/*
 * $Revision: 2615 $
 *
 * last checkin:
 *   $Author: gutwenger $
 *   $Date: 2012-07-16 14:23:36 +0200 (Mo, 16. Jul 2012) $
 ***************************************************************/

/** \file
 * \brief declaration and implementation of FaceArray class
 *
 * \author Carsten Gutwenger
 *
 * \par License:
 * This file is part of the Open Graph Drawing Framework (OGDF).
 *
 * \par
 * Copyright (C)<br>
 * See README.txt in the root directory of the OGDF installation for details.
 *
 * \par
 * This program is free software; you can redistribute it and/or
 * modify it under the terms of the GNU General Public License
 * Version 2 or 3 as published by the Free Software Foundation;
 * see the file LICENSE.txt included in the packaging of this file
 * for details.
 *
 * \par
 * 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 General Public License for more details.
 *
 * \par
 * You should have received a copy of the GNU General Public
 * License along with this program; if not, write to the Free
 * Software Foundation, Inc., 51 Franklin Street, Fifth Floor,
 * Boston, MA 02110-1301, USA.
 *
 * \see  http://www.gnu.org/copyleft/gpl.html
 ***************************************************************/





#ifdef _MSC_VER
#pragma once
#endif

#ifndef OGDF_FACE_ARRAY_H
#define OGDF_FACE_ARRAY_H


#include "Array.h"
#include "CombinatorialEmbedding.h"


namespace ogdf {


//! Abstract base class for face arrays.
/**
 * Defines the interface for event handling used by the
 * CombinatorialEmbedding class.
 * Use the parameterized class FaceArray for creating face arrays.
 */
class FaceArrayBase {
	/**
	 * Pointer to list element in the list of all registered face
	 * arrays which references this array.
	 */
	ListIterator<FaceArrayBase*> m_it;

public:
	const ConstCombinatorialEmbedding *m_pEmbedding; //!< The associated combinatorial embedding.

	//! Initializes a face array not associated with a combinatorial embedding.
	FaceArrayBase() : m_pEmbedding(0) { }
	//! Initializes a face array associated with \a pE.
	FaceArrayBase(const ConstCombinatorialEmbedding *pE) : m_pEmbedding(pE) {
		if(pE) m_it = pE->registerArray(this);
	}

	// destructor, unregisters the array
	virtual ~FaceArrayBase() {
		if (m_pEmbedding) m_pEmbedding->unregisterArray(m_it);
	}

	// event interface used by CombinatorialEmbedding
	//! Virtual function called when table size has to be enlarged.
	virtual void enlargeTable(int newTableSize) = 0;
	//! Virtual function called when table has to be reinitialized.
	virtual void reinit(int initTableSize) = 0;

	//! Associates the array with a new combinatorial embedding.
	void reregister(const ConstCombinatorialEmbedding *pE) {
		if (m_pEmbedding) m_pEmbedding->unregisterArray(m_it);
		if ((m_pEmbedding = pE) != 0) m_it = pE->registerArray(this);
	}
}; // class FaceArrayBase


//! Dynamic arrays indexed with faces of a combinatorial embedding.
/**
 * Face arrays represent a mapping from faces to data of type \a T.
 * They adjust their table size automatically when the number of faces in the
 * corresponding combinatorial embedding increases.
 *
 * @tparam T is the element type.
 */
template<class T> class FaceArray : private Array<T>, protected FaceArrayBase {
	T m_x; //!< The default value for array elements.

public:
	//! Constructs an empty face array associated with no combinatorial embedding.
	FaceArray() : Array<T>(), FaceArrayBase() { }
	//! Constructs a face array associated with \a E.
	FaceArray(const ConstCombinatorialEmbedding &E) :
		Array<T>(E.faceArrayTableSize()), FaceArrayBase(&E) { }
	//! Constructs a face array associated with \a E.
	/**
	 * @param E is the associated combinatorial embedding.
	 * @param x is the default value for all array elements.
	 */
	FaceArray(const ConstCombinatorialEmbedding &E, const T &x) :
		Array<T>(0,E.faceArrayTableSize()-1,x), FaceArrayBase(&E), m_x(x) { }
	//! Constructs an face array that is a copy of \a A.
	/**
	 * Associates the array with the same combinatorial embedding as
	 * \a A and copies all elements.
	 */
	FaceArray(const FaceArray<T> &A) : Array<T>(A), FaceArrayBase(A.m_pEmbedding), m_x(A.m_x) { }

	//! Returns true iff the array is associated with a combinatorial embedding.
	bool valid() const { return (Array<T>::low() <= Array<T>::high()); }

	//! Returns a pointer to the associated combinatorial embedding.
	const ConstCombinatorialEmbedding *embeddingOf() const {
		return m_pEmbedding;
	}

	//! Returns a reference to the element with index \a f.
	const T &operator[](face f) const {
		OGDF_ASSERT(f != 0 && f->embeddingOf() == m_pEmbedding)
		return Array<T>::operator [](f->index());
	}

	//! Returns a reference to the element with index \a f.
	T &operator[](face f) {
		OGDF_ASSERT(f != 0 && f->embeddingOf() == m_pEmbedding)
		return Array<T>::operator [](f->index());
	}

	//! Returns a reference to the element with index \a index.
	/**
	 * \attention Make sure that \a index is a valid index for a face
	 * in the associated combinatorial embedding!
	 */
	const T &operator[](int index) const {
		return Array<T>::operator [](index);
	}

	//! Returns a reference to the element with index \a index.
	/**
	 * \attention Make sure that \a index is a valid index for a face
	 * in the associated combinatorial embedding!
	 */
	T &operator[](int index) {
		return Array<T>::operator [](index);
	}

	//! Assignment operator.
	FaceArray<T> &operator=(const FaceArray<T> &a) {
		Array<T>::operator =(a);
		m_x = a.m_x;
		reregister(a.m_pEmbedding);
		return *this;
	}

	//! Reinitializes the array. Associates the array with no combinatorial embedding.
	void init() {
		Array<T>::init(); reregister(0);
	}

	//! Reinitializes the array. Associates the array with \a E.
	void init(const ConstCombinatorialEmbedding &E) {
		Array<T>::init(E.faceArrayTableSize()); reregister(&E);
	}

	//! Reinitializes the array. Associates the array with \a E.
	/**
	 * @param E is the associated combinatorial embedding.
	 * @param x is the default value.
	 */
	void init(const ConstCombinatorialEmbedding &E, const T &x) {
		Array<T>::init(0,E.faceArrayTableSize()-1, m_x = x); reregister(&E);
	}

	//! Sets all array elements to \a x.
	void fill(const T &x) {
		int high = m_pEmbedding->maxFaceIndex();
		if(high >= 0)
			Array<T>::fill(0,high,x);
	}

private:
	virtual void enlargeTable(int newTableSize) {
		Array<T>::grow(newTableSize-Array<T>::size(),m_x);
	}

	virtual void reinit(int initTableSize) {
		Array<T>::init(0,initTableSize-1,m_x);
	}

	OGDF_NEW_DELETE

}; // class FaceArray<T>


} // end namespace ogdf


#endif