Buckets:
MisterAI/LocalAI_Demo_backends / cpu-diffusers.upgrade-tmp /venv /lib /python3.10 /site-packages /parso /python /tree.py
| """ | |
| This is the syntax tree for Python 3 syntaxes. The classes represent | |
| syntax elements like functions and imports. | |
| All of the nodes can be traced back to the `Python grammar file | |
| <https://docs.python.org/3/reference/grammar.html>`_. If you want to know how | |
| a tree is structured, just analyse that file (for each Python version it's a | |
| bit different). | |
| There's a lot of logic here that makes it easier for Jedi (and other libraries) | |
| to deal with a Python syntax tree. | |
| By using :py:meth:`parso.tree.NodeOrLeaf.get_code` on a module, you can get | |
| back the 1-to-1 representation of the input given to the parser. This is | |
| important if you want to refactor a parser tree. | |
| from parso import parse | |
| parser = parse('import os') | |
| module = parser.get_root_node() | |
| module | |
| <Module: @1-1> | |
| Any subclasses of :class:`Scope`, including :class:`Module` has an attribute | |
| :attr:`iter_imports <Scope.iter_imports>`: | |
| list(module.iter_imports()) | |
| [<ImportName: import os@1,0>] | |
| Changes to the Python Grammar | |
| ----------------------------- | |
| A few things have changed when looking at Python grammar files: | |
| - :class:`Param` does not exist in Python grammar files. It is essentially a | |
| part of a ``parameters`` node. |parso| splits it up to make it easier to | |
| analyse parameters. However this just makes it easier to deal with the syntax | |
| tree, it doesn't actually change the valid syntax. | |
| - A few nodes like `lambdef` and `lambdef_nocond` have been merged in the | |
| syntax tree to make it easier to do deal with them. | |
| Parser Tree Classes | |
| ------------------- | |
| """ | |
| import re | |
| from collections.abc import Mapping | |
| from typing import Tuple, Any | |
| from parso.tree import Node, BaseNode, Leaf, ErrorNode, ErrorLeaf, search_ancestor # noqa | |
| from parso.python.prefix import split_prefix | |
| from parso.utils import split_lines | |
| _FLOW_CONTAINERS = set(['if_stmt', 'while_stmt', 'for_stmt', 'try_stmt', | |
| 'with_stmt', 'async_stmt', 'suite']) | |
| _RETURN_STMT_CONTAINERS = set(['suite', 'simple_stmt']) | _FLOW_CONTAINERS | |
| _FUNC_CONTAINERS = set( | |
| ['suite', 'simple_stmt', 'decorated', 'async_funcdef'] | |
| ) | _FLOW_CONTAINERS | |
| _GET_DEFINITION_TYPES = set([ | |
| 'expr_stmt', 'sync_comp_for', 'with_stmt', 'for_stmt', 'import_name', | |
| 'import_from', 'param', 'del_stmt', 'namedexpr_test', | |
| ]) | |
| _IMPORTS = set(['import_name', 'import_from']) | |
| class DocstringMixin: | |
| __slots__ = () | |
| type: str | |
| children: "list[Any]" | |
| parent: Any | |
| def get_doc_node(self): | |
| """ | |
| Returns the string leaf of a docstring. e.g. ``r'''foo'''``. | |
| """ | |
| if self.type == 'file_input': | |
| node = self.children[0] | |
| elif self.type in ('funcdef', 'classdef'): | |
| node = self.children[self.children.index(':') + 1] | |
| if node.type == 'suite': # Normally a suite | |
| node = node.children[1] # -> NEWLINE stmt | |
| else: # ExprStmt | |
| simple_stmt = self.parent | |
| c = simple_stmt.parent.children | |
| index = c.index(simple_stmt) | |
| if not index: | |
| return None | |
| node = c[index - 1] | |
| if node.type == 'simple_stmt': | |
| node = node.children[0] | |
| if node.type == 'string': | |
| return node | |
| return None | |
| class PythonMixin: | |
| """ | |
| Some Python specific utilities. | |
| """ | |
| __slots__ = () | |
| children: "list[Any]" | |
| def get_name_of_position(self, position): | |
| """ | |
| Given a (line, column) tuple, returns a :py:class:`Name` or ``None`` if | |
| there is no name at that position. | |
| """ | |
| for c in self.children: | |
| if isinstance(c, Leaf): | |
| if c.type == 'name' and c.start_pos <= position <= c.end_pos: | |
| return c | |
| else: | |
| result = c.get_name_of_position(position) | |
| if result is not None: | |
| return result | |
| return None | |
| class PythonLeaf(PythonMixin, Leaf): | |
| __slots__ = () | |
| def _split_prefix(self): | |
| return split_prefix(self, self.get_start_pos_of_prefix()) | |
| def get_start_pos_of_prefix(self): | |
| """ | |
| Basically calls :py:meth:`parso.tree.NodeOrLeaf.get_start_pos_of_prefix`. | |
| """ | |
| # TODO it is really ugly that we have to override it. Maybe change | |
| # indent error leafs somehow? No idea how, though. | |
| previous_leaf = self.get_previous_leaf() | |
| if previous_leaf is not None and previous_leaf.type == 'error_leaf' \ | |
| and previous_leaf.token_type in ('INDENT', 'DEDENT', 'ERROR_DEDENT'): | |
| previous_leaf = previous_leaf.get_previous_leaf() | |
| if previous_leaf is None: # It's the first leaf. | |
| lines = split_lines(self.prefix) | |
| # + 1 is needed because split_lines always returns at least ['']. | |
| return self.line - len(lines) + 1, 0 # It's the first leaf. | |
| return previous_leaf.end_pos | |
| class _LeafWithoutNewlines(PythonLeaf): | |
| """ | |
| Simply here to optimize performance. | |
| """ | |
| __slots__ = () | |
| def end_pos(self) -> Tuple[int, int]: | |
| return self.line, self.column + len(self.value) | |
| # Python base classes | |
| class PythonBaseNode(PythonMixin, BaseNode): | |
| __slots__ = () | |
| class PythonNode(PythonMixin, Node): | |
| __slots__ = () | |
| class PythonErrorNode(PythonMixin, ErrorNode): | |
| __slots__ = () | |
| class PythonErrorLeaf(ErrorLeaf, PythonLeaf): | |
| __slots__ = () | |
| class EndMarker(_LeafWithoutNewlines): | |
| __slots__ = () | |
| type = 'endmarker' | |
| def __repr__(self): | |
| return "<%s: prefix=%s end_pos=%s>" % ( | |
| type(self).__name__, repr(self.prefix), self.end_pos | |
| ) | |
| class Newline(PythonLeaf): | |
| """Contains NEWLINE and ENDMARKER tokens.""" | |
| __slots__ = () | |
| type = 'newline' | |
| def __repr__(self): | |
| return "<%s: %s>" % (type(self).__name__, repr(self.value)) | |
| class Name(_LeafWithoutNewlines): | |
| """ | |
| A string. Sometimes it is important to know if the string belongs to a name | |
| or not. | |
| """ | |
| type = 'name' | |
| __slots__ = () | |
| def __repr__(self): | |
| return "<%s: %s@%s,%s>" % (type(self).__name__, self.value, | |
| self.line, self.column) | |
| def is_definition(self, include_setitem=False): | |
| """ | |
| Returns True if the name is being defined. | |
| """ | |
| return self.get_definition(include_setitem=include_setitem) is not None | |
| def get_definition(self, import_name_always=False, include_setitem=False): | |
| """ | |
| Returns None if there's no definition for a name. | |
| :param import_name_always: Specifies if an import name is always a | |
| definition. Normally foo in `from foo import bar` is not a | |
| definition. | |
| """ | |
| node = self.parent | |
| type_ = node.type | |
| if type_ in ('funcdef', 'classdef'): | |
| if self == node.name: # type: ignore[union-attr] | |
| return node | |
| return None | |
| if type_ == 'except_clause': | |
| if self.get_previous_sibling() == 'as': | |
| return node.parent # The try_stmt. | |
| return None | |
| while node is not None: | |
| if node.type == 'suite': | |
| return None | |
| if node.type in _GET_DEFINITION_TYPES: | |
| if self in node.get_defined_names(include_setitem): # type: ignore[attr-defined] | |
| return node | |
| if import_name_always and node.type in _IMPORTS: | |
| return node | |
| return None | |
| node = node.parent | |
| return None | |
| class Literal(PythonLeaf): | |
| __slots__ = () | |
| class Number(Literal): | |
| type = 'number' | |
| __slots__ = () | |
| class String(Literal): | |
| type = 'string' | |
| __slots__ = () | |
| def string_prefix(self): | |
| return re.match(r'\w*(?=[\'"])', self.value).group(0) | |
| def _get_payload(self): | |
| match = re.search( | |
| r'''('{3}|"{3}|'|")(.*)$''', | |
| self.value, | |
| flags=re.DOTALL | |
| ) | |
| return match.group(2)[:-len(match.group(1))] | |
| class FStringString(PythonLeaf): | |
| """ | |
| f-strings contain f-string expressions and normal python strings. These are | |
| the string parts of f-strings. | |
| """ | |
| type = 'fstring_string' | |
| __slots__ = () | |
| class FStringStart(PythonLeaf): | |
| """ | |
| f-strings contain f-string expressions and normal python strings. These are | |
| the string parts of f-strings. | |
| """ | |
| type = 'fstring_start' | |
| __slots__ = () | |
| class FStringEnd(PythonLeaf): | |
| """ | |
| f-strings contain f-string expressions and normal python strings. These are | |
| the string parts of f-strings. | |
| """ | |
| type = 'fstring_end' | |
| __slots__ = () | |
| class _StringComparisonMixin: | |
| __slots__ = () | |
| value: Any | |
| def __eq__(self, other): | |
| """ | |
| Make comparisons with strings easy. | |
| Improves the readability of the parser. | |
| """ | |
| if isinstance(other, str): | |
| return self.value == other | |
| return self is other | |
| def __hash__(self): | |
| return hash(self.value) | |
| class Operator(_LeafWithoutNewlines, _StringComparisonMixin): | |
| type = 'operator' | |
| __slots__ = () | |
| class Keyword(_LeafWithoutNewlines, _StringComparisonMixin): | |
| type = 'keyword' | |
| __slots__ = () | |
| class Scope(PythonBaseNode, DocstringMixin): | |
| """ | |
| Super class for the parser tree, which represents the state of a python | |
| text file. | |
| A Scope is either a function, class or lambda. | |
| """ | |
| __slots__ = () | |
| def __init__(self, children): | |
| super().__init__(children) | |
| def iter_funcdefs(self): | |
| """ | |
| Returns a generator of `funcdef` nodes. | |
| """ | |
| return self._search_in_scope('funcdef') | |
| def iter_classdefs(self): | |
| """ | |
| Returns a generator of `classdef` nodes. | |
| """ | |
| return self._search_in_scope('classdef') | |
| def iter_imports(self): | |
| """ | |
| Returns a generator of `import_name` and `import_from` nodes. | |
| """ | |
| return self._search_in_scope('import_name', 'import_from') | |
| def _search_in_scope(self, *names): | |
| def scan(children): | |
| for element in children: | |
| if element.type in names: | |
| yield element | |
| if element.type in _FUNC_CONTAINERS: | |
| yield from scan(element.children) | |
| return scan(self.children) | |
| def get_suite(self): | |
| """ | |
| Returns the part that is executed by the function. | |
| """ | |
| return self.children[-1] | |
| def __repr__(self): | |
| try: | |
| name = self.name.value # type: ignore[attr-defined] | |
| except AttributeError: | |
| name = '' | |
| return "<%s: %s@%s-%s>" % (type(self).__name__, name, | |
| self.start_pos[0], self.end_pos[0]) | |
| class Module(Scope): | |
| """ | |
| The top scope, which is always a module. | |
| Depending on the underlying parser this may be a full module or just a part | |
| of a module. | |
| """ | |
| __slots__ = ('_used_names',) | |
| type = 'file_input' | |
| def __init__(self, children): | |
| super().__init__(children) | |
| self._used_names = None | |
| def _iter_future_import_names(self): | |
| """ | |
| :return: A list of future import names. | |
| :rtype: list of str | |
| """ | |
| # In Python it's not allowed to use future imports after the first | |
| # actual (non-future) statement. However this is not a linter here, | |
| # just return all future imports. If people want to scan for issues | |
| # they should use the API. | |
| for imp in self.iter_imports(): | |
| if imp.type == 'import_from' and imp.level == 0: | |
| for path in imp.get_paths(): | |
| names = [name.value for name in path] | |
| if len(names) == 2 and names[0] == '__future__': | |
| yield names[1] | |
| def get_used_names(self): | |
| """ | |
| Returns all the :class:`Name` leafs that exist in this module. This | |
| includes both definitions and references of names. | |
| """ | |
| if self._used_names is None: | |
| # Don't directly use self._used_names to eliminate a lookup. | |
| dct = {} | |
| def recurse(node): | |
| try: | |
| children = node.children | |
| except AttributeError: | |
| if node.type == 'name': | |
| arr = dct.setdefault(node.value, []) | |
| arr.append(node) | |
| else: | |
| for child in children: | |
| recurse(child) | |
| recurse(self) | |
| self._used_names = UsedNamesMapping(dct) | |
| return self._used_names | |
| class Decorator(PythonBaseNode): | |
| type = 'decorator' | |
| __slots__ = () | |
| class ClassOrFunc(Scope): | |
| __slots__ = () | |
| def name(self): | |
| """ | |
| Returns the `Name` leaf that defines the function or class name. | |
| """ | |
| return self.children[1] | |
| def get_decorators(self): | |
| """ | |
| :rtype: list of :class:`Decorator` | |
| """ | |
| decorated = self.parent | |
| if decorated.type == 'async_funcdef': | |
| decorated = decorated.parent | |
| if decorated.type == 'decorated': | |
| if decorated.children[0].type == 'decorators': | |
| return decorated.children[0].children | |
| else: | |
| return decorated.children[:1] | |
| else: | |
| return [] | |
| class Class(ClassOrFunc): | |
| """ | |
| Used to store the parsed contents of a python class. | |
| """ | |
| type = 'classdef' | |
| __slots__ = () | |
| def __init__(self, children): | |
| super().__init__(children) | |
| def get_super_arglist(self): | |
| """ | |
| Returns the `arglist` node that defines the super classes. It returns | |
| None if there are no arguments. | |
| """ | |
| for i, child in enumerate(self.children): | |
| if child == '(': | |
| next_child = self.children[i + 1] | |
| if next_child == ')': | |
| return None | |
| return next_child | |
| return None | |
| def _create_params(parent, argslist_list): | |
| """ | |
| `argslist_list` is a list that can contain an argslist as a first item, but | |
| most not. It's basically the items between the parameter brackets (which is | |
| at most one item). | |
| This function modifies the parser structure. It generates `Param` objects | |
| from the normal ast. Those param objects do not exist in a normal ast, but | |
| make the evaluation of the ast tree so much easier. | |
| You could also say that this function replaces the argslist node with a | |
| list of Param objects. | |
| """ | |
| try: | |
| first = argslist_list[0] | |
| except IndexError: | |
| return [] | |
| if first.type in ('name', 'fpdef'): | |
| return [Param([first], parent)] | |
| elif first == '*': | |
| return [first] | |
| else: # argslist is a `typedargslist` or a `varargslist`. | |
| if first.type == 'tfpdef': | |
| children = [first] | |
| else: | |
| children = first.children | |
| new_children = [] | |
| start = 0 | |
| # Start with offset 1, because the end is higher. | |
| for end, child in enumerate(children + [None], 1): | |
| if child is None or child == ',': | |
| param_children = children[start:end] | |
| if param_children: # Could as well be comma and then end. | |
| if param_children[0] == '*' \ | |
| and (len(param_children) == 1 | |
| or param_children[1] == ',') \ | |
| or param_children[0] == '/': | |
| for p in param_children: | |
| p.parent = parent | |
| new_children += param_children | |
| else: | |
| new_children.append(Param(param_children, parent)) | |
| start = end | |
| return new_children | |
| class Function(ClassOrFunc): | |
| """ | |
| Used to store the parsed contents of a python function. | |
| Children:: | |
| 0. <Keyword: def> | |
| 1. <Name> | |
| 2. parameter list (including open-paren and close-paren <Operator>s) | |
| 3. or 5. <Operator: :> | |
| 4. or 6. Node() representing function body | |
| 3. -> (if annotation is also present) | |
| 4. annotation (if present) | |
| """ | |
| type = 'funcdef' | |
| __slots__ = () | |
| def __init__(self, children): | |
| super().__init__(children) | |
| parameters = self._find_parameters() | |
| parameters_children = parameters.children[1:-1] | |
| if not any(isinstance(child, Param) for child in parameters_children): | |
| parameters.children[1:-1] = _create_params( | |
| parameters, parameters_children | |
| ) | |
| def _find_parameters(self): | |
| for child in self.children: | |
| if child.type == 'parameters': | |
| return child | |
| raise Exception("A function should always have parameters") | |
| def _get_param_nodes(self): | |
| return self._find_parameters().children | |
| def get_params(self): | |
| """ | |
| Returns a list of `Param()`. | |
| """ | |
| return [p for p in self._get_param_nodes() if p.type == 'param'] | |
| def name(self): | |
| return self.children[1] # First token after `def` | |
| def iter_yield_exprs(self): | |
| """ | |
| Returns a generator of `yield_expr`. | |
| """ | |
| def scan(children): | |
| for element in children: | |
| if element.type in ('classdef', 'funcdef', 'lambdef'): | |
| continue | |
| try: | |
| nested_children = element.children | |
| except AttributeError: | |
| if element.value == 'yield': | |
| if element.parent.type == 'yield_expr': | |
| yield element.parent | |
| else: | |
| yield element | |
| else: | |
| yield from scan(nested_children) | |
| return scan(self.children) | |
| def iter_return_stmts(self): | |
| """ | |
| Returns a generator of `return_stmt`. | |
| """ | |
| def scan(children): | |
| for element in children: | |
| if element.type == 'return_stmt' \ | |
| or element.type == 'keyword' and element.value == 'return': | |
| yield element | |
| if element.type in _RETURN_STMT_CONTAINERS: | |
| yield from scan(element.children) | |
| return scan(self.children) | |
| def iter_raise_stmts(self): | |
| """ | |
| Returns a generator of `raise_stmt`. Includes raise statements inside try-except blocks | |
| """ | |
| def scan(children): | |
| for element in children: | |
| if element.type == 'raise_stmt' \ | |
| or element.type == 'keyword' and element.value == 'raise': | |
| yield element | |
| if element.type in _RETURN_STMT_CONTAINERS: | |
| yield from scan(element.children) | |
| return scan(self.children) | |
| def is_generator(self): | |
| """ | |
| :return bool: Checks if a function is a generator or not. | |
| """ | |
| return next(self.iter_yield_exprs(), None) is not None | |
| def annotation(self): | |
| """ | |
| Returns the test node after `->` or `None` if there is no annotation. | |
| """ | |
| for i, child in enumerate(self.children): | |
| if child == '->': | |
| return self.children[i + 1] | |
| return None | |
| class Lambda(Function): | |
| """ | |
| Lambdas are basically trimmed functions, so give it the same interface. | |
| Children:: | |
| 0. <Keyword: lambda> | |
| *. <Param x> for each argument x | |
| -2. <Operator: :> | |
| -1. Node() representing body | |
| """ | |
| type = 'lambdef' | |
| __slots__ = () | |
| def __init__(self, children): | |
| # We don't want to call the Function constructor, call its parent. | |
| super(Function, self).__init__(children) | |
| # Everything between `lambda` and the `:` operator is a parameter. | |
| parameters_children = self.children[1:-2] | |
| # If input children list already has Param objects, keep it as is; | |
| # otherwise, convert it to a list of Param objects. | |
| if not any(isinstance(child, Param) for child in parameters_children): | |
| self.children[1:-2] = _create_params(self, parameters_children) | |
| def name(self): | |
| """ | |
| Raises an AttributeError. Lambdas don't have a defined name. | |
| """ | |
| raise AttributeError("lambda is not named.") | |
| def _get_param_nodes(self): | |
| return self.children[1:-2] | |
| def annotation(self): | |
| """ | |
| Returns `None`, lambdas don't have annotations. | |
| """ | |
| return None | |
| def __repr__(self): | |
| return "<%s@%s>" % (self.__class__.__name__, self.start_pos) | |
| class Flow(PythonBaseNode): | |
| __slots__ = () | |
| class IfStmt(Flow): | |
| type = 'if_stmt' | |
| __slots__ = () | |
| def get_test_nodes(self): | |
| """ | |
| E.g. returns all the `test` nodes that are named as x, below: | |
| if x: | |
| pass | |
| elif x: | |
| pass | |
| """ | |
| for i, c in enumerate(self.children): | |
| if c in ('elif', 'if'): | |
| yield self.children[i + 1] | |
| def get_corresponding_test_node(self, node): | |
| """ | |
| Searches for the branch in which the node is and returns the | |
| corresponding test node (see function above). However if the node is in | |
| the test node itself and not in the suite return None. | |
| """ | |
| start_pos = node.start_pos | |
| for check_node in reversed(list(self.get_test_nodes())): | |
| if check_node.start_pos < start_pos: | |
| if start_pos < check_node.end_pos: | |
| return None | |
| # In this case the node is within the check_node itself, | |
| # not in the suite | |
| else: | |
| return check_node | |
| def is_node_after_else(self, node): | |
| """ | |
| Checks if a node is defined after `else`. | |
| """ | |
| for c in self.children: | |
| if c == 'else': | |
| if node.start_pos > c.start_pos: | |
| return True | |
| else: | |
| return False | |
| class WhileStmt(Flow): | |
| type = 'while_stmt' | |
| __slots__ = () | |
| class ForStmt(Flow): | |
| type = 'for_stmt' | |
| __slots__ = () | |
| def get_testlist(self): | |
| """ | |
| Returns the input node ``y`` from: ``for x in y:``. | |
| """ | |
| return self.children[3] | |
| def get_defined_names(self, include_setitem=False): | |
| return _defined_names(self.children[1], include_setitem) | |
| class TryStmt(Flow): | |
| type = 'try_stmt' | |
| __slots__ = () | |
| def get_except_clause_tests(self): | |
| """ | |
| Returns the ``test`` nodes found in ``except_clause`` nodes. | |
| Returns ``[None]`` for except clauses without an exception given. | |
| """ | |
| for node in self.children: | |
| if node.type == 'except_clause': | |
| yield node.children[1] | |
| elif node == 'except': | |
| yield None | |
| class WithStmt(Flow): | |
| type = 'with_stmt' | |
| __slots__ = () | |
| def get_defined_names(self, include_setitem=False): | |
| """ | |
| Returns the a list of `Name` that the with statement defines. The | |
| defined names are set after `as`. | |
| """ | |
| names = [] | |
| for with_item in self.children[1:-2:2]: | |
| # Check with items for 'as' names. | |
| if with_item.type == 'with_item': | |
| names += _defined_names(with_item.children[2], include_setitem) | |
| return names | |
| def get_test_node_from_name(self, name): | |
| node = name.search_ancestor("with_item") | |
| if node is None: | |
| raise ValueError('The name is not actually part of a with statement.') | |
| return node.children[0] | |
| class Import(PythonBaseNode): | |
| __slots__ = () | |
| get_paths: Any | |
| _aliases: Any | |
| def get_path_for_name(self, name): | |
| """ | |
| The path is the list of names that leads to the searched name. | |
| :return list of Name: | |
| """ | |
| try: | |
| # The name may be an alias. If it is, just map it back to the name. | |
| name = self._aliases()[name] | |
| except KeyError: | |
| pass | |
| for path in self.get_paths(): | |
| if name in path: | |
| return path[:path.index(name) + 1] | |
| raise ValueError('Name should be defined in the import itself') | |
| def is_nested(self): | |
| return False # By default, sub classes may overwrite this behavior | |
| def is_star_import(self): | |
| return self.children[-1] == '*' | |
| def get_defined_names(self): | |
| raise NotImplementedError("Use ImportFrom or ImportName") | |
| class ImportFrom(Import): | |
| type = 'import_from' | |
| __slots__ = () | |
| def get_defined_names(self, include_setitem=False): | |
| """ | |
| Returns the a list of `Name` that the import defines. The | |
| defined names are set after `import` or in case an alias - `as` - is | |
| present that name is returned. | |
| """ | |
| return [alias or name for name, alias in self._as_name_tuples()] | |
| def _aliases(self): | |
| """Mapping from alias to its corresponding name.""" | |
| return dict((alias, name) for name, alias in self._as_name_tuples() | |
| if alias is not None) | |
| def get_from_names(self): | |
| for n in self.children[1:]: | |
| if n not in ('.', '...'): | |
| break | |
| if n.type == 'dotted_name': # from x.y import | |
| return n.children[::2] | |
| elif n == 'import': # from . import | |
| return [] | |
| else: # from x import | |
| return [n] | |
| def level(self): | |
| """The level parameter of ``__import__``.""" | |
| level = 0 | |
| for n in self.children[1:]: | |
| if n in ('.', '...'): | |
| level += len(n.value) | |
| else: | |
| break | |
| return level | |
| def _as_name_tuples(self): | |
| last = self.children[-1] | |
| if last == ')': | |
| last = self.children[-2] | |
| elif last == '*': | |
| return # No names defined directly. | |
| if last.type == 'import_as_names': | |
| as_names = last.children[::2] | |
| else: | |
| as_names = [last] | |
| for as_name in as_names: | |
| if as_name.type == 'name': | |
| yield as_name, None | |
| else: | |
| yield as_name.children[::2] # yields x, y -> ``x as y`` | |
| def get_paths(self): | |
| """ | |
| The import paths defined in an import statement. Typically an array | |
| like this: ``[<Name: datetime>, <Name: date>]``. | |
| :return list of list of Name: | |
| """ | |
| dotted = self.get_from_names() | |
| if self.children[-1] == '*': | |
| return [dotted] | |
| return [dotted + [name] for name, alias in self._as_name_tuples()] | |
| class ImportName(Import): | |
| """For ``import_name`` nodes. Covers normal imports without ``from``.""" | |
| type = 'import_name' | |
| __slots__ = () | |
| def get_defined_names(self, include_setitem=False): | |
| """ | |
| Returns the a list of `Name` that the import defines. The defined names | |
| is always the first name after `import` or in case an alias - `as` - is | |
| present that name is returned. | |
| """ | |
| return [alias or path[0] for path, alias in self._dotted_as_names()] | |
| def level(self): | |
| """The level parameter of ``__import__``.""" | |
| return 0 # Obviously 0 for imports without from. | |
| def get_paths(self): | |
| return [path for path, alias in self._dotted_as_names()] | |
| def _dotted_as_names(self): | |
| """Generator of (list(path), alias) where alias may be None.""" | |
| dotted_as_names = self.children[1] | |
| if dotted_as_names.type == 'dotted_as_names': | |
| as_names = dotted_as_names.children[::2] | |
| else: | |
| as_names = [dotted_as_names] | |
| for as_name in as_names: | |
| if as_name.type == 'dotted_as_name': | |
| alias = as_name.children[2] | |
| as_name = as_name.children[0] | |
| else: | |
| alias = None | |
| if as_name.type == 'name': | |
| yield [as_name], alias | |
| else: | |
| # dotted_names | |
| yield as_name.children[::2], alias | |
| def is_nested(self): | |
| """ | |
| This checks for the special case of nested imports, without aliases and | |
| from statement:: | |
| import foo.bar | |
| """ | |
| return bool([1 for path, alias in self._dotted_as_names() | |
| if alias is None and len(path) > 1]) | |
| def _aliases(self): | |
| """ | |
| :return list of Name: Returns all the alias | |
| """ | |
| return dict((alias, path[-1]) for path, alias in self._dotted_as_names() | |
| if alias is not None) | |
| class KeywordStatement(PythonBaseNode): | |
| """ | |
| For the following statements: `assert`, `del`, `global`, `nonlocal`, | |
| `raise`, `return`, `yield`. | |
| `pass`, `continue` and `break` are not in there, because they are just | |
| simple keywords and the parser reduces it to a keyword. | |
| """ | |
| __slots__ = () | |
| def type(self): | |
| """ | |
| Keyword statements start with the keyword and end with `_stmt`. You can | |
| crosscheck this with the Python grammar. | |
| """ | |
| return '%s_stmt' % self.keyword | |
| def keyword(self): | |
| return self.children[0].value | |
| def get_defined_names(self, include_setitem=False): | |
| keyword = self.keyword | |
| if keyword == 'del': | |
| return _defined_names(self.children[1], include_setitem) | |
| if keyword in ('global', 'nonlocal'): | |
| return self.children[1::2] | |
| return [] | |
| class AssertStmt(KeywordStatement): | |
| __slots__ = () | |
| def assertion(self): | |
| return self.children[1] | |
| class GlobalStmt(KeywordStatement): | |
| __slots__ = () | |
| def get_global_names(self): | |
| return self.children[1::2] | |
| class ReturnStmt(KeywordStatement): | |
| __slots__ = () | |
| class YieldExpr(PythonBaseNode): | |
| type = 'yield_expr' | |
| __slots__ = () | |
| def _defined_names(current, include_setitem): | |
| """ | |
| A helper function to find the defined names in statements, for loops and | |
| list comprehensions. | |
| """ | |
| names = [] | |
| if current.type in ('testlist_star_expr', 'testlist_comp', 'exprlist', 'testlist'): | |
| for child in current.children[::2]: | |
| names += _defined_names(child, include_setitem) | |
| elif current.type in ('atom', 'star_expr'): | |
| names += _defined_names(current.children[1], include_setitem) | |
| elif current.type in ('power', 'atom_expr'): | |
| if current.children[-2] != '**': # Just if there's no operation | |
| trailer = current.children[-1] | |
| if trailer.children[0] == '.': | |
| names.append(trailer.children[1]) | |
| elif trailer.children[0] == '[' and include_setitem: | |
| for node in current.children[-2::-1]: | |
| if node.type == 'trailer': | |
| names.append(node.children[1]) | |
| break | |
| if node.type == 'name': | |
| names.append(node) | |
| break | |
| else: | |
| names.append(current) | |
| return names | |
| class ExprStmt(PythonBaseNode, DocstringMixin): | |
| type = 'expr_stmt' | |
| __slots__ = () | |
| def get_defined_names(self, include_setitem=False): | |
| """ | |
| Returns a list of `Name` defined before the `=` sign. | |
| """ | |
| names = [] | |
| if self.children[1].type == 'annassign': | |
| names = _defined_names(self.children[0], include_setitem) | |
| return [ | |
| name | |
| for i in range(0, len(self.children) - 2, 2) | |
| if '=' in self.children[i + 1].value | |
| for name in _defined_names(self.children[i], include_setitem) | |
| ] + names | |
| def get_rhs(self): | |
| """Returns the right-hand-side of the equals.""" | |
| node = self.children[-1] | |
| if node.type == 'annassign': | |
| if len(node.children) == 4: | |
| node = node.children[3] | |
| else: | |
| node = node.children[1] | |
| return node | |
| def yield_operators(self): | |
| """ | |
| Returns a generator of `+=`, `=`, etc. or None if there is no operation. | |
| """ | |
| first = self.children[1] | |
| if first.type == 'annassign': | |
| if len(first.children) <= 2: | |
| return # No operator is available, it's just PEP 484. | |
| first = first.children[2] | |
| yield first | |
| yield from self.children[3::2] | |
| class NamedExpr(PythonBaseNode): | |
| type = 'namedexpr_test' | |
| def get_defined_names(self, include_setitem=False): | |
| return _defined_names(self.children[0], include_setitem) | |
| class Param(PythonBaseNode): | |
| """ | |
| It's a helper class that makes business logic with params much easier. The | |
| Python grammar defines no ``param`` node. It defines it in a different way | |
| that is not really suited to working with parameters. | |
| """ | |
| type = 'param' | |
| def __init__(self, children, parent=None): | |
| super().__init__(children) | |
| self.parent = parent | |
| def star_count(self): | |
| """ | |
| Is `0` in case of `foo`, `1` in case of `*foo` or `2` in case of | |
| `**foo`. | |
| """ | |
| first = self.children[0] | |
| if first in ('*', '**'): | |
| return len(first.value) | |
| return 0 | |
| def default(self): | |
| """ | |
| The default is the test node that appears after the `=`. Is `None` in | |
| case no default is present. | |
| """ | |
| has_comma = self.children[-1] == ',' | |
| try: | |
| if self.children[-2 - int(has_comma)] == '=': | |
| return self.children[-1 - int(has_comma)] | |
| except IndexError: | |
| return None | |
| def annotation(self): | |
| """ | |
| The default is the test node that appears after `:`. Is `None` in case | |
| no annotation is present. | |
| """ | |
| tfpdef = self._tfpdef() | |
| if tfpdef.type == 'tfpdef': | |
| assert tfpdef.children[1] == ":" | |
| assert len(tfpdef.children) == 3 | |
| annotation = tfpdef.children[2] | |
| return annotation | |
| else: | |
| return None | |
| def _tfpdef(self): | |
| """ | |
| tfpdef: see e.g. grammar36.txt. | |
| """ | |
| offset = int(self.children[0] in ('*', '**')) | |
| return self.children[offset] | |
| def name(self): | |
| """ | |
| The `Name` leaf of the param. | |
| """ | |
| if self._tfpdef().type == 'tfpdef': | |
| return self._tfpdef().children[0] | |
| else: | |
| return self._tfpdef() | |
| def get_defined_names(self, include_setitem=False): | |
| return [self.name] | |
| def position_index(self): | |
| """ | |
| Property for the positional index of a paramter. | |
| """ | |
| index = self.parent.children.index(self) | |
| try: | |
| keyword_only_index = self.parent.children.index('*') | |
| if index > keyword_only_index: | |
| # Skip the ` *, ` | |
| index -= 2 | |
| except ValueError: | |
| pass | |
| try: | |
| keyword_only_index = self.parent.children.index('/') | |
| if index > keyword_only_index: | |
| # Skip the ` /, ` | |
| index -= 2 | |
| except ValueError: | |
| pass | |
| return index - 1 | |
| def get_parent_function(self): | |
| """ | |
| Returns the function/lambda of a parameter. | |
| """ | |
| return self.search_ancestor('funcdef', 'lambdef') | |
| def get_code(self, include_prefix=True, include_comma=True): | |
| """ | |
| Like all the other get_code functions, but includes the param | |
| `include_comma`. | |
| :param include_comma bool: If enabled includes the comma in the string output. | |
| """ | |
| if include_comma: | |
| return super().get_code(include_prefix) | |
| children = self.children | |
| if children[-1] == ',': | |
| children = children[:-1] | |
| return self._get_code_for_children( | |
| children, | |
| include_prefix=include_prefix | |
| ) | |
| def __repr__(self): | |
| default = '' if self.default is None else '=%s' % self.default.get_code() | |
| return '<%s: %s>' % (type(self).__name__, str(self._tfpdef()) + default) | |
| class SyncCompFor(PythonBaseNode): | |
| type = 'sync_comp_for' | |
| __slots__ = () | |
| def get_defined_names(self, include_setitem=False): | |
| """ | |
| Returns the a list of `Name` that the comprehension defines. | |
| """ | |
| # allow async for | |
| return _defined_names(self.children[1], include_setitem) | |
| # This is simply here so an older Jedi version can work with this new parso | |
| # version. Can be deleted in the next release. | |
| CompFor = SyncCompFor | |
| class UsedNamesMapping(Mapping): | |
| """ | |
| This class exists for the sole purpose of creating an immutable dict. | |
| """ | |
| def __init__(self, dct): | |
| self._dict = dct | |
| def __getitem__(self, key): | |
| return self._dict[key] | |
| def __len__(self): | |
| return len(self._dict) | |
| def __iter__(self): | |
| return iter(self._dict) | |
| def __hash__(self): | |
| return id(self) | |
| def __eq__(self, other): | |
| # Comparing these dicts does not make sense. | |
| return self is other | |
Xet Storage Details
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- 37.5 kB
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- 554710ae5bb27779304edc94cdd0ad011a1f5b48ac9ace2f63d0ac7c9e3d8d56
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