view.cpp

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/*
 * This program source code file is part of KiCad, a free EDA CAD application.
 *
 * Copyright (C) 2013-2017 CERN
 * Copyright The KiCad Developers, see AUTHORS.txt for contributors.
 *
 * @author Tomasz Wlostowski <[email protected]>
 * @author Maciej Suminski <[email protected]>
 *
 * This program is free software; you can redistribute it and/or
 * modify it under the terms of the GNU General Public License
 * as published by the Free Software Foundation; either version 2
 * of the License, or (at your option) any later version.
 *
 * 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.
 *
 * You should have received a copy of the GNU General Public License
 * along with this program; if not, you may find one here:
 * http://www.gnu.org/licenses/old-licenses/gpl-2.0.html
 * or you may search the http://www.gnu.org website for the version 2 license,
 * or you may write to the Free Software Foundation, Inc.,
 * 51 Franklin Street, Fifth Floor, Boston, MA  02110-1301, USA
 */
 
 
#include <layer_ids.h>
#include <trace_helpers.h>
 
#include <view/view.h>
#include <view/view_group.h>
#include <view/view_item.h>
#include <view/view_rtree.h>
#include <view/view_overlay.h>
 
#include <gal/definitions.h>
#include <gal/graphics_abstraction_layer.h>
#include <gal/painter.h>
#include <algorithm>
 
#include <core/profile.h>
 
#ifdef KICAD_GAL_PROFILE
#include <wx/log.h>
#endif
 
namespace KIGFX {
 
class VIEW;
 
class VIEW_ITEM_DATA
{
public:
    VIEW_ITEM_DATA() :
        m_view( nullptr ),
        m_flags( KIGFX::VISIBLE ),
        m_requiredUpdate( KIGFX::NONE ),
        m_drawPriority( 0 ),
        m_cachedIndex( -1 ),
        m_groups( nullptr ),
        m_groupsSize( 0 ) {}
 
    ~VIEW_ITEM_DATA()
    {
        deleteGroups();
    }
 
    int GetFlags() const
    {
        return m_flags;
    }
 
private:
    friend class VIEW;

    int getGroup( int aLayer ) const
    {
        for( int i = 0; i < m_groupsSize; ++i )
        {
            if( m_groups[i].first == aLayer )
                return m_groups[i].second;
        }
 
        return -1;
    }

    void setGroup( int aLayer, int aGroup )
    {
        // Look if there is already an entry for the layer
        for( int i = 0; i < m_groupsSize; ++i )
        {
            if( m_groups[i].first == aLayer )
            {
                m_groups[i].second = aGroup;
                return;
            }
        }
 
        // If there was no entry for the given layer - create one
        std::pair<int, int>* newGroups = new std::pair<int, int>[m_groupsSize + 1];
 
        if( m_groupsSize > 0 )
        {
            std::copy( m_groups, m_groups + m_groupsSize, newGroups );
            delete[] m_groups;
        }
 
        m_groups = newGroups;
        newGroups[m_groupsSize++] = { aLayer, aGroup };
    }
 

    void deleteGroups()
    {
        delete[] m_groups;
        m_groups = nullptr;
        m_groupsSize = 0;
    }

    inline bool storesGroups() const
    {
        return m_groupsSize > 0;
    }

    void reorderGroups( std::unordered_map<int, int> aReorderMap )
    {
        for( int i = 0; i < m_groupsSize; ++i )
        {
            int orig_layer = m_groups[i].first;
            int new_layer = orig_layer;
 
            if( aReorderMap.count( orig_layer ) )
                new_layer = aReorderMap.at( orig_layer );
 
            m_groups[i].first = new_layer;
        }
    }

    void saveLayers( const std::vector<int>& aLayers )
    {
        m_layers.clear();
 
        for( int layer : aLayers )
        {
            wxCHECK2_MSG( layer >= 0 && layer < VIEW::VIEW_MAX_LAYERS, continue,
                          wxString::Format( wxT( "Invalid layer number: %d" ), layer ) );
            m_layers.push_back( layer );
        }
    }

    int requiredUpdate() const
    {
        return m_requiredUpdate;
    }

    void clearUpdateFlags()
    {
        m_requiredUpdate = NONE;
    }

    bool isRenderable() const
    {
        return m_flags == VISIBLE;
    }
 
    VIEW*                m_view;             
    int                  m_flags;            
    int                  m_requiredUpdate;   
    int                  m_drawPriority;     
    int                  m_cachedIndex;      
 
    std::pair<int, int>* m_groups;           
    int                  m_groupsSize;
 
    std::vector<int>     m_layers;           
 
    BOX2I                m_bbox;             
};
 
 
void VIEW::OnDestroy( VIEW_ITEM* aItem )
{
    if( aItem->m_viewPrivData )
    {
        if( aItem->m_viewPrivData->m_view )
            aItem->m_viewPrivData->m_view->VIEW::Remove( aItem );
 
        delete aItem->m_viewPrivData;
        aItem->m_viewPrivData = nullptr;
    }
}
 
 
VIEW::VIEW() :
    m_enableOrderModifier( true ),
    m_scale( 4.0 ),
    m_minScale( 0.2 ), m_maxScale( 50000.0 ),
    m_mirrorX( false ), m_mirrorY( false ),
    m_painter( nullptr ),
    m_gal( nullptr ),
    m_useDrawPriority( false ),
    m_nextDrawPriority( 0 ),
    m_reverseDrawOrder( false )
{
    // Set m_boundary to define the max area size. The default area size
    // is defined here as the max value of a int.
    // this is a default value acceptable for Pcbnew and Gerbview, but too large for Eeschema.
    // So in eeschema a call to SetBoundary() with a smaller value will be needed.
    typedef std::numeric_limits<int> coord_limits;
    double pos = coord_limits::lowest() / 2 + coord_limits::epsilon();
    double size = coord_limits::max() - coord_limits::epsilon();
    m_boundary.SetOrigin( pos, pos );
    m_boundary.SetSize( size, size );
 
    m_allItems.reset( new std::vector<VIEW_ITEM*> );
    m_allItems->reserve( 32768 );
 
    // Redraw everything at the beginning
    MarkDirty();
 
    // View uses layers to display EDA_ITEMs (item may be displayed on several layers, for example
    // pad may be shown on pad, pad hole and solder paste layers). There are usual copper layers
    // (eg. F.Cu, B.Cu, internal and so on) and layers for displaying objects such as texts,
    // silkscreen, pads, vias, etc.
    for( int ii = 0; ii < VIEW_MAX_LAYERS; ++ii )
    {
        auto [it, _] = m_layers.emplace( ii, VIEW_LAYER() );
        VIEW_LAYER& l = it->second;
 
        l.items          = std::make_shared<VIEW_RTREE>();
        l.id             = ii;
        l.renderingOrder = ii;
        l.visible        = true;
        l.displayOnly    = false;
        l.diffLayer      = false;
        l.hasNegatives   = false;
        l.target         = TARGET_CACHED;
    }
 
    sortOrderedLayers();
 
    m_preview.reset( new KIGFX::VIEW_GROUP() );
    Add( m_preview.get() );
}
 
 
VIEW::~VIEW()
{
    Remove( m_preview.get() );
}
 
 
void VIEW::Add( VIEW_ITEM* aItem, int aDrawPriority )
{
    if( aDrawPriority < 0 )
        aDrawPriority = m_nextDrawPriority++;
 
    if( !aItem->m_viewPrivData )
        aItem->m_viewPrivData = new VIEW_ITEM_DATA;
 
    wxASSERT_MSG( aItem->m_viewPrivData->m_view == nullptr || aItem->m_viewPrivData->m_view == this,
                  wxS( "Already in a different view!" ) );
 
    aItem->m_viewPrivData->m_view = this;
    aItem->m_viewPrivData->m_drawPriority = aDrawPriority;
    const BOX2I bbox = aItem->ViewBBox();
    aItem->m_viewPrivData->m_bbox = bbox;
    aItem->m_viewPrivData->m_cachedIndex = m_allItems->size();
 
    std::vector<int> layers = aItem->ViewGetLayers();
 
    std::erase_if( layers, []( int layer )
    {
        return layer < 0 || layer >= VIEW_MAX_LAYERS;
    } );
 
    if( layers.empty() )
        return;
 
    aItem->viewPrivData()->saveLayers( layers );
 
    m_allItems->push_back( aItem );
 
    for( int layer : layers )
    {
        VIEW_LAYER& l = m_layers[layer];
        l.items->Insert( aItem, bbox );
        MarkTargetDirty( l.target );
    }
 
    SetVisible( aItem, true );
    Update( aItem, KIGFX::INITIAL_ADD );
}
 
 
void VIEW::Remove( VIEW_ITEM* aItem )
{
    static int s_gcCounter = 0;
 
    if( aItem && aItem->m_viewPrivData )
    {
        wxCHECK_MSG( aItem->m_viewPrivData->m_view == nullptr || aItem->m_viewPrivData->m_view == this, /*void*/,
                     aItem->GetClass() );
 
        std::vector<VIEW_ITEM*>::iterator item = m_allItems->end();
        int                               cachedIndex = aItem->m_viewPrivData->m_cachedIndex;
 
        if( cachedIndex >= 0
            && cachedIndex < static_cast<ssize_t>( m_allItems->size() )
            && ( *m_allItems )[cachedIndex] == aItem )
        {
            item = m_allItems->begin() + cachedIndex;
        }
        else
        {
            item = std::find( m_allItems->begin(), m_allItems->end(), aItem );
        }
 
        if( item != m_allItems->end() )
        {
            *item = nullptr;
            aItem->m_viewPrivData->clearUpdateFlags();
 
            s_gcCounter++;
 
            if( s_gcCounter > 4096 )
            {
                // Perform defragmentation
                std::erase_if( *m_allItems,
                                []( VIEW_ITEM* it )
                                {
                                    return it == nullptr;
                                } );
 
                // Update cached indices
                for( size_t idx = 0; idx < m_allItems->size(); idx++ )
                    ( *m_allItems )[idx]->m_viewPrivData->m_cachedIndex = idx;
 
                s_gcCounter = 0;
            }
        }
 
        const BOX2I* bbox = &aItem->m_viewPrivData->m_bbox;
 
        for( int layer : aItem->m_viewPrivData->m_layers )
        {
            VIEW_LAYER& l = m_layers[layer];
            l.items->Remove( aItem, bbox );
            MarkTargetDirty( l.target );
 
            // Clear the GAL cache
            int prevGroup = aItem->m_viewPrivData->getGroup( layer );
 
            if( prevGroup >= 0 )
                m_gal->DeleteGroup( prevGroup );
        }
 
        aItem->m_viewPrivData->deleteGroups();
        aItem->m_viewPrivData->m_view = nullptr;
    }
}
 
 
void VIEW::SetRequired( int aLayerId, int aRequiredId, bool aRequired )
{
    wxCHECK( (unsigned) aLayerId < m_layers.size(), /*void*/ );
    wxCHECK( (unsigned) aRequiredId < m_layers.size(), /*void*/ );
 
    if( aRequired )
        m_layers[aLayerId].requiredLayers.insert( aRequiredId );
    else
        m_layers[aLayerId].requiredLayers.erase( aRequired );
}
 
 
int VIEW::Query( const BOX2I& aRect, std::vector<LAYER_ITEM_PAIR>& aResult ) const
{
    if( m_orderedLayers.empty() )
        return 0;
 
    int  layer = UNDEFINED_LAYER;
    auto visitor =
            [&]( VIEW_ITEM* item ) -> bool
            {
                aResult.push_back( VIEW::LAYER_ITEM_PAIR( item, layer ) );
                return true;
            };
 
    std::vector<VIEW_LAYER*>::const_reverse_iterator i;
 
    // execute queries in reverse direction, so that items that are on the top of
    // the rendering stack are returned first.
    for( i = m_orderedLayers.rbegin(); i != m_orderedLayers.rend(); ++i )
    {
        // ignore layers that do not contain actual items (i.e. the selection box, menus, floats)
        if( ( *i )->displayOnly || !( *i )->visible )
            continue;
 
        layer = ( *i )->id;
        ( *i )->items->Query( aRect, visitor );
    }
 
    return aResult.size();
}
 
 
void VIEW::Query( const BOX2I& aRect, const std::function<bool( VIEW_ITEM* )>& aFunc ) const
{
    if( m_orderedLayers.empty() )
        return;
 
    for( const auto& i : m_orderedLayers )
    {
        // ignore layers that do not contain actual items (i.e. the selection box, menus, floats)
        if( i->displayOnly || !i->visible )
            continue;
 
        i->items->Query( aRect, aFunc );
    }
}
 
 
VECTOR2D VIEW::ToWorld( const VECTOR2D& aCoord, bool aAbsolute ) const
{
    const MATRIX3x3D& matrix = m_gal->GetScreenWorldMatrix();
 
    if( aAbsolute )
        return VECTOR2D( matrix * aCoord );
    else
        return VECTOR2D( matrix.GetScale().x * aCoord.x, matrix.GetScale().y * aCoord.y );
}
 
 
double VIEW::ToWorld( double aSize ) const
{
    const MATRIX3x3D& matrix = m_gal->GetScreenWorldMatrix();
 
    return fabs( matrix.GetScale().x * aSize );
}
 
 
VECTOR2D VIEW::ToScreen( const VECTOR2D& aCoord, bool aAbsolute ) const
{
    const MATRIX3x3D& matrix = m_gal->GetWorldScreenMatrix();
 
    if( aAbsolute )
        return VECTOR2D( matrix * aCoord );
    else
        return VECTOR2D( matrix.GetScale().x * aCoord.x, matrix.GetScale().y * aCoord.y );
}
 
 
double VIEW::ToScreen( double aSize ) const
{
    const MATRIX3x3D& matrix = m_gal->GetWorldScreenMatrix();
 
    return matrix.GetScale().x * aSize;
}
 
 
void VIEW::CopySettings( const VIEW* aOtherView )
{
    wxASSERT_MSG( false, wxT( "This is not implemented" ) );
}
 
 
void VIEW::SetGAL( GAL* aGal )
{
    bool recacheGroups = ( m_gal != nullptr );    // recache groups only if GAL is reassigned
    m_gal = aGal;
 
    // clear group numbers, so everything is going to be recached
    if( recacheGroups )
        clearGroupCache();
 
    // every target has to be refreshed
    MarkDirty();
 
    // force the new GAL to display the current viewport.
    SetCenter( m_center );
    SetScale( m_scale );
    SetMirror( m_mirrorX, m_mirrorY );
}
 
 
BOX2D VIEW::GetViewport() const
{
    BOX2D    rect;
    VECTOR2D screenSize = m_gal->GetScreenPixelSize();
 
    rect.SetOrigin( ToWorld( VECTOR2D( 0, 0 ) ) );
    rect.SetEnd( ToWorld( screenSize ) );
 
    return rect.Normalize();
}
 
 
void VIEW::SetViewport( const BOX2D& aViewport )
{
    VECTOR2D ssize = ToWorld( m_gal->GetScreenPixelSize(), false );
 
    wxCHECK( fabs(ssize.x) > 0 && fabs(ssize.y) > 0, /*void*/ );
 
    VECTOR2D centre = aViewport.Centre();
    VECTOR2D vsize  = aViewport.GetSize();
    double   zoom   = 1.0 / std::max( fabs( vsize.x / ssize.x ), fabs( vsize.y / ssize.y ) );
 
    SetCenter( centre );
    SetScale( GetScale() * zoom );
}
 
 
void VIEW::SetMirror( bool aMirrorX, bool aMirrorY )
{
    wxASSERT_MSG( !aMirrorY, _( "Mirroring for Y axis is not supported yet" ) );
 
    m_mirrorX = aMirrorX;
    m_mirrorY = aMirrorY;
    m_gal->SetFlip( aMirrorX, aMirrorY );
 
    // Redraw everything
    MarkDirty();
}
 
 
void VIEW::SetScale( double aScale, VECTOR2D aAnchor )
{
    if( aAnchor == VECTOR2D( 0, 0 ) )
        aAnchor = m_center;
 
    VECTOR2D a = ToScreen( aAnchor );
 
    if( aScale < m_minScale )
        m_scale = m_minScale;
    else if( aScale > m_maxScale )
        m_scale = m_maxScale;
    else
        m_scale = aScale;
 
    m_gal->SetZoomFactor( m_scale );
    m_gal->ComputeWorldScreenMatrix();
 
    VECTOR2D delta = ToWorld( a ) - aAnchor;
 
    SetCenter( m_center - delta );
 
    // Redraw everything after the viewport has changed
    MarkDirty();
}
 
 
void VIEW::SetCenter( const VECTOR2D& aCenter )
{
    m_center = aCenter;
 
    if( !m_boundary.Contains( aCenter ) )
    {
        if( m_center.x < m_boundary.GetLeft() )
            m_center.x = m_boundary.GetLeft();
        else if( aCenter.x > m_boundary.GetRight() )
            m_center.x = m_boundary.GetRight();
 
        if( m_center.y < m_boundary.GetTop() )
            m_center.y = m_boundary.GetTop();
        else if( m_center.y > m_boundary.GetBottom() )
            m_center.y = m_boundary.GetBottom();
    }
 
    m_gal->SetLookAtPoint( m_center );
    m_gal->ComputeWorldScreenMatrix();
 
    // Redraw everything after the viewport has changed
    MarkDirty();
}
 
 
void VIEW::SetCenter( const VECTOR2D& aCenter, const std::vector<BOX2D>& obscuringScreenRects )
{
    if( obscuringScreenRects.empty() )
        return SetCenter( aCenter );
 
    BOX2D          screenRect( { 0, 0 }, m_gal->GetScreenPixelSize() );
    SHAPE_POLY_SET unobscuredPoly( screenRect );
    VECTOR2D       unobscuredCenter = screenRect.Centre();
 
    for( const BOX2D& obscuringScreenRect : obscuringScreenRects )
    {
        SHAPE_POLY_SET obscuringPoly( obscuringScreenRect );
        unobscuredPoly.BooleanSubtract( obscuringPoly );
    }
 
    /*
     * Perform a step-wise deflate to find the center of the largest unobscured area
     */
 
    BOX2I bbox = unobscuredPoly.BBox();
    int   step = std::min( bbox.GetWidth(), bbox.GetHeight() ) / 10;
 
    if( step < 20 )
        step = 20;
 
    while( !unobscuredPoly.IsEmpty() )
    {
        unobscuredCenter = unobscuredPoly.BBox().Centre();
        unobscuredPoly.Deflate( step, CORNER_STRATEGY::ALLOW_ACUTE_CORNERS, ARC_LOW_DEF );
    }
 
    SetCenter( aCenter - ToWorld( unobscuredCenter - screenRect.Centre(), false ) );
}
 
 
void VIEW::SetLayerOrder( int aLayer, int aRenderingOrder )
{
    m_layers[aLayer].renderingOrder = aRenderingOrder;
 
    sortOrderedLayers();
}
 
 
int VIEW::GetLayerOrder( int aLayer ) const
{
    return m_layers.at( aLayer ).renderingOrder;
}
 
 
void VIEW::SortLayers( std::vector<int>& aLayers ) const
{
    std::sort( aLayers.begin(), aLayers.end(),
               [this]( int a, int b )
               {
                   return GetLayerOrder( a ) > GetLayerOrder( b );
               } );
}
 
 
void VIEW::ReorderLayerData( std::unordered_map<int, int> aReorderMap )
{
    std::map<int,VIEW_LAYER> new_map;
 
    for( auto& [_, layer] : m_layers )
    {
        auto reorder_it = aReorderMap.find( layer.id );
 
        // If the layer is not in the reorder map or if it is mapped to itself,
        // just copy the layer to the new map.
        if( reorder_it == aReorderMap.end() || reorder_it->second == layer.id )
        {
            new_map.emplace( layer.id, layer );
            continue;
        }
 
        auto [new_it,__] = new_map.emplace( reorder_it->second, layer );
        new_it->second.id = reorder_it->second;
    }
 
    // Transfer reordered data (using the copy assignment operator ):
    m_layers = new_map;
 
    sortOrderedLayers();
 
    for( VIEW_ITEM* item : *m_allItems )
    {
        if( !item )
            continue;
 
        VIEW_ITEM_DATA* viewData = item->viewPrivData();
 
        if( !viewData )
            continue;
 
        std::vector<int> layers = item->ViewGetLayers();
        viewData->saveLayers( layers );
 
        viewData->reorderGroups( aReorderMap );
 
        viewData->m_requiredUpdate |= COLOR;
    }
 
    UpdateItems();
}
 
 
struct VIEW::UPDATE_COLOR_VISITOR
{
    UPDATE_COLOR_VISITOR( int aLayer, PAINTER* aPainter, GAL* aGal ) :
        layer( aLayer ),
        painter( aPainter ),
        gal( aGal )
    {
    }
 
    bool operator()( VIEW_ITEM* aItem )
    {
        // Obtain the color that should be used for coloring the item
        const COLOR4D color = painter->GetSettings()->GetColor( aItem, layer );
        int           group = aItem->viewPrivData()->getGroup( layer );
 
        if( group >= 0 )
            gal->ChangeGroupColor( group, color );
 
        return true;
    }
 
    int layer;
    PAINTER* painter;
    GAL* gal;
};
 
 
void VIEW::UpdateLayerColor( int aLayer )
{
    // There is no point in updating non-cached layers
    if( !IsCached( aLayer ) )
        return;
 
    BOX2I r;
 
    r.SetMaximum();
 
    if( m_gal->IsVisible() )
    {
        GAL_UPDATE_CONTEXT ctx( m_gal );
 
        UPDATE_COLOR_VISITOR visitor( aLayer, m_painter, m_gal );
        m_layers[aLayer].items->Query( r, visitor );
        MarkTargetDirty( m_layers[aLayer].target );
    }
}
 
 
void VIEW::UpdateAllLayersColor()
{
    if( m_gal->IsVisible() )
    {
        GAL_UPDATE_CONTEXT ctx( m_gal );
 
        for( VIEW_ITEM* item : *m_allItems )
        {
            if( !item )
                continue;
 
            VIEW_ITEM_DATA* viewData = item->viewPrivData();
 
            if( !viewData )
                continue;
 
            for( int layer : viewData->m_layers )
            {
                const COLOR4D color = m_painter->GetSettings()->GetColor( item, layer );
                int           group = viewData->getGroup( layer );
 
                if( group >= 0 )
                    m_gal->ChangeGroupColor( group, color );
            }
        }
    }
 
    MarkDirty();
}
 
 
struct VIEW::UPDATE_DEPTH_VISITOR
{
    UPDATE_DEPTH_VISITOR( int aLayer, int aDepth, GAL* aGal ) :
        layer( aLayer ),
        depth( aDepth ),
        gal( aGal )
    {
    }
 
    bool operator()( VIEW_ITEM* aItem )
    {
        int group = aItem->viewPrivData()->getGroup( layer );
 
        if( group >= 0 )
            gal->ChangeGroupDepth( group, depth );
 
        return true;
    }
 
    int layer, depth;
    GAL* gal;
};
 
 
int VIEW::GetTopLayer() const
{
    if( m_topLayers.size() == 0 )
        return 0;
 
    return *m_topLayers.begin();
}
 
 
void VIEW::SetTopLayer( int aLayer, bool aEnabled )
{
    if( aEnabled )
    {
        if( m_topLayers.count( aLayer ) == 1 )
            return;
 
        m_topLayers.insert( aLayer );
 
        // Move the layer closer to front
        if( m_enableOrderModifier )
            m_layers[aLayer].renderingOrder += TOP_LAYER_MODIFIER;
    }
    else
    {
        if( m_topLayers.count( aLayer ) == 0 )
            return;
 
        m_topLayers.erase( aLayer );
 
        // Restore the previous rendering order
        if( m_enableOrderModifier )
            m_layers[aLayer].renderingOrder -= TOP_LAYER_MODIFIER;
    }
}
 
 
void VIEW::EnableTopLayer( bool aEnable )
{
    if( aEnable == m_enableOrderModifier )
        return;
 
    m_enableOrderModifier = aEnable;
 
    std::set<unsigned int>::iterator it;
 
    if( aEnable )
    {
        for( it = m_topLayers.begin(); it != m_topLayers.end(); ++it )
            m_layers[*it].renderingOrder += TOP_LAYER_MODIFIER;
    }
    else
    {
        for( it = m_topLayers.begin(); it != m_topLayers.end(); ++it )
            m_layers[*it].renderingOrder -= TOP_LAYER_MODIFIER;
    }
 
    UpdateAllLayersOrder();
    UpdateAllLayersColor();
}
 
 
void VIEW::ClearTopLayers()
{
    std::set<unsigned int>::iterator it;
 
    if( m_enableOrderModifier )
    {
        // Restore the previous rendering order for layers that were marked as top
        for( it = m_topLayers.begin(); it != m_topLayers.end(); ++it )
            m_layers[*it].renderingOrder -= TOP_LAYER_MODIFIER;
    }
 
    m_topLayers.clear();
}
 
 
void VIEW::UpdateAllLayersOrder()
{
    sortOrderedLayers();
 
    if( m_gal->IsVisible() )
    {
        GAL_UPDATE_CONTEXT ctx( m_gal );
 
        for( VIEW_ITEM* item : *m_allItems )
        {
            if( !item )
                continue;
 
            VIEW_ITEM_DATA* viewData = item->viewPrivData();
 
            if( !viewData )
                continue;
 
            for( int layer : viewData->m_layers )
            {
                int group = viewData->getGroup( layer );
 
                if( group >= 0 )
                    m_gal->ChangeGroupDepth( group, m_layers[layer].renderingOrder );
            }
        }
    }
 
    MarkDirty();
}
 
 
struct VIEW::DRAW_ITEM_VISITOR
{
    DRAW_ITEM_VISITOR( VIEW* aView, int aLayer, bool aUseDrawPriority, bool aReverseDrawOrder ) :
        view( aView ),
        layer( aLayer ),
        useDrawPriority( aUseDrawPriority ),
        reverseDrawOrder( aReverseDrawOrder ),
        drawForcedTransparent( false ),
        foundForcedTransparent( false )
    {
    }
 
    bool operator()( VIEW_ITEM* aItem )
    {
        wxCHECK( aItem->viewPrivData(), false );
 
        if( aItem->m_forcedTransparency > 0 && !drawForcedTransparent )
        {
            foundForcedTransparent = true;
            return true;
        }
 
        const double itemLOD = aItem->ViewGetLOD( layer, view );
 
        // Conditions that have to be fulfilled for an item to be drawn
        bool drawCondition = aItem->viewPrivData()->isRenderable() && itemLOD < view->m_scale;
 
        if( !drawCondition )
            return true;
 
        if( useDrawPriority )
            drawItems.push_back( aItem );
        else
            view->draw( aItem, layer );
 
        return true;
    }
 
    void deferredDraw()
    {
        if( reverseDrawOrder )
        {
            std::sort( drawItems.begin(), drawItems.end(),
                       []( VIEW_ITEM* a, VIEW_ITEM* b ) -> bool
                       {
                           return b->viewPrivData()->m_drawPriority
                                  < a->viewPrivData()->m_drawPriority;
                       } );
        }
        else
        {
            std::sort( drawItems.begin(), drawItems.end(),
                       []( VIEW_ITEM* a, VIEW_ITEM* b ) -> bool
                       {
                           return a->viewPrivData()->m_drawPriority
                                  < b->viewPrivData()->m_drawPriority;
                       } );
        }
 
        for( VIEW_ITEM* item : drawItems )
            view->draw( item, layer );
    }
 
    VIEW* view;
    int layer, layers[VIEW_MAX_LAYERS];
    bool useDrawPriority, reverseDrawOrder;
    std::vector<VIEW_ITEM*> drawItems;
    bool drawForcedTransparent;
    bool foundForcedTransparent;
};
 
 
void VIEW::redrawRect( const BOX2I& aRect )
{
    for( VIEW_LAYER* l : m_orderedLayers )
    {
        if( l->visible && IsTargetDirty( l->target ) && areRequiredLayersEnabled( l->id ) )
        {
            DRAW_ITEM_VISITOR drawFunc( this, l->id, m_useDrawPriority, m_reverseDrawOrder );
 
            m_gal->SetTarget( l->target );
            m_gal->SetLayerDepth( l->renderingOrder );
 
            // Differential layer also work for the negatives, since both special layer types
            // will composite on separate layers (at least in Cairo)
            if( l->diffLayer )
                m_gal->StartDiffLayer();
            else if( l->hasNegatives )
                m_gal->StartNegativesLayer();
 
            l->items->Query( aRect, drawFunc );
 
            if( m_useDrawPriority )
                drawFunc.deferredDraw();
 
            if( l->diffLayer )
                m_gal->EndDiffLayer();
            else if( l->hasNegatives )
                m_gal->EndNegativesLayer();
 
            if( drawFunc.foundForcedTransparent )
            {
                drawFunc.drawForcedTransparent = true;
 
                m_gal->SetTarget( TARGET_NONCACHED );
                m_gal->EnableDepthTest( true );
                m_gal->SetLayerDepth( l->renderingOrder );
 
                l->items->Query( aRect, drawFunc );
            }
        }
    }
}
 
 
void VIEW::draw( VIEW_ITEM* aItem, int aLayer, bool aImmediate )
{
    VIEW_ITEM_DATA* viewData = aItem->viewPrivData();
 
    if( !viewData )
        return;
 
    if( IsCached( aLayer ) && !aImmediate )
    {
        // Draw using cached information or create one
        int group = viewData->getGroup( aLayer );
 
        if( group >= 0 )
            m_gal->DrawGroup( group );
        else
            Update( aItem );
    }
    else
    {
        // Immediate mode
        if( !m_painter->Draw( aItem, aLayer ) )
            aItem->ViewDraw( aLayer, this );  // Alternative drawing method
    }
}
 
 
void VIEW::draw( VIEW_ITEM* aItem, bool aImmediate )
{
    std::vector<int> layers = aItem->ViewGetLayers();
 
    // Sorting is needed for drawing order dependent GALs (like Cairo)
    if( !m_gal || !m_gal->IsOpenGlEngine())
        SortLayers( layers );
 
    for( int layer : layers )
    {
        auto it = m_layers.find( layer );
 
        if( it == m_layers.end() )
            continue;
 
        if( m_gal )
            m_gal->SetLayerDepth( it->second.renderingOrder );
 
        draw( aItem, layer, aImmediate );
    }
}
 
 
void VIEW::draw( VIEW_GROUP* aGroup, bool aImmediate )
{
    for( unsigned int i = 0; i < aGroup->GetSize(); i++ )
        draw( aGroup->GetItem(i), aImmediate );
}
 
 
struct VIEW::RECACHE_ITEM_VISITOR
{
    RECACHE_ITEM_VISITOR( VIEW* aView, GAL* aGal, int aLayer ) :
        view( aView ),
        gal( aGal ),
        layer( aLayer )
    {
    }
 
    bool operator()( VIEW_ITEM* aItem )
    {
        VIEW_ITEM_DATA* viewData = aItem->viewPrivData();
 
        if( !viewData )
            return false;
 
        // Remove previously cached group
        int group = viewData->getGroup( layer );
 
        if( group >= 0 )
            gal->DeleteGroup( group );
 
        viewData->setGroup( layer, -1 );
        view->Update( aItem );
 
        return true;
    }
 
    VIEW* view;
    GAL* gal;
    int layer;
};
 
 
void VIEW::Clear()
{
    BOX2I r;
    r.SetMaximum();
 
    // Invalidate viewPrivData for all items before clearing. This ensures that items
    // which persist outside the view (like selection groups) won't have stale references
    // to this view, which could cause issues if they're later removed and re-added.
    for( VIEW_ITEM* item : *m_allItems )
    {
        if( item && item->m_viewPrivData )
            item->m_viewPrivData->m_view = nullptr;
    }
 
    m_allItems->clear();
 
    for( auto& [_, layer] : m_layers )
        layer.items->RemoveAll();
 
    m_nextDrawPriority = 0;
 
    m_gal->ClearCache();
}
 
 
void VIEW::ClearTargets()
{
    if( IsTargetDirty( TARGET_CACHED ) || IsTargetDirty( TARGET_NONCACHED ) )
    {
        // TARGET_CACHED and TARGET_NONCACHED have to be redrawn together, as they contain
        // layers that rely on each other (eg. netnames are noncached, but tracks - are cached)
        m_gal->ClearTarget( TARGET_NONCACHED );
        m_gal->ClearTarget( TARGET_CACHED );
 
        MarkDirty();
    }
 
    if( IsTargetDirty( TARGET_OVERLAY ) )
    {
        m_gal->ClearTarget( TARGET_OVERLAY );
    }
}
 
 
void VIEW::Redraw()
{
#ifdef KICAD_GAL_PROFILE
    PROF_TIMER totalRealTime;
#endif /* KICAD_GAL_PROFILE */
 
    VECTOR2D screenSize = m_gal->GetScreenPixelSize();
    BOX2D    rect( ToWorld( VECTOR2D( 0, 0 ) ),
                   ToWorld( screenSize ) - ToWorld( VECTOR2D( 0, 0 ) ) );
 
    rect.Normalize();
    BOX2I recti = BOX2ISafe( rect );
 
    redrawRect( recti );
 
    // All targets were redrawn, so nothing is dirty
    MarkClean();
 
#ifdef KICAD_GAL_PROFILE
    totalRealTime.Stop();
    wxLogTrace( traceGalProfile, wxS( "VIEW::Redraw(): %.1f ms" ), totalRealTime.msecs() );
#endif /* KICAD_GAL_PROFILE */
}
 
 
const VECTOR2I& VIEW::GetScreenPixelSize() const
{
    return m_gal->GetScreenPixelSize();
}
 
 
struct VIEW::CLEAR_LAYER_CACHE_VISITOR
{
    CLEAR_LAYER_CACHE_VISITOR( VIEW* aView ) :
        view( aView )
    {
    }
 
    bool operator()( VIEW_ITEM* aItem )
    {
        aItem->viewPrivData()->deleteGroups();
 
        return true;
    }
 
    VIEW* view;
};
 
 
void VIEW::clearGroupCache()
{
    BOX2I r;
 
    r.SetMaximum();
    CLEAR_LAYER_CACHE_VISITOR visitor( this );
 
    for( auto& [_, layer] : m_layers )
        layer.items->Query( r, visitor );
}
 
 
void VIEW::invalidateItem( VIEW_ITEM* aItem, int aUpdateFlags )
{
    if( aUpdateFlags & INITIAL_ADD )
    {
        // Don't update layers or bbox, since it was done in VIEW::Add()
        // Now that we have initialized, set flags to ALL for the code below
        aUpdateFlags = ALL;
    }
    else
    {
        // updateLayers updates geometry too, so we do not have to update both of them at the
        // same time
        if( aUpdateFlags & LAYERS )
            updateLayers( aItem );
        else if( aUpdateFlags & GEOMETRY )
            updateBbox( aItem );
    }
 
    std::vector<int> layers = aItem->ViewGetLayers();
 
    // Iterate through layers used by the item and recache it immediately
    for( int layer : layers )
    {
        if( IsCached( layer ) )
        {
            if( aUpdateFlags & ( GEOMETRY | LAYERS | REPAINT ) )
                updateItemGeometry( aItem, layer );
            else if( aUpdateFlags & COLOR )
                updateItemColor( aItem, layer );
        }
 
        // Mark those layers as dirty, so the VIEW will be refreshed
        MarkTargetDirty( m_layers[layer].target );
    }
 
    aItem->viewPrivData()->clearUpdateFlags();
}
 
 
void VIEW::sortOrderedLayers()
{
    int n = 0;
 
    m_orderedLayers.resize( m_layers.size() );
 
    for( auto& [layer_id, layer] : m_layers )
        m_orderedLayers[n++] = &layer;
 
    sort( m_orderedLayers.begin(), m_orderedLayers.end(), compareRenderingOrder );
 
    MarkDirty();
}
 
 
void VIEW::updateItemColor( VIEW_ITEM* aItem, int aLayer )
{
    VIEW_ITEM_DATA* viewData = aItem->viewPrivData();
    wxCHECK( IsCached( aLayer ), /*void*/ ); // This will check if the layer exists
 
    if( !viewData )
        return;
 
    // Obtain the color that should be used for coloring the item on the specific layerId
    const COLOR4D color = m_painter->GetSettings()->GetColor( aItem, aLayer );
    int group = viewData->getGroup( aLayer );
 
    // Change the color, only if it has group assigned
    if( group >= 0 )
        m_gal->ChangeGroupColor( group, color );
}
 
 
void VIEW::updateItemGeometry( VIEW_ITEM* aItem, int aLayer )
{
    VIEW_ITEM_DATA* viewData = aItem->viewPrivData();
 
    if( !viewData )
        return;
 
    auto it = m_layers.find( aLayer );
 
    if( it == m_layers.end() )
        return;
 
    VIEW_LAYER& l = it->second;
 
    // Save the extra map lookup in IsCached by open coding here
    if( l.target != TARGET_CACHED )
        return;
 
    m_gal->SetTarget( l.target );
    m_gal->SetLayerDepth( l.renderingOrder );
 
    // Redraw the item from scratch
    int group = viewData->getGroup( aLayer );
 
    if( group >= 0 )
        m_gal->DeleteGroup( group );
 
    group = m_gal->BeginGroup();
    viewData->setGroup( aLayer, group );
 
    if( !m_painter->Draw( aItem, aLayer ) )
        aItem->ViewDraw( aLayer, this ); // Alternative drawing method
 
    m_gal->EndGroup();
}
 
 
void VIEW::updateBbox( VIEW_ITEM* aItem )
{
    std::vector<int> layers = aItem->ViewGetLayers();
 
    wxASSERT( aItem->m_viewPrivData ); //must have a viewPrivData
 
    const BOX2I  new_bbox = aItem->ViewBBox();
    const BOX2I* old_bbox = &aItem->m_viewPrivData->m_bbox;
    aItem->m_viewPrivData->m_bbox = new_bbox;
 
    for( int layer : layers )
    {
        auto it = m_layers.find( layer );
 
        if( it == m_layers.end() )
            continue;
 
        VIEW_LAYER& l = it->second;
        l.items->Remove( aItem, old_bbox );
        l.items->Insert( aItem, new_bbox );
        MarkTargetDirty( l.target );
    }
}
 
 
void VIEW::updateLayers( VIEW_ITEM* aItem )
{
    VIEW_ITEM_DATA* viewData = aItem->viewPrivData();
 
    if( !viewData )
        return;
 
    // Remove the item from previous layer set
    const BOX2I* old_bbox = &aItem->m_viewPrivData->m_bbox;
 
    for( int layer : aItem->m_viewPrivData->m_layers )
    {
        auto it = m_layers.find( layer );
 
        if( it == m_layers.end() )
            continue;
 
        VIEW_LAYER& l = it->second;
        l.items->Remove( aItem, old_bbox );
        MarkTargetDirty( l.target );
 
        if( IsCached( l.id ) )
        {
            // Redraw the item from scratch
            int prevGroup = viewData->getGroup( layer );
 
            if( prevGroup >= 0 )
            {
                m_gal->DeleteGroup( prevGroup );
                viewData->setGroup( l.id, -1 );
            }
        }
    }
 
    const BOX2I new_bbox = aItem->ViewBBox();
    aItem->m_viewPrivData->m_bbox = new_bbox;
 
    // Add the item to new layer set
    std::vector<int> layers = aItem->ViewGetLayers();
    viewData->saveLayers( layers );
 
    for( int layer : layers )
    {
        auto it = m_layers.find( layer );
 
        if( it == m_layers.end() )
            continue;
 
        VIEW_LAYER& l = it->second;
        l.items->Insert( aItem, new_bbox );
        MarkTargetDirty( l.target );
    }
}
 
 
bool VIEW::areRequiredLayersEnabled( int aLayerId ) const
{
    auto it = m_layers.find( aLayerId );
 
    if( it == m_layers.end() )
        return false;
 
    for( int layer : it->second.requiredLayers )
    {
        // That is enough if just one layer is not enabled
 
        auto it2 = m_layers.find( layer );
 
        if( it2 == m_layers.end() || !it2->second.visible )
            return false;
 
        if( !areRequiredLayersEnabled( layer ) )
            return false;
    }
 
    return true;
}
 
 
void VIEW::RecacheAllItems()
{
    BOX2I r;
 
    r.SetMaximum();
 
    for( const auto& [_, l] : m_layers )
    {
        if( IsCached( l.id ) )
        {
            RECACHE_ITEM_VISITOR visitor( this, m_gal, l.id );
            l.items->Query( r, visitor );
        }
    }
}
 
 
void VIEW::UpdateItems()
{
    if( !m_gal->IsVisible() || !m_gal->IsInitialized() )
        return;
 
    unsigned int cntGeomUpdate = 0;
    bool         anyUpdated = false;
 
    for( VIEW_ITEM* item : *m_allItems )
    {
        if( !item )
            continue;
 
        auto vpd = item->viewPrivData();
 
        if( !vpd )
            continue;
 
        if( vpd->m_requiredUpdate != NONE )
        {
            anyUpdated = true;
 
            if( vpd->m_requiredUpdate & ( GEOMETRY | LAYERS ) )
            {
                cntGeomUpdate++;
            }
        }
    }
 
    unsigned int cntTotal = m_allItems->size();
 
    double ratio = (double) cntGeomUpdate / (double) cntTotal;
 
    // Optimization to improve view update time. If a lot of items (say, 30%) have their
    // bboxes/geometry changed it's way faster (around 10 times) to rebuild the R-Trees
    // from scratch rather than update the bbox of each changed item. Pcbnew does multiple
    // full geometry updates during file load, this can save a solid 30 seconds on load time
    // for larger designs...
 
    if( ratio > 0.3 )
    {
        auto allItems = *m_allItems;
 
        // kill all Rtrees
        for( auto& [_, layer] : m_layers )
            layer.items->RemoveAll();
 
        // and re-insert items from scratch
        for( VIEW_ITEM* item : allItems )
        {
            if( !item )
                continue;
 
            const BOX2I bbox = item->ViewBBox();
            item->m_viewPrivData->m_bbox = bbox;
 
            std::vector<int> layers = item->ViewGetLayers();
            item->viewPrivData()->saveLayers( layers );
 
            for( int layer : layers )
            {
                auto it = m_layers.find( layer );
 
                wxCHECK2_MSG( it != m_layers.end(), continue, wxS( "Invalid layer" ) );
 
                VIEW_LAYER& l = it->second;
                l.items->Insert( item, bbox );
                MarkTargetDirty( l.target );
            }
 
            item->viewPrivData()->m_requiredUpdate &= ~( LAYERS | GEOMETRY );
        }
    }
 
    if( anyUpdated )
    {
        GAL_UPDATE_CONTEXT ctx( m_gal );
 
        for( VIEW_ITEM* item : *m_allItems.get() )
        {
            if( item && item->viewPrivData() && item->viewPrivData()->m_requiredUpdate != NONE )
            {
                invalidateItem( item, item->viewPrivData()->m_requiredUpdate );
                item->viewPrivData()->m_requiredUpdate = NONE;
            }
        }
    }
 
    KI_TRACE( traceGalProfile, wxS( "View update: total items %u, geom %u anyUpdated %u\n" ),
              cntTotal, cntGeomUpdate, (unsigned) anyUpdated );
}
 
 
void VIEW::UpdateAllItems( int aUpdateFlags )
{
    for( VIEW_ITEM* item : *m_allItems )
    {
        if( item && item->viewPrivData() )
            item->viewPrivData()->m_requiredUpdate |= aUpdateFlags;
    }
}
 
 
void VIEW::UpdateAllItemsConditionally( int aUpdateFlags,
                                        std::function<bool( VIEW_ITEM* )> aCondition )
{
    for( VIEW_ITEM* item : *m_allItems )
    {
        if( !item )
            continue;
 
        if( aCondition( item ) )
        {
            if( item->viewPrivData() )
                item->viewPrivData()->m_requiredUpdate |= aUpdateFlags;
        }
    }
}
 
 
void VIEW::UpdateAllItemsConditionally( std::function<int( VIEW_ITEM* )> aItemFlagsProvider )
{
    for( VIEW_ITEM* item : *m_allItems )
    {
        if( !item )
            continue;
 
        if( item->viewPrivData() )
            item->viewPrivData()->m_requiredUpdate |= aItemFlagsProvider( item );
    }
}
 
 
 
std::unique_ptr<VIEW> VIEW::DataReference() const
{
    std::unique_ptr<VIEW> ret = std::make_unique<VIEW>();
    ret->m_allItems = m_allItems;
    ret->m_layers = m_layers;
    ret->sortOrderedLayers();
    return ret;
}
 
 
void VIEW::SetVisible( VIEW_ITEM* aItem, bool aIsVisible )
{
    VIEW_ITEM_DATA* viewData = aItem->viewPrivData();
 
    if( !viewData )
        return;
 
    bool cur_visible = viewData->m_flags & VISIBLE;
 
    if( cur_visible != aIsVisible )
    {
        if( aIsVisible )
            viewData->m_flags |= VISIBLE;
        else
            viewData->m_flags &= ~VISIBLE;
 
        Update( aItem, APPEARANCE | COLOR );
    }
}
 
 
void VIEW::Hide( VIEW_ITEM* aItem, bool aHide, bool aHideOverlay )
{
    VIEW_ITEM_DATA* viewData = aItem->viewPrivData();
 
    if( !viewData )
        return;
 
    if( !( viewData->m_flags & VISIBLE ) )
        return;
 
    if( aHideOverlay )
        viewData->m_flags |= OVERLAY_HIDDEN;
 
    if( aHide )
        viewData->m_flags |= HIDDEN;
    else
        viewData->m_flags &= ~( HIDDEN | OVERLAY_HIDDEN );
 
    Update( aItem, APPEARANCE );
}
 
 
bool VIEW::IsVisible( const VIEW_ITEM* aItem ) const
{
    const VIEW_ITEM_DATA* viewData = aItem->viewPrivData();
 
    return viewData && ( viewData->m_flags & VISIBLE );
}
 
 
bool VIEW::IsHiddenOnOverlay( const VIEW_ITEM* aItem ) const
{
    const VIEW_ITEM_DATA* viewData = aItem->viewPrivData();
 
    return viewData && ( viewData->m_flags & OVERLAY_HIDDEN );
}
 
 
bool VIEW::HasItem( const VIEW_ITEM* aItem ) const
{
    const VIEW_ITEM_DATA* viewData = aItem->viewPrivData();
 
    return viewData && viewData->m_view == this;
}
 
 
void VIEW::Update( const VIEW_ITEM* aItem ) const
{
    Update( aItem, ALL );
}
 
 
void VIEW::Update( const VIEW_ITEM* aItem, int aUpdateFlags ) const
{
    VIEW_ITEM_DATA* viewData = aItem->viewPrivData();
 
    if( !viewData )
        return;
 
    assert( aUpdateFlags != NONE );
 
    viewData->m_requiredUpdate |= aUpdateFlags;
}
 
 
std::shared_ptr<VIEW_OVERLAY> VIEW::MakeOverlay()
{
    std::shared_ptr<VIEW_OVERLAY> overlay = std::make_shared<VIEW_OVERLAY>();
 
    Add( overlay.get() );
    return overlay;
}
 
 
void VIEW::ClearPreview()
{
    if( !m_preview )
        return;
 
    m_preview->Clear();
 
    for( VIEW_ITEM* item : m_ownedItems )
        delete item;
 
    m_ownedItems.clear();
    Update( m_preview.get() );
}
 
 
void VIEW::InitPreview()
{
   m_preview.reset( new KIGFX::VIEW_GROUP() );
   Add( m_preview.get() );
}
 
 
void VIEW::AddToPreview( VIEW_ITEM* aItem, bool aTakeOwnership )
{
   Hide( aItem, false );
   m_preview->Add( aItem );
 
   if( aTakeOwnership )
       m_ownedItems.push_back( aItem );
 
   SetVisible( m_preview.get(), true );
   Hide( m_preview.get(), false );
   Update( m_preview.get() );
}
 
 
void VIEW::ShowPreview( bool aShow )
{
   SetVisible( m_preview.get(), aShow );
}
 
 
} // namespace KIGFX