Ejemplos de MetaGrammar en Python

Ejemplo n.º 1

    def test_lexer(self):

        M = MetaGrammar.from_declaration(
            ('LETTER', list('ABCDEF')),
            ('NUMBER', range(4)),
            ('LBR', '['),
            ('RBR', ']'),
            ('string', 'symbol', 'string'),
            ('string', 'empty'),
            ('symbol', 'LETTER', 'number'),
            ('number', 'NUMBER', 'number'),
            ('number', 'empty'),
            )

        lexer = lex.lex(module=Lexer(M))
        lexer.input('A21[]')

        self.assertEqual(list(get_tokens(lexer)), [
            ('LETTER', 'A'),
            ('NUMBER', '2'),
            ('NUMBER', '1'),
            ('LBR', '['),
            ('RBR', ']')
            ]
                             )
        lexer.input('A21X[]')

        with self.assertWarns(UserWarning):
            list(get_tokens(lexer))

Ejemplo n.º 2

    def test_parser(self):

        M = MetaGrammar.from_declaration(
            ('LETTER', list('ABCDEF')),
            ('NUMBER', range(4)),
            ('LBR', '['),
            ('RBR', ']'),
            ('string', 'string', 'symbol'),
            ('string', 'string', 'level'),
            ('string', 'empty'),
            ('symbol', 'LETTER', 'jump'),
            ('jump', 'jump', 'NUMBER'),
            ('jump', 'empty'),
            ('level', 'LBR', 'substring', 'RBR', 'jump'),
            ('substring', 'substring', 'symbol'),
            ('substring', 'empty'),
            )

        # d = to_agraph(M)
        # d.layout('dot')
        # d.draw('parser.png')

        # parser = Parser(M)
        # print(parser.__dict__)
        # # yacc.yacc(module=parser, start=M.axiom)


        print(SimpleGenerator.generate(M, ['string'], 10))

Ejemplo n.º 3

def _build_parser_module_class(G):
    P = MetaGrammar(G.subgraph(G.nonterminals))

    item_factory = ast_item_factory(P.terminals)

    clsdict = {'G':P}

    for lhs, rhs in P.productions:

        p_name = 'p_%s_%s' % (lhs, '_'.join(rhs))

        if lhs == rhs[0]:
            clsdict[p_name] = p_left_recursion(lhs, rhs, item_factory)
        elif lhs == rhs[-1]:
            clsdict[p_name] = p_right_recursion(lhs, rhs, item_factory)
        else:
            clsdict[p_name] = p_no_recursion(lhs, rhs, item_factory)

    cls = type('ParserModule', (BaseModuleParser,), clsdict)

    for lhs, rhs in P.productions:
        p_doc_string = """%s : %s""" % (lhs, ' '.join(rhs))
        p_name = 'p_%s_%s' % (lhs, '_'.join(rhs))
        getattr(cls, p_name).__doc__ = p_doc_string

    return cls

Ejemplo n.º 4

Archivo: test_asg.py Proyecto: csantran/pg2l

    def setUp(self):
        M = MetaGrammar.from_declaration(
            ('START', 'S'),
            ('LETTER', list('ABCDEF')),
            ('NUMBER', range(4)),
            ('LBR', '['),
            ('RBR', ']'),
            ('REWRITE', ':'),
            ('expression', 'string'),
            ('expression', 'production'),
            ('expression', 'grammar'),
            ('string', 'symbol', 'string'),
            ('string', 'level', 'string'),
            ('string', 'empty'),
            ('symbol', 'LETTER', 'jump'),
            ('jump', 'jump', 'NUMBER'),
            ('jump', 'empty'),
            ('level', 'LBR', 'substring', 'RBR', 'jump'),
            ('substring', 'substring', 'symbol'),
            ('substring', 'substring', 'level'),
            ('substring', 'empty'),
            ('grammar', 'axiom', 'NEWLINE', 'productions'),
            ('productions', 'production', 'NEWLINE', 'productions'),
            ('productions', 'empty'),
            ('axiom', 'START', 'REWRITE', 'string'),
            ('production', 'symbol', 'REWRITE', 'string'),
        )

        self.parser = Parser(M)

Ejemplo n.º 5

Archivo: lexer.py Proyecto: csantran/pg2l

    def __init__(self, G):
        super().__init__()
        self.tokens = []

        lex_nodes = []
        for u,v in G.edges():
            if v in G.terminals:
                if v == 'NEWLINE':
                    if 'NEWLINE' not in self.tokens:
                        def t_NEWLINE(t):
                            r'\n+'
                            t.lexer.lineno += len(t.value)
                            return t

                        setattr(self, 't_NEWLINE', t_NEWLINE)
                        self.tokens.append('NEWLINE')

                else:
                    lex_nodes += [u,v]

        L = MetaGrammar(G.subgraph(list(set(lex_nodes))))

        for nterm in L.nonterminals:
            self.tokens.append(nterm)

            if L.out_degree(nterm) == 1:

                constant = list(L.successors(nterm))[0]

                if isinstance(constant, str):
                    setattr(self, 't_%s' % nterm, '%s' % re.escape(constant))
                elif isinstance(constant, re._pattern_type):
                    setattr(self, 't_%s' % nterm, constant.pattern)
                else:
                    raise Exception()

            else:
                values = list(L.successors(nterm))
                setattr(self, 't_%s' % nterm, r'|'.join(['%s' % i for i in values]))

        self.L = L

Ejemplo n.º 6

    def test_meta_grammar(self):

        M = MetaGrammar.from_declaration(
            ('S', 'F'),
            ('S', '(', 'S', '+', 'F', ')'),
            ('F', '1'),
            )

        self.assertEqual(M.axiom, 'S')
        self.assertEqual(M.terminals, {'(', ')', '1', '+'})
        self.assertEqual(M.nonterminals, {'S', 'F'})

        self.assertEqual(sorted(list(M.productions)), sorted([
            ('S', ('(', 'S', '+', 'F', ')')),
            ('S', ('F',)),
            ('F', ('1',)),
            ]))

        self.assertEqual(M.alphabet, {'(', '+', 'S', 'F', '1', ')'})

Ejemplo n.º 7

Archivo: test_grammar.py Proyecto: csantran/pg2l

    def test_lsys_grammar(self):

        M = MetaGrammar.from_declaration(
            ('START', 'S'),
            ('LETTER', list('ABCDEF')),
            ('NUMBER', range(4)),
            ('LBR', '['),
            ('RBR', ']'),
            ('REWRITE', ':'),
            ('expression', 'string'),
            ('expression', 'production'),
            ('expression', 'grammar'),
            ('string', 'symbol', 'string'),
            ('string', 'level', 'string'),
            ('string', 'empty'),
            ('symbol', 'LETTER', 'jump'),
            ('jump', 'jump', 'NUMBER'),
            ('jump', 'empty'),
            ('level', 'LBR', 'string', 'RBR', 'jump'),
            ('grammar', 'axiom', 'NEWLINE', 'productions'),
            ('productions', 'production', 'NEWLINE', 'productions'),
            ('productions', 'empty'),
            ('axiom', 'START', 'REWRITE', 'string'),
            ('production', 'symbol', 'REWRITE', 'string'),
        )

        # d = to_agraph(M)
        # d.layout('dot')
        # d.draw('parser.png')

        L = Grammar.from_string(M, """S:A
A:A[C]B
B:A
""")

        gen = Generator(L)

Ejemplo n.º 8

Archivo: test_parser.py Proyecto: csantran/pg2l

    def test_parser(self):

        M = MetaGrammar.from_declaration(
            ('LETTER', list('ABCDEF')),
            ('NUMBER', range(4)),
            ('LBR', '['),
            ('RBR', ']'),
            ('string', 'string', 'symbol'),
            ('string', 'string', 'level'),
            ('string', 'empty'),
            ('symbol', 'LETTER', 'jump'),
            ('jump', 'jump', 'NUMBER'),
            ('jump', 'empty'),
            ('level', 'LBR', 'substring', 'RBR', 'jump'),
            ('substring', 'substring', 'symbol'),
            ('substring', 'empty'),
        )

        # d = to_agraph(M)
        # d.layout('dot')
        # d.draw('parser.png')

        # parser = Parser(M)
        # print(parser.__dict__)
        # # yacc.yacc(module=parser, start=M.axiom)
        parser = Parser(M)
        self.assertEqual(str(parser.parse('AB12[CDA]')), 'AB12[CDA]')

        with self.assertWarns(UserWarning):
            parser.parse('AB12[CDA')

        with self.assertWarns(UserWarning):
            parser.parse('AB12XCDA')

        with self.assertWarns(UserWarning):
            parser.parse('AB12]CDA')