source: downloads/OgreMain/include/OgreIteratorWrappers.h @ 5

/*
-----------------------------------------------------------------------------
This source file is part of OGRE
    (Object-oriented Graphics Rendering Engine)
For the latest info, see http://www.ogre3d.org/

Copyright (c) 2000-2006 Torus Knot Software Ltd
Also see acknowledgements in Readme.html

This program 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 of the License, or (at your option) any later
version.

This program 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 program; if not, write to the Free Software Foundation, Inc., 59 Temple
Place - Suite 330, Boston, MA 02111-1307, USA, or go to
http://www.gnu.org/copyleft/lesser.txt.

You may alternatively use this source under the terms of a specific version of
the OGRE Unrestricted License provided you have obtained such a license from
Torus Knot Software Ltd.
-----------------------------------------------------------------------------
*/
#ifndef __IteratorWrappers_H__
#define __IteratorWrappers_H__

#include "OgrePrerequisites.h"

namespace Ogre {

    /** Wraps iteration over a vector.
    @remarks
        This class is here just to allow clients to iterate over an internal
        vector of a class without having to have access to the vector itself
        (typically to iterate you need both the iterator and the end() iterator
        to test for the end condition, which is messy).
        No updates are allowed through this interface, it is purely for 
        iterating and reading.
    @par
        Note that like STL iterators, these iterators are only valid whilst no 
        updates are made to the underlying collection. You should not attempt to
        use this iterator if a change is made to the collection. In fact, treat this
        iterator as a transient object, do NOT store it and try to use it repeatedly.
    */
    template <class T>
    class VectorIterator
    {
    private:
        typename T::iterator mCurrent;
        typename T::iterator mEnd;
                /// Private constructor since only the parameterised constructor should be used
        VectorIterator() {};
    public:
        typedef typename T::value_type ValueType;

        /** Constructor.
        @remarks
            Provide a start and end iterator to initialise.
        */
        VectorIterator(typename T::iterator start, typename T::iterator end)
            : mCurrent(start), mEnd(end)
        {
        }

        /** Constructor.
        @remarks
            Provide a container to initialise.
        */
        explicit VectorIterator(T& c)
            : mCurrent(c.begin()), mEnd(c.end())
        {
        }

        /** Returns true if there are more items in the collection. */
        bool hasMoreElements(void) const
        {
            return mCurrent != mEnd;
        }

        /** Returns the next element in the collection, and advances to the next. */
        typename T::value_type getNext(void)
        {
            return *mCurrent++;
        }
        /** Returns the next element in the collection, without advancing to the next. */
        typename T::value_type peekNext(void)
        {
            return *mCurrent;
        }
        /** Returns a pointer to the next element in the collection, without advancing to the next afterwards. */
        typename T::pointer peekNextPtr(void)
        {
            return &(*mCurrent);
        }
        /** Moves the iterator on one element. */
        void moveNext(void)
        {
            ++mCurrent;
        }



    };

    /** Wraps iteration over a map.
    @remarks
        This class is here just to allow clients to iterate over an internal
        map of a class without having to have access to the map itself
        (typically to iterate you need both the iterator and the end() iterator
        to test for the end condition, which is messy).
        No updates are allowed through this interface, it is purely for 
        iterating and reading.
    @par
        Note that like STL iterators, these iterators are only valid whilst no 
        updates are made to the underlying collection. You should not attempt to
        use this iterator if a change is made to the collection. In fact, treat this
        iterator as a transient object, do NOT store it and try to use it repeatedly.
    */
    template <class T>
    class MapIterator
    {
    private:
        typename T::iterator mCurrent;
        typename T::iterator mEnd;
        /// Private constructor since only the parameterised constructor should be used
        MapIterator() {};
    public:
        typedef typename T::mapped_type MappedType;
        typedef typename T::key_type KeyType;

        /** Constructor.
        @remarks
            Provide a start and end iterator to initialise.
        */
        MapIterator(typename T::iterator start, typename T::iterator end)
            : mCurrent(start), mEnd(end)
        {
        }

        /** Constructor.
        @remarks
            Provide a container to initialise.
        */
        explicit MapIterator(T& c)
            : mCurrent(c.begin()), mEnd(c.end())
        {
        }

        /** Returns true if there are more items in the collection. */
        bool hasMoreElements(void) const
        {
            return mCurrent != mEnd;
        }

        /** Returns the next value element in the collection, and advances to the next. */
        typename T::mapped_type getNext(void)
        {
            return (mCurrent++)->second;
        }
        /** Returns the next value element in the collection, without advancing to the next. */
        typename T::mapped_type peekNextValue(void)
        {
            return mCurrent->second;
        }
        /** Returns the next key element in the collection, without advancing to the next. */
        typename T::key_type peekNextKey(void)
        {
            return mCurrent->first;
        }
        /** Required to overcome intermittent bug */
            MapIterator<T> & operator=( MapIterator<T> &rhs )
            {
                    mCurrent = rhs.mCurrent;
                    mEnd = rhs.mEnd;
                    return *this;
            }
        /** Returns a pointer to the next value element in the collection, without 
            advancing to the next afterwards. */
        typename T::mapped_type* peekNextValuePtr(void)
        {
            return &(mCurrent->second);
        }
        /** Moves the iterator on one element. */
        void moveNext(void)
        {
            ++mCurrent;
        }



    };
    /** Wraps iteration over a const vector.
    @remarks
    This class is here just to allow clients to iterate over an internal
    vector of a class without having to have access to the vector itself
    (typically to iterate you need both the iterator and the end() iterator
    to test for the end condition, which is messy).
    No updates are allowed through this interface, it is purely for 
    iterating and reading.
    @par
    Note that like STL iterators, these iterators are only valid whilst no 
    updates are made to the underlying collection. You should not attempt to
    use this iterator if a change is made to the collection. In fact, treat this
    iterator as a transient object, do NOT store it and try to use it repeatedly.
    */
    template <class T>
    class ConstVectorIterator
    {
    private:
        mutable typename T::const_iterator mCurrent;
        typename T::const_iterator mEnd;
        /// Private constructor since only the parameterised constructor should be used
        ConstVectorIterator() {};
    public:
        typedef typename T::value_type ValueType;

        /** Constructor.
        @remarks
        Provide a start and end iterator to initialise.
        */
        ConstVectorIterator(typename T::const_iterator start, typename T::const_iterator end)
            : mCurrent(start), mEnd(end)
        {
        }

        /** Constructor.
        @remarks
            Provide a container to initialise.
        */
        explicit ConstVectorIterator(const T& c)
            : mCurrent(c.begin()), mEnd(c.end())
        {
        }

        /** Returns true if there are more items in the collection. */
        bool hasMoreElements(void) const
        {
            return mCurrent != mEnd;
        }

        /** Returns the next element in the collection, and advances to the next. */
        typename T::value_type getNext(void)
        {
            return *mCurrent++;
        }
        /** Returns the next element in the collection, without advancing to the next. */
        typename T::value_type peekNext(void) const
        {
            return *mCurrent;
        }
        /** Returns a pointer to the next element in the collection, without advancing to the next afterwards. */
        typename T::const_pointer peekNextPtr(void) const
        {
            return &(*mCurrent);
        }
        /** Moves the iterator on one element. */
        void moveNext(void) const
        {
            ++mCurrent;
        }



    };

    /** Wraps iteration over a const map.
    @remarks
    This class is here just to allow clients to iterate over an internal
    map of a class without having to have access to the map itself
    (typically to iterate you need both the iterator and the end() iterator
    to test for the end condition, which is messy).
    No updates are allowed through this interface, it is purely for 
    iterating and reading.
    @par
    Note that like STL iterators, these iterators are only valid whilst no 
    updates are made to the underlying collection. You should not attempt to
    use this iterator if a change is made to the collection. In fact, treat this
    iterator as a transient object, do NOT store it and try to use it repeatedly.
    */
    template <class T>
    class ConstMapIterator
    {
    private:
        mutable typename T::const_iterator mCurrent;
        typename T::const_iterator mEnd;
        /// Private constructor since only the parameterised constructor should be used
        ConstMapIterator() {};
    public:
        typedef typename T::mapped_type MappedType;
        typedef typename T::key_type KeyType;

        /** Constructor.
        @remarks
        Provide a start and end iterator to initialise.
        */
        ConstMapIterator(typename T::const_iterator start, typename T::const_iterator end)
            : mCurrent(start), mEnd(end)
        {
        }

        /** Constructor.
        @remarks
            Provide a container to initialise.
        */
        explicit ConstMapIterator(const T& c)
            : mCurrent(c.begin()), mEnd(c.end())
        {
        }

        /** Returns true if there are more items in the collection. */
        bool hasMoreElements(void) const
        {
            return mCurrent != mEnd;
        }

        /** Returns the next value element in the collection, and advances to the next. */
        typename T::mapped_type getNext(void)
        {
            return (mCurrent++)->second;
        }
        /** Returns the next value element in the collection, without advancing to the next. */
        typename T::mapped_type peekNextValue(void) const
        {
            return mCurrent->second;
        }
        /** Returns the next key element in the collection, without advancing to the next. */
        typename T::key_type peekNextKey(void) const
        {
            return mCurrent->first;
        }
        /** Required to overcome intermittent bug */
        ConstMapIterator<T> & operator=( ConstMapIterator<T> &rhs )
        {
            mCurrent = rhs.mCurrent;
            mEnd = rhs.mEnd;
            return *this;
        }
        /** Returns a pointer to the next value element in the collection, without 
        advancing to the next afterwards. */
        const typename T::mapped_type* peekNextValuePtr(void) const
        {
            return &(mCurrent->second);
        }
        /** Moves the iterator on one element. */
        void moveNext(void) const
        {
            ++mCurrent;
        }



    };
}
#endif