What limitations have closures in Python compared to language X closures?

Where X is any programming language (C#, Javascript, Lisp, Perl, Ruby, Scheme, etc) which supports some flavour of closures.

Some limitations are mentioned in the Closures in Python (compared to Ruby's closures), but the article is old and many limitations do not exist in modern Python any more.

Seeing a code example for a concrete limitation would be great.

Related questions :

  • Can you explain closures (as they relate to Python)?
  • What is a 'Closure'?
  • How does a javascript closure work ?

  • The most important limitation, currently, is that you cannot assign to an outer-scope variable. In other words, closures are read-only:

    >>> def outer(x): 
    ...     def inner_reads():
    ...         # Will return outer's 'x'.
    ...         return x
    ...     def inner_writes(y):
    ...         # Will assign to a local 'x', not the outer 'x'
    ...         x = y
    ...     def inner_error(y):
    ...         # Will produce an error: 'x' is local because of the assignment,
    ...         # but we use it before it is assigned to.
    ...         tmp = x
    ...         x = y
    ...         return tmp
    ...     return inner_reads, inner_writes, inner_error
    ... 
    >>> inner_reads, inner_writes, inner_error = outer(5)
    >>> inner_reads()
    5
    >>> inner_writes(10)
    >>> inner_reads()
    5
    >>> inner_error(10)
    Traceback (most recent call last):
      File "<stdin>", line 1, in <module>
      File "<stdin>", line 11, in inner_error
    UnboundLocalError: local variable 'x' referenced before assignment
    

    A name that gets assigned to in a local scope (a function) is always local, unless declared otherwise. While there is the 'global' declaration to declare a variable global even when it is assigned to, there is no such declaration for enclosed variables -- yet. In Python 3.0, there is (will be) the 'nonlocal' declaration that does just that.

    You can work around this limitation in the mean time by using a mutable container type:

    >>> def outer(x):
    ...     x = [x]
    ...     def inner_reads():
    ...         # Will return outer's x's first (and only) element.
    ...         return x[0]
    ...     def inner_writes(y):
    ...         # Will look up outer's x, then mutate it.      
    ...         x[0] = y
    ...     def inner_error(y):
    ...         # Will now work, because 'x' is not assigned to, just referenced.
    ...         tmp = x[0]
    ...         x[0] = y
    ...         return tmp
    ...     return inner_reads, inner_writes, inner_error
    ... 
    >>> inner_reads, inner_writes, inner_error = outer(5)
    >>> inner_reads()
    5
    >>> inner_writes(10)
    >>> inner_reads()
    10
    >>> inner_error(15)
    10
    >>> inner_reads()
    15
    

    The only difficulty I've seen people encounter with Python's in particular is when they try to mix non-functional features like variable reassignment with closures, and are surprised when this doesn't work:

    def outer ():
        x = 1
        def inner ():
            print x
            x = 2
        return inner
    outer () ()
    

    Usually just pointing out that a function has its own local variables is enough to deter such silliness.


    A limitation (or "limitation") of Python closures, comparing to Javascript closures, is that it cannot be used for effective data hiding

    Javascript

    var mksecretmaker = function(){
        var secrets = [];
        var mksecret = function() {
            secrets.push(Math.random())
        }
        return mksecret
    }
    var secretmaker = mksecretmaker();
    secretmaker(); secretmaker()
    // privately generated secret number list
    // is practically inaccessible
    

    Python

    import random
    def mksecretmaker():
        secrets = []
        def mksecret():
            secrets.append(random.random())
        return mksecret
    
    secretmaker = mksecretmaker()
    secretmaker(); secretmaker()
    # "secrets" are easily accessible,
    # it's difficult to hide something in Python:
    secretmaker.__closure__[0].cell_contents # -> e.g. [0.680752847190161, 0.9068475951742101]
    
    链接地址: http://www.djcxy.com/p/1454.html

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