/usr/include/ni/XnHash.h is in libopenni-dev 1.5.4.0-14.
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* *
* OpenNI 1.x Alpha *
* Copyright (C) 2011 PrimeSense Ltd. *
* *
* This file is part of OpenNI. *
* *
* OpenNI is free software: you can redistribute it and/or modify *
* it under the terms of the GNU Lesser General Public License as published *
* by the Free Software Foundation, either version 3 of the License, or *
* (at your option) any later version. *
* *
* OpenNI is distributed in the hope that it will be useful, *
* but WITHOUT ANY WARRANTY; without even the implied warranty of *
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the *
* GNU Lesser General Public License for more details. *
* *
* You should have received a copy of the GNU Lesser General Public License *
* along with OpenNI. If not, see <http://www.gnu.org/licenses/>. *
* *
****************************************************************************/
#ifndef _XN_HASH_H
#define _XN_HASH_H
//---------------------------------------------------------------------------
// Includes
//---------------------------------------------------------------------------
#include "XnList.h"
//---------------------------------------------------------------------------
// Defines
//---------------------------------------------------------------------------
#define XN_HASH_LAST_BIN 256
#define XN_HASH_NUM_BINS (XN_HASH_LAST_BIN + 1)
//---------------------------------------------------------------------------
// Types
//---------------------------------------------------------------------------
/**
* The key to the hash
*/
typedef XnValue XnKey;
/**
* The hash value - the output of the hash function
*/
typedef XnUInt8 XnHashValue;
/**
* Default Hash function
*/
static XnHashValue XnDefaultHashFunction(const XnKey& key)
{
return (XnSizeT(key) & 0xff);
}
/**
* Default Compare function
*/
static XnInt32 XnDefaultCompareFunction(const XnKey& key1, const XnKey& key2)
{
return XnInt32(XnSizeT(key1)-XnSizeT(key2));
}
/**
* The hash - associative array
*/
class XnHash
{
public:
/**
* Iterator to the XnHash
*/
class ConstIterator
{
public:
friend class XnHash;
/**
* Copy constructor
*
* @param other [in] instance to copy from
*/
ConstIterator(const ConstIterator& other) :
m_pHash(other.m_pHash), m_nCurrentBin(other.m_nCurrentBin), m_Iterator(other.m_Iterator) {}
/**
* Support ++iterator, go to the next object in the hash
*/
ConstIterator& operator++()
{
++m_Iterator;
while (m_Iterator == m_pHash->m_Bins[m_nCurrentBin]->end() &&
m_Iterator != m_pHash->m_Bins[XN_HASH_LAST_BIN]->end())
{
do
{
m_nCurrentBin++;
} while (m_pHash->m_Bins[m_nCurrentBin] == NULL);
m_Iterator = m_pHash->m_Bins[m_nCurrentBin]->begin();
}
return *this;
}
/**
* Support iterator++, go to the next object in the hash, returning the old value
*/
ConstIterator operator++(int)
{
XnHash::ConstIterator other(*this);
++*this;
return other;
}
/**
* Support --iterator, go to the previous object in the hash
*/
ConstIterator& operator--()
{
--m_Iterator;
while (m_Iterator == m_pHash->m_Bins[m_nCurrentBin]->end() &&
m_Iterator != m_pHash->m_Bins[XN_HASH_LAST_BIN]->end())
{
do
{
if (m_nCurrentBin == 0)
{
m_nCurrentBin = XN_HASH_LAST_BIN;
m_Iterator = m_pHash->m_Bins[XN_HASH_LAST_BIN]->end();
return *this;
}
m_nCurrentBin--;
} while (m_pHash->m_Bins[m_nCurrentBin] == NULL);
m_Iterator = m_pHash->m_Bins[m_nCurrentBin]->rbegin();
}
return *this;
}
/**
* Support iterator--, go to the previous object in the hash, returning the old value
*/
ConstIterator operator--(int)
{
ConstIterator other(*this);
--*this;
return other;
}
/**
* Operator to check if 2 iterators point to the same object
*
* @param other [in] instance to compare with
*/
XnBool operator==(const ConstIterator& other) const
{
return m_Iterator == other.m_Iterator;
}
/**
* Operator to check if 2 iterators point to different objects
*
* @param other [in] instance to compare with
*/
XnBool operator!=(const ConstIterator& other) const
{
return m_Iterator != other.m_Iterator;
}
/**
* Get the key of the current object (const version)
*/
const XnKey& Key() const
{
return ((XnNode*)(*m_Iterator))->Data();
}
/**
* Get the value of the current object (const version)
*/
const XnValue& Value() const
{
return ((XnNode*)(*m_Iterator))->Next()->Data();
}
/**
* Get the entire current object (non-const version)
*/
XnNode* GetNode()
{
return m_Iterator.GetNode();
}
/**
* Get the entire current object (const version)
*/
const XnNode* GetNode() const
{
return m_Iterator.GetNode();
}
protected:
/**
* constructor to be used from inside the XnHash
*
* @param pHash [in] The hash to which the iterator belongs
* @param nBin [in] The bin of the current object
* @param listIterator [in] Iterator on the bin (each bin is a XnList)
*/
ConstIterator(const XnHash* pHash, XnUInt16 nBin, XnList::Iterator listIterator) :
m_pHash(pHash), m_nCurrentBin(nBin), m_Iterator(listIterator)
{
// Find the first valid
while (m_Iterator == m_pHash->m_Bins[m_nCurrentBin]->end() &&
m_Iterator != m_pHash->m_Bins[XN_HASH_LAST_BIN]->end())
{
do
{
m_nCurrentBin++;
} while (m_pHash->m_Bins[m_nCurrentBin] == NULL);
m_Iterator = m_pHash->m_Bins[m_nCurrentBin]->begin();
}
}
/**
* constructor to be used from inside the XnHash. It points to the first value in the hash.
*
* @param pHash [in] The hash to which the iterator belongs
*/
ConstIterator(const XnHash* pHash) :
m_pHash(pHash), m_nCurrentBin(0), m_Iterator(m_pHash->m_Bins[XN_HASH_LAST_BIN]->end()) {}
/** The hash to which the iterator belongs */
const XnHash* m_pHash;
/** The bin of the current object */
XnUInt16 m_nCurrentBin;
/** Iterator for the specific bin */
XnList::Iterator m_Iterator;
};
/**
* Iterator to the XnHash
*/
class Iterator : public ConstIterator
{
public:
friend class XnHash;
/**
* Copy constructor
*
* @param other [in] instance to copy from
*/
inline Iterator(const Iterator& other) : ConstIterator(other) {}
/**
* Support ++iterator, go to the next object in the list
*/
inline Iterator& operator++()
{
++(*(ConstIterator*)this);
return (*this);
}
/**
* Support iterator++, go to the next object in the list, returning the old value
*/
inline Iterator operator++(int)
{
Iterator result = *this;
++*this;
return (result);
}
/**
* Support --iterator, go to the next object in the list
*/
inline Iterator& operator--()
{
--(*(ConstIterator*)this);
return (*this);
}
/**
* Support iterator--, go to the next object in the list, returning the old value
*/
inline Iterator operator--(int)
{
Iterator result = *this;
--*this;
return (result);
}
/**
* Get the key of the current object (const version)
*/
XnKey& Key() const { return (XnKey&)ConstIterator::Key(); }
/**
* Get the value of the current object (const version)
*/
XnValue& Value() const { return (XnValue&)ConstIterator::Value(); }
protected:
/**
* constructor to be used from inside the XnHash
*
* @param pHash [in] The hash to which the iterator belongs
* @param nBin [in] The bin of the current object
* @param listIterator [in] Iterator on the bin (each bin is a XnList)
*/
Iterator(const XnHash* pHash, XnUInt16 nBin, XnList::Iterator listIterator) :
ConstIterator(pHash, nBin, listIterator)
{}
/**
* constructor to be used from inside the XnHash. It points to the first value in the hash.
*
* @param pHash [in] The hash to which the iterator belongs
*/
Iterator(const XnHash* pHash) : ConstIterator(pHash) {}
Iterator(const ConstIterator& other) : ConstIterator(other) {}
};
friend class ConstIterator;
public:
/**
* Definition of a hash function - receive key, and outputs HashValue
*/
typedef XnHashValue (*XnHashFunction)(const XnKey& key);
/**
* Definition of comparison function - receives 2 keys, returns 0 on equality
*/
typedef XnInt32 (*XnCompareFunction)(const XnKey& key1, const XnKey& key2);
/**
* Constructor. Initializes internal representations.
*/
XnHash()
{
m_nInitStatus = Init();
}
/**
* Destructor. Destroys internal representations.
*/
virtual ~XnHash()
{
if (m_Bins != NULL)
{
for (int i = 0; i < XN_HASH_NUM_BINS; ++i)
{
XN_DELETE(m_Bins[i]);
}
XN_DELETE_ARR(m_Bins);
}
}
/**
* Returns the status of the initialization of the hash.
* @returns XN_STATUS_OK if the hash was initialized successfully, or an error code otherwise
* (e.g. if memory could not be allocated).
*/
XnStatus GetInitStatus() const
{
return m_nInitStatus;
}
/**
* Set a new key-value entry. If key exists, will replace value.
*
* @param key [in] The key to which to associate the value
* @param value [in] The value to add to the XnHash
*/
XnStatus Set(const XnKey& key, const XnValue& value)
{
XnHashValue HashValue = (*m_HashFunction)(key);
// Check if key already exists
if (m_Bins[HashValue] != NULL)
{
Iterator hiter(this);
if (Find(key, HashValue, hiter) == XN_STATUS_OK)
{
// Replace value
hiter.Value() = value;
return XN_STATUS_OK;
}
}
else
{
// First time trying to access this bin, create it.
m_Bins[HashValue] = XN_NEW(XnList);
if (m_Bins[HashValue] == NULL)
{
return XN_STATUS_ALLOC_FAILED;
}
if (HashValue < m_nMinBin)
m_nMinBin = HashValue;
}
// Get a new node for the key
XnNode* pKeyNode = XnNode::Allocate();
if (pKeyNode == NULL)
{
return XN_STATUS_ALLOC_FAILED;
}
pKeyNode->Data() = key;
// Get a new node for the value
XnNode* pValueNode = XnNode::Allocate();
if (pValueNode == NULL)
{
XnNode::Deallocate(pKeyNode);
return XN_STATUS_ALLOC_FAILED;
}
pValueNode->Data() = value;
// Concatenate the value node to the key node
pKeyNode->Next() = pValueNode;
pValueNode->Next() = NULL;
// Add the 2 nodes as the value to the key's list
XnStatus ListStatus = m_Bins[HashValue]->AddLast(XnValue(pKeyNode));
if (ListStatus != XN_STATUS_OK)
{
// Add failed. return the 2 nodes to the pool
XnNode::Deallocate(pKeyNode);
XnNode::Deallocate(pValueNode);
return ListStatus;
}
return XN_STATUS_OK;
}
/**
* Get the value associated with the supplied key
*
* @param key [in] The key of the entry
* @param value [out] The retrieved value
*
* @return XN_STATUS_NO_MATCH if no such key exists
*/
XnStatus Get(const XnKey& key, XnValue& value) const
{
// Check if key exists
Iterator hiter(this);
XnStatus FindStatus = Find(key, hiter);
if (FindStatus != XN_STATUS_OK)
{
// Key doesn't exist!
return FindStatus;
}
value = hiter.Value();
return XN_STATUS_OK;
}
/**
* Remove a key-value entry from the XnHash
*
* @param key [in] The key of the entry
* @param value [out] The value that was in the removed entry
* @return XN_STATUS_NO_MATCH if no such key exists
*/
XnStatus Remove(const XnKey& key, XnValue& value)
{
// find the entry to which the key belongs
Iterator hiter(this);
XnStatus FindStatus = Find(key, hiter);
if (FindStatus != XN_STATUS_OK)
{
// no such entry!
return FindStatus;
}
// Remove by iterator
value = hiter.Value();
return Remove(hiter);
}
/**
* Remove an entry from the XnHash by iterator
*
* @param iter [in] Iterator pointing to an entry in the hash
* @param key [out] The key that was in the removed entry
* @param value [out] The value that was in the removed entry
*
* @return XN_STATUS_ILLEGAL_POSITION if iterator is invalid
*/
XnStatus Remove(ConstIterator iter, XnKey& key, XnValue& value)
{
if (iter == end())
{
// Can't remove invalid node
return XN_STATUS_ILLEGAL_POSITION;
}
// Get value and key, to return to the caller
value = iter.Value();
key = iter.Key();
return Remove(iter);
}
/**
* Remove an entry from the XnHash by iterator
*
* @param iter [in] Iterator pointing to an entry in the hash
*
* @return XN_STATUS_ILLEGAL_POSITION if iterator is invalid
*/
virtual XnStatus Remove(ConstIterator iter)
{
if (iter == end())
{
// Can't remove invalid node
return XN_STATUS_ILLEGAL_POSITION;
}
XnNode* pNode = iter.GetNode();
XnNode* pKeyNode = (XnNode*)(pNode->Data());
XnNode* pValueNode = pKeyNode->Next();
// Return the nodes to the pool
XnNode::Deallocate(pKeyNode);
XnNode::Deallocate(pValueNode);
pNode->Previous()->Next() = pNode->Next();
pNode->Next()->Previous() = pNode->Previous();
XnNode::Deallocate(pNode);
return XN_STATUS_OK;
}
/**
* Remove all entries from the XnHash.
*/
XnStatus Clear()
{
while (begin() != end())
Remove(begin());
return XN_STATUS_OK;
}
/**
* Checks if hash is empty.
*/
XnBool IsEmpty() const
{
return (begin() == end());
}
/**
* Gets the number of entries in the hash.
*/
XnUInt32 Size() const
{
XnUInt32 nSize = 0;
for (Iterator iter = begin(); iter != end(); ++iter, ++nSize)
;
return nSize;
}
/**
* Get an iterator pointing to the entry to which the key belongs
*
* @param key [in] The key of the entry
* @param hiter [out] Iterator to the entry described by key
*
* @return XN_STATUS_NO_MATCH No such key in the XnHash
*/
XnStatus Find(const XnKey& key, ConstIterator& hiter) const
{
return ConstFind(key, hiter);
}
/**
* Get an iterator pointing to the entry to which the key belongs
*
* @param key [in] The key of the entry
* @param hiter [out] Iterator to the entry described by key
*
* @return XN_STATUS_NO_MATCH No such key in the XnHash
*/
XnStatus Find(const XnKey& key, Iterator& hiter)
{
XnStatus nRetVal = XN_STATUS_OK;
ConstIterator& it = hiter;
nRetVal = ConstFind(key, it);
XN_IS_STATUS_OK(nRetVal);
return (XN_STATUS_OK);
}
/**
* Get an iterator to the beginning of the XnHash (non-const version)
*/
Iterator begin()
{
return Iterator(this, m_nMinBin, m_Bins[m_nMinBin]->begin());
}
/**
* Get an iterator to the beginning of the XnHash (const version)
*/
ConstIterator begin() const
{
return ConstIterator(this, m_nMinBin, m_Bins[m_nMinBin]->begin());
}
/**
* Get an iterator to the end of the XnHash (position is invalid) (non-const version)
*/
Iterator end()
{
return Iterator(this, XN_HASH_LAST_BIN, m_Bins[XN_HASH_LAST_BIN]->end());
}
/**
* Get an iterator to the end of the XnHash (position is invalid) (const version)
*/
ConstIterator end() const
{
return ConstIterator(this, XN_HASH_LAST_BIN, m_Bins[XN_HASH_LAST_BIN]->end());
}
/**
* Change the hash function. The XnHash must be empty for this to succeed.
*
* @param hashFunction [in] The new hash function
*
* @return XN_STATUS_IS_NOT_EMPTY if the XnHash isn't empty
*/
XnStatus SetHashFunction(XnHashFunction hashFunction)
{
if (begin() != end())
{
return XN_STATUS_IS_NOT_EMPTY;
}
m_HashFunction = hashFunction;
return XN_STATUS_OK;
}
/**
* Change the comparison function. The XnHash must be empty for this to succeed.
*
* @param compareFunction [in] The new hash function
*
* @return XN_STATUS_IS_NOT_EMPTY if the XnHash isn't empty
*/
XnStatus SetCompareFunction(XnCompareFunction compareFunction)
{
if (begin() != end())
{
return XN_STATUS_IS_NOT_EMPTY;
}
m_CompareFunction = compareFunction;
return XN_STATUS_OK;
}
protected:
XnStatus Init()
{
m_Bins = XN_NEW_ARR(XnList*, XN_HASH_NUM_BINS);
XN_VALIDATE_ALLOC_PTR(m_Bins);
for (int i = 0; i < XN_HASH_NUM_BINS; i++)
{
m_Bins[i] = NULL;
}
m_Bins[XN_HASH_LAST_BIN] = XN_NEW(XnList); // We need this for an end() iterator
m_nMinBin = XN_HASH_LAST_BIN;
XN_VALIDATE_ALLOC_PTR(m_Bins[XN_HASH_LAST_BIN]);
m_CompareFunction = &XnDefaultCompareFunction;
m_HashFunction = &XnDefaultHashFunction;
return XN_STATUS_OK;
}
/**
* Get an iterator pointing to the entry to which the key belongs
*
* @param key [in] The key of the entry
* @param hashValue [in] The hash value of the key
* @param hiter [out] Iterator to the entry described by key
*
* @return XN_STATUS_NO_MATCH No such key in the XnHash
*/
XnStatus Find(const XnKey& key, XnHashValue hashValue, ConstIterator& hiter) const
{
if (m_Bins[hashValue] != NULL)
{
hiter = ConstIterator(this, hashValue, m_Bins[hashValue]->begin());
for (XnList::ConstIterator iter = m_Bins[hashValue]->begin();
iter != m_Bins[hashValue]->end(); ++iter, ++hiter)
{
if ((*m_CompareFunction)(key, hiter.Key()) == 0)
return XN_STATUS_OK;
}
}
return XN_STATUS_NO_MATCH;
}
/** Each bin is a XnList */
XnList** m_Bins;
XnUInt16 m_nMinBin;
/* Status of initialization - could be an error if memory could not be allocated. */
XnStatus m_nInitStatus;
/** The current hash function */
XnHashFunction m_HashFunction;
/** The current comparison function */
XnCompareFunction m_CompareFunction;
private:
XN_DISABLE_COPY_AND_ASSIGN(XnHash);
XnStatus ConstFind(const XnKey& key, ConstIterator& hiter) const
{
XnHashValue HashValue = (*m_HashFunction)(key);
return Find(key, HashValue, hiter);
}
};
/**
* Declares a default Key Manager for type @a KeyType. It is given the name @a ClassName.
* The manager uses the translator @a KeyTranslator, and is declared using the @a decl declspec.
*/
#define XN_DECLARE_DEFAULT_KEY_MANAGER_DECL(decl, KeyType, ClassName, KeyTranslator) \
class decl ClassName \
{ \
public: \
inline static XnHashValue Hash(KeyType const& key) \
{ \
const XnKey _key = KeyTranslator::GetAsValue(key); \
return XnDefaultHashFunction(_key); \
} \
inline static XnInt32 Compare(KeyType const& key1, KeyType const& key2) \
{ \
const XnKey _key1 = KeyTranslator::GetAsValue(key1); \
const XnKey _key2 = KeyTranslator::GetAsValue(key2); \
return XnDefaultCompareFunction(_key1, _key2); \
} \
};
/**
* Declares a default Key Manager for type @a KeyType. It is given the name @a ClassName.
* The manager uses the translator @a KeyTranslator.
*/
#define XN_DECLARE_DEFAULT_KEY_MANAGER(KeyType, ClassName, KeyTranslator) \
XN_DECLARE_DEFAULT_KEY_MANAGER_DECL(, KeyType, ClassName, KeyTranslator)
/**
* Declares a hash table from @a KeyType to @a ValueType named @a ClassName. The hash table uses
* @a KeyTranslator and @a ValueTranslator for storing keys and values, and @a KeyManager for managing the keys.
* It is declared using the @a decl declspec.
*/
#define XN_DECLARE_HASH_DECL(decl, KeyType, ValueType, ClassName, KeyTranslator, ValueTranslator, KeyManager) \
class decl ClassName : public XnHash \
{ \
public: \
class decl ConstIterator : public XnHash::ConstIterator \
{ \
public: \
friend class ClassName; \
inline ConstIterator(const ConstIterator& other) : XnHash::ConstIterator(other) {} \
inline ConstIterator& operator++() \
{ \
++(*(XnHash::ConstIterator*)this); \
return (*this); \
} \
inline ConstIterator operator++(int) \
{ \
ConstIterator result = *this; \
++*this; \
return result; \
} \
inline ConstIterator& operator--() \
{ \
--(*(XnHash::ConstIterator*)this); \
return (*this); \
} \
inline ConstIterator operator--(int) \
{ \
ConstIterator result = *this; \
--*this; \
return result; \
} \
inline KeyType const& Key() const \
{ \
return KeyTranslator::GetFromValue(XnHash::ConstIterator::Key()); \
} \
inline ValueType const& Value() const \
{ \
return ValueTranslator::GetFromValue(XnHash::ConstIterator::Value()); \
} \
protected: \
inline ConstIterator(const XnHash::ConstIterator& other) : \
XnHash::ConstIterator(other) {} \
}; \
class decl Iterator : public ConstIterator \
{ \
public: \
friend class ClassName; \
inline Iterator(const Iterator& other) : ConstIterator(other) {} \
inline Iterator& operator++() \
{ \
++(*(ConstIterator*)this); \
return (*this); \
} \
inline Iterator operator++(int) \
{ \
Iterator result = *this; \
++*this; \
return result; \
} \
inline Iterator& operator--() \
{ \
--(*(ConstIterator*)this); \
return (*this); \
} \
inline Iterator operator--(int) \
{ \
Iterator result = *this; \
--*this; \
return result; \
} \
inline KeyType& Key() const \
{ \
return (KeyType&)ConstIterator::Key(); \
} \
inline ValueType& Value() const \
{ \
return (ValueType&)ConstIterator::Value(); \
} \
protected: \
inline Iterator(const XnHash::Iterator& other) : ConstIterator(other) {} \
}; \
public: \
ClassName() \
{ \
SetHashFunction(Hash); \
SetCompareFunction(Compare); \
} \
virtual ~ClassName() \
{ \
while (!IsEmpty()) \
Remove(begin()); \
} \
XnStatus Set(KeyType const& key, ValueType const& value) \
{ \
Iterator oldIt = begin(); \
if (Find(key, oldIt) == XN_STATUS_OK) \
{ \
oldIt.Value() = value; \
} \
else \
{ \
XnKey _key = KeyTranslator::CreateValueCopy(key); \
XnValue _value = ValueTranslator::CreateValueCopy(value); \
XnStatus nRetVal = XnHash::Set(_key, _value); \
if (nRetVal != XN_STATUS_OK) \
{ \
KeyTranslator::FreeValue(_key); \
ValueTranslator::FreeValue(_value); \
return (nRetVal); \
} \
} \
return XN_STATUS_OK; \
} \
XnStatus Get(KeyType const& key, ValueType& value) const \
{ \
XnKey _key = KeyTranslator::GetAsValue(key); \
XnValue _value; \
XnStatus nRetVal = XnHash::Get(_key, _value); \
if (nRetVal != XN_STATUS_OK) return (nRetVal); \
value = ValueTranslator::GetFromValue(_value); \
return XN_STATUS_OK; \
} \
XnStatus Get(KeyType const& key, ValueType*& pValue) const \
{ \
XnKey _key = KeyTranslator::GetAsValue(key); \
XnValue _value; \
XnStatus nRetVal = XnHash::Get(_key, _value); \
if (nRetVal != XN_STATUS_OK) return (nRetVal); \
pValue = &ValueTranslator::GetFromValue(_value); \
return XN_STATUS_OK; \
} \
XnStatus Remove(KeyType const& key) \
{ \
ValueType dummy; \
return Remove(key, dummy); \
} \
XnStatus Remove(KeyType const& key, ValueType& value) \
{ \
ConstIterator it = end(); \
XnStatus nRetVal = Find(key, it); \
if (nRetVal != XN_STATUS_OK) return (nRetVal); \
value = it.Value(); \
return Remove(it); \
} \
inline XnStatus Remove(ConstIterator iter) \
{ \
XnKey key = KeyTranslator::GetAsValue(iter.Key()); \
XnValue value = ValueTranslator::GetAsValue(iter.Value()); \
XnStatus nRetVal = XnHash::Remove(iter); \
if (nRetVal != XN_STATUS_OK) return (nRetVal); \
KeyTranslator::FreeValue(key); \
ValueTranslator::FreeValue(value); \
return XN_STATUS_OK; \
} \
XnStatus Find(KeyType const& key, ConstIterator& hiter) const \
{ \
XnKey _key = KeyTranslator::GetAsValue(key); \
XnHash::ConstIterator it = XnHash::end(); \
XnStatus nRetVal = XnHash::Find(_key, it); \
if (nRetVal != XN_STATUS_OK) return (nRetVal); \
hiter = it; \
return XN_STATUS_OK; \
} \
XnStatus Find(KeyType const& key, Iterator& hiter) \
{ \
XnKey _key = KeyTranslator::GetAsValue(key); \
XnHash::Iterator it = XnHash::end(); \
XnStatus nRetVal = XnHash::Find(_key, it); \
if (nRetVal != XN_STATUS_OK) return (nRetVal); \
hiter = it; \
return XN_STATUS_OK; \
} \
inline Iterator begin() { return XnHash::begin(); } \
inline ConstIterator begin() const { return XnHash::begin(); } \
inline Iterator end() { return XnHash::end(); } \
inline ConstIterator end() const { return XnHash::end(); } \
protected: \
virtual XnStatus Remove(XnHash::ConstIterator iter) \
{ \
return Remove(ConstIterator(iter)); \
} \
inline static XnHashValue Hash(const XnKey& key) \
{ \
KeyType const& _key = KeyTranslator::GetFromValue(key); \
return KeyManager::Hash(_key); \
} \
inline static XnInt32 Compare(const XnKey& key1, const XnKey& key2) \
{ \
KeyType const _key1 = KeyTranslator::GetFromValue(key1); \
KeyType const _key2 = KeyTranslator::GetFromValue(key2); \
return KeyManager::Compare(_key1, _key2); \
} \
private: \
XN_DISABLE_COPY_AND_ASSIGN(ClassName); \
};
/**
* Declares a hash table from @a KeyType to @a ValueType named @a ClassName. The hash table uses
* @a KeyTranslator and @a ValueTranslator for storing keys and values, and @a KeyManager for managing the keys.
*/
#define XN_DECLARE_HASH(KeyType, ValueType, ClassName, KeyTranslator, ValueTranslator, KeyManager) \
XN_DECLARE_HASH_DECL(, KeyType, ValueType, ClassName, KeyTranslator, ValueTranslator, KeyManager)
#define _XN_DEFAULT_KEY_MANAGER_NAME(ClassName) _##ClassName##Manager
/**
* Declares a hash table from @a KeyType to @a ValueType named @a ClassName. The hash table uses
* @a KeyTranslator and @a ValueTranslator for storing keys and values. It declares and uses a default manager.
* It is declared using the @a decl declspec.
*/
#define XN_DECLARE_DEFAULT_MANAGER_HASH_DECL(decl, KeyType, ValueType, ClassName, KeyTranslator, ValueTranslator) \
XN_DECLARE_DEFAULT_KEY_MANAGER_DECL(decl, KeyType, _XN_DEFAULT_KEY_MANAGER_NAME(ClassName), KeyTranslator) \
XN_DECLARE_HASH_DECL(decl, KeyType, ValueType, ClassName, KeyTranslator, ValueTranslator, _XN_DEFAULT_KEY_MANAGER_NAME(ClassName))
/**
* Declares a hash table from @a KeyType to @a ValueType named @a ClassName. The hash table uses
* @a KeyTranslator and @a ValueTranslator for storing keys and values. It declares and uses a default manager.
*/
#define XN_DECLARE_DEFAULT_MANAGER_HASH(decl, KeyType, ValueType, ClassName, KeyTranslator, ValueTranslator) \
XN_DECLARE_DEFAULT_MANAGER_HASH_DECL(, KeyType, ValueType, ClassName, KeyTranslator, ValueTranslator)
#define _XN_DEFAULT_KEY_TRANSLATOR(ClassName) _##ClassName##KeyTranslator
#define _XN_DEFAULT_VALUE_TRANSLATOR(ClassName) _##ClassName##ValueTranslator
/**
* Declares a hash table from @a KeyType to @a ValueType named @a ClassName. The hash table uses
* default translators for storing keys and values. It declares and uses a default manager.
* It is declared using the @a decl declspec.
*/
#define XN_DECLARE_DEFAULT_HASH_DECL(decl, KeyType, ValueType, ClassName) \
XN_DECLARE_DEFAULT_VALUE_TRANSLATOR_DECL(decl, KeyType, _XN_DEFAULT_KEY_TRANSLATOR(ClassName)) \
XN_DECLARE_DEFAULT_VALUE_TRANSLATOR_DECL(decl, ValueType, _XN_DEFAULT_VALUE_TRANSLATOR(ClassName)) \
XN_DECLARE_DEFAULT_MANAGER_HASH_DECL(decl, KeyType, ValueType, ClassName, _XN_DEFAULT_KEY_TRANSLATOR(ClassName), _XN_DEFAULT_VALUE_TRANSLATOR(ClassName))
/**
* Declares a hash table from @a KeyType to @a ValueType named @a ClassName. The hash table uses
* default translators for storing keys and values. It declares and uses a default manager.
*/
#define XN_DECLARE_DEFAULT_HASH(KeyType, ValueType, ClassName) \
XN_DECLARE_DEFAULT_HASH_DECL(, KeyType, ValueType, ClassName)
#endif // _XN_HASH_H
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