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wlanpi-profiler / opt / wlanpi-profiler / lib / python3.7 / site-packages / pyparsing / __pycache__ / results.cpython-37.pyc
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Çgû.wÐã@sœUddlmZmZmZmZddlZddlmZddl	m
Z
mZee
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ú/build/wlanpi-profiler-7IIg1Q/wlanpi-profiler-1.0.11/debian/wlanpi-profiler/opt/wlanpi-profiler/lib/python3.7/site-packages/pyparsing/results.pyú	<genexpr>srr
c@s2eZdZdgZdd„Zdd„Zdd„Zdd	„Zd
S)Ú_ParseResultsWithOffsetÚtupcCs||f|_dS)N)r)ÚselfÚp1Úp2r
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Ú__init__sz _ParseResultsWithOffset.__init__cCs
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Ú__getitem__sz#_ParseResultsWithOffset.__getitem__cCs|jS)N)r)rr
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Ú__getstate__sz$_ParseResultsWithOffset.__getstate__cGs|d|_dS)Nr)r)rÚargsr
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Ú__setstate__sz$_ParseResultsWithOffset.__setstate__N)Ú__name__Ú
__module__Ú__qualname__Ú	__slots__rrrrr
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eZdZUdZdgddfZeedfed<ddd	d
ddd
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d_dd„Zddddefdd„Z
dd„Zefdd„Zdd„Zedœdd„Zedœdd„Zedœd d!„Zedœd"d#„Zedœd$d%„Zd&d'„Zd(d)„Zd*d+„Zedœd,d-„Zd.d/„Zd`d0d1„Zd2d3„Zd4d5„Z d6d7„Z!d8d9„Z"d:d;„Z#ddœd<d=„Z$ddœd>d?„Z%ddœd@dA„Z&e'dœdBdC„Z(e'dœdDdE„Z)dadFdG„Z*e	dœdHdI„Z+e,dœdJdK„Z-ddœdLdM„Z.dNdO„Z/dbe'dœdQdR„Z0dSdT„Z1dUdV„Z2dWdX„Z3dYdZ„Z4d[d\„Z5e6dcddœd]d^„ƒZ7e+Z8e-Z9e/Z:dS)dÚParseResultsaStructured parse results, to provide multiple means of access to
    the parsed data:

    - as a list (``len(results)``)
    - by list index (``results[0], results[1]``, etc.)
    - by attribute (``results.<results_name>`` - see :class:`ParserElement.set_results_name`)

    Example::

        integer = Word(nums)
        date_str = (integer.set_results_name("year") + '/'
                    + integer.set_results_name("month") + '/'
                    + integer.set_results_name("day"))
        # equivalent form:
        # date_str = (integer("year") + '/'
        #             + integer("month") + '/'
        #             + integer("day"))

        # parse_string returns a ParseResults object
        result = date_str.parse_string("1999/12/31")

        def test(s, fn=repr):
            print("{} -> {}".format(s, fn(eval(s))))
        test("list(result)")
        test("result[0]")
        test("result['month']")
        test("result.day")
        test("'month' in result")
        test("'minutes' in result")
        test("result.dump()", str)

    prints::

        list(result) -> ['1999', '/', '12', '/', '31']
        result[0] -> '1999'
        result['month'] -> '12'
        result.day -> '31'
        'month' in result -> True
        'minutes' in result -> False
        result.dump() -> ['1999', '/', '12', '/', '31']
        - day: 31
        - month: 12
        - year: 1999
    NÚr
.Ú_null_valuesÚ_nameÚ_parentÚ
_all_namesÚ_modalÚ_toklistÚ_tokdictÚ__weakref__c@seZdZdZddd„ZdS)zParseResults.Listaƒ
        Simple wrapper class to distinguish parsed list results that should be preserved
        as actual Python lists, instead of being converted to :class:`ParseResults`:

            LBRACK, RBRACK = map(pp.Suppress, "[]")
            element = pp.Forward()
            item = ppc.integer
            element_list = LBRACK + pp.delimited_list(element) + RBRACK

            # add parse actions to convert from ParseResults to actual Python collection types
            def as_python_list(t):
                return pp.ParseResults.List(t.as_list())
            element_list.add_parse_action(as_python_list)

            element <<= item | element_list

            element.run_tests('''
                100
                [2,3,4]
                [[2, 1],3,4]
                [(2, 1),3,4]
                (2,3,4)
                ''', post_parse=lambda s, r: (r[0], type(r[0])))

        prints:

            100
            (100, <class 'int'>)

            [2,3,4]
            ([2, 3, 4], <class 'list'>)

            [[2, 1],3,4]
            ([[2, 1], 3, 4], <class 'list'>)

        (Used internally by :class:`Group` when `aslist=True`.)
        NcCs8|dkrg}t|tƒs.td |jt|ƒj¡ƒ‚t |¡S)Nz.{} may only be constructed with a list, not {})Ú
isinstanceÚlistÚ	TypeErrorÚformatrÚtypeÚ__new__)ÚclsZ	containedr
r
r
r-|s
zParseResults.List.__new__)N)rrrÚ__doc__r-r
r
r
r
ÚListUs%r0cKs„t|tƒr|St |¡}d|_d|_tƒ|_|dkr<g|_n<t|t	t
fƒrpt|tjƒrd|dd…gnt	|ƒ|_n|g|_tƒ|_
|S)N)r(rÚobjectr-r!r"Úsetr#r%r)Ú_generator_typer0Údictr&)r.ÚtoklistÚnameÚkwargsrr
r
r
r-ˆs

zParseResults.__new__Tc
Csæ||_|dk	râ|dkrâ||tƒr(t|ƒ}|s4|h|_||_||jkrâ||ttfƒrX|g}|rž||tƒr|t	t|j
ƒdƒ||<nt	t|dƒdƒ||<|||_nDy|d||<Wn2ttt
fk
rà||k	rÖ|||<n||_YnXdS)Nrr)r$ÚintÚstrr#r!r r	r,rrr%ÚKeyErrorr*Ú
IndexError)rr5r6ÚasListÚmodalr(r
r
r
rŸs.



zParseResults.__init__cCsPt|ttfƒr|j|S||jkr4|j|ddStdd„|j|DƒƒSdS)NéÿÿÿÿrcSsg|]}|d‘qS)rr
)rÚvr
r
r
ú
<listcomp>Æsz,ParseResults.__getitem__.<locals>.<listcomp>)r(r8Úslicer%r#r&r)rrr
r
r
r¿s


zParseResults.__getitem__cCsŒ||tƒr0|j |tƒ¡|g|j|<|d}nD||ttfƒrN||j|<|}n&|j |tƒ¡t|dƒg|j|<|}||tƒrˆt|ƒ|_	dS)Nr)
rr&Úgetr)r8rAr%rÚwkrefr")rÚkr?r(Úsubr
r
r
Ú__setitem__Ès



zParseResults.__setitem__c
CsÆt|ttfƒrºt|jƒ}|j|=t|tƒrH|dkr:||7}t||dƒ}tt| |¡Žƒ}| ¡x^|j	 
¡D]F\}}x<|D]4}x.t|ƒD]"\}\}}	t||	|	|kƒ||<qŠWq|WqnWn|j	|=dS)Nré)
r(r8rAÚlenr%r)ÚrangeÚindicesÚreverser&ÚitemsÚ	enumerater)
rrÚmylenÚremovedr6ÚoccurrencesÚjrDÚvalueÚpositionr
r
r
Ú__delitem__×s


"zParseResults.__delitem__)ÚreturncCs
||jkS)N)r&)rrDr
r
r
Ú__contains__îszParseResults.__contains__cCs
t|jƒS)N)rHr%)rr
r
r
Ú__len__ñszParseResults.__len__cCs|jp
|jS)N)r%r&)rr
r
r
Ú__bool__ôszParseResults.__bool__cCs
t|jƒS)N)Úiterr%)rr
r
r
Ú__iter__÷szParseResults.__iter__cCst|jddd…ƒS)Nr>)rYr%)rr
r
r
Ú__reversed__úszParseResults.__reversed__cCs
t|jƒS)N)rYr&)rr
r
r
ÚkeysýszParseResults.keyscs‡fdd„ˆ ¡DƒS)Nc3s|]}ˆ|VqdS)Nr
)rrD)rr
r
rsz&ParseResults.values.<locals>.<genexpr>)r\)rr
)rr
ÚvaluesszParseResults.valuescs‡fdd„ˆ ¡DƒS)Nc3s|]}|ˆ|fVqdS)Nr
)rrD)rr
r
rsz%ParseResults.items.<locals>.<genexpr>)r\)rr
)rr
rLszParseResults.itemscCs
t|jƒS)zš
        Since ``keys()`` returns an iterator, this method is helpful in bypassing
        code that looks for the existence of any defined results names.)Úboolr&)rr
r
r
ÚhaskeysszParseResults.haskeyscOs”|s
dg}x8| ¡D],\}}|dkr2|d|f}qtd |¡ƒ‚qWt|dtƒsjt|ƒdksj|d|kr„|d}||}||=|S|d}|SdS)aè
        Removes and returns item at specified index (default= ``last``).
        Supports both ``list`` and ``dict`` semantics for ``pop()``. If
        passed no argument or an integer argument, it will use ``list``
        semantics and pop tokens from the list of parsed tokens. If passed
        a non-integer argument (most likely a string), it will use ``dict``
        semantics and pop the corresponding value from any defined results
        names. A second default return value argument is supported, just as in
        ``dict.pop()``.

        Example::

            numlist = Word(nums)[...]
            print(numlist.parse_string("0 123 321")) # -> ['0', '123', '321']

            def remove_first(tokens):
                tokens.pop(0)
            numlist.add_parse_action(remove_first)
            print(numlist.parse_string("0 123 321")) # -> ['123', '321']

            label = Word(alphas)
            patt = label("LABEL") + OneOrMore(Word(nums))
            print(patt.parse_string("AAB 123 321").dump())

            # Use pop() in a parse action to remove named result (note that corresponding value is not
            # removed from list form of results)
            def remove_LABEL(tokens):
                tokens.pop("LABEL")
                return tokens
            patt.add_parse_action(remove_LABEL)
            print(patt.parse_string("AAB 123 321").dump())

        prints::

            ['AAB', '123', '321']
            - LABEL: AAB

            ['AAB', '123', '321']
        r>Údefaultrz-pop() got an unexpected keyword argument {!r}rGN)rLr*r+r(r8rH)rrr7rDr?ÚindexÚretÚdefaultvaluer
r
r
Úpops(&zParseResults.popcCs||kr||S|SdS)a^
        Returns named result matching the given key, or if there is no
        such name, then returns the given ``default_value`` or ``None`` if no
        ``default_value`` is specified.

        Similar to ``dict.get()``.

        Example::

            integer = Word(nums)
            date_str = integer("year") + '/' + integer("month") + '/' + integer("day")

            result = date_str.parse_string("1999/12/31")
            print(result.get("year")) # -> '1999'
            print(result.get("hour", "not specified")) # -> 'not specified'
            print(result.get("hour")) # -> None
        Nr
)rÚkeyÚ
default_valuer
r
r
rBFszParseResults.getcCsZ|j ||¡xF|j ¡D]8\}}x.t|ƒD]"\}\}}t||||kƒ||<q,WqWdS)a;
        Inserts new element at location index in the list of parsed tokens.

        Similar to ``list.insert()``.

        Example::

            numlist = Word(nums)[...]
            print(numlist.parse_string("0 123 321")) # -> ['0', '123', '321']

            # use a parse action to insert the parse location in the front of the parsed results
            def insert_locn(locn, tokens):
                tokens.insert(0, locn)
            numlist.add_parse_action(insert_locn)
            print(numlist.parse_string("0 123 321")) # -> [0, '0', '123', '321']
        N)r%Úinsertr&rLrMr)rraZ
ins_stringr6rPrDrRrSr
r
r
rg]s
zParseResults.insertcCs|j |¡dS)a
        Add single element to end of ``ParseResults`` list of elements.

        Example::

            numlist = Word(nums)[...]
            print(numlist.parse_string("0 123 321")) # -> ['0', '123', '321']

            # use a parse action to compute the sum of the parsed integers, and add it to the end
            def append_sum(tokens):
                tokens.append(sum(map(int, tokens)))
            numlist.add_parse_action(append_sum)
            print(numlist.parse_string("0 123 321")) # -> ['0', '123', '321', 444]
        N)r%Úappend)rÚitemr
r
r
rhvszParseResults.appendcCs&t|tƒr| |¡n|j |¡dS)a!
        Add sequence of elements to end of ``ParseResults`` list of elements.

        Example::

            patt = OneOrMore(Word(alphas))

            # use a parse action to append the reverse of the matched strings, to make a palindrome
            def make_palindrome(tokens):
                tokens.extend(reversed([t[::-1] for t in tokens]))
                return ''.join(tokens)
            patt.add_parse_action(make_palindrome)
            print(patt.parse_string("lskdj sdlkjf lksd")) # -> 'lskdjsdlkjflksddsklfjkldsjdksl'
        N)r(rÚ__iadd__r%Úextend)rÚitemseqr
r
r
rk‡s
zParseResults.extendcCs|jdd…=|j ¡dS)z7
        Clear all elements and results names.
        N)r%r&Úclear)rr
r
r
rm›szParseResults.clearcCs4y||Stk
r.| d¡r*t|ƒ‚dSXdS)NÚ__r)r:Ú
startswithÚAttributeError)rr6r
r
r
Ú__getattr__¢s
zParseResults.__getattr__cCs| ¡}||7}|S)N)Úcopy)rÚotherrbr
r
r
Ú__add__ªszParseResults.__add__cs’|jrnt|jƒ‰‡fdd„‰|j ¡}‡fdd„|Dƒ}x4|D],\}}|||<t|dtƒr>t|ƒ|d_q>W|j|j7_|j|jO_|S)Ncs|dkrˆS|ˆS)Nrr
)Úa)Úoffsetr
r
Ú<lambda>²óz'ParseResults.__iadd__.<locals>.<lambda>c	s4g|],\}}|D]}|t|dˆ|dƒƒf‘qqS)rrG)r)rrDÚvlistr?)Ú	addoffsetr
r
r@µsz)ParseResults.__iadd__.<locals>.<listcomp>r)	r&rHr%rLr(rrCr"r#)rrsÚ
otheritemsÚotherdictitemsrDr?r
)rzrvr
rj¯s


zParseResults.__iadd__cCs&t|tƒr|dkr| ¡S||SdS)Nr)r(r8rr)rrsr
r
r
Ú__radd__ÂszParseResults.__radd__cCsd t|ƒj|j| ¡¡S)Nz{}({!r}, {}))r+r,rr%Úas_dict)rr
r
r
Ú__repr__ÊszParseResults.__repr__cCsdd dd„|jDƒ¡dS)Nú[z, cSs&g|]}t|tƒrt|ƒnt|ƒ‘qSr
)r(rr9Úrepr)rrr
r
r
r@Òsz(ParseResults.__str__.<locals>.<listcomp>ú])Újoinr%)rr
r
r
Ú__str__Ís	zParseResults.__str__cCsPg}xF|jD]<}|r"|r"| |¡t|tƒr:|| ¡7}q| t|ƒ¡qW|S)N)r%rhr(rÚ
_asStringListr9)rÚsepÚoutrir
r
r
r…Ùs

zParseResults._asStringListcCsdd„|jDƒS)a{
        Returns the parse results as a nested list of matching tokens, all converted to strings.

        Example::

            patt = OneOrMore(Word(alphas))
            result = patt.parse_string("sldkj lsdkj sldkj")
            # even though the result prints in string-like form, it is actually a pyparsing ParseResults
            print(type(result), result) # -> <class 'pyparsing.ParseResults'> ['sldkj', 'lsdkj', 'sldkj']

            # Use as_list() to create an actual list
            result_list = result.as_list()
            print(type(result_list), result_list) # -> <class 'list'> ['sldkj', 'lsdkj', 'sldkj']
        cSs"g|]}t|tƒr| ¡n|‘qSr
)r(rÚas_list)rÚresr
r
r
r@ôsz(ParseResults.as_list.<locals>.<listcomp>)r%)rr
r
r
rˆäszParseResults.as_listcs&‡fdd„‰t‡fdd„| ¡DƒƒS)a¯
        Returns the named parse results as a nested dictionary.

        Example::

            integer = Word(nums)
            date_str = integer("year") + '/' + integer("month") + '/' + integer("day")

            result = date_str.parse_string('12/31/1999')
            print(type(result), repr(result)) # -> <class 'pyparsing.ParseResults'> (['12', '/', '31', '/', '1999'], {'day': [('1999', 4)], 'year': [('12', 0)], 'month': [('31', 2)]})

            result_dict = result.as_dict()
            print(type(result_dict), repr(result_dict)) # -> <class 'dict'> {'day': '1999', 'year': '12', 'month': '31'}

            # even though a ParseResults supports dict-like access, sometime you just need to have a dict
            import json
            print(json.dumps(result)) # -> Exception: TypeError: ... is not JSON serializable
            print(json.dumps(result.as_dict())) # -> {"month": "31", "day": "1999", "year": "12"}
        cs4t|tƒr,| ¡r| ¡S‡fdd„|DƒS|SdS)Ncsg|]}ˆ|ƒ‘qSr
r
)rr?)Úto_itemr
r
r@sz9ParseResults.as_dict.<locals>.to_item.<locals>.<listcomp>)r(rr_r~)Úobj)rŠr
r
rŠ
s
"z%ParseResults.as_dict.<locals>.to_itemc3s|]\}}|ˆ|ƒfVqdS)Nr
)rrDr?)rŠr
r
rsz'ParseResults.as_dict.<locals>.<genexpr>)r4rL)rr
)rŠr
r~øszParseResults.as_dictcCs:t|jƒ}|j ¡|_|j|_|j|jO_|j|_|S)zG
        Returns a new copy of a :class:`ParseResults` object.
        )rr%r&rrr"r#r!)rrbr
r
r
rrs
zParseResults.copycsˆ|jr|jS|jr6| ¡‰‡fdd„}ˆr2||ƒSdSt|ƒdkr€t|jƒdkr€tt|j ¡ƒƒdddkr€tt|j ¡ƒƒSdSdS)a
        Returns the results name for this token expression. Useful when several
        different expressions might match at a particular location.

        Example::

            integer = Word(nums)
            ssn_expr = Regex(r"\d\d\d-\d\d-\d\d\d\d")
            house_number_expr = Suppress('#') + Word(nums, alphanums)
            user_data = (Group(house_number_expr)("house_number")
                        | Group(ssn_expr)("ssn")
                        | Group(integer)("age"))
            user_info = OneOrMore(user_data)

            result = user_info.parse_string("22 111-22-3333 #221B")
            for item in result:
                print(item.get_name(), ':', item[0])

        prints::

            age : 22
            ssn : 111-22-3333
            house_number : 221B
        cst‡fdd„ˆj ¡DƒdƒS)Nc3s,|]$\}}|D]\}}ˆ|kr|VqqdS)Nr
)rrDryr?Úloc)rEr
r
rAsz@ParseResults.get_name.<locals>.find_in_parent.<locals>.<genexpr>)Únextr&rL)rE)Úpar)rEr
Úfind_in_parent>s
z-ParseResults.get_name.<locals>.find_in_parentNrGr)rr>)r!r"rHr&rrYr]r\)rrr
)rŽr
Úget_name szParseResults.get_namercCstg}d}| |r |t| ¡ƒnd¡|rj| ¡rÌtdd„| ¡Dƒƒ}x€|D]x\}}	|rf| |¡| d |d||¡¡t|	tƒrº|	rª| |	j	||||dd¡qÈ| t|	ƒ¡qP| t
|	ƒ¡qPWtd	d„|Dƒƒrj|}	x„t|	ƒD]x\}
}t|tƒr<| d
 |d||
|d|d|j	||||dd¡¡qî| d|d||
|d|dt|ƒf¡qîWd 
|¡S)aG
        Diagnostic method for listing out the contents of
        a :class:`ParseResults`. Accepts an optional ``indent`` argument so
        that this string can be embedded in a nested display of other data.

        Example::

            integer = Word(nums)
            date_str = integer("year") + '/' + integer("month") + '/' + integer("day")

            result = date_str.parse_string('12/31/1999')
            print(result.dump())

        prints::

            ['12', '/', '31', '/', '1999']
            - day: 1999
            - month: 31
            - year: 12
        Ú
rcss|]\}}t|ƒ|fVqdS)N)r9)rrDr?r
r
r
rnsz$ParseResults.dump.<locals>.<genexpr>z
{}{}- {}: z  rG)ÚindentÚfullÚinclude_listÚ_depthcss|]}t|tƒVqdS)N)r(r)rÚvvr
r
r
rsz
{}{}[{}]:
{}{}{}z
%s%s[%d]:
%s%s%s)rhr9rˆr_ÚsortedrLr+r(rÚdumprÚanyrMrƒ)rr’r“r”r•r‡ÚNLrLrDr?rr–r
r
r
r˜SsZ



zParseResults.dumpcOstj| ¡f|ž|ŽdS)a%
        Pretty-printer for parsed results as a list, using the
        `pprint <https://docs.python.org/3/library/pprint.html>`_ module.
        Accepts additional positional or keyword args as defined for
        `pprint.pprint <https://docs.python.org/3/library/pprint.html#pprint.pprint>`_ .

        Example::

            ident = Word(alphas, alphanums)
            num = Word(nums)
            func = Forward()
            term = ident | num | Group('(' + func + ')')
            func <<= ident + Group(Optional(delimited_list(term)))
            result = func.parse_string("fna a,b,(fnb c,d,200),100")
            result.pprint(width=40)

        prints::

            ['fna',
             ['a',
              'b',
              ['(', 'fnb', ['c', 'd', '200'], ')'],
              '100']]
        N)Úpprintrˆ)rrr7r
r
r
r›£szParseResults.pprintcCs.|j|j ¡|jdk	r| ¡p d|j|jffS)N)r%r&rrr"r#r!)rr
r
r
r¿s
zParseResults.__getstate__cCs>|\|_\|_}}|_t|ƒ|_|dk	r4t|ƒ|_nd|_dS)N)r%r&r!r2r#rCr")rÚstaterŽÚinAccumNamesr
r
r
rÊs

zParseResults.__setstate__cCs|j|jfS)N)r%r!)rr
r
r
Ú__getnewargs__ÒszParseResults.__getnewargs__cCstt|ƒƒt| ¡ƒS)N)Údirr,r)r\)rr
r
r
Ú__dir__ÕszParseResults.__dir__cCsvdd„}|gƒ}xJ| ¡D]>\}}t|tƒr@||j||d7}q|||g|||ƒd7}qW|dk	rr||g|d}|S)zò
        Helper classmethod to construct a ``ParseResults`` from a ``dict``, preserving the
        name-value relations as results names. If an optional ``name`` argument is
        given, a nested ``ParseResults`` will be returned.
        cSs2yt|ƒWntk
r dSXt|tƒSdS)NF)rYÚ	Exceptionr(r	)r‹r
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