コード例 #1
0
ファイル: config.py プロジェクト: Haider-BA/walberla
def __parseNestedList( value,  dtype = float):
    from pyparsing import Word, Group, Forward, OneOrMore, Optional, alphanums, Suppress
    number = Word( alphanums + ".e-" ).setParseAction( lambda s,l,t: dtype(t[0]) )
    arr = Forward()
    element = number | arr
    arr << Group(Suppress('[') + ( OneOrMore(element + Optional(Suppress(",")) ) ) + Suppress(']') )
    return arr.parseString(value, parseAll = True).asList()[0]
コード例 #2
0
ファイル: parser.py プロジェクト: taveso/Concolic-testing
def parse_constraint_group(constraint_group):
	global valgrind_operations, size_by_var, offset_by_var, realsize_by_var, shift_by_var
	
	init_global_vars()
	
	lparen = Literal("(")
	rparen = Literal(")")

	func = Word(alphanums, alphanums+":_")
	integer = Word(nums)
	
	expression = Forward()

	arg = expression | func | integer
	args = arg + ZeroOrMore(","+arg)

	expression << func + lparen + args + rparen	
	expression.setParseAction(parse_function)
	
	valgrind_operations_group = []	
	for constraint in constraint_group:
		valgrind_operations = []
		
		expression.parseString(constraint)
		resize_operands()
		
		valgrind_operations_group.append(valgrind_operations)
	
	return (valgrind_operations_group, size_by_var, offset_by_var, realsize_by_var, shift_by_var)
コード例 #3
0
ファイル: parse_query.py プロジェクト: chandan5/mini-mysql
def parseQuery(queryString):
    try:
        parser = Forward();
        # parser << (Word(alphas).setResultsName( "first" ) + \
        #         #(' ').setResultsName( "delim" ) + \
        #         '*' + Word(alphas).setResultsName( "second"))
        # selectSpecialStmt = Forward.setResultsName("selectSpecialStmt");
        # selectSpecialStmt << (selectSpecialToken + "(" + table_columns + ")" + fromToken \
        #             + table.setResultsName("table"));
        selectStmt = Forward().setResultsName("selectStmt");
        selectStmt << ( selectToken + ( '*' | func_table_column | table_columns).setResultsName( "columns" ) \
                    + fromToken + tables.setResultsName("tables") \
                    + Optional(whereToken + whereExpression.setResultsName("conds") ) );
        deleteStmt = Forward().setResultsName("deleteStmt");
        deleteStmt << ( deleteToken + table.setResultsName("table") \
                    + whereToken + whereExpression.setResultsName("conds"));
        insertStmt = Forward().setResultsName("insertStmt");
        insertStmt << ( insertToken + table.setResultsName("table") + valuesToken \
                    + "(" + intNums.setResultsName("intValues") + ")" );
        createStmt = Forward().setResultsName("createStmt");
        createStmt << ( createToken + table.setResultsName("table") + "(" \
                    + Group(delimitedList(column + intToken)).setResultsName("fields") + ")" );
        truncateStmt = Forward().setResultsName("truncateStmt");
        truncateStmt << ( truncateToken + table.setResultsName("table"));
        dropStmt = Forward().setResultsName("dropStmt");
        dropStmt << ( dropToken + table.setResultsName("table"));
        parser = selectStmt | insertStmt | deleteStmt | createStmt | truncateStmt | dropStmt | exitToken;
        tokens = parser.parseString(queryString);
        # import pdb; pdb.set_trace()
        return tokens
    except Exception as e:
        # print e;
        print "Error in format."
        return [];
コード例 #4
0
ファイル: named.py プロジェクト: udoprog/bsa
def build_parser(root_directory, path, fake_root=os.getcwd(), file_reader=None):
    from pyparsing import nestedExpr
    from pyparsing import QuotedString
    from pyparsing import Group
    from pyparsing import restOfLine
    from pyparsing import Word
    from pyparsing import alphanums
    from pyparsing import cStyleComment
    from pyparsing import OneOrMore
    from pyparsing import ZeroOrMore
    from pyparsing import Optional
    from pyparsing import Forward
    from pyparsing import Literal
    from pyparsing import Keyword

    root = Forward()

    include_handler = IncludeHandler(
        root_directory,
        path,
        root,
        fake_root=fake_root,
        file_reader=file_reader)

    # relaxed grammar
    identifier = Word(alphanums + "-_.:/")

    comment = ("//" + restOfLine).suppress() \
        | ("#" + restOfLine).suppress() \
        | cStyleComment

    endstmt = Literal(";").suppress()

    argument = QuotedString('"') \
        | identifier

    arguments = ZeroOrMore(argument)

    statements = Forward()

    section = nestedExpr("{", "}", statements)

    include = Keyword("include").suppress() + QuotedString('"')

    regular = identifier + Group(arguments) + Optional(section, default=[])

    statement = include.setParseAction(include_handler.pyparsing_call) \
        | regular.setParseAction(include_handler.pyparsing_mark)

    statements << OneOrMore(statement + endstmt)

    root << Optional(statements)

    root.ignore(comment)

    setattr(
        root, 'parse_file',
        lambda f, root=root: root.parseFile(f, parseAll=True))

    return root
コード例 #5
0
ファイル: utils.py プロジェクト: Epzylon/EmailAnalizer
    def get_enclosed(self,raw):
    
        #Word ::= Ascii - Tokens
        non_token = "!#$%&\'*+,-./:;=?@\\^_`|~"
        word = Word(alphanums+non_token)
        #word = Word(printables)
    
        #Tokens ::= {}[]()<>
        tokens = "{}[]()<>"  
    
        o_curly,c_curly,o_brack,c_brack,o_paren,c_paren,o_mayor,c_mayor = map(Suppress,tokens)

        enclosed_data = Forward()
        
        #Enclosed groups
        curly_enclosed = OneOrMore(o_curly + enclosed_data + c_curly)
        brack_enclosed = OneOrMore(o_brack + enclosed_data + c_brack)
        paren_enclosed = OneOrMore(o_paren + enclosed_data + c_paren)
        mayor_enclosed = OneOrMore(o_mayor + enclosed_data + c_mayor)
    
        enclosed = Optional(curly_enclosed) & Optional(brack_enclosed) & Optional(paren_enclosed) & Optional(mayor_enclosed) 
    
        enclosed_data << ((OneOrMore(word) & enclosed) ^ enclosed)
    
        return enclosed_data.parseString(raw)
コード例 #6
0
ファイル: otr_private_key.py プロジェクト: a-u-me/keysync
    def parse_sexp(data):
        '''parse sexp/S-expression format and return a python list'''
        # define punctuation literals
        LPAR, RPAR, LBRK, RBRK, LBRC, RBRC, VBAR = map(Suppress, "()[]{}|")

        decimal = Word("123456789", nums).setParseAction(lambda t: int(t[0]))
        bytes = Word(printables)
        raw = Group(decimal.setResultsName("len") + Suppress(":") + bytes).setParseAction(OtrPrivateKeys.verifyLen)
        token = Word(alphanums + "-./_:*+=")
        base64_ = Group(Optional(decimal, default=None).setResultsName("len") + VBAR
            + OneOrMore(Word( alphanums +"+/=" )).setParseAction(lambda t: b64decode("".join(t)))
            + VBAR).setParseAction(OtrPrivateKeys.verifyLen)

        hexadecimal = ("#" + OneOrMore(Word(hexnums)) + "#")\
                        .setParseAction(lambda t: int("".join(t[1:-1]),16))
        qString = Group(Optional(decimal, default=None).setResultsName("len") +
                                dblQuotedString.setParseAction(removeQuotes)).setParseAction(OtrPrivateKeys.verifyLen)
        simpleString = raw | token | base64_ | hexadecimal | qString

        display = LBRK + simpleString + RBRK
        string_ = Optional(display) + simpleString

        sexp = Forward()
        sexpList = Group(LPAR + ZeroOrMore(sexp) + RPAR)
        sexp << ( string_ | sexpList )

        try:
            sexpr = sexp.parseString(data)
            return sexpr.asList()[0][1:]
        except ParseFatalException, pfe:
            print("Error:", pfe.msg)
            print(pfe.loc)
            print(pfe.markInputline())
コード例 #7
0
ファイル: ctl.py プロジェクト: toumix/eagle
    def parse(string):
        ''' returns either [atomic], [monoop, [f]] or [binop, [f1], [f2]]
            this method is static (no need for a CTL instance) '''
            
        lparen = Literal('(').suppress()
        rparen = Literal(')').suppress()
        wildcard = Literal('_')
        atom = Combine(Word(alphas) + Optional(Word('.0123456789'))
            ^ 'true' ^ 'false' ^ wildcard)
        
        term = Forward()
        term << (atom
            + Optional(lparen + Group(term) 
                + ZeroOrMore(Literal(',').suppress() + Group(term))
            + rparen))

        A = Optional('<-')+'A'
        E = Optional('<-')+'E'
        G, Gi, F, X, U = map(Literal, ('G', 'Gi', 'F', 'X', 'U'))
        UnOp = wildcard ^ '!' ^ Combine(A + (G^F^X)) ^ Combine(E + (G^Gi^F^X))
        BinOp = wildcard ^ Literal('or') ^ Literal('and') ^ Combine(A + U) ^ Combine(E + U)

        formula = Forward()
        formula << (Group(term) 
              ^ (lparen + formula + rparen) 
              ^ Group(UnOp + formula)
              ^ Group(BinOp + formula + formula))

        # 0 because we expect only one formula in the string
        return formula.parseString(string).asList()[0] 
コード例 #8
0
ファイル: arithmatic.py プロジェクト: iapain/eviscapelite
def compute(input_string):
    # Debugging flag can be set to either "debug_flag=True" or "debug_flag=False"
    debug_flag = False

    explain_list = []
    variables = {}

    # define grammar
    point = Literal(".")
    e = CaselessLiteral("E")
    plusorminus = Literal("+") | Literal("-")
    number = Word(nums)
    integer = Combine(Optional(plusorminus) + number)
    floatnumber = Combine(integer + Optional(point + Optional(number)) + Optional(e + integer))

    ident = Word(alphas, alphanums + "_")

    plus = Literal("+")
    minus = Literal("-")
    mult = Literal("*")
    div = Literal("/")
    lpar = Literal("(").suppress()
    rpar = Literal(")").suppress()
    addop = plus | minus
    multop = mult | div
    expop = Literal("^")
    assign = Literal("=")

    expr = Forward()
    atom = (e | floatnumber | integer | ident).setParseAction(pushFirst) | (lpar + expr.suppress() + rpar)

    factor = Forward()
    factor << atom + ZeroOrMore((expop + factor).setParseAction(pushFirst))

    term = factor + ZeroOrMore((multop + factor).setParseAction(pushFirst))
    expr << term + ZeroOrMore((addop + term).setParseAction(pushFirst))
    bnf = Optional((ident + assign).setParseAction(assignVar)) + expr

    pattern = bnf + StringEnd()

    if input_string != "":
        try:
            L = pattern.parseString(input_string)
        except ParseException, err:
            raise ComputationException, "Error while parsing"
        print exprStack
        if len(exprStack) <= 1:
            return None
        result = evaluateStack(exprStack, explain_list)
        if len(str(result)) > 12:
            ret = "%e" % result
        else:
            ret = str(result)
        ret = ret.replace("e", " x 10^")
        ret = ret.replace("+", "")
        if len(explain_list):
            return "%s (%s)" % (ret, ", ".join(explain_list))
        else:
            return "%s" % ret
コード例 #9
0
ファイル: parsing.py プロジェクト: ancailliau/pynusmv
def parseATL(spec):
    """Parse the spec and return the list of possible ASTs."""
    global __atl
    if __atl is None:
        true = Literal("True")
        true.setParseAction(lambda tokens: TrueExp())
        false = Literal("False")
        false.setParseAction(lambda tokens: FalseExp())
        
        atom = "'" + SkipTo("'") + "'"
        atom.setParseAction(lambda tokens: Atom(tokens[1]))
        
        agent = atom
        group = Group(ZeroOrMore(agent + Suppress(",")) + agent)
        
        proposition = true | false | atom
        
        __atl = Forward()

        notproposition = "~" + proposition
        notproposition.setParseAction(lambda tokens: Not(tokens[1]))
        formula = (proposition | notproposition |
                   Suppress("(") + __atl + Suppress(")"))

        logical = Forward()
        
        
        cax = Literal("[") + group + "]" + "X" + logical
        cax.setParseAction(lambda tokens: CAX(tokens[1], tokens[4]))
        cex = Literal("<") + group + ">" + "X" + logical
        cex.setParseAction(lambda tokens: CEX(tokens[1], tokens[4]))
         
        caf = Literal("[") + group + "]" + "F" + logical
        caf.setParseAction(lambda tokens: CAF(tokens[1], tokens[4]))
        cef = Literal("<") + group + ">" + "F" + logical
        cef.setParseAction(lambda tokens: CEF(tokens[1], tokens[4]))
         
        cag = Literal("[") + group + "]" + "G" + logical
        cag.setParseAction(lambda tokens: CAG(tokens[1], tokens[4]))
        ceg = Literal("<") + group + ">" + "G" + logical           
        ceg.setParseAction(lambda tokens: CEG(tokens[1], tokens[4]))
         
        cau = Literal("[") + group + "]" + "[" + __atl + "U" + __atl + "]"
        cau.setParseAction(lambda tokens: CAU(tokens[1], tokens[4], tokens[6]))
        ceu = Literal("<") + group + ">" + "[" + __atl + "U" + __atl + "]"   
        ceu.setParseAction(lambda tokens: CEU(tokens[1], tokens[4], tokens[6]))
                                                                
        caw = Literal("[") + group + "]" + "[" + __atl + "W" + __atl + "]"   
        caw.setParseAction(lambda tokens: CAW(tokens[1], tokens[4], tokens[6]))
        cew = Literal("<") + group + ">" + "[" + __atl + "W" + __atl + "]"   
        cew.setParseAction(lambda tokens: CEW(tokens[1], tokens[4], tokens[6]))

        strategic = (cax | cex | caf | cef | cag | ceg | cau | ceu | caw | cew)
        
        logical <<= (formula | strategic)

        __atl <<= (_logicals_(logical))
    
    return __atl.parseString(spec, parseAll = True)
コード例 #10
0
ファイル: math_parser.py プロジェクト: capensis/canopsis
    def bnf(self):
        '''
        The BNF grammar is defined bellow.
        expop   :: '^'
        multop  :: '*' | '/'
        addop   :: '+' | '-'
        integer :: ['+' | '-'] '0'..'9'+
        atom    :: PI | E | real | fn '(' expr ')' | '(' expr ')'
        factor  :: atom [ expop factor ]*
        term    :: factor [ multop factor ]*
        expr    :: term [ addop term ]*
        '''
        if not self._bnf:
            point = Literal(".")
            e = CaselessLiteral("E")
            fnumber = Combine(
                Word("+-"+nums, nums) +
                Optional(point + Optional(Word(nums))) +
                Optional(e + Word("+-" + nums, nums))
            )
            ident = Word(alphas, alphas + nums + "_$")
            minus = Literal("-")
            plus = Literal("+")
            div = Literal("/")
            mult = Literal("*")
            rpar = Literal(")").suppress()
            lpar = Literal("(").suppress()
            addop = plus | minus
            multop = mult | div
            expop = Literal("^")
            pi = CaselessLiteral("PI")

            expr = Forward()
            atom = (
                Optional("-") +
                (
                    pi |
                    e |
                    fnumber |
                    ident + lpar + delimitedList(expr) + rpar
                ).setParseAction(self.push_first) |
                (lpar + expr.suppress() + rpar)
            ).setParseAction(self.push_minus)

            # The right way to define exponentiation is -> 2^3^2 = 2^(3^2),
            # not (2^3)^2.
            factor = Forward()
            factor << atom + ZeroOrMore(
                (expop + factor).setParseAction(self.push_first)
            )

            term = factor + ZeroOrMore(
                (multop + factor).setParseAction(self.push_first)
            )
            expr << term + ZeroOrMore(
                (addop + term).setParseAction(self.push_first)
            )
            self._bnf = expr
        return self._bnf
コード例 #11
0
ファイル: parsing.py プロジェクト: sbusard/pynusmv
def parseArctl(spec):
    """Parse the spec and return its AST."""
    global __arctl
    if __arctl is None:
        true = Literal("True")
        true.setParseAction(lambda tokens: TrueExp())
        false = Literal("False")
        false.setParseAction(lambda tokens: FalseExp())
        atom = "'" + SkipTo("'") + "'"
        atom.setParseAction(lambda tokens: Atom(tokens[1]))

        action = _logicals_(atom)

        __arctl = Forward()

        proposition = true | false | atom

        notproposition = "~" + proposition
        notproposition.setParseAction(lambda tokens: Not(tokens[1]))
        formula = proposition | notproposition | Suppress("(") + __arctl + Suppress(")")

        temporal = Forward()

        e = Literal("E") + "<" + action + ">"
        a = Literal("A") + "<" + action + ">"

        eax = e + "X" + temporal
        eax.setParseAction(lambda tokens: EaX(tokens[2], tokens[5]))
        aax = a + "X" + temporal
        aax.setParseAction(lambda tokens: AaX(tokens[2], tokens[5]))

        eaf = e + "F" + temporal
        eaf.setParseAction(lambda tokens: EaF(tokens[2], tokens[5]))
        aaf = a + "F" + temporal
        aaf.setParseAction(lambda tokens: AaF(tokens[2], tokens[5]))

        eag = e + "G" + temporal
        eag.setParseAction(lambda tokens: EaG(tokens[2], tokens[5]))
        aag = a + "G" + temporal
        aag.setParseAction(lambda tokens: AaG(tokens[2], tokens[5]))

        eau = e + "[" + __arctl + "U" + __arctl + "]"
        eau.setParseAction(lambda tokens: EaU(tokens[2], tokens[5], tokens[7]))
        aau = a + "[" + __arctl + "U" + __arctl + "]"
        aau.setParseAction(lambda tokens: AaU(tokens[2], tokens[5], tokens[7]))

        eaw = e + "[" + __arctl + "W" + __arctl + "]"
        eaw.setParseAction(lambda tokens: EaW(tokens[2], tokens[5], tokens[7]))
        aaw = a + "[" + __arctl + "W" + __arctl + "]"
        aaw.setParseAction(lambda tokens: AaW(tokens[2], tokens[5], tokens[7]))

        temporal <<= formula | eax | aax | eaf | aaf | eag | aag | eau | aau | eaw | aaw

        logical = _logicals_(temporal)

        __arctl <<= logical

    return __arctl.parseString(spec, parseAll=True)
コード例 #12
0
ファイル: smart_parsing.py プロジェクト: fredsod/NIPAP
    def _string_to_ast(self, input_string):
        """ Parse a smart search string and return it in an AST like form
        """

        # simple words
        # we need to use a regex to match on words because the regular
        # Word(alphanums) will only match on American ASCII alphanums and since
        # we try to be Unicode / internationally friendly we need to match much
        # much more. Trying to expand a word class to catch it all seems futile
        # so we match on everything *except* a few things, like our operators
        comp_word = Regex("[^*\s=><~!]+")
        word = Regex("[^*\s=><~!]+").setResultsName('word')
        # numbers
        comp_number = Word(nums)
        number = Word(nums).setResultsName('number')

        # IPv4 address
        ipv4_oct = Regex("((2(5[0-5]|[0-4][0-9])|[01]?[0-9][0-9]?))")
        comp_ipv4_address = Combine(ipv4_oct + ('.' + ipv4_oct*3))
        ipv4_address = Combine(ipv4_oct + ('.' + ipv4_oct*3)).setResultsName('ipv4_address')

        # IPv6 address
        ipv6_address = Regex("((([0-9A-Fa-f]{1,4}:){7}([0-9A-Fa-f]{1,4}|:))|(([0-9A-Fa-f]{1,4}:){6}(:[0-9A-Fa-f]{1,4}|((25[0-5]|2[0-4]\d|1\d\d|[1-9]?\d)(\.(25[0-5]|2[0-4]\d|1\d\d|[1-9]?\d)){3})|:))|(([0-9A-Fa-f]{1,4}:){5}(((:[0-9A-Fa-f]{1,4}){1,2})|:((25[0-5]|2[0-4]\d|1\d\d|[1-9]?\d)(\.(25[0-5]|2[0-4]\d|1\d\d|[1-9]?\d)){3})|:))|(([0-9A-Fa-f]{1,4}:){4}(((:[0-9A-Fa-f]{1,4}){1,3})|((:[0-9A-Fa-f]{1,4})?:((25[0-5]|2[0-4]\d|1\d\d|[1-9]?\d)(\.(25[0-5]|2[0-4]\d|1\d\d|[1-9]?\d)){3}))|:))|(([0-9A-Fa-f]{1,4}:){3}(((:[0-9A-Fa-f]{1,4}){1,4})|((:[0-9A-Fa-f]{1,4}){0,2}:((25[0-5]|2[0-4]\d|1\d\d|[1-9]?\d)(\.(25[0-5]|2[0-4]\d|1\d\d|[1-9]?\d)){3}))|:))|(([0-9A-Fa-f]{1,4}:){2}(((:[0-9A-Fa-f]{1,4}){1,5})|((:[0-9A-Fa-f]{1,4}){0,3}:((25[0-5]|2[0-4]\d|1\d\d|[1-9]?\d)(\.(25[0-5]|2[0-4]\d|1\d\d|[1-9]?\d)){3}))|:))|(([0-9A-Fa-f]{1,4}:){1}(((:[0-9A-Fa-f]{1,4}){1,6})|((:[0-9A-Fa-f]{1,4}){0,4}:((25[0-5]|2[0-4]\d|1\d\d|[1-9]?\d)(\.(25[0-5]|2[0-4]\d|1\d\d|[1-9]?\d)){3}))|:))|(:(((:[0-9A-Fa-f]{1,4}){1,7})|((:[0-9A-Fa-f]{1,4}){0,5}:((25[0-5]|2[0-4]\d|1\d\d|[1-9]?\d)(\.(25[0-5]|2[0-4]\d|1\d\d|[1-9]?\d)){3}))|:)))(%.+)?").setResultsName('ipv6_address')
        ipv6_prefix = Combine(ipv6_address + Regex("/(12[0-8]|1[01][0-9]|[0-9][0-9]?)")).setResultsName('ipv6_prefix')

        # VRF RTs of the form number:number
        vrf_rt = Combine((comp_ipv4_address | comp_number) + Literal(':') + comp_number).setResultsName('vrf_rt')

        # tags
        tags = Combine( Literal('#') + comp_word).setResultsName('tag')

        # operators for matching
        match_op = oneOf(' '.join(self.match_operators)).setResultsName('operator')
        boolean_op = oneOf(' '.join(self.boolean_operators)).setResultsName('boolean')
        # quoted string
        d_quoted_string = QuotedString('"', unquoteResults=True, escChar='\\')
        s_quoted_string = QuotedString('\'', unquoteResults=True, escChar='\\')
        quoted_string = (s_quoted_string | d_quoted_string).setResultsName('quoted_string')
        # expression to match a certain value for an attribute
        expression = Group(word + match_op + (quoted_string | vrf_rt | word | number)).setResultsName('expression')
        # we work on atoms, which are single quoted strings, match expressions,
        # tags, VRF RT or simple words.
        # NOTE: Place them in order of most exact match first!
        atom = Group(ipv6_prefix | ipv6_address | quoted_string | expression | tags | vrf_rt | boolean_op | word)

        enclosed = Forward()
        parens = nestedExpr('(', ')', content=enclosed)
        enclosed << (
                parens | atom
                ).setResultsName('nested')

        content = Forward()
        content << (
                ZeroOrMore(enclosed)
                )

        res = content.parseString(input_string)
        return res
コード例 #13
0
ファイル: expression.py プロジェクト: Seairth/Orochi
    def _BNF(self):
        base16 = Literal("$")
        hex = Combine(base16 + Word(hexnums + "_"))

        base4 = Literal("%%")
        quaternary = Combine(base4 + Word("0123_"))

        base2 = Literal("%")
        binary = Combine(base2 + Word("01_"))

        plusminus = Literal("+") | Literal("-")
        integer = Combine(Optional(plusminus) + Word(nums+"_"))

        name_token = Combine(Optional(Literal(":") | Literal("@")) + Word("_" + alphas, "_" + alphanums))
        name_token.setParseAction(self._mark_name_token)

        lparens = Literal("(").suppress()
        rparens = Literal(")").suppress()

        # op0 = Literal("@")
        op1 = (Literal("^^") | Literal("||") | Literal("|<") | Literal(">|") | Literal("!")).setParseAction(self._mark_unary)
        op2 = Literal("->") | Literal("<-") | Literal(">>") | Literal("<<") | Literal("~>") | Literal("><")
        op3 = Literal("&")
        op4 = Literal("|") | Literal("^")
        op5 = Literal("**") | Literal("*") | Literal("//") | Literal("/")
        op6 = Literal("+") | Literal("-")
        op7 = Literal("#>") | Literal("<#")
        op8 = Literal("<") | Literal(">") | Literal("<>") | Literal("==") | Literal("=<") | Literal("=>")
        op9 = Literal("NOT").setParseAction(self._mark_unary)
        op10 = Literal("AND")
        op11 = Literal("OR")
        op12 = Literal(",")

        expr = Forward()

        atom = name_token | hex | quaternary | binary | integer | quotedString
        atom.setParseAction(self._push)
        atom = atom | (lparens + expr.suppress() + rparens)
 
        # term0  = atom   + ZeroOrMore((op0 + atom)   .setParseAction(self._push))
        # term1  = term0  + ZeroOrMore((op1 + term0)  .setParseAction(self._push))
        term1  = atom   + ZeroOrMore((op1 + atom)   .setParseAction(self._push))
        term2  = term1  + ZeroOrMore((op2 + term1)  .setParseAction(self._push))
        term3  = term2  + ZeroOrMore((op3 + term2)  .setParseAction(self._push))
        term4  = term3  + ZeroOrMore((op4 + term3)  .setParseAction(self._push))
        term5  = term4  + ZeroOrMore((op5 + term4)  .setParseAction(self._push))
        term6  = term5  + ZeroOrMore((op6 + term5)  .setParseAction(self._push))
        term7  = term6  + ZeroOrMore((op7 + term6)  .setParseAction(self._push))
        term8  = term7  + ZeroOrMore((op8 + term7)  .setParseAction(self._push))
        term9  = term8  + ZeroOrMore((op9 + term8)  .setParseAction(self._push))
        term10 = term9  + ZeroOrMore((op10 + term9) .setParseAction(self._push))
        term11 = term10 + ZeroOrMore((op11 + term10).setParseAction(self._push))
        expr  << term11 + ZeroOrMore((op12 + term11).setParseAction(self._push))

        return expr
コード例 #14
0
ファイル: parse.py プロジェクト: svbatalov/css-extract
def parser():
    rule    = Forward()
    body    = OneOrMore(CharsNotIn('{};') + ';')
    sel     = CharsNotIn('{};')

    rule    <<= sel + Group( '{' + ZeroOrMore( rule | body ) + '}' )

    rule.setParseAction( make_action(Rule) )

    stylesheet = ZeroOrMore( rule )
    stylesheet.ignore( cStyleComment )
    return stylesheet
コード例 #15
0
ファイル: expand-nested.py プロジェクト: argriffing/hp
def main(s):
    lpar = Literal('(').suppress()
    rpar = Literal(')').suppress()
    integer = Word(nums)
    element = Word(alphas, exact=1)
    formula = Forward()
    term = Group((element | Group(lpar + formula + rpar)('subgroup')) +
            Optional(integer, default=1)('mult'))
    formula << OneOrMore(term)
    integer.setParseAction(process_integer)
    term.setParseAction(process_term)
    formula.setParseAction(process_formula)
    return formula.parseString(s)[0]
コード例 #16
0
    def _BNF(self):
        """
        expop   :: '^'
        multop  :: '*' | '/'
        addop   :: '+' | '-'
        integer :: ['+' | '-'] '0'..'9'+
        atom    :: PI | E | real | fn '(' expr ')' | '(' expr ')'
        factor  :: atom [ expop factor ]*
        term    :: factor [ multop factor ]*
        expr    :: term [ addop term ]*
        """
        if not self.bnf:
            point = Literal( "." )
            e     = CaselessLiteral( "E" )
            fnumber = Combine( Word( "+-"+nums, nums ) + 
                               Optional( point + Optional( Word( nums ) ) ) +
                               Optional( e + Word( "+-"+nums, nums ) ) )
            ident = Word(alphas, alphas+nums+"_$")
         
            plus  = Literal( "+" )
            minus = Literal( "-" )
            mult  = Literal( "*" )
            div   = Literal( "/" )
            lpar  = Literal( "(" ).suppress()
            rpar  = Literal( ")" ).suppress()
#             comma = Literal( "," ).suppress()
            comma = Literal( "," )
            addop  = plus | minus
            multop = mult | div
            expop = Literal( "^" )
            pi    = CaselessLiteral( "PI" )
            var_list = [Literal(i) for i in self.var_names]
            
            expr = Forward()
            arg_func = Forward()
            or_vars = MatchFirst(var_list)
#             atom = (Optional("-") + ( pi | e | fnumber | ident + lpar + delimitedList(Group(expr)) + rpar | or_vars ).setParseAction( self._pushFirst ) | ( lpar + delimitedList(Group(expr)).suppress() + rpar ) ).setParseAction(self._pushUMinus) 
            atom = ((Optional("-") + ( pi | e | fnumber | ident + lpar + arg_func + rpar | or_vars ).setParseAction( self._pushFirst )) | \
                     (Optional("-") + ( lpar + arg_func.suppress() + rpar )) ).setParseAction(self._pushUMinus) 
            
#             expr + ZeroOrMore( "," + expr )
            # by defining exponentiation as "atom [ ^ factor ]..." instead of "atom [ ^ atom ]...", we get right-to-left exponents, instead of left-to-righ
            # that is, 2^3^2 = 2^(3^2), not (2^3)^2.
            factor = Forward()
            factor << atom + ZeroOrMore( ( expop + factor ).setParseAction( self._pushFirst ) )
            
            term = factor + ZeroOrMore( ( multop + factor ).setParseAction( self._pushFirst ) )
            expr << term + ZeroOrMore( ( addop + term ).setParseAction( self._pushFirst ) )
            arg_func << expr + ZeroOrMore( (comma + expr).setParseAction( self._pushFirst))
            self.bnf = expr
        return self.bnf
コード例 #17
0
def parse (input):
    # parse a string into an element of the abstract representation

    # Grammar:
    #
    # <expr> ::= <integer>
    #            true
    #            false
    #            <identifier>
    #            ( if <expr> <expr> <expr> )
    #            ( let ( ( <name> <expr> ) ) <expr )
    #            ( + <expr> <expr> )
    #            ( * <expr> <expr> )
    #


    idChars = alphas+"_+*-?!=<>"

    pIDENTIFIER = Word(idChars, idChars+"0123456789")
    pIDENTIFIER.setParseAction(lambda result: EId(result[0]))

    # A name is like an identifier but it does not return an EId...
    pNAME = Word(idChars,idChars+"0123456789")

    pINTEGER = Word("-0123456789","0123456789")
    pINTEGER.setParseAction(lambda result: EInteger(int(result[0])))

    pBOOLEAN = Keyword("true") | Keyword("false")
    pBOOLEAN.setParseAction(lambda result: EBoolean(result[0]=="true"))

    pEXPR = Forward()

    pIF = "(" + Keyword("if") + pEXPR + pEXPR + pEXPR + ")"
    pIF.setParseAction(lambda result: EIf(result[2],result[3],result[4]))

    pBINDING = "(" + pNAME + pEXPR + ")"
    pBINDING.setParseAction(lambda result: (result[1],result[2]))

    pLET = "(" + Keyword("let") + "(" + pBINDING + ")" + pEXPR + ")"
    pLET.setParseAction(lambda result: ELet([result[3]],result[5]))

    pPLUS = "(" + Keyword("+") + pEXPR + pEXPR + ")"
    pPLUS.setParseAction(lambda result: ECall("+",[result[2],result[3]]))

    pTIMES = "(" + Keyword("*") + pEXPR + pEXPR + ")"
    pTIMES.setParseAction(lambda result: ECall("*",[result[2],result[3]]))

    pEXPR << (pINTEGER | pBOOLEAN | pIDENTIFIER | pIF | pLET | pPLUS | pTIMES)

    result = pEXPR.parseString(input)[0]
    return result    # the first element of the result is the expression
コード例 #18
0
ファイル: emu_parser.py プロジェクト: incognybble/toSPARQL
def parser(text):
    """
    str := \w+
    str := '\w+'
    exp := Var=str
    exp := exp & exp
    exp := exp ^ exp
    """
    
    # grammar
    #g_string = "'"+Word(alphas)+"'" | Word(alphas)
    g_quote = Literal("'").suppress()
    g_text = Regex("[\w\s\:\#\.]+").setResultsName("text")
    g_string = Optional(g_quote) + g_text + Optional(g_quote)
    g_equ =  Literal("!=").setResultsName("connector") | Literal("=").setResultsName("connector")
    g_amp = Literal("&").setResultsName("connector")
    g_hat = Literal("^").setResultsName("connector")
    g_or = Literal("|").suppress()
    g_seq = Literal("->").setResultsName("connector")
    g_hash = Literal("#").setResultsName("hash")

    g_left_brack = Literal("[").suppress()
    g_right_brack = Literal("]").suppress()

    
    g_vals = Forward()
    g_vals << g_string + ZeroOrMore(Group(g_or + g_vals).setResultsName("or_group"))

    # working
    """
    exp_basic = Group(Optional(g_hash) + g_string).setResultsName("left") + g_equ + Group(g_vals).setResultsName("right")
    exp = Group(exp_basic)
    exp = exp.setResultsName("left") + g_amp + exp.setResultsName("right") | \
            g_left_brack + exp.setResultsName("left") + g_hat + exp.setResultsName("right") + g_right_brack | \
            g_left_brack + exp.setResultsName("left") + g_seq + exp.setResultsName("right") + g_right_brack | \
            exp_basic
    """

    # recursion
    simpleq = Forward()
    complexq = Forward()

    exp = (simpleq | complexq).setResultsName("exp")
    exp_basic = Group(Group(Optional(g_hash) + g_string).setResultsName("left") + g_equ + Group(g_vals).setResultsName("right"))
    simpleq << (Group(exp_basic.setResultsName("left") + g_amp + simpleq.setResultsName("right")) | exp_basic)
    complexq << ( Group(g_left_brack + exp.setResultsName("left") + g_hat + exp.setResultsName("right") + g_right_brack) | \
                  Group(g_left_brack + exp.setResultsName("left") + g_seq + exp.setResultsName("right") + g_right_brack) )
    
    
    
    return exp.parseString(text)
コード例 #19
0
ファイル: __init__.py プロジェクト: roaet/pydiecalc
def _dice_grammar(exprStack, varStack):

    def pushFirst(str, loc, toks):
        exprStack.append(toks[0])

    def assignVar(str, loc, toks):
        varStack.append(toks[0])

    point = Literal('.')
    e = CaselessLiteral('E')
    plusorminus = Literal('+') | Literal('-')
    singledie = Literal('d')
    number = Word(nums)
    integer = Combine(Optional(plusorminus) + number)
    singleroll = Combine(singledie + number)
    floatnumber = Combine(
        integer + Optional(point + Optional(number)) + Optional(e + integer))

    ident = Word(alphas, alphanums + '_')

    plus = Literal("+")
    minus = Literal("-")
    mult = Literal("*")
    div = Literal("/")

    lpar = Literal("(").suppress()
    rpar = Literal(")").suppress()
    addop = plus | minus
    multop = mult | div
    expop = Literal("^")
    dieop = Literal("d")
    assign = Literal("=")

    expr = Forward()
    atom = (
        (e | floatnumber | integer | ident | singleroll).setParseAction(
            pushFirst) | (lpar + expr.suppress() + rpar))
    roll = Forward()
    roll << atom + ZeroOrMore((dieop + roll).setParseAction(pushFirst))

    factor = Forward()
    factor << roll + ZeroOrMore((expop + factor).setParseAction(pushFirst))

    term = factor + ZeroOrMore((multop + factor).setParseAction(pushFirst))

    expr << term + ZeroOrMore((addop + term).setParseAction(pushFirst))
    bnf = Optional((ident + assign).setParseAction(assignVar)) + expr

    return bnf + StringEnd()
コード例 #20
0
ファイル: pddl.py プロジェクト: WeDoKnowWhy151/coursera
def sandbox():
    """Based on http://stackoverflow.com/a/4802004/623735"""
    loose_grammar = Forward()
    nestedParens = nestedExpr('(', ')', content=loose_grammar) 
    loose_grammar << (
                 OneOrMore(Optional(':').suppress() + Word(alphanums + '-_')) 
               | OneOrMore(Optional('?').suppress() + Word(alphanums + '-_')) 
               | init
               | goal
               | ',' 
               | nestedParens)
    examples = [
        # definitely not PDDL-compliant, but parser does OK anyway (not strict)
        '(some global things (:a (nested list of three varibles (?list0 ?list1 ?list2))))',
        # this is a valid line of STRIPS (subset of PDDL grammar?)
        '(:requirements :strips)',
        # another valid line of STRIPS (subset of PDDL grammar?)
        '(define (domain random-domain))',
        # a complete (if simple) STRIPS problem definition from coursera AI Planning class, HW wk2
        r'''
            (define (problem random-pbl1)
              (:domain random-domain)
              (:init
                 (S B B) (S C B) (S A C)
                 (R B B) (R C B))
              (:goal (and (S A A))))
        ''',
        # a complete STRIPS domain definition from coursera AI Planning class, HW wk2
        r'''
        (define (domain random-domain)
          (:requirements :strips)
          (:action op1
            :parameters (?x1 ?x2 ?x3)
            :precondition (and (S ?x1 ?x2) (R ?x3 ?x1))
            :effect (and (S ?x2 ?x1) (S ?x1 ?x3) (not (R ?x3 ?x1))))
          (:action op2
            :parameters (?x1 ?x2 ?x3)
            :precondition (and (S ?x3 ?x1) (R ?x2 ?x2))
            :effect (and (S ?x1 ?x3) (not (S ?x3 ?x1)))))
        ''',
        ]
    ans = []
    for ex in examples:
        try:
            ans += [loose_grammar.parseString(ex).asList()]
            print(ans[-1])
        except:
            print_exc()
    return ans
コード例 #21
0
ファイル: server.py プロジェクト: arcresu/Flexget
    def __init__(self, query):
        self._methods = {
            'and': self.evaluate_and,
            'or': self.evaluate_or,
            'not': self.evaluate_not,
            'parenthesis': self.evaluate_parenthesis,
            'quotes': self.evaluate_quotes,
            'word': self.evaluate_word,
        }

        self.line = ''
        self.query = query.lower() if query else ''

        if self.query:
            operator_or = Forward()
            operator_word = Group(Word(alphanums)).setResultsName('word')

            operator_quotes_content = Forward()
            operator_quotes_content << (
                (operator_word + operator_quotes_content) | operator_word
            )

            operator_quotes = Group(
                Suppress('"') + operator_quotes_content + Suppress('"')
            ).setResultsName("quotes") | operator_word

            operator_parenthesis = Group(
                (Suppress("(") + operator_or + Suppress(")"))
            ).setResultsName("parenthesis") | operator_quotes

            operator_not = Forward()
            operator_not << (Group(
                Suppress(Keyword("not", caseless=True)) + operator_not
            ).setResultsName("not") | operator_parenthesis)

            operator_and = Forward()
            operator_and << (Group(
                operator_not + Suppress(Keyword("and", caseless=True)) + operator_and
            ).setResultsName("and") | Group(
                operator_not + OneOrMore(~oneOf("and or") + operator_and)
            ).setResultsName("and") | operator_not)

            operator_or << (Group(
                operator_and + Suppress(Keyword("or", caseless=True)) + operator_or
            ).setResultsName("or") | operator_and)

            self._parser = operator_or.parseString(self.query)[0]
        else:
            self._parser = False
コード例 #22
0
ファイル: regex_parser.py プロジェクト: GunioRobot/pycucumber
def parser():
    global _parser
    if _parser is None:
        ParserElement.setDefaultWhitespaceChars("")
        
        lbrack = Literal("[")
        rbrack = Literal("]")
        lbrace = Literal("{")
        rbrace = Literal("}")
        lparen = Literal("(")
        rparen = Literal(")")
        
        reMacro = Suppress("\\") + oneOf(list("dwsZ"))
        escapedChar = ~reMacro + Combine("\\" + oneOf(list(printables)))
        reLiteralChar = "".join(c for c in string.printable if c not in r"\[]{}().*?+|")

        reRange = Combine(lbrack.suppress() + SkipTo(rbrack,ignore=escapedChar) + rbrack.suppress())
        reLiteral = ( escapedChar | oneOf(list(reLiteralChar)) )
        reDot = Literal(".")
        repetition = (
            ( lbrace + Word(nums).setResultsName("count") + rbrace ) |
            ( lbrace + Word(nums).setResultsName("minCount")+","+ Word(nums).setResultsName("maxCount") + rbrace ) |
            oneOf(list("*+?"))
            )
        reExpr = Forward()
        reGroup = (lparen.suppress() +
                   Optional(Literal("?").suppress() + oneOf(list(":P"))).setResultsName("option") +
                   reExpr.setResultsName("expr") +
                   rparen.suppress())

        reTerm = ( reLiteral | reRange | reMacro | reDot | reGroup )
        reExpr << operatorPrecedence( reTerm,
            [
            (repetition, 1, opAssoc.LEFT, create(Repetition)),
            (None, 2, opAssoc.LEFT, create(Sequence)),
            (Suppress('|'), 2, opAssoc.LEFT, create(Alternation)),
            ]
            )

        reGroup.setParseAction(create(Group))
        reRange.setParseAction(create(Range))
        reLiteral.setParseAction(create(Character))
        reMacro.setParseAction(create(Macro))
        reDot.setParseAction(create(Dot))
        
        _parser = reExpr
        
    return _parser
コード例 #23
0
ファイル: simple_math.py プロジェクト: meslater1030/calcutor
def BNF():
    """
    expop   :: '^'
    multop  :: '*' | '/'
    addop   :: '+' | '-'
    integer :: ['+' | '-'] '0'..'9'+
    atom    :: PI | E | real | fn '(' expr ')' | '(' expr ')'
    factor  :: atom [ expop factor ]*
    term    :: factor [ multop factor ]*
    expr    :: term [ addop term ]*
    """
    global bnf
    if not bnf:
        point = Literal(".")
        e = CaselessLiteral("E")
        fnumber = Combine(Word("+-"+nums, nums) +
                          Optional(point + Optional(Word(nums))) +
                          Optional(e + Word("+-"+nums, nums)))
        ident = Word(alphas, alphas+nums+"_$")

        plus = Literal("+")
        minus = Literal("-")
        mult = Literal("*")
        div = Literal("/")
        lpar = Literal("(").suppress()
        rpar = Literal(")").suppress()
        addop = plus | minus
        multop = mult | div
        expop = Literal("^")
        pi = CaselessLiteral("PI")

        expr = Forward()
        atom = ((Optional("-") + (pi | e | fnumber | ident +
                                  lpar + expr + rpar).setParseAction(pushFirst)
                | (lpar + expr.suppress() + rpar)).setParseAction(pushUMinus))

        # by defining exponentiation as "atom [ ^ factor ]..." instead of
        # "atom [ ^ atom ]...", we get right-to-left exponents, instead of
        # left-to-right
        # that is, 2^3^2 = 2^(3^2), not (2^3)^2.
        factor = Forward()
        factor << atom + ZeroOrMore((expop + factor).setParseAction(pushFirst))

        term = factor + ZeroOrMore((multop +
                                    factor).setParseAction(pushFirst))
        expr << term + ZeroOrMore((addop + term).setParseAction(pushFirst))
        bnf = expr
    return bnf
コード例 #24
0
ファイル: RDFParser.py プロジェクト: mdth/Masterarbeit
    def __init__(self, db):
        """Initialize a new RDF parser with pre-defined grammar. Takes database db as an argument."""
        self.__db = db

        # grammar definition
        # literals
        self.__word = self.__prefix = self.__suffix = Word(alphanums)
        self.__colon = Literal(':')
        self.__a = Literal('a')
        self.__quoted_string = dblQuotedString.setParseAction(removeQuotes)
        self.__l_paren = Suppress('(')
        self.__r_paren = Suppress(')')
        self.__dot = Suppress('.')
        self.__comma = Suppress(',')
        self.__semicolon = Suppress(';')

        # composites
        self.__get_suffix = Suppress(self.__prefix + self.__colon) + self.__suffix
        self.__get_object = Optional(self.__l_paren) + OneOrMore((self.__get_suffix | self.__quoted_string) +
                                                                 Optional(self.__comma)) + Optional(self.__r_paren)
        self.__is_a = (self.__get_suffix('subject') | self.__word) + self.__a('relation') + \
                      self.__get_suffix('object') + self.__dot
        self.__has_x = self.__get_suffix('subject') + self.__get_suffix('relation') + \
                       Group(self.__get_object)('object') + self.__dot

        # search term
        self.__search = Forward()
        self.__search << (self.__is_a | self.__has_x)
コード例 #25
0
ファイル: rate_parser.py プロジェクト: tdi/pyPEPA
 def grammar(self):
     if not self.bnf:
         point = Literal( "." )
         fnumber = Combine( Word( nums ) + 
                            Optional( point + Optional( Word( nums ) ) ) 
                            )
         ident = Word(alphas.lower()+"_", alphanums+"_")
         plus  = Literal( "+" )
         minus = Literal( "-" )
         mult  = Literal( "*" )
         # passiverate = Word('infty') | Word('T')
         div   = Literal( "/" )
         lpar  = Literal( "(" ).suppress()
         rpar  = Literal( ")" ).suppress()
         addop  = plus | minus
         multop = mult | div
         assign = Literal('=')
         expop = Literal( "^" )
         expr = Forward()
         atom = Optional("-") + ( fnumber | ident + lpar + expr + rpar | ident).setParseAction(self._pushFirst ) | lpar + expr.suppress() + rpar 
         factor = Forward()
         factor << atom + ZeroOrMore( ( expop + factor )
                 .setParseAction(self._pushFirst) )
         term = factor + ZeroOrMore( ( multop + factor )
                 .setParseAction(self._pushFirst) )
         expr << term + ZeroOrMore( ( addop + term )
                 .setParseAction(self._pushFirst ) )
         bnf = (ident + assign).setParseAction(self._assignVar) + expr 
         self.bnf = bnf
     return self.bnf
コード例 #26
0
class RigorousClassicalPropositionalLogicParser:

	def __init__(self):
		self.left_parenthesis = Suppress("(")
		self.right_parenthesis = Suppress(")")
		self.implies = Literal("->")
		self.or_ = Literal("|")
		self.and_ = Literal("&")
		self.not_ = Literal("!") | Literal ("~")
		self.boolean = Keyword("false") | Keyword("true")
		self.symbol = Word(alphas, alphanums)

		self.formula = Forward()
		self.operand = self.boolean | self.symbol

		self.binaryConnective = self.or_ | self.and_ | self.implies

		self.unaryFormula = Group(self.not_ + self.formula)
		self.binaryFormula = Group(self.left_parenthesis + self.formula + self.binaryConnective + self.formula + self.right_parenthesis)

		self.formula << (self.unaryFormula | self.binaryFormula | self.operand)


## Should return a ParserResult object

	def parse(self,text):
		try:
			result = self.formula.parseString(text, parseAll=True)
			assert len(result) == 1

			return  result

		except (ParseException, ParseSyntaxException) as err:
#			print("Syntax error:\n{0.line}\n{1}^".format(err, " " * (err.column - 1)))
			return ""
コード例 #27
0
    def parse_block(self, block_text):
        """Parses sql block into tokens
        """

        # Valid grammar looks like this:
        #   {sqlbarchart: title='Some string' | other params as yet unknown...}

        # make a grammar
        block_start = Literal("{")
        sql_start = Keyword(self.TAGNAME, caseless=True)
        colon = Literal(":")
        sql_end = Literal("}")
        separator = Literal("|")
        block_end = Keyword("{" + self.TAGNAME + "}", caseless=True)
        
        # params
        field_name = Word(alphanums)
        equal_sign = Suppress(Literal("="))

        # whatever value
        field_value = (CharsNotIn("|}"))

        # param name and value
        param_group = Group(field_name + equal_sign + field_value)

        # list of all params
        param_list = delimitedList(param_group, '|')

        # helper
        param_dict = Dict(param_list)

        # sql text
        sql_text = SkipTo(block_end)
        
        sqldecl = Forward()

        sqldecl << (block_start +
                    sql_start + 
                    Optional(colon) +
                    Optional(param_dict) +
                    sql_end +
                    sql_text.setResultsName('sqltext') +
                    block_end)

        block_str = "".join(block_text) 
        tokens = sqldecl.parseString( block_str )
        return tokens
コード例 #28
0
ファイル: smart_parsing.py プロジェクト: ampg99/NIPAP
    def _string_to_ast(self, input_string):
        """ Parse a smart search string and return it in an AST like form
        """

        # simple words
        comp_word = Word(alphanums + "-./_")
        word = Word(alphanums + "-./_").setResultsName('word')
        # numbers
        comp_number = Word(nums)
        number = Word(nums).setResultsName('number')

        # IPv4 address
        ipv4_oct = Regex("((2(5[0-5]|[0-4][0-9])|[01]?[0-9][0-9]?))")
        comp_ipv4_address = Combine(ipv4_oct + ('.' + ipv4_oct*3))
        ipv4_address = Combine(ipv4_oct + ('.' + ipv4_oct*3)).setResultsName('ipv4_address')

        # VRF RTs of the form number:number
        vrf_rt = Combine((comp_ipv4_address | comp_number) + Literal(':') + comp_number).setResultsName('vrf_rt')

        # tags
        tags = Combine( Literal('#') + comp_word).setResultsName('tag')

        # operators for matching
        match_op = oneOf(' '.join(self.match_operators)).setResultsName('operator')
        boolean_op = oneOf(' '.join(self.boolean_operators)).setResultsName('boolean')
        # quoted string
        quoted_string = QuotedString('"', unquoteResults=True, escChar='\\').setResultsName('quoted_string')
        # expression to match a certain value for an attribute
        expression = Group(word + match_op + (quoted_string | vrf_rt | word | number)).setResultsName('expression')
        # we work on atoms, which are single quoted strings, match expressions,
        # tags, VRF RT or simple words.
        # NOTE: Place them in order of most exact match first!
        atom = Group(quoted_string | expression | tags | vrf_rt | boolean_op | word)

        enclosed = Forward()
        parens = nestedExpr('(', ')', content=enclosed)
        enclosed << (
                parens | atom
                ).setResultsName('nested')

        content = Forward()
        content << (
                ZeroOrMore(enclosed)
                )

        res = content.parseString(input_string)
        return res
コード例 #29
0
ファイル: parser.py プロジェクト: geodesign/django-raster
    def __init__(self):
        """
        Setup the Backus Normal Form (BNF) parser logic.
        """
        # Set an empty formula attribute
        self.formula = None

        # Instantiate blank parser for BNF construction
        self.bnf = Forward()

        # Expression for parenthesis, which are suppressed in the atoms
        # after matching.
        lpar = Literal(const.LPAR).suppress()
        rpar = Literal(const.RPAR).suppress()

        # Expression for mathematical constants: Euler number and Pi
        e = Keyword(const.EULER)
        pi = Keyword(const.PI)
        null = Keyword(const.NULL)
        _true = Keyword(const.TRUE)
        _false = Keyword(const.FALSE)

        # Prepare operator expressions
        addop = oneOf(const.ADDOP)
        multop = oneOf(const.MULTOP)
        powop = oneOf(const.POWOP)
        unary = reduce(operator.add, (Optional(x) for x in const.UNOP))

        # Expression for floating point numbers, allowing for scientific notation.
        number = Regex(const.NUMBER)

        # Variables are alphanumeric strings that represent keys in the input
        # data dictionary.
        variable = delimitedList(Word(alphanums), delim=const.VARIABLE_NAME_SEPARATOR, combine=True)

        # Functional calls
        function = Word(alphanums) + lpar + self.bnf + rpar

        # Atom core - a single element is either a math constant,
        # a function or a variable.
        atom_core = function | pi | e | null | _true | _false | number | variable

        # Atom subelement between parenthesis
        atom_subelement = lpar + self.bnf.suppress() + rpar

        # In atoms, pi and e need to be before the letters for it to be found
        atom = (
            unary + atom_core.setParseAction(self.push_first) | atom_subelement
        ).setParseAction(self.push_unary_operator)

        # By defining exponentiation as "atom [ ^ factor ]..." instead of
        # "atom [ ^ atom ]...", we get right-to-left exponents, instead of
        # left-to-right that is, 2^3^2 = 2^(3^2), not (2^3)^2.
        factor = Forward()
        factor << atom + ZeroOrMore((powop + factor).setParseAction(self.push_first))

        term = factor + ZeroOrMore((multop + factor).setParseAction(self.push_first))
        self.bnf << term + ZeroOrMore((addop + term).setParseAction(self.push_first))
コード例 #30
0
ファイル: pb_parse.py プロジェクト: perimosocordiae/plumbum
def __setup_parser():
  # reserved single-character tokens
  LSQUARE,RSQUARE,LCURLY,RCURLY,EQ,PIPE,SEMI = map(Suppress,'[]{}=|;')

  # non-iterable literals
  integer = simple(Word('-'+nums,nums), 'int', int)
  string  = simple(QuotedString("'") | QuotedString('"'), 'str', str)
  regex   = simple(QuotedString('/'), 'rgx', re.compile)

  # list/range literals
  emptylist = named(LSQUARE + RSQUARE, 'emptylist')
  rstart = LSQUARE + integer + Optional(Suppress(',') + integer)
  irange = named(rstart + Suppress('..]'), 'irange')
  brange = named(rstart + Suppress('..') + integer + RSQUARE, 'brange')
  intlist = named(LSQUARE + delimitedList(integer) + RSQUARE, 'intlist')
  strlist = named(LSQUARE + delimitedList(string)  + RSQUARE, 'strlist')
  rgxlist = named(LSQUARE + delimitedList(regex)   + RSQUARE, 'rgxlist')
  list_lit = Forward()
  lstlist = named(LSQUARE + delimitedList(list_lit) + RSQUARE, 'lstlist')
  list_lit << (emptylist | irange | brange | intlist | strlist | rgxlist | lstlist)

  # special-syntax functions
  slurp = special(QuotedString('<',endQuoteChar='>'), 'slurp')
  shell = special(QuotedString('`'), 'shell')

  # functions and arguments
  name = simple(Word(alphas, alphanums+'_'), 'name', str)
  subpipe = Forward()
  function = Forward()
  argument = string | list_lit | regex | integer | subpipe | slurp | shell | function
  function << name + named(ZeroOrMore(argument), 'arguments')
  function.setParseAction(lambda parse: ('function', dict(parse.asList())))

  # an atom is anything that can fit between pipes on its own
  atom = (function | slurp | shell | list_lit)

  # an expression/subpipe is multiple atoms piped together
  expression = named(atom + ZeroOrMore(PIPE + atom), 'pipe')
  subpipe << LCURLY + expression + RCURLY

  # statements and lines are pretty standard
  statement = Optional(name + EQ, default=('name','')) + expression
  statement.setParseAction(lambda parse: dict(parse.asList()))
  line = (statement | empty).ignore(pythonStyleComment)
  return line.parseString
コード例 #31
0
ファイル: btpyparse.py プロジェクト: rcoup/pyparsing
LCURLY, RCURLY, LPAREN, RPAREN, QUOTE, COMMA, AT, EQUALS, HASH = map(
    Suppress, '{}()",@=#')


def bracketed(expr):
    """ Return matcher for `expr` between curly brackets or parentheses """
    return (LPAREN + expr + RPAREN) | (LCURLY + expr + RCURLY)


# Define parser components for strings (the hard bit)
chars_no_curly = Regex(r"[^{}]+")
chars_no_curly.leaveWhitespace()
chars_no_quotecurly = Regex(r'[^"{}]+')
chars_no_quotecurly.leaveWhitespace()
# Curly string is some stuff without curlies, or nested curly sequences
curly_string = Forward()
curly_item = Group(curly_string) | chars_no_curly
curly_string << LCURLY + ZeroOrMore(curly_item) + RCURLY
# quoted string is either just stuff within quotes, or stuff within quotes, within
# which there is nested curliness
quoted_item = Group(curly_string) | chars_no_quotecurly
quoted_string = QUOTE + ZeroOrMore(quoted_item) + QUOTE

# Numbers can just be numbers. Only integers though.
number = Regex('[0-9]+')

# Basis characters (by exclusion) for variable / field names.  The following
# list of characters is from the btparse documentation
any_name = Regex('[^\\s"#%\'(),={}]+')

# btparse says, and the test bibs show by experiment, that macro and field names
コード例 #32
0
ファイル: b.py プロジェクト: olooney/advent-code-2017
import pyparsing
from pyparsing import Optional, Word, Literal, Forward, alphas, nums, \
    Group, OneOrMore, ZeroOrMore, oneOf, delimitedList, restOfLine, \
    QuotedString, Regex
from pprint import pprint

L = Literal
Ls = lambda expr: Literal(expr).suppress()

table = Forward()
array = Forward()

identifier = Word(alphas, alphas + nums + '_')
boolean = oneOf("true false")
integer = Word(nums)
double = Regex(r'[+-]?\d+\.\d*([eE][+-]?\d+)?').setParseAction(
    lambda t: float(t[0]))  # TODO
number = integer | double
string = QuotedString(quoteChar='"', escChar='\\')
value = number | boolean | string | table | array
key = integer | identifier
pair = Group(key + Ls(':') + value)

table << Group(
    Ls('{') + Optional(pair + ZeroOrMore(Ls(',') + pair) + Optional(Ls(','))) +
    Ls('}'))
array << Group(
    Ls('[') + Optional(value + ZeroOrMore(Ls(',') + value) +
                       Optional(Ls(','))) + Ls(']'))

# statement = oneOf("return print read break continue")
コード例 #33
0
def _create_config_parser():
    """
    Creates a parser using pyparsing that works with bibfield rule definitions

    BNF like grammar:

    rule ::= ([persitent_identifier] json_id ["[0]" | "[n]"] "," aliases":" INDENT body UNDENT) | include | python_comment
    include ::= "include(" PATH ")"
    body ::=  [inherit_from] (creator | derived | calculated) [checker] [documentation] [producer]
    aliases ::= json_id ["[0]" | "[n]"] ["," aliases]

    creator ::= "creator:" INDENT creator_body+ UNDENT
    creator_body ::= [decorators] source_format "," source_tag "," python_allowed_expr
    source_format ::= MASTER_FORMATS
    source_tag ::= QUOTED_STRING

    derived ::= "derived" INDENT derived_calculated_body UNDENT
    calculated ::= "calculated:" INDENT derived_calculated_body UNDENT
    derived_calculated_body ::= [decorators] "," python_allowed_exp

    decorators ::= (peristent_identfier | legacy | do_not_cache | parse_first | depends_on | only_if | only_if_master_value)*
    peristent_identfier ::= @persitent_identifier( level )
    legacy ::= "@legacy(" correspondences+ ")"
    correspondences ::= "(" source_tag [ "," tag_name ] "," json_id ")"
    parse_first ::= "@parse_first(" jsonid+ ")"
    depends_on ::= "@depends_on(" json_id+ ")"
    only_if ::= "@only_if(" python_condition+ ")"
    only_if_master_value ::= "@only_if_master_value(" python_condition+  ")"

    inherit_from ::= "@inherit_from()"
    do_not_cache ::= "@do_not_cache"

    python_allowed_exp ::= ident | list_def | dict_def | list_access | dict_access | function_call

    checker ::= "checker:" INDENT checker_function+ UNDENT

    documentation ::= INDENT doc_string subfield* UNDENT
    doc_string ::= QUOTED_STRING
    subfield ::= "@subfield" json_id["."json_id*] ":" docstring

    producer ::= "producer:" INDENT producer_body UNDENT
    producer_body ::= producer_code "," python_dictionary
    producer_code ::= ident
    """

    indent_stack = [1]

    def check_sub_indent(str, location, tokens):
        cur_col = col(location, str)
        if cur_col > indent_stack[-1]:
            indent_stack.append(cur_col)
        else:
            raise ParseException(str, location, "not a subentry")

    def check_unindent(str, location, tokens):
        if location >= len(str):
            return
        cur_col = col(location, str)
        if not(cur_col < indent_stack[-1] and cur_col <= indent_stack[-2]):
            raise ParseException(str, location, "not an unindent")

    def do_unindent():
        indent_stack.pop()

    INDENT = lineEnd.suppress() + empty + empty.copy().setParseAction(check_sub_indent)
    UNDENT = FollowedBy(empty).setParseAction(check_unindent)
    UNDENT.setParseAction(do_unindent)

    json_id = (Word(alphas + "_", alphanums + "_") + Optional(oneOf("[0] [n]")))\
              .setResultsName("json_id", listAllMatches=True)\
              .setParseAction(lambda tokens: "".join(tokens))
    aliases = delimitedList((Word(alphanums + "_") + Optional(oneOf("[0] [n]")))
                            .setParseAction(lambda tokens: "".join(tokens)))\
              .setResultsName("aliases")
    python_allowed_expr = Forward()
    ident = Word(alphas + "_", alphanums + "_")
    dict_def = originalTextFor(nestedExpr('{', '}'))
    list_def = originalTextFor(nestedExpr('[', ']'))
    dict_access = list_access = originalTextFor(ident + nestedExpr('[', ']'))
    function_call = originalTextFor(ZeroOrMore(ident + ".") + ident + nestedExpr('(', ')'))

    python_allowed_expr << (ident ^ dict_def ^ list_def ^ dict_access ^ list_access ^ function_call ^ restOfLine)\
                          .setResultsName("value", listAllMatches=True)

    persistent_identifier = (Suppress("@persistent_identifier") +  nestedExpr("(", ")"))\
                            .setResultsName("persistent_identifier")
    legacy = (Suppress("@legacy") + originalTextFor(nestedExpr("(", ")")))\
             .setResultsName("legacy", listAllMatches=True)
    only_if = (Suppress("@only_if") + originalTextFor(nestedExpr("(", ")")))\
              .setResultsName("only_if")
    only_if_master_value = (Suppress("@only_if_value") + originalTextFor(nestedExpr("(", ")")))\
                    .setResultsName("only_if_master_value")
    depends_on = (Suppress("@depends_on") + originalTextFor(nestedExpr("(", ")")))\
                 .setResultsName("depends_on")
    parse_first = (Suppress("@parse_first") + originalTextFor(nestedExpr("(", ")")))\
                  .setResultsName("parse_first")
    do_not_cache = (Suppress("@") + "do_not_cache")\
                   .setResultsName("do_not_cache")
    field_decorator = parse_first ^ depends_on ^ only_if ^ only_if_master_value ^ do_not_cache ^ legacy

    #Independent decorators
    inherit_from = (Suppress("@inherit_from") + originalTextFor(nestedExpr("(", ")")))\
                    .setResultsName("inherit_from")

    master_format = (Suppress("@master_format") + originalTextFor(nestedExpr("(", ")")))\
                    .setResultsName("master_format")

    derived_calculated_body = ZeroOrMore(field_decorator) + python_allowed_expr

    derived = "derived" + Suppress(":") + INDENT + derived_calculated_body + UNDENT
    calculated = "calculated" + Suppress(":") + INDENT + derived_calculated_body + UNDENT

    source_tag = quotedString\
                 .setParseAction(removeQuotes)\
                 .setResultsName("source_tag", listAllMatches=True)
    source_format = oneOf(CFG_BIBFIELD_MASTER_FORMATS)\
                    .setResultsName("source_format", listAllMatches=True)
    creator_body = (ZeroOrMore(field_decorator) + source_format + Suppress(",") + source_tag + Suppress(",") + python_allowed_expr)\
                   .setResultsName("creator_def", listAllMatches=True)
    creator = "creator" + Suppress(":") + INDENT + OneOrMore(creator_body) + UNDENT

    checker_function = (Optional(master_format) + ZeroOrMore(ident + ".") + ident + originalTextFor(nestedExpr('(', ')')))\
                       .setResultsName("checker_function", listAllMatches=True)
    checker = ("checker" + Suppress(":") + INDENT + OneOrMore(checker_function) + UNDENT)

    doc_string = QuotedString(quoteChar='"""', multiline=True) | quotedString.setParseAction(removeQuotes)
    subfield = (Suppress("@subfield") + Word(alphanums + "_" + '.') + Suppress(":") + Optional(doc_string))\
                 .setResultsName("subfields", listAllMatches=True)
    documentation = ("documentation" + Suppress(":") + INDENT + Optional(doc_string).setResultsName("main_doc") + ZeroOrMore(subfield) + UNDENT)\
                     .setResultsName("documentation")

    producer_code = Word(alphas + "_", alphanums + "_")\
                    .setResultsName("producer_code", listAllMatches=True)
    producer_body = (producer_code + Suppress(",") + python_allowed_expr)\
                    .setResultsName("producer_def", listAllMatches=True)
    producer = "producer"  + Suppress(":") + INDENT + OneOrMore(producer_body) + UNDENT

    field_def = (creator | derived | calculated)\
                .setResultsName("type_field", listAllMatches=True)

    body = Optional(inherit_from) + Optional(field_def) + Optional(checker) + Optional(documentation) + Optional(producer)
    comment = Literal("#") + restOfLine + LineEnd()
    include = (Suppress("include") + quotedString)\
              .setResultsName("includes", listAllMatches=True)
    rule = (Optional(persistent_identifier) + json_id + Optional(Suppress(",") + aliases) + Suppress(":") + INDENT + body + UNDENT)\
           .setResultsName("rules", listAllMatches=True)

    return OneOrMore(rule | include | comment.suppress())
コード例 #34
0
from pyparsing import (Word, alphas, alphanums, Regex, Suppress, Forward,
                       Group, oneOf, ZeroOrMore, Optional, delimitedList,
                       Keyword, restOfLine, quotedString, Dict)

ident = Word(alphas + "_", alphanums + "_").setName("identifier")
integer = Regex(r"[+-]?\d+")

LBRACE, RBRACE, LBRACK, RBRACK, LPAR, RPAR, EQ, SEMI = map(
    Suppress, "{}[]()=;")

kwds = """message required optional repeated enum extensions extends extend 
          to package service rpc returns true false option import"""
for kw in kwds.split():
    exec("%s_ = Keyword('%s')" % (kw.upper(), kw))

messageBody = Forward()

messageDefn = MESSAGE_ - ident("messageId") + LBRACE + messageBody(
    "body") + RBRACE

typespec = oneOf("""double float int32 int64 uint32 uint64 sint32 sint64 
                    fixed32 fixed64 sfixed32 sfixed64 bool string bytes"""
                 ) | ident
rvalue = integer | TRUE_ | FALSE_ | ident
fieldDirective = LBRACK + Group(ident + EQ + rvalue) + RBRACK
fieldDefn = ((REQUIRED_ | OPTIONAL_ | REPEATED_)("fieldQualifier") -
             typespec("typespec") + ident("ident") + EQ + integer("fieldint") +
             ZeroOrMore(fieldDirective) + SEMI)

# enumDefn ::= 'enum' ident '{' { ident '=' integer ';' }* '}'
enumDefn = ENUM_("typespec") - ident('name') + LBRACE + Dict(
コード例 #35
0
ファイル: config_parser.py プロジェクト: olii/pyhocon
    def parse(cls,
              content,
              basedir=None,
              resolve=True,
              unresolved_value=DEFAULT_SUBSTITUTION):
        """parse a HOCON content

        :param content: HOCON content to parse
        :type content: basestring
        :param resolve: if true, resolve substitutions
        :type resolve: boolean
        :param unresolved_value: assigned value to unresolved substitution.
        If overriden with a default value, it will replace all unresolved values by the default value.
        If it is set to pyhocon.STR_SUBSTITUTION then it will replace the value by its substitution expression (e.g., ${x})
        :type unresolved_value: boolean
        :return: a ConfigTree or a list
        """

        unescape_pattern = re.compile(r'\\.')

        def replace_escape_sequence(match):
            value = match.group(0)
            return cls.REPLACEMENTS.get(value, value)

        def norm_string(value):
            return unescape_pattern.sub(replace_escape_sequence, value)

        def unescape_string(tokens):
            return ConfigUnquotedString(norm_string(tokens[0]))

        def parse_multi_string(tokens):
            # remove the first and last 3 "
            return tokens[0][3:-3]

        def convert_number(tokens):
            n = tokens[0]
            try:
                return int(n, 10)
            except ValueError:
                return float(n)

        def convert_period(tokens):

            period_value = int(tokens.value)
            period_identifier = tokens.unit

            period_unit = next((single_unit for single_unit, values in
                                cls.get_supported_period_type_map().items()
                                if period_identifier in values))

            return period(period_value, period_unit)

        # ${path} or ${?path} for optional substitution
        SUBSTITUTION_PATTERN = r"\$\{(?P<optional>\?)?(?P<variable>[^}]+)\}(?P<ws>[ \t]*)"

        def create_substitution(instring, loc, token):
            # remove the ${ and }
            match = re.match(SUBSTITUTION_PATTERN, token[0])
            variable = match.group('variable')
            ws = match.group('ws')
            optional = match.group('optional') == '?'
            substitution = ConfigSubstitution(variable, optional, ws, instring,
                                              loc)
            return substitution

        # ${path} or ${?path} for optional substitution
        STRING_PATTERN = '"(?P<value>(?:[^"\\\\]|\\\\.)*)"(?P<ws>[ \t]*)'

        def create_quoted_string(instring, loc, token):
            # remove the ${ and }
            match = re.match(STRING_PATTERN, token[0])
            value = norm_string(match.group('value'))
            ws = match.group('ws')
            return ConfigQuotedString(value, ws, instring, loc)

        def include_config(instring, loc, token):
            url = None
            file = None
            required = False

            if token[0] == 'required':
                required = True
                final_tokens = token[1:]
            else:
                final_tokens = token

            if len(final_tokens) == 1:  # include "test"
                value = final_tokens[0].value if isinstance(
                    final_tokens[0], ConfigQuotedString) else final_tokens[0]
                if value.startswith("http://") or value.startswith(
                        "https://") or value.startswith("file://"):
                    url = value
                else:
                    file = value
            elif len(final_tokens) == 2:  # include url("test") or file("test")
                value = final_tokens[1].value if isinstance(
                    final_tokens[1], ConfigQuotedString) else final_tokens[1]
                if final_tokens[0] == 'url':
                    url = value
                elif final_tokens[0] == 'package':
                    file = cls.resolve_package_path(value)
                else:
                    file = value

            if url is not None:
                logger.debug('Loading config from url %s', url)
                obj = ConfigFactory.parse_URL(url,
                                              resolve=False,
                                              required=required,
                                              unresolved_value=NO_SUBSTITUTION)
            elif file is not None:
                path = file if basedir is None else os.path.join(basedir, file)

                def _make_prefix(path):
                    return ('<root>' if path is None else '[%s]' %
                            path).ljust(55).replace('\\', '/')

                _prefix = _make_prefix(path)

                def _load(path):
                    _prefix = _make_prefix(path)
                    logger.debug('%s Loading config from file %r', _prefix,
                                 path)
                    obj = ConfigFactory.parse_file(
                        path,
                        resolve=False,
                        required=required,
                        unresolved_value=NO_SUBSTITUTION)
                    logger.debug('%s Result: %s', _prefix, obj)
                    return obj

                if '*' in path or '?' in path:
                    paths = glob(path, recursive=True)
                    obj = None

                    def _merge(a, b):
                        if a is None or b is None:
                            return a or b
                        elif isinstance(a, ConfigTree) and isinstance(
                                b, ConfigTree):
                            return ConfigTree.merge_configs(a, b)
                        elif isinstance(a, list) and isinstance(b, list):
                            return a + b
                        else:
                            raise ConfigException(
                                'Unable to make such include (merging unexpected types: {a} and {b}',
                                a=type(a),
                                b=type(b))

                    logger.debug('%s Loading following configs: %s', _prefix,
                                 paths)
                    for p in paths:
                        obj = _merge(obj, _load(p))
                    logger.debug('%s Result: %s', _prefix, obj)

                else:
                    logger.debug('%s Loading single config: %s', _prefix, path)
                    obj = _load(path)

            else:
                raise ConfigException(
                    'No file or URL specified at: {loc}: {instring}',
                    loc=loc,
                    instring=instring)

            return ConfigInclude(obj if isinstance(obj, list) else obj.items())

        @contextlib.contextmanager
        def set_default_white_spaces():
            default = ParserElement.DEFAULT_WHITE_CHARS
            ParserElement.setDefaultWhitespaceChars(' \t')
            yield
            ParserElement.setDefaultWhitespaceChars(default)

        with set_default_white_spaces():
            assign_expr = Forward()
            true_expr = Keyword("true", caseless=True).setParseAction(
                replaceWith(True))
            false_expr = Keyword("false", caseless=True).setParseAction(
                replaceWith(False))
            null_expr = Keyword("null", caseless=True).setParseAction(
                replaceWith(NoneValue()))
            key = QuotedString(
                '"', escChar='\\',
                unquoteResults=False) | Word(alphanums + alphas8bit + '._- /')

            eol = Word('\n\r').suppress()
            eol_comma = Word('\n\r,').suppress()
            comment = (Literal('#') | Literal('//')) - SkipTo(eol
                                                              | StringEnd())
            comment_eol = Suppress(Optional(eol_comma) + comment)
            comment_no_comma_eol = (comment | eol).suppress()
            number_expr = Regex(
                r'[+-]?(\d*\.\d+|\d+(\.\d+)?)([eE][+\-]?\d+)?(?=$|[ \t]*([\$\}\],#\n\r]|//))',
                re.DOTALL).setParseAction(convert_number)
            # Must be sorted from longest to shortest otherwise 'weeks' will match 'w' and 'eeks'
            # will be parsed as a general string.
            period_types = sorted(itertools.chain.from_iterable(
                cls.get_supported_period_type_map().values()),
                                  key=lambda x: len(x),
                                  reverse=True)
            period_expr = Regex(
                r'(?P<value>\d+)\s*(?P<unit>' + '|'.join(period_types) + ')$',
                flags=re.MULTILINE,
            ).setParseAction(convert_period)

            # multi line string using """
            # Using fix described in http://pyparsing.wikispaces.com/share/view/3778969
            multiline_string = Regex(
                '""".*?"*"""',
                re.DOTALL | re.UNICODE).setParseAction(parse_multi_string)
            # single quoted line string
            quoted_string = Regex(
                r'"(?:[^"\\\n]|\\.)*"[ \t]*',
                re.UNICODE).setParseAction(create_quoted_string)
            # unquoted string that takes the rest of the line until an optional comment
            # we support .properties multiline support which is like this:
            # line1  \
            # line2 \
            # so a backslash precedes the \n
            unquoted_string = Regex(
                r'(?:[^^`+?!@*&"\[\{\s\]\}#,=\$\\]|\\.)+[ \t]*',
                re.UNICODE).setParseAction(unescape_string)
            substitution_expr = Regex(r'[ \t]*\$\{[^\}]+\}[ \t]*'
                                      ).setParseAction(create_substitution)
            string_expr = multiline_string | quoted_string | unquoted_string

            value_expr = period_expr | number_expr | true_expr | false_expr | null_expr | string_expr

            include_content = (quoted_string | (
                (Keyword('url') | Keyword('file') | Keyword('package')) -
                Literal('(').suppress() - quoted_string -
                Literal(')').suppress()))
            include_expr = (Keyword("include", caseless=True).suppress() +
                            (include_content |
                             (Keyword("required") - Literal('(').suppress() -
                              include_content - Literal(')').suppress()))
                            ).setParseAction(include_config)

            root_dict_expr = Forward()
            dict_expr = Forward()
            list_expr = Forward()
            multi_value_expr = ZeroOrMore(comment_eol | include_expr
                                          | substitution_expr | dict_expr
                                          | list_expr | value_expr
                                          | (Literal('\\') - eol).suppress())
            # for a dictionary : or = is optional
            # last zeroOrMore is because we can have t = {a:4} {b: 6} {c: 7} which is dictionary concatenation
            inside_dict_expr = ConfigTreeParser(
                ZeroOrMore(comment_eol | include_expr | assign_expr
                           | eol_comma))
            inside_root_dict_expr = ConfigTreeParser(
                ZeroOrMore(comment_eol | include_expr | assign_expr
                           | eol_comma),
                root=True)
            dict_expr << Suppress('{') - inside_dict_expr - Suppress('}')
            root_dict_expr << Suppress('{') - inside_root_dict_expr - Suppress(
                '}')
            list_entry = ConcatenatedValueParser(multi_value_expr)
            list_expr << Suppress('[') - ListParser(list_entry - ZeroOrMore(
                eol_comma - list_entry)) - Suppress(']')

            # special case when we have a value assignment where the string can potentially be the remainder of the line
            assign_expr << Group(key - ZeroOrMore(comment_no_comma_eol) - (
                dict_expr | (Literal('=') | Literal(':') | Literal('+=')) -
                ZeroOrMore(comment_no_comma_eol) -
                ConcatenatedValueParser(multi_value_expr)))

            # the file can be { ... } where {} can be omitted or []
            config_expr = ZeroOrMore(comment_eol | eol) + (
                list_expr | root_dict_expr
                | inside_root_dict_expr) + ZeroOrMore(comment_eol | eol_comma)
            config = config_expr.parseString(content, parseAll=True)[0]

            if resolve:
                allow_unresolved = resolve and unresolved_value is not DEFAULT_SUBSTITUTION and unresolved_value is not MANDATORY_SUBSTITUTION
                has_unresolved = cls.resolve_substitutions(
                    config, allow_unresolved)
                if has_unresolved and unresolved_value is MANDATORY_SUBSTITUTION:
                    raise ConfigSubstitutionException(
                        'resolve cannot be set to True and unresolved_value to MANDATORY_SUBSTITUTION'
                    )

            if unresolved_value is not NO_SUBSTITUTION and unresolved_value is not DEFAULT_SUBSTITUTION:
                cls.unresolve_substitutions_to_value(config, unresolved_value)
        return config
コード例 #36
0
ファイル: sil.py プロジェクト: perrycate/516-project
)

atom = expr + (Literal("<=") | Literal("<") | Literal("=")) + expr
atom.setParseAction(mk_atom)

formula = infixNotation(
    atom,
    [
        ("not", 1, opAssoc.RIGHT, mk_not),
        ("and", 2, opAssoc.LEFT, mk_and),
        ("or", 2, opAssoc.LEFT, mk_or),
    ],
)


block = Forward()
assign_stmt = varname + ":=" + expr
if_stmt = Keyword("if") + formula + block + Keyword("else").suppress() + block
while_stmt = Keyword("while") + formula + block
panic_stmt = Literal("panic") + Literal('(').suppress() + Literal(')').suppress()
print_stmt = (
    Literal("print")
) + (
    Literal('(').suppress()
) + (
    expr
) + (
    Literal(')').suppress()
)
stmt = if_stmt ^ while_stmt ^ print_stmt ^ assign_stmt ^ panic_stmt
block << (
コード例 #37
0
LANGLE = Literal("<").suppress()
LBRACE = Literal("[").suppress()
LPAREN = Literal("(").suppress()
PERIOD = Literal(".").suppress()
RANGLE = Literal(">").suppress()
RBRACE = Literal("]").suppress()
RPAREN = Literal(")").suppress()

CATEGORIES = CaselessLiteral("categories").suppress()
END = CaselessLiteral("end").suppress()
FONT = CaselessLiteral("font").suppress()
HINT = CaselessLiteral("hint").suppress()
ITEM = CaselessLiteral("item").suppress()
OBJECT = CaselessLiteral("object").suppress()

attribute_value_pair = Forward()  # this is recursed in item_list_entry

simple_identifier = Word(alphas, alphanums + "_")
identifier = Combine(simple_identifier +
                     ZeroOrMore(Literal(".") + simple_identifier))
object_name = identifier
object_type = identifier

# Integer and floating point values are converted to Python longs and floats, respectively.
int_value = Combine(Optional("-") +
                    Word(nums)).setParseAction(lambda s, l, t: [int(t[0])])
float_value = Combine(Optional("-") + Optional(Word(nums)) + "." +
                      Word(nums)).setParseAction(lambda s, l, t: [float(t[0])])
number_value = float_value | int_value

# Base16 constants are left in string form, including the surrounding braces.
コード例 #38
0
ファイル: db_diagram.py プロジェクト: KarlLevik/db-diagram
def sql2table_list(tables, show_columns=True):
    def field_act(s, loc, tok):
        return " ".join(tok).replace('\n', '\\n')

    def field_list_act(s, loc, tok):
        return tok

    def create_table_act(s, loc, tok):
        table = Table(tok["tableName"], None, {}, {})
        for t in tok["fields"]:
            if str(t).startswith("FK:"):
                l = t[3:].split(":")
                if len(l) > 2:
                    table.fkeys[l[0]] = {"ftable": l[1], "fcoloumn": l[2]}
                else:
                    table.fkeys[l[0]] = {"ftable": l[1]}

            elif str(t).startswith("PK:"):
                table.pk = t[3:]
            elif str(t).startswith("KEY:"):
                pass
            else:
                l = t.split(" ")
                table.columns[l[0]] = " ".join(l[1:])
        tables.append(table)

    def add_fkey_act(s, loc, tok):
        return '{tableName}:{keyName}:{fkTable}:{fkCol}'.format(**tok)

    def fkey_act(s, loc, tok):
        return 'FK:{keyName}:{fkTable}:{fkCol}'.format(**tok)

    def fkey_nocols_act(s, loc, tok):
        return 'FK:{keyName}:{fkTable}'.format(**tok)

    # def fkey_list_act(s, loc, tok):
    #     return "\n        ".join(tok)

    def other_statement_act(s, loc, tok):
        pass

    def join_string_act(s, loc, tok):
        return "".join(tok).replace('\n', '\\n')

    def quoted_default_value_act(s, loc, tok):
        return tok[0] + " " + "".join(tok[1::])

    def pk_act(s, loc, tok):
        return 'PK:{primary_key}'.format(**tok)

    def k_act(s, loc, tok):
        pass

    def no_act(s, loc, tok):
        pass

    string = Regex('[a-zA-Z0-9=_]+')
    ws = OneOrMore(White()).suppress()
    lp = Regex('[(]').suppress()
    rp = Regex('[)]').suppress()
    c = Regex('[,]').suppress()
    q = Regex("[`]").suppress()

    parenthesis = Forward()
    parenthesis <<= "(" + ZeroOrMore(CharsNotIn("()") | parenthesis) + ")"
    parenthesis.setParseAction(join_string_act)

    quoted_string = "'" + ZeroOrMore(CharsNotIn("'")) + "'"
    quoted_string.setParseAction(join_string_act)

    quoted_default_value = "DEFAULT" + quoted_string + OneOrMore(
        CharsNotIn(", \n\t"))
    quoted_default_value.setParseAction(quoted_default_value_act)

    column_comment = CaselessKeyword("COMMENT") + quoted_string

    primary_key = CaselessKeyword('PRIMARY').suppress() + CaselessKeyword(
        "KEY").suppress() + lp + string.setResultsName('primary_key') + rp
    primary_key.ignore("`")
    primary_key.setParseAction(pk_act)

    key_def = Optional(CaselessKeyword('UNIQUE').suppress()) + CaselessKeyword(
        'KEY').suppress() + Word(alphanums + "_") + lp + delimitedList(
            string.setResultsName('key'), delim=",") + rp
    key_def.ignore("`")
    key_def.setParseAction(k_act)

    fkey_def = CaselessKeyword("CONSTRAINT") + Word(
        alphanums + "_"
    ) + CaselessKeyword("FOREIGN") + CaselessKeyword("KEY") + lp + Word(
        alphanums + "_"
    ).setResultsName("keyName") + rp + CaselessKeyword("REFERENCES") + Word(
        alphanums + "._").setResultsName("fkTable") + lp + Word(
            alphanums + "_").setResultsName("fkCol") + rp + Optional(
                CaselessKeyword("DEFERRABLE")
            ) + Optional(
                CaselessKeyword("ON") +
                (CaselessKeyword("DELETE") | CaselessKeyword("UPDATE")) +
                (CaselessKeyword("CASCADE") | CaselessKeyword("RESTRICT")
                 | CaselessKeyword("NO ACTION") | CaselessKeyword("SET NULL"))
            ) + Optional(
                CaselessKeyword("ON") +
                (CaselessKeyword("DELETE") | CaselessKeyword("UPDATE")) +
                (CaselessKeyword("CASCADE") | CaselessKeyword("RESTRICT")
                 | CaselessKeyword("NO ACTION") | CaselessKeyword("SET NULL")))
    fkey_def.ignore("`")
    if show_columns:
        fkey_def.setParseAction(fkey_act)
    else:
        fkey_def.setParseAction(fkey_nocols_act)

    #fkey_list_def = ZeroOrMore(Suppress(",") + fkey_def)
    #fkey_list_def.setParseAction(fkey_list_act)

    field_def = Word(alphanums + "_\"':-/[].") + Word(
        alphanums + "_\"':-/[].") + Optional(
            CaselessKeyword("NOT NULL") | CaselessKeyword("DEFAULT") +
            Word(alphanums + "_\"':-/[].")) + Optional(
                OneOrMore(quoted_default_value | column_comment
                          | Word(alphanums + "_\"'`:-/[].") | parenthesis))
    field_def.ignore("`")

    #    if columns:
    field_def.setParseAction(field_act)
    #    else:
    #        field_def.setParseAction(no_act)

    field_list_def = delimitedList(\
        (primary_key.suppress() | \
        key_def.suppress() | \
        fkey_def | \
        field_def \
        ), delim=","\
    )
    #if columns else field_def.suppress()
    field_list_def.setParseAction(field_list_act)

    tablename_def = (Word(alphanums + "_.") | QuotedString("\""))
    tablename_def.ignore("`")

    create_table_def = CaselessKeyword("CREATE").suppress() + CaselessKeyword(
        "TABLE").suppress() + tablename_def.setResultsName(
            "tableName") + lp + field_list_def.setResultsName(
                "fields") + rp + ZeroOrMore(
                    Word(alphanums + "_\"'`:-/[].=")) + Word(";").suppress()
    create_table_def.setParseAction(create_table_act)

    add_fkey_def = CaselessKeyword(
        "ALTER") + "TABLE" + "ONLY" + tablename_def.setResultsName(
            "tableName") + "ADD" + "CONSTRAINT" + Word(
                alphanums + "_"
            ) + "FOREIGN" + "KEY" + "(" + Word(alphanums + "_").setResultsName(
                "keyName") + ")" + "REFERENCES" + Word(
                    alphanums + "._").setResultsName("fkTable") + "(" + Word(
                        alphanums + "_"
                    ).setResultsName("fkCol") + ")" + Optional(
                        Literal("DEFERRABLE")) + Optional(
                            Literal("ON") + "DELETE" +
                            (Literal("CASCADE") | Literal("RESTRICT"))) + ";"
    add_fkey_def.setParseAction(add_fkey_act)

    other_statement_def = OneOrMore(CharsNotIn(";")) + ";"
    other_statement_def.setParseAction(other_statement_act)

    comment_def = "--" + ZeroOrMore(CharsNotIn("\n"))
    comment_def.setParseAction(other_statement_act)

    return OneOrMore(comment_def | create_table_def | add_fkey_def
                     | other_statement_def)
コード例 #39
0
    exprStack.append(toks[0])


# the following statements define the grammar for the parser.

point = Literal(".")
e = CaselessLiteral("E")
plusorminus = Literal("+") | Literal("-")
number = Word(nums)
integer = Combine(Optional(plusorminus) + number)
floatnumber = Combine(integer + Optional(point + Optional(number)) +
                      Optional(e + integer))

lbracket = Literal("[")
rbracket = Literal("]")
ident = Forward()
## The definition below treats array accesses as identifiers. This means your expressions
## can include references to array elements, rows and columns, e.g., a = b[i] + 5.
## Expressions within []'s are not presently supported, so a = b[i+1] will raise
## a ParseException.
ident = Combine(
    Word(alphas + "-", alphanums + "_") +
    ZeroOrMore(lbracket +
               (Word(alphas + "-", alphanums + "_") | integer) + rbracket))

plus = Literal("+")
minus = Literal("-")
mult = Literal("*")
div = Literal("/")
solveop = Literal("\\")
outer = Literal("@")
コード例 #40
0
    def parse_col_desc(self, data_type):
        ''' Returns a prased output based on type describe output.
    data_type is string that should look like this:
    "bigint"
    or like this:
    "array<struct<
      field_51:int,
      field_52:bigint,
      field_53:int,
      field_54:boolean
    >>"
    In the first case, this method would return: 'bigint'
    In the second case, it would return
    ['array',
      ['struct',
        ['field_51', 'int'],
        ['field_52', 'bigint'],
        ['field_53', 'int'],
        ['field_54', 'boolean']]]
    This output is used to create the appropriate columns by self.create_column().
    '''

        COMMA, LPAR, RPAR, COLON, LBRA, RBRA = map(Suppress, ",<>:()")

        t_bigint = Literal('bigint')
        t_int = Literal('int')
        t_integer = Literal('integer')
        t_smallint = Literal('smallint')
        t_tinyint = Literal('tinyint')
        t_boolean = Literal('boolean')
        t_string = Literal('string')
        t_timestamp = Literal('timestamp')
        t_timestamp_without_time_zone = Literal('timestamp without time zone')
        t_float = Literal('float')
        t_double = Literal('double')
        t_real = Literal('real')
        t_double_precision = Literal('double precision')

        t_decimal = Group(
            Literal('decimal') + LBRA + Word(nums) + COMMA + Word(nums) + RBRA)
        t_numeric = Group(
            Literal('numeric') + LBRA + Word(nums) + COMMA + Word(nums) + RBRA)
        t_char = Group(Literal('char') + LBRA + Word(nums) + RBRA)
        t_character = Group(Literal('character') + LBRA + Word(nums) + RBRA)
        t_varchar = (Group(Literal('varchar') + LBRA + Word(nums) + RBRA)
                     | Literal('varchar'))
        t_character_varying = Group(
            Literal('character varying') + LBRA + Word(nums) + RBRA)

        t_struct = Forward()
        t_array = Forward()
        t_map = Forward()

        complex_type = (t_struct | t_array | t_map)

        any_type = (complex_type | t_bigint | t_int | t_integer | t_smallint
                    | t_tinyint | t_boolean | t_string | t_timestamp
                    | t_timestamp_without_time_zone | t_float | t_double
                    | t_real | t_double_precision | t_decimal | t_numeric
                    | t_char | t_character | t_character_varying | t_varchar)

        struct_field_name = Word(alphanums + '_')
        struct_field_pair = Group(struct_field_name + COLON + any_type)

        t_struct << Group(
            Literal('struct') + LPAR + delimitedList(struct_field_pair) + RPAR)
        t_array << Group(Literal('array') + LPAR + any_type + RPAR)
        t_map << Group(
            Literal('map') + LPAR + any_type + COMMA + any_type + RPAR)

        return any_type.parseString(data_type)[0]
コード例 #41
0
"""

from pyparsing import Suppress,Word,nums,alphas,alphanums,Combine,oneOf,\
        Optional,QuotedString,Forward,Group,ZeroOrMore,printables,srange

MARK, UNMARK, AT, COLON, QUOTE = map(Suppress, "[]@:'")

NUMBER = Word(nums)
NUMBER.setParseAction(lambda t: int(t[0]))
FLOAT = Combine(oneOf("+ -") + Word(nums) + "." + Optional(Word(nums)))
FLOAT.setParseAction(lambda t: float(t[0]))
STRING = QuotedString('"', multiline=True)
WORD = Word(alphas, alphanums + "_:")
ATTRIBUTE = Combine(AT + WORD)

strBody = Forward()


def setBodyLength(tokens):
    strBody << Word(srange(r'[\0x00-\0xffff]'), exact=int(tokens[0]))
    return ""


BLOB = Combine(QUOTE + Word(nums).setParseAction(setBodyLength) + COLON +
               strBody + QUOTE)

item = Forward()


def assignUsing(s):
    def assignPA(tokens):
コード例 #42
0
ファイル: sql.py プロジェクト: lukerees/eventkit-cloud
def checkQuotedColon(s, loc, toks):
    if ':' in toks[0]:
        raise InvalidSQL("identifier with colon : must be in double quotes.")


def checkDoubleQuotes(s, loc, toks):
    # TODO really?
    if toks[0][0] == "'":
        raise InvalidSQL("quoted strings must use double quotes.")


ident = Word(alphas, alphanums + "_:").setParseAction(checkQuotedColon)
columnName = (ident
              | quotedString().setParseAction(checkDoubleQuotes))("columnName")

whereExpression = Forward()
and_ = Keyword("and", caseless=True)('and')
or_ = Keyword("or", caseless=True)('or')
in_ = Keyword("in", caseless=True)("in")
isnotnull = Keyword("is not null", caseless=True)('notnull')
binop = oneOf("= != < > >= <=", caseless=True)('binop')
intNum = Word(nums)

columnRval = (intNum | quotedString)('rval*')
whereCondition = Group((columnName + isnotnull)
                       | (columnName + binop + columnRval)
                       | (columnName + in_ + "(" + delimitedList(columnRval) +
                          ")") | ("(" + whereExpression + ")"))('condition')
whereExpression << Group(whereCondition + ZeroOrMore(
    (and_ | or_) + whereExpression))('expression')
コード例 #43
0
               Optional(e + integer))
numarg = (real | integer)
identifier = Word(alphas + "_", alphanums + "_")
dotidentifier = Word(alphas, alphanums + "_" + ".")
bracketidentifier = identifier + lbracket + Word(alphas) + rbracket
statement = Group(identifier + equal + (quotedString | restOfLine))

#math
mathElements = (numarg | ',' | '+' | '-' | '*' | '/' | '^' | '&' | '>' | '<'
                | '=' | '|' | identifier)
nestedMathDefinition = nestedExpr('(', ')', content=mathElements)
mathDefinition = OneOrMore(mathElements)

section_enclosure2_ = nestedExpr('{', '}')

section_enclosure_ = Forward()
nestedBrackets = nestedExpr('[', ']', content=section_enclosure_)
nestedCurlies = nestedExpr('{', '}', content=section_enclosure_)
section_enclosure_ << (
    statement | Group(identifier + ZeroOrMore(identifier) + nestedCurlies)
    | Group(identifier + '@' + restOfLine) | Word(alphas, alphanums + "_[]")
    | identifier | Suppress(',') | '@' | real)

function_entry_ = Suppress(dbquotes) + Group(
    identifier.setResultsName('functionName') + Suppress(lparen) +
    delimitedList(Group(
        identifier.setResultsName('key') + Suppress(equal) +
        (identifier | numarg).setResultsName('value')),
                  delim=',').setResultsName('parameters') +
    Suppress(rparen)) + Suppress(dbquotes)
コード例 #44
0
ファイル: grammar.py プロジェクト: vbichov/graphite-web
from pyparsing import (
    Forward, Combine, Optional, Word, Literal, CaselessKeyword,
    CaselessLiteral, Group, FollowedBy, LineEnd, OneOrMore, ZeroOrMore,
    alphas, alphanums, printables, delimitedList, quotedString, Regex,
    __version__,
)

grammar = Forward()

expression = Forward()

# Literals

intNumber = Regex(r'-?\d+')('integer')

floatNumber = Regex(r'-?\d+\.\d+')('float')

sciNumber = Combine(
  (floatNumber | intNumber) + CaselessLiteral('e') + intNumber
)('scientific')

aString = quotedString('string')

# Use lookahead to match only numbers in a list (can't remember why this is necessary)
afterNumber = FollowedBy(",") ^ FollowedBy(")") ^ FollowedBy(LineEnd())
number = Group(
  (sciNumber + afterNumber) |
  (floatNumber + afterNumber) |
  (intNumber + afterNumber)
)('number')
コード例 #45
0
ファイル: spice_parser.py プロジェクト: TaihuLight/systemsgx
def SPICE_BNF():
    global bnf

    if not bnf:

        # punctuation
        colon = Literal(":").suppress()
        lbrace = Literal("{").suppress()
        rbrace = Literal("}").suppress()
        lbrack = Literal("[").suppress()
        rbrack = Literal("]").suppress()
        lparen = Literal("(").suppress()
        rparen = Literal(")").suppress()
        equals = Literal("=").suppress()
        comma = Literal(",").suppress()
        semi = Literal(";").suppress()

        # primitive types
        int8_ = Keyword("int8").setParseAction(replaceWith(ptypes.int8))
        uint8_ = Keyword("uint8").setParseAction(replaceWith(ptypes.uint8))
        int16_ = Keyword("int16").setParseAction(replaceWith(ptypes.int16))
        uint16_ = Keyword("uint16").setParseAction(replaceWith(ptypes.uint16))
        int32_ = Keyword("int32").setParseAction(replaceWith(ptypes.int32))
        uint32_ = Keyword("uint32").setParseAction(replaceWith(ptypes.uint32))
        int64_ = Keyword("int64").setParseAction(replaceWith(ptypes.int64))
        uint64_ = Keyword("uint64").setParseAction(replaceWith(ptypes.uint64))

        # keywords
        channel_ = Keyword("channel")
        enum32_ = Keyword("enum32").setParseAction(replaceWith(32))
        enum16_ = Keyword("enum16").setParseAction(replaceWith(16))
        enum8_ = Keyword("enum8").setParseAction(replaceWith(8))
        flags32_ = Keyword("flags32").setParseAction(replaceWith(32))
        flags16_ = Keyword("flags16").setParseAction(replaceWith(16))
        flags8_ = Keyword("flags8").setParseAction(replaceWith(8))
        channel_ = Keyword("channel")
        server_ = Keyword("server")
        client_ = Keyword("client")
        protocol_ = Keyword("protocol")
        typedef_ = Keyword("typedef")
        struct_ = Keyword("struct")
        message_ = Keyword("message")
        image_size_ = Keyword("image_size")
        bytes_ = Keyword("bytes")
        cstring_ = Keyword("cstring")
        switch_ = Keyword("switch")
        default_ = Keyword("default")
        case_ = Keyword("case")

        identifier = Word(alphas, alphanums + "_")
        enumname = Word(alphanums + "_")

        integer = (
            Combine(CaselessLiteral("0x") + Word(nums + "abcdefABCDEF"))
            | Word(nums + "+-", nums)).setName("int").setParseAction(cvtInt)

        typename = identifier.copy().setParseAction(
            lambda toks: ptypes.TypeRef(str(toks[0])))

        # This is just normal "types", i.e. not channels or messages
        typeSpec = Forward()

        attributeValue = integer ^ identifier
        attribute = Group(
            Combine("@" + identifier) +
            Optional(lparen + delimitedList(attributeValue) + rparen))
        attributes = Group(ZeroOrMore(attribute))
        arraySizeSpecImage = Group(image_size_ + lparen + integer + comma +
                                   identifier + comma + identifier + rparen)
        arraySizeSpecBytes = Group(bytes_ + lparen + identifier + comma +
                                   identifier + rparen)
        arraySizeSpecCString = Group(cstring_ + lparen + rparen)
        arraySizeSpec = lbrack + Optional(
            identifier ^ integer ^ arraySizeSpecImage ^ arraySizeSpecBytes
            ^ arraySizeSpecCString,
            default="") + rbrack
        variableDef = Group(typeSpec + Optional("*", default=None) + identifier + Optional(arraySizeSpec, default=None) + attributes - semi) \
            .setParseAction(parseVariableDef)

        switchCase = Group(Group(OneOrMore(default_.setParseAction(replaceWith(None)) + colon | Group(case_.suppress() + Optional("!", default="") + identifier) + colon)) + variableDef) \
            .setParseAction(lambda toks: ptypes.SwitchCase(toks[0][0], toks[0][1]))
        switchBody = Group(switch_ + lparen + delimitedList(identifier,delim='.', combine=True) + rparen + lbrace + Group(OneOrMore(switchCase)) + rbrace + identifier + attributes - semi) \
            .setParseAction(lambda toks: ptypes.Switch(toks[0][1], toks[0][2], toks[0][3], toks[0][4]))
        messageBody = structBody = Group(lbrace +
                                         ZeroOrMore(variableDef | switchBody) +
                                         rbrace)
        structSpec = Group(struct_ + identifier + structBody +
                           attributes).setParseAction(
                               lambda toks: ptypes.StructType(
                                   toks[0][1], toks[0][2], toks[0][3]))

        # have to use longest match for type, in case a user-defined type name starts with a keyword type, like "channel_type"
        typeSpec << (structSpec ^ int8_ ^ uint8_ ^ int16_ ^ uint16_ ^ int32_
                     ^ uint32_ ^ int64_ ^ uint64_ ^ typename).setName("type")

        flagsBody = enumBody = Group(
            lbrace +
            delimitedList(Group(enumname + Optional(equals + integer))) +
            Optional(comma) + rbrace)

        messageSpec = Group(message_ + messageBody + attributes
                            ).setParseAction(lambda toks: ptypes.MessageType(
                                None, toks[0][1], toks[0][2])) | typename

        channelParent = Optional(colon + typename, default=None)
        channelMessage = Group(messageSpec + identifier + Optional(equals + integer, default=None) + semi) \
            .setParseAction(lambda toks: ptypes.ChannelMember(toks[0][1], toks[0][0], toks[0][2]))
        channelBody = channelParent + Group(lbrace + ZeroOrMore(
            server_ + colon | client_ + colon | channelMessage) + rbrace)

        enum_ = (enum32_ | enum16_ | enum8_)
        flags_ = (flags32_ | flags16_ | flags8_)
        enumDef = Group(enum_ + identifier + enumBody + attributes -
                        semi).setParseAction(lambda toks: ptypes.EnumType(
                            toks[0][0], toks[0][1], toks[0][2], toks[0][3]))
        flagsDef = Group(flags_ + identifier + flagsBody + attributes -
                         semi).setParseAction(lambda toks: ptypes.FlagsType(
                             toks[0][0], toks[0][1], toks[0][2], toks[0][3]))
        messageDef = Group(message_ + identifier + messageBody + attributes -
                           semi).setParseAction(
                               lambda toks: ptypes.MessageType(
                                   toks[0][1], toks[0][2], toks[0][3]))
        channelDef = Group(
            channel_ + identifier + channelBody + attributes -
            semi).setParseAction(lambda toks: ptypes.ChannelType(
                toks[0][1], toks[0][2], toks[0][3], toks[0][4]))
        structDef = Group(struct_ + identifier + structBody + attributes -
                          semi).setParseAction(lambda toks: ptypes.StructType(
                              toks[0][1], toks[0][2], toks[0][3]))
        typedefDef = Group(typedef_ + identifier + typeSpec + attributes -
                           semi).setParseAction(lambda toks: ptypes.TypeAlias(
                               toks[0][1], toks[0][2], toks[0][3]))

        definitions = typedefDef | structDef | enumDef | flagsDef | messageDef | channelDef

        protocolChannel = Group(typename + identifier +  Optional(equals + integer, default=None) + semi) \
            .setParseAction(lambda toks: ptypes.ProtocolMember(toks[0][1], toks[0][0], toks[0][2]))
        protocolDef = Group(protocol_ + identifier + Group(lbrace + ZeroOrMore(protocolChannel) + rbrace) + semi) \
            .setParseAction(lambda toks: ptypes.ProtocolType(toks[0][1], toks[0][2]))

        bnf = ZeroOrMore(definitions) + protocolDef + StringEnd()

        singleLineComment = "//" + restOfLine
        bnf.ignore(singleLineComment)
        bnf.ignore(cStyleComment)

    return bnf
コード例 #46
0
    def parse_algebra(self):
        """
        Parse an algebraic expression into a tree.

        Store a `pyparsing.ParseResult` in `self.tree` with proper groupings to
        reflect parenthesis and order of operations. Leave all operators in the
        tree and do not parse any strings of numbers into their float versions.

        Adding the groups and result names makes the `repr()` of the result
        really gross. For debugging, use something like
          print OBJ.tree.asXML()
        """
        # 0.33 or 7 or .34 or 16.
        number_part = Word(nums)
        inner_number = (number_part +
                        Optional("." + Optional(number_part))) | ("." +
                                                                  number_part)
        # pyparsing allows spaces between tokens--`Combine` prevents that.
        inner_number = Combine(inner_number)

        # SI suffixes and percent.
        number_suffix = MatchFirst(Literal(k) for k in SUFFIXES.keys())

        # 0.33k or 17
        plus_minus = Literal('+') | Literal('-')
        number = Group(
            Optional(plus_minus) + inner_number + Optional(
                CaselessLiteral("E") + Optional(plus_minus) + number_part) +
            Optional(number_suffix))
        number = number("number")

        # Predefine recursive variables.
        expr = Forward()

        # Handle variables passed in. They must start with a letter
        # and may contain numbers and underscores afterward.
        inner_varname = Combine(
            Word(alphas, alphanums + "_") + ZeroOrMore("'"))
        # Alternative variable name in tensor format
        # Tensor name must start with a letter, continue with alphanums
        # Indices may be alphanumeric
        # e.g., U_{ijk}^{123}
        upper_indices = Literal("^{") + Word(alphanums) + Literal("}")
        lower_indices = Literal("_{") + Word(alphanums) + Literal("}")
        tensor_lower = Combine(
            Word(alphas, alphanums) + lower_indices + ZeroOrMore("'"))
        tensor_mixed = Combine(
            Word(alphas, alphanums) + Optional(lower_indices) + upper_indices +
            ZeroOrMore("'"))
        # Test for mixed tensor first, then lower tensor alone, then generic variable name
        varname = Group(tensor_mixed | tensor_lower
                        | inner_varname)("variable")
        varname.setParseAction(self.variable_parse_action)

        # Same thing for functions.
        function = Group(inner_varname + Suppress("(") + expr +
                         Suppress(")"))("function")
        function.setParseAction(self.function_parse_action)

        atom = number | function | varname | "(" + expr + ")"
        atom = Group(atom)("atom")

        # Do the following in the correct order to preserve order of operation.
        pow_term = atom + ZeroOrMore("^" + atom)
        pow_term = Group(pow_term)("power")

        par_term = pow_term + ZeroOrMore('||' + pow_term)  # 5k || 4k
        par_term = Group(par_term)("parallel")

        prod_term = par_term + ZeroOrMore(
            (Literal('*') | Literal('/')) + par_term)  # 7 * 5 / 4
        prod_term = Group(prod_term)("product")

        sum_term = Optional(plus_minus) + prod_term + ZeroOrMore(
            plus_minus + prod_term)  # -5 + 4 - 3
        sum_term = Group(sum_term)("sum")

        # Finish the recursion.
        expr << sum_term  # pylint: disable=pointless-statement
        self.tree = (expr + stringEnd).parseString(self.math_expr)[0]
コード例 #47
0
def Verilog_BNF():
    global verilogbnf

    if verilogbnf is None:

        # compiler directives
        compilerDirective = Combine( "`" + \
            oneOf("define undef ifdef else endif default_nettype "
                  "include resetall timescale unconnected_drive "
                  "nounconnected_drive celldefine endcelldefine") + \
            restOfLine ).setName("compilerDirective")

        # primitives
        semi = Literal(";")
        lpar = Literal("(")
        rpar = Literal(")")
        equals = Literal("=")

        identLead = alphas+"$_"
        identBody = alphanums+"$_"
        identifier1 = Regex( r"\.?["+identLead+"]["+identBody+"]*(\.["+identLead+"]["+identBody+"]*)*"
                            ).setName("baseIdent")
        identifier2 = Regex(r"\\\S+").setParseAction(lambda t:t[0][1:]).setName("escapedIdent")
        identifier = identifier1 | identifier2
        
        hexnums = nums + "abcdefABCDEF" + "_?"
        base = Regex("'[bBoOdDhH]").setName("base")
        basedNumber = Combine( Optional( Word(nums + "_") ) + base + Word(hexnums+"xXzZ"),
                               joinString=" ", adjacent=False ).setName("basedNumber")
        #~ number = ( basedNumber | Combine( Word( "+-"+spacedNums, spacedNums ) +
                           #~ Optional( "." + Optional( Word( spacedNums ) ) ) +
                           #~ Optional( e + Word( "+-"+spacedNums, spacedNums ) ) ).setName("numeric") )
        number = ( basedNumber | \
                   Regex(r"[+-]?[0-9_]+(\.[0-9_]*)?([Ee][+-]?[0-9_]+)?") \
                  ).setName("numeric")
        #~ decnums = nums + "_"
        #~ octnums = "01234567" + "_"
        expr = Forward().setName("expr")
        concat = Group( "{" + delimitedList( expr ) + "}" )
        multiConcat = Group("{" + expr + concat + "}").setName("multiConcat")
        funcCall = Group(identifier + "(" + Optional( delimitedList( expr ) ) + ")").setName("funcCall")

        subscrRef = Group("[" + delimitedList( expr, ":" ) + "]")
        subscrIdentifier = Group( identifier + Optional( subscrRef ) )
        #~ scalarConst = "0" | (( FollowedBy('1') + oneOf("1'b0 1'b1 1'bx 1'bX 1'B0 1'B1 1'Bx 1'BX 1") ))
        scalarConst = Regex("0|1('[Bb][01xX])?")
        mintypmaxExpr = Group( expr + ":" + expr + ":" + expr ).setName("mintypmax")
        primary = (
                  number |
                  ("(" + mintypmaxExpr + ")" ) |
                  ( "(" + Group(expr) + ")" ).setName("nestedExpr") | #.setDebug() |
                  multiConcat |
                  concat |
                  dblQuotedString |
                  funcCall |
                  subscrIdentifier
                  )

        unop  = oneOf( "+  -  !  ~  &  ~&  |  ^|  ^  ~^" ).setName("unop")
        binop = oneOf( "+  -  *  /  %  ==  !=  ===  !==  &&  "
                       "||  <  <=  >  >=  &  |  ^  ^~  >>  << ** <<< >>>" ).setName("binop")

        expr << (
                ( unop + expr ) |  # must be first!
                ( primary + "?" + expr + ":" + expr ) |
                ( primary + Optional( binop + expr ) )
                )

        lvalue = subscrIdentifier | concat

        # keywords
        if_        = Keyword("if")
        else_      = Keyword("else")
        edge       = Keyword("edge")
        posedge    = Keyword("posedge")
        negedge    = Keyword("negedge")
        specify    = Keyword("specify")
        endspecify = Keyword("endspecify")
        fork       = Keyword("fork")
        join       = Keyword("join")
        begin      = Keyword("begin")
        end        = Keyword("end")
        default    = Keyword("default")
        forever    = Keyword("forever")
        repeat     = Keyword("repeat")
        while_     = Keyword("while")
        for_       = Keyword("for")
        case       = oneOf( "case casez casex" )
        endcase    = Keyword("endcase")
        wait       = Keyword("wait")
        disable    = Keyword("disable")
        deassign   = Keyword("deassign")
        force      = Keyword("force")
        release    = Keyword("release")
        assign     = Keyword("assign")

        eventExpr = Forward()
        eventTerm = ( posedge + expr ) | ( negedge + expr ) | expr | ( "(" + eventExpr + ")" )
        eventExpr << (
            Group( delimitedList( eventTerm, "or" ) )
            )
        eventControl = Group( "@" + ( ( "(" + eventExpr + ")" ) | identifier | "*" ) ).setName("eventCtrl")

        delayArg = ( number |
                     Word(alphanums+"$_") | #identifier |
                     ( "(" + Group( delimitedList( mintypmaxExpr | expr ) ) + ")" )
                   ).setName("delayArg")#.setDebug()
        delay = Group( "#" + delayArg ).setName("delay")#.setDebug()
        delayOrEventControl = delay | eventControl

        assgnmt   = Group( lvalue + "=" + Optional( delayOrEventControl ) + expr ).setName( "assgnmt" )
        nbAssgnmt = Group(( lvalue + "<=" + Optional( delay ) + expr ) |
                     ( lvalue + "<=" + Optional( eventControl ) + expr )).setName( "nbassgnmt" )

        range = "[" + expr + ":" + expr + "]"

        paramAssgnmt = Group( identifier + "=" + expr ).setName("paramAssgnmt")
        parameterDecl = Group( "parameter" + Optional( range ) + delimitedList( paramAssgnmt ) + semi).setName("paramDecl")

        inputDecl = Group( "input" + Optional( range ) + delimitedList( identifier ) + semi ).setParseAction(parseInput)
        outputDecl = Group( "output" + Optional( range ) + delimitedList( identifier ) + semi ).setParseAction(parseOutput)
        inoutDecl = Group( "inout" + Optional( range ) + delimitedList( identifier ) + semi )

        regIdentifier = Group( identifier + Optional( "[" + expr + ":" + expr + "]" ) )
        regDecl = Group( "reg" + Optional("signed") + Optional( range ) + delimitedList( regIdentifier ) + semi ).setName("regDecl")
        timeDecl = Group( "time" + delimitedList( regIdentifier ) + semi )
        integerDecl = Group( "integer" + delimitedList( regIdentifier ) + semi )

        strength0 = oneOf("supply0  strong0  pull0  weak0  highz0")
        strength1 = oneOf("supply1  strong1  pull1  weak1  highz1")
        driveStrength = Group( "(" + ( ( strength0 + "," + strength1 ) |
                                       ( strength1 + "," + strength0 ) ) + ")" ).setName("driveStrength")
        nettype = oneOf("wire  tri  tri1  supply0  wand  triand  tri0  supply1  wor  trior  trireg")
        expandRange = Optional( oneOf("scalared vectored") ) + range
        realDecl = Group( "real" + delimitedList( identifier ) + semi )

        eventDecl = Group( "event" + delimitedList( identifier ) + semi )

        blockDecl = (
            parameterDecl |
            regDecl |
            integerDecl |
            realDecl |
            timeDecl |
            eventDecl
            )

        stmt = Forward().setName("stmt")#.setDebug()
        stmtOrNull = stmt | semi
        caseItem = ( delimitedList( expr ) + ":" + stmtOrNull ) | \
                   ( default + Optional(":") + stmtOrNull )
        stmt << Group(
            ( begin + Group( ZeroOrMore( stmt ) ) + end ).setName("begin-end") |
            ( if_ + Group("(" + expr + ")") + stmtOrNull + Optional( else_ + stmtOrNull ) ).setName("if") |
            ( delayOrEventControl + stmtOrNull ) |
            ( case + "(" + expr + ")" + OneOrMore( caseItem ) + endcase ) |
            ( forever + stmt ) |
            ( repeat + "(" + expr + ")" + stmt ) |
            ( while_ + "(" + expr + ")" + stmt ) |
            ( for_ + "(" + assgnmt + semi + Group( expr ) + semi + assgnmt + ")" + stmt ) |
            ( fork + ZeroOrMore( stmt ) + join ) |
            ( fork + ":" + identifier + ZeroOrMore( blockDecl ) + ZeroOrMore( stmt ) + end ) |
            ( wait + "(" + expr + ")" + stmtOrNull ) |
            ( "->" + identifier + semi ) |
            ( disable + identifier + semi ) |
            ( assign + assgnmt + semi ) |
            ( deassign + lvalue + semi ) |
            ( force + assgnmt + semi ) |
            ( release + lvalue + semi ) |
            ( begin + ":" + identifier + ZeroOrMore( blockDecl ) + ZeroOrMore( stmt ) + end ).setName("begin:label-end") |
            # these  *have* to go at the end of the list!!!
            ( assgnmt + semi ) |
            ( nbAssgnmt + semi ) |
            ( Combine( Optional("$") + identifier ) + Optional( "(" + delimitedList(expr|empty) + ")" ) + semi )
            ).setName("stmtBody")
        """
        x::=<blocking_assignment> ;
        x||= <non_blocking_assignment> ;
        x||= if ( <expression> ) <statement_or_null>
        x||= if ( <expression> ) <statement_or_null> else <statement_or_null>
        x||= case ( <expression> ) <case_item>+ endcase
        x||= casez ( <expression> ) <case_item>+ endcase
        x||= casex ( <expression> ) <case_item>+ endcase
        x||= forever <statement>
        x||= repeat ( <expression> ) <statement>
        x||= while ( <expression> ) <statement>
        x||= for ( <assignment> ; <expression> ; <assignment> ) <statement>
        x||= <delay_or_event_control> <statement_or_null>
        x||= wait ( <expression> ) <statement_or_null>
        x||= -> <name_of_event> ;
        x||= <seq_block>
        x||= <par_block>
        x||= <task_enable>
        x||= <system_task_enable>
        x||= disable <name_of_task> ;
        x||= disable <name_of_block> ;
        x||= assign <assignment> ;
        x||= deassign <lvalue> ;
        x||= force <assignment> ;
        x||= release <lvalue> ;
        """
        alwaysStmt = Group( "always" + Optional(eventControl) + stmt ).setName("alwaysStmt")
        initialStmt = Group( "initial" + stmt ).setName("initialStmt")

        chargeStrength = Group( "(" + oneOf( "small medium large" ) + ")" ).setName("chargeStrength")

        continuousAssign = Group(
            assign + Optional( driveStrength ) + Optional( delay ) + delimitedList( assgnmt ) + semi
            ).setName("continuousAssign")


        tfDecl = (
            parameterDecl |
            inputDecl |
            outputDecl |
            inoutDecl |
            regDecl |
            timeDecl |
            integerDecl |
            realDecl
            )

        functionDecl = Group(
            "function" + Optional( range | "integer" | "real" ) + identifier + semi +
            Group( OneOrMore( tfDecl ) ) +
            Group( ZeroOrMore( stmt ) ) +
            "endfunction"
            )

        inputOutput = oneOf("input output")
        netDecl1Arg = ( nettype +
            Optional( expandRange ) +
            Optional( delay ) +
            Group( delimitedList( identifier ) ) )
        #Group( delimitedList( ~inputOutput + identifier ) ) )
        netDecl2Arg = ( "trireg" +
                        Optional( chargeStrength ) +
                        Optional( expandRange ) +
                        Optional( delay ) +
                        Group( delimitedList( identifier ) ) )
        #    Group( delimitedList( ~inputOutput + identifier ) ) )
        netDecl3Arg = ( nettype +
            Optional( driveStrength ) +
            Optional( expandRange ) +
            Optional( delay ) +
            Group( delimitedList( assgnmt ) ) )
        netDecl1 = Group(netDecl1Arg + semi)
        netDecl2 = Group(netDecl2Arg + semi)
        netDecl3 = Group(netDecl3Arg + semi)

        gateType = oneOf("and  nand  or  nor xor  xnor buf  bufif0 bufif1 "
                         "not  notif0 notif1  pulldown pullup nmos  rnmos "
                         "pmos rpmos cmos rcmos   tran rtran  tranif0  "
                         "rtranif0  tranif1 rtranif1"  )
        gateInstance = Optional( Group( identifier + Optional( range ) ) ) + \
                        "(" + Group( delimitedList( expr ) ) + ")"
        gateDecl = Group( gateType +
            Optional( driveStrength ) +
            Optional( delay ) +
            delimitedList( gateInstance) +
            semi )

        udpInstance = Group( Group( identifier + Optional(range | subscrRef) ) +
            "(" + Group( delimitedList( expr ) ) + ")" )
        udpInstantiation = Group( identifier -
            Optional( driveStrength ) +
            Optional( delay ) +
            delimitedList( udpInstance ) +
            semi ).setName("udpInstantiation")#.setParseAction(dumpTokens).setDebug()

        parameterValueAssignment = Group( Literal("#") + "(" + Group( delimitedList( expr ) ) + ")" )
        namedPortConnection = Group( "." + identifier + "(" + expr + ")" )
        modulePortConnection = expr | empty
        #~ moduleInstance = Group( Group ( identifier + Optional(range) ) +
            #~ ( delimitedList( modulePortConnection ) |
              #~ delimitedList( namedPortConnection ) ) )
        inst_args = Group( "(" + (delimitedList( modulePortConnection ) |
                    delimitedList( namedPortConnection )) + ")").setName("inst_args")#.setDebug()
        moduleInstance = Group( Group ( identifier + Optional(range) ) + inst_args )

        moduleInstantiation = Group( identifier +
            Optional( parameterValueAssignment ) +
            delimitedList( moduleInstance ).setName("moduleInstanceList") +
            semi ).setName("moduleInstantiation").setParseAction(parseSubmod)

        parameterOverride = Group( "defparam" + delimitedList( paramAssgnmt ) + semi )
        task = Group( "task" + identifier + semi +
            ZeroOrMore( tfDecl ) +
            stmtOrNull +
            "endtask" )

        specparamDecl = Group( "specparam" + delimitedList( paramAssgnmt ) + semi )

        pathDescr1 = Group( "(" + subscrIdentifier + "=>" + subscrIdentifier + ")" )
        pathDescr2 = Group( "(" + Group( delimitedList( subscrIdentifier ) ) + "*>" +
                                  Group( delimitedList( subscrIdentifier ) ) + ")" )
        pathDescr3 = Group( "(" + Group( delimitedList( subscrIdentifier ) ) + "=>" +
                                  Group( delimitedList( subscrIdentifier ) ) + ")" )
        pathDelayValue = Group( ( "(" + Group( delimitedList( mintypmaxExpr | expr ) ) + ")" ) |
                                 mintypmaxExpr |
                                 expr )
        pathDecl = Group( ( pathDescr1 | pathDescr2 | pathDescr3 ) + "=" + pathDelayValue + semi ).setName("pathDecl")

        portConditionExpr = Forward()
        portConditionTerm = Optional(unop) + subscrIdentifier
        portConditionExpr << portConditionTerm + Optional( binop + portConditionExpr )
        polarityOp = oneOf("+ -")
        levelSensitivePathDecl1 = Group(
            if_ + Group("(" + portConditionExpr + ")") +
            subscrIdentifier + Optional( polarityOp ) + "=>" + subscrIdentifier + "=" +
            pathDelayValue +
            semi )
        levelSensitivePathDecl2 = Group(
            if_ + Group("(" + portConditionExpr + ")") +
            lpar + Group( delimitedList( subscrIdentifier ) ) + Optional( polarityOp ) + "*>" +
                Group( delimitedList( subscrIdentifier ) ) + rpar + "=" +
            pathDelayValue +
            semi )
        levelSensitivePathDecl = levelSensitivePathDecl1 | levelSensitivePathDecl2

        edgeIdentifier = posedge | negedge
        edgeSensitivePathDecl1 = Group(
            Optional( if_ + Group("(" + expr + ")") ) +
            lpar + Optional( edgeIdentifier ) +
            subscrIdentifier + "=>" +
            lpar + subscrIdentifier + Optional( polarityOp ) + ":" + expr + rpar + rpar +
            "=" +
            pathDelayValue +
            semi )
        edgeSensitivePathDecl2 = Group(
            Optional( if_ + Group("(" + expr + ")") ) +
            lpar + Optional( edgeIdentifier ) +
            subscrIdentifier + "*>" +
            lpar + delimitedList( subscrIdentifier ) + Optional( polarityOp ) + ":" + expr + rpar + rpar +
            "=" +
            pathDelayValue +
            semi )
        edgeSensitivePathDecl = edgeSensitivePathDecl1 | edgeSensitivePathDecl2

        edgeDescr = oneOf("01 10 0x x1 1x x0").setName("edgeDescr")

        timCheckEventControl = Group( posedge | negedge | (edge + "[" + delimitedList( edgeDescr ) + "]" ))
        timCheckCond = Forward()
        timCondBinop = oneOf("== === != !==")
        timCheckCondTerm = ( expr + timCondBinop + scalarConst ) | ( Optional("~") + expr )
        timCheckCond << ( ( "(" + timCheckCond + ")" ) | timCheckCondTerm )
        timCheckEvent = Group( Optional( timCheckEventControl ) +
                                subscrIdentifier +
                                Optional( "&&&" + timCheckCond ) )
        timCheckLimit = expr
        controlledTimingCheckEvent = Group( timCheckEventControl + subscrIdentifier +
                                            Optional( "&&&" + timCheckCond ) )
        notifyRegister = identifier

        systemTimingCheck1 = Group( "$setup" +
            lpar + timCheckEvent + "," + timCheckEvent + "," + timCheckLimit +
            Optional( "," + notifyRegister ) + rpar +
            semi )
        systemTimingCheck2 = Group( "$hold" +
            lpar + timCheckEvent + "," + timCheckEvent + "," + timCheckLimit +
            Optional( "," + notifyRegister ) + rpar +
            semi )
        systemTimingCheck3 = Group( "$period" +
            lpar + controlledTimingCheckEvent + "," + timCheckLimit +
            Optional( "," + notifyRegister ) + rpar +
            semi )
        systemTimingCheck4 = Group( "$width" +
            lpar + controlledTimingCheckEvent + "," + timCheckLimit +
            Optional( "," + expr + "," + notifyRegister ) + rpar +
            semi )
        systemTimingCheck5 = Group( "$skew" +
            lpar + timCheckEvent + "," + timCheckEvent + "," + timCheckLimit +
            Optional( "," + notifyRegister ) + rpar +
            semi )
        systemTimingCheck6 = Group( "$recovery" +
            lpar + controlledTimingCheckEvent + "," + timCheckEvent + "," + timCheckLimit +
            Optional( "," + notifyRegister ) + rpar +
            semi )
        systemTimingCheck7 = Group( "$setuphold" +
            lpar + timCheckEvent + "," + timCheckEvent + "," + timCheckLimit + "," + timCheckLimit +
            Optional( "," + notifyRegister ) + rpar +
            semi )
        systemTimingCheck = (FollowedBy('$') + ( systemTimingCheck1 | systemTimingCheck2 | systemTimingCheck3 |
            systemTimingCheck4 | systemTimingCheck5 | systemTimingCheck6 | systemTimingCheck7 )).setName("systemTimingCheck")
        sdpd = if_ + Group("(" + expr + ")") + \
            ( pathDescr1 | pathDescr2 ) + "=" + pathDelayValue + semi

        specifyItem = ~Keyword("endspecify") +(
            specparamDecl |
            pathDecl |
            levelSensitivePathDecl |
            edgeSensitivePathDecl |
            systemTimingCheck |
            sdpd
            )
        """
        x::= <specparam_declaration>
        x||= <path_declaration>
        x||= <level_sensitive_path_declaration>
        x||= <edge_sensitive_path_declaration>
        x||= <system_timing_check>
        x||= <sdpd>
        """
        specifyBlock = Group( "specify" + ZeroOrMore( specifyItem ) + "endspecify" )

        moduleItem = ~Keyword("endmodule") + (
            parameterDecl |
            inputDecl |
            outputDecl |
            inoutDecl |
            regDecl |
            netDecl3 |
            netDecl1 |
            netDecl2 |
            timeDecl |
            integerDecl |
            realDecl |
            eventDecl |
            gateDecl |
            parameterOverride |
            continuousAssign |
            specifyBlock |
            initialStmt |
            alwaysStmt |
            task |
            functionDecl |
            # these have to be at the end - they start with identifiers
            moduleInstantiation |
            udpInstantiation
            )
        """  All possible moduleItems, from Verilog grammar spec
        x::= <parameter_declaration>
        x||= <input_declaration>
        x||= <output_declaration>
        x||= <inout_declaration>
        ?||= <net_declaration>  (spec does not seem consistent for this item)
        x||= <reg_declaration>
        x||= <time_declaration>
        x||= <integer_declaration>
        x||= <real_declaration>
        x||= <event_declaration>
        x||= <gate_declaration>
        x||= <UDP_instantiation>
        x||= <module_instantiation>
        x||= <parameter_override>
        x||= <continuous_assign>
        x||= <specify_block>
        x||= <initial_statement>
        x||= <always_statement>
        x||= <task>
        x||= <function>
        """
        portRef = subscrIdentifier
        portExpr = portRef | Group( "{" + delimitedList( portRef ) + "}" )
        port = portExpr | Group( ( "." + identifier + "(" + portExpr + ")" ) )

        moduleHdr = Group ( oneOf("module macromodule") + identifier("moduleName").setParseAction(parseModule) +
                 Optional( "(" + Group( Optional( delimitedList( 
                                    Group(oneOf("input output") + 
                                            (netDecl1Arg | netDecl2Arg | netDecl3Arg) ) |
                                    port ) ) ) + 
                            ")" ) + semi ).setName("moduleHdr")

        module = Group(  moduleHdr +
                 Group( ZeroOrMore( moduleItem ) ) +
                 "endmodule" ).setName("module")#.setDebug()

        udpDecl = outputDecl | inputDecl | regDecl
        #~ udpInitVal = oneOf("1'b0 1'b1 1'bx 1'bX 1'B0 1'B1 1'Bx 1'BX 1 0 x X")
        udpInitVal = (Regex("1'[bB][01xX]") | Regex("[01xX]")).setName("udpInitVal")
        udpInitialStmt = Group( "initial" +
            identifier + "=" + udpInitVal + semi ).setName("udpInitialStmt")

        levelSymbol = oneOf("0   1   x   X   ?   b   B")
        levelInputList = Group( OneOrMore( levelSymbol ).setName("levelInpList") )
        outputSymbol = oneOf("0   1   x   X")
        combEntry = Group( levelInputList + ":" + outputSymbol + semi )
        edgeSymbol = oneOf("r   R   f   F   p   P   n   N   *")
        edge = Group( "(" + levelSymbol + levelSymbol + ")" ) | \
               Group( edgeSymbol )
        edgeInputList = Group( ZeroOrMore( levelSymbol ) + edge + ZeroOrMore( levelSymbol ) )
        inputList = levelInputList | edgeInputList
        seqEntry = Group( inputList + ":" + levelSymbol + ":" + ( outputSymbol | "-" ) + semi ).setName("seqEntry")
        udpTableDefn = Group( "table" +
            OneOrMore( combEntry | seqEntry ) +
            "endtable" ).setName("table")

        """
        <UDP>
        ::= primitive <name_of_UDP> ( <name_of_variable> <,<name_of_variable>>* ) ;
                <UDP_declaration>+
                <UDP_initial_statement>?
                <table_definition>
                endprimitive
        """
        udp = Group( "primitive" + identifier +
            "(" + Group( delimitedList( identifier ) ) + ")" + semi +
            OneOrMore( udpDecl ) +
            Optional( udpInitialStmt ) +
            udpTableDefn +
            "endprimitive" )

        verilogbnf = OneOrMore( module | udp ) + StringEnd()

        verilogbnf.ignore( cppStyleComment )
        verilogbnf.ignore( compilerDirective )

    return verilogbnf 
コード例 #48
0
def graph_definition():

    global graphparser

    if not graphparser:

        # punctuation
        colon = Literal(":")
        lbrace = Literal("{")
        rbrace = Literal("}")
        lbrack = Literal("[")
        rbrack = Literal("]")
        lparen = Literal("(")
        rparen = Literal(")")
        equals = Literal("=")
        comma = Literal(",")
        dot = Literal(".")
        slash = Literal("/")
        bslash = Literal("\\")
        star = Literal("*")
        semi = Literal(";")
        at = Literal("@")
        minus = Literal("-")

        # keywords
        strict_ = CaselessLiteral("strict")
        graph_ = CaselessLiteral("graph")
        digraph_ = CaselessLiteral("digraph")
        subgraph_ = CaselessLiteral("subgraph")
        node_ = CaselessLiteral("node")
        edge_ = CaselessLiteral("edge")

        # token definitions

        identifier = Word(alphanums + "_.").setName("identifier")

        double_quoted_string = QuotedString('"',
                                            multiline=True,
                                            unquoteResults=False,
                                            escChar='\\')  # dblQuotedString

        noncomma = "".join([c for c in printables if c != ","])
        alphastring_ = OneOrMore(CharsNotIn(noncomma + ' '))

        def parse_html(s, loc, toks):
            return '<%s>' % ''.join(toks[0])

        opener = '<'
        closer = '>'
        html_text = nestedExpr(
            opener, closer,
            (CharsNotIn(opener +
                        closer))).setParseAction(parse_html).leaveWhitespace()

        ID = (
            identifier | html_text | double_quoted_string
            |  #.setParseAction(strip_quotes) |
            alphastring_).setName("ID")

        float_number = Combine(Optional(minus) +
                               OneOrMore(Word(nums +
                                              "."))).setName("float_number")

        righthand_id = (float_number | ID).setName("righthand_id")

        port_angle = (at + ID).setName("port_angle")

        port_location = (OneOrMore(Group(colon + ID))
                         | Group(colon + lparen + ID + comma + ID +
                                 rparen)).setName("port_location")

        port = (Group(port_location + Optional(port_angle))
                | Group(port_angle + Optional(port_location))).setName("port")

        node_id = (ID + Optional(port))
        a_list = OneOrMore(ID + Optional(equals + righthand_id) +
                           Optional(comma.suppress())).setName("a_list")

        attr_list = OneOrMore(lbrack.suppress() + Optional(a_list) +
                              rbrack.suppress()).setName("attr_list")

        attr_stmt = (Group(graph_ | node_ | edge_) +
                     attr_list).setName("attr_stmt")

        edgeop = (Literal("--") | Literal("->")).setName("edgeop")

        stmt_list = Forward()
        graph_stmt = Group(lbrace.suppress() + Optional(stmt_list) +
                           rbrace.suppress() +
                           Optional(semi.suppress())).setName("graph_stmt")

        edge_point = Forward()

        edgeRHS = OneOrMore(edgeop + edge_point)
        edge_stmt = edge_point + edgeRHS + Optional(attr_list)

        subgraph = Group(subgraph_ + Optional(ID) +
                         graph_stmt).setName("subgraph")

        edge_point << Group(subgraph | graph_stmt
                            | node_id).setName('edge_point')

        node_stmt = (node_id + Optional(attr_list) +
                     Optional(semi.suppress())).setName("node_stmt")

        assignment = (ID + equals + righthand_id).setName("assignment")
        stmt = (assignment | edge_stmt | attr_stmt | subgraph | graph_stmt
                | node_stmt).setName("stmt")
        stmt_list << OneOrMore(stmt + Optional(semi.suppress()))

        graphparser = OneOrMore((Optional(strict_) + Group(
            (graph_ | digraph_)) + Optional(ID) +
                                 graph_stmt).setResultsName("graph"))

        singleLineComment = Group("//" + restOfLine) | Group("#" + restOfLine)

        # actions

        graphparser.ignore(singleLineComment)
        graphparser.ignore(cStyleComment)

        assignment.setParseAction(push_attr_list)
        a_list.setParseAction(push_attr_list)
        edge_stmt.setParseAction(push_edge_stmt)
        node_stmt.setParseAction(push_node_stmt)
        attr_stmt.setParseAction(push_default_stmt)

        subgraph.setParseAction(push_subgraph_stmt)
        graph_stmt.setParseAction(push_graph_stmt)
        graphparser.setParseAction(push_top_graph_stmt)

    return graphparser
コード例 #49
0
ファイル: doc2vec.py プロジェクト: quadrismegistus/llp
def parse_math_str(input_string,variables={}):

	# Uncomment the line below for readline support on interactive terminal
	# import readline
	import re
	from pyparsing import Word, alphas, ParseException, Literal, CaselessLiteral, Combine, Optional, nums, Or, Forward, ZeroOrMore, StringEnd, alphanums
	import math

	# Debugging flag can be set to either "debug_flag=True" or "debug_flag=False"
	debug_flag=False

	exprStack = []
	varStack  = []

	def pushFirst( str, loc, toks ):
		exprStack.append( toks[0] )

	def assignVar( str, loc, toks ):
		varStack.append( toks[0] )

	# define grammar
	point = Literal('.')
	e = CaselessLiteral('E')
	plusorminus = Literal('+') | Literal('-')
	number = Word(nums)
	integer = Combine( Optional(plusorminus) + number )
	floatnumber = Combine( integer + Optional( point + Optional(number) ) + Optional( e + integer ) )

	ident = Word(alphas,alphanums + '_')

	plus  = Literal( "+" )
	minus = Literal( "-" )
	mult  = Literal( "*" )
	div   = Literal( "/" )
	lpar  = Literal( "(" ).suppress()
	rpar  = Literal( ")" ).suppress()
	addop  = plus | minus
	multop = mult | div
	expop = Literal( "^" )
	assign = Literal( "=" )

	expr = Forward()
	atom = ( ( e | floatnumber | integer | ident ).setParseAction(pushFirst) |
					 ( lpar + expr.suppress() + rpar )
				 )

	factor = Forward()
	factor << atom + ZeroOrMore( ( expop + factor ).setParseAction( pushFirst ) )

	term = factor + ZeroOrMore( ( multop + factor ).setParseAction( pushFirst ) )
	expr << term + ZeroOrMore( ( addop + term ).setParseAction( pushFirst ) )
	bnf = Optional((ident + assign).setParseAction(assignVar)) + expr

	pattern =  bnf + StringEnd()

	# map operator symbols to corresponding arithmetic operations
	opn = { "+" : ( lambda a,b: a + b ),
					"-" : ( lambda a,b: a - b ),
					"*" : ( lambda a,b: a * b ),
					"/" : ( lambda a,b: a / b ),
					"^" : ( lambda a,b: a ** b ) }

	# Recursive function that evaluates the stack
	def evaluateStack( s ):
		op = s.pop()
		if op in "+-*/^":
			op2 = evaluateStack( s )
			op1 = evaluateStack( s )
			return opn[op]( op1, op2 )
		elif op == "PI":
			return math.pi
		elif op == "E":
			return math.e
		elif re.search('^[a-zA-Z][a-zA-Z0-9_]*$',op):
			if op in variables:
				return variables[op]
			else:
				return 0
		elif re.search('^[-+]?[0-9]+$',op):
			return int( op )
		else:
			return float( op )

	# Start with a blank exprStack and a blank varStack
	exprStack = []
	varStack  = []

	if input_string != '':
		# try parsing the input string
		try:
			L=pattern.parseString( input_string )
		except ParseException as err:
			L=['Parse Failure',input_string]

		# show result of parsing the input string
		if debug_flag: print(input_string, "->", L)
		if len(L)==0 or L[0] != 'Parse Failure':
			if debug_flag: print("exprStack=", exprStack)

			# calculate result , store a copy in ans , display the result to user
			result=evaluateStack(exprStack)
			variables['ans']=result
			#print result
			return result

			# Assign result to a variable if required
			if debug_flag: print("var=",varStack)
			if len(varStack)==1:
				variables[varStack.pop()]=result
			if debug_flag: print("variables=",variables)
		else:
			print('Parse Failure')
			print(err.line)
			print(" "*(err.column-1) + "^")
			print(err)
コード例 #50
0
 def __init__(self):
     """
     Please use any of the following symbols:
     expop   :: '^'
     multop  :: '*' | '/'
     addop   :: '+' | '-'
     integer :: ['+' | '-'] '0'..'9'+
     """
     point = Literal(".")
     e = CaselessLiteral("E")
     fnumber = Combine(
         Word("+-" + nums, nums) + Optional(point + Optional(Word(nums))) +
         Optional(e + Word("+-" + nums, nums)))
     ident = Word(alphas, alphas + nums + "_$")
     plus = Literal("+")
     minus = Literal("-")
     mult = Literal("*")
     div = Literal("/")
     lpar = Literal("(").suppress()
     rpar = Literal(")").suppress()
     addop = plus | minus
     multop = mult | div
     expop = Literal("^")
     pi = CaselessLiteral("PI")
     expr = Forward()
     atom = ((Optional(oneOf("- +")) +
              (pi | e | fnumber
               | ident + lpar + expr + rpar).setParseAction(self.pushFirst))
             | Optional(oneOf("- +")) +
             Group(lpar + expr + rpar)).setParseAction(self.pushUMinus)
     # by defining exponentiation as "atom [ ^ factor ]..." instead of
     # "atom [ ^ atom ]...", we get right-to-left exponents, instead of left-to-right
     # that is, 2^3^2 = 2^(3^2), not (2^3)^2.
     factor = Forward()
     factor << atom + ZeroOrMore(
         (expop + factor).setParseAction(self.pushFirst))
     term = factor + ZeroOrMore(
         (multop + factor).setParseAction(self.pushFirst))
     expr << term + ZeroOrMore(
         (addop + term).setParseAction(self.pushFirst))
     # addop_term = ( addop + term ).setParseAction( self.pushFirst )
     # general_term = term + ZeroOrMore( addop_term ) | OneOrMore( addop_term)
     # expr <<  general_term
     self.bnf = expr
     # this will map operator symbols to their corresponding arithmetic operations
     epsilon = 1e-12
     self.opn = {
         "+": operator.add,
         "-": operator.sub,
         "*": operator.mul,
         "/": operator.truediv,
         "^": operator.pow
     }
     self.fn = {
         "sin": math.sin,
         "cos": math.cos,
         "tan": math.tan,
         "abs": abs,
         "trunc": lambda a: int(a),
         "round": round,
         "sgn": lambda a: abs(a) > epsilon and cmp(a, 0) or 0
     }
コード例 #51
0
m_or = K('or')
m_or.setName('OR')
m_not = K('not')
m_not.setName('NOT')

test('m_and', 'and')
test('m_or', 'or')

m_logical_operator = m_and ^ m_or

test('m_logical_operator', '''
and
or
''')

m_expression = Forward()
m_expression.setName('EXPR')
m_infix_operator = m_logical_operator
m_prefix_operator = m_not
m_subexpression = nestedExpr(content=m_expression)

m_term = m_literal ^ m_identifier ^ m_subexpression

m_infix_expression = ((m_term + m_infix_operator + m_expression)
                      #^
                      #(m_expression + m_infix_operator + m_term)
                      ^ (m_term + m_infix_operator + m_term))

m_prefix_expression = m_prefix_operator + m_expression

m_expression << (m_term ^ m_prefix_expression
コード例 #52
0
ファイル: parsing.py プロジェクト: ankur8931/sdn-nrl
def parseCTLK(spec):
    """Parse the spec and return the list of possible ASTs."""
    global __ctlk
    if __ctlk is None:
        true = Literal("True")
        true.setParseAction(lambda tokens: TrueExp())
        false = Literal("False")
        false.setParseAction(lambda tokens: FalseExp())
        init = Literal("Init")
        init.setParseAction(lambda tokens: Init())
        reachable = Literal("Reachable")
        reachable.setParseAction(lambda tokens: Reachable())

        atom = "'" + SkipTo("'") + "'"
        atom.setParseAction(lambda tokens: Atom(tokens[1]))

        agent = atom
        group = Group(ZeroOrMore(agent + Suppress(",")) + agent)

        proposition = true | false | init | reachable | atom

        __ctlk = Forward()

        notproposition = "~" + proposition
        notproposition.setParseAction(lambda tokens: Not(tokens[1]))
        formula = (proposition | notproposition
                   | Suppress("(") + __ctlk + Suppress(")"))

        logical = Forward()

        ex = Literal("E") + "X" + logical
        ex.setParseAction(lambda tokens: EX(tokens[2]))
        ax = Literal("A") + "X" + logical
        ax.setParseAction(lambda tokens: AX(tokens[2]))

        ef = Literal("E") + "F" + logical
        ef.setParseAction(lambda tokens: EF(tokens[2]))
        af = Literal("A") + "F" + logical
        af.setParseAction(lambda tokens: AF(tokens[2]))

        eg = Literal("E") + "G" + logical
        eg.setParseAction(lambda tokens: EG(tokens[2]))
        ag = Literal("A") + "G" + logical
        ag.setParseAction(lambda tokens: AG(tokens[2]))

        eu = Literal("E") + "[" + __ctlk + "U" + __ctlk + "]"
        eu.setParseAction(lambda tokens: EU(tokens[2], tokens[4]))
        au = Literal("A") + "[" + __ctlk + "U" + __ctlk + "]"
        au.setParseAction(lambda tokens: AU(tokens[2], tokens[4]))

        ew = Literal("E") + "[" + __ctlk + "W" + __ctlk + "]"
        ew.setParseAction(lambda tokens: EW(tokens[2], tokens[4]))
        aw = Literal("A") + "[" + __ctlk + "W" + __ctlk + "]"
        aw.setParseAction(lambda tokens: AW(tokens[2], tokens[4]))

        temporal = (ex | ax | ef | af | eg | ag | eu | au | ew | aw)

        nk = Literal("nK") + "<" + agent + ">" + logical
        nk.setParseAction(lambda tokens: nK(tokens[2], tokens[4]))
        k = Literal("K") + "<" + agent + ">" + logical
        k.setParseAction(lambda tokens: K(tokens[2], tokens[4]))

        ne = Literal("nE") + "<" + group + ">" + logical
        ne.setParseAction(lambda tokens: nE(list(tokens[2]), tokens[4]))
        e = Literal("E") + "<" + group + ">" + logical
        e.setParseAction(lambda tokens: E(list(tokens[2]), tokens[4]))

        nd = Literal("nD") + "<" + group + ">" + logical
        nd.setParseAction(lambda tokens: nD(list(tokens[2]), tokens[4]))
        d = Literal("D") + "<" + group + ">" + logical
        d.setParseAction(lambda tokens: D(list(tokens[2]), tokens[4]))

        nc = Literal("nC") + "<" + group + ">" + logical
        nc.setParseAction(lambda tokens: nC(list(tokens[2]), tokens[4]))
        c = Literal("C") + "<" + group + ">" + logical
        c.setParseAction(lambda tokens: C(list(tokens[2]), tokens[4]))

        epistemic = (nk | k | ne | e | nd | d | nc | c)

        logical <<= (formula | epistemic | temporal)

        __ctlk <<= (_logicals_(logical))

    return __ctlk.parseString(spec, parseAll=True)
コード例 #53
0
ファイル: server.py プロジェクト: x572b/Flexget
    def __init__(self, query):
        self._methods = {
            'and': self.evaluate_and,
            'or': self.evaluate_or,
            'not': self.evaluate_not,
            'parenthesis': self.evaluate_parenthesis,
            'quotes': self.evaluate_quotes,
            'word': self.evaluate_word,
        }

        self.line = ''
        self.query = query.lower() if query else ''

        if self.query:
            # TODO: Cleanup
            operator_or = Forward()
            operator_word = Group(Word(alphanums)).setResultsName('word')

            operator_quotes_content = Forward()
            operator_quotes_content << (
                (operator_word + operator_quotes_content) | operator_word)

            operator_quotes = (
                Group(Suppress('"') + operator_quotes_content +
                      Suppress('"')).setResultsName('quotes')
                | operator_word)

            operator_parenthesis = (Group(
                (Suppress('(') + operator_or +
                 Suppress(")"))).setResultsName('parenthesis')
                                    | operator_quotes)

            operator_not = Forward()
            operator_not << (
                Group(Suppress(Keyword('no', caseless=True)) +
                      operator_not).setResultsName('not')
                | operator_parenthesis)

            operator_and = Forward()
            operator_and << (
                Group(operator_not + Suppress(Keyword('and', caseless=True)) +
                      operator_and).setResultsName('and')
                | Group(operator_not + OneOrMore(
                    ~oneOf('and or') + operator_and)).setResultsName('and')
                | operator_not)

            operator_or << (
                Group(operator_and + Suppress(Keyword('or', caseless=True)) +
                      operator_or).setResultsName('or')
                | operator_and)

            self._query_parser = operator_or.parseString(self.query)[0]
        else:
            self._query_parser = False

        time_cmpnt = Word(nums).setParseAction(lambda t: t[0].zfill(2))
        date = Combine((time_cmpnt + '-' + time_cmpnt + '-' + time_cmpnt) +
                       ' ' + time_cmpnt + ':' + time_cmpnt +
                       Optional(':' + time_cmpnt))
        word = Word(printables)

        self._log_parser = (
            date.setResultsName('timestamp') +
            word.setResultsName('log_level') + word.setResultsName('plugin') +
            (White(min=16).setParseAction(
                lambda s, l, t: [t[0].strip()]).setResultsName('task')
             | (White(min=1).suppress() & word.setResultsName('task'))) +
            restOfLine.setResultsName('message'))
コード例 #54
0
class RawNginxParser(object):
    # pylint: disable=expression-not-assigned
    """A class that parses nginx configuration with pyparsing."""

    # constants
    space = Optional(White())
    nonspace = Regex(r"\S+")
    left_bracket = Literal("{").suppress()
    right_bracket = space.leaveWhitespace() + Literal("}").suppress()
    semicolon = Literal(";").suppress()
    key = Word(alphanums + "_/+-.")
    dollar_var = Combine(Literal('$') + Regex(r"[^\{\};,\s]+"))
    condition = Regex(r"\(.+\)")
    # Matches anything that is not a special character, and ${SHELL_VARS}, AND
    # any chars in single or double quotes
    # All of these COULD be upgraded to something like
    # https://stackoverflow.com/a/16130746
    dquoted = Regex(r'(\".*\")')
    squoted = Regex(r"(\'.*\')")
    nonspecial = Regex(r"[^\{\};,]")
    varsub = Regex(r"(\$\{\w+\})")
    # nonspecial nibbles one character at a time, but the other objects take
    # precedence.  We use ZeroOrMore to allow entries like "break ;" to be
    # parsed as assignments
    value = Combine(ZeroOrMore(dquoted | squoted | varsub | nonspecial))

    location = CharsNotIn("{};," + string.whitespace)
    # modifier for location uri [ = | ~ | ~* | ^~ ]
    modifier = Literal("=") | Literal("~*") | Literal("~") | Literal("^~")

    # rules
    comment = space + Literal('#') + restOfLine

    assignment = space + key + Optional(space + value, default=None) + semicolon
    location_statement = space + Optional(modifier) + Optional(space + location + space)
    if_statement = space + Literal("if") + space + condition + space
    charset_map_statement = space + Literal("charset_map") + space + value + space + value

    map_statement = space + Literal("map") + space + nonspace + space + dollar_var + space
    # This is NOT an accurate way to parse nginx map entries; it's almost
    # certianly too permissive and may be wrong in other ways, but it should
    # preserve things correctly in mmmmost or all cases.
    #
    #    - I can neither prove nor disprove that it is corect wrt all escaped
    #      semicolon situations
    # Addresses https://github.com/fatiherikli/nginxparser/issues/19
    map_pattern = Regex(r'".*"') | Regex(r"'.*'") | nonspace
    map_entry = space + map_pattern + space + value + space + semicolon
    map_block = Group(
        Group(map_statement).leaveWhitespace() +
        left_bracket +
        Group(ZeroOrMore(Group(comment | map_entry)) + space).leaveWhitespace() +
        right_bracket)

    block = Forward()

    # key could for instance be "server" or "http", or "location" (in which case
    # location_statement needs to have a non-empty location)

    block_begin = (Group(space + key + location_statement) ^
                   Group(if_statement) ^
                   Group(charset_map_statement)).leaveWhitespace()

    block_innards = Group(ZeroOrMore(Group(comment | assignment) | block | map_block)
                          + space).leaveWhitespace()

    block << Group(block_begin + left_bracket + block_innards + right_bracket)

    script = OneOrMore(Group(comment | assignment) ^ block ^ map_block) + space + stringEnd
    script.parseWithTabs().leaveWhitespace()

    def __init__(self, source):
        self.source = source

    def parse(self):
        """Returns the parsed tree."""
        return self.script.parseString(self.source)

    def as_list(self):
        """Returns the parsed tree as a list."""
        return self.parse().asList()
コード例 #55
0
                     )

ident = Word(alphas,alphanums + '_') 

plus  = Literal( "+" )
minus = Literal( "-" )
mult  = Literal( "*" )
div   = Literal( "/" )
lpar  = Literal( "(" ).suppress()
rpar  = Literal( ")" ).suppress()
addop  = plus | minus
multop = mult | div
expop = Literal( "^" )
assign = Literal( "=" )

expr = Forward()
atom = ( ( e | floatnumber | integer | ident ).setParseAction(pushFirst) | 
         ( lpar + expr.suppress() + rpar )
       )
        
factor = Forward()
factor << atom + ZeroOrMore( ( expop + factor ).setParseAction( pushFirst ) )
        
term = factor + ZeroOrMore( ( multop + factor ).setParseAction( pushFirst ) )
expr << term + ZeroOrMore( ( addop + term ).setParseAction( pushFirst ) )
bnf = Optional((ident + assign).setParseAction(assignVar)) + expr

pattern =  bnf + StringEnd()

# map operator symbols to corresponding arithmetic operations
opn = { "+" : ( lambda a,b: a + b ),
コード例 #56
0
# [65] DataBlockValue ::= iri | RDFLiteral | NumericLiteral | BooleanLiteral | 'UNDEF'
DataBlockValue = iri | RDFLiteral | NumericLiteral | BooleanLiteral | Keyword(
    'UNDEF')

# [78] Verb ::= VarOrIri | A
Verb = VarOrIri | A


# [85] VerbSimple ::= Var
VerbSimple = Var

# [97] Integer ::= INTEGER
Integer = INTEGER


TriplesNode = Forward()
TriplesNodePath = Forward()

# [104] GraphNode ::= VarOrTerm | TriplesNode
GraphNode = VarOrTerm | TriplesNode

# [105] GraphNodePath ::= VarOrTerm | TriplesNodePath
GraphNodePath = VarOrTerm | TriplesNodePath


# [93] PathMod ::= '?' | '*' | '+'
PathMod = Literal('?') | '*' | '+'

# [96] PathOneInPropertySet ::= iri | A | '^' ( iri | A )
PathOneInPropertySet = iri | A | Comp('InversePath', '^' + (iri | A))
コード例 #57
0
 def __init__(self):
     """
     expop   :: '^'
     multop  :: '*' | '/'
     addop   :: '+' | '-'
     integer :: ['+' | '-'] '0'..'9'+
     atom    :: PI | E | real | fn '(' expr ')' | '(' expr ')'
     factor  :: atom [ expop factor ]*
     term    :: factor [ multop factor ]*
     expr    :: term [ addop term ]*
     """
     point = Literal(".")
     e = CaselessLiteral("E")
     fnumber = Combine(Word("+-" + nums, nums) +
                       Optional(point + Optional(Word(nums))) +
                       Optional(e + Word("+-" + nums, nums)))
     ident = Word(alphas, alphas + nums + "_$")
     plus = Literal("+")
     minus = Literal("-")
     mult = Literal("*")
     div = Literal("/")
     lpar = Literal("(").suppress()
     rpar = Literal(")").suppress()
     addop = plus | minus
     multop = mult | div
     expop = Literal("^")
     pi = CaselessLiteral("PI")
     phy = CaselessLiteral("PH")
     expr = Forward()
     atom = ((Optional(oneOf("- +")) +
              (ident + lpar + expr + rpar | pi | phy | e | fnumber).setParseAction(self.pushFirst))
             | Optional(oneOf("- +")) + Group(lpar + expr + rpar)
             ).setParseAction(self.pushUMinus)
     # by defining exponentiation as "atom [ ^ factor ]..." instead of
     # "atom [ ^ atom ]...", we get right-to-left exponents, instead of left-to-right
     # that is, 2^3^2 = 2^(3^2), not (2^3)^2.
     factor = Forward()
     factor << atom + \
         ZeroOrMore((expop + factor).setParseAction(self.pushFirst))
     term = factor + \
         ZeroOrMore((multop + factor).setParseAction(self.pushFirst))
     expr << term + \
         ZeroOrMore((addop + term).setParseAction(self.pushFirst))
     # addop_term = ( addop + term ).setParseAction( self.pushFirst )
     # general_term = term + ZeroOrMore( addop_term ) | OneOrMore( addop_term)
     # expr <<  general_term
     self.bnf = expr
     # map operator symbols to corresponding arithmetic operations
     epsilon = 1e-12
     self.opn = {"+": mp.mp.fadd,
                 "-": mp.mp.fsub,
                 "*": mp.mp.fmul,
                 "/": mp.mp.fdiv,
                 "^": mp.power}
     self.fn = {"sqrt": mp.sqrt,
                "sin": mp.sin,
                "cos": mp.cos,
                "tan": mp.tan,
                "exp": mp.exp,
                "abs": abs,
                "trunc": lambda a: int(a),
                "round": round,
                "sgn": lambda a: abs(a) > epsilon and cmp(a, 0) or 0}
コード例 #58
0
MARKER_OP.setParseAction(lambda s, l, t: Op(t[0]))

MARKER_VALUE = QuotedString("'") | QuotedString('"')
MARKER_VALUE.setParseAction(lambda s, l, t: Value(t[0]))

BOOLOP = L("and") | L("or")

MARKER_VAR = VARIABLE | MARKER_VALUE

MARKER_ITEM = Group(MARKER_VAR + MARKER_OP + MARKER_VAR)
MARKER_ITEM.setParseAction(lambda s, l, t: tuple(t[0]))

LPAREN = L("(").suppress()
RPAREN = L(")").suppress()

MARKER_EXPR = Forward()
MARKER_ATOM = MARKER_ITEM | Group(LPAREN + MARKER_EXPR + RPAREN)
MARKER_EXPR << MARKER_ATOM + ZeroOrMore(BOOLOP + MARKER_EXPR)

MARKER = stringStart + MARKER_EXPR + stringEnd


def _coerce_parse_result(results):
    # type: (Union[ParseResults, List[Any]]) -> List[Any]
    if isinstance(results, ParseResults):
        return [_coerce_parse_result(i) for i in results]
    else:
        return results


def _format_marker(marker, first=True):
コード例 #59
0
ファイル: preprocess.py プロジェクト: monperrus/PIE
import itertools
import random
import re
import sys
import types

''' Parser for type annotations

type = [B]ool | [I]nt | [C]har | [S]tring | [L]ist(type)
     | t[R]ee(type) | [T]uple(name0:type, name1:type, ...)

'''

from pyparsing import alphanums, delimitedList, Forward, Group, Keyword, nums, Suppress, Word

any_type = Forward()

LPAR, RPAR = map(Suppress, '()')
BT, IT, CT, ST, LT, RT, TT = TYPES = 'BICSLRT'
BKW, IKW, CKW, SKW, LKW, RKW, TKW = map(Keyword, TYPES)

bool_type = Group(BKW)
int_type = Group(IKW)
char_type = Group(CKW)
str_type = Group(SKW)
comp_type = Group(Word(nums))
atom_types = comp_type | bool_type | int_type | char_type | str_type

ATOM_TYPES = [BT, IT, CT, ST]

list_type = Group(LKW + LPAR + Group(any_type) + RPAR)
コード例 #60
0
ファイル: queryparser.py プロジェクト: proffust/alerta

# BNF for Lucene query syntax
#
# Query ::= ( Clause )*
# Clause ::= ["+", "-"] [<TERM> ":"] (<TERM> | "(" Query ")" )

LBRACK, RBRACK, LBRACE, RBRACE, TILDE, CARAT = map(Literal, '[]{}~^')
LPAR, RPAR, COLON, DOT = map(Suppress, '():.')

AND = Keyword('AND') | Literal('&&')
OR = Keyword('OR') | Literal('||')
NOT = Keyword('NOT') | Literal('!')
TO = Keyword('TO')

query_expr = Forward()

required_modifier = Literal('+')('required')
prohibit_modifier = Literal('-')('prohibit')
special_characters = '=><(){}[]^"~*?:\\/.&|'
valid_word = Word(printables, excludeChars=special_characters).setName('word')
valid_word.setParseAction(lambda t: t[0].replace('\\\\', chr(127)).replace(
    '\\', '').replace(chr(127), '\\'))

clause = Forward()
field_name = (Optional(valid_word()('attr') + DOT)) + valid_word()('fieldname')
single_term = valid_word()('singleterm')
phrase = QuotedString('"', unquoteResults=True)('phrase')
wildcard = Regex(r'[a-z0-9]*[\?\*][a-z0-9]*')('wildcard')
wildcard.setParseAction(lambda t: t[0].replace('?', '.?').replace('*', '.*'))
regex = QuotedString('/', unquoteResults=True)('regex')