/** * Outputs the summary information from the shape map. * * @param writer The Excel writer. * @param shapeMap see above. * @throws IOException */ private void outputSummary(ExcelWriter writer, TreeMap<Coord3D, ROIShape> shapeMap) { int rowIndex = 0; printSummaryHeader(writer, rowIndex); rowIndex++; Coord3D start = shapeMap.firstKey(); Coord3D end = shapeMap.lastKey(); Coord3D coord; List<Integer> channels = new ArrayList<Integer>(channelName.keySet()); for (Integer c : channels) { for (int z = start.getZSection(); z <= end.getZSection(); z++) for (int t = start.getTimePoint(); t <= end.getTimePoint(); t++) { coord = new Coord3D(z, t); populateData(coord, c); outputSummaryRow(writer, rowIndex, c, z, t); rowIndex++; } } }
/** * Writes the header information for the file, image, projects, dataset. * * @param writer The Excel writer. * @param rowIndex The selected row. * @param currentCoord The coord of the shape being written. * @throws IOException Thrown if the data cannot be written. */ private void writeHeader(ExcelWriter writer, int rowIndex, Coord3D currentCoord) { writer.writeElement(rowIndex, 0, "Image "); writer.writeElement(rowIndex, 1, model.getImageName()); rowIndex++; writer.writeElement(rowIndex, 0, "Z "); writer.writeElement(rowIndex, 1, (currentCoord.getZSection() + 1)); rowIndex++; writer.writeElement(rowIndex, 0, "T "); writer.writeElement(rowIndex, 1, (currentCoord.getTimePoint() + 1)); rowIndex++; }
/** * Get the analysis results from the model and convert to the necessary array. data types using * the ROIStats wrapper then create the appropriate table data and summary statistics. */ void displayAnalysisResults() { if (state == State.ANALYSING) return; this.ROIStats = model.getAnalysisResults(); if (ROIStats == null || ROIStats.size() == 0) return; state = State.ANALYSING; channelSelection.setVisible(true); clearMaps(); shapeStatsList = new TreeMap<Coord3D, Map<StatsType, Map>>(new Coord3D()); pixelStats = new TreeMap<Coord3D, Map<Integer, Map<Point, Double>>>(new Coord3D()); shapeMap = new TreeMap<Coord3D, ROIShape>(new Coord3D()); minStats = new TreeMap<Coord3D, Map<Integer, Double>>(new Coord3D()); maxStats = new TreeMap<Coord3D, Map<Integer, Double>>(new Coord3D()); meanStats = new TreeMap<Coord3D, Map<Integer, Double>>(new Coord3D()); sumStats = new TreeMap<Coord3D, Map<Integer, Double>>(new Coord3D()); stdDevStats = new TreeMap<Coord3D, Map<Integer, Double>>(new Coord3D()); Entry entry; Iterator j = ROIStats.entrySet().iterator(); channelName = new TreeMap<Integer, String>(); nameMap = new LinkedHashMap<String, Integer>(); int minZ = Integer.MAX_VALUE, maxZ = Integer.MIN_VALUE; int minT = Integer.MAX_VALUE, maxT = Integer.MIN_VALUE; clearAllValues(); Coord3D c3D; Map<StatsType, Map> shapeStats; ChannelData channelData; int channel; Iterator<ChannelData> i; List<ChannelData> metadata = model.getMetadata(); while (j.hasNext()) { entry = (Entry) j.next(); shape = (ROIShape) entry.getKey(); c3D = shape.getCoord3D(); minT = Math.min(minT, c3D.getTimePoint()); maxT = Math.max(maxT, c3D.getTimePoint()); minZ = Math.min(minZ, c3D.getZSection()); maxZ = Math.max(maxZ, c3D.getZSection()); shapeMap.put(c3D, shape); if (shape.getFigure() instanceof MeasureTextFigure) { state = State.READY; return; } shapeStats = AnalysisStatsWrapper.convertStats((Map) entry.getValue()); shapeStatsList.put(c3D, shapeStats); minStats.put(c3D, shapeStats.get(StatsType.MIN)); maxStats.put(c3D, shapeStats.get(StatsType.MAX)); meanStats.put(c3D, shapeStats.get(StatsType.MEAN)); sumStats.put(c3D, shapeStats.get(StatsType.SUM)); stdDevStats.put(c3D, shapeStats.get(StatsType.STDDEV)); pixelStats.put(c3D, shapeStats.get(StatsType.PIXEL_PLANEPOINT2D)); /* really inefficient but hey.... quick hack just now till refactor */ channelName.clear(); nameMap.clear(); channelColour.clear(); i = metadata.iterator(); List<String> names = new ArrayList<String>(); String name; while (i.hasNext()) { channelData = i.next(); channel = channelData.getIndex(); if (model.isChannelActive(channel)) { name = channelData.getChannelLabeling(); if (names.contains(name)) name += " " + channel; channelName.put(channel, name); nameMap.put(channelName.get(channel), channel); channelColour.put(channel, (Color) model.getActiveChannels().get(channel)); } } } if (channelName.size() != channelColour.size() || nameMap.size() == 0) { createComboBox(); List<String> names = channelSummaryModel.getRowNames(); List<String> channelNames = new ArrayList<String>(); Double data[][] = new Double[channelName.size()][names.size()]; channelSummaryModel = new ChannelSummaryModel(names, channelNames, data); channelSummaryTable.setModel(channelSummaryModel); saveButton.setEnabled(false); showIntensityTable.setEnabled(false); if (intensityDialog != null) intensityDialog.setVisible(false); state = State.READY; return; } saveButton.setEnabled(true); showIntensityTable.setEnabled(true); maxZ = maxZ + 1; minZ = minZ + 1; maxT = maxT + 1; minT = minT + 1; createComboBox(); Object[] nameColour = (Object[]) channelSelection.getSelectedItem(); String string = (String) nameColour[1]; selectedChannel = nameMap.get(string); zSlider.setMaximum(maxZ); zSlider.setMinimum(minZ); tSlider.setMaximum(maxT); tSlider.setMinimum(minT); zSlider.setVisible((maxZ != minZ)); tSlider.setVisible((maxT != minT)); tSlider.setValue(model.getCurrentView().getTimePoint() + 1); zSlider.setValue(model.getCurrentView().getZSection() + 1); coord = new Coord3D(zSlider.getValue() - 1, tSlider.getValue() - 1); shape = shapeMap.get(coord); populateData(coord, selectedChannel); saveButton.setEnabled(tableModel.getRowCount() > 0); state = State.READY; }