ansible-later/testenv/lib/python2.7/site-packages/pyflakes/api.py
2019-04-23 13:04:27 +02:00

211 lines
6.2 KiB
Python

"""
API for the command-line I{pyflakes} tool.
"""
from __future__ import with_statement
import ast
import os
import platform
import re
import sys
from pyflakes import checker, __version__
from pyflakes import reporter as modReporter
__all__ = ['check', 'checkPath', 'checkRecursive', 'iterSourceCode', 'main']
PYTHON_SHEBANG_REGEX = re.compile(br'^#!.*\bpython[23w]?\b\s*$')
def check(codeString, filename, reporter=None):
"""
Check the Python source given by C{codeString} for flakes.
@param codeString: The Python source to check.
@type codeString: C{str}
@param filename: The name of the file the source came from, used to report
errors.
@type filename: C{str}
@param reporter: A L{Reporter} instance, where errors and warnings will be
reported.
@return: The number of warnings emitted.
@rtype: C{int}
"""
if reporter is None:
reporter = modReporter._makeDefaultReporter()
# First, compile into an AST and handle syntax errors.
try:
tree = ast.parse(codeString, filename=filename)
except SyntaxError:
value = sys.exc_info()[1]
msg = value.args[0]
(lineno, offset, text) = value.lineno, value.offset, value.text
if checker.PYPY:
if text is None:
lines = codeString.splitlines()
if len(lines) >= lineno:
text = lines[lineno - 1]
if sys.version_info >= (3, ) and isinstance(text, bytes):
try:
text = text.decode('ascii')
except UnicodeDecodeError:
text = None
offset -= 1
# If there's an encoding problem with the file, the text is None.
if text is None:
# Avoid using msg, since for the only known case, it contains a
# bogus message that claims the encoding the file declared was
# unknown.
reporter.unexpectedError(filename, 'problem decoding source')
else:
reporter.syntaxError(filename, msg, lineno, offset, text)
return 1
except Exception:
reporter.unexpectedError(filename, 'problem decoding source')
return 1
# Okay, it's syntactically valid. Now check it.
file_tokens = checker.make_tokens(codeString)
w = checker.Checker(tree, file_tokens=file_tokens, filename=filename)
w.messages.sort(key=lambda m: m.lineno)
for warning in w.messages:
reporter.flake(warning)
return len(w.messages)
def checkPath(filename, reporter=None):
"""
Check the given path, printing out any warnings detected.
@param reporter: A L{Reporter} instance, where errors and warnings will be
reported.
@return: the number of warnings printed
"""
if reporter is None:
reporter = modReporter._makeDefaultReporter()
try:
with open(filename, 'rb') as f:
codestr = f.read()
except IOError:
msg = sys.exc_info()[1]
reporter.unexpectedError(filename, msg.args[1])
return 1
return check(codestr, filename, reporter)
def isPythonFile(filename):
"""Return True if filename points to a Python file."""
if filename.endswith('.py'):
return True
# Avoid obvious Emacs backup files
if filename.endswith("~"):
return False
max_bytes = 128
try:
with open(filename, 'rb') as f:
text = f.read(max_bytes)
if not text:
return False
except IOError:
return False
first_line = text.splitlines()[0]
return PYTHON_SHEBANG_REGEX.match(first_line)
def iterSourceCode(paths):
"""
Iterate over all Python source files in C{paths}.
@param paths: A list of paths. Directories will be recursed into and
any .py files found will be yielded. Any non-directories will be
yielded as-is.
"""
for path in paths:
if os.path.isdir(path):
for dirpath, dirnames, filenames in os.walk(path):
for filename in filenames:
full_path = os.path.join(dirpath, filename)
if isPythonFile(full_path):
yield full_path
else:
yield path
def checkRecursive(paths, reporter):
"""
Recursively check all source files in C{paths}.
@param paths: A list of paths to Python source files and directories
containing Python source files.
@param reporter: A L{Reporter} where all of the warnings and errors
will be reported to.
@return: The number of warnings found.
"""
warnings = 0
for sourcePath in iterSourceCode(paths):
warnings += checkPath(sourcePath, reporter)
return warnings
def _exitOnSignal(sigName, message):
"""Handles a signal with sys.exit.
Some of these signals (SIGPIPE, for example) don't exist or are invalid on
Windows. So, ignore errors that might arise.
"""
import signal
try:
sigNumber = getattr(signal, sigName)
except AttributeError:
# the signal constants defined in the signal module are defined by
# whether the C library supports them or not. So, SIGPIPE might not
# even be defined.
return
def handler(sig, f):
sys.exit(message)
try:
signal.signal(sigNumber, handler)
except ValueError:
# It's also possible the signal is defined, but then it's invalid. In
# this case, signal.signal raises ValueError.
pass
def _get_version():
"""
Retrieve and format package version along with python version & OS used
"""
return ('%s Python %s on %s' %
(__version__, platform.python_version(), platform.system()))
def main(prog=None, args=None):
"""Entry point for the script "pyflakes"."""
import optparse
# Handle "Keyboard Interrupt" and "Broken pipe" gracefully
_exitOnSignal('SIGINT', '... stopped')
_exitOnSignal('SIGPIPE', 1)
parser = optparse.OptionParser(prog=prog, version=_get_version())
(__, args) = parser.parse_args(args=args)
reporter = modReporter._makeDefaultReporter()
if args:
warnings = checkRecursive(args, reporter)
else:
warnings = check(sys.stdin.read(), '<stdin>', reporter)
raise SystemExit(warnings > 0)