AOO410/main/xml2cmp/source/support/list.hxx - openoffice - Git at Google

 /**************************************************************
  *
  * Licensed to the Apache Software Foundation (ASF) under one
  * or more contributor license agreements.  See the NOTICE file
  * distributed with this work for additional information
  * regarding copyright ownership.  The ASF licenses this file
  * to you under the Apache License, Version 2.0 (the
  * "License"); you may not use this file except in compliance
  * with the License.  You may obtain a copy of the License at
  *
  *   http://www.apache.org/licenses/LICENSE-2.0
  *
  * Unless required by applicable law or agreed to in writing,
  * software distributed under the License is distributed on an
  * "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
  * KIND, either express or implied.  See the License for the
  * specific language governing permissions and limitations
  * under the License.
  *
  *************************************************************/


 #ifndef __LISTEN_123456__
 #define __LISTEN_123456__

 #include <string.h>
 #include <iostream>
 #include <stdlib.h>

 template <class XX>
 class List
 {
   public :
     typedef XX *        iterator;
     typedef const XX *  const_iterator;

     // LIFECYCLE
                 		List();
     virtual             ~List() { delete [] inhalt; }

     // OPERATORS
     const XX &          operator[](
                             unsigned 			n) const
                                 				{ return elem(n); }
     XX &                operator[](
                         	unsigned 			n)
                                 				{ return elem(n); }
     // OPERATIONS
     void                reserve(
                             unsigned			i_nSize )
                                     			{ alloc(i_nSize,true); }
     virtual void        insert(
                         	unsigned 			pos,
                             const XX &          elem );
     void                push_back(
                             const XX & 			elem_)
                                     			{ insert(size(),elem_); }

     virtual void        remove(
                             unsigned 			pos );
     void                pop_back()              { remove(size()-1); }
     void                erase_all()             { while (size()) remove(size()-1); }

     // INQUIRY
     const XX &          front() const           { return elem(0); }
     const XX &          back() const            { return elem(len-1); }

     unsigned            size() const            { return len; }
     unsigned            space() const           { return allocated; }
     bool                is_valid_index(
                             unsigned			n) const
                                 				{ return n < len; }
     // ACCESS
     XX &                front()                 { return elem(0); }
     XX &                back()                  { return elem(len-1); }

   protected:
     void                checkSize(
                             unsigned 			newLength);
     void        		alloc(
                             unsigned			newSpace,
                             bool                re = false );

     const XX &         	elem(
                             unsigned 			n ) const
                                     			{ return inhalt[n]; }
     XX &        		elem(
                         	unsigned 			n )
                                     			{ return inhalt[n]; }
   // DATA
     XX *        		inhalt;
     unsigned            len;
     unsigned            allocated;

   private:
     // forbidden functions
                         List(const List<XX> & L);
     List<XX> &          operator=(
                             const List<XX> & 	L);

 };

 template <class XY>
 class DynamicList : public List<XY*>
 {
   public:
     virtual             ~DynamicList();

     virtual void        insert(
                         	unsigned 			pos,
                             XY * const &        elem );
     virtual void        remove(
                             unsigned 			pos );
 };


 template <class XX>
 List<XX>::List()
     :   inhalt(0),
         len(0),
         allocated(0)

 {
     alloc(1);
 }


 template <class XX>
 void
 List<XX>::insert(unsigned pos, const XX & elem_)
 {
     if ( pos > len )
       return;

     checkSize(len+2);
     for ( unsigned p = len; p > pos; --p)
     {
         inhalt[p] = inhalt[p-1];
     }
     inhalt[pos] = elem_;
     len++;
 }


 template <class XX>
 void
 List<XX>::remove(unsigned pos)
 {
     if ( pos >= len )
       return;
     len--;
     for ( unsigned p = pos; p < len; ++p)
     {
         inhalt[p] = inhalt[p+1];
     }
 }


 // Protected:
 template <class XX>
 void
 List<XX>::checkSize(unsigned newLength)
 {
    // neuen Platzbedarf pruefen:
    unsigned newSpace = space();
    if (newLength > newSpace)
    {
       if (!newSpace)
          newSpace = 1;
       const unsigned nBorder = 65536 / 2;
       while(newLength > newSpace)
       {
         if (newSpace < nBorder)
             newSpace <<= 1;
         else
     	{
             std::cerr << "List becomes too big" << std::endl;
             exit(1);
     	}
       }
    }

    // Veraenderung ?:
    if (newSpace != space())
       alloc(newSpace,true);
 }

 template <class XX>
 void
 List<XX>::alloc( unsigned           newSpace,
                  bool               re )
 {
     XX * pNew = new XX[newSpace];

     if (inhalt != 0)
     {
         if (re)
     	{
             for (unsigned i = 0; i < len; ++i)
     		{
                 pNew[i] = inhalt[i];
             }  // end for
     	}
         delete [] inhalt;
     }

     inhalt = pNew;
     allocated = newSpace;
 }


 template <class XY>
 DynamicList<XY>::~DynamicList()
 {
     this->erase_all();
 }

 template <class XY>
 void
 DynamicList<XY>::insert(unsigned pos, XY * const & elem_)
 {
     if ( pos > this->len )
       return;

     this->checkSize(this->len+2);
     memmove(this->inhalt[pos+1], this->inhalt[pos], (this->len-pos) * sizeof(XY*) );
     this->inhalt[pos] = elem_;
     this->len++;
 }

 template <class XY>
 void
 DynamicList<XY>::remove( unsigned           pos )
 {
     if (!this->is_valid_index(pos) )
         return;
     this->len--;
     delete this->inhalt[pos];
     memmove(this->inhalt[pos], this->inhalt[pos+1], (this->len-pos) * sizeof(XY*) );
 }


 #endif
	/**************************************************************
	*
	* Licensed to the Apache Software Foundation (ASF) under one
	* or more contributor license agreements. See the NOTICE file
	* distributed with this work for additional information
	* regarding copyright ownership. The ASF licenses this file
	* to you under the Apache License, Version 2.0 (the
	* "License"); you may not use this file except in compliance
	* with the License. You may obtain a copy of the License at
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing,
	* software distributed under the License is distributed on an
	* "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
	* KIND, either express or implied. See the License for the
	* specific language governing permissions and limitations
	* under the License.
	*
	*************************************************************/



	#ifndef __LISTEN_123456__
	#define __LISTEN_123456__

	#include <string.h>
	#include <iostream>
	#include <stdlib.h>

	template <class XX>
	class List
	{
	public :
	typedef XX * iterator;
	typedef const XX * const_iterator;

	// LIFECYCLE
	List();
	virtual ~List() { delete [] inhalt; }

	// OPERATORS
	const XX & operator[](
	unsigned n) const
	{ return elem(n); }
	XX & operator[](
	unsigned n)
	{ return elem(n); }
	// OPERATIONS
	void reserve(
	unsigned i_nSize )
	{ alloc(i_nSize,true); }
	virtual void insert(
	unsigned pos,
	const XX & elem );
	void push_back(
	const XX & elem_)
	{ insert(size(),elem_); }

	virtual void remove(
	unsigned pos );
	void pop_back() { remove(size()-1); }
	void erase_all() { while (size()) remove(size()-1); }

	// INQUIRY
	const XX & front() const { return elem(0); }
	const XX & back() const { return elem(len-1); }

	unsigned size() const { return len; }
	unsigned space() const { return allocated; }
	bool is_valid_index(
	unsigned n) const
	{ return n < len; }
	// ACCESS
	XX & front() { return elem(0); }
	XX & back() { return elem(len-1); }

	protected:
	void checkSize(
	unsigned newLength);
	void alloc(
	unsigned newSpace,
	bool re = false );

	const XX & elem(
	unsigned n ) const
	{ return inhalt[n]; }
	XX & elem(
	unsigned n )
	{ return inhalt[n]; }
	// DATA
	XX * inhalt;
	unsigned len;
	unsigned allocated;

	private:
	// forbidden functions
	List(const List<XX> & L);
	List<XX> & operator=(
	const List<XX> & L);

	};

	template <class XY>
	class DynamicList : public List<XY*>
	{
	public:
	virtual ~DynamicList();

	virtual void insert(
	unsigned pos,
	XY * const & elem );
	virtual void remove(
	unsigned pos );
	};



	template <class XX>
	List<XX>::List()
	: inhalt(0),
	len(0),
	allocated(0)

	{
	alloc(1);
	}


	template <class XX>
	void
	List<XX>::insert(unsigned pos, const XX & elem_)
	{
	if ( pos > len )
	return;

	checkSize(len+2);
	for ( unsigned p = len; p > pos; --p)
	{
	inhalt[p] = inhalt[p-1];
	}
	inhalt[pos] = elem_;
	len++;
	}


	template <class XX>
	void
	List<XX>::remove(unsigned pos)
	{
	if ( pos >= len )
	return;
	len--;
	for ( unsigned p = pos; p < len; ++p)
	{
	inhalt[p] = inhalt[p+1];
	}
	}


	// Protected:
	template <class XX>
	void
	List<XX>::checkSize(unsigned newLength)
	{
	// neuen Platzbedarf pruefen:
	unsigned newSpace = space();
	if (newLength > newSpace)
	{
	if (!newSpace)
	newSpace = 1;
	const unsigned nBorder = 65536 / 2;
	while(newLength > newSpace)
	{
	if (newSpace < nBorder)
	newSpace <<= 1;
	else
	{
	std::cerr << "List becomes too big" << std::endl;
	exit(1);
	}
	}
	}

	// Veraenderung ?:
	if (newSpace != space())
	alloc(newSpace,true);
	}

	template <class XX>
	void
	List<XX>::alloc( unsigned newSpace,
	bool re )
	{
	XX * pNew = new XX[newSpace];

	if (inhalt != 0)
	{
	if (re)
	{
	for (unsigned i = 0; i < len; ++i)
	{
	pNew[i] = inhalt[i];
	} // end for
	}
	delete [] inhalt;
	}

	inhalt = pNew;
	allocated = newSpace;
	}


	template <class XY>
	DynamicList<XY>::~DynamicList()
	{
	this->erase_all();
	}

	template <class XY>
	void
	DynamicList<XY>::insert(unsigned pos, XY * const & elem_)
	{
	if ( pos > this->len )
	return;

	this->checkSize(this->len+2);
	memmove(this->inhalt[pos+1], this->inhalt[pos], (this->len-pos) * sizeof(XY*) );
	this->inhalt[pos] = elem_;
	this->len++;
	}

	template <class XY>
	void
	DynamicList<XY>::remove( unsigned pos )
	{
	if (!this->is_valid_index(pos) )
	return;
	this->len--;
	delete this->inhalt[pos];
	memmove(this->inhalt[pos], this->inhalt[pos+1], (this->len-pos) * sizeof(XY*) );
	}



	#endif