/usr/include/coin/IpCompoundVector.hpp is in coinor-libipopt-dev 3.11.9-2.1.
This file is owned by root:root, with mode 0o644.
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// All Rights Reserved.
// This code is published under the Eclipse Public License.
//
// $Id: IpCompoundVector.hpp 1861 2010-12-21 21:34:47Z andreasw $
//
// Authors: Carl Laird, Andreas Waechter IBM 2004-08-13
#ifndef __IPCOMPOUNDVECTOR_HPP__
#define __IPCOMPOUNDVECTOR_HPP__
#include "IpUtils.hpp"
#include "IpVector.hpp"
#include <vector>
namespace Ipopt
{
/* forward declarations */
class CompoundVectorSpace;
/** Class of Vectors consisting of other vectors. This vector is a
* vector that consists of zero, one or more Vector's which are
* stacked on each others: \f$ x_{\rm compound} =
* \left(\begin{array}{c}x_0\\\dots\\x_{{\rm
* ncomps} - 1}\end{array}\right)\f$. The individual components can be
* associated to different VectorSpaces. The individual components
* can also be const and non-const Vectors.
*/
class CompoundVector : public Vector
{
public:
/**@name Constructors/Destructors */
//@{
/** Constructor, given the corresponding CompoundVectorSpace.
* Before this constructor can be called, all components of the
* CompoundVectorSpace have to be set, so that the constructors
* for the individual components can be called. If the flag
* create_new is true, then the individual components of the new
* CompoundVector are initialized with the MakeNew methods of
* each VectorSpace (and are non-const). Otherwise, the
* individual components can later be set using the SetComp and
* SetCompNonConst method.
*/
CompoundVector(const CompoundVectorSpace* owner_space, bool create_new);
/** Default destructor */
virtual ~CompoundVector();
//@}
/** Method for setting the pointer for a component that is a const
* Vector
*/
void SetComp(Index icomp, const Vector& vec);
/** Method for setting the pointer for a component that is a
* non-const Vector
*/
void SetCompNonConst(Index icomp, Vector& vec);
/** Number of components of this compound vector */
inline Index NComps() const;
/** Check if a particular component is const or not */
bool IsCompConst(Index i) const
{
DBG_ASSERT(i > 0 && i < NComps());
DBG_ASSERT(IsValid(comps_[i]) || IsValid(const_comps_[i]));
if (IsValid(const_comps_[i])) {
return true;
}
return false;
}
/** Check if a particular component is null or not */
bool IsCompNull(Index i) const
{
DBG_ASSERT(i >= 0 && i < NComps());
if (IsValid(comps_[i]) || IsValid(const_comps_[i])) {
return false;
}
return true;
}
/** Return a particular component (const version) */
SmartPtr<const Vector> GetComp(Index i) const
{
return ConstComp(i);
}
/** Return a particular component (non-const version). Note that
* calling this method with mark the CompoundVector as changed.
* Therefore, only use this method if you are intending to change
* the Vector that you receive.
*/
SmartPtr<Vector> GetCompNonConst(Index i)
{
ObjectChanged();
return Comp(i);
}
protected:
/** @name Overloaded methods from Vector base class */
//@{
/** Copy the data of the vector x into this vector (DCOPY). */
virtual void CopyImpl(const Vector& x);
/** Scales the vector by scalar alpha (DSCAL) */
virtual void ScalImpl(Number alpha);
/** Add the multiple alpha of vector x to this vector (DAXPY) */
virtual void AxpyImpl(Number alpha, const Vector &x);
/** Computes inner product of vector x with this (DDOT) */
virtual Number DotImpl(const Vector &x) const;
/** Computes the 2-norm of this vector (DNRM2) */
virtual Number Nrm2Impl() const;
/** Computes the 1-norm of this vector (DASUM) */
virtual Number AsumImpl() const;
/** Computes the max-norm of this vector (based on IDAMAX) */
virtual Number AmaxImpl() const;
/** Set each element in the vector to the scalar alpha. */
virtual void SetImpl(Number value);
/** Element-wise division \f$y_i \gets y_i/x_i\f$.*/
virtual void ElementWiseDivideImpl(const Vector& x);
/** Element-wise multiplication \f$y_i \gets y_i*x_i\f$.*/
virtual void ElementWiseMultiplyImpl(const Vector& x);
/** Element-wise max against entries in x */
virtual void ElementWiseMaxImpl(const Vector& x);
/** Element-wise min against entries in x */
virtual void ElementWiseMinImpl(const Vector& x);
/** Element-wise reciprocal */
virtual void ElementWiseReciprocalImpl();
/** Element-wise absolute values */
virtual void ElementWiseAbsImpl();
/** Element-wise square-root */
virtual void ElementWiseSqrtImpl();
/** Replaces entries with sgn of the entry */
virtual void ElementWiseSgnImpl();
/** Add scalar to every component of the vector.*/
virtual void AddScalarImpl(Number scalar);
/** Max value in the vector */
virtual Number MaxImpl() const;
/** Min value in the vector */
virtual Number MinImpl() const;
/** Computes the sum of the lements of vector */
virtual Number SumImpl() const;
/** Computes the sum of the logs of the elements of vector */
virtual Number SumLogsImpl() const;
/** @name Implemented specialized functions */
//@{
/** Add two vectors (a * v1 + b * v2). Result is stored in this
vector. */
void AddTwoVectorsImpl(Number a, const Vector& v1,
Number b, const Vector& v2, Number c);
/** Fraction to the boundary parameter. */
Number FracToBoundImpl(const Vector& delta, Number tau) const;
/** Add the quotient of two vectors, y = a * z/s + c * y. */
void AddVectorQuotientImpl(Number a, const Vector& z, const Vector& s,
Number c);
//@}
/** Method for determining if all stored numbers are valid (i.e.,
* no Inf or Nan). */
virtual bool HasValidNumbersImpl() const;
/** @name Output methods */
//@{
/* Print the entire vector with padding */
virtual void PrintImpl(const Journalist& jnlst,
EJournalLevel level,
EJournalCategory category,
const std::string& name,
Index indent,
const std::string& prefix) const;
//@}
private:
/**@name Default Compiler Generated Methods
* (Hidden to avoid implicit creation/calling).
* These methods are not implemented and
* we do not want the compiler to implement
* them for us, so we declare them private
* and do not define them. This ensures that
* they will not be implicitly created/called.
*/
//@{
/** Default Constructor */
CompoundVector();
/** Copy Constructor */
CompoundVector(const CompoundVector&);
/** Overloaded Equals Operator */
void operator=(const CompoundVector&);
//@}
/** Components of the compound vector. The components
* are stored by SmartPtrs in a std::vector
*/
std::vector< SmartPtr<Vector> > comps_;
std::vector< SmartPtr<const Vector> > const_comps_;
const CompoundVectorSpace* owner_space_;
bool vectors_valid_;
bool VectorsValid();
inline const Vector* ConstComp(Index i) const;
inline Vector* Comp(Index i);
};
/** This vectors space is the vector space for CompoundVector.
* Before a CompoundVector can be created, all components of this
* CompoundVectorSpace have to be set. When calling the constructor,
* the number of component has to be specified. The individual
* VectorSpaces can be set with the SetComp method.
*/
class CompoundVectorSpace : public VectorSpace
{
public:
/** @name Constructors/Destructors. */
//@{
/** Constructor, has to be given the number of components and the
* total dimension of all components combined. */
CompoundVectorSpace(Index ncomp_spaces, Index total_dim);
/** Destructor */
~CompoundVectorSpace()
{}
//@}
/** Method for setting the individual component VectorSpaces */
virtual void SetCompSpace(Index icomp /** Number of the component to be set */ ,
const VectorSpace& vec_space /** VectorSpace for component icomp */
);
/** Method for obtaining an individual component VectorSpace */
SmartPtr<const VectorSpace> GetCompSpace(Index icomp) const;
/** Accessor method to obtain the number of components */
Index NCompSpaces() const
{
return ncomp_spaces_;
}
/** Method for creating a new vector of this specific type. */
virtual CompoundVector* MakeNewCompoundVector(bool create_new = true) const
{
return new CompoundVector(this, create_new);
}
/** Overloaded MakeNew method for the VectorSpace base class.
*/
virtual Vector* MakeNew() const
{
return MakeNewCompoundVector();
}
private:
/**@name Default Compiler Generated Methods
* (Hidden to avoid implicit creation/calling).
* These methods are not implemented and
* we do not want the compiler to implement
* them for us, so we declare them private
* and do not define them. This ensures that
* they will not be implicitly created/called. */
//@{
/** Default constructor */
CompoundVectorSpace();
/** Copy Constructor */
CompoundVectorSpace(const CompoundVectorSpace&);
/** Overloaded Equals Operator */
CompoundVectorSpace& operator=(const CompoundVectorSpace&);
//@}
/** Number of components */
const Index ncomp_spaces_;
/** std::vector of vector spaces for the components */
std::vector< SmartPtr<const VectorSpace> > comp_spaces_;
};
/* inline methods */
inline
Index CompoundVector::NComps() const
{
return owner_space_->NCompSpaces();
}
inline
const Vector* CompoundVector::ConstComp(Index i) const
{
DBG_ASSERT(i < NComps());
DBG_ASSERT(IsValid(comps_[i]) || IsValid(const_comps_[i]));
if (IsValid(comps_[i])) {
return GetRawPtr(comps_[i]);
}
else if (IsValid(const_comps_[i])) {
return GetRawPtr(const_comps_[i]);
}
DBG_ASSERT(false && "shouldn't be here");
return NULL;
}
inline
Vector* CompoundVector::Comp(Index i)
{
DBG_ASSERT(i < NComps());
DBG_ASSERT(IsValid(comps_[i]));
return GetRawPtr(comps_[i]);
}
} // namespace Ipopt
#endif
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