354 lines
17 KiB
TeX
354 lines
17 KiB
TeX
\chapter{Exception Handling \label{exceptionHandling}}
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The functions described in this chapter will let you handle and raise Python
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exceptions. It is important to understand some of the basics of
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Python exception handling. It works somewhat like the
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\UNIX{} \cdata{errno} variable: there is a global indicator (per
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thread) of the last error that occurred. Most functions don't clear
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this on success, but will set it to indicate the cause of the error on
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failure. Most functions also return an error indicator, usually
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\NULL{} if they are supposed to return a pointer, or \code{-1} if they
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return an integer (exception: the \cfunction{PyArg_Parse*()} functions
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return \code{1} for success and \code{0} for failure). When a
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function must fail because some function it called failed, it
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generally doesn't set the error indicator; the function it called
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already set it.
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The error indicator consists of three Python objects corresponding to
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\withsubitem{(in module sys)}{
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\ttindex{exc_type}\ttindex{exc_value}\ttindex{exc_traceback}}
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the Python variables \code{sys.exc_type}, \code{sys.exc_value} and
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\code{sys.exc_traceback}. API functions exist to interact with the
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error indicator in various ways. There is a separate error indicator
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for each thread.
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% XXX Order of these should be more thoughtful.
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% Either alphabetical or some kind of structure.
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\begin{cfuncdesc}{void}{PyErr_Print}{}
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Print a standard traceback to \code{sys.stderr} and clear the error
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indicator. Call this function only when the error indicator is
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set. (Otherwise it will cause a fatal error!)
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\end{cfuncdesc}
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\begin{cfuncdesc}{PyObject*}{PyErr_Occurred}{}
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Test whether the error indicator is set. If set, return the
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exception \emph{type} (the first argument to the last call to one of
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the \cfunction{PyErr_Set*()} functions or to
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\cfunction{PyErr_Restore()}). If not set, return \NULL. You do
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not own a reference to the return value, so you do not need to
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\cfunction{Py_DECREF()} it. \note{Do not compare the return value
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to a specific exception; use \cfunction{PyErr_ExceptionMatches()}
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instead, shown below. (The comparison could easily fail since the
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exception may be an instance instead of a class, in the case of a
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class exception, or it may the a subclass of the expected
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exception.)}
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\end{cfuncdesc}
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\begin{cfuncdesc}{int}{PyErr_ExceptionMatches}{PyObject *exc}
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Equivalent to \samp{PyErr_GivenExceptionMatches(PyErr_Occurred(),
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\var{exc})}. This should only be called when an exception is
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actually set; a memory access violation will occur if no exception
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has been raised.
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\end{cfuncdesc}
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\begin{cfuncdesc}{int}{PyErr_GivenExceptionMatches}{PyObject *given, PyObject *exc}
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Return true if the \var{given} exception matches the exception in
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\var{exc}. If \var{exc} is a class object, this also returns true
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when \var{given} is an instance of a subclass. If \var{exc} is a
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tuple, all exceptions in the tuple (and recursively in subtuples)
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are searched for a match. If \var{given} is \NULL, a memory access
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violation will occur.
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\end{cfuncdesc}
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\begin{cfuncdesc}{void}{PyErr_NormalizeException}{PyObject**exc, PyObject**val, PyObject**tb}
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Under certain circumstances, the values returned by
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\cfunction{PyErr_Fetch()} below can be ``unnormalized'', meaning
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that \code{*\var{exc}} is a class object but \code{*\var{val}} is
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not an instance of the same class. This function can be used to
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instantiate the class in that case. If the values are already
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normalized, nothing happens. The delayed normalization is
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implemented to improve performance.
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\end{cfuncdesc}
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\begin{cfuncdesc}{void}{PyErr_Clear}{}
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Clear the error indicator. If the error indicator is not set, there
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is no effect.
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\end{cfuncdesc}
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\begin{cfuncdesc}{void}{PyErr_Fetch}{PyObject **ptype, PyObject **pvalue,
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PyObject **ptraceback}
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Retrieve the error indicator into three variables whose addresses
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are passed. If the error indicator is not set, set all three
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variables to \NULL. If it is set, it will be cleared and you own a
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reference to each object retrieved. The value and traceback object
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may be \NULL{} even when the type object is not. \note{This
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function is normally only used by code that needs to handle
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exceptions or by code that needs to save and restore the error
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indicator temporarily.}
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\end{cfuncdesc}
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\begin{cfuncdesc}{void}{PyErr_Restore}{PyObject *type, PyObject *value,
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PyObject *traceback}
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Set the error indicator from the three objects. If the error
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indicator is already set, it is cleared first. If the objects are
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\NULL, the error indicator is cleared. Do not pass a \NULL{} type
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and non-\NULL{} value or traceback. The exception type should be a
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string or class; if it is a class, the value should be an instance
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of that class. Do not pass an invalid exception type or value.
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(Violating these rules will cause subtle problems later.) This call
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takes away a reference to each object: you must own a reference to
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each object before the call and after the call you no longer own
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these references. (If you don't understand this, don't use this
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function. I warned you.) \note{This function is normally only used
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by code that needs to save and restore the error indicator
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temporarily.}
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\end{cfuncdesc}
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\begin{cfuncdesc}{void}{PyErr_SetString}{PyObject *type, char *message}
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This is the most common way to set the error indicator. The first
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argument specifies the exception type; it is normally one of the
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standard exceptions, e.g. \cdata{PyExc_RuntimeError}. You need not
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increment its reference count. The second argument is an error
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message; it is converted to a string object.
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\end{cfuncdesc}
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\begin{cfuncdesc}{void}{PyErr_SetObject}{PyObject *type, PyObject *value}
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This function is similar to \cfunction{PyErr_SetString()} but lets
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you specify an arbitrary Python object for the ``value'' of the
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exception. You need not increment its reference count.
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\end{cfuncdesc}
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\begin{cfuncdesc}{PyObject*}{PyErr_Format}{PyObject *exception,
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const char *format, \moreargs}
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This function sets the error indicator. \var{exception} should be a
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Python exception (string or class, not an instance). \var{format}
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should be a string, containing format codes, similar to
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\cfunction{printf()}. The \code{width.precision} before a format
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code is parsed, but the width part is ignored.
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\begin{tableii}{c|l}{character}{Character}{Meaning}
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\lineii{c}{Character, as an \ctype{int} parameter}
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\lineii{d}{Number in decimal, as an \ctype{int} parameter}
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\lineii{x}{Number in hexadecimal, as an \ctype{int} parameter}
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\lineii{x}{A string, as a \ctype{char *} parameter}
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\end{tableii}
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An unrecognized format character causes all the rest of the format
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string to be copied as-is to the result string, and any extra
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arguments discarded.
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A new reference is returned, which is owned by the caller.
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\end{cfuncdesc}
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\begin{cfuncdesc}{void}{PyErr_SetNone}{PyObject *type}
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This is a shorthand for \samp{PyErr_SetObject(\var{type},
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Py_None)}.
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\end{cfuncdesc}
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\begin{cfuncdesc}{int}{PyErr_BadArgument}{}
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This is a shorthand for \samp{PyErr_SetString(PyExc_TypeError,
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\var{message})}, where \var{message} indicates that a built-in
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operation was invoked with an illegal argument. It is mostly for
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internal use.
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\end{cfuncdesc}
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\begin{cfuncdesc}{PyObject*}{PyErr_NoMemory}{}
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This is a shorthand for \samp{PyErr_SetNone(PyExc_MemoryError)}; it
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returns \NULL{} so an object allocation function can write
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\samp{return PyErr_NoMemory();} when it runs out of memory.
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\end{cfuncdesc}
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\begin{cfuncdesc}{PyObject*}{PyErr_SetFromErrno}{PyObject *type}
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This is a convenience function to raise an exception when a C
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library function has returned an error and set the C variable
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\cdata{errno}. It constructs a tuple object whose first item is the
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integer \cdata{errno} value and whose second item is the
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corresponding error message (gotten from
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\cfunction{strerror()}\ttindex{strerror()}), and then calls
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\samp{PyErr_SetObject(\var{type}, \var{object})}. On \UNIX, when
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the \cdata{errno} value is \constant{EINTR}, indicating an
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interrupted system call, this calls
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\cfunction{PyErr_CheckSignals()}, and if that set the error
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indicator, leaves it set to that. The function always returns
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\NULL, so a wrapper function around a system call can write
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\samp{return PyErr_SetFromErrno();} when the system call returns an
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error.
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\end{cfuncdesc}
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\begin{cfuncdesc}{PyObject*}{PyErr_SetFromErrnoWithFilename}{PyObject *type,
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char *filename}
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Similar to \cfunction{PyErr_SetFromErrno()}, with the additional
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behavior that if \var{filename} is not \NULL, it is passed to the
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constructor of \var{type} as a third parameter. In the case of
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exceptions such as \exception{IOError} and \exception{OSError}, this
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is used to define the \member{filename} attribute of the exception
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instance.
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\end{cfuncdesc}
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\begin{cfuncdesc}{void}{PyErr_BadInternalCall}{}
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This is a shorthand for \samp{PyErr_SetString(PyExc_TypeError,
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\var{message})}, where \var{message} indicates that an internal
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operation (e.g. a Python/C API function) was invoked with an illegal
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argument. It is mostly for internal use.
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\end{cfuncdesc}
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\begin{cfuncdesc}{int}{PyErr_Warn}{PyObject *category, char *message}
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Issue a warning message. The \var{category} argument is a warning
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category (see below) or \NULL; the \var{message} argument is a
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message string.
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This function normally prints a warning message to \var{sys.stderr};
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however, it is also possible that the user has specified that
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warnings are to be turned into errors, and in that case this will
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raise an exception. It is also possible that the function raises an
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exception because of a problem with the warning machinery (the
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implementation imports the \module{warnings} module to do the heavy
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lifting). The return value is \code{0} if no exception is raised,
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or \code{-1} if an exception is raised. (It is not possible to
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determine whether a warning message is actually printed, nor what
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the reason is for the exception; this is intentional.) If an
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exception is raised, the caller should do its normal exception
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handling (for example, \cfunction{Py_DECREF()} owned references and
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return an error value).
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Warning categories must be subclasses of \cdata{Warning}; the
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default warning category is \cdata{RuntimeWarning}. The standard
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Python warning categories are available as global variables whose
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names are \samp{PyExc_} followed by the Python exception name.
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These have the type \ctype{PyObject*}; they are all class objects.
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Their names are \cdata{PyExc_Warning}, \cdata{PyExc_UserWarning},
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\cdata{PyExc_DeprecationWarning}, \cdata{PyExc_SyntaxWarning}, and
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\cdata{PyExc_RuntimeWarning}. \cdata{PyExc_Warning} is a subclass
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of \cdata{PyExc_Exception}; the other warning categories are
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subclasses of \cdata{PyExc_Warning}.
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For information about warning control, see the documentation for the
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\module{warnings} module and the \programopt{-W} option in the
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command line documentation. There is no C API for warning control.
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\end{cfuncdesc}
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\begin{cfuncdesc}{int}{PyErr_WarnExplicit}{PyObject *category, char *message,
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char *filename, int lineno, char *module, PyObject *registry}
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Issue a warning message with explicit control over all warning
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attributes. This is a straightforward wrapper around the Python
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function \function{warnings.warn_explicit()}, see there for more
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information. The \var{module} and \var{registry} arguments may be
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set to \NULL{} to get the default effect described there.
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\end{cfuncdesc}
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\begin{cfuncdesc}{int}{PyErr_CheckSignals}{}
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This function interacts with Python's signal handling. It checks
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whether a signal has been sent to the processes and if so, invokes
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the corresponding signal handler. If the
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\module{signal}\refbimodindex{signal} module is supported, this can
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invoke a signal handler written in Python. In all cases, the
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default effect for \constant{SIGINT}\ttindex{SIGINT} is to raise the
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\withsubitem{(built-in exception)}{\ttindex{KeyboardInterrupt}}
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\exception{KeyboardInterrupt} exception. If an exception is raised
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the error indicator is set and the function returns \code{1};
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otherwise the function returns \code{0}. The error indicator may or
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may not be cleared if it was previously set.
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\end{cfuncdesc}
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\begin{cfuncdesc}{void}{PyErr_SetInterrupt}{}
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This function is obsolete. It simulates the effect of a
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\constant{SIGINT}\ttindex{SIGINT} signal arriving --- the next time
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\cfunction{PyErr_CheckSignals()} is called,
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\withsubitem{(built-in exception)}{\ttindex{KeyboardInterrupt}}
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\exception{KeyboardInterrupt} will be raised. It may be called
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without holding the interpreter lock.
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\end{cfuncdesc}
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\begin{cfuncdesc}{PyObject*}{PyErr_NewException}{char *name,
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PyObject *base,
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PyObject *dict}
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This utility function creates and returns a new exception object.
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The \var{name} argument must be the name of the new exception, a C
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string of the form \code{module.class}. The \var{base} and
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\var{dict} arguments are normally \NULL. This creates a class
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object derived from the root for all exceptions, the built-in name
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\exception{Exception} (accessible in C as \cdata{PyExc_Exception}).
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The \member{__module__} attribute of the new class is set to the
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first part (up to the last dot) of the \var{name} argument, and the
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class name is set to the last part (after the last dot). The
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\var{base} argument can be used to specify an alternate base class.
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The \var{dict} argument can be used to specify a dictionary of class
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variables and methods.
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\end{cfuncdesc}
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\begin{cfuncdesc}{void}{PyErr_WriteUnraisable}{PyObject *obj}
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This utility function prints a warning message to \code{sys.stderr}
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when an exception has been set but it is impossible for the
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interpreter to actually raise the exception. It is used, for
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example, when an exception occurs in an \method{__del__()} method.
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The function is called with a single argument \var{obj} that
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identifies where the context in which the unraisable exception
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occurred. The repr of \var{obj} will be printed in the warning
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message.
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\end{cfuncdesc}
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\section{Standard Exceptions \label{standardExceptions}}
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All standard Python exceptions are available as global variables whose
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names are \samp{PyExc_} followed by the Python exception name. These
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have the type \ctype{PyObject*}; they are all class objects. For
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completeness, here are all the variables:
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\begin{tableiii}{l|l|c}{cdata}{C Name}{Python Name}{Notes}
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\lineiii{PyExc_Exception}{\exception{Exception}}{(1)}
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\lineiii{PyExc_StandardError}{\exception{StandardError}}{(1)}
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\lineiii{PyExc_ArithmeticError}{\exception{ArithmeticError}}{(1)}
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\lineiii{PyExc_LookupError}{\exception{LookupError}}{(1)}
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\lineiii{PyExc_AssertionError}{\exception{AssertionError}}{}
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\lineiii{PyExc_AttributeError}{\exception{AttributeError}}{}
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\lineiii{PyExc_EOFError}{\exception{EOFError}}{}
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\lineiii{PyExc_EnvironmentError}{\exception{EnvironmentError}}{(1)}
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\lineiii{PyExc_FloatingPointError}{\exception{FloatingPointError}}{}
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\lineiii{PyExc_IOError}{\exception{IOError}}{}
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\lineiii{PyExc_ImportError}{\exception{ImportError}}{}
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\lineiii{PyExc_IndexError}{\exception{IndexError}}{}
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\lineiii{PyExc_KeyError}{\exception{KeyError}}{}
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\lineiii{PyExc_KeyboardInterrupt}{\exception{KeyboardInterrupt}}{}
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\lineiii{PyExc_MemoryError}{\exception{MemoryError}}{}
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\lineiii{PyExc_NameError}{\exception{NameError}}{}
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\lineiii{PyExc_NotImplementedError}{\exception{NotImplementedError}}{}
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\lineiii{PyExc_OSError}{\exception{OSError}}{}
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\lineiii{PyExc_OverflowError}{\exception{OverflowError}}{}
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\lineiii{PyExc_ReferenceError}{\exception{ReferenceError}}{(2)}
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\lineiii{PyExc_RuntimeError}{\exception{RuntimeError}}{}
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\lineiii{PyExc_SyntaxError}{\exception{SyntaxError}}{}
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\lineiii{PyExc_SystemError}{\exception{SystemError}}{}
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\lineiii{PyExc_SystemExit}{\exception{SystemExit}}{}
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\lineiii{PyExc_TypeError}{\exception{TypeError}}{}
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\lineiii{PyExc_ValueError}{\exception{ValueError}}{}
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\lineiii{PyExc_WindowsError}{\exception{WindowsError}}{(3)}
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\lineiii{PyExc_ZeroDivisionError}{\exception{ZeroDivisionError}}{}
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\end{tableiii}
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\noindent
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Notes:
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\begin{description}
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\item[(1)]
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This is a base class for other standard exceptions.
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\item[(2)]
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This is the same as \exception{weakref.ReferenceError}.
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\item[(3)]
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Only defined on Windows; protect code that uses this by testing that
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the preprocessor macro \code{MS_WINDOWS} is defined.
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\end{description}
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\section{Deprecation of String Exceptions}
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All exceptions built into Python or provided in the standard library
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are derived from \exception{Exception}.
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\withsubitem{(built-in exception)}{\ttindex{Exception}}
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String exceptions are still supported in the interpreter to allow
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existing code to run unmodified, but this will also change in a future
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release.
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