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ms_queue.h
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ms_queue.h
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// Copyright (c) 2014, the Scal Project Authors. All rights reserved.
// Please see the AUTHORS file for details. Use of this source code is governed
// by a BSD license that can be found in the LICENSE file.
// Implementing the queue from:
//
// M. Michael and M. Scott. Simple, fast, and practical non-blocking and
// blocking concurrent queue algorithms. In Proc. Symposium on Principles of
// Distributed Computing (PODC), pages 267–275. ACM, 1996.
// ... and lots of variants
#ifndef SCAL_DATASTRUCTURES_MS_QUEUE_H_
#define SCAL_DATASTRUCTURES_MS_QUEUE_H_
#include <new>
#include "datastructures/distributed_data_structure_interface.h"
#include "datastructures/queue.h"
#include "util/allocation.h"
#include "util/atomic_value_new.h"
#include "util/operation_logger.h"
#include "util/platform.h"
#include "util/threadlocals.h"
namespace scal {
namespace detail {
template<typename S>
class Node : public ThreadLocalMemory<64> {
public:
explicit Node(S item) : value(item) {}
AtomicTaggedValue<Node<S>*> next;
S value;
};
} // namespace detail
template<typename T>
class MSQueue : public Queue<T> {
public:
typedef detail::Node<T> Node;
typedef TaggedValue<Node*> NodePtr;
MSQueue();
bool enqueue(T item);
bool dequeue(T *item);
inline const TaggedValue<Node*> head() const {
return head_->load();
}
inline const TaggedValue<Node*> tail() const {
return tail_->load();
}
inline State put_state() {
return tail_->load().tag();
}
bool get_return_put_state(T* item, State* put_state);
bool empty();
bool try_enqueue(T item, uint64_t tal_old_tag);
uint8_t try_dequeue(T* item, uint64_t head_old_tag, State* put_state);
private:
typedef AtomicTaggedValue<Node*, scal::kCachePrefetch> AtomicNodePtr;
AtomicNodePtr* head_;
AtomicNodePtr* tail_;
};
template<typename T>
MSQueue<T>::MSQueue()
: head_(new AtomicNodePtr()),
tail_(new AtomicNodePtr()) {
Node* node = new Node(static_cast<T>(NULL));
head_->store(NodePtr(node, 0));
tail_->store(NodePtr(node, 0));
}
template<typename T>
bool MSQueue<T>::enqueue(T item) {
Node* node = new Node(item);
NodePtr tail_old;
NodePtr next;
while (true) {
tail_old = tail_->load();
next = tail_old.value()->next.load();
if (tail_old == tail_->load()) {
if (next.value() == NULL) {
if (tail_old.value()->next.swap(
next, NodePtr(node, next.tag() + 1))) {
tail_->swap(tail_old, NodePtr(node, tail_old.tag() + 1));
break;
}
} else {
tail_->swap(tail_old, NodePtr(next.value(), tail_old.tag() + 1));
}
}
}
return true;
}
template<typename T>
bool MSQueue<T>::try_enqueue(T item, uint64_t tail_old_tag) {
NodePtr next;
NodePtr tail_old;
tail_old = tail_->load();
next = tail_old.value()->next.load();
if (tail_old_tag == tail_old.tag()) {
if (next.value() == NULL) {
Node* node = new Node(item);
if (tail_old.value()->next.swap(
next, NodePtr(node, next.tag() + 1))) {
tail_->swap(tail_old, NodePtr(node, tail_old.tag() + 1));
return true;
}
} else {
tail_->swap(tail_old, NodePtr(next.value(), tail_old.tag() + 1));
}
}
return false;
}
template<typename T>
bool MSQueue<T>::empty() {
NodePtr head_old;
NodePtr tail_old;
NodePtr next;
while (true) {
head_old = head_->load();
tail_old = tail_->load();
next = head_old.value()->next.load();
if (head_->load() == head_old) {
if ((head_old.value() == tail_old.value()) &&
(next.value() == NULL)) {
return true;
}
return false;
}
}
}
template<typename T>
bool MSQueue<T>::dequeue(T* item) {
NodePtr head_old;
NodePtr tail_old;
NodePtr next;
while (true) {
head_old = head_->load();
tail_old = tail_->load();
next = head_old.value()->next.load();
if (head_->load() == head_old) {
if (head_old.value() == tail_old.value()) {
if (next.value() == NULL) {
return false;
}
tail_->swap(tail_old, NodePtr(next.value(), tail_old.tag() + 1));
} else {
*item = next.value()->value;
if (head_->swap(
head_old, NodePtr(next.value(), head_old.tag() + 1))) {
break;
}
}
}
}
return true;
}
template<typename T>
uint8_t MSQueue<T>::try_dequeue(
T* item, uint64_t head_old_tag, State* put_state) {
NodePtr head_old = head_->load();
NodePtr tail_old = tail_->load();
NodePtr next = head_old.value()->next.load();
if (head_old_tag == head_old.tag()) {
if (head_old.value() == tail_old.value()) {
if (next.value() == NULL) {
*put_state = tail_old.tag();
return 1;
}
tail_->swap(tail_old, NodePtr(next.value(), tail_old.tag() + 1));
} else {
*item = next.value()->value;
if (head_->swap(
head_old, NodePtr(next.value(), head_old.tag() + 1))) {
return 0;
}
}
}
return 2;
}
template<typename T>
bool MSQueue<T>::get_return_put_state(T *item, State* put_state) {
NodePtr head_old;
NodePtr tail_old;
NodePtr next;
while (true) {
head_old = head_->load();
tail_old = tail_->load();
next = head_old.value()->next.load();
if (head_->load() == head_old) {
if (head_old.value() == tail_old.value()) {
if (next.value() == NULL) {
*put_state = tail_old.tag();
return false;
}
tail_->swap(tail_old, NodePtr(next.value(), tail_old.tag() + 1));
} else {
*item = next.value()->value;
if (head_->swap(
head_old, NodePtr(next.value(), head_old.tag() + 1))) {
break;
}
}
}
}
*put_state = head_old.tag();
return true;
}
} // namespace scal
#endif // SCAL_DATASTRUCTURES_MS_QUEUE_H_