private void initComponents() { this.setLayout(new GridBagLayout()); GridBagManager.reset(); GridBagManager.GRID_BAG.fill = GridBagConstraints.HORIZONTAL; GridBagManager.GRID_BAG.anchor = GridBagConstraints.FIRST_LINE_START; GridBagManager.GRID_BAG.weightx = 0; GridBagManager.GRID_BAG.weighty = 0; GridBagManager.GRID_BAG.insets = new Insets(2, 2, 1, 1); valueLabel = new JLabel("Value: "); methodLabel = new JLabel("Plot: "); valueComboBox = new JComboBox(items); // this.addAdditional(); valueComboBox.addActionListener(this); methodComboBox = new JComboBox(methods); methodComboBox.addActionListener(this); if (graph != null) { Vector vector = new Vector(); Collection<HitVertex> hvs = graph.getVertices(); for (HitVertex hitVertex : hvs) { vector.add((double) hitVertex.getLength()); } double[] array = new double[vector.size()]; for (int i = 0; i < vector.size(); i++) { array[i] = (Double) vector.get(i); } // Image image = null; // try { // image = bsTool.getHistogram(array); // } catch (IOException e) { // // TODO Auto-generated catch block // e.printStackTrace(); // } // statisticsPanel.setImage(image); Arrays.sort(array); plot2dPanel.addLinePlot("Array", array); } // JButton testButton = new JButton("Test"); GridBagManager.add(this, valueLabel, 0, 0, 1, 1); GridBagManager.add(this, methodLabel, 0, 1, 1, 1); GridBagManager.GRID_BAG.weightx = 1; GridBagManager.add(this, valueComboBox, 1, 0, 1, 1); GridBagManager.add(this, methodComboBox, 1, 1, 1, 1); GridBagManager.GRID_BAG.weighty = 1; GridBagManager.GRID_BAG.fill = GridBagConstraints.BOTH; // GridBagManager.add(pane, statisticsPanel, 0, 1, 4, 4); GridBagManager.add(this, plot2dPanel, 0, 2, 2, 2); // GridBagManager.add(pane, testButton, 0, 1, 4, 4); }
/* * (non-Javadoc) * * @see org.bigwiv.blastgraph.command.Command#concreteExecute() */ @Override public void concreteExecute() { String curPath = Global.getAppPath(this.getClass()); File mclGraphFile = new File(curPath + File.separator + "mcl_graph_file"); File mclClustFile = new File( curPath + File.separator + "out.mcl_graph_file.I" + ("" + inflation).replace(".", "").substring(0, 2)); // System.out.println(mclClustFile); try { ArrayList<ValueEdge> edges = new ArrayList<ValueEdge>(Global.graph.getEdges()); BufferedWriter bw; bw = new BufferedWriter(new FileWriter(mclGraphFile)); Global.WORK_STATUS.setMessage(""); Global.WORK_STATUS.setMessage("Stage1: Generating Tabular Format..."); for (ValueEdge valueEdge : edges) { Pair<HitVertex> pair = Global.graph.getEndpoints(valueEdge); HitVertex hv1 = pair.getFirst(); HitVertex hv2 = pair.getSecond(); double weight = 0; if (weightType == EVALUE_WEIGHT) { double evalue = valueEdge.getExpectValue(); if (evalue >= lowCutoff) { weight = 0; } else if (evalue < highCutoff) { weight = -Math.log10(highCutoff); } else { weight = -Math.log10(evalue); } } else if (weightType == SCORE_WEIGHT) { double score = valueEdge.getScore(); if (score <= lowCutoff) { weight = 0; } else if (score > highCutoff) { weight = highCutoff; } else { weight = score; } } else if (weightType == SCORE_DENSITY_WEIGHT) { double scoreDensity = Global.graph.getScoreDensity(valueEdge); if (scoreDensity <= lowCutoff) { weight = 0; } else if (scoreDensity > highCutoff) { weight = highCutoff; } else { weight = scoreDensity; } } bw.write(hv1.getId() + "\t" + hv2.getId() + "\t" + weight + "\n"); } // store single vertices for (HitVertex hv : Global.graph.getVertices()) { if (Global.graph.getInEdges(hv).size() == 0) bw.write(hv.getId() + "\t" + hv.getId() + "\t" + 10 + "\n"); } bw.close(); Global.WORK_STATUS.setMessage("Stage1 Complete"); Global.WORK_STATUS.setMessage(""); String mclCmd; String cmdPath = Global.SETTING.get("MCL_PATH"); if (cmdPath != null && (new File(cmdPath).isDirectory())) { mclCmd = cmdPath + File.separator + "mcl"; } else { mclCmd = "mcl"; } ProcessBuilder pb = new ProcessBuilder(mclCmd, "mcl_graph_file", "--abc", "-I", "" + inflation); // System.out.println(pb.command().toString()); pb.redirectErrorStream(true); pb.directory(new File(curPath)); Process p = pb.start(); Global.WORK_STATUS.setMessage("Stage2: Markov Clustering..."); BufferedInputStream in = new BufferedInputStream(p.getInputStream()); BufferedReader inBr = new BufferedReader(new InputStreamReader(in)); String lineStr; while ((lineStr = inBr.readLine()) != null) { // System.out.println(lineStr); Global.WORK_STATUS.setMessage(lineStr); } if (p.waitFor() != 0) { if (p.exitValue() == 1) // System.err.println("Failed to run mcl!"); Global.WORK_STATUS.setError("Failed to run mcl!"); } inBr.close(); in.close(); Global.WORK_STATUS.setMessage("Stage2 Complete"); mclGraphFile.delete(); Global.WORK_STATUS.setMessage(""); Global.WORK_STATUS.setMessage("Stage3: Regenerating SubGraphs..."); BufferedReader br = new BufferedReader(new FileReader(mclClustFile)); String line = br.readLine(); BlastGraph<HitVertex, ValueEdge> tempGraph = new BlastGraph<HitVertex, ValueEdge>(); int count = 0; while (line != null && !line.equals("")) { String[] ids = line.split("\t"); // set to store vertices Set<HitVertex> hvs2 = new HashSet<HitVertex>(); // get and add vertices into hvs by GI in ids for (int i = 0; i < ids.length; i++) { hvs2.add(Global.graph.getVertex(ids[i])); } tempGraph.union(FilterUtils.createInducedSubgraph(hvs2, Global.graph)); line = br.readLine(); Global.WORK_STATUS.setMessage("Subgraph: " + (++count)); } br.close(); mclClustFile.delete(); Global.graph.copy(tempGraph); Global.WORK_STATUS.setMessage("Stage3 Complete"); Global.WORK_STATUS.setMessage(""); Global.WORK_STATUS.setMessage("Markov Clustering Complete"); // System.out.println(curPath); } catch (IOException e) { // TODO Auto-generated catch block e.printStackTrace(); } catch (InterruptedException e) { // TODO Auto-generated catch block e.printStackTrace(); } }
@Override public void actionPerformed(ActionEvent e) { int index = valueComboBox.getSelectedIndex(); int index2 = methodComboBox.getSelectedIndex(); if (!plot2dPanel.getPlots().isEmpty()) { plot2dPanel.getPlots().clear(); } // System.out.println("changed: " + index + " " + index2); Vector vector = new Vector(); if (index == 0) { Collection<HitVertex> hvs = graph.getVertices(); for (HitVertex hitVertex : hvs) { vector.add((double) hitVertex.getLength()); } } else if (index == 1) { Collection<ValueEdge> ves = graph.getEdges(); for (ValueEdge ve : ves) { if (ve.getExpectValue() == 0) { vector.add(-200.0); } else { vector.add(Math.log10(ve.getExpectValue())); } } } else if (index == 2) { Collection<ValueEdge> ves = graph.getEdges(); for (ValueEdge ve : ves) { vector.add(graph.getCoverage(ve)); } } else if (index == 3) { Collection<ValueEdge> ves = graph.getEdges(); for (ValueEdge ve : ves) { vector.add(graph.getCoverage2(ve)); } } else if (index == 4) { Collection<ValueEdge> ves = graph.getEdges(); for (ValueEdge ve : ves) { vector.add(graph.getScoreDensity(ve)); } } else if (index == 5) { Collection<ValueEdge> ves = graph.getEdges(); for (ValueEdge ve : ves) { vector.add(graph.getPercentageIdentity(ve)); } } else if (index == 6) { Collection<ValueEdge> ves = graph.getEdges(); for (ValueEdge ve : ves) { vector.add(graph.getPercentagePositive(ve)); } } else if (index == 7) { final BlastGraph<HitVertex, ValueEdge> tmpGraph = new BlastGraph<HitVertex, ValueEdge>(); tmpGraph.copy(graph); ArrayList<ValueEdge> ves = new ArrayList<ValueEdge>(tmpGraph.getEdges()); vertexCount = new double[ves.size()]; values = new double[ves.size()]; Collections.sort( ves, new Comparator<ValueEdge>() { @Override public int compare(ValueEdge arg0, ValueEdge arg1) { // from biggest to smallest if (arg0.getExpectValue() < arg1.getExpectValue()) { return 1; } else if (arg0.getExpectValue() > arg1.getExpectValue()) { return -1; } else { return 0; } } }); for (int i = 0; i < ves.size(); i++) { ValueEdge ve = ves.get(i); if (ve.getExpectValue() == 0) { values[i] = -200.0; } else { values[i] = Math.log10(ve.getExpectValue()); } // values[i] = ve.getExpectValue(); tmpGraph.removeEdge(ve); tmpGraph.generateSubSet(); vertexCount[i] = tmpGraph.getSubSet().get(0).size(); // System.out.println(values[i] + ": " + vertexCount[i]); } } else if (index == 8) { final BlastGraph<HitVertex, ValueEdge> tmpGraph = new BlastGraph<HitVertex, ValueEdge>(); tmpGraph.copy(graph); ArrayList<ValueEdge> ves = new ArrayList<ValueEdge>(tmpGraph.getEdges()); vertexCount = new double[ves.size()]; values = new double[ves.size()]; Collections.sort( ves, new Comparator<ValueEdge>() { @Override public int compare(ValueEdge arg0, ValueEdge arg1) { // from smallest to biggest if (tmpGraph.getCoverage(arg0) > tmpGraph.getCoverage(arg1)) { return 1; } else if (tmpGraph.getCoverage(arg0) < tmpGraph.getCoverage(arg1)) { return -1; } else { return 0; } } }); for (int i = 0; i < ves.size(); i++) { ValueEdge ve = ves.get(i); values[i] = tmpGraph.getCoverage(ve); tmpGraph.removeEdge(ve); tmpGraph.generateSubSet(); vertexCount[i] = tmpGraph.getSubSet().get(0).size(); // System.out.println(values[i] + ": " + vertexCount[i]); } } else { final BlastGraph<HitVertex, ValueEdge> tmpGraph = new BlastGraph<HitVertex, ValueEdge>(); tmpGraph.copy(graph); ArrayList<ValueEdge> ves = new ArrayList<ValueEdge>(tmpGraph.getEdges()); vertexCount = new double[ves.size()]; values = new double[ves.size()]; Collections.sort( ves, new Comparator<ValueEdge>() { @Override public int compare(ValueEdge arg0, ValueEdge arg1) { // from smallest to biggest if (tmpGraph.getCoverage2(arg0) > tmpGraph.getCoverage2(arg1)) { return 1; } else if (tmpGraph.getCoverage2(arg0) < tmpGraph.getCoverage2(arg1)) { return -1; } else { return 0; } } }); for (int i = 0; i < ves.size(); i++) { ValueEdge ve = ves.get(i); values[i] = tmpGraph.getCoverage2(ve); tmpGraph.removeEdge(ve); tmpGraph.generateSubSet(); vertexCount[i] = tmpGraph.getSubSet().get(0).size(); // System.out.println(values[i] + ": " + vertexCount[i]); } } double[] array = new double[vector.size()]; for (int i = 0; i < vector.size(); i++) { array[i] = (Double) vector.get(i); } Arrays.sort(array); double[] arrayIndex = new double[array.length]; for (int i = 0; i < arrayIndex.length; i++) { arrayIndex[i] = i + 1; } // System.out.println(array[1]); if (index2 == 0) { // if (valueComboBox.getItemCount() == items.length) { // addAdditional(); // } if (index < items.length) { plot2dPanel.addLinePlot("Array", array, arrayIndex); } else { // System.out.println(values.length + " " + vertexCount.length); plot2dPanel.addLinePlot("vertexCount", values, vertexCount); } plot2dPanel.repaint(); } else if (index2 == 1) { // try { // Image image = bsTool.getHistogram(array); // statisticsPanel.setImage(image); // statisticsPanel.repaint(); // this.pack(); // } catch (IOException e) { // e.printStackTrace(); // } // if (valueComboBox.getItemCount() > items.length) { // removeAdditional(); // } plot2dPanel.addHistogramPlot("Array", array, 20); plot2dPanel.repaint(); } }