vm/Hash.h - platform/dalvik - Git at Google

 /*
  * Copyright (C) 2008 The Android Open Source Project
  *
  * 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.
  */
 /*
  * General purpose hash table, used for finding classes, methods, etc.
  *
  * When the number of elements reaches a certain percentage of the table's
  * capacity, the table will be resized.
  */
 #ifndef _DALVIK_HASH
 #define _DALVIK_HASH

 /* compute the hash of an item with a specific type */
 typedef u4 (*HashCompute)(const void* item);

 /*
  * Compare a hash entry with a "loose" item after their hash values match.
  * Returns { <0, 0, >0 } depending on ordering of items (same semantics
  * as strcmp()).
  */
 typedef int (*HashCompareFunc)(const void* tableItem, const void* looseItem);

 /*
  * This function will be used to free entries in the table.  This can be
  * NULL if no free is required, free(), or a custom function.
  */
 typedef void (*HashFreeFunc)(void* ptr);

 /*
  * Used by dvmHashForeach().
  */
 typedef int (*HashForeachFunc)(void* data, void* arg);

 /*
  * Used by dvmHashForeachRemove().
  */
 typedef int (*HashForeachRemoveFunc)(void* data);

 /*
  * One entry in the hash table.  "data" values are expected to be (or have
  * the same characteristics as) valid pointers.  In particular, a NULL
  * value for "data" indicates an empty slot, and HASH_TOMBSTONE indicates
  * a no-longer-used slot that must be stepped over during probing.
  *
  * Attempting to add a NULL or tombstone value is an error.
  *
  * When an entry is released, we will call (HashFreeFunc)(entry->data).
  */
 typedef struct HashEntry {
     u4 hashValue;
     void* data;
 } HashEntry;

 #define HASH_TOMBSTONE ((void*) 0xcbcacccd)     // invalid ptr value

 /*
  * Expandable hash table.
  *
  * This structure should be considered opaque.
  */
 typedef struct HashTable {
     int         tableSize;          /* must be power of 2 */
     int         numEntries;         /* current #of "live" entries */
     int         numDeadEntries;     /* current #of tombstone entries */
     HashEntry*  pEntries;           /* array on heap */
     HashFreeFunc freeFunc;
     pthread_mutex_t lock;
 } HashTable;

 /*
  * Create and initialize a HashTable structure, using "initialSize" as
  * a basis for the initial capacity of the table.  (The actual initial
  * table size may be adjusted upward.)  If you know exactly how many
  * elements the table will hold, pass the result from dvmHashSize() in.)
  *
  * Returns "false" if unable to allocate the table.
  */
 HashTable* dvmHashTableCreate(size_t initialSize, HashFreeFunc freeFunc);

 /*
  * Compute the capacity needed for a table to hold "size" elements.  Use
  * this when you know ahead of time how many elements the table will hold.
  * Pass this value into dvmHashTableCreate() to ensure that you can add
  * all elements without needing to reallocate the table.
  */
 size_t dvmHashSize(size_t size);

 /*
  * Clear out a hash table, freeing the contents of any used entries.
  */
 void dvmHashTableClear(HashTable* pHashTable);

 /*
  * Free a hash table.  Performs a "clear" first.
  */
 void dvmHashTableFree(HashTable* pHashTable);

 /*
  * Exclusive access.  Important when adding items to a table, or when
  * doing any operations on a table that could be added to by another thread.
  */
 INLINE void dvmHashTableLock(HashTable* pHashTable) {
     dvmLockMutex(&pHashTable->lock);
 }
 INLINE void dvmHashTableUnlock(HashTable* pHashTable) {
     dvmUnlockMutex(&pHashTable->lock);
 }

 /*
  * Get #of entries in hash table.
  */
 INLINE int dvmHashTableNumEntries(HashTable* pHashTable) {
     return pHashTable->numEntries;
 }

 /*
  * Get total size of hash table (for memory usage calculations).
  */
 INLINE int dvmHashTableMemUsage(HashTable* pHashTable) {
     return sizeof(HashTable) + pHashTable->tableSize * sizeof(HashEntry);
 }

 /*
  * Look up an entry in the table, possibly adding it if it's not there.
  *
  * If "item" is not found, and "doAdd" is false, NULL is returned.
  * Otherwise, a pointer to the found or added item is returned.  (You can
  * tell the difference by seeing if return value == item.)
  *
  * An "add" operation may cause the entire table to be reallocated.  Don't
  * forget to lock the table before calling this.
  */
 void* dvmHashTableLookup(HashTable* pHashTable, u4 itemHash, void* item,
     HashCompareFunc cmpFunc, bool doAdd);

 /*
  * Remove an item from the hash table, given its "data" pointer.  Does not
  * invoke the "free" function; just detaches it from the table.
  */
 bool dvmHashTableRemove(HashTable* pHashTable, u4 hash, void* item);

 /*
  * Execute "func" on every entry in the hash table.
  *
  * If "func" returns a nonzero value, terminate early and return the value.
  */
 int dvmHashForeach(HashTable* pHashTable, HashForeachFunc func, void* arg);

 /*
  * Execute "func" on every entry in the hash table.
  *
  * If "func" returns 1 detach the entry from the hash table. Does not invoke
  * the "free" function.
  *
  * Returning values other than 0 or 1 from "func" will abort the routine.
  */
 int dvmHashForeachRemove(HashTable* pHashTable, HashForeachRemoveFunc func);

 /*
  * An alternative to dvmHashForeach(), using an iterator.
  *
  * Use like this:
  *   HashIter iter;
  *   for (dvmHashIterBegin(hashTable, &iter); !dvmHashIterDone(&iter);
  *       dvmHashIterNext(&iter))
  *   {
  *       MyData* data = (MyData*)dvmHashIterData(&iter);
  *   }
  */
 typedef struct HashIter {
     void*       data;
     HashTable*  pHashTable;
     int         idx;
 } HashIter;
 INLINE void dvmHashIterNext(HashIter* pIter) {
     int i = pIter->idx +1;
     int lim = pIter->pHashTable->tableSize;
     for ( ; i < lim; i++) {
         void* data = pIter->pHashTable->pEntries[i].data;
         if (data != NULL && data != HASH_TOMBSTONE)
             break;
     }
     pIter->idx = i;
 }
 INLINE void dvmHashIterBegin(HashTable* pHashTable, HashIter* pIter) {
     pIter->pHashTable = pHashTable;
     pIter->idx = -1;
     dvmHashIterNext(pIter);
 }
 INLINE bool dvmHashIterDone(HashIter* pIter) {
     return (pIter->idx >= pIter->pHashTable->tableSize);
 }
 INLINE void* dvmHashIterData(HashIter* pIter) {
     assert(pIter->idx >= 0 && pIter->idx < pIter->pHashTable->tableSize);
     return pIter->pHashTable->pEntries[pIter->idx].data;
 }


 /*
  * Evaluate hash table performance by examining the number of times we
  * have to probe for an entry.
  *
  * The caller should lock the table beforehand.
  */
 typedef u4 (*HashCalcFunc)(const void* item);
 void dvmHashTableProbeCount(HashTable* pHashTable, HashCalcFunc calcFunc,
     HashCompareFunc cmpFunc);

 #endif /*_DALVIK_HASH*/
	/*
	* Copyright (C) 2008 The Android Open Source Project
	*
	* 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.
	*/
	/*
	* General purpose hash table, used for finding classes, methods, etc.
	*
	* When the number of elements reaches a certain percentage of the table's
	* capacity, the table will be resized.
	*/
	#ifndef _DALVIK_HASH
	#define _DALVIK_HASH

	/* compute the hash of an item with a specific type */
	typedef u4 (HashCompute)(const void item);

	/*
	* Compare a hash entry with a "loose" item after their hash values match.
	* Returns { <0, 0, >0 } depending on ordering of items (same semantics
	* as strcmp()).
	*/
	typedef int (HashCompareFunc)(const void tableItem, const void* looseItem);

	/*
	* This function will be used to free entries in the table. This can be
	* NULL if no free is required, free(), or a custom function.
	*/
	typedef void (HashFreeFunc)(void ptr);

	/*
	* Used by dvmHashForeach().
	*/
	typedef int (HashForeachFunc)(void data, void* arg);

	/*
	* Used by dvmHashForeachRemove().
	*/
	typedef int (HashForeachRemoveFunc)(void data);

	/*
	* One entry in the hash table. "data" values are expected to be (or have
	* the same characteristics as) valid pointers. In particular, a NULL
	* value for "data" indicates an empty slot, and HASH_TOMBSTONE indicates
	* a no-longer-used slot that must be stepped over during probing.
	*
	* Attempting to add a NULL or tombstone value is an error.
	*
	* When an entry is released, we will call (HashFreeFunc)(entry->data).
	*/
	typedef struct HashEntry {
	u4 hashValue;
	void* data;
	} HashEntry;

	#define HASH_TOMBSTONE ((void*) 0xcbcacccd) // invalid ptr value

	/*
	* Expandable hash table.
	*
	* This structure should be considered opaque.
	*/
	typedef struct HashTable {
	int tableSize; /* must be power of 2 */
	int numEntries; /* current #of "live" entries */
	int numDeadEntries; /* current #of tombstone entries */
	HashEntry* pEntries; /* array on heap */
	HashFreeFunc freeFunc;
	pthread_mutex_t lock;
	} HashTable;

	/*
	* Create and initialize a HashTable structure, using "initialSize" as
	* a basis for the initial capacity of the table. (The actual initial
	* table size may be adjusted upward.) If you know exactly how many
	* elements the table will hold, pass the result from dvmHashSize() in.)
	*
	* Returns "false" if unable to allocate the table.
	*/
	HashTable* dvmHashTableCreate(size_t initialSize, HashFreeFunc freeFunc);

	/*
	* Compute the capacity needed for a table to hold "size" elements. Use
	* this when you know ahead of time how many elements the table will hold.
	* Pass this value into dvmHashTableCreate() to ensure that you can add
	* all elements without needing to reallocate the table.
	*/
	size_t dvmHashSize(size_t size);

	/*
	* Clear out a hash table, freeing the contents of any used entries.
	*/
	void dvmHashTableClear(HashTable* pHashTable);

	/*
	* Free a hash table. Performs a "clear" first.
	*/
	void dvmHashTableFree(HashTable* pHashTable);

	/*
	* Exclusive access. Important when adding items to a table, or when
	* doing any operations on a table that could be added to by another thread.
	*/
	INLINE void dvmHashTableLock(HashTable* pHashTable) {
	dvmLockMutex(&pHashTable->lock);
	}
	INLINE void dvmHashTableUnlock(HashTable* pHashTable) {
	dvmUnlockMutex(&pHashTable->lock);
	}

	/*
	* Get #of entries in hash table.
	*/
	INLINE int dvmHashTableNumEntries(HashTable* pHashTable) {
	return pHashTable->numEntries;
	}

	/*
	* Get total size of hash table (for memory usage calculations).
	*/
	INLINE int dvmHashTableMemUsage(HashTable* pHashTable) {
	return sizeof(HashTable) + pHashTable->tableSize * sizeof(HashEntry);
	}

	/*
	* Look up an entry in the table, possibly adding it if it's not there.
	*
	* If "item" is not found, and "doAdd" is false, NULL is returned.
	* Otherwise, a pointer to the found or added item is returned. (You can
	* tell the difference by seeing if return value == item.)
	*
	* An "add" operation may cause the entire table to be reallocated. Don't
	* forget to lock the table before calling this.
	*/
	void* dvmHashTableLookup(HashTable* pHashTable, u4 itemHash, void* item,
	HashCompareFunc cmpFunc, bool doAdd);

	/*
	* Remove an item from the hash table, given its "data" pointer. Does not
	* invoke the "free" function; just detaches it from the table.
	*/
	bool dvmHashTableRemove(HashTable* pHashTable, u4 hash, void* item);

	/*
	* Execute "func" on every entry in the hash table.
	*
	* If "func" returns a nonzero value, terminate early and return the value.
	*/
	int dvmHashForeach(HashTable* pHashTable, HashForeachFunc func, void* arg);

	/*
	* Execute "func" on every entry in the hash table.
	*
	* If "func" returns 1 detach the entry from the hash table. Does not invoke
	* the "free" function.
	*
	* Returning values other than 0 or 1 from "func" will abort the routine.
	*/
	int dvmHashForeachRemove(HashTable* pHashTable, HashForeachRemoveFunc func);

	/*
	* An alternative to dvmHashForeach(), using an iterator.
	*
	* Use like this:
	* HashIter iter;
	* for (dvmHashIterBegin(hashTable, &iter); !dvmHashIterDone(&iter);
	* dvmHashIterNext(&iter))
	* {
	* MyData* data = (MyData*)dvmHashIterData(&iter);
	* }
	*/
	typedef struct HashIter {
	void* data;
	HashTable* pHashTable;
	int idx;
	} HashIter;
	INLINE void dvmHashIterNext(HashIter* pIter) {
	int i = pIter->idx +1;
	int lim = pIter->pHashTable->tableSize;
	for ( ; i < lim; i++) {
	void* data = pIter->pHashTable->pEntries[i].data;
	if (data != NULL && data != HASH_TOMBSTONE)
	break;
	}
	pIter->idx = i;
	}
	INLINE void dvmHashIterBegin(HashTable* pHashTable, HashIter* pIter) {
	pIter->pHashTable = pHashTable;
	pIter->idx = -1;
	dvmHashIterNext(pIter);
	}
	INLINE bool dvmHashIterDone(HashIter* pIter) {
	return (pIter->idx >= pIter->pHashTable->tableSize);
	}
	INLINE void* dvmHashIterData(HashIter* pIter) {
	assert(pIter->idx >= 0 && pIter->idx < pIter->pHashTable->tableSize);
	return pIter->pHashTable->pEntries[pIter->idx].data;
	}


	/*
	* Evaluate hash table performance by examining the number of times we
	* have to probe for an entry.
	*
	* The caller should lock the table beforehand.
	*/
	typedef u4 (HashCalcFunc)(const void item);
	void dvmHashTableProbeCount(HashTable* pHashTable, HashCalcFunc calcFunc,
	HashCompareFunc cmpFunc);

	#endif /_DALVIK_HASH/