include/mcld/ADT/HashTable.tcc - platform/frameworks/compile/mclinker - Git at Google

 //===- HashTable.tcc ---------------------------------------------------------===//
 //
 //                     The MCLinker Project
 //
 // This file is distributed under the University of Illinois Open Source
 // License. See LICENSE.TXT for details.
 //
 //===----------------------------------------------------------------------===//

 //===--------------------------------------------------------------------===//
 // template implementation of HashTable
 template<typename HashEntryTy,
          typename HashFunctionTy,
          typename EntryFactoryTy>
 HashTable<HashEntryTy, HashFunctionTy, EntryFactoryTy>::HashTable(size_type pSize)
   : HashTableImpl<HashEntryTy, HashFunctionTy>(pSize), m_EntryFactory()
 {
 }

 template<typename HashEntryTy,
          typename HashFunctionTy,
          typename EntryFactoryTy>
 HashTable<HashEntryTy, HashFunctionTy, EntryFactoryTy>::~HashTable()
 {
   if (BaseTy::empty())
     return;

   /** clean up **/
   for (unsigned int i=0; i < BaseTy::m_NumOfBuckets; ++i) {
     if (bucket_type::getEmptyBucket() != BaseTy::m_Buckets[i].Entry &&
         bucket_type::getTombstone() != BaseTy::m_Buckets[i].Entry ) {
       m_EntryFactory.destroy(BaseTy::m_Buckets[i].Entry);
     }
   }
 }

 template<typename HashEntryTy,
          typename HashFunctionTy,
          typename EntryFactoryTy>
 void HashTable<HashEntryTy, HashFunctionTy, EntryFactoryTy>::clear()
 {
   if (BaseTy::empty())
     return;

   /** clean up **/
   for (unsigned int i=0; i < BaseTy::m_NumOfBuckets; ++i) {
     if (bucket_type::getEmptyBucket() != BaseTy::m_Buckets[i].Entry ) {
       if (bucket_type::getTombstone() != BaseTy::m_Buckets[i].Entry ) {
         m_EntryFactory.destroy(BaseTy::m_Buckets[i].Entry);
       }
       BaseTy::m_Buckets[i].Entry = bucket_type::getEmptyBucket();
     }
   }
   BaseTy::m_NumOfEntries = 0;
   BaseTy::m_NumOfTombstones = 0;
 }

 /// insert - insert a new element to the container. If the element already
 //  exist, return the element.
 template<typename HashEntryTy,
          typename HashFunctionTy,
          typename EntryFactoryTy>
 typename HashTable<HashEntryTy, HashFunctionTy, EntryFactoryTy>::entry_type*
 HashTable<HashEntryTy, HashFunctionTy, EntryFactoryTy>::insert(
   const typename HashTable<HashEntryTy, HashFunctionTy, EntryFactoryTy>::key_type& pKey,
   bool& pExist)
 {
   unsigned int index = BaseTy::lookUpBucketFor(pKey);
   bucket_type& bucket = BaseTy::m_Buckets[index];
   entry_type* entry = bucket.Entry;
   if (bucket_type::getEmptyBucket() != entry &&
       bucket_type::getTombstone() != entry) {
     // Already exist in the table
     pExist = true;
     return entry;
   }

   // find a tombstone
   if (bucket_type::getTombstone() == entry)
     --BaseTy::m_NumOfTombstones;

   entry = bucket.Entry = m_EntryFactory.produce(pKey);
   ++BaseTy::m_NumOfEntries;
   BaseTy::mayRehash();
   pExist = false;
   return entry;
 }

 /// erase - remove the elements with the pKey
 //  @return the number of removed elements.
 template<typename HashEntryTy,
          typename HashFunctionTy,
          typename EntryFactoryTy>
 typename HashTable<HashEntryTy, HashFunctionTy, EntryFactoryTy>::size_type
 HashTable<HashEntryTy, HashFunctionTy, EntryFactoryTy>::erase(
         const typename HashTable<HashEntryTy, HashFunctionTy, EntryFactoryTy>::key_type& pKey)
 {
   int index;
   if (-1 == (index = BaseTy::findKey(pKey)))
     return 0;

   bucket_type& bucket = BaseTy::m_Buckets[index];
   m_EntryFactory.destroy(bucket.Entry);
   bucket.Entry = bucket_type::getTombstone();

   --BaseTy::m_NumOfEntries;
   ++BaseTy::m_NumOfTombstones;
   BaseTy::mayRehash();
   return 1;
 }

 template<typename HashEntryTy,
          typename HashFunctionTy,
          typename EntryFactoryTy>
 typename HashTable<HashEntryTy, HashFunctionTy, EntryFactoryTy>::iterator
 HashTable<HashEntryTy, HashFunctionTy, EntryFactoryTy>::find(
   const typename HashTable<HashEntryTy, HashFunctionTy, EntryFactoryTy>::key_type& pKey)
 {
   int index;
   if (-1 == (index = BaseTy::findKey(pKey)))
     return end();
   return iterator(this, index);
 }

 template<typename HashEntryTy,
          typename HashFunctionTy,
          typename EntryFactoryTy>
 typename HashTable<HashEntryTy, HashFunctionTy, EntryFactoryTy>::const_iterator
 HashTable<HashEntryTy, HashFunctionTy, EntryFactoryTy>::find(
   const typename HashTable<HashEntryTy, HashFunctionTy, EntryFactoryTy>::key_type& pKey) const
 {
   int index;
   if (-1 == (index = BaseTy::findKey(pKey)))
     return end();
   return const_iterator(this, index);
 }

 template<typename HashEntryTy,
          typename HashFunctionTy,
          typename EntryFactoryTy>
 typename HashTable<HashEntryTy, HashFunctionTy, EntryFactoryTy>::size_type
 HashTable<HashEntryTy, HashFunctionTy, EntryFactoryTy>::count(
   const typename HashTable<HashEntryTy, HashFunctionTy, EntryFactoryTy>::key_type& pKey) const
 {
   const_chain_iterator bucket, bEnd = end(pKey);
   size_type count = 0;
   for (bucket = begin(pKey); bucket != bEnd; ++bucket)
     ++count;
   return count;
 }

 template<typename HashEntryTy,
          typename HashFunctionTy,
          typename EntryFactoryTy>
 float HashTable<HashEntryTy, HashFunctionTy, EntryFactoryTy>::load_factor() const
 {
   return ((float)BaseTy::m_NumOfEntries/(float)BaseTy::m_NumOfBuckets);
 }

 template<typename HashEntryTy,
          typename HashFunctionTy,
          typename EntryFactoryTy>
 void
 HashTable<HashEntryTy, HashFunctionTy, EntryFactoryTy>::rehash()
 {
   BaseTy::mayRehash();
 }

 template<typename HashEntryTy,
          typename HashFunctionTy,
          typename EntryFactoryTy>
 void
 HashTable<HashEntryTy, HashFunctionTy, EntryFactoryTy>::rehash(
        typename HashTable<HashEntryTy, HashFunctionTy, EntryFactoryTy>::size_type pCount)
 {
   BaseTy::doRehash(pCount);
 }

 template<typename HashEntryTy,
          typename HashFunctionTy,
          typename EntryFactoryTy>
 typename HashTable<HashEntryTy, HashFunctionTy, EntryFactoryTy>::iterator
 HashTable<HashEntryTy, HashFunctionTy, EntryFactoryTy>::begin()
 {
   if (BaseTy::empty())
     return iterator(this, 0);
   unsigned int index = 0;
   while (bucket_type::getTombstone() == BaseTy::m_Buckets[index].Entry ||
          bucket_type::getEmptyBucket() == BaseTy::m_Buckets[index].Entry) {
     ++index;
   }
   return iterator(this, index);
 }

 template<typename HashEntryTy,
          typename HashFunctionTy,
          typename EntryFactoryTy>
 typename HashTable<HashEntryTy, HashFunctionTy, EntryFactoryTy>::iterator
 HashTable<HashEntryTy, HashFunctionTy, EntryFactoryTy>::end()
 {
   return iterator(NULL, 0);
 }

 template<typename HashEntryTy,
          typename HashFunctionTy,
          typename EntryFactoryTy>
 typename HashTable<HashEntryTy, HashFunctionTy, EntryFactoryTy>::const_iterator
 HashTable<HashEntryTy, HashFunctionTy, EntryFactoryTy>::begin() const
 {
   if (BaseTy::empty())
     return const_iterator(this, 0);
   unsigned int index = 0;
   while (bucket_type::getTombstone() == BaseTy::m_Buckets[index].Entry ||
          bucket_type::getEmptyBucket() == BaseTy::m_Buckets[index].Entry) {
     ++index;
   }
   return const_iterator(this, index);
 }

 template<typename HashEntryTy,
          typename HashFunctionTy,
          typename EntryFactoryTy>
 typename HashTable<HashEntryTy, HashFunctionTy, EntryFactoryTy>::const_iterator
 HashTable<HashEntryTy, HashFunctionTy, EntryFactoryTy>::end() const
 {
   return const_iterator(NULL, 0);
 }

 template<typename HashEntryTy,
          typename HashFunctionTy,
          typename EntryFactoryTy>
 typename HashTable<HashEntryTy, HashFunctionTy, EntryFactoryTy>::chain_iterator
 HashTable<HashEntryTy, HashFunctionTy, EntryFactoryTy>::begin(
     const typename HashTable<HashEntryTy, HashFunctionTy, EntryFactoryTy>::key_type& pKey)
 {
   return chain_iterator(this, pKey, 0x0);
 }

 template<typename HashEntryTy,
          typename HashFunctionTy,
          typename EntryFactoryTy>
 typename HashTable<HashEntryTy, HashFunctionTy, EntryFactoryTy>::chain_iterator
 HashTable<HashEntryTy, HashFunctionTy, EntryFactoryTy>::end(
     const typename HashTable<HashEntryTy, HashFunctionTy, EntryFactoryTy>::key_type& pKey)
 {
   return chain_iterator();
 }

 template<typename HashEntryTy,
          typename HashFunctionTy,
          typename EntryFactoryTy>
 typename HashTable<HashEntryTy, HashFunctionTy, EntryFactoryTy>::const_chain_iterator
 HashTable<HashEntryTy, HashFunctionTy, EntryFactoryTy>::begin(
   const typename HashTable<HashEntryTy, HashFunctionTy, EntryFactoryTy>::key_type& pKey) const
 {
   return const_chain_iterator(this, pKey, 0x0);
 }

 template<typename HashEntryTy,
          typename HashFunctionTy,
          typename EntryFactoryTy>
 typename HashTable<HashEntryTy, HashFunctionTy, EntryFactoryTy>::const_chain_iterator
 HashTable<HashEntryTy, HashFunctionTy, EntryFactoryTy>::end(
   const typename HashTable<HashEntryTy, HashFunctionTy, EntryFactoryTy>::key_type& pKey) const
 {
   return const_chain_iterator();
 }
	//===- HashTable.tcc ---------------------------------------------------------===//
	//
	// The MCLinker Project
	//
	// This file is distributed under the University of Illinois Open Source
	// License. See LICENSE.TXT for details.
	//
	//===----------------------------------------------------------------------===//

	//===--------------------------------------------------------------------===//
	// template implementation of HashTable
	template<typename HashEntryTy,
	typename HashFunctionTy,
	typename EntryFactoryTy>
	HashTable<HashEntryTy, HashFunctionTy, EntryFactoryTy>::HashTable(size_type pSize)
	: HashTableImpl<HashEntryTy, HashFunctionTy>(pSize), m_EntryFactory()
	{
	}

	template<typename HashEntryTy,
	typename HashFunctionTy,
	typename EntryFactoryTy>
	HashTable<HashEntryTy, HashFunctionTy, EntryFactoryTy>::~HashTable()
	{
	if (BaseTy::empty())
	return;

	/ clean up /
	for (unsigned int i=0; i < BaseTy::m_NumOfBuckets; ++i) {
	if (bucket_type::getEmptyBucket() != BaseTy::m_Buckets[i].Entry &&
	bucket_type::getTombstone() != BaseTy::m_Buckets[i].Entry ) {
	m_EntryFactory.destroy(BaseTy::m_Buckets[i].Entry);
	}
	}
	}

	template<typename HashEntryTy,
	typename HashFunctionTy,
	typename EntryFactoryTy>
	void HashTable<HashEntryTy, HashFunctionTy, EntryFactoryTy>::clear()
	{
	if (BaseTy::empty())
	return;

	/ clean up /
	for (unsigned int i=0; i < BaseTy::m_NumOfBuckets; ++i) {
	if (bucket_type::getEmptyBucket() != BaseTy::m_Buckets[i].Entry ) {
	if (bucket_type::getTombstone() != BaseTy::m_Buckets[i].Entry ) {
	m_EntryFactory.destroy(BaseTy::m_Buckets[i].Entry);
	}
	BaseTy::m_Buckets[i].Entry = bucket_type::getEmptyBucket();
	}
	}
	BaseTy::m_NumOfEntries = 0;
	BaseTy::m_NumOfTombstones = 0;
	}

	/// insert - insert a new element to the container. If the element already
	// exist, return the element.
	template<typename HashEntryTy,
	typename HashFunctionTy,
	typename EntryFactoryTy>
	typename HashTable<HashEntryTy, HashFunctionTy, EntryFactoryTy>::entry_type*
	HashTable<HashEntryTy, HashFunctionTy, EntryFactoryTy>::insert(
	const typename HashTable<HashEntryTy, HashFunctionTy, EntryFactoryTy>::key_type& pKey,
	bool& pExist)
	{
	unsigned int index = BaseTy::lookUpBucketFor(pKey);
	bucket_type& bucket = BaseTy::m_Buckets[index];
	entry_type* entry = bucket.Entry;
	if (bucket_type::getEmptyBucket() != entry &&
	bucket_type::getTombstone() != entry) {
	// Already exist in the table
	pExist = true;
	return entry;
	}

	// find a tombstone
	if (bucket_type::getTombstone() == entry)
	--BaseTy::m_NumOfTombstones;

	entry = bucket.Entry = m_EntryFactory.produce(pKey);
	++BaseTy::m_NumOfEntries;
	BaseTy::mayRehash();
	pExist = false;
	return entry;
	}

	/// erase - remove the elements with the pKey
	// @return the number of removed elements.
	template<typename HashEntryTy,
	typename HashFunctionTy,
	typename EntryFactoryTy>
	typename HashTable<HashEntryTy, HashFunctionTy, EntryFactoryTy>::size_type
	HashTable<HashEntryTy, HashFunctionTy, EntryFactoryTy>::erase(
	const typename HashTable<HashEntryTy, HashFunctionTy, EntryFactoryTy>::key_type& pKey)
	{
	int index;
	if (-1 == (index = BaseTy::findKey(pKey)))
	return 0;

	bucket_type& bucket = BaseTy::m_Buckets[index];
	m_EntryFactory.destroy(bucket.Entry);
	bucket.Entry = bucket_type::getTombstone();

	--BaseTy::m_NumOfEntries;
	++BaseTy::m_NumOfTombstones;
	BaseTy::mayRehash();
	return 1;
	}

	template<typename HashEntryTy,
	typename HashFunctionTy,
	typename EntryFactoryTy>
	typename HashTable<HashEntryTy, HashFunctionTy, EntryFactoryTy>::iterator
	HashTable<HashEntryTy, HashFunctionTy, EntryFactoryTy>::find(
	const typename HashTable<HashEntryTy, HashFunctionTy, EntryFactoryTy>::key_type& pKey)
	{
	int index;
	if (-1 == (index = BaseTy::findKey(pKey)))
	return end();
	return iterator(this, index);
	}

	template<typename HashEntryTy,
	typename HashFunctionTy,
	typename EntryFactoryTy>
	typename HashTable<HashEntryTy, HashFunctionTy, EntryFactoryTy>::const_iterator
	HashTable<HashEntryTy, HashFunctionTy, EntryFactoryTy>::find(
	const typename HashTable<HashEntryTy, HashFunctionTy, EntryFactoryTy>::key_type& pKey) const
	{
	int index;
	if (-1 == (index = BaseTy::findKey(pKey)))
	return end();
	return const_iterator(this, index);
	}

	template<typename HashEntryTy,
	typename HashFunctionTy,
	typename EntryFactoryTy>
	typename HashTable<HashEntryTy, HashFunctionTy, EntryFactoryTy>::size_type
	HashTable<HashEntryTy, HashFunctionTy, EntryFactoryTy>::count(
	const typename HashTable<HashEntryTy, HashFunctionTy, EntryFactoryTy>::key_type& pKey) const
	{
	const_chain_iterator bucket, bEnd = end(pKey);
	size_type count = 0;
	for (bucket = begin(pKey); bucket != bEnd; ++bucket)
	++count;
	return count;
	}

	template<typename HashEntryTy,
	typename HashFunctionTy,
	typename EntryFactoryTy>
	float HashTable<HashEntryTy, HashFunctionTy, EntryFactoryTy>::load_factor() const
	{
	return ((float)BaseTy::m_NumOfEntries/(float)BaseTy::m_NumOfBuckets);
	}

	template<typename HashEntryTy,
	typename HashFunctionTy,
	typename EntryFactoryTy>
	void
	HashTable<HashEntryTy, HashFunctionTy, EntryFactoryTy>::rehash()
	{
	BaseTy::mayRehash();
	}

	template<typename HashEntryTy,
	typename HashFunctionTy,
	typename EntryFactoryTy>
	void
	HashTable<HashEntryTy, HashFunctionTy, EntryFactoryTy>::rehash(
	typename HashTable<HashEntryTy, HashFunctionTy, EntryFactoryTy>::size_type pCount)
	{
	BaseTy::doRehash(pCount);
	}

	template<typename HashEntryTy,
	typename HashFunctionTy,
	typename EntryFactoryTy>
	typename HashTable<HashEntryTy, HashFunctionTy, EntryFactoryTy>::iterator
	HashTable<HashEntryTy, HashFunctionTy, EntryFactoryTy>::begin()
	{
	if (BaseTy::empty())
	return iterator(this, 0);
	unsigned int index = 0;
	while (bucket_type::getTombstone() == BaseTy::m_Buckets[index].Entry \|\|
	bucket_type::getEmptyBucket() == BaseTy::m_Buckets[index].Entry) {
	++index;
	}
	return iterator(this, index);
	}

	template<typename HashEntryTy,
	typename HashFunctionTy,
	typename EntryFactoryTy>
	typename HashTable<HashEntryTy, HashFunctionTy, EntryFactoryTy>::iterator
	HashTable<HashEntryTy, HashFunctionTy, EntryFactoryTy>::end()
	{
	return iterator(NULL, 0);
	}

	template<typename HashEntryTy,
	typename HashFunctionTy,
	typename EntryFactoryTy>
	typename HashTable<HashEntryTy, HashFunctionTy, EntryFactoryTy>::const_iterator
	HashTable<HashEntryTy, HashFunctionTy, EntryFactoryTy>::begin() const
	{
	if (BaseTy::empty())
	return const_iterator(this, 0);
	unsigned int index = 0;
	while (bucket_type::getTombstone() == BaseTy::m_Buckets[index].Entry \|\|
	bucket_type::getEmptyBucket() == BaseTy::m_Buckets[index].Entry) {
	++index;
	}
	return const_iterator(this, index);
	}

	template<typename HashEntryTy,
	typename HashFunctionTy,
	typename EntryFactoryTy>
	typename HashTable<HashEntryTy, HashFunctionTy, EntryFactoryTy>::const_iterator
	HashTable<HashEntryTy, HashFunctionTy, EntryFactoryTy>::end() const
	{
	return const_iterator(NULL, 0);
	}

	template<typename HashEntryTy,
	typename HashFunctionTy,
	typename EntryFactoryTy>
	typename HashTable<HashEntryTy, HashFunctionTy, EntryFactoryTy>::chain_iterator
	HashTable<HashEntryTy, HashFunctionTy, EntryFactoryTy>::begin(
	const typename HashTable<HashEntryTy, HashFunctionTy, EntryFactoryTy>::key_type& pKey)
	{
	return chain_iterator(this, pKey, 0x0);
	}

	template<typename HashEntryTy,
	typename HashFunctionTy,
	typename EntryFactoryTy>
	typename HashTable<HashEntryTy, HashFunctionTy, EntryFactoryTy>::chain_iterator
	HashTable<HashEntryTy, HashFunctionTy, EntryFactoryTy>::end(
	const typename HashTable<HashEntryTy, HashFunctionTy, EntryFactoryTy>::key_type& pKey)
	{
	return chain_iterator();
	}

	template<typename HashEntryTy,
	typename HashFunctionTy,
	typename EntryFactoryTy>
	typename HashTable<HashEntryTy, HashFunctionTy, EntryFactoryTy>::const_chain_iterator
	HashTable<HashEntryTy, HashFunctionTy, EntryFactoryTy>::begin(
	const typename HashTable<HashEntryTy, HashFunctionTy, EntryFactoryTy>::key_type& pKey) const
	{
	return const_chain_iterator(this, pKey, 0x0);
	}

	template<typename HashEntryTy,
	typename HashFunctionTy,
	typename EntryFactoryTy>
	typename HashTable<HashEntryTy, HashFunctionTy, EntryFactoryTy>::const_chain_iterator
	HashTable<HashEntryTy, HashFunctionTy, EntryFactoryTy>::end(
	const typename HashTable<HashEntryTy, HashFunctionTy, EntryFactoryTy>::key_type& pKey) const
	{
	return const_chain_iterator();
	}