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	"""
	Python Lexical Analyser

	Scanning an input stream
	"""

	import cython

	cython.declare(BOL=object, EOL=object, EOF=object, NOT_FOUND=object) # noqa:E402

	from . import Errors
	from .Regexps import BOL, EOL, EOF

	NOT_FOUND = object()


	class Scanner:
	"""
	A Scanner is used to read tokens from a stream of characters
	using the token set specified by a Plex.Lexicon.

	Constructor:

	Scanner(lexicon, stream, name = '')

	See the docstring of the __init__ method for details.

	Methods:

	See the docstrings of the individual methods for more
	information.

	read() --> (value, text)
	Reads the next lexical token from the stream.

	position() --> (name, line, col)
	Returns the position of the last token read using the
	read() method.

	begin(state_name)
	Causes scanner to change state.

	produce(value [, text])
	Causes return of a token value to the caller of the
	Scanner.

	"""

	# lexicon = None # Lexicon
	# stream = None # file-like object
	# name = ''
	# buffer = ''
	#
	# These positions are used by the scanner to track its internal state:
	# buf_start_pos = 0 # position in input of start of buffer
	# next_pos = 0 # position in input of next char to read
	# cur_pos = 0 # position in input of current char
	# cur_line = 1 # line number of current char
	# cur_line_start = 0 # position in input of start of current line
	# start_pos = 0 # position in input of start of token
	# current_scanner_position_tuple = ("", 0, 0)
	# tuple of filename, line number and position in line, really mainly for error reporting
	#
	# These positions are used to track what was read from the queue
	# (which may differ from the internal state when tokens are replaced onto the queue)
	# last_token_position_tuple = ("", 0, 0) # tuple of filename, line number and position in line

	# text = None # text of last token read
	# initial_state = None # Node
	# state_name = '' # Name of initial state
	# queue = None # list of tokens and positions to be returned
	# trace = 0

	def __init__(self, lexicon, stream, name='', initial_pos=None):
	"""
	Scanner(lexicon, stream, name = '')

	\|lexicon\| is a Plex.Lexicon instance specifying the lexical tokens
	to be recognised.

	\|stream\| can be a file object or anything which implements a
	compatible read() method.

	\|name\| is optional, and may be the name of the file being
	scanned or any other identifying string.
	"""
	self.trace = 0

	self.buffer = ''
	self.buf_start_pos = 0
	self.next_pos = 0
	self.cur_pos = 0
	self.cur_line = 1
	self.start_pos = 0
	self.current_scanner_position_tuple = ("", 0, 0)
	self.last_token_position_tuple = ("", 0, 0)
	self.text = None
	self.state_name = None

	self.lexicon = lexicon
	self.stream = stream
	self.name = name
	self.queue = []
	self.initial_state = None
	self.begin('')
	self.next_pos = 0
	self.cur_pos = 0
	self.cur_line_start = 0
	self.cur_char = BOL
	self.input_state = 1
	if initial_pos is not None:
	self.cur_line, self.cur_line_start = initial_pos[1], -initial_pos[2]

	def read(self):
	"""
	Read the next lexical token from the stream and return a
	tuple (value, text), where \|value\| is the value associated with
	the token as specified by the Lexicon, and \|text\| is the actual
	string read from the stream. Returns (None, '') on end of file.
	"""
	queue = self.queue
	while not queue:
	self.text, action = self.scan_a_token()
	if action is None:
	self.produce(None)
	self.eof()
	else:
	value = action.perform(self, self.text)
	if value is not None:
	self.produce(value)
	result, self.last_token_position_tuple = queue[0]
	del queue[0]
	return result

	def unread(self, token, value, position):
	self.queue.insert(0, ((token, value), position))

	def get_current_scan_pos(self):
	# distinct from the position of the last token due to the queue
	return self.current_scanner_position_tuple

	def scan_a_token(self):
	"""
	Read the next input sequence recognised by the machine
	and return (text, action). Returns ('', None) on end of
	file.
	"""
	self.start_pos = self.cur_pos
	self.current_scanner_position_tuple = (
	self.name, self.cur_line, self.cur_pos - self.cur_line_start
	)
	action = self.run_machine_inlined()
	if action is not None:
	if self.trace:
	print("Scanner: read: Performing %s %d:%d" % (
	action, self.start_pos, self.cur_pos))
	text = self.buffer[
	self.start_pos - self.buf_start_pos:
	self.cur_pos - self.buf_start_pos]
	return (text, action)
	else:
	if self.cur_pos == self.start_pos:
	if self.cur_char is EOL:
	self.next_char()
	if self.cur_char is None or self.cur_char is EOF:
	return ('', None)
	raise Errors.UnrecognizedInput(self, self.state_name)

	@cython.final
	def run_machine_inlined(self):
	"""
	Inlined version of run_machine for speed.
	"""
	state: dict = self.initial_state
	cur_pos: cython.Py_ssize_t = self.cur_pos
	cur_line: cython.Py_ssize_t = self.cur_line
	cur_line_start: cython.Py_ssize_t = self.cur_line_start
	cur_char = self.cur_char
	input_state: cython.long = self.input_state
	next_pos: cython.Py_ssize_t = self.next_pos
	data: str
	buffer: str = self.buffer
	buf_start_pos: cython.Py_ssize_t = self.buf_start_pos
	buf_len: cython.Py_ssize_t = len(buffer)
	buf_index: cython.Py_ssize_t
	discard: cython.Py_ssize_t

	b_action, b_cur_pos, b_cur_line, b_cur_line_start, b_cur_char, b_input_state, b_next_pos = \
	None, 0, 0, 0, '', 0, 0

	trace: cython.bint = self.trace
	while 1:
	if trace:
	print("State %d, %d/%d:%s -->" % (
	state['number'], input_state, cur_pos, repr(cur_char)))

	# Begin inlined self.save_for_backup()
	action = state['action']
	if action is not None:
	b_action, b_cur_pos, b_cur_line, b_cur_line_start, b_cur_char, b_input_state, b_next_pos = \
	action, cur_pos, cur_line, cur_line_start, cur_char, input_state, next_pos
	# End inlined self.save_for_backup()

	c = cur_char
	new_state = state.get(c, NOT_FOUND)
	if new_state is NOT_FOUND:
	new_state = c and state.get('else')

	if new_state:
	if trace:
	print("State %d" % new_state['number'])
	state = new_state
	# Begin inlined: self.next_char()
	if input_state == 1:
	cur_pos = next_pos
	# Begin inlined: c = self.read_char()
	buf_index = next_pos - buf_start_pos
	if buf_index < buf_len:
	c = buffer[buf_index]
	next_pos += 1
	else:
	discard = self.start_pos - buf_start_pos
	data = self.stream.read(0x1000)
	buffer = self.buffer[discard:] + data
	self.buffer = buffer
	buf_start_pos += discard
	self.buf_start_pos = buf_start_pos
	buf_len = len(buffer)
	buf_index -= discard
	if data:
	c = buffer[buf_index]
	next_pos += 1
	else:
	c = ''
	# End inlined: c = self.read_char()
	if c == '\n':
	cur_char = EOL
	input_state = 2
	elif not c:
	cur_char = EOL
	input_state = 4
	else:
	cur_char = c
	elif input_state == 2: # after EoL (1) -> BoL (3)
	cur_char = '\n'
	input_state = 3
	elif input_state == 3: # start new code line
	cur_line += 1
	cur_line_start = cur_pos = next_pos
	cur_char = BOL
	input_state = 1
	elif input_state == 4: # after final line (1) -> EoF (5)
	cur_char = EOF
	input_state = 5
	else: # input_state == 5 (EoF)
	cur_char = ''
	# End inlined self.next_char()
	else: # not new_state
	if trace:
	print("blocked")
	# Begin inlined: action = self.back_up()
	if b_action is not None:
	(action, cur_pos, cur_line, cur_line_start,
	cur_char, input_state, next_pos) = \
	(b_action, b_cur_pos, b_cur_line, b_cur_line_start,
	b_cur_char, b_input_state, b_next_pos)
	else:
	action = None
	break # while 1
	# End inlined: action = self.back_up()

	self.cur_pos = cur_pos
	self.cur_line = cur_line
	self.cur_line_start = cur_line_start
	self.cur_char = cur_char
	self.input_state = input_state
	self.next_pos = next_pos
	if trace:
	if action is not None:
	print("Doing %s" % action)
	return action

	def next_char(self):
	input_state: cython.int = self.input_state
	if self.trace:
	print("Scanner: next: %s [%d] %d" % (" " * 20, input_state, self.cur_pos))
	if input_state == 1:
	self.cur_pos = self.next_pos
	c = self.read_char()
	if c == '\n':
	self.cur_char = EOL
	self.input_state = 2
	elif not c:
	self.cur_char = EOL
	self.input_state = 4
	else:
	self.cur_char = c
	elif input_state == 2:
	self.cur_char = '\n'
	self.input_state = 3
	elif input_state == 3:
	self.cur_line += 1
	self.cur_line_start = self.cur_pos = self.next_pos
	self.cur_char = BOL
	self.input_state = 1
	elif input_state == 4:
	self.cur_char = EOF
	self.input_state = 5
	else: # input_state = 5
	self.cur_char = ''
	if self.trace:
	print("--> [%d] %d %r" % (input_state, self.cur_pos, self.cur_char))

	def position(self) -> tuple:
	"""
	Return a tuple (name, line, col) representing the location of
	the last token read using the read() method. \|name\| is the
	name that was provided to the Scanner constructor; \|line\|
	is the line number in the stream (1-based); \|col\| is the
	position within the line of the first character of the token
	(0-based).
	"""
	return self.last_token_position_tuple

	def get_position(self):
	"""
	Python accessible wrapper around position(), only for error reporting.
	"""
	return self.position()

	def begin(self, state_name):
	"""Set the current state of the scanner to the named state."""
	self.initial_state = (
	self.lexicon.get_initial_state(state_name))
	self.state_name = state_name

	def produce(self, value, text=None):
	"""
	Called from an action procedure, causes \|value\| to be returned
	as the token value from read(). If \|text\| is supplied, it is
	returned in place of the scanned text.

	produce() can be called more than once during a single call to an action
	procedure, in which case the tokens are queued up and returned one
	at a time by subsequent calls to read(), until the queue is empty,
	whereupon scanning resumes.
	"""
	if text is None:
	text = self.text
	self.queue.append(((value, text), self.current_scanner_position_tuple))

	def eof(self):
	"""
	Override this method if you want something to be done at
	end of file.
	"""
	pass

	@property
	def start_line(self):
	return self.last_token_position_tuple[1]