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flake8_builtins.py
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flake8_builtins.py
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from flake8 import utils as stdin_utils
from pathlib import Path
import ast
import builtins
import inspect
import sys
class BuiltinsChecker:
name = 'flake8_builtins'
version = '1.5.2'
assign_msg = 'A001 variable "{0}" is shadowing a Python builtin'
argument_msg = 'A002 argument "{0}" is shadowing a Python builtin'
class_attribute_msg = 'A003 class attribute "{0}" is shadowing a Python builtin'
import_msg = 'A004 import statement "{0}" is shadowing a Python builtin'
module_name_msg = 'A005 the module is shadowing a Python builtin module "{0}"'
lambda_argument_msg = 'A006 lambda argument "{0}" is shadowing a Python builtin'
names = []
ignore_list = {
'__name__',
'__doc__',
'credits',
'_',
}
ignored_module_names = set()
def __init__(self, tree, filename):
self.tree = tree
self.filename = filename
@classmethod
def add_options(cls, option_manager):
option_manager.add_option(
'--builtins-ignorelist',
metavar='builtins',
parse_from_config=True,
comma_separated_list=True,
help='A comma separated list of builtins to skip checking',
)
option_manager.add_option(
'--builtins-allowed-modules',
metavar='builtins',
parse_from_config=True,
comma_separated_list=True,
help='A comma separated list of builtin module names to allow',
)
@classmethod
def parse_options(cls, options):
if options.builtins_ignorelist is not None:
cls.ignore_list.update(options.builtins_ignorelist)
cls.names = {
a[0] for a in inspect.getmembers(builtins) if a[0] not in cls.ignore_list
}
flake8_builtins = getattr(options, 'builtins', None)
if flake8_builtins:
cls.names.update(flake8_builtins)
if options.builtins_allowed_modules is not None:
cls.ignored_module_names.update(options.builtins_allowed_modules)
if hasattr(sys, 'stdlib_module_names'):
# stdlib_module_names is only available in Python 3.10+
known_module_names = sys.stdlib_module_names
cls.module_names = {
m for m in known_module_names if m not in cls.ignored_module_names
}
else:
cls.module_names = set()
def run(self):
tree = self.tree
if self.filename == 'stdin':
lines = stdin_utils.stdin_get_value()
tree = ast.parse(lines)
else:
yield from self.check_module_name(self.filename)
for statement in ast.walk(tree):
for child in ast.iter_child_nodes(statement):
child.__flake8_builtins_parent = statement
function_nodes = [ast.FunctionDef]
if getattr(ast, 'AsyncFunctionDef', None):
function_nodes.append(ast.AsyncFunctionDef)
function_nodes = tuple(function_nodes)
for_nodes = [ast.For]
if getattr(ast, 'AsyncFor', None):
for_nodes.append(ast.AsyncFor)
for_nodes = tuple(for_nodes)
with_nodes = [ast.With]
if getattr(ast, 'AsyncWith', None):
with_nodes.append(ast.AsyncWith)
with_nodes = tuple(with_nodes)
comprehension_nodes = (
ast.ListComp,
ast.SetComp,
ast.DictComp,
ast.GeneratorExp,
)
value = None
for statement in ast.walk(tree):
if isinstance(statement, (ast.Assign, ast.AnnAssign, ast.NamedExpr)):
value = self.check_assignment(statement)
elif isinstance(statement, function_nodes):
value = self.check_function_definition(statement)
elif isinstance(statement, ast.Lambda):
value = self.check_lambda_definition(statement)
elif isinstance(statement, for_nodes):
value = self.check_for_loop(statement)
elif isinstance(statement, with_nodes):
value = self.check_with(statement)
elif isinstance(statement, ast.excepthandler):
value = self.check_exception(statement)
elif isinstance(statement, comprehension_nodes):
value = self.check_comprehension(statement)
elif isinstance(statement, (ast.Import, ast.ImportFrom)):
value = self.check_import(statement)
elif isinstance(statement, ast.ClassDef):
value = self.check_class(statement)
if value:
yield from value
def check_assignment(self, statement):
msg = self.assign_msg
if type(statement.__flake8_builtins_parent) is ast.ClassDef:
msg = self.class_attribute_msg
if isinstance(statement, ast.Assign):
stack = list(statement.targets)
else: # This is `ast.AnnAssign` or `ast.NamedExpr`:
stack = [statement.target]
while stack:
item = stack.pop()
if isinstance(item, (ast.Tuple, ast.List)):
stack.extend(list(item.elts))
elif isinstance(item, ast.Name) and item.id in self.names:
yield self.error(item, message=msg, variable=item.id)
elif isinstance(item, ast.Starred):
if hasattr(item.value, 'id') and item.value.id in self.names:
yield self.error(
statement,
message=msg,
variable=item.value.id,
)
elif hasattr(item.value, 'elts'):
stack.extend(list(item.value.elts))
def check_function_definition(self, statement):
if statement.name in self.names:
msg = self.assign_msg
if type(statement.__flake8_builtins_parent) is ast.ClassDef:
msg = self.class_attribute_msg
yield self.error(statement, message=msg, variable=statement.name)
all_arguments = []
all_arguments.extend(statement.args.args)
all_arguments.extend(getattr(statement.args, 'kwonlyargs', []))
all_arguments.extend(getattr(statement.args, 'posonlyargs', []))
for arg in all_arguments:
if isinstance(arg, ast.arg) and arg.arg in self.names:
yield self.error(
arg,
message=self.argument_msg,
variable=arg.arg,
)
def check_lambda_definition(self, statement):
all_arguments = []
all_arguments.extend(statement.args.args)
all_arguments.extend(getattr(statement.args, 'kwonlyargs', []))
all_arguments.extend(getattr(statement.args, 'posonlyargs', []))
for arg in all_arguments:
if isinstance(arg, ast.arg) and arg.arg in self.names:
yield self.error(
arg,
message=self.lambda_argument_msg,
variable=arg.arg,
)
def check_for_loop(self, statement):
stack = [statement.target]
while stack:
item = stack.pop()
if isinstance(item, (ast.Tuple, ast.List)):
stack.extend(list(item.elts))
elif isinstance(item, ast.Name) and item.id in self.names:
yield self.error(statement, variable=item.id)
elif isinstance(item, ast.Starred):
if hasattr(item.value, 'id') and item.value.id in self.names:
yield self.error(
statement,
variable=item.value.id,
)
elif hasattr(item.value, 'elts'):
stack.extend(list(item.value.elts))
def check_with(self, statement):
for item in statement.items:
var = item.optional_vars
if isinstance(var, (ast.Tuple, ast.List)):
for element in var.elts:
if isinstance(element, ast.Name) and element.id in self.names:
yield self.error(statement, variable=element.id)
elif (
isinstance(element, ast.Starred)
and element.value.id in self.names
):
yield self.error(
element,
variable=element.value.id,
)
elif isinstance(var, ast.Name) and var.id in self.names:
yield self.error(statement, variable=var.id)
def check_exception(self, statement):
exception_name = statement.name
if exception_name is None:
return
if exception_name in self.names:
yield self.error(statement, variable=exception_name)
def check_comprehension(self, statement):
for generator in statement.generators:
if (
isinstance(generator.target, ast.Name)
and generator.target.id in self.names
):
yield self.error(statement, variable=generator.target.id)
elif isinstance(generator.target, (ast.Tuple, ast.List)):
for tuple_element in generator.target.elts:
if (
isinstance(tuple_element, ast.Name)
and tuple_element.id in self.names
):
yield self.error(statement, variable=tuple_element.id)
def check_import(self, statement):
for name in statement.names:
collision = None
if name.name in self.names and name.asname is None:
collision = name.name
elif name.asname in self.names:
collision = name.asname
if collision:
yield self.error(
statement,
message=self.import_msg,
variable=collision,
)
def check_class(self, statement):
if statement.name in self.names:
yield self.error(statement, variable=statement.name)
def error(self, statement=None, variable=None, message=None):
if not message:
message = self.assign_msg
# lineno and col_offset must be integers
return (
statement.lineno if statement else 0,
statement.col_offset if statement else 0,
message.format(variable),
type(self),
)
def check_module_name(self, filename: str):
if not self.module_names:
return
path = Path(filename)
if path.name == '__init__.py':
module_name = path.parent.name
else:
module_name = path.name.removesuffix('.py')
if module_name in self.module_names:
yield self.error(
None,
module_name,
message=self.module_name_msg,
)