523 lines
19 KiB
Python
523 lines
19 KiB
Python
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"""
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Helpers for the API
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"""
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import re
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from collections import namedtuple
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from textwrap import dedent
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from itertools import chain
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from functools import wraps
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from parso.python.parser import Parser
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from parso.python import tree
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from jedi._compatibility import u, Parameter
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from jedi.inference.base_value import NO_VALUES
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from jedi.inference.syntax_tree import infer_atom
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from jedi.inference.helpers import infer_call_of_leaf
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from jedi.inference.compiled import get_string_value_set
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from jedi.cache import signature_time_cache, memoize_method
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from jedi.parser_utils import get_parent_scope
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CompletionParts = namedtuple('CompletionParts', ['path', 'has_dot', 'name'])
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def _start_match(string, like_name):
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return string.startswith(like_name)
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def _fuzzy_match(string, like_name):
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if len(like_name) <= 1:
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return like_name in string
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pos = string.find(like_name[0])
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if pos >= 0:
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return _fuzzy_match(string[pos + 1:], like_name[1:])
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return False
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def match(string, like_name, fuzzy=False):
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if fuzzy:
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return _fuzzy_match(string, like_name)
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else:
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return _start_match(string, like_name)
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def sorted_definitions(defs):
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# Note: `or ''` below is required because `module_path` could be
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return sorted(defs, key=lambda x: (x.module_path or '', x.line or 0, x.column or 0, x.name))
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def get_on_completion_name(module_node, lines, position):
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leaf = module_node.get_leaf_for_position(position)
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if leaf is None or leaf.type in ('string', 'error_leaf'):
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# Completions inside strings are a bit special, we need to parse the
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# string. The same is true for comments and error_leafs.
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line = lines[position[0] - 1]
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# The first step of completions is to get the name
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return re.search(r'(?!\d)\w+$|$', line[:position[1]]).group(0)
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elif leaf.type not in ('name', 'keyword'):
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return ''
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return leaf.value[:position[1] - leaf.start_pos[1]]
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def _get_code(code_lines, start_pos, end_pos):
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# Get relevant lines.
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lines = code_lines[start_pos[0] - 1:end_pos[0]]
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# Remove the parts at the end of the line.
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lines[-1] = lines[-1][:end_pos[1]]
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# Remove first line indentation.
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lines[0] = lines[0][start_pos[1]:]
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return ''.join(lines)
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class OnErrorLeaf(Exception):
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@property
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def error_leaf(self):
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return self.args[0]
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def _get_code_for_stack(code_lines, leaf, position):
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# It might happen that we're on whitespace or on a comment. This means
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# that we would not get the right leaf.
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if leaf.start_pos >= position:
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# If we're not on a comment simply get the previous leaf and proceed.
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leaf = leaf.get_previous_leaf()
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if leaf is None:
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return u('') # At the beginning of the file.
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is_after_newline = leaf.type == 'newline'
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while leaf.type == 'newline':
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leaf = leaf.get_previous_leaf()
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if leaf is None:
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return u('')
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if leaf.type == 'error_leaf' or leaf.type == 'string':
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if leaf.start_pos[0] < position[0]:
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# On a different line, we just begin anew.
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return u('')
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# Error leafs cannot be parsed, completion in strings is also
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# impossible.
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raise OnErrorLeaf(leaf)
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else:
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user_stmt = leaf
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while True:
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if user_stmt.parent.type in ('file_input', 'suite', 'simple_stmt'):
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break
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user_stmt = user_stmt.parent
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if is_after_newline:
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if user_stmt.start_pos[1] > position[1]:
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# This means that it's actually a dedent and that means that we
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# start without value (part of a suite).
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return u('')
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# This is basically getting the relevant lines.
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return _get_code(code_lines, user_stmt.get_start_pos_of_prefix(), position)
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def get_stack_at_position(grammar, code_lines, leaf, pos):
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"""
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Returns the possible node names (e.g. import_from, xor_test or yield_stmt).
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"""
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class EndMarkerReached(Exception):
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pass
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def tokenize_without_endmarker(code):
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# TODO This is for now not an official parso API that exists purely
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# for Jedi.
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tokens = grammar._tokenize(code)
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for token in tokens:
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if token.string == safeword:
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raise EndMarkerReached()
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elif token.prefix.endswith(safeword):
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# This happens with comments.
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raise EndMarkerReached()
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elif token.string.endswith(safeword):
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yield token # Probably an f-string literal that was not finished.
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raise EndMarkerReached()
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else:
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yield token
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# The code might be indedented, just remove it.
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code = dedent(_get_code_for_stack(code_lines, leaf, pos))
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# We use a word to tell Jedi when we have reached the start of the
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# completion.
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# Use Z as a prefix because it's not part of a number suffix.
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safeword = 'ZZZ_USER_WANTS_TO_COMPLETE_HERE_WITH_JEDI'
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code = code + ' ' + safeword
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p = Parser(grammar._pgen_grammar, error_recovery=True)
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try:
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p.parse(tokens=tokenize_without_endmarker(code))
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except EndMarkerReached:
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return p.stack
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raise SystemError(
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"This really shouldn't happen. There's a bug in Jedi:\n%s"
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% list(tokenize_without_endmarker(code))
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)
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def infer(inference_state, context, leaf):
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if leaf.type == 'name':
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return inference_state.infer(context, leaf)
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parent = leaf.parent
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definitions = NO_VALUES
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if parent.type == 'atom':
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# e.g. `(a + b)`
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definitions = context.infer_node(leaf.parent)
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elif parent.type == 'trailer':
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# e.g. `a()`
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definitions = infer_call_of_leaf(context, leaf)
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elif isinstance(leaf, tree.Literal):
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# e.g. `"foo"` or `1.0`
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return infer_atom(context, leaf)
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elif leaf.type in ('fstring_string', 'fstring_start', 'fstring_end'):
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return get_string_value_set(inference_state)
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return definitions
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def filter_follow_imports(names, follow_builtin_imports=False):
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for name in names:
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if name.is_import():
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new_names = list(filter_follow_imports(
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name.goto(),
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follow_builtin_imports=follow_builtin_imports,
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))
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found_builtin = False
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if follow_builtin_imports:
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for new_name in new_names:
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if new_name.start_pos is None:
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found_builtin = True
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if found_builtin:
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yield name
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else:
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for new_name in new_names:
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yield new_name
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else:
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yield name
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class CallDetails(object):
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def __init__(self, bracket_leaf, children, position):
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['bracket_leaf', 'call_index', 'keyword_name_str']
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self.bracket_leaf = bracket_leaf
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self._children = children
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self._position = position
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@property
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def index(self):
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return _get_index_and_key(self._children, self._position)[0]
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@property
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def keyword_name_str(self):
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return _get_index_and_key(self._children, self._position)[1]
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@memoize_method
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def _list_arguments(self):
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return list(_iter_arguments(self._children, self._position))
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def calculate_index(self, param_names):
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positional_count = 0
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used_names = set()
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star_count = -1
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args = self._list_arguments()
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if not args:
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if param_names:
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return 0
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else:
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return None
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is_kwarg = False
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for i, (star_count, key_start, had_equal) in enumerate(args):
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is_kwarg |= had_equal | (star_count == 2)
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if star_count:
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pass # For now do nothing, we don't know what's in there here.
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else:
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if i + 1 != len(args): # Not last
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if had_equal:
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used_names.add(key_start)
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else:
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positional_count += 1
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for i, param_name in enumerate(param_names):
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kind = param_name.get_kind()
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if not is_kwarg:
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if kind == Parameter.VAR_POSITIONAL:
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return i
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if kind in (Parameter.POSITIONAL_OR_KEYWORD, Parameter.POSITIONAL_ONLY):
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if i == positional_count:
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return i
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if key_start is not None and not star_count == 1 or star_count == 2:
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if param_name.string_name not in used_names \
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and (kind == Parameter.KEYWORD_ONLY
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or kind == Parameter.POSITIONAL_OR_KEYWORD
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and positional_count <= i):
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if star_count:
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return i
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if had_equal:
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if param_name.string_name == key_start:
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return i
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else:
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if param_name.string_name.startswith(key_start):
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return i
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if kind == Parameter.VAR_KEYWORD:
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return i
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return None
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def iter_used_keyword_arguments(self):
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for star_count, key_start, had_equal in list(self._list_arguments()):
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if had_equal and key_start:
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yield key_start
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def count_positional_arguments(self):
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count = 0
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for star_count, key_start, had_equal in self._list_arguments()[:-1]:
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if star_count:
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break
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count += 1
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return count
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def _iter_arguments(nodes, position):
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def remove_after_pos(name):
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if name.type != 'name':
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return None
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return name.value[:position[1] - name.start_pos[1]]
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# Returns Generator[Tuple[star_count, Optional[key_start: str], had_equal]]
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nodes_before = [c for c in nodes if c.start_pos < position]
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if nodes_before[-1].type == 'arglist':
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for x in _iter_arguments(nodes_before[-1].children, position):
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yield x # Python 2 :(
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return
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previous_node_yielded = False
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stars_seen = 0
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for i, node in enumerate(nodes_before):
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if node.type == 'argument':
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previous_node_yielded = True
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first = node.children[0]
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second = node.children[1]
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if second == '=':
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if second.start_pos < position:
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yield 0, first.value, True
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else:
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yield 0, remove_after_pos(first), False
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elif first in ('*', '**'):
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yield len(first.value), remove_after_pos(second), False
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else:
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# Must be a Comprehension
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first_leaf = node.get_first_leaf()
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if first_leaf.type == 'name' and first_leaf.start_pos >= position:
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yield 0, remove_after_pos(first_leaf), False
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else:
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yield 0, None, False
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stars_seen = 0
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elif node.type in ('testlist', 'testlist_star_expr'): # testlist is Python 2
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for n in node.children[::2]:
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if n.type == 'star_expr':
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stars_seen = 1
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n = n.children[1]
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yield stars_seen, remove_after_pos(n), False
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stars_seen = 0
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# The count of children is even if there's a comma at the end.
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previous_node_yielded = bool(len(node.children) % 2)
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elif isinstance(node, tree.PythonLeaf) and node.value == ',':
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if not previous_node_yielded:
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yield stars_seen, '', False
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stars_seen = 0
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previous_node_yielded = False
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elif isinstance(node, tree.PythonLeaf) and node.value in ('*', '**'):
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stars_seen = len(node.value)
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elif node == '=' and nodes_before[-1]:
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previous_node_yielded = True
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before = nodes_before[i - 1]
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if before.type == 'name':
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yield 0, before.value, True
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else:
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yield 0, None, False
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# Just ignore the star that is probably a syntax error.
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stars_seen = 0
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if not previous_node_yielded:
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if nodes_before[-1].type == 'name':
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yield stars_seen, remove_after_pos(nodes_before[-1]), False
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else:
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yield stars_seen, '', False
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def _get_index_and_key(nodes, position):
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"""
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Returns the amount of commas and the keyword argument string.
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"""
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nodes_before = [c for c in nodes if c.start_pos < position]
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if nodes_before[-1].type == 'arglist':
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return _get_index_and_key(nodes_before[-1].children, position)
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key_str = None
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last = nodes_before[-1]
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if last.type == 'argument' and last.children[1] == '=' \
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and last.children[1].end_pos <= position:
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# Checked if the argument
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key_str = last.children[0].value
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elif last == '=':
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key_str = nodes_before[-2].value
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return nodes_before.count(','), key_str
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def _get_signature_details_from_error_node(node, additional_children, position):
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for index, element in reversed(list(enumerate(node.children))):
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# `index > 0` means that it's a trailer and not an atom.
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if element == '(' and element.end_pos <= position and index > 0:
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# It's an error node, we don't want to match too much, just
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# until the parentheses is enough.
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children = node.children[index:]
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name = element.get_previous_leaf()
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if name is None:
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continue
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if name.type == 'name' or name.parent.type in ('trailer', 'atom'):
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return CallDetails(element, children + additional_children, position)
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def get_signature_details(module, position):
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leaf = module.get_leaf_for_position(position, include_prefixes=True)
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# It's easier to deal with the previous token than the next one in this
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# case.
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if leaf.start_pos >= position:
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# Whitespace / comments after the leaf count towards the previous leaf.
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leaf = leaf.get_previous_leaf()
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if leaf is None:
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return None
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# Now that we know where we are in the syntax tree, we start to look at
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# parents for possible function definitions.
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node = leaf.parent
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while node is not None:
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if node.type in ('funcdef', 'classdef', 'decorated', 'async_stmt'):
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# Don't show signatures if there's stuff before it that just
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# makes it feel strange to have a signature.
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return None
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additional_children = []
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for n in reversed(node.children):
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if n.start_pos < position:
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if n.type == 'error_node':
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result = _get_signature_details_from_error_node(
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n, additional_children, position
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)
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if result is not None:
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return result
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additional_children[0:0] = n.children
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continue
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additional_children.insert(0, n)
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# Find a valid trailer
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if node.type == 'trailer' and node.children[0] == '(' \
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or node.type == 'decorator' and node.children[2] == '(':
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# Additionally we have to check that an ending parenthesis isn't
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# interpreted wrong. There are two cases:
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# 1. Cursor before paren -> The current signature is good
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# 2. Cursor after paren -> We need to skip the current signature
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|
if not (leaf is node.children[-1] and position >= leaf.end_pos):
|
||
|
leaf = node.get_previous_leaf()
|
||
|
if leaf is None:
|
||
|
return None
|
||
|
return CallDetails(
|
||
|
node.children[0] if node.type == 'trailer' else node.children[2],
|
||
|
node.children,
|
||
|
position
|
||
|
)
|
||
|
|
||
|
node = node.parent
|
||
|
|
||
|
return None
|
||
|
|
||
|
|
||
|
@signature_time_cache("call_signatures_validity")
|
||
|
def cache_signatures(inference_state, context, bracket_leaf, code_lines, user_pos):
|
||
|
"""This function calculates the cache key."""
|
||
|
line_index = user_pos[0] - 1
|
||
|
|
||
|
before_cursor = code_lines[line_index][:user_pos[1]]
|
||
|
other_lines = code_lines[bracket_leaf.start_pos[0]:line_index]
|
||
|
whole = ''.join(other_lines + [before_cursor])
|
||
|
before_bracket = re.match(r'.*\(', whole, re.DOTALL)
|
||
|
|
||
|
module_path = context.get_root_context().py__file__()
|
||
|
if module_path is None:
|
||
|
yield None # Don't cache!
|
||
|
else:
|
||
|
yield (module_path, before_bracket, bracket_leaf.start_pos)
|
||
|
yield infer(
|
||
|
inference_state,
|
||
|
context,
|
||
|
bracket_leaf.get_previous_leaf(),
|
||
|
)
|
||
|
|
||
|
|
||
|
def validate_line_column(func):
|
||
|
@wraps(func)
|
||
|
def wrapper(self, line=None, column=None, *args, **kwargs):
|
||
|
line = max(len(self._code_lines), 1) if line is None else line
|
||
|
if not (0 < line <= len(self._code_lines)):
|
||
|
raise ValueError('`line` parameter is not in a valid range.')
|
||
|
|
||
|
line_string = self._code_lines[line - 1]
|
||
|
line_len = len(line_string)
|
||
|
if line_string.endswith('\r\n'):
|
||
|
line_len -= 2
|
||
|
elif line_string.endswith('\n'):
|
||
|
line_len -= 1
|
||
|
|
||
|
column = line_len if column is None else column
|
||
|
if not (0 <= column <= line_len):
|
||
|
raise ValueError('`column` parameter (%d) is not in a valid range '
|
||
|
'(0-%d) for line %d (%r).' % (
|
||
|
column, line_len, line, line_string))
|
||
|
return func(self, line, column, *args, **kwargs)
|
||
|
return wrapper
|
||
|
|
||
|
|
||
|
def get_module_names(module, all_scopes, definitions=True, references=False):
|
||
|
"""
|
||
|
Returns a dictionary with name parts as keys and their call paths as
|
||
|
values.
|
||
|
"""
|
||
|
def def_ref_filter(name):
|
||
|
is_def = name.is_definition()
|
||
|
return definitions and is_def or references and not is_def
|
||
|
|
||
|
names = list(chain.from_iterable(module.get_used_names().values()))
|
||
|
if not all_scopes:
|
||
|
# We have to filter all the names that don't have the module as a
|
||
|
# parent_scope. There's None as a parent, because nodes in the module
|
||
|
# node have the parent module and not suite as all the others.
|
||
|
# Therefore it's important to catch that case.
|
||
|
|
||
|
def is_module_scope_name(name):
|
||
|
parent_scope = get_parent_scope(name)
|
||
|
# async functions have an extra wrapper. Strip it.
|
||
|
if parent_scope and parent_scope.type == 'async_stmt':
|
||
|
parent_scope = parent_scope.parent
|
||
|
return parent_scope in (module, None)
|
||
|
|
||
|
names = [n for n in names if is_module_scope_name(n)]
|
||
|
return filter(def_ref_filter, names)
|
||
|
|
||
|
|
||
|
def split_search_string(name):
|
||
|
type, _, dotted_names = name.rpartition(' ')
|
||
|
if type == 'def':
|
||
|
type = 'function'
|
||
|
return type, dotted_names.split('.')
|