/usr/include/xercesc/util/RefHash3KeysIdPool.c is in libxerces-c-dev 3.1.1-5.
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* Licensed to the Apache Software Foundation (ASF) under one or more
* contributor license agreements. See the NOTICE file distributed with
* this work for additional information regarding copyright ownership.
* The ASF licenses this file to You 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.
*/
/*
* $Id: RefHash3KeysIdPool.c 883368 2009-11-23 15:28:19Z amassari $
*/
// ---------------------------------------------------------------------------
// Include
// ---------------------------------------------------------------------------
#if defined(XERCES_TMPLSINC)
#include <xercesc/util/RefHash3KeysIdPool.hpp>
#endif
#include <xercesc/util/NullPointerException.hpp>
#include <assert.h>
#include <new>
XERCES_CPP_NAMESPACE_BEGIN
// ---------------------------------------------------------------------------
// RefHash3KeysIdPool: Constructors and Destructor
// ---------------------------------------------------------------------------
template <class TVal, class THasher>
RefHash3KeysIdPool<TVal, THasher>::RefHash3KeysIdPool(
const XMLSize_t modulus,
const XMLSize_t initSize,
MemoryManager* const manager)
: fMemoryManager(manager)
, fAdoptedElems(true)
, fBucketList(0)
, fHashModulus(modulus)
, fIdPtrs(0)
, fIdPtrsCount(initSize)
, fIdCounter(0)
{
initialize(modulus);
// Allocate the initial id pointers array. We don't have to zero them
// out since the fIdCounter value tells us which ones are valid. The
// zeroth element is never used (and represents an invalid pool id.)
//
if (!fIdPtrsCount)
fIdPtrsCount = 256;
fIdPtrs = (TVal**) fMemoryManager->allocate(fIdPtrsCount * sizeof(TVal*)); //new TVal*[fIdPtrsCount];
fIdPtrs[0] = 0;
}
template <class TVal, class THasher>
RefHash3KeysIdPool<TVal, THasher>::RefHash3KeysIdPool(
const XMLSize_t modulus,
const THasher& hasher,
const XMLSize_t initSize,
MemoryManager* const manager)
: fMemoryManager(manager)
, fAdoptedElems(true)
, fBucketList(0)
, fHashModulus(modulus)
, fIdPtrs(0)
, fIdPtrsCount(initSize)
, fIdCounter(0)
, fHasher(hasher)
{
initialize(modulus);
// Allocate the initial id pointers array. We don't have to zero them
// out since the fIdCounter value tells us which ones are valid. The
// zeroth element is never used (and represents an invalid pool id.)
//
if (!fIdPtrsCount)
fIdPtrsCount = 256;
fIdPtrs = (TVal**) fMemoryManager->allocate(fIdPtrsCount * sizeof(TVal*)); //new TVal*[fIdPtrsCount];
fIdPtrs[0] = 0;
}
template <class TVal, class THasher>
RefHash3KeysIdPool<TVal, THasher>::RefHash3KeysIdPool(
const XMLSize_t modulus,
const bool adoptElems,
const XMLSize_t initSize,
MemoryManager* const manager)
: fMemoryManager(manager)
, fAdoptedElems(adoptElems)
, fBucketList(0)
, fHashModulus(modulus)
, fIdPtrs(0)
, fIdPtrsCount(initSize)
, fIdCounter(0)
{
initialize(modulus);
// Allocate the initial id pointers array. We don't have to zero them
// out since the fIdCounter value tells us which ones are valid. The
// zeroth element is never used (and represents an invalid pool id.)
//
if (!fIdPtrsCount)
fIdPtrsCount = 256;
fIdPtrs = (TVal**) fMemoryManager->allocate(fIdPtrsCount * sizeof(TVal*)); //new TVal*[fIdPtrsCount];
fIdPtrs[0] = 0;
}
template <class TVal, class THasher>
RefHash3KeysIdPool<TVal, THasher>::RefHash3KeysIdPool(
const XMLSize_t modulus,
const bool adoptElems,
const THasher& hasher,
const XMLSize_t initSize,
MemoryManager* const manager)
: fMemoryManager(manager)
, fAdoptedElems(adoptElems)
, fBucketList(0)
, fHashModulus(modulus)
, fIdPtrs(0)
, fIdPtrsCount(initSize)
, fIdCounter(0)
, fHasher(hasher)
{
initialize(modulus);
// Allocate the initial id pointers array. We don't have to zero them
// out since the fIdCounter value tells us which ones are valid. The
// zeroth element is never used (and represents an invalid pool id.)
//
if (!fIdPtrsCount)
fIdPtrsCount = 256;
fIdPtrs = (TVal**) fMemoryManager->allocate(fIdPtrsCount * sizeof(TVal*)); //new TVal*[fIdPtrsCount];
fIdPtrs[0] = 0;
}
template <class TVal, class THasher>
void RefHash3KeysIdPool<TVal, THasher>::initialize(const XMLSize_t modulus)
{
if (modulus == 0)
ThrowXMLwithMemMgr(IllegalArgumentException, XMLExcepts::HshTbl_ZeroModulus, fMemoryManager);
// Allocate the bucket list and zero them
fBucketList = (RefHash3KeysTableBucketElem<TVal>**) fMemoryManager->allocate
(
fHashModulus * sizeof(RefHash3KeysTableBucketElem<TVal>*)
); //new RefHash3KeysTableBucketElem<TVal>*[fHashModulus];
memset(fBucketList, 0, sizeof(fBucketList[0]) * fHashModulus);
}
template <class TVal, class THasher>
RefHash3KeysIdPool<TVal, THasher>::~RefHash3KeysIdPool()
{
removeAll();
// Then delete the bucket list & hasher & id pointers list
fMemoryManager->deallocate(fIdPtrs); //delete [] fIdPtrs;
fIdPtrs = 0;
fMemoryManager->deallocate(fBucketList); //delete [] fBucketList;
fBucketList = 0;
}
// ---------------------------------------------------------------------------
// RefHash3KeysIdPool: Element management
// ---------------------------------------------------------------------------
template <class TVal, class THasher>
bool RefHash3KeysIdPool<TVal, THasher>::isEmpty() const
{
// Just check the bucket list for non-empty elements
for (XMLSize_t buckInd = 0; buckInd < fHashModulus; buckInd++)
{
if (fBucketList[buckInd] != 0)
return false;
}
return true;
}
template <class TVal, class THasher>
bool RefHash3KeysIdPool<TVal, THasher>::
containsKey(const void* const key1, const int key2, const int key3) const
{
XMLSize_t hashVal;
const RefHash3KeysTableBucketElem<TVal>* findIt = findBucketElem(key1, key2, key3, hashVal);
return (findIt != 0);
}
template <class TVal, class THasher>
void RefHash3KeysIdPool<TVal, THasher>::removeAll()
{
if (fIdCounter == 0) return;
// Clean up the buckets first
for (XMLSize_t buckInd = 0; buckInd < fHashModulus; buckInd++)
{
// Get the bucket list head for this entry
RefHash3KeysTableBucketElem<TVal>* curElem = fBucketList[buckInd];
RefHash3KeysTableBucketElem<TVal>* nextElem;
while (curElem)
{
// Save the next element before we hose this one
nextElem = curElem->fNext;
// If we adopted the data, then delete it too
// (Note: the userdata hash table instance has data type of void *.
// This will generate compiler warnings here on some platforms, but they
// can be ignored since fAdoptedElements is false.
if (fAdoptedElems)
delete curElem->fData;
// Then delete the current element and move forward
// delete curElem;
// destructor is empty...
// curElem->~RefHash3KeysTableBucketElem();
fMemoryManager->deallocate(curElem);
curElem = nextElem;
}
// Clean out this entry
fBucketList[buckInd] = 0;
}
// Reset the id counter
fIdCounter = 0;
}
// ---------------------------------------------------------------------------
// RefHash3KeysIdPool: Getters
// ---------------------------------------------------------------------------
template <class TVal, class THasher>
TVal*
RefHash3KeysIdPool<TVal, THasher>::getByKey(const void* const key1, const int key2, const int key3)
{
XMLSize_t hashVal;
RefHash3KeysTableBucketElem<TVal>* findIt = findBucketElem(key1, key2, key3, hashVal);
if (!findIt)
return 0;
return findIt->fData;
}
template <class TVal, class THasher>
const TVal*
RefHash3KeysIdPool<TVal, THasher>::getByKey(const void* const key1, const int key2, const int key3) const
{
XMLSize_t hashVal;
const RefHash3KeysTableBucketElem<TVal>* findIt = findBucketElem(key1, key2, key3, hashVal);
if (!findIt)
return 0;
return findIt->fData;
}
template <class TVal, class THasher>
TVal*
RefHash3KeysIdPool<TVal, THasher>::getById(const unsigned int elemId)
{
// If its either zero or beyond our current id, its an error
if (!elemId || (elemId > fIdCounter))
ThrowXMLwithMemMgr(IllegalArgumentException, XMLExcepts::Pool_InvalidId, fMemoryManager);
return fIdPtrs[elemId];
}
template <class TVal, class THasher>
const TVal*
RefHash3KeysIdPool<TVal, THasher>::getById(const unsigned int elemId) const
{
// If its either zero or beyond our current id, its an error
if (!elemId || (elemId > fIdCounter))
ThrowXMLwithMemMgr(IllegalArgumentException, XMLExcepts::Pool_InvalidId, fMemoryManager);
return fIdPtrs[elemId];
}
template <class TVal, class THasher>
MemoryManager* RefHash3KeysIdPool<TVal, THasher>::getMemoryManager() const
{
return fMemoryManager;
}
template <class TVal, class THasher>
XMLSize_t RefHash3KeysIdPool<TVal, THasher>::getHashModulus() const
{
return fHashModulus;
}
// ---------------------------------------------------------------------------
// RefHash3KeysIdPool: Putters
// ---------------------------------------------------------------------------
template <class TVal, class THasher>
XMLSize_t
RefHash3KeysIdPool<TVal, THasher>::put(void* key1, int key2, int key3, TVal* const valueToAdopt)
{
// First see if the key exists already
XMLSize_t hashVal;
XMLSize_t retId;
RefHash3KeysTableBucketElem<TVal>* newBucket = findBucketElem(key1, key2, key3, hashVal);
//
// If so,then update its value. If not, then we need to add it to
// the right bucket
//
if (newBucket)
{
retId = newBucket->fData->getId();
if (fAdoptedElems)
delete newBucket->fData;
newBucket->fData = valueToAdopt;
newBucket->fKey1 = key1;
newBucket->fKey2 = key2;
newBucket->fKey3 = key3;
}
else
{
// Revisit: the gcc compiler 2.95.x is generating an
// internal compiler error message. So we use the default
// memory manager for now.
#if defined (XML_GCC_VERSION) && (XML_GCC_VERSION < 29600)
newBucket = new RefHash3KeysTableBucketElem<TVal>(key1, key2, key3, valueToAdopt, fBucketList[hashVal]);
#else
newBucket =
new (fMemoryManager->allocate(sizeof(RefHash3KeysTableBucketElem<TVal>)))
RefHash3KeysTableBucketElem<TVal>(key1, key2, key3, valueToAdopt, fBucketList[hashVal]);
#endif
fBucketList[hashVal] = newBucket;
//
// Give this new one the next available id and add to the pointer list.
// Expand the list if that is now required.
//
if (fIdCounter + 1 == fIdPtrsCount)
{
// Create a new count 1.5 times larger and allocate a new array
XMLSize_t newCount = (XMLSize_t)(fIdPtrsCount * 1.5);
TVal** newArray = (TVal**) fMemoryManager->allocate
(
newCount * sizeof(TVal*)
); //new TVal*[newCount];
// Copy over the old contents to the new array
memcpy(newArray, fIdPtrs, fIdPtrsCount * sizeof(TVal*));
// Ok, toss the old array and store the new data
fMemoryManager->deallocate(fIdPtrs); //delete [] fIdPtrs;
fIdPtrs = newArray;
fIdPtrsCount = newCount;
}
retId = ++fIdCounter;
}
fIdPtrs[retId] = valueToAdopt;
// Set the id on the passed element
valueToAdopt->setId(retId);
// Return the id that we gave to this element
return retId;
}
// ---------------------------------------------------------------------------
// RefHash3KeysIdPool: Private methods
// ---------------------------------------------------------------------------
template <class TVal, class THasher>
inline RefHash3KeysTableBucketElem<TVal>* RefHash3KeysIdPool<TVal, THasher>::
findBucketElem(const void* const key1, const int key2, const int key3, XMLSize_t& hashVal)
{
// Hash the key
hashVal = fHasher.getHashVal(key1, fHashModulus);
assert(hashVal < fHashModulus);
// Search that bucket for the key
RefHash3KeysTableBucketElem<TVal>* curElem = fBucketList[hashVal];
while (curElem)
{
if((key2==curElem->fKey2) && (key3==curElem->fKey3) && (fHasher.equals(key1, curElem->fKey1)))
return curElem;
curElem = curElem->fNext;
}
return 0;
}
template <class TVal, class THasher>
inline const RefHash3KeysTableBucketElem<TVal>* RefHash3KeysIdPool<TVal, THasher>::
findBucketElem(const void* const key1, const int key2, const int key3, XMLSize_t& hashVal) const
{
// Hash the key
hashVal = fHasher.getHashVal(key1, fHashModulus);
assert(hashVal < fHashModulus);
// Search that bucket for the key
const RefHash3KeysTableBucketElem<TVal>* curElem = fBucketList[hashVal];
while (curElem)
{
if((key2==curElem->fKey2) && (key3==curElem->fKey3) && (fHasher.equals(key1, curElem->fKey1)))
return curElem;
curElem = curElem->fNext;
}
return 0;
}
// ---------------------------------------------------------------------------
// RefHash3KeysIdPoolEnumerator: Constructors and Destructor
// ---------------------------------------------------------------------------
template <class TVal, class THasher>
RefHash3KeysIdPoolEnumerator<TVal, THasher>::
RefHash3KeysIdPoolEnumerator(RefHash3KeysIdPool<TVal, THasher>* const toEnum
, const bool adopt
, MemoryManager* const manager)
: fAdoptedElems(adopt), fCurIndex(0), fToEnum(toEnum), fMemoryManager(manager)
{
if (!toEnum)
ThrowXMLwithMemMgr(NullPointerException, XMLExcepts::CPtr_PointerIsZero, fMemoryManager);
Reset();
resetKey();
}
template <class TVal, class THasher>
RefHash3KeysIdPoolEnumerator<TVal, THasher>::~RefHash3KeysIdPoolEnumerator()
{
if (fAdoptedElems)
delete fToEnum;
}
template <class TVal, class THasher>
RefHash3KeysIdPoolEnumerator<TVal, THasher>::
RefHash3KeysIdPoolEnumerator(const RefHash3KeysIdPoolEnumerator<TVal, THasher>& toCopy) :
XMLEnumerator<TVal>(toCopy)
, XMemory(toCopy)
, fAdoptedElems(toCopy.fAdoptedElems)
, fCurIndex(toCopy.fCurIndex)
, fToEnum(toCopy.fToEnum)
, fCurElem(toCopy.fCurElem)
, fCurHash(toCopy.fCurHash)
, fMemoryManager(toCopy.fMemoryManager)
{
}
// ---------------------------------------------------------------------------
// RefHash3KeysIdPoolEnumerator: Enum interface
// ---------------------------------------------------------------------------
template <class TVal, class THasher>
bool RefHash3KeysIdPoolEnumerator<TVal, THasher>::hasMoreElements() const
{
// If our index is zero or past the end, then we are done
if (!fCurIndex || (fCurIndex > fToEnum->fIdCounter))
return false;
return true;
}
template <class TVal, class THasher>
TVal& RefHash3KeysIdPoolEnumerator<TVal, THasher>::nextElement()
{
// If our index is zero or past the end, then we are done
if (!fCurIndex || (fCurIndex > fToEnum->fIdCounter))
ThrowXMLwithMemMgr(NoSuchElementException, XMLExcepts::Enum_NoMoreElements, fMemoryManager);
// Return the current element and bump the index
return *fToEnum->fIdPtrs[fCurIndex++];
}
template <class TVal, class THasher>
void RefHash3KeysIdPoolEnumerator<TVal, THasher>::Reset()
{
//
// Find the next available bucket element in the pool. We use the id
// array since its very easy to enumerator through by just maintaining
// an index. If the id counter is zero, then its empty and we leave the
// current index to zero.
//
fCurIndex = fToEnum->fIdCounter ? 1:0;
}
template <class TVal, class THasher>
XMLSize_t RefHash3KeysIdPoolEnumerator<TVal, THasher>::size() const
{
return fToEnum->fIdCounter;
}
template <class TVal, class THasher>
void RefHash3KeysIdPoolEnumerator<TVal, THasher>::resetKey()
{
fCurHash = (XMLSize_t)-1;
fCurElem = 0;
findNext();
}
template <class TVal, class THasher>
bool RefHash3KeysIdPoolEnumerator<TVal, THasher>::hasMoreKeys() const
{
//
// If our current has is at the max and there are no more elements
// in the current bucket, then no more elements.
//
if (!fCurElem && (fCurHash == fToEnum->fHashModulus))
return false;
return true;
}
template <class TVal, class THasher>
void RefHash3KeysIdPoolEnumerator<TVal, THasher>::nextElementKey(void*& retKey1, int& retKey2, int& retKey3)
{
// Make sure we have an element to return
if (!hasMoreKeys())
ThrowXMLwithMemMgr(NoSuchElementException, XMLExcepts::Enum_NoMoreElements, fMemoryManager);
//
// Save the current element, then move up to the next one for the
// next time around.
//
RefHash3KeysTableBucketElem<TVal>* saveElem = fCurElem;
findNext();
retKey1 = saveElem->fKey1;
retKey2 = saveElem->fKey2;
retKey3 = saveElem->fKey3;
return;
}
template <class TVal, class THasher>
void RefHash3KeysIdPoolEnumerator<TVal, THasher>::findNext()
{
//
// If there is a current element, move to its next element. If this
// hits the end of the bucket, the next block will handle the rest.
//
if (fCurElem)
fCurElem = fCurElem->fNext;
//
// If the current element is null, then we have to move up to the
// next hash value. If that is the hash modulus, then we cannot
// go further.
//
if (!fCurElem)
{
fCurHash++;
if (fCurHash == fToEnum->fHashModulus)
return;
// Else find the next non-empty bucket
while (fToEnum->fBucketList[fCurHash]==0)
{
// Bump to the next hash value. If we max out return
fCurHash++;
if (fCurHash == fToEnum->fHashModulus)
return;
}
fCurElem = fToEnum->fBucketList[fCurHash];
}
}
XERCES_CPP_NAMESPACE_END
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