util/style/verifiers.py - public/gem5 - Git at Google

 #!/usr/bin/env python3
 #
 # Copyright (c) 2014, 2016 ARM Limited
 # All rights reserved
 #
 # The license below extends only to copyright in the software and shall
 # not be construed as granting a license to any other intellectual
 # property including but not limited to intellectual property relating
 # to a hardware implementation of the functionality of the software
 # licensed hereunder.  You may use the software subject to the license
 # terms below provided that you ensure that this notice is replicated
 # unmodified and in its entirety in all distributions of the software,
 # modified or unmodified, in source code or in binary form.
 #
 # Copyright (c) 2006 The Regents of The University of Michigan
 # Copyright (c) 2007,2011 The Hewlett-Packard Development Company
 # Copyright (c) 2016 Advanced Micro Devices, Inc.
 # All rights reserved.
 #
 # Redistribution and use in source and binary forms, with or without
 # modification, are permitted provided that the following conditions are
 # met: redistributions of source code must retain the above copyright
 # notice, this list of conditions and the following disclaimer;
 # redistributions in binary form must reproduce the above copyright
 # notice, this list of conditions and the following disclaimer in the
 # documentation and/or other materials provided with the distribution;
 # neither the name of the copyright holders nor the names of its
 # contributors may be used to endorse or promote products derived from
 # this software without specific prior written permission.
 #
 # THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
 # "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
 # LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
 # A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
 # OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
 # SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
 # LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
 # DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
 # THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
 # (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
 # OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.

 from abc import ABCMeta, abstractmethod
 from difflib import SequenceMatcher
 import inspect
 import os
 import re
 import sys

 from . import style
 from . import sort_includes
 from .region import *
 from .file_types import lang_type


 def safefix(fix_func):
     """ Decorator for the fix functions of the Verifier class.
         This function wraps the fix function and creates a backup file
         just in case there is an error.
     """
     def safefix_wrapper(*args, **kwargs):
         # Check to be sure that this is decorating a function we expect:
         # a class method with filename as the first argument (after self)
         assert(os.path.exists(args[1]))
         self = args[0]
         assert(is_verifier(self.__class__))
         filename = args[1]

         # Now, Let's make a backup file.
         from shutil import copyfile
         backup_name = filename+'.bak'
         copyfile(filename, backup_name)

         # Try to apply the fix. If it fails, then we revert the file
         # Either way, we need to clean up our backup file
         try:
             fix_func(*args, **kwargs)
         except Exception as e:
             # Restore the original file to the backup file
             self.ui.write("Error! Restoring the original file.\n")
             copyfile(backup_name, filename)
             raise
         finally:
             # Clean up the backup file
             os.remove(backup_name)

     return safefix_wrapper

 def _modified_regions(old, new):
     try:
         m = SequenceMatcher(a=old, b=new, autojunk=False)
     except TypeError:
         # autojunk was introduced in Python 2.7. We need a fallback
         # mechanism to support old Python versions.
         m = SequenceMatcher(a=old, b=new)
     regions = Regions()
     for tag, i1, i2, j1, j2 in m.get_opcodes():
         if tag != "equal":
             regions.extend(Region(i1, i2))
     return regions


 class Verifier(object, metaclass=ABCMeta):
     """Base class for style verifiers

     Verifiers check for style violations and optionally fix such
     violations. Implementations should either inherit from this class
     (Verifier) if they need to work on entire files or LineVerifier if
     they operate on a line-by-line basis.

     Subclasses must define these class attributes:
       languages = set of strings identifying applicable languages
       test_name = long descriptive name of test, will be used in
                   messages such as "error in <foo>" or "invalid <foo>"
       opt_name = short name used to generate command-line options to
                  control the test (--fix-<foo>, --ignore-<foo>, etc.)

     """


     def __init__(self, ui, opts, base=None):
         self.ui = ui
         self.base = base

         # opt_name must be defined as a class attribute of derived classes.
         # Check test-specific opts first as these have precedence.
         self.opt_fix = opts.get('fix_' + self.opt_name, False)
         self.opt_ignore = opts.get('ignore_' + self.opt_name, False)
         self.opt_skip = opts.get('skip_' + self.opt_name, False)
         # If no test-specific opts were set, then set based on "-all" opts.
         if not (self.opt_fix or self.opt_ignore or self.opt_skip):
             self.opt_fix = opts.get('fix_all', False)
             self.opt_ignore = opts.get('ignore_all', False)
             self.opt_skip = opts.get('skip_all', False)

     def normalize_filename(self, name):
         abs_name = os.path.abspath(name)
         if self.base is None:
             return abs_name

         abs_base = os.path.abspath(self.base)
         return os.path.relpath(abs_name, start=abs_base)

     def open(self, filename, mode):
         try:
             f = open(filename, mode)
         except OSError as msg:
             print('could not open file {}: {}'.format(filename, msg))
             return None

         return f

     def skip(self, filename):
         # We never want to handle symlinks, so always skip them: If the
         # location pointed to is a directory, skip it. If the location is a
         # file inside the gem5 directory, it will be checked as a file, so
         # symlink can be skipped. If the location is a file outside gem5, we
         # don't want to check it anyway.
         if os.path.islink(filename):
             return True
         return lang_type(filename) not in self.languages

     def apply(self, filename, regions=all_regions):
         """Possibly apply to specified regions of file 'filename'.

         Verifier is skipped if --skip-<test> option was provided or if
         file is not of an applicable type.  Otherwise file is checked
         and error messages printed.  Errors are fixed or ignored if
         the corresponding --fix-<test> or --ignore-<test> options were
         provided.  If neither, the user is prompted for an action.

         Returns True to abort, False otherwise.
         """
         if not (self.opt_skip or self.skip(filename)):
             errors = self.check(filename, regions)
             if errors and not self.opt_ignore:
                 if self.opt_fix:
                     self.fix(filename, regions)
                 else:
                     result = self.ui.prompt("(a)bort, (i)gnore, or (f)ix?",
                                             'aif', 'a')
                     if result == 'f':
                         self.fix(filename, regions)
                     elif result == 'a':
                         return True # abort

         return False

     @abstractmethod
     def check(self, filename, regions=all_regions, fobj=None, silent=False):
         """Check specified regions of file 'filename'.

         Given that it is possible that the current contents of the file
         differ from the file as 'staged to commit', for those cases, and
         maybe others, the argument fobj should be a file object open and reset
         with the contents matching what the file would look like after the
         commit. This is needed keep the messages using 'filename' meaningful.

         The argument silent is useful to prevent output when we run check in
         the staged file vs the actual file to detect if the user forgot
         staging fixes to the commit. This way, we prevent reporting errors
         twice in stderr.

         Line-by-line checks can simply provide a check_line() method
         that returns True if the line is OK and False if it has an
         error.  Verifiers that need a multi-line view (like
         SortedIncludes) must override this entire function.

         Returns a count of errors (0 if none), though actual non-zero
         count value is not currently used anywhere.
         """
         pass

     @abstractmethod
     def fix(self, filename, regions=all_regions):
         """Fix specified regions of file 'filename'.

         Line-by-line fixes can simply provide a fix_line() method that
         returns the fixed line. Verifiers that need a multi-line view
         (like SortedIncludes) must override this entire function.
         """
         pass

 class LineVerifier(Verifier):
     def check(self, filename, regions=all_regions, fobj=None, silent=False):
         close = False
         if fobj is None:
             fobj = self.open(filename, 'rb')
             close = True

         lang = lang_type(filename)
         assert lang in self.languages

         errors = 0
         for num,line in enumerate(fobj):
             if num not in regions:
                 continue
             s_line = line.decode('utf-8').rstrip('\n')
             if not self.check_line(s_line, language=lang):
                 if not silent:
                     self.ui.write("invalid %s in %s:%d\n" % \
                                   (self.test_name, filename, num + 1))
                     if self.ui.verbose:
                         self.ui.write(">>%s<<\n" % s_line[:-1])
                 errors += 1
         if close:
             fobj.close()
         return errors

     @safefix
     def fix(self, filename, regions=all_regions):
         f = self.open(filename, 'r+')

         lang = lang_type(filename)
         assert lang in self.languages

         lines = list(f)

         f.seek(0)
         f.truncate()

         for i,line in enumerate(lines):
             line = line.rstrip('\n')
             if i in regions:
                 line = self.fix_line(line, language=lang)

             f.write(line)
             f.write("\n")
         f.close()
         self.current_language = None

     @abstractmethod
     def check_line(self, line, **kwargs):
         pass

     @abstractmethod
     def fix_line(self, line, **kwargs):
         pass

 class Whitespace(LineVerifier):
     """Check whitespace.

     Specifically:
     - No tabs used for indent
     - No trailing whitespace
     """

     languages = set(('C', 'C++', 'swig', 'python', 'asm', 'isa', 'scons',
                      'make', 'dts'))
     trail_only = set(('make', 'dts'))

     test_name = 'whitespace'
     opt_name = 'white'

     _lead = re.compile(r'^([ \t]+)')
     _trail = re.compile(r'([ \t]+)$')


     def skip_lead(self, language):
         return language in Whitespace.trail_only

     def check_line(self, line, language):
         if not self.skip_lead(language):
             match = Whitespace._lead.search(line)
             if match and match.group(1).find('\t') != -1:
                 return False

         match = Whitespace._trail.search(line)
         if match:
             return False

         return True

     def fix_line(self, line, language):
         if not self.skip_lead(language) and Whitespace._lead.search(line):
             newline = ''
             for i,c in enumerate(line):
                 if c == ' ':
                     newline += ' '
                 elif c == '\t':
                     newline += ' ' * (style.tabsize - \
                                       len(newline) % style.tabsize)
                 else:
                     newline += line[i:]
                     break

             line = newline

         return line.rstrip()


 class SortedIncludes(Verifier):
     """Check for proper sorting of include statements"""

     languages = sort_includes.default_languages
     test_name = 'include file order'
     opt_name = 'include'

     def __init__(self, *args, **kwargs):
         super(SortedIncludes, self).__init__(*args, **kwargs)
         self.sort_includes = sort_includes.SortIncludes()

     def check(self, filename, regions=all_regions, fobj=None, silent=False):
         close = False
         if fobj is None:
             fobj = self.open(filename, 'rb')
             close = True
         norm_fname = self.normalize_filename(filename)

         old = [ l.decode('utf-8').rstrip('\n') for l in fobj ]
         if close:
             fobj.close()

         if len(old) == 0:
             return 0

         language = lang_type(filename, old[0])
         new = list(self.sort_includes(old, norm_fname, language))

         modified = _modified_regions(old, new) & regions

         if modified:
             if not silent:
                 self.ui.write("invalid sorting of includes in %s. Note: If "
                               "there is more than one empty line under the "
                               "#include region, please reduce it to one.\n"
                               % (filename))
                 if self.ui.verbose:
                     for start, end in modified.regions:
                         self.ui.write("bad region [%d, %d)\n" % (start, end))
             return 1

         return 0

     @safefix
     def fix(self, filename, regions=all_regions):
         f = self.open(filename, 'r+')
         norm_fname = self.normalize_filename(filename)

         old = f.readlines()
         lines = [ l.rstrip('\n') for l in old ]
         language = lang_type(filename, lines[0])
         sort_lines = list(self.sort_includes(lines, norm_fname, language))
         new = ''.join(line + '\n' for line in sort_lines)

         f.seek(0)
         f.truncate()

         for i,line in enumerate(sort_lines):
             f.write(line)
             f.write('\n')
         f.close()


 class ControlSpace(LineVerifier):
     """Check for exactly one space after if/while/for"""

     languages = set(('C', 'C++'))
     test_name = 'spacing after if/while/for'
     opt_name = 'control'

     _any_control = re.compile(r'\b(if|while|for)([ \t]*)\(')

     def check_line(self, line, **kwargs):
         match = ControlSpace._any_control.search(line)
         return not (match and match.group(2) != " ")

     def fix_line(self, line, **kwargs):
         new_line = ControlSpace._any_control.sub(r'\1 (', line)
         return new_line


 class LineLength(LineVerifier):
     languages = set(('C', 'C++', 'swig', 'python', 'asm', 'isa', 'scons'))
     test_name = 'line length'
     opt_name = 'length'

     def check_line(self, line, **kwargs):
         return style.normalized_len(line) <= 79

     def fix(self, filename, regions=all_regions, **kwargs):
         self.ui.write("Warning: cannot automatically fix overly long lines.\n")

     def fix_line(self, line):
         pass

 class ControlCharacters(LineVerifier):
     languages = set(('C', 'C++', 'swig', 'python', 'asm', 'isa', 'scons'))
     test_name = 'control character'
     opt_name = 'ascii'

     invalid = "".join([chr(i) for i in range(0, 0x20) \
         if chr(i) not in ('\n', '\t')])

     def check_line(self, line, **kwargs):
         return self.fix_line(line) == line

     def fix_line(self, line, **kwargs):
         return ''.join(c for c in line if c not in ControlCharacters.invalid)

 class BoolCompare(LineVerifier):
     languages = set(('C', 'C++', 'python'))
     test_name = 'boolean comparison'
     opt_name = 'boolcomp'

     regex = re.compile(r'\s*==\s*([Tt]rue|[Ff]alse)\b')

     def check_line(self, line, **kwargs):
         return self.regex.search(line) == None

     def fix_line(self, line, **kwargs):
         match = self.regex.search(line)
         if match:
             if match.group(1) in ('true', 'True'):
                 line = self.regex.sub('', line)
             else:
                 self.ui.write("Warning: cannot automatically fix "
                               "comparisons with false/False.\n")
         return line

 class StructureBraces(LineVerifier):
     """ Check if the opening braces of structures are not on the same line of
         the structure name. This includes classes, structs, enums and unions.

         This verifier matches lines starting in optional indent, followed by
         an optional typedef and the structure's keyword, followed by any
         character until the first opening brace is seen. Any extra characters
         after the opening brace are saved for a recursive check, if needed.

         This fixes, for example:
             1) "struct A {"
             2) "enum{"
             3) "    class B { // This is a class"
             4) "union { struct C {"
         to:
             1) "struct A\n{"
             2) "enum\n{"
             3) "    class B\n    {\n        // This is a class"
             4) "union\n{\n        struct C\n        {"

         @todo Make this work for multi-line structure declarations. e.g.,

             class MultiLineClass
               : public BaseClass {
     """

     languages = set(('C', 'C++'))
     test_name = 'structure opening brace position'
     opt_name = 'structurebrace'

     # Matches the indentation of the line
     regex_indentation = '(?P<indentation>\s*)'
     # Matches an optional "typedef" before the keyword
     regex_typedef = '(?P<typedef>(typedef\s+)?)'
     # Matches the structure's keyword
     regex_keyword = '(?P<keyword>class|struct|enum|union)'
     # A negative lookahead to avoid incorrect matches with variable's names
     # e.g., "classifications = {" should not be fixed here.
     regex_avoid = '(?![^\{\s])'
     # Matches anything after the keyword and before the opening brace.
     # e.g., structure name, base type, type of inheritance, etc
     regex_name = '(?P<name>[^\{]*)'
     # Matches anything after the opening brace, which should be
     # parsed recursively
     regex_extra = '(?P<extra>.*)$'
     regex = re.compile(r'^' + regex_indentation + regex_typedef +
         regex_keyword + regex_avoid + regex_name + '\{' + regex_extra)

     def check_line(self, line, **kwargs):
         return (self.regex.search(line) == None) or \
             (line.count('{') == line.count('};'))

     def fix_line(self, line, **kwargs):
         match = self.regex.search(line)

         if match:
             # Move the opening brace to the next line
             match_indentation = match.group('indentation')
             match_typedef = match.group('typedef')
             match_keyword = match.group('keyword')
             match_name = match.group('name').rstrip()
             match_extra = match.group('extra').lstrip()
             line = match_indentation + match_typedef + match_keyword + \
                 match_name + "\n" + match_indentation + "{"

             # The opening brace should be alone in its own line, so move any
             # extra contents to the next line
             if match_extra != '':
                 # Check if the extra line obeys the opening brace rule
                 # (in case there are nested declarations)
                 line_extra = match_indentation + "    " + match_extra
                 if not self.check_line(line_extra):
                     line_extra = self.fix_line(line_extra)
                 line += "\n" + line_extra

         return line

 def is_verifier(cls):
     """Determine if a class is a Verifier that can be instantiated"""

     return inspect.isclass(cls) and issubclass(cls, Verifier) and \
         not inspect.isabstract(cls)

 # list of all verifier classes
 all_verifiers = [ v for n, v in \
                   inspect.getmembers(sys.modules[__name__], is_verifier) ]
	#!/usr/bin/env python3
	#
	# Copyright (c) 2014, 2016 ARM Limited
	# All rights reserved
	#
	# The license below extends only to copyright in the software and shall
	# not be construed as granting a license to any other intellectual
	# property including but not limited to intellectual property relating
	# to a hardware implementation of the functionality of the software
	# licensed hereunder. You may use the software subject to the license
	# terms below provided that you ensure that this notice is replicated
	# unmodified and in its entirety in all distributions of the software,
	# modified or unmodified, in source code or in binary form.
	#
	# Copyright (c) 2006 The Regents of The University of Michigan
	# Copyright (c) 2007,2011 The Hewlett-Packard Development Company
	# Copyright (c) 2016 Advanced Micro Devices, Inc.
	# All rights reserved.
	#
	# Redistribution and use in source and binary forms, with or without
	# modification, are permitted provided that the following conditions are
	# met: redistributions of source code must retain the above copyright
	# notice, this list of conditions and the following disclaimer;
	# redistributions in binary form must reproduce the above copyright
	# notice, this list of conditions and the following disclaimer in the
	# documentation and/or other materials provided with the distribution;
	# neither the name of the copyright holders nor the names of its
	# contributors may be used to endorse or promote products derived from
	# this software without specific prior written permission.
	#
	# THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
	# "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
	# LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
	# A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
	# OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
	# SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
	# LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
	# DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
	# THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
	# (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
	# OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.

	from abc import ABCMeta, abstractmethod
	from difflib import SequenceMatcher
	import inspect
	import os
	import re
	import sys

	from . import style
	from . import sort_includes
	from .region import *
	from .file_types import lang_type


	def safefix(fix_func):
	""" Decorator for the fix functions of the Verifier class.
	This function wraps the fix function and creates a backup file
	just in case there is an error.
	"""
	def safefix_wrapper(args, *kwargs):
	# Check to be sure that this is decorating a function we expect:
	# a class method with filename as the first argument (after self)
	assert(os.path.exists(args[1]))
	self = args[0]
	assert(is_verifier(self.__class__))
	filename = args[1]

	# Now, Let's make a backup file.
	from shutil import copyfile
	backup_name = filename+'.bak'
	copyfile(filename, backup_name)

	# Try to apply the fix. If it fails, then we revert the file
	# Either way, we need to clean up our backup file
	try:
	fix_func(args, *kwargs)
	except Exception as e:
	# Restore the original file to the backup file
	self.ui.write("Error! Restoring the original file.\n")
	copyfile(backup_name, filename)
	raise
	finally:
	# Clean up the backup file
	os.remove(backup_name)

	return safefix_wrapper

	def _modified_regions(old, new):
	try:
	m = SequenceMatcher(a=old, b=new, autojunk=False)
	except TypeError:
	# autojunk was introduced in Python 2.7. We need a fallback
	# mechanism to support old Python versions.
	m = SequenceMatcher(a=old, b=new)
	regions = Regions()
	for tag, i1, i2, j1, j2 in m.get_opcodes():
	if tag != "equal":
	regions.extend(Region(i1, i2))
	return regions


	class Verifier(object, metaclass=ABCMeta):
	"""Base class for style verifiers

	Verifiers check for style violations and optionally fix such
	violations. Implementations should either inherit from this class
	(Verifier) if they need to work on entire files or LineVerifier if
	they operate on a line-by-line basis.

	Subclasses must define these class attributes:
	languages = set of strings identifying applicable languages
	test_name = long descriptive name of test, will be used in
	messages such as "error in <foo>" or "invalid <foo>"
	opt_name = short name used to generate command-line options to
	control the test (--fix-<foo>, --ignore-<foo>, etc.)

	"""


	def __init__(self, ui, opts, base=None):
	self.ui = ui
	self.base = base

	# opt_name must be defined as a class attribute of derived classes.
	# Check test-specific opts first as these have precedence.
	self.opt_fix = opts.get('fix_' + self.opt_name, False)
	self.opt_ignore = opts.get('ignore_' + self.opt_name, False)
	self.opt_skip = opts.get('skip_' + self.opt_name, False)
	# If no test-specific opts were set, then set based on "-all" opts.
	if not (self.opt_fix or self.opt_ignore or self.opt_skip):
	self.opt_fix = opts.get('fix_all', False)
	self.opt_ignore = opts.get('ignore_all', False)
	self.opt_skip = opts.get('skip_all', False)

	def normalize_filename(self, name):
	abs_name = os.path.abspath(name)
	if self.base is None:
	return abs_name

	abs_base = os.path.abspath(self.base)
	return os.path.relpath(abs_name, start=abs_base)

	def open(self, filename, mode):
	try:
	f = open(filename, mode)
	except OSError as msg:
	print('could not open file {}: {}'.format(filename, msg))
	return None

	return f

	def skip(self, filename):
	# We never want to handle symlinks, so always skip them: If the
	# location pointed to is a directory, skip it. If the location is a
	# file inside the gem5 directory, it will be checked as a file, so
	# symlink can be skipped. If the location is a file outside gem5, we
	# don't want to check it anyway.
	if os.path.islink(filename):
	return True
	return lang_type(filename) not in self.languages

	def apply(self, filename, regions=all_regions):
	"""Possibly apply to specified regions of file 'filename'.

	Verifier is skipped if --skip-<test> option was provided or if
	file is not of an applicable type. Otherwise file is checked
	and error messages printed. Errors are fixed or ignored if
	the corresponding --fix-<test> or --ignore-<test> options were
	provided. If neither, the user is prompted for an action.

	Returns True to abort, False otherwise.
	"""
	if not (self.opt_skip or self.skip(filename)):
	errors = self.check(filename, regions)
	if errors and not self.opt_ignore:
	if self.opt_fix:
	self.fix(filename, regions)
	else:
	result = self.ui.prompt("(a)bort, (i)gnore, or (f)ix?",
	'aif', 'a')
	if result == 'f':
	self.fix(filename, regions)
	elif result == 'a':
	return True # abort

	return False

	@abstractmethod
	def check(self, filename, regions=all_regions, fobj=None, silent=False):
	"""Check specified regions of file 'filename'.

	Given that it is possible that the current contents of the file
	differ from the file as 'staged to commit', for those cases, and
	maybe others, the argument fobj should be a file object open and reset
	with the contents matching what the file would look like after the
	commit. This is needed keep the messages using 'filename' meaningful.

	The argument silent is useful to prevent output when we run check in
	the staged file vs the actual file to detect if the user forgot
	staging fixes to the commit. This way, we prevent reporting errors
	twice in stderr.

	Line-by-line checks can simply provide a check_line() method
	that returns True if the line is OK and False if it has an
	error. Verifiers that need a multi-line view (like
	SortedIncludes) must override this entire function.

	Returns a count of errors (0 if none), though actual non-zero
	count value is not currently used anywhere.
	"""
	pass

	@abstractmethod
	def fix(self, filename, regions=all_regions):
	"""Fix specified regions of file 'filename'.

	Line-by-line fixes can simply provide a fix_line() method that
	returns the fixed line. Verifiers that need a multi-line view
	(like SortedIncludes) must override this entire function.
	"""
	pass

	class LineVerifier(Verifier):
	def check(self, filename, regions=all_regions, fobj=None, silent=False):
	close = False
	if fobj is None:
	fobj = self.open(filename, 'rb')
	close = True

	lang = lang_type(filename)
	assert lang in self.languages

	errors = 0
	for num,line in enumerate(fobj):
	if num not in regions:
	continue
	s_line = line.decode('utf-8').rstrip('\n')
	if not self.check_line(s_line, language=lang):
	if not silent:
	self.ui.write("invalid %s in %s:%d\n" % \
	(self.test_name, filename, num + 1))
	if self.ui.verbose:
	self.ui.write(">>%s<<\n" % s_line[:-1])
	errors += 1
	if close:
	fobj.close()
	return errors

	@safefix
	def fix(self, filename, regions=all_regions):
	f = self.open(filename, 'r+')

	lang = lang_type(filename)
	assert lang in self.languages

	lines = list(f)

	f.seek(0)
	f.truncate()

	for i,line in enumerate(lines):
	line = line.rstrip('\n')
	if i in regions:
	line = self.fix_line(line, language=lang)

	f.write(line)
	f.write("\n")
	f.close()
	self.current_language = None

	@abstractmethod
	def check_line(self, line, **kwargs):
	pass

	@abstractmethod
	def fix_line(self, line, **kwargs):
	pass

	class Whitespace(LineVerifier):
	"""Check whitespace.

	Specifically:
	- No tabs used for indent
	- No trailing whitespace
	"""

	languages = set(('C', 'C++', 'swig', 'python', 'asm', 'isa', 'scons',
	'make', 'dts'))
	trail_only = set(('make', 'dts'))

	test_name = 'whitespace'
	opt_name = 'white'

	_lead = re.compile(r'^([ \t]+)')
	_trail = re.compile(r'([ \t]+)$')


	def skip_lead(self, language):
	return language in Whitespace.trail_only

	def check_line(self, line, language):
	if not self.skip_lead(language):
	match = Whitespace._lead.search(line)
	if match and match.group(1).find('\t') != -1:
	return False

	match = Whitespace._trail.search(line)
	if match:
	return False

	return True

	def fix_line(self, line, language):
	if not self.skip_lead(language) and Whitespace._lead.search(line):
	newline = ''
	for i,c in enumerate(line):
	if c == ' ':
	newline += ' '
	elif c == '\t':
	newline += ' ' * (style.tabsize - \
	len(newline) % style.tabsize)
	else:
	newline += line[i:]
	break

	line = newline

	return line.rstrip()


	class SortedIncludes(Verifier):
	"""Check for proper sorting of include statements"""

	languages = sort_includes.default_languages
	test_name = 'include file order'
	opt_name = 'include'

	def __init__(self, args, *kwargs):
	super(SortedIncludes, self).__init__(args, *kwargs)
	self.sort_includes = sort_includes.SortIncludes()

	def check(self, filename, regions=all_regions, fobj=None, silent=False):
	close = False
	if fobj is None:
	fobj = self.open(filename, 'rb')
	close = True
	norm_fname = self.normalize_filename(filename)

	old = [ l.decode('utf-8').rstrip('\n') for l in fobj ]
	if close:
	fobj.close()

	if len(old) == 0:
	return 0

	language = lang_type(filename, old[0])
	new = list(self.sort_includes(old, norm_fname, language))

	modified = _modified_regions(old, new) & regions

	if modified:
	if not silent:
	self.ui.write("invalid sorting of includes in %s. Note: If "
	"there is more than one empty line under the "
	"#include region, please reduce it to one.\n"
	% (filename))
	if self.ui.verbose:
	for start, end in modified.regions:
	self.ui.write("bad region [%d, %d)\n" % (start, end))
	return 1

	return 0

	@safefix
	def fix(self, filename, regions=all_regions):
	f = self.open(filename, 'r+')
	norm_fname = self.normalize_filename(filename)

	old = f.readlines()
	lines = [ l.rstrip('\n') for l in old ]
	language = lang_type(filename, lines[0])
	sort_lines = list(self.sort_includes(lines, norm_fname, language))
	new = ''.join(line + '\n' for line in sort_lines)

	f.seek(0)
	f.truncate()

	for i,line in enumerate(sort_lines):
	f.write(line)
	f.write('\n')
	f.close()


	class ControlSpace(LineVerifier):
	"""Check for exactly one space after if/while/for"""

	languages = set(('C', 'C++'))
	test_name = 'spacing after if/while/for'
	opt_name = 'control'

	_any_control = re.compile(r'\b(if\|while\|for)([ \t]*)\(')

	def check_line(self, line, **kwargs):
	match = ControlSpace._any_control.search(line)
	return not (match and match.group(2) != " ")

	def fix_line(self, line, **kwargs):
	new_line = ControlSpace._any_control.sub(r'\1 (', line)
	return new_line


	class LineLength(LineVerifier):
	languages = set(('C', 'C++', 'swig', 'python', 'asm', 'isa', 'scons'))
	test_name = 'line length'
	opt_name = 'length'

	def check_line(self, line, **kwargs):
	return style.normalized_len(line) <= 79

	def fix(self, filename, regions=all_regions, **kwargs):
	self.ui.write("Warning: cannot automatically fix overly long lines.\n")

	def fix_line(self, line):
	pass

	class ControlCharacters(LineVerifier):
	languages = set(('C', 'C++', 'swig', 'python', 'asm', 'isa', 'scons'))
	test_name = 'control character'
	opt_name = 'ascii'

	invalid = "".join([chr(i) for i in range(0, 0x20) \
	if chr(i) not in ('\n', '\t')])

	def check_line(self, line, **kwargs):
	return self.fix_line(line) == line

	def fix_line(self, line, **kwargs):
	return ''.join(c for c in line if c not in ControlCharacters.invalid)

	class BoolCompare(LineVerifier):
	languages = set(('C', 'C++', 'python'))
	test_name = 'boolean comparison'
	opt_name = 'boolcomp'

	regex = re.compile(r'\s==\s([Tt]rue\|[Ff]alse)\b')

	def check_line(self, line, **kwargs):
	return self.regex.search(line) == None

	def fix_line(self, line, **kwargs):
	match = self.regex.search(line)
	if match:
	if match.group(1) in ('true', 'True'):
	line = self.regex.sub('', line)
	else:
	self.ui.write("Warning: cannot automatically fix "
	"comparisons with false/False.\n")
	return line

	class StructureBraces(LineVerifier):
	""" Check if the opening braces of structures are not on the same line of
	the structure name. This includes classes, structs, enums and unions.

	This verifier matches lines starting in optional indent, followed by
	an optional typedef and the structure's keyword, followed by any
	character until the first opening brace is seen. Any extra characters
	after the opening brace are saved for a recursive check, if needed.

	This fixes, for example:
	1) "struct A {"
	2) "enum{"
	3) " class B { // This is a class"
	4) "union { struct C {"
	to:
	1) "struct A\n{"
	2) "enum\n{"
	3) " class B\n {\n // This is a class"
	4) "union\n{\n struct C\n {"

	@todo Make this work for multi-line structure declarations. e.g.,

	class MultiLineClass
	: public BaseClass {
	"""

	languages = set(('C', 'C++'))
	test_name = 'structure opening brace position'
	opt_name = 'structurebrace'

	# Matches the indentation of the line
	regex_indentation = '(?P<indentation>\s*)'
	# Matches an optional "typedef" before the keyword
	regex_typedef = '(?P<typedef>(typedef\s+)?)'
	# Matches the structure's keyword
	regex_keyword = '(?P<keyword>class\|struct\|enum\|union)'
	# A negative lookahead to avoid incorrect matches with variable's names
	# e.g., "classifications = {" should not be fixed here.
	regex_avoid = '(?![^\{\s])'
	# Matches anything after the keyword and before the opening brace.
	# e.g., structure name, base type, type of inheritance, etc
	regex_name = '(?P<name>[^\{]*)'
	# Matches anything after the opening brace, which should be
	# parsed recursively
	regex_extra = '(?P<extra>.*)$'
	regex = re.compile(r'^' + regex_indentation + regex_typedef +
	regex_keyword + regex_avoid + regex_name + '\{' + regex_extra)

	def check_line(self, line, **kwargs):
	return (self.regex.search(line) == None) or \
	(line.count('{') == line.count('};'))

	def fix_line(self, line, **kwargs):
	match = self.regex.search(line)

	if match:
	# Move the opening brace to the next line
	match_indentation = match.group('indentation')
	match_typedef = match.group('typedef')
	match_keyword = match.group('keyword')
	match_name = match.group('name').rstrip()
	match_extra = match.group('extra').lstrip()
	line = match_indentation + match_typedef + match_keyword + \
	match_name + "\n" + match_indentation + "{"

	# The opening brace should be alone in its own line, so move any
	# extra contents to the next line
	if match_extra != '':
	# Check if the extra line obeys the opening brace rule
	# (in case there are nested declarations)
	line_extra = match_indentation + " " + match_extra
	if not self.check_line(line_extra):
	line_extra = self.fix_line(line_extra)
	line += "\n" + line_extra

	return line

	def is_verifier(cls):
	"""Determine if a class is a Verifier that can be instantiated"""

	return inspect.isclass(cls) and issubclass(cls, Verifier) and \
	not inspect.isabstract(cls)

	# list of all verifier classes
	all_verifiers = [ v for n, v in \
	inspect.getmembers(sys.modules[__name__], is_verifier) ]