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skiplist-lock.c
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skiplist-lock.c
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/*
* File: skiplist-lock.c
* Author: Vincent Gramoli <[email protected]>,
* Vasileios Trigonakis <[email protected]>
* Description:
* skiplist-lock.c is part of ASCYLIB
*
* Copyright (c) 2014 Vasileios Trigonakis <[email protected]>,
* Tudor David <[email protected]>
* 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 "skiplist-lock.h"
#include "utils.h"
unsigned int levelmax;
unsigned int size_pad_32;
__thread ssmem_allocator_t* alloc;
inline int
get_rand_level()
{
int i, level = 1;
for (i = 0; i < levelmax - 1; i++)
{
if ((rand_range(100)-1) < 50)
level++;
else
break;
}
/* 1 <= level <= levelmax */
return level;
}
int
floor_log_2(unsigned int n)
{
int pos = 0;
if (n >= 1<<16) { n >>= 16; pos += 16; }
if (n >= 1<< 8) { n >>= 8; pos += 8; }
if (n >= 1<< 4) { n >>= 4; pos += 4; }
if (n >= 1<< 2) { n >>= 2; pos += 2; }
if (n >= 1<< 1) { pos += 1; }
return ((n == 0) ? (-1) : pos);
}
/*
* Create a new node without setting its next fields.
*/
sl_node_t*
sl_new_simple_node(skey_t key, sval_t val, int toplevel, int transactional)
{
sl_node_t* node;
#if GC == 1
if (unlikely(transactional))
{
/* use levelmax instead of toplevel in order to be able to use the ssalloc allocator */
size_t ns = size_pad_32;
size_t ns_rm = ns & 63;
if (ns_rm)
{
ns += 64 - ns_rm;
}
node = (sl_node_t*)ssalloc_aligned(CACHE_LINE_SIZE, ns);
}
else
{
size_t ns = size_pad_32;
# if defined(DO_PAD)
size_t ns_rm = ns & 63;
if (ns_rm)
{
ns += 64 - ns_rm;
}
# endif
node = (sl_node_t*) ssmem_alloc(alloc, ns);
}
#else
size_t ns = size_pad_32;
if (transactional)
{
size_t ns_rm = ns & 63;
if (ns_rm)
{
ns += 64 - ns_rm;
}
}
node = (sl_node_t*)ssalloc(ns);
#endif
node->key = key;
node->val = val;
node->toplevel = toplevel;
INIT_LOCK(ND_GET_LOCK(node));
#if defined(__tile__)
MEM_BARRIER;
#endif
return node;
}
/*
* Create a new node with its next field.
* If next=NULL, then this create a tail node.
*/
sl_node_t*
sl_new_node(skey_t key, sval_t val, sl_node_t *next, int toplevel, int transactional)
{
sl_node_t *node;
int i;
node = sl_new_simple_node(key, val, toplevel, transactional);
for (i = 0; i < toplevel; i++)
node->next[i] = next;
MEM_BARRIER;
return node;
}
void
sl_delete_node(sl_node_t *n)
{
DESTROY_LOCK(ND_GET_LOCK(n));
ssfree_alloc(1, (void*) n);
}
sl_intset_t*
sl_set_new()
{
sl_intset_t *set;
sl_node_t *min, *max;
if ((set = (sl_intset_t *)ssalloc_aligned(CACHE_LINE_SIZE, sizeof(sl_intset_t))) == NULL)
{
perror("malloc");
exit(1);
}
max = sl_new_node(KEY_MAX, 0, NULL, levelmax, 1);
min = sl_new_node(KEY_MIN, 0, max, levelmax, 1);
set->head = min;
#if defined(LL_GLOBAL_LOCK)
set->lock = (volatile ptlock_t*) ssalloc_aligned(CACHE_LINE_SIZE, sizeof(ptlock_t));
if (set->lock == NULL)
{
perror("malloc");
exit(1);
}
GL_INIT_LOCK(set->lock);
#endif
return set;
}
void
sl_set_delete(sl_intset_t *set)
{
sl_node_t *node, *next;
node = set->head;
while (node != NULL)
{
next = node->next[0];
sl_delete_node(node);
node = next;
}
#if defined(LL_GLOBAL_LOCK)
ssfree((void*) set->lock);
#endif
ssfree((void*) set);
}
int sl_set_size(sl_intset_t *set)
{
int size = 0;
sl_node_t *node;
/* We have at least 2 elements */
node = set->head->next[0];
while (node->next[0] != NULL)
{
size++;
node = node->next[0];
}
return size;
}