const std::string GENDRILL_WRITER_BASE::layerPairName( DRILL_LAYER_PAIR aPair ) const
{
    std::string ret = layerName( aPair.first );
    ret += '-';
    ret += layerName( aPair.second );

    return ret;
}
const std::string EXCELLON_WRITER::layerPairName( LAYER_PAIR aPair ) const
{
    std::string ret = layerName( aPair.first );
    ret += '-';
    ret += layerName( aPair.second );

    return ret;
}
Esempio n. 3
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void defiNonDefault::print(FILE* f) const { 
  int   i;

  fprintf(f, "nondefaultrule %s\n", name());
  
  fprintf(f, "%d layers   %d vias   %d viarules   %d mincuts\n",
    numLayers(),
    numVias(),
    numViaRules(),
    numMinCuts());

  for (i = 0; i < numLayers(); i++) {
    fprintf(f, "  Layer %s\n", layerName(i));
    fprintf(f, "    WIDTH %g\n", layerWidth(i));
    if (hasLayerDiagWidth(i))
      fprintf(f, "    DIAGWIDTH %g\n", layerDiagWidth(i));
    if (hasLayerSpacing(i))
      fprintf(f, "    SPACING %g\n", layerSpacing(i));
    if (hasLayerWireExt(i))
      fprintf(f, "    WIREEXT %g\n",
              layerWireExt(i));
  }
  for (i = 0; i < numVias(); i++) {
    fprintf(f, "    VIA %s\n", viaName(i));
  }
  for (i = 0; i < numViaRules(); i++) {
    fprintf(f, "    VIARULE %s\n", viaRuleName(i));
  }
  for (i = 0; i < numMinCuts(); i++) {
    fprintf(f, "    MINCUTS %s %d\n", cutLayerName(i),
            numCuts(i));
  }
}
Esempio n. 4
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void LAYER_WIDGET::insertLayerRow( int aRow, const ROW& aSpec )
{
    wxASSERT( aRow >= 0 );

    int         col;
    int         index = aRow * LYR_COLUMN_COUNT;
    const int   flags = wxALIGN_CENTER_VERTICAL | wxALIGN_LEFT;

    auto& iconProvider = useAlternateBitmap(aRow) ? alternativeRowIcons : defaultRowIcons;

    // column 0
    col = COLUMN_ICON_ACTIVE;
    auto sbm = new INDICATOR_ICON( m_LayerScrolledWindow, iconProvider,
                                   ROW_ICON_PROVIDER::STATE::OFF,
                                   encodeId( col, aSpec.id ) );
    sbm->Bind( wxEVT_LEFT_DOWN, &LAYER_WIDGET::OnLeftDownLayers, this );
    m_LayersFlexGridSizer->wxSizer::Insert( index+col, sbm, 0, flags );

    // column 1 (COLUMN_COLORBM)
    col = COLUMN_COLORBM;

    auto bmb = new COLOR_SWATCH( m_LayerScrolledWindow, aSpec.color, encodeId( col, aSpec.id ),
                                 AreArbitraryColorsAllowed(), getBackgroundLayerColor() );
    bmb->Bind( wxEVT_LEFT_DOWN, &LAYER_WIDGET::OnLeftDownLayers, this );
    bmb->Bind( COLOR_SWATCH_CHANGED, &LAYER_WIDGET::OnLayerSwatchChanged, this );
    bmb->SetToolTip( _("Left double click or middle click for color change, right click for menu" ) );
    m_LayersFlexGridSizer->wxSizer::Insert( index+col, bmb, 0, flags );

    // column 2 (COLUMN_COLOR_LYR_CB)
    col = COLUMN_COLOR_LYR_CB;
    wxCheckBox* cb = new wxCheckBox( m_LayerScrolledWindow, encodeId( col, aSpec.id ), wxEmptyString );
    cb->SetValue( aSpec.state );
    cb->Bind( wxEVT_COMMAND_CHECKBOX_CLICKED, &LAYER_WIDGET::OnLayerCheckBox, this );
    cb->SetToolTip( _( "Enable this for visibility" ) );
    m_LayersFlexGridSizer->wxSizer::Insert( index+col, cb, 0, flags );

    // column 3 (COLUMN_COLOR_LYRNAME)
    col = COLUMN_COLOR_LYRNAME;
    wxStaticText* st = new wxStaticText( m_LayerScrolledWindow, encodeId( col, aSpec.id ), aSpec.rowName );
    shrinkFont( st, m_PointSize );
    st->Bind( wxEVT_LEFT_DOWN, &LAYER_WIDGET::OnLeftDownLayers, this );
    st->SetToolTip( aSpec.tooltip );
    m_LayersFlexGridSizer->wxSizer::Insert( index+col, st, 0, flags );

    // Bind right click eventhandler to all columns
    wxString layerName( aSpec.rowName );

    sbm->Bind( wxEVT_RIGHT_DOWN, [this, bmb, layerName] ( wxMouseEvent& aEvt ) {
        OnRightDownLayer( aEvt, bmb, layerName );
    } );
    bmb->Bind( wxEVT_RIGHT_DOWN, [this, bmb, layerName] ( wxMouseEvent& aEvt ) {
        OnRightDownLayer( aEvt, bmb, layerName );
    } );
    cb->Bind( wxEVT_RIGHT_DOWN, [this, bmb, layerName] ( wxMouseEvent& aEvt ) {
        OnRightDownLayer( aEvt, bmb, layerName );
    } );
    st->Bind( wxEVT_RIGHT_DOWN, [this, bmb, layerName] ( wxMouseEvent& aEvt ) {
        OnRightDownLayer( aEvt, bmb, layerName );
    } );
}
Esempio n. 5
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QgsServerProjectParser::QgsServerProjectParser( QDomDocument* xmlDoc, const QString& filePath ):
    mXMLDoc( xmlDoc ), mProjectPath( filePath )
{
  //accelerate the search for layers, groups and the creation of annotation items
  if ( mXMLDoc )
  {
    QDomNodeList layerNodeList = mXMLDoc->elementsByTagName( "maplayer" );
    QDomElement currentElement;
    int nNodes = layerNodeList.size();
    for ( int i = 0; i < nNodes; ++i )
    {
      currentElement = layerNodeList.at( i ).toElement();
      mProjectLayerElements.push_back( currentElement );
      mProjectLayerElementsByName.insert( layerName( currentElement ), currentElement );
      mProjectLayerElementsById.insert( layerId( currentElement ), currentElement );
    }

    QDomElement legendElement = mXMLDoc->documentElement().firstChildElement( "legend" );
    if ( !legendElement.isNull() )
    {
      QDomNodeList groupNodeList = legendElement.elementsByTagName( "legendgroup" );
      for ( int i = 0; i < groupNodeList.size(); ++i )
      {
        mLegendGroupElements.push_back( groupNodeList.at( i ).toElement() );
      }
    }

    mRestrictedLayers = findRestrictedLayers();
  }
}
Esempio n. 6
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QgsProjectParser::QgsProjectParser( QDomDocument* xmlDoc, const QString& filePath ): QgsConfigParser(), mXMLDoc( xmlDoc ), mProjectPath( filePath )
{
  mOutputUnits = QgsMapRenderer::Millimeters;
  setLegendParametersFromProject();
  setSelectionColor();
  setMaxWidthHeight();

  //accelerate search for layers and groups
  if ( mXMLDoc )
  {
    QDomNodeList layerNodeList = mXMLDoc->elementsByTagName( "maplayer" );
    QDomElement currentElement;
    int nNodes = layerNodeList.size();
    for ( int i = 0; i < nNodes; ++i )
    {
      currentElement = layerNodeList.at( i ).toElement();
      mProjectLayerElements.push_back( currentElement );
      mProjectLayerElementsByName.insert( layerName( currentElement ), currentElement );
      mProjectLayerElementsById.insert( layerId( currentElement ), currentElement );
    }

    QDomElement legendElement = mXMLDoc->documentElement().firstChildElement( "legend" );
    if ( !legendElement.isNull() )
    {
      QDomNodeList groupNodeList = legendElement.elementsByTagName( "legendgroup" );
      for ( int i = 0; i < groupNodeList.size(); ++i )
      {
        mLegendGroupElements.push_back( groupNodeList.at( i ).toElement() );
      }
    }
  }
}
bool QgsServerProjectParser::checkLayerGroupAttribute( const QString& attributeName, const QString& layerId ) const
{
  //search layer (if it is a layer), test if attribute is true. If not, return false.
  QString lName;
  QHash< QString, QDomElement >::const_iterator layerIt = mProjectLayerElementsById.find( layerId );
  if ( layerIt != mProjectLayerElementsById.constEnd() )
  {
    if ( !layerIt.value().attribute( attributeName, "1" ).toInt() )
    {
      return false;
    }
    lName = layerName( layerIt.value() );
  }

  QDomElement currentElement;
  if ( lName.isEmpty() )
  {
    currentElement = legendGroupByName( layerId );
  }
  else
  {
    //get <legendlayer> element from legend section
    QDomElement legendElement = legendElem();
    QDomNodeList layerNodeList = legendElement.elementsByTagName( "legendlayer" );
    for ( int i = 0; i < layerNodeList.size(); ++i )
    {
      QDomElement currentLayerElement = layerNodeList.at( i ).toElement();
      if ( currentLayerElement.attribute( "name" ) == lName )
      {
        currentElement = currentLayerElement;
        if ( !currentElement.attribute( attributeName, "1" ).toInt() )
        {
          return false;
        }
        break;
      }
    }
  }

  if ( currentElement.isNull() )
  {
    return false;
  }

  while ( !currentElement.parentNode().isNull() )
  {
    if ( currentElement.attribute( attributeName, "1" ).toInt() != 1 )
    {
      return false;
    }
    if ( currentElement.parentNode().nodeName() != "legendgroup" )
    {
      break;
    }
    currentElement = currentElement.parentNode().toElement();
  }

  return true;
}
QDomElement KTSoundLayer::toXml(QDomDocument &doc) const
{
    QDomElement root = doc.createElement("soundlayer");
    root.setAttribute("name", layerName());
    root.setAttribute("symbol", k->symbolName);
    
    return root;
}
void KTSoundLayer::fromXml(const QString &xml)
{
    QDomDocument document;
    
    if (! document.setContent(xml))
        return;
    
    QDomElement root = document.documentElement();
    setLayerName(root.attribute("name", layerName()));
    
    fromSymbol(root.attribute("symbol"));
}
Esempio n. 10
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void defiFill::print(FILE* f) const {
  int i, j;
  struct defiPoints points;

  if (hasLayer())
    fprintf(f, "- LAYER %s", layerName());

  if (layerMask())
      fprintf(f, " + Mask %d", layerMask());

  if (hasLayerOpc())
    fprintf(f, " + OPC");
  fprintf(f, "\n");

  for (i = 0; i < numRectangles(); i++) {
    fprintf(f, "   RECT %d %d %d %d\n", xl(i),
            yl(i), xh(i),
            yh(i));
  }

  for (i = 0; i < numPolygons(); i++) {
    fprintf(f, "   POLYGON ");
    points = getPolygon(i);
    for (j = 0; j < points.numPoints; j++)
      fprintf(f, "%d %d ", points.x[j], points.y[j]);
    fprintf(f, "\n");
  }
  fprintf(f,"\n");

  if (hasVia())
    fprintf(f, "- VIA %s", viaName());

  if (viaTopMask() || viaCutMask() 
      || viaBottomMask()) {
      fprintf(f, " + MASK %d", viaTopMask(),
          viaCutMask(),
          viaBottomMask());
  }

  if (hasViaOpc())
    fprintf(f, " + OPC");
  fprintf(f, "\n");

  for (i = 0; i < numViaPts(); i++) {
    fprintf(f, "   ");
    points = getViaPts(i);
    for (j = 0; j < points.numPoints; j++)
      fprintf(f, "%d %d ", points.x[j], points.y[j]);
    fprintf(f, "\n");
  }
  fprintf(f,"\n");
}
Esempio n. 11
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void QgsLayerTreeLayer::writeXML( QDomElement& parentElement )
{
    QDomDocument doc = parentElement.ownerDocument();
    QDomElement elem = doc.createElement( "layer-tree-layer" );
    elem.setAttribute( "id", mLayerId );
    elem.setAttribute( "name", layerName() );
    elem.setAttribute( "checked", QgsLayerTreeUtils::checkStateToXml( mVisible ) );
    elem.setAttribute( "expanded", mExpanded ? "1" : "0" );

    writeCommonXML( elem );

    parentElement.appendChild( elem );
}
Esempio n. 12
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QgsServerProjectParser::QgsServerProjectParser( QDomDocument* xmlDoc, const QString& filePath )
    : mXMLDoc( xmlDoc )
    , mProjectPath( filePath )
    , mUseLayerIDs( false )
{
  //accelerate the search for layers, groups and the creation of annotation items
  if ( mXMLDoc )
  {
    QDomNodeList layerNodeList = mXMLDoc->elementsByTagName( "maplayer" );
    QDomElement currentElement;
    int nNodes = layerNodeList.size();
    for ( int i = 0; i < nNodes; ++i )
    {
      currentElement = layerNodeList.at( i ).toElement();
      mProjectLayerElements.push_back( currentElement );
      mProjectLayerElementsByName.insert( layerName( currentElement ), currentElement );
      mProjectLayerElementsById.insert( layerId( currentElement ), currentElement );
    }

    QDomElement legendElement = mXMLDoc->documentElement().firstChildElement( "legend" );
    if ( !legendElement.isNull() )
    {
      QDomNodeList groupNodeList = legendElement.elementsByTagName( "legendgroup" );
      for ( int i = 0; i < groupNodeList.size(); ++i )
      {
        mLegendGroupElements.push_back( groupNodeList.at( i ).toElement() );
      }
    }

    mUseLayerIDs = findUseLayerIDs();
    mRestrictedLayers = findRestrictedLayers();

    mCustomLayerOrder.clear();

    QDomElement customOrder = mXMLDoc->documentElement().firstChildElement( "layer-tree-canvas" ).firstChildElement( "custom-order" );
    if ( customOrder.attribute( "enabled" ) == "1" )
    {
      QDomNodeList items = customOrder.childNodes();
      for ( int i = 0; i < items.size(); ++i )
      {
        mCustomLayerOrder << items.item( i ).toElement().text();
      }
    }
  }
  // Setting the QgsProject instance fileName
  // to help converting relative pathes to absolute
  if ( mProjectPath != "" )
  {
    QgsProject::instance()->setFileName( mProjectPath );
  }
}
Esempio n. 13
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QString QgsMapLayer::capitaliseLayerName( const QString& name )
{
  // Capitalise the first letter of the layer name if requested
  QSettings settings;
  bool capitaliseLayerName =
    settings.value( "/qgis/capitaliseLayerName", QVariant( false ) ).toBool();

  QString layerName( name );

  if ( capitaliseLayerName )
    layerName = layerName.left( 1 ).toUpper() + layerName.mid( 1 );

  return layerName;
}
Esempio n. 14
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void EditorMap::save()
{
    QString filename = QDir(EditorResourceManager::mapsDir()).absoluteFilePath(m_name);
    QFile file(filename);
    file.open(QIODevice::WriteOnly | QIODevice::Text);

    if( ! file.isOpen() ){
        qDebug() << "Unable to open " << filename << " for writing";
        return;
    }

    QTextStream out(&file);

    out << "version=" << c_codeVersion << "\n";
    out << "# size=sizeX,sizeY,layerCount\n";
    out << "# sizes in number of tiles, not in actual coordinates.\n";
    out << "size=" << tileCountX() << "," << tileCountY() << "," << layerCount() << "\n\n";

    out << "# layer declarations. one declaration per layer\n";
    out << "# layer=layerName\n";
    for (int i=0; i<layerCount(); ++i)
        out << "layer=" << layerName(i) << "\n";
    out << "\n";

    out << "# object declarations. uses tile coordinates\n";
    out << "# object=tileX,tileY,layerIndex,objectId\n";
    for (int layerIndex=0; layerIndex<m_layers.size(); ++layerIndex) {
        QList<MapObject *> objects = m_layers.at(layerIndex)->objects;
        for (int i=0; i<objects.size(); ++i) {
            MapObject * object = objects.at(i);
            if (object->layer == layerIndex)
                out << "object=" << object->tileX << "," << object->tileY << "," << layerIndex << "," << object->object->resourceName() << "\n";
        }
    }
    out << "\n";

    out << "# entity declarations. use absolute coordinates\n";
    out << "# entity=x,y,layerIndex,entityId\n";
    for (int layerIndex=0; layerIndex<m_layers.size(); ++layerIndex) {
        QList<EditorEntity *> entities = m_layers.at(layerIndex)->entities;
        for (int i=0; i<entities.size(); ++i) {
            EditorEntity * entity = entities.at(i);
            out << "entity=" << entity->centerX() << "," << entity->centerY() << "," << entity->layer() << "," << entity->name() << "\n";
        }
    }
}
Esempio n. 15
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QMap< QString, QDomElement > QgsProjectParser::projectLayerElementsByName() const
{
  QMap< QString, QDomElement > layerMap;
  if ( !mXMLDoc )
  {
    return layerMap;
  }

  QDomNodeList layerNodeList = mXMLDoc->elementsByTagName( "maplayer" );
  QDomElement currentElement;
  int nNodes = layerNodeList.size();
  for ( int i = 0; i < nNodes; ++i )
  {
    currentElement = layerNodeList.at( i ).toElement();
    layerMap.insert( layerName( currentElement ), currentElement );
  }
  return layerMap;
}
Esempio n. 16
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void atomAnimLayers::deleteEmptyLayers(bool replaceLayers)
{
	if(replaceLayers == true && mLayersWithRemovedAttrs.size() > 0)
	{
		for(std::set<std::string>::iterator iter = mLayersWithRemovedAttrs.begin(); iter !=
					mLayersWithRemovedAttrs.end(); ++iter)
		{
			std::string str = *iter;
			MString layerName(str.c_str());
			MStringArray resultArray;
			MString melCommand = MString("animLayer -query -attribute ") + MString("\"") + layerName + MString("\"");
			MGlobal::executeCommand(melCommand, resultArray, false, false );
			if(resultArray.length() ==0) //it has no attributes so delete it..
			{
				melCommand = MString("delete ") + MString("\"") + layerName + MString("\"");
				MGlobal::executeCommand(melCommand,false,false);
			}
		}
	}
}
Esempio n. 17
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int QgsProjectParser::layersAndStyles( QStringList& layers, QStringList& styles ) const
{
  layers.clear();
  styles.clear();

  QList<QDomElement> layerElemList = projectLayerElements();
  QList<QDomElement>::const_iterator elemIt = layerElemList.constBegin();

  QString currentLayerName;

  for ( ; elemIt != layerElemList.constEnd(); ++elemIt )
  {
    currentLayerName = layerName( *elemIt );
    if ( !currentLayerName.isNull() )
    {
      layers << currentLayerName;
      styles << "default";
    }
  }
  return 0;
}
Esempio n. 18
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void KTLayer::fromXml(const QString &xml)
{
    QDomDocument document;

    if (! document.setContent(xml))
        return;

    QDomElement root = document.documentElement();

    setLayerName(root.attribute("name", layerName()));

    QDomNode n = root.firstChild();

    while (!n.isNull()) {
           QDomElement e = n.toElement();

           if (!e.isNull()) {
               if (e.tagName() == "frame") {
                   KTFrame *frame = createFrame( k->frames.count(), true );

                   if (frame) {
                       QString newDoc;

                       {
                         QTextStream ts(&newDoc);
                         ts << n;
                       }

                       frame->fromXml(newDoc);
                   }
               }
           }

           n = n.nextSibling();
    }
}
Esempio n. 19
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QgsMapLayer* QgsServerProjectParser::createLayerFromElement( const QDomElement& elem, bool useCache ) const
{
  if ( elem.isNull() || !mXMLDoc )
  {
    return 0;
  }

  addJoinLayersForElement( elem, useCache );
  addValueRelationLayersForElement( elem, useCache );

  QDomElement dataSourceElem = elem.firstChildElement( "datasource" );
  QString uri = dataSourceElem.text();
  QString absoluteUri;
  if ( !dataSourceElem.isNull() )
  {
    //convert relative pathes to absolute ones if necessary
    if ( uri.startsWith( "dbname" ) ) //database
    {
      QgsDataSourceURI dsUri( uri );
      if ( dsUri.host().isEmpty() ) //only convert path for file based databases
      {
        QString dbnameUri = dsUri.database();
        QString dbNameUriAbsolute = convertToAbsolutePath( dbnameUri );
        if ( dbnameUri != dbNameUriAbsolute )
        {
          dsUri.setDatabase( dbNameUriAbsolute );
          absoluteUri = dsUri.uri();
          QDomText absoluteTextNode = mXMLDoc->createTextNode( absoluteUri );
          dataSourceElem.replaceChild( absoluteTextNode, dataSourceElem.firstChild() );
        }
      }
    }
    else if ( uri.startsWith( "file:" ) ) //a file based datasource in url notation (e.g. delimited text layer)
    {
      QString filePath = uri.mid( 5, uri.indexOf( "?" ) - 5 );
      QString absoluteFilePath = convertToAbsolutePath( filePath );
      if ( filePath != absoluteFilePath )
      {
        QUrl destUrl = QUrl::fromEncoded( uri.toAscii() );
        destUrl.setScheme( "file" );
        destUrl.setPath( absoluteFilePath );
        absoluteUri = destUrl.toEncoded();
        QDomText absoluteTextNode = mXMLDoc->createTextNode( absoluteUri );
        dataSourceElem.replaceChild( absoluteTextNode, dataSourceElem.firstChild() );
      }
      else
      {
        absoluteUri = uri;
      }
    }
    else //file based data source
    {
      absoluteUri = convertToAbsolutePath( uri );
      if ( uri != absoluteUri )
      {
        QDomText absoluteTextNode = mXMLDoc->createTextNode( absoluteUri );
        dataSourceElem.replaceChild( absoluteTextNode, dataSourceElem.firstChild() );
      }
    }
  }

  QString id = layerId( elem );
  QgsMapLayer* layer = 0;
  if ( useCache )
  {
    layer = QgsMSLayerCache::instance()->searchLayer( absoluteUri, id );
  }

  if ( layer )
  {
    return layer;
  }

  QString type = elem.attribute( "type" );
  if ( type == "vector" )
  {
    layer = new QgsVectorLayer();
  }
  else if ( type == "raster" )
  {
    layer = new QgsRasterLayer();
  }
  else if ( elem.attribute( "embedded" ) == "1" ) //layer is embedded from another project file
  {
    //todo: fixme
    /*
    QString project = convertToAbsolutePath( elem.attribute( "project" ) );
    QgsDebugMsg( QString( "Project path: %1" ).arg( project ) );

    QgsProjectParser* otherConfig = dynamic_cast<QgsProjectParser*>( QgsConfigCache::instance()->searchConfiguration( project ) );
    if ( !otherConfig )
    {
      return 0;
    }

    QHash< QString, QDomElement >::const_iterator layerIt = otherConfig->mProjectLayerElementsById.find( elem.attribute( "id" ) );
    if ( layerIt == otherConfig->mProjectLayerElementsById.constEnd() )
    {
      return 0;
    }
    return otherConfig->createLayerFromElement( layerIt.value() );
    */
  }

  if ( layer )
  {
    layer->readLayerXML( const_cast<QDomElement&>( elem ) ); //should be changed to const in QgsMapLayer
    layer->setLayerName( layerName( elem ) );
    if ( useCache )
    {
      QgsMSLayerCache::instance()->insertLayer( absoluteUri, id, layer, mProjectPath );
    }
    else
    {
      //todo: fixme
      //mLayersToRemove.push_back( layer );
    }
  }
  return layer;
}
Esempio n. 20
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GpuDevice GraphicsInstance::CreateGpuDevice(int , bool, bool)
{

  auto canPresent = [](vk::PhysicalDevice dev)
  {
    auto queueProperties = dev.getQueueFamilyProperties();
    for (auto&& queueProp : queueProperties)
    {
      for (uint32_t i = 0; i < queueProp.queueCount(); ++i)
      {
#if defined(PLATFORM_WINDOWS)
        if (dev.getWin32PresentationSupportKHR(i))
#endif
        {
          return true;
        }
      }
    }
    return false;
  };
  int devId = 0;
  for (devId = 0; devId < m_devices.size(); ++devId)
  {
    if (canPresent(m_devices[devId]))
      break;
  }
  auto&& physDev = m_devices[devId]; // assuming first device is best
  // layers
  std::vector<vk::LayerProperties> devLayers;
  physDev.enumerateDeviceLayerProperties(devLayers);
  std::vector<const char*> layers;
  {
    // lunargvalidation list order
    F_LOG("Enabled Vulkan debug layers for device:\n");
    for (auto&& it : layerOrder)
    {
      auto found = std::find_if(devLayers.begin(), devLayers.end(), [&](const vk::LayerProperties& layer)
      {
        return it == layer.layerName();
      });
      if (found != devLayers.end())
      {
        layers.push_back(it.c_str());
        m_layers.push_back(*found);
        F_LOG("%s\n", found->layerName());
      }
    }
  }
  // extensions
  std::vector<vk::ExtensionProperties> devExts;
  auto res = physDev.enumerateDeviceExtensionProperties("", devExts);
  if (res != vk::Result::eSuccess)
  {
    auto error = vk::getString(res);
    F_LOG("Device creation error: %s\n", error.c_str());
  }

  std::vector<const char*> extensions;
  {
    // lunargvalidation list order
    F_LOG("Enabled Vulkan extensions for device:\n");

    for (auto&& it : devExtOrder)
    {
      auto found = std::find_if(devExts.begin(), devExts.end(), [&](const vk::ExtensionProperties& layer)
      {
        return it == layer.extensionName();
      });
      if (found != devExts.end())
      {
        extensions.push_back(it.c_str());
        m_extensions.push_back(*found);
        F_LOG("found %s\n", found->extensionName());
      }
    }
  }
  // queue


  //auto queueProperties = vk::getPhysicalDeviceQueueFamilyProperties(physDev);
  auto queueProperties = physDev.getQueueFamilyProperties();
  std::vector<vk::DeviceQueueCreateInfo> queueInfos;
  uint32_t i = 0;
  std::vector<std::vector<float>> priorities;
  for (auto&& queueProp : queueProperties)
  {
    priorities.push_back(std::vector<float>());
    for (size_t k = 0; k < queueProp.queueCount(); ++k)
    {
      priorities[i].push_back(1.f);
    }
    vk::DeviceQueueCreateInfo queueInfo = vk::DeviceQueueCreateInfo()
      .sType(vk::StructureType::eDeviceQueueCreateInfo)
      .queueFamilyIndex(i)
      .queueCount(queueProp.queueCount())
      .pQueuePriorities(priorities[i].data());
    // queue priorities go here.
    queueInfos.push_back(queueInfo);
    ++i;
  }

  auto features = physDev.getFeatures();

  auto device_info = vk::DeviceCreateInfo()
    .sType(vk::StructureType::eDeviceCreateInfo)
    .queueCreateInfoCount(static_cast<uint32_t>(queueInfos.size()))
    .pQueueCreateInfos(queueInfos.data())
    .enabledLayerCount(static_cast<uint32_t>(layers.size()))
    .ppEnabledLayerNames(layers.data())
    .enabledExtensionCount(static_cast<uint32_t>(extensions.size()))
    .ppEnabledExtensionNames(extensions.data())
    .pEnabledFeatures(&features);


  auto dev = physDev.createDevice(device_info, m_alloc_info);
  FazPtrVk<vk::Device> device(dev, [=](vk::Device ist)
  {
    ist.destroy(&m_alloc_info);
  });

  return GpuDevice(device, m_alloc_info, false);
}
Esempio n. 21
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bool GENDRILL_WRITER_BASE::GenDrillReportFile( const wxString& aFullFileName )
{
    FILE_OUTPUTFORMATTER    out( aFullFileName );

    static const char separator[] =
        "    =============================================================\n";

    wxASSERT( m_pcb );

    unsigned    totalHoleCount;
    wxString    brdFilename = m_pcb->GetFileName();

    std::vector<DRILL_LAYER_PAIR> hole_sets = getUniqueLayerPairs();

    out.Print( 0, "Drill report for %s\n", TO_UTF8( brdFilename ) );
    out.Print( 0, "Created on %s\n\n", TO_UTF8( DateAndTime() ) );

    // Output the cu layer stackup, so layer name references make sense.
    out.Print( 0, "Copper Layer Stackup:\n" );
    out.Print( 0, separator );

    LSET cu = m_pcb->GetEnabledLayers() & LSET::AllCuMask();

    int conventional_layer_num = 1;

    for( LSEQ seq = cu.Seq();  seq;  ++seq, ++conventional_layer_num )
    {
        out.Print( 0, "    L%-2d:  %-25s %s\n",
            conventional_layer_num,
            TO_UTF8( m_pcb->GetLayerName( *seq ) ),
            layerName( *seq ).c_str()       // generic layer name
            );
    }

    out.Print( 0, "\n\n" );

    /* output hole lists:
     * 1 - through holes
     * 2 - for partial holes only: by layer starting and ending pair
     * 3 - Non Plated through holes
     */

    bool buildNPTHlist = false;     // First pass: build PTH list only

    // in this loop are plated only:
    for( unsigned pair_ndx = 0; pair_ndx < hole_sets.size();  ++pair_ndx )
    {
        DRILL_LAYER_PAIR  pair = hole_sets[pair_ndx];

        buildHolesList( pair, buildNPTHlist );

        if( pair == DRILL_LAYER_PAIR( F_Cu, B_Cu ) )
        {
            out.Print( 0, "Drill file '%s' contains\n",
                TO_UTF8( getDrillFileName( pair, false, m_merge_PTH_NPTH ) ) );

            out.Print( 0, "    plated through holes:\n" );
            out.Print( 0, separator );
            totalHoleCount = printToolSummary( out, false );
            out.Print( 0, "    Total plated holes count %u\n", totalHoleCount );
        }
        else    // blind/buried
        {
            out.Print( 0, "Drill file '%s' contains\n",
                TO_UTF8( getDrillFileName( pair, false, m_merge_PTH_NPTH ) ) );

            out.Print( 0, "    holes connecting layer pair: '%s and %s' (%s vias):\n",
                TO_UTF8( m_pcb->GetLayerName( ToLAYER_ID( pair.first ) ) ),
                TO_UTF8( m_pcb->GetLayerName( ToLAYER_ID( pair.second ) ) ),
                pair.first == F_Cu || pair.second == B_Cu ? "blind" : "buried"
                );

            out.Print( 0, separator );
            totalHoleCount = printToolSummary( out, false );
            out.Print( 0, "    Total plated holes count %u\n", totalHoleCount );
        }

        out.Print( 0, "\n\n" );
    }

    // NPTHoles. Generate the full list (pads+vias) if PTH and NPTH are merged,
    // or only the NPTH list (which never has vias)
    if( !m_merge_PTH_NPTH )
        buildNPTHlist = true;

    buildHolesList( DRILL_LAYER_PAIR( F_Cu, B_Cu ), buildNPTHlist );

    // nothing wrong with an empty NPTH file in report.
    if( m_merge_PTH_NPTH )
        out.Print( 0, "Not plated through holes are merged with plated holes\n" );
    else
        out.Print( 0, "Drill file '%s' contains\n",
                   TO_UTF8( getDrillFileName( DRILL_LAYER_PAIR( F_Cu, B_Cu ),
                   true, m_merge_PTH_NPTH ) ) );

    out.Print( 0, "    unplated through holes:\n" );
    out.Print( 0, separator );
    totalHoleCount = printToolSummary( out, true );
    out.Print( 0, "    Total unplated holes count %u\n", totalHoleCount );

    return true;
}
Esempio n. 22
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QString QgsLayerTreeLayer::dump() const
{
    return QString( "LAYER: %1 visible=%2 expanded=%3 id=%4\n" ).arg( layerName() ).arg( mVisible ).arg( mExpanded ).arg( layerId() );
}
Esempio n. 23
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QgsMapLayer* QgsProjectParser::createLayerFromElement( const QDomElement& elem ) const
{
  if ( elem.isNull() || !mXMLDoc )
  {
    return 0;
  }

  QString uri;
  QString absoluteUri;
  QDomElement dataSourceElem = elem.firstChildElement( "datasource" );
  if ( !dataSourceElem.isNull() )
  {
    //convert relative pathes to absolute ones if necessary
    uri = dataSourceElem.text();
    absoluteUri = convertToAbsolutePath( uri );
    if ( uri != absoluteUri )
    {
      QDomText absoluteTextNode = mXMLDoc->createTextNode( absoluteUri );
      dataSourceElem.replaceChild( absoluteTextNode, dataSourceElem.firstChild() );
    }
  }

  QString id = layerId( elem );
  QgsMapLayer* layer = QgsMSLayerCache::instance()->searchLayer( absoluteUri, id );
  if ( layer )
  {
    //reading symbology every time is necessary because it could have been changed by a user SLD based request
    QString error;
    layer->readSymbology( elem, error );
    return layer;
  }

  QString type = elem.attribute( "type" );
  if ( type == "vector" )
  {
    layer = new QgsVectorLayer();
  }
  else if ( type == "raster" )
  {
    layer = new QgsRasterLayer();
  }
  else if ( elem.attribute( "embedded" ) == "1" ) //layer is embedded from another project file
  {
    QString project = convertToAbsolutePath( elem.attribute( "project" ) );
    QgsDebugMsg( QString( "Project path: %1" ).arg( project ) );
    QgsProjectParser* otherConfig = dynamic_cast<QgsProjectParser*>( QgsConfigCache::instance()->searchConfiguration( project ) );
    if ( !otherConfig )
    {
      return 0;
    }

    QMap< QString, QDomElement > layerMap = otherConfig->projectLayerElementsById();
    QMap< QString, QDomElement >::const_iterator layerIt = layerMap.find( elem.attribute( "id" ) );
    if ( layerIt == layerMap.constEnd() )
    {
      return 0;
    }
    return otherConfig->createLayerFromElement( layerIt.value() );
  }

  if ( layer )
  {
    layer->readXML( const_cast<QDomElement&>( elem ) ); //should be changed to const in QgsMapLayer
    layer->setLayerName( layerName( elem ) );
    QgsMSLayerCache::instance()->insertLayer( absoluteUri, id, layer );
  }
  return layer;
}
Esempio n. 24
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bool GraphicsInstance::createInstance(const char* appName, unsigned appVersion, const char* engineName, unsigned engineVersion)
{
  /////////////////////////////////
  // getting debug layers
  // TODO: These need to be saved for device creation also. which layers and extensions each use.
  std::vector<vk::LayerProperties> layersInfos;
  vk::enumerateInstanceLayerProperties(layersInfos);

  std::vector<const char*> layers;
  {
    // lunargvalidation list order
    F_LOG("Enabled Vulkan debug layers:\n");
    for (auto&& it : layerOrder)
    {
      auto found = std::find_if(layersInfos.begin(), layersInfos.end(), [&](const vk::LayerProperties& layer)
      {
        return it == layer.layerName();
      });
      if (found != layersInfos.end())
      {
        layers.push_back(it.c_str());
        m_layers.push_back(*found);
        F_LOG("%s\n", found->layerName());
      }
    }
  }
  /////////////////////////////////
  // Getting extensions
  std::vector<vk::ExtensionProperties> extInfos;
  vk::enumerateInstanceExtensionProperties("", extInfos);

  std::vector<const char*> extensions;
  {
    // lunargvalidation list order
    F_LOG("Enabled Vulkan extensions:\n");

    for (auto&& it : extOrder)
    {
      auto found = std::find_if(extInfos.begin(), extInfos.end(), [&](const vk::ExtensionProperties& layer)
      {
        return it == layer.extensionName();
      });
      if (found != extInfos.end())
      {
        extensions.push_back(it.c_str());
        m_extensions.push_back(*found);
        F_LOG("found %s\n", found->extensionName());
      }
    }
  }

  /////////////////////////////////
  // app instance
  app_info = vk::ApplicationInfo()
    .sType(vk::StructureType::eApplicationInfo)
    .pApplicationName(appName)
    .applicationVersion(appVersion)
    .pEngineName(engineName)
    .engineVersion(engineVersion)
    .apiVersion(VK_API_VERSION);

  instance_info = vk::InstanceCreateInfo()
    .sType(vk::StructureType::eInstanceCreateInfo)
    .pApplicationInfo(&app_info)
    .enabledLayerCount(static_cast<uint32_t>(layers.size()))
    .ppEnabledLayerNames(layers.data())
    .enabledExtensionCount(static_cast<uint32_t>(extensions.size()))
    .ppEnabledExtensionNames(extensions.data());

  vk::Result res = vk::createInstance(&instance_info, &m_alloc_info, m_instance.Get());

  if (res != vk::Result::eSuccess)
  {
    // quite hot shit baby yeah!
    auto error = vk::getString(res);
    F_LOG("Instance creation error: %s\n", error.c_str());
    return false;
  }
  m_devices = m_instance->enumeratePhysicalDevices();

  // get addresses for few functions
  PFN_vkCreateDebugReportCallbackEXT dbgCreateDebugReportCallback;
  PFN_vkDestroyDebugReportCallbackEXT dbgDestroyDebugReportCallback;

  dbgCreateDebugReportCallback =
    (PFN_vkCreateDebugReportCallbackEXT)vkGetInstanceProcAddr(
      *m_instance.Get(), "vkCreateDebugReportCallbackEXT");
  if (!dbgCreateDebugReportCallback) {
    F_LOG("GetInstanceProcAddr: Unable to find vkCreateDebugReportCallbackEXT function.");;
    return true;
  }

  dbgDestroyDebugReportCallback =
    (PFN_vkDestroyDebugReportCallbackEXT)vkGetInstanceProcAddr(
      *m_instance.Get(), "vkDestroyDebugReportCallbackEXT");
  if (!dbgDestroyDebugReportCallback) {
    F_LOG("GetInstanceProcAddr: Unable to find vkDestroyDebugReportCallbackEXT function.\n");;
    return true;
  }
  // the debug things
  auto flags = vk::DebugReportFlagBitsEXT::eError | vk::DebugReportFlagBitsEXT::eWarning | vk::DebugReportFlagBitsEXT::eDebug;
  vk::DebugReportCallbackCreateInfoEXT info = vk::DebugReportCallbackCreateInfoEXT(flags, debugCallback, nullptr);

  auto lol = m_instance; // callback needs to keep instance alive until its destroyed... so this works :DD
  auto allocInfo = m_alloc_info;
  m_debugcallback = FazPtrVk<vk::DebugReportCallbackEXT>([lol, allocInfo, dbgDestroyDebugReportCallback](vk::DebugReportCallbackEXT ist)
  {
    dbgDestroyDebugReportCallback(*lol.Get(), ist, reinterpret_cast<const VkAllocationCallbacks*>(&allocInfo));
  });
  dbgCreateDebugReportCallback(*m_instance.Get(), reinterpret_cast<const VkDebugReportCallbackCreateInfoEXT*>(&info), reinterpret_cast<const VkAllocationCallbacks*>(&m_alloc_info), reinterpret_cast<VkDebugReportCallbackEXT*>(m_debugcallback.Get()));
  return true;
}