blob: 0b6761a28f840274dffd1192189bd66ccc6feea3 [file] [log] [blame]
# Copyright (c) 2012 The Chromium Authors. All rights reserved.
# Use of this source code is governed by a BSD-style license that can be
# found in the LICENSE file.
"""Top-level presubmit script for cc.
See http://dev.chromium.org/developers/how-tos/depottools/presubmit-scripts
for more details about the presubmit API built into depot_tools.
"""
import re
import string
CC_SOURCE_FILES=(r'^cc[\\/].*\.(cc|h)$',)
def CheckChangeLintsClean(input_api, output_api):
source_filter = lambda x: input_api.FilterSourceFile(
x, white_list=CC_SOURCE_FILES, black_list=None)
return input_api.canned_checks.CheckChangeLintsClean(
input_api, output_api, source_filter, lint_filters=[], verbose_level=1)
def CheckAsserts(input_api, output_api, white_list=CC_SOURCE_FILES, black_list=None):
black_list = tuple(black_list or input_api.DEFAULT_BLACK_LIST)
source_file_filter = lambda x: input_api.FilterSourceFile(x, white_list, black_list)
assert_files = []
for f in input_api.AffectedSourceFiles(source_file_filter):
contents = input_api.ReadFile(f, 'rb')
# WebKit ASSERT() is not allowed.
if re.search(r"\bASSERT\(", contents):
assert_files.append(f.LocalPath())
if assert_files:
return [output_api.PresubmitError(
'These files use ASSERT instead of using DCHECK:',
items=assert_files)]
return []
def CheckStdAbs(input_api, output_api,
white_list=CC_SOURCE_FILES, black_list=None):
black_list = tuple(black_list or input_api.DEFAULT_BLACK_LIST)
source_file_filter = lambda x: input_api.FilterSourceFile(x,
white_list,
black_list)
using_std_abs_files = []
found_fabs_files = []
missing_std_prefix_files = []
for f in input_api.AffectedSourceFiles(source_file_filter):
contents = input_api.ReadFile(f, 'rb')
if re.search(r"using std::f?abs;", contents):
using_std_abs_files.append(f.LocalPath())
if re.search(r"\bfabsf?\(", contents):
found_fabs_files.append(f.LocalPath());
no_std_prefix = r"(?<!std::)"
# Matches occurrences of abs/absf/fabs/fabsf without a "std::" prefix.
abs_without_prefix = r"%s(\babsf?\()" % no_std_prefix
fabs_without_prefix = r"%s(\bfabsf?\()" % no_std_prefix
# Skips matching any lines that have "// NOLINT".
no_nolint = r"(?![^\n]*//\s+NOLINT)"
expression = re.compile("(%s|%s)%s" %
(abs_without_prefix, fabs_without_prefix, no_nolint))
if expression.search(contents):
missing_std_prefix_files.append(f.LocalPath())
result = []
if using_std_abs_files:
result.append(output_api.PresubmitError(
'These files have "using std::abs" which is not permitted.',
items=using_std_abs_files))
if found_fabs_files:
result.append(output_api.PresubmitError(
'std::abs() should be used instead of std::fabs() for consistency.',
items=found_fabs_files))
if missing_std_prefix_files:
result.append(output_api.PresubmitError(
'These files use abs(), absf(), fabs(), or fabsf() without qualifying '
'the std namespace. Please use std::abs() in all places.',
items=missing_std_prefix_files))
return result
def CheckPassByValue(input_api,
output_api,
white_list=CC_SOURCE_FILES,
black_list=None):
black_list = tuple(black_list or input_api.DEFAULT_BLACK_LIST)
source_file_filter = lambda x: input_api.FilterSourceFile(x,
white_list,
black_list)
local_errors = []
# Well-defined simple classes the same size as a primitive type.
pass_by_value_types = ['base::Time',
'base::TimeTicks',
]
for f in input_api.AffectedSourceFiles(source_file_filter):
contents = input_api.ReadFile(f, 'rb')
match = re.search(
r'\bconst +' + '(?P<type>(%s))&' %
string.join(pass_by_value_types, '|'),
contents)
if match:
local_errors.append(output_api.PresubmitError(
'%s passes %s by const ref instead of by value.' %
(f.LocalPath(), match.group('type'))))
return local_errors
def CheckTodos(input_api, output_api):
errors = []
source_file_filter = lambda x: x
for f in input_api.AffectedSourceFiles(source_file_filter):
contents = input_api.ReadFile(f, 'rb')
if ('FIX'+'ME') in contents:
errors.append(f.LocalPath())
if errors:
return [output_api.PresubmitError(
'All TODO comments should be of the form TODO(name/bug). ' +
'Use TODO instead of FIX' + 'ME',
items=errors)]
return []
def CheckDoubleAngles(input_api, output_api, white_list=CC_SOURCE_FILES,
black_list=None):
errors = []
source_file_filter = lambda x: input_api.FilterSourceFile(x,
white_list,
black_list)
for f in input_api.AffectedSourceFiles(source_file_filter):
contents = input_api.ReadFile(f, 'rb')
if ('> >') in contents:
errors.append(f.LocalPath())
if errors:
return [output_api.PresubmitError('Use >> instead of > >:', items=errors)]
return []
def FindUnquotedQuote(contents, pos):
match = re.search(r"(?<!\\)(?P<quote>\")", contents[pos:])
return -1 if not match else match.start("quote") + pos
def FindUselessIfdefs(input_api, output_api):
errors = []
source_file_filter = lambda x: x
for f in input_api.AffectedSourceFiles(source_file_filter):
contents = input_api.ReadFile(f, 'rb')
if re.search(r'#if\s*0\s', contents):
errors.append(f.LocalPath())
if errors:
return [output_api.PresubmitError(
'Don\'t use #if '+'0; just delete the code.',
items=errors)]
return []
def FindNamespaceInBlock(pos, namespace, contents, whitelist=[]):
open_brace = -1
close_brace = -1
quote = -1
name = -1
brace_count = 1
quote_count = 0
while pos < len(contents) and brace_count > 0:
if open_brace < pos: open_brace = contents.find("{", pos)
if close_brace < pos: close_brace = contents.find("}", pos)
if quote < pos: quote = FindUnquotedQuote(contents, pos)
if name < pos: name = contents.find(("%s::" % namespace), pos)
if name < 0:
return False # The namespace is not used at all.
if open_brace < 0:
open_brace = len(contents)
if close_brace < 0:
close_brace = len(contents)
if quote < 0:
quote = len(contents)
next = min(open_brace, min(close_brace, min(quote, name)))
if next == open_brace:
brace_count += 1
elif next == close_brace:
brace_count -= 1
elif next == quote:
quote_count = 0 if quote_count else 1
elif next == name and not quote_count:
in_whitelist = False
for w in whitelist:
if re.match(w, contents[next:]):
in_whitelist = True
break
if not in_whitelist:
return True
pos = next + 1
return False
# Checks for the use of cc:: within the cc namespace, which is usually
# redundant.
def CheckNamespace(input_api, output_api):
errors = []
source_file_filter = lambda x: x
for f in input_api.AffectedSourceFiles(source_file_filter):
contents = input_api.ReadFile(f, 'rb')
match = re.search(r'namespace\s*cc\s*{', contents)
if match:
whitelist = []
if FindNamespaceInBlock(match.end(), 'cc', contents, whitelist=whitelist):
errors.append(f.LocalPath())
if errors:
return [output_api.PresubmitError(
'Do not use cc:: inside of the cc namespace.',
items=errors)]
return []
def CheckForUseOfWrongClock(input_api,
output_api,
white_list=CC_SOURCE_FILES,
black_list=None):
"""Make sure new lines of code don't use a clock susceptible to skew."""
black_list = tuple(black_list or input_api.DEFAULT_BLACK_LIST)
source_file_filter = lambda x: input_api.FilterSourceFile(x,
white_list,
black_list)
# Regular expression that should detect any explicit references to the
# base::Time type (or base::Clock/DefaultClock), whether in using decls,
# typedefs, or to call static methods.
base_time_type_pattern = r'(^|\W)base::(Time|Clock|DefaultClock)(\W|$)'
# Regular expression that should detect references to the base::Time class
# members, such as a call to base::Time::Now.
base_time_member_pattern = r'(^|\W)(Time|Clock|DefaultClock)::'
# Regular expression to detect "using base::Time" declarations. We want to
# prevent these from triggerring a warning. For example, it's perfectly
# reasonable for code to be written like this:
#
# using base::Time;
# ...
# int64 foo_us = foo_s * Time::kMicrosecondsPerSecond;
using_base_time_decl_pattern = r'^\s*using\s+(::)?base::Time\s*;'
# Regular expression to detect references to the kXXX constants in the
# base::Time class. We want to prevent these from triggerring a warning.
base_time_konstant_pattern = r'(^|\W)Time::k\w+'
problem_re = input_api.re.compile(
r'(' + base_time_type_pattern + r')|(' + base_time_member_pattern + r')')
exception_re = input_api.re.compile(
r'(' + using_base_time_decl_pattern + r')|(' +
base_time_konstant_pattern + r')')
problems = []
for f in input_api.AffectedSourceFiles(source_file_filter):
for line_number, line in f.ChangedContents():
if problem_re.search(line):
if not exception_re.search(line):
problems.append(
' %s:%d\n %s' % (f.LocalPath(), line_number, line.strip()))
if problems:
return [output_api.PresubmitPromptOrNotify(
'You added one or more references to the base::Time class and/or one\n'
'of its member functions (or base::Clock/DefaultClock). In cc code,\n'
'it is most certainly incorrect! Instead use base::TimeTicks.\n\n'
'\n'.join(problems))]
else:
return []
def CheckForDisallowMacros(input_api, output_api, white_list=CC_SOURCE_FILES, black_list=None):
black_list = tuple(black_list or input_api.DEFAULT_BLACK_LIST)
source_file_filter = lambda x: input_api.FilterSourceFile(x, white_list, black_list)
disallow_macro_files = []
for f in input_api.AffectedSourceFiles(source_file_filter):
contents = input_api.ReadFile(f, 'rb')
# DISALLOW macros are not allowed, use deleted constructors instead.
if re.search(r"\bDISALLOW_COPY\(", contents) or \
re.search(r"\bDISALLOW_ASSIGN\(", contents) or \
re.search(r"\bDISALLOW_COPY_AND_ASSIGN\(", contents) or \
re.search(r"\bDISALLOW_IMPLICIT_CONSTRUCTORS\(", contents):
disallow_macro_files.append(f.LocalPath())
if disallow_macro_files:
return [output_api.PresubmitError(
'The following files use DISALLOW* macros. In cc, please use deleted constructors/operators instead.',
items=disallow_macro_files)]
return []
def CheckChangeOnUpload(input_api, output_api):
results = []
results += CheckAsserts(input_api, output_api)
results += CheckStdAbs(input_api, output_api)
results += CheckPassByValue(input_api, output_api)
results += CheckChangeLintsClean(input_api, output_api)
results += CheckTodos(input_api, output_api)
results += CheckDoubleAngles(input_api, output_api)
results += CheckNamespace(input_api, output_api)
results += CheckForUseOfWrongClock(input_api, output_api)
results += FindUselessIfdefs(input_api, output_api)
results += CheckForDisallowMacros(input_api, output_api)
return results