(trees) > 1: self.spin.pack(side='left') self.label = Tkinter.Label(buttons, text="of %d" % len(trees)) if len(trees) > 1: self.label.pack(side='left') self.done = Tkinter.Button(buttons, text="Done", command=window.destroy) self.done.pack(side='right') self.printps = Tkinter.Button(buttons, text="Print to Postscript", command=self.cf.print_to_file) self.printps.pack(side='right') self.trees = trees self.treeWidget = None self.showtree() if newroot: root.mainloop() def showtree(self): try: n = int(self.spin.get()) except ValueError: n = 1 if self.treeWidget is not None: self.cf.destroy_widget(self.treeWidget) self.treeWidget = drawTree.TreeWidget(self.cf.canvas(), self.trees[n - 1], draggable=1, shapeable=1) self.cf.add_widget(self.treeWidget, 0, 0)
def __init__(self, *trees): from nltk.draw import CanvasFrame from math import sqrt, ceil self._trees = trees self._top = Tk() self._top.title('NLTK') self._top.bind('<Control-x>', self.destroy) self._top.bind('<Control-q>', self.destroy) cf = self._cframe = CanvasFrame(self._top) self._top.bind('<Control-p>', self._cframe.print_to_file) # Size is variable. self._size = IntVar(self._top) self._size.set(12) bold = ('helvetica', -self._size.get(), 'bold') helv = ('helvetica', -self._size.get()) # Lay the trees out in a square. self._width = int(ceil(sqrt(len(trees)))) self._widgets = [] for i in range(len(trees)): widget = TreeWidget(cf.canvas(), trees[i], node_font=bold, leaf_color='#008040', node_color='#004080', roof_color='#004040', roof_fill='white', line_color='#004040', draggable=1, leaf_font=helv) widget.bind_click_trees(widget.toggle_collapsed) self._widgets.append(widget) cf.add_widget(widget, 0, 0) self._layout() self._cframe.pack(expand=1, fill='both') self._init_menubar()
class TreeView: def __init__(self, trees, root=None): newroot = False if root is None: root = Tkinter.Tk() window = root newroot = True else: window = Tkinter.Toplevel(root) window.title("Parse Tree") window.geometry("600x400") self.cf = CanvasFrame(window) self.cf.pack(side='top', expand=1, fill='both') buttons = Tkinter.Frame(window) buttons.pack(side='bottom', fill='x') self.spin = Tkinter.Spinbox(buttons, from_=1, to=len(trees), command=self.showtree, width=3) if len(trees) > 1: self.spin.pack(side='left') self.label = Tkinter.Label(buttons, text="of %d" % len(trees)) if len(trees) > 1: self.label.pack(side='left') self.done = Tkinter.Button(buttons, text="Done", command=window.destroy) self.done.pack(side='right') self.printps = Tkinter.Button(buttons, text="Print to Postscript", command=self.cf.print_to_file) self.printps.pack(side='right') self.trees = trees self.treeWidget = None self.showtree() if newroot: root.mainloop() def showtree(self): try: n = int(self.spin.get()) except ValueError: n=1 if self.treeWidget is not None: self.cf.destroy_widget(self.treeWidget) self.treeWidget = drawTree.TreeWidget(self.cf.canvas(), self.trees[n-1], draggable=1, shapeable=1) self.cf.add_widget(self.treeWidget, 0, 0)
@rtype: None """ TreeView(*trees).mainloop() return ##////////////////////////////////////////////////////// ## Demo Code ##////////////////////////////////////////////////////// import random if __name__ == '__main__': def fill(cw): cw['fill'] = '#%06d' % random.randint(0,999999) cf = CanvasFrame(width=550, height=450, closeenough=2) tree = Tree.parse(''' (S (NP the very big cat) (VP (Adv sorta) (V saw) (NP (Det the) (N dog)))) ''', leafparser = lambda t: Token(TEXT=t)) tc = TreeWidget(cf.canvas(), tree, draggable=1, node_font=('helvetica', -14, 'bold'), leaf_font=('helvetica', -12, 'italic'), roof_fill='white', roof_color='black', leaf_color='green4', node_color='blue2') cf.add_widget(tc,10,10) def boxit(canvas, text): big = ('helvetica', -16, 'bold')
class DrtGlueDemo(object): def __init__(self, examples): # Set up the main window. self._top = Tk() self._top.title('DRT Glue Demo') # Set up key bindings. self._init_bindings() # Initialize the fonts.self._error = None self._init_fonts(self._top) self._examples = examples self._readingCache = [None for example in examples] # The user can hide the grammar. self._show_grammar = IntVar(self._top) self._show_grammar.set(1) # Set the data to None self._curExample = -1 self._readings = [] self._drs = None self._drsWidget = None self._error = None self._init_glue() # Create the basic frames. self._init_menubar(self._top) self._init_buttons(self._top) self._init_exampleListbox(self._top) self._init_readingListbox(self._top) self._init_canvas(self._top) # Resize callback self._canvas.bind('<Configure>', self._configure) ######################################### ## Initialization Helpers ######################################### def _init_glue(self): tagger = RegexpTagger( [('^(David|Mary|John)$', 'NNP'), ('^(walks|sees|eats|chases|believes|gives|sleeps|chases|persuades|tries|seems|leaves)$', 'VB'), ('^(go|order|vanish|find|approach)$', 'VB'), ('^(a)$', 'ex_quant'), ('^(every)$', 'univ_quant'), ('^(sandwich|man|dog|pizza|unicorn|cat|senator)$', 'NN'), ('^(big|gray|former)$', 'JJ'), ('^(him|himself)$', 'PRP') ]) depparser = MaltParser(tagger=tagger) self._glue = DrtGlue(depparser=depparser, remove_duplicates=False) def _init_fonts(self, root): # See: <http://www.astro.washington.edu/owen/ROTKFolklore.html> self._sysfont = Font(font=Button()["font"]) root.option_add("*Font", self._sysfont) # TWhat's our font size (default=same as sysfont) self._size = IntVar(root) self._size.set(self._sysfont.cget('size')) self._boldfont = Font(family='helvetica', weight='bold', size=self._size.get()) self._font = Font(family='helvetica', size=self._size.get()) if self._size.get() < 0: big = self._size.get()-2 else: big = self._size.get()+2 self._bigfont = Font(family='helvetica', weight='bold', size=big) def _init_exampleListbox(self, parent): self._exampleFrame = listframe = Frame(parent) self._exampleFrame.pack(fill='both', side='left', padx=2) self._exampleList_label = Label(self._exampleFrame, font=self._boldfont, text='Examples') self._exampleList_label.pack() self._exampleList = Listbox(self._exampleFrame, selectmode='single', relief='groove', background='white', foreground='#909090', font=self._font, selectforeground='#004040', selectbackground='#c0f0c0') self._exampleList.pack(side='right', fill='both', expand=1) for example in self._examples: self._exampleList.insert('end', (' %s' % example)) self._exampleList.config(height=min(len(self._examples), 25), width=40) # Add a scrollbar if there are more than 25 examples. if len(self._examples) > 25: listscroll = Scrollbar(self._exampleFrame, orient='vertical') self._exampleList.config(yscrollcommand = listscroll.set) listscroll.config(command=self._exampleList.yview) listscroll.pack(side='left', fill='y') # If they select a example, apply it. self._exampleList.bind('<<ListboxSelect>>', self._exampleList_select) def _init_readingListbox(self, parent): self._readingFrame = listframe = Frame(parent) self._readingFrame.pack(fill='both', side='left', padx=2) self._readingList_label = Label(self._readingFrame, font=self._boldfont, text='Readings') self._readingList_label.pack() self._readingList = Listbox(self._readingFrame, selectmode='single', relief='groove', background='white', foreground='#909090', font=self._font, selectforeground='#004040', selectbackground='#c0f0c0') self._readingList.pack(side='right', fill='both', expand=1) # Add a scrollbar if there are more than 25 examples. listscroll = Scrollbar(self._readingFrame, orient='vertical') self._readingList.config(yscrollcommand = listscroll.set) listscroll.config(command=self._readingList.yview) listscroll.pack(side='right', fill='y') self._populate_readingListbox() def _populate_readingListbox(self): # Populate the listbox with integers self._readingList.delete(0, 'end') for i in range(len(self._readings)): self._readingList.insert('end', (' %s' % (i+1))) self._readingList.config(height=min(len(self._readings), 25), width=5) # If they select a example, apply it. self._readingList.bind('<<ListboxSelect>>', self._readingList_select) def _init_bindings(self): # Key bindings are a good thing. self._top.bind('<Control-q>', self.destroy) self._top.bind('<Control-x>', self.destroy) self._top.bind('<Escape>', self.destroy) self._top.bind('n', self.next) self._top.bind('<space>', self.next) self._top.bind('p', self.prev) self._top.bind('<BackSpace>', self.prev) def _init_buttons(self, parent): # Set up the frames. self._buttonframe = buttonframe = Frame(parent) buttonframe.pack(fill='none', side='bottom', padx=3, pady=2) Button(buttonframe, text='Prev', background='#90c0d0', foreground='black', command=self.prev,).pack(side='left') Button(buttonframe, text='Next', background='#90c0d0', foreground='black', command=self.next,).pack(side='left') def _configure(self, event): self._autostep = 0 (x1, y1, x2, y2) = self._cframe.scrollregion() y2 = event.height - 6 self._canvas['scrollregion'] = '%d %d %d %d' % (x1,y1,x2,y2) self._redraw() def _init_canvas(self, parent): self._cframe = CanvasFrame(parent, background='white', #width=525, height=250, closeenough=10, border=2, relief='sunken') self._cframe.pack(expand=1, fill='both', side='top', pady=2) canvas = self._canvas = self._cframe.canvas() # Initially, there's no tree or text self._tree = None self._textwidgets = [] self._textline = None def _init_menubar(self, parent): menubar = Menu(parent) filemenu = Menu(menubar, tearoff=0) filemenu.add_command(label='Exit', underline=1, command=self.destroy, accelerator='q') menubar.add_cascade(label='File', underline=0, menu=filemenu) actionmenu = Menu(menubar, tearoff=0) actionmenu.add_command(label='Next', underline=0, command=self.next, accelerator='n, Space') actionmenu.add_command(label='Previous', underline=0, command=self.prev, accelerator='p, Backspace') menubar.add_cascade(label='Action', underline=0, menu=actionmenu) optionmenu = Menu(menubar, tearoff=0) optionmenu.add_checkbutton(label='Remove Duplicates', underline=0, variable=self._glue.remove_duplicates, command=self._toggle_remove_duplicates, accelerator='r') menubar.add_cascade(label='Options', underline=0, menu=optionmenu) viewmenu = Menu(menubar, tearoff=0) viewmenu.add_radiobutton(label='Tiny', variable=self._size, underline=0, value=10, command=self.resize) viewmenu.add_radiobutton(label='Small', variable=self._size, underline=0, value=12, command=self.resize) viewmenu.add_radiobutton(label='Medium', variable=self._size, underline=0, value=14, command=self.resize) viewmenu.add_radiobutton(label='Large', variable=self._size, underline=0, value=18, command=self.resize) viewmenu.add_radiobutton(label='Huge', variable=self._size, underline=0, value=24, command=self.resize) menubar.add_cascade(label='View', underline=0, menu=viewmenu) helpmenu = Menu(menubar, tearoff=0) helpmenu.add_command(label='About', underline=0, command=self.about) menubar.add_cascade(label='Help', underline=0, menu=helpmenu) parent.config(menu=menubar) ######################################### ## Main draw procedure ######################################### def _redraw(self): canvas = self._canvas # Delete the old DRS, widgets, etc. if self._drsWidget is not None: self._drsWidget.clear() if self._drs: self._drsWidget = DrsWidget( self._canvas, self._drs ) self._drsWidget.draw() if self._error: self._drsWidget = DrsWidget( self._canvas, self._error ) self._drsWidget.draw() ######################################### ## Button Callbacks ######################################### def destroy(self, *e): self._autostep = 0 if self._top is None: return self._top.destroy() self._top = None def prev(self, *e): selection = self._readingList.curselection() readingListSize = self._readingList.size() # there are readings if readingListSize > 0: # if one reading is currently selected if len(selection) == 1: index = int(selection[0]) # if it's on (or before) the first item if index <= 0: self._select_previous_example() else: self._readingList_store_selection(index-1) else: #select its first reading self._readingList_store_selection(readingListSize-1) else: self._select_previous_example() def _select_previous_example(self): #if the current example is not the first example if self._curExample > 0: self._exampleList_store_selection(self._curExample-1) else: #go to the last example self._exampleList_store_selection(len(self._examples)-1) def next(self, *e): selection = self._readingList.curselection() readingListSize = self._readingList.size() # if there are readings if readingListSize > 0: # if one reading is currently selected if len(selection) == 1: index = int(selection[0]) # if it's on (or past) the last item if index >= (readingListSize-1): self._select_next_example() else: self._readingList_store_selection(index+1) else: #select its first reading self._readingList_store_selection(0) else: self._select_next_example() def _select_next_example(self): #if the current example is not the last example if self._curExample < len(self._examples)-1: self._exampleList_store_selection(self._curExample+1) else: #go to the first example self._exampleList_store_selection(0) def about(self, *e): ABOUT = ("NLTK Discourse Representation Theory (DRT) Glue Semantics Demo\n"+ "Written by Daniel H. Garrette") TITLE = 'About: NLTK DRT Glue Demo' try: from tkMessageBox import Message Message(message=ABOUT, title=TITLE).show() except: ShowText(self._top, TITLE, ABOUT) def postscript(self, *e): self._autostep = 0 self._cframe.print_to_file() def mainloop(self, *args, **kwargs): """ Enter the Tkinter mainloop. This function must be called if this demo is created from a non-interactive program (e.g. from a secript); otherwise, the demo will close as soon as the script completes. """ if in_idle(): return self._top.mainloop(*args, **kwargs) def resize(self, size=None): if size is not None: self._size.set(size) size = self._size.get() self._font.configure(size=-(abs(size))) self._boldfont.configure(size=-(abs(size))) self._sysfont.configure(size=-(abs(size))) self._bigfont.configure(size=-(abs(size+2))) self._redraw() def _toggle_remove_duplicates(self): self._glue.remove_duplicates = not self._glue.remove_duplicates self._exampleList.selection_clear(0, 'end') self._readings = [] self._populate_readingListbox() self._readingCache = [None for ex in self._examples] self._curExample = -1 self._error = None self._drs = None self._redraw() def _exampleList_select(self, event): selection = self._exampleList.curselection() if len(selection) != 1: return self._exampleList_store_selection(int(selection[0])) def _exampleList_store_selection(self, index): self._curExample = index example = self._examples[index] self._exampleList.selection_clear(0, 'end') if example: cache = self._readingCache[index] if cache: if isinstance(cache, list): self._readings = cache self._error = None else: self._readings = [] self._error = cache else: try: self._readings = self._glue.parse_to_meaning(example) self._error = None self._readingCache[index] = self._readings except Exception, e: self._readings = [] self._error = DrtVariableExpression(Variable('Error: ' + str(e))) self._readingCache[index] = self._error #add a star to the end of the example self._exampleList.delete(index) self._exampleList.insert(index, (' %s *' % example)) self._exampleList.config(height=min(len(self._examples), 25), width=40) self._populate_readingListbox() self._exampleList.selection_set(index) self._drs = None self._redraw()
def demo(): import random def fill(cw): cw['fill'] = '#%06d' % random.randint(0,999999) cf = CanvasFrame(width=550, height=450, closeenough=2) t = tree.bracket_parse(''' (S (NP the very big cat) (VP (Adv sorta) (V saw) (NP (Det the) (N dog))))''') tc = TreeWidget(cf.canvas(), t, draggable=1, node_font=('helvetica', -14, 'bold'), leaf_font=('helvetica', -12, 'italic'), roof_fill='white', roof_color='black', leaf_color='green4', node_color='blue2') cf.add_widget(tc,10,10) def boxit(canvas, text): big = ('helvetica', -16, 'bold') return BoxWidget(canvas, TextWidget(canvas, text, font=big), fill='green') def ovalit(canvas, text): return OvalWidget(canvas, TextWidget(canvas, text), fill='cyan') treetok = tree.bracket_parse('(S (NP this tree) (VP (V is) (AdjP shapeable)))') tc2 = TreeWidget(cf.canvas(), treetok, boxit, ovalit, shapeable=1) def color(node): node['color'] = '#%04d00' % random.randint(0,9999) def color2(treeseg): treeseg.node()['fill'] = '#%06d' % random.randint(0,9999) treeseg.node().child()['color'] = 'white' tc.bind_click_trees(tc.toggle_collapsed) tc2.bind_click_trees(tc2.toggle_collapsed) tc.bind_click_nodes(color, 3) tc2.expanded_tree(1).bind_click(color2, 3) tc2.expanded_tree().bind_click(color2, 3) paren = ParenWidget(cf.canvas(), tc2) cf.add_widget(paren, tc.bbox()[2]+10, 10) tree3 = tree.bracket_parse(''' (S (NP this tree) (AUX was) (VP (V built) (PP (P with) (NP (N tree_to_treesegment)))))''') tc3 = tree_to_treesegment(cf.canvas(), tree3, tree_color='green4', tree_xspace=2, tree_width=2) tc3['draggable'] = 1 cf.add_widget(tc3, 10, tc.bbox()[3]+10) def orientswitch(treewidget): if treewidget['orientation'] == 'horizontal': treewidget.expanded_tree(1,1).subtrees()[0].set_text('vertical') treewidget.collapsed_tree(1,1).subtrees()[0].set_text('vertical') treewidget.collapsed_tree(1).subtrees()[1].set_text('vertical') treewidget.collapsed_tree().subtrees()[3].set_text('vertical') treewidget['orientation'] = 'vertical' else: treewidget.expanded_tree(1,1).subtrees()[0].set_text('horizontal') treewidget.collapsed_tree(1,1).subtrees()[0].set_text('horizontal') treewidget.collapsed_tree(1).subtrees()[1].set_text('horizontal') treewidget.collapsed_tree().subtrees()[3].set_text('horizontal') treewidget['orientation'] = 'horizontal' text = """ Try clicking, right clicking, and dragging different elements of each of the trees. The top-left tree is a TreeWidget built from a Tree. The top-right is a TreeWidget built from a Tree, using non-default widget constructors for the nodes & leaves (BoxWidget and OvalWidget). The bottom-left tree is built from tree_to_treesegment.""" twidget = TextWidget(cf.canvas(), text.strip()) textbox = BoxWidget(cf.canvas(), twidget, fill='white', draggable=1) cf.add_widget(textbox, tc3.bbox()[2]+10, tc2.bbox()[3]+10) tree4 = tree.bracket_parse('(S (NP this tree) (VP (V is) (Adj horizontal)))') tc4 = TreeWidget(cf.canvas(), tree4, draggable=1, line_color='brown2', roof_color='brown2', node_font=('helvetica', -12, 'bold'), node_color='brown4', orientation='horizontal') tc4.manage() cf.add_widget(tc4, tc3.bbox()[2]+10, textbox.bbox()[3]+10) tc4.bind_click(orientswitch) tc4.bind_click_trees(tc4.toggle_collapsed, 3) # Run mainloop cf.mainloop()
def demo(): import random def fill(cw): cw['fill'] = '#%06d' % random.randint(0, 999999) cf = CanvasFrame(width=550, height=450, closeenough=2) t = bracket_parse(''' (S (NP the very big cat) (VP (Adv sorta) (V saw) (NP (Det the) (N dog))))''') tc = TreeWidget(cf.canvas(), t, draggable=1, node_font=('helvetica', -14, 'bold'), leaf_font=('helvetica', -12, 'italic'), roof_fill='white', roof_color='black', leaf_color='green4', node_color='blue2') cf.add_widget(tc, 10, 10) def boxit(canvas, text): big = ('helvetica', -16, 'bold') return BoxWidget(canvas, TextWidget(canvas, text, font=big), fill='green') def ovalit(canvas, text): return OvalWidget(canvas, TextWidget(canvas, text), fill='cyan') treetok = bracket_parse('(S (NP this tree) (VP (V is) (AdjP shapeable)))') tc2 = TreeWidget(cf.canvas(), treetok, boxit, ovalit, shapeable=1) def color(node): node['color'] = '#%04d00' % random.randint(0, 9999) def color2(treeseg): treeseg.node()['fill'] = '#%06d' % random.randint(0, 9999) treeseg.node().child()['color'] = 'white' tc.bind_click_trees(tc.toggle_collapsed) tc2.bind_click_trees(tc2.toggle_collapsed) tc.bind_click_nodes(color, 3) tc2.expanded_tree(1).bind_click(color2, 3) tc2.expanded_tree().bind_click(color2, 3) paren = ParenWidget(cf.canvas(), tc2) cf.add_widget(paren, tc.bbox()[2] + 10, 10) tree3 = bracket_parse(''' (S (NP this tree) (AUX was) (VP (V built) (PP (P with) (NP (N tree_to_treesegment)))))''') tc3 = tree_to_treesegment(cf.canvas(), tree3, tree_color='green4', tree_xspace=2, tree_width=2) tc3['draggable'] = 1 cf.add_widget(tc3, 10, tc.bbox()[3] + 10) def orientswitch(treewidget): if treewidget['orientation'] == 'horizontal': treewidget.expanded_tree(1, 1).subtrees()[0].set_text('vertical') treewidget.collapsed_tree(1, 1).subtrees()[0].set_text('vertical') treewidget.collapsed_tree(1).subtrees()[1].set_text('vertical') treewidget.collapsed_tree().subtrees()[3].set_text('vertical') treewidget['orientation'] = 'vertical' else: treewidget.expanded_tree(1, 1).subtrees()[0].set_text('horizontal') treewidget.collapsed_tree(1, 1).subtrees()[0].set_text('horizontal') treewidget.collapsed_tree(1).subtrees()[1].set_text('horizontal') treewidget.collapsed_tree().subtrees()[3].set_text('horizontal') treewidget['orientation'] = 'horizontal' text = """ Try clicking, right clicking, and dragging different elements of each of the trees. The top-left tree is a TreeWidget built from a Tree. The top-right is a TreeWidget built from a Tree, using non-default widget constructors for the nodes & leaves (BoxWidget and OvalWidget). The bottom-left tree is built from tree_to_treesegment.""" twidget = TextWidget(cf.canvas(), text.strip()) textbox = BoxWidget(cf.canvas(), twidget, fill='white', draggable=1) cf.add_widget(textbox, tc3.bbox()[2] + 10, tc2.bbox()[3] + 10) tree4 = bracket_parse('(S (NP this tree) (VP (V is) (Adj horizontal)))') tc4 = TreeWidget(cf.canvas(), tree4, draggable=1, line_color='brown2', roof_color='brown2', node_font=('helvetica', -12, 'bold'), node_color='brown4', orientation='horizontal') tc4.manage() cf.add_widget(tc4, tc3.bbox()[2] + 10, textbox.bbox()[3] + 10) tc4.bind_click(orientswitch) tc4.bind_click_trees(tc4.toggle_collapsed, 3) # Run mainloop cf.mainloop()