Exemplo n.º 1
0
void ContactListViewDelegate::paint(QPainter* painter, const QStyleOptionViewItem& option, const QModelIndex& index) const
{
	doSetOptions(option, index);

	// prepare
	painter->save();
	// if (hasClipping())
	// 	painter->setClipRect(d->opt.rect);

	QVariant value;

	d->iconMode  = ::iconMode(opt().state);
	d->iconState = ::iconState(opt().state);

	switch (ContactListModel::indexType(index)) {
	case ContactListModel::ContactType:
		drawContact(painter, opt(), index);
		break;
	case ContactListModel::GroupType:
		drawGroup(painter, opt(), index);
		break;
	case ContactListModel::AccountType:
		drawAccount(painter, opt(), index);
		break;
	case ContactListModel::InvalidType:
		painter->fillRect(option.rect, Qt::red);
		break;
	default:
		QItemDelegate::paint(painter, option, index);
	}
	painter->restore();

}
Exemplo n.º 2
0
void 
drawElement(e2dElement* elem)  {
    glPushMatrix();
    
    multMatrix(&elem->localTransform);
    switch(elem->type)
    {
            
        case(E2D_GROUP):
            drawGroup((e2dGroup*)elem);
            break;
           
        case(E2D_PATH):
            drawPath((e2dPath*)elem);
            break;
            
        case(E2D_IMAGE):
            drawImage((e2dImage*)elem);
            break;
          
        case(E2D_CLONE):
            drawClone((e2dClone*)elem);
            break;
            
        default:
            break;
    }
        
    drawAxis();
    drawRect(elem->bboxPosition, elem->bboxWidth, elem->bboxHeight);
    glPopMatrix();
}
Exemplo n.º 3
0
void QtTreeViewDelegate::paint(QPainter * painter, const QStyleOptionViewItem & option, const QModelIndex & index) const 
{
	//VOXOX - JRT - 2009.08.10 - TODO: move this and drawGroup to QtContact class
	if (!index.parent().isValid()) 
	{
		drawGroup(painter, option, index);
	} 
	else 
	{
		//VOXOX - JRT - 2009.08.10 
		QtContact* qtContact = getItemData( index );

		if ( qtContact )
		{
//			if ( qtContact->isOpen() )
//			{
//				QWidget * parent = const_cast<QWidget*>(_parent);
////				QtContactWidget * widget = new QtContactWidget( qtContact->getId().toStdString(), qtContact->getKey().toStdString(), _cWengoPhone, _qtContactManager, parent);	//VOXOX - JRT - 2009.08.10 - multiple groups.
//				QtContactWidget * widget = new QtContactWidget( qtContact->getId().toStdString(), qtContact->getKey().toStdString(), _cWengoPhone, parent);	//VOXOX - JRT - 2009.10.15 
////				setSizeHint( 0, QSize(-1, getHeight() ) );
//			}
//			else
			{
			qtContact->paint( painter, option );
		}
	}
		else
		{
			int xxx = 1;
		}
	}
}
void QgsPointDisplacementRenderer::stopRender( QgsRenderContext& context )
{
  QgsDebugMsg( "QgsPointDisplacementRenderer::stopRender" );

  //printInfoDisplacementGroups(); //just for debugging

  Q_FOREACH ( const DisplacementGroup& group, mDisplacementGroups )
  {
    drawGroup( group, context );
  }
void QgsPointDisplacementRenderer::stopRender( QgsRenderContext& context )
{
  QgsDebugMsg( "QgsPointDisplacementRenderer::stopRender" );

  //printInfoDisplacementGroups(); //just for debugging

  for ( QList<DisplacementGroup>::const_iterator it = mDisplacementGroups.begin(); it != mDisplacementGroups.end(); ++it )
    drawGroup( *it, context );

  mDisplacementGroups.clear();
  mGroupIndex.clear();
  delete mSpatialIndex;
  mSpatialIndex = 0;
  mSelectedFeatures.clear();

  mRenderer->stopRender( context );
  if ( mCenterSymbol )
  {
    mCenterSymbol->stopRender( context );
  }
}
Exemplo n.º 6
0
void OneMinusClPlot::Draw()
{
	bool plotSimple = false;//arg->debug; ///< set to true to use a simpler plot function
	///< which directly plots the 1-CL histograms without beautification

  if ( m_mainCanvas==0 ){
		m_mainCanvas = newNoWarnTCanvas(name+getUniqueRootName(), title, 800, 600);
    // put this in for exponent xaxes
    m_mainCanvas->SetRightMargin(0.1);
	}
	if ( arg->plotlog ){
		m_mainCanvas->SetLogy();
		if ( !this->name.EndsWith("_log") ) this->name = this->name + "_log";
	}
	m_mainCanvas->cd();

  // plot the CLs
  for ( int i = 0; i < scanners.size(); i++ ) if (do_CLs[i]==2) scan1dCLsPlot(scanners[i],arg->nsmooth);

	// Legend:
	// make the legend short, the text will extend over the boundary, but the symbol will be shorter
  float legendXmin = arg->plotlegx!=-1. ? arg->plotlegx : 0.19 ;
  float legendYmin = arg->plotlegy!=-1. ? arg->plotlegy : 0.78 ;
  float legendXmax = legendXmin + ( arg->plotlegsizex!=-1. ? arg->plotlegsizex : 0.31 ) ;
  float legendYmax = legendYmin + ( arg->plotlegsizey!=-1. ? arg->plotlegsizey : 0.1640559 ) ;
	TLegend* leg = new TLegend(legendXmin,legendYmin,legendXmax,legendYmax);
	leg->SetFillColor(kWhite);
	leg->SetFillStyle(0);
	leg->SetLineColor(kWhite);
	leg->SetBorderSize(0);
	leg->SetTextFont(font);
	leg->SetTextSize(legendsize*0.75);
	for ( int i = 0; i < scanners.size(); i++ )
	{
		TString legDrawOption = "lf";
		if ( plotPluginMarkers
        && ( scanners[i]->getMethodName()=="Plugin"
          || scanners[i]->getMethodName()=="BergerBoos"
          || scanners[i]->getMethodName()=="DatasetsPlugin" ) )
    {
      legDrawOption = "lep";
    }
    if ( arg->plotlegstyle != "default" ) legDrawOption = arg->plotlegstyle;

    TString legTitle = scanners[i]->getTitle();
    if ( legTitle=="default" ) {
      if ( scanners[i]->getMethodName().Contains("Prob") ) legTitle = do_CLs[i] ? "Prob CLs" : "Prob";
      if ( scanners[i]->getMethodName().Contains("Plugin") ) {
        if ( do_CLs[i]==0 ) legTitle    = "Plugin";
        else if (do_CLs[i]==1) legTitle = "Plugin CLs";
        else if (do_CLs[i]==2) legTitle = "Mixed CLs";
      }
    }
    else if ( !arg->isQuickhack(29) ) {
      if ( scanners[i]->getMethodName().Contains("Prob") ) legTitle += do_CLs[i] ? " (Prob CLs)" : " (Prob)";
      if ( scanners[i]->getMethodName().Contains("Plugin") ) {
        if ( do_CLs[i]==0 )    legTitle += " (Plugin)";
        else if (do_CLs[i]==1) legTitle += " (Plugin CLs)";
        else if (do_CLs[i]==2) legTitle += " (Mixed CLs)";
      }
    }

		if ( plotSimple )
		{
			scan1dPlotSimple(scanners[i], i==0, do_CLs[i]);
			if(do_CLs[i]) 	leg->AddEntry(scanners[i]->getHCL(), legTitle, legDrawOption);
			else 			leg->AddEntry(scanners[i]->getHCL(), legTitle, legDrawOption);
		}
		else
		{
			TGraph* g = scan1dPlot(scanners[i], i==0, false, scanners[i]->getFilled(), do_CLs[i]);
			if(do_CLs[i] &&  scanners[i]->getTitle() != "noleg") 	leg->AddEntry(g, legTitle, legDrawOption);
			else if ( scanners[i]->getTitle() != "noleg" )			leg->AddEntry(g, legTitle, legDrawOption);
		}
	}

	// lines only
	if ( !plotSimple )
		for ( int i = 0; i < scanners.size(); i++ )
		{
			bool last = i==scanners.size()-1;
			scan1dPlot(scanners[i], false, last, false, do_CLs[i]);
		}
	drawSolutions();
	if ( plotLegend ) leg->Draw();
  if ( arg->isQuickhack(22) ) leg->Draw();
	m_mainCanvas->Update();
	drawCLguideLines();

	// draw the logo
	float yGroup = 0.6;
	if ( plotLegend ){
		// we have a legend
		if ( arg->plotlog )   yGroup = 0.775;
		else                  yGroup = 0.60;
	}
	else{
		// no legend
		if ( arg->plotlog )   yGroup = 0.3;
		else                  yGroup = 0.775;
	}
	drawGroup(yGroup);

	m_mainCanvas->Update();
	m_mainCanvas->Show();

}
Exemplo n.º 7
0
///
/// Make a plot for the CLs stuff.
/// The strategy is to convert the hCLExp and hCLErr histogrms
/// into TGraphs and TGraphAsymmErrors
/// We can then provide some smoothing options as well
///
/// \param s The scanner to plot.
/// \param smooth
///
void OneMinusClPlot::scan1dCLsPlot(MethodAbsScan *s, bool smooth, bool obsError)
{
  if ( arg->debug ){
    cout << "OneMinusClPlot::scan1dCLsPlot() : plotting ";
    cout << s->getName() << " (" << s->getMethodName() << ")" << endl;
  }
  m_mainCanvas->cd();

  s->checkCLs();

  TH1F *hObs    = (TH1F*)s->getHCLsFreq()->Clone(getUniqueRootName());
  TH1F *hExp    = (TH1F*)s->getHCLsExp()->Clone(getUniqueRootName());
  TH1F *hErr1Up = (TH1F*)s->getHCLsErr1Up()->Clone(getUniqueRootName());
  TH1F *hErr1Dn = (TH1F*)s->getHCLsErr1Dn()->Clone(getUniqueRootName());
  TH1F *hErr2Up = (TH1F*)s->getHCLsErr2Up()->Clone(getUniqueRootName());
  TH1F *hErr2Dn = (TH1F*)s->getHCLsErr2Dn()->Clone(getUniqueRootName());

  if ( !hObs ) cout << "OneMinusClPlot::scan1dCLsPlot() : problem - can't find histogram hObs" << endl;
  if ( !hExp ) cout << "OneMinusClPlot::scan1dCLsPlot() : problem - can't find histogram hExp" << endl;
  if ( !hErr1Up ) cout << "OneMinusClPlot::scan1dCLsPlot() : problem - can't find histogram hErr1Up" << endl;
  if ( !hErr1Dn ) cout << "OneMinusClPlot::scan1dCLsPlot() : problem - can't find histogram hErr1Dn" << endl;
  if ( !hErr2Up ) cout << "OneMinusClPlot::scan1dCLsPlot() : problem - can't find histogram hErr2Up" << endl;
  if ( !hErr2Dn ) cout << "OneMinusClPlot::scan1dCLsPlot() : problem - can't find histogram hErr2Dn" << endl;

  // convert obs to graph
  TGraph *gObs = convertTH1ToTGraph(hObs,obsError);

  // convert others to raw graphs
  TGraph *gExpRaw    = convertTH1ToTGraph(hExp);
  TGraph *gErr1UpRaw = convertTH1ToTGraph(hErr1Up);
  TGraph *gErr1DnRaw = convertTH1ToTGraph(hErr1Dn);
  TGraph *gErr2UpRaw = convertTH1ToTGraph(hErr2Up);
  TGraph *gErr2DnRaw = convertTH1ToTGraph(hErr2Dn);

  // smoothing if needed
  TGraph *gExp;
  TGraph *gErr1Up;
  TGraph *gErr1Dn;
  TGraph *gErr2Up;
  TGraph *gErr2Dn;

  TGraphSmooth *smoother = new TGraphSmooth();
  if (smooth) {
    if ( arg->debug ) cout << "OneMinusClPlot::scan1dCLsPlot() : smoothing graphs" << endl;
    gExp    = (TGraph*)smoother->SmoothSuper( gExpRaw    )->Clone("gExp");
    gErr1Up = (TGraph*)smoother->SmoothSuper( gErr1UpRaw )->Clone("gErr1Up");
    gErr1Dn = (TGraph*)smoother->SmoothSuper( gErr1DnRaw )->Clone("gErr1Dn");
    gErr2Up = (TGraph*)smoother->SmoothSuper( gErr2UpRaw )->Clone("gErr2Up");
    gErr2Dn = (TGraph*)smoother->SmoothSuper( gErr2DnRaw )->Clone("gErr2Dn");
    if ( arg->debug ) cout << "OneMinusClPlot::scan1dCLsPlot() : done smoothing graphs" << endl;
  }
  else {
    gExp    = gExpRaw;
    gErr1Up = gErr1UpRaw;
    gErr1Dn = gErr1DnRaw;
    gErr2Up = gErr2UpRaw;
    gErr2Dn = gErr2DnRaw;
  }

  if ( !gObs ) cout << "OneMinusClPlot::scan1dCLsPlot() : problem - null graph gObs" << endl;
  if ( !gExp ) cout << "OneMinusClPlot::scan1dCLsPlot() : problem - null graph gExp" << endl;
  if ( !gErr1Up ) cout << "OneMinusClPlot::scan1dCLsPlot() : problem - null graph gErr1Up" << endl;
  if ( !gErr1Dn ) cout << "OneMinusClPlot::scan1dCLsPlot() : problem - null graph gErr1Dn" << endl;
  if ( !gErr2Up ) cout << "OneMinusClPlot::scan1dCLsPlot() : problem - null graph gErr2Up" << endl;
  if ( !gErr2Dn ) cout << "OneMinusClPlot::scan1dCLsPlot() : problem - null graph gErr2Dn" << endl;

  gObs->SetName("gObs");
  gExp->SetName("gExp");
  gErr1Up->SetName("gErr1Up");
  gErr1Dn->SetName("gErr1Dn");
  gErr2Up->SetName("gErr2Up");
  gErr2Dn->SetName("gErr2Dn");

  // now make the graphs for the error bands
  TGraphAsymmErrors *gErr1 = new TGraphAsymmErrors( gExp->GetN() );
  gErr1->SetName("gErr1");
  TGraphAsymmErrors *gErr2 = new TGraphAsymmErrors( gExp->GetN() );
  gErr2->SetName("gErr2");

  double x,y,yerrUp,yerrDn;
  double xerr = (hExp->GetBinCenter(2)-hExp->GetBinCenter(1))/2.;

  // protect against smoothing over 1
  for (int i=0; i<gExp->GetN(); i++) {
    gExp->GetPoint(i,x,y); gExp->SetPoint(i,x,TMath::Min(y,1.));
    gErr1Up->GetPoint(i,x,y); gErr1Up->SetPoint(i,x,TMath::Min(y,1.));
    gErr1Dn->GetPoint(i,x,y); gErr1Dn->SetPoint(i,x,TMath::Min(y,1.));
    gErr2Up->GetPoint(i,x,y); gErr2Up->SetPoint(i,x,TMath::Min(y,1.));
    gErr2Dn->GetPoint(i,x,y); gErr2Dn->SetPoint(i,x,TMath::Min(y,1.));
  }

  for (int i=0; i<gExp->GetN(); i++) {
    gExp->GetPoint(i,x,y);
    gErr1->SetPoint(i,x,y);
    gErr2->SetPoint(i,x,y);

    gErr1Up->GetPoint(i,x,yerrUp);
    gErr1Dn->GetPoint(i,x,yerrDn);
    gErr1->SetPointError(i, xerr, xerr, y-yerrDn, yerrUp-y );

    gErr2Up->GetPoint(i,x,yerrUp);
    gErr2Dn->GetPoint(i,x,yerrDn);
    gErr2->SetPointError(i, xerr, xerr, y-yerrDn, yerrUp-y );
  }

  gErr2->SetFillColor( TColor::GetColor("#3182bd") );
  gErr2->SetLineColor( TColor::GetColor("#3182bd") );
  gErr1->SetFillColor( TColor::GetColor("#9ecae1") );
  gErr1->SetLineColor( TColor::GetColor("#9ecae1") );
  gExp->SetLineColor(kRed);
  gExp->SetLineWidth(3);
  gObs->SetLineColor(kBlack);
  gObs->SetMarkerColor(kBlack);
  gObs->SetLineWidth(3);
  gObs->SetMarkerSize(1);
  gObs->SetMarkerStyle(20);

	float min = arg->scanrangeMin == arg->scanrangeMax ? hObs->GetXaxis()->GetXmin() : arg->scanrangeMin;
	float max = arg->scanrangeMin == arg->scanrangeMax ? hObs->GetXaxis()->GetXmax() : arg->scanrangeMax;
	TH1F *haxes = new TH1F("haxes"+getUniqueRootName(), "", 100, min, max);
	haxes->SetStats(0);
	haxes->GetXaxis()->SetTitle(s->getScanVar1()->GetTitle());
	haxes->GetYaxis()->SetTitle("CL_{S}");
	haxes->GetXaxis()->SetLabelFont(font);
	haxes->GetYaxis()->SetLabelFont(font);
	haxes->GetXaxis()->SetTitleFont(font);
	haxes->GetYaxis()->SetTitleFont(font);
	haxes->GetXaxis()->SetTitleOffset(0.9);
	haxes->GetYaxis()->SetTitleOffset(0.85);
	haxes->GetXaxis()->SetLabelSize(labelsize);
	haxes->GetYaxis()->SetLabelSize(labelsize);
	haxes->GetXaxis()->SetTitleSize(titlesize);
	haxes->GetYaxis()->SetTitleSize(titlesize);
	int xndiv = arg->ndiv==-1 ? 407 : abs(arg->ndiv);
	bool optimizeNdiv = arg->ndiv<0 ? true : false;
	haxes->GetXaxis()->SetNdivisions(xndiv, optimizeNdiv);
	haxes->GetYaxis()->SetNdivisions(407, true);
  haxes->GetYaxis()->SetRangeUser(0.,1.);

  // Legend:
	// make the legend short, the text will extend over the boundary, but the symbol will be shorter
  float legendXmin = 0.68 ;
  float legendYmin = 0.58 ;
  float legendXmax = legendXmin + 0.25 ;
  float legendYmax = legendYmin + 0.22 ;
	TLegend* leg = new TLegend(legendXmin,legendYmin,legendXmax,legendYmax);
	leg->SetFillColor(kWhite);
	leg->SetFillStyle(0);
	leg->SetLineColor(kWhite);
	leg->SetBorderSize(0);
	leg->SetTextFont(font);
	leg->SetTextSize(legendsize*0.75);

  if (obsError) leg->AddEntry( gObs, "Observed", "LEP" );
  else          leg->AddEntry( gObs, "Observed", "LP"  );
  leg->AddEntry( gExp, "Expected", "L" );
  leg->AddEntry( gErr1, "#pm 1#sigma", "F");
  leg->AddEntry( gErr2, "#pm 2#sigma", "F");

  haxes->Draw("AXIS+");
  gErr2->Draw("E3same");
  gErr1->Draw("E3same");
  gExp->Draw("Lsame");
  if (obsError) gObs->Draw("LEPsame");
  else          gObs->Draw("LPsame");
  leg->Draw("same");

  drawCLguideLine(0.1);

  double yGroup = 0.83;
  if ( arg->plotprelim || arg->plotunoff ) yGroup = 0.8;
  drawGroup(yGroup);

  m_mainCanvas->SetTicks();
  m_mainCanvas->RedrawAxis();
  m_mainCanvas->Update();
  m_mainCanvas->Modified();
  m_mainCanvas->Show();
  savePlot( m_mainCanvas, name+"_cls"+arg->plotext );
  m_mainCanvas->SetTicks(false);
}