2001-02-19 01:08:07 -05:00
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PEP: 234
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2001-02-03 23:36:37 -05:00
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Title: Iterators
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2022-10-05 12:48:43 -04:00
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Author: Ka-Ping Yee <ping@zesty.ca>, Guido van Rossum <guido@python.org>
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2001-10-25 16:14:01 -04:00
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Status: Final
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2001-02-03 23:36:37 -05:00
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Type: Standards Track
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2017-06-16 13:20:28 -04:00
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Content-Type: text/x-rst
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2001-02-03 23:36:37 -05:00
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Created: 30-Jan-2001
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2007-06-19 00:20:07 -04:00
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Python-Version: 2.1
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2001-04-30 22:29:03 -04:00
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Post-History: 30-Apr-2001
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2001-02-03 23:36:37 -05:00
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Abstract
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========
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This document proposes an iteration interface that objects can provide to
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control the behaviour of ``for`` loops. Looping is customized by providing a
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method that produces an iterator object. The iterator provides a *get next
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value* operation that produces the next item in the sequence each time it is
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called, raising an exception when no more items are available.
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In addition, specific iterators over the keys of a dictionary and over the
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lines of a file are proposed, and a proposal is made to allow spelling
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``dict.has_key(key)`` as ``key in dict``.
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Note: this is an almost complete rewrite of this PEP by the second author,
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describing the actual implementation checked into the trunk of the Python 2.2
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CVS tree. It is still open for discussion. Some of the more esoteric
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proposals in the original version of this PEP have been withdrawn for now;
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these may be the subject of a separate PEP in the future.
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2001-04-23 14:31:46 -04:00
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C API Specification
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===================
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A new exception is defined, ``StopIteration``, which can be used to signal the
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end of an iteration.
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A new slot named ``tp_iter`` for requesting an iterator is added to the type
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object structure. This should be a function of one ``PyObject *`` argument
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returning a ``PyObject *``, or ``NULL``. To use this slot, a new C API
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function ``PyObject_GetIter()`` is added, with the same signature as the
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``tp_iter`` slot function.
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Another new slot, named ``tp_iternext``, is added to the type structure, for
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obtaining the next value in the iteration. To use this slot, a new C API
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function ``PyIter_Next()`` is added. The signature for both the slot and the
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API function is as follows, although the ``NULL`` return conditions differ:
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the argument is a ``PyObject *`` and so is the return value. When the return
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value is non-``NULL``, it is the next value in the iteration. When it is
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``NULL``, then for the ``tp_iternext slot`` there are three possibilities:
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- No exception is set; this implies the end of the iteration.
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- The ``StopIteration`` exception (or a derived exception class) is set; this
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implies the end of the iteration.
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- Some other exception is set; this means that an error occurred that should be
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propagated normally.
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The higher-level ``PyIter_Next()`` function clears the ``StopIteration``
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exception (or derived exception) when it occurs, so its ``NULL`` return
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conditions are simpler:
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- No exception is set; this means iteration has ended.
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- Some exception is set; this means an error occurred, and should be propagated
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normally.
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Iterators implemented in C should *not* implement a ``next()`` method with
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similar semantics as the ``tp_iternext`` slot! When the type's dictionary is
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initialized (by ``PyType_Ready()``), the presence of a ``tp_iternext`` slot
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causes a method ``next()`` wrapping that slot to be added to the type's
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``tp_dict``. (Exception: if the type doesn't use ``PyObject_GenericGetAttr()``
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to access instance attributes, the ``next()`` method in the type's ``tp_dict``
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may not be seen.) (Due to a misunderstanding in the original text of this PEP,
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in Python 2.2, all iterator types implemented a ``next()`` method that was
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overridden by the wrapper; this has been fixed in Python 2.3.)
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To ensure binary backwards compatibility, a new flag ``Py_TPFLAGS_HAVE_ITER``
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is added to the set of flags in the ``tp_flags`` field, and to the default
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flags macro. This flag must be tested before accessing the ``tp_iter`` or
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``tp_iternext`` slots. The macro ``PyIter_Check()`` tests whether an object
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has the appropriate flag set and has a non-``NULL`` ``tp_iternext`` slot.
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There is no such macro for the ``tp_iter`` slot (since the only place where
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this slot is referenced should be ``PyObject_GetIter()``, and this can check
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for the ``Py_TPFLAGS_HAVE_ITER`` flag directly).
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(Note: the ``tp_iter`` slot can be present on any object; the ``tp_iternext``
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slot should only be present on objects that act as iterators.)
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For backwards compatibility, the ``PyObject_GetIter()`` function implements
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fallback semantics when its argument is a sequence that does not implement a
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``tp_iter`` function: a lightweight sequence iterator object is constructed in
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that case which iterates over the items of the sequence in the natural order.
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The Python bytecode generated for ``for`` loops is changed to use new opcodes,
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``GET_ITER`` and ``FOR_ITER``, that use the iterator protocol rather than the
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sequence protocol to get the next value for the loop variable. This makes it
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possible to use a ``for`` loop to loop over non-sequence objects that support
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the ``tp_iter`` slot. Other places where the interpreter loops over the values
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of a sequence should also be changed to use iterators.
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Iterators ought to implement the ``tp_iter`` slot as returning a reference to
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themselves; this is needed to make it possible to use an iterator (as opposed
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to a sequence) in a ``for`` loop.
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Iterator implementations (in C or in Python) should guarantee that once the
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iterator has signalled its exhaustion, subsequent calls to ``tp_iternext`` or
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to the ``next()`` method will continue to do so. It is not specified whether
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an iterator should enter the exhausted state when an exception (other than
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``StopIteration``) is raised. Note that Python cannot guarantee that
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user-defined or 3rd party iterators implement this requirement correctly.
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2002-07-18 16:38:28 -04:00
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2001-04-23 14:31:46 -04:00
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Python API Specification
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========================
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The ``StopIteration`` exception is made visible as one of the standard
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exceptions. It is derived from ``Exception``.
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A new built-in function is defined, ``iter()``, which can be called in two
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ways:
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- ``iter(obj)`` calls ``PyObject_GetIter(obj)``.
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- ``iter(callable, sentinel)`` returns a special kind of iterator that calls
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the callable to produce a new value, and compares the return value to the
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sentinel value. If the return value equals the sentinel, this signals the
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end of the iteration and ``StopIteration`` is raised rather than returning
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normal; if the return value does not equal the sentinel, it is returned as
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the next value from the iterator. If the callable raises an exception, this
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is propagated normally; in particular, the function is allowed to raise
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``StopIteration`` as an alternative way to end the iteration. (This
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functionality is available from the C API as
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``PyCallIter_New(callable, sentinel)``.)
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Iterator objects returned by either form of ``iter()`` have a ``next()``
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method. This method either returns the next value in the iteration, or raises
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``StopIteration`` (or a derived exception class) to signal the end of the
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iteration. Any other exception should be considered to signify an error and
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should be propagated normally, not taken to mean the end of the iteration.
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Classes can define how they are iterated over by defining an ``__iter__()``
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method; this should take no additional arguments and return a valid iterator
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object. A class that wants to be an iterator should implement two methods: a
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``next()`` method that behaves as described above, and an ``__iter__()`` method
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that returns ``self``.
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The two methods correspond to two distinct protocols:
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1. An object can be iterated over with ``for`` if it implements ``__iter__()``
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or ``__getitem__()``.
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2. An object can function as an iterator if it implements ``next()``.
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Container-like objects usually support protocol 1. Iterators are currently
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required to support both protocols. The semantics of iteration come only from
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protocol 2; protocol 1 is present to make iterators behave like sequences; in
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particular so that code receiving an iterator can use a for-loop over the
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iterator.
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Dictionary Iterators
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====================
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- Dictionaries implement a ``sq_contains`` slot that implements the same test
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as the ``has_key()`` method. This means that we can write
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::
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if k in dict: ...
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which is equivalent to
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::
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if dict.has_key(k): ...
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- Dictionaries implement a ``tp_iter`` slot that returns an efficient iterator
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that iterates over the keys of the dictionary. During such an iteration, the
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dictionary should not be modified, except that setting the value for an
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existing key is allowed (deletions or additions are not, nor is the
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``update()`` method). This means that we can write
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::
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for k in dict: ...
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which is equivalent to, but much faster than
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::
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for k in dict.keys(): ...
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as long as the restriction on modifications to the dictionary (either by the
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loop or by another thread) are not violated.
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- Add methods to dictionaries that return different kinds of iterators
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explicitly::
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for key in dict.iterkeys(): ...
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for value in dict.itervalues(): ...
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for key, value in dict.iteritems(): ...
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This means that ``for x in dict`` is shorthand for
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``for x in dict.iterkeys()``.
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Other mappings, if they support iterators at all, should also iterate over the
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keys. However, this should not be taken as an absolute rule; specific
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applications may have different requirements.
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File Iterators
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==============
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The following proposal is useful because it provides us with a good answer to
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the complaint that the common idiom to iterate over the lines of a file is ugly
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and slow.
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- Files implement a ``tp_iter`` slot that is equivalent to
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``iter(f.readline, "")``. This means that we can write
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::
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for line in file:
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...
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as a shorthand for
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::
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for line in iter(file.readline, ""):
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...
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which is equivalent to, but faster than
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::
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while 1:
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line = file.readline()
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if not line:
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break
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...
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This also shows that some iterators are destructive: they consume all the
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values and a second iterator cannot easily be created that iterates
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independently over the same values. You could open the file for a second time,
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or ``seek()`` to the beginning, but these solutions don't work for all file
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types, e.g. they don't work when the open file object really represents a pipe
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or a stream socket.
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Because the file iterator uses an internal buffer, mixing this with other file
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operations (e.g. ``file.readline()``) doesn't work right. Also, the following
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code::
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for line in file:
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if line == "\n":
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break
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for line in file:
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print line,
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doesn't work as you might expect, because the iterator created by the second
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for-loop doesn't take the buffer read-ahead by the first for-loop into account.
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A correct way to write this is::
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it = iter(file)
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for line in it:
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if line == "\n":
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break
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for line in it:
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print line,
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(The rationale for these restrictions are that ``for line in file`` ought to
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become the recommended, standard way to iterate over the lines of a file, and
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this should be as fast as can be. The iterator version is considerable faster
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than calling ``readline()``, due to the internal buffer in the iterator.)
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Rationale
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=========
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If all the parts of the proposal are included, this addresses many concerns in
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a consistent and flexible fashion. Among its chief virtues are the following
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four -- no, five -- no, six -- points:
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1. It provides an extensible iterator interface.
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2. It allows performance enhancements to list iteration.
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3. It allows big performance enhancements to dictionary iteration.
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4. It allows one to provide an interface for just iteration without pretending
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to provide random access to elements.
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5. It is backward-compatible with all existing user-defined classes and
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extension objects that emulate sequences and mappings, even mappings that
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only implement a subset of {``__getitem__``, ``keys``, ``values``,
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``items``}.
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6. It makes code iterating over non-sequence collections more concise and
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readable.
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Resolved Issues
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===============
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The following topics have been decided by consensus or BDFL pronouncement.
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- Two alternative spellings for ``next()`` have been proposed but rejected:
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``__next__()``, because it corresponds to a type object slot
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(``tp_iternext``); and ``__call__()``, because this is the only operation.
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Arguments against ``__next__()``: while many iterators are used in for loops,
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it is expected that user code will also call ``next()`` directly, so having
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to write ``__next__()`` is ugly; also, a possible extension of the protocol
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would be to allow for ``prev()``, ``current()`` and ``reset()`` operations;
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surely we don't want to use ``__prev__()``, ``__current__()``,
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``__reset__()``.
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Arguments against ``__call__()`` (the original proposal): taken out of
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context, ``x()`` is not very readable, while ``x.next()`` is clear; there's a
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danger that every special-purpose object wants to use ``__call__()`` for its
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most common operation, causing more confusion than clarity.
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(In retrospect, it might have been better to go for ``__next__()`` and have a
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new built-in, ``next(it)``, which calls ``it.__next__()``. But alas, it's too
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late; this has been deployed in Python 2.2 since December 2001.)
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- Some folks have requested the ability to restart an iterator. This should be
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dealt with by calling ``iter()`` on a sequence repeatedly, not by the
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iterator protocol itself. (See also requested extensions below.)
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- It has been questioned whether an exception to signal the end of the
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iteration isn't too expensive. Several alternatives for the
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``StopIteration`` exception have been proposed: a special value ``End`` to
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signal the end, a function ``end()`` to test whether the iterator is
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finished, even reusing the ``IndexError`` exception.
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- A special value has the problem that if a sequence ever contains that
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special value, a loop over that sequence will end prematurely without any
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warning. If the experience with null-terminated C strings hasn't taught us
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the problems this can cause, imagine the trouble a Python introspection
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tool would have iterating over a list of all built-in names, assuming that
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the special ``End`` value was a built-in name!
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- Calling an ``end()`` function would require two calls per iteration. Two
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calls is much more expensive than one call plus a test for an exception.
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Especially the time-critical for loop can test very cheaply for an
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exception.
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- Reusing ``IndexError`` can cause confusion because it can be a genuine
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error, which would be masked by ending the loop prematurely.
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- Some have asked for a standard iterator type. Presumably all iterators would
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have to be derived from this type. But this is not the Python way:
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dictionaries are mappings because they support ``__getitem__()`` and a
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handful other operations, not because they are derived from an abstract
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mapping type.
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- Regarding ``if key in dict``: there is no doubt that the ``dict.has_key(x)``
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interpretation of ``x in dict`` is by far the most useful interpretation,
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probably the only useful one. There has been resistance against this because
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``x in list`` checks whether *x* is present among the values, while the
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proposal makes ``x in dict`` check whether *x* is present among the keys.
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Given that the symmetry between lists and dictionaries is very weak, this
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argument does not have much weight.
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- The name ``iter()`` is an abbreviation. Alternatives proposed include
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``iterate()``, ``traverse()``, but these appear too long. Python has a
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history of using abbrs for common builtins, e.g. ``repr()``, ``str()``,
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``len()``.
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Resolution: ``iter()`` it is.
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- Using the same name for two different operations (getting an iterator from an
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object and making an iterator for a function with a sentinel value) is
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somewhat ugly. I haven't seen a better name for the second operation though,
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and since they both return an iterator, it's easy to remember.
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Resolution: the builtin ``iter()`` takes an optional argument, which is the
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sentinel to look for.
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- Once a particular iterator object has raised ``StopIteration``, will it also
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raise ``StopIteration`` on all subsequent ``next()`` calls? Some say that it
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would be useful to require this, others say that it is useful to leave this
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open to individual iterators. Note that this may require an additional state
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bit for some iterator implementations (e.g. function-wrapping iterators).
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Resolution: once ``StopIteration`` is raised, calling ``it.next()`` continues
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to raise ``StopIteration``.
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Note: this was in fact not implemented in Python 2.2; there are many cases
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where an iterator's ``next()`` method can raise ``StopIteration`` on one call
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but not on the next. This has been remedied in Python 2.3.
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- It has been proposed that a file object should be its own iterator, with a
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``next()`` method returning the next line. This has certain advantages, and
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makes it even clearer that this iterator is destructive. The disadvantage is
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that this would make it even more painful to implement the "sticky
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StopIteration" feature proposed in the previous bullet.
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Resolution: tentatively rejected (though there are still people arguing for
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this).
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- Some folks have requested extensions of the iterator protocol, e.g.
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``prev()`` to get the previous item, ``current()`` to get the current item
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again, ``finished()`` to test whether the iterator is finished, and maybe
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even others, like ``rewind()``, ``__len__()``, ``position()``.
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While some of these are useful, many of these cannot easily be implemented
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for all iterator types without adding arbitrary buffering, and sometimes they
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can't be implemented at all (or not reasonably). E.g. anything to do with
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reversing directions can't be done when iterating over a file or function.
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Maybe a separate PEP can be drafted to standardize the names for such
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operations when they are implementable.
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Resolution: rejected.
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- There has been a long discussion about whether
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::
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for x in dict: ...
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should assign *x* the successive keys, values, or items of the dictionary.
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The symmetry between ``if x in y`` and ``for x in y`` suggests that it should
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iterate over keys. This symmetry has been observed by many independently and
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has even been used to "explain" one using the other. This is because for
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sequences, ``if x in y`` iterates over *y* comparing the iterated values to
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*x*. If we adopt both of the above proposals, this will also hold for
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dictionaries.
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The argument against making ``for x in dict`` iterate over the keys comes
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mostly from a practicality point of view: scans of the standard library show
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that there are about as many uses of ``for x in dict.items()`` as there are
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of ``for x in dict.keys()``, with the ``items()`` version having a small
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majority. Presumably many of the loops using ``keys()`` use the
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corresponding value anyway, by writing ``dict[x]``, so (the argument goes) by
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making both the key and value available, we could support the largest number
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of cases. While this is true, I (Guido) find the correspondence between
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``for x in dict`` and ``if x in dict`` too compelling to break, and there's
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not much overhead in having to write ``dict[x]`` to explicitly get the value.
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For fast iteration over items, use ``for key, value in dict.iteritems()``.
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I've timed the difference between
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::
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for key in dict: dict[key]
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and
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::
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for key, value in dict.iteritems(): pass
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and found that the latter is only about 7% faster.
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Resolution: By BDFL pronouncement, ``for x in dict`` iterates over the keys,
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and dictionaries have ``iteritems()``, ``iterkeys()``, and ``itervalues()``
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to return the different flavors of dictionary iterators.
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2001-04-30 22:04:28 -04:00
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2001-04-27 11:26:54 -04:00
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Mailing Lists
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=============
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The iterator protocol has been discussed extensively in a mailing list on
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SourceForge:
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http://lists.sourceforge.net/lists/listinfo/python-iterators
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2001-04-27 11:26:54 -04:00
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Initially, some of the discussion was carried out at Yahoo; archives are still
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accessible:
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http://groups.yahoo.com/group/python-iter
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2001-04-27 11:26:54 -04:00
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2001-04-30 22:04:28 -04:00
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2001-04-23 14:31:46 -04:00
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Copyright
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=========
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This document is in the public domain.
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