/* Copyright 2013 IST Austria
Contributed by: Ulrich Bauer, Michael Kerber, Jan Reininghaus
This file is part of PHAT.
PHAT 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.
PHAT 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 PHAT. If not, see . */
#pragma once
#include
namespace phat{
template
class Pivot_representation : public BaseRepresentation {
public:
typedef BaseRepresentation Base;
typedef PivotColumn Pivot_column;
protected:
// For parallization purposes, it could be more than one full column
mutable thread_local_storage< Pivot_column > pivot_cols;
mutable thread_local_storage< index > idx_of_pivot_cols;
Pivot_column& get_pivot_col() const {
return pivot_cols();
}
bool is_pivot_col( index idx ) const {
return idx_of_pivot_cols() == idx;
}
void release_pivot_col() {
index idx = idx_of_pivot_cols();
if( idx != -1 ) {
Base::_clear(idx);
column col;
pivot_cols().get_col_and_clear( col );
Base::_set_col(idx, col);
}
idx_of_pivot_cols() = -1;
}
void make_pivot_col( index idx ) {
release_pivot_col();
idx_of_pivot_cols() = idx;
// Remark: Converting the column to a vector first gives a huge performance
// penalty, due to the fact that data is copied around
//column col;
//Base::_get_col( idx, col );
get_pivot_col().add_col( Base::col_traits.col_at(Base::matrix,idx).begin(),
Base::col_traits.col_at(Base::matrix,idx).end());
//get_pivot_col().add_col( Base::matrix[idx]);
}
public:
void _set_num_cols( index nr_of_cols ) {
#pragma omp parallel for
for( int tid = 0; tid < omp_get_num_threads(); tid++ ) {
pivot_cols[ tid ].init( nr_of_cols );
idx_of_pivot_cols[ tid ] = -1;
}
Base::_set_num_cols( nr_of_cols );
}
void _add_to( index source, index target ) {
if( !is_pivot_col( target ) )
make_pivot_col( target );
//column col;
//Base::_get_col(source,col);
get_pivot_col().add_col( Base::col_traits.col_at(Base::matrix,source).begin(),
Base::col_traits.col_at(Base::matrix,source).end() );
//get_pivot_col().add_col(Base::matrix[source]);
}
void _sync() {
#pragma omp parallel for
for( int tid = 0; tid < omp_get_num_threads(); tid++ )
release_pivot_col();
}
void _get_col( index idx, column& col ) const { is_pivot_col( idx ) ? get_pivot_col().get_col( col ) : Base::_get_col( idx, col ); }
bool _is_empty( index idx ) const { return is_pivot_col( idx ) ? get_pivot_col().is_empty() : Base::_is_empty( idx ); }
index _get_max_index( index idx ) const { return is_pivot_col( idx ) ? get_pivot_col().get_max_index() : Base::_get_max_index( idx ); }
void _clear( index idx ) { is_pivot_col( idx ) ? get_pivot_col().clear() : Base::_clear( idx ); }
void _set_col( index idx, const column& col ) { is_pivot_col( idx ) ? get_pivot_col().set_col( col ) : Base::_set_col( idx, col ); }
void _remove_max( index idx ) { is_pivot_col( idx ) ? get_pivot_col().remove_max() : Base::_remove_max( idx ); }
void finalize( index idx ) { Base::_finalize( idx ); }
};
}