/*.................................................................................................................*/ public Object getProgramArguments( String dataFileName, String configFileName, boolean isPreflight) { MesquiteString arguments = new MesquiteString(); if (externalProcRunner.isWindows()) arguments.setValue(" --batch " + configFileName); else arguments.setValue( ""); // GARLI command is very simple as all of the arguments are in the config file return arguments; }
/*.................................................................................................................*/ public void calculateNumber( Tree tree1, Tree tree2, MesquiteNumber result, MesquiteString resultString) { if (result == null) return; clearResultAndLastResult(result); if (tree1 == null) return; if (tree2 == null) return; int numTaxa = tree1.getTaxa().getNumTaxa(); double[][] patristic1 = null; patristic1 = p1.calculatePatristic( tree1, numTaxa, patristic1); // for this tree calculate patristic distances (number of nodes separating // terminals; no branch lengths) double[][] patristic2 = null; patristic2 = p2.calculatePatristic( tree2, numTaxa, patristic2); // for this tree calculate patristic distances (number of nodes separating // terminals; no branch lengths) double correl = offDiagonalPMCorrelationFILTERED(patristic1, patristic2); if (isDistance && (MesquiteDouble.isCombinable(correl))) correl = -correl + 1.0; // shifting 1 to -1 to be 0 to 2 to act as distance result.setValue(correl); if (resultString != null) { if (isDistance) resultString.setValue( "Patristic correlation (converted to distance): " + result.toString()); else resultString.setValue("Patristic correlation: " + result.toString()); } saveLastResult(result); saveLastResultString(resultString); }
/*.................................................................................................................*/ 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 void calculateNumber(Taxon taxon, MesquiteNumber result, MesquiteString resultString) { if (result == null) return; clearResultAndLastResult(result); Taxa taxa = taxon.getTaxa(); int it = taxa.whichTaxonNumber(taxon); if (taxa != currentTaxa || observedStates == null) { observedStates = matrixSourceTask.getCurrentMatrix(taxa); currentTaxa = taxa; } if (observedStates == null || !(observedStates.getParentData() instanceof DNAData)) return; DNAData data = (DNAData) observedStates.getParentData(); int count = data.getAminoAcidNumbers(it, ProteinData.TER, countEvenIfOthers.getValue()); if (result != null) result.setValue(count); if (resultString != null) resultString.setValue( "Number of stop codons in taxon " + observedStates.getName() + ": " + count); saveLastResult(result); saveLastResultString(resultString); }
/*.................................................................................................................*/ private void recordSourceProject() { MesquiteString s = new MesquiteString(); s.setValue(getProject().getHomeFileName()); if (!QueryDialogs.queryString( containerOfModule(), "Name to Stamp", "Indicate source file name to stamp on matrix rows", s)) return; int numMatrices = getProject().getNumberCharMatrices(); NameReference sourceRef = NameReference.getNameReference("SourceFile"); for (int im = 0; im < numMatrices; im++) { CharacterData data = getProject().getCharacterMatrix(im); Taxa taxa = data.getTaxa(); Associable tInfo = data.getTaxaInfo(true); boolean anySelected = taxa.anySelected(); for (int it = 0; it < taxa.getNumTaxa(); it++) { if (data.hasDataForTaxon(it) && (!anySelected || taxa.getSelected(it))) tInfo.setAssociatedObject(sourceRef, it, s.getValue()); } } }
/*.................................................................................................................*/ public Tree getTrees( TreeVector trees, Taxa taxa, MCharactersDistribution matrix, long seed, MesquiteDouble finalScore) { if (!initializeGetTrees(CategoricalData.class, taxa, matrix)) return null; setTNTSeed(seed); isProtein = data instanceof ProteinData; // David: if isDoomed() then module is closing down; abort somehow // write data file String tempDir = MesquiteFileUtil.createDirectoryForFiles( this, MesquiteFileUtil.IN_SUPPORT_DIR, "TNT", "-Run."); if (tempDir == null) return null; String dataFileName = "data.ss"; // replace this with actual file name? String dataFilePath = tempDir + dataFileName; FileInterpreterI exporter = ZephyrUtil.getFileInterpreter(this, "#InterpretTNT"); if (exporter == null) return null; boolean fileSaved = false; String translationTable = namer.getTranslationTable(taxa); ((InterpretHennig86Base) exporter).setTaxonNamer(namer); fileSaved = ZephyrUtil.saveExportFile(this, exporter, dataFilePath, data, selectedTaxaOnly); if (!fileSaved) return null; String translationFileName = IOUtil.translationTableFileName; setTaxonTranslation(taxa); taxonNumberTranslation = getTaxonNumberTranslation(taxa); namer.setNumberTranslationTable(taxonNumberTranslation); setFileNames(); TaxaSelectionSet outgroupSet = (TaxaSelectionSet) taxa.getSpecsSet(outgroupTaxSetString, TaxaSelectionSet.class); int firstOutgroup = MesquiteInteger.unassigned; if (outgroupSet != null) firstOutgroup = outgroupSet.firstBitOn(); formCommandFile(dataFileName, firstOutgroup); logln("\n\nCommands given to TNT:"); logln(commands); logln(""); MesquiteString arguments = new MesquiteString(); arguments.setValue(" proc " + commandsFileName); String programCommand = externalProcRunner.getExecutableCommand(); int numInputFiles = 3; String[] fileContents = new String[numInputFiles]; String[] fileNames = new String[numInputFiles]; for (int i = 0; i < numInputFiles; i++) { fileContents[i] = ""; fileNames[i] = ""; } fileContents[0] = MesquiteFile.getFileContentsAsString(dataFilePath); fileNames[0] = dataFileName; fileContents[1] = commands; fileNames[1] = commandsFileName; fileContents[2] = translationTable; fileNames[2] = translationFileName; // ----------// boolean success = runProgramOnExternalProcess( programCommand, arguments, fileContents, fileNames, ownerModule.getName()); if (!isDoomed()) { if (success) { desuppressProjectPanelReset(); return retrieveTreeBlock(trees, finalScore); // here's where we actually process everything. } else { if (!beanWritten) postBean("unsuccessful [1]", false); beanWritten = true; } } desuppressProjectPanelReset(); if (data == null) data.decrementEditInhibition(); externalProcRunner.finalCleanup(); return null; }