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// This file is part of Eigen, a lightweight C++ template library
// for linear algebra.
//
// Copyright (C) 2008-2009 Guillaume Saupin <guillaume.saupin@cea.fr>
//
// Eigen 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.
//
// Alternatively, you can redistribute it and/or
// modify it under the terms of the GNU General Public License as
// published by the Free Software Foundation; either version 2 of
// the License, or (at your option) any later version.
//
// Eigen 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 or the
// GNU General Public License for more details.
//
// You should have received a copy of the GNU Lesser General Public
// License and a copy of the GNU General Public License along with
// Eigen. If not, see <http://www.gnu.org/licenses/>.
#ifndef EIGEN_SKYLINE_STORAGE_H
#define EIGEN_SKYLINE_STORAGE_H
/** Stores a skyline set of values in three structures :
* The diagonal elements
* The upper elements
* The lower elements
*
*/
template<typename Scalar>
class SkylineStorage {
typedef typename NumTraits<Scalar>::Real RealScalar;
public:
SkylineStorage()
: m_diag(0),
m_lower(0),
m_upper(0),
m_lowerProfile(0),
m_upperProfile(0),
m_diagSize(0),
m_upperSize(0),
m_lowerSize(0),
m_upperProfileSize(0),
m_lowerProfileSize(0),
m_allocatedSize(0) {
}
SkylineStorage(const SkylineStorage& other)
: m_diag(0),
m_lower(0),
m_upper(0),
m_lowerProfile(0),
m_upperProfile(0),
m_diagSize(0),
m_upperSize(0),
m_lowerSize(0),
m_upperProfileSize(0),
m_lowerProfileSize(0),
m_allocatedSize(0) {
*this = other;
}
SkylineStorage & operator=(const SkylineStorage& other) {
resize(other.diagSize(), other.m_upperProfileSize, other.m_lowerProfileSize, other.upperSize(), other.lowerSize());
memcpy(m_diag, other.m_diag, m_diagSize * sizeof (Scalar));
memcpy(m_upper, other.m_upper, other.upperSize() * sizeof (Scalar));
memcpy(m_lower, other.m_lower, other.lowerSize() * sizeof (Scalar));
memcpy(m_upperProfile, other.m_upperProfile, m_upperProfileSize * sizeof (int));
memcpy(m_lowerProfile, other.m_lowerProfile, m_lowerProfileSize * sizeof (int));
return *this;
}
void swap(SkylineStorage& other) {
std::swap(m_diag, other.m_diag);
std::swap(m_upper, other.m_upper);
std::swap(m_lower, other.m_lower);
std::swap(m_upperProfile, other.m_upperProfile);
std::swap(m_lowerProfile, other.m_lowerProfile);
std::swap(m_diagSize, other.m_diagSize);
std::swap(m_upperSize, other.m_upperSize);
std::swap(m_lowerSize, other.m_lowerSize);
std::swap(m_allocatedSize, other.m_allocatedSize);
}
~SkylineStorage() {
delete[] m_diag;
delete[] m_upper;
if (m_upper != m_lower)
delete[] m_lower;
delete[] m_upperProfile;
delete[] m_lowerProfile;
}
void reserve(size_t size, size_t upperProfileSize, size_t lowerProfileSize, size_t upperSize, size_t lowerSize) {
int newAllocatedSize = size + upperSize + lowerSize;
if (newAllocatedSize > m_allocatedSize)
reallocate(size, upperProfileSize, lowerProfileSize, upperSize, lowerSize);
}
void squeeze() {
if (m_allocatedSize > m_diagSize + m_upperSize + m_lowerSize)
reallocate(m_diagSize, m_upperProfileSize, m_lowerProfileSize, m_upperSize, m_lowerSize);
}
void resize(size_t diagSize, size_t upperProfileSize, size_t lowerProfileSize, size_t upperSize, size_t lowerSize, float reserveSizeFactor = 0) {
if (m_allocatedSize < diagSize + upperSize + lowerSize)
reallocate(diagSize, upperProfileSize, lowerProfileSize, upperSize + size_t(reserveSizeFactor * upperSize), lowerSize + size_t(reserveSizeFactor * lowerSize));
m_diagSize = diagSize;
m_upperSize = upperSize;
m_lowerSize = lowerSize;
m_upperProfileSize = upperProfileSize;
m_lowerProfileSize = lowerProfileSize;
}
inline size_t diagSize() const {
return m_diagSize;
}
inline size_t upperSize() const {
return m_upperSize;
}
inline size_t lowerSize() const {
return m_lowerSize;
}
inline size_t upperProfileSize() const {
return m_upperProfileSize;
}
inline size_t lowerProfileSize() const {
return m_lowerProfileSize;
}
inline size_t allocatedSize() const {
return m_allocatedSize;
}
inline void clear() {
m_diagSize = 0;
}
inline Scalar& diag(size_t i) {
return m_diag[i];
}
inline const Scalar& diag(size_t i) const {
return m_diag[i];
}
inline Scalar& upper(size_t i) {
return m_upper[i];
}
inline const Scalar& upper(size_t i) const {
return m_upper[i];
}
inline Scalar& lower(size_t i) {
return m_lower[i];
}
inline const Scalar& lower(size_t i) const {
return m_lower[i];
}
inline int& upperProfile(size_t i) {
return m_upperProfile[i];
}
inline const int& upperProfile(size_t i) const {
return m_upperProfile[i];
}
inline int& lowerProfile(size_t i) {
return m_lowerProfile[i];
}
inline const int& lowerProfile(size_t i) const {
return m_lowerProfile[i];
}
static SkylineStorage Map(int* upperProfile, int* lowerProfile, Scalar* diag, Scalar* upper, Scalar* lower, size_t size, size_t upperSize, size_t lowerSize) {
SkylineStorage res;
res.m_upperProfile = upperProfile;
res.m_lowerProfile = lowerProfile;
res.m_diag = diag;
res.m_upper = upper;
res.m_lower = lower;
res.m_allocatedSize = res.m_diagSize = size;
res.m_upperSize = upperSize;
res.m_lowerSize = lowerSize;
return res;
}
inline void reset() {
memset(m_diag, 0, m_diagSize * sizeof (Scalar));
memset(m_upper, 0, m_upperSize * sizeof (Scalar));
memset(m_lower, 0, m_lowerSize * sizeof (Scalar));
memset(m_upperProfile, 0, m_diagSize * sizeof (int));
memset(m_lowerProfile, 0, m_diagSize * sizeof (int));
}
void prune(Scalar reference, RealScalar epsilon = dummy_precision<RealScalar>()) {
//TODO
}
protected:
inline void reallocate(size_t diagSize, size_t upperProfileSize, size_t lowerProfileSize, size_t upperSize, size_t lowerSize) {
Scalar* diag = new Scalar[diagSize];
Scalar* upper = new Scalar[upperSize];
Scalar* lower = new Scalar[lowerSize];
int* upperProfile = new int[upperProfileSize];
int* lowerProfile = new int[lowerProfileSize];
size_t copyDiagSize = std::min(diagSize, m_diagSize);
size_t copyUpperSize = std::min(upperSize, m_upperSize);
size_t copyLowerSize = std::min(lowerSize, m_lowerSize);
size_t copyUpperProfileSize = std::min(upperProfileSize, m_upperProfileSize);
size_t copyLowerProfileSize = std::min(lowerProfileSize, m_lowerProfileSize);
// copy
memcpy(diag, m_diag, copyDiagSize * sizeof (Scalar));
memcpy(upper, m_upper, copyUpperSize * sizeof (Scalar));
memcpy(lower, m_lower, copyLowerSize * sizeof (Scalar));
memcpy(upperProfile, m_upperProfile, copyUpperProfileSize * sizeof (int));
memcpy(lowerProfile, m_lowerProfile, copyLowerProfileSize * sizeof (int));
// delete old stuff
delete[] m_diag;
delete[] m_upper;
delete[] m_lower;
delete[] m_upperProfile;
delete[] m_lowerProfile;
m_diag = diag;
m_upper = upper;
m_lower = lower;
m_upperProfile = upperProfile;
m_lowerProfile = lowerProfile;
m_allocatedSize = diagSize + upperSize + lowerSize;
m_upperSize = upperSize;
m_lowerSize = lowerSize;
}
public:
Scalar* m_diag;
Scalar* m_upper;
Scalar* m_lower;
int* m_upperProfile;
int* m_lowerProfile;
size_t m_diagSize;
size_t m_upperSize;
size_t m_lowerSize;
size_t m_upperProfileSize;
size_t m_lowerProfileSize;
size_t m_allocatedSize;
};
#endif // EIGEN_COMPRESSED_STORAGE_H
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