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489 lines
16 KiB
489 lines
16 KiB
from abc import abstractmethod, abstractproperty
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from typing import List, Optional, Tuple, Union
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from parso.utils import split_lines
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def search_ancestor(node: 'NodeOrLeaf', *node_types: str) -> 'Optional[BaseNode]':
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"""
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Recursively looks at the parents of a node and returns the first found node
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that matches ``node_types``. Returns ``None`` if no matching node is found.
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This function is deprecated, use :meth:`NodeOrLeaf.search_ancestor` instead.
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:param node: The ancestors of this node will be checked.
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:param node_types: type names that are searched for.
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"""
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n = node.parent
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while n is not None:
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if n.type in node_types:
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return n
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n = n.parent
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return None
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class NodeOrLeaf:
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"""
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The base class for nodes and leaves.
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"""
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__slots__ = ('parent',)
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type: str
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'''
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The type is a string that typically matches the types of the grammar file.
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'''
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parent: 'Optional[BaseNode]'
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'''
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The parent :class:`BaseNode` of this node or leaf.
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None if this is the root node.
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'''
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def get_root_node(self):
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"""
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Returns the root node of a parser tree. The returned node doesn't have
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a parent node like all the other nodes/leaves.
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"""
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scope = self
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while scope.parent is not None:
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scope = scope.parent
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return scope
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def get_next_sibling(self):
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"""
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Returns the node immediately following this node in this parent's
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children list. If this node does not have a next sibling, it is None
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"""
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parent = self.parent
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if parent is None:
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return None
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# Can't use index(); we need to test by identity
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for i, child in enumerate(parent.children):
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if child is self:
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try:
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return self.parent.children[i + 1]
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except IndexError:
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return None
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def get_previous_sibling(self):
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"""
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Returns the node immediately preceding this node in this parent's
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children list. If this node does not have a previous sibling, it is
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None.
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"""
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parent = self.parent
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if parent is None:
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return None
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# Can't use index(); we need to test by identity
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for i, child in enumerate(parent.children):
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if child is self:
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if i == 0:
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return None
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return self.parent.children[i - 1]
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def get_previous_leaf(self):
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"""
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Returns the previous leaf in the parser tree.
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Returns `None` if this is the first element in the parser tree.
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"""
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if self.parent is None:
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return None
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node = self
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while True:
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c = node.parent.children
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i = c.index(node)
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if i == 0:
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node = node.parent
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if node.parent is None:
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return None
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else:
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node = c[i - 1]
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break
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while True:
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try:
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node = node.children[-1]
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except AttributeError: # A Leaf doesn't have children.
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return node
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def get_next_leaf(self):
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"""
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Returns the next leaf in the parser tree.
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Returns None if this is the last element in the parser tree.
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"""
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if self.parent is None:
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return None
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node = self
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while True:
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c = node.parent.children
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i = c.index(node)
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if i == len(c) - 1:
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node = node.parent
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if node.parent is None:
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return None
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else:
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node = c[i + 1]
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break
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while True:
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try:
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node = node.children[0]
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except AttributeError: # A Leaf doesn't have children.
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return node
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@abstractproperty
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def start_pos(self) -> Tuple[int, int]:
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"""
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Returns the starting position of the prefix as a tuple, e.g. `(3, 4)`.
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:return tuple of int: (line, column)
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"""
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@abstractproperty
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def end_pos(self) -> Tuple[int, int]:
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"""
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Returns the end position of the prefix as a tuple, e.g. `(3, 4)`.
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:return tuple of int: (line, column)
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"""
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@abstractmethod
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def get_start_pos_of_prefix(self):
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"""
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Returns the start_pos of the prefix. This means basically it returns
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the end_pos of the last prefix. The `get_start_pos_of_prefix()` of the
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prefix `+` in `2 + 1` would be `(1, 1)`, while the start_pos is
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`(1, 2)`.
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:return tuple of int: (line, column)
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"""
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@abstractmethod
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def get_first_leaf(self):
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"""
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Returns the first leaf of a node or itself if this is a leaf.
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"""
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@abstractmethod
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def get_last_leaf(self):
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"""
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Returns the last leaf of a node or itself if this is a leaf.
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"""
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@abstractmethod
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def get_code(self, include_prefix=True):
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"""
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Returns the code that was the input for the parser for this node.
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:param include_prefix: Removes the prefix (whitespace and comments) of
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e.g. a statement.
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"""
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def search_ancestor(self, *node_types: str) -> 'Optional[BaseNode]':
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"""
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Recursively looks at the parents of this node or leaf and returns the
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first found node that matches ``node_types``. Returns ``None`` if no
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matching node is found.
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:param node_types: type names that are searched for.
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"""
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node = self.parent
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while node is not None:
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if node.type in node_types:
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return node
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node = node.parent
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return None
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def dump(self, *, indent: Optional[Union[int, str]] = 4) -> str:
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"""
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Returns a formatted dump of the parser tree rooted at this node or leaf. This is
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mainly useful for debugging purposes.
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The ``indent`` parameter is interpreted in a similar way as :py:func:`ast.dump`.
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If ``indent`` is a non-negative integer or string, then the tree will be
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pretty-printed with that indent level. An indent level of 0, negative, or ``""``
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will only insert newlines. ``None`` selects the single line representation.
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Using a positive integer indent indents that many spaces per level. If
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``indent`` is a string (such as ``"\\t"``), that string is used to indent each
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level.
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:param indent: Indentation style as described above. The default indentation is
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4 spaces, which yields a pretty-printed dump.
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>>> import parso
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>>> print(parso.parse("lambda x, y: x + y").dump())
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Module([
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Lambda([
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Keyword('lambda', (1, 0)),
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Param([
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Name('x', (1, 7), prefix=' '),
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Operator(',', (1, 8)),
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]),
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Param([
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Name('y', (1, 10), prefix=' '),
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]),
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Operator(':', (1, 11)),
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PythonNode('arith_expr', [
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Name('x', (1, 13), prefix=' '),
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Operator('+', (1, 15), prefix=' '),
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Name('y', (1, 17), prefix=' '),
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]),
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]),
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EndMarker('', (1, 18)),
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])
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"""
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if indent is None:
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newline = False
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indent_string = ''
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elif isinstance(indent, int):
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newline = True
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indent_string = ' ' * indent
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elif isinstance(indent, str):
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newline = True
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indent_string = indent
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else:
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raise TypeError(f"expect 'indent' to be int, str or None, got {indent!r}")
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def _format_dump(node: NodeOrLeaf, indent: str = '', top_level: bool = True) -> str:
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result = ''
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node_type = type(node).__name__
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if isinstance(node, Leaf):
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result += f'{indent}{node_type}('
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if isinstance(node, ErrorLeaf):
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result += f'{node.token_type!r}, '
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elif isinstance(node, TypedLeaf):
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result += f'{node.type!r}, '
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result += f'{node.value!r}, {node.start_pos!r}'
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if node.prefix:
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result += f', prefix={node.prefix!r}'
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result += ')'
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elif isinstance(node, BaseNode):
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result += f'{indent}{node_type}('
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if isinstance(node, Node):
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result += f'{node.type!r}, '
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result += '['
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if newline:
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result += '\n'
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for child in node.children:
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result += _format_dump(child, indent=indent + indent_string, top_level=False)
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result += f'{indent}])'
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else: # pragma: no cover
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# We shouldn't ever reach here, unless:
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# - `NodeOrLeaf` is incorrectly subclassed else where
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# - or a node's children list contains invalid nodes or leafs
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# Both are unexpected internal errors.
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raise TypeError(f'unsupported node encountered: {node!r}')
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if not top_level:
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if newline:
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result += ',\n'
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else:
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result += ', '
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return result
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return _format_dump(self)
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class Leaf(NodeOrLeaf):
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'''
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Leafs are basically tokens with a better API. Leafs exactly know where they
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were defined and what text preceeds them.
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'''
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__slots__ = ('value', 'line', 'column', 'prefix')
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prefix: str
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def __init__(self, value: str, start_pos: Tuple[int, int], prefix: str = '') -> None:
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self.value = value
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'''
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:py:func:`str` The value of the current token.
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'''
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self.start_pos = start_pos
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self.prefix = prefix
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'''
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:py:func:`str` Typically a mixture of whitespace and comments. Stuff
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that is syntactically irrelevant for the syntax tree.
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'''
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self.parent: Optional[BaseNode] = None
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'''
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The parent :class:`BaseNode` of this leaf.
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'''
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@property
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def start_pos(self) -> Tuple[int, int]:
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return self.line, self.column
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@start_pos.setter
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def start_pos(self, value: Tuple[int, int]) -> None:
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self.line = value[0]
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self.column = value[1]
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def get_start_pos_of_prefix(self):
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previous_leaf = self.get_previous_leaf()
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if previous_leaf is None:
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lines = split_lines(self.prefix)
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# + 1 is needed because split_lines always returns at least [''].
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return self.line - len(lines) + 1, 0 # It's the first leaf.
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return previous_leaf.end_pos
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def get_first_leaf(self):
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return self
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def get_last_leaf(self):
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return self
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def get_code(self, include_prefix=True):
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if include_prefix:
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return self.prefix + self.value
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else:
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return self.value
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@property
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def end_pos(self) -> Tuple[int, int]:
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lines = split_lines(self.value)
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end_pos_line = self.line + len(lines) - 1
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# Check for multiline token
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if self.line == end_pos_line:
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end_pos_column = self.column + len(lines[-1])
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else:
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end_pos_column = len(lines[-1])
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return end_pos_line, end_pos_column
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def __repr__(self):
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value = self.value
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if not value:
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value = self.type
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return "<%s: %s>" % (type(self).__name__, value)
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class TypedLeaf(Leaf):
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__slots__ = ('type',)
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def __init__(self, type, value, start_pos, prefix=''):
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super().__init__(value, start_pos, prefix)
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self.type = type
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class BaseNode(NodeOrLeaf):
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"""
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The super class for all nodes.
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A node has children, a type and possibly a parent node.
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"""
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__slots__ = ('children',)
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def __init__(self, children: List[NodeOrLeaf]) -> None:
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self.children = children
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"""
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A list of :class:`NodeOrLeaf` child nodes.
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"""
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self.parent: Optional[BaseNode] = None
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'''
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The parent :class:`BaseNode` of this node.
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None if this is the root node.
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'''
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for child in children:
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child.parent = self
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@property
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def start_pos(self) -> Tuple[int, int]:
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return self.children[0].start_pos
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def get_start_pos_of_prefix(self):
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return self.children[0].get_start_pos_of_prefix()
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@property
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def end_pos(self) -> Tuple[int, int]:
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return self.children[-1].end_pos
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def _get_code_for_children(self, children, include_prefix):
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if include_prefix:
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return "".join(c.get_code() for c in children)
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else:
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first = children[0].get_code(include_prefix=False)
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return first + "".join(c.get_code() for c in children[1:])
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def get_code(self, include_prefix=True):
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return self._get_code_for_children(self.children, include_prefix)
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def get_leaf_for_position(self, position, include_prefixes=False):
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"""
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Get the :py:class:`parso.tree.Leaf` at ``position``
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:param tuple position: A position tuple, row, column. Rows start from 1
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:param bool include_prefixes: If ``False``, ``None`` will be returned if ``position`` falls
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on whitespace or comments before a leaf
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:return: :py:class:`parso.tree.Leaf` at ``position``, or ``None``
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"""
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def binary_search(lower, upper):
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if lower == upper:
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element = self.children[lower]
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if not include_prefixes and position < element.start_pos:
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# We're on a prefix.
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return None
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# In case we have prefixes, a leaf always matches
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try:
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return element.get_leaf_for_position(position, include_prefixes)
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except AttributeError:
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return element
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index = int((lower + upper) / 2)
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element = self.children[index]
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if position <= element.end_pos:
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return binary_search(lower, index)
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else:
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return binary_search(index + 1, upper)
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if not ((1, 0) <= position <= self.children[-1].end_pos):
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raise ValueError('Please provide a position that exists within this node.')
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return binary_search(0, len(self.children) - 1)
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def get_first_leaf(self):
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return self.children[0].get_first_leaf()
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def get_last_leaf(self):
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return self.children[-1].get_last_leaf()
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def __repr__(self):
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code = self.get_code().replace('\n', ' ').replace('\r', ' ').strip()
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return "<%s: %s@%s,%s>" % \
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(type(self).__name__, code, self.start_pos[0], self.start_pos[1])
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class Node(BaseNode):
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"""Concrete implementation for interior nodes."""
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__slots__ = ('type',)
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def __init__(self, type, children):
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super().__init__(children)
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self.type = type
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def __repr__(self):
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return "%s(%s, %r)" % (self.__class__.__name__, self.type, self.children)
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class ErrorNode(BaseNode):
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"""
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A node that contains valid nodes/leaves that we're follow by a token that
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was invalid. This basically means that the leaf after this node is where
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Python would mark a syntax error.
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"""
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__slots__ = ()
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type = 'error_node'
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class ErrorLeaf(Leaf):
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"""
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A leaf that is either completely invalid in a language (like `$` in Python)
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or is invalid at that position. Like the star in `1 +* 1`.
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"""
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__slots__ = ('token_type',)
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type = 'error_leaf'
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def __init__(self, token_type, value, start_pos, prefix=''):
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super().__init__(value, start_pos, prefix)
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self.token_type = token_type
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def __repr__(self):
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return "<%s: %s:%s, %s>" % \
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(type(self).__name__, self.token_type, repr(self.value), self.start_pos)
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