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-rw-r--r--third_party/abseil_cpp/absl/synchronization/internal/mutex_nonprod.inc249
1 files changed, 0 insertions, 249 deletions
diff --git a/third_party/abseil_cpp/absl/synchronization/internal/mutex_nonprod.inc b/third_party/abseil_cpp/absl/synchronization/internal/mutex_nonprod.inc
deleted file mode 100644
index d83bc8a94c..0000000000
--- a/third_party/abseil_cpp/absl/synchronization/internal/mutex_nonprod.inc
+++ /dev/null
@@ -1,249 +0,0 @@
-// Do not include.  This is an implementation detail of base/mutex.h.
-//
-// Declares three classes:
-//
-// base::internal::MutexImpl - implementation helper for Mutex
-// base::internal::CondVarImpl - implementation helper for CondVar
-// base::internal::SynchronizationStorage<T> - implementation helper for
-//                                             Mutex, CondVar
-
-#include <type_traits>
-
-#if defined(_WIN32)
-#include <condition_variable>
-#include <mutex>
-#else
-#include <pthread.h>
-#endif
-
-#include "absl/base/call_once.h"
-#include "absl/time/time.h"
-
-// Declare that Mutex::ReaderLock is actually Lock().  Intended primarily
-// for tests, and even then as a last resort.
-#ifdef ABSL_MUTEX_READER_LOCK_IS_EXCLUSIVE
-#error ABSL_MUTEX_READER_LOCK_IS_EXCLUSIVE cannot be directly set
-#else
-#define ABSL_MUTEX_READER_LOCK_IS_EXCLUSIVE 1
-#endif
-
-// Declare that Mutex::EnableInvariantDebugging is not implemented.
-// Intended primarily for tests, and even then as a last resort.
-#ifdef ABSL_MUTEX_ENABLE_INVARIANT_DEBUGGING_NOT_IMPLEMENTED
-#error ABSL_MUTEX_ENABLE_INVARIANT_DEBUGGING_NOT_IMPLEMENTED cannot be directly set
-#else
-#define ABSL_MUTEX_ENABLE_INVARIANT_DEBUGGING_NOT_IMPLEMENTED 1
-#endif
-
-namespace absl {
-ABSL_NAMESPACE_BEGIN
-class Condition;
-
-namespace synchronization_internal {
-
-class MutexImpl;
-
-// Do not use this implementation detail of CondVar. Provides most of the
-// implementation, but should not be placed directly in static storage
-// because it will not linker initialize properly. See
-// SynchronizationStorage<T> below for what we mean by linker
-// initialization.
-class CondVarImpl {
- public:
-  CondVarImpl();
-  CondVarImpl(const CondVarImpl&) = delete;
-  CondVarImpl& operator=(const CondVarImpl&) = delete;
-  ~CondVarImpl();
-
-  void Signal();
-  void SignalAll();
-  void Wait(MutexImpl* mutex);
-  bool WaitWithDeadline(MutexImpl* mutex, absl::Time deadline);
-
- private:
-#if defined(_WIN32)
-  std::condition_variable_any std_cv_;
-#else
-  pthread_cond_t pthread_cv_;
-#endif
-};
-
-// Do not use this implementation detail of Mutex. Provides most of the
-// implementation, but should not be placed directly in static storage
-// because it will not linker initialize properly. See
-// SynchronizationStorage<T> below for what we mean by linker
-// initialization.
-class MutexImpl {
- public:
-  MutexImpl();
-  MutexImpl(const MutexImpl&) = delete;
-  MutexImpl& operator=(const MutexImpl&) = delete;
-  ~MutexImpl();
-
-  void Lock();
-  bool TryLock();
-  void Unlock();
-  void Await(const Condition& cond);
-  bool AwaitWithDeadline(const Condition& cond, absl::Time deadline);
-
- private:
-  friend class CondVarImpl;
-
-#if defined(_WIN32)
-  std::mutex std_mutex_;
-#else
-  pthread_mutex_t pthread_mutex_;
-#endif
-
-  // True if the underlying mutex is locked.  If the destructor is entered
-  // while locked_, the underlying mutex is unlocked.  Mutex supports
-  // destruction while locked, but the same is undefined behavior for both
-  // pthread_mutex_t and std::mutex.
-  bool locked_ = false;
-
-  // Signaled before releasing the lock, in support of Await.
-  CondVarImpl released_;
-};
-
-// Do not use this implementation detail of CondVar and Mutex.  A storage
-// space for T that supports a LinkerInitialized constructor. T must
-// have a default constructor, which is called by the first call to
-// get(). T's destructor is never called if the LinkerInitialized
-// constructor is called.
-//
-// Objects constructed with the default constructor are constructed and
-// destructed like any other object, and should never be allocated in
-// static storage.
-//
-// Objects constructed with the LinkerInitialized constructor should
-// always be in static storage. For such objects, calls to get() are always
-// valid, except from signal handlers.
-//
-// Note that this implementation relies on undefined language behavior that
-// are known to hold for the set of supported compilers. An analysis
-// follows.
-//
-// From the C++11 standard:
-//
-// [basic.life] says an object has non-trivial initialization if it is of
-// class type and it is initialized by a constructor other than a trivial
-// default constructor.  (the LinkerInitialized constructor is
-// non-trivial)
-//
-// [basic.life] says the lifetime of an object with a non-trivial
-// constructor begins when the call to the constructor is complete.
-//
-// [basic.life] says the lifetime of an object with non-trivial destructor
-// ends when the call to the destructor begins.
-//
-// [basic.life] p5 specifies undefined behavior when accessing non-static
-// members of an instance outside its
-// lifetime. (SynchronizationStorage::get() access non-static members)
-//
-// So, LinkerInitialized object of SynchronizationStorage uses a
-// non-trivial constructor, which is called at some point during dynamic
-// initialization, and is therefore subject to order of dynamic
-// initialization bugs, where get() is called before the object's
-// constructor is, resulting in undefined behavior.
-//
-// Similarly, a LinkerInitialized SynchronizationStorage object has a
-// non-trivial destructor, and so its lifetime ends at some point during
-// destruction of objects with static storage duration [basic.start.term]
-// p4. There is a window where other exit code could call get() after this
-// occurs, resulting in undefined behavior.
-//
-// Combined, these statements imply that LinkerInitialized instances
-// of SynchronizationStorage<T> rely on undefined behavior.
-//
-// However, in practice, the implementation works on all supported
-// compilers. Specifically, we rely on:
-//
-// a) zero-initialization being sufficient to initialize
-// LinkerInitialized instances for the purposes of calling
-// get(), regardless of when the constructor is called. This is
-// because the is_dynamic_ boolean is correctly zero-initialized to
-// false.
-//
-// b) the LinkerInitialized constructor is a NOP, and immaterial to
-// even to concurrent calls to get().
-//
-// c) the destructor being a NOP for LinkerInitialized objects
-// (guaranteed by a check for !is_dynamic_), and so any concurrent and
-// subsequent calls to get() functioning as if the destructor were not
-// called, by virtue of the instances' storage remaining valid after the
-// destructor runs.
-//
-// d) That a-c apply transitively when SynchronizationStorage<T> is the
-// only member of a class allocated in static storage.
-//
-// Nothing in the language standard guarantees that a-d hold.  In practice,
-// these hold in all supported compilers.
-//
-// Future direction:
-//
-// Ideally, we would simply use std::mutex or a similar class, which when
-// allocated statically would support use immediately after static
-// initialization up until static storage is reclaimed (i.e. the properties
-// we require of all "linker initialized" instances).
-//
-// Regarding construction in static storage, std::mutex is required to
-// provide a constexpr default constructor [thread.mutex.class], which
-// ensures the instance's lifetime begins with static initialization
-// [basic.start.init], and so is immune to any problems caused by the order
-// of dynamic initialization. However, as of this writing Microsoft's
-// Visual Studio does not provide a constexpr constructor for std::mutex.
-// See
-// https://blogs.msdn.microsoft.com/vcblog/2015/06/02/constexpr-complete-for-vs-2015-rtm-c11-compiler-c17-stl/
-//
-// Regarding destruction of instances in static storage, [basic.life] does
-// say an object ends when storage in which the occupies is released, in
-// the case of non-trivial destructor. However, std::mutex is not specified
-// to have a trivial destructor.
-//
-// So, we would need a class with a constexpr default constructor and a
-// trivial destructor. Today, we can achieve neither desired property using
-// std::mutex directly.
-template <typename T>
-class SynchronizationStorage {
- public:
-  // Instances allocated on the heap or on the stack should use the default
-  // constructor.
-  SynchronizationStorage()
-      : destruct_(true), once_() {}
-
-  constexpr explicit SynchronizationStorage(absl::ConstInitType)
-      : destruct_(false), once_(), space_{{0}} {}
-
-  SynchronizationStorage(SynchronizationStorage&) = delete;
-  SynchronizationStorage& operator=(SynchronizationStorage&) = delete;
-
-  ~SynchronizationStorage() {
-    if (destruct_) {
-      get()->~T();
-    }
-  }
-
-  // Retrieve the object in storage. This is fast and thread safe, but does
-  // incur the cost of absl::call_once().
-  T* get() {
-    absl::call_once(once_, SynchronizationStorage::Construct, this);
-    return reinterpret_cast<T*>(&space_);
-  }
-
- private:
-  static void Construct(SynchronizationStorage<T>* self) {
-    new (&self->space_) T();
-  }
-
-  // When true, T's destructor is run when this is destructed.
-  const bool destruct_;
-
-  absl::once_flag once_;
-
-  // An aligned space for the T.
-  alignas(T) unsigned char space_[sizeof(T)];
-};
-
-}  // namespace synchronization_internal
-ABSL_NAMESPACE_END
-}  // namespace absl