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GLViewer.cpp 77.2 KB
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/*
 *	(c) LSIIT, UMR CNRS/UdS
 *	Authors: O. Gnevaux, F. Larue.
 *
 *	See licence.txt for additional information.
 */


#include "GLViewer.h"

#include <fstream>
#include <iostream>
#include <sstream>
#include "InfoBarManager.h"

#include <SelectionManager.h>
#include <SelectionToolBox.h>
#include <SelectionToolDisk.h>
#include <SelectionToolLasso.h>




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void GLViewer::DisplayableInfo::Initialize( DisplayableInterface *displayable,
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                                            DisplayableList::iterator priorityPos,
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                                            UIParamSet &params )
{
    this->displayable = displayable;
    this->posInPriorityList = priorityPos;

    displayable->initialize( params );

    displayable->transformation( this->userTransform );
    this->packingTransform.setToIdentity();
    this->fullTransform = this->userTransform * this->packingTransform;

    displayable->boundingBox( this->boundingBox );
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    this->selectionMgr = displayable->selectionManager();
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}




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const char* GLViewer::s_PickingVPG =
    "#version 330\n"

    "uniform mat4 projectionMatrix;"
    "uniform mat4 viewMatrix;"

    "in vec3 vertexPosition;"

    "out float depth;"
    "out vec3 vertex;"

    "void main()"
    "{"
    "   depth  = length( (viewMatrix * vec4(vertexPosition,1.0)).xyz );"
    "   vertex = vertexPosition;"

    "   gl_Position = projectionMatrix * viewMatrix * vec4(vertexPosition,1.0);"
    "}";

const char* GLViewer::s_PickingFPG =
    "uniform int u_ObjectId;"

    "in float depth;"
    "in vec3 vertex;"

    "void main()"
    "{"
    "   gl_FragData[0].x = float( u_ObjectId      & 255) / 255.0;"
    "   gl_FragData[0].y = float((u_ObjectId>> 8) & 255) / 255.0;"
    "   gl_FragData[0].z = float((u_ObjectId>>16) & 255) / 255.0;"
    "   gl_FragData[0].w = float((u_ObjectId>>24) & 255) / 255.0;"
    "   gl_FragData[1] = vec4( vertex, depth );"
    "}";


const char* GLViewer::s_ZBufferVPG =
    "#version 330\n"

    "uniform mat4 fullTransformMatrix;"

    "in vec3 vertexPosition;"

    "void main()"
    "{"
    "   gl_Position = fullTransformMatrix * vec4(vertexPosition,1.0);"
    "}";

const char* GLViewer::s_ZBufferFPG =
    "void main()"
    "{"
    "   gl_FragData[0] = vec4( 0.0, 0.0, 0.0, 1.0 );"
    "}";


GLViewer::GLViewer( DisplayDoF dof,
                    QWidget *parent,
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                    Qt::WindowFlags f ) :
    QOpenGLWidget( parent, f ),
    m_DisplayOptionsLayout( NULL ),
    m_InfoBarManager( NULL )
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{
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    initMetricGrids();
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    init( dof );
}


GLViewer::GLViewer( DisplayDoF dof,
                    const QSurfaceFormat &format,
                    QWidget *parent,
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                    Qt::WindowFlags f ) :
    QOpenGLWidget( parent, f ),
    m_DisplayOptionsLayout( NULL ),
    m_InfoBarManager( NULL )
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{
	setFormat( format );
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    initMetricGrids();
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    init( dof );
}


GLViewer::~GLViewer()
{
    for( std::vector<SelectionTool*>::iterator tool=m_SelectionTools.begin(); tool!=m_SelectionTools.end(); ++tool )
        delete *tool;

	delete m_InfoBarManager;
}


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void GLViewer::initMetricGrids()
{
    m_View.metricGrid2D.disableAxis( MetricGrid::ALL );
    m_View.metricGrid2D.disableGrid( MetricGrid::ALL );

    m_View.metricGrid3D.enableAxis( MetricGrid::ALL );
    m_View.metricGrid3D.enableGrid( MetricGrid::ZX );
}


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void GLViewer::init( DisplayDoF dof )
{
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    m_BelowCursor = NULL;


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    m_MustUpdateFocal            = true;
    m_MustUpdateProjectionMatrix = true;
    m_MustUpdateViewMatrix       = true;
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    m_SpeedFactor = 1.0;
    m_CtrlSpeedFactor = 4.0;
    m_ShiftSpeedFactor = 0.25;

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    m_View.focusPoint = QVector3D(-1.0f,-1.0f,-1.0f);
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    setFocusPoint( QVector3D(0.0f,0.0f,0.0f) );
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    m_View.DoF = dof;
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    QMatrix4x4 rot;
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    if( dof == DISPLAY_DOF_2D )
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        rot.setToIdentity();
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    else
    {
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        rot.rotate(  30.0f, 1,0,0 );
        rot.rotate( -30.0f, 0,1,0 );
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    }
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    setViewRotationMatrix( rot );

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    m_View.fovY = 0.0f;
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    setFovY( 65.0f );

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	m_View.distToFocusPoint = 0.0f;
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    setDistToFocusPoint( 400.0f );
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    m_View.pointSize = 2;
	m_View.isCullingEnabled = false;
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    if( !m_InfoBarManager )
    {
        m_InfoBarManager = new InfoBarManager( this );
        m_InfoBarManager->setInfoBar( new InfoBar(), InfoBar::BOTTOM );
    }
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    // Initialize selection tools.

    m_SelectionEnabled = false;

    if( m_SelectionTools.empty() )
    {
        m_SelectionTools.resize( SELECTION_TOOL_END );
        m_SelectionTools[SELECTION_TOOL_BOX  ] = new SelectionToolBox  ( *this, m_SelectionContext );
        m_SelectionTools[SELECTION_TOOL_DISK ] = new SelectionToolDisk ( *this, m_SelectionContext );
        m_SelectionTools[SELECTION_TOOL_LASSO] = new SelectionToolLasso( *this, m_SelectionContext );
    }

    m_SelectionCurrentToolName = SELECTION_TOOL_DISK;
    m_SelectionCurrentTool = m_SelectionTools[ m_SelectionCurrentToolName ];


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    m_View.lightRotationMatrix.setToIdentity();
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    m_View.isLightTrackingEnabled = true;
    m_View.isLightingEnabled      = true;
    m_View.isWireframeEnabled     = false;
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    m_AnimationsRunningAtPreviousFrame = false;


    // Initialize the layout that will contains options for all active displayables.

    if( !m_DisplayOptionsLayout )
    {
        m_DisplayOptionsLayout = new QVBoxLayout();
        m_DisplayOptionsLayout->setAlignment( Qt::AlignTop );

        QWidget *w = new QWidget( this );
        w->setLayout( m_DisplayOptionsLayout );

        QGridLayout *viewerLayout = new QGridLayout();
        viewerLayout->setRowStretch( 1, 10 );
        viewerLayout->setColumnStretch( 0, 10 );
        viewerLayout->addWidget( w, 0,1 );

        this->setLayout( viewerLayout );
    }
}


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void GLViewer::setRenderState( const RenderState& state )
{
    m_View = state;

    m_MustUpdateFocal            = true;
    m_MustUpdateProjectionMatrix = true;
    m_MustUpdateViewMatrix       = true;

    update();
}


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void GLViewer::populateDisplayerFactories( DisplayableFactoryInterface *plugin )
{
    const unsigned int NB_ROWS = 3;

    QVector<QString> types;
    plugin->acceptedDataTypes( types );

    for( auto &type : types )
        if( m_Factories.find(type) == m_Factories.end()  &&  (plugin->viewerDoF() & dof()) )
        {
            m_Factories[type] = plugin;

            QStringList primNames;
            plugin->primitiveNames( primNames );
            foreach( QString name, primNames )
            {
                if( !m_PrimitiveCountMap.contains(name) )
                {
                    PrimitiveInfo pInfo;
                    pInfo.count = 0;
                    pInfo.row = m_PrimitiveCountMap.size() % (NB_ROWS-1);

                    if( !pInfo.row )
                    {
                        pInfo.panel = new Panel(NB_ROWS,2,15,2);
                        pInfo.panel->setColAlignment( 0, Panel::LEFT );
                        pInfo.panel->setColAlignment( 1, Panel::RIGHT );
                        pInfo.panel->hideFrame();
                        pInfo.panel->setColMinWidth( 1, 30 );

                        for( unsigned int i=1; i<NB_ROWS; ++i )
                            pInfo.panel->set( new Label(" "), i,0 );

                        m_InfoBarManager->infoBar( InfoBar::BOTTOM )->append( pInfo.panel );
                    }
                    else
                        pInfo.panel = m_InfoBarManager->infoBar( InfoBar::BOTTOM )->panels().back();

                    pInfo.panel->set( new Label(name+":",QVector4D(1.0f,1.0f,1.0f,1.0f)), pInfo.row, 0 );
                    pInfo.panel->set( new Label("0",QVector4D(1.0f,1.0f,1.0f,1.0f))     , pInfo.row, 1 );

                    m_PrimitiveCountMap[ name ] = pInfo;
                }
            }
        }
}


void GLViewer::populateDisplayerFactories( QList<DisplayableFactoryInterface*> &plugins )
{
    foreach( DisplayableFactoryInterface *plugin, plugins )
        populateDisplayerFactories( plugin );
}


void GLViewer::updatePrimitiveCounts()
{
#if 0
    // Reset all primitive counts to zero.

    for( QMap<QString,PrimitiveInfo>::iterator prim=m_PrimitiveCountMap.begin(); prim!=m_PrimitiveCountMap.end(); ++prim )
        prim->count = 0;


    // Checks every displayable and update primitive counts accordingly.

    for( DisplayableMap::iterator d=m_Displayables.begin(); d!=m_Displayables.end(); ++d )
    {
        // Recovers the factory of the current displayable.
        FactoryMap::iterator factory = m_Factories.find( d->first->TypeString() );
        if( factory == m_Factories.end() )
            continue;

        // Updates the primitive counts.
        QStringList primNames;
        factory->second->primitiveNames( primNames );
        foreach( QString name, primNames )
            m_PrimitiveCountMap[ name ].count += d->second.displayable->primitiveCount( name );
    }


    // Updates the display of primitive counts in the viewer UI.

    for( QMap<QString,PrimitiveInfo>::iterator prim=m_PrimitiveCountMap.begin(); prim!=m_PrimitiveCountMap.end(); ++prim )
    {
        QString countStr;
        if( prim->count )
        {
            countStr = "";
            for( unsigned int c=prim->count; c; c/=1000 )
                countStr.prepend( c<1000? QString().setNum(c) : QString().sprintf(" %03i",c%1000) );
        }
        else
            countStr = "0";

        prim->panel->set( new Label(countStr), prim->row,1 );
        m_InfoBarManager->repackInfoBars();
    }
#endif
}


bool GLViewer::addDisplayable( GenericUIData *m )
{
    // If a displayable already exists for this manageable, remove it before creating a new one.
    removeDisplayable( m );

    // Recovers the displayable factory for the corresponding datatype.
    FactoryMap::iterator factory = m_Factories.find( m->GetTypeString() );
    if( factory == m_Factories.end() )
        return false;

    // Asks the factory to create a displayable of the correct type. It is then
    // initialized and inserted in the list of all displayables.
    DisplayableInterface *displayable = factory->second->newDisplayer( m, this );
    DisplayableInfo *dispInfo = NULL;

    if( displayable )
    {
        makeCurrent();

        if( !m->GetDisplayOptions() )
        {
            UIParamSet *params = new UIParamSet( m->GetBaseName() + " display options:", NULL );
            displayable->declareParameters( *params );

            if( displayable->isAnimated() )
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                params->Add( new UIParamAnimation() );
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            params->updateChildrenLists( m );

            m->SetDisplayOptions( params );
        }
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        connect( m->GetDisplayOptions(), SIGNAL(parameterUpdated(UIParam*)), this, SLOT(update()) );
        connect( m->GetDisplayOptions(), SIGNAL(parameterUpdated(UIParam*)), displayable, SLOT(updateParameter(UIParam*)) );

        if( displayable->isAnimated() )
        {
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            UIParamAnimation *animCtrl = m->GetDisplayOptions()->GetAnimationCtrl();
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            connect( animCtrl, SIGNAL(animationStartRequired()), displayable, SLOT(startAnimation()) );
            connect( animCtrl, SIGNAL(animationPauseRequired()), displayable, SLOT(pauseAnimation()) );
            connect( animCtrl, SIGNAL(animationStopRequired ()), displayable, SLOT(stopAnimation ()) );
            connect( animCtrl, SIGNAL(animationStepForwardRequired ()), displayable, SLOT(animationStepForward ()) );
            connect( animCtrl, SIGNAL(animationStepBackwardRequired()), displayable, SLOT(animationStepBackward()) );

            connect( displayable, SIGNAL(registerAnimation  (DisplayableInterface*)), this, SLOT(registerAnimation  (DisplayableInterface*)) );
            connect( displayable, SIGNAL(unregisterAnimation(DisplayableInterface*)), this, SLOT(unregisterAnimation(DisplayableInterface*)) );
            connect( displayable, SIGNAL(displayNeedUpdate()), this, SLOT(update()) );
        }

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        DisplayableList &priorityList = m_DisplayablesByPriority[ factory->second->displayPriority() ];

        dispInfo = &m_Displayables[ m ];
        dispInfo->Initialize(
            displayable,
            priorityList.insert( priorityList.end(), dispInfo ),
            *m->GetDisplayOptions()
        );
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        if( !m->GetDisplayOptions()->IsEmpty() )
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        {
            m_DisplayOptionsLayout->addWidget( m->GetDisplayOptions() );
            m->GetDisplayOptions()->show();
        }

        if( isSelectionEnabled()  &&  dispInfo->selectionMgr )
            dispInfo->selectionMgr->onRecompilingSelectionShader( m_SelectionCurrentTool );

        updatePrimitiveCounts();
        update();
    }


    if( dof() == DISPLAY_DOF_2D  &&  displayable )
    {
        m_AddingOrder.push_back( dispInfo );
        repackDisplayables();
        //frameAll();
    }


	return displayable != NULL;
}


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//void GLViewer::setTransform( GenericUIData *m, const QMatrix4x4 &xf )
//{
//    DisplayableMap::iterator d = m_Displayables.find( m );
//    if( d != m_Displayables.end() )
//        d->second.packingTransform = xf;
//}
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void GLViewer::updateDisplayable( GenericUIData *m )
{
    DisplayableMap::iterator d = m_Displayables.find( m );
    if( d != m_Displayables.end() )
    {
        // Recovers the info and the factory related to the given manageable.
        DisplayableFactoryInterface *factory = m_Factories[ m->GetTypeString() ];
        DisplayableInfo *dinfo = &d->second;

        // Re-initializes the displayable.
        dinfo->displayable->release( *m->GetDisplayOptions() );
        dinfo->displayable->initialize( *m->GetDisplayOptions() );

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        if( isSelectionEnabled()  &&  dinfo->selectionMgr )
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            dinfo->selectionMgr->onRecompilingSelectionShader( m_SelectionCurrentTool );

        updatePrimitiveCounts();
        update();
    }
}


void GLViewer::frameBox( Box3f &box, const QMatrix4x4 *xf )
{
    if( !box.IsNull() )
    {
        double boxHalfDiag = box.Dimensions().length() * 0.5;
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        double depth = ( 2.0*zFar()*zNear() - distToFocusPoint()*(zFar()+zNear()) ) / (zNear()-zFar());
        double projectedRadius = boxHalfDiag * focal() / depth;
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        if( xf )
            setFocusPoint( xf->map(box.Center()) );
        else
            setFocusPoint( box.Center() );

        if( projectedRadius > 0.000001 )
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            setDistToFocusPoint( distToFocusPoint() * (width()<height()? projectedRadius*height()/width() : projectedRadius) );
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    }
}


void GLViewer::frameItem( GenericUIData* item )
{
    DisplayableMap::iterator dispInfo = m_Displayables.find( item );
    if( dispInfo != m_Displayables.end() )
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        frameBox( dispInfo->second.boundingBox, &dispInfo->second.GetTransform() );
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}


void GLViewer::frameItems( std::list<GenericUIData*> &items )
{
    Box3f box;

    for( auto m=items.begin(); m!=items.end(); ++m )
    {
        DisplayableMap::iterator dispInfo = m_Displayables.find( *m );
        if( dispInfo != m_Displayables.end() )
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            if( !dispInfo->second.boundingBox.IsNull() )
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            {
                Box3f::CornerSet objectBoxCorners;
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                dispInfo->second.boundingBox.Corners( objectBoxCorners );
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                for( auto c=objectBoxCorners.begin(); c!=objectBoxCorners.end(); ++c )
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                    box.Add( dispInfo->second.GetTransform().map(*c) );
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            }
    }

    frameBox( box );
}


void GLViewer::frameAll()
{
    if( !m_Displayables.empty() )
    {
        Box3f box;

        for( DisplayableMap::iterator dispInfo=m_Displayables.begin(); dispInfo!=m_Displayables.end(); ++dispInfo )
        {
            Box3f objectBox;
            dispInfo->second.displayable->boundingBox( objectBox );

            if( !objectBox.IsNull() )
            {
                Box3f::CornerSet objectBoxCorners;
                objectBox.Corners( objectBoxCorners );

                for( auto c=objectBoxCorners.begin(); c!=objectBoxCorners.end(); ++c )
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                    box.Add( dispInfo->second.GetTransform().map(*c) );
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            }
        }

        frameBox( box );
    }
}




// All displayables are arranged along a grid layout. All grid row have the same height (displayables are scaled so as to fit it)
// but each column has a different width, that corresponds to the width of its largest element. Displayables are horizontaly centered
// in their respective grid cells.
void GLViewer::repackDisplayables()
{
    if( m_AddingOrder.empty() )
        return;


    // Computes the number of columns of the grid.
    int nCols = (int) std::ceil( std::sqrt( (float)m_AddingOrder.size() ) );


    // Recovers the bounding boxes of all items.
    std::vector<Box3f> boxes( m_AddingOrder.size() );

    auto d = m_AddingOrder.begin();
    for( int i=0; i<boxes.size(); ++i, ++d )
        (*d)->displayable->boundingBox( boxes[i] );


    // Initializes the row height by looking at the bounding box height of the first displayable in the list.
    float rowHeight = boxes[0].Dimensions().y();
    float gridSpacing = 0.05f * rowHeight;


    // The width of each column is determined by looking for the largest rescaled width of all the elements it contains.
    std::vector<int> columnWidth( nCols );
    for( int c=0; c<nCols; ++c )
        columnWidth[c] = 0;

    for( int i=0; i<boxes.size(); ++i )
    {
        int c = i % nCols;
        float rescaledWidth = boxes[i].Dimensions().x() * rowHeight / boxes[i].Dimensions().y();
        if( rescaledWidth > columnWidth[c] )
            columnWidth[c] = rescaledWidth;
    }


    // The scaling factor to be applied to each displayable so as to match the grid row height is computed,
    // and the layout arrangement is finally performed by setting up the translation part of each displayable transform.
    float xRowBeginning = (boxes[0].Min().x() + 0.5f*boxes[0].Dimensions().x()) * rowHeight / boxes[0].Dimensions().y() - 0.5f*columnWidth[0];
    float x = xRowBeginning;
    float y = boxes[0].Min().y() * rowHeight / boxes[0].Dimensions().y();

    d = m_AddingOrder.begin();
    for( int i=0, c=0; i<boxes.size(); ++i, ++d )
    {
        float scalingFactor = rowHeight / boxes[i].Dimensions().y();
        float rescaledWidth = boxes[i].Dimensions().x() * scalingFactor;

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        QMatrix4x4 packTr;
        packTr.setToIdentity();
        packTr(0,0) = scalingFactor;
        packTr(1,1) = scalingFactor;
        packTr(0,3) = x - boxes[i].Min().x()*scalingFactor + 0.5f*(columnWidth[c]-rescaledWidth);
        packTr(1,3) = y - boxes[i].Min().y()*scalingFactor;
        (*d)->SetPackingTransform( packTr );
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        x += columnWidth[c] + gridSpacing;

        if( !(c = (c+1) % nCols) )
        {
            x = xRowBeginning;
            y -= rowHeight + gridSpacing;
        }
    }
}


GLViewer::DisplayableMap::iterator GLViewer::removeDisplayable_Internal( DisplayableMap::iterator &dmapIt )
{
    const GenericUIData *item  = dmapIt->first;
    DisplayableInfo     &dinfo = dmapIt->second;

    if( dinfo.displayable->isAnimated() )
    {
        auto foundAnim = m_ActiveAnimations.find( dinfo.displayable );
        if( foundAnim != m_ActiveAnimations.end() )
        {
            m_ActiveAnimations.erase( foundAnim );
            dinfo.displayable->onAnimationStop();
        }
    }

    disconnect( item->GetDisplayOptions(), SIGNAL(parameterUpdated(UIParam*)), this, SLOT(update()) );
    disconnect( item->GetDisplayOptions(), SIGNAL(parameterUpdated(UIParam*)), dinfo.displayable, SLOT(updateParameter(UIParam*)) );

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    if( !item->GetDisplayOptions()->IsEmpty() )
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    {
        item->GetDisplayOptions()->hide();
        m_DisplayOptionsLayout->removeWidget( item->GetDisplayOptions() );
    }

    delete dinfo.selectionMgr;
    dinfo.displayable->release( *item->GetDisplayOptions() );
    delete dinfo.displayable;
    m_DisplayablesByPriority[ m_Factories[item->GetTypeString()]->displayPriority() ].erase( dinfo.posInPriorityList );

    return m_Displayables.erase( dmapIt );
}


void GLViewer::removeDisplayable( GenericUIData *m )
{
    DisplayableMap::iterator foundDisp = m_Displayables.find( m );
    if( foundDisp != m_Displayables.end() )
    {
        makeCurrent();

        if( dof() == DISPLAY_DOF_2D )
        {
            m_AddingOrder.remove( &foundDisp->second );
            removeDisplayable_Internal( foundDisp );
            repackDisplayables();
            frameAll();
        }
        else
            removeDisplayable_Internal( foundDisp );

        updatePrimitiveCounts();
        update();
    }
}


void GLViewer::removeAllDisplayables()
{
    makeCurrent();

	DisplayableMap::iterator disp = m_Displayables.begin();
    while( disp != m_Displayables.end() )
        disp = removeDisplayable_Internal( disp );

    m_AddingOrder.clear();

    updatePrimitiveCounts();
    update();
}


void GLViewer::initializeGL()
{
    makeCurrent();
    glewInit();

    setFocusPolicy( Qt::ClickFocus );

    resizeGL( width(), height() );

    update();
}


void GLViewer::mouseMotionNavigationEvent( float dx, float dy, QMouseEvent *evt )
{
    if( dof() == DISPLAY_DOF_2D )
    {
        if( evt->buttons() & Qt::MidButton )
	    {
            double proj[16];
            glGetDoublev( GL_PROJECTION_MATRIX, proj );
            double scaleFactor = 2.0*distToFocusPoint() / (width()*proj[0]);

		    double scaledDX = dx * scaleFactor;
		    double scaledDY = dy * scaleFactor;

            QVector3D fpoint = focusPoint();
            fpoint[0] += scaledDY*viewRotationMatrix()(1,0) - scaledDX*viewRotationMatrix()(0,0);
            fpoint[1] += scaledDY*viewRotationMatrix()(1,1) - scaledDX*viewRotationMatrix()(0,1);
            setFocusPoint( fpoint );

    	    update();
	    }
#if 0
        else if( evt->buttons() & Qt::LeftButton )
	    {
            const double orientation = (evt->x()-0.5*width())*dy - (evt->y()-0.5*height())*dx;

            Matrix4Dd deltaRot;
            if( orientation > 0.0 )
    		    deltaRot.SetRotation( Vector3Dd(0,0,1), -0.5*M_PI/180.0*std::sqrt(dx*dx+dy*dy) );
            else
    		    deltaRot.SetRotation( Vector3Dd(0,0,1),  0.5*M_PI/180.0*std::sqrt(dx*dx+dy*dy) );
            setViewRotationMatrix( viewRotationMatrix() * deltaRot );

            update();
	    }
#endif
    }
    else
    {
        if( evt->buttons() & Qt::LeftButton  &&  evt->buttons() & Qt::RightButton )
        {
            QVector3D axis( dy, dx, 0.0f );
            double axisLen = axis.length();

            QMatrix4x4 deltaRot;
            deltaRot.rotate( 0.5f*axisLen, axis/axisLen );

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            if( m_View.isLightTrackingEnabled )
                m_View.lightRotationMatrix = deltaRot * m_View.lightRotationMatrix;
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            else
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                m_View.lightRotationMatrix = viewRotationMatrix() * deltaRot * viewRotationMatrix().inverted() * m_View.lightRotationMatrix;
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            update();
        }
        else if( evt->buttons() & Qt::MidButton )
	    {
            double proj[16];
            glGetDoublev( GL_PROJECTION_MATRIX, proj );
            double scaleFactor = 2.0*distToFocusPoint() / (width()*proj[0]);

		    double scaledDX = dx * scaleFactor;
		    double scaledDY = dy * scaleFactor;

            QVector3D fpoint = focusPoint();
            fpoint[0] += scaledDY*viewRotationMatrix()(1,0) - scaledDX*viewRotationMatrix()(0,0);
            fpoint[1] += scaledDY*viewRotationMatrix()(1,1) - scaledDX*viewRotationMatrix()(0,1);
            fpoint[2] += scaledDY*viewRotationMatrix()(1,2) - scaledDX*viewRotationMatrix()(0,2);
            setFocusPoint( fpoint );

            emit screenSpaceTranslation( QVector2D(-scaledDX,scaledDY) );

    	    update();
	    }
	    else if( evt->buttons() & Qt::LeftButton )
	    {
            QMatrix4x4 deltaRot;

		    if( evt->pos().x() < 0.15f*width() )
                deltaRot.rotate(  0.5f*dy, 0,0,1 );
		    else if( evt->pos().x() > 0.85f*width() )
			    deltaRot.rotate( -0.5f*dy, 0,0,1 );
		    else
            {
                QVector3D axis( dy, dx, 0.0f );
                double axisLen = axis.length();
			    deltaRot.rotate(  0.5f*axisLen, axis/axisLen );
            }

            emit viewRotationMatrixUpdated( deltaRot );
            setViewRotationMatrix( deltaRot * viewRotationMatrix() );

            update();
	    }
    }
}


QMatrix4x4 GLViewer::viewportMatrix( bool flipY ) const
{
    const float xOff = 0.5f*width(), yOff = 0.5f*height();
    const float xAmp = xOff, yAmp = flipY? 1.0f - yOff : yOff;

    return QMatrix4x4( xAmp, 0.0f, 0.0f, xOff,
                       0.0f, yAmp, 0.0f, yOff,
                       0.0f, 0.0f, 1.0f, 0.0f,
                       0.0f, 0.0f, 0.0f, 1.0f );
}


QMatrix4x4 GLViewer::modelMatrix( const DisplayableInterface *d ) const
{
    auto dispInfo = m_Displayables.find(d->getSource());
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    assert( dispInfo != m_Displayables.end() );
    return dispInfo->second.GetTransform();
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}


void GLViewer::manageAnimations()
{
    // Check if animated objects waiting to be started are pending.

    while( !m_AnimationStartingQueue.isEmpty() )
    {
        auto anim = m_AnimationStartingQueue.front();
        m_AnimationStartingQueue.pop_front();

        if( !m_ActiveAnimations.contains(anim) )
        {
            m_ActiveAnimations[anim] = 0.0f;
            anim->onAnimationStart();
        }
    }


    // Check if animated objects waiting to be stopped are pending.

    while( !m_AnimationStoppingQueue.isEmpty() )
    {
        auto anim = m_AnimationStoppingQueue.front();
        m_AnimationStoppingQueue.pop_front();

        auto foundAnim = m_ActiveAnimations.find( anim );
        if( foundAnim != m_ActiveAnimations.end() )
        {
            m_ActiveAnimations.erase( foundAnim );
            anim->onAnimationStop();
        }
    }


    // Check if at least one of the current animations is not paused.

    bool animationsRunning = false;

    for( auto anim=m_ActiveAnimations.begin(); anim!=m_ActiveAnimations.end(); ++anim )
        if( !anim.key()->isAnimationPaused() )
        {
            animationsRunning = true;
            break;
        }


    // Make all active animated objects to execute a new animation step.

    if( animationsRunning )
    {
        QTime currentTime = QTime::currentTime();
        float dt = 0.001f * m_AnimationFrameTime.msecsTo( currentTime );
        m_AnimationFrameTime = currentTime;

        if( m_AnimationsRunningAtPreviousFrame )
            for( auto anim=m_ActiveAnimations.begin(); anim!=m_ActiveAnimations.end(); ++anim )
                if( !anim.key()->isAnimationPaused() )
                {
                    if( anim.key()->animationTimeStepValue() != 0.0f )
                    {
                        anim.value() += dt;
                        if( anim.value() >= anim.key()->animationTimeStepValue() )
                        {
                            anim.key()->onAnimationStep( anim.value() );
                            anim.value() -= anim.key()->animationTimeStepValue();
                        }
                    }
                    else
                        anim.key()->onAnimationStep( dt );
                }

        update();
    }


    m_AnimationsRunningAtPreviousFrame = animationsRunning;
}


void GLViewer::paintGL()
{
    manageAnimations();


    // Setting up the OpenGL viewport.
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	glViewport( 0, 0, width(), height() );


    // Clear the frame buffer.
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    glMatrixMode( GL_PROJECTION );
    glLoadIdentity();

    glMatrixMode( GL_MODELVIEW );
    glLoadIdentity();

    glDisable( GL_LIGHTING );
    glDisable( GL_DEPTH_TEST );
    glDepthMask( GL_FALSE );

    glBegin( GL_QUADS );
        //glColor3ub( 144, 144, 144 );
        glColor3ub( 132, 132, 132 );
        glVertex2i( -1, -1 );
        glVertex2i(  1, -1 );
        glColor3ub( 208, 208, 208 );
        glVertex2i(  1,  1 );
        glVertex2i( -1,  1 );
    glEnd();

    glDepthMask( GL_TRUE );

	glClear( GL_DEPTH_BUFFER_BIT );


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    // Update the projection and view matrices, if needed.

    if( m_MustUpdateFocal )
    {
        m_Focal = 1.0 / std::tan( fovY()*M_PI/360.0 );

        m_MustUpdateFocal = false;
        m_MustUpdateProjectionMatrix = true;
    }

    bool mustUpdateViewProjectionMatrix = false;

    if( m_MustUpdateProjectionMatrix )
    {
        m_ProjectionMatrix.fill( 0.0f );
        m_ProjectionMatrix(0,0) = focal() * height() / width();
        m_ProjectionMatrix(1,1) = focal();
        m_ProjectionMatrix(2,2) = (zNear() + zFar())  / (zNear() - zFar());
        m_ProjectionMatrix(2,3) = 2.0f*zNear()*zFar() / (zNear() - zFar());
        m_ProjectionMatrix(3,2) = -1.0f;

        m_ProjectionMatrixInverse = m_ProjectionMatrix.inverted();

        m_MustUpdateProjectionMatrix = false;
        mustUpdateViewProjectionMatrix = true;
    }

    if( m_MustUpdateViewMatrix )
    {
        m_ViewMatrix.setToIdentity();
        m_ViewMatrix.translate( 0.0, 0.0, -distToFocusPoint() );
        m_ViewMatrix *= viewRotationMatrix();
        m_ViewMatrix.translate( -focusPoint() );

        m_ViewMatrixInverse = m_ViewMatrix.inverted();

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        m_ViewRotationMatrixInverse = viewRotationMatrix().inverted();

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        m_MustUpdateViewMatrix = false;
        mustUpdateViewProjectionMatrix = true;
    }

    if( mustUpdateViewProjectionMatrix )
    {
        m_ViewProjectionMatrix = m_ProjectionMatrix * m_ViewMatrix;
        m_ViewProjectionMatrixInverse = m_ViewMatrixInverse * m_ProjectionMatrixInverse;
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        m_PixelToRayMatrix = viewRotationMatrixInverse() * projectionMatrixInverse();
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        m_Frustum.UpdateFrustumPlanes( m_ViewMatrix, m_ProjectionMatrix );
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    }

    // Setup the OpenGL transforms and viewport.

    glMatrixMode( GL_PROJECTION );
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    glLoadMatrixf( projectionMatrix().data() );

    glMatrixMode( GL_MODELVIEW );
    glLoadMatrixf( viewMatrix().data() );

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    glPointSize( (GLfloat) m_View.pointSize );
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    glColor3ub( 255, 255, 255 );

    setupScene();


    // Display the scene content by increasing priority.
    for( PriorityMap::iterator dlist=m_DisplayablesByPriority.begin(); dlist!=m_DisplayablesByPriority.end(); ++dlist )
        for( DisplayableList::iterator dinfo=dlist->second.begin(); dinfo!=dlist->second.end(); ++dinfo )
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            if( !m_Frustum.IsOutside( (*dinfo)->boundingBox, (*dinfo)->GetTransform() ) )
            {
                glPushMatrix();
                glMultMatrixf( (*dinfo)->GetTransform().data() );
                glPushAttrib( GL_ALL_ATTRIB_BITS );
                (*dinfo)->displayable->onDisplay( *(*dinfo)->displayable->getSource()->GetDisplayOptions() );
                displayLabel( (*dinfo)->displayable );
                if( (*dinfo)->selectionMgr )
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                    (*dinfo)->selectionMgr->onDisplay( this, (*dinfo)->GetTransform() );
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                glPopAttrib();
                glPopMatrix();
            }

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    // Finalize the rendering.
    releaseScene();

    // Display the metric grid.
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    glPolygonMode( GL_FRONT_AND_BACK, GL_FILL );
    glDepthMask( GL_FALSE );
    glEnable( GL_DEPTH_TEST );
    if( dof() == DISPLAY_DOF_2D )
        m_View.metricGrid2D.display( this );
    else
        m_View.metricGrid3D.display( this );
    glDepthMask( GL_TRUE );
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    // Display the label of the object under the mouse cursor.
    if( dof() == DISPLAY_DOF_3D  &&  m_BelowCursor )
    {
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        double textX, textY;
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        QVector3D c = m_BelowCursor->GetTransform().map( m_BelowCursor->boundingBox.Center() );
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        renderCoords( c.x(), c.y(), c.z(), &textX, &textY );

        QString label = m_BelowCursor->displayable->label();
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        QFont f( font().family(), 10, QFont::Bold );
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        Qt::Alignment align = static_cast<Qt::Alignment>( Qt::AlignHCenter | Qt::AlignCenter );
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        glColor3ub( 220, 220, 220 );
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        renderText( textX-1, textY-1, label, f, align );
        renderText( textX-1, textY+1, label, f, align );
        renderText( textX+1, textY-1, label, f, align );
        renderText( textX+1, textY+1, label, f, align );
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        glColor3ub( 64, 64, 64 );
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        renderText( textX, textY, label, f, align );
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    }
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    // Display the selection tool, if selection mode is enabled.
    if( isSelectionEnabled() )
    {
        m_SelectionCurrentTool->displaySelectionState();
        m_SelectionCurrentTool->display();
    }


    // Display the information bar.
    m_InfoBarManager->display();
}


void GLViewer::setupScene()
{
    // Setup the OpenGL states.

    if( dof() == DISPLAY_DOF_2D )
    {
        glDisable( GL_DEPTH_TEST );
        glEnable( GL_MULTISAMPLE );
        glDisable( GL_LIGHTING );
    }
    else
    {
        // Place the light into the scene.
        glMatrixMode( GL_MODELVIEW );
        glPushMatrix();

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        if( m_View.isLightTrackingEnabled )
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            glLoadIdentity();
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        glMultMatrixf( m_View.lightRotationMatrix.data() );
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        GLfloat lightPos[4] = { 0.0f, 0.0f, 1.0f, 0.0f };
        glLightfv( GL_LIGHT0, GL_POSITION, lightPos );

        glPopMatrix();


        // Setup the OpenGL states.
	    glEnable( GL_DEPTH_TEST );
        glEnable( GL_MULTISAMPLE );

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        if( m_View.isLightingEnabled )
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        {
            glEnable( GL_LIGHTING );
            glEnable( GL_LIGHT0 );
            glEnable( GL_COLOR_MATERIAL );
        }
        else
        {
            glDisable( GL_LIGHTING );
            glDisable( GL_LIGHT0 );
            glDisable( GL_COLOR_MATERIAL );
        }

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        glPolygonMode( GL_FRONT_AND_BACK, m_View.isWireframeEnabled && !m_SelectionEnabled? GL_LINE : GL_FILL );
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        if( m_View.isCullingEnabled )
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        {
            glEnable( GL_CULL_FACE );
            glCullFace( GL_BACK );
        }
        else
            glDisable( GL_CULL_FACE );
    }
}


void GLViewer::displayLabel( DisplayableInterface *d )
{
    if( dof() == DISPLAY_DOF_2D )
    {
        Box3f box;
        d->boundingBox( box );


        // Display the black border.

        glColor3ub( 0, 0, 0 );

        glBegin( GL_LINE_LOOP );
            glVertex2f( box.Min().x(), box.Min().y() );
            glVertex2f( box.Min().x(), box.Max().y() );
            glVertex2f( box.Max().x(), box.Max().y() );
            glVertex2f( box.Max().x(), box.Min().y() );
        glEnd();


        // Display the name of the image on overlay in the bottom-left corner, by constraining it to the displayed image rectangle.

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        QMatrix4x4 toViewportCoord = viewportMatrix(true) * MVPMatrix(d);
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        QVector3D bottomLeft = toViewportCoord.map( QVector3D( box.Min().x(), box.Min().y(), 0.0f ) );
        QVector3D topRight   = toViewportCoord.map( QVector3D( box.Max().x(), box.Max().y(), 0.0f ) );

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        QFont f( font().family(), 10, QFont::Bold );
        QFontMetrics fm( f );
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        QString imgName;
        int imgNameWidth;

        if( fm.height() < bottomLeft.y()-topRight.y()-4 )
        {
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            imgName = d->label();
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            imgNameWidth = fm.width( imgName );

            if( imgNameWidth > topRight.x()-bottomLeft.x()-8 )
            {
                int imgNameLength = imgName.length();
                do
                {
                    -- imgNameLength;
                    imgNameWidth -= fm.width( imgName.at(imgNameLength) );
                } while( imgNameWidth > topRight.x()-bottomLeft.x()-8 );
                imgName = imgName.left( imgNameLength );
            }
        }

        if( imgName.length() > 0 )
        {
            int textX = bottomLeft.x() + 4;
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            int textY = bottomLeft.y() - 2;
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            glColor3ub( 220, 220, 220 );
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            renderText( textX-1, textY-1, imgName, f, Qt::AlignTop );
            renderText( textX-1, textY+1, imgName, f, Qt::AlignTop );
            renderText( textX+1, textY-1, imgName, f, Qt::AlignTop );
            renderText( textX+1, textY+1, imgName, f, Qt::AlignTop );
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            glColor3ub( 64, 64, 64 );
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            renderText( textX, textY, imgName, f, Qt::AlignTop );
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        }
    }
}


void GLViewer::resizeGL( int width, int height )
{
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    m_MustUpdateProjectionMatrix = true;

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	glViewport( 0, 0, width, height );

    m_InfoBarManager->onReshape();

    for( DisplayableMap::iterator d=m_Displayables.begin(); d!=m_Displayables.end(); ++d )
        d->second.displayable->onReshape( *d->first->GetDisplayOptions() );

    if( isSelectionEnabled() )
        m_SelectionCurrentTool->onResize();

    updateSelectionZBuffer();
}


void GLViewer::updateSelection( SelectionTool &tool )
{
    makeCurrent();

    // Initializes the GL transformation so as to match the current view.

	glMatrixMode( GL_PROJECTION );
    glLoadMatrixf( projectionMatrix().data() );

    glMatrixMode( GL_MODELVIEW );
    glLoadMatrixf( viewMatrix().data() );


    // Initializes the selection context.

    tool.setDepthBuffer( m_SelectionDepthBuffer );
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    tool.selectBackFacingGeometry( m_View.isCullingEnabled? GL_FALSE : GL_TRUE );
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    tool.preSelectionUpdate();


    // Checks every item that can be selected.

    for( DisplayableMap::iterator d=m_Displayables.begin(); d!=m_Displayables.end(); ++d )
        if( d->second.selectionMgr  &&  d->second.selectionMgr->selectableEntity() == tool.entityToSelect() )
        {
            glPushMatrix();
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            glMultMatrixf( d->second.GetTransform().data() );
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            d->second.selectionMgr->onUpdatingSelection( &tool );
            glPopMatrix();
        }


    tool.postSelectionUpdate();
}


void GLViewer::updateSelectionMode( const Qt::KeyboardModifiers &modifiers )
{
    if( isSelectionEnabled() )
    {
        SelectionTool::SelectionMode newMode;

        if( modifiers & Qt::ShiftModifier )
            newMode = SelectionTool::SELECTION_MODE_SET;
        else if( modifiers & Qt::ControlModifier )
            newMode = SelectionTool::SELECTION_MODE_REMOVE;
        else
            newMode = SelectionTool::SELECTION_MODE_ADD;

        if( m_SelectionCurrentTool->selectionMode() != newMode )
        {
            m_SelectionCurrentTool->setSelectionMode( newMode );
            update();
        }
    }
}


void GLViewer::updateSelectionZBuffer()
{
    if( !isSelectionEnabled() )
        return;

    makeCurrent();


    // Creates the shader that makes it possible to recover the scene Z-buffer.

    if( !m_ZBufferShader.IsCreated() )
    {
        std::string logs;
        if( !GPU::CreateShaderFromSources( m_ZBufferShader, s_ZBufferVPG, s_ZBufferFPG, &logs ) )
        {
            std::cout << "Z-buffer shader compilation error:" << std::endl << logs << std::endl;
            return;
        }
    }


    // Recovers the depth buffer matching the current view for depth test during selection.

    m_SelectionDepthBuffer.Create( GL_DEPTH_COMPONENT, width(), height(), GL_DEPTH_COMPONENT, GL_INT, NULL );
    m_SelectionDepthBuffer.SetFiltering( GL_LINEAR );
    m_SelectionDepthBuffer.SetBaseAndMaxLevels( 0 );
    m_SelectionDepthBuffer.SetCompareMode( GL_COMPARE_R_TO_TEXTURE );
    m_SelectionDepthBuffer.SetCompareFunc( GL_LEQUAL );
    m_SelectionDepthBuffer.SetDepthTextureMode( GL_INTENSITY );

    GPU::FrameBuffer fbuffer( width(), height() );
    fbuffer.Attach( GL_DEPTH_ATTACHMENT, m_SelectionDepthBuffer );
    fbuffer.Bind();

    glClear( GL_DEPTH_BUFFER_BIT );


    // Setting up the OpenGL transforms and viewport.

	glMatrixMode( GL_PROJECTION );
    glLoadMatrixf( projectionMatrix().data() );

    glMatrixMode( GL_MODELVIEW );
    glLoadMatrixf( viewMatrix().data() );

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    glPointSize( (GLfloat) m_View.pointSize );
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    setupScene();


    // Display the scene content by increasing priority.

    for( PriorityMap::iterator dlist=m_DisplayablesByPriority.begin(); dlist!=m_DisplayablesByPriority.end(); ++dlist )
        for( DisplayableList::iterator dinfo=dlist->second.begin(); dinfo!=dlist->second.end(); ++dinfo )
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            if( !m_Frustum.IsOutside( (*dinfo)->boundingBox, (*dinfo)->GetTransform() ) )
            {
                m_ZBufferShader.SetUniform( "fullTransformMatrix", (viewProjectionMatrix() * (*dinfo)->GetTransform()).data() );
                glPushAttrib( GL_ALL_ATTRIB_BITS );
                (*dinfo)->displayable->onPicking( *(*dinfo)->displayable->getSource()->GetDisplayOptions(), m_ZBufferShader, "vertexPosition" );
                glPopAttrib();
            }
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    // Finalize the rendering.

    releaseScene();

    fbuffer.Unbind();
}


void GLViewer::processSelection( BaseSelectionProcessor &proc )
{
    std::list<BaseSelectionProcessor*> procList;
    procList.push_back( &proc );
    processSelection( procList );
}


void GLViewer::processSelection( std::list<BaseSelectionProcessor*> &procList )
{
#if 0
    std::map< TypeId, BaseSelectionProcessor* > processorByType;

    for( std::list<BaseSelectionProcessor*>::iterator p=procList.begin(); p!=procList.end(); ++p )
    {
        std::list<TypeId> acceptedTypes;
        (*p)->acceptedDataType( acceptedTypes );

        for( std::list<TypeId>::iterator t=acceptedTypes.begin(); t!=acceptedTypes.end(); ++t )
            processorByType[*t] = *p;
    }


    for( DisplayableMap::iterator d=m_Displayables.begin(); d!=m_Displayables.end(); ++d )
    {
        std::map< TypeId, BaseSelectionProcessor* >::iterator processorFound = processorByType.find( d->first->GetType() );

        if( processorFound != processorByType.end()  &&  (d->second.displayable->selectableEntities() & processorFound->second->entityToProcess()) )
        {
            d->second.displayable->processSelection( *processorFound->second );
            if( processorFound->second->isSelectionResetRequired() )
                d->second.displayable->clearSelection( processorFound->second->entityToProcess() );
            if( processorFound->second->isDisplayableUpdateRequired() )
                updateDisplayable( d->second.displayable->getSrcManageable() );
        }
    }
#endif
}


void GLViewer::processSelection( GenericUIData *m, BaseSelectionProcessor &proc )
{
#if 0
    DisplayableMap::iterator displayableFound = m_Displayables.find( m );

    if( displayableFound == m_Displayables.end() )
        return;

    DisplayableInterface *d = displayableFound->second.displayable;


    std::list<TypeId> acceptedTypes;
    proc.acceptedDataType( acceptedTypes );

    for( std::list<TypeId>::iterator t=acceptedTypes.begin(); t!=acceptedTypes.end(); ++t )
        if( m->GetType() == *t )
        {
            if( d->selectableEntities() & proc.entityToProcess() )
            {
                d->processSelection( proc );
                if( proc.isSelectionResetRequired() )
                    d->clearSelection( proc.entityToProcess() );
                if( proc.isDisplayableUpdateRequired() )
                    updateDisplayable( m );
            }

            break;
        }
#endif
}


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void GLViewer::renderCoords( double x, double y, double z, double *screenX, double *screenY )
{
    // Identify x and y locations to render text within widget

    QMatrix4x4 model, proj;
    GLint viewport[4];
    glGetFloatv( GL_MODELVIEW_MATRIX, model.data() );
    glGetFloatv( GL_PROJECTION_MATRIX, proj.data() );
    glGetIntegerv( GL_VIEWPORT, viewport );

    *screenX = *screenY = 0.0;
    QVector4D out = proj.map( model.map( QVector4D(x,y,z,1.0f) ) );

    if( out.w() != 0.0f )
    {
        float wInv = 1.0f / out.w();
        out.setX( out.x() * wInv );
        out.setY( out.y() * wInv );

        *screenX = viewport[0] + (1 + out.x()) * 0.5 * viewport[2];
        *screenY = viewport[1] + (1 + out.y()) * 0.5 * viewport[3];
    }

    *screenY = this->height() - *screenY; // y is inverted
}


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void GLViewer::renderText( double x, double y, const QString &text, const QFont &font, Qt::Alignment align )
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{
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    QFontMetrics fm( font );

    // Extract lines from the input strings.

    QStringList textLines;

    int beg = 0, end;
    while( (end = text.indexOf('\n',beg)) >= 0 )
    {
        textLines.push_back( text.mid(beg,end-beg) );
        beg = end + 1;
    }

    textLines.push_back( (beg==0)? text : text.mid(beg) );

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    // Save OpenGL states.

    GLint buffer;
    GLboolean depthTest;
	GLboolean blend;
	GLint blendSrcRGB, blendSrcAlpha;
	GLint blendDstRGB, blendDstAlpha;

    glGetIntegerv( GL_FRAMEBUFFER_BINDING, &buffer );
	glGetBooleanv( GL_DEPTH_TEST, &depthTest );
	glGetBooleanv( GL_BLEND, &blend );
	glGetIntegerv( GL_BLEND_SRC_RGB  , &blendSrcRGB   );
	glGetIntegerv( GL_BLEND_SRC_ALPHA, &blendSrcAlpha );
	glGetIntegerv( GL_BLEND_DST_RGB  , &blendDstRGB   );
	glGetIntegerv( GL_BLEND_DST_ALPHA, &blendDstAlpha );

    // Retrieve last OpenGL color to use as a font color.

    GLfloat glColor[4];
    glGetFloatv( GL_CURRENT_COLOR, glColor );
    QColor fontColor = QColor( 255.0f*glColor[0], 255.0f*glColor[1], 255.0f*glColor[2], 255.0f*glColor[3] );

	// Paint text.

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    if( align & Qt::AlignTop )
        y -= (textLines.size()-1) * fm.height() + fm.descent();
    else if( align & Qt::AlignCenter )
        y -= ((textLines.size()-2) * fm.height())/2/* + fm.descent()*/;

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    QPainter painter;
    painter.begin( this );
	    painter.setPen( fontColor );
	    painter.setFont( font );
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        for( auto &l : textLines )
        {
            if( align & Qt::AlignRight )
        		painter.drawText( x - fm.width(l), y, l );
            else if( align & Qt::AlignHCenter )
        		painter.drawText( x - fm.width(l)/2, y, l );
            else
        		painter.drawText( x, y, l );
            y += fm.height();
        }
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    painter.end();

	// Restore OpenGL states.

    glBindFramebufferEXT( GL_FRAMEBUFFER_EXT, buffer );
    depthTest?  glEnable( GL_DEPTH_TEST )  :  glDisable( GL_DEPTH_TEST );
    blend?  glEnable( GL_BLEND )  :  glDisable( GL_BLEND );
	glBlendFuncSeparateEXT( blendSrcRGB, blendDstRGB, blendSrcAlpha, blendDstAlpha );
    glColor4fv( glColor );
}


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void GLViewer::renderText( double x, double y, double z, const QString &text, const QFont &font, Qt::Alignment align )
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{
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    double screenX, screenY;
    renderCoords( x, y, z, &screenX, &screenY );
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    renderText( screenX, screenY, text, font, align );
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}


bool GLViewer::imageOfCurrentDisplay( const GenericUIData *m, QImage &renderResult )
{
    // Check if the provided item is currently displayed.

    DisplayableInterface *d = getDisplayable( m );

    if( !d )
        return false;


    // Recover its dimensions so as to determine the size of the rendering output buffer.

    Box3f dBox;
    d->boundingBox( dBox );

    int w = (int) dBox.Dimensions().x();
    int h = (int) dBox.Dimensions().y();


    // Perform off-screen rendering.

    makeCurrent();

    GPU::FrameBuffer fb( w, h );
    fb.Attach( GL_COLOR_ATTACHMENT0, GL_RGBA );
    fb.Bind();

    glClearColor( 1.0f, 0.0f, 0.0f, 1.0f );
    glClear( GL_COLOR_BUFFER_BIT );

    glMatrixMode( GL_PROJECTION );
    glPushMatrix();
    glLoadIdentity();
    glOrtho( dBox.Min().x(), dBox.Max().x(), dBox.Max().y(), dBox.Min().y(), -1.0f, 1.0f );

    glMatrixMode( GL_MODELVIEW );
    glPushMatrix();
    glLoadIdentity();

    d->onDisplay( *m->GetDisplayOptions() );

    glPopMatrix();
    glMatrixMode( GL_PROJECTION );
    glPopMatrix();

    fb.Unbind();


    // Recover the render result and store it to the provided image object.

    GLubyte *fbData = new GLubyte [ 4*w*h ];
    fb.DumpTo( GL_COLOR_ATTACHMENT0, fbData, GL_RGBA, GL_UNSIGNED_BYTE );

    renderResult = QImage( w, h, QImage::Format_RGBA8888 );
    for( int y=0, n=0; y<h; ++y )
    {
        unsigned char *lineData = renderResult.scanLine( y );
        for( int x=0; x<4*w; ++x, ++n )
            lineData[x] = fbData[n];
    }

    delete [] fbData;


    return true;
}


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void GLViewer::enterEvent( QEvent* evt )
{
    setFocus();
    QOpenGLWidget::enterEvent( evt );
}


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void GLViewer::mousePressEvent( QMouseEvent *evt )
{
    if( dof() == DISPLAY_DOF_2D )
    {
        PickedPoint p;

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        if( !isSelectionEnabled()  &&  evt->button() == Qt::RightButton  &&  getPickedPoint( evt->pos().x(), height()-evt->pos().y(), p, true ) )
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        {
            QMenu ctxMenu;
            ctxMenu.addAction( "Save current render" );

            if( ctxMenu.exec( evt->globalPos() ) )
            {
		        QStringList filters;
			    QString allImages;
                foreach( QByteArray ext, QImageWriter::supportedImageFormats() )
			    {
		            filters << QString(ext).toUpper() + " image files (*." + ext + ")";
				    allImages += " *." + ext;
			    }
			    filters.push_front( "All image files (" + allImages + " )" );

		        QFileDialog dlg( this, "Save image" );
		        dlg.setAcceptMode( QFileDialog::AcceptSave );
                dlg.setFileMode( QFileDialog::AnyFile );
                dlg.setNameFilters( filters );

			    if( dlg.exec() )
			    {
				    QImage img;
				    imageOfCurrentDisplay( p.srcObject, img );
				    img.save( dlg.selectedFiles().front() );
			    }
            }
        }
    }


    if( isSelectionEnabled() )
    {
        if( evt->button() == Qt::RightButton )
            toggleSelection();
        else
        {
            makeCurrent();
            m_SelectionCurrentTool->mousePressEvent( evt );
        }
    }

    m_PrevMousePos = evt->pos();

    update();
}


void GLViewer::mouseReleaseEvent( QMouseEvent *evt )
{
    if( isSelectionEnabled() )
    {
        makeCurrent();
        m_SelectionCurrentTool->mouseReleaseEvent( evt );
        updateSelectionMode( evt->modifiers() );
    }

    update();
}


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void GLViewer::findObjectUnderCursor( const QPoint& cursor )
{
    PickedPoint pp;
    if( getPickedPoint( cursor.x(), height()-cursor.y(), pp, true ) )
    {
        auto disp = &m_Displayables[ pp.srcObject ];
        if( disp != m_BelowCursor )
        {
            m_BelowCursor = disp;
            update();
        }
    }
    else if( m_BelowCursor )
    {
        m_BelowCursor = NULL;
        update();
    }
}


void GLViewer::clearObjectUnderCursor()
{
    if( m_BelowCursor )
    {
        m_BelowCursor = NULL;
        update();
    }
}


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void GLViewer::mouseMoveEvent( QMouseEvent *evt )
{
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    if( isSelectionEnabled() )
    {
        makeCurrent();
        m_SelectionCurrentTool->mouseMoveEvent( evt );
        update();
    }
    else if( evt->buttons() != Qt::NoButton )
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    {
	    double dx = (evt->pos().x() - m_PrevMousePos.x());
	    double dy = (evt->pos().y() - m_PrevMousePos.y());
	    m_PrevMousePos = evt->pos();

        if( evt->modifiers() & Qt::ShiftModifier )
        {
            dx *= m_ShiftSpeedFactor;
            dy *= m_ShiftSpeedFactor;
        }
        else if( evt->modifiers() & Qt::ControlModifier )
        {
            dx *= m_CtrlSpeedFactor;
            dy *= m_CtrlSpeedFactor;
        }
        else
        {
            dx *= m_SpeedFactor;
            dy *= m_SpeedFactor;
        }

        mouseMotionNavigationEvent( dx, dy, evt );
    }
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    else if( !isSelectionEnabled() )
        findObjectUnderCursor( evt->pos() );
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}


void GLViewer::wheelEvent( QWheelEvent* evt )
{
	if( evt->orientation() == Qt::Vertical )
	{
        if( !isSelectionEnabled() )
        {
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		    double deltaD = -0.0005 * m_SpeedFactor * distToFocusPoint() * evt->delta();
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		    if( evt->modifiers() & Qt::ShiftModifier )
			    deltaD *= m_ShiftSpeedFactor;
		    else if( evt->modifiers() & Qt::ControlModifier )
			    deltaD *= m_CtrlSpeedFactor;

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		    if( distToFocusPoint() + deltaD > 0.0 )
                setDistToFocusPoint( distToFocusPoint() + deltaD );
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        }
        else
        {
            makeCurrent();
            m_SelectionCurrentTool->wheelEvent( evt );
        }

		update();
	}
}


void GLViewer::mouseDoubleClickEvent( QMouseEvent *evt )
{
    if( isSelectionEnabled() )
    {
        makeCurrent();
        m_SelectionCurrentTool->mouseDoubleClickEvent( evt );
    }
    else if( evt->buttons() == Qt::LeftButton )
    {
        PickedPoint point;
        if( getPickedPoint( evt->x(), height()-evt->y(), point, false ) )
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        {
            if( evt->modifiers() & Qt::ControlModifier )
                frameItem( point.srcObject );
            else
                setFocusPoint( point.global );
        }
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    }
}


bool GLViewer::event( QEvent *evt )
{
    if( evt->type() == QEvent::KeyPress )
    {
        QKeyEvent *kevt = static_cast<QKeyEvent*>( evt );
        if( kevt->key() == Qt::Key_Tab )
        {
            makeCurrent();

            if( !isSelectionEnabled() )
            {
                m_SelectionContext.isSelecting = false;
                m_SelectionContext.selectionMode = SelectionTool::SELECTION_MODE_SET;
                toggleSelection();
            }
            else if( !(kevt->modifiers() & Qt::Modifier::CTRL) )
            {
                m_SelectionCurrentTool->onDisabled();

                m_SelectionCurrentToolName = (SelectionToolName)( (m_SelectionCurrentToolName + 1) % SELECTION_TOOL_END );
                m_SelectionCurrentTool = m_SelectionTools[ m_SelectionCurrentToolName ];

                m_SelectionCurrentTool->onEnabled();

                for( DisplayableMap::iterator d=m_Displayables.begin(); d!=m_Displayables.end(); ++d )
                    if( d->second.selectionMgr  &&  d->second.selectionMgr->selectableEntity() == m_SelectionCurrentTool->entityToSelect() )
                        d->second.selectionMgr->onRecompilingSelectionShader( m_SelectionCurrentTool );
            }

            if( kevt->modifiers() & Qt::Modifier::CTRL )
            {
                int availableEntities = 0;
                for( DisplayableMap::iterator d=m_Displayables.begin(); d!=m_Displayables.end(); ++d )
                    if( d->second.selectionMgr )
                        availableEntities |= d->second.selectionMgr->selectableEntity();

                if( availableEntities )
                {
                    int newEntity = m_SelectionCurrentTool->entityToSelect();
                    do
                    {
                        newEntity = (newEntity&4)?  1  :  (newEntity << 1);
                    } while( !(newEntity & availableEntities) );
                    setSelectionEntity( (SelectableEntity) newEntity );
                }
            }

            update();
            return true;
        }
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        else if( kevt->key() == Qt::Key_Shift  &&  !isSelectionEnabled() )
        {
            setMouseTracking( true );
            findObjectUnderCursor( mapFromGlobal( cursor().pos() ) );
            return true;
        }
    }

    else if( evt->type() == QEvent::KeyRelease )
    {
        QKeyEvent *kevt = static_cast<QKeyEvent*>( evt );
        if( kevt->key() == Qt::Key_Shift  &&  !isSelectionEnabled() )
        {
            setMouseTracking( false );
            clearObjectUnderCursor();
            return true;
        }
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    }

    return QOpenGLWidget::event( evt );
}


void GLViewer::keyPressEvent( QKeyEvent *evt )
{
    bool defaultBehaviour = false;


    if( dof() == DISPLAY_DOF_2D )
    {
        switch( evt->key() )
        {
            case Qt::Key_Space: centerView(); break;
            case Qt::Key_F1:
            case Qt::Key_F2:
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            case Qt::Key_F3:
            case Qt::Key_F4:
            case Qt::Key_F5:
            case Qt::Key_F6:
            case Qt::Key_F7:
            case Qt::Key_F8:
            case Qt::Key_F9:
            case Qt::Key_F10:
            case Qt::Key_F11:
            case Qt::Key_F12:
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            {
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                QString filename;
                filename.sprintf(".viewer_%02i.cfg", evt->key() - Qt::Key_F1 + 1 );
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                if( evt->modifiers() == Qt::Modifier::SHIFT )
                {
                    std::ofstream file( filename.toStdString(), std::ios::binary );
                    file.write( (char*) &m_View, sizeof(RenderState) );
                }
                else
                {
                    std::ifstream file( filename.toStdString(), std::ios::binary );
                    if( !file.bad() )
                    {
                        RenderState state;
                        file.read( (char*) &state, sizeof(RenderState) );
                        setRenderState( state );
                    }
                }
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                break;
            }
            case Qt::Key_4:
            {
                QMatrix4x4 rot;
                rot.setToIdentity();
                rot.rotate( -15.0f, 0,0,1 );
                setViewRotationMatrix( rot * viewRotationMatrix() );
                update();
                break;
            }
            case Qt::Key_5:
            {
                QMatrix4x4 rot;
                rot.setToIdentity();
                setViewRotationMatrix( rot );
                update();
                break;
            }
            case Qt::Key_6:
            {
                QMatrix4x4 rot;
                rot.setToIdentity();
                rot.rotate( 15.0f, 0,0,1 );
                setViewRotationMatrix( rot * viewRotationMatrix() );
                update();
                break;
            }
            case Qt::Key_G:
            {
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                if( m_View.metricGrid2D.isGridEnabled(MetricGrid::XY) )
                {
                    m_View.metricGrid2D.disableGrid( MetricGrid::ALL );
                    m_View.metricGrid2D.disableAxis( MetricGrid::X | MetricGrid::Y );
                }
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                else
                {
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                    m_View.metricGrid2D.enableAxis ( MetricGrid::X | MetricGrid::Y );
                    m_View.metricGrid2D.enableGrid ( MetricGrid::XY );
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                }
                update();
                break;
            }
            default: defaultBehaviour = true;
        }
    }


    else
    {
        switch( evt->key() )
        {
            case Qt::Key_W: toggleWireframe(); break;
            case Qt::Key_L: toggleLighting(); break;
            case Qt::Key_G:
            {
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                if( m_View.metricGrid3D.isGridEnabled(MetricGrid::ZX) )
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                {
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                    m_View.metricGrid3D.disableAxis( MetricGrid::ALL );
                    m_View.metricGrid3D.disableGrid( MetricGrid::ALL );
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                }
                else
                {
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                    m_View.metricGrid3D.enableAxis( MetricGrid::ALL );
                    m_View.metricGrid3D.enableGrid( MetricGrid::ZX );
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                }
                update();
                break;
            }
            case Qt::Key_F1:
            case Qt::Key_F2:
            case Qt::Key_F3:
            case Qt::Key_F4:
            case Qt::Key_F5:
            case Qt::Key_F6:
            case Qt::Key_F7:
            case Qt::Key_F8:
            case Qt::Key_F9:
            case Qt::Key_F10:
            case Qt::Key_F11:
            case Qt::Key_F12:
            {
                qint32 viewId = evt->key() - Qt::Key_F1;
                std::ostringstream filename;
                filename << ".viewer" << viewId << ".cfg";

                if( evt->modifiers() & Qt::SHIFT )
                {
                    std::ofstream file( filename.str().c_str(), std::ios::binary );

                    file.write( (char*) &focusPoint(), sizeof(QVector3D) );
                    float f = distToFocusPoint();
                    file.write( (char*) &f, sizeof(float) );
                    file.write( (char*) &viewRotationMatrix(), sizeof(QMatrix4x4) );
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                    file.write( (char*) &m_View.lightRotationMatrix, sizeof(QMatrix4x4) );
                    file.write( (char*) &m_View.isWireframeEnabled, sizeof(bool) );
                    file.write( (char*) &m_View.isLightingEnabled, sizeof(bool) );
                    file.write( (char*) &m_View.isCullingEnabled, sizeof(bool) );
                    file.write( (char*) &m_View.isLightTrackingEnabled, sizeof(bool) );
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                    double d = speedFactor();
                    file.write( (char*) &d, sizeof(double) );
                    d = ctrlSpeedFactor();
                    file.write( (char*) &d, sizeof(double) );
                    d = shiftSpeedFactor();
                    file.write( (char*) &d, sizeof(double) );
                    file.close();
                }
                else
                {
                    std::ifstream file( filename.str().c_str(), std::ios::binary );
                    if( !file.is_open() )
                        break;

                    QVector3D fp;
                    QMatrix4x4 vRot;
                    bool wireframe, lighting, culling, tracking;
                    float dist2fp;
                    double spF, ctrlSpF, shftSpF;

                    file.read( (char*) &fp, sizeof(QVector3D) );
                    file.read( (char*) &dist2fp, sizeof(float) );
                    file.read( (char*) &vRot, sizeof(QMatrix4x4) );
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                    file.read( (char*) &m_View.lightRotationMatrix, sizeof(QMatrix4x4) );
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                    file.read( (char*) &wireframe, sizeof(bool) );
                    file.rea