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// OpenMS -- Open-Source Mass Spectrometry
// --------------------------------------------------------------------------
// Copyright The OpenMS Team -- Eberhard Karls University Tuebingen,
// ETH Zurich, and Freie Universitaet Berlin 2002-2013.
//
// This software is released under a three-clause BSD license:
// * Redistributions of source code must retain the above copyright
// notice, this list of conditions and the following disclaimer.
// * Redistributions in binary form must reproduce the above copyright
// notice, this list of conditions and the following disclaimer in the
// documentation and/or other materials provided with the distribution.
// * Neither the name of any author or any participating institution
// may be used to endorse or promote products derived from this software
// without specific prior written permission.
// For a full list of authors, refer to the file AUTHORS.
// --------------------------------------------------------------------------
// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
// AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
// IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
// ARE DISCLAIMED. IN NO EVENT SHALL ANY OF THE AUTHORS OR THE CONTRIBUTING
// INSTITUTIONS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
// EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
// PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS;
// OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY,
// WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR
// OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF
// ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
//
// --------------------------------------------------------------------------
// $Maintainer: Clemens Groepl $
// $Authors: Clemens Groepl, Marc Sturm $
// --------------------------------------------------------------------------
#ifndef OPENMS_DATASTRUCTURES_DINTERVALBASE_H
#define OPENMS_DATASTRUCTURES_DINTERVALBASE_H
#include <OpenMS/DATASTRUCTURES/DPosition.h>
#include <utility> // std::pair
namespace OpenMS
{
namespace Internal
{
/**
@brief A base class for D-dimensional interval.
See DIntervalBase for a closed interval and DRange for a half-open interval class.
@invariant All methods maintain the invariant that minPosition() is geometrically less or equal maxPosition()
i.e. minPosition()[x] <= maxPosition()[x].
*/
template <UInt D>
class DIntervalBase
{
public:
/**
@name Type definitions
*/
//@{
/// Dimensions
enum {DIMENSION = D};
/// Position type
typedef DPosition<D> PositionType;
/// Coordinate type of the positions
typedef typename PositionType::CoordinateType CoordinateType;
//@}
/**@name Constructors and Destructor */
//@{
/**
@brief Default constructor.
Creates an empty interval with corners at infinity.
*/
DIntervalBase() :
min_(PositionType::maxPositive()),
max_(PositionType::minNegative())
{
}
/// Copy constructor
DIntervalBase(const DIntervalBase & rhs) :
min_(rhs.min_),
max_(rhs.max_)
{
}
/// Assignment operator
DIntervalBase & operator=(const DIntervalBase & rhs)
{
min_ = rhs.min_;
max_ = rhs.max_;
return *this;
}
/// Destructor
~DIntervalBase()
{
}
/**
@brief This constructor sets min_ and max_ directly.
*/
DIntervalBase(PositionType const & minimum, PositionType const & maximum) :
min_(minimum),
max_(maximum)
{
normalize_();
}
//@}
/**@name Accessors */
//@{
/// Accessor to minimum position
inline PositionType const & minPosition() const
{
return min_;
}
/// Accessor to maximum position
inline PositionType const & maxPosition() const
{
return max_;
}
/**
@brief Mutator for minimum position
@note The minimum position given here will be returned my minPosition() after the method.
If necessary the value returned by maxPosition() will be adjusted.
*/
void setMin(PositionType const & position)
{
min_ = position;
for (UInt i = 0; i < DIMENSION; ++i)
{
if (min_[i] > max_[i]) max_[i] = min_[i];
}
}
/**
@brief Mutator for maximum position
@note The maximum position given here will be returned my maxPosition() after the method.
If necessary the value returned by minPosition() will be adjusted.
*/
void setMax(PositionType const & position)
{
max_ = position;
for (UInt i = 0; i < DIMENSION; ++i)
{
if (min_[i] > max_[i]) min_[i] = max_[i];
}
}
/**
@brief Mutator for minimum and maximum position
*/
void setMinMax(PositionType const & min, PositionType const & max)
{
min_ = min;
max_ = max;
normalize_();
}
/**
@brief Assignment from a DIntervalBase of different dimensions.
Only the dimensions 0 upto min(D,D2)-1 are copied.
*/
template <UInt D2>
void assign(const DIntervalBase<D2> rhs)
{
for (UInt i = 0; i < std::min(D, D2); ++i)
{
min_[i] = rhs.minPosition()[i];
max_[i] = rhs.maxPosition()[i];
}
}
//}@
/**@name Predicates */
//@{
/// Equality operator
bool operator==(const DIntervalBase & rhs) const
{
return (min_ == rhs.min_) && (max_ == rhs.max_);
}
/// Equality operator
bool operator!=(const DIntervalBase & rhs) const
{
return !(operator==(rhs));
}
/// Make the interval empty
inline void clear()
{
*this = empty;
}
//@}
/**@name Misc */
//@{
///Returns the center of the interval
PositionType center() const
{
PositionType center(min_);
center += max_;
center /= 2;
return center;
}
/// Returns the diagonal of the area, i.e. max_ - min_.
PositionType diagonal() const
{
return max_ - min_;
}
/// empty instance
static DIntervalBase const empty;
/// instance with all positions zero
static DIntervalBase const zero;
//}@
/**@name Accessors for 2D-intervals (for convenience) */
//@{
/// Accessor for min_ coordinate minimum
inline CoordinateType minX() const
{
return min_[0];
}
/// Accessor for max_ coordinate minimum
inline CoordinateType minY() const
{
return min_[1];
}
/// Accessor for min_ coordinate maximum
inline CoordinateType maxX() const
{
return max_[0];
}
/// Accessor for max_ coordinate maximum
inline CoordinateType maxY() const
{
return max_[1];
}
/// Mutator for min_ coordinate of the smaller point
void setMinX(CoordinateType const c)
{
min_[0] = c;
if (min_[0] > max_[0]) max_[0] = min_[0];
}
/// Mutator for max_ coordinate of the smaller point
void setMinY(CoordinateType const c)
{
min_[1] = c;
if (min_[1] > max_[1]) max_[1] = min_[1];
}
/// Mutator for min_ coordinate of the larger point.
void setMaxX(CoordinateType const c)
{
max_[0] = c;
if (min_[0] > max_[0]) min_[0] = max_[0];
}
/// Mutator for max_ coordinate of the larger point.
void setMaxY(CoordinateType const c)
{
max_[1] = c;
if (min_[1] > max_[1]) min_[1] = max_[1];
}
/// Returns the width of the area i.e. the difference of dimension zero (X).
inline CoordinateType width() const
{
return max_[0] - min_[0];
}
/// Returns the height of the area i.e. the difference of dimension one (Y).
inline CoordinateType height() const
{
return max_[1] - min_[1];
}
//@}
protected:
/// lower left point
PositionType min_;
/// upper right point
PositionType max_;
/// normalization to keep all dimensions in the right geometrical order (min_[X] < max_[X])
void normalize_()
{
for (UInt i = 0; i < DIMENSION; ++i)
{
if (min_[i] > max_[i])
{
std::swap(min_[i], max_[i]);
}
}
}
///Protected constructor for the construction of static instances
DIntervalBase(const std::pair<PositionType, PositionType> & pair) :
min_(pair.first),
max_(pair.second)
{
}
};
template <UInt D>
DIntervalBase<D> const DIntervalBase<D>::zero
= DIntervalBase<D>(DIntervalBase<D>::PositionType::zero(), DIntervalBase<D>::PositionType::zero());
template <UInt D>
DIntervalBase<D> const DIntervalBase<D>::empty
= DIntervalBase<D>(std::make_pair(DIntervalBase<D>::PositionType::maxPositive(), DIntervalBase<D>::PositionType::minNegative()));
///Print the contents to a stream.
template <UInt D>
std::ostream & operator<<(std::ostream & os, const DIntervalBase<D> & rhs)
{
os << "--DIntervalBase BEGIN--" << std::endl;
os << "MIN --> " << rhs.minPosition() << std::endl;
os << "MAX --> " << rhs.maxPosition() << std::endl;
os << "--DIntervalBase END--" << std::endl;
return os;
}
} // namespace Internal
} // namespace OpenMS
#endif // OPENMS_KERNEL_DINTERVALBASE_H
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