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179 lines
6.5 KiB
179 lines
6.5 KiB
.. _py_class_holder: |
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Smart pointers & ``py::class_`` |
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############################### |
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The binding generator for classes, ``py::class_``, can be passed a template |
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type that denotes a special *holder* type that is used to manage references to |
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the object. If no such holder type template argument is given, the default for |
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a type ``T`` is ``std::unique_ptr<T>``. |
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.. note:: |
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A ``py::class_`` for a given C++ type ``T`` — and all its derived types — |
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can only use a single holder type. |
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.. _smart_holder: |
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``py::smart_holder`` |
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==================== |
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Starting with pybind11v3, ``py::smart_holder`` is built into pybind11. It is |
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the recommended ``py::class_`` holder for most situations. However, for |
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backward compatibility it is **not** the default holder, and there are no |
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plans to make it the default holder in the future. |
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It is extremely easy to use the safer and more versatile ``py::smart_holder``: |
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simply add ``py::smart_holder`` to ``py::class_``: |
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* ``py::class_<T>`` to |
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* ``py::class_<T, py::smart_holder>``. |
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.. note:: |
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A shorthand, ``py::classh<T>``, is provided for |
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``py::class_<T, py::smart_holder>``. The ``h`` in ``py::classh`` stands |
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for **smart_holder** but is shortened for brevity, ensuring it has the |
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same number of characters as ``py::class_``. This design choice facilitates |
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easy experimentation with ``py::smart_holder`` without introducing |
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distracting whitespace noise in diffs. |
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The ``py::smart_holder`` functionality includes the following: |
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* Support for **two-way** Python/C++ conversions for both |
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``std::unique_ptr<T>`` and ``std::shared_ptr<T>`` **simultaneously**. |
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* Passing a Python object back to C++ via ``std::unique_ptr<T>``, safely |
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**disowning** the Python object. |
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* Safely passing "trampoline" objects (objects with C++ virtual function |
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overrides implemented in Python, see :ref:`overriding_virtuals`) via |
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``std::unique_ptr<T>`` or ``std::shared_ptr<T>`` back to C++: |
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associated Python objects are automatically kept alive for the lifetime |
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of the smart-pointer. |
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* Full support for ``std::enable_shared_from_this`` (`cppreference |
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<http://en.cppreference.com/w/cpp/memory/enable_shared_from_this>`_). |
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``std::unique_ptr`` |
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=================== |
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This is the default ``py::class_`` holder and works as expected in |
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most situations. However, handling base-and-derived classes involves a |
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``reinterpret_cast``, which is, strictly speaking, undefined behavior. |
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Also note that the ``std::unique_ptr`` holder only supports passing a |
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``std::unique_ptr`` from C++ to Python, but not the other way around. |
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For example, the following code works as expected with ``py::class_<Example>``: |
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.. code-block:: cpp |
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std::unique_ptr<Example> create_example() { return std::unique_ptr<Example>(new Example()); } |
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.. code-block:: cpp |
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m.def("create_example", &create_example); |
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However, this will fail with ``py::class_<Example>`` (but works with |
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``py::class_<Example, py::smart_holder>``): |
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.. code-block:: cpp |
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void do_something_with_example(std::unique_ptr<Example> ex) { ... } |
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.. note:: |
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The ``reinterpret_cast`` mentioned above is `here |
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<https://github.com/pybind/pybind11/blob/30eb39ed79d1e2eeff15219ac00773034300a5e6/include/pybind11/cast.h#L235>`_. |
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For completeness: The same cast is also applied to ``py::smart_holder``, |
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but that is safe, because ``py::smart_holder`` is not templated. |
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``std::shared_ptr`` |
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=================== |
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It is possible to use ``std::shared_ptr`` as the holder, for example: |
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.. code-block:: cpp |
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py::class_<Example, std::shared_ptr<Example> /* <- holder type */>(m, "Example"); |
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Compared to using ``py::class_<Example, py::smart_holder>``, there are two noteworthy disadvantages: |
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* Because a ``py::class_`` for a given C++ type ``T`` can only use a |
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single holder type, ``std::unique_ptr<T>`` cannot even be passed from C++ |
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to Python. This will become apparent only at runtime, often through a |
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segmentation fault. |
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* Similar to the ``std::unique_ptr`` holder, the handling of base-and-derived |
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classes involves a ``reinterpret_cast`` that has strictly speaking undefined |
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behavior, although it works as expected in most situations. |
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.. _smart_pointers: |
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Custom smart pointers |
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===================== |
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For custom smart pointers (e.g. ``c10::intrusive_ptr`` in pytorch), transparent |
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conversions can be enabled using a macro invocation similar to the following. |
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It must be declared at the top namespace level before any binding code: |
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.. code-block:: cpp |
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PYBIND11_DECLARE_HOLDER_TYPE(T, SmartPtr<T>) |
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The first argument of :func:`PYBIND11_DECLARE_HOLDER_TYPE` should be a |
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placeholder name that is used as a template parameter of the second argument. |
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Thus, feel free to use any identifier, but use it consistently on both sides; |
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also, don't use the name of a type that already exists in your codebase. |
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The macro also accepts a third optional boolean parameter that is set to false |
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by default. Specify |
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.. code-block:: cpp |
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PYBIND11_DECLARE_HOLDER_TYPE(T, SmartPtr<T>, true) |
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if ``SmartPtr<T>`` can always be initialized from a ``T*`` pointer without the |
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risk of inconsistencies (such as multiple independent ``SmartPtr`` instances |
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believing that they are the sole owner of the ``T*`` pointer). A common |
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situation where ``true`` should be passed is when the ``T`` instances use |
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*intrusive* reference counting. |
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Please take a look at the :ref:`macro_notes` before using this feature. |
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By default, pybind11 assumes that your custom smart pointer has a standard |
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interface, i.e. provides a ``.get()`` member function to access the underlying |
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raw pointer. If this is not the case, pybind11's ``holder_helper`` must be |
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specialized: |
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.. code-block:: cpp |
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// Always needed for custom holder types |
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PYBIND11_DECLARE_HOLDER_TYPE(T, SmartPtr<T>) |
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// Only needed if the type's `.get()` goes by another name |
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namespace PYBIND11_NAMESPACE { namespace detail { |
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template <typename T> |
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struct holder_helper<SmartPtr<T>> { // <-- specialization |
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static const T *get(const SmartPtr<T> &p) { return p.getPointer(); } |
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}; |
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}} |
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The above specialization informs pybind11 that the custom ``SmartPtr`` class |
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provides ``.get()`` functionality via ``.getPointer()``. |
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.. note:: |
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The two noteworthy disadvantages mentioned under the ``std::shared_ptr`` |
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section apply similarly to custom smart pointer holders, but there is no |
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established safe alternative in this case. |
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.. seealso:: |
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The file :file:`tests/test_smart_ptr.cpp` contains a complete example |
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that demonstrates how to work with custom reference-counting holder types |
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in more detail.
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