AIM-PIbd-32-Kurbanova-A-A/aimenv/Lib/site-packages/parso/python/pep8.py

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2024-10-02 22:15:59 +04:00
import re
from contextlib import contextmanager
from typing import Tuple
from parso.python.errors import ErrorFinder, ErrorFinderConfig
from parso.normalizer import Rule
from parso.python.tree import Flow, Scope
_IMPORT_TYPES = ('import_name', 'import_from')
_SUITE_INTRODUCERS = ('classdef', 'funcdef', 'if_stmt', 'while_stmt',
'for_stmt', 'try_stmt', 'with_stmt')
_NON_STAR_TYPES = ('term', 'import_from', 'power')
_OPENING_BRACKETS = '(', '[', '{'
_CLOSING_BRACKETS = ')', ']', '}'
_FACTOR = '+', '-', '~'
_ALLOW_SPACE = '*', '+', '-', '**', '/', '//', '@'
_BITWISE_OPERATOR = '<<', '>>', '|', '&', '^'
_NEEDS_SPACE: Tuple[str, ...] = (
'=', '%', '->',
'<', '>', '==', '>=', '<=', '<>', '!=',
'+=', '-=', '*=', '@=', '/=', '%=', '&=', '|=', '^=', '<<=',
'>>=', '**=', '//=')
_NEEDS_SPACE += _BITWISE_OPERATOR
_IMPLICIT_INDENTATION_TYPES = ('dictorsetmaker', 'argument')
_POSSIBLE_SLICE_PARENTS = ('subscript', 'subscriptlist', 'sliceop')
class IndentationTypes:
VERTICAL_BRACKET = object()
HANGING_BRACKET = object()
BACKSLASH = object()
SUITE = object()
IMPLICIT = object()
class IndentationNode(object):
type = IndentationTypes.SUITE
def __init__(self, config, indentation, parent=None):
self.bracket_indentation = self.indentation = indentation
self.parent = parent
def __repr__(self):
return '<%s>' % self.__class__.__name__
def get_latest_suite_node(self):
n = self
while n is not None:
if n.type == IndentationTypes.SUITE:
return n
n = n.parent
class BracketNode(IndentationNode):
def __init__(self, config, leaf, parent, in_suite_introducer=False):
self.leaf = leaf
# Figure out here what the indentation is. For chained brackets
# we can basically use the previous indentation.
previous_leaf = leaf
n = parent
if n.type == IndentationTypes.IMPLICIT:
n = n.parent
while True:
if hasattr(n, 'leaf') and previous_leaf.line != n.leaf.line:
break
previous_leaf = previous_leaf.get_previous_leaf()
if not isinstance(n, BracketNode) or previous_leaf != n.leaf:
break
n = n.parent
parent_indentation = n.indentation
next_leaf = leaf.get_next_leaf()
if '\n' in next_leaf.prefix or '\r' in next_leaf.prefix:
# This implies code like:
# foobarbaz(
# a,
# b,
# )
self.bracket_indentation = parent_indentation \
+ config.closing_bracket_hanging_indentation
self.indentation = parent_indentation + config.indentation
self.type = IndentationTypes.HANGING_BRACKET
else:
# Implies code like:
# foobarbaz(
# a,
# b,
# )
expected_end_indent = leaf.end_pos[1]
if '\t' in config.indentation:
self.indentation = None
else:
self.indentation = ' ' * expected_end_indent
self.bracket_indentation = self.indentation
self.type = IndentationTypes.VERTICAL_BRACKET
if in_suite_introducer and parent.type == IndentationTypes.SUITE \
and self.indentation == parent_indentation + config.indentation:
self.indentation += config.indentation
# The closing bracket should have the same indentation.
self.bracket_indentation = self.indentation
self.parent = parent
class ImplicitNode(BracketNode):
"""
Implicit indentation after keyword arguments, default arguments,
annotations and dict values.
"""
def __init__(self, config, leaf, parent):
super().__init__(config, leaf, parent)
self.type = IndentationTypes.IMPLICIT
next_leaf = leaf.get_next_leaf()
if leaf == ':' and '\n' not in next_leaf.prefix and '\r' not in next_leaf.prefix:
self.indentation += ' '
class BackslashNode(IndentationNode):
type = IndentationTypes.BACKSLASH
def __init__(self, config, parent_indentation, containing_leaf, spacing, parent=None):
expr_stmt = containing_leaf.search_ancestor('expr_stmt')
if expr_stmt is not None:
equals = expr_stmt.children[-2]
if '\t' in config.indentation:
# TODO unite with the code of BracketNode
self.indentation = None
else:
# If the backslash follows the equals, use normal indentation
# otherwise it should align with the equals.
if equals.end_pos == spacing.start_pos:
self.indentation = parent_indentation + config.indentation
else:
# +1 because there is a space.
self.indentation = ' ' * (equals.end_pos[1] + 1)
else:
self.indentation = parent_indentation + config.indentation
self.bracket_indentation = self.indentation
self.parent = parent
def _is_magic_name(name):
return name.value.startswith('__') and name.value.endswith('__')
class PEP8Normalizer(ErrorFinder):
def __init__(self, *args, **kwargs):
super().__init__(*args, **kwargs)
self._previous_part = None
self._previous_leaf = None
self._on_newline = True
self._newline_count = 0
self._wanted_newline_count = None
self._max_new_lines_in_prefix = 0
self._new_statement = True
self._implicit_indentation_possible = False
# The top of stack of the indentation nodes.
self._indentation_tos = self._last_indentation_tos = \
IndentationNode(self._config, indentation='')
self._in_suite_introducer = False
if ' ' in self._config.indentation:
self._indentation_type = 'spaces'
self._wrong_indentation_char = '\t'
else:
self._indentation_type = 'tabs'
self._wrong_indentation_char = ' '
@contextmanager
def visit_node(self, node):
with super().visit_node(node):
with self._visit_node(node):
yield
@contextmanager
def _visit_node(self, node):
typ = node.type
if typ in 'import_name':
names = node.get_defined_names()
if len(names) > 1:
for name in names[:1]:
self.add_issue(name, 401, 'Multiple imports on one line')
elif typ == 'lambdef':
expr_stmt = node.parent
# Check if it's simply defining a single name, not something like
# foo.bar or x[1], where using a lambda could make more sense.
if expr_stmt.type == 'expr_stmt' and any(n.type == 'name'
for n in expr_stmt.children[:-2:2]):
self.add_issue(node, 731, 'Do not assign a lambda expression, use a def')
elif typ == 'try_stmt':
for child in node.children:
# Here we can simply check if it's an except, because otherwise
# it would be an except_clause.
if child.type == 'keyword' and child.value == 'except':
self.add_issue(child, 722, 'Do not use bare except, specify exception instead')
elif typ == 'comparison':
for child in node.children:
if child.type not in ('atom_expr', 'power'):
continue
if len(child.children) > 2:
continue
trailer = child.children[1]
atom = child.children[0]
if trailer.type == 'trailer' and atom.type == 'name' \
and atom.value == 'type':
self.add_issue(node, 721, "Do not compare types, use 'isinstance()")
break
elif typ == 'file_input':
endmarker = node.children[-1]
prev = endmarker.get_previous_leaf()
prefix = endmarker.prefix
if (not prefix.endswith('\n') and not prefix.endswith('\r') and (
prefix or prev is None or prev.value not in {'\n', '\r\n', '\r'})):
self.add_issue(endmarker, 292, "No newline at end of file")
if typ in _IMPORT_TYPES:
simple_stmt = node.parent
module = simple_stmt.parent
if module.type == 'file_input':
index = module.children.index(simple_stmt)
for child in module.children[:index]:
children = [child]
if child.type == 'simple_stmt':
# Remove the newline.
children = child.children[:-1]
found_docstring = False
for c in children:
if c.type == 'string' and not found_docstring:
continue
found_docstring = True
if c.type == 'expr_stmt' and \
all(_is_magic_name(n) for n in c.get_defined_names()):
continue
if c.type in _IMPORT_TYPES or isinstance(c, Flow):
continue
self.add_issue(node, 402, 'Module level import not at top of file')
break
else:
continue
break
implicit_indentation_possible = typ in _IMPLICIT_INDENTATION_TYPES
in_introducer = typ in _SUITE_INTRODUCERS
if in_introducer:
self._in_suite_introducer = True
elif typ == 'suite':
if self._indentation_tos.type == IndentationTypes.BACKSLASH:
self._indentation_tos = self._indentation_tos.parent
self._indentation_tos = IndentationNode(
self._config,
self._indentation_tos.indentation + self._config.indentation,
parent=self._indentation_tos
)
elif implicit_indentation_possible:
self._implicit_indentation_possible = True
yield
if typ == 'suite':
assert self._indentation_tos.type == IndentationTypes.SUITE
self._indentation_tos = self._indentation_tos.parent
# If we dedent, no lines are needed anymore.
self._wanted_newline_count = None
elif implicit_indentation_possible:
self._implicit_indentation_possible = False
if self._indentation_tos.type == IndentationTypes.IMPLICIT:
self._indentation_tos = self._indentation_tos.parent
elif in_introducer:
self._in_suite_introducer = False
if typ in ('classdef', 'funcdef'):
self._wanted_newline_count = self._get_wanted_blank_lines_count()
def _check_tabs_spaces(self, spacing):
if self._wrong_indentation_char in spacing.value:
self.add_issue(spacing, 101, 'Indentation contains ' + self._indentation_type)
return True
return False
def _get_wanted_blank_lines_count(self):
suite_node = self._indentation_tos.get_latest_suite_node()
return int(suite_node.parent is None) + 1
def _reset_newlines(self, spacing, leaf, is_comment=False):
self._max_new_lines_in_prefix = \
max(self._max_new_lines_in_prefix, self._newline_count)
wanted = self._wanted_newline_count
if wanted is not None:
# Need to substract one
blank_lines = self._newline_count - 1
if wanted > blank_lines and leaf.type != 'endmarker':
# In case of a comment we don't need to add the issue, yet.
if not is_comment:
# TODO end_pos wrong.
code = 302 if wanted == 2 else 301
message = "expected %s blank line, found %s" \
% (wanted, blank_lines)
self.add_issue(spacing, code, message)
self._wanted_newline_count = None
else:
self._wanted_newline_count = None
if not is_comment:
wanted = self._get_wanted_blank_lines_count()
actual = self._max_new_lines_in_prefix - 1
val = leaf.value
needs_lines = (
val == '@' and leaf.parent.type == 'decorator'
or (
val == 'class'
or val == 'async' and leaf.get_next_leaf() == 'def'
or val == 'def' and self._previous_leaf != 'async'
) and leaf.parent.parent.type != 'decorated'
)
if needs_lines and actual < wanted:
func_or_cls = leaf.parent
suite = func_or_cls.parent
if suite.type == 'decorated':
suite = suite.parent
# The first leaf of a file or a suite should not need blank
# lines.
if suite.children[int(suite.type == 'suite')] != func_or_cls:
code = 302 if wanted == 2 else 301
message = "expected %s blank line, found %s" \
% (wanted, actual)
self.add_issue(spacing, code, message)
self._max_new_lines_in_prefix = 0
self._newline_count = 0
def visit_leaf(self, leaf):
super().visit_leaf(leaf)
for part in leaf._split_prefix():
if part.type == 'spacing':
# This part is used for the part call after for.
break
self._visit_part(part, part.create_spacing_part(), leaf)
self._analyse_non_prefix(leaf)
self._visit_part(leaf, part, leaf)
# Cleanup
self._last_indentation_tos = self._indentation_tos
self._new_statement = leaf.type == 'newline'
# TODO does this work? with brackets and stuff?
if leaf.type == 'newline' and \
self._indentation_tos.type == IndentationTypes.BACKSLASH:
self._indentation_tos = self._indentation_tos.parent
if leaf.value == ':' and leaf.parent.type in _SUITE_INTRODUCERS:
self._in_suite_introducer = False
elif leaf.value == 'elif':
self._in_suite_introducer = True
if not self._new_statement:
self._reset_newlines(part, leaf)
self._max_blank_lines = 0
self._previous_leaf = leaf
return leaf.value
def _visit_part(self, part, spacing, leaf):
value = part.value
type_ = part.type
if type_ == 'error_leaf':
return
if value == ',' and part.parent.type == 'dictorsetmaker':
self._indentation_tos = self._indentation_tos.parent
node = self._indentation_tos
if type_ == 'comment':
if value.startswith('##'):
# Whole blocks of # should not raise an error.
if value.lstrip('#'):
self.add_issue(part, 266, "Too many leading '#' for block comment.")
elif self._on_newline:
if not re.match(r'#:? ', value) and not value == '#' \
and not (value.startswith('#!') and part.start_pos == (1, 0)):
self.add_issue(part, 265, "Block comment should start with '# '")
else:
if not re.match(r'#:? [^ ]', value):
self.add_issue(part, 262, "Inline comment should start with '# '")
self._reset_newlines(spacing, leaf, is_comment=True)
elif type_ == 'newline':
if self._newline_count > self._get_wanted_blank_lines_count():
self.add_issue(part, 303, "Too many blank lines (%s)" % self._newline_count)
elif leaf in ('def', 'class') \
and leaf.parent.parent.type == 'decorated':
self.add_issue(part, 304, "Blank lines found after function decorator")
self._newline_count += 1
if type_ == 'backslash':
# TODO is this enough checking? What about ==?
if node.type != IndentationTypes.BACKSLASH:
if node.type != IndentationTypes.SUITE:
self.add_issue(part, 502, 'The backslash is redundant between brackets')
else:
indentation = node.indentation
if self._in_suite_introducer and node.type == IndentationTypes.SUITE:
indentation += self._config.indentation
self._indentation_tos = BackslashNode(
self._config,
indentation,
part,
spacing,
parent=self._indentation_tos
)
elif self._on_newline:
indentation = spacing.value
if node.type == IndentationTypes.BACKSLASH \
and self._previous_part.type == 'newline':
self._indentation_tos = self._indentation_tos.parent
if not self._check_tabs_spaces(spacing):
should_be_indentation = node.indentation
if type_ == 'comment':
# Comments can be dedented. So we have to care for that.
n = self._last_indentation_tos
while True:
if len(indentation) > len(n.indentation):
break
should_be_indentation = n.indentation
self._last_indentation_tos = n
if n == node:
break
n = n.parent
if self._new_statement:
if type_ == 'newline':
if indentation:
self.add_issue(spacing, 291, 'Trailing whitespace')
elif indentation != should_be_indentation:
s = '%s %s' % (len(self._config.indentation), self._indentation_type)
self.add_issue(part, 111, 'Indentation is not a multiple of ' + s)
else:
if value in '])}':
should_be_indentation = node.bracket_indentation
else:
should_be_indentation = node.indentation
if self._in_suite_introducer and indentation == \
node.get_latest_suite_node().indentation \
+ self._config.indentation:
self.add_issue(part, 129, "Line with same indent as next logical block")
elif indentation != should_be_indentation:
if not self._check_tabs_spaces(spacing) and part.value not in \
{'\n', '\r\n', '\r'}:
if value in '])}':
if node.type == IndentationTypes.VERTICAL_BRACKET:
self.add_issue(
part,
124,
"Closing bracket does not match visual indentation"
)
else:
self.add_issue(
part,
123,
"Losing bracket does not match "
"indentation of opening bracket's line"
)
else:
if len(indentation) < len(should_be_indentation):
if node.type == IndentationTypes.VERTICAL_BRACKET:
self.add_issue(
part,
128,
'Continuation line under-indented for visual indent'
)
elif node.type == IndentationTypes.BACKSLASH:
self.add_issue(
part,
122,
'Continuation line missing indentation or outdented'
)
elif node.type == IndentationTypes.IMPLICIT:
self.add_issue(part, 135, 'xxx')
else:
self.add_issue(
part,
121,
'Continuation line under-indented for hanging indent'
)
else:
if node.type == IndentationTypes.VERTICAL_BRACKET:
self.add_issue(
part,
127,
'Continuation line over-indented for visual indent'
)
elif node.type == IndentationTypes.IMPLICIT:
self.add_issue(part, 136, 'xxx')
else:
self.add_issue(
part,
126,
'Continuation line over-indented for hanging indent'
)
else:
self._check_spacing(part, spacing)
self._check_line_length(part, spacing)
# -------------------------------
# Finalizing. Updating the state.
# -------------------------------
if value and value in '()[]{}' and type_ != 'error_leaf' \
and part.parent.type != 'error_node':
if value in _OPENING_BRACKETS:
self._indentation_tos = BracketNode(
self._config, part,
parent=self._indentation_tos,
in_suite_introducer=self._in_suite_introducer
)
else:
assert node.type != IndentationTypes.IMPLICIT
self._indentation_tos = self._indentation_tos.parent
elif value in ('=', ':') and self._implicit_indentation_possible \
and part.parent.type in _IMPLICIT_INDENTATION_TYPES:
indentation = node.indentation
self._indentation_tos = ImplicitNode(
self._config, part, parent=self._indentation_tos
)
self._on_newline = type_ in ('newline', 'backslash', 'bom')
self._previous_part = part
self._previous_spacing = spacing
def _check_line_length(self, part, spacing):
if part.type == 'backslash':
last_column = part.start_pos[1] + 1
else:
last_column = part.end_pos[1]
if last_column > self._config.max_characters \
and spacing.start_pos[1] <= self._config.max_characters:
# Special case for long URLs in multi-line docstrings or comments,
# but still report the error when the 72 first chars are whitespaces.
report = True
if part.type == 'comment':
splitted = part.value[1:].split()
if len(splitted) == 1 \
and (part.end_pos[1] - len(splitted[0])) < 72:
report = False
if report:
self.add_issue(
part,
501,
'Line too long (%s > %s characters)' %
(last_column, self._config.max_characters),
)
def _check_spacing(self, part, spacing):
def add_if_spaces(*args):
if spaces:
return self.add_issue(*args)
def add_not_spaces(*args):
if not spaces:
return self.add_issue(*args)
spaces = spacing.value
prev = self._previous_part
if prev is not None and prev.type == 'error_leaf' or part.type == 'error_leaf':
return
type_ = part.type
if '\t' in spaces:
self.add_issue(spacing, 223, 'Used tab to separate tokens')
elif type_ == 'comment':
if len(spaces) < self._config.spaces_before_comment:
self.add_issue(spacing, 261, 'At least two spaces before inline comment')
elif type_ == 'newline':
add_if_spaces(spacing, 291, 'Trailing whitespace')
elif len(spaces) > 1:
self.add_issue(spacing, 221, 'Multiple spaces used')
else:
if prev in _OPENING_BRACKETS:
message = "Whitespace after '%s'" % part.value
add_if_spaces(spacing, 201, message)
elif part in _CLOSING_BRACKETS:
message = "Whitespace before '%s'" % part.value
add_if_spaces(spacing, 202, message)
elif part in (',', ';') or part == ':' \
and part.parent.type not in _POSSIBLE_SLICE_PARENTS:
message = "Whitespace before '%s'" % part.value
add_if_spaces(spacing, 203, message)
elif prev == ':' and prev.parent.type in _POSSIBLE_SLICE_PARENTS:
pass # TODO
elif prev in (',', ';', ':'):
add_not_spaces(spacing, 231, "missing whitespace after '%s'")
elif part == ':': # Is a subscript
# TODO
pass
elif part in ('*', '**') and part.parent.type not in _NON_STAR_TYPES \
or prev in ('*', '**') \
and prev.parent.type not in _NON_STAR_TYPES:
# TODO
pass
elif prev in _FACTOR and prev.parent.type == 'factor':
pass
elif prev == '@' and prev.parent.type == 'decorator':
pass # TODO should probably raise an error if there's a space here
elif part in _NEEDS_SPACE or prev in _NEEDS_SPACE:
if part == '=' and part.parent.type in ('argument', 'param') \
or prev == '=' and prev.parent.type in ('argument', 'param'):
if part == '=':
param = part.parent
else:
param = prev.parent
if param.type == 'param' and param.annotation:
add_not_spaces(spacing, 252, 'Expected spaces around annotation equals')
else:
add_if_spaces(
spacing,
251,
'Unexpected spaces around keyword / parameter equals'
)
elif part in _BITWISE_OPERATOR or prev in _BITWISE_OPERATOR:
add_not_spaces(
spacing,
227,
'Missing whitespace around bitwise or shift operator'
)
elif part == '%' or prev == '%':
add_not_spaces(spacing, 228, 'Missing whitespace around modulo operator')
else:
message_225 = 'Missing whitespace between tokens'
add_not_spaces(spacing, 225, message_225)
elif type_ == 'keyword' or prev.type == 'keyword':
add_not_spaces(spacing, 275, 'Missing whitespace around keyword')
else:
prev_spacing = self._previous_spacing
if prev in _ALLOW_SPACE and spaces != prev_spacing.value \
and '\n' not in self._previous_leaf.prefix \
and '\r' not in self._previous_leaf.prefix:
message = "Whitespace before operator doesn't match with whitespace after"
self.add_issue(spacing, 229, message)
if spaces and part not in _ALLOW_SPACE and prev not in _ALLOW_SPACE:
message_225 = 'Missing whitespace between tokens'
# self.add_issue(spacing, 225, message_225)
# TODO why only brackets?
if part in _OPENING_BRACKETS:
message = "Whitespace before '%s'" % part.value
add_if_spaces(spacing, 211, message)
def _analyse_non_prefix(self, leaf):
typ = leaf.type
if typ == 'name' and leaf.value in ('l', 'O', 'I'):
if leaf.is_definition():
message = "Do not define %s named 'l', 'O', or 'I' one line"
if leaf.parent.type == 'class' and leaf.parent.name == leaf:
self.add_issue(leaf, 742, message % 'classes')
elif leaf.parent.type == 'function' and leaf.parent.name == leaf:
self.add_issue(leaf, 743, message % 'function')
else:
self.add_issuadd_issue(741, message % 'variables', leaf)
elif leaf.value == ':':
if isinstance(leaf.parent, (Flow, Scope)) and leaf.parent.type != 'lambdef':
next_leaf = leaf.get_next_leaf()
if next_leaf.type != 'newline':
if leaf.parent.type == 'funcdef':
self.add_issue(next_leaf, 704, 'Multiple statements on one line (def)')
else:
self.add_issue(next_leaf, 701, 'Multiple statements on one line (colon)')
elif leaf.value == ';':
if leaf.get_next_leaf().type in ('newline', 'endmarker'):
self.add_issue(leaf, 703, 'Statement ends with a semicolon')
else:
self.add_issue(leaf, 702, 'Multiple statements on one line (semicolon)')
elif leaf.value in ('==', '!='):
comparison = leaf.parent
index = comparison.children.index(leaf)
left = comparison.children[index - 1]
right = comparison.children[index + 1]
for node in left, right:
if node.type == 'keyword' or node.type == 'name':
if node.value == 'None':
message = "comparison to None should be 'if cond is None:'"
self.add_issue(leaf, 711, message)
break
elif node.value in ('True', 'False'):
message = "comparison to False/True should be " \
"'if cond is True:' or 'if cond:'"
self.add_issue(leaf, 712, message)
break
elif leaf.value in ('in', 'is'):
comparison = leaf.parent
if comparison.type == 'comparison' and comparison.parent.type == 'not_test':
if leaf.value == 'in':
self.add_issue(leaf, 713, "test for membership should be 'not in'")
else:
self.add_issue(leaf, 714, "test for object identity should be 'is not'")
elif typ == 'string':
# Checking multiline strings
for i, line in enumerate(leaf.value.splitlines()[1:]):
indentation = re.match(r'[ \t]*', line).group(0)
start_pos = leaf.line + i, len(indentation)
# TODO check multiline indentation.
start_pos
elif typ == 'endmarker':
if self._newline_count >= 2:
self.add_issue(leaf, 391, 'Blank line at end of file')
def add_issue(self, node, code, message):
if self._previous_leaf is not None:
if self._previous_leaf.search_ancestor('error_node') is not None:
return
if self._previous_leaf.type == 'error_leaf':
return
if node.search_ancestor('error_node') is not None:
return
if code in (901, 903):
# 901 and 903 are raised by the ErrorFinder.
super().add_issue(node, code, message)
else:
# Skip ErrorFinder here, because it has custom behavior.
super(ErrorFinder, self).add_issue(node, code, message)
class PEP8NormalizerConfig(ErrorFinderConfig):
normalizer_class = PEP8Normalizer
"""
Normalizing to PEP8. Not really implemented, yet.
"""
def __init__(self, indentation=' ' * 4, hanging_indentation=None,
max_characters=79, spaces_before_comment=2):
self.indentation = indentation
if hanging_indentation is None:
hanging_indentation = indentation
self.hanging_indentation = hanging_indentation
self.closing_bracket_hanging_indentation = ''
self.break_after_binary = False
self.max_characters = max_characters
self.spaces_before_comment = spaces_before_comment
# TODO this is not yet ready.
# @PEP8Normalizer.register_rule(type='endmarker')
class BlankLineAtEnd(Rule):
code = 392
message = 'Blank line at end of file'
def is_issue(self, leaf):
return self._newline_count >= 2