portable/src/phashtable.c - platform/external/srec - Git at Google

 /*---------------------------------------------------------------------------*
  *  phashtable.c  *
  *                                                                           *
  *  Copyright 2007, 2008 Nuance Communciations, Inc.                               *
  *                                                                           *
  *  Licensed under the Apache License, Version 2.0 (the 'License');          *
  *  you may not use this file except in compliance with the License.         *
  *                                                                           *
  *  You may obtain a copy of the License at                                  *
  *      http://www.apache.org/licenses/LICENSE-2.0                           *
  *                                                                           *
  *  Unless required by applicable law or agreed to in writing, software      *
  *  distributed under the License is distributed on an 'AS IS' BASIS,        *
  *  WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. *
  *  See the License for the specific language governing permissions and      *
  *  limitations under the License.                                           *
  *                                                                           *
  *---------------------------------------------------------------------------*/


 #include <string.h>

 #include "phashtable.h"
 #include "plog.h"
 #include "pmemory.h"
 #include "pstdio.h"

 //extern int strcmp(const char * s1,  const char * s2);

 #define ALLOC_SIZE 16

 struct PHashTableEntry_t
 {
   const void *key;
   const void *value;
   PHashTable *table;
   unsigned int idx;
   PHashTableEntry *next;
   PHashTableEntry *prev;
   unsigned int hashCode;
 };

 typedef struct PHashTableEntryBlock_t
 {
   PHashTableEntry entries[ALLOC_SIZE];
   struct PHashTableEntryBlock_t *next;
 }
 PHashTableEntryBlock;


 struct PHashTable_t
 {
   PHashTableArgs args;
   const LCHAR *memoryTag;
   unsigned int size;
   float maxLoadFactor;
   PHashTableEntry **entries;
   unsigned int threshold;
   PHashTableEntry *freeList;
   PHashTableEntryBlock *entryBlock;
 };

 #include "pcrc.h"

 static unsigned int hashString(const void *key)
 {
   return ~pcrcComputeString(key);
 }

 ESR_ReturnCode PHashTableCreate(PHashTableArgs *args,
                                 const LCHAR *memTag,
                                 PHashTable **table)
 {
   PHashTable *tmp;
   unsigned int i;

   if (table == NULL ||
       (args != NULL && args->maxLoadFactor <= 0.0))
     return ESR_INVALID_ARGUMENT;


   if ((tmp = NEW(PHashTable, memTag)) == NULL)
     return ESR_OUT_OF_MEMORY;

   if (args == NULL)
   {
     tmp->args.capacity = PHASH_TABLE_DEFAULT_CAPACITY;
     tmp->args.maxLoadFactor = PHASH_TABLE_DEFAULT_MAX_LOAD_FACTOR;
     tmp->args.hashFunction = PHASH_TABLE_DEFAULT_HASH_FUNCTION;
     tmp->args.compFunction = PHASH_TABLE_DEFAULT_COMP_FUNCTION;
   }
   else
   {
     memcpy(&tmp->args, args, sizeof(PHashTableArgs));
   }
   if (tmp->args.hashFunction == PHASH_TABLE_DEFAULT_HASH_FUNCTION)
     tmp->args.hashFunction = hashString;

   if (tmp->args.compFunction == PHASH_TABLE_DEFAULT_COMP_FUNCTION)
     tmp->args.compFunction = LSTRCMP;

   tmp->entries = NEW_ARRAY(PHashTableEntry *, tmp->args.capacity, memTag);

   if (tmp->entries == NULL)
   {
     FREE(tmp);
     return ESR_OUT_OF_MEMORY;
   }

   for (i = tmp->args.capacity; i > 0;)
   {
     tmp->entries[--i] = NULL;
   }

   tmp->memoryTag = memTag;
   tmp->size = 0;
   tmp->threshold = (unsigned int)(tmp->args.capacity * tmp->args.maxLoadFactor);
   tmp->freeList = NULL;
   tmp->entryBlock = NULL;

   *table = tmp;
   return ESR_SUCCESS;
 }

 ESR_ReturnCode PHashTableDestroy(PHashTable *table)
 {
   PHashTableEntryBlock *tmp, *block;

   if (table == NULL)
     return ESR_INVALID_ARGUMENT;

   block = table->entryBlock;
   while (block != NULL)
   {
     tmp = block->next;
     FREE(block);
     block = tmp;
   }

   FREE(table->entries);
   FREE(table);
   return ESR_SUCCESS;
 }

 ESR_ReturnCode PHashTableGetSize(PHashTable *table,
                                  size_t *size)
 {
   if (table == NULL || size == NULL)
     return ESR_INVALID_ARGUMENT;

   *size = table->size;
   return ESR_SUCCESS;
 }

 static PHashTableEntry *getEntry(PHashTable *table,
                                  const void *key,
                                  unsigned int hashCode,
                                  unsigned int idx)
 {
   PHashTableEntry *entry = table->entries[idx];

   if (key == NULL)
   {
     while (entry != NULL)
     {
       if (entry->key == NULL)
         return entry;

       entry = entry->next;
     }
   }
   else
   {
     while (entry != NULL)
     {
       if (entry->hashCode == hashCode && table->args.compFunction(key, entry->key) == 0)
         return entry;

       entry = entry->next;
     }
   }

   return NULL;
 }

 static void removeEntry(PHashTableEntry *entry)
 {
   if (entry->prev == NULL)
     entry->table->entries[entry->idx] = entry->next;
   else
     entry->prev->next = entry->next;

   if (entry->next != NULL)
     entry->next->prev = entry->prev;

   entry->table->size--;

   entry->next = entry->table->freeList;
   entry->table->freeList = entry;
   /* clean up entry for re-use. */
   entry->key = entry->value = NULL;
 }

 ESR_ReturnCode PHashTableGetValue(PHashTable *table, const void *key, void **value)
 {
   PHashTableEntry *entry;
   unsigned int hashCode;
   unsigned int idx;

   if (table == NULL || value == NULL)
     return ESR_INVALID_ARGUMENT;

   hashCode = table->args.hashFunction(key);
   idx = hashCode % table->args.capacity;
   if ((entry = getEntry(table, key, hashCode, idx)) != NULL)
   {
     *value = (void *) entry->value;
     return ESR_SUCCESS;
   }
   else
   {
     *value = NULL;
     return ESR_NO_MATCH_ERROR;
   }
 }

 ESR_ReturnCode PHashTableContainsKey(PHashTable *table, const void *key, ESR_BOOL* exists)
 {
   ESR_ReturnCode rc;
   PHashTableEntry* entry;

   if (table == NULL || exists == NULL)
   {
     rc = ESR_INVALID_ARGUMENT;
     PLogError(ESR_rc2str(rc));
     goto CLEANUP;
   }
   rc = PHashTableGetEntry(table, key, &entry);
   if (rc == ESR_SUCCESS)
     *exists = ESR_TRUE;
   else if (rc == ESR_NO_MATCH_ERROR)
     *exists = ESR_FALSE;
   else
     goto CLEANUP;

   return ESR_SUCCESS;
 CLEANUP:
   return rc;
 }

 ESR_ReturnCode PHashTableGetEntry(PHashTable *table, const void *key, PHashTableEntry **entry)
 {
   unsigned int hashCode;
   unsigned int idx;
   PHashTableEntry* result;

   if (table == NULL || entry == NULL)
     return ESR_INVALID_ARGUMENT;

   hashCode = table->args.hashFunction(key);
   idx = hashCode % table->args.capacity;

   result = getEntry(table, key, hashCode, idx);
   if (result == NULL)
     return ESR_NO_MATCH_ERROR;
   *entry = result;
   return ESR_SUCCESS;
 }

 static ESR_ReturnCode PHashTableRehash(PHashTable *table)
 {
   unsigned int i, idx;
   unsigned int oldCapacity = table->args.capacity;
   unsigned int newCapacity = ((oldCapacity << 1) | 0x01);
   PHashTableEntry *entry, *tmp, *next;

   PHashTableEntry **newEntries =
     (PHashTableEntry **)
     REALLOC(table->entries,
             sizeof(PHashTableEntry *) * newCapacity);

   if (newEntries == NULL)
     return ESR_OUT_OF_MEMORY;

   table->entries = newEntries;
   table->args.capacity = newCapacity;
   table->threshold = (unsigned int)(newCapacity * table->args.maxLoadFactor);

   for (i = oldCapacity; i < newCapacity; ++i)
   {
     table->entries[i] = NULL;
   }

   for (i = 0; i < oldCapacity; i++)
   {
     for (entry = table->entries[i]; entry != NULL;)
     {
       idx = entry->hashCode % newCapacity;
       if (idx != i)
       {
         /* Need to change location. */
         entry->idx = idx;

         next = entry->next;

         if (entry->prev != NULL)
           entry->prev->next = next;
         else
           table->entries[i] = next;

         if (next != NULL)
           next->prev = entry->prev;

         tmp = table->entries[idx];
         entry->next = tmp;
         entry->prev = NULL;
         if (tmp != NULL)
           tmp->prev = entry;
         table->entries[idx] = entry;

         entry = next;
       }
       else
       {
         /* Already in the right slot. */
         entry = entry->next;
       }
     }
   }
   return ESR_SUCCESS;
 }


 ESR_ReturnCode PHashTablePutValue(PHashTable *table,
                                   const void *key,
                                   const void *value,
                                   void **oldValue)
 {
   ESR_ReturnCode rc = ESR_SUCCESS;
   unsigned int hashCode, idx;
   PHashTableEntry *entry;

   if (table == NULL) return ESR_INVALID_ARGUMENT;
   hashCode = table->args.hashFunction(key);
   idx = hashCode % table->args.capacity;

   entry = getEntry(table, key, hashCode, idx);
   if (entry != NULL)
   {
     if (oldValue != NULL) *oldValue = (void *) entry->value;
     entry->value = value;
     return ESR_SUCCESS;
   }

   /* If we get here, we need to add a new entry.  But first, verify if we need
      to rehash. */
   if (table->size >= table->threshold)
   {
     if ((rc = PHashTableRehash(table)) != ESR_SUCCESS)
       return rc;
     idx = hashCode % table->args.capacity;
   }

   if (table->freeList == NULL)
   {
     /* Allocate a new block and put all entries on the free list. */
     PHashTableEntryBlock *block;
     int i;

     block = NEW(PHashTableEntryBlock, table->memoryTag);
     if (block == NULL)
       return ESR_OUT_OF_MEMORY;

     block->next = table->entryBlock;
     table->entryBlock = block;

     for (i = 0; i < ALLOC_SIZE - 1; ++i)
     {
       block->entries[i].next = &block->entries[i+1];
     }
     block->entries[ALLOC_SIZE-1].next = NULL;

     /* do not see any bug in following code. But on the VxWorks with optimization option -O3
       it produces wrong result: block->entries[0].next is correct but block->entries[1].next = NULL
       it causes lot of memory wastes.
     for (i = 0, entry = block->entries; i < ALLOC_SIZE - 1; ++i, ++entry)
     {
       entry->next = entry+1;
     }
     entry->next = table->freeList;
     */

     table->freeList = block->entries;
   }

   /* Get an entry from the freeList. */
   entry = table->freeList;
   table->freeList = entry->next;

   /* Initialize entry data structure. */
   entry->table = table;
   entry->idx = idx;
   entry->key = key;
   entry->value = value;
   entry->hashCode = hashCode;
   entry->next = table->entries[idx];
   entry->prev = NULL;
   if (entry->next != NULL)
     entry->next->prev = entry;
   table->entries[idx] = entry;
   table->size++;

   if (oldValue != NULL) *oldValue = NULL;
   return ESR_SUCCESS;
 }


 ESR_ReturnCode PHashTableRemoveValue(PHashTable *table,
                                      const void *key,
                                      void **oldValue)
 {
   unsigned int hashCode, idx;
   PHashTableEntry *entry;
   ESR_ReturnCode rc;

   if (table == NULL)
   {
     rc = ESR_INVALID_ARGUMENT;
     PLogError(ESR_rc2str(rc));
     goto CLEANUP;
   }

   hashCode = table->args.hashFunction(key);
   idx = hashCode % table->args.capacity;

   entry = getEntry(table, key, hashCode, idx);
   if (entry != NULL)
   {
     if (oldValue != NULL)
       *oldValue = (void*) entry->value;
     removeEntry(entry);
   }
   else
   {
     if (oldValue != NULL)
       *oldValue = NULL;
   }
   return ESR_SUCCESS;
 CLEANUP:
   return rc;
 }

 ESR_ReturnCode PHashTableEntryGetKeyValue(PHashTableEntry *entry,
     void **key,
     void **value)
 {
   if (entry == NULL) return ESR_INVALID_ARGUMENT;

   if (key != NULL) *key = (void *) entry->key;
   if (value != NULL) *value = (void *) entry->value;
   return ESR_SUCCESS;
 }


 /**
  * Sets the value associated with this entry.
  * @param entry The hashtable entry.
  * @param value The value to associate with the entry.
  * @param oldvalue If this pointer is non-NULL, it will be set to the previous value associated with this entry.
  **/
 ESR_ReturnCode PHashTableEntrySetValue(PHashTableEntry *entry,
                                        const void *value,
                                        void **oldValue)
 {
   if (entry == NULL) return ESR_INVALID_ARGUMENT;

   if (oldValue != NULL) *oldValue = (void *) entry->value;
   entry->value = value;
   return ESR_SUCCESS;
 }


 /**
  * Removes the entry from its hash table.
  *
  * @param entry The hashtable entry.
  **/
 ESR_ReturnCode PHashTableEntryRemove(PHashTableEntry *entry)
 {
   if (entry == NULL)
     return ESR_INVALID_ARGUMENT;

   removeEntry(entry);

   return ESR_SUCCESS;
 }

 static PHashTableEntry* iteratorAdvance(PHashTable *table, PHashTableEntry *entry)
 {
   unsigned int idx;

   if (entry != NULL)
   {
     idx = entry->idx;
     entry = entry->next;
     if (entry == NULL)
     {
       while (++idx < table->args.capacity)
       {
         if (table->entries[idx] != NULL)
         {
           entry = table->entries[idx];
           break;
         }
       }
     }
   }
   else
   {
     for (idx = 0; idx < table->args.capacity; ++idx)
     {
       if (table->entries[idx] != NULL)
       {
         entry = table->entries[idx];
         break;
       }
     }
   }
   return entry;
 }


 ESR_ReturnCode PHashTableEntryGetFirst(PHashTable *table, PHashTableEntry **entry)
 {
   if (table == NULL || entry == NULL)
     return ESR_INVALID_ARGUMENT;

   *entry = iteratorAdvance(table, NULL);
   return ESR_SUCCESS;
 }

 /**
  * Iterates on the next key and value.  Returns a NULL key when at the end of the hash table.
  *
  * @param iter The iterator on which the iteration is performed.
  * @param key Returns the key associated with the entry, cannot be NULL.
  * @param value If non-NULL, returns the value associated with the entry.
  **/
 ESR_ReturnCode PHashTableEntryAdvance(PHashTableEntry **entry)
 {
   if (entry == NULL || *entry == NULL)
     return ESR_INVALID_ARGUMENT;

   *entry = iteratorAdvance((*entry)->table, *entry);
   return ESR_SUCCESS;
 }
	/---------------------------------------------------------------------------
	* phashtable.c *
	* *
	* Copyright 2007, 2008 Nuance Communciations, Inc. *
	* *
	* Licensed under the Apache License, Version 2.0 (the 'License'); *
	* you may not use this file except in compliance with the License. *
	* *
	* You may obtain a copy of the License at *
	* http://www.apache.org/licenses/LICENSE-2.0 *
	* *
	* Unless required by applicable law or agreed to in writing, software *
	* distributed under the License is distributed on an 'AS IS' BASIS, *
	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. *
	* See the License for the specific language governing permissions and *
	* limitations under the License. *
	* *
	---------------------------------------------------------------------------/






	#include <string.h>

	#include "phashtable.h"
	#include "plog.h"
	#include "pmemory.h"
	#include "pstdio.h"

	//extern int strcmp(const char * s1, const char * s2);

	#define ALLOC_SIZE 16

	struct PHashTableEntry_t
	{
	const void *key;
	const void *value;
	PHashTable *table;
	unsigned int idx;
	PHashTableEntry *next;
	PHashTableEntry *prev;
	unsigned int hashCode;
	};

	typedef struct PHashTableEntryBlock_t
	{
	PHashTableEntry entries[ALLOC_SIZE];
	struct PHashTableEntryBlock_t *next;
	}
	PHashTableEntryBlock;


	struct PHashTable_t
	{
	PHashTableArgs args;
	const LCHAR *memoryTag;
	unsigned int size;
	float maxLoadFactor;
	PHashTableEntry **entries;
	unsigned int threshold;
	PHashTableEntry *freeList;
	PHashTableEntryBlock *entryBlock;
	};

	#include "pcrc.h"

	static unsigned int hashString(const void *key)
	{
	return ~pcrcComputeString(key);
	}

	ESR_ReturnCode PHashTableCreate(PHashTableArgs *args,
	const LCHAR *memTag,
	PHashTable **table)
	{
	PHashTable *tmp;
	unsigned int i;

	if (table == NULL \|\|
	(args != NULL && args->maxLoadFactor <= 0.0))
	return ESR_INVALID_ARGUMENT;


	if ((tmp = NEW(PHashTable, memTag)) == NULL)
	return ESR_OUT_OF_MEMORY;

	if (args == NULL)
	{
	tmp->args.capacity = PHASH_TABLE_DEFAULT_CAPACITY;
	tmp->args.maxLoadFactor = PHASH_TABLE_DEFAULT_MAX_LOAD_FACTOR;
	tmp->args.hashFunction = PHASH_TABLE_DEFAULT_HASH_FUNCTION;
	tmp->args.compFunction = PHASH_TABLE_DEFAULT_COMP_FUNCTION;
	}
	else
	{
	memcpy(&tmp->args, args, sizeof(PHashTableArgs));
	}
	if (tmp->args.hashFunction == PHASH_TABLE_DEFAULT_HASH_FUNCTION)
	tmp->args.hashFunction = hashString;

	if (tmp->args.compFunction == PHASH_TABLE_DEFAULT_COMP_FUNCTION)
	tmp->args.compFunction = LSTRCMP;

	tmp->entries = NEW_ARRAY(PHashTableEntry *, tmp->args.capacity, memTag);

	if (tmp->entries == NULL)
	{
	FREE(tmp);
	return ESR_OUT_OF_MEMORY;
	}

	for (i = tmp->args.capacity; i > 0;)
	{
	tmp->entries[--i] = NULL;
	}

	tmp->memoryTag = memTag;
	tmp->size = 0;
	tmp->threshold = (unsigned int)(tmp->args.capacity * tmp->args.maxLoadFactor);
	tmp->freeList = NULL;
	tmp->entryBlock = NULL;

	*table = tmp;
	return ESR_SUCCESS;
	}

	ESR_ReturnCode PHashTableDestroy(PHashTable *table)
	{
	PHashTableEntryBlock tmp, block;

	if (table == NULL)
	return ESR_INVALID_ARGUMENT;

	block = table->entryBlock;
	while (block != NULL)
	{
	tmp = block->next;
	FREE(block);
	block = tmp;
	}

	FREE(table->entries);
	FREE(table);
	return ESR_SUCCESS;
	}

	ESR_ReturnCode PHashTableGetSize(PHashTable *table,
	size_t *size)
	{
	if (table == NULL \|\| size == NULL)
	return ESR_INVALID_ARGUMENT;

	*size = table->size;
	return ESR_SUCCESS;
	}

	static PHashTableEntry getEntry(PHashTable table,
	const void *key,
	unsigned int hashCode,
	unsigned int idx)
	{
	PHashTableEntry *entry = table->entries[idx];

	if (key == NULL)
	{
	while (entry != NULL)
	{
	if (entry->key == NULL)
	return entry;

	entry = entry->next;
	}
	}
	else
	{
	while (entry != NULL)
	{
	if (entry->hashCode == hashCode && table->args.compFunction(key, entry->key) == 0)
	return entry;

	entry = entry->next;
	}
	}

	return NULL;
	}

	static void removeEntry(PHashTableEntry *entry)
	{
	if (entry->prev == NULL)
	entry->table->entries[entry->idx] = entry->next;
	else
	entry->prev->next = entry->next;

	if (entry->next != NULL)
	entry->next->prev = entry->prev;

	entry->table->size--;

	entry->next = entry->table->freeList;
	entry->table->freeList = entry;
	/* clean up entry for re-use. */
	entry->key = entry->value = NULL;
	}

	ESR_ReturnCode PHashTableGetValue(PHashTable table, const void key, void **value)
	{
	PHashTableEntry *entry;
	unsigned int hashCode;
	unsigned int idx;

	if (table == NULL \|\| value == NULL)
	return ESR_INVALID_ARGUMENT;

	hashCode = table->args.hashFunction(key);
	idx = hashCode % table->args.capacity;
	if ((entry = getEntry(table, key, hashCode, idx)) != NULL)
	{
	value = (void ) entry->value;
	return ESR_SUCCESS;
	}
	else
	{
	*value = NULL;
	return ESR_NO_MATCH_ERROR;
	}
	}

	ESR_ReturnCode PHashTableContainsKey(PHashTable table, const void key, ESR_BOOL* exists)
	{
	ESR_ReturnCode rc;
	PHashTableEntry* entry;

	if (table == NULL \|\| exists == NULL)
	{
	rc = ESR_INVALID_ARGUMENT;
	PLogError(ESR_rc2str(rc));
	goto CLEANUP;
	}
	rc = PHashTableGetEntry(table, key, &entry);
	if (rc == ESR_SUCCESS)
	*exists = ESR_TRUE;
	else if (rc == ESR_NO_MATCH_ERROR)
	*exists = ESR_FALSE;
	else
	goto CLEANUP;

	return ESR_SUCCESS;
	CLEANUP:
	return rc;
	}

	ESR_ReturnCode PHashTableGetEntry(PHashTable table, const void key, PHashTableEntry **entry)
	{
	unsigned int hashCode;
	unsigned int idx;
	PHashTableEntry* result;

	if (table == NULL \|\| entry == NULL)
	return ESR_INVALID_ARGUMENT;

	hashCode = table->args.hashFunction(key);
	idx = hashCode % table->args.capacity;

	result = getEntry(table, key, hashCode, idx);
	if (result == NULL)
	return ESR_NO_MATCH_ERROR;
	*entry = result;
	return ESR_SUCCESS;
	}

	static ESR_ReturnCode PHashTableRehash(PHashTable *table)
	{
	unsigned int i, idx;
	unsigned int oldCapacity = table->args.capacity;
	unsigned int newCapacity = ((oldCapacity << 1) \| 0x01);
	PHashTableEntry entry, tmp, *next;

	PHashTableEntry **newEntries =
	(PHashTableEntry **)
	REALLOC(table->entries,
	sizeof(PHashTableEntry ) newCapacity);

	if (newEntries == NULL)
	return ESR_OUT_OF_MEMORY;

	table->entries = newEntries;
	table->args.capacity = newCapacity;
	table->threshold = (unsigned int)(newCapacity * table->args.maxLoadFactor);

	for (i = oldCapacity; i < newCapacity; ++i)
	{
	table->entries[i] = NULL;
	}

	for (i = 0; i < oldCapacity; i++)
	{
	for (entry = table->entries[i]; entry != NULL;)
	{
	idx = entry->hashCode % newCapacity;
	if (idx != i)
	{
	/* Need to change location. */
	entry->idx = idx;

	next = entry->next;

	if (entry->prev != NULL)
	entry->prev->next = next;
	else
	table->entries[i] = next;

	if (next != NULL)
	next->prev = entry->prev;

	tmp = table->entries[idx];
	entry->next = tmp;
	entry->prev = NULL;
	if (tmp != NULL)
	tmp->prev = entry;
	table->entries[idx] = entry;

	entry = next;
	}
	else
	{
	/* Already in the right slot. */
	entry = entry->next;
	}
	}
	}
	return ESR_SUCCESS;
	}


	ESR_ReturnCode PHashTablePutValue(PHashTable *table,
	const void *key,
	const void *value,
	void **oldValue)
	{
	ESR_ReturnCode rc = ESR_SUCCESS;
	unsigned int hashCode, idx;
	PHashTableEntry *entry;

	if (table == NULL) return ESR_INVALID_ARGUMENT;
	hashCode = table->args.hashFunction(key);
	idx = hashCode % table->args.capacity;

	entry = getEntry(table, key, hashCode, idx);
	if (entry != NULL)
	{
	if (oldValue != NULL) oldValue = (void ) entry->value;
	entry->value = value;
	return ESR_SUCCESS;
	}

	/* If we get here, we need to add a new entry. But first, verify if we need
	to rehash. */
	if (table->size >= table->threshold)
	{
	if ((rc = PHashTableRehash(table)) != ESR_SUCCESS)
	return rc;
	idx = hashCode % table->args.capacity;
	}

	if (table->freeList == NULL)
	{
	/* Allocate a new block and put all entries on the free list. */
	PHashTableEntryBlock *block;
	int i;

	block = NEW(PHashTableEntryBlock, table->memoryTag);
	if (block == NULL)
	return ESR_OUT_OF_MEMORY;

	block->next = table->entryBlock;
	table->entryBlock = block;

	for (i = 0; i < ALLOC_SIZE - 1; ++i)
	{
	block->entries[i].next = &block->entries[i+1];
	}
	block->entries[ALLOC_SIZE-1].next = NULL;

	/* do not see any bug in following code. But on the VxWorks with optimization option -O3
	it produces wrong result: block->entries[0].next is correct but block->entries[1].next = NULL
	it causes lot of memory wastes.
	for (i = 0, entry = block->entries; i < ALLOC_SIZE - 1; ++i, ++entry)
	{
	entry->next = entry+1;
	}
	entry->next = table->freeList;
	*/

	table->freeList = block->entries;
	}

	/* Get an entry from the freeList. */
	entry = table->freeList;
	table->freeList = entry->next;

	/* Initialize entry data structure. */
	entry->table = table;
	entry->idx = idx;
	entry->key = key;
	entry->value = value;
	entry->hashCode = hashCode;
	entry->next = table->entries[idx];
	entry->prev = NULL;
	if (entry->next != NULL)
	entry->next->prev = entry;
	table->entries[idx] = entry;
	table->size++;

	if (oldValue != NULL) *oldValue = NULL;
	return ESR_SUCCESS;
	}


	ESR_ReturnCode PHashTableRemoveValue(PHashTable *table,
	const void *key,
	void **oldValue)
	{
	unsigned int hashCode, idx;
	PHashTableEntry *entry;
	ESR_ReturnCode rc;

	if (table == NULL)
	{
	rc = ESR_INVALID_ARGUMENT;
	PLogError(ESR_rc2str(rc));
	goto CLEANUP;
	}

	hashCode = table->args.hashFunction(key);
	idx = hashCode % table->args.capacity;

	entry = getEntry(table, key, hashCode, idx);
	if (entry != NULL)
	{
	if (oldValue != NULL)
	oldValue = (void) entry->value;
	removeEntry(entry);
	}
	else
	{
	if (oldValue != NULL)
	*oldValue = NULL;
	}
	return ESR_SUCCESS;
	CLEANUP:
	return rc;
	}

	ESR_ReturnCode PHashTableEntryGetKeyValue(PHashTableEntry *entry,
	void **key,
	void **value)
	{
	if (entry == NULL) return ESR_INVALID_ARGUMENT;

	if (key != NULL) key = (void ) entry->key;
	if (value != NULL) value = (void ) entry->value;
	return ESR_SUCCESS;
	}


	/**
	* Sets the value associated with this entry.
	* @param entry The hashtable entry.
	* @param value The value to associate with the entry.
	* @param oldvalue If this pointer is non-NULL, it will be set to the previous value associated with this entry.
	**/
	ESR_ReturnCode PHashTableEntrySetValue(PHashTableEntry *entry,
	const void *value,
	void **oldValue)
	{
	if (entry == NULL) return ESR_INVALID_ARGUMENT;

	if (oldValue != NULL) oldValue = (void ) entry->value;
	entry->value = value;
	return ESR_SUCCESS;
	}


	/**
	* Removes the entry from its hash table.
	*
	* @param entry The hashtable entry.
	**/
	ESR_ReturnCode PHashTableEntryRemove(PHashTableEntry *entry)
	{
	if (entry == NULL)
	return ESR_INVALID_ARGUMENT;

	removeEntry(entry);

	return ESR_SUCCESS;
	}

	static PHashTableEntry* iteratorAdvance(PHashTable table, PHashTableEntry entry)
	{
	unsigned int idx;

	if (entry != NULL)
	{
	idx = entry->idx;
	entry = entry->next;
	if (entry == NULL)
	{
	while (++idx < table->args.capacity)
	{
	if (table->entries[idx] != NULL)
	{
	entry = table->entries[idx];
	break;
	}
	}
	}
	}
	else
	{
	for (idx = 0; idx < table->args.capacity; ++idx)
	{
	if (table->entries[idx] != NULL)
	{
	entry = table->entries[idx];
	break;
	}
	}
	}
	return entry;
	}


	ESR_ReturnCode PHashTableEntryGetFirst(PHashTable table, PHashTableEntry *entry)
	{
	if (table == NULL \|\| entry == NULL)
	return ESR_INVALID_ARGUMENT;

	*entry = iteratorAdvance(table, NULL);
	return ESR_SUCCESS;
	}

	/**
	* Iterates on the next key and value. Returns a NULL key when at the end of the hash table.
	*
	* @param iter The iterator on which the iteration is performed.
	* @param key Returns the key associated with the entry, cannot be NULL.
	* @param value If non-NULL, returns the value associated with the entry.
	**/
	ESR_ReturnCode PHashTableEntryAdvance(PHashTableEntry **entry)
	{
	if (entry == NULL \|\| *entry == NULL)
	return ESR_INVALID_ARGUMENT;

	entry = iteratorAdvance((entry)->table, *entry);
	return ESR_SUCCESS;
	}