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cCsX||krH|j}|d}|||g|d<|d<|j|<n||||�S(s!od.__setitem__(i, y) <==> od[i]=yii(RR(Rtkeytvaluetdict_setitemRtlast((s#/usr/lib64/python2.7/collections.pyt__setitem__6s
	
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ccs=|j}|d}x#||k	r8|dV|d}qWdS(sod.__iter__() <==> iter(od)iiN(R(RRtcurr((s#/usr/lib64/python2.7/collections.pyt__iter__Is
	
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	cCs7|j}||dg|(|jj�tj|�dS(s.od.clear() -> None.  Remove all items from od.N(RRRtcleartdict(RR((s#/usr/lib64/python2.7/collections.pyR([s	
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t|�S(s0od.iterkeys() -> an iterator over the keys in od(titer(R((s#/usr/lib64/python2.7/collections.pytiterkeyspsccsx|D]}||VqWdS(s2od.itervalues -> an iterator over the values in odN((Rtk((s#/usr/lib64/python2.7/collections.pyt
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ccs$x|D]}|||fVqWdS(s=od.iteritems -> an iterator over the (key, value) pairs in odN((RR0((s#/usr/lib64/python2.7/collections.pyt	iteritemsys
cCsC||kr!||}||=|S||jkr?t|��n|S(s�od.pop(k[,d]) -> v, remove specified key and return the corresponding
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cCsR|std��nt|r*t|�n	t|��}|j|�}||fS(s�od.popitem() -> (k, v), return and remove a (key, value) pair.
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cCsGt|t�r7tj||�o6ttt||��Stj||�S(s�od.__eq__(y) <==> od==y.  Comparison to another OD is order-sensitive
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					sclass {typename}(tuple):
    '{typename}({arg_list})'

    __slots__ = ()

    _fields = {field_names!r}

    def __new__(_cls, {arg_list}):
        'Create new instance of {typename}({arg_list})'
        return _tuple.__new__(_cls, ({arg_list}))

    @classmethod
    def _make(cls, iterable, new=tuple.__new__, len=len):
        'Make a new {typename} object from a sequence or iterable'
        result = new(cls, iterable)
        if len(result) != {num_fields:d}:
            raise TypeError('Expected {num_fields:d} arguments, got %d' % len(result))
        return result

    def __repr__(self):
        'Return a nicely formatted representation string'
        return '{typename}({repr_fmt})' % self

    def _asdict(self):
        'Return a new OrderedDict which maps field names to their values'
        return OrderedDict(zip(self._fields, self))

    def _replace(_self, **kwds):
        'Return a new {typename} object replacing specified fields with new values'
        result = _self._make(map(kwds.pop, {field_names!r}, _self))
        if kwds:
            raise ValueError('Got unexpected field names: %r' % kwds.keys())
        return result

    def __getnewargs__(self):
        'Return self as a plain tuple.  Used by copy and pickle.'
        return tuple(self)

{field_defs}
s	{name}=%rsW    {name} = _property(_itemgetter({index:d}), doc='Alias for field number {index:d}')
cBse|e�r*|jdd�j�}nee|�}|r�e�}x�e|�D]\}}ed�|D��s�e	|�s�|s�|dj
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r�}	e|	jd!|��nX||}
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    >>> Point = namedtuple('Point', ['x', 'y'])
    >>> Point.__doc__                   # docstring for the new class
    'Point(x, y)'
    >>> p = Point(11, y=22)             # instantiate with positional args or keywords
    >>> p[0] + p[1]                     # indexable like a plain tuple
    33
    >>> x, y = p                        # unpack like a regular tuple
    >>> x, y
    (11, 22)
    >>> p.x + p.y                       # fields also accessable by name
    33
    >>> d = p._asdict()                 # convert to a dictionary
    >>> d['x']
    11
    >>> Point(**d)                      # convert from a dictionary
    Point(x=11, y=22)
    >>> p._replace(x=100)               # _replace() is like str.replace() but targets named fields
    Point(x=100, y=22)

    t,t css'|]}|j�p|dkVqdS(R#N(tisalnum(t.0tc((s#/usr/lib64/python2.7/collections.pys	<genexpr>:siR#s_%dcss'|]}|j�p|dkVqdS(R#N(R_(R`Ra((s#/usr/lib64/python2.7/collections.pys	<genexpr>CssWType names and field names can only contain alphanumeric characters and underscores: %rs2Type names and field names cannot be a keyword: %rs9Type names and field names cannot start with a number: %rs/Field names cannot start with an underscore: %rs$Encountered duplicate field name: %rttypenametfield_namest
num_fieldstarg_listt'tii����trepr_fmts, css!|]}tjd|�VqdS(tnameN(t_repr_templatetformat(R`Ri((s#/usr/lib64/python2.7/collections.pys	<genexpr>[st
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namedtuple_%sRt	_propertyt_tuples:
t__main__( RIt
basestringtreplacetsplittmaptstrtsett	enumerateRKt
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ValueErrort_class_templateRkttupleRtreprtjoinR)RoRtpropertytSyntaxErrortmessaget_syst	_getframet	f_globalstgetRVR(RbRctverbosetrenametseenRmRitclass_definitiont	namespaceteR6((s#/usr/lib64/python2.7/collections.pyRsn	

	

	%

%cBs�eZdZdd�Zd�Zdd�Zd�Zedd��Z	dd�Z
dd�Zd�Zd	�Z
d
�Zd�Zd�Zd
�Zd�Zd�ZRS(s�Dict subclass for counting hashable items.  Sometimes called a bag
    or multiset.  Elements are stored as dictionary keys and their counts
    are stored as dictionary values.

    >>> c = Counter('abcdeabcdabcaba')  # count elements from a string

    >>> c.most_common(3)                # three most common elements
    [('a', 5), ('b', 4), ('c', 3)]
    >>> sorted(c)                       # list all unique elements
    ['a', 'b', 'c', 'd', 'e']
    >>> ''.join(sorted(c.elements()))   # list elements with repetitions
    'aaaaabbbbcccdde'
    >>> sum(c.values())                 # total of all counts
    15

    >>> c['a']                          # count of letter 'a'
    5
    >>> for elem in 'shazam':           # update counts from an iterable
    ...     c[elem] += 1                # by adding 1 to each element's count
    >>> c['a']                          # now there are seven 'a'
    7
    >>> del c['b']                      # remove all 'b'
    >>> c['b']                          # now there are zero 'b'
    0

    >>> d = Counter('simsalabim')       # make another counter
    >>> c.update(d)                     # add in the second counter
    >>> c['a']                          # now there are nine 'a'
    9

    >>> c.clear()                       # empty the counter
    >>> c
    Counter()

    Note:  If a count is set to zero or reduced to zero, it will remain
    in the counter until the entry is deleted or the counter is cleared:

    >>> c = Counter('aaabbc')
    >>> c['b'] -= 2                     # reduce the count of 'b' by two
    >>> c.most_common()                 # 'b' is still in, but its count is zero
    [('a', 3), ('c', 1), ('b', 0)]

    cKs'tt|�j�|j||�dS(s	Create a new, empty Counter object.  And if given, count elements
        from an input iterable.  Or, initialize the count from another mapping
        of elements to their counts.

        >>> c = Counter()                           # a new, empty counter
        >>> c = Counter('gallahad')                 # a new counter from an iterable
        >>> c = Counter({'a': 4, 'b': 2})           # a new counter from a mapping
        >>> c = Counter(a=4, b=2)                   # a new counter from keyword args

        N(tsuperRRRY(RRGR((s#/usr/lib64/python2.7/collections.pyR�scCsdS(s1The count of elements not in the Counter is zero.i((RR((s#/usr/lib64/python2.7/collections.pyt__missing__�scCsP|dkr.t|j�dtd�dt�Stj||j�dtd��S(s�List the n most common elements and their counts from the most
        common to the least.  If n is None, then list all element counts.

        >>> Counter('abcdeabcdabcaba').most_common(3)
        [('a', 5), ('b', 4), ('c', 3)]

        RitreverseN(RtsortedR2RoR[t_heapqtnlargest(Rtn((s#/usr/lib64/python2.7/collections.pytmost_common�s	"cCstjtt|j���S(s�Iterator over elements repeating each as many times as its count.

        >>> c = Counter('ABCABC')
        >>> sorted(c.elements())
        ['A', 'A', 'B', 'B', 'C', 'C']

        # Knuth's example for prime factors of 1836:  2**2 * 3**3 * 17**1
        >>> prime_factors = Counter({2: 2, 3: 3, 17: 1})
        >>> product = 1
        >>> for factor in prime_factors.elements():     # loop over factors
        ...     product *= factor                       # and multiply them
        >>> product
        1836

        Note, if an element's count has been set to zero or is a negative
        number, elements() will ignore it.

        (t_chaint
from_iterablet_starmapt_repeatR2(R((s#/usr/lib64/python2.7/collections.pytelements�scCstd��dS(Ns@Counter.fromkeys() is undefined.  Use Counter(iterable) instead.(tNotImplementedError(RFRGtv((s#/usr/lib64/python2.7/collections.pyRH�scKs�|dk	r�t|t�rz|ra|j}xJ|j�D]#\}}||d�|||<q7Wq�tt|�j|�q�|j}x(|D]}||d�d||<q�Wn|r�|j|�ndS(s�Like dict.update() but add counts instead of replacing them.

        Source can be an iterable, a dictionary, or another Counter instance.

        >>> c = Counter('which')
        >>> c.update('witch')           # add elements from another iterable
        >>> d = Counter('watch')
        >>> c.update(d)                 # add elements from another counter
        >>> c['h']                      # four 'h' in which, witch, and watch
        4

        iiN(RRItMappingR�R2R�RRY(RRGRtself_gettelemtcount((s#/usr/lib64/python2.7/collections.pyRY�s		
cKs�|dk	r�|j}t|t�r[x\|j�D]#\}}||d�|||<q1Wq�x(|D]}||d�d||<qbWn|r�|j|�ndS(s�Like dict.update() but subtracts counts instead of replacing them.
        Counts can be reduced below zero.  Both the inputs and outputs are
        allowed to contain zero and negative counts.

        Source can be an iterable, a dictionary, or another Counter instance.

        >>> c = Counter('which')
        >>> c.subtract('witch')             # subtract elements from another iterable
        >>> c.subtract(Counter('watch'))    # subtract elements from another counter
        >>> c['h']                          # 2 in which, minus 1 in witch, minus 1 in watch
        0
        >>> c['w']                          # 1 in which, minus 1 in witch, minus 1 in watch
        -1

        iiN(RR�RIR�R-tsubtract(RRGRR�R�R�((s#/usr/lib64/python2.7/collections.pyR�s	
cCs
|j|�S(sReturn a shallow copy.(R=(R((s#/usr/lib64/python2.7/collections.pyRC-scCs|jt|�ffS(N(R=R)(R((s#/usr/lib64/python2.7/collections.pyRE1scCs)||kr%tt|�j|�ndS(sGLike dict.__delitem__() but does not raise KeyError for missing values.N(R�RR$(RR�((s#/usr/lib64/python2.7/collections.pyR$4scCsI|sd|jjSdjtdj|j���}d|jj|fS(Ns%s()s, s%r: %rs%s({%s})(R=R>R�Rvt__mod__R�(RR-((s#/usr/lib64/python2.7/collections.pyRA9s!cCs�t|t�stSt�}xA|j�D]3\}}|||}|dkr)|||<q)q)Wx?|j�D]1\}}||krm|dkrm|||<qmqmW|S(sAdd counts from two counters.

        >>> Counter('abbb') + Counter('bcc')
        Counter({'b': 4, 'c': 2, 'a': 1})

        i(RIRtNotImplementedR-(RRNR6R�R�tnewcount((s#/usr/lib64/python2.7/collections.pyt__add__Hs	cCs�t|t�stSt�}xA|j�D]3\}}|||}|dkr)|||<q)q)WxC|j�D]5\}}||krm|dkrmd|||<qmqmW|S(s� Subtract count, but keep only results with positive counts.

        >>> Counter('abbbc') - Counter('bccd')
        Counter({'b': 2, 'a': 1})

        i(RIRR�R-(RRNR6R�R�R�((s#/usr/lib64/python2.7/collections.pyt__sub__[s	cCs�t|t�stSt�}xU|j�D]G\}}||}||krQ|n|}|dkr)|||<q)q)Wx?|j�D]1\}}||kr�|dkr�|||<q�q�W|S(s�Union is the maximum of value in either of the input counters.

        >>> Counter('abbb') | Counter('bcc')
        Counter({'b': 3, 'c': 2, 'a': 1})

        i(RIRR�R-(RRNR6R�R�tother_countR�((s#/usr/lib64/python2.7/collections.pyt__or__ns	
cCsxt|t�stSt�}xU|j�D]G\}}||}||krQ|n|}|dkr)|||<q)q)W|S(s� Intersection is the minimum of corresponding counts.

        >>> Counter('abbb') & Counter('bcc')
        Counter({'b': 1})

        i(RIRR�R-(RRNR6R�R�R�R�((s#/usr/lib64/python2.7/collections.pyt__and__�s	
N(R>RVRWRRR�R�R�R\RHRYR�RCRER$RAR�R�R�R�(((s#/usr/lib64/python2.7/collections.pyR}s"+	
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