/usr/include/trilinos/Rythmos_TimeRange_decl.hpp is in libtrilinos-rythmos-dev 12.10.1-3.
This file is owned by root:root, with mode 0o644.
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// ***********************************************************************
//
// Rythmos Package
// Copyright (2006) Sandia Corporation
//
// Under terms of Contract DE-AC04-94AL85000, there is a non-exclusive
// license for use of this work by or on behalf of the U.S. Government.
//
// This library 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 2.1 of the
// License, or (at your option) any later version.
//
// This library 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 this library; if not, write to the Free Software
// Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301
// USA
// Questions? Contact Todd S. Coffey (tscoffe@sandia.gov)
//
// ***********************************************************************
//@HEADER
#ifndef RYTHMOS_TIME_RANGE_DECL_H
#define RYTHMOS_TIME_RANGE_DECL_H
#include "Rythmos_ConfigDefs.h"
namespace Rythmos {
/** \brief Compare two times taking into account floating point errors.
*
* \returns Return <tt> -1 </tt> if <tt> t1 < t2 </tt>,
* <tt> 0 </tt> if <tt> t1 == t2 </tt> and
* <tt> +1 </tt> if <tt> t1 > t2 </tt>.
*
* Note that this function compares t1 to t2 and not the other way around.
*
* This function is designed to solve the problem where in:
\code
const TimeType timeStep = endTime - time;
const TimeType updatedEndTime = time + timeStep;
const bool isAtOrPastEndTime = ( updatedEndTime >= endTime );
\endcode
* the bool <tt>isAtOrPastEndTime</tt> may actually be <tt>false</tt>! This
* is especially a danger if IEEE floating point numerics are not being used
* (and there are many systems that do not for speed and other reasons).
*
* \relates TimeRange
*/
template<class TimeType>
int compareTimeValues( const TimeType &t1, const TimeType &t2 );
/** \brief Represent a time range.
*
* The compiler-generated default constructor, copy constructor, and
* assignment operators are allowed and perform correctly.
*
* ToDo: Put in checks for the range if needed.
*/
template<class TimeType>
class TimeRange
{
public:
/** \brief Construct an invalid range. */
TimeRange()
: lower_(0.0), upper_(-1.0)
{}
/** \brief Construct a valid range. */
TimeRange( const TimeType &my_lower, const TimeType &my_upper )
: lower_(my_lower), upper_(my_upper)
{
}
/** \brief Copy constructor. */
TimeRange( const TimeRange<TimeType>& tr )
: lower_(tr.lower()), upper_(tr.upper())
{
}
/** \brief . */
virtual ~TimeRange() {}
/** \brief . */
bool isValid() const { return (lower_ <= upper_); }
/** \brief . */
TimeType lower() const { return lower_; }
/** \brief . */
TimeType upper() const { return upper_; }
/** \brief . */
TimeType length() const { return (upper_ - lower_); }
/** \brief . */
virtual bool isInRange ( const TimeType &t ) const
{
return (
compareTimeValues(t,lower_) >= 0
&& compareTimeValues(t,upper_) <= 0
);
}
/** \brief . */
TimeRange<TimeType> copyAndScale( const TimeType &scale ) const
{
TimeRange<TimeType> newRange = *this;
if (!newRange.isValid())
return newRange;
newRange.lower_ *= scale;
newRange.upper_ *= scale;
return newRange;
}
private:
TimeType lower_;
TimeType upper_;
};
/** \brief Nonmember constructor.
*
* \relates TimeRange
*/
template<class TimeType>
TimeRange<TimeType> timeRange(const TimeType my_lower, const TimeType my_upper);
/** \brief Nonmember constructor.
*
* \relates TimeRange
*/
template<class TimeType>
TimeRange<TimeType> invalidTimeRange();
/** \brief Output operator.
*
* \relates TimeRange
*/
template<class TimeType>
std::ostream& operator<<( std::ostream& out, const TimeRange<TimeType>& range );
/** \brief Assert point is in the time range and if it is not, throw an
* exception with a very good error message.
*/
template<class TimeType>
void asssertInTimeRange( const TimeRange<TimeType> &timeRange,
const TimeType &time );
/** \brief Nonmember isInRange function [closed, closed].
*
* <tt>tr.lower() <= p <= tr.upper()</tt>
*
* \relates TimeRange
*/
template<class TimeType>
bool isInRange_cc(const TimeRange<TimeType> &tr, const TimeType &p);
/** \brief Nonmember isInRange function (open, closed].
*
* <tt>tr.lower() < p <= tr.upper()</tt>
*
* \relates TimeRange
*/
template<class TimeType>
bool isInRange_oc(const TimeRange<TimeType> &tr, const TimeType &p);
/** \brief Nonmember isInRange function [closed, open).
*
* <tt>tr.lower() <= p < tr.upper()</tt>
*
* \relates TimeRange
*/
template<class TimeType>
bool isInRange_co(const TimeRange<TimeType> &tr, const TimeType &p);
/** \brief Nonmember isInRange function (open, open).
*
* <tt>tr.lower() < p < tr.upper()</tt>
*
* \relates TimeRange
*/
template<class TimeType>
bool isInRange_oo(const TimeRange<TimeType> &tr, const TimeType &p);
template<class TimeType>
class TimeRange_cc : virtual public TimeRange<TimeType>
{
public:
TimeRange_cc(const TimeRange<TimeType>& tr)
:TimeRange<TimeType>(tr)
{
}
TimeRange_cc( const TimeType &my_lower, const TimeType &my_upper )
:TimeRange<TimeType>(my_lower,my_upper)
{
}
bool isInRange ( const TimeType &t ) const
{
return ( isInRange_cc<TimeType>(*this,t) );
}
};
template<class TimeType>
class TimeRange_co : virtual public TimeRange<TimeType>
{
public:
TimeRange_co(const TimeRange<TimeType>& tr)
:TimeRange<TimeType>(tr)
{
}
TimeRange_co( const TimeType &my_lower, const TimeType &my_upper )
:TimeRange<TimeType>(my_lower,my_upper)
{
}
bool isInRange ( const TimeType &t ) const
{
return ( isInRange_co<TimeType>(*this,t) );
}
};
template<class TimeType>
class TimeRange_oo : virtual public TimeRange<TimeType>
{
public:
TimeRange_oo(const TimeRange<TimeType>& tr)
:TimeRange<TimeType>(tr)
{
}
TimeRange_oo( const TimeType &my_lower, const TimeType &my_upper )
:TimeRange<TimeType>(my_lower,my_upper)
{
}
bool isInRange ( const TimeType &t ) const
{
return ( isInRange_oo<TimeType>(*this,t) );
}
};
template<class TimeType>
class TimeRange_oc : virtual public TimeRange<TimeType>
{
public:
TimeRange_oc(const TimeRange<TimeType>& tr)
:TimeRange<TimeType>(tr)
{
}
TimeRange_oc( const TimeType &my_lower, const TimeType &my_upper )
:TimeRange<TimeType>(my_lower,my_upper)
{
}
bool isInRange ( const TimeType &t ) const
{
return ( isInRange_oc<TimeType>(*this,t) );
}
};
} // namespace Rythmos
#endif //RYTHMOS_TIME_RANGE_DECL_H
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