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# Copyright 2004-2005 Elemental Security, Inc. All Rights Reserved.
# Licensed to PSF under a Contributor Agreement.
# Modifications:
# Copyright David Halter and Contributors
# Modifications are dual-licensed: MIT and PSF.
# 99% of the code is different from pgen2, now.
"""
The ``Parser`` tries to convert the available Python code in an easy to read
format, something like an abstract syntax tree. The classes who represent this
tree, are sitting in the :mod:`parso.tree` module.
The Python module ``tokenize`` is a very important part in the ``Parser``,
because it splits the code into different words (tokens). Sometimes it looks a
bit messy. Sorry for that! You might ask now: "Why didn't you use the ``ast``
module for this? Well, ``ast`` does a very good job understanding proper Python
code, but fails to work as soon as there's a single line of broken code.
There's one important optimization that needs to be known: Statements are not
being parsed completely. ``Statement`` is just a representation of the tokens
within the statement. This lowers memory usage and cpu time and reduces the
complexity of the ``Parser`` (there's another parser sitting inside
``Statement``, which produces ``Array`` and ``Call``).
"""
from parso import tree
from parso.pgen2.generator import ReservedString
class ParserSyntaxError(Exception):
"""
Contains error information about the parser tree.
May be raised as an exception.
"""
def __init__(self, message, error_leaf):
self.message = message
self.error_leaf = error_leaf
class InternalParseError(Exception):
"""
Exception to signal the parser is stuck and error recovery didn't help.
Basically this shouldn't happen. It's a sign that something is really
wrong.
"""
def __init__(self, msg, type_, value, start_pos):
Exception.__init__(self, "%s: type=%r, value=%r, start_pos=%r" %
(msg, type_.name, value, start_pos))
self.msg = msg
self.type = type
self.value = value
self.start_pos = start_pos
class Stack(list):
def _allowed_transition_names_and_token_types(self):
def iterate():
# An API just for Jedi.
for stack_node in reversed(self):
for transition in stack_node.dfa.transitions:
if isinstance(transition, ReservedString):
yield transition.value
else:
yield transition # A token type
if not stack_node.dfa.is_final:
break
return list(iterate())
class StackNode(object):
def __init__(self, dfa):
self.dfa = dfa
self.nodes = []
@property
def nonterminal(self):
return self.dfa.from_rule
def __repr__(self):
return '%s(%s, %s)' % (self.__class__.__name__, self.dfa, self.nodes)
def _token_to_transition(grammar, type_, value):
# Map from token to label
if type_.contains_syntax:
# Check for reserved words (keywords)
try:
return grammar.reserved_syntax_strings[value]
except KeyError:
pass
return type_
class BaseParser(object):
"""Parser engine.
A Parser instance contains state pertaining to the current token
sequence, and should not be used concurrently by different threads
to parse separate token sequences.
See python/tokenize.py for how to get input tokens by a string.
When a syntax error occurs, error_recovery() is called.
"""
node_map = {}
default_node = tree.Node
leaf_map = {
}
default_leaf = tree.Leaf
def __init__(self, pgen_grammar, start_nonterminal='file_input', error_recovery=False):
self._pgen_grammar = pgen_grammar
self._start_nonterminal = start_nonterminal
self._error_recovery = error_recovery
def parse(self, tokens):
first_dfa = self._pgen_grammar.nonterminal_to_dfas[self._start_nonterminal][0]
self.stack = Stack([StackNode(first_dfa)])
for token in tokens:
self._add_token(token)
while True:
tos = self.stack[-1]
if not tos.dfa.is_final:
# We never broke out -- EOF is too soon -- Unfinished statement.
# However, the error recovery might have added the token again, if
# the stack is empty, we're fine.
raise InternalParseError(
"incomplete input", token.type, token.value, token.start_pos
)
if len(self.stack) > 1:
self._pop()
else:
return self.convert_node(tos.nonterminal, tos.nodes)
def error_recovery(self, token):
if self._error_recovery:
raise NotImplementedError("Error Recovery is not implemented")
else:
type_, value, start_pos, prefix = token
error_leaf = tree.ErrorLeaf(type_, value, start_pos, prefix)
raise ParserSyntaxError('SyntaxError: invalid syntax', error_leaf)
def convert_node(self, nonterminal, children):
try:
return self.node_map[nonterminal](children)
except KeyError:
return self.default_node(nonterminal, children)
def convert_leaf(self, type_, value, prefix, start_pos):
try:
return self.leaf_map[type_](value, start_pos, prefix)
except KeyError:
return self.default_leaf(value, start_pos, prefix)
def _add_token(self, token):
"""
This is the only core function for parsing. Here happens basically
everything. Everything is well prepared by the parser generator and we
only apply the necessary steps here.
"""
grammar = self._pgen_grammar
stack = self.stack
type_, value, start_pos, prefix = token
transition = _token_to_transition(grammar, type_, value)
while True:
try:
plan = stack[-1].dfa.transitions[transition]
break
except KeyError:
if stack[-1].dfa.is_final:
self._pop()
else:
self.error_recovery(token)
return
except IndexError:
raise InternalParseError("too much input", type_, value, start_pos)
stack[-1].dfa = plan.next_dfa
for push in plan.dfa_pushes:
stack.append(StackNode(push))
leaf = self.convert_leaf(type_, value, prefix, start_pos)
stack[-1].nodes.append(leaf)
def _pop(self):
tos = self.stack.pop()
# If there's exactly one child, return that child instead of
# creating a new node. We still create expr_stmt and
# file_input though, because a lot of Jedi depends on its
# logic.
if len(tos.nodes) == 1:
new_node = tos.nodes[0]
else:
new_node = self.convert_node(tos.dfa.from_rule, tos.nodes)
self.stack[-1].nodes.append(new_node)