docs/tools/dump_ast_matchers.py - clang - Git at Google

 #!/usr/bin/env python
 # A tool to parse ASTMatchers.h and update the documentation in
 # ../LibASTMatchersReference.html automatically. Run from the
 # directory in which this file is located to update the docs.

 import collections
 import re
 import urllib2

 MATCHERS_FILE = '../../include/clang/ASTMatchers/ASTMatchers.h'

 # Each matcher is documented in one row of the form:
 #   result | name | argA
 # The subsequent row contains the documentation and is hidden by default,
 # becoming visible via javascript when the user clicks the matcher name.
 TD_TEMPLATE="""
 <tr><td>%(result)s</td><td class="name" onclick="toggle('%(id)s')"><a name="%(id)sAnchor">%(name)s</a></td><td>%(args)s</td></tr>
 <tr><td colspan="4" class="doc" id="%(id)s"><pre>%(comment)s</pre></td></tr>
 """

 # We categorize the matchers into these three categories in the reference:
 node_matchers = {}
 narrowing_matchers = {}
 traversal_matchers = {}

 # We output multiple rows per matcher if the matcher can be used on multiple
 # node types. Thus, we need a new id per row to control the documentation
 # pop-up. ids[name] keeps track of those ids.
 ids = collections.defaultdict(int)

 # Cache for doxygen urls we have already verified.
 doxygen_probes = {}

 def esc(text):
   """Escape any html in the given text."""
   text = re.sub(r'&', '&amp;', text)
   text = re.sub(r'<', '&lt;', text)
   text = re.sub(r'>', '&gt;', text)
   def link_if_exists(m):
     name = m.group(1)
     url = 'http://clang.llvm.org/doxygen/classclang_1_1%s.html' % name
     if url not in doxygen_probes:
       try:
         print 'Probing %s...' % url
         urllib2.urlopen(url)
         doxygen_probes[url] = True
       except:
         doxygen_probes[url] = False
     if doxygen_probes[url]:
       return r'Matcher&lt;<a href="%s">%s</a>&gt;' % (url, name)
     else:
       return m.group(0)
   text = re.sub(
     r'Matcher&lt;([^\*&]+)&gt;', link_if_exists, text)
   return text

 def extract_result_types(comment):
   """Extracts a list of result types from the given comment.

      We allow annotations in the comment of the matcher to specify what
      nodes a matcher can match on. Those comments have the form:
        Usable as: Any Matcher | (Matcher<T1>[, Matcher<t2>[, ...]])

      Returns ['*'] in case of 'Any Matcher', or ['T1', 'T2', ...].
      Returns the empty list if no 'Usable as' specification could be
      parsed.
   """
   result_types = []
   m = re.search(r'Usable as: Any Matcher[\s\n]*$', comment, re.S)
   if m:
     return ['*']
   while True:
     m = re.match(r'^(.*)Matcher<([^>]+)>\s*,?[\s\n]*$', comment, re.S)
     if not m:
       if re.search(r'Usable as:\s*$', comment):
         return result_types
       else:
         return None
     result_types += [m.group(2)]
     comment = m.group(1)

 def strip_doxygen(comment):
   """Returns the given comment without \-escaped words."""
   # If there is only a doxygen keyword in the line, delete the whole line.
   comment = re.sub(r'^\\[^\s]+\n', r'', comment, flags=re.M)

   # If there is a doxygen \see command, change the \see prefix into "See also:".
   # FIXME: it would be better to turn this into a link to the target instead.
   comment = re.sub(r'\\see', r'See also:', comment)

   # Delete the doxygen command and the following whitespace.
   comment = re.sub(r'\\[^\s]+\s+', r'', comment)
   return comment

 def unify_arguments(args):
   """Gets rid of anything the user doesn't care about in the argument list."""
   args = re.sub(r'internal::', r'', args)
   args = re.sub(r'const\s+(.*)&', r'\1 ', args)
   args = re.sub(r'&', r' ', args)
   args = re.sub(r'(^|\s)M\d?(\s)', r'\1Matcher<*>\2', args)
   return args

 def add_matcher(result_type, name, args, comment, is_dyncast=False):
   """Adds a matcher to one of our categories."""
   if name == 'id':
      # FIXME: Figure out whether we want to support the 'id' matcher.
      return
   matcher_id = '%s%d' % (name, ids[name])
   ids[name] += 1
   args = unify_arguments(args)
   matcher_html = TD_TEMPLATE % {
     'result': esc('Matcher<%s>' % result_type),
     'name': name,
     'args': esc(args),
     'comment': esc(strip_doxygen(comment)),
     'id': matcher_id,
   }
   if is_dyncast:
     node_matchers[result_type + name] = matcher_html
   # Use a heuristic to figure out whether a matcher is a narrowing or
   # traversal matcher. By default, matchers that take other matchers as
   # arguments (and are not node matchers) do traversal. We specifically
   # exclude known narrowing matchers that also take other matchers as
   # arguments.
   elif ('Matcher<' not in args or
         name in ['allOf', 'anyOf', 'anything', 'unless']):
     narrowing_matchers[result_type + name + esc(args)] = matcher_html
   else:
     traversal_matchers[result_type + name + esc(args)] = matcher_html

 def act_on_decl(declaration, comment, allowed_types):
   """Parse the matcher out of the given declaration and comment.

      If 'allowed_types' is set, it contains a list of node types the matcher
      can match on, as extracted from the static type asserts in the matcher
      definition.
   """
   if declaration.strip():
     # Node matchers are defined by writing:
     #   VariadicDynCastAllOfMatcher<ResultType, ArgumentType> name;
     m = re.match(r""".*Variadic(?:DynCast)?AllOfMatcher\s*<
                        \s*([^\s,]+)\s*(?:,
                        \s*([^\s>]+)\s*)?>
                        \s*([^\s;]+)\s*;\s*$""", declaration, flags=re.X)
     if m:
       result, inner, name = m.groups()
       if not inner:
         inner = result
       add_matcher(result, name, 'Matcher<%s>...' % inner,
                   comment, is_dyncast=True)
       return

     # Parse the various matcher definition macros.
     m = re.match(""".*AST_TYPE_MATCHER\(
                        \s*([^\s,]+\s*),
                        \s*([^\s,]+\s*)
                      \)\s*;\s*$""", declaration, flags=re.X)
     if m:
       inner, name = m.groups()
       add_matcher('Type', name, 'Matcher<%s>...' % inner,
                   comment, is_dyncast=True)
       # FIXME: re-enable once we have implemented casting on the TypeLoc
       # hierarchy.
       # add_matcher('TypeLoc', '%sLoc' % name, 'Matcher<%sLoc>...' % inner,
       #             comment, is_dyncast=True)
       return

     m = re.match(""".*AST_TYPE(LOC)?_TRAVERSE_MATCHER\(
                        \s*([^\s,]+\s*),
                        \s*(?:[^\s,]+\s*),
                        \s*AST_POLYMORPHIC_SUPPORTED_TYPES\(([^)]*)\)
                      \)\s*;\s*$""", declaration, flags=re.X)
     if m:
       loc, name, results = m.groups()[0:3]
       result_types = [r.strip() for r in results.split(',')]

       comment_result_types = extract_result_types(comment)
       if (comment_result_types and
           sorted(result_types) != sorted(comment_result_types)):
         raise Exception('Inconsistent documentation for: %s' % name)
       for result_type in result_types:
         add_matcher(result_type, name, 'Matcher<Type>', comment)
         if loc:
           add_matcher('%sLoc' % result_type, '%sLoc' % name, 'Matcher<TypeLoc>',
                       comment)
       return

     m = re.match(r"""^\s*AST_POLYMORPHIC_MATCHER(_P)?(.?)(?:_OVERLOAD)?\(
                           \s*([^\s,]+)\s*,
                           \s*AST_POLYMORPHIC_SUPPORTED_TYPES\(([^)]*)\)
                        (?:,\s*([^\s,]+)\s*
                           ,\s*([^\s,]+)\s*)?
                        (?:,\s*([^\s,]+)\s*
                           ,\s*([^\s,]+)\s*)?
                        (?:,\s*\d+\s*)?
                       \)\s*{\s*$""", declaration, flags=re.X)

     if m:
       p, n, name, results = m.groups()[0:4]
       args = m.groups()[4:]
       result_types = [r.strip() for r in results.split(',')]
       if allowed_types and allowed_types != result_types:
         raise Exception('Inconsistent documentation for: %s' % name)
       if n not in ['', '2']:
         raise Exception('Cannot parse "%s"' % declaration)
       args = ', '.join('%s %s' % (args[i], args[i+1])
                        for i in range(0, len(args), 2) if args[i])
       for result_type in result_types:
         add_matcher(result_type, name, args, comment)
       return

     m = re.match(r"""^\s*AST_MATCHER_FUNCTION(_P)?(.?)(?:_OVERLOAD)?\(
                        (?:\s*([^\s,]+)\s*,)?
                           \s*([^\s,]+)\s*
                        (?:,\s*([^\s,]+)\s*
                           ,\s*([^\s,]+)\s*)?
                        (?:,\s*([^\s,]+)\s*
                           ,\s*([^\s,]+)\s*)?
                        (?:,\s*\d+\s*)?
                       \)\s*{\s*$""", declaration, flags=re.X)
     if m:
       p, n, result, name = m.groups()[0:4]
       args = m.groups()[4:]
       if n not in ['', '2']:
         raise Exception('Cannot parse "%s"' % declaration)
       args = ', '.join('%s %s' % (args[i], args[i+1])
                        for i in range(0, len(args), 2) if args[i])
       add_matcher(result, name, args, comment)
       return

     m = re.match(r"""^\s*AST_MATCHER(_P)?(.?)(?:_OVERLOAD)?\(
                        (?:\s*([^\s,]+)\s*,)?
                           \s*([^\s,]+)\s*
                        (?:,\s*([^,]+)\s*
                           ,\s*([^\s,]+)\s*)?
                        (?:,\s*([^\s,]+)\s*
                           ,\s*([^\s,]+)\s*)?
                        (?:,\s*\d+\s*)?
                       \)\s*{\s*$""", declaration, flags=re.X)
     if m:
       p, n, result, name = m.groups()[0:4]
       args = m.groups()[4:]
       if not result:
         if not allowed_types:
           raise Exception('Did not find allowed result types for: %s' % name)
         result_types = allowed_types
       else:
         result_types = [result]
       if n not in ['', '2']:
         raise Exception('Cannot parse "%s"' % declaration)
       args = ', '.join('%s %s' % (args[i], args[i+1])
                        for i in range(0, len(args), 2) if args[i])
       for result_type in result_types:
         add_matcher(result_type, name, args, comment)
       return

     # Parse ArgumentAdapting matchers.
     m = re.match(
         r"""^.*ArgumentAdaptingMatcherFunc<.*>\s*(?:LLVM_ATTRIBUTE_UNUSED\s*)
               ([a-zA-Z]*)\s*=\s*{};$""",
         declaration, flags=re.X)
     if m:
       name = m.groups()[0]
       add_matcher('*', name, 'Matcher<*>', comment)
       return

     # Parse Variadic functions.
     m = re.match(
         r"""^.*internal::VariadicFunction\s*<\s*([^,]+),\s*([^,]+),\s*[^>]+>\s*
               ([a-zA-Z]*)\s*=\s*{.*};$""",
         declaration, flags=re.X)
     if m:
       result, arg, name = m.groups()[:3]
       add_matcher(result, name, '%s, ..., %s' % (arg, arg), comment)
       return

     # Parse Variadic operator matchers.
     m = re.match(
         r"""^.*VariadicOperatorMatcherFunc\s*<\s*([^,]+),\s*([^\s>]+)\s*>\s*
               ([a-zA-Z]*)\s*=\s*{.*};$""",
         declaration, flags=re.X)
     if m:
       min_args, max_args, name = m.groups()[:3]
       if max_args == '1':
         add_matcher('*', name, 'Matcher<*>', comment)
         return
       elif max_args == 'UINT_MAX':
         add_matcher('*', name, 'Matcher<*>, ..., Matcher<*>', comment)
         return


     # Parse free standing matcher functions, like:
     #   Matcher<ResultType> Name(Matcher<ArgumentType> InnerMatcher) {
     m = re.match(r"""^\s*(.*)\s+
                      ([^\s\(]+)\s*\(
                      (.*)
                      \)\s*{""", declaration, re.X)
     if m:
       result, name, args = m.groups()
       args = ', '.join(p.strip() for p in args.split(','))
       m = re.match(r'.*\s+internal::(Bindable)?Matcher<([^>]+)>$', result)
       if m:
         result_types = [m.group(2)]
       else:
         result_types = extract_result_types(comment)
       if not result_types:
         if not comment:
           # Only overloads don't have their own doxygen comments; ignore those.
           print 'Ignoring "%s"' % name
         else:
           print 'Cannot determine result type for "%s"' % name
       else:
         for result_type in result_types:
           add_matcher(result_type, name, args, comment)
     else:
       print '*** Unparsable: "' + declaration + '" ***'

 def sort_table(matcher_type, matcher_map):
   """Returns the sorted html table for the given row map."""
   table = ''
   for key in sorted(matcher_map.keys()):
     table += matcher_map[key] + '\n'
   return ('<!-- START_%(type)s_MATCHERS -->\n' +
           '%(table)s' +
           '<!--END_%(type)s_MATCHERS -->') % {
     'type': matcher_type,
     'table': table,
   }

 # Parse the ast matchers.
 # We alternate between two modes:
 # body = True: We parse the definition of a matcher. We need
 #   to parse the full definition before adding a matcher, as the
 #   definition might contain static asserts that specify the result
 #   type.
 # body = False: We parse the comments and declaration of the matcher.
 comment = ''
 declaration = ''
 allowed_types = []
 body = False
 for line in open(MATCHERS_FILE).read().splitlines():
   if body:
     if line.strip() and line[0] == '}':
       if declaration:
         act_on_decl(declaration, comment, allowed_types)
         comment = ''
         declaration = ''
         allowed_types = []
       body = False
     else:
       m = re.search(r'is_base_of<([^,]+), NodeType>', line)
       if m and m.group(1):
         allowed_types += [m.group(1)]
     continue
   if line.strip() and line.lstrip()[0] == '/':
     comment += re.sub(r'/+\s?', '', line) + '\n'
   else:
     declaration += ' ' + line
     if ((not line.strip()) or
         line.rstrip()[-1] == ';' or
         (line.rstrip()[-1] == '{' and line.rstrip()[-3:] != '= {')):
       if line.strip() and line.rstrip()[-1] == '{':
         body = True
       else:
         act_on_decl(declaration, comment, allowed_types)
         comment = ''
         declaration = ''
         allowed_types = []

 node_matcher_table = sort_table('DECL', node_matchers)
 narrowing_matcher_table = sort_table('NARROWING', narrowing_matchers)
 traversal_matcher_table = sort_table('TRAVERSAL', traversal_matchers)

 reference = open('../LibASTMatchersReference.html').read()
 reference = re.sub(r'<!-- START_DECL_MATCHERS.*END_DECL_MATCHERS -->',
                    node_matcher_table, reference, flags=re.S)
 reference = re.sub(r'<!-- START_NARROWING_MATCHERS.*END_NARROWING_MATCHERS -->',
                    narrowing_matcher_table, reference, flags=re.S)
 reference = re.sub(r'<!-- START_TRAVERSAL_MATCHERS.*END_TRAVERSAL_MATCHERS -->',
                    traversal_matcher_table, reference, flags=re.S)

 with open('../LibASTMatchersReference.html', 'wb') as output:
   output.write(reference)
	#!/usr/bin/env python
	# A tool to parse ASTMatchers.h and update the documentation in
	# ../LibASTMatchersReference.html automatically. Run from the
	# directory in which this file is located to update the docs.

	import collections
	import re
	import urllib2

	MATCHERS_FILE = '../../include/clang/ASTMatchers/ASTMatchers.h'

	# Each matcher is documented in one row of the form:
	# result \| name \| argA
	# The subsequent row contains the documentation and is hidden by default,
	# becoming visible via javascript when the user clicks the matcher name.
	TD_TEMPLATE="""
	<tr><td>%(result)s</td><td class="name" onclick="toggle('%(id)s')"><a name="%(id)sAnchor">%(name)s</a></td><td>%(args)s</td></tr>
	<tr><td colspan="4" class="doc" id="%(id)s"><pre>%(comment)s</pre></td></tr>
	"""

	# We categorize the matchers into these three categories in the reference:
	node_matchers = {}
	narrowing_matchers = {}
	traversal_matchers = {}

	# We output multiple rows per matcher if the matcher can be used on multiple
	# node types. Thus, we need a new id per row to control the documentation
	# pop-up. ids[name] keeps track of those ids.
	ids = collections.defaultdict(int)

	# Cache for doxygen urls we have already verified.
	doxygen_probes = {}

	def esc(text):
	"""Escape any html in the given text."""
	text = re.sub(r'&', '&', text)
	text = re.sub(r'<', '<', text)
	text = re.sub(r'>', '>', text)
	def link_if_exists(m):
	name = m.group(1)
	url = 'http://clang.llvm.org/doxygen/classclang_1_1%s.html' % name
	if url not in doxygen_probes:
	try:
	print 'Probing %s...' % url
	urllib2.urlopen(url)
	doxygen_probes[url] = True
	except:
	doxygen_probes[url] = False
	if doxygen_probes[url]:
	return r'Matcher<<a href="%s">%s</a>>' % (url, name)
	else:
	return m.group(0)
	text = re.sub(
	r'Matcher<([^\*&]+)>', link_if_exists, text)
	return text

	def extract_result_types(comment):
	"""Extracts a list of result types from the given comment.

	We allow annotations in the comment of the matcher to specify what
	nodes a matcher can match on. Those comments have the form:
	Usable as: Any Matcher \| (Matcher<T1>[, Matcher<t2>[, ...]])

	Returns ['*'] in case of 'Any Matcher', or ['T1', 'T2', ...].
	Returns the empty list if no 'Usable as' specification could be
	parsed.
	"""
	result_types = []
	m = re.search(r'Usable as: Any Matcher[\s\n]*$', comment, re.S)
	if m:
	return ['*']
	while True:
	m = re.match(r'^(.)Matcher<([^>]+)>\s,?[\s\n]*$', comment, re.S)
	if not m:
	if re.search(r'Usable as:\s*$', comment):
	return result_types
	else:
	return None
	result_types += [m.group(2)]
	comment = m.group(1)

	def strip_doxygen(comment):
	"""Returns the given comment without \-escaped words."""
	# If there is only a doxygen keyword in the line, delete the whole line.
	comment = re.sub(r'^\\[^\s]+\n', r'', comment, flags=re.M)

	# If there is a doxygen \see command, change the \see prefix into "See also:".
	# FIXME: it would be better to turn this into a link to the target instead.
	comment = re.sub(r'\\see', r'See also:', comment)

	# Delete the doxygen command and the following whitespace.
	comment = re.sub(r'\\[^\s]+\s+', r'', comment)
	return comment

	def unify_arguments(args):
	"""Gets rid of anything the user doesn't care about in the argument list."""
	args = re.sub(r'internal::', r'', args)
	args = re.sub(r'const\s+(.*)&', r'\1 ', args)
	args = re.sub(r'&', r' ', args)
	args = re.sub(r'(^\|\s)M\d?(\s)', r'\1Matcher<*>\2', args)
	return args

	def add_matcher(result_type, name, args, comment, is_dyncast=False):
	"""Adds a matcher to one of our categories."""
	if name == 'id':
	# FIXME: Figure out whether we want to support the 'id' matcher.
	return
	matcher_id = '%s%d' % (name, ids[name])
	ids[name] += 1
	args = unify_arguments(args)
	matcher_html = TD_TEMPLATE % {
	'result': esc('Matcher<%s>' % result_type),
	'name': name,
	'args': esc(args),
	'comment': esc(strip_doxygen(comment)),
	'id': matcher_id,
	}
	if is_dyncast:
	node_matchers[result_type + name] = matcher_html
	# Use a heuristic to figure out whether a matcher is a narrowing or
	# traversal matcher. By default, matchers that take other matchers as
	# arguments (and are not node matchers) do traversal. We specifically
	# exclude known narrowing matchers that also take other matchers as
	# arguments.
	elif ('Matcher<' not in args or
	name in ['allOf', 'anyOf', 'anything', 'unless']):
	narrowing_matchers[result_type + name + esc(args)] = matcher_html
	else:
	traversal_matchers[result_type + name + esc(args)] = matcher_html

	def act_on_decl(declaration, comment, allowed_types):
	"""Parse the matcher out of the given declaration and comment.

	If 'allowed_types' is set, it contains a list of node types the matcher
	can match on, as extracted from the static type asserts in the matcher
	definition.
	"""
	if declaration.strip():
	# Node matchers are defined by writing:
	# VariadicDynCastAllOfMatcher<ResultType, ArgumentType> name;
	m = re.match(r""".Variadic(?:DynCast)?AllOfMatcher\s<
	\s([^\s,]+)\s(?:,
	\s([^\s>]+)\s)?>
	\s([^\s;]+)\s;\s*$""", declaration, flags=re.X)
	if m:
	result, inner, name = m.groups()
	if not inner:
	inner = result
	add_matcher(result, name, 'Matcher<%s>...' % inner,
	comment, is_dyncast=True)
	return

	# Parse the various matcher definition macros.
	m = re.match(""".*AST_TYPE_MATCHER\(
	\s([^\s,]+\s),
	\s([^\s,]+\s)
	\)\s;\s$""", declaration, flags=re.X)
	if m:
	inner, name = m.groups()
	add_matcher('Type', name, 'Matcher<%s>...' % inner,
	comment, is_dyncast=True)
	# FIXME: re-enable once we have implemented casting on the TypeLoc
	# hierarchy.
	# add_matcher('TypeLoc', '%sLoc' % name, 'Matcher<%sLoc>...' % inner,
	# comment, is_dyncast=True)
	return

	m = re.match(""".*AST_TYPE(LOC)?_TRAVERSE_MATCHER\(
	\s([^\s,]+\s),
	\s(?:[^\s,]+\s),
	\sAST_POLYMORPHIC_SUPPORTED_TYPES\(([^)])\)
	\)\s;\s$""", declaration, flags=re.X)
	if m:
	loc, name, results = m.groups()[0:3]
	result_types = [r.strip() for r in results.split(',')]

	comment_result_types = extract_result_types(comment)
	if (comment_result_types and
	sorted(result_types) != sorted(comment_result_types)):
	raise Exception('Inconsistent documentation for: %s' % name)
	for result_type in result_types:
	add_matcher(result_type, name, 'Matcher<Type>', comment)
	if loc:
	add_matcher('%sLoc' % result_type, '%sLoc' % name, 'Matcher<TypeLoc>',
	comment)
	return

	m = re.match(r"""^\s*AST_POLYMORPHIC_MATCHER(_P)?(.?)(?:_OVERLOAD)?\(
	\s([^\s,]+)\s,
	\sAST_POLYMORPHIC_SUPPORTED_TYPES\(([^)])\)
	(?:,\s([^\s,]+)\s
	,\s([^\s,]+)\s)?
	(?:,\s([^\s,]+)\s
	,\s([^\s,]+)\s)?
	(?:,\s\d+\s)?
	\)\s{\s$""", declaration, flags=re.X)

	if m:
	p, n, name, results = m.groups()[0:4]
	args = m.groups()[4:]
	result_types = [r.strip() for r in results.split(',')]
	if allowed_types and allowed_types != result_types:
	raise Exception('Inconsistent documentation for: %s' % name)
	if n not in ['', '2']:
	raise Exception('Cannot parse "%s"' % declaration)
	args = ', '.join('%s %s' % (args[i], args[i+1])
	for i in range(0, len(args), 2) if args[i])
	for result_type in result_types:
	add_matcher(result_type, name, args, comment)
	return

	m = re.match(r"""^\s*AST_MATCHER_FUNCTION(_P)?(.?)(?:_OVERLOAD)?\(
	(?:\s([^\s,]+)\s,)?
	\s([^\s,]+)\s
	(?:,\s([^\s,]+)\s
	,\s([^\s,]+)\s)?
	(?:,\s([^\s,]+)\s
	,\s([^\s,]+)\s)?
	(?:,\s\d+\s)?
	\)\s{\s$""", declaration, flags=re.X)
	if m:
	p, n, result, name = m.groups()[0:4]
	args = m.groups()[4:]
	if n not in ['', '2']:
	raise Exception('Cannot parse "%s"' % declaration)
	args = ', '.join('%s %s' % (args[i], args[i+1])
	for i in range(0, len(args), 2) if args[i])
	add_matcher(result, name, args, comment)
	return

	m = re.match(r"""^\s*AST_MATCHER(_P)?(.?)(?:_OVERLOAD)?\(
	(?:\s([^\s,]+)\s,)?
	\s([^\s,]+)\s
	(?:,\s([^,]+)\s
	,\s([^\s,]+)\s)?
	(?:,\s([^\s,]+)\s
	,\s([^\s,]+)\s)?
	(?:,\s\d+\s)?
	\)\s{\s$""", declaration, flags=re.X)
	if m:
	p, n, result, name = m.groups()[0:4]
	args = m.groups()[4:]
	if not result:
	if not allowed_types:
	raise Exception('Did not find allowed result types for: %s' % name)
	result_types = allowed_types
	else:
	result_types = [result]
	if n not in ['', '2']:
	raise Exception('Cannot parse "%s"' % declaration)
	args = ', '.join('%s %s' % (args[i], args[i+1])
	for i in range(0, len(args), 2) if args[i])
	for result_type in result_types:
	add_matcher(result_type, name, args, comment)
	return

	# Parse ArgumentAdapting matchers.
	m = re.match(
	r"""^.ArgumentAdaptingMatcherFunc<.>\s(?:LLVM_ATTRIBUTE_UNUSED\s)
	([a-zA-Z])\s=\s*{};$""",
	declaration, flags=re.X)
	if m:
	name = m.groups()[0]
	add_matcher('', name, 'Matcher<>', comment)
	return

	# Parse Variadic functions.
	m = re.match(
	r"""^.internal::VariadicFunction\s<\s([^,]+),\s([^,]+),\s[^>]+>\s
	([a-zA-Z])\s=\s{.};$""",
	declaration, flags=re.X)
	if m:
	result, arg, name = m.groups()[:3]
	add_matcher(result, name, '%s, ..., %s' % (arg, arg), comment)
	return

	# Parse Variadic operator matchers.
	m = re.match(
	r"""^.VariadicOperatorMatcherFunc\s<\s([^,]+),\s([^\s>]+)\s>\s
	([a-zA-Z])\s=\s{.};$""",
	declaration, flags=re.X)
	if m:
	min_args, max_args, name = m.groups()[:3]
	if max_args == '1':
	add_matcher('', name, 'Matcher<>', comment)
	return
	elif max_args == 'UINT_MAX':
	add_matcher('', name, 'Matcher<>, ..., Matcher<*>', comment)
	return


	# Parse free standing matcher functions, like:
	# Matcher<ResultType> Name(Matcher<ArgumentType> InnerMatcher) {
	m = re.match(r"""^\s(.)\s+
	([^\s\(]+)\s*\(
	(.*)
	\)\s*{""", declaration, re.X)
	if m:
	result, name, args = m.groups()
	args = ', '.join(p.strip() for p in args.split(','))
	m = re.match(r'.*\s+internal::(Bindable)?Matcher<([^>]+)>$', result)
	if m:
	result_types = [m.group(2)]
	else:
	result_types = extract_result_types(comment)
	if not result_types:
	if not comment:
	# Only overloads don't have their own doxygen comments; ignore those.
	print 'Ignoring "%s"' % name
	else:
	print 'Cannot determine result type for "%s"' % name
	else:
	for result_type in result_types:
	add_matcher(result_type, name, args, comment)
	else:
	print '* Unparsable: "' + declaration + '" *'

	def sort_table(matcher_type, matcher_map):
	"""Returns the sorted html table for the given row map."""
	table = ''
	for key in sorted(matcher_map.keys()):
	table += matcher_map[key] + '\n'
	return ('<!-- START_%(type)s_MATCHERS -->\n' +
	'%(table)s' +
	'<!--END_%(type)s_MATCHERS -->') % {
	'type': matcher_type,
	'table': table,
	}

	# Parse the ast matchers.
	# We alternate between two modes:
	# body = True: We parse the definition of a matcher. We need
	# to parse the full definition before adding a matcher, as the
	# definition might contain static asserts that specify the result
	# type.
	# body = False: We parse the comments and declaration of the matcher.
	comment = ''
	declaration = ''
	allowed_types = []
	body = False
	for line in open(MATCHERS_FILE).read().splitlines():
	if body:
	if line.strip() and line[0] == '}':
	if declaration:
	act_on_decl(declaration, comment, allowed_types)
	comment = ''
	declaration = ''
	allowed_types = []
	body = False
	else:
	m = re.search(r'is_base_of<([^,]+), NodeType>', line)
	if m and m.group(1):
	allowed_types += [m.group(1)]
	continue
	if line.strip() and line.lstrip()[0] == '/':
	comment += re.sub(r'/+\s?', '', line) + '\n'
	else:
	declaration += ' ' + line
	if ((not line.strip()) or
	line.rstrip()[-1] == ';' or
	(line.rstrip()[-1] == '{' and line.rstrip()[-3:] != '= {')):
	if line.strip() and line.rstrip()[-1] == '{':
	body = True
	else:
	act_on_decl(declaration, comment, allowed_types)
	comment = ''
	declaration = ''
	allowed_types = []

	node_matcher_table = sort_table('DECL', node_matchers)
	narrowing_matcher_table = sort_table('NARROWING', narrowing_matchers)
	traversal_matcher_table = sort_table('TRAVERSAL', traversal_matchers)

	reference = open('../LibASTMatchersReference.html').read()
	reference = re.sub(r'<!-- START_DECL_MATCHERS.*END_DECL_MATCHERS -->',
	node_matcher_table, reference, flags=re.S)
	reference = re.sub(r'<!-- START_NARROWING_MATCHERS.*END_NARROWING_MATCHERS -->',
	narrowing_matcher_table, reference, flags=re.S)
	reference = re.sub(r'<!-- START_TRAVERSAL_MATCHERS.*END_TRAVERSAL_MATCHERS -->',
	traversal_matcher_table, reference, flags=re.S)

	with open('../LibASTMatchersReference.html', 'wb') as output:
	output.write(reference)