typedef struct Payload Payload;
+/**
+ * @brief Hash Payload storage Structure; filled in linear.
+ */
struct Payload {
- /**
- * \brief Hash Payload storage Structure; filled in linear.
- */
void *Data; /**< the Data belonging to this storage */
DeleteHashDataFunc Destructor; /**< if we want to destroy Data, do it with this function. */
};
+
+/**
+ * @brief Hash key element; sorted by key
+ */
struct HashKey {
- /**
- * \brief Hash key element; sorted by key
- */
long Key; /**< Numeric Hashkey comperator for hash sorting */
long Position; /**< Pointer to a Payload struct in the Payload Aray */
char *HashKey; /**< the Plaintext Hashkey */
Payload *PL; /**< pointer to our payload for sorting */
};
+/**
+ * @brief Hash structure; holds arrays of Hashkey and Payload.
+ */
struct HashList {
- /**
- * \brief Hash structure; holds arrays of Hashkey and Payload.
- */
Payload **Members; /**< Our Payload members. This fills up linear */
HashKey **LookupTable; /**< Hash Lookup table. Elements point to members, and are sorted by their hashvalue */
char **MyKeys; /**< this keeps the members for a call of GetHashKeys */
HashFunc Algorithm; /**< should we use an alternating algorithm to calc the hash values? */
long nMembersUsed; /**< how many pointers inside of the array are used? */
+ long nLookupTableItems; /**< how many items of the lookup table are used? */
long MemberSize; /**< how big is Members and LookupTable? */
long tainted; /**< if 0, we're hashed, else s.b. else sorted us in his own way. */
long uniq; /**< are the keys going to be uniq? */
};
+/**
+ * @brief Anonymous Hash Iterator Object. used for traversing the whole array from outside
+ */
struct HashPos {
- /**
- * \brief Anonymous Hash Iterator Object. used for traversing the whole array from outside
- */
- long Position;
- int StepWidth;
+ long Position; /**< Position inside of the hash */
+ int StepWidth; /**< small? big? forward? backward? */
};
/**
- * \brief Iterate over the hash and call PrintEntry.
- * \param Hash your Hashlist structure
- * \param Trans is called so you could for example print 'A:' if the next entries are like that.
+ * @brief Iterate over the hash and call PrintEntry.
+ * @param Hash your Hashlist structure
+ * @param Trans is called so you could for example print 'A:' if the next entries are like that.
* Must be aware to receive NULL in both pointers.
- * \param PrintEntry print entry one by one
+ * @param PrintEntry print entry one by one
* \returns the number of items printed
*/
int PrintHash(HashList *Hash, TransitionFunc Trans, PrintHashDataFunc PrintEntry)
if (Hash == NULL)
return 0;
- for (i=0; i < Hash->nMembersUsed; i++) {
+ for (i=0; i < Hash->nLookupTableItems; i++) {
if (i==0) {
Previous = NULL;
}
/**
- * \brief verify the contents of a hash list; here for debugging purposes.
- * \param Hash your Hashlist structure
- * \param First Functionpointer to allow you to print your payload
- * \param Second Functionpointer to allow you to print your payload
+ * @brief verify the contents of a hash list; here for debugging purposes.
+ * @param Hash your Hashlist structure
+ * @param First Functionpointer to allow you to print your payload
+ * @param Second Functionpointer to allow you to print your payload
* \returns 0
*/
int dbg_PrintHash(HashList *Hash, PrintHashContent First, PrintHashContent Second)
if (Hash->MyKeys != NULL)
free (Hash->MyKeys);
- Hash->MyKeys = (char**) malloc(sizeof(char*) * Hash->nMembersUsed);
+ Hash->MyKeys = (char**) malloc(sizeof(char*) * Hash->nLookupTableItems);
#ifdef DEBUG
printf("----------------------------------\n");
#endif
- for (i=0; i < Hash->nMembersUsed; i++) {
+ for (i=0; i < Hash->nLookupTableItems; i++) {
if (Hash->LookupTable[i] == NULL)
{
/**
- * \brief instanciate a new hashlist
+ * @brief instanciate a new hashlist
* \returns the newly allocated list.
*/
HashList *NewHash(int Uniq, HashFunc F)
int GetCount(HashList *Hash)
{
if(Hash==NULL) return 0;
- return Hash->nMembersUsed;
+ return Hash->nLookupTableItems;
}
/**
- * \brief private destructor for one hash element.
+ * @brief private destructor for one hash element.
* Crashing? go one frame up and do 'print *FreeMe->LookupTable[i]'
- * \param Data an element to free using the user provided destructor, or just plain free
+ * @param Data an element to free using the user provided destructor, or just plain free
*/
static void DeleteHashPayload (Payload *Data)
{
}
/**
- * \brief Destructor for nested hashes
+ * @brief Destructor for nested hashes
*/
void HDeleteHash(void *vHash)
{
}
/**
- * \brief destroy a hashlist and all of its members
+ * @brief destroy a hashlist and all of its members
* Crashing? do 'print *FreeMe->LookupTable[i]'
- * \param Hash Hash to destroy. Is NULL'ed so you are shure its done.
+ * @param Hash Hash to destroy. Is NULL'ed so you are shure its done.
*/
void DeleteHash(HashList **Hash)
{
FreeMe = *Hash;
if (FreeMe == NULL)
return;
+ /* even if there are sparse members already deleted... */
for (i=0; i < FreeMe->nMembersUsed; i++)
{
/** get rid of our payload */
}
/**
- * \brief Private function to increase the hash size.
- * \param Hash the Hasharray to increase
+ * @brief Private function to increase the hash size.
+ * @param Hash the Hasharray to increase
*/
static void IncreaseHashSize(HashList *Hash)
{
if (Hash == NULL)
return ;
+ /** If we grew to much, this might be the place to rehash and shrink again.
+ if ((Hash->NMembersUsed > Hash->nLookupTableItems) &&
+ ((Hash->NMembersUsed - Hash->nLookupTableItems) >
+ (Hash->nLookupTableItems / 10)))
+ {
+
+
+ }
+ */
+
/** double our payload area */
NewPayloadArea = (Payload**) malloc(sizeof(Payload*) * Hash->MemberSize * 2);
memset(&NewPayloadArea[Hash->MemberSize], 0, sizeof(Payload*) * Hash->MemberSize);
/**
- * \brief private function to add a new item to / replace an existing in - the hashlist
+ * @brief private function to add a new item to / replace an existing in - the hashlist
* if the hash list is full, its re-alloced with double size.
* \parame Hash our hashlist to manipulate
- * \param HashPos where should we insert / replace?
- * \param HashKeyStr the Hash-String
- * \param HKLen length of HashKeyStr
- * \param Data your Payload to add
- * \param Destructor Functionpointer to free Data. if NULL, default free() is used.
+ * @param HashPos where should we insert / replace?
+ * @param HashKeyStr the Hash-String
+ * @param HKLen length of HashKeyStr
+ * @param Data your Payload to add
+ * @param Destructor Functionpointer to free Data. if NULL, default free() is used.
*/
static void InsertHashItem(HashList *Hash,
long HashPos,
/** our payload is queued at the end... */
NewHashKey->Position = Hash->nMembersUsed;
/** but if we should be sorted into a specific place... */
- if ((Hash->nMembersUsed != 0) &&
- (HashPos != Hash->nMembersUsed) ) {
+ if ((Hash->nLookupTableItems != 0) &&
+ (HashPos != Hash->nLookupTableItems) ) {
long ItemsAfter;
- ItemsAfter = Hash->nMembersUsed - HashPos;
+ ItemsAfter = Hash->nLookupTableItems - HashPos;
/** make space were we can fill us in */
if (ItemsAfter > 0)
{
Hash->Members[Hash->nMembersUsed] = NewPayloadItem;
Hash->LookupTable[HashPos] = NewHashKey;
Hash->nMembersUsed++;
+ Hash->nLookupTableItems++;
}
/**
- * \brief if the user has tainted the hash, but wants to insert / search items by their key
+ * @brief if the user has tainted the hash, but wants to insert / search items by their key
* we need to search linear through the array. You have been warned that this will take more time!
- * \param Hash Our Hash to manipulate
- * \param HashBinKey the Hash-Number to lookup.
+ * @param Hash Our Hash to manipulate
+ * @param HashBinKey the Hash-Number to lookup.
* \returns the position (most closely) matching HashBinKey (-> Caller needs to compare! )
*/
static long FindInTaintedHash(HashList *Hash, long HashBinKey)
if (Hash == NULL)
return 0;
- for (SearchPos = 0; SearchPos < Hash->nMembersUsed; SearchPos ++) {
+ for (SearchPos = 0; SearchPos < Hash->nLookupTableItems; SearchPos ++) {
if (Hash->LookupTable[SearchPos]->Key == HashBinKey){
return SearchPos;
}
}
/**
- * \brief Private function to lookup the Item / the closest position to put it in
- * \param Hash Our Hash to manipulate
- * \param HashBinKey the Hash-Number to lookup.
+ * @brief Private function to lookup the Item / the closest position to put it in
+ * @param Hash Our Hash to manipulate
+ * @param HashBinKey the Hash-Number to lookup.
* \returns the position (most closely) matching HashBinKey (-> Caller needs to compare! )
*/
static long FindInHash(HashList *Hash, long HashBinKey)
if (Hash->tainted)
return FindInTaintedHash(Hash, HashBinKey);
- SearchPos = Hash->nMembersUsed / 2;
+ SearchPos = Hash->nLookupTableItems / 2;
StepWidth = SearchPos / 2;
while ((SearchPos > 0) &&
- (SearchPos < Hash->nMembersUsed))
+ (SearchPos < Hash->nLookupTableItems))
{
/** Did we find it? */
if (Hash->LookupTable[SearchPos]->Key == HashBinKey){
SearchPos --;
}
else {
- if ((SearchPos + 1 < Hash->nMembersUsed) &&
+ if ((SearchPos + 1 < Hash->nLookupTableItems) &&
(Hash->LookupTable[SearchPos + 1]->Key > HashBinKey))
return SearchPos;
SearchPos ++;
/**
- * \brief another hashing algorithm; treat it as just a pointer to long.
- * \param str Our pointer to the long value
- * \param len the length of the data pointed to; needs to be sizeof int, else we won't use it!
+ * @brief another hashing algorithm; treat it as just a pointer to long.
+ * @param str Our pointer to the long value
+ * @param len the length of the data pointed to; needs to be sizeof int, else we won't use it!
* \returns the calculated hash value
*/
int Flathash(const char *str, long len)
}
/**
- * \brief private abstract wrapper around the hashing algorithm
- * \param HKey the hash string
- * \param HKLen length of HKey
+ * @brief private abstract wrapper around the hashing algorithm
+ * @param HKey the hash string
+ * @param HKLen length of HKey
* \returns the calculated hash value
*/
inline static long CalcHashKey (HashList *Hash, const char *HKey, long HKLen)
/**
- * \brief Add a new / Replace an existing item in the Hash
- * \param HashList the list to manipulate
- * \param HKey the hash-string to store Data under
- * \param HKeyLen Length of HKey
- * \param Data the payload you want to associate with HKey
- * \param DeleteIt if not free() should be used to delete Data set to NULL, else DeleteIt is used.
+ * @brief Add a new / Replace an existing item in the Hash
+ * @param HashList the list to manipulate
+ * @param HKey the hash-string to store Data under
+ * @param HKeyLen Length of HKey
+ * @param Data the payload you want to associate with HKey
+ * @param DeleteIt if not free() should be used to delete Data set to NULL, else DeleteIt is used.
*/
void Put(HashList *Hash, const char *HKey, long HKLen, void *Data, DeleteHashDataFunc DeleteIt)
{
}
/**
- * \brief Lookup the Data associated with HKey
- * \param Hash the Hashlist to search in
- * \param HKey the hashkey to look up
- * \param HKLen length of HKey
- * \param Data returns the Data associated with HKey
+ * @brief Lookup the Data associated with HKey
+ * @param Hash the Hashlist to search in
+ * @param HKey the hashkey to look up
+ * @param HKLen length of HKey
+ * @param Data returns the Data associated with HKey
* \returns 0 if not found, 1 if.
*/
int GetHash(HashList *Hash, const char *HKey, long HKLen, void **Data)
HashBinKey = CalcHashKey(Hash, HKey, HKLen);
HashAt = FindInHash(Hash, HashBinKey);
if ((HashAt < 0) || /**< Not found at the lower edge? */
- (HashAt >= Hash->nMembersUsed) || /**< Not found at the upper edge? */
+ (HashAt >= Hash->nLookupTableItems) || /**< Not found at the upper edge? */
(Hash->LookupTable[HashAt]->Key != HashBinKey)) { /**< somewhere inbetween but no match? */
*Data = NULL;
return 0;
}
/**
- * \brief get the Keys present in this hash, simila to array_keys() in PHP
+ * @brief get the Keys present in this hash, simila to array_keys() in PHP
* Attention: List remains to Hash! don't modify or free it!
- * \param Hash Your Hashlist to extract the keys from
- * \param List returns the list of hashkeys stored in Hash
+ * @param Hash Your Hashlist to extract the keys from
+ * @param List returns the list of hashkeys stored in Hash
*/
int GetHashKeys(HashList *Hash, char ***List)
{
if (Hash->MyKeys != NULL)
free (Hash->MyKeys);
- Hash->MyKeys = (char**) malloc(sizeof(char*) * Hash->nMembersUsed);
- for (i=0; i < Hash->nMembersUsed; i++) {
+ Hash->MyKeys = (char**) malloc(sizeof(char*) * Hash->nLookupTableItems);
+ for (i=0; i < Hash->nLookupTableItems; i++) {
Hash->MyKeys[i] = Hash->LookupTable[i]->HashKey;
}
*List = (char**)Hash->MyKeys;
- return Hash->nMembersUsed;
+ return Hash->nLookupTableItems;
}
/**
- * \brief creates a hash-linear iterator object
- * \param Hash the list we reference
- * \param in which step width should we iterate?
+ * @brief creates a hash-linear iterator object
+ * @param Hash the list we reference
+ * @param in which step width should we iterate?
* If negative, the last position matching the
* step-raster is provided.
* \returns the hash iterator
else
Ret->StepWidth = 1;
if (Ret->StepWidth < 0) {
- Ret->Position = Hash->nMembersUsed - 1;
+ Ret->Position = Hash->nLookupTableItems - 1;
}
else {
Ret->Position = 0;
}
/**
- * \brief retrieve the counter from the itteratoor
- * \param the Iterator to analyze
+ * @brief Set iterator object to point to key. If not found, don't change iterator
+ * @param Hash the list we reference
+ * @param HKey key to search for
+ * @param HKLen length of key
+ * @param At HashPos to update
+ * \returns 0 if not found
+ */
+int GetHashPosFromKey(HashList *Hash, const char *HKey, long HKLen, HashPos *At)
+{
+ long HashBinKey;
+ long HashAt;
+
+ if (Hash == NULL)
+ return 0;
+
+ if (HKLen <= 0) {
+ return 0;
+ }
+ /** first, find out were we could be... */
+ HashBinKey = CalcHashKey(Hash, HKey, HKLen);
+ HashAt = FindInHash(Hash, HashBinKey);
+ if ((HashAt < 0) || /**< Not found at the lower edge? */
+ (HashAt >= Hash->nLookupTableItems) || /**< Not found at the upper edge? */
+ (Hash->LookupTable[HashAt]->Key != HashBinKey)) { /**< somewhere inbetween but no match? */
+ return 0;
+ }
+ /** GOTCHA! */
+ At->Position = Hash->LookupTable[HashAt]->Position;
+ return 1;
+}
+
+/**
+ * @brief Delete from the Hash the entry at Position
+ * @param Hash the list we reference
+ * @param At the position within the Hash
+ * \returns 0 if not found
+ */
+int DeleteEntryFromHash(HashList *Hash, HashPos *At)
+{
+ Payload *FreeMe;
+ if (Hash == NULL)
+ return 0;
+
+ /* if lockable, lock here */
+ if ((Hash == NULL) ||
+ (At->Position >= Hash->nLookupTableItems) ||
+ (At->Position < 0) ||
+ (At->Position > Hash->nLookupTableItems))
+ {
+ /* unlock... */
+ return 0;
+ }
+
+ FreeMe = Hash->Members[At->Position];
+ Hash->Members[At->Position] = NULL;
+
+
+ /** delete our hashing data */
+ if (Hash->LookupTable[At->Position] != NULL)
+ {
+ free(Hash->LookupTable[At->Position]->HashKey);
+ free(Hash->LookupTable[At->Position]);
+ if (At->Position < Hash->nLookupTableItems)
+ {
+ memmove(&Hash->LookupTable[At->Position],
+ &Hash->LookupTable[At->Position + 1],
+ (Hash->nLookupTableItems - At->Position - 1) *
+ sizeof(HashKey*));
+
+ }
+ else
+ Hash->LookupTable[At->Position] = NULL;
+ Hash->nLookupTableItems--;
+ }
+ /* unlock... */
+
+
+ /** get rid of our payload */
+ if (FreeMe != NULL)
+ {
+ DeleteHashPayload(FreeMe);
+ free(FreeMe);
+ }
+ return 1;
+}
+
+/**
+ * @brief retrieve the counter from the itteratoor
+ * @param the Iterator to analyze
* \returns the n'th hashposition we point at
*/
-int GetHashPosCounter(HashPos *At)
+int GetHashPosCounter(HashList *Hash, HashPos *At)
{
+ if ((Hash == NULL) ||
+ (At->Position >= Hash->nLookupTableItems) ||
+ (At->Position < 0) ||
+ (At->Position > Hash->nLookupTableItems))
+ return 0;
return At->Position;
}
/**
- * \brief frees a linear hash iterator
+ * @brief frees a linear hash iterator
*/
void DeleteHashPos(HashPos **DelMe)
{
/**
- * \brief Get the data located where HashPos Iterator points at, and Move HashPos one forward
- * \param Hash your Hashlist to follow
- * \param HKLen returns Length of Hashkey Returned
- * \param HashKey returns the Hashkey corrosponding to HashPos
- * \param Data returns the Data found at HashPos
+ * @brief Get the data located where HashPos Iterator points at, and Move HashPos one forward
+ * @param Hash your Hashlist to follow
+ * @param At the position to retrieve the Item from and move forward afterwards
+ * @param HKLen returns Length of Hashkey Returned
+ * @param HashKey returns the Hashkey corrosponding to HashPos
+ * @param Data returns the Data found at HashPos
* \returns whether the item was found or not.
*/
int GetNextHashPos(HashList *Hash, HashPos *At, long *HKLen, const char **HashKey, void **Data)
{
long PayloadPos;
- long offset = 0;
- if ((Hash == NULL) || (At->Position >= Hash->nMembersUsed) || (At->Position < 0))
+ if ((Hash == NULL) ||
+ (At->Position >= Hash->nLookupTableItems) ||
+ (At->Position < 0) ||
+ (At->Position > Hash->nLookupTableItems))
return 0;
*HKLen = Hash->LookupTable[At->Position]->HKLen;
*HashKey = Hash->LookupTable[At->Position]->HashKey;
PayloadPos = Hash->LookupTable[At->Position]->Position;
*Data = Hash->Members[PayloadPos]->Data;
+
/* Position is NULL-Based, while Stepwidth is not... */
- if (At->StepWidth < 0)
- offset = 1;
if ((At->Position % abs(At->StepWidth)) == 0)
At->Position += At->StepWidth;
else
At->Position += ((At->Position) % abs(At->StepWidth)) *
(At->StepWidth / abs(At->StepWidth));
+ return 1;
+}
- if (At->Position > Hash->nMembersUsed) {
- At->Position = Hash->nMembersUsed - 1;
- return 0;
- } else if (At->Position <= 0) {
- At->Position = 0;
+/**
+ * @brief Get the data located where HashPos Iterator points at
+ * @param Hash your Hashlist to follow
+ * @param At the position retrieve the data from
+ * @param HKLen returns Length of Hashkey Returned
+ * @param HashKey returns the Hashkey corrosponding to HashPos
+ * @param Data returns the Data found at HashPos
+ * \returns whether the item was found or not.
+ */
+int GetHashPos(HashList *Hash, HashPos *At, long *HKLen, const char **HashKey, void **Data)
+{
+ long PayloadPos;
+
+ if ((Hash == NULL) ||
+ (At->Position >= Hash->nLookupTableItems) ||
+ (At->Position < 0) ||
+ (At->Position > Hash->nLookupTableItems))
return 0;
- }
+ *HKLen = Hash->LookupTable[At->Position]->HKLen;
+ *HashKey = Hash->LookupTable[At->Position]->HashKey;
+ PayloadPos = Hash->LookupTable[At->Position]->Position;
+ *Data = Hash->Members[PayloadPos]->Data;
+
return 1;
}
/**
- * \brief Get the data located where At points to
+ * @brief Move HashPos one forward
+ * @param Hash your Hashlist to follow
+ * @param At the position to move forward
+ * \returns whether there is a next item or not.
+ */
+int NextHashPos(HashList *Hash, HashPos *At)
+{
+ if ((Hash == NULL) ||
+ (At->Position >= Hash->nLookupTableItems) ||
+ (At->Position < 0) ||
+ (At->Position > Hash->nLookupTableItems))
+ return 0;
+
+ /* Position is NULL-Based, while Stepwidth is not... */
+ if ((At->Position % abs(At->StepWidth)) == 0)
+ At->Position += At->StepWidth;
+ else
+ At->Position += ((At->Position) % abs(At->StepWidth)) *
+ (At->StepWidth / abs(At->StepWidth));
+ return !((At->Position >= Hash->nLookupTableItems) ||
+ (At->Position < 0) ||
+ (At->Position > Hash->nLookupTableItems));
+}
+
+/**
+ * @brief Get the data located where At points to
* note: you should prefer iterator operations instead of using me.
- * \param Hash your Hashlist peek from
- * \param HKLen returns Length of Hashkey Returned
- * \param HashKey returns the Hashkey corrosponding to HashPos
- * \param Data returns the Data found at HashPos
+ * @param Hash your Hashlist peek from
+ * @param HKLen returns Length of Hashkey Returned
+ * @param HashKey returns the Hashkey corrosponding to HashPos
+ * @param Data returns the Data found at HashPos
* \returns whether the item was found or not.
*/
int GetHashAt(HashList *Hash,long At, long *HKLen, const char **HashKey, void **Data)
{
long PayloadPos;
- if ((Hash == NULL) || (At >= Hash->nMembersUsed))
+ if ((Hash == NULL) ||
+ (At < 0) ||
+ (At > Hash->nLookupTableItems))
return 0;
*HKLen = Hash->LookupTable[At]->HKLen;
*HashKey = Hash->LookupTable[At]->HashKey;
}
/**
- * \brief sorting function for sorting the Hash alphabeticaly by their strings
- * \param Key1 first item
- * \param Key2 second item
+ * @brief Get the data located where At points to
+ * note: you should prefer iterator operations instead of using me.
+ * @param Hash your Hashlist peek from
+ * @param HKLen returns Length of Hashkey Returned
+ * @param HashKey returns the Hashkey corrosponding to HashPos
+ * @param Data returns the Data found at HashPos
+ * \returns whether the item was found or not.
+ */
+/*
+long GetHashIDAt(HashList *Hash,long At)
+{
+ if ((Hash == NULL) ||
+ (At < 0) ||
+ (At > Hash->nLookupTableItems))
+ return 0;
+
+ return Hash->LookupTable[At]->Key;
+}
+*/
+
+
+/**
+ * @brief sorting function for sorting the Hash alphabeticaly by their strings
+ * @param Key1 first item
+ * @param Key2 second item
*/
static int SortByKeys(const void *Key1, const void* Key2)
{
}
/**
- * \brief sorting function for sorting the Hash alphabeticaly reverse by their strings
- * \param Key1 first item
- * \param Key2 second item
+ * @brief sorting function for sorting the Hash alphabeticaly reverse by their strings
+ * @param Key1 first item
+ * @param Key2 second item
*/
static int SortByKeysRev(const void *Key1, const void* Key2)
{
}
/**
- * \brief sorting function to regain hash-sequence and revert tainted status
- * \param Key1 first item
- * \param Key2 second item
+ * @brief sorting function to regain hash-sequence and revert tainted status
+ * @param Key1 first item
+ * @param Key2 second item
*/
static int SortByHashKeys(const void *Key1, const void* Key2)
{
/**
- * \brief sort the hash alphabeticaly by their keys.
+ * @brief sort the hash alphabeticaly by their keys.
* Caution: This taints the hashlist, so accessing it later
* will be significantly slower! You can un-taint it by SortByHashKeyStr
- * \param Hash the list to sort
- * \param Order 0/1 Forward/Backward
+ * @param Hash the list to sort
+ * @param Order 0/1 Forward/Backward
*/
void SortByHashKey(HashList *Hash, int Order)
{
- if (Hash->nMembersUsed < 2)
+ if (Hash->nLookupTableItems < 2)
return;
- qsort(Hash->LookupTable, Hash->nMembersUsed, sizeof(HashKey*),
+ qsort(Hash->LookupTable, Hash->nLookupTableItems, sizeof(HashKey*),
(Order)?SortByKeys:SortByKeysRev);
Hash->tainted = 1;
}
/**
- * \brief sort the hash by their keys (so it regains untainted state).
+ * @brief sort the hash by their keys (so it regains untainted state).
* this will result in the sequence the hashing allgorithm produces it by default.
- * \param Hash the list to sort
+ * @param Hash the list to sort
*/
void SortByHashKeyStr(HashList *Hash)
{
Hash->tainted = 0;
- if (Hash->nMembersUsed < 2)
+ if (Hash->nLookupTableItems < 2)
return;
- qsort(Hash->LookupTable, Hash->nMembersUsed, sizeof(HashKey*), SortByHashKeys);
+ qsort(Hash->LookupTable, Hash->nLookupTableItems, sizeof(HashKey*), SortByHashKeys);
}
/**
- * \brief gives user sort routines access to the hash payload
- * \param Searchentry to retrieve Data to
+ * @brief gives user sort routines access to the hash payload
+ * @param Searchentry to retrieve Data to
* \returns Data belonging to HashVoid
*/
const void *GetSearchPayload(const void *HashVoid)
}
/**
- * \brief sort the hash by your sort function. see the following sample.
+ * @brief sort the hash by your sort function. see the following sample.
* this will result in the sequence the hashing allgorithm produces it by default.
- * \param Hash the list to sort
- * \param SortBy Sortfunction; see below how to implement this
+ * @param Hash the list to sort
+ * @param SortBy Sortfunction; see below how to implement this
*/
void SortByPayload(HashList *Hash, CompareFunc SortBy)
{
- if (Hash->nMembersUsed < 2)
+ if (Hash->nLookupTableItems < 2)
return;
- qsort(Hash->LookupTable, Hash->nMembersUsed, sizeof(HashKey*), SortBy);
+ qsort(Hash->LookupTable, Hash->nLookupTableItems, sizeof(HashKey*), SortBy);
Hash->tainted = 1;
}
}
+/*
+ * This exposes the hashlittle() function to consumers.
+ */
+int HashLittle(const void *key, size_t length) {
+ return (int)hashlittle(key, length, 1);
+}