valib/bhshmq.git

			@@ -19,83 +19,92 @@
			#ifndef SHM_QUEUE_JE0OEUP3
			#define SHM_QUEUE_JE0OEUP3

			#include "robust.h"
			#include "shm.h"
			#include "msg.h"
			#include <atomic>
			#include <boost/circular_buffer.hpp>
			#include <boost/date_time/posix_time/posix_time.hpp>
			#include <chrono>

			namespace bhome_shm {

			template <class D> using Circular = boost::circular_buffer<D, Allocator<D> >;

			typedef boost::uuids::uuid MQId;
			namespace bhome_shm
			{

			template <class D>
			class SyncedQueue : private Circular<D>
			using Circular = boost::circular_buffer<D, Allocator<D>>;

			template <class D>
			class SharedQueue
			{
			typedef Circular<D> Super;
			Mutex mutex_;
			Cond cond_read_;
			Cond cond_write_;
			Mutex & mutex() { return mutex_; }
			const MQId id_;

			static boost::posix_time::ptime MSFromNow(const int ms)
			{
			using namespace boost::posix_time;
			ptime cur = boost::posix_time::microsec_clock::universal_time();
			return cur + millisec(ms);
			}

			public:
			// template <class...T> SyncedQueue(const MQId &id, T&&...t):Super(t...), id_(id) {}
			SyncedQueue(const MQId &id, const uint32_t len, Allocator<D> const& alloc):Super(len, alloc), id_(id) {}
			using Super::size;
			using Super::capacity;
			const MQId &Id() const { return id_; }
			template <class OnWrite>
			bool Write(const D &buf, const int timeout_ms, const OnWrite &onWrite) {
			Guard lock(mutex());
			if (cond_write_.timed_wait(lock, MSFromNow(timeout_ms), [&]() { return !this->full(); })) {
			onWrite();
			this->push_back(buf);
			cond_read_.notify_one();
			return true;
			} else {
			return false;
			}
			}
			bool Write(const D &buf, const int timeout_ms) { return Write(buf, timeout_ms, [](){}); }
			SharedQueue(const uint32_t len, Allocator<D> const &alloc) :
			queue_(len, alloc) {}

			bool Read(D &buf, const int timeout_ms){
			Guard lock(mutex());
			if (cond_read_.timed_wait(lock, MSFromNow(timeout_ms), [&]() { return !this->empty(); })) {
			using std::swap;
			swap(buf, this->front());
			this->pop_front();
			cond_write_.notify_one();
			return true;
			} else {
			return false;
			}
			}
			bool Read(D &d, const int timeout_ms)
			{
			using namespace std::chrono;
			auto end_time = steady_clock::now() + milliseconds(timeout_ms);
			do {
			if (TryRead(d)) {
			return true;
			} else {
			robust::QuickSleep();
			}
			} while (steady_clock::now() < end_time);
			return false;
			}
			bool TryRead(D &d)
			{
			// bhome_shm::Guard lock(mutex_);
			if (!queue_.empty()) {
			d = queue_.front();
			queue_.pop_front();
			return true;
			} else {
			return false;
			}
			}
			bool TryWrite(const D &d)
			{
			// bhome_shm::Guard lock(mutex_);
			if (!queue_.full()) {
			queue_.push_back(d);
			return true;
			} else {
			return false;
			}
			}

			private:
			Circular<D> queue_;
			// bhome_shm::Mutex mutex_;
			};

			class ShmMsgQueue : private ShmObject<SyncedQueue<Msg> >
			template <int Power = 4>
			class SharedQ63
			{
			typedef ShmObject<SyncedQueue<Msg> > SharedQueue;
			typedef SharedQueue::Data Queue;
			bool Write(const Msg &buf, const int timeout_ms) { return data()->Write(buf, timeout_ms); }
			bool Read(Msg &buf, const int timeout_ms) { return data()->Read(buf, timeout_ms); }
			public:
			ShmMsgQueue(const MQId &id, ShmType &segment, const int len);
			ShmMsgQueue(ShmType &segment, const int len);
			~ShmMsgQueue();
			bool Send(const MQId &remote_id, const void *data, const size_t size, const int timeout_ms);
			bool Recv(MQId &source_id, void *&data, size_t &size, const int timeout_ms);
			const MQId &Id() const { return data()->Id(); }
			bool Send(const MQId &remote_id, const Msg &msg, const int timeout_ms);
			bool Recv(Msg &msg, const int timeout_ms) { return Read(msg, timeout_ms); }
			template <class... T>
			explicit SharedQ63(T &&...t) {} // easy testing

			typedef int64_t Data;
			bool Read(Data &d, const int timeout_ms)
			{
			using namespace std::chrono;
			auto end_time = steady_clock::now() + milliseconds(timeout_ms);
			do {
			for (int i = 0; i < 100; ++i) {
			if (TryRead(d)) {
			return true;
			}
			}
			robust::QuickSleep();
			} while (steady_clock::now() < end_time);
			return false;
			}
			bool TryRead(Data &d, const bool try_more = true) { return queue_.pop(d, try_more); }
			bool TryWrite(const Data d, const bool try_more = true) { return queue_.push(d, try_more); }

			private:
			robust::AtomicQueue<Power, Data> queue_;
			};

			} // namespace bhome_shm