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73 lines
5.0 KiB
Python
73 lines
5.0 KiB
Python
# These are included so that we can easily evaluate the test code
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SOURCE = "source"
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def SINK(x):
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print(x)
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# Callable types
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# These are the types to which the function call operation (see section Calls) can be applied:
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# User-defined functions
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# A user-defined function object is created by a function definition (see section Function definitions). It should be called with an argument list containing the same number of items as the function's formal parameter list.
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def f(a, b):
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return a
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SINK(f(SOURCE, 3))
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# Instance methods
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# An instance method object combines a class, a class instance and any callable object (normally a user-defined function).
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class C(object):
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def method(self, a, cls):
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assert cls is self.__class__
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return a
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@classmethod
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def classmethod(cls, a):
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return a
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@staticmethod
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def staticmethod():
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return a
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c = C()
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# When an instance method object is created by retrieving a user-defined function object from a class via one of its instances, its __self__ attribute is the instance, and the method object is said to be bound. The new method’s __func__ attribute is the original function object.
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func_obj = c.method.__func__
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# When an instance method object is called, the underlying function (__func__) is called, inserting the class instance (__self__) in front of the argument list. For instance, when C is a class which contains a definition for a function f(), and x is an instance of C, calling x.f(1) is equivalent to calling C.f(x, 1).
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SINK(c.method(SOURCE, C))
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SINK(C.method(c, SOURCE, C))
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SINK(func_obj(c, SOURCE, C))
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# When an instance method object is created by retrieving a class method object from a class or instance, its __self__ attribute is the class itself, and its __func__ attribute is the function object underlying the class method.
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c_func_obj = C.classmethod.__func__
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# When an instance method object is derived from a class method object, the “class instance” stored in __self__ will actually be the class itself, so that calling either x.f(1) or C.f(1) is equivalent to calling f(C,1) where f is the underlying function.
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SINK(c.classmethod(SOURCE))
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SINK(C.classmethod(SOURCE))
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SINK(c_func_obj(C, SOURCE))
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# Generator functions
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# A function or method which uses the yield statement (see section The yield statement) is called a generator function. Such a function, when called, always returns an iterator object which can be used to execute the body of the function: calling the iterator’s iterator.__next__() method will cause the function to execute until it provides a value using the yield statement. When the function executes a return statement or falls off the end, a StopIteration exception is raised and the iterator will have reached the end of the set of values to be returned.
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# Coroutine functions
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# A function or method which is defined using async def is called a coroutine function. Such a function, when called, returns a coroutine object. It may contain await expressions, as well as async with and async for statements. See also the Coroutine Objects section.
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# Asynchronous generator functions
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# A function or method which is defined using async def and which uses the yield statement is called a asynchronous generator function. Such a function, when called, returns an asynchronous iterator object which can be used in an async for statement to execute the body of the function.
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# Calling the asynchronous iterator’s aiterator.__anext__() method will return an awaitable which when awaited will execute until it provides a value using the yield expression. When the function executes an empty return statement or falls off the end, a StopAsyncIteration exception is raised and the asynchronous iterator will have reached the end of the set of values to be yielded.
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# Built-in functions
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# A built-in function object is a wrapper around a C function. Examples of built-in functions are len() and math.sin() (math is a standard built-in module). The number and type of the arguments are determined by the C function. Special read-only attributes: __doc__ is the function’s documentation string, or None if unavailable; __name__ is the function’s name; __self__ is set to None (but see the next item); __module__ is the name of the module the function was defined in or None if unavailable.
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# Built-in methods
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# This is really a different disguise of a built-in function, this time containing an object passed to the C function as an implicit extra argument. An example of a built-in method is alist.append(), assuming alist is a list object. In this case, the special read-only attribute __self__ is set to the object denoted by alist.
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# Classes
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# Classes are callable. These objects normally act as factories for new instances of themselves, but variations are possible for class types that override __new__(). The arguments of the call are passed to __new__() and, in the typical case, to __init__() to initialize the new instance.
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# Class Instances
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# Instances of arbitrary classes can be made callable by defining a __call__() method in their class.
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