Python Grammarの例

コード例 #1

ファイル: test.py プロジェクト: bakkot/jsparagus

    def testNegativeLookahead(self):
        tokenize = lexer.LexicalGrammar('a b')
        rules = {
            'goal': [
                [LookaheadRule(frozenset({'a'}), False), 'abs'],
            ],
            'abs': [
                ['a'],
                ['b'],
                ['abs', 'a'],
                ['abs', 'b'],
            ],
        }

        self.compile(tokenize, Grammar(rules))
        self.assertNoParse("a b", message="expected 'b', got 'a'")
        self.assertParse(
            'b a',
            ('goal', ('abs_2', 'b', 'a')))

        # In simple cases like this, the lookahead restriction can even
        # disambiguate a grammar that would otherwise be ambiguous.
        rules['goal'].append(prod(['a'], 'goal_a'))
        self.compile(tokenize, Grammar(rules))
        self.assertParse('a', ('goal_a', 'a'))

コード例 #2

ファイル: test.py プロジェクト: evilpie/jsparagus

    def testNegativeLookahead(self):
        tokenize = lexer.LexicalGrammar('a b')
        rules = {
            'goal': [
                [LookaheadRule(frozenset({'a'}), False), 'abs'],
            ],
            'abs': [
                ['a'],
                ['b'],
                ['abs', 'a'],
                ['abs', 'b'],
            ],
        }

        parse = gen.compile(Grammar(rules))
        self.assertRaisesRegex(SyntaxError,
                               r"expected 'b', got 'a'",
                               lambda: parse(tokenize, "a b"))
        self.assertEqual(
            parse(tokenize, 'b a'),
            ('goal', ('abs 2', 'b', 'a'))
        )

        # In simple cases like this, the lookahead restriction can even
        # disambiguate a grammar that would otherwise be ambiguous.
        rules['goal'].append(prod(['a'], 'goal_a'))
        parse = gen.compile(Grammar(rules))
        self.assertEqual(
            parse(tokenize, 'a'),
            ('goal_a', 'a')
        )

コード例 #3

ファイル: test.py プロジェクト: nbp/jsparagus

 def testExpandOptional(self):
     grammar = Grammar({'goal': [[]]})
     empties = {}
     # Unit test for gen.expand_optional_symbols_in_rhs
     self.assertEqual(
         list(
             gen.expand_optional_symbols_in_rhs(['ONE', 'TWO', '3'],
                                                grammar, empties)),
         [(['ONE', 'TWO', '3'], {})])
     self.assertEqual(
         list(
             gen.expand_optional_symbols_in_rhs(
                 ['a', 'b', Optional('c')], grammar, empties)),
         [(['a', 'b'], {
             2: None
         }), (['a', 'b', 'c'], {})])
     self.assertEqual(
         list(
             gen.expand_optional_symbols_in_rhs(
                 [Optional('a'), Optional('b')], grammar, empties)),
         [([], {
             0: None,
             1: None
         }), (['a'], {
             1: None
         }), (['b'], {
             0: None
         }), (['a', 'b'], {})])

コード例 #4

ファイル: test.py プロジェクト: nbp/jsparagus

    def testArithmetic(self):
        tokenize = lexer.LexicalGrammar("+ - * / ( )",
                                        NUM=r'[0-9]\w*',
                                        VAR=r'[A-Za-z]\w*')
        arith_grammar = Grammar({
            'expr': [
                ['term'],
                ['expr', '+', 'term'],
                ['expr', '-', 'term'],
            ],
            'term': [
                ['prim'],
                ['term', '*', 'prim'],
                ['term', '/', 'prim'],
            ],
            'prim': [
                ['NUM'],
                ['VAR'],
                ['(', 'expr', ')'],
            ],
        })
        self.compile(tokenize, arith_grammar)

        self.assertParse('2 * 3 + 4 * (5 + 7)',
                         ('expr 1', ('term 1', '2', '*', '3'), '+',
                          ('term 1', '4', '*',
                           ('prim 2', '(', ('expr 1', '5', '+', '7'), ')'))))

        self.assertNoParse("(", message="unexpected end of input")
        self.assertNoParse(
            ")", message="expected one of ['(', 'NUM', 'VAR'], got ')'")

コード例 #5

ファイル: test.py プロジェクト: mconca/jsparagus

    def testLookaheadDisambiguation(self):
        """A lookahead restriction should be able to rule out certain nonterminals entirely."""

        grammar = Grammar({
            'Script': [
                ['Statement'],
                ['Statement', 'Statement'],
            ],
            'Statement': [
                [
                    LookaheadRule(frozenset({'function'}), False),
                    'Expression', ';'
                ],
                ['Function'],
            ],
            'Function': [
                ['function', 'x', '(', ')', '{', '}'],
            ],
            'Expression': [
                ['Primary'],
                ['++', 'Primary'],
                ['Primary', '++'],
            ],
            'Primary': [
                ['Function'],
                ['x'],
            ],
        })

        self.compile(lexer.LexicalGrammar("function x ( ) { } ++ ;"), grammar)
        self.assertParse("function x() {}")
        self.assertParse("++function x() {};")
        self.assertNoParse("++function x() {}", message="unexpected end")
        self.assertNoParse("function x() {}++;", message="got ';'")
        self.assertParse("function x() {} ++x;")

コード例 #6

ファイル: test.py プロジェクト: nbp/jsparagus

 def testLookaheadBeforeOptional(self):
     self.compile(
         lexer.LexicalGrammar('= : _',
                              PUBLIC=r'public\b',
                              IDENT=r'[a-z]+\b',
                              NUM=r'[0-9]\b'),
         Grammar({
             'decl': [
                 [
                     LookaheadRule(frozenset({'IDENT'}), True),
                     Optional('attrs'), 'pat', '=', 'NUM'
                 ],
             ],
             'attrs': [
                 ['attr'],
                 ['attrs', 'attr'],
             ],
             'attr': [
                 ['PUBLIC', ':'],
                 ['IDENT', ':'],
             ],
             'pat': [
                 ['IDENT'],
                 ['_'],
             ],
         }))
     self.assertEqual(self.parse("x = 0"), ("decl", None, "x", "=", "0"))
     self.assertParse("thread: x = 0")
     self.assertNoParse("public: x = 0",
                        message="expected 'IDENT', got 'PUBLIC'")
     self.assertNoParse("_ = 0", message="expected 'IDENT', got '_'")
     self.assertParse("funny: public: x = 0")
     self.assertParse("funny: _ = 0")

コード例 #7

ファイル: test.py プロジェクト: evilpie/jsparagus

    def testLeftHandSideExpression(self):
        """Example of a grammar that's in SLR(1) but hard to smoosh into an LL(1) form.

        This is taken from the ECMAScript grammar.

        ...Of course, it's not really possible to enforce the desired syntactic
        restrictions in LR(k) either; the ES grammar matches `(x + y) = z` and
        an additional attribute grammar (IsValidSimpleAssignmentTarget) is
        necessary to rule it out.
        """
        self.compile(
            lexer.LexicalGrammar("= +", VAR=r'[a-z]+\b'),
            Grammar({
                'AssignmentExpression': [
                    ['AdditiveExpression'],
                    ['LeftHandSideExpression', '=', 'AssignmentExpression'],
                ],
                'AdditiveExpression': [
                    ['LeftHandSideExpression'],
                    ['AdditiveExpression', '+', 'LeftHandSideExpression'],
                ],
                'LeftHandSideExpression': [
                    ['VAR'],
                ]
            })
        )
        self.assertParse("z = x + y")
        self.assertNoParse(
            "x + y = z",
            message="expected one of ['+', 'end of input'], got '='")

コード例 #8

ファイル: test.py プロジェクト: j-sow/jsparagus

    def testSimple(self):
        grammar = Grammar({
            'expr': [
                ['SYMBOL'],
                ['(', 'tail'],
            ],
            'tail': [
                [')'],
                ['expr', 'tail'],
            ],
        })
        self.compile(LispTokenizer, grammar)

        self.assertParse(
            "(lambda (x) (* x x))",
            ('expr_1',
                '(',
                ('tail_1',
                    'lambda',
                    ('tail_1',
                        ('expr_1', '(', ('tail_1', 'x', ')')),
                        ('tail_1',
                            ('expr_1',
                                '(',
                                ('tail_1',
                                    '*',
                                    ('tail_1',
                                        'x',
                                        ('tail_1', 'x', ')')))),
                            ')')))))

コード例 #9

ファイル: test.py プロジェクト: evilpie/jsparagus

    def testConvenienceMethodTypeInference(self):
        """A method can be called only in an intermediate reduce expression."""

        # The action `f(g($0))`.
        action = CallMethod("f", [CallMethod("g", [0])])

        # The grammar `goal ::= NAME => f(g($1))`.
        grammar = Grammar(
            {
                'goal': [Production(['NAME'], action)],
            },
            variable_terminals=['NAME'])

        # Since the return value of f() is used as the value of a `goal`,
        # we infer that f() returns a goal.
        self.assertEqual(
            grammar.methods['f'].return_type,
            jsparagus.types.NtType('goal'))

        # Since the return value of g() isn't used except as an argument, we
        # just give it the type `g`. I guess NtType is a bit of a misnomer for
        # this.
        self.assertEqual(
            grammar.methods['g'].return_type,
            jsparagus.types.NtType('g'))

        # Since g() is passed to f(), we infer this:
        self.assertEqual(
            grammar.methods['f'].argument_types,
            [jsparagus.types.NtType('g')])

コード例 #10

ファイル: test.py プロジェクト: evilpie/jsparagus

    def disabledNegativeLookaheadDisambiguation(self):
        tokenize = lexer.LexicalGrammar(
            '( ) { } ; function =',
            IDENT=r'[A-Za-z_][A-Za-z_0-9]*')
        grammar = Grammar({
            'stmts': [
                ['stmt'],
                ['stmts', 'stmt'],
            ],
            'stmt': [
                [LookaheadRule(set=frozenset({'function'}), positive=False),
                 'expr', ';'],
                ['fndecl'],
            ],
            'fndecl': [
                ['function', 'IDENT', '(', ')', '{', Optional('stmt'), '}'],
            ],
            'expr': [
                ['term'],
                ['IDENT', '=', 'expr'],
            ],
            'term': [
                ['(', 'expr', ')'],
                ['fndecl'],
                ['term', '(', 'expr', ')'],
            ],
        })
        parse = gen.compile(grammar)

        # Test that without the lookahead restriction, we reject this grammar
        # (it's ambiguous):
        del grammar['stmt'][0][0]
        self.assertRaisesRegex(ValueError,
                               'banana',
                               lambda: gen.compile(grammar))

        self.assertEqual(
            parse(tokenize, 'function f() { x = function y() {}; }'),
            ('stmt', 1,
                ('fndecl',
                    'function', 'f', '(', ')', '{',
                    ('stmt', 0,
                        ('expr', 1,
                            'x',
                            '=',
                            ('expr', 0,
                                ('term', 1,
                                    ('fndecl',
                                        'function', 'y', '(', ')',
                                        '{', None, '}')))),
                        ';'))))

        self.assertEqual(
            parse(tokenize, '(function g(){});'),
            ('stmts', 0,
                ('stmt', 0,
                    ('term', 1,
                        ('fndecl',
                            'function', 'g', '(', ')', '{', None, '}')),
                    ';')))

コード例 #11

ファイル: test.py プロジェクト: evilpie/jsparagus

 def testEmptyGrammar(self):
     tokenize = lexer.LexicalGrammar("X")
     self.compile(tokenize, Grammar({'goal': [[]]}))
     self.assertParse("", ('goal',))
     self.assertNoParse(
         "X",
         message="expected 'end of input', got 'X' (line 1)")

コード例 #12

ファイル: test.py プロジェクト: evilpie/jsparagus

    def testSimple(self):
        grammar = Grammar({
            'expr': [
                ['SYMBOL'],
                ['(', 'tail'],
            ],
            'tail': [
                [')'],
                ['expr', 'tail'],
            ],
        })
        parse = gen.compile(grammar)

        parsed = parse(LispTokenizer, "(lambda (x) (* x x))")
        self.assertEqual(
            parsed,
            ('expr 1',
                '(',
                ('tail 1',
                    'lambda',
                    ('tail 1',
                        ('expr 1', '(', ('tail 1', 'x', ')')),
                        ('tail 1',
                            ('expr 1',
                                '(',
                                ('tail 1',
                                    '*',
                                    ('tail 1',
                                        'x',
                                        ('tail 1', 'x', ')')))),
                            ')')))))

コード例 #13

ファイル: test.py プロジェクト: evilpie/jsparagus

    def testLookaheadWithCanonicalLR(self):
        """Only a lookahead assertion makes this grammar unambiguous."""
        tokenize = lexer.LexicalGrammar("async => { } ;", Identifier=r'\w+')
        grammar = Grammar({
            "script": [
                ["Expression", ";"],
            ],
            "Expression": [
                ["PrimaryExpression"],
                ["async", "Identifier", "=>", "AsyncConciseBody"],
            ],
            "AsyncConciseBody": [
                [LookaheadRule(set=frozenset(["{"]), positive=False),
                 "Expression"],
                ["{", "}"],
            ],
            "PrimaryExpression": [
                ["{", "}"],
            ],
        })

        self.compile(tokenize, grammar)
        self.assertParse("{};")
        self.assertParse("async x => {};")
        self.assertParse("async x => async y => {};")

コード例 #14

ファイル: test.py プロジェクト: evilpie/jsparagus

    def testDeepRecursion(self):
        grammar = Grammar({
            'expr': [
                ['SYMBOL'],
                ['(', ')'],
                ['(', 'exprs', ')'],
            ],
            'exprs': [
                ['expr'],
                ['exprs', 'expr'],
            ],
        })
        parse = gen.compile(grammar)

        N = 3000
        s = "x"
        t = ('expr 0', 'x')
        for i in range(N):
            s = "(" + s + ")"
            t = ('expr 2', '(', t, ')')

        result = parse(LispTokenizer, s)

        # Python can't check that result == t; it causes a RecursionError.
        # Testing that repr(result) == repr(t), same deal. So:
        for i in range(N):
            self.assertIsInstance(result, tuple)
            self.assertEqual(len(result), 4)
            self.assertEqual(result[0], 'expr 2')
            self.assertEqual(result[1], '(')
            self.assertEqual(result[3], ')')
            result = result[2]

コード例 #15

ファイル: test.py プロジェクト: evilpie/jsparagus

 def testMultiGoal(self):
     tokenize = lexer.LexicalGrammar("WHILE DEF FN { } ( ) -> ;", ID=r'\w+')
     grammar = Grammar({
         "stmt": [
             ["expr", ";"],
             ["{", "stmts", "}"],
             ["WHILE", "(", "expr", ")", "stmt"],
             ["DEF", "ID", "(", "ID", ")", "{", Optional("stmts"), "}"],
         ],
         "stmts": [
             ["stmt"],
             ["stmts", "stmt"],
         ],
         "expr": [
             ["FN", "ID", "->", "expr"],
             ["call_expr"],
         ],
         "call_expr": [
             ["ID"],
             ["call_expr", "(", "expr", ")"],
             ["(", "expr", ")"],
         ],
     }, goal_nts=["stmts", "expr"])
     self.compile_multi(tokenize, grammar)
     self.assertParse("WHILE ( x ) { decx ( x ) ; }", goal="stmts")
     self.assertNoParse(
         "WHILE ( x ) { decx ( x ) ; }", goal="expr",
         message="expected one of ['(', 'FN', 'ID'], got 'WHILE'")
     self.assertParse("f(x);", goal="stmts")
     self.assertNoParse("f(x);", goal="expr",
                        message="expected 'end of input', got ';'")
     self.assertParse("(FN x -> f ( x ))(x)", goal="expr")
     self.assertNoParse("(FN x -> f ( x ))(x)", goal="stmts",
                        message="unexpected end of input")

コード例 #16

ファイル: test.py プロジェクト: evilpie/jsparagus

    def testLeftFactorMultiLevel(self):
        """Test left-factoring again on a nonterminal introduced by
        left-factoring."""
        tokenize = lexer.LexicalGrammar("FOR IN TO BY ( ) = ;",
                                        VAR=r'[A-Za-z]+')

        # The first left-factoring pass on `stmt` will left-factor `FOR ( VAR`.
        # A second pass is needed to left-factor `= expr TO expr`.
        grammar = Grammar({
            'stmt': [
                ['expr', ';'],
                ['FOR', '(', 'VAR', 'IN', 'expr', ')', 'stmt'],
                ['FOR', '(', 'VAR', '=', 'expr', 'TO', 'expr', ')', 'stmt'],
                ['FOR', '(', 'VAR', '=', 'expr', 'TO', 'expr',
                 'BY', 'expr', ')', 'stmt'],
                ['IF', '(', 'expr', ')', 'stmt'],
            ],
            'expr': [
                ['VAR'],
            ],
        })
        parse = gen.compile(grammar)
        self.assertEqual(
            parse(tokenize, "FOR (x IN y) z;"),
            ('stmt 1', 'FOR', '(', 'x', 'IN', 'y', ')',
             ('stmt 0', 'z', ';')))
        self.assertEqual(
            parse(tokenize, "FOR (x = y TO z) x;"),
            ('stmt 2', 'FOR', '(', 'x', '=', 'y', 'TO', 'z', ')',
             ('stmt 0', 'x', ';')))
        self.assertEqual(
            parse(tokenize, "FOR (x = y TO z BY w) x;"),
            ('stmt 3', 'FOR', '(', 'x', '=', 'y', 'TO', 'z', 'BY', 'w', ')',
             ('stmt 0', 'x', ';')))

コード例 #17

ファイル: test.py プロジェクト: evilpie/jsparagus

 def check(rules):
     grammar = Grammar(rules, goal_nts=['goal'])
     out = io.StringIO()
     self.assertRaisesRegex(
         ValueError,
         r"ambiguous grammar|reduce-reduce conflict",
         lambda: gen.generate_parser(out, grammar))

コード例 #18

ファイル: test.py プロジェクト: evilpie/jsparagus

 def testList(self):
     list_grammar = Grammar({
         'prelist': [
             ['word', 'list']
         ],
         'list': [
             ['word'],
             ['list', 'word'],
         ],
         'word': [
             ['SYMBOL']
         ],
     })
     parse = gen.compile(list_grammar)
     self.assertEqual(
         parse(LispTokenizer,
               "the quick brown fox jumped over the lazy dog"),
         ('prelist',
             'the',
             ('list 1',
                 ('list 1',
                     ('list 1',
                         ('list 1',
                             ('list 1',
                                 ('list 1',
                                     ('list 1',
                                         'quick',
                                         'brown'),
                                     'fox'),
                                 'jumped'),
                             'over'),
                         'the'),
                     'lazy'),
                 'dog')))

コード例 #19

ファイル: test.py プロジェクト: evilpie/jsparagus

 def testStaggeredItems(self):
     """Items in a state can have different amounts of leading context."""
     # In this example grammar, after "A" "B", we're in a state that
     # contains these two items (ignoring lookahead):
     #       goal ::= "A" "B" · y
     #       x ::= "B" · stars "X"
     #
     # Likewise, after `"A" "B" stars`, we have:
     #       x ::= "B" stars · "X"
     #       y ::= stars · "Y"
     #       stars ::= stars · "*"
     tokenize = lexer.LexicalGrammar("A B * X Y")
     grammar = Grammar({
         "goal": [
             ["A", "x"],
             ["A", "B", "y"],
         ],
         "x": [
             ["B", "stars", "X"],
         ],
         "y": [
             ["stars", "Y"],
         ],
         "stars": [
             ["*"],
             ["stars", "*"],
         ],
     })
     self.compile(tokenize, grammar)
     self.assertParse("A B * * * X")
     self.assertParse("A B * * * Y")

コード例 #20

ファイル: test.py プロジェクト: evilpie/jsparagus

    def testCanonicalLR(self):
        """Example 4.39 (grammar 4.20) from the book."""

        # Modified as marked below
        grammar = Grammar({
            "S": [
                ["L", "=", "R"],
                ["R"],
            ],
            "L": [
                ["*", "R"],
                ["id"],
            ],
            "R": [
                ["L"],
                # added so we can have a negative test, showing that
                # `R = R` is not an S:
                ["7"],
            ],
        })
        self.compile(lexer.LexicalGrammar("id = * 7"), grammar)
        self.assertParse("id = *id")
        self.assertParse("*id = id")
        self.assertParse("id = 7")
        self.assertNoParse("7 = id",
                           message="expected 'end of input', got '='")

コード例 #21

ファイル: test.py プロジェクト: evilpie/jsparagus

    def testReduceActions(self):
        tokenize = lexer.LexicalGrammar("+ - * / ( )",
                                        NUM=r'[0-9]\w*',
                                        VAR=r'[A-Za-z]\w*')
        grammar = Grammar({
            "expr": [
                ["term"],
                prod(["expr", "+", "term"], "add"),
                prod(["expr", "-", "term"], "sub"),
            ],
            "term": [
                ["unary"],
                prod(["term", "*", "unary"], "mul"),
                prod(["term", "/", "unary"], "div"),
            ],
            "unary": [
                ["prim"],
                prod(["-", "prim"], "neg"),
            ],
            "prim": [
                prod(["(", "expr", ")"], "parens"),
                prod(["NUM"], "num"),
                prod(["VAR"], "var"),
            ],
        }, goal_nts=['expr'])

        self.compile(tokenize, grammar)
        self.assertParse("X", ('var', 'X'))
        self.assertParse("3 + 4", ('add', ('num', '3'), '+', ('num', '4')))
        self.assertParse(
            "2 * 3 + 4 * (5 + 7)",
            (
                'add',
                ('mul', ('num', '2'), '*', ('num', '3')),
                '+',
                (
                    'mul',
                    ('num', '4'),
                    '*',
                    ('parens', '(',
                        ('add', ('num', '5'), '+', ('num', '7')), ')'))))
        self.assertParse(
            "1 / (1 + 1 / (1 + 1 / (1 + 1)))",
            (
                'div', ('num', '1'), '/', (
                    'parens', '(', (
                        'add', ('num', '1'), '+', (
                            'div', ('num', '1'), '/', (
                                'parens', '(', (
                                    'add', ('num', '1'), '+', (
                                        'div', ('num', '1'), '/', (
                                            'parens', '(', (
                                                'add', ('num', '1'), '+',
                                                ('num', '1')),
                                            ')'))),
                                ')'))),
                    ')')))

コード例 #22

ファイル: test.py プロジェクト: nbp/jsparagus

 def testParameterizedProductions(self):
     passthru = ('Yield', Var('Yield')),
     name = Nt("name", passthru)
     stmt = Nt("stmt", passthru)
     stmts = Nt("stmts", passthru)
     grammar = Grammar(
         {
             'script': [
                 ['def'],
                 ['script', 'def'],
             ],
             'def': [
                 [
                     'function', 'IDENT', '(', ')', '{',
                     Nt('stmts', (('Yield', False), )), '}'
                 ],
                 [
                     'function', '*', 'IDENT', '(', ')', '{',
                     Nt('stmts', (('Yield', True), )), '}'
                 ],
             ],
             'stmts':
             NtDef(['Yield'], [
                 [stmt],
                 [stmts, stmt],
             ], None),
             'stmt':
             NtDef(['Yield'], [
                 [name, "(", ")", ";"],
                 [name, "=", name, ";"],
                 Production(["yield", name, ";"],
                            reducer=CallMethod("yield_stmt", [1]),
                            condition=('Yield', True)),
             ], None),
             'name':
             NtDef(
                 ['Yield'],
                 [
                     ["IDENT"],
                     # Specifically ask for a method here, because otherwise we
                     # wouldn't get one and then type checking would fail.
                     Production(["yield"],
                                CallMethod("yield_as_name", []),
                                condition=('Yield', False)),
                 ],
                 None),
         },
         variable_terminals=["IDENT"])
     self.compile(
         lexer.LexicalGrammar("( ) { } ; * = function yield",
                              IDENT=r'[A-Za-z]\w*'), grammar)
     self.assertParse("function* farm() { cow = pig; yield cow; }")
     self.assertNoParse(
         "function city() { yield toOncomingTraffic; }",
         message="expected one of ['(', ';', '='], got 'IDENT'")
     self.assertNoParse("function* farm() { yield = corn; yield yield; }",
                        message="expected 'IDENT', got '='")

コード例 #23

ファイル: test.py プロジェクト: evilpie/jsparagus

 def testEnd(self):
     self.compile(
         lexer.LexicalGrammar("ONE TWO"),
         Grammar({
             'goal': [
                 ['ONE', 'TWO']
             ]
         })
     )
     self.assertNoParse("ONE TWO TWO",
                        message="expected 'end of input', got 'TWO'")

コード例 #24

ファイル: test.py プロジェクト: nbp/jsparagus

 def testLeftFactorMulti(self):
     """Test left-factoring with common prefix of length >1."""
     tokenize = lexer.LexicalGrammar("A B C D E")
     grammar = Grammar({
         'goal': [
             ['A', 'B', 'C', 'D'],
             ['A', 'B', 'C', 'E'],
         ],
     })
     self.compile(tokenize, grammar)
     self.assertParse("A B C D", ('goal 0', 'A', 'B', 'C', 'D'))
     self.assertParse("A B C E", ('goal 1', 'A', 'B', 'C', 'E'))

コード例 #25

ファイル: test.py プロジェクト: evilpie/jsparagus

 def testEpsilonFreeTransform(self):
     tokenize = lexer.LexicalGrammar('{ } X')
     grammar = Grammar({
         'goal': [
             ['{', 'xlist', '}'],
         ],
         'xlist': [
             [],
             ['xlist', 'X'],
         ],
     })
     self.compile(tokenize, grammar)
     self.assertParse("{}", ('goal', '{', ('xlist 0',), '}'))

コード例 #26

ファイル: test.py プロジェクト: evilpie/jsparagus

    def testLeftFactor(self):
        """Most basic left-factoring test."""
        tokenize = lexer.LexicalGrammar("A B")
        grammar = Grammar({
            'goal': [
                ['A'],
                ['A', 'B'],
            ],
        })

        self.compile(tokenize, grammar)
        self.assertParse("A", 'A')
        self.assertParse("A B", ('goal 1', 'A', 'B'))

コード例 #27

ファイル: test.py プロジェクト: mconca/jsparagus

    def testMissingParameterError(self):
        grammar = {
            'Foo': [
                ['Bar'],
            ],
            'Bar':
            NtDef(('Arg', ), [
                ['NUM'],
                Production(['STR'], reducer=0, condition=('Arg', True)),
            ], None),
        }

        self.assertRaisesRegex(ValueError, "missing parameters for 'Bar'",
                               lambda: Grammar(grammar))

コード例 #28

ファイル: test.py プロジェクト: evilpie/jsparagus

 def testCheckCycleFree(self):
     tokenize = lexer.LexicalGrammar("!")
     grammar = Grammar({
         "problem": [
             ["one", "two"],
         ],
         "one": [
             ["!"],
         ],
         "two": [
             [Optional("problem")],
         ],
     })
     self.compile(tokenize, grammar)
     self.assertParse("! ! ! ! !")

コード例 #29

ファイル: test.py プロジェクト: evilpie/jsparagus

    def testArithmetic(self):
        tokenize = lexer.LexicalGrammar(
            "+ - * / ( )",
            NUM=r'[0-9]\w*',
            VAR=r'[A-Za-z]\w*')
        arith_grammar = Grammar({
            'expr': [
                ['term'],
                ['expr', '+', 'term'],
                ['expr', '-', 'term'],
            ],
            'term': [
                ['prim'],
                ['term', '*', 'prim'],
                ['term', '/', 'prim'],
            ],
            'prim': [
                ['NUM'],
                ['VAR'],
                ['(', 'expr', ')'],
            ],
        })
        parse = gen.compile(arith_grammar)

        self.assertEqual(
            parse(tokenize, '2 * 3 + 4 * (5 + 7)'),
            ('expr 1',
                ('term 1', '2', '*', '3'),
                '+',
                ('term 1',
                    '4',
                    '*',
                    ('prim 2',
                        '(',
                        ('expr 1', '5', '+', '7'),
                        ')'))))

        self.assertRaisesRegex(
            SyntaxError,
            r"unexpected end of input",
            lambda: parse(tokenize, "("))
        self.assertRaisesRegex(
            SyntaxError,
            r"expected one of \['\(', 'NUM', 'VAR'], got '\)'",
            lambda: parse(tokenize, ")"))

コード例 #30

ファイル: test.py プロジェクト: evilpie/jsparagus

 def testForLookahead(self):
     grammar = Grammar({
         'Stmt': [
             [';'],
             ['ForStmt'],
         ],
         'ForStmt': [
             ["for", "(", LookaheadRule(frozenset({"let"}), False),
              "Expr", ";", ";", ")", "Stmt"],
         ],
         'Expr': [
             ["0"],
             ["let"],
         ],
     })
     self.compile(lexer.LexicalGrammar("for ( let ; ) 0"), grammar)
     self.assertParse("for (0;;) ;")
     self.assertNoParse("for (let;;) ;", message="expected '0', got 'let'")