/usr/include/shark/LinAlg/Initialize.h is in libshark-dev 3.0.1+ds1-2ubuntu1.
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*
*
* \brief Easy initialization of vectors.
*
* Often, you want to initialize a vector using already available data or you know a fixed initialization. In this case, this header helps, since
* it is possible to initialize a vector using
* init(vec) << a,b,c,...;
* also if you want to split a vector into several smaller parts, you can write
* init(vec) >> a,b,c,...;
* a,b,c are allowed to be vectors, vector expressions or single values. However, all vectors needs to be initialized to the correct size. It is checked
* in debug mode, that size(vec) equals size(a,b,c,...). The usage is not restricted to initialization, but can be used for any assignment where a
* vector is constructed from several parts. For example the construction of parameter vectors in AbstractModel::parameterVector.
*
*
*
* \author O.Krause, T.Glasmachers
* \date 2010-2011
*
*
* \par Copyright 1995-2015 Shark Development Team
*
* <BR><HR>
* This file is part of Shark.
* <http://image.diku.dk/shark/>
*
* Shark 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.
*
* Shark 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 Shark. If not, see <http://www.gnu.org/licenses/>.
*
*/
//===========================================================================
#ifndef SHARK_LINALG_INITIALIZE_H
#define SHARK_LINALG_INITIALIZE_H
#include "Impl/Initialize.h"
namespace shark{ namespace blas{
/**
* \ingroup shark_globals
*
* @{
*/
///\brief Starting-point for the initialization sequence.
///
///Usage: init(vector)<<a,b,c where vector is a ublas vector or sub-vector and a,b,c are either scalars or vectors.
///In debug mode, it is checked that size(vector) == size(a,b,c)
template<class Source>
detail::ADLVector<Source&> init(vector_container<Source>& source){
return detail::ADLVector<Source&>(source());
}
///\brief Starting-point for the initialization sequence.
///
///Usage: init(vector)<<a,b,c where vector is a ublas vector or sub-vector and a,b,c are either scalars or vectors.
///In debug mode, it is checked that size(vector) == size(a,b,c)
template<class Source>
detail::ADLVector<const Source&> init(const vector_container<Source>& source){
return detail::ADLVector<const Source&>(source());
}
///\brief Starting-point for the initialization sequence when used for splitting the vector.
///
///Usage: init(vector)>>a,b,c where vector is a ublas vector or sub-vector and a,b,c are mutable scalars or vectors.
///In debug mode, it is checked that size(vector) == size(a,b,c)
//~ template<class Source>
//~ detail::ADLVector<const Source&> init(const vector_expression<Source>& source){
//~ return detail::ADLVector<const Source&>(source());
//~ }
///\brief Specialization for ublas vector_range.
template<class Source>
detail::ADLVector<vector_range<Source> >
init(const vector_range<Source>& source){
return detail::ADLVector<vector_range<Source> >(source);
}
///\brief Specialization for matrix rows.
template<class Source>
detail::ADLVector<matrix_row<Source> >
init(const matrix_row<Source>& source){
return detail::ADLVector<matrix_row<Source> >(source);
}
///\brief Specialization for matrix columns.
template<class Source>
detail::ADLVector<matrix_column<Source> >
init(const matrix_row<Source>& source){
return detail::ADLVector<matrix_column<Source> >(source);
}
//matrices as arguments
///\brief Linearizes a matrix as a set of row vectors and treats them as a set of vectors for initialization.
template<class Matrix>
detail::MatrixExpression<const Matrix> toVector(const matrix_expression<Matrix>& matrix){
return detail::MatrixExpression<const Matrix>(matrix());
}
///\brief Linearizes a matrix as a set of row vectors and treats them as a set of vectors for initialization.
template<class Matrix>
detail::MatrixExpression<Matrix> toVector(matrix_expression<Matrix>& matrix){
return detail::MatrixExpression<Matrix>(matrix());
}
//parameterizable objects as arguments
///\brief Uses the parameters of a parameterizable object for initialization.
///
///The object doesn't have to be derived from IParameterizable, but needs to offer the methods
template<class T>
detail::ParameterizableExpression<const T> parameters(const T& object){
return detail::ParameterizableExpression<const T>(object);
}
///\brief Uses the parameters of a parameterizable object for initialization.
///
///The object doesn't have to be derived from IParameterizable, but needs to offer the methods
template<class T>
detail::ParameterizableExpression<T> parameters(T& object){
return detail::ParameterizableExpression<T>(object);
}
//ranges as arguments
///\brief Uses a range of vectors for initialization.
///
///Sometimes not a single vector but a set of vectors is needed as argument like
///std::deque<RealVector> set;
///in this case, vectorSet is needed
///init(vec)<<vec1,vectorSet(set),vec2;
template<class T>
detail::InitializerRange<typename T::const_iterator,detail::VectorExpression<const typename T::value_type&> >
vectorSet(const T& range){
return detail::InitializerRange<
typename T::const_iterator,
detail::VectorExpression<const typename T::value_type&>
>(range.begin(),range.end());
}
///\brief Uses a range of vectors for splitting and initialization.
///
///Sometimes not a single vector but a set of vectors is needed as argument like
///std::deque<RealVector> set;
///in this case, vectorSet is needed
///init(vec)>>vec1,vectorSet(set),vec2;
template<class T>
detail::InitializerRange<typename T::iterator,detail::VectorExpression<typename T::value_type&> >
vectorSet(T& range){
return detail::InitializerRange<
typename T::iterator,
detail::VectorExpression<typename T::value_type&>
>(range.begin(),range.end());
}
///\brief Uses a range of vectors for initialization.
///
///Sometimes not a single matrix but a set of matrices is needed as argument like
///std::deque<RealMatrix> set;
///in this case, matrixSet is needed
///init(vec)<<vec1,matrixSet(set),vec2;
template<class T>
detail::InitializerRange<typename T::const_iterator,detail::MatrixExpression<const typename T::value_type> >
matrixSet(const T& range){
return detail::InitializerRange<
typename T::const_iterator,
detail::MatrixExpression<const typename T::value_type>
>(range.begin(),range.end());
}
///\brief Uses a range of vectors for splitting and initialization.
///
///Sometimes not a single matrix but a set of matrices is needed as argument like
///std::deque<RealMatrix> set;
///in this case, vectorSet is needed
///init(vec)>>vec1,matrixSet(set),vec2;
template<class T>
detail::InitializerRange<typename T::iterator,detail::MatrixExpression<typename T::value_type> >
matrixSet(T& range){
return detail::InitializerRange<
typename T::iterator,
detail::MatrixExpression<typename T::value_type>
>(range.begin(),range.end());
}
///\brief Uses a range of parametrizable objects for initialization.
///
///The objects in the set must offer the methods described by IParameterizable. Also pointer to objects are allowed
template<class T>
detail::InitializerRange<typename T::const_iterator, detail::ParameterizableExpression<const typename T::value_type> >
parameterSet(const T& range){
return detail::InitializerRange<
typename T::const_iterator,
detail::ParameterizableExpression<const typename T::value_type>
>(range.begin(),range.end());
}
///\brief Uses a range of parametrizable objects for splitting and initialization.
///
///The objects in the set must offer the methods described by IParameterizable. Also pointer to objects are allowed
template<class T>
detail::InitializerRange<typename T::iterator, detail::ParameterizableExpression<typename T::value_type> >
parameterSet(T& range){
return detail::InitializerRange<
typename T::iterator,
detail::ParameterizableExpression<typename T::value_type>
>(range.begin(),range.end());
}
/** @} */
}}
#endif
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