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1"""
2:mod:`jedi.inference.imports` is here to resolve import statements and return
3the modules/classes/functions/whatever, which they stand for. However there's
4not any actual importing done. This module is about finding modules in the
5filesystem. This can be quite tricky sometimes, because Python imports are not
6always that simple.
7
8This module also supports import autocompletion, which means to complete
9statements like ``from datetim`` (cursor at the end would return ``datetime``).
10"""
11import os
12from pathlib import Path
13
14from parso.python import tree
15from parso.tree import search_ancestor
16
17from jedi import debug
18from jedi import settings
19from jedi.file_io import FolderIO
20from jedi.parser_utils import get_cached_code_lines
21from jedi.inference import sys_path
22from jedi.inference import helpers
23from jedi.inference import compiled
24from jedi.inference import analysis
25from jedi.inference.utils import unite
26from jedi.inference.cache import inference_state_method_cache
27from jedi.inference.names import ImportName, SubModuleName
28from jedi.inference.base_value import ValueSet, NO_VALUES
29from jedi.inference.gradual.typeshed import import_module_decorator, \
30 create_stub_module, parse_stub_module
31from jedi.inference.compiled.subprocess.functions import ImplicitNSInfo
32from jedi.plugins import plugin_manager
33
34
35class ModuleCache:
36 def __init__(self):
37 self._name_cache = {}
38
39 def add(self, string_names, value_set):
40 if string_names is not None:
41 self._name_cache[string_names] = value_set
42
43 def get(self, string_names):
44 return self._name_cache.get(string_names)
45
46
47# This memoization is needed, because otherwise we will infinitely loop on
48# certain imports.
49@inference_state_method_cache(default=NO_VALUES)
50def infer_import(context, tree_name):
51 module_context = context.get_root_context()
52 from_import_name, import_path, level, values = \
53 _prepare_infer_import(module_context, tree_name)
54 if values:
55
56 if from_import_name is not None:
57 values = values.py__getattribute__(
58 from_import_name,
59 name_context=context,
60 analysis_errors=False
61 )
62
63 if not values:
64 path = import_path + (from_import_name,)
65 importer = Importer(context.inference_state, path, module_context, level)
66 values = importer.follow()
67 debug.dbg('after import: %s', values)
68 return values
69
70
71@inference_state_method_cache(default=[])
72def goto_import(context, tree_name):
73 module_context = context.get_root_context()
74 from_import_name, import_path, level, values = \
75 _prepare_infer_import(module_context, tree_name)
76 if not values:
77 return []
78
79 if from_import_name is not None:
80 names = unite([
81 c.goto(
82 from_import_name,
83 name_context=context,
84 analysis_errors=False
85 ) for c in values
86 ])
87 # Avoid recursion on the same names.
88 if names and not any(n.tree_name is tree_name for n in names):
89 return names
90
91 path = import_path + (from_import_name,)
92 importer = Importer(context.inference_state, path, module_context, level)
93 values = importer.follow()
94 return set(s.name for s in values)
95
96
97def _prepare_infer_import(module_context, tree_name):
98 import_node = search_ancestor(tree_name, 'import_name', 'import_from')
99 import_path = import_node.get_path_for_name(tree_name)
100 from_import_name = None
101 try:
102 from_names = import_node.get_from_names()
103 except AttributeError:
104 # Is an import_name
105 pass
106 else:
107 if len(from_names) + 1 == len(import_path):
108 # We have to fetch the from_names part first and then check
109 # if from_names exists in the modules.
110 from_import_name = import_path[-1]
111 import_path = from_names
112
113 importer = Importer(module_context.inference_state, tuple(import_path),
114 module_context, import_node.level)
115
116 return from_import_name, tuple(import_path), import_node.level, importer.follow()
117
118
119def _add_error(value, name, message):
120 if hasattr(name, 'parent') and value is not None:
121 analysis.add(value, 'import-error', name, message)
122 else:
123 debug.warning('ImportError without origin: ' + message)
124
125
126def _level_to_base_import_path(project_path, directory, level):
127 """
128 In case the level is outside of the currently known package (something like
129 import .....foo), we can still try our best to help the user for
130 completions.
131 """
132 for i in range(level - 1):
133 old = directory
134 directory = os.path.dirname(directory)
135 if old == directory:
136 return None, None
137
138 d = directory
139 level_import_paths = []
140 # Now that we are on the level that the user wants to be, calculate the
141 # import path for it.
142 while True:
143 if d == project_path:
144 return level_import_paths, d
145 dir_name = os.path.basename(d)
146 if dir_name:
147 level_import_paths.insert(0, dir_name)
148 d = os.path.dirname(d)
149 else:
150 return None, directory
151
152
153class Importer:
154 def __init__(self, inference_state, import_path, module_context, level=0):
155 """
156 An implementation similar to ``__import__``. Use `follow`
157 to actually follow the imports.
158
159 *level* specifies whether to use absolute or relative imports. 0 (the
160 default) means only perform absolute imports. Positive values for level
161 indicate the number of parent directories to search relative to the
162 directory of the module calling ``__import__()`` (see PEP 328 for the
163 details).
164
165 :param import_path: List of namespaces (strings or Names).
166 """
167 debug.speed('import %s %s' % (import_path, module_context))
168 self._inference_state = inference_state
169 self.level = level
170 self._module_context = module_context
171
172 self._fixed_sys_path = None
173 self._infer_possible = True
174 if level:
175 base = module_context.get_value().py__package__()
176 # We need to care for two cases, the first one is if it's a valid
177 # Python import. This import has a properly defined module name
178 # chain like `foo.bar.baz` and an import in baz is made for
179 # `..lala.` It can then resolve to `foo.bar.lala`.
180 # The else here is a heuristic for all other cases, if for example
181 # in `foo` you search for `...bar`, it's obviously out of scope.
182 # However since Jedi tries to just do it's best, we help the user
183 # here, because he might have specified something wrong in his
184 # project.
185 if level <= len(base):
186 # Here we basically rewrite the level to 0.
187 base = tuple(base)
188 if level > 1:
189 base = base[:-level + 1]
190 import_path = base + tuple(import_path)
191 else:
192 path = module_context.py__file__()
193 project_path = self._inference_state.project.path
194 import_path = list(import_path)
195 if path is None:
196 # If no path is defined, our best guess is that the current
197 # file is edited by a user on the current working
198 # directory. We need to add an initial path, because it
199 # will get removed as the name of the current file.
200 directory = project_path
201 else:
202 directory = os.path.dirname(path)
203
204 base_import_path, base_directory = _level_to_base_import_path(
205 project_path, directory, level,
206 )
207 if base_directory is None:
208 # Everything is lost, the relative import does point
209 # somewhere out of the filesystem.
210 self._infer_possible = False
211 else:
212 self._fixed_sys_path = [base_directory]
213
214 if base_import_path is None:
215 if import_path:
216 _add_error(
217 module_context, import_path[0],
218 message='Attempted relative import beyond top-level package.'
219 )
220 else:
221 import_path = base_import_path + import_path
222 self.import_path = import_path
223
224 @property
225 def _str_import_path(self):
226 """Returns the import path as pure strings instead of `Name`."""
227 return tuple(
228 name.value if isinstance(name, tree.Name) else name
229 for name in self.import_path
230 )
231
232 def _sys_path_with_modifications(self, is_completion):
233 if self._fixed_sys_path is not None:
234 return self._fixed_sys_path
235
236 return (
237 # For import completions we don't want to see init paths, but for
238 # inference we want to show the user as much as possible.
239 # See GH #1446.
240 self._inference_state.get_sys_path(add_init_paths=not is_completion)
241 + [
242 str(p) for p
243 in sys_path.check_sys_path_modifications(self._module_context)
244 ]
245 )
246
247 def follow(self):
248 if not self.import_path:
249 if self._fixed_sys_path:
250 # This is a bit of a special case, that maybe should be
251 # revisited. If the project path is wrong or the user uses
252 # relative imports the wrong way, we might end up here, where
253 # the `fixed_sys_path == project.path` in that case we kind of
254 # use the project.path.parent directory as our path. This is
255 # usually not a problem, except if imports in other places are
256 # using the same names. Example:
257 #
258 # foo/ < #1
259 # - setup.py
260 # - foo/ < #2
261 # - __init__.py
262 # - foo.py < #3
263 #
264 # If the top foo is our project folder and somebody uses
265 # `from . import foo` in `setup.py`, it will resolve to foo #2,
266 # which means that the import for foo.foo is cached as
267 # `__init__.py` (#2) and not as `foo.py` (#3). This is usually
268 # not an issue, because this case is probably pretty rare, but
269 # might be an issue for some people.
270 #
271 # However for most normal cases where we work with different
272 # file names, this code path hits where we basically change the
273 # project path to an ancestor of project path.
274 from jedi.inference.value.namespace import ImplicitNamespaceValue
275 import_path = (os.path.basename(self._fixed_sys_path[0]),)
276 ns = ImplicitNamespaceValue(
277 self._inference_state,
278 string_names=import_path,
279 paths=self._fixed_sys_path,
280 )
281 return ValueSet({ns})
282 return NO_VALUES
283 if not self._infer_possible:
284 return NO_VALUES
285
286 # Check caches first
287 from_cache = self._inference_state.stub_module_cache.get(self._str_import_path)
288 if from_cache is not None:
289 return ValueSet({from_cache})
290 from_cache = self._inference_state.module_cache.get(self._str_import_path)
291 if from_cache is not None:
292 return from_cache
293
294 sys_path = self._sys_path_with_modifications(is_completion=False)
295
296 return import_module_by_names(
297 self._inference_state, self.import_path, sys_path, self._module_context
298 )
299
300 def _get_module_names(self, search_path=None, in_module=None):
301 """
302 Get the names of all modules in the search_path. This means file names
303 and not names defined in the files.
304 """
305 if search_path is None:
306 sys_path = self._sys_path_with_modifications(is_completion=True)
307 else:
308 sys_path = search_path
309 return list(iter_module_names(
310 self._inference_state, self._module_context, sys_path,
311 module_cls=ImportName if in_module is None else SubModuleName,
312 add_builtin_modules=search_path is None and in_module is None,
313 ))
314
315 def completion_names(self, inference_state, only_modules=False):
316 """
317 :param only_modules: Indicates wheter it's possible to import a
318 definition that is not defined in a module.
319 """
320 if not self._infer_possible:
321 return []
322
323 names = []
324 if self.import_path:
325 # flask
326 if self._str_import_path == ('flask', 'ext'):
327 # List Flask extensions like ``flask_foo``
328 for mod in self._get_module_names():
329 modname = mod.string_name
330 if modname.startswith('flask_'):
331 extname = modname[len('flask_'):]
332 names.append(ImportName(self._module_context, extname))
333 # Now the old style: ``flaskext.foo``
334 for dir in self._sys_path_with_modifications(is_completion=True):
335 flaskext = os.path.join(dir, 'flaskext')
336 if os.path.isdir(flaskext):
337 names += self._get_module_names([flaskext])
338
339 values = self.follow()
340 for value in values:
341 # Non-modules are not completable.
342 if value.api_type not in ('module', 'namespace'): # not a module
343 continue
344 if not value.is_compiled():
345 # sub_modules_dict is not implemented for compiled modules.
346 names += value.sub_modules_dict().values()
347
348 if not only_modules:
349 from jedi.inference.gradual.conversion import convert_values
350
351 both_values = values | convert_values(values)
352 for c in both_values:
353 for filter in c.get_filters():
354 names += filter.values()
355 else:
356 if self.level:
357 # We only get here if the level cannot be properly calculated.
358 names += self._get_module_names(self._fixed_sys_path)
359 else:
360 # This is just the list of global imports.
361 names += self._get_module_names()
362 return names
363
364
365def import_module_by_names(inference_state, import_names, sys_path=None,
366 module_context=None, prefer_stubs=True):
367 if sys_path is None:
368 sys_path = inference_state.get_sys_path()
369
370 str_import_names = tuple(
371 i.value if isinstance(i, tree.Name) else i
372 for i in import_names
373 )
374 value_set = [None]
375 for i, name in enumerate(import_names):
376 value_set = ValueSet.from_sets([
377 import_module(
378 inference_state,
379 str_import_names[:i+1],
380 parent_module_value,
381 sys_path,
382 prefer_stubs=prefer_stubs,
383 ) for parent_module_value in value_set
384 ])
385 if not value_set:
386 message = 'No module named ' + '.'.join(str_import_names)
387 if module_context is not None:
388 _add_error(module_context, name, message)
389 else:
390 debug.warning(message)
391 return NO_VALUES
392 return value_set
393
394
395@plugin_manager.decorate()
396@import_module_decorator
397def import_module(inference_state, import_names, parent_module_value, sys_path):
398 """
399 This method is very similar to importlib's `_gcd_import`.
400 """
401 if import_names[0] in settings.auto_import_modules:
402 module = _load_builtin_module(inference_state, import_names, sys_path)
403 if module is None:
404 return NO_VALUES
405 return ValueSet([module])
406
407 module_name = '.'.join(import_names)
408 if parent_module_value is None:
409 # Override the sys.path. It works only good that way.
410 # Injecting the path directly into `find_module` did not work.
411 file_io_or_ns, is_pkg = inference_state.compiled_subprocess.get_module_info(
412 string=import_names[-1],
413 full_name=module_name,
414 sys_path=sys_path,
415 is_global_search=True,
416 )
417 if is_pkg is None:
418 return NO_VALUES
419 else:
420 paths = parent_module_value.py__path__()
421 if paths is None:
422 # The module might not be a package.
423 return NO_VALUES
424
425 file_io_or_ns, is_pkg = inference_state.compiled_subprocess.get_module_info(
426 string=import_names[-1],
427 path=paths,
428 full_name=module_name,
429 is_global_search=False,
430 )
431 if is_pkg is None:
432 return NO_VALUES
433
434 if isinstance(file_io_or_ns, ImplicitNSInfo):
435 from jedi.inference.value.namespace import ImplicitNamespaceValue
436 module = ImplicitNamespaceValue(
437 inference_state,
438 string_names=tuple(file_io_or_ns.name.split('.')),
439 paths=file_io_or_ns.paths,
440 )
441 elif file_io_or_ns is None:
442 module = _load_builtin_module(inference_state, import_names, sys_path)
443 if module is None:
444 return NO_VALUES
445 else:
446 module = _load_python_module(
447 inference_state, file_io_or_ns,
448 import_names=import_names,
449 is_package=is_pkg,
450 )
451
452 if parent_module_value is None:
453 debug.dbg('global search_module %s: %s', import_names[-1], module)
454 else:
455 debug.dbg('search_module %s in paths %s: %s', module_name, paths, module)
456 return ValueSet([module])
457
458
459def _load_python_module(inference_state, file_io,
460 import_names=None, is_package=False):
461 module_node = inference_state.parse(
462 file_io=file_io,
463 cache=True,
464 diff_cache=settings.fast_parser,
465 cache_path=settings.cache_directory,
466 )
467
468 from jedi.inference.value import ModuleValue
469 return ModuleValue(
470 inference_state, module_node,
471 file_io=file_io,
472 string_names=import_names,
473 code_lines=get_cached_code_lines(inference_state.grammar, file_io.path),
474 is_package=is_package,
475 )
476
477
478def _load_builtin_module(inference_state, import_names=None, sys_path=None):
479 project = inference_state.project
480 if sys_path is None:
481 sys_path = inference_state.get_sys_path()
482 if not project._load_unsafe_extensions:
483 safe_paths = project._get_base_sys_path(inference_state)
484 sys_path = [p for p in sys_path if p in safe_paths]
485
486 dotted_name = '.'.join(import_names)
487 assert dotted_name is not None
488 module = compiled.load_module(inference_state, dotted_name=dotted_name, sys_path=sys_path)
489 if module is None:
490 # The file might raise an ImportError e.g. and therefore not be
491 # importable.
492 return None
493 return module
494
495
496def load_module_from_path(inference_state, file_io, import_names=None, is_package=None):
497 """
498 This should pretty much only be used for get_modules_containing_name. It's
499 here to ensure that a random path is still properly loaded into the Jedi
500 module structure.
501 """
502 path = Path(file_io.path)
503 if import_names is None:
504 e_sys_path = inference_state.get_sys_path()
505 import_names, is_package = sys_path.transform_path_to_dotted(e_sys_path, path)
506 else:
507 assert isinstance(is_package, bool)
508
509 is_stub = path.suffix == '.pyi'
510 if is_stub:
511 folder_io = file_io.get_parent_folder()
512 if folder_io.path.endswith('-stubs'):
513 folder_io = FolderIO(folder_io.path[:-6])
514 if path.name == '__init__.pyi':
515 python_file_io = folder_io.get_file_io('__init__.py')
516 else:
517 python_file_io = folder_io.get_file_io(import_names[-1] + '.py')
518
519 try:
520 v = load_module_from_path(
521 inference_state, python_file_io,
522 import_names, is_package=is_package
523 )
524 values = ValueSet([v])
525 except FileNotFoundError:
526 values = NO_VALUES
527
528 return create_stub_module(
529 inference_state, inference_state.latest_grammar, values,
530 parse_stub_module(inference_state, file_io), file_io, import_names
531 )
532 else:
533 module = _load_python_module(
534 inference_state, file_io,
535 import_names=import_names,
536 is_package=is_package,
537 )
538 inference_state.module_cache.add(import_names, ValueSet([module]))
539 return module
540
541
542def load_namespace_from_path(inference_state, folder_io):
543 import_names, is_package = sys_path.transform_path_to_dotted(
544 inference_state.get_sys_path(),
545 Path(folder_io.path)
546 )
547 from jedi.inference.value.namespace import ImplicitNamespaceValue
548 return ImplicitNamespaceValue(inference_state, import_names, [folder_io.path])
549
550
551def follow_error_node_imports_if_possible(context, name):
552 error_node = tree.search_ancestor(name, 'error_node')
553 if error_node is not None:
554 # Get the first command start of a started simple_stmt. The error
555 # node is sometimes a small_stmt and sometimes a simple_stmt. Check
556 # for ; leaves that start a new statements.
557 start_index = 0
558 for index, n in enumerate(error_node.children):
559 if n.start_pos > name.start_pos:
560 break
561 if n == ';':
562 start_index = index + 1
563 nodes = error_node.children[start_index:]
564 first_name = nodes[0].get_first_leaf().value
565
566 # Make it possible to infer stuff like `import foo.` or
567 # `from foo.bar`.
568 if first_name in ('from', 'import'):
569 is_import_from = first_name == 'from'
570 level, names = helpers.parse_dotted_names(
571 nodes,
572 is_import_from=is_import_from,
573 until_node=name,
574 )
575 return Importer(
576 context.inference_state, names, context.get_root_context(), level).follow()
577 return None
578
579
580def iter_module_names(inference_state, module_context, search_path,
581 module_cls=ImportName, add_builtin_modules=True):
582 """
583 Get the names of all modules in the search_path. This means file names
584 and not names defined in the files.
585 """
586 # add builtin module names
587 if add_builtin_modules:
588 for name in inference_state.compiled_subprocess.get_builtin_module_names():
589 yield module_cls(module_context, name)
590
591 for name in inference_state.compiled_subprocess.iter_module_names(search_path):
592 yield module_cls(module_context, name)