Vehicle-Anti-Theft-Face-Rec.../venv/Lib/site-packages/jedi/parser_utils.py

333 lines
10 KiB
Python

import re
import textwrap
from inspect import cleandoc
from weakref import WeakKeyDictionary
from parso.python import tree
from parso.cache import parser_cache
from parso import split_lines
from jedi._compatibility import literal_eval, force_unicode
_EXECUTE_NODES = {'funcdef', 'classdef', 'import_from', 'import_name', 'test',
'or_test', 'and_test', 'not_test', 'comparison', 'expr',
'xor_expr', 'and_expr', 'shift_expr', 'arith_expr',
'atom_expr', 'term', 'factor', 'power', 'atom'}
_FLOW_KEYWORDS = (
'try', 'except', 'finally', 'else', 'if', 'elif', 'with', 'for', 'while'
)
def get_executable_nodes(node, last_added=False):
"""
For static analysis.
"""
result = []
typ = node.type
if typ == 'name':
next_leaf = node.get_next_leaf()
if last_added is False and node.parent.type != 'param' and next_leaf != '=':
result.append(node)
elif typ == 'expr_stmt':
# I think inferring the statement (and possibly returned arrays),
# should be enough for static analysis.
result.append(node)
for child in node.children:
result += get_executable_nodes(child, last_added=True)
elif typ == 'decorator':
# decorator
if node.children[-2] == ')':
node = node.children[-3]
if node != '(':
result += get_executable_nodes(node)
else:
try:
children = node.children
except AttributeError:
pass
else:
if node.type in _EXECUTE_NODES and not last_added:
result.append(node)
for child in children:
result += get_executable_nodes(child, last_added)
return result
def get_sync_comp_fors(comp_for):
yield comp_for
last = comp_for.children[-1]
while True:
if last.type == 'comp_for':
yield last.children[1] # Ignore the async.
elif last.type == 'sync_comp_for':
yield last
elif not last.type == 'comp_if':
break
last = last.children[-1]
def for_stmt_defines_one_name(for_stmt):
"""
Returns True if only one name is returned: ``for x in y``.
Returns False if the for loop is more complicated: ``for x, z in y``.
:returns: bool
"""
return for_stmt.children[1].type == 'name'
def get_flow_branch_keyword(flow_node, node):
start_pos = node.start_pos
if not (flow_node.start_pos < start_pos <= flow_node.end_pos):
raise ValueError('The node is not part of the flow.')
keyword = None
for i, child in enumerate(flow_node.children):
if start_pos < child.start_pos:
return keyword
first_leaf = child.get_first_leaf()
if first_leaf in _FLOW_KEYWORDS:
keyword = first_leaf
return 0
def clean_scope_docstring(scope_node):
""" Returns a cleaned version of the docstring token. """
node = scope_node.get_doc_node()
if node is not None:
# TODO We have to check next leaves until there are no new
# leaves anymore that might be part of the docstring. A
# docstring can also look like this: ``'foo' 'bar'
# Returns a literal cleaned version of the ``Token``.
cleaned = cleandoc(safe_literal_eval(node.value))
# Since we want the docstr output to be always unicode, just
# force it.
return force_unicode(cleaned)
return ''
def find_statement_documentation(tree_node):
if tree_node.type == 'expr_stmt':
tree_node = tree_node.parent # simple_stmt
maybe_string = tree_node.get_next_sibling()
if maybe_string is not None:
if maybe_string.type == 'simple_stmt':
maybe_string = maybe_string.children[0]
if maybe_string.type == 'string':
cleaned = cleandoc(safe_literal_eval(maybe_string.value))
# Since we want the docstr output to be always unicode, just
# force it.
return force_unicode(cleaned)
return ''
def safe_literal_eval(value):
first_two = value[:2].lower()
if first_two[0] == 'f' or first_two in ('fr', 'rf'):
# literal_eval is not able to resovle f literals. We have to do that
# manually, but that's right now not implemented.
return ''
try:
return literal_eval(value)
except SyntaxError:
# It's possible to create syntax errors with literals like rb'' in
# Python 2. This should not be possible and in that case just return an
# empty string.
# Before Python 3.3 there was a more strict definition in which order
# you could define literals.
return ''
def get_signature(funcdef, width=72, call_string=None,
omit_first_param=False, omit_return_annotation=False):
"""
Generate a string signature of a function.
:param width: Fold lines if a line is longer than this value.
:type width: int
:arg func_name: Override function name when given.
:type func_name: str
:rtype: str
"""
# Lambdas have no name.
if call_string is None:
if funcdef.type == 'lambdef':
call_string = '<lambda>'
else:
call_string = funcdef.name.value
params = funcdef.get_params()
if omit_first_param:
params = params[1:]
p = '(' + ''.join(param.get_code() for param in params).strip() + ')'
# TODO this is pretty bad, we should probably just normalize.
p = re.sub(r'\s+', ' ', p)
if funcdef.annotation and not omit_return_annotation:
rtype = " ->" + funcdef.annotation.get_code()
else:
rtype = ""
code = call_string + p + rtype
return '\n'.join(textwrap.wrap(code, width))
def move(node, line_offset):
"""
Move the `Node` start_pos.
"""
try:
children = node.children
except AttributeError:
node.line += line_offset
else:
for c in children:
move(c, line_offset)
def get_following_comment_same_line(node):
"""
returns (as string) any comment that appears on the same line,
after the node, including the #
"""
try:
if node.type == 'for_stmt':
whitespace = node.children[5].get_first_leaf().prefix
elif node.type == 'with_stmt':
whitespace = node.children[3].get_first_leaf().prefix
elif node.type == 'funcdef':
# actually on the next line
whitespace = node.children[4].get_first_leaf().get_next_leaf().prefix
else:
whitespace = node.get_last_leaf().get_next_leaf().prefix
except AttributeError:
return None
except ValueError:
# TODO in some particular cases, the tree doesn't seem to be linked
# correctly
return None
if "#" not in whitespace:
return None
comment = whitespace[whitespace.index("#"):]
if "\r" in comment:
comment = comment[:comment.index("\r")]
if "\n" in comment:
comment = comment[:comment.index("\n")]
return comment
def is_scope(node):
t = node.type
if t == 'comp_for':
# Starting with Python 3.8, async is outside of the statement.
return node.children[1].type != 'sync_comp_for'
return t in ('file_input', 'classdef', 'funcdef', 'lambdef', 'sync_comp_for')
def _get_parent_scope_cache(func):
cache = WeakKeyDictionary()
def wrapper(used_names, node, include_flows=False):
try:
for_module = cache[used_names]
except KeyError:
for_module = cache[used_names] = {}
try:
return for_module[node]
except KeyError:
result = for_module[node] = func(node, include_flows)
return result
return wrapper
def get_parent_scope(node, include_flows=False):
"""
Returns the underlying scope.
"""
scope = node.parent
if scope is None:
return None # It's a module already.
while True:
if is_scope(scope) or include_flows and isinstance(scope, tree.Flow):
if scope.type in ('classdef', 'funcdef', 'lambdef'):
index = scope.children.index(':')
if scope.children[index].start_pos >= node.start_pos:
if node.parent.type == 'param' and node.parent.name == node:
pass
elif node.parent.type == 'tfpdef' and node.parent.children[0] == node:
pass
else:
scope = scope.parent
continue
return scope
scope = scope.parent
get_cached_parent_scope = _get_parent_scope_cache(get_parent_scope)
def get_cached_code_lines(grammar, path):
"""
Basically access the cached code lines in parso. This is not the nicest way
to do this, but we avoid splitting all the lines again.
"""
return parser_cache[grammar._hashed][path].lines
def cut_value_at_position(leaf, position):
"""
Cuts of the value of the leaf at position
"""
lines = split_lines(leaf.value, keepends=True)[:position[0] - leaf.line + 1]
column = position[1]
if leaf.line == position[0]:
column -= leaf.column
if not lines:
return ''
lines[-1] = lines[-1][:column]
return ''.join(lines)
def expr_is_dotted(node):
"""
Checks if a path looks like `name` or `name.foo.bar` and not `name()`.
"""
if node.type == 'atom':
if len(node.children) == 3 and node.children[0] == '(':
return expr_is_dotted(node.children[1])
return False
if node.type == 'atom_expr':
children = node.children
if children[0] == 'await':
return False
if not expr_is_dotted(children[0]):
return False
# Check trailers
return all(c.children[0] == '.' for c in children[1:])
return node.type == 'name'
def _function_is_x_method(method_name):
def wrapper(function_node):
"""
This is a heuristic. It will not hold ALL the times, but it will be
correct pretty much for anyone that doesn't try to beat it.
staticmethod/classmethod are builtins and unless overwritten, this will
be correct.
"""
for decorator in function_node.get_decorators():
dotted_name = decorator.children[1]
if dotted_name.get_code() == method_name:
return True
return False
return wrapper
function_is_staticmethod = _function_is_x_method('staticmethod')
function_is_classmethod = _function_is_x_method('classmethod')