412 lines
15 KiB
ReStructuredText
412 lines
15 KiB
ReStructuredText
.. _tut-errors:
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*********************
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Errors and Exceptions
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*********************
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Until now error messages haven't been more than mentioned, but if you have tried
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out the examples you have probably seen some. There are (at least) two
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distinguishable kinds of errors: *syntax errors* and *exceptions*.
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.. _tut-syntaxerrors:
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Syntax Errors
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=============
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Syntax errors, also known as parsing errors, are perhaps the most common kind of
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complaint you get while you are still learning Python::
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>>> while True print 'Hello world'
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File "<stdin>", line 1, in ?
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while True print 'Hello world'
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^
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SyntaxError: invalid syntax
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The parser repeats the offending line and displays a little 'arrow' pointing at
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the earliest point in the line where the error was detected. The error is
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caused by (or at least detected at) the token *preceding* the arrow: in the
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example, the error is detected at the keyword :keyword:`print`, since a colon
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(``':'``) is missing before it. File name and line number are printed so you
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know where to look in case the input came from a script.
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.. _tut-exceptions:
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Exceptions
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==========
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Even if a statement or expression is syntactically correct, it may cause an
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error when an attempt is made to execute it. Errors detected during execution
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are called *exceptions* and are not unconditionally fatal: you will soon learn
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how to handle them in Python programs. Most exceptions are not handled by
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programs, however, and result in error messages as shown here::
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>>> 10 * (1/0)
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Traceback (most recent call last):
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File "<stdin>", line 1, in ?
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ZeroDivisionError: integer division or modulo by zero
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>>> 4 + spam*3
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Traceback (most recent call last):
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File "<stdin>", line 1, in ?
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NameError: name 'spam' is not defined
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>>> '2' + 2
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Traceback (most recent call last):
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File "<stdin>", line 1, in ?
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TypeError: cannot concatenate 'str' and 'int' objects
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The last line of the error message indicates what happened. Exceptions come in
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different types, and the type is printed as part of the message: the types in
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the example are :exc:`ZeroDivisionError`, :exc:`NameError` and :exc:`TypeError`.
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The string printed as the exception type is the name of the built-in exception
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that occurred. This is true for all built-in exceptions, but need not be true
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for user-defined exceptions (although it is a useful convention). Standard
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exception names are built-in identifiers (not reserved keywords).
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The rest of the line provides detail based on the type of exception and what
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caused it.
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The preceding part of the error message shows the context where the exception
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happened, in the form of a stack traceback. In general it contains a stack
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traceback listing source lines; however, it will not display lines read from
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standard input.
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:ref:`bltin-exceptions` lists the built-in exceptions and their meanings.
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.. _tut-handling:
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Handling Exceptions
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===================
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It is possible to write programs that handle selected exceptions. Look at the
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following example, which asks the user for input until a valid integer has been
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entered, but allows the user to interrupt the program (using :kbd:`Control-C` or
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whatever the operating system supports); note that a user-generated interruption
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is signalled by raising the :exc:`KeyboardInterrupt` exception. ::
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>>> while True:
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... try:
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... x = int(raw_input("Please enter a number: "))
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... break
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... except ValueError:
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... print "Oops! That was no valid number. Try again..."
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...
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The :keyword:`try` statement works as follows.
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* First, the *try clause* (the statement(s) between the :keyword:`try` and
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:keyword:`except` keywords) is executed.
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* If no exception occurs, the *except clause* is skipped and execution of the
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:keyword:`try` statement is finished.
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* If an exception occurs during execution of the try clause, the rest of the
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clause is skipped. Then if its type matches the exception named after the
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:keyword:`except` keyword, the except clause is executed, and then execution
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continues after the :keyword:`try` statement.
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* If an exception occurs which does not match the exception named in the except
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clause, it is passed on to outer :keyword:`try` statements; if no handler is
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found, it is an *unhandled exception* and execution stops with a message as
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shown above.
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A :keyword:`try` statement may have more than one except clause, to specify
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handlers for different exceptions. At most one handler will be executed.
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Handlers only handle exceptions that occur in the corresponding try clause, not
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in other handlers of the same :keyword:`try` statement. An except clause may
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name multiple exceptions as a parenthesized tuple, for example::
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... except (RuntimeError, TypeError, NameError):
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... pass
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The last except clause may omit the exception name(s), to serve as a wildcard.
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Use this with extreme caution, since it is easy to mask a real programming error
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in this way! It can also be used to print an error message and then re-raise
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the exception (allowing a caller to handle the exception as well)::
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import sys
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try:
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f = open('myfile.txt')
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s = f.readline()
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i = int(s.strip())
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except IOError as (errno, strerror):
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print "I/O error({0}): {1}".format(errno, strerror)
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except ValueError:
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print "Could not convert data to an integer."
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except:
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print "Unexpected error:", sys.exc_info()[0]
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raise
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The :keyword:`try` ... :keyword:`except` statement has an optional *else
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clause*, which, when present, must follow all except clauses. It is useful for
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code that must be executed if the try clause does not raise an exception. For
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example::
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for arg in sys.argv[1:]:
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try:
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f = open(arg, 'r')
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except IOError:
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print 'cannot open', arg
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else:
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print arg, 'has', len(f.readlines()), 'lines'
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f.close()
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The use of the :keyword:`else` clause is better than adding additional code to
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the :keyword:`try` clause because it avoids accidentally catching an exception
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that wasn't raised by the code being protected by the :keyword:`try` ...
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:keyword:`except` statement.
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When an exception occurs, it may have an associated value, also known as the
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exception's *argument*. The presence and type of the argument depend on the
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exception type.
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The except clause may specify a variable after the exception name (or tuple).
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The variable is bound to an exception instance with the arguments stored in
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``instance.args``. For convenience, the exception instance defines
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:meth:`__getitem__` and :meth:`__str__` so the arguments can be accessed or
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printed directly without having to reference ``.args``.
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But use of ``.args`` is discouraged. Instead, the preferred use is to pass a
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single argument to an exception (which can be a tuple if multiple arguments are
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needed) and have it bound to the ``message`` attribute. One may also
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instantiate an exception first before raising it and add any attributes to it as
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desired. ::
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>>> try:
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... raise Exception('spam', 'eggs')
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... except Exception as inst:
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... print type(inst) # the exception instance
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... print inst.args # arguments stored in .args
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... print inst # __str__ allows args to printed directly
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... x, y = inst # __getitem__ allows args to be unpacked directly
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... print 'x =', x
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... print 'y =', y
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...
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<type 'exceptions.Exception'>
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('spam', 'eggs')
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('spam', 'eggs')
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x = spam
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y = eggs
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If an exception has an argument, it is printed as the last part ('detail') of
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the message for unhandled exceptions.
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Exception handlers don't just handle exceptions if they occur immediately in the
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try clause, but also if they occur inside functions that are called (even
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indirectly) in the try clause. For example::
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>>> def this_fails():
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... x = 1/0
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...
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>>> try:
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... this_fails()
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... except ZeroDivisionError as detail:
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... print 'Handling run-time error:', detail
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...
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Handling run-time error: integer division or modulo by zero
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.. _tut-raising:
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Raising Exceptions
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==================
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The :keyword:`raise` statement allows the programmer to force a specified
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exception to occur. For example::
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>>> raise NameError, 'HiThere'
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Traceback (most recent call last):
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File "<stdin>", line 1, in ?
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NameError: HiThere
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The first argument to :keyword:`raise` names the exception to be raised. The
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optional second argument specifies the exception's argument. Alternatively, the
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above could be written as ``raise NameError('HiThere')``. Either form works
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fine, but there seems to be a growing stylistic preference for the latter.
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If you need to determine whether an exception was raised but don't intend to
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handle it, a simpler form of the :keyword:`raise` statement allows you to
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re-raise the exception::
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>>> try:
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... raise NameError, 'HiThere'
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... except NameError:
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... print 'An exception flew by!'
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... raise
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...
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An exception flew by!
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Traceback (most recent call last):
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File "<stdin>", line 2, in ?
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NameError: HiThere
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.. _tut-userexceptions:
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User-defined Exceptions
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=======================
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Programs may name their own exceptions by creating a new exception class.
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Exceptions should typically be derived from the :exc:`Exception` class, either
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directly or indirectly. For example::
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>>> class MyError(Exception):
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... def __init__(self, value):
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... self.value = value
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... def __str__(self):
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... return repr(self.value)
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...
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>>> try:
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... raise MyError(2*2)
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... except MyError as e:
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... print 'My exception occurred, value:', e.value
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...
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My exception occurred, value: 4
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>>> raise MyError, 'oops!'
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Traceback (most recent call last):
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File "<stdin>", line 1, in ?
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__main__.MyError: 'oops!'
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In this example, the default :meth:`__init__` of :class:`Exception` has been
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overridden. The new behavior simply creates the *value* attribute. This
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replaces the default behavior of creating the *args* attribute.
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Exception classes can be defined which do anything any other class can do, but
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are usually kept simple, often only offering a number of attributes that allow
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information about the error to be extracted by handlers for the exception. When
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creating a module that can raise several distinct errors, a common practice is
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to create a base class for exceptions defined by that module, and subclass that
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to create specific exception classes for different error conditions::
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class Error(Exception):
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"""Base class for exceptions in this module."""
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pass
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class InputError(Error):
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"""Exception raised for errors in the input.
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Attributes:
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expression -- input expression in which the error occurred
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message -- explanation of the error
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"""
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def __init__(self, expression, message):
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self.expression = expression
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self.message = message
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class TransitionError(Error):
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"""Raised when an operation attempts a state transition that's not
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allowed.
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Attributes:
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previous -- state at beginning of transition
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next -- attempted new state
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message -- explanation of why the specific transition is not allowed
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"""
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def __init__(self, previous, next, message):
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self.previous = previous
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self.next = next
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self.message = message
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Most exceptions are defined with names that end in "Error," similar to the
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naming of the standard exceptions.
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Many standard modules define their own exceptions to report errors that may
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occur in functions they define. More information on classes is presented in
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chapter :ref:`tut-classes`.
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.. _tut-cleanup:
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Defining Clean-up Actions
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=========================
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The :keyword:`try` statement has another optional clause which is intended to
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define clean-up actions that must be executed under all circumstances. For
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example::
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>>> try:
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... raise KeyboardInterrupt
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... finally:
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... print 'Goodbye, world!'
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...
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Goodbye, world!
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Traceback (most recent call last):
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File "<stdin>", line 2, in ?
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KeyboardInterrupt
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A *finally clause* is always executed before leaving the :keyword:`try`
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statement, whether an exception has occurred or not. When an exception has
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occurred in the :keyword:`try` clause and has not been handled by an
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:keyword:`except` clause (or it has occurred in a :keyword:`except` or
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:keyword:`else` clause), it is re-raised after the :keyword:`finally` clause has
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been executed. The :keyword:`finally` clause is also executed "on the way out"
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when any other clause of the :keyword:`try` statement is left via a
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:keyword:`break`, :keyword:`continue` or :keyword:`return` statement. A more
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complicated example (having :keyword:`except` and :keyword:`finally` clauses in
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the same :keyword:`try` statement works as of Python 2.5)::
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>>> def divide(x, y):
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... try:
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... result = x / y
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... except ZeroDivisionError:
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... print "division by zero!"
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... else:
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... print "result is", result
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... finally:
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... print "executing finally clause"
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...
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>>> divide(2, 1)
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result is 2
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executing finally clause
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>>> divide(2, 0)
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division by zero!
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executing finally clause
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>>> divide("2", "1")
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executing finally clause
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Traceback (most recent call last):
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File "<stdin>", line 1, in ?
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File "<stdin>", line 3, in divide
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TypeError: unsupported operand type(s) for /: 'str' and 'str'
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As you can see, the :keyword:`finally` clause is executed in any event. The
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:exc:`TypeError` raised by dividing two strings is not handled by the
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:keyword:`except` clause and therefore re-raised after the :keyword:`finally`
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clauses has been executed.
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In real world applications, the :keyword:`finally` clause is useful for
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releasing external resources (such as files or network connections), regardless
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of whether the use of the resource was successful.
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.. _tut-cleanup-with:
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Predefined Clean-up Actions
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===========================
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Some objects define standard clean-up actions to be undertaken when the object
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is no longer needed, regardless of whether or not the operation using the object
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succeeded or failed. Look at the following example, which tries to open a file
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and print its contents to the screen. ::
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for line in open("myfile.txt"):
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print line
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The problem with this code is that it leaves the file open for an indeterminate
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amount of time after the code has finished executing. This is not an issue in
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simple scripts, but can be a problem for larger applications. The
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:keyword:`with` statement allows objects like files to be used in a way that
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ensures they are always cleaned up promptly and correctly. ::
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with open("myfile.txt") as f:
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for line in f:
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print line
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After the statement is executed, the file *f* is always closed, even if a
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problem was encountered while processing the lines. Other objects which provide
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predefined clean-up actions will indicate this in their documentation.
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