void drawLabel(ImageProcessor ip) { int count = Analyzer.getCounter(); if (count>0 && roi!=null) drawLabel(imp, ip, count, roi.getBounds()); }
void drawLabel(ImageProcessor ip) { int count = Analyzer.getCounter(); if (count>0 && roi!=null) drawLabel(imp, ip, count, roi.getBounds()); }
/** * @deprecated * replaced by ImageProcessor.draw(Roi) */ public void draw(ImageProcessor ip) { ip.setColor(Toolbar.getForegroundColor()); roi.drawPixels(ip); if (IJ.altKeyDown()) drawLabel(ip); }
/** * @deprecated * replaced by ImageProcessor.draw(Roi) */ public void draw(ImageProcessor ip) { ip.setColor(Toolbar.getForegroundColor()); roi.drawPixels(ip); if (IJ.altKeyDown()) drawLabel(ip); }
void drawParticleLabels(ImageProcessor ip) { ResultsTable rt = ResultsTable.getResultsTable(); int count = rt.size(); int first = Analyzer.firstParticle; int last = Analyzer.lastParticle; if (count==0 || first>=count || last>=count) return; if (!rt.columnExists(ResultsTable.X_CENTROID)) { IJ.error("Label", "\"Centroids\" required to label particles"); return; } for (int i=first; i<=last; i++) { int x = (int)rt.getValueAsDouble(ResultsTable.X_CENTROID, i); int y = (int)rt.getValueAsDouble(ResultsTable.Y_CENTROID, i); drawLabel(imp, ip, i+1, new Rectangle(x,y,0,0)); } }
void drawParticleLabels(ImageProcessor ip) { ResultsTable rt = ResultsTable.getResultsTable(); int count = rt.size(); int first = Analyzer.firstParticle; int last = Analyzer.lastParticle; if (count==0 || first>=count || last>=count) return; if (!rt.columnExists(ResultsTable.X_CENTROID)) { IJ.error("Label", "\"Centroids\" required to label particles"); return; } for (int i=first; i<=last; i++) { int x = (int)rt.getValueAsDouble(ResultsTable.X_CENTROID, i); int y = (int)rt.getValueAsDouble(ResultsTable.Y_CENTROID, i); drawLabel(imp, ip, i+1, new Rectangle(x,y,0,0)); } }
public void label(ImageProcessor ip) { if (!IJ.isMacro()) { IJ.error("Label", "To label a selection, enable \"Add to overlay\" in Analyze>\nSet Measurements and press 'm' (Analyze>Measure)."); return; } if (Analyzer.getCounter()==0) { IJ.error("Label", "Measurement counter is zero"); return; } if (Analyzer.firstParticle<Analyzer.lastParticle) drawParticleLabels(ip); else { ip.setColor(Toolbar.getForegroundColor()); ImageCanvas ic = imp.getCanvas(); if (ic!=null) { double mag = ic.getMagnification(); if (mag<1.0) { int lineWidth = 1; lineWidth = (int)(lineWidth/mag); ip.setLineWidth(lineWidth); } } roi.drawPixels(ip); ip.setLineWidth(1); drawLabel(ip); } }
public void label(ImageProcessor ip) { if (!IJ.isMacro()) { IJ.error("Label", "To label a selection, enable \"Add to overlay\" in Analyze>\nSet Measurements and press 'm' (Analyze>Measure)."); return; } if (Analyzer.getCounter()==0) { IJ.error("Label", "Measurement counter is zero"); return; } if (Analyzer.firstParticle<Analyzer.lastParticle) drawParticleLabels(ip); else { ip.setColor(Toolbar.getForegroundColor()); ImageCanvas ic = imp.getCanvas(); if (ic!=null) { double mag = ic.getMagnification(); if (mag<1.0) { int lineWidth = 1; lineWidth = (int)(lineWidth/mag); ip.setLineWidth(lineWidth); } } roi.drawPixels(ip); ip.setLineWidth(1); drawLabel(ip); } }
case LABEL: roi.drawPixels(ip); filler.drawLabel(imp, ip, i+1, roi.getBounds()); break;
case LABEL: roi.drawPixels(ip); filler.drawLabel(imp, ip, i+1, roi.getBounds()); break;