815 lines
26 KiB
Plaintext
815 lines
26 KiB
Plaintext
PEP: 3151
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Title: Reworking the OS and IO exception hierarchy
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Version: $Revision$
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Last-Modified: $Date$
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Author: Antoine Pitrou <solipsis@pitrou.net>
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Status: Draft
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Type: Standards Track
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Content-Type: text/x-rst
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Created: 2010-07-21
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Python-Version: 3.2 or 3.3
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Post-History:
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Resolution: TBD
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Abstract
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========
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The standard exception hierarchy is an important part of the Python
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language. It has two defining qualities: it is both generic and
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selective. Generic in that the same exception type can be raised
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- and handled - regardless of the context (for example, whether you are
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trying to add something to an integer, to call a string method, or to write
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an object on a socket, a TypeError will be raised for bad argument types).
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Selective in that it allows the user to easily handle (silence, examine,
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process, store or encapsulate...) specific kinds of error conditions
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while letting other errors bubble up to higher calling contexts. For
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example, you can choose to catch ZeroDivisionErrors without affecting
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the default handling of other ArithmeticErrors (such as OverflowErrors).
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This PEP proposes changes to a part of the exception hierarchy in
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order to better embody the qualities mentioned above: the errors
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related to operating system calls (OSError, IOError, mmap.error,
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select.error, and all their subclasses).
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Rationale
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=========
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Confusing set of OS-related exceptions
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--------------------------------------
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OS-related (or system call-related) exceptions are currently a diversity
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of classes, arranged in the following subhierarchies::
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+-- EnvironmentError
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+-- IOError
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+-- io.BlockingIOError
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+-- io.UnsupportedOperation (also inherits from ValueError)
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+-- socket.error
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+-- OSError
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+-- WindowsError
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+-- mmap.error
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+-- select.error
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While some of these distinctions can be explained by implementation
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considerations, they are often not very logical at a higher level. The
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line separating OSError and IOError, for example, is often blurry. Consider
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the following::
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>>> os.remove("fff")
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Traceback (most recent call last):
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File "<stdin>", line 1, in <module>
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OSError: [Errno 2] No such file or directory: 'fff'
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>>> open("fff")
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Traceback (most recent call last):
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File "<stdin>", line 1, in <module>
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IOError: [Errno 2] No such file or directory: 'fff'
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The same error condition (a non-existing file) gets cast as two different
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exceptions depending on which library function was called. The reason
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for this is that the ``os`` module exclusively raises OSError (or its
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subclass WindowsError) while the ``io`` module mostly raises IOError.
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However, the user is interested in the nature of the error, not in which
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part of the interpreter it comes from (since the latter is obvious from
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reading the traceback message or application source code).
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In fact, it is hard to think of any situation where OSError should be
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caught but not IOError, or the reverse.
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A further proof of the ambiguity of this segmentation is that the standard
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library itself sometimes has problems deciding. For example, in the
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``select`` module, similar failures will raise either ``select.error``,
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``OSError`` or ``IOError`` depending on whether you are using select(),
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a poll object, a kqueue object, or an epoll object. This makes user code
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uselessly complicated since it has to be prepared to catch various
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exception types, depending on which exact implementation of a single
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primitive it chooses to use at runtime.
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As for WindowsError, it seems to be a pointless distinction. First, it
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only exists on Windows systems, which requires tedious compatibility code
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in cross-platform applications (such code can be found in ``Lib/shutil.py``).
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Second, it inherits from OSError and is raised for similar errors as OSError
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is raised for on other systems. Third, the user wanting access to low-level
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exception specifics has to examine the ``errno`` or ``winerror`` attribute
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anyway.
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.. note::
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`Appendix B`_ surveys the use of the various exception types accross
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the interpreter and the standard library.
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Lack of fine-grained exceptions
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-------------------------------
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The current variety of OS-related exceptions doesn't allow the user to filter
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easily for the desired kinds of failures. As an example, consider the task
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of deleting a file if it exists. The Look Before You Leap (LBYL) idiom
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suffers from an obvious race condition::
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if os.path.exists(filename):
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os.remove(filename)
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If a file named as ``filename`` is created by another thread or process
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between the calls to ``os.path.exists`` and ``os.remove``, it won't be
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deleted. This can produce bugs in the application, or even security issues.
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Therefore, the solution is to try to remove the file, and ignore the error
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if the file doesn't exist (an idiom known as Easier to Ask Forgiveness
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than to get Permission, or EAFP). Careful code will read like the following
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(which works under both POSIX and Windows systems)::
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try:
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os.remove(filename)
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except OSError as e:
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if e.errno != errno.ENOENT:
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raise
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or even::
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try:
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os.remove(filename)
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except EnvironmentError as e:
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if e.errno != errno.ENOENT:
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raise
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This is a lot more to type, and also forces the user to remember the various
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cryptic mnemonics from the ``errno`` module. It imposes an additional
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cognitive burden and gets tiresome rather quickly. Consequently, many
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programmers will instead write the following code, which silences exceptions
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too broadly::
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try:
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os.remove(filename)
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except OSError:
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pass
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``os.remove`` can raise an OSError not only when the file doesn't exist,
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but in other possible situations (for example, the filename points to a
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directory, or the current process doesn't have permission to remove
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the file), which all indicate bugs in the application logic and therefore
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shouldn't be silenced. What the programmer would like to write instead is
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something such as::
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try:
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os.remove(filename)
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except FileNotFound:
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pass
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Compatibility strategy
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======================
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Reworking the exception hierarchy will obviously change the exact semantics
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of at least some existing code. While it is not possible to improve on the
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current situation without changing exact semantics, it is possible to define
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a narrower type of compatibility, which we will call **useful compatibility**,
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and define as follows:
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* *useful compatibility* doesn't make exception catching any narrower, but
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it can be broader for *naïve* exception-catching code. Given the following
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kind of snippet, all exceptions caught before this PEP will also be
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caught after this PEP, but the reverse may be false::
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try:
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os.remove(filename)
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except OSError:
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pass
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* *useful compatibility* doesn't alter the behaviour of *careful*
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exception-catching code. Given the following kind of snippet, the same
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errors should be silenced or reraised, regardless of whether this PEP
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has been implemented or not::
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try:
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os.remove(filename)
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except OSError as e:
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if e.errno != errno.ENOENT:
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raise
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The rationale for this compromise is that careless (or "naïve") code
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can't really be helped, but at least code which "works" won't suddenly
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raise errors and crash. This is important since such code is likely to
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be present in scripts used as cron tasks or automated system administration
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programs.
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Careful code should not be penalized.
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.. _Step 1:
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Step 1: coalesce exception types
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================================
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The first step of the resolution is to coalesce existing exception types.
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The following changes are proposed:
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* alias both socket.error and select.error to IOError
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* alias mmap.error to OSError
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* alias WindowsError to OSError
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* alias OSError to IOError
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* coalesce EnvironmentError into IOError
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Each of these changes doesn't preserve exact compatibility, but it does
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preserve *useful compatibility* (see "compatibility" section above).
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Each of these changes can be accepted or refused invididually, but of course
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it is considered that the greatest impact can be achieved if this first step
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is accepted in full. In this case, the IO exception subhierarchy would
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become::
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+-- IOError (replacing OSError, WindowsError, EnvironmentError, etc.)
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+-- io.BlockingIOError
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+-- io.UnsupportedOperation (also inherits from ValueError)
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Justification
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-------------
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Not only does this first step present the user a simpler landscape as
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explained in the rationale_ section, but it also allows for a better
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and more complete resolution of `Step 2`_ (see Prerequisite_).
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The rationale for keeping ``IOError`` as the official name for generic
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OS-related exceptions is the survey in `Appendix B`_, which shows it is the
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dominant error today in the standard library. ``EnvironmentError`` might
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be more accurate, but it is more tedious to type and also much lesser-known.
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As for third-party Python code, Google Code Search shows IOError
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being ten times more popular than EnvironmentError in user code, and
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three times more popular than OSError [3]_.
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Exception attributes
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--------------------
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Coalescing WindowsError would mean the ``winerror`` attribute would be
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present on all platforms, just set to ``None`` if the platform
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isn't Windows. Indeed, ``errno``, ``filename`` and ``strerror`` can all
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already be None, as is often the case when IOError is raised directly
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by Python code.
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Deprecation of names
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--------------------
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It is not yet decided whether the old names will be deprecated (then removed)
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or all alternative names will continue living in the root namespace.
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Deprecation of names from the root namespace presents some implementation
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challenges, especially where performance is important.
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.. _Step 2:
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Step 2: define additional subclasses
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====================================
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The second step of the resolution is to extend the hierarchy by defining
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subclasses which will be raised, rather than their parent, for specific
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errno values. Which errno values is subject to discussion, but a survey
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of existing exception matching practices (see `Appendix A`_) helps us
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propose a reasonable subset of all values. Trying to map all errno
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mnemonics, indeed, seems foolish, pointless, and would pollute the root
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namespace.
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Furthermore, in a couple of cases, different errno values could raise
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the same exception subclass. For example, EAGAIN, EALREADY, EWOULDBLOCK
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and EINPROGRESS are all used to signal that an operation on a non-blocking
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socket would block (and therefore needs trying again later). They could
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therefore all raise an identical subclass and let the user examine the
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``errno`` attribute if (s)he so desires (see below "exception
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attributes").
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Prerequisite
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------------
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`Step 1`_ is a loose prerequisite for this.
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Prerequisite, because some errnos can currently be attached to different
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exception classes: for example, EBADF can be attached to both OSError and
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IOError, depending on the context. If we don't want to break *useful
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compatibility*, we can't make an ``except OSError`` (or IOError) fail to
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match an exception where it would succeed today.
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Loose, because we could decide for a partial resolution of step 2
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if existing exception classes are not coalesced: for example, EBADF could
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raise a hypothetical BadFileDescriptor where an IOError was previously
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raised, but continue to raise OSError otherwise.
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The dependency on step 1 could be totally removed if the new subclasses
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used multiple inheritance to match with all of the existing superclasses
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(or, at least, OSError and IOError, which are arguable the most prevalent
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ones). It would, however, make the hierarchy more complicated and
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therefore harder to grasp for the user.
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New exception classes
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---------------------
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The following tentative list of subclasses, along with a description and
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the list of errnos mapped to them, is submitted to discussion:
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* ``FileAlreadyExists``: trying to create a file or directory which already
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exists (EEXIST)
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* ``FileNotFound``: for all circumstances where a file and directory is
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requested but doesn't exist (ENOENT)
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* ``IsADirectory``: file-level operation (open(), os.remove()...) requested
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on a directory (EISDIR)
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* ``NotADirectory``: directory-level operation requested on something else
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(ENOTDIR)
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* ``PermissionDenied``: trying to run an operation without the adequate access
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rights - for example filesystem permissions (EACCESS, optionally EPERM)
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* ``BlockingIOError``: an operation would block on an object (e.g. socket) set
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for non-blocking operation (EAGAIN, EALREADY, EWOULDBLOCK, EINPROGRESS);
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this is the existing ``io.BlockingIOError`` with an extended role
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* ``BadFileDescriptor``: operation on an invalid file descriptor (EBADF);
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the default error message could point out that most causes are that
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an existing file descriptor has been closed
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* ``ConnectionAborted``: connection attempt aborted by peer (ECONNABORTED)
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* ``ConnectionRefused``: connection reset by peer (ECONNREFUSED)
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* ``ConnectionReset``: connection reset by peer (ECONNRESET)
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* ``TimeoutError``: connection timed out (ECONNTIMEOUT); this could be re-cast
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as a generic timeout exception, useful for other types of timeout (for
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example in Lock.acquire())
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This list assumes `Step 1`_ is accepted in full; the exception classes
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described above would all derive from the now unified exception type
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IOError. It will need reworking if a partial version of step 1 is accepted
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instead (again, see appendix A for the current distribution of errnos
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and exception types).
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Exception attributes
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--------------------
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In order to preserve *useful compatibility*, these subclasses should still
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set adequate values for the various exception attributes defined on the
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superclass (for example ``errno``, ``filename``, and optionally
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``winerror``).
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Implementation
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--------------
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Since it is proposed that the subclasses are raised based purely on the
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value of ``errno``, little or no changes should be required in extension
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modules (either standard or third-party). As long as they use the
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``PyErr_SetFromErrno()`` family of functions (or the
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``PyErr_SetFromWindowsErr()`` family of functions under Windows), they
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should automatically benefit from the new, finer-grained exception classes.
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Library modules written in Python, though, will have to be adapted where
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they currently use the following idiom (seen in ``Lib/tempfile.py``)::
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raise IOError(_errno.EEXIST, "No usable temporary file name found")
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Fortunately, such Python code is quite rare since raising OSError or IOError
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with an errno value normally happens when interfacing with system calls,
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which is usually done in C extensions.
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If there is popular demand, the subroutine choosing an exception type based
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on the errno value could be exposed for use in pure Python.
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Possible objections
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===================
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Namespace pollution
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-------------------
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Making the exception hierarchy finer-grained makes the root (or builtins)
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namespace larger. This is to be moderated, however, as:
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* only a handful of additional classes are proposed;
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* while standard exception types live in the root namespace, they are
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visually distinguished by the fact that they use the CamelCase convention,
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while almost all other builtins use lowercase naming (except True, False,
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None, Ellipsis and NotImplemented)
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An alternative would be to provide a separate module containing the
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finer-grained exceptions, but that would defeat the purpose of
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encouraging careful code over careless code, since the user would first
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have to import the new module instead of using names already accessible.
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Earlier discussion
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==================
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While this is the first time such as formal proposal is made, the idea
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has received informal support in the past [1]_; both the introduction
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of finer-grained exception classes and the coalescing of OSError and
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IOError.
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The removal of WindowsError alone has been discussed and rejected
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as part of another PEP [2]_, but there seemed to be a consensus that the
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distinction with OSError wasn't meaningful. This supports at least its
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aliasing with OSError.
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Moratorium
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==========
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The moratorium in effect on language builtins means this PEP has little
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chance to be accepted for Python 3.2.
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Possible alternative
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====================
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Pattern matching
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----------------
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Another possibility would be to introduce an advanced pattern matching
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syntax when catching exceptions. For example::
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try:
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os.remove(filename)
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except OSError as e if e.errno == errno.ENOENT:
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pass
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Several problems with this proposal:
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* it introduces new syntax, which is perceived by the author to be a heavier
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change compared to reworking the exception hierarchy
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* it doesn't decrease typing effort significantly
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* it doesn't relieve the programmer from the burden of having to remember
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errno mnemonics
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Exceptions ignored by this PEP
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==============================
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This PEP ignores ``EOFError``, which signals a truncated input stream in
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various protocol and file format implementations (for example ``GzipFile``).
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``EOFError`` is not OS- or IO-related, it is a logical error raised at
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a higher level.
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This PEP also ignores ``SSLError``, which is raised by the ``ssl`` module
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in order to propagate errors signalled by the ``OpenSSL`` library. Ideally,
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``SSLError`` would benefit from a similar but separate treatment since it
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defines its own constants for error types (``ssl.SSL_ERROR_WANT_READ``,
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etc.).
|
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.. _Appendix A:
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Appendix A: Survey of common errnos
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===================================
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This is a quick inventory of the various errno mnemonics checked for in
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the standard library and its tests, as part of ``except`` clauses.
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Common errnos with OSError
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--------------------------
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* ``EBADF``: bad file descriptor (usually means the file descriptor was
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closed)
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* ``EEXIST``: file or directory exists
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* ``EINTR``: interrupted function call
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* ``EISDIR``: is a directory
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* ``ENOTDIR``: not a directory
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* ``ENOENT``: no such file or directory
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* ``EOPNOTSUPP``: operation not supported on socket
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(possible confusion with the existing io.UnsupportedOperation)
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* ``EPERM``: operation not permitted (when using e.g. os.setuid())
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Common errnos with IOError
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--------------------------
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* ``EACCES``: permission denied (for filesystem operations)
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* ``EBADF``: bad file descriptor (with select.epoll); read operation on a
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write-only GzipFile, or vice-versa
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* ``EBUSY``: device or resource busy
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* ``EISDIR``: is a directory (when trying to open())
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* ``ENODEV``: no such device
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* ``ENOENT``: no such file or directory (when trying to open())
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* ``ETIMEDOUT``: connection timed out
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Common errnos with socket.error
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-------------------------------
|
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All these errors may also be associated with a plain IOError, for example
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when calling read() on a socket's file descriptor.
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* ``EAGAIN``: resource temporarily unavailable (during a non-blocking socket
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call except connect())
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* ``EALREADY``: connection already in progress (during a non-blocking
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connect())
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* ``EINPROGRESS``: operation in progress (during a non-blocking connect())
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* ``EINTR``: interrupted function call
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* ``EISCONN``: the socket is connected
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* ``ECONNABORTED``: connection aborted by peer (during an accept() call)
|
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* ``ECONNREFUSED``: connection refused by peer
|
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* ``ECONNRESET``: connection reset by peer
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* ``ENOTCONN``: socket not connected
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* ``ESHUTDOWN``: cannot send after transport endpoint shutdown
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|
||
* ``EWOULDBLOCK``: same reasons as ``EAGAIN``
|
||
|
||
Common errnos with select.error
|
||
-------------------------------
|
||
|
||
* ``EINTR``: interrupted function call
|
||
|
||
|
||
.. _Appendix B:
|
||
|
||
Appendix B: Survey of raised OS and IO errors
|
||
=============================================
|
||
|
||
Interpreter core
|
||
----------------
|
||
|
||
Handling of PYTHONSTARTUP raises IOError (but the error gets discarded)::
|
||
|
||
$ PYTHONSTARTUP=foox ./python
|
||
Python 3.2a0 (py3k:82920M, Jul 16 2010, 22:53:23)
|
||
[GCC 4.4.3] on linux2
|
||
Type "help", "copyright", "credits" or "license" for more information.
|
||
Could not open PYTHONSTARTUP
|
||
IOError: [Errno 2] No such file or directory: 'foox'
|
||
|
||
``PyObject_Print()`` raises IOError when ferror() signals an error on the
|
||
`FILE *` parameter (which, in the source tree, is always either stdout or
|
||
stderr).
|
||
|
||
Unicode encoding and decoding using the ``mbcs`` encoding can raise
|
||
WindowsError for some error conditions.
|
||
|
||
Standard library
|
||
----------------
|
||
|
||
bz2
|
||
'''
|
||
|
||
Raises IOError throughout (OSError is unused)::
|
||
|
||
>>> bz2.BZ2File("foox", "rb")
|
||
Traceback (most recent call last):
|
||
File "<stdin>", line 1, in <module>
|
||
IOError: [Errno 2] No such file or directory
|
||
>>> bz2.BZ2File("LICENSE", "rb").read()
|
||
Traceback (most recent call last):
|
||
File "<stdin>", line 1, in <module>
|
||
IOError: invalid data stream
|
||
>>> bz2.BZ2File("/tmp/zzz.bz2", "wb").read()
|
||
Traceback (most recent call last):
|
||
File "<stdin>", line 1, in <module>
|
||
IOError: file is not ready for reading
|
||
|
||
curses
|
||
''''''
|
||
|
||
Not examined.
|
||
|
||
dbm.gnu, dbm.ndbm
|
||
'''''''''''''''''
|
||
|
||
_dbm.error and _gdbm.error inherit from IOError::
|
||
|
||
>>> dbm.gnu.open("foox")
|
||
Traceback (most recent call last):
|
||
File "<stdin>", line 1, in <module>
|
||
_gdbm.error: [Errno 2] No such file or directory
|
||
|
||
fcntl
|
||
'''''
|
||
|
||
Raises IOError throughout (OSError is unused).
|
||
|
||
imp module
|
||
''''''''''
|
||
|
||
Raises IOError for bad file descriptors::
|
||
|
||
>>> imp.load_source("foo", "foo", 123)
|
||
Traceback (most recent call last):
|
||
File "<stdin>", line 1, in <module>
|
||
IOError: [Errno 9] Bad file descriptor
|
||
|
||
io module
|
||
'''''''''
|
||
|
||
Raises IOError when trying to open a directory under Unix::
|
||
|
||
>>> open("Python/", "r")
|
||
Traceback (most recent call last):
|
||
File "<stdin>", line 1, in <module>
|
||
IOError: [Errno 21] Is a directory: 'Python/'
|
||
|
||
Raises IOError or io.UnsupportedOperation (which inherits from the former)
|
||
for unsupported operations::
|
||
|
||
>>> open("LICENSE").write("bar")
|
||
Traceback (most recent call last):
|
||
File "<stdin>", line 1, in <module>
|
||
IOError: not writable
|
||
>>> io.StringIO().fileno()
|
||
Traceback (most recent call last):
|
||
File "<stdin>", line 1, in <module>
|
||
io.UnsupportedOperation: fileno
|
||
>>> open("LICENSE").seek(1, 1)
|
||
Traceback (most recent call last):
|
||
File "<stdin>", line 1, in <module>
|
||
IOError: can't do nonzero cur-relative seeks
|
||
|
||
Raises either IOError or TypeError when the inferior I/O layer misbehaves
|
||
(i.e. violates the API it is expected to implement).
|
||
|
||
Raises IOError when the underlying OS resource becomes invalid::
|
||
|
||
>>> f = open("LICENSE")
|
||
>>> os.close(f.fileno())
|
||
>>> f.read()
|
||
Traceback (most recent call last):
|
||
File "<stdin>", line 1, in <module>
|
||
IOError: [Errno 9] Bad file descriptor
|
||
|
||
...or for implementation-specific optimizations::
|
||
|
||
>>> f = open("LICENSE")
|
||
>>> next(f)
|
||
'A. HISTORY OF THE SOFTWARE\n'
|
||
>>> f.tell()
|
||
Traceback (most recent call last):
|
||
File "<stdin>", line 1, in <module>
|
||
IOError: telling position disabled by next() call
|
||
|
||
Raises BlockingIOError (inheriting from IOError) when a call on a non-blocking
|
||
object would block.
|
||
|
||
mmap
|
||
''''
|
||
|
||
Undex Unix, raises its own ``mmap.error`` (inheriting from EnvironmentError)
|
||
throughout::
|
||
|
||
>>> mmap.mmap(123, 10)
|
||
Traceback (most recent call last):
|
||
File "<stdin>", line 1, in <module>
|
||
mmap.error: [Errno 9] Bad file descriptor
|
||
>>> mmap.mmap(os.open("/tmp", os.O_RDONLY), 10)
|
||
Traceback (most recent call last):
|
||
File "<stdin>", line 1, in <module>
|
||
mmap.error: [Errno 13] Permission denied
|
||
|
||
Under Windows, however, it mostly raises WindowsError (the source code
|
||
also shows a few occurrences of ``mmap.error``)::
|
||
|
||
>>> fd = os.open("LICENSE", os.O_RDONLY)
|
||
>>> m = mmap.mmap(fd, 16384)
|
||
Traceback (most recent call last):
|
||
File "<stdin>", line 1, in <module>
|
||
WindowsError: [Error 5] Accès refusé
|
||
>>> sys.last_value.errno
|
||
13
|
||
>>> errno.errorcode[13]
|
||
'EACCES'
|
||
|
||
>>> m = mmap.mmap(-1, 4096)
|
||
>>> m.resize(16384)
|
||
Traceback (most recent call last):
|
||
File "<stdin>", line 1, in <module>
|
||
WindowsError: [Error 87] Paramètre incorrect
|
||
>>> sys.last_value.errno
|
||
22
|
||
>>> errno.errorcode[22]
|
||
'EINVAL'
|
||
|
||
multiprocessing
|
||
'''''''''''''''
|
||
|
||
Not examined.
|
||
|
||
os / posix
|
||
''''''''''
|
||
|
||
The ``os`` (or ``posix``) module raises OSError throughout, except under
|
||
Windows where WindosError can be raised instead.
|
||
|
||
ossaudiodev
|
||
'''''''''''
|
||
|
||
Raises IOError throughout (OSError is unused)::
|
||
|
||
>>> ossaudiodev.open("foo", "r")
|
||
Traceback (most recent call last):
|
||
File "<stdin>", line 1, in <module>
|
||
IOError: [Errno 2] No such file or directory: 'foo'
|
||
|
||
readline
|
||
''''''''
|
||
|
||
Raises IOError in various file-handling functions::
|
||
|
||
>>> readline.read_history_file("foo")
|
||
Traceback (most recent call last):
|
||
File "<stdin>", line 1, in <module>
|
||
IOError: [Errno 2] No such file or directory
|
||
>>> readline.read_init_file("foo")
|
||
Traceback (most recent call last):
|
||
File "<stdin>", line 1, in <module>
|
||
IOError: [Errno 2] No such file or directory
|
||
>>> readline.write_history_file("/dev/nonexistent")
|
||
Traceback (most recent call last):
|
||
File "<stdin>", line 1, in <module>
|
||
IOError: [Errno 13] Permission denied
|
||
|
||
select
|
||
''''''
|
||
|
||
* select() and poll objects raise ``select.error``, which doesn't inherit from
|
||
anything (but poll.modify() raises IOError);
|
||
* epoll objects raise IOError;
|
||
* kqueue objects raise both OSError and IOError.
|
||
|
||
signal
|
||
''''''
|
||
|
||
``signal.ItimerError`` inherits from IOError.
|
||
|
||
socket
|
||
''''''
|
||
|
||
``socket.error`` inherits from IOError.
|
||
|
||
sys
|
||
'''
|
||
|
||
``sys.getwindowsversion()`` raises WindowsError with a bogus error number
|
||
if the ``GetVersionEx()`` call fails.
|
||
|
||
time
|
||
''''
|
||
|
||
Raises IOError for internal errors in time.time() and time.sleep().
|
||
|
||
zipimport
|
||
'''''''''
|
||
|
||
zipimporter.get_data() can raise IOError.
|
||
|
||
|
||
Acknowledgments
|
||
===============
|
||
|
||
Significant input has been received from Nick Coghlan.
|
||
|
||
References
|
||
==========
|
||
|
||
.. [1] "IO module precisions and exception hierarchy":
|
||
http://mail.python.org/pipermail/python-dev/2009-September/092130.html
|
||
|
||
.. [2] Discussion of "Removing WindowsError" in PEP 348:
|
||
http://www.python.org/dev/peps/pep-0348/#removing-windowserror
|
||
|
||
.. [3] Google Code Search of ``IOError`` in Python code: `around 40000 results
|
||
<http://www.google.com/codesearch?q=lang%3Apython%20IOError>`_;
|
||
``OSError``: `around 15200 results
|
||
<http://www.google.com/codesearch?q=lang%3Apython%20OSError>`_;
|
||
``EnvironmentError``: `around 3000 results
|
||
<http://www.google.com/codesearch?q=lang%3Apython%20EnvironmentError>`_
|
||
|
||
Copyright
|
||
=========
|
||
|
||
This document has been placed in the public domain.
|
||
|
||
|
||
|
||
..
|
||
Local Variables:
|
||
mode: indented-text
|
||
indent-tabs-mode: nil
|
||
sentence-end-double-space: t
|
||
fill-column: 70
|
||
coding: utf-8
|
||
End:
|