/usr/include/tulip/cxx/MutableContainer.cxx is in libtulip-dev 4.8.0dfsg-2+b7.
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*
* This file is part of Tulip (www.tulip-software.org)
*
* Authors: David Auber and the Tulip development Team
* from LaBRI, University of Bordeaux
*
* Tulip 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.
*
* Tulip 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 General Public License for more details.
*
*/
//===================================================================
template <typename TYPE>
tlp::MutableContainer<TYPE>::MutableContainer(): vData(new std::deque<typename StoredType<TYPE>::Value>()),
hData(NULL), minIndex(UINT_MAX), maxIndex(UINT_MAX), defaultValue(StoredType<TYPE>::defaultValue()), state(VECT), elementInserted(0),
ratio(double(sizeof(typename tlp::StoredType<TYPE>::Value)) / (3.0*double(sizeof(void *))+double(sizeof(typename tlp::StoredType<TYPE>::Value)))),
compressing(false) {
}
//===================================================================
template <typename TYPE>
tlp::MutableContainer<TYPE>::~MutableContainer() {
switch (state) {
case VECT:
if (StoredType<TYPE>::isPointer) {
// delete stored values
typename std::deque<typename StoredType<TYPE>::Value>::const_iterator it =
vData->begin();
while (it!= vData->end()) {
if ((*it) != defaultValue)
StoredType<TYPE>::destroy(*it);
++it;
}
}
delete vData;
vData = NULL;
break;
case HASH:
if (StoredType<TYPE>::isPointer) {
// delete stored values
typename TLP_HASH_MAP<unsigned int, typename StoredType<TYPE>::Value>::const_iterator it = hData->begin();
while (it!= hData->end()) {
StoredType<TYPE>::destroy((*it).second);
++it;
}
}
delete hData;
hData = NULL;
break;
default:
assert(false);
tlp::error() << __PRETTY_FUNCTION__ << "unexpected state value (serious bug)" << std::endl;
break;
}
StoredType<TYPE>::destroy(defaultValue);
}
//===================================================================
template <typename TYPE>
void tlp::MutableContainer<TYPE>::setAll(const TYPE &value) {
switch (state) {
case VECT:
if (StoredType<TYPE>::isPointer) {
// delete stored values
typename std::deque<typename StoredType<TYPE>::Value>::const_iterator it =
vData->begin();
while (it!= vData->end()) {
if ((*it) != defaultValue)
StoredType<TYPE>::destroy(*it);
++it;
}
}
vData->clear();
break;
case HASH:
if (StoredType<TYPE>::isPointer) {
// delete stored values
typename TLP_HASH_MAP<unsigned int, typename StoredType<TYPE>::Value>::const_iterator it = hData->begin();
while (it!= hData->end()) {
StoredType<TYPE>::destroy((*it).second);
++it;
}
}
delete hData;
hData = NULL;
vData = new std::deque<typename StoredType<TYPE>::Value>();
break;
default:
assert(false);
tlp::error() << __PRETTY_FUNCTION__ << "unexpected state value (serious bug)" << std::endl;
break;
}
StoredType<TYPE>::destroy(defaultValue);
defaultValue = StoredType<TYPE>::clone(value);
state = VECT;
maxIndex = UINT_MAX;
minIndex = UINT_MAX;
elementInserted = 0;
}
//===================================================================
// this method is private and used as is by GraphUpdatesRecorder class
// it is also used to implement findAll
template <typename TYPE>
tlp::IteratorValue* tlp::MutableContainer<TYPE>::findAllValues(const TYPE &value,
bool equal) const {
if (equal &&
StoredType<TYPE>::equal(defaultValue, value))
// error
return NULL;
else {
switch (state) {
case VECT:
return new IteratorVect<TYPE>(value, equal, vData, minIndex);
break;
case HASH:
return new IteratorHash<TYPE>(value, equal, hData);
break;
default:
assert(false);
tlp::error() << __PRETTY_FUNCTION__ << "unexpected state value (serious bug)" << std::endl;
return NULL;
}
}
}
//===================================================================
// this method is visible for any class
template <typename TYPE>
tlp::Iterator<unsigned int>* tlp::MutableContainer<TYPE>::findAll(const TYPE &value,
bool equal) const {
return findAllValues(value, equal);
}
//===================================================================
template <typename TYPE>
void tlp::MutableContainer<TYPE>::vectset(const unsigned int i,
typename StoredType<TYPE>::Value value) {
if (minIndex == UINT_MAX) {
minIndex = i;
maxIndex = i;
(*vData).push_back(value);
++elementInserted;
}
else {
// the time performance of these two attempts of nicer coding
// in this commented code seems worse than the loops below (about 15%)
// if ( i > maxIndex ) {
//-- 1st attempt --
// vData->resize(i+1 - minIndex, defaultValue);
//-- 2nd attempt
// vData->insert(vData->end(), i - maxIndex, defaultValue);
// maxIndex = i;
// } else if (i < minIndex) {
// vData->insert(vData->begin(), minIndex - i, defaultValue);
// minIndex = i;
// }
while ( i > maxIndex ) {
(*vData).push_back(defaultValue);
++maxIndex;
}
while ( i < minIndex ) {
(*vData).push_front(defaultValue);
--minIndex;
}
typename StoredType<TYPE>::Value val = (*vData)[i - minIndex];
(*vData)[i - minIndex] = value;
if (val != defaultValue)
StoredType<TYPE>::destroy(val);
else
++elementInserted;
}
}
//===================================================================
template <typename TYPE>
void tlp::MutableContainer<TYPE>::set(const unsigned int i, const TYPE &value) {
//Test if after insertion we need to resize
if (!compressing &&
!StoredType<TYPE>::equal(defaultValue, value)) {
compressing = true;
compress (std::min(i,minIndex), std::max(i,maxIndex), elementInserted);
compressing = false;
}
if (StoredType<TYPE>::equal(defaultValue, value)) {
switch (state) {
case VECT :
if (i<=maxIndex && i>=minIndex) {
typename StoredType<TYPE>::Value val = (*vData)[i - minIndex];
if (val != defaultValue) {
(*vData)[i - minIndex]= defaultValue;
StoredType<TYPE>::destroy(val);
--elementInserted;
}
}
return;
case HASH : {
typename TLP_HASH_MAP<unsigned int, typename StoredType<TYPE>::Value>::iterator it = hData->find(i);
if (it!=hData->end()) {
StoredType<TYPE>::destroy((*it).second);
hData->erase(i);
--elementInserted;
}
break;
}
default:
assert(false);
tlp::error() << __PRETTY_FUNCTION__ << "unexpected state value (serious bug)" << std::endl;
break;
}
}
else {
typename StoredType<TYPE>::Value newVal =
StoredType<TYPE>::clone(value);
switch (state) {
case VECT :
vectset(i, newVal);
return;
case HASH : {
typename TLP_HASH_MAP<unsigned int, typename StoredType<TYPE>::Value>::iterator it = hData->find(i);
if (it!=hData->end())
StoredType<TYPE>::destroy((*it).second);
else
++elementInserted;
(*hData)[i]= newVal;
break;
}
default:
assert(false);
tlp::error() << __PRETTY_FUNCTION__ << "unexpected state value (serious bug)" << std::endl;
break;
}
maxIndex = std::max(maxIndex, i);
minIndex = std::min(minIndex, i);
}
}
//===================================================================
template <typename TYPE>
void tlp::MutableContainer<TYPE>::add(const unsigned int i, TYPE val) {
if (tlp::StoredType<TYPE>::isPointer == false) {
if (maxIndex == UINT_MAX) {
assert(state == VECT);
minIndex = i;
maxIndex = i;
(*vData).push_back(defaultValue + val);
++elementInserted;
return;
}
switch (state) {
case VECT: {
if (i > maxIndex || i < minIndex) {
set(i, defaultValue + val);
return;
}
TYPE& oldVal = (*vData)[i - minIndex];
if (oldVal == defaultValue) {
set(i, defaultValue + val);
return;
}
oldVal += val;
return;
}
case HASH: {
typename TLP_HASH_MAP<unsigned int, typename StoredType<TYPE>::Value>::iterator it = hData->find(i);
if (it!=hData->end()) {
// check default value
if ((it->second + val) == defaultValue) {
StoredType<TYPE>::destroy((*it).second);
hData->erase(i);
--elementInserted;
}
else
it->second += val;
}
else {
set(i, defaultValue + val);
}
return;
}
default:
assert(false);
std::cerr << __PRETTY_FUNCTION__ << "unexpected state value (serious bug)" << std::endl;
}
}
assert(false);
std::cerr << __PRETTY_FUNCTION__ << "not implemented" << std::endl;
}
//===================================================================
template <typename TYPE>
typename tlp::StoredType<TYPE>::ReturnedConstValue tlp::MutableContainer<TYPE>::get(const unsigned int i) const {
// cerr << __PRETTY_FUNCTION__ << endl;
if (maxIndex == UINT_MAX) return StoredType<TYPE>::get(defaultValue);
switch (state) {
case VECT:
if (i>maxIndex || i<minIndex)
return StoredType<TYPE>::get(defaultValue);
else
return StoredType<TYPE>::get((*vData)[i - minIndex]);
case HASH: {
typename TLP_HASH_MAP<unsigned int, typename StoredType<TYPE>::Value>::iterator it = hData->find(i);
if (it!=hData->end())
return StoredType<TYPE>::get((*it).second);
else
return StoredType<TYPE>::get(defaultValue);
}
default:
assert(false);
tlp::error() << __PRETTY_FUNCTION__ << "unexpected state value (serious bug)" << std::endl;
return StoredType<TYPE>::get(defaultValue);
break;
}
}
//===================================================================
template <typename TYPE>
typename tlp::StoredType<TYPE>::ReturnedValue tlp::MutableContainer<TYPE>::getDefault() const {
return StoredType<TYPE>::get(defaultValue);
}
//===================================================================
template <typename TYPE>
bool tlp::MutableContainer<TYPE>::hasNonDefaultValue(const unsigned int i) const {
if (maxIndex == UINT_MAX) return false;
switch (state) {
case VECT:
return (i<=maxIndex && i>=minIndex &&
(((*vData)[i - minIndex]) != defaultValue));
case HASH:
return ((hData->find(i))!=hData->end());
default:
assert(false);
tlp::error() << __PRETTY_FUNCTION__ << "unexpected state value (serious bug)" << std::endl;
return false;
}
}
//===================================================================
template <typename TYPE>
typename tlp::StoredType<TYPE>::ReturnedValue tlp::MutableContainer<TYPE>::get(const unsigned int i, bool& notDefault) const {
if (maxIndex == UINT_MAX) {
notDefault = false;
return StoredType<TYPE>::get(defaultValue);
}
switch (state) {
case VECT:
if (i>maxIndex || i<minIndex) {
notDefault = false;
return StoredType<TYPE>::get(defaultValue);
}
else {
typename StoredType<TYPE>::Value val = (*vData)[i - minIndex];
notDefault = val != defaultValue;
return StoredType<TYPE>::get(val);
}
case HASH: {
typename TLP_HASH_MAP<unsigned int, typename StoredType<TYPE>::Value>::iterator it = hData->find(i);
if (it!=hData->end()) {
notDefault = true;
return StoredType<TYPE>::get((*it).second);
}
else {
notDefault = false;
return StoredType<TYPE>::get(defaultValue);
}
}
default:
assert(false);
notDefault = false;
tlp::error() << __PRETTY_FUNCTION__ << "unexpected state value (serious bug)" << std::endl;
return StoredType<TYPE>::get(defaultValue);
}
}
//===================================================================
template <typename TYPE>
unsigned int tlp::MutableContainer<TYPE>::numberOfNonDefaultValues() const {
return elementInserted;
}
//===================================================================
template <typename TYPE>
void tlp::MutableContainer<TYPE>::vecttohash() {
hData=new TLP_HASH_MAP<unsigned int, typename StoredType<TYPE>::Value>(elementInserted);
unsigned int newMaxIndex = 0;
unsigned int newMinIndex = UINT_MAX;
elementInserted = 0;
for (unsigned int i=minIndex; i<=maxIndex; ++i) {
if ((*vData)[i - minIndex] != defaultValue) {
(*hData)[i] = (*vData)[i - minIndex];
newMaxIndex = std::max(newMaxIndex, i);
newMinIndex = std::min(newMinIndex, i);
++elementInserted;
}
}
maxIndex = newMaxIndex;
minIndex = newMinIndex;
delete vData;
vData = NULL;
state = HASH;
}
//===================================================================
template <typename TYPE>
void tlp::MutableContainer<TYPE>::hashtovect() {
vData = new std::deque<typename StoredType<TYPE>::Value>();
minIndex = UINT_MAX;
maxIndex = UINT_MAX;
elementInserted = 0;
state=VECT;
typename TLP_HASH_MAP<unsigned int, typename StoredType<TYPE>::Value>::const_iterator it;
for (it=hData->begin(); it!=hData->end(); ++it) {
if (it->second != defaultValue)
vectset(it->first, it->second);
}
delete hData;
hData = NULL;
}
//===================================================================
template <typename TYPE>
void tlp::MutableContainer<TYPE>::compress(unsigned int min, unsigned int max, unsigned int nbElements) {
if (max == UINT_MAX || (max - min) < 10) return;
double limitValue = ratio*(double(max - min + 1.0));
switch (state) {
case VECT:
if ( double(nbElements) < limitValue) {
vecttohash();
}
break;
case HASH:
if ( double(nbElements) > limitValue*1.5) {
hashtovect();
}
break;
default:
assert(false);
tlp::error() << __PRETTY_FUNCTION__ << "unexpected state value (serious bug)" << std::endl;
break;
}
}
template <typename TYPE>
typename tlp::StoredType<TYPE>::ReturnedConstValue tlp::MutableContainer<TYPE>::operator[](const unsigned int i) const {
return get(i);
}
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