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coupling.c
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/*
* File: coupling.c
* Author: Vincent Gramoli <vincent.gramoli@sydney.edu.au>,
* Vasileios Trigonakis <vasileios.trigonakis@epfl.ch>
* Description: hand-over-hand locking list
* (Details: Maurice Herlihy and Nir Shavit. The Art of
* Multiprocessor Programming, Revised First Edition. 2012.)
* coupling.c is part of ASCYLIB
*
* Copyright (c) 2014 Vasileios Trigonakis <vasileios.trigonakis@epfl.ch>,
* Tudor David <tudor.david@epfl.ch>
* Distributed Programming Lab (LPD), EPFL
*
* ASCYLIB is free software: you can redistribute it and/or
* modify it under the terms of the GNU General Public License
* as published by the Free Software Foundation, version 2
* of the License.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
*/
#include "coupling.h"
RETRY_STATS_VARS;
LOCK_LOCAL_DATA;
/*
* Similar algorithm for the delete, find, and insert:
* Lock the first two elements (locking each before getting the copy of the element)
* then unlock previous, keep ownership of the current, and lock next in a loop.
*/
sval_t
lockc_delete(intset_l_t *set, skey_t key)
{
PARSE_TRY();
UPDATE_TRY();
node_l_t *curr, *next;
sval_t res = 0;
LOCK_A(set->lock); /* when GL_[UN]LOCK is defined the [UN]LOCK is not ;-) */
curr = set->head;
next = curr->next;
while (next->key < key)
{
curr = next;
next = next->next;
}
if (key == next->key)
{
res = next->val;
curr->next = next->next;
#if GC == 1
ssmem_free(alloc, (void*) next);
#endif
}
UNLOCK_A(set->lock);
return res;
}
sval_t
lockc_find(intset_l_t *set, skey_t key)
{
PARSE_TRY();
node_l_t *curr, *next;
sval_t res = 0;
curr = set->head;
next = curr->next;
while (next->key < key)
{
curr = next;
next = curr->next;
}
if (key == next->key)
{
res = next->val;
}
return res;
}
int
lockc_insert(intset_l_t *set, skey_t key, sval_t val)
{
PARSE_TRY();
UPDATE_TRY();
node_l_t *curr, *next, *newnode;
int found;
LOCK_A(set->lock);
curr = set->head;
next = curr->next;
while (next->key < key)
{
curr = next;
next = curr->next;
}
found = (key == next->key);
if (!found)
{
newnode = new_node_l(key, val, next, 1);
#ifdef __tile__
MEM_BARRIER;
#endif
curr->next = newnode;
}
UNLOCK_A(set->lock);
return !found;
}