.. _reference: .. warning:: Please be advised that the reference documentation discussing pybind11 internals is currently incomplete. Please refer to the previous sections and the pybind11 header files for the nitty gritty details. Reference ######### Macros ====== .. function:: PYBIND11_PLUGIN(const char *name) This macro creates the entry point that will be invoked when the Python interpreter imports a plugin library. Please create a :class:`module` in the function body and return the pointer to its underlying Python object at the end. .. code-block:: cpp PYBIND11_PLUGIN(example) { pybind11::module m("example", "pybind11 example plugin"); /// Set up bindings here return m.ptr(); } .. _core_types: Convenience classes for arbitrary Python types ============================================== Without reference counting -------------------------- .. class:: handle The :class:`handle` class is a thin wrapper around an arbitrary Python object (i.e. a ``PyObject *`` in Python's C API). It does not perform any automatic reference counting and merely provides a basic C++ interface to various Python API functions. .. seealso:: The :class:`object` class inherits from :class:`handle` and adds automatic reference counting features. .. function:: handle::handle() The default constructor creates a handle with a ``nullptr``-valued pointer. .. function:: handle::handle(const handle&) Copy constructor .. function:: handle::handle(PyObject *) Creates a :class:`handle` from the given raw Python object pointer. .. function:: PyObject * handle::ptr() const Return the ``PyObject *`` underlying a :class:`handle`. .. function:: const handle& handle::inc_ref() const Manually increase the reference count of the Python object. Usually, it is preferable to use the :class:`object` class which derives from :class:`handle` and calls this function automatically. Returns a reference to itself. .. function:: const handle& handle::dec_ref() const Manually decrease the reference count of the Python object. Usually, it is preferable to use the :class:`object` class which derives from :class:`handle` and calls this function automatically. Returns a reference to itself. .. function:: void handle::ref_count() const Return the object's current reference count .. function:: handle handle::get_type() const Return a handle to the Python type object underlying the instance .. function detail::accessor handle::operator[](handle key) const Return an internal functor to invoke the object's sequence protocol. Casting the returned ``detail::accessor`` instance to a :class:`handle` or :class:`object` subclass causes a corresponding call to ``__getitem__``. Assigning a :class:`handle` or :class:`object` subclass causes a call to ``__setitem__``. .. function detail::accessor handle::operator[](const char *key) const See the above function (the only difference is that they key is provided as a string literal). .. function detail::accessor handle::attr(handle key) const Return an internal functor to access the object's attributes. Casting the returned ``detail::accessor`` instance to a :class:`handle` or :class:`object` subclass causes a corresponding call to ``__getattr``. Assigning a :class:`handle` or :class:`object` subclass causes a call to ``__setattr``. .. function detail::accessor handle::attr(const char *key) const See the above function (the only difference is that they key is provided as a string literal). .. function operator handle::bool() const Return ``true`` when the :class:`handle` wraps a valid Python object. .. function str handle::str() const Return a string representation of the object. This is analogous to the ``str()`` function in Python. .. function:: template T handle::cast() const Attempt to cast the Python object into the given C++ type. A :class:`cast_error` will be throw upon failure. .. function:: template object handle::call(Args&&... args) const Assuming the Python object is a function or implements the ``__call__`` protocol, ``call()`` invokes the underlying function, passing an arbitrary set of parameters. The result is returned as a :class:`object` and may need to be converted back into a Python object using :func:`handle::cast`. When some of the arguments cannot be converted to Python objects, the function will throw a :class:`cast_error` exception. When the Python function call fails, a :class:`error_already_set` exception is thrown. With reference counting ----------------------- .. class:: object : public handle Like :class:`handle`, the object class is a thin wrapper around an arbitrary Python object (i.e. a ``PyObject *`` in Python's C API). In contrast to :class:`handle`, it optionally increases the object's reference count upon construction, and it *always* decreases the reference count when the :class:`object` instance goes out of scope and is destructed. When using :class:`object` instances consistently, it is much easier to get reference counting right at the first attempt. .. function:: object::object(const object &o) Copy constructor; always increases the reference count .. function:: object::object(const handle &h, bool borrowed) Creates a :class:`object` from the given :class:`handle`. The reference count is only increased if the ``borrowed`` parameter is set to ``true``. .. function:: object::object(PyObject *ptr, bool borrowed) Creates a :class:`object` from the given raw Python object pointer. The reference count is only increased if the ``borrowed`` parameter is set to ``true``. .. function:: object::object(object &&other) Move constructor; steals the object from ``other`` and preserves its reference count. .. function:: handle object::release() Resets the internal pointer to ``nullptr`` without without decreasing the object's reference count. The function returns a raw handle to the original Python object. .. function:: object::~object() Destructor, which automatically calls :func:`handle::dec_ref()`. Convenience classes for specific Python types ============================================= .. class:: module : public object .. function:: module::module(const char *name, const char *doc = nullptr) Create a new top-level Python module with the given name and docstring .. function:: module module::def_submodule(const char *name, const char *doc = nullptr) Create and return a new Python submodule with the given name and docstring. This also works recursively, i.e. .. code-block:: cpp pybind11::module m("example", "pybind11 example plugin"); pybind11::module m2 = m.def_submodule("sub", "A submodule of 'example'"); pybind11::module m3 = m2.def_submodule("subsub", "A submodule of 'example.sub'"); .. cpp:function:: template module& module::def(const char *name, Func && f, Extra && ... extra) Create Python binding for a new function within the module scope. ``Func`` can be a plain C++ function, a function pointer, or a lambda function. For details on the ``Extra&& ... extra`` argument, see section :ref:`extras`. .. _extras: Passing extra arguments to the def function =========================================== .. class:: arg .. function:: arg::arg(const char *name) .. function:: template arg_v arg::operator=(T &&value) .. class:: arg_v : public arg Represents a named argument with a default value .. class:: sibling Used to specify a handle to an existing sibling function; used internally to implement function overloading in :func:`module::def` and :func:`class_::def`. .. function:: sibling::sibling(handle handle) .. class doc This is class is internally used by pybind11. .. function:: doc::doc(const char *value) Create a new docstring with the specified value .. class name This is class is internally used by pybind11. .. function:: name::name(const char *value) Used to specify the function name