ext/pybind11/include/pybind11/gil.h - public/gem5 - Git at Google

 /*
     pybind11/gil.h: RAII helpers for managing the GIL

     Copyright (c) 2016 Wenzel Jakob <wenzel.jakob@epfl.ch>

     All rights reserved. Use of this source code is governed by a
     BSD-style license that can be found in the LICENSE file.
 */

 #pragma once

 #include "detail/common.h"
 #include "detail/internals.h"

 PYBIND11_NAMESPACE_BEGIN(PYBIND11_NAMESPACE)


 PYBIND11_NAMESPACE_BEGIN(detail)

 // forward declarations
 PyThreadState *get_thread_state_unchecked();

 PYBIND11_NAMESPACE_END(detail)


 #if defined(WITH_THREAD) && !defined(PYPY_VERSION)

 /* The functions below essentially reproduce the PyGILState_* API using a RAII
  * pattern, but there are a few important differences:
  *
  * 1. When acquiring the GIL from an non-main thread during the finalization
  *    phase, the GILState API blindly terminates the calling thread, which
  *    is often not what is wanted. This API does not do this.
  *
  * 2. The gil_scoped_release function can optionally cut the relationship
  *    of a PyThreadState and its associated thread, which allows moving it to
  *    another thread (this is a fairly rare/advanced use case).
  *
  * 3. The reference count of an acquired thread state can be controlled. This
  *    can be handy to prevent cases where callbacks issued from an external
  *    thread would otherwise constantly construct and destroy thread state data
  *    structures.
  *
  * See the Python bindings of NanoGUI (http://github.com/wjakob/nanogui) for an
  * example which uses features 2 and 3 to migrate the Python thread of
  * execution to another thread (to run the event loop on the original thread,
  * in this case).
  */

 class gil_scoped_acquire {
 public:
     PYBIND11_NOINLINE gil_scoped_acquire() {
         auto &internals = detail::get_internals();
         tstate = (PyThreadState *) PYBIND11_TLS_GET_VALUE(internals.tstate);

         if (!tstate) {
             /* Check if the GIL was acquired using the PyGILState_* API instead (e.g. if
                calling from a Python thread). Since we use a different key, this ensures
                we don't create a new thread state and deadlock in PyEval_AcquireThread
                below. Note we don't save this state with internals.tstate, since we don't
                create it we would fail to clear it (its reference count should be > 0). */
             tstate = PyGILState_GetThisThreadState();
         }

         if (!tstate) {
             tstate = PyThreadState_New(internals.istate);
             #if !defined(NDEBUG)
                 if (!tstate)
                     pybind11_fail("scoped_acquire: could not create thread state!");
             #endif
             tstate->gilstate_counter = 0;
             PYBIND11_TLS_REPLACE_VALUE(internals.tstate, tstate);
         } else {
             release = detail::get_thread_state_unchecked() != tstate;
         }

         if (release) {
             PyEval_AcquireThread(tstate);
         }

         inc_ref();
     }

     void inc_ref() {
         ++tstate->gilstate_counter;
     }

     PYBIND11_NOINLINE void dec_ref() {
         --tstate->gilstate_counter;
         #if !defined(NDEBUG)
             if (detail::get_thread_state_unchecked() != tstate)
                 pybind11_fail("scoped_acquire::dec_ref(): thread state must be current!");
             if (tstate->gilstate_counter < 0)
                 pybind11_fail("scoped_acquire::dec_ref(): reference count underflow!");
         #endif
         if (tstate->gilstate_counter == 0) {
             #if !defined(NDEBUG)
                 if (!release)
                     pybind11_fail("scoped_acquire::dec_ref(): internal error!");
             #endif
             PyThreadState_Clear(tstate);
             if (active)
                 PyThreadState_DeleteCurrent();
             PYBIND11_TLS_DELETE_VALUE(detail::get_internals().tstate);
             release = false;
         }
     }

     /// This method will disable the PyThreadState_DeleteCurrent call and the
     /// GIL won't be acquired. This method should be used if the interpreter
     /// could be shutting down when this is called, as thread deletion is not
     /// allowed during shutdown. Check _Py_IsFinalizing() on Python 3.7+, and
     /// protect subsequent code.
     PYBIND11_NOINLINE void disarm() {
         active = false;
     }

     PYBIND11_NOINLINE ~gil_scoped_acquire() {
         dec_ref();
         if (release)
            PyEval_SaveThread();
     }
 private:
     PyThreadState *tstate = nullptr;
     bool release = true;
     bool active = true;
 };

 class gil_scoped_release {
 public:
     explicit gil_scoped_release(bool disassoc = false) : disassoc(disassoc) {
         // `get_internals()` must be called here unconditionally in order to initialize
         // `internals.tstate` for subsequent `gil_scoped_acquire` calls. Otherwise, an
         // initialization race could occur as multiple threads try `gil_scoped_acquire`.
         auto &internals = detail::get_internals();
         tstate = PyEval_SaveThread();
         if (disassoc) {
             auto key = internals.tstate;
             PYBIND11_TLS_DELETE_VALUE(key);
         }
     }

     /// This method will disable the PyThreadState_DeleteCurrent call and the
     /// GIL won't be acquired. This method should be used if the interpreter
     /// could be shutting down when this is called, as thread deletion is not
     /// allowed during shutdown. Check _Py_IsFinalizing() on Python 3.7+, and
     /// protect subsequent code.
     PYBIND11_NOINLINE void disarm() {
         active = false;
     }

     ~gil_scoped_release() {
         if (!tstate)
             return;
         // `PyEval_RestoreThread()` should not be called if runtime is finalizing
         if (active)
             PyEval_RestoreThread(tstate);
         if (disassoc) {
             auto key = detail::get_internals().tstate;
             PYBIND11_TLS_REPLACE_VALUE(key, tstate);
         }
     }
 private:
     PyThreadState *tstate;
     bool disassoc;
     bool active = true;
 };
 #elif defined(PYPY_VERSION)
 class gil_scoped_acquire {
     PyGILState_STATE state;
 public:
     gil_scoped_acquire() { state = PyGILState_Ensure(); }
     ~gil_scoped_acquire() { PyGILState_Release(state); }
     void disarm() {}
 };

 class gil_scoped_release {
     PyThreadState *state;
 public:
     gil_scoped_release() { state = PyEval_SaveThread(); }
     ~gil_scoped_release() { PyEval_RestoreThread(state); }
     void disarm() {}
 };
 #else
 class gil_scoped_acquire {
     void disarm() {}
 };
 class gil_scoped_release {
     void disarm() {}
 };
 #endif

 PYBIND11_NAMESPACE_END(PYBIND11_NAMESPACE)
	/*
	pybind11/gil.h: RAII helpers for managing the GIL

	Copyright (c) 2016 Wenzel Jakob <wenzel.jakob@epfl.ch>

	All rights reserved. Use of this source code is governed by a
	BSD-style license that can be found in the LICENSE file.
	*/

	#pragma once

	#include "detail/common.h"
	#include "detail/internals.h"

	PYBIND11_NAMESPACE_BEGIN(PYBIND11_NAMESPACE)


	PYBIND11_NAMESPACE_BEGIN(detail)

	// forward declarations
	PyThreadState *get_thread_state_unchecked();

	PYBIND11_NAMESPACE_END(detail)


	#if defined(WITH_THREAD) && !defined(PYPY_VERSION)

	/* The functions below essentially reproduce the PyGILState_* API using a RAII
	* pattern, but there are a few important differences:
	*
	* 1. When acquiring the GIL from an non-main thread during the finalization
	* phase, the GILState API blindly terminates the calling thread, which
	* is often not what is wanted. This API does not do this.
	*
	* 2. The gil_scoped_release function can optionally cut the relationship
	* of a PyThreadState and its associated thread, which allows moving it to
	* another thread (this is a fairly rare/advanced use case).
	*
	* 3. The reference count of an acquired thread state can be controlled. This
	* can be handy to prevent cases where callbacks issued from an external
	* thread would otherwise constantly construct and destroy thread state data
	* structures.
	*
	* See the Python bindings of NanoGUI (http://github.com/wjakob/nanogui) for an
	* example which uses features 2 and 3 to migrate the Python thread of
	* execution to another thread (to run the event loop on the original thread,
	* in this case).
	*/

	class gil_scoped_acquire {
	public:
	PYBIND11_NOINLINE gil_scoped_acquire() {
	auto &internals = detail::get_internals();
	tstate = (PyThreadState *) PYBIND11_TLS_GET_VALUE(internals.tstate);

	if (!tstate) {
	/* Check if the GIL was acquired using the PyGILState_* API instead (e.g. if
	calling from a Python thread). Since we use a different key, this ensures
	we don't create a new thread state and deadlock in PyEval_AcquireThread
	below. Note we don't save this state with internals.tstate, since we don't
	create it we would fail to clear it (its reference count should be > 0). */
	tstate = PyGILState_GetThisThreadState();
	}

	if (!tstate) {
	tstate = PyThreadState_New(internals.istate);
	#if !defined(NDEBUG)
	if (!tstate)
	pybind11_fail("scoped_acquire: could not create thread state!");
	#endif
	tstate->gilstate_counter = 0;
	PYBIND11_TLS_REPLACE_VALUE(internals.tstate, tstate);
	} else {
	release = detail::get_thread_state_unchecked() != tstate;
	}

	if (release) {
	PyEval_AcquireThread(tstate);
	}

	inc_ref();
	}

	void inc_ref() {
	++tstate->gilstate_counter;
	}

	PYBIND11_NOINLINE void dec_ref() {
	--tstate->gilstate_counter;
	#if !defined(NDEBUG)
	if (detail::get_thread_state_unchecked() != tstate)
	pybind11_fail("scoped_acquire::dec_ref(): thread state must be current!");
	if (tstate->gilstate_counter < 0)
	pybind11_fail("scoped_acquire::dec_ref(): reference count underflow!");
	#endif
	if (tstate->gilstate_counter == 0) {
	#if !defined(NDEBUG)
	if (!release)
	pybind11_fail("scoped_acquire::dec_ref(): internal error!");
	#endif
	PyThreadState_Clear(tstate);
	if (active)
	PyThreadState_DeleteCurrent();
	PYBIND11_TLS_DELETE_VALUE(detail::get_internals().tstate);
	release = false;
	}
	}

	/// This method will disable the PyThreadState_DeleteCurrent call and the
	/// GIL won't be acquired. This method should be used if the interpreter
	/// could be shutting down when this is called, as thread deletion is not
	/// allowed during shutdown. Check _Py_IsFinalizing() on Python 3.7+, and
	/// protect subsequent code.
	PYBIND11_NOINLINE void disarm() {
	active = false;
	}

	PYBIND11_NOINLINE ~gil_scoped_acquire() {
	dec_ref();
	if (release)
	PyEval_SaveThread();
	}
	private:
	PyThreadState *tstate = nullptr;
	bool release = true;
	bool active = true;
	};

	class gil_scoped_release {
	public:
	explicit gil_scoped_release(bool disassoc = false) : disassoc(disassoc) {
	// `get_internals()` must be called here unconditionally in order to initialize
	// `internals.tstate` for subsequent `gil_scoped_acquire` calls. Otherwise, an
	// initialization race could occur as multiple threads try `gil_scoped_acquire`.
	auto &internals = detail::get_internals();
	tstate = PyEval_SaveThread();
	if (disassoc) {
	auto key = internals.tstate;
	PYBIND11_TLS_DELETE_VALUE(key);
	}
	}

	/// This method will disable the PyThreadState_DeleteCurrent call and the
	/// GIL won't be acquired. This method should be used if the interpreter
	/// could be shutting down when this is called, as thread deletion is not
	/// allowed during shutdown. Check _Py_IsFinalizing() on Python 3.7+, and
	/// protect subsequent code.
	PYBIND11_NOINLINE void disarm() {
	active = false;
	}

	~gil_scoped_release() {
	if (!tstate)
	return;
	// `PyEval_RestoreThread()` should not be called if runtime is finalizing
	if (active)
	PyEval_RestoreThread(tstate);
	if (disassoc) {
	auto key = detail::get_internals().tstate;
	PYBIND11_TLS_REPLACE_VALUE(key, tstate);
	}
	}
	private:
	PyThreadState *tstate;
	bool disassoc;
	bool active = true;
	};
	#elif defined(PYPY_VERSION)
	class gil_scoped_acquire {
	PyGILState_STATE state;
	public:
	gil_scoped_acquire() { state = PyGILState_Ensure(); }
	~gil_scoped_acquire() { PyGILState_Release(state); }
	void disarm() {}
	};

	class gil_scoped_release {
	PyThreadState *state;
	public:
	gil_scoped_release() { state = PyEval_SaveThread(); }
	~gil_scoped_release() { PyEval_RestoreThread(state); }
	void disarm() {}
	};
	#else
	class gil_scoped_acquire {
	void disarm() {}
	};
	class gil_scoped_release {
	void disarm() {}
	};
	#endif

	PYBIND11_NAMESPACE_END(PYBIND11_NAMESPACE)