include/mcld/Target/KeyEntryMap.h - platform/frameworks/compile/mclinker - Git at Google

 //===- KeyEntryMap.h ---------------------------------------------------===//
 //
 //                     The MCLinker Project
 //
 // This file is distributed under the University of Illinois Open Source
 // License. See LICENSE.TXT for details.
 //
 //===----------------------------------------------------------------------===//
 #ifndef MCLD_TARGET_KEYENTRYMAP_H_
 #define MCLD_TARGET_KEYENTRYMAP_H_

 #include <list>
 #include <vector>

 namespace mcld {

 /** \class KeyEntryMap
  *  \brief KeyEntryMap is a <const KeyType*, ENTRY*> map.
  */
 template <typename KEY, typename ENTRY>
 class KeyEntryMap {
  public:
   typedef KEY KeyType;
   typedef ENTRY EntryType;

  private:
   struct EntryPair {
     EntryPair(EntryType* pEntry1, EntryType* pEntry2)
         : entry1(pEntry1), entry2(pEntry2) {}

     EntryType* entry1;
     EntryType* entry2;
   };

   /// EntryOrPair - A key may mapping to a signal entry or a pair of entries,
   /// user is responsible for the type of Mapping.entry
   union EntryOrPair {
     EntryType* entry_ptr;
     EntryPair* pair_ptr;
   };

   struct Mapping {
     const KeyType* key;
     EntryOrPair entry;
   };

   typedef std::vector<Mapping> KeyEntryPool;
   typedef std::list<EntryPair> PairListType;

  public:
   typedef typename KeyEntryPool::iterator iterator;
   typedef typename KeyEntryPool::const_iterator const_iterator;

  public:
   /// lookUp - look up the entry mapping to pKey
   const EntryType* lookUp(const KeyType& pKey) const;
   EntryType* lookUp(const KeyType& pKey);

   /// lookUpFirstEntry - look up the first entry mapping to pKey
   const EntryType* lookUpFirstEntry(const KeyType& pKey) const;
   EntryType* lookUpFirstEntry(const KeyType& pKey);

   /// lookUpSecondEntry - look up the second entry mapping to pKey
   const EntryType* lookUpSecondEntry(const KeyType& pKey) const;
   EntryType* lookUpSecondEntry(const KeyType& pKey);

   void record(const KeyType& pKey, EntryType& pEntry);
   void record(const KeyType& pKey, EntryType& pEntry1, EntryType& pEntry2);

   bool empty() const { return m_Pool.empty(); }
   size_t size() const { return m_Pool.size(); }

   const_iterator begin() const { return m_Pool.begin(); }
   iterator begin() { return m_Pool.begin(); }
   const_iterator end() const { return m_Pool.end(); }
   iterator end() { return m_Pool.end(); }

   void reserve(size_t pSize) { m_Pool.reserve(pSize); }

  private:
   KeyEntryPool m_Pool;

   /// m_Pairs - the EntryPairs
   PairListType m_Pairs;
 };

 template <typename KeyType, typename EntryType>
 const EntryType* KeyEntryMap<KeyType, EntryType>::lookUp(
     const KeyType& pKey) const {
   const_iterator mapping, mEnd = m_Pool.end();
   for (mapping = m_Pool.begin(); mapping != mEnd; ++mapping) {
     if (mapping->key == &pKey) {
       return mapping->entry.entry_ptr;
     }
   }

   return NULL;
 }

 template <typename KeyType, typename EntryType>
 EntryType* KeyEntryMap<KeyType, EntryType>::lookUp(const KeyType& pKey) {
   iterator mapping, mEnd = m_Pool.end();
   for (mapping = m_Pool.begin(); mapping != mEnd; ++mapping) {
     if (mapping->key == &pKey) {
       return mapping->entry.entry_ptr;
     }
   }

   return NULL;
 }

 template <typename KeyType, typename EntryType>
 const EntryType* KeyEntryMap<KeyType, EntryType>::lookUpFirstEntry(
     const KeyType& pKey) const {
   const_iterator mapping, mEnd = m_Pool.end();
   for (mapping = m_Pool.begin(); mapping != mEnd; ++mapping) {
     if (mapping->key == &pKey) {
       return mapping->entry.pair_ptr->entry1;
     }
   }

   return NULL;
 }

 template <typename KeyType, typename EntryType>
 EntryType* KeyEntryMap<KeyType, EntryType>::lookUpFirstEntry(
     const KeyType& pKey) {
   const_iterator mapping, mEnd = m_Pool.end();
   for (mapping = m_Pool.begin(); mapping != mEnd; ++mapping) {
     if (mapping->key == &pKey) {
       return mapping->entry.pair_ptr->entry1;
     }
   }

   return NULL;
 }

 template <typename KeyType, typename EntryType>
 const EntryType* KeyEntryMap<KeyType, EntryType>::lookUpSecondEntry(
     const KeyType& pKey) const {
   const_iterator mapping, mEnd = m_Pool.end();
   for (mapping = m_Pool.begin(); mapping != mEnd; ++mapping) {
     if (mapping->key == &pKey) {
       return mapping->entry.pair_ptr->entry2;
     }
   }

   return NULL;
 }

 template <typename KeyType, typename EntryType>
 EntryType* KeyEntryMap<KeyType, EntryType>::lookUpSecondEntry(
     const KeyType& pKey) {
   const_iterator mapping, mEnd = m_Pool.end();
   for (mapping = m_Pool.begin(); mapping != mEnd; ++mapping) {
     if (mapping->key == &pKey) {
       return mapping->entry.pair_ptr->entry2;
     }
   }

   return NULL;
 }

 template <typename KeyType, typename EntryType>
 void KeyEntryMap<KeyType, EntryType>::record(const KeyType& pKey,
                                              EntryType& pEntry) {
   Mapping mapping;
   mapping.key = &pKey;
   mapping.entry.entry_ptr = &pEntry;
   m_Pool.push_back(mapping);
 }

 template <typename KeyType, typename EntryType>
 void KeyEntryMap<KeyType, EntryType>::record(const KeyType& pKey,
                                              EntryType& pEntry1,
                                              EntryType& pEntry2) {
   Mapping mapping;
   mapping.key = &pKey;
   m_Pairs.push_back(EntryPair(&pEntry1, &pEntry2));
   mapping.entry.pair_ptr = &m_Pairs.back();
   m_Pool.push_back(mapping);
 }

 }  // namespace mcld

 #endif  // MCLD_TARGET_KEYENTRYMAP_H_
	//===- KeyEntryMap.h ---------------------------------------------------===//
	//
	// The MCLinker Project
	//
	// This file is distributed under the University of Illinois Open Source
	// License. See LICENSE.TXT for details.
	//
	//===----------------------------------------------------------------------===//
	#ifndef MCLD_TARGET_KEYENTRYMAP_H_
	#define MCLD_TARGET_KEYENTRYMAP_H_

	#include <list>
	#include <vector>

	namespace mcld {

	/** \class KeyEntryMap
	* \brief KeyEntryMap is a <const KeyType, ENTRY> map.
	*/
	template <typename KEY, typename ENTRY>
	class KeyEntryMap {
	public:
	typedef KEY KeyType;
	typedef ENTRY EntryType;

	private:
	struct EntryPair {
	EntryPair(EntryType* pEntry1, EntryType* pEntry2)
	: entry1(pEntry1), entry2(pEntry2) {}

	EntryType* entry1;
	EntryType* entry2;
	};

	/// EntryOrPair - A key may mapping to a signal entry or a pair of entries,
	/// user is responsible for the type of Mapping.entry
	union EntryOrPair {
	EntryType* entry_ptr;
	EntryPair* pair_ptr;
	};

	struct Mapping {
	const KeyType* key;
	EntryOrPair entry;
	};

	typedef std::vector<Mapping> KeyEntryPool;
	typedef std::list<EntryPair> PairListType;

	public:
	typedef typename KeyEntryPool::iterator iterator;
	typedef typename KeyEntryPool::const_iterator const_iterator;

	public:
	/// lookUp - look up the entry mapping to pKey
	const EntryType* lookUp(const KeyType& pKey) const;
	EntryType* lookUp(const KeyType& pKey);

	/// lookUpFirstEntry - look up the first entry mapping to pKey
	const EntryType* lookUpFirstEntry(const KeyType& pKey) const;
	EntryType* lookUpFirstEntry(const KeyType& pKey);

	/// lookUpSecondEntry - look up the second entry mapping to pKey
	const EntryType* lookUpSecondEntry(const KeyType& pKey) const;
	EntryType* lookUpSecondEntry(const KeyType& pKey);

	void record(const KeyType& pKey, EntryType& pEntry);
	void record(const KeyType& pKey, EntryType& pEntry1, EntryType& pEntry2);

	bool empty() const { return m_Pool.empty(); }
	size_t size() const { return m_Pool.size(); }

	const_iterator begin() const { return m_Pool.begin(); }
	iterator begin() { return m_Pool.begin(); }
	const_iterator end() const { return m_Pool.end(); }
	iterator end() { return m_Pool.end(); }

	void reserve(size_t pSize) { m_Pool.reserve(pSize); }

	private:
	KeyEntryPool m_Pool;

	/// m_Pairs - the EntryPairs
	PairListType m_Pairs;
	};

	template <typename KeyType, typename EntryType>
	const EntryType* KeyEntryMap<KeyType, EntryType>::lookUp(
	const KeyType& pKey) const {
	const_iterator mapping, mEnd = m_Pool.end();
	for (mapping = m_Pool.begin(); mapping != mEnd; ++mapping) {
	if (mapping->key == &pKey) {
	return mapping->entry.entry_ptr;
	}
	}

	return NULL;
	}

	template <typename KeyType, typename EntryType>
	EntryType* KeyEntryMap<KeyType, EntryType>::lookUp(const KeyType& pKey) {
	iterator mapping, mEnd = m_Pool.end();
	for (mapping = m_Pool.begin(); mapping != mEnd; ++mapping) {
	if (mapping->key == &pKey) {
	return mapping->entry.entry_ptr;
	}
	}

	return NULL;
	}

	template <typename KeyType, typename EntryType>
	const EntryType* KeyEntryMap<KeyType, EntryType>::lookUpFirstEntry(
	const KeyType& pKey) const {
	const_iterator mapping, mEnd = m_Pool.end();
	for (mapping = m_Pool.begin(); mapping != mEnd; ++mapping) {
	if (mapping->key == &pKey) {
	return mapping->entry.pair_ptr->entry1;
	}
	}

	return NULL;
	}

	template <typename KeyType, typename EntryType>
	EntryType* KeyEntryMap<KeyType, EntryType>::lookUpFirstEntry(
	const KeyType& pKey) {
	const_iterator mapping, mEnd = m_Pool.end();
	for (mapping = m_Pool.begin(); mapping != mEnd; ++mapping) {
	if (mapping->key == &pKey) {
	return mapping->entry.pair_ptr->entry1;
	}
	}

	return NULL;
	}

	template <typename KeyType, typename EntryType>
	const EntryType* KeyEntryMap<KeyType, EntryType>::lookUpSecondEntry(
	const KeyType& pKey) const {
	const_iterator mapping, mEnd = m_Pool.end();
	for (mapping = m_Pool.begin(); mapping != mEnd; ++mapping) {
	if (mapping->key == &pKey) {
	return mapping->entry.pair_ptr->entry2;
	}
	}

	return NULL;
	}

	template <typename KeyType, typename EntryType>
	EntryType* KeyEntryMap<KeyType, EntryType>::lookUpSecondEntry(
	const KeyType& pKey) {
	const_iterator mapping, mEnd = m_Pool.end();
	for (mapping = m_Pool.begin(); mapping != mEnd; ++mapping) {
	if (mapping->key == &pKey) {
	return mapping->entry.pair_ptr->entry2;
	}
	}

	return NULL;
	}

	template <typename KeyType, typename EntryType>
	void KeyEntryMap<KeyType, EntryType>::record(const KeyType& pKey,
	EntryType& pEntry) {
	Mapping mapping;
	mapping.key = &pKey;
	mapping.entry.entry_ptr = &pEntry;
	m_Pool.push_back(mapping);
	}

	template <typename KeyType, typename EntryType>
	void KeyEntryMap<KeyType, EntryType>::record(const KeyType& pKey,
	EntryType& pEntry1,
	EntryType& pEntry2) {
	Mapping mapping;
	mapping.key = &pKey;
	m_Pairs.push_back(EntryPair(&pEntry1, &pEntry2));
	mapping.entry.pair_ptr = &m_Pairs.back();
	m_Pool.push_back(mapping);
	}

	} // namespace mcld

	#endif // MCLD_TARGET_KEYENTRYMAP_H_