456 lines
12 KiB
C++
456 lines
12 KiB
C++
/*
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* This program source code file is part of KiCad, a free EDA CAD application.
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*
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* Copyright 2013-2017 CERN
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* @author Maciej Suminski <maciej.suminski@cern.ch>
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*
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* This program is free software; you can redistribute it and/or
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* modify it under the terms of the GNU General Public License
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* as published by the Free Software Foundation; either version 2
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* of the License, or (at your option) any later version.
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*
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* This program is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License
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* along with this program; if not, you may find one here:
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* http://www.gnu.org/licenses/old-licenses/gpl-2.0.html
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* or you may search the http://www.gnu.org website for the version 2 license,
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* or you may write to the Free Software Foundation, Inc.,
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* 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA
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*/
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/**
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* @file cached_container.cpp
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* @brief Class to store instances of VERTEX with caching. It allows storing VERTEX objects and
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* associates them with VERTEX_ITEMs. This leads to a possibility of caching vertices data in the
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* GPU memory and a fast reuse of that data.
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*/
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#include <gal/opengl/cached_container.h>
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#include <gal/opengl/vertex_manager.h>
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#include <gal/opengl/vertex_item.h>
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#include <gal/opengl/utils.h>
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#include <list>
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#include <algorithm>
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#include <cassert>
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#ifdef __WXDEBUG__
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#include <wx/log.h>
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#include <profile.h>
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#endif /* __WXDEBUG__ */
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using namespace KIGFX;
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CACHED_CONTAINER::CACHED_CONTAINER( unsigned int aSize ) :
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VERTEX_CONTAINER( aSize ), m_item( NULL ), m_chunkSize( 0 ), m_chunkOffset( 0 ), m_maxIndex( 0 )
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{
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// In the beginning there is only free space
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m_freeChunks.insert( std::make_pair( aSize, 0 ) );
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}
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void CACHED_CONTAINER::SetItem( VERTEX_ITEM* aItem )
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{
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assert( aItem != NULL );
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unsigned int itemSize = aItem->GetSize();
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m_item = aItem;
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m_chunkSize = itemSize;
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// Get the previously set offset if the item was stored previously
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m_chunkOffset = itemSize > 0 ? aItem->GetOffset() : -1;
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#if CACHED_CONTAINER_TEST > 1
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wxLogDebug( wxT( "Adding/editing item 0x%08lx (size %d)" ), (long) m_item, itemSize );
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#endif
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}
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void CACHED_CONTAINER::FinishItem()
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{
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assert( m_item != NULL );
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unsigned int itemSize = m_item->GetSize();
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// Finishing the previously edited item
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if( itemSize < m_chunkSize )
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{
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// There is some not used but reserved memory left, so we should return it to the pool
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int itemOffset = m_item->GetOffset();
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// Add the not used memory back to the pool
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addFreeChunk( itemOffset + itemSize, m_chunkSize - itemSize );
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// mergeFreeChunks(); // veery slow and buggy
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m_maxIndex = std::max( itemOffset + itemSize, m_maxIndex );
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}
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if( itemSize > 0 )
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m_items.insert( m_item );
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m_item = NULL;
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m_chunkSize = 0;
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m_chunkOffset = 0;
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#if CACHED_CONTAINER_TEST > 1
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wxLogDebug( wxT( "Finishing item 0x%08lx (size %d)" ), (long) m_item, itemSize );
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test();
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#endif
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}
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VERTEX* CACHED_CONTAINER::Allocate( unsigned int aSize )
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{
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assert( m_item != NULL );
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assert( IsMapped() );
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if( m_failed )
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return NULL;
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unsigned int itemSize = m_item->GetSize();
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unsigned int newSize = itemSize + aSize;
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if( newSize > m_chunkSize )
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{
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// There is not enough space in the currently reserved chunk, so we have to resize it
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if( !reallocate( newSize ) )
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{
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m_failed = true;
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return NULL;
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}
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}
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VERTEX* reserved = &m_vertices[m_chunkOffset + itemSize];
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// Now the item officially possesses the memory chunk
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m_item->setSize( newSize );
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// The content has to be updated
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m_dirty = true;
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#if CACHED_CONTAINER_TEST > 0
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test();
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#endif
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#if CACHED_CONTAINER_TEST > 2
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showFreeChunks();
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showUsedChunks();
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#endif
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return reserved;
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}
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void CACHED_CONTAINER::Delete( VERTEX_ITEM* aItem )
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{
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assert( aItem != NULL );
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assert( m_items.find( aItem ) != m_items.end() || aItem->GetSize() == 0 );
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int size = aItem->GetSize();
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if( size == 0 )
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return; // Item is not stored here
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int offset = aItem->GetOffset();
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#if CACHED_CONTAINER_TEST > 1
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wxLogDebug( wxT( "Removing 0x%08lx (size %d offset %d)" ), (long) aItem, size, offset );
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#endif
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// Insert a free memory chunk entry in the place where item was stored
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addFreeChunk( offset, size );
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// Indicate that the item is not stored in the container anymore
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aItem->setSize( 0 );
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m_items.erase( aItem );
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#if CACHED_CONTAINER_TEST > 0
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test();
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#endif
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// This dynamic memory freeing optimize memory usage, but in fact can create
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// out of memory issues because freeing and reallocation large chunks of memory
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// can create memory fragmentation and no room to reallocate large chunks
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// after many free/reallocate cycles during a session using the same complex board
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// So it can be disable.
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// Currently: it is disable to avoid "out of memory" issues
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#if 0
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// Dynamic memory freeing, there is no point in holding
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// a large amount of memory when there is no use for it
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if( m_freeSpace > ( 0.75 * m_currentSize ) && m_currentSize > m_initialSize )
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{
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defragmentResize( 0.5 * m_currentSize );
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}
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#endif
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}
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void CACHED_CONTAINER::Clear()
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{
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m_freeSpace = m_currentSize;
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m_maxIndex = 0;
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m_failed = false;
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// Set the size of all the stored VERTEX_ITEMs to 0, so it is clear that they are not held
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// in the container anymore
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for( ITEMS::iterator it = m_items.begin(); it != m_items.end(); ++it )
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( *it )->setSize( 0 );
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m_items.clear();
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// Now there is only free space left
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m_freeChunks.clear();
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m_freeChunks.insert( std::make_pair( m_freeSpace, 0 ) );
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}
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bool CACHED_CONTAINER::reallocate( unsigned int aSize )
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{
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assert( aSize > 0 );
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assert( IsMapped() );
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unsigned int itemSize = m_item->GetSize();
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#if CACHED_CONTAINER_TEST > 2
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wxLogDebug( wxT( "Resize %p from %d to %d" ), m_item, itemSize, aSize );
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#endif
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// Find a free space chunk >= aSize
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FREE_CHUNK_MAP::iterator newChunk = m_freeChunks.lower_bound( aSize );
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// Is there enough space to store vertices?
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if( newChunk == m_freeChunks.end() )
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{
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bool result;
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// Would it be enough to double the current space?
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if( aSize < m_freeSpace + m_currentSize )
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{
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// Yes: exponential growing
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result = defragmentResize( m_currentSize * 2 );
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}
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else
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{
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// No: grow to the nearest greater power of 2
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result = defragmentResize( pow( 2, ceil( log2( m_currentSize * 2 + aSize ) ) ) );
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}
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if( !result )
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return false;
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newChunk = m_freeChunks.lower_bound( aSize );
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assert( newChunk != m_freeChunks.end() );
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}
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// Parameters of the allocated chunk
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unsigned int newChunkSize = getChunkSize( *newChunk );
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unsigned int newChunkOffset = getChunkOffset( *newChunk );
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assert( newChunkSize >= aSize );
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assert( newChunkOffset < m_currentSize );
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// Check if the item was previously stored in the container
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if( itemSize > 0 )
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{
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#if CACHED_CONTAINER_TEST > 3
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wxLogDebug( wxT( "Moving 0x%08x from 0x%08x to 0x%08x" ),
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(int) m_item, oldChunkOffset, newChunkOffset );
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#endif
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// The item was reallocated, so we have to copy all the old data to the new place
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memcpy( &m_vertices[newChunkOffset], &m_vertices[m_chunkOffset], itemSize * VERTEX_SIZE );
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// Free the space used by the previous chunk
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addFreeChunk( m_chunkOffset, m_chunkSize );
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}
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// Remove the new allocated chunk from the free space pool
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m_freeChunks.erase( newChunk );
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m_freeSpace -= newChunkSize;
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m_chunkSize = newChunkSize;
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m_chunkOffset = newChunkOffset;
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m_item->setOffset( m_chunkOffset );
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return true;
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}
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void CACHED_CONTAINER::defragment( VERTEX* aTarget )
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{
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// Defragmentation
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ITEMS::iterator it, it_end;
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int newOffset = 0;
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for( VERTEX_ITEM* item : m_items )
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{
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int itemOffset = item->GetOffset();
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int itemSize = item->GetSize();
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// Move an item to the new container
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memcpy( &aTarget[newOffset], &m_vertices[itemOffset], itemSize * VERTEX_SIZE );
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// Update new offset
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item->setOffset( newOffset );
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// Move to the next free space
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newOffset += itemSize;
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}
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// Move the current item and place it at the end
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if( m_item->GetSize() > 0 )
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{
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memcpy( &aTarget[newOffset], &m_vertices[m_item->GetOffset()],
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m_item->GetSize() * VERTEX_SIZE );
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m_item->setOffset( newOffset );
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m_chunkOffset = newOffset;
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}
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m_maxIndex = usedSpace();
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}
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void CACHED_CONTAINER::mergeFreeChunks()
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{
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if( m_freeChunks.size() <= 1 ) // There are no chunks that can be merged
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return;
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#ifdef __WXDEBUG__
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PROF_COUNTER totalTime;
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#endif /* __WXDEBUG__ */
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// Reversed free chunks map - this one stores chunk size with its offset as the key
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std::list<CHUNK> freeChunks;
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FREE_CHUNK_MAP::const_iterator it, it_end;
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for( it = m_freeChunks.begin(), it_end = m_freeChunks.end(); it != it_end; ++it )
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{
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freeChunks.emplace_back( it->second, it->first );
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}
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m_freeChunks.clear();
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freeChunks.sort();
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std::list<CHUNK>::const_iterator itf, itf_end;
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unsigned int offset = freeChunks.front().first;
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unsigned int size = freeChunks.front().second;
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freeChunks.pop_front();
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for( itf = freeChunks.begin(), itf_end = freeChunks.end(); itf != itf_end; ++itf )
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{
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if( itf->first == offset + size )
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{
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// These chunks can be merged, so just increase the current chunk size and go on
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size += itf->second;
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}
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else
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{
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// These chunks cannot be merged
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// So store the previous one
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m_freeChunks.insert( std::make_pair( size, offset ) );
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// and let's check the next chunk
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offset = itf->first;
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size = itf->second;
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}
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}
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// Add the last one
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m_freeChunks.insert( std::make_pair( size, offset ) );
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#ifdef __WXDEBUG__
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totalTime.Stop();
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wxLogDebug( "Merged free chunks / %.1f ms", totalTime.msecs() );
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#endif /* __WXDEBUG__ */
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#if CACHED_CONTAINER_TEST > 0
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test();
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#endif
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}
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void CACHED_CONTAINER::addFreeChunk( unsigned int aOffset, unsigned int aSize )
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{
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assert( aOffset + aSize <= m_currentSize );
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assert( aSize > 0 );
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m_freeChunks.insert( std::make_pair( aSize, aOffset ) );
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m_freeSpace += aSize;
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}
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void CACHED_CONTAINER::showFreeChunks()
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{
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#ifdef __WXDEBUG__
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FREE_CHUNK_MAP::iterator it;
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wxLogDebug( wxT( "Free chunks:" ) );
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for( it = m_freeChunks.begin(); it != m_freeChunks.end(); ++it )
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{
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unsigned int offset = getChunkOffset( *it );
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unsigned int size = getChunkSize( *it );
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assert( size > 0 );
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wxLogDebug( wxT( "[0x%08x-0x%08x] (size %d)" ),
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offset, offset + size - 1, size );
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}
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#endif /* __WXDEBUG__ */
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}
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void CACHED_CONTAINER::showUsedChunks()
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{
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#ifdef __WXDEBUG__
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ITEMS::iterator it;
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wxLogDebug( wxT( "Used chunks:" ) );
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for( it = m_items.begin(); it != m_items.end(); ++it )
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{
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VERTEX_ITEM* item = *it;
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unsigned int offset = item->GetOffset();
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unsigned int size = item->GetSize();
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assert( size > 0 );
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wxLogDebug( wxT( "[0x%08x-0x%08x] @ 0x%p (size %d)" ),
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offset, offset + size - 1, item, size );
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}
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#endif /* __WXDEBUG__ */
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}
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void CACHED_CONTAINER::test()
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{
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#ifdef __WXDEBUG__
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// Free space check
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unsigned int freeSpace = 0;
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FREE_CHUNK_MAP::iterator itf;
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for( itf = m_freeChunks.begin(); itf != m_freeChunks.end(); ++itf )
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freeSpace += getChunkSize( *itf );
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assert( freeSpace == m_freeSpace );
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// Used space check
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unsigned int used_space = 0;
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ITEMS::iterator itr;
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for( itr = m_items.begin(); itr != m_items.end(); ++itr )
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used_space += ( *itr )->GetSize();
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// If we have a chunk assigned, then there must be an item edited
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assert( m_chunkSize == 0 || m_item );
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// Currently reserved chunk is also counted as used
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used_space += m_chunkSize;
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assert( ( m_freeSpace + used_space ) == m_currentSize );
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// Overlapping check TODO
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#endif /* __WXDEBUG__ */
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}
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