Exemplo n.º 1
0
void NASM::parseLstFile(QFile &lst, QVector<Assembler::LineNum> &lines, quint64 offset)
{
    bool inTextSection = false;
    QRegExp sectionTextRegExp("SECTION\\s+\\.?(text|code)");
    sectionTextRegExp.setCaseSensitivity(Qt::CaseInsensitive);
    QRegExp sectionRegExp("SECTION");
    sectionRegExp.setCaseSensitivity(Qt::CaseInsensitive);

    QList<QPair<quint64, QString> > instrList;
    QTextStream lstStream(&lst);
    lstStream.seek(0);
    while (!lstStream.atEnd()) {
        QString line = lstStream.readLine();
        if (line.indexOf(QRegExp("^ +[0-9]+ +<[0-9]+>")) != -1) { //macro
            continue;
        }
        if (line.indexOf(sectionTextRegExp) != -1) {
            inTextSection = true;
        } else if (line.indexOf(sectionRegExp) != -1) {
            inTextSection = false;
        }
        //! omit strings with data only
        //! if in list : line number, address, data and it is all (without instruction) -
        //! omit this string and subtract 1 from offset
        if (line.indexOf(QRegExp("^(\\s+[^\\s]+){4}")) == -1) {
            continue;
        }
        if (inTextSection) {
            QRegExp lineRegExp("^\\s+[0-9]+\\s+([0-9a-fA-F]+)\\s+\\S+\\s+(.*)");
            lineRegExp.setMinimal(false);
            if (lineRegExp.indexIn(line) == 0) {
                quint64 address = lineRegExp.cap(1).toULongLong(0, 16);
                QString instruction = lineRegExp.cap(2).trimmed();
                instrList.append(QPair<quint64, QString>(address + offset, instruction));
            }
        }
    }

    QFile programFile(Common::pathInTemp("program.asm"));
    programFile.open(QFile::ReadOnly);
    QTextStream programStream(&programFile);
    //! Offset in list
    int i = 0;
    int numInCode = 0;
    while (!programStream.atEnd()) {
        if (i >= instrList.size()) {
            break;
        }
        QString line = programStream.readLine();
        numInCode++;
        line = line.trimmed();
        if (line == instrList[i].second) {
            LineNum l;
            l.numInCode = numInCode;
            l.numInMem = instrList[i].first;
            lines.append(l);
            i++;
        }
    }
    programFile.close();
}
void QSGTextMaskMaterial::populate(const QPointF &p,
                                   const QVector<quint32> &glyphIndexes,
                                   const QVector<QPointF> &glyphPositions,
                                   QSGGeometry *geometry,
                                   QRectF *boundingRect,
                                   QPointF *baseLine,
                                   const QMargins &margins)
{
    Q_ASSERT(m_font.isValid());
    QVector<QFixedPoint> fixedPointPositions;
    for (int i=0; i<glyphPositions.size(); ++i)
        fixedPointPositions.append(QFixedPoint::fromPointF(glyphPositions.at(i)));

    QTextureGlyphCache *cache = glyphCache();

    QRawFontPrivate *fontD = QRawFontPrivate::get(m_font);
    cache->populate(fontD->fontEngine, glyphIndexes.size(), glyphIndexes.constData(),
                    fixedPointPositions.data());
    cache->fillInPendingGlyphs();

    int margin = fontD->fontEngine->glyphMargin(cache->glyphFormat());

    qreal glyphCacheScaleX = cache->transform().m11();
    qreal glyphCacheScaleY = cache->transform().m22();
    qreal glyphCacheInverseScaleX = 1.0 / glyphCacheScaleX;
    qreal glyphCacheInverseScaleY = 1.0 / glyphCacheScaleY;

    Q_ASSERT(geometry->indexType() == GL_UNSIGNED_SHORT);
    geometry->allocate(glyphIndexes.size() * 4, glyphIndexes.size() * 6);
    QVector4D *vp = (QVector4D *)geometry->vertexDataAsTexturedPoint2D();
    Q_ASSERT(geometry->sizeOfVertex() == sizeof(QVector4D));
    ushort *ip = geometry->indexDataAsUShort();

    QPointF position(p.x(), p.y() - m_font.ascent());
    bool supportsSubPixelPositions = fontD->fontEngine->supportsSubPixelPositions();
    for (int i=0; i<glyphIndexes.size(); ++i) {
         QFixed subPixelPosition;
         if (supportsSubPixelPositions)
             subPixelPosition = fontD->fontEngine->subPixelPositionForX(QFixed::fromReal(glyphPositions.at(i).x()));

         QTextureGlyphCache::GlyphAndSubPixelPosition glyph(glyphIndexes.at(i), subPixelPosition);
         const QTextureGlyphCache::Coord &c = cache->coords.value(glyph);

         QPointF glyphPosition = glyphPositions.at(i) + position;

         // On a retina screen the glyph positions are not pre-scaled (as opposed to
         // eg. the raster paint engine). To ensure that we get the same behavior as
         // the raster engine (and CoreText itself) when it comes to rounding of the
         // coordinates, we need to apply the scale factor before rounding, and then
         // apply the inverse scale to get back to the coordinate system of the node.

         qreal x = (qFloor(glyphPosition.x() * glyphCacheScaleX) * glyphCacheInverseScaleX) +
                        (c.baseLineX * glyphCacheInverseScaleX) - margin;
         qreal y = (qRound(glyphPosition.y() * glyphCacheScaleY) * glyphCacheInverseScaleY) -
                        (c.baseLineY * glyphCacheInverseScaleY) - margin;

         qreal w = c.w * glyphCacheInverseScaleX;
         qreal h = c.h * glyphCacheInverseScaleY;

         *boundingRect |= QRectF(x + margin, y + margin, w, h);

         float cx1 = x - margins.left();
         float cx2 = x + w + margins.right();
         float cy1 = y - margins.top();
         float cy2 = y + h + margins.bottom();

         float tx1 = c.x - margins.left();
         float tx2 = c.x + c.w + margins.right();
         float ty1 = c.y - margins.top();
         float ty2 = c.y + c.h + margins.bottom();

         if (baseLine->isNull())
             *baseLine = glyphPosition;

         vp[4 * i + 0] = QVector4D(cx1, cy1, tx1, ty1);
         vp[4 * i + 1] = QVector4D(cx2, cy1, tx2, ty1);
         vp[4 * i + 2] = QVector4D(cx1, cy2, tx1, ty2);
         vp[4 * i + 3] = QVector4D(cx2, cy2, tx2, ty2);

         int o = i * 4;
         ip[6 * i + 0] = o + 0;
         ip[6 * i + 1] = o + 2;
         ip[6 * i + 2] = o + 3;
         ip[6 * i + 3] = o + 3;
         ip[6 * i + 4] = o + 1;
         ip[6 * i + 5] = o + 0;
    }
}
Exemplo n.º 3
0
QVector<QgsDataItem *> QgsWMSConnectionItem::createChildren()
{
  QVector<QgsDataItem *> children;

  QgsDataSourceUri uri;
  uri.setEncodedUri( mUri );

  QgsDebugMsg( "mUri = " + mUri );

  QgsWmsSettings wmsSettings;
  if ( !wmsSettings.parseUri( mUri ) )
  {
    children.append( new QgsErrorItem( this, tr( "Failed to parse WMS URI" ), mPath + "/error" ) );
    return children;
  }

  bool res = mCapabilitiesDownload->downloadCapabilities( wmsSettings.baseUrl(), wmsSettings.authorization() );

  if ( !res )
  {
    children.append( new QgsErrorItem( this, tr( "Failed to download capabilities" ), mPath + "/error" ) );
    return children;
  }

  QgsWmsCapabilities caps;
  if ( !caps.parseResponse( mCapabilitiesDownload->response(), wmsSettings.parserSettings() ) )
  {
    children.append( new QgsErrorItem( this, tr( "Failed to parse capabilities" ), mPath + "/error" ) );
    return children;
  }

  // Attention: supportedLayers() gives tree leafs, not top level
  QVector<QgsWmsLayerProperty> layerProperties = caps.supportedLayers();
  if ( !layerProperties.isEmpty() )
  {
    QgsWmsCapabilitiesProperty capabilitiesProperty = caps.capabilitiesProperty();
    const QgsWmsCapabilityProperty &capabilityProperty = capabilitiesProperty.capability;

    for ( const QgsWmsLayerProperty &layerProperty : qgis::as_const( capabilityProperty.layers ) )
    {
      // Attention, the name may be empty
      QgsDebugMsg( QString::number( layerProperty.orderId ) + ' ' + layerProperty.name + ' ' + layerProperty.title );
      QString pathName = layerProperty.name.isEmpty() ? QString::number( layerProperty.orderId ) : layerProperty.name;

      QgsWMSLayerItem *layer = new QgsWMSLayerItem( this, layerProperty.title, mPath + '/' + pathName, capabilitiesProperty, uri, layerProperty );

      children << layer;
    }
  }

  QList<QgsWmtsTileLayer> tileLayers = caps.supportedTileLayers();
  if ( !tileLayers.isEmpty() )
  {
    QHash<QString, QgsWmtsTileMatrixSet> tileMatrixSets = caps.supportedTileMatrixSets();

    const auto constTileLayers = tileLayers;
    for ( const QgsWmtsTileLayer &l : constTileLayers )
    {
      QString title = l.title.isEmpty() ? l.identifier : l.title;
      QgsDataItem *layerItem = l.styles.size() == 1 ? this : new QgsDataCollectionItem( this, title, mPath + '/' + l.identifier );
      if ( layerItem != this )
      {
        layerItem->setCapabilities( layerItem->capabilities2() & ~QgsDataItem::Fertile );
        layerItem->setState( QgsDataItem::Populated );
        layerItem->setToolTip( title );
        children << layerItem;
      }

      for ( const QgsWmtsStyle &style : qgis::as_const( l.styles ) )
      {
        QString styleName = style.title.isEmpty() ? style.identifier : style.title;
        if ( layerItem == this )
          styleName = title;  // just one style so no need to display it

        QgsDataItem *styleItem = l.setLinks.size() == 1 ? layerItem : new QgsDataCollectionItem( layerItem, styleName, layerItem->path() + '/' + style.identifier );
        if ( styleItem != layerItem )
        {
          styleItem->setCapabilities( styleItem->capabilities2() & ~QgsDataItem::Fertile );
          styleItem->setState( QgsDataItem::Populated );
          styleItem->setToolTip( styleName );
          if ( layerItem == this )
            children << styleItem;
          else
            layerItem->addChildItem( styleItem );
        }

        for ( const QgsWmtsTileMatrixSetLink &setLink : qgis::as_const( l.setLinks ) )
        {
          QString linkName = setLink.tileMatrixSet;
          if ( styleItem == layerItem )
            linkName = styleName;  // just one link so no need to display it

          QgsDataItem *linkItem = l.formats.size() == 1 ? styleItem : new QgsDataCollectionItem( styleItem, linkName, styleItem->path() + '/' + setLink.tileMatrixSet );
          if ( linkItem != styleItem )
          {
            linkItem->setCapabilities( linkItem->capabilities2() & ~QgsDataItem::Fertile );
            linkItem->setState( QgsDataItem::Populated );
            linkItem->setToolTip( linkName );
            if ( styleItem == this )
              children << linkItem;
            else
              styleItem->addChildItem( linkItem );
          }

          for ( const QString &format : qgis::as_const( l.formats ) )
          {
            QString name = format;
            if ( linkItem == styleItem )
              name = linkName;  // just one format so no need to display it

            QgsDataItem *tileLayerItem = new QgsWMTSLayerItem( linkItem, name, linkItem->path() + '/' + name, uri,
                l.identifier, format, style.identifier, setLink.tileMatrixSet, tileMatrixSets[ setLink.tileMatrixSet ].crs, title );
            tileLayerItem->setToolTip( name );
            if ( linkItem == this )
              children << tileLayerItem;
            else
              linkItem->addChildItem( tileLayerItem );
          }
        }
      }
    }
  }

  return children;
}
Exemplo n.º 4
0
		void warn(QString msg)
		{
			qWarning()<<"W:" <<msg;
			m_errors.append("WARNING: "+msg);
		}
Exemplo n.º 5
0
void QRecipeTableItem::compile(QSqlDatabase &db, int nSceneId,int &count,int index)
{
    count++;
    QVisableItem::compile(db, nSceneId, count,index);
    int nItemID = count;

    if(sPro.enableTouch && !sPro.byGroups_T)
    {
        //触控受位控制 增一个地址表
        count++;
    }
    if(sPro.bNotice)
    {
        //触控解锁通知到地址 增加一个地址表
        count++;
    }
    if(sPro.enableVisable && !sPro.byGroups_V)
    {
        //显现受位控制 增加一个地址表
        count++;
    }

    QRectF rect = this->sceneBoundingRect();
    QSqlQuery sqlquery(db);

    bool bReasult = false;
    bReasult = sqlquery.prepare("INSERT INTO recipeDisplay(nItemId,nSceneId,nStartPosX,nStartPosY,nWidth,"
                                "nHeight,nRecipeGroupId,bShowRecipeID,bShowDescrip,eTextAlignType,"
                                "nLanguaId,nRowShowNum,nColumShowNum,nHHeadTextColor,nHHeadBackColor,"
                                "nHHeadFontSize,sHHeadFontFamily,nVHeadTextColor,nVHeadBackColor,"
                                "nVHeadFontSize,sVHeadFontFamily,nDataTextColor,nDataBackColor,"
                                "nDataFontSize,nLineColor,nTransparent,nZvalue,nCollidindId,nShowPropId)"
                                "VALUES (:nItemId,:nSceneId,:nStartPosX,:nStartPosY,:nWidth,"
                                ":nHeight,:nRecipeGroupId,:bShowRecipeID,:bShowDescrip,:eTextAlignType,"
                                ":nLanguaId,:nRowShowNum,:nColumShowNum,:nHHeadTextColor,:nHHeadBackColor,"
                                ":nHHeadFontSize,:sHHeadFontFamily,:nVHeadTextColor,:nVHeadBackColor,"
                                ":nVHeadFontSize,:sVHeadFontFamily,:nDataTextColor,:nDataBackColor,"
                                ":nDataFontSize,:nLineColor,:nTransparent,:nZvalue,:nCollidindId,:nShowPropId)");

    sqlquery.bindValue(":nItemId",QVariant(nItemID));
    sqlquery.bindValue(":nSceneId",QVariant(nSceneId));
    sqlquery.bindValue(":nStartPosX",QVariant(rect.x()));
    sqlquery.bindValue(":nStartPosY",QVariant(rect.y()));
    sqlquery.bindValue(":nWidth",QVariant(rect.width()));
    sqlquery.bindValue(":nHeight",QVariant(rect.height()));
    sqlquery.bindValue(":nRecipeGroupId",QVariant(m_SaveInfo.nRecipeGroupId));
    sqlquery.bindValue(":bShowRecipeID",QVariant(m_SaveInfo.bShowRecipeID));
    sqlquery.bindValue(":bShowDescrip",QVariant(m_SaveInfo.bShowDescrip));
    int nAlign = 0;
    if(0 == m_SaveInfo.eTextAlignType)//center
    {
        nAlign = 2;
    }
    else if(1 == m_SaveInfo.eTextAlignType)//left
    {
        nAlign = 1;
    }
    else
    {
        nAlign = 3;
    }
    sqlquery.bindValue(":eTextAlignType",QVariant(nAlign));
    sqlquery.bindValue(":nLanguaId",QVariant(m_SaveInfo.nLanguaId));
    sqlquery.bindValue(":nRowShowNum",QVariant(m_SaveInfo.nRowShowNum));
    sqlquery.bindValue(":nColumShowNum",QVariant(m_SaveInfo.nColumShowNum));
    sqlquery.bindValue(":nHHeadTextColor",QVariant(ColorToInt(m_SaveInfo.nHHeadTextColor)));
    sqlquery.bindValue(":nHHeadBackColor",QVariant(ColorToInt(m_SaveInfo.nHHeadBackColor)));
    sqlquery.bindValue(":nHHeadFontSize",QVariant(m_SaveInfo.nHHeadFontSize + 5));
    sqlquery.bindValue(":sHHeadFontFamily",QVariant(m_SaveInfo.sHHeadFontFamily));
    sqlquery.bindValue(":nVHeadTextColor",QVariant(ColorToInt(m_SaveInfo.nVHeadTextColor)));
    sqlquery.bindValue(":nVHeadBackColor",QVariant(ColorToInt(m_SaveInfo.nVHeadBackColor)));
    sqlquery.bindValue(":nVHeadFontSize",QVariant(m_SaveInfo.nVHeadFontSize + 5));
    sqlquery.bindValue(":sVHeadFontFamily",QVariant(m_SaveInfo.sVHeadFontFamily));
    sqlquery.bindValue(":nDataTextColor",QVariant(ColorToInt(m_SaveInfo.nDataTextColor)));
    sqlquery.bindValue(":nDataBackColor",QVariant(ColorToInt(m_SaveInfo.nDataBackColor)));
    sqlquery.bindValue(":nDataFontSize",QVariant(m_SaveInfo.nDataFontSize + 5));
    sqlquery.bindValue(":nLineColor",QVariant(ColorToInt(m_SaveInfo.nLineColor)));
    sqlquery.bindValue(":nTransparent",QVariant(ColorToInt(m_SaveInfo.nTransparent)));
    sqlquery.bindValue(":nZvalue",QVariant(zValue()));
    sqlquery.bindValue(":nCollidindId",QVariant(index));
    sqlquery.bindValue(":nShowPropId",QVariant(-1));
    bReasult = sqlquery.exec();
    qDebug()<<"INSERT INTO recipeDisplay"<<bReasult;

    QList<QGraphicsItem *> list = childItems();
    QString sName = "";
    QVector<qreal> vVLine;              //用来存垂直线的数据
    QVector<qreal> vHLine;             //用来存水平线的数据
    vVLine.clear();
    vHLine.clear();
    vVLine.append(rect.x());
    vHLine.append(rect.y());
    //vTileTex.clear();

    foreach(QGraphicsItem *pItem,list)
    {
        QPointF pos = pItem->boundingRect().topLeft()+pItem->scenePos();
        sName = pItem->data(GROUP_NAME_KEY).toString();
        if(sName.contains("VLine")) //垂直线
        {
            vVLine.append(pos.x());
        }
        if(sName.contains("HLine")) //水平线
        {
            vHLine.append(pos.y());
        }
    }
/*
 * Load the file with chosen filename and emit the signal sendFileData() when the file is read.
 */
void ConvertEcgToIbi::run()
{
	QFile myFile(fname);
	if (myFile.open(QIODevice::ReadOnly | QIODevice::Text)) {
		time.start();
		QTextStream ecgInfo(&myFile);
		QVector<int > ecgVals;
        QVector<double> timeData;
		int iterations;
		if (!ecgInfo.atEnd()) {
			QString strVals = ecgInfo.readLine();
			ecgInfo.readLine();
			ecgInfo.readLine();
			double tmp;
			int i=0;
			while (!ecgInfo.atEnd()) {

				strVals = ecgInfo.readLine();
				QStringList strPieces = strVals.split(QRegularExpression("\\s+"));


				if (strPieces.length()==4) {
                    tmp=strPieces[2].toDouble();
                    ecgVals.append((tmp*500)); ///< @todo normalize input to work with more files

				}
				else if (strPieces.length()==3) {
                                    tmp=strPieces[2].toDouble();
                                    ecgVals.append((tmp*500));
                                                    }
				else if (strPieces.length()==5){

					tmp=strPieces[2].toDouble();
                    ecgVals.append((tmp*500));
                    }
				else {
					std::cerr << "Wrong File" << std::endl;
					return;
				}
				i++;
                }
            QVector<double> qrsPeaks;
			extractRtoR(&ecgVals, &qrsPeaks);
            qrsPeaks.takeFirst();// Remove the influense of the QRS-detectors learning period
            qrsPeaks.takeFirst();// Remove the influense of the QRS-detectors learning period
            qrsPeaks.takeFirst();// Remove the influense of the QRS-detectors learning period
            tmp=0;
            for (int i; i<qrsPeaks.length(); i++){
                tmp=tmp+(qrsPeaks.at(i));
                timeData.append(tmp);
            }
            if (qrsPeaks.length()>10){   ///@todo FIX this check neater
                emit sendFileData(qrsPeaks,timeData);
                saveAsIbiFile(&qrsPeaks);
            }
            else
                std::cerr << "Not enough R peaks detected" << std::endl;
            qDebug("Time elapsed: %d ms", time.elapsed());

		}
		ecgInfo.flush();
		myFile.close();



	}

}
Exemplo n.º 7
0
 void AddMember(QVector<PublicIdentity> &group, const Id &id = Id())
 {
   group.append(CreateMember(id));
 }
Exemplo n.º 8
0
void ChartPlot::propertiesChart()
{
    if (! plotPropGui)
    {
        plotPropGui = new PlotPropertiesGUI(this);
        plotPropGui->consistGUI(( QList<InternalCurve *> *) &internalCurves);    
    }
    
    // Creates chart objects back-up
	QPalette plotterPalette = palette();
    int plotterMargin = margin();
    int plotterLWidth = lineWidth();
    QPalette canvasPalette = canvas()->palette();
    QFont titleFont = title().font(), axesFont = axisTitle(QwtPlot::xBottom).font();
    QFont scalesFont = axisFont(QwtPlot::xBottom), legendFont = legend()->font();
    QVector<CurveBkp> curvesBkp;
    for (int i = 0; i < internalCurves.size(); i++)
    {
        CurveBkp bkp;
        bkp.pen = internalCurves.at(i)->plotCurve->pen();
        bkp.style = internalCurves.at(i)->plotCurve->style();
        bkp.symbol = internalCurves.at(i)->plotCurve->symbol();
        curvesBkp.append(bkp);
    }

    if (! plotPropGui->exec())
    {
        // Roll-backs plotter objects

        setPalette(plotterPalette);
        setMargin(plotterMargin);
        setLineWidth(plotterLWidth);

        // Title 
        QwtText text = title();
        text.setFont(titleFont);
        setTitle(text);

        // Axes
        text = axisTitle(QwtPlot::xBottom);
        text.setFont(axesFont);
        setAxisTitle(QwtPlot::xBottom, text);

        text = axisTitle(QwtPlot::yLeft);
        text.setFont(axesFont);
        setAxisTitle(QwtPlot::yLeft, text);

        // Scale
        setAxisFont(QwtPlot::xBottom, scalesFont);
        setAxisFont(QwtPlot::yLeft, scalesFont);

        legend()->setFont(legendFont);
        canvas()->setPalette(canvasPalette);

        for (int i = 0; i < curvesBkp.size(); i++)
        {
            CurveBkp bkp = curvesBkp.at(i);
            internalCurves.at(i)->plotCurve->setPen(bkp.pen);
            internalCurves.at(i)->plotCurve->setStyle(bkp.style);
            internalCurves.at(i)->plotCurve->setSymbol(bkp.symbol);
        }
    }
}
Exemplo n.º 9
0
void ShaderNode::bindOutputBuffers( QVector<GLenum> &Buffers, QList< QSharedPointer<InterfacePin> > &OutPinLst, int &W, int &H, int &D )
{
	for( QList< QSharedPointer<InterfacePin> >::iterator it = OutPinLst.begin() ; it != OutPinLst.end() ; it++ )
	{
		QSharedPointer<InterfacePin>	OutPin = *it;

		if( !OutPin->isConnected() )
		{
			continue;
		}

		QSharedPointer<InterfacePin>			DstPin = OutPin->connectedPin();

		if( DstPin == 0 )
		{
			continue;
		}

		QSharedPointer<InterfacePinControl>		DstControl = DstPin->control();

		if( DstControl == 0 )
		{
			continue;
		}

		InterfaceTexture		*DstTexture = qobject_cast<InterfaceTexture *>( DstControl->object() );

		if( DstTexture == 0 )
		{
			continue;
		}

		if( DstTexture->textureId() == 0 )
		{
			DstTexture->update( 0, 0 );

			if( DstTexture->textureId() == 0 )
			{
				continue;
			}
		}

		if( Buffers.empty() )
		{
			W = DstTexture->size().at( 0 );
			H = DstTexture->size().at( 1 );
			D = DstTexture->size().at( 2 );
		}

		//glBindTexture( DstTexture->target(), 0 );

		if( mFrameBufferId == 0 )
		{
			glGenFramebuffers( 1, &mFrameBufferId );

			if( mFrameBufferId == 0 )
			{
				continue;
			}
		}

		glBindFramebuffer( GL_FRAMEBUFFER, mFrameBufferId );

		switch( DstTexture->target() )
		{
			case GL_TEXTURE_1D:
				glFramebufferTexture1D( GL_FRAMEBUFFER, GL_COLOR_ATTACHMENT0 + Buffers.size(), DstTexture->target(), DstTexture->textureId(), 0 );
				break;

			case GL_TEXTURE_2D:
			case GL_TEXTURE_RECTANGLE:
				glFramebufferTexture2D( GL_FRAMEBUFFER, GL_COLOR_ATTACHMENT0 + Buffers.size(), DstTexture->target(), DstTexture->textureId(), 0 );
				break;

			case GL_TEXTURE_3D:
				glFramebufferTexture3D( GL_FRAMEBUFFER, GL_COLOR_ATTACHMENT0 + Buffers.size(), DstTexture->target(), DstTexture->textureId(), 0, 0 );
				break;
		}

		OPENGL_PLUGIN_DEBUG;

		Buffers.append( GL_COLOR_ATTACHMENT0 + Buffers.size() );
	}
}
Exemplo n.º 10
0
QT_BEGIN_NAMESPACE

QVector<EGLint> q_createConfigAttributesFromFormat(const QPlatformWindowFormat &format)
{
    int redSize     = format.redBufferSize();
    int greenSize   = format.greenBufferSize();
    int blueSize    = format.blueBufferSize();
    int alphaSize   = format.alphaBufferSize();
    int depthSize   = format.depthBufferSize();
    int stencilSize = format.stencilBufferSize();
    int sampleCount = format.samples();

    // QPlatformWindowFormat uses a magic value of -1 to indicate "don't care", even when a buffer of that
    // type has been requested. So we must check QPlatformWindowFormat's booleans too if size is -1:
    if (format.alpha() && alphaSize <= 0)
        alphaSize = 1;
    if (format.depth() && depthSize <= 0)
        depthSize = 1;
    if (format.stencil() && stencilSize <= 0)
        stencilSize = 1;
    if (format.sampleBuffers() && sampleCount <= 0)
        sampleCount = 1;

    // We want to make sure 16-bit configs are chosen over 32-bit configs as they will provide
    // the best performance. The EGL config selection algorithm is a bit stange in this regard:
    // The selection criteria for EGL_BUFFER_SIZE is "AtLeast", so we can't use it to discard
    // 32-bit configs completely from the selection. So it then comes to the sorting algorithm.
    // The red/green/blue sizes have a sort priority of 3, so they are sorted by first. The sort
    // order is special and described as "by larger _total_ number of color bits.". So EGL will
    // put 32-bit configs in the list before the 16-bit configs. However, the spec also goes on
    // to say "If the requested number of bits in attrib_list for a particular component is 0,
    // then the number of bits for that component is not considered". This part of the spec also
    // seems to imply that setting the red/green/blue bits to zero means none of the components
    // are considered and EGL disregards the entire sorting rule. It then looks to the next
    // highest priority rule, which is EGL_BUFFER_SIZE. Despite the selection criteria being
    // "AtLeast" for EGL_BUFFER_SIZE, it's sort order is "smaller" meaning 16-bit configs are
    // put in the list before 32-bit configs. So, to make sure 16-bit is preffered over 32-bit,
    // we must set the red/green/blue sizes to zero. This has an unfortunate consequence that
    // if the application sets the red/green/blue size to 5/6/5 on the QPlatformWindowFormat,
    // they will probably get a 32-bit config, even when there's an RGB565 config available.

    // Now normalize the values so -1 becomes 0
    redSize   = redSize   > 0 ? redSize   : 0;
    greenSize = greenSize > 0 ? greenSize : 0;
    blueSize  = blueSize  > 0 ? blueSize  : 0;
    alphaSize = alphaSize > 0 ? alphaSize : 0;
    depthSize = depthSize > 0 ? depthSize : 0;
    stencilSize = stencilSize > 0 ? stencilSize : 0;
    sampleCount = sampleCount > 0 ? sampleCount : 0;

    QVector<EGLint> configAttributes;

    configAttributes.append(EGL_RED_SIZE);
    configAttributes.append(redSize);

    configAttributes.append(EGL_GREEN_SIZE);
    configAttributes.append(greenSize);

    configAttributes.append(EGL_BLUE_SIZE);
    configAttributes.append(blueSize);

    configAttributes.append(EGL_ALPHA_SIZE);
    configAttributes.append(alphaSize);

    configAttributes.append(EGL_DEPTH_SIZE);
    configAttributes.append(depthSize);

    configAttributes.append(EGL_STENCIL_SIZE);
    configAttributes.append(stencilSize);

    configAttributes.append(EGL_SAMPLES);
    configAttributes.append(sampleCount);

    configAttributes.append(EGL_SAMPLE_BUFFERS);
    configAttributes.append(sampleCount? 1:0);

    return configAttributes;
}
Exemplo n.º 11
0
QVector<QgsPoint> QgsSimplifyFeature::simplifyPoints( const QVector<QgsPoint>& pts, double tolerance )
{
  //just safety precaution
  if ( tolerance < 0 )
    return pts;
  // Douglas-Peucker simplification algorithm

  int anchor  = 0;
  int floater = pts.size() - 1;

  QList<StackEntry> stack;
  StackEntry temporary;
  StackEntry entry = {anchor, floater};
  stack.append( entry );

  QSet<int> keep;
  double anchorX;
  double anchorY;
  double seg_len;
  double max_dist;
  int farthest;
  double dist_to_seg;
  double vecX;
  double vecY;

  while ( !stack.empty() )
  {
    temporary = stack.takeLast();
    anchor = temporary.anchor;
    floater = temporary.floater;
    // initialize line segment
    if ( pts[floater] != pts[anchor] )
    {
      anchorX = pts[floater].x() - pts[anchor].x();
      anchorY = pts[floater].y() - pts[anchor].y();
      seg_len = sqrt( anchorX * anchorX + anchorY * anchorY );
      // get the unit vector
      anchorX /= seg_len;
      anchorY /= seg_len;
    }
    else
    {
      anchorX = anchorY = seg_len = 0.0;
    }
    // inner loop:
    max_dist = 0.0;
    farthest = anchor + 1;
    for ( int i = anchor + 1; i < floater; i++ )
    {
      dist_to_seg = 0.0;
      // compare to anchor
      vecX = pts[i].x() - pts[anchor].x();
      vecY = pts[i].y() - pts[anchor].y();
      seg_len = sqrt( vecX * vecX + vecY * vecY );
      // dot product:
      double proj = vecX * anchorX + vecY * anchorY;
      if ( proj < 0.0 )
      {
        dist_to_seg = seg_len;
      }
      else
      {
        // compare to floater
        vecX = pts[i].x() - pts[floater].x();
        vecY = pts[i].y() - pts[floater].y();
        seg_len = sqrt( vecX * vecX + vecY * vecY );
        // dot product:
        proj = vecX * ( -anchorX ) + vecY * ( -anchorY );
        if ( proj < 0.0 )
        {
          dist_to_seg = seg_len;
        }
        else
        {  // calculate perpendicular distance to line (pythagorean theorem):
          dist_to_seg = sqrt( qAbs( seg_len * seg_len - proj * proj ) );
        }
        if ( max_dist < dist_to_seg )
        {
          max_dist = dist_to_seg;
          farthest = i;
        }
      }
    }
    if ( max_dist <= tolerance )
    { // # use line segment
      keep.insert( anchor );
      keep.insert( floater );
    }
    else
    {
      StackEntry s = {anchor, farthest};
      stack.append( s );

      StackEntry r = {farthest, floater};
      stack.append( r );
    }
  }

  QList<int> keep2 = keep.toList();
  qSort( keep2 );

  QVector<QgsPoint> result;
  int position;
  while ( !keep2.empty() )
  {
    position = keep2.takeFirst();
    result.append( pts[position] );
  }
  return result;
}
Exemplo n.º 12
0
EGLConfig q_configFromQPlatformWindowFormat(EGLDisplay display, const QPlatformWindowFormat &format, bool highestPixelFormat, int surfaceType)
{
    EGLConfig cfg = 0;
    QVector<EGLint> configureAttributes = q_createConfigAttributesFromFormat(format);
    configureAttributes.append(EGL_SURFACE_TYPE); //we only support eglconfigs for windows for now
    configureAttributes.append(surfaceType);

    configureAttributes.append(EGL_RENDERABLE_TYPE);
    if (format.windowApi() == QPlatformWindowFormat::OpenVG) {
        configureAttributes.append(EGL_OPENVG_BIT);        
    } else {
        configureAttributes.append(EGL_OPENGL_ES2_BIT);
    }
    configureAttributes.append(EGL_NONE);

    do {
        // Get the number of matching configurations for this set of properties.
        EGLint matching = 0;
        if (!eglChooseConfig(display, configureAttributes.constData(), 0, 0, &matching) || !matching)
            continue;

        // If we want the best pixel format, then return the first
        // matching configuration.
        if (highestPixelFormat) {
            eglChooseConfig(display, configureAttributes.constData(), &cfg, 1, &matching);
            if (matching < 1)
                continue;
            return cfg;
        }

        // Fetch all of the matching configurations and find the
        // first that matches the pixel format we wanted.
        int i = configureAttributes.indexOf(EGL_RED_SIZE);
        int confAttrRed = configureAttributes.at(i+1);
        i = configureAttributes.indexOf(EGL_GREEN_SIZE);
        int confAttrGreen = configureAttributes.at(i+1);
        i = configureAttributes.indexOf(EGL_BLUE_SIZE);
        int confAttrBlue = configureAttributes.at(i+1);
        i = configureAttributes.indexOf(EGL_ALPHA_SIZE);
        int confAttrAlpha = configureAttributes.at(i+1);

        EGLint size = matching;
        EGLConfig *configs = new EGLConfig [size];
        eglChooseConfig(display, configureAttributes.constData(), configs, size, &matching);
        for (EGLint index = 0; index < size; ++index) {
            EGLint red, green, blue, alpha;
            eglGetConfigAttrib(display, configs[index], EGL_RED_SIZE, &red);
            eglGetConfigAttrib(display, configs[index], EGL_GREEN_SIZE, &green);
            eglGetConfigAttrib(display, configs[index], EGL_BLUE_SIZE, &blue);
            eglGetConfigAttrib(display, configs[index], EGL_ALPHA_SIZE, &alpha);
            if (red == confAttrRed &&
                    green == confAttrGreen &&
                    blue == confAttrBlue &&
                    (confAttrAlpha == 0 ||
                     alpha == confAttrAlpha)) {
                cfg = configs[index];
                delete [] configs;
                return cfg;
            }
        }
        delete [] configs;
    } while (q_reduceConfigAttributes(&configureAttributes));
    qWarning("Cant find EGLConfig, returning null config");
    return 0;
}
void BaseEditorProperty::addChild(BaseEditorProperty* child)
{
	child->m_parent = this;
	m_children.append(child);
}
Exemplo n.º 14
0
void NASM::fillHighligherRules(QVector<Assembler::HighlightingRule> &highlightingRules,
                               QList<QTextCharFormat *> &formats,
                               bool &multiLineComments,
                               QRegExp &commentStartExpression,
                               QRegExp &commentEndExpression)
{
    typedef Assembler::HighlightingRule HighlightingRule;
    QTextCharFormat &keywordFormat = *formats[0];
    QTextCharFormat &registerFormat = *formats[1];
    QTextCharFormat &numberFormat = *formats[2];
    QTextCharFormat &memoryFormat = *formats[3];
    QTextCharFormat &labelFormat = *formats[4];
    QTextCharFormat &commentFormat = *formats[5];
    QTextCharFormat &systemFormat = *formats[6];
    QTextCharFormat &iomacrosFormat = *formats[7];
    QTextCharFormat &quotationFormat = *formats[8];
    QTextCharFormat &labelWithDotFormat = *formats[9];

    //! Setting up regular expressions
    HighlightingRule rule;

    //! Keywords
    QStringList keywordPatterns;
    keywordPatterns << "\\bAAA\\b" << "\\bAAD\\b" << "\\bAAM\\b" << "\\bAAS\\b" <<
                       "\\bADC\\b" << "\\bADD\\b" << "\\bAND\\b" << "\\bCALL\\b" <<
                       "\\bCBW\\b" << "\\bCLC\\b" << "\\bCLD\\b" << "\\bCLI\\b" <<
                       "\\bCMC\\b" << "\\bCMP\\b" << "\\bCMPSB\\b" << "\\bCMPSW\\b" <<
                       "\\bCWD\\b" << "\\bDAA\\b" << "\\bDAS\\b" << "\\bDEC\\b" <<
                       "\\bDIV\\b" << "\\bESC\\b" << "\\bHLT\\b" << "\\bIDIV\\b" <<
                       "\\bIMUL\\b" << "\\bIN\\b" << "\\bINC\\b" << "\\bINT\\b" <<
                       "\\bINTO\\b" << "\\bIRET\\b" << "\\bJA\\b" << "\\bJAE\\b" <<
                       "\\bJB\\b" << "\\bJBE\\b" << "\\bJC\\b" << "\\bJCXZ\\b" <<
                       "\\bJE\\b" << "\\bJG\\b" << "\\bJGE\\b" << "\\bJL\\b" <<
                       "\\bJLE\\b" << "\\bJNA\\b" << "\\bJNAE\\b" << "\\bJNB\\b" <<
                       "\\bJNBE\\b" << "\\bJNC\\b" << "\\bJNE\\b" << "\\bJNG\\b" <<
                       "\\bJNGE\\b" << "\\bJNL\\b" << "\\bJNLE\\b" << "\\bJNO\\b" <<
                       "\\bJNP\\b" << "\\bJNS\\b" << "\\bJNZ\\b" << "\\bJO\\b" <<
                       "\\bJP\\b" << "\\bJPE\\b" << "\\bJPO\\b" << "\\bJS\\b" <<
                       "\\bJZ\\b" << "\\bJMP\\b" << "\\bLAHF\\b" << "\\bLDS\\b" <<
                       "\\bLEA\\b" << "\\bLES\\b" << "\\bLOCK\\b" << "\\bLODSB\\b" <<
                       "\\bLODSW\\b" << "\\bLOOP\\b" << "\\bLOOPE\\b" << "\\bLOOPNE\\b" <<
                        "\\bLOOPNZ\\b" << "\\bLOOPZ\\b" << "\\bMOV\\b" << "\\bMOVSB\\b" <<
                        "\\bMOVSW\\b" << "\\bMUL\\b" << "\\bNEG\\b" << "\\bNOP\\b" <<
                        "\\bNOT\\b" << "\\bOR\\b" << "\\bOUT\\b" << "\\bPOP\\b" <<
                        "\\bPOPF\\b" << "\\bPUSH\\b" << "\\bPUSHF\\b" << "\\bRCL\\b" <<
                        "\\bRCR\\b" << "\\bREP\\b" << "\\bREPE\\b" << "\\bREPNE\\b" <<
                        "\\bREPNZ\\b" << "\\bREPZ\\b" << "\\bRET\\b" << "\\bRETN\\b" <<
                        "\\bRETF\\b" << "\\bROL\\b" << "\\bROR\\b" << "\\bSAHF\\b" <<
                        "\\bSAL\\b" << "\\bSAR\\b" << "\\bSBB\\b" << "\\bSCASB\\b" <<
                        "\\bSCASW\\b" << "\\bSHL\\b" << "\\bSHR\\b" << "\\bSTC\\b" <<
                        "\\bSTD\\b" << "\\bSTI\\b" << "\\bSTOSB\\b" << "\\bSTOSW\\b" <<
                        "\\bSUB\\b" << "\\bTEST\\b" << "\\bWAIT\\b" << "\\bXCHG\\b" <<
                        "\\bXLAT\\b" << "\\bXOR\\b" << "\\bBOUND\\b" << "\\bENTER\\b" <<
                        "\\bINS\\b" << "\\bLEAVE\\b" << "\\bOUTS\\b" << "\\bPOPA\\b" <<
                        "\\bPUSHA\\b" << "\\bARPL\\b" << "\\bCLTS\\b" << "\\bLAR\\b" <<
                        "\\bLGDT\\b" << "\\bLIDT\\b" << "\\bLLDT\\b" << "\\bLMSW\\b" <<
                        "\\bLOADALL\\b" << "\\bLSL\\b" << "\\bLTR\\b" << "\\bSGDT\\b" <<
                        "\\bSIDT\\b" << "\\bSLDT\\b" << "\\bSMSW\\b" << "\\bSTR\\b" <<
                        "\\bVERR\\b" << "\\bVERW\\b" << "\\bBSF\\b" << "\\bBSR\\b" <<
                        "\\bBT\\b" << "\\bBTC\\b" << "\\bBTR\\b" << "\\bBTS\\b" <<
                        "\\bCDQ\\b" << "\\bCMPSD\\b" << "\\bCWDE\\b" << "\\bINSD\\b" <<
                        "\\bIRET\\b" << "\\bIRETW\\b" << "\\bIRETD\\b" << "\\bJCXZ\\b" <<
                        "\\bJECXZ\\b" << "\\bLFS\\b" << "\\bLGS\\b" << "\\bLSS\\b" <<
                        "\\bLODSD\\b" << "\\bMOVSD\\b" << "\\bMOVSX\\b" << "\\bMOVZX\\b" <<
                        "\\bOUTSD\\b" << "\\bPOPAD\\b" << "\\bPOPFD\\b" << "\\bPUSHAD\\b" <<
                        "\\bPUSHFD\\b" << "\\bSCASD\\b" << "\\bSETA\\b" << "\\bSETAE\\b" <<
                        "\\bSETB\\b" << "\\bSETBE\\b" << "\\bSETC\\b" << "\\bSETE\\b" <<
                        "\\bSETG\\b" << "\\bSETGE\\b" << "\\bSETL\\b" << "\\bSETLE\\b" <<
                        "\\bSETNA\\b" << "\\bSETNAE\\b" << "\\bSETNB\\b" << "\\bSETNBE\\b" <<
                        "\\bSETNC\\b" << "\\bSETNE\\b" << "\\bSETNG\\b" << "\\bSETNGE\\b" <<
                        "\\bSETNL\\b" << "\\bSETNLE\\b" << "\\bSETNO\\b" << "\\bSETNP\\b" <<
                        "\\bSETNS\\b" << "\\bSETNZ\\b" << "\\bSETO\\b" << "\\bSETP\\b" <<
                        "\\bSETPE\\b" << "\\bSETPO\\b" << "\\bSETS\\b" << "\\bSETZ\\b" <<
                        "\\bSHLD\\b" << "\\bSHRD\\b" << "\\bSTOSD\\b" <<
                        "\\bPOPAD\\b" << "\\bPOPFD\\b" << "\\bPUSHAD\\b" << "\\bPUSHFD\\b" <<
                        "\\bSCASD\\b" << "\\bBSWAP\\b" << "\\bCMPXCHG\\b" << "\\bINVD\\b" <<
                        "\\bINVLPG\\b" << "\\bWBINVD\\b" << "\\bXADD\\b" << "\\bCPUID\\b" <<
                        "\\bCMPXCHG8B\\b" << "\\bRDMSR\\b" << "\\bRDTSC\\b" << "\\bWRMSR\\b" <<
                        "\\bRSM\\b" << "\\bRDPMC\\b" << "\\bCMOVA\\b" << "\\bCMOVAE\\b" <<
                        "\\bCMOVB\\b" << "\\bCMOVBE\\b" << "\\bCMOVC\\b" << "\\bCMOVE\\b" <<
                        "\\bCMOVG\\b" << "\\bCMOVGE\\b" << "\\bCMOVL\\b" << "\\bCMOVLE\\b" <<
                        "\\bCMOVNA\\b" << "\\bCMOVNAE\\b" << "\\bCMOVNB\\b" << "\\bCMOVNBE\\b" <<
                        "\\bCMOVNC\\b" << "\\bCMOVNE\\b" << "\\bCMOVNG\\b" << "\\bCMOVNGE\\b" <<
                        "\\bCMOVNL\\b" << "\\bCMOVNLE\\b" << "\\bCMOVNO\\b" << "\\bCMOVNP\\b" <<
                        "\\bCMOVNS\\b" << "\\bCMOVNZ\\b" << "\\bCMOVO\\b" << "\\bCMOVP\\b" <<
                        "\\bCMOVPE\\b" << "\\bCMOVPO\\b" << "\\bCMOVS\\b" << "\\bCMOVZ\\b" <<
                        "\\bF2XM1\\b" << "\\bFABS\\b" << "\\bFADD\\b" << "\\bFADDP\\b" <<
                        "\\bFBLD\\b" << "\\bFBSTP\\b" << "\\bFCHS\\b" << "\\bFCLEX\\b" <<
                        "\\bFCOM\\b" << "\\bFCOMP\\b" << "\\bFCOMPP\\b" << "\\bFDECSTP\\b" <<
                        "\\bFDISI\\b" << "\\bFDIV\\b" << "\\bFDIVP\\b" << "\\bFDIVR\\b" <<
                        "\\bFDIVRP\\b" << "\\bFENI\\b" << "\\bFFREE\\b" << "\\bFIADD\\b" <<
                        "\\bFICOM\\b" << "\\bFICOMP\\b" << "\\bFIDIV\\b" << "\\bFIDIVR\\b" <<
                        "\\bFILD\\b" << "\\bFIMUL\\b" << "\\bFINCSTP\\b" << "\\bFINIT\\b" <<
                        "\\bFIST\\b" << "\\bFISTP\\b" << "\\bFISUB\\b" << "\\bFISUBR\\b" <<
                        "\\bFLD\\b" << "\\bFLD1\\b" << "\\bFLDCW\\b" << "\\bFLDENV\\b" <<
                        "\\bFLDENVW\\b" << "\\bFLDL2E\\b" << "\\bFLDL2T\\b" << "\\bFLDLG2\\b" <<
                        "\\bFLDLN2\\b" << "\\bFLDPI\\b" << "\\bFLDZ\\b" << "\\bFMUL\\b" <<
                        "\\bFMULP\\b" << "\\bFNCLEX\\b" << "\\bFNDISI\\b" << "\\bFNENI\\b" <<
                        "\\bFNINIT\\b" << "\\bFNOP\\b" << "\\bFNSAVE\\b" << "\\bFNSAVEW\\b" <<
                        "\\bFNSTCW\\b" << "\\bFNSTENV\\b" << "\\bFNSTENVW\\b" << "\\bFNSTSW\\b" <<
                        "\\bFPATAN\\b" << "\\bFPREM\\b" << "\\bFPTAN\\b" << "\\bFRNDINT\\b" <<
                        "\\bFRSTOR\\b" << "\\bFRSTORW\\b" << "\\bFSAVE\\b" << "\\bFSAVEW\\b" <<
                        "\\bFSCALE\\b" << "\\bFSQRT\\b" << "\\bFST\\b" << "\\bFSTCW\\b" <<
                        "\\bFSTENV\\b" << "\\bFSTENVW\\b" << "\\bFSTP\\b" << "\\bFSTSW\\b" <<
                        "\\bFSUB\\b" << "\\bFSUBP\\b" << "\\bFSUBR\\b" << "\\bFSUBRP\\b" <<
                        "\\bFTST\\b" << "\\bFWAIT\\b" << "\\bFXAM\\b" << "\\bFXCH\\b" <<
                        "\\bFXTRACT\\b" << "\\bFYL2X\\b" << "\\bFYL2XP1\\b" << "\\bFSETPM\\b" <<
                        "\\bFCOS\\b" << "\\bFLDENVD\\b" << "\\bFSAVED\\b" << "\\bFSTENVD\\b" <<
                        "\\bFPREM1\\b" << "\\bFRSTORD\\b" << "\\bFSIN\\b" << "\\bFSINCOS\\b" <<
                        "\\bFSTENVD\\b" << "\\bFUCOM\\b" << "\\bFUCOMP\\b" << "\\bFUCOMPP\\b" <<
                        "\\bFCMOVB\\b" << "\\bFCMOVBE\\b" << "\\bFCMOVE\\b" << "\\bFCMOVNB\\b" <<
                        "\\bFCMOVNBE\\b" << "\\bFCMOVNE\\b" << "\\bFCMOVNU\\b" << "\\bFCMOVU\\b" <<
                        "\\bFCOMI\\b" << "\\bFCOMIP\\b" << "\\bFUCOMI\\b" << "\\bFUCOMIP\\b" <<
                        "\\bCDQE\\b" << "\\bCQO\\b" << "\\bMOVMSKPS\\b" << "\\bMOVMSKPD\\b" <<
                        "\\bPOPCNT\\b" << "\\bLZCNT\\b" << "\\bCMPSQ\\b" << "\\bSCASQ\\b" <<
                        "\\bMOVSQ\\b" << "\\bLODSQ\\b" << "\\bSTOSQ\\b" << "\\bJRCXZ\\b" <<
                        "\\bIRETQ\\b" << "\\bPUSHFQ\\b" << "\\bPOPFQ\\b" << "\\bCMPXCHG16B\\b" <<
                        "\\bJRCXZ\\b" << "\\bINSB\\b" << "\\bINSW\\b" << "\\bOUTSB\\b" <<
                        "\\bOUTSW\\b" << "\\bLFENCE\\b" << "\\bSFENCE\\b" << "\\bMFENCE\\b" <<
                        "\\bPREFETCH\\b" << "\\bPREFETCHL\\b" << "\\bPREFETCHW\\b" << "\\bCLFLUSH\\b" <<
                        "\\bSYSENTER\\b" << "\\bSYSEXIT\\b" << "\\bSYSCALL\\b" << "\\bSYSRET\\b";
    foreach (const QString &pattern, keywordPatterns) {
        rule.pattern = QRegExp(pattern);
        rule.pattern.setCaseSensitivity(Qt::CaseInsensitive);
        rule.format = keywordFormat;
        highlightingRules.append(rule);
    }
Exemplo n.º 15
0
void GradientLine::paintEvent(QPaintEvent *event)
{
    QWidget::paintEvent(event);

    QPainter p(this);

    if (!isEnabled()) {
        p.setBrush(Qt::NoBrush);
        p.setPen(QColor(0x444444));
        p.drawRect(9, 31, width() - 14, height() - 32);

        p.drawTiledPixmap(10, 32, width() - 16, height() - 34, tilePixMap(8));
    } else {

        QLinearGradient linearGradient(QPointF(0, 0), QPointF(width(), 0));

        for (int i =0; i < m_stops.size(); i++)
            linearGradient.setColorAt(m_stops.at(i), m_colorList.at(i));

        p.setBrush(Qt::NoBrush);
        p.setPen(QColor(0x444444));
        p.drawRect(9, 31, width() - 14, height() - 32);


        p.drawTiledPixmap(9, 31, width() - 16, height() - 34, tilePixMap(8));

        p.setBrush(linearGradient);
        p.setPen(QColor(0x222222));
        p.drawRect(8, 30, width() - 14, height() - 32);
        p.setPen(QColor(255, 255, 255, 40));
        p.drawRect(9, 31, width() - 16, height() - 34);

        p.setPen(Qt::black);

        for (int i =0; i < m_colorList.size(); i++) {
            int localYOffset = 0;
            QColor arrowColor(Qt::black);
            if (i == currentColorIndex()) {
                localYOffset = m_yOffset;
                arrowColor = QColor(0x909090);
            }
            p.setPen(arrowColor);
            if (i == 0 || i == (m_colorList.size() - 1))
                localYOffset = 0;

            int pos = qreal((width() - 16)) * m_stops.at(i) + 9;
            p.setBrush(arrowColor);
            QVector<QPointF> points;
            if (localYOffset < -8)
                p.setOpacity(0.5);
            points.append(QPointF(pos + 0.5, 28.5 + localYOffset)); //triangle
            points.append(QPointF(pos - 3.5, 22.5 + localYOffset));
            points.append(QPointF(pos + 4.5, 22.5 + localYOffset));
            p.setRenderHint(QPainter::Antialiasing, true);
            p.drawPolygon(points);
            p.setRenderHint(QPainter::Antialiasing, false);
            p.setBrush(Qt::NoBrush);
            p.setPen(QColor(0x424242));
            p.drawRect(pos - 4, 9 + localYOffset, 10, 11);

            p.drawTiledPixmap(pos - 4, 9 + localYOffset, 9, 10, tilePixMap(5));
            p.setPen(QColor(0x424242));
            p.setBrush(m_colorList.at(i));
            p.drawRect(pos - 5, 8 + localYOffset, 10, 11);
            p.setBrush(Qt::NoBrush);
            p.setPen(QColor(255, 255, 255, 30));
            p.drawRect(pos - 4, 9 + localYOffset, 8, 9);
            p.setOpacity(1);
        }
    }
}
Exemplo n.º 16
0
void GDLProver_Test::Prover_01(){

    debug("Current directory ", QDir::current().path());


    QString filenameTTT;
#ifdef TARGET_OS_MAC
    filenameTTT = "../../../../";
#endif
    filenameTTT = filenameTTT.append("tictactoe.kif");

    GDLProver prover;
    prover.setup(filenameTTT);

    QCOMPARE(prover.getInitPropositions().size(), 10);
    QCOMPARE(prover.getRoles().size(), 2);

    QVector<LRelation> initState = prover.getInitState();
    prover.loadTempRelations(initState);

    Parser parser;

    // Initial state
    LRelation relation1 = parser.parseRelation(QString("(legal ?x noop)"));
    QCOMPARE(prover.evaluate(relation1).size(), 1);

    LRelation relation2 = parser.parseRelation(QString("(legal ?x ?y)"));
    QCOMPARE(prover.evaluate(relation2).size(), 10);

    LRelation relation3 = parser.parseRelation(QString("(terminal)"));
    QCOMPARE(prover.evaluate(relation3).size(), 0);

    LRelation relation4 = parser.parseRelation(QString("(open)"));
    QCOMPARE(prover.evaluate(relation4).size(), 1);

    LRelation relation5 = parser.parseRelation(QString("(line ?x)"));
    QCOMPARE(prover.evaluate(relation5).size(), 1);

    // Does a move
    QVector<LRelation> doesMove;
    doesMove.append(prover.manageRelation(parser.parseRelation("(does white (mark 1 1))")));
    prover.loadAdditionalTempRelations(doesMove);

    QCOMPARE(prover.evaluate(relation1).size(), 1);

    QCOMPARE(prover.evaluate(relation2).size(), 10);

    QCOMPARE(prover.evaluate(relation3).size(), 0);

    QCOMPARE(prover.evaluate(relation4).size(), 1);

    QCOMPARE(prover.evaluate(relation5).size(), 1);

    LRelation relation6 = parser.parseRelation(QString("(next_cell 1 1 b)"));
    QCOMPARE(prover.evaluate(relation6).size(), 0);

    LRelation relation6a = parser.parseRelation(QString("(next_cell 1 1 x)"));
    QCOMPARE(prover.evaluate(relation6a).size(), 1);

    LRelation relation6b = parser.parseRelation(QString("(next_cell ?x ?y ?z)"));
    QCOMPARE(prover.evaluate(relation6b).size(), 9);

    LRelation relation7 = parser.parseRelation(QString("(next_cell ?x ?y b)"));
    QCOMPARE(prover.evaluate(relation7).size(), 8);
}
void DialogCommandChangeState::operation(QVector<QString>& command) const{
    if (ui->radioButtonReplace->isChecked()) command.append("0");
    else if (ui->radioButtonAdd->isChecked()) command.append("1");
    else if (ui->radioButtonRemove->isChecked()) command.append("2");
}
Exemplo n.º 18
0
QVector<QXmlName> AccelTree::namespaceBindings(const QXmlNodeModelIndex &ni) const
{
    /* We get a hold of the ancestor, and loop them in reverse document
     * order(first the parent, then the parent's parent, etc). As soon
     * we find a binding that hasn't already been added, we add it to the
     * result list. In that way, declarations appearing further down override
     * those further up. */

    const PreNumber preNumber = toPreNumber(ni);

    const QXmlNodeModelIndex::Iterator::Ptr it(new AncestorIterator<true>(this, preNumber));
    QVector<QXmlName> result;
    QXmlNodeModelIndex n(it->next());

    /* Whether xmlns="" has been encountered. */
    bool hasUndeclaration = false;

    while(!n.isNull())
    {
        const QVector<QXmlName> &forNode = namespaces.value(toPreNumber(n));
        const int len = forNode.size();
        bool stopInheritance = false;

        for(int i = 0; i < len; ++i)
        {
            const QXmlName &nsb = forNode.at(i);

            if(nsb.namespaceURI() == StandardNamespaces::StopNamespaceInheritance)
            {
                stopInheritance = true;
                continue;
            }

            if(nsb.prefix() == StandardPrefixes::empty &&
               nsb.namespaceURI() == StandardNamespaces::empty)
            {
                hasUndeclaration = true;
                continue;
            }

            if(!hasPrefix(result, nsb.prefix()))
            {
                /* We've already encountered an undeclaration, so we're supposed to skip
                 * them. */
                if(hasUndeclaration && nsb.prefix() == StandardPrefixes::empty)
                    continue;
                else
                    result.append(nsb);
            }
        }

        if(stopInheritance)
            break;
        else
            n = it->next();
    }

    result.append(QXmlName(StandardNamespaces::xml, StandardLocalNames::empty, StandardPrefixes::xml));

    return result;
}
Exemplo n.º 19
0
void SemanticHighlighter::incrementalApplyExtraAdditionalFormats(
        SyntaxHighlighter *highlighter,
        const QFuture<HighlightingResult> &future,
        int from, int to,
        const QHash<int, QTextCharFormat> &kindToFormat)
{
    if (to <= from)
        return;

    const int firstResultBlockNumber = future.resultAt(from).line - 1;

    // blocks between currentBlockNumber and the last block with results will
    // be cleaned of additional extra formats if they have no results
    int currentBlockNumber = 0;
    for (int i = from - 1; i >= 0; --i) {
        const HighlightingResult &result = future.resultAt(i);
        const int blockNumber = result.line - 1;
        if (blockNumber < firstResultBlockNumber) {
            // stop! found where last format stopped
            currentBlockNumber = blockNumber + 1;
            // add previous results for the same line to avoid undoing their formats
            from = i + 1;
            break;
        }
    }

    QTextDocument *doc = highlighter->document();
    QTC_ASSERT(currentBlockNumber < doc->blockCount(), return);
    QTextBlock b = doc->findBlockByNumber(currentBlockNumber);

    HighlightingResult result = future.resultAt(from);
    for (int i = from; i < to && b.isValid(); ) {
        const int blockNumber = result.line - 1;
        QTC_ASSERT(blockNumber < doc->blockCount(), return);

        // clear formats of blocks until blockNumber
        while (currentBlockNumber < blockNumber) {
            QVector<QTextLayout::FormatRange> noFormats;
            highlighter->setExtraFormats(b, noFormats);
            b = b.next();
            ++currentBlockNumber;
        }

        // collect all the formats for the current line
        QVector<QTextLayout::FormatRange> formats;
        formats.reserve(to - from);
        forever {
            QTextLayout::FormatRange formatRange;

            formatRange.format = textCharFormatForResult(result, kindToFormat);
            if (formatRange.format.isValid()) {
                formatRange.start = result.column - 1;
                formatRange.length = result.length;
                formats.append(formatRange);
            }

            ++i;
            if (i >= to)
                break;
            result = future.resultAt(i);
            const int nextBlockNumber = result.line - 1;
            if (nextBlockNumber != blockNumber)
                break;
        }
        highlighter->setExtraFormats(b, formats);
        b = b.next();
        ++currentBlockNumber;
    }
}
Exemplo n.º 20
0
template <typename T> void qc_init_metatype()
{
  MetaTypeImpl<T>::instance = new MetaTypeImpl<T>();
  gMetaTypes.append( MetaTypeImpl<T>::instance );
}
Exemplo n.º 21
0
		void fail(QString msg)
		{
			qWarning()<<"E:" <<msg;
			m_ok=false;
			m_errors.append("ERROR:   "+msg);
		}
Exemplo n.º 22
0
/*
   # define identifier                               replacement-list new-line
   # define identifier lparen identifier-list[opt] ) replacement-list new-line
   # define identifier lparen ... )                  replacement-list new-line
   # define identifier lparen identifier-list, ... ) replacement-list new-line
*/
bool Preprocessor::parseDefineDirective(Item *group)
{
    Q_ASSERT(group->toItemComposite());
    const TokenSection line = readLine();
    const QVector<int> cleanedLine = cleanTokenRange(line);
    if(cleanedLine.count() < 3)
        return false;

    // get identifier
    const int identifier = cleanedLine.at(2); //skip "#" and "define"
    DefineDirective *defineDirective = 0;
    int replacementListStart;

    // check if this is a macro function
    if (cleanedLine.count() >= 4
        && m_tokenContainer.text(cleanedLine.at(3)) == "("
        && !isWhiteSpace(cleanedLine.at(3) - 1)) {
        MacroFunctionDefinition *macro;
        macro = createNode<MacroFunctionDefinition>(m_memoryPool, group);

        int tokenIndex = 4; //point to first argument or ')'
        QVector<int> macroParameterList;
        while(tokenIndex < cleanedLine.count()) {
            QByteArray currentText = m_tokenContainer.text(cleanedLine.at(tokenIndex));
            ++tokenIndex;
            if(currentText == ")")
                break;
            if(currentText == ",")
                continue;
            macroParameterList.append(cleanedLine.at(tokenIndex - 1));
        }
        macro->setParameters(TokenList(m_tokenContainer, macroParameterList));
        defineDirective = macro;
        replacementListStart = tokenIndex;
    } else {
        MacroDefinition *macro;
        macro = createNode<MacroDefinition>(m_memoryPool, group);
        defineDirective = macro;
        replacementListStart = 3;
    }
    Q_ASSERT(defineDirective);

    // This is a bit hackish.. we want the replacement list with whitepspace
    // tokens, but cleanedLine() has already removed those. And we can't use
    // the original line, because that may contain escaped newline tokens.
    // So we remove the esacped newlines and search for the token number
    // given by cleanedLine.at(replacementListStart)
    QVector<int> replacementList;
    const QVector<int> noEscNewline = cleanEscapedNewLines(line);
    if (replacementListStart < cleanedLine.count()) {
        const int cleanedLineReplacementListStart = cleanedLine.at(replacementListStart);
        const int rListStart = noEscNewline.indexOf(cleanedLineReplacementListStart);
        if (rListStart != -1) {
            const int skipNewLineToken = 1;
            for (int i = rListStart; i < noEscNewline.count() - skipNewLineToken; ++i) {
                const int tokenContainerIndex = noEscNewline.at(i);
                const Type type = m_tokenTypeList.at(tokenContainerIndex);
                // Don't append comment tokens.
                if (type != Token_line_comment && type != Token_multiline_comment) {
                   replacementList.append(tokenContainerIndex);

                }
            }
        }
    }

    defineDirective->setTokenSection(line);
    defineDirective->setIdentifier(TokenList(m_tokenContainer, QVector<int>() << identifier));
    defineDirective->setReplacementList(TokenList(m_tokenContainer, replacementList));
    group->toItemComposite()->add(defineDirective);
    return true;
}
Exemplo n.º 23
0
		void info (QString msg)
		{
			qDebug()<<"I:" <<msg;
			m_errors.append("INFO   : "+msg);
		}
bool RTRModel::loadModelFromObjFile(const QString& filePath)
{
	QFileInfo info(filePath);
	modelPath = info.dir().path();
	QFile objModelFile(filePath);
	if(!objModelFile.open(QIODevice::ReadOnly))
	{
		return false;
	}
	QTextStream objModelStream(&objModelFile);
	QString currentObjectName = "";
	QString currentGroupName = "";
	QString materialName = "";
	QVector<RTRModelVertex*> tempVertexPositions;
	QVector<RTRVector3D> tempVertexNormals;
	QVector<RTRVector2D> tempVertexUVPositions;
	bool currentSmoothShading = true;
	while(!objModelStream.atEnd())
	{
		//Read a line, spaces and begin and end are trimmed
		QString line = objModelStream.readLine().trimmed();

		//Ignore empty lines and comment lines
		if (line.isEmpty()) continue;
		if (line[0] == '#') continue;


		QStringList param = line.split(' ', QString::SkipEmptyParts);
		QString command = param[0];
		command.toLower();
		param.removeFirst();
		if (command == "mtllib") loadMaterialLibraryFromMtlFile(modelPath + "/" + param[0]);
		else if (command == "usemtl") materialName = param[0];
		else if (command == "o") currentObjectName = param[0];
		else if (command == "g")
		{
			currentGroupName = param[0];
		}
		else if (command == "s")
		{
			if (param[0] == "off") currentSmoothShading = false;
			else currentSmoothShading = true;
		}
		else if (command == "v")
		{
			tempVertexPositions.append(
				addVertex(param[0].toDouble(), param[1].toDouble(), param[2].toDouble()));
		}
		else if (command == "vn")
		{
			tempVertexNormals.append(RTRVector3D(param[0].toDouble(), param[1].toDouble(), param[2].toDouble()));
			tempVertexNormals.back().vectorNormalize();
		}
		else if (command == "vt")
		{
			tempVertexUVPositions.append(RTRVector2D(param[0].toDouble(), param[1].toDouble()));
		}
		else if (command == "f")
		{
			RTRModelPolygen* poly = new RTRModelPolygen();
			poly->objectName = currentObjectName;
			poly->groupName = currentGroupName;
			poly->materialName = materialName;
			poly->smoothShading = currentSmoothShading;
			for (int i = 0; i < param.size(); i++)
			{
				QStringList list = param[i].split("/");
				switch (list.size())
				{
				case 1:
					poly->vertices.append(tempVertexPositions[list[0].toInt() - 1]);
					break;
				case 2:
					poly->vertices.append(tempVertexPositions[list[0].toInt() - 1]);
					poly->uvMaps.append(tempVertexUVPositions[list[1].toInt() - 1]);
					break;
				case 3:
					poly->vertices.append(tempVertexPositions[list[0].toInt() - 1]);
					if (!list[1].isEmpty()) poly->uvMaps.append(tempVertexUVPositions[list[1].toInt() - 1]);
					poly->normals.append(tempVertexNormals[list[2].toInt() - 1]);
					break;
				default:
					break;
				}
			}
			polygens.insert(poly);
		}
		else
		{
			qDebug() << "Ignoring Unsupported Line : " << command << param;
		}
	}
	objModelFile.close();
	return true;
}
Exemplo n.º 25
0
QVector<QPoint> ImageProcessor::findOcculsionFaster(QImage input) {
    int radius = (int) (.1 * input.height());
    //qDebug()<<"radius: " <<radius;

    //left side
    int bestLeftY=0;
    int bestLeftYval=INT_MAX;

    for(int currentY=radius;currentY<input.height()-radius;currentY++) {
        int sum =0;
        foreach(int x,ImageProcessor::regionVals(0,currentY,radius,input)) {
            sum+=x;
        }

        if(sum < bestLeftYval) {
            bestLeftY = currentY;
            bestLeftYval = sum;
        }
    }

    //right side
    int bestRightY=0;
    int bestRightYval=INT_MAX;

    for(int currentY=radius;currentY<input.height()-radius;currentY++) {
        int sum =0;
        foreach(int x,ImageProcessor::regionVals(input.width()-1,currentY,radius,input)) {
            sum+=x;
        }
        //qDebug()<<"Sum was: " <<sum;

        if(sum < bestRightYval) {
            bestRightY = currentY;
            bestRightYval = sum;
        }
    }

    int yPen = bestLeftY;

    QVector<QPoint> returnMe;


    for(int x=0;x<input.width();x++) { //go from left to right
        int diff = bestRightY - yPen;
        if(qAbs(diff) == (input.width() - x)) {
            int movementDir = qAbs(diff)/diff; //+1 or -1 to push it in the right direction
            yPen += movementDir;
        } else {
            float penUpTotal= ImageProcessor::calculateCenterValue(input,x,yPen+1);
            float penRightTotal=ImageProcessor::calculateCenterValue(input,x,yPen);
            float penDownTotal=ImageProcessor::calculateCenterValue(input,x,yPen-1);
            float lowest = qMin(qMin(penUpTotal,penRightTotal),penDownTotal);

            if(penUpTotal == lowest) {
                yPen++;
            } else if(penDownTotal == lowest) {
                yPen--;
            }
        }
        returnMe.append(QPoint(x,yPen));
    }
    return returnMe;

}
Exemplo n.º 26
0
void Homepage::initialUI()
{
    QString langImagePath = g_appPath + QString("/data/image_cn/homepage/english_n.png");
    QString helpImagePath = g_appPath + QString("/data/image_cn/homepage/help_n.png");

    Utility::addButton(QImage(langImagePath).size(), HM_LANG_POS,
                           g_appPath + "/data/image_cn/homepage/english_n.png*" + g_appPath + "/data/image_cn/homepage/english_p.png",
                           g_appPath + "/data/image_en/homepage/chinese_n.png*" + g_appPath + "/data/image_en/homepage/chinese_p.png",
                           this, SLOT(onLocaleChanged()),
                           QString(""), this);

    Utility::addButton(QImage(helpImagePath).size(), HM_HELP_POS,
                           g_appPath + "/data/image_cn/homepage/help_n.png*" + g_appPath + "/data/image_cn/homepage/help_p.png",
                           g_appPath + "/data/image_en/homepage/help_n.png*" + g_appPath + "/data/image_en/homepage/help_p.png",
                           this, SLOT(sltHelp()),
                           QString(""), this);

    QVector<QString> adFiles;
    QDir dir(g_appPath + QString("/data/ads/banner_cn/"));
    QFileInfoList f_list=dir.entryInfoList();
    dir.setFilter(QDir::Files|QDir::NoDot|QDir::NoDotAndDotDot|QDir::NoSymLinks);
        qDebug() << trUtf8("--------从本地获取广告文件 begin--------");
    for(int i=0;i<f_list.count();i++){
            QFileInfo f_info=f_list.at(i);
            QString stt=f_info.fileName();
            if(stt != QString(".")  &&  stt != QString(".."))
            {
                    qDebug() << stt;
                adFiles.append(stt);
            }
    }
        qDebug() << trUtf8("--------从本地获取广告文件 end--------");

    AdWgt* adWgt = new AdWgt(this);
    adWgt->resize(QSize(720, 485));
    adWgt->move(60, 110);
    for(int i = 0; i < adFiles.count(); i++)
    {
        QString suffix = adFiles.at(i).right(3);
        if(suffix == QString("jpg") || suffix == QString("png"))
        {
            adWgt->addAdItem(AdWgt::AdItemType_Picture, adFiles.at(i));
        }

        if(suffix == QString("avi"))
        {
            adWgt->addAdItem(AdWgt::AdItemType_Video, adFiles.at(i));
        }
    }
    adWgt->show();
    adWgt->startAnimation(true);

    // 4;
    QSize imageBtnSize = QImage(g_appPath + QString("/data/image_cn/homepage/courierin_n.png")).size();
    Utility::addButton(imageBtnSize, HM_CJ_POS,
                           g_appPath + "/data/image_cn/homepage/courierin_n.png*" + g_appPath + "/data/image_cn/homepage/courierin_p.png",
                           g_appPath + "/data/image_en/homepage/courierin_n.png*" + g_appPath + "/data/image_en/homepage/courierin_p.png",
                           this, SLOT(sltCj()),
                           QString(""), this);

    Utility::addButton(imageBtnSize, HM_QJ_POS,
                           g_appPath + "/data/image_cn/homepage/fetch_n.png*" + g_appPath + "/data/image_cn/homepage/fetch_p.png",
                           g_appPath + "/data/image_en/homepage/fetch_n.png*" + g_appPath + "/data/image_en/homepage/fetch_p.png",
                           this, SLOT(sltQj()),
                           QString(""), this);

    Utility::addButton(imageBtnSize, HM_CX_POS,
                           g_appPath + "/data/image_cn/homepage/query_n.png*" + g_appPath + "/data/image_cn/homepage/query_p.png",
                           g_appPath + "/data/image_en/homepage/query_n.png*" + g_appPath + "/data/image_en/homepage/query_p.png",
                           this, SLOT(sltCx()),
                           QString(""), this);

//    Utility::addButton(imageBtnSize, HM_JJ_POS,
//                           g_appPath + "/data/pic/main/jj.jpg*" + g_appPath + "/data/pic/main/jj_2.jpg",
//                           g_appPath + "/data/piceng/main/jj.jpg*" + g_appPath + "/data/piceng/main/jj_2.jpg",
//                           this, SLOT(sltJj()),
//                           QString(""), this);

    TerminalConfig info = g_transaction->terminalConfig();
    sltAdInfoChanged(info.adInfo);
}
Exemplo n.º 27
0
void StatsExplorer::loadStakeChart(bool firstRun)
{
    // if(fShutdown)
    // return;

    nTimeData.clear();
    netStakeData.clear();
    myStakeData.clear();
    difficultyData.clear();
    velTimeData.clear();
    velAmountData.clear();

    // go back this many blocks max
    int max = ui->spinBox->value();
    int i = 0;
    int64_t diffMax = 0;
    // int64_t hashMax = 0;
    double velMax = 0;

    BOOST_FOREACH(const PAIRTYPE(uint256, CBlockIndex*)& item, mapBlockIndex)
    {

        if(i >= max)
            break;

        CBlockIndex* pindex = item.second;
        nTimeData.append(pindex->nTime);
        netStakeData.append(0);
        velTimeData.append(pindex->nTime);

        // if(pindex->IsProofOfStake())
        if (true)
        {
            // netStakeData.append(pindex->nMint / COIN);
            netStakeData.append(0);

            // Read the block in and check if the coinstake is ours
            CBlock block;
            ReadBlockFromDisk(block, pindex, Params().GetConsensus());

            // if(block.IsProofOfStake()) // this should always be true here
            if(true) // this should always be true here
            {
                velTimeData.append(pindex->nTime);
                double blockOutAmount = 0;
                for(uint j=0; j<block.vtx.size(); j++)
                {
                    // FIXME: check dereferencing
                    CTransaction vtx = *block.vtx[j];
                    blockOutAmount += vtx.GetValueOut() / COIN;
                }
                velMax = std::max<double>(velMax, blockOutAmount);
                velAmountData.append(blockOutAmount);
                int64_t d = GetDifficulty(pindex);
                diffMax = std::max<int64_t>(diffMax, d);
                difficultyData.append(d);
                // if(IsMine(block.vtx[1]))
                if(false)
                {
                    // myStakeData.append(pindex->nMint / COIN);
                    myStakeData.append(0);
                }
                else
                {
                    myStakeData.append(0);
                }
            }
            else
            {
                myStakeData.append(0); // should never happen
            }
        }
        ++i;
    }

    if(!firstRun)
    {
        uint64_t nMinWeight = 0, nMaxWeight = 0;
        // uint64_t nWeight = 0;
        // nWeight = nMinWeight * nMaxWeight;
        // pwalletMain->GetStakeWeight(*pwalletMain, nMinWeight, nMaxWeight, nWeight);

        // uint64_t nNetworkWeight = 0;
        // if(pindexBest)
        //    nNetworkWeight = GetPoSKernelPS();
        // bool staking = nLastCoinStakeSearchInterval && nWeight;
        // bool staking = false;
        // int nExpectedTime = staking ? (nTargetSpacing * nNetworkWeight / nWeight) : -1;
        /*
        ui->stakingLabel->setText(staking ? "Enabled" : "Disabled");
        bool pindexBest = true;
        if(pindexBest)
            ui->difficultyLabel->setText(QString::number(GetDifficulty(mapBlockIndex[chainActive.Tip()->GetBlockHash()])));
        ui->weightLabel->setText(QString::number(nWeight));
        ui->netWeightLabel->setText(QString::number(nNetworkWeight));
        ui->timeToStakeLabel->setText(QString::number(nExpectedTime) + " secs");
        */
    }

    QLinearGradient plotGradient;
    plotGradient.setStart(0, 0);
    plotGradient.setFinalStop(0, 350);
    plotGradient.setColorAt(0, QColor(10, 10, 10));
    plotGradient.setColorAt(1, QColor(0, 0, 0));

    QLinearGradient diffPlotGradient;
    diffPlotGradient.setStart(0, 0);
    diffPlotGradient.setFinalStop(0, 350);
    diffPlotGradient.setColorAt(0, QColor(10, 10, 10));
    diffPlotGradient.setColorAt(1, QColor(0, 0, 0));

    QLinearGradient velPlotGradient;
    velPlotGradient.setStart(0, 0);
    velPlotGradient.setFinalStop(0, 150);
    velPlotGradient.setColorAt(0, QColor(10, 10, 10));
    velPlotGradient.setColorAt(1, QColor(0, 0, 0));

    ui->difficultyPlot->clearPlottables();
    ui->difficultyPlot->clearGraphs();
    ui->difficultyPlot->clearItems();
    ui->difficultyPlot->addGraph();
    ui->difficultyPlot->graph(0)->setPen(QPen(QColor(43, 239, 209))); // line color orange for first graph
    ui->difficultyPlot->graph(0)->setBrush(QBrush(QColor(43, 239, 209, 20))); // first orange will be filled with translucent green
    ui->difficultyPlot->graph(0)->setData(nTimeData, difficultyData);
    ui->difficultyPlot->setBackground(diffPlotGradient);
    // ui->difficultyPlot->xAxis->setRangeLower(nTimeData.first());
    // ui->difficultyPlot->xAxis->setRangeUpper(nTimeData.last());
    ui->difficultyPlot->yAxis->setRangeLower(0);
    ui->difficultyPlot->yAxis->setRangeUpper(diffMax+(diffMax/10));
    ui->difficultyPlot->xAxis->grid()->setVisible(false);
    ui->difficultyPlot->yAxis->grid()->setVisible(false);
    ui->difficultyPlot->xAxis->grid()->setSubGridVisible(false);
    ui->difficultyPlot->yAxis->grid()->setSubGridVisible(false);
    ui->difficultyPlot->xAxis->setAutoTickStep(false);
    ui->difficultyPlot->xAxis->setTickStep(3600 * 24); // 24 hr tickstep
    ui->difficultyPlot->xAxis->setTickLabelType(QCPAxis::ltDateTime);
    ui->difficultyPlot->xAxis->setDateTimeSpec(Qt::UTC);
    ui->difficultyPlot->xAxis->setDateTimeFormat("dd MMM");
    ui->difficultyPlot->xAxis->setTickLabelRotation(33);
    ui->difficultyPlot->xAxis->setTickLabelColor(QColor(43, 239, 209, 95));
    ui->difficultyPlot->yAxis->setTickLabelColor(QColor(43, 239, 209, 95));
    ui->difficultyPlot->rescaleAxes();
    ui->difficultyPlot->yAxis->setTickStep(0.00005);
    ui->difficultyPlot->xAxis->setLabelColor(QColor(43, 239, 209, 95));
    ui->difficultyPlot->yAxis->setLabelColor(QColor(43, 239, 209, 95));
    ui->difficultyPlot->yAxis->setLabel("Difficulty");
    ui->difficultyPlot->xAxis->setTickLabels(true);
    //ui->difficultyPlot->xAxis->setLabel("Time");
    ui->difficultyPlot->replot();

    /*
    ui->customPlot->clearPlottables();
    ui->customPlot->clearGraphs();
    ui->customPlot->clearItems();
    ui->customPlot->addGraph();
    ui->customPlot->graph(0)->setPen(QPen(QColor(43, 239, 209))); // line color cream for first graph
    ui->customPlot->graph(0)->setBrush(QBrush(QColor(0, 255, 139, 20))); // first graph will be filled with translucent cream
    ui->customPlot->addGraph();
    ui->customPlot->graph(1)->setPen(QPen(QColor(43, 239, 209))); // line color orange for second graph
    ui->customPlot->graph(1)->setBrush(QBrush(QColor(0, 255, 139, 20)));

    if(ui->networkCheckBox->isChecked())
        ui->customPlot->graph(0)->setData(nTimeData, netStakeData);
    ui->customPlot->graph(1)->setData(nTimeData, myStakeData);
    ui->customPlot->setBackground(plotGradient);
    ui->customPlot->xAxis->setRangeLower(nTimeData.first());
    ui->customPlot->xAxis->setRangeUpper(nTimeData.last());
    ui->customPlot->xAxis->grid()->setVisible(false);
    ui->customPlot->yAxis->grid()->setVisible(false);
    ui->customPlot->xAxis->grid()->setSubGridVisible(false);
    ui->customPlot->yAxis->grid()->setSubGridVisible(false);
    ui->customPlot->xAxis->setAutoTickStep(false);
    ui->customPlot->xAxis->setTickStep(3600 * 24); // 24 hr tickstep
    ui->customPlot->xAxis->setTickLabelType(QCPAxis::ltDateTime);
    ui->customPlot->xAxis->setDateTimeSpec(Qt::UTC);
    ui->customPlot->xAxis->setDateTimeFormat("dd. MMM hh:mm");
    ui->customPlot->xAxis->setTickLabelRotation(33);
    ui->customPlot->xAxis->setTickLabelColor(QColor(43, 239, 209, 95));
    ui->customPlot->yAxis->setTickLabelColor(QColor(43, 239, 209, 95));
    ui->customPlot->rescaleAxes();
    ui->customPlot->xAxis->setLabelColor(QColor(43, 239, 209, 95));
    ui->customPlot->yAxis->setLabelColor(QColor(43, 239, 209, 95));
    ui->customPlot->yAxis->setLabel("VCN Minted");
    ui->customPlot->xAxis->setLabel("Stake Block Generation Time");
    ui->customPlot->replot();
    */

    ui->velocityPlot->clearPlottables();
    ui->velocityPlot->clearGraphs();
    ui->velocityPlot->clearItems();
    ui->velocityPlot->addGraph();
    ui->velocityPlot->graph(0)->setPen(QPen(QColor(43, 239, 209))); // line color orange for first graph
    ui->velocityPlot->graph(0)->setBrush(QBrush(QColor(43, 239, 209, 20))); // first graph will be filled with translucent orange
    ui->velocityPlot->graph(0)->setData(velTimeData, velAmountData);
    ui->velocityPlot->setBackground(velPlotGradient);
    // ui->velocityPlot->xAxis->setRangeLower(velTimeData.first());
    // ui->velocityPlot->xAxis->setRangeUpper(velTimeData.last());
    ui->velocityPlot->yAxis->setRangeLower(0);
    ui->velocityPlot->yAxis->setRangeUpper(velMax+(velMax/10));
    ui->velocityPlot->xAxis->grid()->setVisible(false);
    ui->velocityPlot->yAxis->grid()->setVisible(false);
    ui->velocityPlot->xAxis->grid()->setSubGridVisible(false);
    ui->velocityPlot->yAxis->grid()->setSubGridVisible(false);
    ui->velocityPlot->xAxis->setAutoTickStep(false);
    ui->velocityPlot->xAxis->setTickStep(3600 * 24); // 24 hr tickstep
    ui->velocityPlot->xAxis->setTickLabelType(QCPAxis::ltDateTime);
    ui->velocityPlot->xAxis->setDateTimeSpec(Qt::UTC);
    ui->velocityPlot->xAxis->setDateTimeFormat("dd MMM");
    ui->velocityPlot->xAxis->setTickLabelRotation(33);
    ui->velocityPlot->xAxis->setTickLabelColor(QColor(43, 239, 209, 95));
    ui->velocityPlot->yAxis->setTickLabelColor(QColor(43, 239, 209, 95));
    ui->velocityPlot->yAxis->setScaleType(QCPAxis::stLogarithmic);
    ui->velocityPlot->yAxis->setTickStep(1000);
    ui->velocityPlot->xAxis->setLabelColor(QColor(43, 239, 209, 95));
    ui->velocityPlot->yAxis->setLabelColor(QColor(43, 239, 209, 95));
    ui->velocityPlot->yAxis->setLabel("VCN");
    ui->velocityPlot->xAxis->setTickLabels(true);
    //ui->velocityPlot->xAxis->setLabel("Financial Velocity");
    ui->velocityPlot->rescaleAxes();
    ui->velocityPlot->replot();

}
void AndroidAssetsFileEngineHandler::prepopulateCache() const
{
    Q_ASSERT(!m_hasTriedPrepopulatingCache);
    m_hasTriedPrepopulatingCache = true;

    Q_ASSERT(m_assetsCache.isEmpty());

    // Failsafe: Don't read cache files that are larger than 1MB
    static qint64 maxPrepopulatedCacheSize = qMax(1024LL * 1024LL,
                                                  qgetenv("QT_ANDROID_MAX_PREPOPULATED_ASSETS_CACHE_SIZE").toLongLong());

    const char *fileName = "--Added-by-androiddeployqt--/qt_cache_pregenerated_file_list";
    AAsset *asset = AAssetManager_open(m_assetManager, fileName, AASSET_MODE_BUFFER);
    if (asset) {
        m_hasPrepopulatedCache = true;
        AndroidAbstractFileEngine fileEngine(asset, QString::fromLatin1(fileName));
        if (fileEngine.open(QIODevice::ReadOnly)) {
            qint64 size = fileEngine.size();

            if (size <= maxPrepopulatedCacheSize) {
                QByteArray bytes(size, Qt::Uninitialized);
                qint64 read = fileEngine.read(bytes.data(), size);
                if (read != size) {
                    qWarning("Failed to read prepopulated cache");
                    return;
                }

                QDataStream stream(&bytes, QIODevice::ReadOnly);
                stream.setVersion(QDataStream::Qt_5_3);
                if (stream.status() != QDataStream::Ok) {
                    qWarning("Failed to read prepopulated cache");
                    return;
                }

                while (!stream.atEnd()) {
                    QString directoryName;
                    stream >> directoryName;

                    int fileCount;
                    stream >> fileCount;

                    QVector<QString> fileList;
                    fileList.reserve(fileCount);
                    while (fileCount--) {
                        QString fileName;
                        stream >> fileName;
                        fileList.append(fileName);
                    }

                    QSharedPointer<AndroidAssetDir> *aad = new QSharedPointer<AndroidAssetDir>(new AndroidAssetDir(0));
                    (*aad)->m_items = fileList;

                    // Cost = 0, because we should always cache everything if there's a prepopulated cache
                    QByteArray key = directoryName != QLatin1String("/")
                            ? QByteArray("assets:/") + directoryName.toUtf8()
                            : QByteArray("assets:");

                    bool ok = m_assetsCache.insert(key, aad, 0);
                    if (!ok)
                        qWarning("Failed to insert in cache: %s", qPrintable(directoryName));
                }
            } else {
Exemplo n.º 29
0
//The function receives the data from Add Filter and filters the data. The filtered sheet is then used to further processing
Sheet* PivotMain::filter()
{
  
  Sheet *const sheet1 = d->selection->lastSheet();
  const QRect range2 = d->selection->lastRange();
  
  Map *mymap=sheet1->map();
  Sheet* sheet2=mymap->createSheet("Filtered Sheet");
  
  
  int r= range2.right();
  int b=range2.bottom();
  int row=range2.top();
  QVector<QString> vect;
  QVector<int> filtered;
  
  
  if(d->filterVect.count()<3)
      return sheet1;
  
  
  for(int k=row+1;k<=b;k++)
  {
      bool pass=true;

      if(d->filterVect.count()==3)
      {
	  pass=checkCondition(d->filterVect.at(0),d->filterVect.at(1),d->filterVect.at(2),k);
      }
      else if(d->filterVect.count()==7)
      {
	 
	  if(d->filterVect.at(3)=="And")
	    pass= checkCondition(d->filterVect.at(0),d->filterVect.at(1),d->filterVect.at(2),k) && 
				checkCondition(d->filterVect.at(4),d->filterVect.at(5),d->filterVect.at(6),k);
      
	  if(d->filterVect.at(3)=="Or") 
	      pass=  checkCondition(d->filterVect.at(0),d->filterVect.at(1),d->filterVect.at(2),k) || 
				checkCondition(d->filterVect.at(4),d->filterVect.at(5),d->filterVect.at(6),k);
				
	  
      }
      
      else if(d->filterVect.count()==11)
      {
	  
	  if(d->filterVect.at(3)=="And")
	    pass= checkCondition(d->filterVect.at(0),d->filterVect.at(1),d->filterVect.at(2),k) && 
				checkCondition(d->filterVect.at(4),d->filterVect.at(5),d->filterVect.at(6),k);
			
      
	  if(d->filterVect.at(3)=="Or") 
	    pass=  checkCondition(d->filterVect.at(0),d->filterVect.at(1),d->filterVect.at(2),k) || 
				checkCondition(d->filterVect.at(4),d->filterVect.at(5),d->filterVect.at(6),k);
				

	  if(d->filterVect.at(7)=="And")
	      pass= pass && checkCondition(d->filterVect.at(9),d->filterVect.at(10),d->filterVect.at(11),k);
				
      
	  if(d->filterVect.at(7)=="Or") 
	    pass=  pass || checkCondition(d->filterVect.at(4),d->filterVect.at(5),d->filterVect.at(6),k);
				
	  }
      
      if(pass==true)
	filtered.append(k);
    }

      for(int j=1;j<=r;j++)
	Cell(sheet2,j,1).setValue(Cell(sheet1,j,1).value());
      for(int i=0;i<filtered.count();i++)
      {
	for(int j=1;j<=r;j++)
	{
	  Cell(sheet2,j,i+2).setValue(Cell(sheet1,j,filtered.at(i)).value());
	}
      }
  d->filtersize=filtered.count()+1;
  return sheet2;
}
Exemplo n.º 30
0
InsitucCADMainWindow::InsitucCADMainWindow(QWidget * parent)
    : QMainWindow(parent)
    , ui(new Ui::InsitucCADMainWindow)
{
    ui->setupUi(this);
    tableModelGlobalVariables = new TableModelGlobalVariables(this);
    tableModelGlobalVariablesValues = new TableModelGlobalVariables(this);
    tableGlobalVariablesValuesProxyModel = new TableGlobalVariablesProxyModel(this);
    tableGlobalVariablesValuesProxyModel->setSourceModel(tableModelGlobalVariablesValues);
    ui->tableViewGlobalVariables->setModel(tableModelGlobalVariables);
    ui->tableViewGlobalVariablesValues->setModel(tableGlobalVariablesValuesProxyModel);
    ui->tableViewGlobalVariables->horizontalHeader()->setSectionResizeMode(QHeaderView::Stretch);
    ui->tableViewGlobalVariables->verticalHeader()->setSectionResizeMode(QHeaderView::ResizeToContents);
    ui->tableViewGlobalVariablesValues->horizontalHeader()->setSectionResizeMode(QHeaderView::Stretch);
    ui->tableViewGlobalVariablesValues->verticalHeader()->setSectionResizeMode(QHeaderView::ResizeToContents);
    {
        connect(tableModelGlobalVariables,
                SIGNAL(rowsInserted(QModelIndex const &, int, int)),
                SLOT(on_globalVariablesChanged()));
        connect(tableModelGlobalVariables,
                SIGNAL(rowsRemoved(QModelIndex const &, int, int)),
                SLOT(on_globalVariablesChanged()));
        connect(tableModelGlobalVariables,
                SIGNAL(dataChanged(QModelIndex const &, QModelIndex const &, QVector< int > const &)),
                SLOT(on_globalVariablesChanged()));
        connect(tableModelGlobalVariables,
                SIGNAL(modelReset()),
                SLOT(on_globalVariablesChanged()));
    }
    connect(ui->tableViewGlobalVariables->selectionModel(),
            SIGNAL(selectionChanged(QItemSelection const &, QItemSelection const &)),
            SLOT(on_globalVariablesSelectionChanged()));
    {
        treeModelTranfsormations = new TreeModelTranfsormations(this);
        //delete new ModelTest(treeModelTranfsormations, this);
        ui->treeViewTransformations->setModel(treeModelTranfsormations);
        editorChooseGlobalVariable = new EditorChooseGlobalVariable(this);
        ui->treeViewTransformations->setItemDelegateForColumn(0, editorChooseGlobalVariable);

        ui->toolButtonAddTransformation->setDefaultAction(ui->actionAddTransformation);
        ui->toolButtonAddChildTransformation->setDefaultAction(ui->actionAddSuccessiveTransformation);
        ui->toolButtonRemoveTransformation->setDefaultAction(ui->actionRemoveTransformation);
        ui->treeViewTransformations->header()->setSectionResizeMode(QHeaderView::ResizeToContents);
    }
    setupTextEditorMonospace(ui->textEditSource);
    setupTextEditorHighlighter(ui->textEditSource);
    setupTextEditorMonospace(ui->textEditAst);
    setupTextEditorHighlighter(ui->textEditAst);
    setupTextEditorMonospace(ui->textEditAssembly);
    ui->toolButtonAddGlobalVariable->setDefaultAction(ui->actionAddGlobalVariable);
    ui->toolButtonRemoveGlobalVariable->setDefaultAction(ui->actionRemoveGlobalVariable);
    ui->toolButtonParse->setDefaultAction(ui->actionParse);
    ui->toolButtonTransform->setDefaultAction(ui->actionTransform);
    ui->toolButtonBuild->setDefaultAction(ui->actionBuild);
    ui->toolButtonInterpret->setDefaultAction(ui->actionInterpret);
    ui->toolButtonCompile->setDefaultAction(ui->actionCompile);
    {
        QPalette termPalette = ui->textEditAssembly->palette();
        termPalette.setColor(QPalette::Base, Qt::black);
        termPalette.setColor(QPalette::Text, Qt::white);
        ui->textEditAssembly->setPalette(termPalette);
    }
    ui->tabWidget->setCurrentIndex(0);
    ui->textEditSource->setFocus();

    ui->textEditSource->setPlainText("function Gauss(x)\n\treturn a * pow2(-sqr(r * (x / m - one)))\nend");
    QVector< QPair< QString, QString > > globalVariables;
    globalVariables.append(QPair< QString, QString >("a", "1"));
    globalVariables.append(QPair< QString, QString >("r", "1"));
    globalVariables.append(QPair< QString, QString >("m", "0"));
    tableModelGlobalVariables->populateWithData(globalVariables);
}