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fix_includes.py
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fix_includes.py
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#!/usr/bin/env python3
##===--- fix_includes.py - rewrite source files based on iwyu output ------===##
#
# The LLVM Compiler Infrastructure
#
# This file is distributed under the University of Illinois Open Source
# License. See LICENSE.TXT for details.
#
##===----------------------------------------------------------------------===##
from __future__ import print_function
"""Update files with the 'correct' #include and forward-declare lines.
Given the output of include_what_you_use on stdin -- when run at the
(default) --v=1 verbosity level or higher -- modify the files
mentioned in the output, removing their old #include lines and
replacing them with the lines given by the include_what_you_use
script.
This script runs in four stages. In the first, it groups physical
lines together to form 'move spans'. A 'move span' is the atomic unit
for moving or deleting code. A move span is either a) an #include
line, along with any comment lines immediately preceding it; b) a
forward-declare line -- or more if it's a multi-line forward declare
-- along with preceding comments; c) any other single line. Example:
// I really am glad I'm forward-declaring this class!
// If I didn't, I'd have to #include the entire world.
template<typename A, typename B, typename C, typename D>
class MyClass;
Then, it groups move spans together into 'reorder spans'. These are
spans of code that consist entirely of #includes and forward-declares,
maybe separated by blank lines and comments. We assume that we can
arbitrarily reorder #includes and forward-declares within a reorder
span, without affecting correctness. Things like #ifdefs, #defines,
namespace declarations, static variable declarations, class
definitions, etc -- just about anything -- break up reorder spans.
In stage 3 it deletes all #include and forward-declare lines that iwyu
says to delete. iwyu includes line numbers for deletion, making this
part easy. If this step results in "empty" #ifdefs or namespaces
(#ifdefs or namespaces with no code inside them), we delete those as
well. We recalculate the reorder spans, which may have gotten bigger
due to the deleted code.
In stage 4 it adds new iwyu-dictated #includes and forward-declares
after the last existing #includes and forward-declares. Then it
reorders the #includes and forward-declares to match the order
specified by iwyu. It follows iwyu's instructions as much as
possible, modulo the constraint that an #include or forward-declare
cannot leave its current reorder span.
All this moving messes up the blank lines, which we then need to fix
up. Then we're done!
"""
__author__ = 'csilvers@google.com (Craig Silverstein)'
import difflib
import argparse
import os
import re
import sys
from collections import OrderedDict
_EPILOG = """\
Reads the output from include-what-you-use on stdin -- run with --v=1 (default)
verbosity level or above -- and, unless --sort_only or --dry_run is specified,
modifies the files mentioned in the output, removing their old #include lines
and replacing them with the lines given by include-what-you-use. It also sorts
the #include and forward-declare lines.
All files mentioned in include-what-you-use output are modified, unless
filenames are specified on the commandline, in which case only those files are
modified.
The exit code is non-zero if a critical error occurs, otherwise zero.
"""
_COMMENT_RE = re.compile(r'\s*//.*')
# These are the types of lines a file can have. These are matched
# using re.match(), so don't need a leading ^.
_C_COMMENT_START_RE = re.compile(r'\s*/\*')
_C_COMMENT_END_RE = re.compile(r'.*\*/\s*(.*)$')
_COMMENT_LINE_RE = re.compile(r'\s*//')
_PRAGMA_ONCE_LINE_RE = re.compile(r'\s*#\s*pragma\s+once')
_BLANK_LINE_RE = re.compile(r'\s*$')
_IF_RE = re.compile(r'\s*#\s*if') # compiles #if/ifdef/ifndef
_ELSE_RE = re.compile(r'\s*#\s*(else|elif)\b') # compiles #else/elif
_ENDIF_RE = re.compile(r'\s*#\s*endif\b')
# This is used to delete 'empty' namespaces after fwd-decls are removed.
# Some third-party libraries use macros to start/end namespaces.
_NAMESPACE_START_RE = re.compile(r'\s*(namespace\b[^{]*{\s*)+(//.*)?$|'
r'\s*(U_NAMESPACE_BEGIN)|'
r'\s*(HASH_NAMESPACE_DECLARATION_START)')
# Also detect Allman and mixed style namespaces. Use a continue regex for
# validation and to correctly set the line info.
_NAMESPACE_START_ALLMAN_RE = re.compile(r'\s*(namespace\b[^{=]*)+(//.*)?$')
_NAMESPACE_START_MIXED_RE = re.compile(
r'\s*(namespace\b[^{]*{\s*)+(namespace\b[^{]*)+(//.*)?$')
_NAMESPACE_CONTINUE_ALLMAN_MIXED_RE = re.compile(r'\s*{\s*(//.*)?$')
_NAMESPACE_END_RE = re.compile(r'\s*(})|'
r'\s*(U_NAMESPACE_END)|'
r'\s*(HASH_NAMESPACE_DECLARATION_END)')
# The group (in parens) holds the unique 'key' identifying this #include.
_INCLUDE_RE = re.compile(r'\s*#\s*include\s+([<"][^">]+[>"])')
# We don't need this to actually match forward-declare lines (we get
# that information from the iwyu input), but we do need an RE here to
# serve as an index to _LINE_TYPES. So we use an RE that never matches.
_FORWARD_DECLARE_RE = re.compile(r'$.FORWARD_DECLARE_RE')
# Likewise, used to mark an '#ifdef' line of a header guard, or other
# #ifdef that covers an entire file.
_HEADER_GUARD_RE = re.compile(r'$.HEADER_GUARD_RE')
# Marks the '#define' line that comes after a header guard. Since we
# know the previous line was a header-guard line, we're not that picky
# about this one.
_HEADER_GUARD_DEFINE_RE = re.compile(r'\s*#\s*define\s+')
# Pragma to mark the associated header (for use when it cannot be deduced from
# the filename)
_IWYU_PRAGMA_ASSOCIATED_RE = re.compile(r'IWYU\s*pragma:\s*associated')
# We annotate every line in the source file by the re it matches, or None.
# Note that not all of the above RE's are represented here; for instance,
# we fold _C_COMMENT_START_RE and _C_COMMENT_END_RE into _COMMENT_LINE_RE.
# The _NAMESPACE_CONTINUE_ALLMAN_MIXED_RE is also set on lines when Allman
# and mixed namespaces are detected but the RE is too easy to match to add
# under normal circumstances (must always be preceded by Allman/mixed).
_LINE_TYPES = [_COMMENT_LINE_RE, _BLANK_LINE_RE,
_NAMESPACE_START_RE, _NAMESPACE_START_ALLMAN_RE,
_NAMESPACE_START_MIXED_RE, _NAMESPACE_END_RE,
_IF_RE, _ELSE_RE, _ENDIF_RE,
_INCLUDE_RE, _FORWARD_DECLARE_RE,
_HEADER_GUARD_RE, _HEADER_GUARD_DEFINE_RE,
_PRAGMA_ONCE_LINE_RE,
]
# A regexp matching #include lines that should be a barrier for
# sorting -- that is, we should never reorganize the code so an
# #include that used to come before this line now comes after, or vice
# versa. This can be used for 'fragile' #includes that require other
# #includes to happen before them to function properly.
# (Note that the barrier has no effect on where new #includes are
# added; it just affects the reordering of existing #includes.)
_BARRIER_INCLUDES = re.compile(r'^\s*#\s*include\s+(<linux/)')
# A list of all known extensions for C++ source files, used to
# guess if a filename is a source file or a header.
# Please keep this in sync with source_extensions in iwyu_path_util.cc.
_SOURCE_EXTENSIONS = [".c", ".C", ".cc", ".CC", ".cxx", ".CXX",
".cpp", ".CPP", ".c++", ".C++", ".cp"]
# Adapt Python 2 iterators to Python 3 syntax
if sys.version_info[0] < 3:
def next(i):
return i.next()
class OrderedSet(object):
""" Sometimes sets affect order of outputs, which hinders testing. This
(naive) set implementation preserves order to avoid that problem. """
def __init__(self, iterable=None):
iterable = iterable or []
self.storage = OrderedDict((a, None) for a in iterable)
def add(self, value):
self.storage[value] = None
def intersection_update(self, other):
self.storage = OrderedDict(
(k, None) for k in self.storage if k in other.storage)
def update(self, other):
self.storage.update(other.storage)
def difference(self, other):
diff_values = (v for v in self if v not in other)
return OrderedSet(diff_values)
def __iter__(self):
return self.storage.keys().__iter__()
def __contains__(self, value):
return value in self.storage
def __len__(self):
return len(self.storage)
def _MayBeHeaderFile(filename):
"""Tries to figure out if filename is a C++ header file. Defaults to yes."""
# Header files have all sorts of extensions: .h, .hpp, .hxx, or no
# extension at all. So we say everything is a header file unless it
# has a known extension that's not.
extension = os.path.splitext(filename)[1]
return extension not in _SOURCE_EXTENSIONS
class FixIncludesError(Exception):
pass
class IWYUOutputRecord(object):
"""Information that the iwyu output file has about one source file."""
def __init__(self, filename):
self.filename = filename
# A set of integers.
self.lines_to_delete = set()
# A set of integer line-numbers, for each #include iwyu saw that
# is marked with a line number. This is usually not an exhaustive
# list of include-lines, but that's ok because we only use this
# data structure for sanity checking: we double-check with our own
# analysis that these lines are all # #include lines. If not, we
# know the iwyu data is likely out of date, and we complain. So
# more data here is always welcome, but not essential.
self.some_include_lines = set()
# A set of integer line-number spans [start_line, end_line), for
# each forward-declare iwyu saw. iwyu reports line numbers for
# every forward-declare it sees in the source code. (It won't
# report, though, forward-declares inside '#if 0' or similar.)
self.seen_forward_declare_lines = set()
# Those spans which pertain to nested forward declarations (i.e. of nested
# classes). This set should be a subset of self.seen_forward_declare_lines.
self.nested_forward_declare_lines = set()
# A set of each line in the iwyu 'add' section.
self.includes_and_forward_declares_to_add = OrderedSet()
# A map from the include filename (including ""s or <>s) to the
# full line as given by iwyu, which includes comments that iwyu
# has put next to the #include. This holds both 'to-add' and
# 'to-keep' #includes. If flags.comments is False, the comments
# are removed before adding to this list.
self.full_include_lines = OrderedDict()
def Merge(self, other):
"""Merges other with this one. They must share a filename.
This function is intended to be used when we see two iwyu records
in the input, both for the same file. We can merge the two together.
We are conservative: we union the lines to add, and intersect the
lines to delete.
Arguments:
other: an IWYUOutputRecord to merge into this one.
It must have the same value for filename that self does.
"""
assert self.filename == other.filename, "Can't merge distinct files"
self.lines_to_delete.intersection_update(other.lines_to_delete)
self.some_include_lines.update(other.some_include_lines)
self.seen_forward_declare_lines.update(other.seen_forward_declare_lines)
self.nested_forward_declare_lines.update(other.nested_forward_declare_lines)
self.includes_and_forward_declares_to_add.update(
other.includes_and_forward_declares_to_add)
self.full_include_lines.update(other.full_include_lines)
def HasContentfulChanges(self):
"""Returns true iff this record has at least one add or delete."""
return (self.includes_and_forward_declares_to_add or
self.lines_to_delete)
def __str__(self):
return ('--- iwyu record ---\n FILENAME: %s\n LINES TO DELETE: %s\n'
' (SOME) INCLUDE LINES: %s\n (SOME) FWD-DECL LINES: %s\n'
' TO ADD: %s\n ALL INCLUDES: %s\n---\n'
% (self.filename, self.lines_to_delete,
self.some_include_lines, self.seen_forward_declare_lines,
self.includes_and_forward_declares_to_add,
self.full_include_lines))
class IWYUOutputParser(object):
"""Parses the lines in iwyu output corresponding to one source file."""
# iwyu adds this comment to some lines to map them to the source file.
_LINE_NUMBERS_COMMENT_RE = re.compile(r'\s*// lines ([0-9]+)-([0-9]+)')
# The output of include-what-you-use has sections that indicate what
# #includes and forward-declares should be added to the output file,
# what should be removed, and what the end result is. The first line
# of each section also has the filename.
_ADD_SECTION_RE = re.compile(r'^(.*) should add these lines:$')
_REMOVE_SECTION_RE = re.compile(r'^(.*) should remove these lines:$')
_TOTAL_SECTION_RE = re.compile(r'^The full include-list for (.*):$')
_SECTION_END_RE = re.compile(r'^---$')
# Alternately, if a file does not need any iwyu modifications (though
# it still may need its #includes sorted), iwyu will emit this:
_NO_EDITS_RE = re.compile(r'^\((.*) has correct #includes/fwd-decls\)$')
_RE_TO_NAME = {_ADD_SECTION_RE: 'add',
_REMOVE_SECTION_RE: 'remove',
_TOTAL_SECTION_RE: 'total',
_SECTION_END_RE: 'end',
_NO_EDITS_RE: 'no_edits',
}
# A small state-transition machine. key==None indicates the start
# state. value==None means that the key is an end state (that is,
# its presence indicates the record is finished).
_EXPECTED_NEXT_RE = {
None: frozenset([_ADD_SECTION_RE, _NO_EDITS_RE]),
_ADD_SECTION_RE: frozenset([_REMOVE_SECTION_RE]),
_REMOVE_SECTION_RE: frozenset([_TOTAL_SECTION_RE]),
_TOTAL_SECTION_RE: frozenset([_SECTION_END_RE]),
_SECTION_END_RE: None,
_NO_EDITS_RE: None,
}
def __init__(self):
# This is set to one of the 'section' REs above. None is the start-state.
self.current_section = None
self.filename = '<unknown file>'
self.lines_by_section = {} # key is an RE, value is a list of lines
def _ProcessOneLine(self, line, basedir=None):
"""Reads one line of input, updates self, and returns False at EORecord.
If the line matches one of the hard-coded section names, updates
self.filename and self.current_section. Otherwise, the line is
taken to be a member of the currently active section, and is added
to self.lines_by_section.
Arguments:
line: one line from the iwyu input file.
Returns:
False if the line is the end-of-section marker, True otherwise.
Raises:
FixIncludesError: if there is an out-of-order section or
mismatched filename.
"""
line = line.rstrip() # don't worry about line endings
if not line: # just ignore blank lines
return True
for (section_re, section_name) in self._RE_TO_NAME.items():
m = section_re.search(line)
if m:
# Check or set the filename (if the re has a group, it's for filename).
if section_re.groups >= 1:
this_filename = NormalizeFilePath(basedir, m.group(1))
if (self.current_section is not None and
this_filename != self.filename):
raise FixIncludesError('"%s" section for %s comes after "%s" for %s'
% (section_name, this_filename,
self._RE_TO_NAME[self.current_section],
self.filename))
self.filename = this_filename
# Check and set the new section we're entering.
if section_re not in self._EXPECTED_NEXT_RE[self.current_section]:
if self.current_section is None:
raise FixIncludesError('%s: "%s" section unexpectedly comes first'
% (self.filename, section_name))
else:
raise FixIncludesError('%s: "%s" section unexpectedly follows "%s"'
% (self.filename, section_name,
self._RE_TO_NAME[self.current_section]))
self.current_section = section_re
# We're done parsing this record if this section has nothing after it.
return self._EXPECTED_NEXT_RE[self.current_section] is not None
# We're not starting a new section, so just add to the current section.
# We ignore lines before section-start, they're probably things like
# compiler messages ("Compiling file foo").
if self.current_section is not None:
self.lines_by_section.setdefault(self.current_section, []).append(line)
return True
def ParseOneRecord(self, iwyu_output, flags):
"""Given a file object with output from an iwyu run, return per file info.
For each source file that iwyu_output mentions (because iwyu was run on
it), we return a structure holding the information in IWYUOutputRecord:
1) What file these changes apply to
2) What line numbers hold includes/fwd-declares to remove
3) What includes/fwd-declares to add
4) Ordering information for includes and fwd-declares
Arguments:
iwyu_output: a File object returning lines from an iwyu run
flags: commandline flags, as parsed by argparse. We use
flags.comments, which controls whether we output comments
generated by iwyu.
Returns:
An IWYUOutputRecord object, or None at EOF.
Raises:
FixIncludesError: for malformed-looking lines in the iwyu output.
"""
for line in iwyu_output:
if not self._ProcessOneLine(line, flags.basedir):
# returns False at end-of-record
break
else: # for/else
return None # at EOF
# Now set up all the fields in an IWYUOutputRecord.
# IWYUOutputRecord.filename
retval = IWYUOutputRecord(self.filename)
# IWYUOutputRecord.lines_to_delete
for line in self.lines_by_section.get(self._REMOVE_SECTION_RE, []):
m = self._LINE_NUMBERS_COMMENT_RE.search(line)
if not m:
raise FixIncludesError('line "%s" (for %s) has no line number'
% (line, self.filename))
# The RE is of the form [start_line, end_line], inclusive.
for line_number in range(int(m.group(1)), int(m.group(2)) + 1):
retval.lines_to_delete.add(line_number)
# IWYUOutputRecord.some_include_lines
for line in (self.lines_by_section.get(self._REMOVE_SECTION_RE, []) +
self.lines_by_section.get(self._TOTAL_SECTION_RE, [])):
if not _INCLUDE_RE.match(line):
continue
m = self._LINE_NUMBERS_COMMENT_RE.search(line)
if not m:
continue # not all #include lines have line numbers, but some do
for line_number in range(int(m.group(1)), int(m.group(2)) + 1):
retval.some_include_lines.add(line_number)
# IWYUOutputRecord.seen_forward_declare_lines
for line in (self.lines_by_section.get(self._REMOVE_SECTION_RE, []) +
self.lines_by_section.get(self._TOTAL_SECTION_RE, [])):
# Everything that's not an #include is a forward-declare.
if line.startswith('- '): # the 'remove' lines all start with '- '.
line = line[len('- '):]
if _INCLUDE_RE.match(line):
continue
m = self._LINE_NUMBERS_COMMENT_RE.search(line)
if m:
line_range = (int(m.group(1)), int(m.group(2))+1)
retval.seen_forward_declare_lines.add(line_range)
if '::' in line:
retval.nested_forward_declare_lines.add(line_range)
# IWYUOutputRecord.includes_and_forward_declares_to_add
for line in self.lines_by_section.get(self._ADD_SECTION_RE, []):
line = _COMMENT_RE.sub('', line)
retval.includes_and_forward_declares_to_add.add(line)
# IWYUOutputRecord.full_include_lines
for line in self.lines_by_section.get(self._TOTAL_SECTION_RE, []):
m = _INCLUDE_RE.match(line)
if m:
if not flags.comments:
line = _COMMENT_RE.sub('', line) # pretend there were no comments
else:
# Just remove '// line XX': that's iwyu metadata, not a real comment
line = self._LINE_NUMBERS_COMMENT_RE.sub('', line)
retval.full_include_lines[m.group(1)] = line
return retval
class LineInfo(object):
"""Information about a single line of a source file."""
def __init__(self, line):
"""Initializes the content of the line, but no ancillary fields."""
# The content of the line in the input file
self.line = line
# The 'type' of the line. The 'type' is one of the regular
# expression objects in _LINE_TYPES, or None for any line that
# does not match any regular expression in _LINE_TYPES.
self.type = None
# True if no lines processed before this one have the same type
# as this line.
self.is_first_line_of_this_type = False
# Set to true if we want to delete/ignore this line in the output
# (for instance, because iwyu says to delete this line). At the
# start, the only line to delete is the 'dummy' line 0.
self.deleted = self.line is None
# If this line is an #include or a forward-declare, gives a
# [begin,end) pair saying the 'span' this line is part of. We do
# this for two types of span: the move span (an #include or
# forward declare, along with any preceding comments) and the
# reorder span (a continguous block of move-spans, connected only
# by blank lines and comments). For lines that are not an
# #include or forward-declare, these may have an arbitrary value.
self.move_span = None
self.reorder_span = None
# If this line is an #include or a forward-declare, gives the
# 'key' of the line. For #includes it is the filename included,
# including the ""s or <>s. For a forward-declare it's the name
# of the class/struct. For other types of lines, this is None.
self.key = None
# If this is a forward-declaration of a nested class, then this will be
# True.
self.is_nested_forward_declaration = False
def __str__(self):
if self.deleted:
line = 'XX-%s-XX' % self.line
else:
line = '>>>%s<<<' % self.line
if self.type is None:
type_id = None
else:
type_id = _LINE_TYPES.index(self.type)
return ('%s\n -- type: %s (key: %s). move_span: %s. reorder_span: %s'
% (line, type_id, self.key, self.move_span, self.reorder_span))
class FileInfo(object):
""" Details about a file's storage encoding """
DEFAULT_LINESEP = os.linesep
DEFAULT_ENCODING = 'utf-8'
def __init__(self, linesep, encoding):
self.linesep = linesep
self.encoding = encoding
@staticmethod
def parse(filename):
""" Return a FileInfo object describing file encoding details. """
with open(filename, 'rb') as f:
content = f.read()
linesep = FileInfo.guess_linesep(content)
encoding = FileInfo.guess_encoding(content)
return FileInfo(linesep, encoding)
@staticmethod
def guess_linesep(bytebuf):
""" Return most frequent line separator of buffer. """
win = bytebuf.count(b'\r\n')
unix = bytebuf.count(b'\n') - win
if win > unix:
return '\r\n'
elif unix > win:
return '\n'
return FileInfo.DEFAULT_LINESEP
@staticmethod
def guess_encoding(bytebuf):
""" Return approximate encoding for buffer.
This is heavily heuristic, and will return any supported encoding that can
describe the file without losing information, not necessarily the *right*
encoding. This is usually OK, because IWYU typically only adds ASCII content
(or content pulled from the file itself).
"""
def try_decode(buf, encoding):
try:
buf.decode(encoding, errors='strict')
except UnicodeError:
return False
return True
# Special-case UTF-8 BOM
if bytebuf[0:3] == b'\xef\xbb\xbf':
if try_decode(bytebuf, 'utf-8-sig'):
return 'utf-8-sig'
encodings = ['ascii', 'utf-8', 'windows-1250', 'windows-1252']
for encoding in encodings:
if try_decode(bytebuf, encoding):
return encoding
return FileInfo.DEFAULT_ENCODING
def _ReadFile(filename, fileinfo):
"""Read from filename and return a list of file lines."""
try:
with open(filename, 'rb') as f:
content = f.read()
# Call splitlines with True to keep the original line
# endings. Later in WriteFile, they will be used as-is.
# This will reduce spurious changes to the original files.
# The lines we add will have the linesep determined by
# FileInfo.
return content.decode(fileinfo.encoding).splitlines(True)
except (IOError, OSError) as why:
print("Skipping '%s': %s" % (filename, why))
return None
def _WriteFile(filename, fileinfo, file_lines):
"""Write the given file-lines to the file."""
try:
with open(filename, 'wb') as f:
# file_lines already have line endings, so join with ''.
content = ''.join(file_lines)
content = content.encode(fileinfo.encoding)
f.write(content)
except (IOError, OSError) as why:
print("Error writing '%s': %s" % (filename, why))
def PrintFileDiff(old_file_contents, new_file_contents):
"""Print a unified diff between files, specified as lists of lines."""
diff = difflib.unified_diff(old_file_contents, new_file_contents)
# skip the '--- <filename>/+++ <filename>' lines at the start
try:
next(diff)
next(diff)
print('\n'.join(l.rstrip() for l in diff))
except StopIteration:
pass
def _MarkHeaderGuardIfPresent(file_lines):
"""If any line in file_lines is a header-guard, mark it in file_lines.
We define a header-guard as follows: an #ifdef where there is
nothing contentful before or after the #ifdef. Also, the #ifdef
should have no #elif in it (though we don't currently test that).
This catches the common case of an 'ifdef guard' in .h file, such
as '#ifndef FOO_H\n#define FOO_H\n...contents...\n#endif', but it
can also catch other whole-program #ifdefs, such as
'#ifdef __linux\n...\n#endif'. The issue here is that if an #ifdef
encloses the entire file, then we are willing to put new
#includes/fwd-declares inside the #ifdef (which normally we
wouldn't do). So we want to mark such #ifdefs with a special label.
If we find such an #ifdef line -- and a single file can have at most
one -- we change its type to a special type for header guards.
Arguments:
file_lines: an array of LineInfo objects with .type filled in.
"""
# Pass over blank lines, pragmas and comments at the top of the file.
i = 0
for i in range(len(file_lines)):
if (not file_lines[i].deleted and
file_lines[i].type not in [_COMMENT_LINE_RE, _BLANK_LINE_RE,
_PRAGMA_ONCE_LINE_RE]):
break
else: # for/else: got to EOF without finding any non-blank/comment lines
return
# This next line is the candidate header guard-line.
ifdef_start = i
if file_lines[ifdef_start].type != _IF_RE:
# Not a header guard, just return without doing anything.
return
# Find the end of this ifdef, to see if it's really a header guard..
ifdef_depth = 0
for ifdef_end in range(ifdef_start, len(file_lines)):
if file_lines[ifdef_end].deleted:
continue
if file_lines[ifdef_end].type == _IF_RE:
ifdef_depth += 1
elif file_lines[ifdef_end].type == _ENDIF_RE:
ifdef_depth -= 1
if ifdef_depth == 0: # The end of our #ifdef!
break
else: # for/else
return False # Weird: never found a close to this #ifdef
# Finally, all the lines after the end of the ifdef must be blank or comments.
for i in range(ifdef_end + 1, len(file_lines)):
if (not file_lines[i].deleted and
file_lines[i].type not in [_COMMENT_LINE_RE, _BLANK_LINE_RE]):
return
# We passed the gauntlet!
file_lines[ifdef_start].type = _HEADER_GUARD_RE
# And the line after the header guard #ifdef is the '#define' (usually).
if _HEADER_GUARD_DEFINE_RE.match(file_lines[ifdef_start + 1].line):
file_lines[ifdef_start+1].type = _HEADER_GUARD_DEFINE_RE
def _CalculateLineTypesAndKeys(file_lines, iwyu_record):
"""Fills file_line's type and key fields, where the 'type' is a regexp object.
We match each line (line_info.line) against every regexp in
_LINE_TYPES, and assign the first that matches, or None if none
does. We also use iwyu_record's some_include_lines and
seen_forward_declare_lines to identify those lines. In fact,
that's the only data source we use for forward-declare lines.
Sets file_line.type and file_line.is_first_line_of_this_type for
each file_line in file_lines.
Arguments:
file_lines: an array of LineInfo objects with .line fields filled in.
iwyu_record: the IWYUOutputRecord struct for this source file.
Raises:
FixIncludesError: if iwyu_record's line-number information is
is inconsistent with what we see in the file. (For instance,
it says line 12 is an #include, but we say it's a blank line,
or the file only has 11 lines.)
"""
seen_types = set()
in_c_style_comment = False
in_allman_or_mixed_namespace = False
for line_info in file_lines:
if line_info.line is None:
line_info.type = None
elif _C_COMMENT_START_RE.match(line_info.line):
# Note: _C_COMMENT_START_RE only matches a comment at the start
# of a line. Comments in the middle of a line are ignored.
# This can cause problems with multi-line comments that start
# in the middle of the line, but that's hopefully quite rare.
# TODO(csilvers): check for that case.
m = _C_COMMENT_END_RE.match(line_info.line)
if not m: # comment continues onto future lines
line_info.type = _COMMENT_LINE_RE
in_c_style_comment = True
elif not m.group(1): # comment extends across entire line (only)
line_info.type = _COMMENT_LINE_RE
else: # comment takes only part of line, treat as content
# TODO(csilvers): this mis-diagnoses lines like '/*comment*/class Foo;'
line_info.type = None
elif in_c_style_comment and _C_COMMENT_END_RE.match(line_info.line):
line_info.type = _COMMENT_LINE_RE
in_c_style_comment = False
elif in_c_style_comment:
line_info.type = _COMMENT_LINE_RE
elif (in_allman_or_mixed_namespace and
_NAMESPACE_CONTINUE_ALLMAN_MIXED_RE.match(line_info.line)):
in_allman_or_mixed_namespace = False
line_info.type = _NAMESPACE_CONTINUE_ALLMAN_MIXED_RE
else:
for type_re in _LINE_TYPES:
# header-guard-define-re has a two-part decision criterion: it
# matches the RE, *and* it comes after a header guard line.
# That's too complex to figure out now, so we skip over it now
# and fix it up later in _MarkHeaderGuardIfPresent().
if type_re in (_HEADER_GUARD_DEFINE_RE,):
continue
m = type_re.match(line_info.line)
if m:
line_info.type = type_re
if type_re == _INCLUDE_RE:
line_info.key = m.group(1) # get the 'key' for the #include.
elif type_re in (_NAMESPACE_START_ALLMAN_RE,
_NAMESPACE_START_MIXED_RE):
# set in_allman_or_mixed_namespace to true to find the next {
in_allman_or_mixed_namespace = True
break
else: # for/else
line_info.type = None # means we didn't match any re
line_info.is_first_line_of_this_type = (line_info.type not in seen_types)
seen_types.add(line_info.type)
# Now double-check against iwyu that we got all the #include lines right.
for line_number in iwyu_record.some_include_lines:
if file_lines[line_number].type != _INCLUDE_RE:
raise FixIncludesError('iwyu line number %s:%d (%s) is not an #include'
% (iwyu_record.filename, line_number,
file_lines[line_number].line))
# We depend entirely on the iwyu_record for the forward-declare lines.
for (start_line, end_line) in iwyu_record.seen_forward_declare_lines:
for line_number in range(start_line, end_line):
if line_number >= len(file_lines):
raise FixIncludesError('iwyu line number %s:%d is past file-end'
% (iwyu_record.filename, line_number))
file_lines[line_number].type = _FORWARD_DECLARE_RE
for (start_line, end_line) in iwyu_record.nested_forward_declare_lines:
for line_number in range(start_line, end_line):
if line_number >= len(file_lines):
raise FixIncludesError('iwyu line number %s:%d is past file-end'
% (iwyu_record.filename, line_number))
file_lines[line_number].is_nested_forward_declaration = True
# While we're at it, let's do a bit more sanity checking on iwyu_record.
for line_number in iwyu_record.lines_to_delete:
if line_number >= len(file_lines):
raise FixIncludesError('iwyu line number %s:%d is past file-end'
% (iwyu_record.filename, line_number))
elif file_lines[line_number].type not in (_INCLUDE_RE,
_FORWARD_DECLARE_RE):
raise FixIncludesError('iwyu line number %s:%d (%s) is not'
' an #include or forward declare'
% (iwyu_record.filename, line_number,
file_lines[line_number].line))
# Check if this file has a header guard, which for our purposes is
# an #ifdef (or #if) that covers an entire source file. Usually
# this will be a standard .h header-guard, but it could be something
# like '#if __linux/#endif'. The point here is that if an #ifdef
# encloses the entire file, then we are willing to put new
# #includes/fwd-declares inside the #ifdef (which normally we
# wouldn't do). So we mark such #ifdefs with a special label.
_MarkHeaderGuardIfPresent(file_lines)
def _PreviousNondeletedLine(file_lines, line_number):
"""Returns the line number of the previous not-deleted line, or None."""
for line_number in range(line_number - 1, -1, -1):
if not file_lines[line_number].deleted:
return line_number
return None
def _NextNondeletedLine(file_lines, line_number):
"""Returns the line number of the next not-deleted line, or None."""
for line_number in range(line_number + 1, len(file_lines)):
if not file_lines[line_number].deleted:
return line_number
return None
def _LineNumberStartingPrecedingComments(file_lines, line_number):
"""Returns the line-number for the comment-lines preceding the given linenum.
Looking at file_lines, look at the lines immediately preceding the
given line-number. If they're comment lines, return the first line
of the comment lines preceding the given line. Otherwise, return
the given line number.
As a special case, if the comments go all the way up to the first
line of the file (line 1), we assume they're comment lines, which
are special -- they're not associated with any source code line --
and we return line_number in that case.
Arguments:
file_lines: an array of LineInfo objects, with .type fields filled in.
line_number: an index into file_lines.
Returns:
The first line number of the preceding comments, or line_number
if there are no preceding comments or they appear to be a
top-of-file copyright notice.
"""
retval = line_number
while retval > 0 and file_lines[retval - 1].type == _COMMENT_LINE_RE:
retval -= 1
if retval <= 1: # top-of-line comments
retval = line_number # so ignore all the comment lines
return retval
def _CalculateMoveSpans(file_lines, forward_declare_spans):
"""Fills each input_line's move_span field.
A 'move span' is a range of lines (from file_lines) that includes
an #include or forward-declare, and all the comments preceding it.
It is the unit we would move if we decided to move (or delete) this
#include or forward-declare.
For lines of type _INCLUDE_RE or _FORWARD_DECLARE_RE, the move span
is set to the tuple [start_of_span, end_of_span). All other lines
have the move span kept at None.
Arguments:
file_lines: an array of LineInfo objects, with .type fields filled in.
forward_declare_spans: a set of line-number pairs
[start_line, end_line), each representing a single namespace.
In practice this comes from iwyu_record.seen_forward_declare_lines.
"""
# First let's do #includes.
for line_number in range(len(file_lines)):
if file_lines[line_number].type == _INCLUDE_RE:
span_begin = _LineNumberStartingPrecedingComments(file_lines, line_number)
for i in range(span_begin, line_number + 1):
file_lines[i].move_span = (span_begin, line_number + 1)
# Now forward-declares. These spans come as input to this function.
for (span_begin, span_end) in forward_declare_spans:
span_begin = _LineNumberStartingPrecedingComments(file_lines, span_begin)
for i in range(span_begin, span_end):
file_lines[i].move_span = (span_begin, span_end)
def _ContainsBarrierInclude(file_lines, line_range):
"""Returns true iff some line in [line_range[0], line_range[1]) is BARRIER."""
for line_number in range(*line_range):
if (not file_lines[line_number].deleted and
_BARRIER_INCLUDES.search(file_lines[line_number].line)):
return True
return False
def _LinesAreAllBlank(file_lines, start_line, end_line):
"""Returns true iff all lines in [start_line, end_line) are blank/deleted."""
for line_number in range(start_line, end_line):
if (not file_lines[line_number].deleted and
file_lines[line_number].type != _BLANK_LINE_RE):
return False
return True
def _CalculateReorderSpans(file_lines):
"""Fills each input_line's reorder_span field.
A 'reorder span' is a range of lines (from file_lines) that only has
#includes and forward-declares in it (and maybe blank lines, and
comments associated with #includes or forward-declares). In
particular, it does not include any "real code" besides #includes
and forward-declares: no functions, no static variable assignment,
no macro #defines, no nothing. We are willing to reorder #includes
and namespaces freely inside a reorder span.
Calculating reorder_span is easy: they're just the union of
contiguous move-spans (with perhaps blank lines and comments
thrown in), because move-spans share the 'no actual code'
requirement.
There's one exception: if any move-span matches the
_BARRIER_INCLUDES regexp, it means that we should consider that
move-span to be a 'barrier': nothing should get reordered from one
side of that move-span to the other. (This is used for #includes
that depend on other #includes being before them to function
properly.) We do that by putting them into their own reorder span.
For lines of type _INCLUDE_RE or _FORWARD_DECLARE_RE, the reorder
span is set to the tuple [start_of_span, end_of_span). All other
lines have an arbitrary value for the reorder span.
Arguments:
file_lines: an array of LineInfo objects with .type and .move_span
fields filled in.
"""
# Happily, move_spans are disjoint. Just make sure they're sorted and unique.
move_spans = [s.move_span for s in file_lines if s.move_span is not None]
sorted_move_spans = sorted(set(move_spans))
i = 0
while i < len(sorted_move_spans):
reorder_span_start = sorted_move_spans[i][0]
# If we're a 'nosort' include, we're always in a reorder span of
# our own. Otherwise, add in the next move span if we're
# connected to it only by blank lines.
if not _ContainsBarrierInclude(file_lines, sorted_move_spans[i]):
while i < len(sorted_move_spans) - 1:
move_span_end = sorted_move_spans[i][1]
next_move_span_start = sorted_move_spans[i+1][0]
if (_LinesAreAllBlank(file_lines, move_span_end, next_move_span_start)
and not _ContainsBarrierInclude(file_lines, sorted_move_spans[i+1])):
i += 1
else:
break
reorder_span_end = sorted_move_spans[i][1]
# We'll map every line in the span to the span-extent.
for line_number in range(reorder_span_start, reorder_span_end):
file_lines[line_number].reorder_span = (reorder_span_start,
reorder_span_end)
i += 1
def ParseOneFile(f, iwyu_record):
"""Given a file object, read and classify the lines of the file.
For each file that iwyu_output mentions, we return a list of LineInfo
objects, which is a parsed version of each line, including not only
its content but its 'type', its 'key', etc.
Arguments:
f: an iterable object returning lines from a file.
iwyu_record: the IWYUOutputRecord struct for this source file.
Returns:
An array of LineInfo objects. The first element is always a dummy
element, so the first line of the file is at retval[1], matching
the way iwyu counts line numbers.
"""
file_lines = [LineInfo(None)]
for line in f:
file_lines.append(LineInfo(line))
_CalculateLineTypesAndKeys(file_lines, iwyu_record)
_CalculateMoveSpans(file_lines, iwyu_record.seen_forward_declare_lines)
_CalculateReorderSpans(file_lines)
return file_lines
def _DeleteEmptyNamespaces(file_lines):
"""Delete namespaces with nothing in them.
Empty namespaces could be caused by transformations that removed
forward-declarations:
namespace foo {
class Myclass;
}
->
namespace foo {
}
We want to get rid of the 'empty' namespace in this case.
This routine 'deletes' lines by setting their 'deleted' field to True.