fc8dc48020
git-subtree-dir: third_party/abseil_cpp git-subtree-mainline:ffb2ae54be
git-subtree-split:768eb2ca28
324 lines
8.8 KiB
C++
324 lines
8.8 KiB
C++
// Copyright 2017 The Abseil Authors.
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//
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// Licensed under the Apache License, Version 2.0 (the "License");
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// you may not use this file except in compliance with the License.
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// You may obtain a copy of the License at
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//
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// https://www.apache.org/licenses/LICENSE-2.0
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//
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// Unless required by applicable law or agreed to in writing, software
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// distributed under the License is distributed on an "AS IS" BASIS,
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// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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// See the License for the specific language governing permissions and
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// limitations under the License.
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// Implementation of a small subset of Mutex and CondVar functionality
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// for platforms where the production implementation hasn't been fully
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// ported yet.
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#include "absl/synchronization/mutex.h"
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#if defined(_WIN32)
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#include <chrono> // NOLINT(build/c++11)
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#else
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#include <sys/time.h>
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#include <time.h>
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#endif
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#include <algorithm>
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#include "absl/base/internal/raw_logging.h"
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#include "absl/time/time.h"
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namespace absl {
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ABSL_NAMESPACE_BEGIN
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void SetMutexDeadlockDetectionMode(OnDeadlockCycle) {}
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void EnableMutexInvariantDebugging(bool) {}
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namespace synchronization_internal {
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namespace {
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// Return the current time plus the timeout.
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absl::Time DeadlineFromTimeout(absl::Duration timeout) {
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return absl::Now() + timeout;
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}
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// Limit the deadline to a positive, 32-bit time_t value to accommodate
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// implementation restrictions. This also deals with InfinitePast and
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// InfiniteFuture.
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absl::Time LimitedDeadline(absl::Time deadline) {
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deadline = std::max(absl::FromTimeT(0), deadline);
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deadline = std::min(deadline, absl::FromTimeT(0x7fffffff));
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return deadline;
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}
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} // namespace
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#if defined(_WIN32)
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MutexImpl::MutexImpl() {}
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MutexImpl::~MutexImpl() {
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if (locked_) {
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std_mutex_.unlock();
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}
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}
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void MutexImpl::Lock() {
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std_mutex_.lock();
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locked_ = true;
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}
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bool MutexImpl::TryLock() {
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bool locked = std_mutex_.try_lock();
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if (locked) locked_ = true;
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return locked;
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}
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void MutexImpl::Unlock() {
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locked_ = false;
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released_.SignalAll();
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std_mutex_.unlock();
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}
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CondVarImpl::CondVarImpl() {}
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CondVarImpl::~CondVarImpl() {}
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void CondVarImpl::Signal() { std_cv_.notify_one(); }
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void CondVarImpl::SignalAll() { std_cv_.notify_all(); }
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void CondVarImpl::Wait(MutexImpl* mu) {
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mu->released_.SignalAll();
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std_cv_.wait(mu->std_mutex_);
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}
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bool CondVarImpl::WaitWithDeadline(MutexImpl* mu, absl::Time deadline) {
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mu->released_.SignalAll();
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time_t when = ToTimeT(deadline);
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int64_t nanos = ToInt64Nanoseconds(deadline - absl::FromTimeT(when));
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std::chrono::system_clock::time_point deadline_tp =
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std::chrono::system_clock::from_time_t(when) +
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std::chrono::duration_cast<std::chrono::system_clock::duration>(
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std::chrono::nanoseconds(nanos));
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auto deadline_since_epoch =
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std::chrono::duration_cast<std::chrono::duration<double>>(
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deadline_tp - std::chrono::system_clock::from_time_t(0));
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return std_cv_.wait_until(mu->std_mutex_, deadline_tp) ==
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std::cv_status::timeout;
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}
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#else // ! _WIN32
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MutexImpl::MutexImpl() {
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ABSL_RAW_CHECK(pthread_mutex_init(&pthread_mutex_, nullptr) == 0,
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"pthread error");
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}
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MutexImpl::~MutexImpl() {
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if (locked_) {
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ABSL_RAW_CHECK(pthread_mutex_unlock(&pthread_mutex_) == 0, "pthread error");
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}
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ABSL_RAW_CHECK(pthread_mutex_destroy(&pthread_mutex_) == 0, "pthread error");
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}
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void MutexImpl::Lock() {
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ABSL_RAW_CHECK(pthread_mutex_lock(&pthread_mutex_) == 0, "pthread error");
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locked_ = true;
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}
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bool MutexImpl::TryLock() {
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bool locked = (0 == pthread_mutex_trylock(&pthread_mutex_));
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if (locked) locked_ = true;
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return locked;
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}
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void MutexImpl::Unlock() {
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locked_ = false;
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released_.SignalAll();
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ABSL_RAW_CHECK(pthread_mutex_unlock(&pthread_mutex_) == 0, "pthread error");
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}
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CondVarImpl::CondVarImpl() {
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ABSL_RAW_CHECK(pthread_cond_init(&pthread_cv_, nullptr) == 0,
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"pthread error");
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}
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CondVarImpl::~CondVarImpl() {
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ABSL_RAW_CHECK(pthread_cond_destroy(&pthread_cv_) == 0, "pthread error");
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}
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void CondVarImpl::Signal() {
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ABSL_RAW_CHECK(pthread_cond_signal(&pthread_cv_) == 0, "pthread error");
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}
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void CondVarImpl::SignalAll() {
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ABSL_RAW_CHECK(pthread_cond_broadcast(&pthread_cv_) == 0, "pthread error");
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}
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void CondVarImpl::Wait(MutexImpl* mu) {
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mu->released_.SignalAll();
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ABSL_RAW_CHECK(pthread_cond_wait(&pthread_cv_, &mu->pthread_mutex_) == 0,
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"pthread error");
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}
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bool CondVarImpl::WaitWithDeadline(MutexImpl* mu, absl::Time deadline) {
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mu->released_.SignalAll();
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struct timespec ts = ToTimespec(deadline);
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int rc = pthread_cond_timedwait(&pthread_cv_, &mu->pthread_mutex_, &ts);
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if (rc == ETIMEDOUT) return true;
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ABSL_RAW_CHECK(rc == 0, "pthread error");
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return false;
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}
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#endif // ! _WIN32
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void MutexImpl::Await(const Condition& cond) {
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if (cond.Eval()) return;
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released_.SignalAll();
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do {
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released_.Wait(this);
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} while (!cond.Eval());
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}
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bool MutexImpl::AwaitWithDeadline(const Condition& cond, absl::Time deadline) {
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if (cond.Eval()) return true;
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released_.SignalAll();
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while (true) {
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if (released_.WaitWithDeadline(this, deadline)) return false;
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if (cond.Eval()) return true;
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}
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}
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} // namespace synchronization_internal
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Mutex::Mutex() {}
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Mutex::~Mutex() {}
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void Mutex::Lock() { impl()->Lock(); }
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void Mutex::Unlock() { impl()->Unlock(); }
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bool Mutex::TryLock() { return impl()->TryLock(); }
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void Mutex::ReaderLock() { Lock(); }
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void Mutex::ReaderUnlock() { Unlock(); }
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void Mutex::Await(const Condition& cond) { impl()->Await(cond); }
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void Mutex::LockWhen(const Condition& cond) {
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Lock();
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Await(cond);
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}
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bool Mutex::AwaitWithDeadline(const Condition& cond, absl::Time deadline) {
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return impl()->AwaitWithDeadline(
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cond, synchronization_internal::LimitedDeadline(deadline));
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}
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bool Mutex::AwaitWithTimeout(const Condition& cond, absl::Duration timeout) {
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return AwaitWithDeadline(
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cond, synchronization_internal::DeadlineFromTimeout(timeout));
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}
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bool Mutex::LockWhenWithDeadline(const Condition& cond, absl::Time deadline) {
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Lock();
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return AwaitWithDeadline(cond, deadline);
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}
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bool Mutex::LockWhenWithTimeout(const Condition& cond, absl::Duration timeout) {
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return LockWhenWithDeadline(
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cond, synchronization_internal::DeadlineFromTimeout(timeout));
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}
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void Mutex::ReaderLockWhen(const Condition& cond) {
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ReaderLock();
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Await(cond);
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}
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bool Mutex::ReaderLockWhenWithTimeout(const Condition& cond,
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absl::Duration timeout) {
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return LockWhenWithTimeout(cond, timeout);
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}
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bool Mutex::ReaderLockWhenWithDeadline(const Condition& cond,
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absl::Time deadline) {
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return LockWhenWithDeadline(cond, deadline);
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}
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void Mutex::EnableDebugLog(const char*) {}
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void Mutex::EnableInvariantDebugging(void (*)(void*), void*) {}
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void Mutex::ForgetDeadlockInfo() {}
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void Mutex::AssertHeld() const {}
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void Mutex::AssertReaderHeld() const {}
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void Mutex::AssertNotHeld() const {}
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CondVar::CondVar() {}
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CondVar::~CondVar() {}
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void CondVar::Signal() { impl()->Signal(); }
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void CondVar::SignalAll() { impl()->SignalAll(); }
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void CondVar::Wait(Mutex* mu) { return impl()->Wait(mu->impl()); }
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bool CondVar::WaitWithDeadline(Mutex* mu, absl::Time deadline) {
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return impl()->WaitWithDeadline(
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mu->impl(), synchronization_internal::LimitedDeadline(deadline));
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}
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bool CondVar::WaitWithTimeout(Mutex* mu, absl::Duration timeout) {
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return WaitWithDeadline(mu, absl::Now() + timeout);
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}
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void CondVar::EnableDebugLog(const char*) {}
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#ifdef THREAD_SANITIZER
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extern "C" void __tsan_read1(void *addr);
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#else
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#define __tsan_read1(addr) // do nothing if TSan not enabled
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#endif
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// A function that just returns its argument, dereferenced
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static bool Dereference(void *arg) {
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// ThreadSanitizer does not instrument this file for memory accesses.
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// This function dereferences a user variable that can participate
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// in a data race, so we need to manually tell TSan about this memory access.
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__tsan_read1(arg);
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return *(static_cast<bool *>(arg));
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}
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Condition::Condition() {} // null constructor, used for kTrue only
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const Condition Condition::kTrue;
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Condition::Condition(bool (*func)(void *), void *arg)
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: eval_(&CallVoidPtrFunction),
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function_(func),
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method_(nullptr),
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arg_(arg) {}
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bool Condition::CallVoidPtrFunction(const Condition *c) {
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return (*c->function_)(c->arg_);
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}
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Condition::Condition(const bool *cond)
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: eval_(CallVoidPtrFunction),
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function_(Dereference),
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method_(nullptr),
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// const_cast is safe since Dereference does not modify arg
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arg_(const_cast<bool *>(cond)) {}
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bool Condition::Eval() const {
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// eval_ == null for kTrue
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return (this->eval_ == nullptr) || (*this->eval_)(this);
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}
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void RegisterSymbolizer(bool (*)(const void*, char*, int)) {}
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ABSL_NAMESPACE_END
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} // namespace absl
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