fis-gtm/sr_port/hashtab.h

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/****************************************************************
* *
* Copyright 2001, 2010 Fidelity Information Services, Inc *
* *
* This source code contains the intellectual property *
* of its copyright holder(s), and is made available *
* under a license. If you do not know the terms of *
* the license, please stop and do not read further. *
* *
****************************************************************/
#ifndef HASHTAB_COMMON_H
#define HASHTAB_COMMON_H
#define HASHTAB_COMPACT FALSE
#define HASHTAB_NO_COMPACT TRUE
#define HASHTAB_SPARE_TABLE FALSE
#define HASHTAB_NO_SPARE_TABLE TRUE
#define HT_VALUE_DUMMY ((void *) 1L)
/* It is required not to have 0 or -1 for this macro.
* This is passed when hashtable callers want to use hash table just for the keys.
* Say, database code wants to create a list of blocks being read for a transactions.
* There is no corresponding value associated. For that case HT_VALUE_DUMMY will be passed as "value". */
#define HT_DELETED_ENTRY ((void *) -1L)
/* Note: We may need to change the above during 64-bit port */
#define HTENT_MARK_DELETED(tabent) (HT_DELETED_ENTRY == (tabent)->value)
#define HT_LOAD_FACTOR 50
#define HT_REHASH_FACTOR (HT_LOAD_FACTOR/2)
#define HT_REHASH_TABLE_SIZE(table) MIN(table->size, table->count * 4)
#define INSERT_HTENT(table, tabent, hkey, value) \
{ \
if (HT_DELETED_ENTRY == (tabent)->value) \
(table)->del_count--; \
(tabent)->key = *hkey; \
(tabent)->value = value; \
(table)->count++; \
}
#define COMPACT_NEEDED(table) ((!(table)->dont_compact) && (((table)->del_count > (table)->cmp_trigger_size) || \
(((table)->initial_size < (table)->size ) && ((table)->count < ((table)->cmp_trigger_size / 2)))))
/*
* This macro is used by callers outside of the hash table implementation to indicate
* whether they will request the free of the hash table base at a later point in time or
* if it should be released by the hash table implementation during an expansion/compaction.
* They must call FREE_BASE_HASHTAB() later to release the base otherwise the memory
* will be leaked.
*/
#define DEFER_BASE_REL_HASHTAB(table, deferit) \
{ \
(table)->defer_base_release = deferit; \
}
/*
* This macro is used by callers outside of the hash table implementation to indicate
* that they are no longer using the hash table base. This function only provides a "hint" to the
* hash table implementation, i.e., the base can now be freed when appropriate. This can
* mean when this function is called if we are not keeping spare bases or at a potentially
* much later time if we are using a spare base.
*/
#define FREE_BASE_HASHTAB(table, base) \
{ \
if ((table)->dont_keep_spare_table) \
free(base); \
}
/*
Different Hash Computation Macros for Strings:
All these were experminted and result is given in the design document of V5.0-000 longname project.
For now we decided to use ELF_HASH.
Do not remove the commented out section below which has all the hash functions.
We can remove them when we are certain that ELF_HASH is the best choice for us.
*/
#define STR_HASH ELF_HASH
#define ELF_HASH(sptr, len, hash, init_hashval) \
{ \
uint4 tempint; \
char *curr, *top; \
uint4 hcode; \
for (hcode = init_hashval, curr = sptr, top = sptr + len; curr < top; curr++) \
{ \
hcode = (hcode << 4) + *curr; \
if (tempint = (hcode & 0xF0000000)) \
hcode ^= tempint >> 24; \
hcode &= ~tempint; \
} \
hash = hcode; \
}
/*
#define CHAR_BITS 8
#define BITS_IN_int (SIZEOF(int) * CHAR_BITS)
#define THREE_QUARTERS (BITS_IN_int * 3 / 4)
#define ONE_EIGHTH (BITS_IN_int / 8)
#define HIGH_BITS (~((unsigned int)(~0) >> ONE_EIGHTH ))
#define PJW_HASH(sptr, len, hash, init_hashval) \
{ \
uint4 tempint; \
char *curr, *top; \
hash = init_hashval; \
for (curr = sptr, top = sptr + len; curr < top; curr++) \
{ \
hash = ( hash << ONE_EIGHTH ) + *curr; \
if ((tempint = hash & HIGH_BITS ) != 0 ) \
hash = ( hash ^ ( tempint >> THREE_QUARTERS )) & ~HIGH_BITS;\
} \
}
#define MISC1_HASH(sptr, len, hash, init_hashval) \
{ \
char *curr; \
curr = sptr; \
int indx; \
hash = init_hashval; \
for (indx = 0; indx < len; indx++, curr++) \
hash += (*curr * (len - indx)); \
}
#define MISC2_HASH(sptr, len, hash, init_hashval) \
{ \
char *curr; \
curr = sptr; \
int indx; \
hash = init_hashval; \
for (indx = 0; indx < len; indx++, curr++) \
hash = hash*31 + *curr; \
}
#define CURR_HASH(sptr, len, hash, init_hashval) \
{ \
char *ptr, tchar[MAXLEN]; \
int indx; \
uint4 temp1 = 0; \
uint4 temp2 = 0; \
memset(tchar, 0, MAXLEN); \
memcpy(tchar, sptr, len); \
ptr = &tchar[0]; \
for ( indx = 0; indx < 4; indx++, ptr++) \
temp1 = temp1 * 256 + *ptr ; \
for ( ; indx < 8; indx++, ptr++) \
temp2 = temp2 * 256 + *ptr ; \
hash = (temp1 << 1) ^ (temp2) ; \
}
*/
#endif