scripts/mbedtls_dev/c_parsing_helper.py - third_party/github/ARMmbed/mbedtls - Git at Google

 """Helper functions to parse C code in heavily constrained scenarios.

 Currently supported functionality:

 * read_function_declarations: read function declarations from a header file.
 """

 # Copyright The Mbed TLS Contributors
 # SPDX-License-Identifier: Apache-2.0 OR GPL-2.0-or-later

 ### WARNING: the code in this file has not been extensively reviewed yet.
 ### We do not think it is harmful, but it may be below our normal standards
 ### for robustness and maintainability.

 import re
 from typing import Dict, Iterable, Iterator, List, Optional, Tuple


 class ArgumentInfo:
     """Information about an argument to an API function."""
     #pylint: disable=too-few-public-methods

     _KEYWORDS = [
         'const', 'register', 'restrict',
         'int', 'long', 'short', 'signed', 'unsigned',
     ]
     _DECLARATION_RE = re.compile(
         r'(?P<type>\w[\w\s*]*?)\s*' +
         r'(?!(?:' + r'|'.join(_KEYWORDS) + r'))(?P<name>\b\w+\b)?' +
         r'\s*(?P<suffix>\[[^][]*\])?\Z',
         re.A | re.S)

     @classmethod
     def normalize_type(cls, typ: str) -> str:
         """Normalize whitespace in a type."""
         typ = re.sub(r'\s+', r' ', typ)
         typ = re.sub(r'\s*\*', r' *', typ)
         return typ

     def __init__(self, decl: str) -> None:
         self.decl = decl.strip()
         m = self._DECLARATION_RE.match(self.decl)
         if not m:
             raise ValueError(self.decl)
         self.type = self.normalize_type(m.group('type')) #type: str
         self.name = m.group('name') #type: Optional[str]
         self.suffix = m.group('suffix') if m.group('suffix') else '' #type: str


 class FunctionInfo:
     """Information about an API function."""
     #pylint: disable=too-few-public-methods

     # Regex matching the declaration of a function that returns void.
     VOID_RE = re.compile(r'\s*\bvoid\s*\Z', re.A)

     def __init__(self, #pylint: disable=too-many-arguments
                  filename: str,
                  line_number: int,
                  qualifiers: Iterable[str],
                  return_type: str,
                  name: str,
                  arguments: List[str]) -> None:
         self.filename = filename
         self.line_number = line_number
         self.qualifiers = frozenset(qualifiers)
         self.return_type = return_type
         self.name = name
         self.arguments = [ArgumentInfo(arg) for arg in arguments]

     def returns_void(self) -> bool:
         """Whether the function returns void."""
         return bool(self.VOID_RE.search(self.return_type))


 # Match one C comment.
 # Note that we match both comment types, so things like // in a /*...*/
 # comment are handled correctly.
 _C_COMMENT_RE = re.compile(r'//(?:[^\n]|\\\n)*|/\*.*?\*/', re.S)
 _NOT_NEWLINES_RE = re.compile(r'[^\n]+')

 def read_logical_lines(filename: str) -> Iterator[Tuple[int, str]]:
     """Read logical lines from a file.

     Logical lines are one or more physical line, with balanced parentheses.
     """
     with open(filename, encoding='utf-8') as inp:
         content = inp.read()
     # Strip comments, but keep newlines for line numbering
     content = re.sub(_C_COMMENT_RE,
                      lambda m: re.sub(_NOT_NEWLINES_RE, "", m.group(0)),
                      content)
     lines = enumerate(content.splitlines(), 1)
     for line_number, line in lines:
         # Read a logical line, containing balanced parentheses.
         # We assume that parentheses are balanced (this should be ok
         # since comments have been stripped), otherwise there will be
         # a gigantic logical line at the end.
         paren_level = line.count('(') - line.count(')')
         while paren_level > 0:
             _, more = next(lines) #pylint: disable=stop-iteration-return
             paren_level += more.count('(') - more.count(')')
             line += '\n' + more
         yield line_number, line

 _C_FUNCTION_DECLARATION_RE = re.compile(
     r'(?P<qualifiers>(?:(?:extern|inline|static)\b\s*)*)'
     r'(?P<return_type>\w[\w\s*]*?)\s*' +
     r'\b(?P<name>\w+)' +
     r'\s*\((?P<arguments>.*)\)\s*;',
     re.A | re.S)

 def read_function_declarations(functions: Dict[str, FunctionInfo],
                                filename: str) -> None:
     """Collect function declarations from a C header file."""
     for line_number, line in read_logical_lines(filename):
         m = _C_FUNCTION_DECLARATION_RE.match(line)
         if not m:
             continue
         qualifiers = m.group('qualifiers').split()
         return_type = m.group('return_type')
         name = m.group('name')
         arguments = m.group('arguments').split(',')
         if len(arguments) == 1 and re.match(FunctionInfo.VOID_RE, arguments[0]):
             arguments = []
         # Note: we replace any existing declaration for the same name.
         functions[name] = FunctionInfo(filename, line_number,
                                        qualifiers,
                                        return_type,
                                        name,
                                        arguments)
	"""Helper functions to parse C code in heavily constrained scenarios.

	Currently supported functionality:

	* read_function_declarations: read function declarations from a header file.
	"""

	# Copyright The Mbed TLS Contributors
	# SPDX-License-Identifier: Apache-2.0 OR GPL-2.0-or-later

	### WARNING: the code in this file has not been extensively reviewed yet.
	### We do not think it is harmful, but it may be below our normal standards
	### for robustness and maintainability.

	import re
	from typing import Dict, Iterable, Iterator, List, Optional, Tuple


	class ArgumentInfo:
	"""Information about an argument to an API function."""
	#pylint: disable=too-few-public-methods

	_KEYWORDS = [
	'const', 'register', 'restrict',
	'int', 'long', 'short', 'signed', 'unsigned',
	]
	_DECLARATION_RE = re.compile(
	r'(?P<type>\w[\w\s]?)\s*' +
	r'(?!(?:' + r'\|'.join(_KEYWORDS) + r'))(?P<name>\b\w+\b)?' +
	r'\s(?P<suffix>\[[^][]\])?\Z',
	re.A \| re.S)

	@classmethod
	def normalize_type(cls, typ: str) -> str:
	"""Normalize whitespace in a type."""
	typ = re.sub(r'\s+', r' ', typ)
	typ = re.sub(r'\s\', r' *', typ)
	return typ

	def __init__(self, decl: str) -> None:
	self.decl = decl.strip()
	m = self._DECLARATION_RE.match(self.decl)
	if not m:
	raise ValueError(self.decl)
	self.type = self.normalize_type(m.group('type')) #type: str
	self.name = m.group('name') #type: Optional[str]
	self.suffix = m.group('suffix') if m.group('suffix') else '' #type: str


	class FunctionInfo:
	"""Information about an API function."""
	#pylint: disable=too-few-public-methods

	# Regex matching the declaration of a function that returns void.
	VOID_RE = re.compile(r'\s\bvoid\s\Z', re.A)

	def __init__(self, #pylint: disable=too-many-arguments
	filename: str,
	line_number: int,
	qualifiers: Iterable[str],
	return_type: str,
	name: str,
	arguments: List[str]) -> None:
	self.filename = filename
	self.line_number = line_number
	self.qualifiers = frozenset(qualifiers)
	self.return_type = return_type
	self.name = name
	self.arguments = [ArgumentInfo(arg) for arg in arguments]

	def returns_void(self) -> bool:
	"""Whether the function returns void."""
	return bool(self.VOID_RE.search(self.return_type))


	# Match one C comment.
	# Note that we match both comment types, so things like // in a /.../
	# comment are handled correctly.
	_C_COMMENT_RE = re.compile(r'//(?:[^\n]\|\\\n)\|/\.?\/', re.S)
	_NOT_NEWLINES_RE = re.compile(r'[^\n]+')

	def read_logical_lines(filename: str) -> Iterator[Tuple[int, str]]:
	"""Read logical lines from a file.

	Logical lines are one or more physical line, with balanced parentheses.
	"""
	with open(filename, encoding='utf-8') as inp:
	content = inp.read()
	# Strip comments, but keep newlines for line numbering
	content = re.sub(_C_COMMENT_RE,
	lambda m: re.sub(_NOT_NEWLINES_RE, "", m.group(0)),
	content)
	lines = enumerate(content.splitlines(), 1)
	for line_number, line in lines:
	# Read a logical line, containing balanced parentheses.
	# We assume that parentheses are balanced (this should be ok
	# since comments have been stripped), otherwise there will be
	# a gigantic logical line at the end.
	paren_level = line.count('(') - line.count(')')
	while paren_level > 0:
	_, more = next(lines) #pylint: disable=stop-iteration-return
	paren_level += more.count('(') - more.count(')')
	line += '\n' + more
	yield line_number, line

	_C_FUNCTION_DECLARATION_RE = re.compile(
	r'(?P<qualifiers>(?:(?:extern\|inline\|static)\b\s))'
	r'(?P<return_type>\w[\w\s]?)\s*' +
	r'\b(?P<name>\w+)' +
	r'\s\((?P<arguments>.)\)\s*;',
	re.A \| re.S)

	def read_function_declarations(functions: Dict[str, FunctionInfo],
	filename: str) -> None:
	"""Collect function declarations from a C header file."""
	for line_number, line in read_logical_lines(filename):
	m = _C_FUNCTION_DECLARATION_RE.match(line)
	if not m:
	continue
	qualifiers = m.group('qualifiers').split()
	return_type = m.group('return_type')
	name = m.group('name')
	arguments = m.group('arguments').split(',')
	if len(arguments) == 1 and re.match(FunctionInfo.VOID_RE, arguments[0]):
	arguments = []
	# Note: we replace any existing declaration for the same name.
	functions[name] = FunctionInfo(filename, line_number,
	qualifiers,
	return_type,
	name,
	arguments)