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331 lines
7.1 KiB
C++
331 lines
7.1 KiB
C++
#include "ptrlist.h"
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#include <bfc/bfc_assert.h>
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// if this symbol is enabled, do sanity checking in a bunch of methods
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//#define DO_VERIFY_PTRLIST
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#if defined(ASSERTS_ENABLED) && defined(DO_VERIFY_PTRLIST)
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#define VERIFY_PTRLIST verify()
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#else
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#define VERIFY_PTRLIST
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#endif
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#ifdef _DEBUG
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int ptrlist_totalnitems = 0;
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#endif
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PtrListRoot::PtrListRoot( int initial_size )
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{
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nitems = nslots = 0;
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items = NULL;
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//FG>why? we might as well save initial_size*4 bytes if nobody inserts anything in the list, no?
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//BU No. initial_size defaults to 0 and therefore no memory is actually
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//allocated in a typical construction. But, sometimes you want to start with
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//a specific size, generally when you know the exact size you want,
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//so that you can avoid REALLOCs when you initially populate the list.
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//FG>Ah, makes sense.
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setMinimumSize( initial_size );
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}
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PtrListRoot::PtrListRoot( const PtrListRoot *from )
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{
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nitems = nslots = 0;
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items = NULL;
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copyFrom( from );
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}
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PtrListRoot::~PtrListRoot()
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{
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removeAll();
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}
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void PtrListRoot::copyFrom( const PtrListRoot *from )
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{
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ASSERT( from != NULL );
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removeAll();
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appendFrom( from );
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VERIFY_PTRLIST;
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}
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void PtrListRoot::appendFrom( const PtrListRoot *from )
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{
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ASSERT( from != NULL );
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int n = from->getNumItems();
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if ( n <= 0 )
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return;
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void **mem = from->getItemList();
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ASSERT( mem != NULL ); // can't be NULL if getNumItems() >= 1
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setMinimumSize( getNumItems() + n );
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MEMCPY( items + getNumItems(), from->getItemList(), sizeof( void * ) * n );
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nitems += n;
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#ifdef _DEBUG
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ptrlist_totalnitems += n;
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#endif
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VERIFY_PTRLIST;
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}
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void PtrListRoot::setMinimumSize( int _nslots )
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{
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ASSERT( _nslots >= 0 );
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#ifdef DECREASE_PTRLISTS_SIZE
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if ( _nslots + 2 * DEF_PTRLIST_INCREMENT < nslots )
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{
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nslots = ( ( _nslots / DEF_PTRLIST_INCREMENT ) + 2 ) * DEF_PTRLIST_INCREMENT;
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items = (void **) REALLOC( items, sizeof( void * ) * nslots );
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}
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#endif
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if ( _nslots == 0 || _nslots <= nslots )
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return;
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nslots = _nslots;
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if ( items )
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items = (void **) REALLOC( items, sizeof( void * ) * nslots );
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else
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items = (void **) MALLOC( sizeof( void * ) * nslots );
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VERIFY_PTRLIST;
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}
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int PtrListRoot::getNumItems() const
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{
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return nitems;
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}
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void *PtrListRoot::enumItem( int n ) const
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{
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if ( items == NULL || n < 0 || n >= nitems )
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return NULL;
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return items[ n ];
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}
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void *PtrListRoot::addItem( void *item, int pos, int increment )
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{
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ASSERT( increment > 0 );
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ASSERTPR( item != NULL, "can't put NULLs into ptrlists" );
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ASSERT( nitems <= nslots );
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#ifdef DECREASE_PTRLISTS_SIZE
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// expand or shrink as necessary
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if ( items == NULL || nslots == nitems )
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setMinimumSize( nslots + increment );
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else
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setMinimumSize( nitems );
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#else
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// expand if necessary
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if ( items == NULL || nslots == nitems )
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setMinimumSize( nslots + increment );
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#endif
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items[ nitems++ ] = item;
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if ( pos != PTRLIST_POS_LAST )
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moveItem( nitems - 1, pos );
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VERIFY_PTRLIST;
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#ifdef _DEBUG
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ptrlist_totalnitems++;
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#endif
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return item;
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}
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// replace what's in the slot with the new value
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void *PtrListRoot::setItem( void *item, int pos )
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{
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ASSERT( nitems >= pos );
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items[ pos ] = item;
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VERIFY_PTRLIST;
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return item;
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}
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void PtrListRoot::reverse()
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{
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if ( nitems <= 1 )
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return;
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MemBlock<void *> block( nitems, items );
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void **blockmem = block.getMemory();
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for ( int i = 0, j = nitems - 1; j >= 0; i++, j-- )
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{
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items[ i ] = blockmem[ j ];
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}
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}
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void PtrListRoot::moveItem( int from, int to )
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{
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if ( from == to )
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return;
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void *ptr = items[ from ];
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if ( nitems > from + 1 ) // if moving from the end, there is nothing to shift behind our src position
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{
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//IMPORTANT note for future ports: This assumes MEMCPY accepts overlapping segments.
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MEMCPY( &items[ from ], &items[ from + 1 ], ( nitems - from ) * sizeof( void * ) );
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}
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if ( to > from )
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to--;
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if ( nitems > to ) // if moving to the end, there is nothing to shift behind our target position
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MEMCPY( &items[ to + 1 ], &items[ to ], ( nitems - to - 1 ) * sizeof( void * ) );
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items[ to ] = ptr;
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VERIFY_PTRLIST;
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}
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int PtrListRoot::removeItem( void *item )
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{
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int c = 0;
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if ( item == NULL || items == NULL || nitems <= 0 )
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return 0;
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// count occurences of item in items, remember the first one
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void **p = items;
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int first = -1;
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for ( int i = 0; i < nitems; i++, p++ )
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{
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if ( *p == item )
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{
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if ( c++ == 0 )
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first = i;
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}
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}
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// if we found one, remove it
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if ( c > 0 )
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{
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removeByPos( first ); // delByPos is faaast
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c--; // decrease count
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}
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VERIFY_PTRLIST;
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return c; // returns how many occurences of this item left
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}
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void PtrListRoot::removeEveryItem( void *item )
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{
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while ( removeItem( item ) );
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VERIFY_PTRLIST;
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}
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void PtrListRoot::removeByPos( int pos )
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{
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if ( pos < 0 || pos >= nitems )
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return; //JC
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--nitems;
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#ifdef _DEBUG
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ptrlist_totalnitems--;
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#endif
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if ( pos == nitems )
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return; // last one? nothing to copy over
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MEMCPY( items + pos, items + ( pos + 1 ), sizeof( void * ) * ( nitems - pos ) ); // CT:not (nitems-(pos+1)) as nitems has been decremented earlier
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#ifdef DECREASE_PTRLISTS_SIZE
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// shrink if necessary
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setMinimumSize( nitems );
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#endif
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VERIFY_PTRLIST;
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}
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void PtrListRoot::removeLastItem()
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{
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if ( nitems == 0 || items == NULL ) return;
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nitems--; // hee hee
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#ifdef _DEBUG
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ptrlist_totalnitems--;
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#endif
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#ifdef DECREASE_PTRLISTS_SIZE
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// shrink if necessary
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setMinimumSize( nitems );
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#endif
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VERIFY_PTRLIST;
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}
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void PtrListRoot::removeAll()
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{
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FREE( items ); items = NULL;
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#ifdef _DEBUG
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ptrlist_totalnitems -= nitems;
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#endif
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#ifdef DECREASE_PTRLISTS_SIZE
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// shrink if necessary
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setMinimumSize( nitems );
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#endif
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nitems = 0;
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nslots = 0;
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VERIFY_PTRLIST;
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}
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void PtrListRoot::freeAll()
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{
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for ( int i = 0; i < nitems; i++ ) //JC
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if ( items ) FREE( items[ i ] );
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removeAll();
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VERIFY_PTRLIST;
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}
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int PtrListRoot::searchItem( void *item ) const
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{
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for ( int i = 0; i < nitems; i++ )
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if ( items[ i ] == item )
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return i;
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return -1;
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}
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void PtrListRoot::verify()
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{
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#ifdef DO_VERIFY_PTRLIST
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ASSERT( nitems >= 0 );
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ASSERT( nslots >= 0 );
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ASSERT( nitems <= nslots );
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#endif
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}
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#if 0
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int PtrListRoot::bsearchItem( void *item ) const
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{
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// do binary search
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if ( nitems == 0 || items == NULL ) return -1;
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int bot = 0, top = nitems - 1, mid;
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for ( int c = 0; c < nitems + 16; c++ )
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{
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if ( bot > top ) return -1;
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mid = ( bot + top ) / 2;
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if ( item == items[ mid ] ) return mid;
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if ( item < items[ mid ] ) top = mid - 1;
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else bot = mid + 1;
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}
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ASSERTPR( 0, "binary search fucked up" );
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return -1;
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}
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#endif
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void PtrListRoot::purge()
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{
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ASSERT( nitems == 0 );
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if ( items != NULL )
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{
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FREE( items );
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items = NULL;
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}
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}
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