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Clarify GIL documentation (#4057)
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@ -39,15 +39,42 @@ The ``PYBIND11_MAKE_OPAQUE`` macro does *not* require the above workarounds.
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Global Interpreter Lock (GIL)
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=============================
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When calling a C++ function from Python, the GIL is always held.
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The Python C API dictates that the Global Interpreter Lock (GIL) must always
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be held by the current thread to safely access Python objects. As a result,
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when Python calls into C++ via pybind11 the GIL must be held, and pybind11
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will never implicitly release the GIL.
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.. code-block:: cpp
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void my_function() {
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/* GIL is held when this function is called from Python */
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}
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PYBIND11_MODULE(example, m) {
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m.def("my_function", &my_function);
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}
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pybind11 will ensure that the GIL is held when it knows that it is calling
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Python code. For example, if a Python callback is passed to C++ code via
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``std::function``, when C++ code calls the function the built-in wrapper
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will acquire the GIL before calling the Python callback. Similarly, the
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``PYBIND11_OVERRIDE`` family of macros will acquire the GIL before calling
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back into Python.
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When writing C++ code that is called from other C++ code, if that code accesses
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Python state, it must explicitly acquire and release the GIL.
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The classes :class:`gil_scoped_release` and :class:`gil_scoped_acquire` can be
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used to acquire and release the global interpreter lock in the body of a C++
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function call. In this way, long-running C++ code can be parallelized using
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multiple Python threads. Taking :ref:`overriding_virtuals` as an example, this
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multiple Python threads, **but great care must be taken** when any
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:class:`gil_scoped_release` appear: if there is any way that the C++ code
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can access Python objects, :class:`gil_scoped_acquire` should be used to
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reacquire the GIL. Taking :ref:`overriding_virtuals` as an example, this
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could be realized as follows (important changes highlighted):
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.. code-block:: cpp
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:emphasize-lines: 8,9,31,32
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:emphasize-lines: 8,30,31
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class PyAnimal : public Animal {
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public:
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@ -56,9 +83,7 @@ could be realized as follows (important changes highlighted):
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/* Trampoline (need one for each virtual function) */
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std::string go(int n_times) {
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/* Acquire GIL before calling Python code */
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py::gil_scoped_acquire acquire;
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/* PYBIND11_OVERRIDE_PURE will acquire the GIL before accessing Python state */
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PYBIND11_OVERRIDE_PURE(
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std::string, /* Return type */
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Animal, /* Parent class */
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@ -78,7 +103,8 @@ could be realized as follows (important changes highlighted):
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.def(py::init<>());
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m.def("call_go", [](Animal *animal) -> std::string {
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/* Release GIL before calling into (potentially long-running) C++ code */
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// GIL is held when called from Python code. Release GIL before
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// calling into (potentially long-running) C++ code
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py::gil_scoped_release release;
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return call_go(animal);
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});
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