/**************************************************************************** ** ** ** Implementation of QGList and QGListIterator classes ** ** Created : 920624 ** ** Copyright (C) 1992-2000 Trolltech AS. All rights reserved. ** ** This file is part of the tools module of the Qt GUI Toolkit. ** ** This file may be distributed under the terms of the Q Public License ** as defined by Trolltech AS of Norway and appearing in the file ** LICENSE.QPL included in the packaging of this file. ** ** This file may be distributed and/or modified under the terms of the ** GNU General Public License version 2 as published by the Free Software ** Foundation and appearing in the file LICENSE.GPL included in the ** packaging of this file. ** ** Licensees holding valid Qt Enterprise Edition or Qt Professional Edition ** licenses may use this file in accordance with the Qt Commercial License ** Agreement provided with the Software. ** ** This file is provided AS IS with NO WARRANTY OF ANY KIND, INCLUDING THE ** WARRANTY OF DESIGN, MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE. ** ** See http://www.trolltech.com/pricing.html or email sales@trolltech.com for ** information about Qt Commercial License Agreements. ** See http://www.trolltech.com/qpl/ for QPL licensing information. ** See http://www.trolltech.com/gpl/ for GPL licensing information. ** ** Contact info@trolltech.com if any conditions of this licensing are ** not clear to you. ** **********************************************************************/ #include "qglist.h" #include "qgvector.h" #include "qdatastream.h" // NOT REVISED /*! \class QLNode qglist.h \brief The QLNode class is an internal class for the QList template collection. QLNode is a doubly linked list node; it has three pointers:
  1. Pointer to the previous node.
  2. Pointer to the next node.
  3. Pointer to the actual data.
Sometimes it might be practical to have direct access to the list nodes in a QList, but it is seldom required. \warning Be very careful if you want to access the list nodes. The heap can easily get corrupted if you make a mistake. \sa QList::currentNode(), QList::removeNode(), QList::takeNode() */ /*! \fn QCollection::Item QLNode::getData() Returns a pointer (\c void*) to the actual data in the list node. */ /*! \class QGList qglist.h \brief The QGList class is an internal class for implementing Qt collection classes. QGList is a strictly internal class that acts as a base class for several \link collection.html collection classes\endlink; QList, QQueue and QStack. QGList has some virtual functions that can be reimplemented to customize the subclasses. Normally, you do not have to reimplement any of these functions. If you still want to reimplement them, see the QStrList class (qstrlist.h), which is a good example. */ /***************************************************************************** Default implementation of virtual functions *****************************************************************************/ /*! This virtual function compares two list items. Returns: This function returns \e int rather than \e bool so that reimplementations can return three values and use it to sort by: The QList::inSort() function requires that compareItems() is implemented as described here. This function should not modify the list because some const functions call compareItems(). The default implementation compares the pointers: \code \endcode */ int QGList::compareItems( QCollection::Item item1, QCollection::Item item2 ) { return item1 != item2; // compare pointers } #ifndef QT_NO_DATASTREAM /*! Reads a collection/list item from the stream \a s and returns a reference to the stream. The default implementation sets \a item to 0. \sa write() */ QDataStream &QGList::read( QDataStream &s, QCollection::Item &item ) { item = 0; return s; } /*! Writes a collection/list item to the stream \a s and returns a reference to the stream. The default implementation does nothing. \sa read() */ QDataStream &QGList::write( QDataStream &s, QCollection::Item ) const { return s; } #endif // QT_NO_DATASTREAM /***************************************************************************** QGList member functions *****************************************************************************/ /*! \internal Constructs an empty list. */ QGList::QGList() { firstNode = lastNode = curNode = 0; // initialize list numNodes = 0; curIndex = -1; iterators = 0; // initialize iterator list } /*! \internal Constructs a copy of \e list. */ QGList::QGList( const QGList & list ) : QCollection( list ) { firstNode = lastNode = curNode = 0; // initialize list numNodes = 0; curIndex = -1; iterators = 0; // initialize iterator list QLNode *n = list.firstNode; while ( n ) { // copy all items from list append( n->data ); n = n->next; } } /*! \internal Removes all items from the list and destroys the list. */ QGList::~QGList() { clear(); if ( !iterators ) // no iterators for this list return; QGListIterator *i = (QGListIterator*)iterators->first(); while ( i ) { // notify all iterators that i->list = 0; // this list is deleted i->curNode = 0; i = (QGListIterator*)iterators->next(); } delete iterators; } /*! \internal Assigns \e list to this list. */ QGList& QGList::operator=( const QGList &list ) { clear(); if ( list.count() > 0 ) { QLNode *n = list.firstNode; while ( n ) { // copy all items from list append( n->data ); n = n->next; } curNode = firstNode; curIndex = 0; } return *this; } /*! Compares this list with \a list. Returns TRUE if the lists contain the same data, else FALSE. */ bool QGList::operator==( const QGList &list ) const { if ( count() != list.count() ) return FALSE; if ( count() == 0 ) return TRUE; QLNode *n1 = firstNode; QLNode *n2 = list.firstNode; while ( n1 && n2 ) { // should be mutable if ( ( (QGList*)this )->compareItems( n1->data, n2->data ) != 0 ) return FALSE; n1 = n1->next; n2 = n2->next; } return TRUE; } /*! \fn uint QGList::count() const \internal Returns the number of items in the list. */ /*! \internal Returns the node at position \e index. Sets this node to current. */ QLNode *QGList::locate( uint index ) { if ( index == (uint)curIndex ) // current node ? return curNode; if ( !curNode && firstNode ) { // set current node curNode = firstNode; curIndex = 0; } QLNode *node; int distance = index - curIndex; // node distance to cur node bool forward; // direction to traverse if ( index >= numNodes ) { #if defined(CHECK_RANGE) qWarning( "QGList::locate: Index %d out of range", index ); #endif return 0; } if ( distance < 0 ) distance = -distance; if ( (uint)distance < index && (uint)distance < numNodes - index ) { node = curNode; // start from current node forward = index > (uint)curIndex; } else if ( index < numNodes - index ) { // start from first node node = firstNode; distance = index; forward = TRUE; } else { // start from last node node = lastNode; distance = numNodes - index - 1; if ( distance < 0 ) distance = 0; forward = FALSE; } if ( forward ) { // now run through nodes while ( distance-- ) node = node->next; } else { while ( distance-- ) node = node->prev; } curIndex = index; // must update index return curNode = node; } /*! \internal Inserts an item at its sorted position in the list. */ void QGList::inSort( QCollection::Item d ) { int index = 0; QLNode *n = firstNode; while ( n && compareItems(n->data,d) < 0 ){ // find position in list n = n->next; index++; } insertAt( index, d ); } /*! \internal Inserts an item at the start of the list. */ void QGList::prepend( QCollection::Item d ) { QLNode *n = new QLNode( newItem(d) ); CHECK_PTR( n ); n->prev = 0; if ( (n->next = firstNode) ) // list is not empty firstNode->prev = n; else // initialize list lastNode = n; firstNode = curNode = n; // curNode affected numNodes++; curIndex = 0; } /*! \internal Inserts an item at the end of the list. */ void QGList::append( QCollection::Item d ) { QLNode *n = new QLNode( newItem(d) ); CHECK_PTR( n ); n->next = 0; if ( (n->prev = lastNode) ) // list is not empty lastNode->next = n; else // initialize list firstNode = n; lastNode = curNode = n; // curNode affected curIndex = numNodes; numNodes++; } /*! \internal Inserts an item at position \e index in the list. */ bool QGList::insertAt( uint index, QCollection::Item d ) { if ( index == 0 ) { // insert at head of list prepend( d ); return TRUE; } else if ( index == numNodes ) { // append at tail of list append( d ); return TRUE; } QLNode *nextNode = locate( index ); if ( !nextNode ) // illegal position return FALSE; QLNode *prevNode = nextNode->prev; QLNode *n = new QLNode( newItem(d) ); CHECK_PTR( n ); nextNode->prev = n; prevNode->next = n; n->prev = prevNode; // link new node into list n->next = nextNode; curNode = n; // curIndex set by locate() numNodes++; return TRUE; } /*! \internal Relinks node \e n and makes it the first node in the list. */ void QGList::relinkNode( QLNode *n ) { if ( n == firstNode ) // already first return; curNode = n; unlink(); n->prev = 0; if ( (n->next = firstNode) ) // list is not empty firstNode->prev = n; else // initialize list lastNode = n; firstNode = curNode = n; // curNode affected numNodes++; curIndex = 0; } /*! \internal Unlinks the current list node and returns a pointer to this node. */ QLNode *QGList::unlink() { if ( curNode == 0 ) // null current node return 0; QLNode *n = curNode; // unlink this node if ( n == firstNode ) { // removing first node ? if ( (firstNode = n->next) ) { firstNode->prev = 0; } else { lastNode = curNode = 0; // list becomes empty curIndex = -1; } } else { if ( n == lastNode ) { // removing last node ? lastNode = n->prev; lastNode->next = 0; } else { // neither last nor first node n->prev->next = n->next; n->next->prev = n->prev; } } if ( n->next ) { // change current node curNode = n->next; } else if ( n->prev ) { curNode = n->prev; curIndex--; } if ( iterators && iterators->count() ) { // update iterators QGListIterator *i = (QGListIterator*)iterators->first(); while ( i ) { // fix all iterators that if ( i->curNode == n ) // refers to pending node i->curNode = curNode; i = (QGListIterator*)iterators->next(); } } numNodes--; return n; } /*! \internal Removes the node \e n from the list. */ bool QGList::removeNode( QLNode *n ) { #if defined(CHECK_NULL) if ( n == 0 || (n->prev && n->prev->next != n) || (n->next && n->next->prev != n) ) { qWarning( "QGList::removeNode: Corrupted node" ); return FALSE; } #endif curNode = n; unlink(); // unlink node deleteItem( n->data ); // deallocate this node delete n; curNode = firstNode; curIndex = curNode ? 0 : -1; return TRUE; } /*! \internal Removes the item \e d from the list. Uses compareItems() to find the item. */ bool QGList::remove( QCollection::Item d ) { if ( d ) { // find the item if ( find(d) == -1 ) return FALSE; } QLNode *n = unlink(); // unlink node if ( !n ) return FALSE; deleteItem( n->data ); // deallocate this node delete n; return TRUE; } /*! \internal Removes the item \e d from the list. */ bool QGList::removeRef( QCollection::Item d ) { if ( d ) { // find the item if ( findRef(d) == -1 ) return FALSE; } QLNode *n = unlink(); // unlink node if ( !n ) return FALSE; deleteItem( n->data ); // deallocate this node delete n; return TRUE; } /*! \fn bool QGList::removeFirst() \internal Removes the first item in the list. */ /*! \fn bool QGList::removeLast() \internal Removes the last item in the list. */ /*! \internal Removes the item at position \e index from the list. */ bool QGList::removeAt( uint index ) { if ( !locate(index) ) return FALSE; QLNode *n = unlink(); // unlink node if ( !n ) return FALSE; deleteItem( n->data ); // deallocate this node delete n; return TRUE; } /*! \internal Takes the node \e n out of the list. */ QCollection::Item QGList::takeNode( QLNode *n ) { #if defined(CHECK_NULL) if ( n == 0 || (n->prev && n->prev->next != n) || (n->next && n->next->prev != n) ) { qWarning( "QGList::takeNode: Corrupted node" ); return 0; } #endif curNode = n; unlink(); // unlink node Item d = n->data; delete n; // delete the node, not data curNode = firstNode; curIndex = curNode ? 0 : -1; return d; } /*! \internal Takes the current item out of the list. */ QCollection::Item QGList::take() { QLNode *n = unlink(); // unlink node Item d = n ? n->data : 0; delete n; // delete node, keep contents return d; } /*! \internal Takes the item at position \e index out of the list. */ QCollection::Item QGList::takeAt( uint index ) { if ( !locate(index) ) return 0; QLNode *n = unlink(); // unlink node Item d = n ? n->data : 0; delete n; // delete node, keep contents return d; } /*! \internal Takes the first item out of the list. */ QCollection::Item QGList::takeFirst() { first(); QLNode *n = unlink(); // unlink node Item d = n ? n->data : 0; delete n; return d; } /*! \internal Takes the last item out of the list. */ QCollection::Item QGList::takeLast() { last(); QLNode *n = unlink(); // unlink node Item d = n ? n->data : 0; delete n; return d; } /*! \internal Removes all items from the list. */ void QGList::clear() { QLNode *n = firstNode; firstNode = lastNode = curNode = 0; // initialize list numNodes = 0; curIndex = -1; if ( iterators && iterators->count() ) { QGListIterator *i = (QGListIterator*)iterators->first(); while ( i ) { // notify all iterators that i->curNode = 0; // this list is empty i = (QGListIterator*)iterators->next(); } } QLNode *prevNode; while ( n ) { // for all nodes ... deleteItem( n->data ); // deallocate data prevNode = n; n = n->next; delete prevNode; // deallocate node } } /*! \internal Finds an item in the list. */ int QGList::findRef( QCollection::Item d, bool fromStart ) { QLNode *n; int index; if ( fromStart ) { // start from first node n = firstNode; index = 0; } else { // start from current node n = curNode; index = curIndex; } while ( n && n->data != d ) { // find exact match n = n->next; index++; } curNode = n; curIndex = n ? index : -1; return curIndex; // return position of item } /*! \internal Finds an item in the list. Uses compareItems(). */ int QGList::find( QCollection::Item d, bool fromStart ) { QLNode *n; int index; if ( fromStart ) { // start from first node n = firstNode; index = 0; } else { // start from current node n = curNode; index = curIndex; } while ( n && compareItems(n->data,d) ){ // find equal match n = n->next; index++; } curNode = n; curIndex = n ? index : -1; return curIndex; // return position of item } /*! \internal Counts the number an item occurs in the list. */ uint QGList::containsRef( QCollection::Item d ) const { QLNode *n = firstNode; uint count = 0; while ( n ) { // for all nodes... if ( n->data == d ) // count # exact matches count++; n = n->next; } return count; } /*! \internal Counts the number an item occurs in the list. Uses compareItems(). */ uint QGList::contains( QCollection::Item d ) const { QLNode *n = firstNode; uint count = 0; QGList *that = (QGList*)this; // mutable for compareItems() while ( n ) { // for all nodes... if ( !that->compareItems(n->data,d) ) // count # equal matches count++; n = n->next; } return count; } /*! \fn QCollection::Item QGList::at( uint index ) \internal Sets the item at position \e index to the current item. */ /*! \fn int QGList::at() const \internal Returns the current index. */ /*! \fn QLNode *QGList::currentNode() const \internal Returns the current node. */ /*! \fn QCollection::Item QGList::get() const \internal Returns the current item. */ /*! \fn QCollection::Item QGList::cfirst() const \internal Returns the first item in the list. */ /*! \fn QCollection::Item QGList::clast() const \internal Returns the last item in the list. */ /*! \internal Returns the first list item. Sets this to current. */ QCollection::Item QGList::first() { if ( firstNode ) { curIndex = 0; return (curNode=firstNode)->data; } return 0; } /*! \internal Returns the last list item. Sets this to current. */ QCollection::Item QGList::last() { if ( lastNode ) { curIndex = numNodes-1; return (curNode=lastNode)->data; } return 0; } /*! \internal Returns the next list item (after current). Sets this to current. */ QCollection::Item QGList::next() { if ( curNode ) { if ( curNode->next ) { curIndex++; curNode = curNode->next; return curNode->data; } curIndex = -1; curNode = 0; } return 0; } /*! \internal Returns the previous list item (before current). Sets this to current. */ QCollection::Item QGList::prev() { if ( curNode ) { if ( curNode->prev ) { curIndex--; curNode = curNode->prev; return curNode->data; } curIndex = -1; curNode = 0; } return 0; } /*! \internal Converts the list to a vector. */ void QGList::toVector( QGVector *vector ) const { vector->clear(); if ( !vector->resize( count() ) ) return; QLNode *n = firstNode; uint i = 0; while ( n ) { vector->insert( i, n->data ); n = n->next; i++; } } void QGList::heapSortPushDown( QCollection::Item* heap, int first, int last ) { int r = first; while( r <= last/2 ) { // Node r has only one child ? if ( last == 2*r ) { // Need for swapping ? if ( compareItems( heap[r], heap[ 2*r ] ) > 0 ) { QCollection::Item tmp = heap[r]; heap[ r ] = heap[ 2*r ]; heap[ 2*r ] = tmp; } // That's it ... r = last; } else { // Node has two children if ( compareItems( heap[r], heap[ 2*r ] ) > 0 && compareItems( heap[ 2*r ], heap[ 2*r+1 ] ) <= 0 ) { // Swap with left child QCollection::Item tmp = heap[r]; heap[ r ] = heap[ 2*r ]; heap[ 2*r ] = tmp; r *= 2; } else if ( compareItems( heap[r], heap[ 2*r+1 ] ) > 0 && compareItems( heap[ 2*r+1 ], heap[ 2*r ] ) < 0 ) { // Swap with right child QCollection::Item tmp = heap[r]; heap[ r ] = heap[ 2*r+1 ]; heap[ 2*r+1 ] = tmp; r = 2*r+1; } else { // We are done r = last; } } } } /*! Sorts the list by the result of the virtual compareItems() function. The Heap-Sort algorithm is used for sorting. It sorts n items with O(n*log n) compares. This is the asymptotic optimal solution of the sorting problem. */ void QGList::sort() { uint n = count(); if ( n < 2 ) return; // Create the heap QCollection::Item* realheap = new QCollection::Item[ n ]; // Wow, what a fake. But I want the heap to be indexed as 1...n QCollection::Item* heap = realheap - 1; int size = 0; QLNode* insert = firstNode; for( ; insert != 0; insert = insert->next ) { heap[++size] = insert->data; int i = size; while( i > 1 && compareItems( heap[i], heap[ i / 2 ] ) < 0 ) { QCollection::Item tmp = heap[ i ]; heap[ i ] = heap[ i/2 ]; heap[ i/2 ] = tmp; i /= 2; } } insert = firstNode; // Now do the sorting for ( int i = n; i > 0; i-- ) { insert->data = heap[1]; insert = insert->next; if ( i > 1 ) { heap[1] = heap[i]; heapSortPushDown( heap, 1, i - 1 ); } } delete [] realheap; } /***************************************************************************** QGList stream functions *****************************************************************************/ #ifndef QT_NO_DATASTREAM QDataStream &operator>>( QDataStream &s, QGList &list ) { // read list return list.read( s ); } QDataStream &operator<<( QDataStream &s, const QGList &list ) { // write list return list.write( s ); } /*! \internal Reads a list from the stream \e s. */ QDataStream &QGList::read( QDataStream &s ) { uint num; s >> num; // read number of items clear(); // clear list while ( num-- ) { // read all items Item d; read( s, d ); CHECK_PTR( d ); if ( !d ) // no memory break; QLNode *n = new QLNode( d ); CHECK_PTR( n ); if ( !n ) // no memory break; n->next = 0; if ( (n->prev = lastNode) ) // list is not empty lastNode->next = n; else // initialize list firstNode = n; lastNode = n; numNodes++; } curNode = firstNode; curIndex = curNode ? 0 : -1; return s; } /*! \internal Writes the list to the stream \e s. */ QDataStream &QGList::write( QDataStream &s ) const { s << count(); // write number of items QLNode *n = firstNode; while ( n ) { // write all items write( s, n->data ); n = n->next; } return s; } #endif // QT_NO_DATASTREAM /***************************************************************************** QGListIterator member functions *****************************************************************************/ /*! \class QGListIterator qglist.h \brief The QGListIterator class is an internal class for implementing QListIterator. QGListIterator is a strictly internal class that does the heavy work for QListIterator. */ /*! \internal Constructs an iterator that operates on the list \e l. */ QGListIterator::QGListIterator( const QGList &l ) { list = (QGList *)&l; // get reference to list curNode = list->firstNode; // set to first node if ( !list->iterators ) { list->iterators = new QGList; // create iterator list CHECK_PTR( list->iterators ); } list->iterators->append( this ); // attach iterator to list } /*! \internal Constructs a copy of the iterator \e it. */ QGListIterator::QGListIterator( const QGListIterator &it ) { list = it.list; curNode = it.curNode; if ( list ) list->iterators->append( this ); // attach iterator to list } /*! \internal Assigns a copy of the iterator \e it and returns a reference to this iterator. */ QGListIterator &QGListIterator::operator=( const QGListIterator &it ) { if ( list ) // detach from old list list->iterators->removeRef( this ); list = it.list; curNode = it.curNode; if ( list ) list->iterators->append( this ); // attach to new list return *this; } /*! \internal Destroys the iterator. */ QGListIterator::~QGListIterator() { if ( list ) // detach iterator from list list->iterators->removeRef(this); } /*! \fn bool QGListIterator::atFirst() const \internal Returns TRUE if the iterator points to the first item, otherwise FALSE. */ /*! \fn bool QGListIterator::atLast() const \internal Returns TRUE if the iterator points to the last item, otherwise FALSE. */ /*! \internal Sets the list iterator to point to the first item in the list. */ QCollection::Item QGListIterator::toFirst() { if ( !list ) { #if defined(CHECK_NULL) qWarning( "QGListIterator::toFirst: List has been deleted" ); #endif return 0; } return list->firstNode ? (curNode = list->firstNode)->getData() : 0; } /*! \internal Sets the list iterator to point to the last item in the list. */ QCollection::Item QGListIterator::toLast() { if ( !list ) { #if defined(CHECK_NULL) qWarning( "QGListIterator::toLast: List has been deleted" ); #endif return 0; } return list->lastNode ? (curNode = list->lastNode)->getData() : 0; } /*! \fn QCollection::Item QGListIterator::get() const \internal Returns the iterator item. */ /*! \internal Moves to the next item (postfix). */ QCollection::Item QGListIterator::operator()() { if ( !curNode ) return 0; QCollection::Item d = curNode->getData(); curNode = curNode->next; return d; } /*! \internal Moves to the next item (prefix). */ QCollection::Item QGListIterator::operator++() { if ( !curNode ) return 0; curNode = curNode->next; return curNode ? curNode->getData() : 0; } /*! \internal Moves \e jumps positions forward. */ QCollection::Item QGListIterator::operator+=( uint jumps ) { while ( curNode && jumps-- ) curNode = curNode->next; return curNode ? curNode->getData() : 0; } /*! \internal Moves to the previous item (prefix). */ QCollection::Item QGListIterator::operator--() { if ( !curNode ) return 0; curNode = curNode->prev; return curNode ? curNode->getData() : 0; } /*! \internal Moves \e jumps positions backward. */ QCollection::Item QGListIterator::operator-=( uint jumps ) { while ( curNode && jumps-- ) curNode = curNode->prev; return curNode ? curNode->getData() : 0; }