/*.................................................................................................................*/ 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; }
/** * 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; }
/*.................................................................................................................*/ 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); }
/*.................................................................................................................*/ 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); }