json_parser.py

# The file was automatically generated by Lark v0.5.5
#
#
#   Lark Stand-alone Generator Tool
# ----------------------------------
# Generates a stand-alone LALR(1) parser with a standard lexer
#
# Git:    https://github.com/erezsh/lark
# Author: Erez Shinan (erezshin@gmail.com)
#
#
#    >>> LICENSE
#
#    This tool and its generated code use a separate license from Lark.
#
#    It is licensed under GPLv2 or above.
#
#    If you wish to purchase a commercial license for this tool and its
#    generated code, contact me via email.
#
#    This program is free software: you can redistribute it and/or modify
#    it under the terms of the GNU General Public License as published by
#    the Free Software Foundation, either version 2 of the License, or
#    (at your option) any later version.
#
#    This program is distributed in the hope that it will be useful,
#    but WITHOUT ANY WARRANTY; without even the implied warranty of
#    MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
#    GNU General Public License for more details.
#
#    See <http://www.gnu.org/licenses/>.
#
#


import types
import functools
from contextlib import contextmanager

Str = type(u'')

def inline_args(f):
    # print '@@', f.__name__, type(f), isinstance(f, types.FunctionType), isinstance(f, types.TypeType), isinstance(f, types.BuiltinFunctionType)
    if isinstance(f, types.FunctionType):
        @functools.wraps(f)
        def _f_func(self, args):
            return f(self, *args)
        return _f_func
    elif isinstance(f, (type, types.BuiltinFunctionType)):
        @functools.wraps(f)
        def _f_builtin(_self, args):
            return f(*args)
        return _f_builtin
    elif isinstance(f, types.MethodType):
        @functools.wraps(f.__func__)
        def _f(self, args):
            return f.__func__(self, *args)
        return _f
    else:
        @functools.wraps(f.__call__.__func__)
        def _f(self, args):
            return f.__call__.__func__(self, *args)
        return _f


try:
    from contextlib import suppress     # Python 3
except ImportError:
    @contextmanager
    def suppress(*excs):
        '''Catch and dismiss the provided exception

        >>> x = 'hello'
        >>> with suppress(IndexError):
        ...     x = x[10]
        >>> x
        'hello'
        '''
        try:
            yield
        except excs:
            pass


def is_terminal(sym):
    return sym.isupper()

class GrammarError(Exception):
    pass

class ParseError(Exception):
    pass

class UnexpectedToken(ParseError):
    def __init__(self, token, expected, seq, index, considered_rules=None):
        self.token = token
        self.expected = expected
        self.line = getattr(token, 'line', '?')
        self.column = getattr(token, 'column', '?')
        self.considered_rules = considered_rules

        try:
            context = ' '.join(['%r(%s)' % (t.value, t.type) for t in seq[index:index+5]])
        except AttributeError:
            context = seq[index:index+5]
        except TypeError:
            context = "<no context>"
        message = ("Unexpected token %r at line %s, column %s.\n"
                   "Expected: %s\n"
                   "Context: %s" % (token, self.line, self.column, expected, context))

        super(UnexpectedToken, self).__init__(message)



class Tree(object):
    def __init__(self, data, children):
        self.data = data
        self.children = children

    def __repr__(self):
        return 'Tree(%s, %s)' % (self.data, self.children)

    def _pretty_label(self):
        return self.data

    def _pretty(self, level, indent_str):
        if len(self.children) == 1 and not isinstance(self.children[0], Tree):
            return [ indent_str*level, self._pretty_label(), '\t', '%s' % (self.children[0],), '\n']

        l = [ indent_str*level, self._pretty_label(), '\n' ]
        for n in self.children:
            if isinstance(n, Tree):
                l += n._pretty(level+1, indent_str)
            else:
                l += [ indent_str*(level+1), '%s' % (n,), '\n' ]

        return l

    def pretty(self, indent_str='  '):
        return ''.join(self._pretty(0, indent_str))
class Transformer(object):
    def _get_func(self, name):
        return getattr(self, name)

    def transform(self, tree):
        items = []
        for c in tree.children:
            try:
                items.append(self.transform(c) if isinstance(c, Tree) else c)
            except Discard:
                pass
        try:
            f = self._get_func(tree.data)
        except AttributeError:
            return self.__default__(tree.data, items)
        else:
            return f(items)

    def __default__(self, data, children):
        return Tree(data, children)

    def __mul__(self, other):
        return TransformerChain(self, other)


class Discard(Exception):
    pass

class TransformerChain(object):
    def __init__(self, *transformers):
        self.transformers = transformers

    def transform(self, tree):
        for t in self.transformers:
            tree = t.transform(tree)
        return tree

    def __mul__(self, other):
        return TransformerChain(*self.transformers + (other,))



class InlineTransformer(Transformer):
    def _get_func(self, name):  # use super()._get_func
        return inline_args(getattr(self, name)).__get__(self)


class Visitor(object):
    def visit(self, tree):
        for child in tree.children:
            if isinstance(child, Tree):
                self.visit(child)

        f = getattr(self, tree.data, self.__default__)
        f(tree)
        return tree

    def __default__(self, tree):
        pass


class Visitor_NoRecurse(Visitor):
    def visit(self, tree):
        subtrees = list(tree.iter_subtrees())

        for subtree in (subtrees):
            getattr(self, subtree.data, self.__default__)(subtree)
        return tree


class Transformer_NoRecurse(Transformer):
    def transform(self, tree):
        subtrees = list(tree.iter_subtrees())

        def _t(t):
            # Assumes t is already transformed
            try:
                f = self._get_func(t.data)
            except AttributeError:
                return self.__default__(t)
            else:
                return f(t)

        for subtree in subtrees:
            children = []
            for c in subtree.children:
                try:
                    children.append(_t(c) if isinstance(c, Tree) else c)
                except Discard:
                    pass
            subtree.children = children

        return _t(tree)

    def __default__(self, t):
        return t

class Indenter:
    def __init__(self):
        self.paren_level = 0
        self.indent_level = [0]

    def handle_NL(self, token):
        if self.paren_level > 0:
            return

        yield token

        indent_str = token.rsplit('\n', 1)[1] # Tabs and spaces
        indent = indent_str.count(' ') + indent_str.count('\t') * self.tab_len

        if indent > self.indent_level[-1]:
            self.indent_level.append(indent)
            yield Token.new_borrow_pos(self.INDENT_type, indent_str, token)
        else:
            while indent < self.indent_level[-1]:
                self.indent_level.pop()
                yield Token.new_borrow_pos(self.DEDENT_type, indent_str, token)

            assert indent == self.indent_level[-1], '%s != %s' % (indent, self.indent_level[-1])

    def process(self, stream):
        for token in stream:
            if token.type == self.NL_type:
                for t in self.handle_NL(token):
                    yield t
            else:
                yield token

            if token.type in self.OPEN_PAREN_types:
                self.paren_level += 1
            elif token.type in self.CLOSE_PAREN_types:
                self.paren_level -= 1
                assert self.paren_level >= 0

        while len(self.indent_level) > 1:
            self.indent_level.pop()
            yield Token(self.DEDENT_type, '')

        assert self.indent_level == [0], self.indent_level

    # XXX Hack for ContextualLexer. Maybe there's a more elegant solution?
    @property
    def always_accept(self):
        return (self.NL_type,)


class LexError(Exception):
    pass

class UnexpectedInput(LexError):
    def __init__(self, seq, lex_pos, line, column, allowed=None, considered_rules=None):
        context = seq[lex_pos:lex_pos+5]
        message = "No token defined for: '%s' in %r at line %d col %d" % (seq[lex_pos], context, line, column)
        if allowed:
            message += '\n\nExpecting: %s\n' % allowed

        super(UnexpectedInput, self).__init__(message)

        self.line = line
        self.column = column
        self.context = context
        self.allowed = allowed
        self.considered_rules = considered_rules

class Token(Str):
    def __new__(cls, type_, value, pos_in_stream=None, line=None, column=None):
        inst = Str.__new__(cls, value)
        inst.type = type_
        inst.pos_in_stream = pos_in_stream
        inst.value = value
        inst.line = line
        inst.column = column
        return inst

    @classmethod
    def new_borrow_pos(cls, type_, value, borrow_t):
        return cls(type_, value, borrow_t.pos_in_stream, line=borrow_t.line, column=borrow_t.column)

    def __repr__(self):
        return 'Token(%s, %r)' % (self.type, self.value)

    def __deepcopy__(self, memo):
        return Token(self.type, self.value, self.pos_in_stream, self.line, self.column)

    def __eq__(self, other):
        if isinstance(other, Token) and self.type != other.type:
            return False

        return Str.__eq__(self, other)

    __hash__ = Str.__hash__


class LineCounter:
    def __init__(self):
        self.newline_char = '\n'
        self.char_pos = 0
        self.line = 1
        self.column = 0
        self.line_start_pos = 0

    def feed(self, token, test_newline=True):
        """Consume a token and calculate the new line & column.

        As an optional optimization, set test_newline=False is token doesn't contain a newline.
        """
        if test_newline:
            newlines = token.count(self.newline_char)
            if newlines:
                self.line += newlines
                self.line_start_pos = self.char_pos + token.rindex(self.newline_char) + 1

        self.char_pos += len(token)
        self.column = self.char_pos - self.line_start_pos

class _Lex:
    "Built to serve both Lexer and ContextualLexer"
    def __init__(self, lexer):
        self.lexer = lexer

    def lex(self, stream, newline_types, ignore_types):
        newline_types = list(newline_types)
        ignore_types = list(ignore_types)
        line_ctr = LineCounter()

        t = None
        while True:
            lexer = self.lexer
            for mre, type_from_index in lexer.mres:
                m = mre.match(stream, line_ctr.char_pos)
                if m:
                    value = m.group(0)
                    type_ = type_from_index[m.lastindex]
                    if type_ not in ignore_types:
                        t = Token(type_, value, line_ctr.char_pos, line_ctr.line, line_ctr.column)
                        if t.type in lexer.callback:
                            t = lexer.callback[t.type](t)
                        yield t
                    else:
                        if type_ in lexer.callback:
                            t = Token(type_, value, line_ctr.char_pos, line_ctr.line, line_ctr.column)
                            lexer.callback[type_](t)

                    line_ctr.feed(value, type_ in newline_types)
                    if t:
                        t.end_line = line_ctr.line
                        t.end_column = line_ctr.column
                    break
            else:
                if line_ctr.char_pos < len(stream):
                    raise UnexpectedInput(stream, line_ctr.char_pos, line_ctr.line, line_ctr.column)
                break

class UnlessCallback:
    def __init__(self, mres):
        self.mres = mres

    def __call__(self, t):
        for mre, type_from_index in self.mres:
            m = mre.match(t.value)
            if m:
                value = m.group(0)
                t.type = type_from_index[m.lastindex]
                break
        return t



from functools import partial

class ExpandSingleChild:
    def __init__(self, node_builder):
        self.node_builder = node_builder

    def __call__(self, children):
        if len(children) == 1:
            return children[0]
        else:
            return self.node_builder(children)


class CreateToken:
    "Used for fixing the results of scanless parsing"

    def __init__(self, token_name, node_builder):
        self.node_builder = node_builder
        self.token_name = token_name

    def __call__(self, children):
        return self.node_builder( [Token(self.token_name, ''.join(children))] )


class PropagatePositions:
    def __init__(self, node_builder):
        self.node_builder = node_builder

    def __call__(self, children):
        res = self.node_builder(children)

        if children:
            for a in children:
                with suppress(AttributeError):
                    res.line = a.line
                    res.column = a.column
                break

            for a in reversed(children):
                with suppress(AttributeError):
                    res.end_line = a.end_line
                    res.end_column = a.end_column
                break

        return res


class ChildFilter:
    def __init__(self, to_include, node_builder):
        self.node_builder = node_builder
        self.to_include = to_include

    def __call__(self, children):
        filtered = []
        for i, to_expand in self.to_include:
            if to_expand:
                if filtered:
                    filtered += children[i].children
                else:   # Optimize for left-recursion
                    filtered = children[i].children
            else:
                filtered.append(children[i])

        return self.node_builder(filtered)

def _should_expand(sym):
    return not is_terminal(sym) and sym.startswith('_')

def maybe_create_child_filter(expansion, filter_out):
    to_include = [(i, _should_expand(sym)) for i, sym in enumerate(expansion) if sym not in filter_out]

    if len(to_include) < len(expansion) or any(to_expand for i, to_expand in to_include):
        return partial(ChildFilter, to_include)


class Callback(object):
    pass

class ParseTreeBuilder:
    def __init__(self, rules, tree_class, propagate_positions=False, keep_all_tokens=False):
        self.tree_class = tree_class
        self.propagate_positions = propagate_positions
        self.always_keep_all_tokens = keep_all_tokens

        self.rule_builders = list(self._init_builders(rules))

        self.user_aliases = {}

    def _init_builders(self, rules):
        filter_out = {rule.origin for rule in rules if rule.options and rule.options.filter_out}
        filter_out |= {sym for rule in rules for sym in rule.expansion if is_terminal(sym) and sym.startswith('_')}
        assert all(x.startswith('_') for x in filter_out)

        for rule in rules:
            options = rule.options
            keep_all_tokens = self.always_keep_all_tokens or (options.keep_all_tokens if options else False)
            expand_single_child = options.expand1 if options else False
            create_token = options.create_token if options else False

            wrapper_chain = filter(None, [
                create_token and partial(CreateToken, create_token),
                (expand_single_child and not rule.alias) and ExpandSingleChild,
                maybe_create_child_filter(rule.expansion, () if keep_all_tokens else filter_out),
                self.propagate_positions and PropagatePositions,
            ])

            yield rule, wrapper_chain


    def create_callback(self, transformer=None):
        callback = Callback()

        for rule, wrapper_chain in self.rule_builders:
            internal_callback_name = '_callback_%s_%s' % (rule.origin, '_'.join(rule.expansion))

            user_callback_name = rule.alias or rule.origin
            try:
                f = transformer._get_func(user_callback_name)
            except AttributeError:
                f = partial(self.tree_class, user_callback_name)

            self.user_aliases[rule] = rule.alias
            rule.alias = internal_callback_name

            for w in wrapper_chain:
                f = w(f)

            if hasattr(callback, internal_callback_name):
                raise GrammarError("Rule '%s' already exists" % (rule,))
            setattr(callback, internal_callback_name, f)

        return callback



class _Parser:
    def __init__(self, parse_table, callbacks):
        self.states = parse_table.states
        self.start_state = parse_table.start_state
        self.end_state = parse_table.end_state
        self.callbacks = callbacks

    def parse(self, seq, set_state=None):
        i = 0
        token = None
        stream = iter(seq)
        states = self.states

        state_stack = [self.start_state]
        value_stack = []

        if set_state: set_state(self.start_state)

        def get_action(key):
            state = state_stack[-1]
            try:
                return states[state][key]
            except KeyError:
                expected = states[state].keys()

                raise UnexpectedToken(token, expected, seq, i)

        def reduce(rule):
            size = len(rule.expansion)
            if size:
                s = value_stack[-size:]
                del state_stack[-size:]
                del value_stack[-size:]
            else:
                s = []

            value = self.callbacks[rule](s)

            _action, new_state = get_action(rule.origin)
            assert _action is Shift
            state_stack.append(new_state)
            value_stack.append(value)

        # Main LALR-parser loop
        for i, token in enumerate(stream):
            while True:
                action, arg = get_action(token.type)
                assert arg != self.end_state

                if action is Shift:
                    state_stack.append(arg)
                    value_stack.append(token)
                    if set_state: set_state(arg)
                    break # next token
                else:
                    reduce(arg)

        while True:
            _action, arg = get_action('$END')
            if _action is Shift:
                assert arg == self.end_state
                val ,= value_stack
                return val
            else:
                reduce(arg)



class Rule(object):
    """
        origin : a symbol
        expansion : a list of symbols
    """
    def __init__(self, origin, expansion, alias=None, options=None):
        self.origin = origin
        self.expansion = expansion
        self.alias = alias
        self.options = options

    def __str__(self):
        return '<%s : %s>' % (self.origin, ' '.join(map(str,self.expansion)))

    def __repr__(self):
        return 'Rule(%r, %r, %r, %r)' % (self.origin, self.expansion, self.alias, self.options)


class RuleOptions:
    def __init__(self, keep_all_tokens=False, expand1=False, create_token=None, filter_out=False, priority=None):
        self.keep_all_tokens = keep_all_tokens
        self.expand1 = expand1
        self.create_token = create_token  # used for scanless postprocessing
        self.priority = priority

        self.filter_out = filter_out        # remove this rule from the tree
                                            # used for "token"-rules in scanless

    def __repr__(self):
        return 'RuleOptions(%r, %r, %r, %r, %r)' % (
            self.keep_all_tokens,
            self.expand1,
            self.create_token,
            self.priority,
            self.filter_out
        )

Shift = 0
Reduce = 1
import re
MRES = (
[(u'(?P<SIGNED_NUMBER>(?:(?:\\+|\\-))?(?:(?:(?:[0-9])+(?:e|E)(?:(?:\\+|\\-))?(?:[0-9])+|(?:(?:[0-9])+\\.(?:(?:[0-9])+)?|\\.(?:[0-9])+)(?:(?:e|E)(?:(?:\\+|\\-))?(?:[0-9])+)?)|(?:[0-9])+))|(?P<ESCAPED_STRING>\\"(?:(?:\\\\\\"|[^"]))*\\")|(?P<WS>(?:[ \t\x0c\r\n])+)|(?P<__FALSE1>false)|(?P<__NULL2>null)|(?P<__TRUE0>true)|(?P<__COLON>\\:)|(?P<__COMMA>\\,)|(?P<__LBRACE>\\{)|(?P<__LSQB>\\[)|(?P<__RBRACE>\\})|(?P<__RSQB>\\])',
  {1: u'SIGNED_NUMBER',
   2: u'ESCAPED_STRING',
   3: u'WS',
   4: u'__FALSE1',
   5: u'__NULL2',
   6: u'__TRUE0',
   7: u'__COLON',
   8: u'__COMMA',
   9: u'__LBRACE',
   10: u'__LSQB',
   11: u'__RBRACE',
   12: u'__RSQB'})]
)
LEXER_CALLBACK = (
{}
)
NEWLINE_TYPES = [u'WS']
IGNORE_TYPES = [u'WS']
class LexerRegexps: pass
lexer_regexps = LexerRegexps()
lexer_regexps.mres = [(re.compile(p), d) for p, d in MRES]
lexer_regexps.callback = {n: UnlessCallback([(re.compile(p), d) for p, d in mres])
                          for n, mres in LEXER_CALLBACK.items()}
lexer = _Lex(lexer_regexps)
def lex(stream):
    return lexer.lex(stream, NEWLINE_TYPES, IGNORE_TYPES)
RULES = {
  0: Rule(u'start', [u'value'], None, RuleOptions(False, True, None, None, False)),
  1: Rule(u'value', [u'string'], None, RuleOptions(False, True, None, None, False)),
  2: Rule(u'value', [u'__TRUE0'], u'true', RuleOptions(False, True, None, None, False)),
  3: Rule(u'value', [u'array'], None, RuleOptions(False, True, None, None, False)),
  4: Rule(u'value', [u'__NULL2'], u'null', RuleOptions(False, True, None, None, False)),
  5: Rule(u'value', [u'SIGNED_NUMBER'], u'number', RuleOptions(False, True, None, None, False)),
  6: Rule(u'value', [u'object'], None, RuleOptions(False, True, None, None, False)),
  7: Rule(u'value', [u'__FALSE1'], u'false', RuleOptions(False, True, None, None, False)),
  8: Rule(u'array', ['__LSQB', u'value', '__RSQB'], None, RuleOptions(False, False, None, None, False)),
  9: Rule(u'array', ['__LSQB', u'value', '__anon_star_0', '__RSQB'], None, RuleOptions(False, False, None, None, False)),
  10: Rule(u'array', ['__LSQB', '__RSQB'], None, RuleOptions(False, False, None, None, False)),
  11: Rule(u'object', ['__LBRACE', u'pair', '__anon_star_1', '__RBRACE'], None, RuleOptions(False, False, None, None, False)),
  12: Rule(u'object', ['__LBRACE', '__RBRACE'], None, RuleOptions(False, False, None, None, False)),
  13: Rule(u'object', ['__LBRACE', u'pair', '__RBRACE'], None, RuleOptions(False, False, None, None, False)),
  14: Rule(u'pair', [u'string', '__COLON', u'value'], None, RuleOptions(False, False, None, None, False)),
  15: Rule(u'string', [u'ESCAPED_STRING'], None, RuleOptions(False, False, None, None, False)),
  16: Rule('__anon_star_0', ['__anon_star_0', '__COMMA', u'value'], None, None),
  17: Rule('__anon_star_0', ['__COMMA', u'value'], None, None),
  18: Rule('__anon_star_1', ['__COMMA', u'pair'], None, None),
  19: Rule('__anon_star_1', ['__anon_star_1', '__COMMA', u'pair'], None, None),
}
parse_tree_builder = ParseTreeBuilder(RULES.values(), Tree)
class ParseTable: pass
parse_table = ParseTable()
STATES = {
  0: {0: (1, 4), 1: (1, 4), 2: (1, 4), 3: (1, 4)},
  1: {1: (1, 14), 2: (1, 14)},
  2: {0: (0, 29), 1: (0, 32), 4: (0, 9)},
  3: {1: (0, 13), 2: (0, 12)},
  4: {0: (1, 1), 1: (1, 1), 2: (1, 1), 3: (1, 1)},
  5: {0: (1, 10), 1: (1, 10), 2: (1, 10), 3: (1, 10)},
  6: {2: (0, 15), 5: (0, 27), 6: (0, 16), 7: (0, 26)},
  7: {5: (0, 34), 6: (0, 16), 7: (0, 26)},
  8: {0: (1, 2), 1: (1, 2), 2: (1, 2), 3: (1, 2)},
  9: {0: (0, 11), 1: (0, 22)},
  10: {0: (1, 6), 1: (1, 6), 2: (1, 6), 3: (1, 6)},
  11: {0: (1, 9), 1: (1, 9), 2: (1, 9), 3: (1, 9)},
  12: {0: (1, 11), 1: (1, 11), 2: (1, 11), 3: (1, 11)},
  13: {5: (0, 20), 6: (0, 16), 7: (0, 26)},
  14: {6: (0, 16), 7: (0, 4), 8: (0, 6), 9: (0, 31), 10: (0, 24), 11: (0, 10), 12: (0, 21), 13: (0, 17), 14: (0, 33), 15: (0, 0), 16: (0, 19), 17: (0, 8)},
  15: {0: (1, 12), 1: (1, 12), 2: (1, 12), 3: (1, 12)},
  16: {0: (1, 15), 1: (1, 15), 2: (1, 15), 3: (1, 15), 18: (1, 15)},
  17: {3: (1, 0)},
  18: {},
  19: {0: (1, 3), 1: (1, 3), 2: (1, 3), 3: (1, 3)},
  20: {1: (1, 19), 2: (1, 19)},
  21: {0: (1, 5), 1: (1, 5), 2: (1, 5), 3: (1, 5)},
  22: {6: (0, 16), 7: (0, 4), 8: (0, 6), 9: (0, 31), 10: (0, 24), 11: (0, 10), 12: (0, 21), 13: (0, 30), 15: (0, 0), 16: (0, 19), 17: (0, 8)},
  23: {6: (0, 16), 7: (0, 4), 8: (0, 6), 9: (0, 31), 10: (0, 24), 11: (0, 10), 12: (0, 21), 13: (0, 1), 15: (0, 0), 16: (0, 19), 17: (0, 8)},
  24: {0: (0, 5), 6: (0, 16), 7: (0, 4), 8: (0, 6), 9: (0, 31), 10: (0, 24), 11: (0, 10), 12: (0, 21), 13: (0, 2), 15: (0, 0), 16: (0, 19), 17: (0, 8)},
  25: {0: (1, 13), 1: (1, 13), 2: (1, 13), 3: (1, 13)},
  26: {18: (0, 23)},
  27: {1: (0, 7), 2: (0, 25), 19: (0, 3)},
  28: {0: (1, 17), 1: (1, 17)},
  29: {0: (1, 8), 1: (1, 8), 2: (1, 8), 3: (1, 8)},
  30: {0: (1, 16), 1: (1, 16)},
  31: {0: (1, 7), 1: (1, 7), 2: (1, 7), 3: (1, 7)},
  32: {6: (0, 16), 7: (0, 4), 8: (0, 6), 9: (0, 31), 10: (0, 24), 11: (0, 10), 12: (0, 21), 13: (0, 28), 15: (0, 0), 16: (0, 19), 17: (0, 8)},
  33: {3: (0, 18)},
  34: {1: (1, 18), 2: (1, 18)},
}
TOKEN_TYPES = (
{0: '__RSQB',
 1: '__COMMA',
 2: '__RBRACE',
 3: '$END',
 4: '__anon_star_0',
 5: u'pair',
 6: u'ESCAPED_STRING',
 7: u'string',
 8: '__LBRACE',
 9: u'__FALSE1',
 10: '__LSQB',
 11: u'object',
 12: u'SIGNED_NUMBER',
 13: u'value',
 14: 'start',
 15: u'__NULL2',
 16: u'array',
 17: u'__TRUE0',
 18: '__COLON',
 19: '__anon_star_1'}
)
parse_table.states = {s: {TOKEN_TYPES[t]: (a, RULES[x] if a is Reduce else x) for t, (a, x) in acts.items()}
                      for s, acts in STATES.items()}
parse_table.start_state = 14
parse_table.end_state = 18
class Lark_StandAlone:
  def __init__(self, transformer=None, postlex=None):
     callback = parse_tree_builder.create_callback(transformer=transformer)
     callbacks = {rule: getattr(callback, rule.alias or rule.origin, None) for rule in RULES.values()}
     self.parser = _Parser(parse_table, callbacks)
     self.postlex = postlex
  def parse(self, stream):
     tokens = lex(stream)
     if self.postlex: tokens = self.postlex.process(tokens)
     return self.parser.parse(tokens)