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356 lines
14 KiB
ReStructuredText
==============================
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pybind11 — smart_holder branch
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==============================
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Overview
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========
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- The smart_holder git branch is a strict superset of the master
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branch. Everything that works on master is expected to work exactly the same
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with the smart_holder branch.
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- **Smart-pointer interoperability** (``std::unique_ptr``, ``std::shared_ptr``)
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is implemented as an **add-on**.
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- The add-on also supports
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* passing a Python object back to C++ via ``std::unique_ptr``, safely
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**disowning** the Python object.
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* safely passing `"trampoline"
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<https://pybind11.readthedocs.io/en/stable/advanced/classes.html#overriding-virtual-functions-in-python>`_
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objects (objects with C++ virtual function overrides implemented in
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Python) via ``std::unique_ptr`` or ``std::shared_ptr`` 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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- The smart_holder branch can be used in two modes:
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* **Conservative mode**: ``py::class_`` works exactly as on master.
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``py::classh`` uses ``py::smart_holder``.
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* **Progressive mode**: ``py::class_`` uses ``py::smart_holder``
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(i.e. ``py::smart_holder`` is the default holder).
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What is fundamentally different?
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--------------------------------
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- Classic pybind11 has the concept of "smart-pointer is holder".
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Interoperability between smart-pointers is completely missing. For
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example, when using ``std::shared_ptr`` as holder, ``return``-ing
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a ``std::unique_ptr`` leads to undefined runtime behavior
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(`#1138 <https://github.com/pybind/pybind11/issues/1138>`_). A
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`systematic analysis is here <https://github.com/pybind/pybind11/pull/2672#issuecomment-748392993>`_.
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- ``py::smart_holder`` has a richer concept in comparison, with well-defined
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runtime behavior. The holder "knows" about both ``std::unique_ptr`` and
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``std::shared_ptr`` and how they interoperate.
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- Caveat (#HelpAppreciated): currently the ``smart_holder`` branch does
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not have a well-lit path for including interoperability with custom
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smart-pointers. It is expected to be a fairly obvious extension of the
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``smart_holder`` implementation, but will depend on the exact specifications
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of each custom smart-pointer type (generalizations are very likely possible).
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What motivated the development of the smart_holder code?
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--------------------------------------------------------
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- Necessity is the mother. The bigger context is the ongoing retooling of
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`PyCLIF <https://github.com/google/clif/>`_, to use pybind11 underneath
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instead of directly targeting the Python C API. Essentially, the smart_holder
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branch is porting established PyCLIF functionality into pybind11.
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Installation
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============
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Currently ``git clone`` is the only option. We do not have released packages.
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.. code-block:: bash
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git clone --branch smart_holder https://github.com/pybind/pybind11.git
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Everything else is exactly identical to using the default (master) branch.
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Conservative or Progressive mode?
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=================================
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It depends. To a first approximation, for a stand-alone, new project, the
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Progressive mode will be easiest to use. For larger projects or projects
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that integrate with third-party pybind11-based projects, the Conservative
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mode may be more practical, at least initially, although it comes with the
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disadvantage of having to use the ``PYBIND11_SMART_HOLDER_TYPE_CASTERS`` macro.
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Conservative mode
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-----------------
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Here is a minimal example for wrapping a C++ type with ``py::smart_holder`` as
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holder:
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.. code-block:: cpp
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#include <pybind11/smart_holder.h>
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struct Foo {};
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PYBIND11_SMART_HOLDER_TYPE_CASTERS(Foo)
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PYBIND11_MODULE(example_bindings, m) {
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namespace py = pybind11;
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py::classh<Foo>(m, "Foo");
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}
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There are three small differences compared to Classic pybind11:
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- ``#include <pybind11/smart_holder.h>`` is used instead of
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``#include <pybind11/pybind11.h>``.
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- The ``PYBIND11_SMART_HOLDER_TYPE_CASTERS(Foo)`` macro is needed.
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- ``py::classh`` is used instead of ``py::class_``.
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To the 2nd bullet point, the ``PYBIND11_SMART_HOLDER_TYPE_CASTERS`` macro
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needs to appear in all translation units with pybind11 bindings that involve
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Python⇄C++ conversions for `Foo`. This is the biggest inconvenience of the
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Conservative mode. Practically, at a larger scale it is best to work with a
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pair of `.h` and `.cpp` files for the bindings code, with the macros in the
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`.h` files.
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To the 3rd bullet point, ``py::classh<Foo>`` is simply a shortcut for
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``py::class_<Foo, py::smart_holder>``. The shortcut makes it possible to
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switch to using ``py::smart_holder`` without disturbing the indentation of
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existing code.
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When migrating code that uses ``py::class_<Bar, std::shared_ptr<Bar>>``
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there are two alternatives. The first one is to use ``py::classh<Bar>``:
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.. code-block:: diff
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- py::class_<Bar, std::shared_ptr<Bar>>(m, "Bar");
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+ py::classh<Bar>(m, "Bar");
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This is clean and simple, but makes it difficult to fall back to Classic
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mode if needed. The second alternative is to replace ``std::shared_ptr<Bar>``
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with ``PYBIND11_SH_AVL(Bar)``:
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.. code-block:: diff
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- py::class_<Bar, std::shared_ptr<Bar>>(m, "Bar");
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+ py::class_<Bar, PYBIND11_SH_AVL(Bar)>(m, "Bar");
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The ``PYBIND11_SH_AVL`` macro substitutes ``py::smart_holder``
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in Conservative mode, or ``std::shared_ptr<Bar>`` in Classic mode.
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See tests/test_classh_mock.cpp for an example. Note that the macro is also
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designed to not disturb the indentation of existing code.
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Progressive mode
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----------------
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To work in Progressive mode:
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- Add ``-DPYBIND11_USE_SMART_HOLDER_AS_DEFAULT`` to the compilation commands.
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- Remove or replace (see below) ``std::shared_ptr<...>`` holders.
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- Only if custom smart-pointers are used: the
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`PYBIND11_TYPE_CASTER_BASE_HOLDER` macro is needed (see
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tests/test_smart_ptr.cpp for examples).
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Overall this is probably easier to work with than the Conservative mode, but
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- the macro inconvenience is shifted from ``py::smart_holder`` to custom
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smart-pointer holders (which are probably much more rare).
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- it will not interoperate with other extensions built against master or
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stable, or extensions built in Conservative mode (see the cross-module
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compatibility section below).
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When migrating code that uses ``py::class_<Bar, std::shared_ptr<Bar>>`` there
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are the same alternatives as for the Conservative mode (see previous section).
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An additional alternative is to use the ``PYBIND11_SH_DEF(...)`` macro:
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.. code-block:: diff
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- py::class_<Bar, std::shared_ptr<Bar>>(m, "Bar");
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+ py::class_<Bar, PYBIND11_SH_DEF(Bar)>(m, "Bar");
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The ``PYBIND11_SH_DEF`` macro substitutes ``py::smart_holder`` only in
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Progressive mode, or ``std::shared_ptr<Bar>`` in Classic or Conservative
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mode. See tests/test_classh_mock.cpp for an example. Note that the
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``PYBIND11_SMART_HOLDER_TYPE_CASTERS`` macro is never needed in combination
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with the ``PYBIND11_SH_DEF`` macro, which is an advantage compared to the
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``PYBIND11_SH_AVL`` macro. Please review tests/test_classh_mock.cpp for a
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concise overview of all available options.
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Transition from Classic to Progressive mode
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-------------------------------------------
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This still has to be tried out more in practice, but in small-scale situations
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it may be feasible to switch directly to Progressive mode in a break-fix
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fashion. In large-scale situations it seems more likely that an incremental
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approach is needed, which could mean incrementally converting ``py::class_``
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to ``py::classh`` and using the family of related macros, then flip the switch
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to Progressive mode, and convert ``py::classh`` back to ``py:class_`` combined
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with removal of the macros if desired (at that point it will work equivalently
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either way). It may be smart to delay the final cleanup step until all
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third-party projects of interest have made the switch, because then the code
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will continue to work in all modes.
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Using py::smart_holder but with fallback to Classic pybind11
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------------------------------------------------------------
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For situations in which compatibility with Classic pybind11
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(without smart_holder) is needed for some period of time, fallback
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to Classic mode can be enabled by copying the ``BOILERPLATE`` code
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block from tests/test_classh_mock.cpp. This code block provides mock
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implementations of ``py::classh`` and the family of related macros
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(e.g. ``PYBIND11_SMART_HOLDER_TYPE_CASTERS``).
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Classic / Conservative / Progressive cross-module compatibility
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---------------------------------------------------------------
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Currently there are essentially three modes for building a pybind11 extension
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module:
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- Classic: pybind11 stable (e.g. v2.6.2) or current master branch.
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- Conservative: pybind11 smart_holder branch.
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- Progressive: pybind11 smart_holder branch with
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``-DPYBIND11_USE_SMART_HOLDER_AS_DEFAULT``.
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In environments that mix extension modules built with different modes,
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this is the compatibility matrix for ``py::class_``-wrapped types:
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.. list-table:: Compatibility matrix
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:widths: auto
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:header-rows: 2
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* -
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-
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-
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- Module 2
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-
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* -
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-
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- Classic
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- Conservative
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- Progressive
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* -
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- **Classic**
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- full
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- one-and-a-half-way
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- isolated
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* - **Module 1**
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- **Conservative**
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- one-and-a-half-way
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- full
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- isolated
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* -
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- **Progressive**
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- isolated
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- isolated
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- full
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Mixing Classic+Progressive or Conservative+Progressive is very easy to
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understand: the extension modules are essentially completely isolated from
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each other. This is in fact just the same as using pybind11 versions with
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differing `"internals version"
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<https://github.com/pybind/pybind11/blob/114be7f4ade0ad798cd4c7f5d65ebe4ba8bd892d/include/pybind11/detail/internals.h#L95>`_
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in the past. While this is easy to understand, there is also no incremental
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transition path between Classic and Progressive.
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The Conservative mode enables incremental transitions, but at the cost of
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more complexity. Types wrapped in a Classic module are fully compatible with
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a Conservative module. However, a type wrapped in a Conservative module is
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compatible with a Classic module only if ``py::smart_holder`` is **not** used
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(for that type). A type wrapped with ``py::smart_holder`` is incompatible with
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a Classic module. This is an important pitfall to keep in mind: attempts to use
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``py::smart_holder``-wrapped types in a Classic module will lead to undefined
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runtime behavior, such as a SEGFAULT. This is a more general flavor of the
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long-standing issue `#1138 <https://github.com/pybind/pybind11/issues/1138>`_,
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often referred to as "holder mismatch". It is important to note that the
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pybind11 smart_holder branch solves the smart-pointer interoperability issue,
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but not the more general holder mismatch issue. — Unfortunately the existing
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pybind11 internals do not track holder runtime type information, therefore
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the holder mismatch issue cannot be solved in a fashion that would allow
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an incremental transition, which is the whole point of the Conservative
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mode. Please proceed with caution. (See `PR #2644
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<https://github.com/pybind/pybind11/pull/2644>`_ for background, which is
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labeled with "abi break".)
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Another pitfall worth pointing out specifically, although it follows
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from the previous: mixing base and derived classes between Classic and
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Conservative modules means that neither the base nor the derived class can
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use ``py::smart_holder``.
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Trampolines and std::unique_ptr
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-------------------------------
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A pybind11 `"trampoline"
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<https://pybind11.readthedocs.io/en/stable/advanced/classes.html#overriding-virtual-functions-in-python>`_
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is a C++ helper class with virtual function overrides that transparently
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call back from C++ into Python. To enable safely passing a ``std::unique_ptr``
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to a trampoline object between Python and C++, the trampoline class must
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inherit from ``py::trampoline_self_life_support``, for example:
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.. code-block:: cpp
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class PyAnimal : public Animal, public py::trampoline_self_life_support {
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...
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};
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This is the only difference compared to Classic pybind11. A fairly
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minimal but complete example is tests/test_class_sh_trampoline_unique_ptr.cpp.
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Ideas for the long-term
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-----------------------
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The macros are clearly an inconvenience in many situations. Highly
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speculative: to avoid the need for the macros, a potential approach would
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be to combine the Classic implementation (``type_caster_base``) with
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the ``smart_holder_type_caster``, but this will probably be very messy and
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not great as a long-term solution. The ``type_caster_base`` code is very
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complex already. A more maintainable approach long-term could be to work
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out and document a smart_holder-based solution for custom smart-pointers
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in pybind11 version ``N``, then purge ``type_caster_base`` in version
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``N+1``. #HelpAppreciated.
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Testing of PRs against the smart_holder branch
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----------------------------------------------
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In the pybind11 GitHub Actions, PRs against the smart_holder branch are
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automatically tested in both modes (Conservative, Progressive), with the
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only difference that ``PYBIND11_USE_SMART_HOLDER_AS_DEFAULT`` is defined
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for Progressive mode testing.
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For interactive testing, the ``PYBIND11_USE_SMART_HOLDER_AS_DEFAULT``
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define needs to be manually added to the cmake command. See
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.github/workflows/ci_sh.yml for examples.
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Related links
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=============
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* The smart_holder branch addresses issue
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`#1138 <https://github.com/pybind/pybind11/issues/1138>`_ and
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the ten issues enumerated in the `description of PR 2839
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<https://github.com/pybind/pybind11/pull/2839#issue-564808678>`_.
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* `Description of PR #2672
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<https://github.com/pybind/pybind11/pull/2672#issue-522688184>`_, from which
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the smart_holder branch was created.
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* Small `slide deck
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<https://docs.google.com/presentation/d/1r7auDN0x-b6uf-XCvUnZz6z09raasRcCHBMVDh7PsnQ/>`_
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presented in meeting with pybind11 maintainers on Feb 22, 2021. Slides 5
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and 6 show performance comparisons.
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