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|
# -*- coding: utf-8 -*-
# Copyright (c) 2009 Charles Hebert <charles.hebert@logilab.fr>
# Copyright (c) 2010-2014 LOGILAB S.A. (Paris, FRANCE) <contact@logilab.fr>
# Copyright (c) 2010 Daniel Harding <dharding@gmail.com>
# Copyright (c) 2012-2014 Google, Inc.
# Copyright (c) 2013-2018 Claudiu Popa <pcmanticore@gmail.com>
# Copyright (c) 2014 Brett Cannon <brett@python.org>
# Copyright (c) 2014 Arun Persaud <arun@nubati.net>
# Copyright (c) 2015 Rene Zhang <rz99@cornell.edu>
# Copyright (c) 2015 Ionel Cristian Maries <contact@ionelmc.ro>
# Copyright (c) 2016, 2018 Jakub Wilk <jwilk@jwilk.net>
# Copyright (c) 2016 Peter Dawyndt <Peter.Dawyndt@UGent.be>
# Copyright (c) 2017 Łukasz Rogalski <rogalski.91@gmail.com>
# Copyright (c) 2017 Ville Skyttä <ville.skytta@iki.fi>
# Copyright (c) 2018 Nick Drozd <nicholasdrozd@gmail.com>
# Copyright (c) 2018 Anthony Sottile <asottile@umich.edu>
# Licensed under the GPL: https://www.gnu.org/licenses/old-licenses/gpl-2.0.html
# For details: https://github.com/PyCQA/pylint/blob/master/COPYING
"""Checker for string formatting operations.
"""
import builtins
import numbers
import tokenize
from collections import Counter
import astroid
from astroid.arguments import CallSite
from astroid.node_classes import Const
from pylint.checkers import BaseChecker, BaseTokenChecker, utils
from pylint.checkers.utils import check_messages
from pylint.interfaces import IAstroidChecker, IRawChecker, ITokenChecker
_AST_NODE_STR_TYPES = ("__builtin__.unicode", "__builtin__.str", "builtins.str")
MSGS = {
"E1300": (
"Unsupported format character %r (%#02x) at index %d",
"bad-format-character",
"Used when an unsupported format character is used in a format string.",
),
"E1301": (
"Format string ends in middle of conversion specifier",
"truncated-format-string",
"Used when a format string terminates before the end of a "
"conversion specifier.",
),
"E1302": (
"Mixing named and unnamed conversion specifiers in format string",
"mixed-format-string",
"Used when a format string contains both named (e.g. '%(foo)d') "
"and unnamed (e.g. '%d') conversion specifiers. This is also "
"used when a named conversion specifier contains * for the "
"minimum field width and/or precision.",
),
"E1303": (
"Expected mapping for format string, not %s",
"format-needs-mapping",
"Used when a format string that uses named conversion specifiers "
"is used with an argument that is not a mapping.",
),
"W1300": (
"Format string dictionary key should be a string, not %s",
"bad-format-string-key",
"Used when a format string that uses named conversion specifiers "
"is used with a dictionary whose keys are not all strings.",
),
"W1301": (
"Unused key %r in format string dictionary",
"unused-format-string-key",
"Used when a format string that uses named conversion specifiers "
"is used with a dictionary that contains keys not required by the "
"format string.",
),
"E1304": (
"Missing key %r in format string dictionary",
"missing-format-string-key",
"Used when a format string that uses named conversion specifiers "
"is used with a dictionary that doesn't contain all the keys "
"required by the format string.",
),
"E1305": (
"Too many arguments for format string",
"too-many-format-args",
"Used when a format string that uses unnamed conversion "
"specifiers is given too many arguments.",
),
"E1306": (
"Not enough arguments for format string",
"too-few-format-args",
"Used when a format string that uses unnamed conversion "
"specifiers is given too few arguments",
),
"E1307": (
"Argument %r does not match format type %r",
"bad-string-format-type",
"Used when a type required by format string "
"is not suitable for actual argument type",
),
"E1310": (
"Suspicious argument in %s.%s call",
"bad-str-strip-call",
"The argument to a str.{l,r,}strip call contains a duplicate character, ",
),
"W1302": (
"Invalid format string",
"bad-format-string",
"Used when a PEP 3101 format string is invalid.",
),
"W1303": (
"Missing keyword argument %r for format string",
"missing-format-argument-key",
"Used when a PEP 3101 format string that uses named fields "
"doesn't receive one or more required keywords.",
),
"W1304": (
"Unused format argument %r",
"unused-format-string-argument",
"Used when a PEP 3101 format string that uses named "
"fields is used with an argument that "
"is not required by the format string.",
),
"W1305": (
"Format string contains both automatic field numbering "
"and manual field specification",
"format-combined-specification",
"Used when a PEP 3101 format string contains both automatic "
"field numbering (e.g. '{}') and manual field "
"specification (e.g. '{0}').",
),
"W1306": (
"Missing format attribute %r in format specifier %r",
"missing-format-attribute",
"Used when a PEP 3101 format string uses an "
"attribute specifier ({0.length}), but the argument "
"passed for formatting doesn't have that attribute.",
),
"W1307": (
"Using invalid lookup key %r in format specifier %r",
"invalid-format-index",
"Used when a PEP 3101 format string uses a lookup specifier "
"({a[1]}), but the argument passed for formatting "
"doesn't contain or doesn't have that key as an attribute.",
),
"W1308": (
"Duplicate string formatting argument %r, consider passing as named argument",
"duplicate-string-formatting-argument",
"Used when we detect that a string formatting is "
"repeating an argument instead of using named string arguments",
),
}
OTHER_NODES = (
astroid.Const,
astroid.List,
astroid.Lambda,
astroid.FunctionDef,
astroid.ListComp,
astroid.SetComp,
astroid.GeneratorExp,
)
BUILTINS_STR = builtins.__name__ + ".str"
BUILTINS_FLOAT = builtins.__name__ + ".float"
BUILTINS_INT = builtins.__name__ + ".int"
def get_access_path(key, parts):
""" Given a list of format specifiers, returns
the final access path (e.g. a.b.c[0][1]).
"""
path = []
for is_attribute, specifier in parts:
if is_attribute:
path.append(".{}".format(specifier))
else:
path.append("[{!r}]".format(specifier))
return str(key) + "".join(path)
def arg_matches_format_type(arg_type, format_type):
if format_type in "sr":
# All types can be printed with %s and %r
return True
if isinstance(arg_type, astroid.Instance):
arg_type = arg_type.pytype()
if arg_type == BUILTINS_STR:
return format_type == "c"
if arg_type == BUILTINS_FLOAT:
return format_type in "deEfFgGn%"
if arg_type == BUILTINS_INT:
# Integers allow all types
return True
return False
return True
class StringFormatChecker(BaseChecker):
"""Checks string formatting operations to ensure that the format string
is valid and the arguments match the format string.
"""
__implements__ = (IAstroidChecker,)
name = "string"
msgs = MSGS
# pylint: disable=too-many-branches
@check_messages(*MSGS)
def visit_binop(self, node):
if node.op != "%":
return
left = node.left
args = node.right
if not (isinstance(left, astroid.Const) and isinstance(left.value, str)):
return
format_string = left.value
try:
required_keys, required_num_args, required_key_types, required_arg_types = utils.parse_format_string(
format_string
)
except utils.UnsupportedFormatCharacter as exc:
formatted = format_string[exc.index]
self.add_message(
"bad-format-character",
node=node,
args=(formatted, ord(formatted), exc.index),
)
return
except utils.IncompleteFormatString:
self.add_message("truncated-format-string", node=node)
return
if required_keys and required_num_args:
# The format string uses both named and unnamed format
# specifiers.
self.add_message("mixed-format-string", node=node)
elif required_keys:
# The format string uses only named format specifiers.
# Check that the RHS of the % operator is a mapping object
# that contains precisely the set of keys required by the
# format string.
if isinstance(args, astroid.Dict):
keys = set()
unknown_keys = False
for k, _ in args.items:
if isinstance(k, astroid.Const):
key = k.value
if isinstance(key, str):
keys.add(key)
else:
self.add_message(
"bad-format-string-key", node=node, args=key
)
else:
# One of the keys was something other than a
# constant. Since we can't tell what it is,
# suppress checks for missing keys in the
# dictionary.
unknown_keys = True
if not unknown_keys:
for key in required_keys:
if key not in keys:
self.add_message(
"missing-format-string-key", node=node, args=key
)
for key in keys:
if key not in required_keys:
self.add_message(
"unused-format-string-key", node=node, args=key
)
for key, arg in args.items:
if not isinstance(key, astroid.Const):
continue
format_type = required_key_types.get(key.value, None)
arg_type = utils.safe_infer(arg)
if (
format_type is not None
and arg_type not in (None, astroid.Uninferable)
and not arg_matches_format_type(arg_type, format_type)
):
self.add_message(
"bad-string-format-type",
node=node,
args=(arg_type.pytype(), format_type),
)
elif isinstance(args, (OTHER_NODES, astroid.Tuple)):
type_name = type(args).__name__
self.add_message("format-needs-mapping", node=node, args=type_name)
# else:
# The RHS of the format specifier is a name or
# expression. It may be a mapping object, so
# there's nothing we can check.
else:
# The format string uses only unnamed format specifiers.
# Check that the number of arguments passed to the RHS of
# the % operator matches the number required by the format
# string.
args_elts = ()
if isinstance(args, astroid.Tuple):
rhs_tuple = utils.safe_infer(args)
num_args = None
if hasattr(rhs_tuple, "elts"):
args_elts = rhs_tuple.elts
num_args = len(args_elts)
elif isinstance(args, (OTHER_NODES, (astroid.Dict, astroid.DictComp))):
args_elts = [args]
num_args = 1
else:
# The RHS of the format specifier is a name or
# expression. It could be a tuple of unknown size, so
# there's nothing we can check.
num_args = None
if num_args is not None:
if num_args > required_num_args:
self.add_message("too-many-format-args", node=node)
elif num_args < required_num_args:
self.add_message("too-few-format-args", node=node)
for arg, format_type in zip(args_elts, required_arg_types):
if not arg:
continue
arg_type = utils.safe_infer(arg)
if arg_type not in (
None,
astroid.Uninferable,
) and not arg_matches_format_type(arg_type, format_type):
self.add_message(
"bad-string-format-type",
node=node,
args=(arg_type.pytype(), format_type),
)
@check_messages(*MSGS)
def visit_call(self, node):
func = utils.safe_infer(node.func)
if (
isinstance(func, astroid.BoundMethod)
and isinstance(func.bound, astroid.Instance)
and func.bound.name in ("str", "unicode", "bytes")
):
if func.name in ("strip", "lstrip", "rstrip") and node.args:
arg = utils.safe_infer(node.args[0])
if not isinstance(arg, astroid.Const) or not isinstance(arg.value, str):
return
if len(arg.value) != len(set(arg.value)):
self.add_message(
"bad-str-strip-call",
node=node,
args=(func.bound.name, func.name),
)
elif func.name == "format":
self._check_new_format(node, func)
def _detect_vacuous_formatting(self, node, positional_arguments):
counter = Counter(
arg.name for arg in positional_arguments if isinstance(arg, astroid.Name)
)
for name, count in counter.items():
if count == 1:
continue
self.add_message(
"duplicate-string-formatting-argument", node=node, args=(name,)
)
def _check_new_format(self, node, func):
"""Check the new string formatting. """
# Skip ormat nodes which don't have an explicit string on the
# left side of the format operation.
# We do this because our inference engine can't properly handle
# redefinitions of the original string.
# Note that there may not be any left side at all, if the format method
# has been assigned to another variable. See issue 351. For example:
#
# fmt = 'some string {}'.format
# fmt('arg')
if isinstance(node.func, astroid.Attribute) and not isinstance(
node.func.expr, astroid.Const
):
return
if node.starargs or node.kwargs:
return
try:
strnode = next(func.bound.infer())
except astroid.InferenceError:
return
if not (isinstance(strnode, astroid.Const) and isinstance(strnode.value, str)):
return
try:
call_site = CallSite.from_call(node)
except astroid.InferenceError:
return
try:
fields, num_args, manual_pos = utils.parse_format_method_string(
strnode.value
)
except utils.IncompleteFormatString:
self.add_message("bad-format-string", node=node)
return
positional_arguments = call_site.positional_arguments
named_arguments = call_site.keyword_arguments
named_fields = {field[0] for field in fields if isinstance(field[0], str)}
if num_args and manual_pos:
self.add_message("format-combined-specification", node=node)
return
check_args = False
# Consider "{[0]} {[1]}" as num_args.
num_args += sum(1 for field in named_fields if field == "")
if named_fields:
for field in named_fields:
if field and field not in named_arguments:
self.add_message(
"missing-format-argument-key", node=node, args=(field,)
)
for field in named_arguments:
if field not in named_fields:
self.add_message(
"unused-format-string-argument", node=node, args=(field,)
)
# num_args can be 0 if manual_pos is not.
num_args = num_args or manual_pos
if positional_arguments or num_args:
empty = any(True for field in named_fields if field == "")
if named_arguments or empty:
# Verify the required number of positional arguments
# only if the .format got at least one keyword argument.
# This means that the format strings accepts both
# positional and named fields and we should warn
# when one of the them is missing or is extra.
check_args = True
else:
check_args = True
if check_args:
# num_args can be 0 if manual_pos is not.
num_args = num_args or manual_pos
if len(positional_arguments) > num_args:
self.add_message("too-many-format-args", node=node)
elif len(positional_arguments) < num_args:
self.add_message("too-few-format-args", node=node)
self._detect_vacuous_formatting(node, positional_arguments)
self._check_new_format_specifiers(node, fields, named_arguments)
def _check_new_format_specifiers(self, node, fields, named):
"""
Check attribute and index access in the format
string ("{0.a}" and "{0[a]}").
"""
for key, specifiers in fields:
# Obtain the argument. If it can't be obtained
# or inferred, skip this check.
if key == "":
# {[0]} will have an unnamed argument, defaulting
# to 0. It will not be present in `named`, so use the value
# 0 for it.
key = 0
if isinstance(key, numbers.Number):
try:
argname = utils.get_argument_from_call(node, key)
except utils.NoSuchArgumentError:
continue
else:
if key not in named:
continue
argname = named[key]
if argname in (astroid.Uninferable, None):
continue
try:
argument = utils.safe_infer(argname)
except astroid.InferenceError:
continue
if not specifiers or not argument:
# No need to check this key if it doesn't
# use attribute / item access
continue
if argument.parent and isinstance(argument.parent, astroid.Arguments):
# Ignore any object coming from an argument,
# because we can't infer its value properly.
continue
previous = argument
parsed = []
for is_attribute, specifier in specifiers:
if previous is astroid.Uninferable:
break
parsed.append((is_attribute, specifier))
if is_attribute:
try:
previous = previous.getattr(specifier)[0]
except astroid.NotFoundError:
if (
hasattr(previous, "has_dynamic_getattr")
and previous.has_dynamic_getattr()
):
# Don't warn if the object has a custom __getattr__
break
path = get_access_path(key, parsed)
self.add_message(
"missing-format-attribute",
args=(specifier, path),
node=node,
)
break
else:
warn_error = False
if hasattr(previous, "getitem"):
try:
previous = previous.getitem(astroid.Const(specifier))
except (
astroid.AstroidIndexError,
astroid.AstroidTypeError,
astroid.AttributeInferenceError,
):
warn_error = True
except astroid.InferenceError:
break
if previous is astroid.Uninferable:
break
else:
try:
# Lookup __getitem__ in the current node,
# but skip further checks, because we can't
# retrieve the looked object
previous.getattr("__getitem__")
break
except astroid.NotFoundError:
warn_error = True
if warn_error:
path = get_access_path(key, parsed)
self.add_message(
"invalid-format-index", args=(specifier, path), node=node
)
break
try:
previous = next(previous.infer())
except astroid.InferenceError:
# can't check further if we can't infer it
break
class StringConstantChecker(BaseTokenChecker):
"""Check string literals"""
__implements__ = (IAstroidChecker, ITokenChecker, IRawChecker)
name = "string"
msgs = {
"W1401": (
"Anomalous backslash in string: '%s'. "
"String constant might be missing an r prefix.",
"anomalous-backslash-in-string",
"Used when a backslash is in a literal string but not as an escape.",
),
"W1402": (
"Anomalous Unicode escape in byte string: '%s'. "
"String constant might be missing an r or u prefix.",
"anomalous-unicode-escape-in-string",
"Used when an escape like \\u is encountered in a byte "
"string where it has no effect.",
),
"W1403": (
"Implicit string concatenation found in %s",
"implicit-str-concat-in-sequence",
"String literals are implicitly concatenated in a "
"literal iterable definition : "
"maybe a comma is missing ?",
),
}
options = (
(
"check-str-concat-over-line-jumps",
{
"default": False,
"type": "yn",
"metavar": "<y_or_n>",
"help": "This flag controls whether the "
"implicit-str-concat-in-sequence should generate a warning "
"on implicit string concatenation in sequences defined over "
"several lines.",
},
),
)
# Characters that have a special meaning after a backslash in either
# Unicode or byte strings.
ESCAPE_CHARACTERS = "abfnrtvx\n\r\t\\'\"01234567"
# Characters that have a special meaning after a backslash but only in
# Unicode strings.
UNICODE_ESCAPE_CHARACTERS = "uUN"
def __init__(self, *args, **kwargs):
super(StringConstantChecker, self).__init__(*args, **kwargs)
self.string_tokens = {} # token position -> (token value, next token)
def process_module(self, module):
self._unicode_literals = "unicode_literals" in module.future_imports
def process_tokens(self, tokens):
encoding = "ascii"
for i, (tok_type, token, start, _, line) in enumerate(tokens):
if tok_type == tokenize.ENCODING:
# this is always the first token processed
encoding = token
elif tok_type == tokenize.STRING:
# 'token' is the whole un-parsed token; we can look at the start
# of it to see whether it's a raw or unicode string etc.
self.process_string_token(token, start[0])
# We figure the next token, ignoring comments & newlines:
j = i + 1
while j < len(tokens) and tokens[j].type in (
tokenize.NEWLINE,
tokenize.NL,
tokenize.COMMENT,
):
j += 1
next_token = tokens[j] if j < len(tokens) else None
if encoding != "ascii":
# We convert `tokenize` character count into a byte count,
# to match with astroid `.col_offset`
start = (start[0], len(line[: start[1]].encode(encoding)))
self.string_tokens[start] = (str_eval(token), next_token)
@check_messages(*(msgs.keys()))
def visit_list(self, node):
self.check_for_concatenated_strings(node, "list")
@check_messages(*(msgs.keys()))
def visit_set(self, node):
self.check_for_concatenated_strings(node, "set")
@check_messages(*(msgs.keys()))
def visit_tuple(self, node):
self.check_for_concatenated_strings(node, "tuple")
def check_for_concatenated_strings(self, iterable_node, iterable_type):
for elt in iterable_node.elts:
if isinstance(elt, Const) and elt.pytype() in _AST_NODE_STR_TYPES:
if elt.col_offset < 0:
# This can happen in case of escaped newlines
continue
if (elt.lineno, elt.col_offset) not in self.string_tokens:
# This may happen with Latin1 encoding
# cf. https://github.com/PyCQA/pylint/issues/2610
continue
matching_token, next_token = self.string_tokens[
(elt.lineno, elt.col_offset)
]
# We detect string concatenation: the AST Const is the
# combination of 2 string tokens
if matching_token != elt.value and next_token is not None:
if next_token.type == tokenize.STRING and (
next_token.start[0] == elt.lineno
or self.config.check_str_concat_over_line_jumps
):
self.add_message(
"implicit-str-concat-in-sequence",
line=elt.lineno,
args=(iterable_type,),
)
def process_string_token(self, token, start_row):
quote_char = None
index = None
for index, char in enumerate(token):
if char in "'\"":
quote_char = char
break
if quote_char is None:
return
prefix = token[:index].lower() # markers like u, b, r.
after_prefix = token[index:]
if after_prefix[:3] == after_prefix[-3:] == 3 * quote_char:
string_body = after_prefix[3:-3]
else:
string_body = after_prefix[1:-1] # Chop off quotes
# No special checks on raw strings at the moment.
if "r" not in prefix:
self.process_non_raw_string_token(prefix, string_body, start_row)
def process_non_raw_string_token(self, prefix, string_body, start_row):
"""check for bad escapes in a non-raw string.
prefix: lowercase string of eg 'ur' string prefix markers.
string_body: the un-parsed body of the string, not including the quote
marks.
start_row: integer line number in the source.
"""
# Walk through the string; if we see a backslash then escape the next
# character, and skip over it. If we see a non-escaped character,
# alert, and continue.
#
# Accept a backslash when it escapes a backslash, or a quote, or
# end-of-line, or one of the letters that introduce a special escape
# sequence <http://docs.python.org/reference/lexical_analysis.html>
#
index = 0
while True:
index = string_body.find("\\", index)
if index == -1:
break
# There must be a next character; having a backslash at the end
# of the string would be a SyntaxError.
next_char = string_body[index + 1]
match = string_body[index : index + 2]
if next_char in self.UNICODE_ESCAPE_CHARACTERS:
if "u" in prefix:
pass
elif "b" not in prefix:
pass # unicode by default
else:
self.add_message(
"anomalous-unicode-escape-in-string",
line=start_row,
args=(match,),
col_offset=index,
)
elif next_char not in self.ESCAPE_CHARACTERS:
self.add_message(
"anomalous-backslash-in-string",
line=start_row,
args=(match,),
col_offset=index,
)
# Whether it was a valid escape or not, backslash followed by
# another character can always be consumed whole: the second
# character can never be the start of a new backslash escape.
index += 2
def register(linter):
"""required method to auto register this checker """
linter.register_checker(StringFormatChecker(linter))
linter.register_checker(StringConstantChecker(linter))
def str_eval(token):
"""
Mostly replicate `ast.literal_eval(token)` manually to avoid any performance hit.
This supports f-strings, contrary to `ast.literal_eval`.
We have to support all string literal notations:
https://docs.python.org/3/reference/lexical_analysis.html#string-and-bytes-literals
"""
if token[0:2].lower() in ("fr", "rf"):
token = token[2:]
elif token[0].lower() in ("r", "u", "f"):
token = token[1:]
if token[0:3] in ('"""', "'''"):
return token[3:-3]
return token[1:-1]
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