/*.................................................................................................................*/
 public Object doCommand(String commandName, String arguments, CommandChecker checker) {
   if (checker.compare(
       this.getClass(),
       "Sets the number of trees included in each tree block",
       "[number of trees]",
       commandName,
       "setNumberTrees")) {
     MesquiteInteger pos = new MesquiteInteger(0);
     int newNum = MesquiteInteger.fromFirstToken(arguments, pos);
     if (!MesquiteInteger.isCombinable(newNum))
       newNum =
           MesquiteInteger.queryInteger(
               containerOfModule(),
               "Set Number of Trees",
               "Number of Trees:",
               numTrees,
               0,
               MesquiteInteger.infinite);
     if (newNum > 0 && newNum != numTrees) {
       numTrees = newNum;
       parametersChanged();
     }
   } else if (checker.compare(
       this.getClass(),
       "Returns the module supplying trees",
       "[name of module]",
       commandName,
       "getTreeFiller")) {
     return fillerTask;
   } else return super.doCommand(commandName, arguments, checker);
   return null;
 }
示例#2
0
  /**
   * A request for the MesquiteModule to perform a command. It is passed two strings, the name of
   * the command and the arguments. This should be overridden by any module that wants to respond to
   * a command.
   */
  public Object doCommand(String commandName, String arguments, CommandChecker checker) {
    if (checker.compare(MesquiteModule.class, null, null, commandName, "paint")) {
      MesquiteInteger io = new MesquiteInteger(0);
      int column = MesquiteInteger.fromString(arguments, io);
      int row = MesquiteInteger.fromString(arguments, io);
      if (MesquiteInteger.isCombinable(row)) {
        if (!MesquiteLong.isCombinable(currentColor)) removeColor(row, true);
        else setColor(row, (int) currentColor);
      }
    } else if (checker.compare(
        this.getClass(),
        "Sets the color to be used to paint cells",
        "[name of color]",
        commandName,
        "setColor")) {
      int bc = ColorDistribution.standardColorNames.indexOf(parser.getFirstToken(arguments));
      if (bc >= 0 && MesquiteLong.isCombinable(bc)) {
        removeColor.setValue(false);
        currentColor = bc;
        savedColor = bc;
        colorString = "Color " + ColorDistribution.standardColorNames.getValue(bc);
      }
    } else if (checker.compare(
        this.getClass(),
        "Sets the color of selected taxa",
        "[name of color]",
        commandName,
        "setColorSelected")) {
      int bc = ColorDistribution.standardColorNames.indexOf(parser.getFirstToken(arguments));
      if (bc >= 0 && MesquiteLong.isCombinable(bc)) {
        for (int it = 0; it < taxa.getNumTaxa(); it++) if (taxa.getSelected(it)) setColor(it, bc);
      }
    } else if (checker.compare(
        this.getClass(), "Removes color from all the cells", null, commandName, "removeAllColor")) {
      removeAllColor(true);
    } else if (checker.compare(
        this.getClass(),
        "Sets the paint brush so that it removes colors from any cells touched",
        null,
        commandName,
        "removeColor")) {
      if (StringUtil.blank(arguments)) removeColor.setValue(!removeColor.getValue());
      else removeColor.toggleValue(parser.getFirstToken(arguments));

      if (removeColor.getValue()) {
        colorString = "Remove color";
        currentColor = MesquiteLong.unassigned;
      } else {
        colorString = "Color " + ColorDistribution.standardColorNames.getValue((int) currentColor);
        currentColor = savedColor;
      }
    } else return super.doCommand(commandName, arguments, checker);
    return null;
  }
 /*.................................................................................................................*/
 public Object doCommand(String commandName, String arguments, CommandChecker checker) {
   if (checker.compare(
       this.getClass(),
       "Sets whether or not to count stops in regions with ambiguous nucleotides that imply a stop OR an amino acid",
       "[on; off]",
       commandName,
       "toggleCountEvenIfOthers")) {
     countEvenIfOthers.toggleValue(parser.getFirstToken(arguments));
     parametersChanged();
   } else if (checker.compare(
       this.getClass(), "Returns the matrix source", null, commandName, "getMatrixSource")) {
     return matrixSourceTask;
   } else return super.doCommand(commandName, arguments, checker);
   return null;
 }
 /*.................................................................................................................*/
 public Object doCommand(String commandName, String arguments, CommandChecker checker) {
   if (checker.compare(
       this.getClass(), "Sets the username", "[username]", commandName, "setUsername")) {
     username = parser.getFirstToken(arguments);
   }
   return null;
 }
 /*.................................................................................................................*/
 public Object doCommand(String commandName, String arguments, CommandChecker checker) {
   if (checker.compare(
       this.getClass(),
       "Sets the number of trees included in each tree block",
       "[number of trees]",
       commandName,
       "setNumberTrees")) {
     MesquiteInteger pos = new MesquiteInteger(0);
     int newNum = MesquiteInteger.fromFirstToken(arguments, pos);
     if (!MesquiteInteger.isCombinable(newNum))
       newNum =
           MesquiteInteger.queryInteger(
               containerOfModule(),
               "Set Number of Trees",
               "Number of Trees:",
               numTrees,
               0,
               MesquiteInteger.infinite);
     if (newNum > 0 && newNum != numTrees) {
       numTrees = newNum;
       parametersChanged();
     }
   } else if (checker.compare(
       this.getClass(),
       "Sets the module supplying trees",
       "[name of module]",
       commandName,
       "setTreeFiller")) {
     TreeBlockFiller temp =
         (TreeBlockFiller)
             replaceEmployee(
                 TreeBlockFiller.class, arguments, "Source of trees for tree blocks", fillerTask);
     if (temp != null) {
       fillerTask = temp;
       initialize(preferredTaxa);
       parametersChanged(); // ?
     }
     return temp;
   } else return super.doCommand(commandName, arguments, checker);
   return null;
 }
 /*.................................................................................................................*/
 public Object doCommand(String commandName, String arguments, CommandChecker checker) {
   if (checker.compare(
       this.getClass(),
       "Sets the running file path",
       "[file path]",
       commandName,
       "setRunningFilePath")) {
     runningFilePath = parser.getFirstToken(arguments);
   } else if (checker.compare(
       this.getClass(),
       "Sets the output file paths",
       "[file paths]",
       commandName,
       "setOutputFilePaths")) {
     int num = parser.getNumberOfTokens(arguments);
     outputFilePaths = new String[num];
     if (num > 0) outputFilePaths[0] = parser.getFirstToken();
     for (int i = 1; i < num; i++) outputFilePaths[i] = parser.getNextToken();
   }
   return null;
 }
 /*.................................................................................................................*/
 public Object doCommand(String commandName, String arguments, CommandChecker checker) {
   if (checker.compare(
       this.getClass(),
       "Sets module supplying characters",
       "[name of module]",
       commandName,
       "setCharacterSource")) {
     CharacterObedSource newCharacterSourceTask;
     if (hiringCondition != null)
       newCharacterSourceTask =
           (CharacterObedSource)
               replaceCompatibleEmployee(
                   CharacterObedSource.class,
                   arguments,
                   characterSourceTask,
                   hiringCondition); // , "Source of characters"
     else
       newCharacterSourceTask =
           (CharacterObedSource)
               replaceEmployee(
                   CharacterObedSource.class,
                   arguments,
                   "Source of characters",
                   characterSourceTask);
     if (newCharacterSourceTask != null) {
       characterSourceTask = newCharacterSourceTask;
       characterSourceTask.setHiringCommand(cstC);
       charSourceName.setValue(characterSourceTask.getName());
       resetContainingMenuBar();
       parametersChanged();
       return characterSourceTask;
     } else {
       discreetAlert(
           "Unable to activate character source \""
               + arguments
               + "\"  for use by "
               + employer.getName());
     }
   } else if (characterSourceTask != null) { // todo: temporary, for snapshot conversions
     return characterSourceTask.doCommand(commandName, arguments, checker);
   } else return super.doCommand(commandName, arguments, checker);
   return null;
 }
示例#8
0
 /*.................................................................................................................*/
 public Object doCommand(String commandName, String arguments, CommandChecker checker) {
   if (checker.compare(
       this.getClass(),
       "Hires the ExternalProcessRunner",
       "[name of module]",
       commandName,
       "setExternalProcessRunner")) {
     ExternalProcessRunner temp =
         (ExternalProcessRunner)
             replaceEmployee(
                 ExternalProcessRunner.class,
                 arguments,
                 "External Process Runner",
                 externalProcRunner);
     if (temp != null) {
       externalProcRunner = temp;
       parametersChanged();
     }
     externalProcRunner.setProcessRequester(this);
     return externalProcRunner;
   } else return super.doCommand(commandName, arguments, checker);
 }
示例#9
0
 /*.................................................................................................................*/
 public Object doCommand(String commandName, String arguments, CommandChecker checker) {
   if (checker.compare(
       this.getClass(),
       "Sets the number of randomly chosen taxa to exclude",
       "[number]",
       commandName,
       "setNumberExcluded")) {
     int s = MesquiteInteger.fromString(parser.getFirstToken(arguments));
     if (!MesquiteInteger.isCombinable(s)) {
       s =
           MesquiteInteger.queryInteger(
               containerOfModule(),
               "Number of taxa to exclude",
               "Enter the number of randomly chosen taxa to exclude",
               numExcluded);
     }
     if (MesquiteInteger.isCombinable(s)) {
       numExcluded = s;
       parametersChanged();
     }
   } else return super.doCommand(commandName, arguments, checker);
   return null;
 }
  /*.................................................................................................................*/
  public Object doCommand(String commandName, String arguments, CommandChecker checker) {
    Tree trt = treeDisplay.getTree();
    MesquiteTree t = null;
    if (trt instanceof MesquiteTree) t = (MesquiteTree) trt;
    if (checker.compare(
        this.getClass(),
        "Adjust tool has touched branch",
        "[branch number][x coordinate touched][y coordinate touched][modifiers]",
        commandName,
        "touchedPositionAdjust")) {
      if (t == null) return null;
      MesquiteInteger io = new MesquiteInteger(0);
      int node = MesquiteInteger.fromString(arguments, io);
      int x = MesquiteInteger.fromString(arguments, io);
      int y = MesquiteInteger.fromString(arguments, io);
      String mod = ParseUtil.getRemaining(arguments, io);

      Point newOnLine = treeDisplay.getTreeDrawing().projectionOnLine(node, x, y);
      originalX = newOnLine.x;
      originalY = newOnLine.y;
      // lastX= newOnLine.x;
      // lastY = newOnLine.y;
      Graphics g = null;
      if (GraphicsUtil.useXORMode(null, false)) {
        g = treeDisplay.getGraphics();
        g.setXORMode(Color.white);
        g.setColor(Color.red);
      }
      // double bX = treeDisplay.getTreeDrawing().lineBaseX[node];
      // double bY = treeDisplay.getTreeDrawing().lineBaseY[node];
      // Math.sqrt((originalY-bY)*(originalY-bY) + (originalX-bX)*(originalX-bX));
      lastBL = tree.getBranchLength(node);
      double shortestAbove = MesquiteDouble.unassigned;
      for (int daughter = t.firstDaughterOfNode(node);
          t.nodeExists(daughter);
          daughter = t.nextSisterOfNode(daughter))
        shortestAbove = MesquiteDouble.minimum(shortestAbove, tree.getBranchLength(daughter));
      if (shortestAbove == MesquiteDouble.unassigned) upperLimit = MesquiteDouble.infinite;
      else if (MesquiteDouble.isCombinable(lastBL)) upperLimit = shortestAbove + lastBL;
      else upperLimit = shortestAbove + 1.0;
      int ibX = treeDisplay.getTreeDrawing().lineBaseX[node];
      int ibY = treeDisplay.getTreeDrawing().lineBaseY[node];
      lastX = treeDisplay.getTreeDrawing().lineTipX[node];
      lastY = treeDisplay.getTreeDrawing().lineTipY[node];
      if (GraphicsUtil.useXORMode(null, false)) {
        drawThickLine(g, ibX, ibY, lastX, lastY);
        for (int daughter = t.firstDaughterOfNode(node);
            t.nodeExists(daughter);
            daughter = t.nextSisterOfNode(daughter))
          drawThickLine(
              g,
              treeDisplay.getTreeDrawing().lineTipX[daughter],
              treeDisplay.getTreeDrawing().lineTipY[daughter],
              lastX,
              lastY);
        g.fillOval(
            lastX - ovalRadius,
            lastY - ovalRadius,
            ovalRadius + ovalRadius,
            ovalRadius + ovalRadius);
        try {
          g.drawString(MesquiteDouble.toString(lastBL), lastX + 10, lastY);
        } catch (InternalError e) { // workaround for bug on windows java 1.7.
        } catch (Throwable e) {
        }
        lineOn = true;
        g.dispose();
      }
    } else if (checker.compare(
        this.getClass(),
        "Adjust tool has been dropped",
        "[branch number][x coordinate dropped][y coordinate dropped]",
        commandName,
        "droppedPositionAdjust")) {
      if (t == null) return null;
      if (editorOn) return null;
      MesquiteInteger io = new MesquiteInteger(0);
      int node = MesquiteInteger.fromString(arguments, io);
      int x = MesquiteInteger.fromString(arguments, io);
      int y = MesquiteInteger.fromString(arguments, io);
      if (lineOn) {
        Point newOnLine = treeDisplay.getTreeDrawing().projectionOnLine(node, x, y);
        double bX = treeDisplay.getTreeDrawing().lineBaseX[node];
        double bY = treeDisplay.getTreeDrawing().lineBaseY[node];
        double tX = treeDisplay.getTreeDrawing().lineTipX[node];
        double tY = treeDisplay.getTreeDrawing().lineTipY[node];
        double lengthLine =
            Math.sqrt((originalY - bY) * (originalY - bY) + (originalX - bX) * (originalX - bX));
        double bL;
        if (lengthLine != 0) {
          double extension =
              Math.sqrt(
                      (newOnLine.y - bY) * (newOnLine.y - bY)
                          + (newOnLine.x - bX) * (newOnLine.x - bX))
                  / lengthLine;
          if (t.getBranchLength(node) == 0 || t.branchLengthUnassigned(node)) bL = extension;
          else bL = t.getBranchLength(node) * extension;
        } else bL = 1;

        if (bL > upperLimit) bL = upperLimit;
        else if (bL < lowerLimit) bL = lowerLimit;
        double oldBL = t.getBranchLength(node);
        if (!MesquiteDouble.isCombinable(oldBL)) oldBL = 1.0;
        t.setBranchLength(node, bL, false);
        double difference = oldBL - t.getBranchLength(node);
        for (int daughter = t.firstDaughterOfNode(node);
            t.nodeExists(daughter);
            daughter = t.nextSisterOfNode(daughter))
          if (MesquiteDouble.isCombinable(t.getBranchLength(daughter)))
            t.setBranchLength(daughter, t.getBranchLength(daughter) + difference, false);
        t.notifyListeners(this, new Notification(MesquiteListener.BRANCHLENGTHS_CHANGED));
        Graphics g = treeDisplay.getGraphics();
        g.setPaintMode();
        g.dispose();
        treeDisplay.pleaseUpdate(true);
        lineOn = false;
      }
    } else if (checker.compare(
        this.getClass(),
        "Adjust tool is being dragged",
        "[branch number][x coordinate][y coordinate]",
        commandName,
        "draggedPositionAdjust")) {
      if (t == null) return null;
      if (editorOn) return null;
      MesquiteInteger io = new MesquiteInteger(0);
      int node = MesquiteInteger.fromString(arguments, io);
      int x = MesquiteInteger.fromString(arguments, io);
      int y = MesquiteInteger.fromString(arguments, io);
      if (lineOn) {
        Point newOnLine = treeDisplay.getTreeDrawing().projectionOnLine(node, x, y);
        // WARNING":  This shouldn't result in length increase if simple click and release with no
        // drag; must subtract original X, Y
        Graphics g = null;
        if (GraphicsUtil.useXORMode(null, false)) {
          g = treeDisplay.getGraphics();
          g.setXORMode(Color.white);
          g.setColor(Color.red);
        }
        // g.fillOval(lastX-ovalRadius, lastY-ovalRadius, ovalRadius + ovalRadius, ovalRadius +
        // ovalRadius);
        // g.fillOval(newOnLine.x-ovalRadius, newOnLine.y -ovalRadius, ovalRadius + ovalRadius,
        // ovalRadius + ovalRadius);

        // g.drawLine(originalX, originalY, lastX, lastY);
        // g.drawLine(originalX, originalY, newOnLine.x, newOnLine.y);

        //				if decreasing, & unassigned involved: push unassigned down and assign values to
        // unassigned above; if increasing, push unassigne up
        int ibX = treeDisplay.getTreeDrawing().lineBaseX[node];
        int ibY = treeDisplay.getTreeDrawing().lineBaseY[node];
        int itX = treeDisplay.getTreeDrawing().lineTipX[node];
        int itY = treeDisplay.getTreeDrawing().lineTipY[node];

        double bX = ibX;
        double bY = ibY;
        double tX = itX;
        double tY = itY;
        double lengthLine =
            Math.sqrt((originalY - bY) * (originalY - bY) + (originalX - bX) * (originalX - bX));
        if (lengthLine != 0) {
          if (GraphicsUtil.useXORMode(null, false)) {
            if (MesquiteTrunk.isMacOSX()
                && MesquiteTrunk.getJavaVersionAsDouble() >= 1.5
                && MesquiteTrunk.getJavaVersionAsDouble() < 1.6) // due to a JVM bug
            g.fillRect(lastX, lastY - 20, 100, 20);
            g.drawString(MesquiteDouble.toString(lastBL), lastX + 10, lastY);
            if (MesquiteTrunk.isMacOSX()
                && MesquiteTrunk.getJavaVersionAsDouble() >= 1.5
                && MesquiteTrunk.getJavaVersionAsDouble() < 1.6) // due to a JVM bug
            g.fillRect(lastX, lastY - 20, 100, 20);
          }
          double extension =
              Math.sqrt(
                      (newOnLine.y - bY) * (newOnLine.y - bY)
                          + (newOnLine.x - bX) * (newOnLine.x - bX))
                  / lengthLine;
          double bL;
          if (t.getBranchLength(node) == 0 || t.branchLengthUnassigned(node)) bL = extension;
          else bL = t.getBranchLength(node) * extension;
          if (bL > upperLimit) {
            bL = upperLimit;
            if (t.getBranchLength(node) == 0 || t.branchLengthUnassigned(node))
              extension = upperLimit;
            else extension = upperLimit / t.getBranchLength(node);
          } else if (bL < lowerLimit) {
            bL = lowerLimit;
            if (t.getBranchLength(node) == 0 || t.branchLengthUnassigned(node))
              extension = lowerLimit;
            else extension = lowerLimit / t.getBranchLength(node);
          }
          lastBL = bL;
          if (GraphicsUtil.useXORMode(null, false)) {
            drawThickLine(g, ibX, ibY, lastX, lastY);
            for (int daughter = t.firstDaughterOfNode(node);
                t.nodeExists(daughter);
                daughter = t.nextSisterOfNode(daughter))
              drawThickLine(
                  g,
                  treeDisplay.getTreeDrawing().lineTipX[daughter],
                  treeDisplay.getTreeDrawing().lineTipY[daughter],
                  lastX,
                  lastY);
            g.fillOval(
                lastX - ovalRadius,
                lastY - ovalRadius,
                ovalRadius + ovalRadius,
                ovalRadius + ovalRadius);
          }
          int newX = ibX + (int) (extension * (tX - bX));
          int newY = ibY + (int) (extension * (tY - bY));
          if (GraphicsUtil.useXORMode(null, false)) {
            g.drawString(MesquiteDouble.toString(bL), newX + 10, newY);
            drawThickLine(g, ibX, ibY, newX, newY);
            for (int daughter = t.firstDaughterOfNode(node);
                t.nodeExists(daughter);
                daughter = t.nextSisterOfNode(daughter))
              drawThickLine(
                  g,
                  treeDisplay.getTreeDrawing().lineTipX[daughter],
                  treeDisplay.getTreeDrawing().lineTipY[daughter],
                  newX,
                  newY);
            g.fillOval(
                newX - ovalRadius,
                newY - ovalRadius,
                ovalRadius + ovalRadius,
                ovalRadius + ovalRadius);
          }
          lastX = newX;
          lastY = newY;
        }

        // lastX= newOnLine.x;
        // lastY = newOnLine.y;
      }
    }
    return null;
  }
  /*.................................................................................................................*/
  public Object doCommand(String commandName, String arguments, CommandChecker checker) {
    if (checker.compare(
        this.getClass(), "Returns the matrix source", null, commandName, "getMatrixSource")) {
      return matrixSourceTask;
    } else if (checker.compare(
        this.getClass(), "Copies the data for selected taxon", null, commandName, "copyData")) {
      if (observedStates == null) return null;
      CharacterData data = observedStates.getParentData();
      if (data == null) return null;
      int it = MesquiteInteger.fromString(parser.getFirstToken(arguments));
      if (MesquiteInteger.isCombinable(it)) {
        StringBuffer sb = new StringBuffer();
        data.copyDataFromRowIntoBuffer(it, sb);
        if (StringUtil.notEmpty(sb.toString())) {
          localCopyDataClipboard = sb.toString();
          localCopyData = data;
          localCopyDataTaxon = data.getTaxa().getTaxonName(it);
        } else {
          localCopyDataClipboard = null;
          localCopyData = null;
          localCopyDataTaxon = null;
        }
      }
      return null;
    } else if (checker.compare(
        this.getClass(), "Pastes the data for selected taxon", null, commandName, "pasteData")) {
      if (observedStates == null) return null;
      CharacterData data = observedStates.getParentData();
      if (data == null) return null;
      int it = MesquiteInteger.fromString(parser.getFirstToken(arguments));
      if (MesquiteInteger.isCombinable(it) && StringUtil.notEmpty(localCopyDataClipboard)) {
        data.pasteDataFromStringIntoTaxon(it, localCopyDataClipboard);
      }
      return null;
    } else if (checker.compare(
        this.getClass(),
        "Pastes the data for selected taxon",
        null,
        commandName,
        "deleteDataTouched")) {
      if (observedStates == null) return null;
      CharacterData data = observedStates.getParentData();
      if (data == null) return null;
      int it = MesquiteInteger.fromString(parser.getFirstToken(arguments));
      Debugg.println("prepare to delete row: " + it);
      if (MesquiteInteger.isCombinable(it)) {
        if (!AlertDialog.query(
            containerOfModule(),
            "Delete Data?",
            "Are you sure you want to delete the data for taxon "
                + data.getTaxa().getTaxonName(it)
                + " in the matrix \""
                + data.getName()
                + "\"",
            "No",
            "Yes")) {
          zapData(data, it);
        }
      }
      return null;
    } else if (checker.compare(
        this.getClass(), "Deletes the data for selected taxa", null, commandName, "deleteData")) {
      if (observedStates == null) return null;
      captureCharacterDataFromObservedStates();
      if (data == null) return null;
      if (!AlertDialog.query(
          containerOfModule(),
          "Delete Data?",
          "Are you sure you want to delete the data for these taxa in the matrix \""
              + data.getName()
              + "\"",
          "No",
          "Yes")) zapData(data);
      return null;
    } else if (checker.compare(
        this.getClass(),
        "deleteds () and anything between",
        null,
        commandName,
        "deletePrepended")) {
      if (observedStates == null || taxa == null) return null;
      boolean anySelected = taxa.anySelected();
      int myColumn = -1;
      if (getEmployer() instanceof ListModule) {

        myColumn = ((ListModule) getEmployer()).getMyColumn(this);
        if (table != null)
          anySelected = anySelected || table.anyCellSelectedInColumnAnyWay(myColumn);
      }

      for (int it = 0; it < taxa.getNumTaxa(); it++) {
        if ((!anySelected || selected(taxa, it, myColumn))) {
          String note = getNote(it);
          while (!StringUtil.blank(note) && note.indexOf("(") >= 0) {
            int start = note.indexOf("(");
            int end = note.indexOf(")");
            String firstBit = "";
            if (start > 0) firstBit = note.substring(0, start);
            note = firstBit + note.substring(end + 1, note.length());
          }
          setNote(it, note);
        }
      }
      outputInvalid();
      parametersChanged();
      return null;
    } else if (checker.compare(this.getClass(), "deletes *", null, commandName, "deleteStar")) {
      if (observedStates == null || taxa == null) return null;
      boolean anySelected = taxa.anySelected();
      int myColumn = -1;
      if (getEmployer() instanceof ListModule) {

        myColumn = ((ListModule) getEmployer()).getMyColumn(this);
        if (table != null)
          anySelected = anySelected || table.anyCellSelectedInColumnAnyWay(myColumn);
      }
      for (int it = 0; it < taxa.getNumTaxa(); it++) {
        if ((!anySelected || selected(taxa, it, myColumn))) {
          String note = getNote(it);
          while (!StringUtil.blank(note) && note.indexOf("*") >= 0) {
            int start = note.indexOf("*");
            String firstBit = "";
            if (start > 0) firstBit = note.substring(0, start);
            note = firstBit + note.substring(start + 1, note.length());
          }
          setNote(it, note);
        }
      }
      outputInvalid();
      parametersChanged();
      return null;
    } else if (checker.compare(
        this.getClass(),
        "Prepends to the note the sequence length (including N\'s and ?\'s) for the selected taxa",
        null,
        commandName,
        "prependLength")) {
      if (observedStates == null || taxa == null) return null;
      boolean anySelected = taxa.anySelected();
      int myColumn = -1;
      if (getEmployer() instanceof ListModule) {

        myColumn = ((ListModule) getEmployer()).getMyColumn(this);
        if (table != null)
          anySelected = anySelected || table.anyCellSelectedInColumnAnyWay(myColumn);
      }
      for (int it = 0; it < taxa.getNumTaxa(); it++) {
        if (hasData(it) && (!anySelected || selected(taxa, it, myColumn))) {
          String note = getNote(it);
          if (StringUtil.blank(note)) note = "(" + sequenceLength(it) + ")";
          else note = "(" + sequenceLength(it) + ") " + note;
          setNote(it, note);
        }
      }
      outputInvalid();
      parametersChanged();
      return null;
    } else if (checker.compare(
        this.getClass(),
        "Prepends to the note the number of non-missing sites (not including N\'s and ?\'s) for the selected taxa",
        null,
        commandName,
        "prependNumSites")) {
      if (observedStates == null || taxa == null) return null;
      boolean anySelected = taxa.anySelected();
      int myColumn = -1;
      if (getEmployer() instanceof ListModule) {

        myColumn = ((ListModule) getEmployer()).getMyColumn(this);
        if (table != null)
          anySelected = anySelected || table.anyCellSelectedInColumnAnyWay(myColumn);
      }
      for (int it = 0; it < taxa.getNumTaxa(); it++) {
        if (hasData(it) && (!anySelected || selected(taxa, it, myColumn))) {
          String note = getNote(it);
          if (StringUtil.blank(note)) note = "(" + numSites(it) + ")";
          else note = "(" + numSites(it) + ") " + note;
          setNote(it, note);
        }
      }
      outputInvalid();
      parametersChanged();
      return null;
    } else if (checker.compare(
        this.getClass(),
        "Deletes the notes for the selected taxa",
        null,
        commandName,
        "deleteAnnotation")) {
      if (observedStates == null || taxa == null) return null;
      boolean anySelected = taxa.anySelected();
      int myColumn = -1;
      if (getEmployer() instanceof ListModule) {

        myColumn = ((ListModule) getEmployer()).getMyColumn(this);
        if (table != null)
          anySelected = anySelected || table.anyCellSelectedInColumnAnyWay(myColumn);
      }
      for (int it = 0; it < taxa.getNumTaxa(); it++) {
        if (hasData(it) && (!anySelected || selected(taxa, it, myColumn))) {
          setNote(it, null);
        }
      }
      outputInvalid();
      parametersChanged();
      return null;
    } else return super.doCommand(commandName, arguments, checker);
  }