Exemplo n.º 1
0
def compile():
    INI = pe.compile(r'''
        Start   <- (Comment* Section)* Comment* EOF
        Section <- Header Body
        Header  <- Space* Title Space* (EOL / EOF)
        Title   <- '[' ~(![\]=\n\r] .)* ']'
        Body    <- (Comment* Pair)*
        Pair    <- Space* Key ('=' val:Value)?
        Key     <- !Title (![=\n\r] .)+
        Value   <- ('\\' EOL / !EOL .)*

        Comment <- (Space* ';' (!EOL .)* / Space+) (EOL / EOF)
                 / EOL
        Space   <- [\t ]
        EOL     <- '\r\n' / [\n\r]
        EOF     <- !.
        ''',
                     actions={
                         'Start': Pack(dict),
                         'Section': Pack(tuple),
                         'Body': Pack(dict),
                         'Pair': lambda key, val=None: (key, val),
                         'Key': Capture(str.strip),
                         'Value': Capture(_normalize_multiline),
                     },
                     parser='machine',
                     flags=pe.OPTIMIZE)
    return lambda s: INI.match(s).value()
Exemplo n.º 2
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def compile():
    Json = pe.compile(r'''
        # Syntactic rules
        Start    <- Spacing Value EOF
        Value    <- Object / Array / String / Number / Constant
        Object   <- LBRACE (Member (COMMA Member)*)? RBRACE
        Member   <- String COLON Value
        Array    <- LBRACK (Value (COMMA Value)*)? RBRACK
        String   <- ["] CHAR* ( ESC CHAR* )* ["]
        Number   <- INTEGER FRACTION? EXPONENT?
        Constant <- TRUE / FALSE / NULL

        # Lexical rules
        CHAR     <- [ !#-\[\]-\U0010ffff]
        ESC      <- '\\' ( ["\\/bfnrt]
                         / 'u' HEX HEX HEX HEX )
        HEX      <- [0-9a-fA-F]
        INTEGER  <- "-"? ("0" / [1-9] [0-9]*)
        FRACTION <- "." [0-9]+
        EXPONENT <- [eE] [-+]? [0-9]+
        TRUE     <- "true"
        FALSE    <- "false"
        NULL     <- "null"
        LBRACE   <- "{" Spacing
        RBRACE   <- Spacing "}"
        LBRACK   <- "[" Spacing
        RBRACK   <- Spacing "]"
        COMMA    <- Spacing "," Spacing
        COLON    <- Spacing ":" Spacing
        Spacing  <- [\t\n\r ]*
        EOF      <- Spacing !.
        ''',
                      actions={
                          'Object': Pack(dict),
                          'Member': Pack(tuple),
                          'Array': Pack(list),
                          'String': Capture(json_unescape),
                          'Number': Capture(float),
                          'TRUE': Constant(True),
                          'FALSE': Constant(False),
                          'NULL': Constant(None),
                      },
                      parser='machine',
                      flags=pe.OPTIMIZE)
    return lambda s: Json.match(s, flags=pe.STRICT).value()
Exemplo n.º 3
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    ('Cap6', Chc(Seq(Cap(abc), Cap(xyz)),
                 Seq(Cap(abc), Cap(abc))), 'aa', 0, 2, (('a', 'a'), {}, 'a')),
    # Capture suppresses inner values
    ('Cap7', Cap(Cap(abc)), 'abc', 0, 1, (('a', ), {}, 'a')),
    ('Cap8', Cap(Bnd(Cap(abc), name='x')), 'abc', 0, 1, (('a', ), {}, 'a')),
    ('Cap9', Cap(Rul(Cap(abc), lambda x: int(x, 16),
                     name='A')), 'abc', 0, 1, (('a', ), {}, 'a')),
    ('Rul0', Rul(abc, None), 'a', 0, 1, _blank),
    ('Rul1', Rul(Cap(abc), None), 'a', 0, 1, (('a', ), {}, 'a')),
    ('Rul2', Rul(abc, None), 'd', 0, FAIL, None),
    ('Rul3', Rul(Cap(abc), lambda x: int(x, 16),
                 name='A'), 'a', 0, 1, ((10, ), {}, 10)),
    ('Rul4', Rul(Cap(abc), lambda x: int(x, 16),
                 name='A'), 'd', 0, FAIL, None),
    ('Rul5', Rul(Seq(Cap('a'), Cap('b')),
                 action=Pack(list)), 'ab', 0, 2, ((['a',
                                                    'b'], ), {}, ['a', 'b'])),

    # Regression tests for Machine Parser
    ('Rgr0', Cap(Sym('abc')), 'a', 0, 1, (('a', ), {}, 'a')),
    ('Rgr1', Cap(Sym('abcs')), 'aaa', 0, 3, (('aaa', ), {}, 'aaa')),
    ('Rgr2', Seq(abc, Not(Dot())), 'a', 0, 1, _blank),
]


@pytest.mark.parametrize(
    'parser,dfn,input,pos,end,match',
    [(parser, ) + row[1:]
     for parser in [PackratParser, PyMachineParser, CyMachineParser]
     for row in data],
    ids=[
Exemplo n.º 4
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Arquivo: json.py Projeto: goodmami/pe
    FALSE    <- "false"
    NULL     <- "null"
    LBRACE   <- "{" Spacing
    RBRACE   <- Spacing "}"
    LBRACK   <- "[" Spacing
    RBRACK   <- Spacing "]"
    COMMA    <- Spacing "," Spacing
    COLON    <- Spacing ":" Spacing
    Spacing  <- [\t\n\f\r ]*
    EOF      <- !.
    BADVALUE <- ![}\]] .
    BADCOMMA <- ',' &(RBRACE / RBRACK)
    ''',
                  actions={
                      'Object': Pair(dict),
                      'Array': Pack(list),
                      'Integer': Capture(int),
                      'Float': Capture(float),
                      'TRUE': Constant(True),
                      'FALSE': Constant(False),
                      'NULL': Constant(None),
                      'BADVALUE': Fail('unexpected JSON value'),
                      'BADCOMMA': Fail('trailing commas are not allowed'),
                  })


def _match(s):
    return Json.match(s, flags=pe.STRICT | pe.MEMOIZE).value()


def test_numbers():
Exemplo n.º 5
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from pe import Match
from pe.operators import Literal, Sequence, Capture, Bind, Rule
from pe.actions import Pack

One = Literal('1')
CaptureOne = Capture(Literal('1'))
OneTwo = Sequence(Literal('1'), Literal('2'))
OneCaptureTwo = Sequence(Literal('1'), Capture(Literal('2')))
OneBindTwo = Sequence(Literal('1'), Bind(Literal('2'), name='x'))
OneBindCaptureTwo = Sequence(Literal('1'), Bind(Capture(Literal('2')),
                                                name='x'))
OneTwoRule = Rule(Sequence(Capture(Literal('1')), Capture(Literal('2'))),
                  action=Pack(list))


def test_Match_atom():
    m = Match('123', 0, 1, One, (), {})
    assert m.string == '123'
    assert m.start() == 0
    assert m.end() == 1
    assert m.span() == (0, 1)
    assert m.pe is One
    assert m.group(0) == '1'
    assert m.groups() == ()
    assert m.groupdict() == {}
    assert m.value() is None


def test_Match_capture_atom():
    m = Match('123', 0, 1, CaptureOne, ('1', ), {})
    assert m.string == '123'
Exemplo n.º 6
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Arquivo: toml.py Projeto: goodmami/pe
def toml_time_offset(s):
    if s in 'Zz':
        return datetime.timezone(datetime.timedelta(0))
    else:
        hour, minutes = s.split(':')
        return datetime.timezone(
            datetime.timedelta(hours=int(hour), minutes=int(minutes)))


def toml_sec_frac(s):
    return int(float(s) * 1000)


actions = {
    'toml': Pack(toml_reduce),
    'keyval': Pack(tuple),
    'key': Pack(tuple),
    'basic_string': toml_unescape,
    'ml_basic_string': Join(toml_unescape),
    'dec_int': int,
    'hex_int': lambda x: int(x, 16),
    'oct_int': lambda x: int(x, 8),
    'bin_int': lambda x: int(x, 2),
    'float': Capture(float),
    'true': Constant(True),
    'false': Constant(False),
    'flexible_date_time': datetime.datetime,
    'local_time': datetime.time,
    'time_offset': toml_time_offset,
    'sec_frac': toml_sec_frac,
Exemplo n.º 7
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V.CLOSE = Sequence(')', V.Spacing)
V.DOT = Sequence('.', V.Spacing)

# Whitespace and comments

V.Spacing = Star(Choice(V.Space, V.Comment))
V.Space = Choice(Class(' \t'), V.EOL)
V.Comment = Sequence('#', Star(Sequence(Not(V.EOL), Dot())), Optional(V.EOL))
V.EOF = Not(Dot())
V.EOL = Choice('\r\n', '\n', '\r')

PEG = Grammar(
    definitions=V,
    actions={
        'Grammar':
        Pack(tuple),
        'Definition':
        Pack(tuple),
        'Expression':
        Pack(_make_prioritized),
        'Sequence':
        Pack(_make_sequential),
        'Valued':
        _make_valued,
        'AND':
        Constant(And),
        'NOT':
        Constant(Not),
        'TILDE':
        Constant(Capture),
        'Binding':