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yapps2.py
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yapps2.py
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#!/usr/bin/env python
# Permission is hereby granted, free of charge, to any person obtaining
# a copy of this software and associated documentation files (the
# "Software"), to deal in the Software without restriction, including
# without limitation the rights to use, copy, modify, merge, publish,
# distribute, sublicense, and/or sell copies of the Software, and to
# permit persons to whom the Software is furnished to do so, subject to
# the following conditions:
#
# The above copyright notice and this permission notice shall be included
# in all copies or substantial portions of the Software.
#
# THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
# EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
# MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.
# IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY
# CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT,
# TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE
# SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
# Yapps 3.0 - yet another python parser system
# Amit J Patel, January 1999
# German M. Bravo, December 2011
# See http://theory.stanford.edu/~amitp/Yapps/ for documentation and updates
# v3.0.0 changes (December 2011)
# * PEP 8 cleanups
# * Optimizations in the scanning (added cache and cleanup() for it)
# v2.0.1 changes (October 2001):
# * The exceptions inherit the standard Exception class (thanks Rich Salz)
# * The scanner can use either a different set of regular expressions
# per instance, or allows the subclass to define class fields with
# the patterns. This improves performance when many Scanner objects
# are being created, because the regular expressions don't have to
# be recompiled each time. (thanks Amaury Forgeot d'Arc)
# v2.0.2 changes (April 2002)
# * Bug fix: generating the 'else' clause when the comment was too
# long. v2.0.1 was missing a newline. (thanks Steven Engelhardt)
# v2.0.3 changes (August 2002)
# * Bug fix: inline tokens using the r"" syntax.
# v.2.0.4 changes (July 2003)
# * Style change: Replaced `expr` with repr(expr)
# * Style change: Changed (b >= a and b < c) into (a <= b < c)
# * Bug fix: identifiers in grammar rules that had digits in them were
# not accessible in the {{python code}} section
# * Bug fix: made the SyntaxError exception class call
# Exception.__init__ (thanks Alex Verstak)
# * Style change: replaced raise "string exception" with raise
# ClassException(...) (thanks Alex Verstak)
from string import find
from string import join
import sys
import re
INDENT = " " * 4
class Generator:
def __init__(self, name, options, tokens, rules):
self.change_count = 0
self.name = name
self.options = options
self.preparser = ''
self.postparser = None
self.tokens = {} # Map from tokens to regexps
self.sets = {} # Map for restriction sets
self.ignore = [] # List of token names to ignore in parsing
self.terminals = [] # List of token names (to maintain ordering)
for n, t in tokens:
if n == '#ignore':
n = t
self.ignore.append(n)
if n in self.tokens.keys() and self.tokens[n] != t:
if n not in self.ignore:
print 'Warning: token', n, 'multiply defined.'
else:
self.terminals.append(n)
self.tokens[n] = t
self.rules = {} # Map from rule names to parser nodes
self.params = {} # Map from rule names to parameters
self.goals = [] # List of rule names (to maintain ordering)
for n, p, r in rules:
self.params[n] = p
self.rules[n] = r
self.goals.append(n)
self.output = sys.stdout
def __getitem__(self, name):
# Get options
return self.options.get(name, 0)
def non_ignored_tokens(self):
return filter(lambda x, i=self.ignore: x not in i, self.terminals)
def changed(self):
self.change_count = 1 + self.change_count
def subset(self, a, b):
"See if all elements of a are inside b"
for x in a:
if x not in b:
return 0
return 1
def equal_set(self, a, b):
"See if a and b have the same elements"
if len(a) != len(b):
return 0
if a == b:
return 1
return self.subset(a, b) and self.subset(b, a)
def add_to(self, parent, additions):
"Modify parent to include all elements in additions"
for x in additions:
if x not in parent:
parent.append(x)
self.changed()
def equate(self, a, b):
self.add_to(a, b)
self.add_to(b, a)
def write(self, *args):
for a in args:
self.output.write(a)
def in_test(self, r, x, full, b):
if not b:
return '0'
if len(b) == 1:
return '%s == %s' % (x, repr(b[0]))
if full and len(b) > len(full) / 2:
# Reverse the sense of the test.
not_b = filter(lambda x, b=b:
x not in b, full)
return self.not_in_test(r, x, full, not_b)
n = None
for k, v in self.sets.items():
if v == b:
n = k
if n is None:
n = '%s_chks' % r
while n in self.sets:
n += '_'
self.sets[n] = b
b_set = 'self.%s' % n
return '%s in %s' % (x, b_set)
def not_in_test(self, r, x, full, b):
if not b:
return '1'
if len(b) == 1:
return '%s != %s' % (x, repr(b[0]))
n = None
for k, v in self.sets.items():
if v == b:
n = k
if n is None:
n = '%s_chks' % r
while n in self.sets:
n += '_'
self.sets[n] = b
b_set = 'self.%s' % n
return '%s not in %s' % (x, b_set)
def peek_call(self, r, a):
n = None
for k, v in self.sets.items():
if v == a:
n = k
if n is None:
n = '%s_rsts' % r
while n in self.sets:
n += '_'
self.sets[n] = a
a_set = 'self.%s' % n
if self.equal_set(a, self.non_ignored_tokens()):
a_set = ''
if self['context-insensitive-scanner']:
a_set = ''
return 'self._peek(%s)' % a_set
def peek_test(self, r, a, b):
if self.subset(a, b):
return '1'
if self['context-insensitive-scanner']:
a = self.non_ignored_tokens()
return self.in_test(r, self.peek_call(r, a), a, b)
def not_peek_test(self, r, a, b):
if self.subset(a, b):
return '0'
return self.not_in_test(r, self.peek_call(r, a), a, b)
def calculate(self):
while 1:
for r in self.goals:
self.rules[r].setup(self, r)
if self.change_count == 0:
break
self.change_count = 0
while 1:
for r in self.goals:
self.rules[r].update(self)
if self.change_count == 0:
break
self.change_count = 0
def dump_information(self):
self.calculate()
for r in self.goals:
print ' _____' + '_' * len(r)
print ('___/Rule ' + r + '\\' + '_' * 80)[:79]
queue = [self.rules[r]]
while queue:
top = queue[0]
del queue[0]
print repr(top)
top.first.sort()
top.follow.sort()
eps = []
if top.accepts_epsilon:
eps = ['(null)']
print ' FIRST:', join(top.first + eps, ', ')
print ' FOLLOW:', join(top.follow, ', ')
for x in top.get_children():
queue.append(x)
def generate_output(self):
self.calculate()
self.write(self.preparser)
self.write("class ", self.name, "Scanner(Scanner):\n")
self.write(" patterns = None\n")
self.write(" _patterns = [\n")
for p in self.terminals:
self.write(" (%s, %s),\n" % (
repr(p), repr(self.tokens[p])))
self.write(" ]\n\n")
self.write(" def __init__(self, input=None):\n")
self.write(" if hasattr(self, 'setup_patterns'):\n")
self.write(" self.setup_patterns(self._patterns)\n")
self.write(" elif self.patterns is None:\n")
self.write(" self.__class__.patterns = []\n")
self.write(" for t, p in self._patterns:\n")
self.write(" self.patterns.append((t, re.compile(p)))\n")
self.write(" super(", self.name, "Scanner, self).__init__(None, %s, input)\n" %
repr(self.ignore))
self.write("\n\n")
self.write("class ", self.name, "(Parser):\n")
for r in self.goals:
self.write(INDENT, "def ", r, "(self")
if self.params[r]:
self.write(", ", self.params[r])
self.write("):\n")
self.rules[r].output(self, INDENT + INDENT)
self.write("\n")
for n, s in self.sets.items():
self.write(" %s = %s\n" % (n, frozenset(s)))
if self.postparser is not None:
self.write(self.postparser)
else:
self.write("\n")
self.write("P = ", self.name, "(", self.name, "Scanner())\n")
self.write("def parse(rule, text, *args):\n")
self.write(" P.reset(text)\n")
self.write(" return wrap_error_reporter(P, rule, *args)\n")
self.write("\n")
self.write("if __name__ == '__main__':\n")
self.write(INDENT, "from sys import argv, stdin\n")
self.write(INDENT, "if len(argv) >= 2:\n")
self.write(INDENT * 2, "if len(argv) >= 3:\n")
self.write(INDENT * 3, "f = open(argv[2],'r')\n")
self.write(INDENT * 2, "else:\n")
self.write(INDENT * 3, "f = stdin\n")
self.write(INDENT * 2, "print parse(argv[1], f.read())\n")
self.write(INDENT, "else: print 'Args: <rule> [<filename>]'\n")
######################################################################
class Node:
def __init__(self):
self.first = []
self.follow = []
self.accepts_epsilon = 0
self.rule = '?'
def setup(self, gen, rule):
# Setup will change accepts_epsilon,
# sometimes from 0 to 1 but never 1 to 0.
# It will take a finite number of steps to set things up
self.rule = rule
def used(self, vars):
"Return two lists: one of vars used, and the other of vars assigned"
return vars, []
def get_children(self):
"Return a list of sub-nodes"
return []
def __repr__(self):
return str(self)
def update(self, gen):
if self.accepts_epsilon:
gen.add_to(self.first, self.follow)
def output(self, gen, indent):
"Write out code to _gen_ with _indent_:string indentation"
gen.write(indent, "assert 0 # Invalid parser node\n")
class Terminal(Node):
def __init__(self, token):
Node.__init__(self)
self.token = token
self.accepts_epsilon = 0
def __str__(self):
return self.token
def update(self, gen):
Node.update(self, gen)
if self.first != [self.token]:
self.first = [self.token]
gen.changed()
def output(self, gen, indent):
gen.write(indent)
if re.match('[a-zA-Z_][a-zA-Z_0-9]*$', self.token):
gen.write(self.token, " = ")
gen.write("self._scan(%s)\n" % repr(self.token))
class Eval(Node):
def __init__(self, expr):
Node.__init__(self)
self.expr = expr
def setup(self, gen, rule):
Node.setup(self, gen, rule)
if not self.accepts_epsilon:
self.accepts_epsilon = 1
gen.changed()
def __str__(self):
return '{{ %s }}' % self.expr.strip()
def output(self, gen, indent):
gen.write(indent, self.expr.strip(), '\n')
class NonTerminal(Node):
def __init__(self, name, args):
Node.__init__(self)
self.name = name
self.args = args
def setup(self, gen, rule):
Node.setup(self, gen, rule)
try:
self.target = gen.rules[self.name]
if self.accepts_epsilon != self.target.accepts_epsilon:
self.accepts_epsilon = self.target.accepts_epsilon
gen.changed()
except KeyError: # Oops, it's nonexistent
print 'Error: no rule <%s>' % self.name
self.target = self
def __str__(self):
return '<%s>' % self.name
def update(self, gen):
Node.update(self, gen)
gen.equate(self.first, self.target.first)
gen.equate(self.follow, self.target.follow)
def output(self, gen, indent):
gen.write(indent)
gen.write(self.name, " = ")
gen.write("self.", self.name, "(", self.args, ")\n")
class Sequence(Node):
def __init__(self, *children):
Node.__init__(self)
self.children = children
def setup(self, gen, rule):
Node.setup(self, gen, rule)
for c in self.children:
c.setup(gen, rule)
if not self.accepts_epsilon:
# If it's not already accepting epsilon, it might now do so.
for c in self.children:
# any non-epsilon means all is non-epsilon
if not c.accepts_epsilon:
break
else:
self.accepts_epsilon = 1
gen.changed()
def get_children(self):
return self.children
def __str__(self):
return '( %s )' % join(map(lambda x: str(x), self.children))
def update(self, gen):
Node.update(self, gen)
for g in self.children:
g.update(gen)
empty = 1
for g_i in range(len(self.children)):
g = self.children[g_i]
if empty:
gen.add_to(self.first, g.first)
if not g.accepts_epsilon:
empty = 0
if g_i == len(self.children) - 1:
next = self.follow
else:
next = self.children[1 + g_i].first
gen.add_to(g.follow, next)
if self.children:
gen.add_to(self.follow, self.children[-1].follow)
def output(self, gen, indent):
if self.children:
for c in self.children:
c.output(gen, indent)
else:
# Placeholder for empty sequences, just in case
gen.write(indent, 'pass\n')
class Choice(Node):
def __init__(self, *children):
Node.__init__(self)
self.children = children
def setup(self, gen, rule):
Node.setup(self, gen, rule)
for c in self.children:
c.setup(gen, rule)
if not self.accepts_epsilon:
for c in self.children:
if c.accepts_epsilon:
self.accepts_epsilon = 1
gen.changed()
def get_children(self):
return self.children
def __str__(self):
return '( %s )' % join(map(lambda x: str(x), self.children), ' | ')
def update(self, gen):
Node.update(self, gen)
for g in self.children:
g.update(gen)
for g in self.children:
gen.add_to(self.first, g.first)
gen.add_to(self.follow, g.follow)
for g in self.children:
gen.add_to(g.follow, self.follow)
if self.accepts_epsilon:
gen.add_to(self.first, self.follow)
def output(self, gen, indent):
test = "if"
gen.write(indent, "_token_ = ", gen.peek_call(self.rule, self.first), "\n")
tokens_seen = []
tokens_unseen = self.first[:]
if gen['context-insensitive-scanner']:
# Context insensitive scanners can return ANY token,
# not only the ones in first.
tokens_unseen = gen.non_ignored_tokens()
for c in self.children:
testset = c.first[:]
removed = []
for x in testset:
if x in tokens_seen:
testset.remove(x)
removed.append(x)
if x in tokens_unseen:
tokens_unseen.remove(x)
tokens_seen = tokens_seen + testset
if removed:
if not testset:
print 'Error in rule', self.rule + ':', c, 'never matches.'
else:
print 'Warning:', self
print ' * These tokens are being ignored:', join(removed, ', ')
print ' due to previous choices using them.'
if testset:
if not tokens_unseen: # context sensitive scanners only!
if test == 'if':
# if it's the first AND last test, then
# we can simply put the code without an if/else
c.output(gen, indent)
else:
gen.write(indent, "else:")
t = gen.in_test(self.rule, '', [], testset)
if len(t) < 70 - len(indent):
gen.write(" #", t)
gen.write("\n")
c.output(gen, indent + INDENT)
else:
gen.write(indent, test, " ",
gen.in_test(self.rule, '_token_', tokens_unseen, testset),
":\n")
c.output(gen, indent + INDENT)
test = "elif"
if gen['context-insensitive-scanner'] and tokens_unseen:
gen.write(indent, "else:\n")
gen.write(indent, INDENT, "raise SyntaxError(self._pos, ")
gen.write("'Could not match ", self.rule, "')\n")
class Wrapper(Node):
def __init__(self, child):
Node.__init__(self)
self.child = child
def setup(self, gen, rule):
Node.setup(self, gen, rule)
self.child.setup(gen, rule)
def get_children(self):
return [self.child]
def update(self, gen):
Node.update(self, gen)
self.child.update(gen)
gen.add_to(self.first, self.child.first)
gen.equate(self.follow, self.child.follow)
class Option(Wrapper):
def setup(self, gen, rule):
Wrapper.setup(self, gen, rule)
if not self.accepts_epsilon:
self.accepts_epsilon = 1
gen.changed()
def __str__(self):
return '[ %s ]' % str(self.child)
def output(self, gen, indent):
if self.child.accepts_epsilon:
print 'Warning in rule', self.rule + ': contents may be empty.'
gen.write(indent, "if %s:\n" %
gen.peek_test(self.rule, self.first, self.child.first))
self.child.output(gen, indent + INDENT)
class Plus(Wrapper):
def setup(self, gen, rule):
Wrapper.setup(self, gen, rule)
if self.accepts_epsilon != self.child.accepts_epsilon:
self.accepts_epsilon = self.child.accepts_epsilon
gen.changed()
def __str__(self):
return '%s+' % str(self.child)
def update(self, gen):
Wrapper.update(self, gen)
gen.add_to(self.follow, self.first)
def output(self, gen, indent):
if self.child.accepts_epsilon:
print 'Warning in rule', self.rule + ':'
print ' * The repeated pattern could be empty. The resulting'
print ' parser may not work properly.'
gen.write(indent, "while 1:\n")
self.child.output(gen, indent + INDENT)
union = self.first[:]
gen.add_to(union, self.follow)
gen.write(indent + INDENT, "if %s:\n" %
gen.not_peek_test(self.rule, union, self.child.first))
gen.write(indent + INDENT * 2, "break\n")
class Star(Plus):
def setup(self, gen, rule):
Wrapper.setup(self, gen, rule)
if not self.accepts_epsilon:
self.accepts_epsilon = 1
gen.changed()
def __str__(self):
return '%s*' % str(self.child)
def output(self, gen, indent):
if self.child.accepts_epsilon:
print 'Warning in rule', self.rule + ':'
print ' * The repeated pattern could be empty. The resulting'
print ' parser probably will not work properly.'
gen.write(indent, "while %s:\n" %
gen.peek_test(self.rule, self.follow, self.child.first))
self.child.output(gen, indent + INDENT)
######################################################################
# The remainder of this file is from parsedesc.{g,py}
def append(lst, x):
"Imperative append"
lst.append(x)
return lst
def add_inline_token(tokens, str):
tokens.insert(0, (str, eval(str, {}, {})))
return Terminal(str)
def cleanup_choice(lst):
if len(lst) == 0:
return Sequence([])
if len(lst) == 1:
return lst[0]
return apply(Choice, tuple(lst))
def cleanup_sequence(lst):
if len(lst) == 1:
return lst[0]
return apply(Sequence, tuple(lst))
def cleanup_rep(node, rep):
if rep == 'star':
return Star(node)
elif rep == 'plus':
return Plus(node)
else:
return node
def resolve_name(tokens, id, args):
if id in map(lambda x: x[0], tokens):
# It's a token
if args:
print 'Warning: ignoring parameters on TOKEN %s<<%s>>' % (id, args)
return Terminal(id)
else:
# It's a name, so assume it's a nonterminal
return NonTerminal(id, args)
################################################################################
# Contents of yappsrt follow.
# Parser
class NoMoreTokens(Exception):
"""
Another exception object, for when we run out of tokens
"""
pass
class Scanner(object):
def __init__(self, patterns, ignore, input=None):
"""
Patterns is [(terminal,regex)...]
Ignore is [terminal,...];
Input is a string
"""
self.reset(input)
self.ignore = ignore
# The stored patterns are a pair (compiled regex,source
# regex). If the patterns variable passed in to the
# constructor is None, we assume that the class already has a
# proper .patterns list constructed
if patterns is not None:
self.patterns = []
for k, r in patterns:
self.patterns.append((k, re.compile(r)))
def reset(self, input):
self.tokens = []
self.restrictions = []
self.input = input
self.pos = 0
def __repr__(self):
"""
Print the last 10 tokens that have been scanned in
"""
output = ''
for t in self.tokens[-10:]:
output = "%s\n (@%s) %s = %s" % (output, t[0], t[2], repr(t[3]))
return output
def _scan(self, restrict):
"""
Should scan another token and add it to the list, self.tokens,
and add the restriction to self.restrictions
"""
# Keep looking for a token, ignoring any in self.ignore
token = None
while True:
best_pat = None
# Search the patterns for a match, with earlier
# tokens in the list having preference
best_pat_len = 0
for p, regexp in self.patterns:
# First check to see if we're restricting to this token
if restrict and p not in restrict and p not in self.ignore:
continue
m = regexp.match(self.input, self.pos)
if m:
# We got a match
best_pat = p
best_pat_len = len(m.group(0))
break
# If we didn't find anything, raise an error
if best_pat is None:
msg = "Bad Token"
if restrict:
msg = "Trying to find one of " + ", ".join(restrict)
err = SyntaxError("SyntaxError[@ char %s: %s]" % (repr(self.pos), msg))
err.pos = self.pos
raise err
# If we found something that isn't to be ignored, return it
if best_pat in self.ignore:
# This token should be ignored...
self.pos += best_pat_len
else:
end_pos = self.pos + best_pat_len
# Create a token with this data
token = (
self.pos,
end_pos,
best_pat,
self.input[self.pos:end_pos]
)
break
if token is not None:
self.pos = token[1]
# Only add this token if it's not in the list
# (to prevent looping)
if not self.tokens or token != self.tokens[-1]:
self.tokens.append(token)
self.restrictions.append(restrict)
return 1
return 0
def token(self, i, restrict=None):
"""
Get the i'th token, and if i is one past the end, then scan
for another token; restrict is a list of tokens that
are allowed, or 0 for any token.
"""
tokens_len = len(self.tokens)
if i == tokens_len: # We are at the end, get the next...
tokens_len += self._scan(restrict)
if i < tokens_len:
if restrict and self.restrictions[i] and restrict > self.restrictions[i]:
raise NotImplementedError("Unimplemented: restriction set changed")
return self.tokens[i]
raise NoMoreTokens
def rewind(self, i):
tokens_len = len(self.tokens)
if i <= tokens_len:
token = self.tokens[i]
self.tokens = self.tokens[:i]
self.restrictions = self.restrictions[:i]
self.pos = token[0]
class CachedScanner(Scanner):
"""
Same as Scanner, but keeps cached tokens for any given input
"""
_cache_ = {}
_goals_ = ['END']
@classmethod
def cleanup(cls):
cls._cache_ = {}
def __init__(self, patterns, ignore, input=None):
try:
self._tokens = self._cache_[input]
except KeyError:
self._tokens = None
self.__tokens = {}
self.__input = input
super(CachedScanner, self).__init__(patterns, ignore, input)
def reset(self, input):
try:
self._tokens = self._cache_[input]
except KeyError:
self._tokens = None
self.__tokens = {}
self.__input = input
super(CachedScanner, self).reset(input)
def __repr__(self):
if self._tokens is None:
return super(CachedScanner, self).__repr__()
output = ''
for t in self._tokens[-10:]:
output = "%s\n (@%s) %s = %s" % (output, t[0], t[2], repr(t[3]))
return output
def token(self, i, restrict=None):
if self._tokens is None:
token = super(CachedScanner, self).token(i, restrict)
self.__tokens[i] = token
if token[2] in self._goals_: # goal tokens
self._cache_[self.__input] = self._tokens = self.__tokens
return token
else:
token = self._tokens.get(i)
if token is None:
raise NoMoreTokens
return token
def rewind(self, i):
if self._tokens is None:
super(CachedScanner, self).rewind(i)
class Parser(object):
def __init__(self, scanner):
self._scanner = scanner
self._pos = 0
def reset(self, input):
self._scanner.reset(input)
self._pos = 0
def _peek(self, types):
"""
Returns the token type for lookahead; if there are any args
then the list of args is the set of token types to allow
"""
tok = self._scanner.token(self._pos, types)
return tok[2]
def _scan(self, type):
"""
Returns the matched text, and moves to the next token
"""
tok = self._scanner.token(self._pos, frozenset([type]))
if tok[2] != type:
err = SyntaxError("SyntaxError[@ char %s: %s]" % (repr(tok[0]), "Trying to find " + type))
err.pos = tok[0]
raise err
self._pos += 1
return tok[3]
def _rewind(self, n=1):
self._pos -= min(n, self._pos)
self._scanner.rewind(self._pos)
def print_error(input, err, scanner):
"""This is a really dumb long function to print error messages nicely."""
p = err.pos
# Figure out the line number
line = input[:p].count('\n')
print err.msg + " on line " + repr(line + 1) + ":"
# Now try printing part of the line
text = input[max(p - 80, 0):
p + 80]
p = p - max(p - 80, 0)
# Strip to the left
i = text[:p].rfind('\n')
j = text[:p].rfind('\r')
if i < 0 or (0 <= j < i):
i = j
if 0 <= i < p:
p = p - i - 1
text = text[i + 1:]
# Strip to the right
i = text.find('\n', p)
j = text.find('\r', p)
if i < 0 or (0 <= j < i):
i = j
if i >= 0:
text = text[:i]
# Now shorten the text
while len(text) > 70 and p > 60:
# Cut off 10 chars
text = "..." + text[10:]
p = p - 7
# Now print the string, along with an indicator
print '> ', text
print '> ', ' ' * p + '^'
print 'List of nearby tokens:', scanner
def wrap_error_reporter(parser, rule, *args):
try:
return getattr(parser, rule)(*args)
except SyntaxError, s:
input = parser._scanner.input
try:
print_error(input, s, parser._scanner)
raise
except ImportError:
print "Syntax Error %s on line %d" % (s.msg, input[:s.pos].count('\n') + 1)
except NoMoreTokens:
print "Could not complete parsing; stopped around here:"
print parser._scanner
# End yappsrt
################################################################################
class ParserDescriptionScanner(Scanner):
def __init__(self, str):
Scanner.__init__(self, [
('"rule"', 'rule'),
('"ignore"', 'ignore'),
('"token"', 'token'),
('"option"', 'option'),
('":"', ':'),
('"parser"', 'parser'),
('[ \011\015\012]+', '[ \011\015\012]+'),
('#.*?\015?\012', '#.*?\015?\012'),
('END', '$'),
('ATTR', '<<.+?>>'),
('STMT', '{{.+?}}'),
('ID', '[a-zA-Z_][a-zA-Z_0-9]*'),
('STR', '[rR]?\'([^\\n\'\\\\]|\\\\.)*\'|[rR]?"([^\\n"\\\\]|\\\\.)*"'),
('LP', '\\('),
('RP', '\\)'),
('LB', '\\['),
('RB', '\\]'),
('OR', '[|]'),
('STAR', '[*]'),
('PLUS', '[+]'),
], ['[ \011\015\012]+', '#.*?\015?\012'], str)
class ParserDescription(Parser):
def Parser(self):
self._scan('"parser"')
ID = self._scan('ID')
self._scan('":"')
Options = self.Options()
Tokens = self.Tokens()
Rules = self.Rules(Tokens)
END = self._scan('END')
return Generator(ID, Options, Tokens, Rules)
def Options(self):
opt = {}
while self._peek(frozenset(['"option"', '"token"', '"ignore"', 'END', '"rule"'])) == '"option"':
self._scan('"option"')
self._scan('":"')
Str = self.Str()
opt[Str] = 1
return opt
def Tokens(self):
tok = []
while self._peek(frozenset(['"token"', '"ignore"', 'END', '"rule"'])) in ['"token"', '"ignore"']:
_token_ = self._peek(frozenset(['"token"', '"ignore"']))
if _token_ == '"token"':