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1"""
2There are a couple of classes documented in here:
3
4- :class:`.BaseName` as an abstact base class for almost everything.
5- :class:`.Name` used in a lot of places
6- :class:`.Completion` for completions
7- :class:`.BaseSignature` as a base class for signatures
8- :class:`.Signature` for :meth:`.Script.get_signatures` only
9- :class:`.ParamName` used for parameters of signatures
10- :class:`.Refactoring` for refactorings
11- :class:`.SyntaxError` for :meth:`.Script.get_syntax_errors` only
12
13These classes are the much biggest part of the API, because they contain
14the interesting information about all operations.
15"""
16import re
17from pathlib import Path
18from typing import Optional
19
20from parso.tree import search_ancestor
21
22from jedi import settings
23from jedi import debug
24from jedi.inference.utils import unite
25from jedi.cache import memoize_method
26from jedi.inference.compiled.mixed import MixedName
27from jedi.inference.names import ImportName, SubModuleName
28from jedi.inference.gradual.stub_value import StubModuleValue
29from jedi.inference.gradual.conversion import convert_names, convert_values
30from jedi.inference.base_value import ValueSet, HasNoContext
31from jedi.api.keywords import KeywordName
32from jedi.api import completion_cache
33from jedi.api.helpers import filter_follow_imports
34
35
36def _sort_names_by_start_pos(names):
37 return sorted(names, key=lambda s: s.start_pos or (0, 0))
38
39
40def defined_names(inference_state, value):
41 """
42 List sub-definitions (e.g., methods in class).
43
44 :type scope: Scope
45 :rtype: list of Name
46 """
47 try:
48 context = value.as_context()
49 except HasNoContext:
50 return []
51 filter = next(context.get_filters())
52 names = [name for name in filter.values()]
53 return [Name(inference_state, n) for n in _sort_names_by_start_pos(names)]
54
55
56def _values_to_definitions(values):
57 return [Name(c.inference_state, c.name) for c in values]
58
59
60class BaseName:
61 """
62 The base class for all definitions, completions and signatures.
63 """
64 _mapping = {
65 'posixpath': 'os.path',
66 'riscospath': 'os.path',
67 'ntpath': 'os.path',
68 'os2emxpath': 'os.path',
69 'macpath': 'os.path',
70 'genericpath': 'os.path',
71 'posix': 'os',
72 '_io': 'io',
73 '_functools': 'functools',
74 '_collections': 'collections',
75 '_socket': 'socket',
76 '_sqlite3': 'sqlite3',
77 }
78
79 _tuple_mapping = dict((tuple(k.split('.')), v) for (k, v) in {
80 'argparse._ActionsContainer': 'argparse.ArgumentParser',
81 }.items())
82
83 def __init__(self, inference_state, name):
84 self._inference_state = inference_state
85 self._name = name
86 """
87 An instance of :class:`parso.python.tree.Name` subclass.
88 """
89 self.is_keyword = isinstance(self._name, KeywordName)
90
91 @memoize_method
92 def _get_module_context(self):
93 # This can take a while to complete, because in the worst case of
94 # imports (consider `import a` completions), we need to load all
95 # modules starting with a first.
96 return self._name.get_root_context()
97
98 @property
99 def module_path(self) -> Optional[Path]:
100 """
101 Shows the file path of a module. e.g. ``/usr/lib/python3.9/os.py``
102 """
103 module = self._get_module_context()
104 if module.is_stub() or not module.is_compiled():
105 # Compiled modules should not return a module path even if they
106 # have one.
107 path: Optional[Path] = self._get_module_context().py__file__()
108 return path
109
110 return None
111
112 @property
113 def name(self):
114 """
115 Name of variable/function/class/module.
116
117 For example, for ``x = None`` it returns ``'x'``.
118
119 :rtype: str or None
120 """
121 return self._name.get_public_name()
122
123 @property
124 def type(self):
125 """
126 The type of the definition.
127
128 Here is an example of the value of this attribute. Let's consider
129 the following source. As what is in ``variable`` is unambiguous
130 to Jedi, :meth:`jedi.Script.infer` should return a list of
131 definition for ``sys``, ``f``, ``C`` and ``x``.
132
133 >>> from jedi import Script
134 >>> source = '''
135 ... import keyword
136 ...
137 ... class C:
138 ... pass
139 ...
140 ... class D:
141 ... pass
142 ...
143 ... x = D()
144 ...
145 ... def f():
146 ... pass
147 ...
148 ... for variable in [keyword, f, C, x]:
149 ... variable'''
150
151 >>> script = Script(source)
152 >>> defs = script.infer()
153
154 Before showing what is in ``defs``, let's sort it by :attr:`line`
155 so that it is easy to relate the result to the source code.
156
157 >>> defs = sorted(defs, key=lambda d: d.line)
158 >>> print(defs) # doctest: +NORMALIZE_WHITESPACE
159 [<Name full_name='keyword', description='module keyword'>,
160 <Name full_name='__main__.C', description='class C'>,
161 <Name full_name='__main__.D', description='instance D'>,
162 <Name full_name='__main__.f', description='def f'>]
163
164 Finally, here is what you can get from :attr:`type`:
165
166 >>> defs = [d.type for d in defs]
167 >>> defs[0]
168 'module'
169 >>> defs[1]
170 'class'
171 >>> defs[2]
172 'instance'
173 >>> defs[3]
174 'function'
175
176 Valid values for type are ``module``, ``class``, ``instance``, ``function``,
177 ``param``, ``path``, ``keyword``, ``property`` and ``statement``.
178
179 """
180 tree_name = self._name.tree_name
181 resolve = False
182 if tree_name is not None:
183 # TODO move this to their respective names.
184 definition = tree_name.get_definition()
185 if definition is not None and definition.type == 'import_from' and \
186 tree_name.is_definition():
187 resolve = True
188
189 if isinstance(self._name, SubModuleName) or resolve:
190 for value in self._name.infer():
191 return value.api_type
192 return self._name.api_type
193
194 @property
195 def module_name(self):
196 """
197 The module name, a bit similar to what ``__name__`` is in a random
198 Python module.
199
200 >>> from jedi import Script
201 >>> source = 'import json'
202 >>> script = Script(source, path='example.py')
203 >>> d = script.infer()[0]
204 >>> print(d.module_name) # doctest: +ELLIPSIS
205 json
206 """
207 return self._get_module_context().py__name__()
208
209 def in_builtin_module(self):
210 """
211 Returns True, if this is a builtin module.
212 """
213 value = self._get_module_context().get_value()
214 if isinstance(value, StubModuleValue):
215 return any(v.is_compiled() for v in value.non_stub_value_set)
216 return value.is_compiled()
217
218 @property
219 def line(self):
220 """The line where the definition occurs (starting with 1)."""
221 start_pos = self._name.start_pos
222 if start_pos is None:
223 return None
224 return start_pos[0]
225
226 @property
227 def column(self):
228 """The column where the definition occurs (starting with 0)."""
229 start_pos = self._name.start_pos
230 if start_pos is None:
231 return None
232 return start_pos[1]
233
234 def get_definition_start_position(self):
235 """
236 The (row, column) of the start of the definition range. Rows start with
237 1, columns start with 0.
238
239 :rtype: Optional[Tuple[int, int]]
240 """
241 if self._name.tree_name is None:
242 return None
243 definition = self._name.tree_name.get_definition()
244 if definition is None:
245 return self._name.start_pos
246 return definition.start_pos
247
248 def get_definition_end_position(self):
249 """
250 The (row, column) of the end of the definition range. Rows start with
251 1, columns start with 0.
252
253 :rtype: Optional[Tuple[int, int]]
254 """
255 if self._name.tree_name is None:
256 return None
257 definition = self._name.tree_name.get_definition()
258 if definition is None:
259 return self._name.tree_name.end_pos
260 if self.type in ("function", "class"):
261 last_leaf = definition.get_last_leaf()
262 if last_leaf.type == "newline":
263 return last_leaf.get_previous_leaf().end_pos
264 return last_leaf.end_pos
265 return definition.end_pos
266
267 def docstring(self, raw=False, fast=True):
268 r"""
269 Return a document string for this completion object.
270
271 Example:
272
273 >>> from jedi import Script
274 >>> source = '''\
275 ... def f(a, b=1):
276 ... "Document for function f."
277 ... '''
278 >>> script = Script(source, path='example.py')
279 >>> doc = script.infer(1, len('def f'))[0].docstring()
280 >>> print(doc)
281 f(a, b=1)
282 <BLANKLINE>
283 Document for function f.
284
285 Notice that useful extra information is added to the actual
286 docstring, e.g. function signatures are prepended to their docstrings.
287 If you need the actual docstring, use ``raw=True`` instead.
288
289 >>> print(script.infer(1, len('def f'))[0].docstring(raw=True))
290 Document for function f.
291
292 :param fast: Don't follow imports that are only one level deep like
293 ``import foo``, but follow ``from foo import bar``. This makes
294 sense for speed reasons. Completing `import a` is slow if you use
295 the ``foo.docstring(fast=False)`` on every object, because it
296 parses all libraries starting with ``a``.
297 """
298 if isinstance(self._name, ImportName) and fast:
299 return ''
300 doc = self._get_docstring()
301 if raw:
302 return doc
303
304 signature_text = self._get_docstring_signature()
305 if signature_text and doc:
306 return signature_text + '\n\n' + doc
307 else:
308 return signature_text + doc
309
310 def _get_docstring(self):
311 return self._name.py__doc__()
312
313 def _get_docstring_signature(self):
314 return '\n'.join(
315 signature.to_string()
316 for signature in self._get_signatures(for_docstring=True)
317 )
318
319 @property
320 def description(self):
321 """
322 A description of the :class:`.Name` object, which is heavily used
323 in testing. e.g. for ``isinstance`` it returns ``def isinstance``.
324
325 Example:
326
327 >>> from jedi import Script
328 >>> source = '''
329 ... def f():
330 ... pass
331 ...
332 ... class C:
333 ... pass
334 ...
335 ... variable = f if random.choice([0,1]) else C'''
336 >>> script = Script(source) # line is maximum by default
337 >>> defs = script.infer(column=3)
338 >>> defs = sorted(defs, key=lambda d: d.line)
339 >>> print(defs) # doctest: +NORMALIZE_WHITESPACE
340 [<Name full_name='__main__.f', description='def f'>,
341 <Name full_name='__main__.C', description='class C'>]
342 >>> str(defs[0].description)
343 'def f'
344 >>> str(defs[1].description)
345 'class C'
346
347 """
348 typ = self.type
349 tree_name = self._name.tree_name
350 if typ == 'param':
351 return typ + ' ' + self._name.to_string()
352 if typ in ('function', 'class', 'module', 'instance') or tree_name is None:
353 if typ == 'function':
354 # For the description we want a short and a pythonic way.
355 typ = 'def'
356 return typ + ' ' + self._name.get_public_name()
357
358 definition = tree_name.get_definition(include_setitem=True) or tree_name
359 # Remove the prefix, because that's not what we want for get_code
360 # here.
361 txt = definition.get_code(include_prefix=False)
362 # Delete comments:
363 txt = re.sub(r'#[^\n]+\n', ' ', txt)
364 # Delete multi spaces/newlines
365 txt = re.sub(r'\s+', ' ', txt).strip()
366 return txt
367
368 @property
369 def full_name(self):
370 """
371 Dot-separated path of this object.
372
373 It is in the form of ``<module>[.<submodule>[...]][.<object>]``.
374 It is useful when you want to look up Python manual of the
375 object at hand.
376
377 Example:
378
379 >>> from jedi import Script
380 >>> source = '''
381 ... import os
382 ... os.path.join'''
383 >>> script = Script(source, path='example.py')
384 >>> print(script.infer(3, len('os.path.join'))[0].full_name)
385 os.path.join
386
387 Notice that it returns ``'os.path.join'`` instead of (for example)
388 ``'posixpath.join'``. This is not correct, since the modules name would
389 be ``<module 'posixpath' ...>```. However most users find the latter
390 more practical.
391 """
392 if not self._name.is_value_name:
393 return None
394
395 names = self._name.get_qualified_names(include_module_names=True)
396 if names is None:
397 return None
398
399 names = list(names)
400 try:
401 names[0] = self._mapping[names[0]]
402 except KeyError:
403 pass
404
405 return '.'.join(names)
406
407 def is_stub(self):
408 """
409 Returns True if the current name is defined in a stub file.
410 """
411 if not self._name.is_value_name:
412 return False
413
414 return self._name.get_root_context().is_stub()
415
416 def is_side_effect(self):
417 """
418 Checks if a name is defined as ``self.foo = 3``. In case of self, this
419 function would return False, for foo it would return True.
420 """
421 tree_name = self._name.tree_name
422 if tree_name is None:
423 return False
424 return tree_name.is_definition() and tree_name.parent.type == 'trailer'
425
426 @debug.increase_indent_cm('goto on name')
427 def goto(self, *, follow_imports=False, follow_builtin_imports=False,
428 only_stubs=False, prefer_stubs=False):
429
430 """
431 Like :meth:`.Script.goto` (also supports the same params), but does it
432 for the current name. This is typically useful if you are using
433 something like :meth:`.Script.get_names()`.
434
435 :param follow_imports: The goto call will follow imports.
436 :param follow_builtin_imports: If follow_imports is True will try to
437 look up names in builtins (i.e. compiled or extension modules).
438 :param only_stubs: Only return stubs for this goto call.
439 :param prefer_stubs: Prefer stubs to Python objects for this goto call.
440 :rtype: list of :class:`Name`
441 """
442 if not self._name.is_value_name:
443 return []
444
445 names = self._name.goto()
446 if follow_imports:
447 names = filter_follow_imports(names, follow_builtin_imports)
448 names = convert_names(
449 names,
450 only_stubs=only_stubs,
451 prefer_stubs=prefer_stubs,
452 )
453 return [self if n == self._name else Name(self._inference_state, n)
454 for n in names]
455
456 @debug.increase_indent_cm('infer on name')
457 def infer(self, *, only_stubs=False, prefer_stubs=False):
458 """
459 Like :meth:`.Script.infer`, it can be useful to understand which type
460 the current name has.
461
462 Return the actual definitions. I strongly recommend not using it for
463 your completions, because it might slow down |jedi|. If you want to
464 read only a few objects (<=20), it might be useful, especially to get
465 the original docstrings. The basic problem of this function is that it
466 follows all results. This means with 1000 completions (e.g. numpy),
467 it's just very, very slow.
468
469 :param only_stubs: Only return stubs for this goto call.
470 :param prefer_stubs: Prefer stubs to Python objects for this type
471 inference call.
472 :rtype: list of :class:`Name`
473 """
474 assert not (only_stubs and prefer_stubs)
475
476 if not self._name.is_value_name:
477 return []
478
479 # First we need to make sure that we have stub names (if possible) that
480 # we can follow. If we don't do that, we can end up with the inferred
481 # results of Python objects instead of stubs.
482 names = convert_names([self._name], prefer_stubs=True)
483 values = convert_values(
484 ValueSet.from_sets(n.infer() for n in names),
485 only_stubs=only_stubs,
486 prefer_stubs=prefer_stubs,
487 )
488 resulting_names = [c.name for c in values]
489 return [self if n == self._name else Name(self._inference_state, n)
490 for n in resulting_names]
491
492 def parent(self):
493 """
494 Returns the parent scope of this identifier.
495
496 :rtype: Name
497 """
498 if not self._name.is_value_name:
499 return None
500
501 if self.type in ('function', 'class', 'param') and self._name.tree_name is not None:
502 # Since the parent_context doesn't really match what the user
503 # thinks of that the parent is here, we do these cases separately.
504 # The reason for this is the following:
505 # - class: Nested classes parent_context is always the
506 # parent_context of the most outer one.
507 # - function: Functions in classes have the module as
508 # parent_context.
509 # - param: The parent_context of a param is not its function but
510 # e.g. the outer class or module.
511 cls_or_func_node = self._name.tree_name.get_definition()
512 parent = search_ancestor(cls_or_func_node, 'funcdef', 'classdef', 'file_input')
513 context = self._get_module_context().create_value(parent).as_context()
514 else:
515 context = self._name.parent_context
516
517 if context is None:
518 return None
519 while context.name is None:
520 # Happens for comprehension contexts
521 context = context.parent_context
522
523 return Name(self._inference_state, context.name)
524
525 def __repr__(self):
526 return "<%s %sname=%r, description=%r>" % (
527 self.__class__.__name__,
528 'full_' if self.full_name else '',
529 self.full_name or self.name,
530 self.description,
531 )
532
533 def get_line_code(self, before=0, after=0):
534 """
535 Returns the line of code where this object was defined.
536
537 :param before: Add n lines before the current line to the output.
538 :param after: Add n lines after the current line to the output.
539
540 :return str: Returns the line(s) of code or an empty string if it's a
541 builtin.
542 """
543 if not self._name.is_value_name:
544 return ''
545
546 lines = self._name.get_root_context().code_lines
547 if lines is None:
548 # Probably a builtin module, just ignore in that case.
549 return ''
550
551 index = self._name.start_pos[0] - 1
552 start_index = max(index - before, 0)
553 return ''.join(lines[start_index:index + after + 1])
554
555 def _get_signatures(self, for_docstring=False):
556 if self._name.api_type == 'property':
557 return []
558 if for_docstring and self._name.api_type == 'statement' and not self.is_stub():
559 # For docstrings we don't resolve signatures if they are simple
560 # statements and not stubs. This is a speed optimization.
561 return []
562
563 if isinstance(self._name, MixedName):
564 # While this would eventually happen anyway, it's basically just a
565 # shortcut to not infer anything tree related, because it's really
566 # not necessary.
567 return self._name.infer_compiled_value().get_signatures()
568
569 names = convert_names([self._name], prefer_stubs=True)
570 return [sig for name in names for sig in name.infer().get_signatures()]
571
572 def get_signatures(self):
573 """
574 Returns all potential signatures for a function or a class. Multiple
575 signatures are typical if you use Python stubs with ``@overload``.
576
577 :rtype: list of :class:`BaseSignature`
578 """
579 return [
580 BaseSignature(self._inference_state, s)
581 for s in self._get_signatures()
582 ]
583
584 def execute(self):
585 """
586 Uses type inference to "execute" this identifier and returns the
587 executed objects.
588
589 :rtype: list of :class:`Name`
590 """
591 return _values_to_definitions(self._name.infer().execute_with_values())
592
593 def get_type_hint(self):
594 """
595 Returns type hints like ``Iterable[int]`` or ``Union[int, str]``.
596
597 This method might be quite slow, especially for functions. The problem
598 is finding executions for those functions to return something like
599 ``Callable[[int, str], str]``.
600
601 :rtype: str
602 """
603 return self._name.infer().get_type_hint()
604
605
606class Completion(BaseName):
607 """
608 ``Completion`` objects are returned from :meth:`.Script.complete`. They
609 provide additional information about a completion.
610 """
611 def __init__(self, inference_state, name, stack, like_name_length,
612 is_fuzzy, cached_name=None):
613 super().__init__(inference_state, name)
614
615 self._like_name_length = like_name_length
616 self._stack = stack
617 self._is_fuzzy = is_fuzzy
618 self._cached_name = cached_name
619
620 # Completion objects with the same Completion name (which means
621 # duplicate items in the completion)
622 self._same_name_completions = []
623
624 def _complete(self, like_name):
625 append = ''
626 if settings.add_bracket_after_function \
627 and self.type == 'function':
628 append = '('
629
630 name = self._name.get_public_name()
631 if like_name:
632 name = name[self._like_name_length:]
633 return name + append
634
635 @property
636 def complete(self):
637 """
638 Only works with non-fuzzy completions. Returns None if fuzzy
639 completions are used.
640
641 Return the rest of the word, e.g. completing ``isinstance``::
642
643 isinstan# <-- Cursor is here
644
645 would return the string 'ce'. It also adds additional stuff, depending
646 on your ``settings.py``.
647
648 Assuming the following function definition::
649
650 def foo(param=0):
651 pass
652
653 completing ``foo(par`` would give a ``Completion`` which ``complete``
654 would be ``am=``.
655 """
656 if self._is_fuzzy:
657 return None
658 return self._complete(True)
659
660 @property
661 def name_with_symbols(self):
662 """
663 Similar to :attr:`.name`, but like :attr:`.name` returns also the
664 symbols, for example assuming the following function definition::
665
666 def foo(param=0):
667 pass
668
669 completing ``foo(`` would give a ``Completion`` which
670 ``name_with_symbols`` would be "param=".
671
672 """
673 return self._complete(False)
674
675 def docstring(self, raw=False, fast=True):
676 """
677 Documented under :meth:`BaseName.docstring`.
678 """
679 if self._like_name_length >= 3:
680 # In this case we can just resolve the like name, because we
681 # wouldn't load like > 100 Python modules anymore.
682 fast = False
683
684 return super().docstring(raw=raw, fast=fast)
685
686 def _get_docstring(self):
687 if self._cached_name is not None:
688 return completion_cache.get_docstring(
689 self._cached_name,
690 self._name.get_public_name(),
691 lambda: self._get_cache()
692 )
693 return super()._get_docstring()
694
695 def _get_docstring_signature(self):
696 if self._cached_name is not None:
697 return completion_cache.get_docstring_signature(
698 self._cached_name,
699 self._name.get_public_name(),
700 lambda: self._get_cache()
701 )
702 return super()._get_docstring_signature()
703
704 def _get_cache(self):
705 return (
706 super().type,
707 super()._get_docstring_signature(),
708 super()._get_docstring(),
709 )
710
711 @property
712 def type(self):
713 """
714 Documented under :meth:`BaseName.type`.
715 """
716 # Purely a speed optimization.
717 if self._cached_name is not None:
718 return completion_cache.get_type(
719 self._cached_name,
720 self._name.get_public_name(),
721 lambda: self._get_cache()
722 )
723
724 return super().type
725
726 def get_completion_prefix_length(self):
727 """
728 Returns the length of the prefix being completed.
729 For example, completing ``isinstance``::
730
731 isinstan# <-- Cursor is here
732
733 would return 8, because len('isinstan') == 8.
734
735 Assuming the following function definition::
736
737 def foo(param=0):
738 pass
739
740 completing ``foo(par`` would return 3.
741 """
742 return self._like_name_length
743
744 def __repr__(self):
745 return '<%s: %s>' % (type(self).__name__, self._name.get_public_name())
746
747
748class Name(BaseName):
749 """
750 *Name* objects are returned from many different APIs including
751 :meth:`.Script.goto` or :meth:`.Script.infer`.
752 """
753 def __init__(self, inference_state, definition):
754 super().__init__(inference_state, definition)
755
756 @memoize_method
757 def defined_names(self):
758 """
759 List sub-definitions (e.g., methods in class).
760
761 :rtype: list of :class:`Name`
762 """
763 defs = self._name.infer()
764 return sorted(
765 unite(defined_names(self._inference_state, d) for d in defs),
766 key=lambda s: s._name.start_pos or (0, 0)
767 )
768
769 def is_definition(self):
770 """
771 Returns True, if defined as a name in a statement, function or class.
772 Returns False, if it's a reference to such a definition.
773 """
774 if self._name.tree_name is None:
775 return True
776 else:
777 return self._name.tree_name.is_definition()
778
779 def __eq__(self, other):
780 return self._name.start_pos == other._name.start_pos \
781 and self.module_path == other.module_path \
782 and self.name == other.name \
783 and self._inference_state == other._inference_state
784
785 def __ne__(self, other):
786 return not self.__eq__(other)
787
788 def __hash__(self):
789 return hash((self._name.start_pos, self.module_path, self.name, self._inference_state))
790
791
792class BaseSignature(Name):
793 """
794 These signatures are returned by :meth:`BaseName.get_signatures`
795 calls.
796 """
797 def __init__(self, inference_state, signature):
798 super().__init__(inference_state, signature.name)
799 self._signature = signature
800
801 @property
802 def params(self):
803 """
804 Returns definitions for all parameters that a signature defines.
805 This includes stuff like ``*args`` and ``**kwargs``.
806
807 :rtype: list of :class:`.ParamName`
808 """
809 return [ParamName(self._inference_state, n)
810 for n in self._signature.get_param_names(resolve_stars=True)]
811
812 def to_string(self):
813 """
814 Returns a text representation of the signature. This could for example
815 look like ``foo(bar, baz: int, **kwargs)``.
816
817 :rtype: str
818 """
819 return self._signature.to_string()
820
821
822class Signature(BaseSignature):
823 """
824 A full signature object is the return value of
825 :meth:`.Script.get_signatures`.
826 """
827 def __init__(self, inference_state, signature, call_details):
828 super().__init__(inference_state, signature)
829 self._call_details = call_details
830 self._signature = signature
831
832 @property
833 def index(self):
834 """
835 Returns the param index of the current cursor position.
836 Returns None if the index cannot be found in the curent call.
837
838 :rtype: int
839 """
840 return self._call_details.calculate_index(
841 self._signature.get_param_names(resolve_stars=True)
842 )
843
844 @property
845 def bracket_start(self):
846 """
847 Returns a line/column tuple of the bracket that is responsible for the
848 last function call. The first line is 1 and the first column 0.
849
850 :rtype: int, int
851 """
852 return self._call_details.bracket_leaf.start_pos
853
854 def __repr__(self):
855 return '<%s: index=%r %s>' % (
856 type(self).__name__,
857 self.index,
858 self._signature.to_string(),
859 )
860
861
862class ParamName(Name):
863 def infer_default(self):
864 """
865 Returns default values like the ``1`` of ``def foo(x=1):``.
866
867 :rtype: list of :class:`.Name`
868 """
869 return _values_to_definitions(self._name.infer_default())
870
871 def infer_annotation(self, **kwargs):
872 """
873 :param execute_annotation: Default True; If False, values are not
874 executed and classes are returned instead of instances.
875 :rtype: list of :class:`.Name`
876 """
877 return _values_to_definitions(self._name.infer_annotation(ignore_stars=True, **kwargs))
878
879 def to_string(self):
880 """
881 Returns a simple representation of a param, like
882 ``f: Callable[..., Any]``.
883
884 :rtype: str
885 """
886 return self._name.to_string()
887
888 @property
889 def kind(self):
890 """
891 Returns an enum instance of :mod:`inspect`'s ``Parameter`` enum.
892
893 :rtype: :py:attr:`inspect.Parameter.kind`
894 """
895 return self._name.get_kind()