collections

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1、计数器(counter)

Counter是对字典类型的补充,用于追踪值的出现次数。

ps:具备字典的所有功能 + 自己的功能

1 c = Counter(abcdeabcdabcaba)
2 print c
3 输出:Counter({a: 5, b: 4, c: 3, d: 2, e: 1})
技术分享
########################################################################
###  Counter
########################################################################

class Counter(dict):
    ‘‘‘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

    >>> c[‘a‘]                          # count of letter ‘a‘
    >>> 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‘
    >>> del c[‘b‘]                      # remove all ‘b‘
    >>> c[‘b‘]                          # now there are zero ‘b‘

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

    >>> 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)]

    ‘‘‘
    # References:
    #   http://en.wikipedia.org/wiki/Multiset
    #   http://www.gnu.org/software/smalltalk/manual-base/html_node/Bag.html
    #   http://www.demo2s.com/Tutorial/Cpp/0380__set-multiset/Catalog0380__set-multiset.htm
    #   http://code.activestate.com/recipes/259174/
    #   Knuth, TAOCP Vol. II section 4.6.3

    def __init__(self, iterable=None, **kwds):
        ‘‘‘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

        ‘‘‘
        super(Counter, self).__init__()
        self.update(iterable, **kwds)

    def __missing__(self, key):
        """ 对于不存在的元素,返回计数器为0 """
        The count of elements not in the Counter is zero.
        # Needed so that self[missing_item] does not raise KeyError
        return 0

    def most_common(self, n=None):
        """ 数量从大到写排列,获取前N个元素 """
        ‘‘‘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)]

        ‘‘‘
        # Emulate Bag.sortedByCount from Smalltalk
        if n is None:
            return sorted(self.iteritems(), key=_itemgetter(1), reverse=True)
        return _heapq.nlargest(n, self.iteritems(), key=_itemgetter(1))

    def elements(self):
        """ 计数器中的所有元素,注:此处非所有元素集合,而是包含所有元素集合的迭代器 """
        ‘‘‘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

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

        ‘‘‘
        # Emulate Bag.do from Smalltalk and Multiset.begin from C++.
        return _chain.from_iterable(_starmap(_repeat, self.iteritems()))

    # Override dict methods where necessary

    @classmethod
    def fromkeys(cls, iterable, v=None):
        # There is no equivalent method for counters because setting v=1
        # means that no element can have a count greater than one.
        raise NotImplementedError(
            Counter.fromkeys() is undefined.  Use Counter(iterable) instead.)

    def update(self, iterable=None, **kwds):
        """ 更新计数器,其实就是增加;如果原来没有,则新建,如果有则加一 """
        ‘‘‘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

        ‘‘‘
        # The regular dict.update() operation makes no sense here because the
        # replace behavior results in the some of original untouched counts
        # being mixed-in with all of the other counts for a mismash that
        # doesn‘t have a straight-forward interpretation in most counting
        # contexts.  Instead, we implement straight-addition.  Both the inputs
        # and outputs are allowed to contain zero and negative counts.

        if iterable is not None:
            if isinstance(iterable, Mapping):
                if self:
                    self_get = self.get
                    for elem, count in iterable.iteritems():
                        self[elem] = self_get(elem, 0) + count
                else:
                    super(Counter, self).update(iterable) # fast path when counter is empty
            else:
                self_get = self.get
                for elem in iterable:
                    self[elem] = self_get(elem, 0) + 1
        if kwds:
            self.update(kwds)

    def subtract(self, iterable=None, **kwds):
        """ 相减,原来的计数器中的每一个元素的数量减去后添加的元素的数量 """
        ‘‘‘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
        >>> c[‘w‘]                          # 1 in which, minus 1 in witch, minus 1 in watch
        -1

        ‘‘‘
        if iterable is not None:
            self_get = self.get
            if isinstance(iterable, Mapping):
                for elem, count in iterable.items():
                    self[elem] = self_get(elem, 0) - count
            else:
                for elem in iterable:
                    self[elem] = self_get(elem, 0) - 1
        if kwds:
            self.subtract(kwds)

    def copy(self):
        """ 拷贝 """
        Return a shallow copy.
        return self.__class__(self)

    def __reduce__(self):
        """ 返回一个元组(类型,元组) """
        return self.__class__, (dict(self),)

    def __delitem__(self, elem):
        """ 删除元素 """
        Like dict.__delitem__() but does not raise KeyError for missing values.
        if elem in self:
            super(Counter, self).__delitem__(elem)

    def __repr__(self):
        if not self:
            return %s() % self.__class__.__name__
        items = , .join(map(%r: %r.__mod__, self.most_common()))
        return %s({%s}) % (self.__class__.__name__, items)

    # Multiset-style mathematical operations discussed in:
    #       Knuth TAOCP Volume II section 4.6.3 exercise 19
    #       and at http://en.wikipedia.org/wiki/Multiset
    #
    # Outputs guaranteed to only include positive counts.
    #
    # To strip negative and zero counts, add-in an empty counter:
    #       c += Counter()

    def __add__(self, other):
        ‘‘‘Add counts from two counters.

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

        ‘‘‘
        if not isinstance(other, Counter):
            return NotImplemented
        result = Counter()
        for elem, count in self.items():
            newcount = count + other[elem]
            if newcount > 0:
                result[elem] = newcount
        for elem, count in other.items():
            if elem not in self and count > 0:
                result[elem] = count
        return result

    def __sub__(self, other):
        ‘‘‘ Subtract count, but keep only results with positive counts.

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

        ‘‘‘
        if not isinstance(other, Counter):
            return NotImplemented
        result = Counter()
        for elem, count in self.items():
            newcount = count - other[elem]
            if newcount > 0:
                result[elem] = newcount
        for elem, count in other.items():
            if elem not in self and count < 0:
                result[elem] = 0 - count
        return result

    def __or__(self, other):
        ‘‘‘Union is the maximum of value in either of the input counters.

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

        ‘‘‘
        if not isinstance(other, Counter):
            return NotImplemented
        result = Counter()
        for elem, count in self.items():
            other_count = other[elem]
            newcount = other_count if count < other_count else count
            if newcount > 0:
                result[elem] = newcount
        for elem, count in other.items():
            if elem not in self and count > 0:
                result[elem] = count
        return result

    def __and__(self, other):
        ‘‘‘ Intersection is the minimum of corresponding counts.

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

        ‘‘‘
        if not isinstance(other, Counter):
            return NotImplemented
        result = Counter()
        for elem, count in self.items():
            other_count = other[elem]
            newcount = count if count < other_count else other_count
            if newcount > 0:
                result[elem] = newcount
        return result
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