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	# Natural Language Toolkit: CFG visualization
	#
	# Copyright (C) 2001-2023 NLTK Project
	# Author: Edward Loper <[email protected]>
	# URL: <https://www.nltk.org/>
	# For license information, see LICENSE.TXT

	"""
	Visualization tools for CFGs.
	"""

	# Idea for a nice demo:
	# - 3 panes: grammar, treelet, working area
	# - grammar is a list of productions
	# - when you select a production, the treelet that it licenses appears
	# in the treelet area
	# - the working area has the text on the bottom, and S at top. When
	# you select a production, it shows (ghosted) the locations where
	# that production's treelet could be attached to either the text
	# or the tree rooted at S.
	# - the user can drag the treelet onto one of those (or click on them?)
	# - the user can delete pieces of the tree from the working area
	# (right click?)
	# - connecting top to bottom? drag one NP onto another?
	#
	# +-------------------------------------------------------------+
	# \| S -> NP VP \| S \|
	# \|[NP -> Det N ]\| / \ \|
	# \| ... \| NP VP \|
	# \| N -> 'dog' \| \|
	# \| N -> 'cat' \| \|
	# \| ... \| \|
	# +--------------+ \|
	# \| NP \| Det N \|
	# \| / \ \| \| \| \|
	# \| Det N \| the cat saw the dog \|
	# \| \| \|
	# +--------------+----------------------------------------------+
	#
	# Operations:
	# - connect a new treelet -- drag or click shadow
	# - delete a treelet -- right click
	# - if only connected to top, delete everything below
	# - if only connected to bottom, delete everything above
	# - connect top & bottom -- drag a leaf to a root or a root to a leaf
	# - disconnect top & bottom -- right click
	# - if connected to top & bottom, then disconnect

	import re
	from tkinter import (
	Button,
	Canvas,
	Entry,
	Frame,
	IntVar,
	Label,
	Scrollbar,
	Text,
	Tk,
	Toplevel,
	)

	from nltk.draw.tree import TreeSegmentWidget, tree_to_treesegment
	from nltk.draw.util import (
	CanvasFrame,
	ColorizedList,
	ShowText,
	SymbolWidget,
	TextWidget,
	)
	from nltk.grammar import CFG, Nonterminal, _read_cfg_production, nonterminals
	from nltk.tree import Tree

	######################################################################
	# Production List
	######################################################################


	class ProductionList(ColorizedList):
	ARROW = SymbolWidget.SYMBOLS["rightarrow"]

	def _init_colortags(self, textwidget, options):
	textwidget.tag_config("terminal", foreground="#006000")
	textwidget.tag_config("arrow", font="symbol", underline="0")
	textwidget.tag_config(
	"nonterminal", foreground="blue", font=("helvetica", -12, "bold")
	)

	def _item_repr(self, item):
	contents = []
	contents.append(("%s\t" % item.lhs(), "nonterminal"))
	contents.append((self.ARROW, "arrow"))
	for elt in item.rhs():
	if isinstance(elt, Nonterminal):
	contents.append((" %s" % elt.symbol(), "nonterminal"))
	else:
	contents.append((" %r" % elt, "terminal"))
	return contents


	######################################################################
	# CFG Editor
	######################################################################

	_CFGEditor_HELP = """

	The CFG Editor can be used to create or modify context free grammars.
	A context free grammar consists of a start symbol and a list of
	productions. The start symbol is specified by the text entry field in
	the upper right hand corner of the editor; and the list of productions
	are specified in the main text editing box.

	Every non-blank line specifies a single production. Each production
	has the form "LHS -> RHS," where LHS is a single nonterminal, and RHS
	is a list of nonterminals and terminals.

	Nonterminals must be a single word, such as S or NP or NP_subj.
	Currently, nonterminals must consists of alphanumeric characters and
	underscores (_). Nonterminals are colored blue. If you place the
	mouse over any nonterminal, then all occurrences of that nonterminal
	will be highlighted.

	Terminals must be surrounded by single quotes (') or double
	quotes(\"). For example, "dog" and "New York" are terminals.
	Currently, the string within the quotes must consist of alphanumeric
	characters, underscores, and spaces.

	To enter a new production, go to a blank line, and type a nonterminal,
	followed by an arrow (->), followed by a sequence of terminals and
	nonterminals. Note that "->" (dash + greater-than) is automatically
	converted to an arrow symbol. When you move your cursor to a
	different line, your production will automatically be colorized. If
	there are any errors, they will be highlighted in red.

	Note that the order of the productions is significant for some
	algorithms. To re-order the productions, use cut and paste to move
	them.

	Use the buttons at the bottom of the window when you are done editing
	the CFG:
	- Ok: apply the new CFG, and exit the editor.
	- Apply: apply the new CFG, and do not exit the editor.
	- Reset: revert to the original CFG, and do not exit the editor.
	- Cancel: revert to the original CFG, and exit the editor.

	"""


	class CFGEditor:
	"""
	A dialog window for creating and editing context free grammars.
	``CFGEditor`` imposes the following restrictions:

	- All nonterminals must be strings consisting of word
	characters.
	- All terminals must be strings consisting of word characters
	and space characters.
	"""

	# Regular expressions used by _analyze_line. Precompile them, so
	# we can process the text faster.
	ARROW = SymbolWidget.SYMBOLS["rightarrow"]
	_LHS_RE = re.compile(r"(^\s\w+\s)(->\|(" + ARROW + "))")
	_ARROW_RE = re.compile(r"\s(->\|(" + ARROW + r"))\s")
	_PRODUCTION_RE = re.compile(
	r"(^\s\w+\s)"
	+ "(->\|(" # LHS
	+ ARROW
	+ r"))\s*"
	+ r"((\w+\|'[\w ]'\|\"[\w ]\"\|\\|)\s)$" # arrow
	) # RHS
	_TOKEN_RE = re.compile("\\w+\|->\|'[\\w ]+'\|\"[\\w ]+\"\|(" + ARROW + ")")
	_BOLD = ("helvetica", -12, "bold")

	def __init__(self, parent, cfg=None, set_cfg_callback=None):
	self._parent = parent
	if cfg is not None:
	self._cfg = cfg
	else:
	self._cfg = CFG(Nonterminal("S"), [])
	self._set_cfg_callback = set_cfg_callback

	self._highlight_matching_nonterminals = 1

	# Create the top-level window.
	self._top = Toplevel(parent)
	self._init_bindings()

	self._init_startframe()
	self._startframe.pack(side="top", fill="x", expand=0)
	self._init_prodframe()
	self._prodframe.pack(side="top", fill="both", expand=1)
	self._init_buttons()
	self._buttonframe.pack(side="bottom", fill="x", expand=0)

	self._textwidget.focus()

	def _init_startframe(self):
	frame = self._startframe = Frame(self._top)
	self._start = Entry(frame)
	self._start.pack(side="right")
	Label(frame, text="Start Symbol:").pack(side="right")
	Label(frame, text="Productions:").pack(side="left")
	self._start.insert(0, self._cfg.start().symbol())

	def _init_buttons(self):
	frame = self._buttonframe = Frame(self._top)
	Button(frame, text="Ok", command=self._ok, underline=0, takefocus=0).pack(
	side="left"
	)
	Button(frame, text="Apply", command=self._apply, underline=0, takefocus=0).pack(
	side="left"
	)
	Button(frame, text="Reset", command=self._reset, underline=0, takefocus=0).pack(
	side="left"
	)
	Button(
	frame, text="Cancel", command=self._cancel, underline=0, takefocus=0
	).pack(side="left")
	Button(frame, text="Help", command=self._help, underline=0, takefocus=0).pack(
	side="right"
	)

	def _init_bindings(self):
	self._top.title("CFG Editor")
	self._top.bind("<Control-q>", self._cancel)
	self._top.bind("<Alt-q>", self._cancel)
	self._top.bind("<Control-d>", self._cancel)
	# self._top.bind('<Control-x>', self._cancel)
	self._top.bind("<Alt-x>", self._cancel)
	self._top.bind("<Escape>", self._cancel)
	# self._top.bind('<Control-c>', self._cancel)
	self._top.bind("<Alt-c>", self._cancel)

	self._top.bind("<Control-o>", self._ok)
	self._top.bind("<Alt-o>", self._ok)
	self._top.bind("<Control-a>", self._apply)
	self._top.bind("<Alt-a>", self._apply)
	self._top.bind("<Control-r>", self._reset)
	self._top.bind("<Alt-r>", self._reset)
	self._top.bind("<Control-h>", self._help)
	self._top.bind("<Alt-h>", self._help)
	self._top.bind("<F1>", self._help)

	def _init_prodframe(self):
	self._prodframe = Frame(self._top)

	# Create the basic Text widget & scrollbar.
	self._textwidget = Text(
	self._prodframe, background="#e0e0e0", exportselection=1
	)
	self._textscroll = Scrollbar(self._prodframe, takefocus=0, orient="vertical")
	self._textwidget.config(yscrollcommand=self._textscroll.set)
	self._textscroll.config(command=self._textwidget.yview)
	self._textscroll.pack(side="right", fill="y")
	self._textwidget.pack(expand=1, fill="both", side="left")

	# Initialize the colorization tags. Each nonterminal gets its
	# own tag, so they aren't listed here.
	self._textwidget.tag_config("terminal", foreground="#006000")
	self._textwidget.tag_config("arrow", font="symbol")
	self._textwidget.tag_config("error", background="red")

	# Keep track of what line they're on. We use that to remember
	# to re-analyze a line whenever they leave it.
	self._linenum = 0

	# Expand "->" to an arrow.
	self._top.bind(">", self._replace_arrows)

	# Re-colorize lines when appropriate.
	self._top.bind("<<Paste>>", self._analyze)
	self._top.bind("<KeyPress>", self._check_analyze)
	self._top.bind("<ButtonPress>", self._check_analyze)

	# Tab cycles focus. (why doesn't this work??)
	def cycle(e, textwidget=self._textwidget):
	textwidget.tk_focusNext().focus()

	self._textwidget.bind("<Tab>", cycle)

	prod_tuples = [(p.lhs(), [p.rhs()]) for p in self._cfg.productions()]
	for i in range(len(prod_tuples) - 1, 0, -1):
	if prod_tuples[i][0] == prod_tuples[i - 1][0]:
	if () in prod_tuples[i][1]:
	continue
	if () in prod_tuples[i - 1][1]:
	continue
	print(prod_tuples[i - 1][1])
	print(prod_tuples[i][1])
	prod_tuples[i - 1][1].extend(prod_tuples[i][1])
	del prod_tuples[i]

	for lhs, rhss in prod_tuples:
	print(lhs, rhss)
	s = "%s ->" % lhs
	for rhs in rhss:
	for elt in rhs:
	if isinstance(elt, Nonterminal):
	s += " %s" % elt
	else:
	s += " %r" % elt
	s += " \|"
	s = s[:-2] + "\n"
	self._textwidget.insert("end", s)

	self._analyze()

	# # Add the producitons to the text widget, and colorize them.
	# prod_by_lhs = {}
	# for prod in self._cfg.productions():
	# if len(prod.rhs()) > 0:
	# prod_by_lhs.setdefault(prod.lhs(),[]).append(prod)
	# for (lhs, prods) in prod_by_lhs.items():
	# self._textwidget.insert('end', '%s ->' % lhs)
	# self._textwidget.insert('end', self._rhs(prods[0]))
	# for prod in prods[1:]:
	# print '\t\|'+self._rhs(prod),
	# self._textwidget.insert('end', '\t\|'+self._rhs(prod))
	# print
	# self._textwidget.insert('end', '\n')
	# for prod in self._cfg.productions():
	# if len(prod.rhs()) == 0:
	# self._textwidget.insert('end', '%s' % prod)
	# self._analyze()

	# def _rhs(self, prod):
	# s = ''
	# for elt in prod.rhs():
	# if isinstance(elt, Nonterminal): s += ' %s' % elt.symbol()
	# else: s += ' %r' % elt
	# return s

	def _clear_tags(self, linenum):
	"""
	Remove all tags (except ``arrow`` and ``sel``) from the given
	line of the text widget used for editing the productions.
	"""
	start = "%d.0" % linenum
	end = "%d.end" % linenum
	for tag in self._textwidget.tag_names():
	if tag not in ("arrow", "sel"):
	self._textwidget.tag_remove(tag, start, end)

	def _check_analyze(self, *e):
	"""
	Check if we've moved to a new line. If we have, then remove
	all colorization from the line we moved to, and re-colorize
	the line that we moved from.
	"""
	linenum = int(self._textwidget.index("insert").split(".")[0])
	if linenum != self._linenum:
	self._clear_tags(linenum)
	self._analyze_line(self._linenum)
	self._linenum = linenum

	def _replace_arrows(self, *e):
	"""
	Replace any ``'->'`` text strings with arrows (char \\256, in
	symbol font). This searches the whole buffer, but is fast
	enough to be done anytime they press '>'.
	"""
	arrow = "1.0"
	while True:
	arrow = self._textwidget.search("->", arrow, "end+1char")
	if arrow == "":
	break
	self._textwidget.delete(arrow, arrow + "+2char")
	self._textwidget.insert(arrow, self.ARROW, "arrow")
	self._textwidget.insert(arrow, "\t")

	arrow = "1.0"
	while True:
	arrow = self._textwidget.search(self.ARROW, arrow + "+1char", "end+1char")
	if arrow == "":
	break
	self._textwidget.tag_add("arrow", arrow, arrow + "+1char")

	def _analyze_token(self, match, linenum):
	"""
	Given a line number and a regexp match for a token on that
	line, colorize the token. Note that the regexp match gives us
	the token's text, start index (on the line), and end index (on
	the line).
	"""
	# What type of token is it?
	if match.group()[0] in "'\"":
	tag = "terminal"
	elif match.group() in ("->", self.ARROW):
	tag = "arrow"
	else:
	# If it's a nonterminal, then set up new bindings, so we
	# can highlight all instances of that nonterminal when we
	# put the mouse over it.
	tag = "nonterminal_" + match.group()
	if tag not in self._textwidget.tag_names():
	self._init_nonterminal_tag(tag)

	start = "%d.%d" % (linenum, match.start())
	end = "%d.%d" % (linenum, match.end())
	self._textwidget.tag_add(tag, start, end)

	def _init_nonterminal_tag(self, tag, foreground="blue"):
	self._textwidget.tag_config(tag, foreground=foreground, font=CFGEditor._BOLD)
	if not self._highlight_matching_nonterminals:
	return

	def enter(e, textwidget=self._textwidget, tag=tag):
	textwidget.tag_config(tag, background="#80ff80")

	def leave(e, textwidget=self._textwidget, tag=tag):
	textwidget.tag_config(tag, background="")

	self._textwidget.tag_bind(tag, "<Enter>", enter)
	self._textwidget.tag_bind(tag, "<Leave>", leave)

	def _analyze_line(self, linenum):
	"""
	Colorize a given line.
	"""
	# Get rid of any tags that were previously on the line.
	self._clear_tags(linenum)

	# Get the line line's text string.
	line = self._textwidget.get(repr(linenum) + ".0", repr(linenum) + ".end")

	# If it's a valid production, then colorize each token.
	if CFGEditor._PRODUCTION_RE.match(line):
	# It's valid; Use _TOKEN_RE to tokenize the production,
	# and call analyze_token on each token.
	def analyze_token(match, self=self, linenum=linenum):
	self._analyze_token(match, linenum)
	return ""

	CFGEditor._TOKEN_RE.sub(analyze_token, line)
	elif line.strip() != "":
	# It's invalid; show the user where the error is.
	self._mark_error(linenum, line)

	def _mark_error(self, linenum, line):
	"""
	Mark the location of an error in a line.
	"""
	arrowmatch = CFGEditor._ARROW_RE.search(line)
	if not arrowmatch:
	# If there's no arrow at all, highlight the whole line.
	start = "%d.0" % linenum
	end = "%d.end" % linenum
	elif not CFGEditor._LHS_RE.match(line):
	# Otherwise, if the LHS is bad, highlight it.
	start = "%d.0" % linenum
	end = "%d.%d" % (linenum, arrowmatch.start())
	else:
	# Otherwise, highlight the RHS.
	start = "%d.%d" % (linenum, arrowmatch.end())
	end = "%d.end" % linenum

	# If we're highlighting 0 chars, highlight the whole line.
	if self._textwidget.compare(start, "==", end):
	start = "%d.0" % linenum
	end = "%d.end" % linenum
	self._textwidget.tag_add("error", start, end)

	def _analyze(self, *e):
	"""
	Replace ``->`` with arrows, and colorize the entire buffer.
	"""
	self._replace_arrows()
	numlines = int(self._textwidget.index("end").split(".")[0])
	for linenum in range(1, numlines + 1): # line numbers start at 1.
	self._analyze_line(linenum)

	def _parse_productions(self):
	"""
	Parse the current contents of the textwidget buffer, to create
	a list of productions.
	"""
	productions = []

	# Get the text, normalize it, and split it into lines.
	text = self._textwidget.get("1.0", "end")
	text = re.sub(self.ARROW, "->", text)
	text = re.sub("\t", " ", text)
	lines = text.split("\n")

	# Convert each line to a CFG production
	for line in lines:
	line = line.strip()
	if line == "":
	continue
	productions += _read_cfg_production(line)
	# if line.strip() == '': continue
	# if not CFGEditor._PRODUCTION_RE.match(line):
	# raise ValueError('Bad production string %r' % line)
	#
	# (lhs_str, rhs_str) = line.split('->')
	# lhs = Nonterminal(lhs_str.strip())
	# rhs = []
	# def parse_token(match, rhs=rhs):
	# token = match.group()
	# if token[0] in "'\"": rhs.append(token[1:-1])
	# else: rhs.append(Nonterminal(token))
	# return ''
	# CFGEditor._TOKEN_RE.sub(parse_token, rhs_str)
	#
	# productions.append(Production(lhs, *rhs))

	return productions

	def _destroy(self, *e):
	if self._top is None:
	return
	self._top.destroy()
	self._top = None

	def _ok(self, *e):
	self._apply()
	self._destroy()

	def _apply(self, *e):
	productions = self._parse_productions()
	start = Nonterminal(self._start.get())
	cfg = CFG(start, productions)
	if self._set_cfg_callback is not None:
	self._set_cfg_callback(cfg)

	def _reset(self, *e):
	self._textwidget.delete("1.0", "end")
	for production in self._cfg.productions():
	self._textwidget.insert("end", "%s\n" % production)
	self._analyze()
	if self._set_cfg_callback is not None:
	self._set_cfg_callback(self._cfg)

	def _cancel(self, *e):
	try:
	self._reset()
	except:
	pass
	self._destroy()

	def _help(self, *e):
	# The default font's not very legible; try using 'fixed' instead.
	try:
	ShowText(
	self._parent,
	"Help: Chart Parser Demo",
	(_CFGEditor_HELP).strip(),
	width=75,
	font="fixed",
	)
	except:
	ShowText(
	self._parent,
	"Help: Chart Parser Demo",
	(_CFGEditor_HELP).strip(),
	width=75,
	)


	######################################################################
	# New Demo (built tree based on cfg)
	######################################################################


	class CFGDemo:
	def __init__(self, grammar, text):
	self._grammar = grammar
	self._text = text

	# Set up the main window.
	self._top = Tk()
	self._top.title("Context Free Grammar Demo")

	# Base font size
	self._size = IntVar(self._top)
	self._size.set(12) # = medium

	# Set up the key bindings
	self._init_bindings(self._top)

	# Create the basic frames
	frame1 = Frame(self._top)
	frame1.pack(side="left", fill="y", expand=0)
	self._init_menubar(self._top)
	self._init_buttons(self._top)
	self._init_grammar(frame1)
	self._init_treelet(frame1)
	self._init_workspace(self._top)

	# //////////////////////////////////////////////////
	# Initialization
	# //////////////////////////////////////////////////

	def _init_bindings(self, top):
	top.bind("<Control-q>", self.destroy)

	def _init_menubar(self, parent):
	pass

	def _init_buttons(self, parent):
	pass

	def _init_grammar(self, parent):
	self._prodlist = ProductionList(parent, self._grammar, width=20)
	self._prodlist.pack(side="top", fill="both", expand=1)
	self._prodlist.focus()
	self._prodlist.add_callback("select", self._selectprod_cb)
	self._prodlist.add_callback("move", self._selectprod_cb)

	def _init_treelet(self, parent):
	self._treelet_canvas = Canvas(parent, background="white")
	self._treelet_canvas.pack(side="bottom", fill="x")
	self._treelet = None

	def _init_workspace(self, parent):
	self._workspace = CanvasFrame(parent, background="white")
	self._workspace.pack(side="right", fill="both", expand=1)
	self._tree = None
	self.reset_workspace()

	# //////////////////////////////////////////////////
	# Workspace
	# //////////////////////////////////////////////////

	def reset_workspace(self):
	c = self._workspace.canvas()
	fontsize = int(self._size.get())
	node_font = ("helvetica", -(fontsize + 4), "bold")
	leaf_font = ("helvetica", -(fontsize + 2))

	# Remove the old tree
	if self._tree is not None:
	self._workspace.remove_widget(self._tree)

	# The root of the tree.
	start = self._grammar.start().symbol()
	rootnode = TextWidget(c, start, font=node_font, draggable=1)

	# The leaves of the tree.
	leaves = []
	for word in self._text:
	leaves.append(TextWidget(c, word, font=leaf_font, draggable=1))

	# Put it all together into one tree
	self._tree = TreeSegmentWidget(c, rootnode, leaves, color="white")

	# Add it to the workspace.
	self._workspace.add_widget(self._tree)

	# Move the leaves to the bottom of the workspace.
	for leaf in leaves:
	leaf.move(0, 100)

	# self._nodes = {start:1}
	# self._leaves = dict([(l,1) for l in leaves])

	def workspace_markprod(self, production):
	pass

	def _markproduction(self, prod, tree=None):
	if tree is None:
	tree = self._tree
	for i in range(len(tree.subtrees()) - len(prod.rhs())):
	if tree["color", i] == "white":
	self._markproduction # FIXME: Is this necessary at all?

	for j, node in enumerate(prod.rhs()):
	widget = tree.subtrees()[i + j]
	if (
	isinstance(node, Nonterminal)
	and isinstance(widget, TreeSegmentWidget)
	and node.symbol == widget.label().text()
	):
	pass # matching nonterminal
	elif (
	isinstance(node, str)
	and isinstance(widget, TextWidget)
	and node == widget.text()
	):
	pass # matching nonterminal
	else:
	break
	else:
	# Everything matched!
	print("MATCH AT", i)

	# //////////////////////////////////////////////////
	# Grammar
	# //////////////////////////////////////////////////

	def _selectprod_cb(self, production):
	canvas = self._treelet_canvas

	self._prodlist.highlight(production)
	if self._treelet is not None:
	self._treelet.destroy()

	# Convert the production to a tree.
	rhs = production.rhs()
	for (i, elt) in enumerate(rhs):
	if isinstance(elt, Nonterminal):
	elt = Tree(elt)
	tree = Tree(production.lhs().symbol(), *rhs)

	# Draw the tree in the treelet area.
	fontsize = int(self._size.get())
	node_font = ("helvetica", -(fontsize + 4), "bold")
	leaf_font = ("helvetica", -(fontsize + 2))
	self._treelet = tree_to_treesegment(
	canvas, tree, node_font=node_font, leaf_font=leaf_font
	)
	self._treelet["draggable"] = 1

	# Center the treelet.
	(x1, y1, x2, y2) = self._treelet.bbox()
	w, h = int(canvas["width"]), int(canvas["height"])
	self._treelet.move((w - x1 - x2) / 2, (h - y1 - y2) / 2)

	# Mark the places where we can add it to the workspace.
	self._markproduction(production)

	def destroy(self, *args):
	self._top.destroy()

	def mainloop(self, args, *kwargs):
	self._top.mainloop(args, *kwargs)


	def demo2():
	from nltk import CFG, Nonterminal, Production

	nonterminals = "S VP NP PP P N Name V Det"
	(S, VP, NP, PP, P, N, Name, V, Det) = (Nonterminal(s) for s in nonterminals.split())
	productions = (
	# Syntactic Productions
	Production(S, [NP, VP]),
	Production(NP, [Det, N]),
	Production(NP, [NP, PP]),
	Production(VP, [VP, PP]),
	Production(VP, [V, NP, PP]),
	Production(VP, [V, NP]),
	Production(PP, [P, NP]),
	Production(PP, []),
	Production(PP, ["up", "over", NP]),
	# Lexical Productions
	Production(NP, ["I"]),
	Production(Det, ["the"]),
	Production(Det, ["a"]),
	Production(N, ["man"]),
	Production(V, ["saw"]),
	Production(P, ["in"]),
	Production(P, ["with"]),
	Production(N, ["park"]),
	Production(N, ["dog"]),
	Production(N, ["statue"]),
	Production(Det, ["my"]),
	)
	grammar = CFG(S, productions)

	text = "I saw a man in the park".split()
	d = CFGDemo(grammar, text)
	d.mainloop()


	######################################################################
	# Old Demo
	######################################################################


	def demo():
	from nltk import CFG, Nonterminal

	nonterminals = "S VP NP PP P N Name V Det"
	(S, VP, NP, PP, P, N, Name, V, Det) = (Nonterminal(s) for s in nonterminals.split())

	grammar = CFG.fromstring(
	"""
	S -> NP VP
	PP -> P NP
	NP -> Det N
	NP -> NP PP
	VP -> V NP
	VP -> VP PP
	Det -> 'a'
	Det -> 'the'
	Det -> 'my'
	NP -> 'I'
	N -> 'dog'
	N -> 'man'
	N -> 'park'
	N -> 'statue'
	V -> 'saw'
	P -> 'in'
	P -> 'up'
	P -> 'over'
	P -> 'with'
	"""
	)

	def cb(grammar):
	print(grammar)

	top = Tk()
	editor = CFGEditor(top, grammar, cb)
	Label(top, text="\nTesting CFG Editor\n").pack()
	Button(top, text="Quit", command=top.destroy).pack()
	top.mainloop()


	def demo3():
	from nltk import Production

	(S, VP, NP, PP, P, N, Name, V, Det) = nonterminals(
	"S, VP, NP, PP, P, N, Name, V, Det"
	)

	productions = (
	# Syntactic Productions
	Production(S, [NP, VP]),
	Production(NP, [Det, N]),
	Production(NP, [NP, PP]),
	Production(VP, [VP, PP]),
	Production(VP, [V, NP, PP]),
	Production(VP, [V, NP]),
	Production(PP, [P, NP]),
	Production(PP, []),
	Production(PP, ["up", "over", NP]),
	# Lexical Productions
	Production(NP, ["I"]),
	Production(Det, ["the"]),
	Production(Det, ["a"]),
	Production(N, ["man"]),
	Production(V, ["saw"]),
	Production(P, ["in"]),
	Production(P, ["with"]),
	Production(N, ["park"]),
	Production(N, ["dog"]),
	Production(N, ["statue"]),
	Production(Det, ["my"]),
	)

	t = Tk()

	def destroy(e, t=t):
	t.destroy()

	t.bind("q", destroy)
	p = ProductionList(t, productions)
	p.pack(expand=1, fill="both")
	p.add_callback("select", p.markonly)
	p.add_callback("move", p.markonly)
	p.focus()
	p.mark(productions[2])
	p.mark(productions[8])


	if __name__ == "__main__":
	demo()