clang-r353983c/include/llvm/Support/Threading.h - platform/prebuilts/clang/host/darwin-x86 - Git at Google

 //===-- llvm/Support/Threading.h - Control multithreading mode --*- C++ -*-===//
 //
 // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
 // See https://llvm.org/LICENSE.txt for license information.
 // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
 //
 //===----------------------------------------------------------------------===//
 //
 // This file declares helper functions for running LLVM in a multi-threaded
 // environment.
 //
 //===----------------------------------------------------------------------===//

 #ifndef LLVM_SUPPORT_THREADING_H
 #define LLVM_SUPPORT_THREADING_H

 #include "llvm/ADT/SmallVector.h"
 #include "llvm/Config/llvm-config.h" // for LLVM_ON_UNIX
 #include "llvm/Support/Compiler.h"
 #include <ciso646> // So we can check the C++ standard lib macros.
 #include <functional>

 #if defined(_MSC_VER)
 // MSVC's call_once implementation worked since VS 2015, which is the minimum
 // supported version as of this writing.
 #define LLVM_THREADING_USE_STD_CALL_ONCE 1
 #elif defined(LLVM_ON_UNIX) &&                                                 \
     (defined(_LIBCPP_VERSION) ||                                               \
      !(defined(__NetBSD__) || defined(__OpenBSD__) ||                          \
        (defined(__ppc__) || defined(__PPC__))))
 // std::call_once from libc++ is used on all Unix platforms. Other
 // implementations like libstdc++ are known to have problems on NetBSD,
 // OpenBSD and PowerPC.
 #define LLVM_THREADING_USE_STD_CALL_ONCE 1
 #else
 #define LLVM_THREADING_USE_STD_CALL_ONCE 0
 #endif

 #if LLVM_THREADING_USE_STD_CALL_ONCE
 #include <mutex>
 #else
 #include "llvm/Support/Atomic.h"
 #endif

 namespace llvm {
 class Twine;

 /// Returns true if LLVM is compiled with support for multi-threading, and
 /// false otherwise.
 bool llvm_is_multithreaded();

 /// llvm_execute_on_thread - Execute the given \p UserFn on a separate
 /// thread, passing it the provided \p UserData and waits for thread
 /// completion.
 ///
 /// This function does not guarantee that the code will actually be executed
 /// on a separate thread or honoring the requested stack size, but tries to do
 /// so where system support is available.
 ///
 /// \param UserFn - The callback to execute.
 /// \param UserData - An argument to pass to the callback function.
 /// \param RequestedStackSize - If non-zero, a requested size (in bytes) for
 /// the thread stack.
 void llvm_execute_on_thread(void (*UserFn)(void *), void *UserData,
                             unsigned RequestedStackSize = 0);

 #if LLVM_THREADING_USE_STD_CALL_ONCE

   typedef std::once_flag once_flag;

 #else

   enum InitStatus { Uninitialized = 0, Wait = 1, Done = 2 };

   /// The llvm::once_flag structure
   ///
   /// This type is modeled after std::once_flag to use with llvm::call_once.
   /// This structure must be used as an opaque object. It is a struct to force
   /// autoinitialization and behave like std::once_flag.
   struct once_flag {
     volatile sys::cas_flag status = Uninitialized;
   };

 #endif

   /// Execute the function specified as a parameter once.
   ///
   /// Typical usage:
   /// \code
   ///   void foo() {...};
   ///   ...
   ///   static once_flag flag;
   ///   call_once(flag, foo);
   /// \endcode
   ///
   /// \param flag Flag used for tracking whether or not this has run.
   /// \param F Function to call once.
   template <typename Function, typename... Args>
   void call_once(once_flag &flag, Function &&F, Args &&... ArgList) {
 #if LLVM_THREADING_USE_STD_CALL_ONCE
     std::call_once(flag, std::forward<Function>(F),
                    std::forward<Args>(ArgList)...);
 #else
     // For other platforms we use a generic (if brittle) version based on our
     // atomics.
     sys::cas_flag old_val = sys::CompareAndSwap(&flag.status, Wait, Uninitialized);
     if (old_val == Uninitialized) {
       std::forward<Function>(F)(std::forward<Args>(ArgList)...);
       sys::MemoryFence();
       TsanIgnoreWritesBegin();
       TsanHappensBefore(&flag.status);
       flag.status = Done;
       TsanIgnoreWritesEnd();
     } else {
       // Wait until any thread doing the call has finished.
       sys::cas_flag tmp = flag.status;
       sys::MemoryFence();
       while (tmp != Done) {
         tmp = flag.status;
         sys::MemoryFence();
       }
     }
     TsanHappensAfter(&flag.status);
 #endif
   }

   /// Get the amount of currency to use for tasks requiring significant
   /// memory or other resources. Currently based on physical cores, if
   /// available for the host system, otherwise falls back to
   /// thread::hardware_concurrency().
   /// Returns 1 when LLVM is configured with LLVM_ENABLE_THREADS=OFF
   unsigned heavyweight_hardware_concurrency();

   /// Get the number of threads that the current program can execute
   /// concurrently. On some systems std::thread::hardware_concurrency() returns
   /// the total number of cores, without taking affinity into consideration.
   /// Returns 1 when LLVM is configured with LLVM_ENABLE_THREADS=OFF.
   /// Fallback to std::thread::hardware_concurrency() if sched_getaffinity is
   /// not available.
   unsigned hardware_concurrency();

   /// Return the current thread id, as used in various OS system calls.
   /// Note that not all platforms guarantee that the value returned will be
   /// unique across the entire system, so portable code should not assume
   /// this.
   uint64_t get_threadid();

   /// Get the maximum length of a thread name on this platform.
   /// A value of 0 means there is no limit.
   uint32_t get_max_thread_name_length();

   /// Set the name of the current thread.  Setting a thread's name can
   /// be helpful for enabling useful diagnostics under a debugger or when
   /// logging.  The level of support for setting a thread's name varies
   /// wildly across operating systems, and we only make a best effort to
   /// perform the operation on supported platforms.  No indication of success
   /// or failure is returned.
   void set_thread_name(const Twine &Name);

   /// Get the name of the current thread.  The level of support for
   /// getting a thread's name varies wildly across operating systems, and it
   /// is not even guaranteed that if you can successfully set a thread's name
   /// that you can later get it back.  This function is intended for diagnostic
   /// purposes, and as with setting a thread's name no indication of whether
   /// the operation succeeded or failed is returned.
   void get_thread_name(SmallVectorImpl<char> &Name);
 }

 #endif
	//===-- llvm/Support/Threading.h - Control multithreading mode --- C++ --===//
	//
	// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
	// See https://llvm.org/LICENSE.txt for license information.
	// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
	//
	//===----------------------------------------------------------------------===//
	//
	// This file declares helper functions for running LLVM in a multi-threaded
	// environment.
	//
	//===----------------------------------------------------------------------===//

	#ifndef LLVM_SUPPORT_THREADING_H
	#define LLVM_SUPPORT_THREADING_H

	#include "llvm/ADT/SmallVector.h"
	#include "llvm/Config/llvm-config.h" // for LLVM_ON_UNIX
	#include "llvm/Support/Compiler.h"
	#include <ciso646> // So we can check the C++ standard lib macros.
	#include <functional>

	#if defined(_MSC_VER)
	// MSVC's call_once implementation worked since VS 2015, which is the minimum
	// supported version as of this writing.
	#define LLVM_THREADING_USE_STD_CALL_ONCE 1
	#elif defined(LLVM_ON_UNIX) && \
	(defined(_LIBCPP_VERSION) \|\| \
	!(defined(__NetBSD__) \|\| defined(__OpenBSD__) \|\| \
	(defined(__ppc__) \|\| defined(__PPC__))))
	// std::call_once from libc++ is used on all Unix platforms. Other
	// implementations like libstdc++ are known to have problems on NetBSD,
	// OpenBSD and PowerPC.
	#define LLVM_THREADING_USE_STD_CALL_ONCE 1
	#else
	#define LLVM_THREADING_USE_STD_CALL_ONCE 0
	#endif

	#if LLVM_THREADING_USE_STD_CALL_ONCE
	#include <mutex>
	#else
	#include "llvm/Support/Atomic.h"
	#endif

	namespace llvm {
	class Twine;

	/// Returns true if LLVM is compiled with support for multi-threading, and
	/// false otherwise.
	bool llvm_is_multithreaded();

	/// llvm_execute_on_thread - Execute the given \p UserFn on a separate
	/// thread, passing it the provided \p UserData and waits for thread
	/// completion.
	///
	/// This function does not guarantee that the code will actually be executed
	/// on a separate thread or honoring the requested stack size, but tries to do
	/// so where system support is available.
	///
	/// \param UserFn - The callback to execute.
	/// \param UserData - An argument to pass to the callback function.
	/// \param RequestedStackSize - If non-zero, a requested size (in bytes) for
	/// the thread stack.
	void llvm_execute_on_thread(void (UserFn)(void ), void *UserData,
	unsigned RequestedStackSize = 0);

	#if LLVM_THREADING_USE_STD_CALL_ONCE

	typedef std::once_flag once_flag;

	#else

	enum InitStatus { Uninitialized = 0, Wait = 1, Done = 2 };

	/// The llvm::once_flag structure
	///
	/// This type is modeled after std::once_flag to use with llvm::call_once.
	/// This structure must be used as an opaque object. It is a struct to force
	/// autoinitialization and behave like std::once_flag.
	struct once_flag {
	volatile sys::cas_flag status = Uninitialized;
	};

	#endif

	/// Execute the function specified as a parameter once.
	///
	/// Typical usage:
	/// \code
	/// void foo() {...};
	/// ...
	/// static once_flag flag;
	/// call_once(flag, foo);
	/// \endcode
	///
	/// \param flag Flag used for tracking whether or not this has run.
	/// \param F Function to call once.
	template <typename Function, typename... Args>
	void call_once(once_flag &flag, Function &&F, Args &&... ArgList) {
	#if LLVM_THREADING_USE_STD_CALL_ONCE
	std::call_once(flag, std::forward<Function>(F),
	std::forward<Args>(ArgList)...);
	#else
	// For other platforms we use a generic (if brittle) version based on our
	// atomics.
	sys::cas_flag old_val = sys::CompareAndSwap(&flag.status, Wait, Uninitialized);
	if (old_val == Uninitialized) {
	std::forward<Function>(F)(std::forward<Args>(ArgList)...);
	sys::MemoryFence();
	TsanIgnoreWritesBegin();
	TsanHappensBefore(&flag.status);
	flag.status = Done;
	TsanIgnoreWritesEnd();
	} else {
	// Wait until any thread doing the call has finished.
	sys::cas_flag tmp = flag.status;
	sys::MemoryFence();
	while (tmp != Done) {
	tmp = flag.status;
	sys::MemoryFence();
	}
	}
	TsanHappensAfter(&flag.status);
	#endif
	}

	/// Get the amount of currency to use for tasks requiring significant
	/// memory or other resources. Currently based on physical cores, if
	/// available for the host system, otherwise falls back to
	/// thread::hardware_concurrency().
	/// Returns 1 when LLVM is configured with LLVM_ENABLE_THREADS=OFF
	unsigned heavyweight_hardware_concurrency();

	/// Get the number of threads that the current program can execute
	/// concurrently. On some systems std::thread::hardware_concurrency() returns
	/// the total number of cores, without taking affinity into consideration.
	/// Returns 1 when LLVM is configured with LLVM_ENABLE_THREADS=OFF.
	/// Fallback to std::thread::hardware_concurrency() if sched_getaffinity is
	/// not available.
	unsigned hardware_concurrency();

	/// Return the current thread id, as used in various OS system calls.
	/// Note that not all platforms guarantee that the value returned will be
	/// unique across the entire system, so portable code should not assume
	/// this.
	uint64_t get_threadid();

	/// Get the maximum length of a thread name on this platform.
	/// A value of 0 means there is no limit.
	uint32_t get_max_thread_name_length();

	/// Set the name of the current thread. Setting a thread's name can
	/// be helpful for enabling useful diagnostics under a debugger or when
	/// logging. The level of support for setting a thread's name varies
	/// wildly across operating systems, and we only make a best effort to
	/// perform the operation on supported platforms. No indication of success
	/// or failure is returned.
	void set_thread_name(const Twine &Name);

	/// Get the name of the current thread. The level of support for
	/// getting a thread's name varies wildly across operating systems, and it
	/// is not even guaranteed that if you can successfully set a thread's name
	/// that you can later get it back. This function is intended for diagnostic
	/// purposes, and as with setting a thread's name no indication of whether
	/// the operation succeeded or failed is returned.
	void get_thread_name(SmallVectorImpl<char> &Name);
	}

	#endif