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	# Copyright 2006 Google, Inc. All Rights Reserved.
	# Licensed to PSF under a Contributor Agreement.

	"""Pattern compiler.

	The grammar is taken from PatternGrammar.txt.

	The compiler compiles a pattern to a pytree.*Pattern instance.
	"""

	__author__ = "Guido van Rossum <guido@python.org>"

	# Python imports
	import io

	# Fairly local imports
	from .pgen2 import driver, literals, token, tokenize, parse, grammar

	# Really local imports
	from . import pytree
	from . import pygram


	class PatternSyntaxError(Exception):
	pass


	def tokenize_wrapper(input):
	"""Tokenizes a string suppressing significant whitespace."""
	skip = {token.NEWLINE, token.INDENT, token.DEDENT}
	tokens = tokenize.generate_tokens(io.StringIO(input).readline)
	for quintuple in tokens:
	type, value, start, end, line_text = quintuple
	if type not in skip:
	yield quintuple


	class PatternCompiler(object):

	def __init__(self, grammar_file=None):
	"""Initializer.

	Takes an optional alternative filename for the pattern grammar.
	"""
	if grammar_file is None:
	self.grammar = pygram.pattern_grammar
	self.syms = pygram.pattern_symbols
	else:
	self.grammar = driver.load_grammar(grammar_file)
	self.syms = pygram.Symbols(self.grammar)
	self.pygrammar = pygram.python_grammar
	self.pysyms = pygram.python_symbols
	self.driver = driver.Driver(self.grammar, convert=pattern_convert)

	def compile_pattern(self, input, debug=False, with_tree=False):
	"""Compiles a pattern string to a nested pytree.*Pattern object."""
	tokens = tokenize_wrapper(input)
	try:
	root = self.driver.parse_tokens(tokens, debug=debug)
	except parse.ParseError as e:
	raise PatternSyntaxError(str(e)) from None
	if with_tree:
	return self.compile_node(root), root
	else:
	return self.compile_node(root)

	def compile_node(self, node):
	"""Compiles a node, recursively.

	This is one big switch on the node type.
	"""
	# XXX Optimize certain Wildcard-containing-Wildcard patterns
	# that can be merged
	if node.type == self.syms.Matcher:
	node = node.children[0] # Avoid unneeded recursion

	if node.type == self.syms.Alternatives:
	# Skip the odd children since they are just '\|' tokens
	alts = [self.compile_node(ch) for ch in node.children[::2]]
	if len(alts) == 1:
	return alts[0]
	p = pytree.WildcardPattern([[a] for a in alts], min=1, max=1)
	return p.optimize()

	if node.type == self.syms.Alternative:
	units = [self.compile_node(ch) for ch in node.children]
	if len(units) == 1:
	return units[0]
	p = pytree.WildcardPattern([units], min=1, max=1)
	return p.optimize()

	if node.type == self.syms.NegatedUnit:
	pattern = self.compile_basic(node.children[1:])
	p = pytree.NegatedPattern(pattern)
	return p.optimize()

	assert node.type == self.syms.Unit

	name = None
	nodes = node.children
	if len(nodes) >= 3 and nodes[1].type == token.EQUAL:
	name = nodes[0].value
	nodes = nodes[2:]
	repeat = None
	if len(nodes) >= 2 and nodes[-1].type == self.syms.Repeater:
	repeat = nodes[-1]
	nodes = nodes[:-1]

	# Now we've reduced it to: STRING \| NAME [Details] \| (...) \| [...]
	pattern = self.compile_basic(nodes, repeat)

	if repeat is not None:
	assert repeat.type == self.syms.Repeater
	children = repeat.children
	child = children[0]
	if child.type == token.STAR:
	min = 0
	max = pytree.HUGE
	elif child.type == token.PLUS:
	min = 1
	max = pytree.HUGE
	elif child.type == token.LBRACE:
	assert children[-1].type == token.RBRACE
	assert len(children) in (3, 5)
	min = max = self.get_int(children[1])
	if len(children) == 5:
	max = self.get_int(children[3])
	else:
	assert False
	if min != 1 or max != 1:
	pattern = pattern.optimize()
	pattern = pytree.WildcardPattern([[pattern]], min=min, max=max)

	if name is not None:
	pattern.name = name
	return pattern.optimize()

	def compile_basic(self, nodes, repeat=None):
	# Compile STRING \| NAME [Details] \| (...) \| [...]
	assert len(nodes) >= 1
	node = nodes[0]
	if node.type == token.STRING:
	value = str(literals.evalString(node.value))
	return pytree.LeafPattern(_type_of_literal(value), value)
	elif node.type == token.NAME:
	value = node.value
	if value.isupper():
	if value not in TOKEN_MAP:
	raise PatternSyntaxError("Invalid token: %r" % value)
	if nodes[1:]:
	raise PatternSyntaxError("Can't have details for token")
	return pytree.LeafPattern(TOKEN_MAP[value])
	else:
	if value == "any":
	type = None
	elif not value.startswith("_"):
	type = getattr(self.pysyms, value, None)
	if type is None:
	raise PatternSyntaxError("Invalid symbol: %r" % value)
	if nodes[1:]: # Details present
	content = [self.compile_node(nodes[1].children[1])]
	else:
	content = None
	return pytree.NodePattern(type, content)
	elif node.value == "(":
	return self.compile_node(nodes[1])
	elif node.value == "[":
	assert repeat is None
	subpattern = self.compile_node(nodes[1])
	return pytree.WildcardPattern([[subpattern]], min=0, max=1)
	assert False, node

	def get_int(self, node):
	assert node.type == token.NUMBER
	return int(node.value)


	# Map named tokens to the type value for a LeafPattern
	TOKEN_MAP = {"NAME": token.NAME,
	"STRING": token.STRING,
	"NUMBER": token.NUMBER,
	"TOKEN": None}


	def _type_of_literal(value):
	if value[0].isalpha():
	return token.NAME
	elif value in grammar.opmap:
	return grammar.opmap[value]
	else:
	return None


	def pattern_convert(grammar, raw_node_info):
	"""Converts raw node information to a Node or Leaf instance."""
	type, value, context, children = raw_node_info
	if children or type in grammar.number2symbol:
	return pytree.Node(type, children, context=context)
	else:
	return pytree.Leaf(type, value, context=context)


	def compile_pattern(pattern):
	return PatternCompiler().compile_pattern(pattern)