Current File : //lib/python3/dist-packages/mypy/util.py
"""Utility functions with no non-trivial dependencies."""
import os
import pathlib
import re
import subprocess
import sys
import hashlib
import io
import shutil
from typing import (
TypeVar, List, Tuple, Optional, Dict, Sequence, Iterable, Container, IO, Callable
)
from typing_extensions import Final, Type, Literal
try:
import curses
import _curses # noqa
CURSES_ENABLED = True
except ImportError:
CURSES_ENABLED = False
T = TypeVar('T')
ENCODING_RE: Final = re.compile(br"([ \t\v]*#.*(\r\n?|\n))??[ \t\v]*#.*coding[:=][ \t]*([-\w.]+)")
DEFAULT_SOURCE_OFFSET: Final = 4
DEFAULT_COLUMNS: Final = 80
# At least this number of columns will be shown on each side of
# error location when printing source code snippet.
MINIMUM_WIDTH: Final = 20
# VT100 color code processing was added in Windows 10, but only the second major update,
# Threshold 2. Fortunately, everyone (even on LTSB, Long Term Support Branch) should
# have a version of Windows 10 newer than this. Note that Windows 8 and below are not
# supported, but are either going out of support, or make up only a few % of the market.
MINIMUM_WINDOWS_MAJOR_VT100: Final = 10
MINIMUM_WINDOWS_BUILD_VT100: Final = 10586
default_python2_interpreter: Final = [
"python2",
"python",
"/usr/bin/python",
"C:\\Python27\\python.exe",
]
SPECIAL_DUNDERS: Final = frozenset((
"__init__", "__new__", "__call__", "__init_subclass__", "__class_getitem__",
))
def is_dunder(name: str, exclude_special: bool = False) -> bool:
"""Returns whether name is a dunder name.
Args:
exclude_special: Whether to return False for a couple special dunder methods.
"""
if exclude_special and name in SPECIAL_DUNDERS:
return False
return name.startswith("__") and name.endswith("__")
def is_sunder(name: str) -> bool:
return not is_dunder(name) and name.startswith('_') and name.endswith('_')
def split_module_names(mod_name: str) -> List[str]:
"""Return the module and all parent module names.
So, if `mod_name` is 'a.b.c', this function will return
['a.b.c', 'a.b', and 'a'].
"""
out = [mod_name]
while '.' in mod_name:
mod_name = mod_name.rsplit('.', 1)[0]
out.append(mod_name)
return out
def module_prefix(modules: Iterable[str], target: str) -> Optional[str]:
result = split_target(modules, target)
if result is None:
return None
return result[0]
def split_target(modules: Iterable[str], target: str) -> Optional[Tuple[str, str]]:
remaining: List[str] = []
while True:
if target in modules:
return target, '.'.join(remaining)
components = target.rsplit('.', 1)
if len(components) == 1:
return None
target = components[0]
remaining.insert(0, components[1])
def short_type(obj: object) -> str:
"""Return the last component of the type name of an object.
If obj is None, return 'nil'. For example, if obj is 1, return 'int'.
"""
if obj is None:
return 'nil'
t = str(type(obj))
return t.split('.')[-1].rstrip("'>")
def find_python_encoding(text: bytes, pyversion: Tuple[int, int]) -> Tuple[str, int]:
"""PEP-263 for detecting Python file encoding"""
result = ENCODING_RE.match(text)
if result:
line = 2 if result.group(1) else 1
encoding = result.group(3).decode('ascii')
# Handle some aliases that Python is happy to accept and that are used in the wild.
if encoding.startswith(('iso-latin-1-', 'latin-1-')) or encoding == 'iso-latin-1':
encoding = 'latin-1'
return encoding, line
else:
default_encoding = 'utf8' if pyversion[0] >= 3 else 'ascii'
return default_encoding, -1
def bytes_to_human_readable_repr(b: bytes) -> str:
"""Converts bytes into some human-readable representation. Unprintable
bytes such as the nul byte are escaped. For example:
>>> b = bytes([102, 111, 111, 10, 0])
>>> s = bytes_to_human_readable_repr(b)
>>> print(s)
foo\n\x00
>>> print(repr(s))
'foo\\n\\x00'
"""
return repr(b)[2:-1]
class DecodeError(Exception):
"""Exception raised when a file cannot be decoded due to an unknown encoding type.
Essentially a wrapper for the LookupError raised by `bytearray.decode`
"""
def decode_python_encoding(source: bytes, pyversion: Tuple[int, int]) -> str:
"""Read the Python file with while obeying PEP-263 encoding detection.
Returns the source as a string.
"""
# check for BOM UTF-8 encoding and strip it out if present
if source.startswith(b'\xef\xbb\xbf'):
encoding = 'utf8'
source = source[3:]
else:
# look at first two lines and check if PEP-263 coding is present
encoding, _ = find_python_encoding(source, pyversion)
try:
source_text = source.decode(encoding)
except LookupError as lookuperr:
raise DecodeError(str(lookuperr)) from lookuperr
return source_text
def read_py_file(path: str, read: Callable[[str], bytes],
pyversion: Tuple[int, int]) -> Optional[List[str]]:
"""Try reading a Python file as list of source lines.
Return None if something goes wrong.
"""
try:
source = read(path)
except OSError:
return None
else:
try:
source_lines = decode_python_encoding(source, pyversion).splitlines()
except DecodeError:
return None
return source_lines
def trim_source_line(line: str, max_len: int, col: int, min_width: int) -> Tuple[str, int]:
"""Trim a line of source code to fit into max_len.
Show 'min_width' characters on each side of 'col' (an error location). If either
start or end is trimmed, this is indicated by adding '...' there.
A typical result looks like this:
...some_variable = function_to_call(one_arg, other_arg) or...
Return the trimmed string and the column offset to to adjust error location.
"""
if max_len < 2 * min_width + 1:
# In case the window is too tiny it is better to still show something.
max_len = 2 * min_width + 1
# Trivial case: line already fits in.
if len(line) <= max_len:
return line, 0
# If column is not too large so that there is still min_width after it,
# the line doesn't need to be trimmed at the start.
if col + min_width < max_len:
return line[:max_len] + '...', 0
# Otherwise, if the column is not too close to the end, trim both sides.
if col < len(line) - min_width - 1:
offset = col - max_len + min_width + 1
return '...' + line[offset:col + min_width + 1] + '...', offset - 3
# Finally, if the column is near the end, just trim the start.
return '...' + line[-max_len:], len(line) - max_len - 3
def get_mypy_comments(source: str) -> List[Tuple[int, str]]:
PREFIX = '# mypy: '
# Don't bother splitting up the lines unless we know it is useful
if PREFIX not in source:
return []
lines = source.split('\n')
results = []
for i, line in enumerate(lines):
if line.startswith(PREFIX):
results.append((i + 1, line[len(PREFIX):]))
return results
_python2_interpreter: Optional[str] = None
def try_find_python2_interpreter() -> Optional[str]:
global _python2_interpreter
if _python2_interpreter:
return _python2_interpreter
for interpreter in default_python2_interpreter:
try:
retcode = subprocess.Popen([
interpreter, '-c',
'import sys, typing; assert sys.version_info[:2] == (2, 7)'
]).wait()
if not retcode:
_python2_interpreter = interpreter
return interpreter
except OSError:
pass
return None
PASS_TEMPLATE: Final = """<?xml version="1.0" encoding="utf-8"?>
<testsuite errors="0" failures="0" name="mypy" skips="0" tests="1" time="{time:.3f}">
<testcase classname="mypy" file="mypy" line="1" name="mypy-py{ver}-{platform}" time="{time:.3f}">
</testcase>
</testsuite>
"""
FAIL_TEMPLATE: Final = """<?xml version="1.0" encoding="utf-8"?>
<testsuite errors="0" failures="1" name="mypy" skips="0" tests="1" time="{time:.3f}">
<testcase classname="mypy" file="mypy" line="1" name="mypy-py{ver}-{platform}" time="{time:.3f}">
<failure message="mypy produced messages">{text}</failure>
</testcase>
</testsuite>
"""
ERROR_TEMPLATE: Final = """<?xml version="1.0" encoding="utf-8"?>
<testsuite errors="1" failures="0" name="mypy" skips="0" tests="1" time="{time:.3f}">
<testcase classname="mypy" file="mypy" line="1" name="mypy-py{ver}-{platform}" time="{time:.3f}">
<error message="mypy produced errors">{text}</error>
</testcase>
</testsuite>
"""
def write_junit_xml(dt: float, serious: bool, messages: List[str], path: str,
version: str, platform: str) -> None:
from xml.sax.saxutils import escape
if not messages and not serious:
xml = PASS_TEMPLATE.format(time=dt, ver=version, platform=platform)
elif not serious:
xml = FAIL_TEMPLATE.format(text=escape('\n'.join(messages)), time=dt,
ver=version, platform=platform)
else:
xml = ERROR_TEMPLATE.format(text=escape('\n'.join(messages)), time=dt,
ver=version, platform=platform)
# checks for a directory structure in path and creates folders if needed
xml_dirs = os.path.dirname(os.path.abspath(path))
if not os.path.isdir(xml_dirs):
os.makedirs(xml_dirs)
with open(path, 'wb') as f:
f.write(xml.encode('utf-8'))
class IdMapper:
"""Generate integer ids for objects.
Unlike id(), these start from 0 and increment by 1, and ids won't
get reused across the life-time of IdMapper.
Assume objects don't redefine __eq__ or __hash__.
"""
def __init__(self) -> None:
self.id_map: Dict[object, int] = {}
self.next_id = 0
def id(self, o: object) -> int:
if o not in self.id_map:
self.id_map[o] = self.next_id
self.next_id += 1
return self.id_map[o]
def get_prefix(fullname: str) -> str:
"""Drop the final component of a qualified name (e.g. ('x.y' -> 'x')."""
return fullname.rsplit('.', 1)[0]
def get_top_two_prefixes(fullname: str) -> Tuple[str, str]:
"""Return one and two component prefixes of a fully qualified name.
Given 'a.b.c.d', return ('a', 'a.b').
If fullname has only one component, return (fullname, fullname).
"""
components = fullname.split('.', 3)
return components[0], '.'.join(components[:2])
def correct_relative_import(cur_mod_id: str,
relative: int,
target: str,
is_cur_package_init_file: bool) -> Tuple[str, bool]:
if relative == 0:
return target, True
parts = cur_mod_id.split(".")
rel = relative
if is_cur_package_init_file:
rel -= 1
ok = len(parts) >= rel
if rel != 0:
cur_mod_id = ".".join(parts[:-rel])
return cur_mod_id + (("." + target) if target else ""), ok
fields_cache: Final[Dict[Type[object], List[str]]] = {}
def get_class_descriptors(cls: 'Type[object]') -> Sequence[str]:
import inspect # Lazy import for minor startup speed win
# Maintain a cache of type -> attributes defined by descriptors in the class
# (that is, attributes from __slots__ and C extension classes)
if cls not in fields_cache:
members = inspect.getmembers(
cls,
lambda o: inspect.isgetsetdescriptor(o) or inspect.ismemberdescriptor(o))
fields_cache[cls] = [x for x, y in members if x != '__weakref__' and x != '__dict__']
return fields_cache[cls]
def replace_object_state(new: object, old: object, copy_dict: bool = False) -> None:
"""Copy state of old node to the new node.
This handles cases where there is __dict__ and/or attribute descriptors
(either from slots or because the type is defined in a C extension module).
Assume that both objects have the same __class__.
"""
if hasattr(old, '__dict__'):
if copy_dict:
new.__dict__ = dict(old.__dict__)
else:
new.__dict__ = old.__dict__
for attr in get_class_descriptors(old.__class__):
try:
if hasattr(old, attr):
setattr(new, attr, getattr(old, attr))
elif hasattr(new, attr):
delattr(new, attr)
# There is no way to distinguish getsetdescriptors that allow
# writes from ones that don't (I think?), so we just ignore
# AttributeErrors if we need to.
# TODO: What about getsetdescriptors that act like properties???
except AttributeError:
pass
def is_sub_path(path1: str, path2: str) -> bool:
"""Given two paths, return if path1 is a sub-path of path2."""
return pathlib.Path(path2) in pathlib.Path(path1).parents
def hard_exit(status: int = 0) -> None:
"""Kill the current process without fully cleaning up.
This can be quite a bit faster than a normal exit() since objects are not freed.
"""
sys.stdout.flush()
sys.stderr.flush()
os._exit(status)
def unmangle(name: str) -> str:
"""Remove internal suffixes from a short name."""
return name.rstrip("'")
def get_unique_redefinition_name(name: str, existing: Container[str]) -> str:
"""Get a simple redefinition name not present among existing.
For example, for name 'foo' we try 'foo-redefinition', 'foo-redefinition2',
'foo-redefinition3', etc. until we find one that is not in existing.
"""
r_name = name + '-redefinition'
if r_name not in existing:
return r_name
i = 2
while r_name + str(i) in existing:
i += 1
return r_name + str(i)
def check_python_version(program: str) -> None:
"""Report issues with the Python used to run mypy, dmypy, or stubgen"""
# Check for known bad Python versions.
if sys.version_info[:2] < (3, 6):
sys.exit("Running {name} with Python 3.5 or lower is not supported; "
"please upgrade to 3.6 or newer".format(name=program))
def count_stats(errors: List[str]) -> Tuple[int, int]:
"""Count total number of errors and files in error list."""
errors = [e for e in errors if ': error:' in e]
files = {e.split(':')[0] for e in errors}
return len(errors), len(files)
def split_words(msg: str) -> List[str]:
"""Split line of text into words (but not within quoted groups)."""
next_word = ''
res: List[str] = []
allow_break = True
for c in msg:
if c == ' ' and allow_break:
res.append(next_word)
next_word = ''
continue
if c == '"':
allow_break = not allow_break
next_word += c
res.append(next_word)
return res
def get_terminal_width() -> int:
"""Get current terminal width if possible, otherwise return the default one."""
return (int(os.getenv('MYPY_FORCE_TERMINAL_WIDTH', '0'))
or shutil.get_terminal_size().columns
or DEFAULT_COLUMNS)
def soft_wrap(msg: str, max_len: int, first_offset: int,
num_indent: int = 0) -> str:
"""Wrap a long error message into few lines.
Breaks will only happen between words, and never inside a quoted group
(to avoid breaking types such as "Union[int, str]"). The 'first_offset' is
the width before the start of first line.
Pad every next line with 'num_indent' spaces. Every line will be at most 'max_len'
characters, except if it is a single word or quoted group.
For example:
first_offset
------------------------
path/to/file: error: 58: Some very long error message
that needs to be split in separate lines.
"Long[Type, Names]" are never split.
^^^^--------------------------------------------------
num_indent max_len
"""
words = split_words(msg)
next_line = words.pop(0)
lines: List[str] = []
while words:
next_word = words.pop(0)
max_line_len = max_len - num_indent if lines else max_len - first_offset
# Add 1 to account for space between words.
if len(next_line) + len(next_word) + 1 <= max_line_len:
next_line += ' ' + next_word
else:
lines.append(next_line)
next_line = next_word
lines.append(next_line)
padding = '\n' + ' ' * num_indent
return padding.join(lines)
def hash_digest(data: bytes) -> str:
"""Compute a hash digest of some data.
We use a cryptographic hash because we want a low probability of
accidental collision, but we don't really care about any of the
cryptographic properties.
"""
# Once we drop Python 3.5 support, we should consider using
# blake2b, which is faster.
return hashlib.sha256(data).hexdigest()
def parse_gray_color(cup: bytes) -> str:
"""Reproduce a gray color in ANSI escape sequence"""
if sys.platform == "win32":
assert False, "curses is not available on Windows"
set_color = ''.join([cup[:-1].decode(), 'm'])
gray = curses.tparm(set_color.encode('utf-8'), 1, 89).decode()
return gray
class FancyFormatter:
"""Apply color and bold font to terminal output.
This currently only works on Linux and Mac.
"""
def __init__(self, f_out: IO[str], f_err: IO[str], show_error_codes: bool) -> None:
self.show_error_codes = show_error_codes
# Check if we are in a human-facing terminal on a supported platform.
if sys.platform not in ('linux', 'darwin', 'win32'):
self.dummy_term = True
return
force_color = int(os.getenv('MYPY_FORCE_COLOR', '0'))
if not force_color and (not f_out.isatty() or not f_err.isatty()):
self.dummy_term = True
return
if sys.platform == 'win32':
self.dummy_term = not self.initialize_win_colors()
else:
self.dummy_term = not self.initialize_unix_colors()
if not self.dummy_term:
self.colors = {'red': self.RED, 'green': self.GREEN,
'blue': self.BLUE, 'yellow': self.YELLOW,
'none': ''}
def initialize_win_colors(self) -> bool:
"""Return True if initialization was successful and we can use colors, False otherwise"""
# Windows ANSI escape sequences are only supported on Threshold 2 and above.
# we check with an assert at runtime and an if check for mypy, as asserts do not
# yet narrow platform
assert sys.platform == 'win32'
if sys.platform == 'win32':
winver = sys.getwindowsversion()
if (winver.major < MINIMUM_WINDOWS_MAJOR_VT100
or winver.build < MINIMUM_WINDOWS_BUILD_VT100):
return False
import ctypes
kernel32 = ctypes.windll.kernel32
ENABLE_PROCESSED_OUTPUT = 0x1
ENABLE_WRAP_AT_EOL_OUTPUT = 0x2
ENABLE_VIRTUAL_TERMINAL_PROCESSING = 0x4
STD_OUTPUT_HANDLE = -11
kernel32.SetConsoleMode(kernel32.GetStdHandle(STD_OUTPUT_HANDLE),
ENABLE_PROCESSED_OUTPUT
| ENABLE_WRAP_AT_EOL_OUTPUT
| ENABLE_VIRTUAL_TERMINAL_PROCESSING)
self.BOLD = '\033[1m'
self.UNDER = '\033[4m'
self.BLUE = '\033[94m'
self.GREEN = '\033[92m'
self.RED = '\033[91m'
self.YELLOW = '\033[93m'
self.NORMAL = '\033[0m'
self.DIM = '\033[2m'
return True
return False
def initialize_unix_colors(self) -> bool:
"""Return True if initialization was successful and we can use colors, False otherwise"""
if sys.platform == "win32" or not CURSES_ENABLED:
return False
try:
# setupterm wants a fd to potentially write an "initialization sequence".
# We override sys.stdout for the daemon API so if stdout doesn't have an fd,
# just give it /dev/null.
try:
fd = sys.stdout.fileno()
except io.UnsupportedOperation:
with open("/dev/null", "rb") as f:
curses.setupterm(fd=f.fileno())
else:
curses.setupterm(fd=fd)
except curses.error:
# Most likely terminfo not found.
return False
bold = curses.tigetstr('bold')
under = curses.tigetstr('smul')
set_color = curses.tigetstr('setaf')
set_eseq = curses.tigetstr('cup')
normal = curses.tigetstr('sgr0')
if not (bold and under and set_color and set_eseq and normal):
return False
self.NORMAL = normal.decode()
self.BOLD = bold.decode()
self.UNDER = under.decode()
self.DIM = parse_gray_color(set_eseq)
self.BLUE = curses.tparm(set_color, curses.COLOR_BLUE).decode()
self.GREEN = curses.tparm(set_color, curses.COLOR_GREEN).decode()
self.RED = curses.tparm(set_color, curses.COLOR_RED).decode()
self.YELLOW = curses.tparm(set_color, curses.COLOR_YELLOW).decode()
return True
def style(self, text: str, color: Literal['red', 'green', 'blue', 'yellow', 'none'],
bold: bool = False, underline: bool = False, dim: bool = False) -> str:
"""Apply simple color and style (underlined or bold)."""
if self.dummy_term:
return text
if bold:
start = self.BOLD
else:
start = ''
if underline:
start += self.UNDER
if dim:
start += self.DIM
return start + self.colors[color] + text + self.NORMAL
def fit_in_terminal(self, messages: List[str],
fixed_terminal_width: Optional[int] = None) -> List[str]:
"""Improve readability by wrapping error messages and trimming source code."""
width = fixed_terminal_width or get_terminal_width()
new_messages = messages.copy()
for i, error in enumerate(messages):
if ': error:' in error:
loc, msg = error.split('error:', maxsplit=1)
msg = soft_wrap(msg, width, first_offset=len(loc) + len('error: '))
new_messages[i] = loc + 'error:' + msg
if error.startswith(' ' * DEFAULT_SOURCE_OFFSET) and '^' not in error:
# TODO: detecting source code highlights through an indent can be surprising.
# Restore original error message and error location.
error = error[DEFAULT_SOURCE_OFFSET:]
column = messages[i+1].index('^') - DEFAULT_SOURCE_OFFSET
# Let source have some space also on the right side, plus 6
# to accommodate ... on each side.
max_len = width - DEFAULT_SOURCE_OFFSET - 6
source_line, offset = trim_source_line(error, max_len, column, MINIMUM_WIDTH)
new_messages[i] = ' ' * DEFAULT_SOURCE_OFFSET + source_line
# Also adjust the error marker position.
new_messages[i+1] = ' ' * (DEFAULT_SOURCE_OFFSET + column - offset) + '^'
return new_messages
def colorize(self, error: str) -> str:
"""Colorize an output line by highlighting the status and error code."""
if ': error:' in error:
loc, msg = error.split('error:', maxsplit=1)
if not self.show_error_codes:
return (loc + self.style('error:', 'red', bold=True) +
self.highlight_quote_groups(msg))
codepos = msg.rfind('[')
if codepos != -1:
code = msg[codepos:]
msg = msg[:codepos]
else:
code = "" # no error code specified
return (loc + self.style('error:', 'red', bold=True) +
self.highlight_quote_groups(msg) + self.style(code, 'yellow'))
elif ': note:' in error:
loc, msg = error.split('note:', maxsplit=1)
formatted = self.highlight_quote_groups(self.underline_link(msg))
return loc + self.style('note:', 'blue') + formatted
elif error.startswith(' ' * DEFAULT_SOURCE_OFFSET):
# TODO: detecting source code highlights through an indent can be surprising.
if '^' not in error:
return self.style(error, 'none', dim=True)
return self.style(error, 'red')
else:
return error
def highlight_quote_groups(self, msg: str) -> str:
"""Make groups quoted with double quotes bold (including quotes).
This is used to highlight types, attribute names etc.
"""
if msg.count('"') % 2:
# Broken error message, don't do any formatting.
return msg
parts = msg.split('"')
out = ''
for i, part in enumerate(parts):
if i % 2 == 0:
out += self.style(part, 'none')
else:
out += self.style('"' + part + '"', 'none', bold=True)
return out
def underline_link(self, note: str) -> str:
"""Underline a link in a note message (if any).
This assumes there is at most one link in the message.
"""
match = re.search(r'https?://\S*', note)
if not match:
return note
start = match.start()
end = match.end()
return (note[:start] +
self.style(note[start:end], 'none', underline=True) +
note[end:])
def format_success(self, n_sources: int, use_color: bool = True) -> str:
"""Format short summary in case of success.
n_sources is total number of files passed directly on command line,
i.e. excluding stubs and followed imports.
"""
msg = 'Success: no issues found in {}' \
' source file{}'.format(n_sources, 's' if n_sources != 1 else '')
if not use_color:
return msg
return self.style(msg, 'green', bold=True)
def format_error(
self, n_errors: int, n_files: int, n_sources: int, *,
blockers: bool = False, use_color: bool = True
) -> str:
"""Format a short summary in case of errors."""
msg = 'Found {} error{} in {} file{}'.format(
n_errors, 's' if n_errors != 1 else '',
n_files, 's' if n_files != 1 else ''
)
if blockers:
msg += ' (errors prevented further checking)'
else:
msg += ' (checked {} source file{})'.format(n_sources, 's' if n_sources != 1 else '')
if not use_color:
return msg
return self.style(msg, 'red', bold=True)
def is_typeshed_file(file: str) -> bool:
# gross, but no other clear way to tell
return 'typeshed' in os.path.abspath(file).split(os.sep)
def is_stub_package_file(file: str) -> bool:
# Use hacky heuristics to check whether file is part of a PEP 561 stub package.
if not file.endswith('.pyi'):
return False
return any(component.endswith('-stubs')
for component in os.path.abspath(file).split(os.sep))
def unnamed_function(name: Optional[str]) -> bool:
return name is not None and name == "_"
Mini Shell