296 lines
9.0 KiB
C++
296 lines
9.0 KiB
C++
/*
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* This program source code file is part of KiCad, a free EDA CAD application.
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*
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* Copyright 2017 CERN
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* @author Maciej Suminski <maciej.suminski@cern.ch>
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* @author Bernhard Stegmaier <stegmaier@sw-systems.de>
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*
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* This program is free software; you can redistribute it and/or
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* modify it under the terms of the GNU General Public License
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* as published by the Free Software Foundation; either version 2
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* of the License, or (at your option) any later version.
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*
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* This program is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License
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* along with this program; if not, you may find one here:
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* http://www.gnu.org/licenses/old-licenses/gpl-2.0.html
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* or you may search the http://www.gnu.org website for the version 2 license,
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* or you may write to the Free Software Foundation, Inc.,
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* 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA
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*/
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#ifndef MULTIVECTOR_H
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#define MULTIVECTOR_H
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#include <boost/ptr_container/ptr_vector.hpp>
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#include <stdexcept>
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/**
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* Multivector container type.
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*
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* Keeps items segregated by their type in multiple ptr_vectors. Provides both
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* access as a flat list as well as access by type of item.
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*
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* T is the stored type, needs to provide Type() method used to segregate items.
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* FIRST_TYPE_VAL is the lower boundary value of the types stored in the container.
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* LAST_TYPE_VAL is the upper boundary value of the types stored in the container.
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*/
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template<typename T, int FIRST_TYPE_VAL, int LAST_TYPE_VAL>
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class MULTIVECTOR
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{
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public:
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/**
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* Type value to indicate no specific type. Mostly used to access the container as a flat list
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* or to return data for the whole container.
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*/
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static constexpr int UNDEFINED_TYPE = 0;
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static_assert( FIRST_TYPE_VAL > UNDEFINED_TYPE, "FIRST_TYPE_VAL has to be greater than UNDEFINED_TYPE" );
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static_assert( FIRST_TYPE_VAL < LAST_TYPE_VAL, "FIRST_TYPE_VAL has to be greater than LAST_TYPE_VAL" );
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/**
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* Helper for defining a list of library draw object pointers. The Boost
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* pointer containers are responsible for deleting object pointers placed
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* in them. If you access a object pointer from the list, do not delete
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* it directly.
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*/
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typedef boost::ptr_vector<T> ITEM_PTR_VECTOR;
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/**
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* Generic implementation of a flat const/non-const iterator over contained items.
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*/
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template<typename ITEM_TYPE, typename ITEM_CONTAINER, typename ITEM_CONTAINER_IT>
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class ITERATOR_BASE
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{
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public:
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ITEM_TYPE& operator*()
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{
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return *m_it;
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}
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ITEM_TYPE* operator->()
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{
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return &( *m_it );
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}
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ITERATOR_BASE& operator++()
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{
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if( m_it != (*m_parent)[ m_curType ].end() )
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++m_it;
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validate();
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return *this;
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}
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bool operator!=( const ITERATOR_BASE& aOther ) const
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{
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if( aOther.m_parent != m_parent )
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return true;
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if( aOther.m_filter != m_filter )
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return true;
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if( aOther.m_curType != m_curType )
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return true;
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return aOther.m_it != m_it;
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}
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protected:
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/**
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* Constructor.
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* @param aItems is the container to wrap.
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* @param aIt is the iterator to initialize this iterator (usually some begin() or end()
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* iterator).
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* @param aBucket is the type ID of the given iterator.
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* @param aType enables item type filtering. When aType is UNDEFINED_TYPE, there is no
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* filtering and all item types are accessible by the iterator.
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*/
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ITERATOR_BASE( ITEM_CONTAINER* aItems, ITEM_CONTAINER_IT aIt,
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int aBucket, int aType = UNDEFINED_TYPE )
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: m_parent( aItems ), m_it( aIt ), m_curType( aBucket )
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{
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m_filter = ( aType != UNDEFINED_TYPE );
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}
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///> Assures the iterator is in a valid state.
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void validate()
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{
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// for all-items iterators (unfiltered): check if this is the end of the
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// current type container, if so switch to the next non-empty container
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if( !m_filter && m_it == (*m_parent)[ m_curType ].end() )
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{
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// switch to the next type (look for a not empty container)
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int nextType = m_curType;
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do
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++nextType;
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while( ( nextType <= LAST_TYPE ) && (*m_parent)[ nextType ].empty() );
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// there is another not empty container, so make the iterator point to it,
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// otherwise it means the iterator points to the last item
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if( nextType <= LAST_TYPE )
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{
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m_curType = nextType;
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m_it = (*m_parent)[ m_curType ].begin();
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}
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}
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}
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///> Wrapped container
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ITEM_CONTAINER* m_parent;
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///> Iterator for one of the ptr_vector containers stored in the array
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ITEM_CONTAINER_IT m_it;
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///> Flag indicating whether type filtering is enabled
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bool m_filter;
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///> Type of the currently iterated items
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int m_curType;
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friend class MULTIVECTOR;
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};
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///> The non-const iterator
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typedef ITERATOR_BASE<T, MULTIVECTOR<T, FIRST_TYPE_VAL, LAST_TYPE_VAL>, typename ITEM_PTR_VECTOR::iterator> ITERATOR;
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///> The const iterator
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typedef ITERATOR_BASE<const T, const MULTIVECTOR<T, FIRST_TYPE_VAL, LAST_TYPE_VAL>, typename ITEM_PTR_VECTOR::const_iterator> CONST_ITERATOR;
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MULTIVECTOR()
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{
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}
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void push_back( T* aItem )
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{
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operator[]( aItem->Type() ).push_back( aItem );
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}
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ITERATOR erase( const ITERATOR& aIterator )
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{
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ITERATOR it( aIterator );
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it.m_it = (*aIterator.m_parent)[ aIterator.m_curType ].erase( aIterator.m_it );
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it.validate();
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return it;
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}
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ITERATOR begin( int aType = UNDEFINED_TYPE )
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{
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int bucket = ( aType != UNDEFINED_TYPE ) ? aType : first();
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return ITERATOR( this, operator[]( bucket ).begin(), bucket, aType );
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}
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ITERATOR end( int aType = UNDEFINED_TYPE )
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{
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int bucket = ( aType != UNDEFINED_TYPE ) ? aType : last();
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return ITERATOR( this, operator[]( bucket ).end(), bucket, aType );
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}
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CONST_ITERATOR begin( int aType = UNDEFINED_TYPE ) const
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{
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int bucket = ( aType != UNDEFINED_TYPE ) ? aType : first();
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return CONST_ITERATOR( this, operator[]( bucket ).begin(), bucket, aType );
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}
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CONST_ITERATOR end( int aType = UNDEFINED_TYPE ) const
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{
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int bucket = ( aType != UNDEFINED_TYPE ) ? aType : last();
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return CONST_ITERATOR( this, operator[]( bucket ).end(), bucket, aType );
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}
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size_t size( int aType = UNDEFINED_TYPE ) const
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{
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if( aType != UNDEFINED_TYPE )
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{
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return operator[]( aType ).size();
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}
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else
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{
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size_t cnt = 0;
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for( int i = 0; i < TYPES_COUNT; ++i)
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cnt += m_data[ i ].size();
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return cnt;
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}
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}
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bool empty( int aType = UNDEFINED_TYPE )
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{
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return ( size( aType ) == 0 );
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}
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void sort()
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{
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for( int i = 0; i < TYPES_COUNT; ++i )
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m_data[ i ].sort();
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}
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/**
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* Remove duplicate elements in list
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*/
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void unique()
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{
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for( int i = 0; i < TYPES_COUNT; ++i )
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{
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if( m_data[ i ].size() > 1 )
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m_data[ i ].unique();
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}
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}
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ITEM_PTR_VECTOR& operator[]( int aType )
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{
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if( ( aType < FIRST_TYPE ) || ( aType > LAST_TYPE ) )
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throw std::out_of_range( "MULTIVECTOR out of range" );
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return m_data[ aType - FIRST_TYPE ];
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}
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const ITEM_PTR_VECTOR& operator[]( int aType ) const
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{
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if( ( aType < FIRST_TYPE ) || ( aType > LAST_TYPE ) )
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throw std::out_of_range( "MULTIVECTOR out of range" );
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return m_data[ aType - FIRST_TYPE ];
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}
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// Range of valid types handled by the iterator
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static constexpr int FIRST_TYPE = FIRST_TYPE_VAL;
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static constexpr int LAST_TYPE = LAST_TYPE_VAL;
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static constexpr int TYPES_COUNT = LAST_TYPE - FIRST_TYPE + 1;
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private:
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///> Get first non-empty type or first type if all are empty.
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int first() const
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{
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int i = 0;
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while( ( i < TYPES_COUNT ) && ( m_data[ i ].empty() ) )
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++i;
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return ( i == TYPES_COUNT ) ? FIRST_TYPE : FIRST_TYPE + i;
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}
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///> Get last non-empty type or first type if all are empty.
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int last() const
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{
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int i = TYPES_COUNT - 1;
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while( ( i >= 0 ) && ( m_data[ i ].empty() ) )
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--i;
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return ( i < 0 ) ? FIRST_TYPE : FIRST_TYPE + i;
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}
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///> Contained items by type
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ITEM_PTR_VECTOR m_data[TYPES_COUNT];
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};
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#endif /* MULTIVECTOR_H */
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