ext/pybind11/docs/advanced/exceptions.rst - testing/jenkins-gem5-prod - Git at Google

 Exceptions
 ##########

 Built-in exception translation
 ==============================

 When C++ code invoked from Python throws an ``std::exception``, it is
 automatically converted into a Python ``Exception``. pybind11 defines multiple
 special exception classes that will map to different types of Python
 exceptions:

 .. tabularcolumns:: |p{0.5\textwidth}|p{0.45\textwidth}|

 +--------------------------------------+------------------------------+
 |  C++ exception type                  |  Python exception type       |
 +======================================+==============================+
 | :class:`std::exception`              | ``RuntimeError``             |
 +--------------------------------------+------------------------------+
 | :class:`std::bad_alloc`              | ``MemoryError``              |
 +--------------------------------------+------------------------------+
 | :class:`std::domain_error`           | ``ValueError``               |
 +--------------------------------------+------------------------------+
 | :class:`std::invalid_argument`       | ``ValueError``               |
 +--------------------------------------+------------------------------+
 | :class:`std::length_error`           | ``ValueError``               |
 +--------------------------------------+------------------------------+
 | :class:`std::out_of_range`           | ``ValueError``               |
 +--------------------------------------+------------------------------+
 | :class:`std::range_error`            | ``ValueError``               |
 +--------------------------------------+------------------------------+
 | :class:`pybind11::stop_iteration`    | ``StopIteration`` (used to   |
 |                                      | implement custom iterators)  |
 +--------------------------------------+------------------------------+
 | :class:`pybind11::index_error`       | ``IndexError`` (used to      |
 |                                      | indicate out of bounds       |
 |                                      | accesses in ``__getitem__``, |
 |                                      | ``__setitem__``, etc.)       |
 +--------------------------------------+------------------------------+
 | :class:`pybind11::value_error`       | ``ValueError`` (used to      |
 |                                      | indicate wrong value passed  |
 |                                      | in ``container.remove(...)`` |
 +--------------------------------------+------------------------------+
 | :class:`pybind11::key_error`         | ``KeyError`` (used to        |
 |                                      | indicate out of bounds       |
 |                                      | accesses in ``__getitem__``, |
 |                                      | ``__setitem__`` in dict-like |
 |                                      | objects, etc.)               |
 +--------------------------------------+------------------------------+
 | :class:`pybind11::error_already_set` | Indicates that the Python    |
 |                                      | exception flag has already   |
 |                                      | been initialized             |
 +--------------------------------------+------------------------------+

 When a Python function invoked from C++ throws an exception, it is converted
 into a C++ exception of type :class:`error_already_set` whose string payload
 contains a textual summary.

 There is also a special exception :class:`cast_error` that is thrown by
 :func:`handle::call` when the input arguments cannot be converted to Python
 objects.

 Registering custom translators
 ==============================

 If the default exception conversion policy described above is insufficient,
 pybind11 also provides support for registering custom exception translators.
 To register a simple exception conversion that translates a C++ exception into
 a new Python exception using the C++ exception's ``what()`` method, a helper
 function is available:

 .. code-block:: cpp

     py::register_exception<CppExp>(module, "PyExp");

 This call creates a Python exception class with the name ``PyExp`` in the given
 module and automatically converts any encountered exceptions of type ``CppExp``
 into Python exceptions of type ``PyExp``.

 When more advanced exception translation is needed, the function
 ``py::register_exception_translator(translator)`` can be used to register
 functions that can translate arbitrary exception types (and which may include
 additional logic to do so).  The function takes a stateless callable (e.g.  a
 function pointer or a lambda function without captured variables) with the call
 signature ``void(std::exception_ptr)``.

 When a C++ exception is thrown, the registered exception translators are tried
 in reverse order of registration (i.e. the last registered translator gets the
 first shot at handling the exception).

 Inside the translator, ``std::rethrow_exception`` should be used within
 a try block to re-throw the exception.  One or more catch clauses to catch
 the appropriate exceptions should then be used with each clause using
 ``PyErr_SetString`` to set a Python exception or ``ex(string)`` to set
 the python exception to a custom exception type (see below).

 To declare a custom Python exception type, declare a ``py::exception`` variable
 and use this in the associated exception translator (note: it is often useful
 to make this a static declaration when using it inside a lambda expression
 without requiring capturing).


 The following example demonstrates this for a hypothetical exception classes
 ``MyCustomException`` and ``OtherException``: the first is translated to a
 custom python exception ``MyCustomError``, while the second is translated to a
 standard python RuntimeError:

 .. code-block:: cpp

     static py::exception<MyCustomException> exc(m, "MyCustomError");
     py::register_exception_translator([](std::exception_ptr p) {
         try {
             if (p) std::rethrow_exception(p);
         } catch (const MyCustomException &e) {
             exc(e.what());
         } catch (const OtherException &e) {
             PyErr_SetString(PyExc_RuntimeError, e.what());
         }
     });

 Multiple exceptions can be handled by a single translator, as shown in the
 example above. If the exception is not caught by the current translator, the
 previously registered one gets a chance.

 If none of the registered exception translators is able to handle the
 exception, it is handled by the default converter as described in the previous
 section.

 .. seealso::

     The file :file:`tests/test_exceptions.cpp` contains examples
     of various custom exception translators and custom exception types.

 .. note::

     You must call either ``PyErr_SetString`` or a custom exception's call
     operator (``exc(string)``) for every exception caught in a custom exception
     translator.  Failure to do so will cause Python to crash with ``SystemError:
     error return without exception set``.

     Exceptions that you do not plan to handle should simply not be caught, or
     may be explicity (re-)thrown to delegate it to the other,
     previously-declared existing exception translators.
	Exceptions
	##########

	Built-in exception translation
	==============================

	When C++ code invoked from Python throws an ``std::exception``, it is
	automatically converted into a Python ``Exception``. pybind11 defines multiple
	special exception classes that will map to different types of Python
	exceptions:

	.. tabularcolumns:: \|p{0.5\textwidth}\|p{0.45\textwidth}\|

	+--------------------------------------+------------------------------+
	\| C++ exception type \| Python exception type \|
	+======================================+==============================+
	\| :class:`std::exception` \| ``RuntimeError`` \|
	+--------------------------------------+------------------------------+
	\| :class:`std::bad_alloc` \| ``MemoryError`` \|
	+--------------------------------------+------------------------------+
	\| :class:`std::domain_error` \| ``ValueError`` \|
	+--------------------------------------+------------------------------+
	\| :class:`std::invalid_argument` \| ``ValueError`` \|
	+--------------------------------------+------------------------------+
	\| :class:`std::length_error` \| ``ValueError`` \|
	+--------------------------------------+------------------------------+
	\| :class:`std::out_of_range` \| ``ValueError`` \|
	+--------------------------------------+------------------------------+
	\| :class:`std::range_error` \| ``ValueError`` \|
	+--------------------------------------+------------------------------+
	\| :class:`pybind11::stop_iteration` \| ``StopIteration`` (used to \|
	\| \| implement custom iterators) \|
	+--------------------------------------+------------------------------+
	\| :class:`pybind11::index_error` \| ``IndexError`` (used to \|
	\| \| indicate out of bounds \|
	\| \| accesses in ``__getitem__``, \|
	\| \| ``__setitem__``, etc.) \|
	+--------------------------------------+------------------------------+
	\| :class:`pybind11::value_error` \| ``ValueError`` (used to \|
	\| \| indicate wrong value passed \|
	\| \| in ``container.remove(...)`` \|
	+--------------------------------------+------------------------------+
	\| :class:`pybind11::key_error` \| ``KeyError`` (used to \|
	\| \| indicate out of bounds \|
	\| \| accesses in ``__getitem__``, \|
	\| \| ``__setitem__`` in dict-like \|
	\| \| objects, etc.) \|
	+--------------------------------------+------------------------------+
	\| :class:`pybind11::error_already_set` \| Indicates that the Python \|
	\| \| exception flag has already \|
	\| \| been initialized \|
	+--------------------------------------+------------------------------+

	When a Python function invoked from C++ throws an exception, it is converted
	into a C++ exception of type :class:`error_already_set` whose string payload
	contains a textual summary.

	There is also a special exception :class:`cast_error` that is thrown by
	:func:`handle::call` when the input arguments cannot be converted to Python
	objects.

	Registering custom translators
	==============================

	If the default exception conversion policy described above is insufficient,
	pybind11 also provides support for registering custom exception translators.
	To register a simple exception conversion that translates a C++ exception into
	a new Python exception using the C++ exception's ``what()`` method, a helper
	function is available:

	.. code-block:: cpp

	py::register_exception<CppExp>(module, "PyExp");

	This call creates a Python exception class with the name ``PyExp`` in the given
	module and automatically converts any encountered exceptions of type ``CppExp``
	into Python exceptions of type ``PyExp``.

	When more advanced exception translation is needed, the function
	``py::register_exception_translator(translator)`` can be used to register
	functions that can translate arbitrary exception types (and which may include
	additional logic to do so). The function takes a stateless callable (e.g. a
	function pointer or a lambda function without captured variables) with the call
	signature ``void(std::exception_ptr)``.

	When a C++ exception is thrown, the registered exception translators are tried
	in reverse order of registration (i.e. the last registered translator gets the
	first shot at handling the exception).

	Inside the translator, ``std::rethrow_exception`` should be used within
	a try block to re-throw the exception. One or more catch clauses to catch
	the appropriate exceptions should then be used with each clause using
	``PyErr_SetString`` to set a Python exception or ``ex(string)`` to set
	the python exception to a custom exception type (see below).

	To declare a custom Python exception type, declare a ``py::exception`` variable
	and use this in the associated exception translator (note: it is often useful
	to make this a static declaration when using it inside a lambda expression
	without requiring capturing).


	The following example demonstrates this for a hypothetical exception classes
	``MyCustomException`` and ``OtherException``: the first is translated to a
	custom python exception ``MyCustomError``, while the second is translated to a
	standard python RuntimeError:

	.. code-block:: cpp

	static py::exception<MyCustomException> exc(m, "MyCustomError");
	py::register_exception_translator([](std::exception_ptr p) {
	try {
	if (p) std::rethrow_exception(p);
	} catch (const MyCustomException &e) {
	exc(e.what());
	} catch (const OtherException &e) {
	PyErr_SetString(PyExc_RuntimeError, e.what());
	}
	});

	Multiple exceptions can be handled by a single translator, as shown in the
	example above. If the exception is not caught by the current translator, the
	previously registered one gets a chance.

	If none of the registered exception translators is able to handle the
	exception, it is handled by the default converter as described in the previous
	section.

	.. seealso::

	The file :file:`tests/test_exceptions.cpp` contains examples
	of various custom exception translators and custom exception types.

	.. note::

	You must call either ``PyErr_SetString`` or a custom exception's call
	operator (``exc(string)``) for every exception caught in a custom exception
	translator. Failure to do so will cause Python to crash with ``SystemError:
	error return without exception set``.

	Exceptions that you do not plan to handle should simply not be caught, or
	may be explicity (re-)thrown to delegate it to the other,
	previously-declared existing exception translators.