public boolean printBestIncludePreRealignment() { if (facetScore > preRealignmentFacetScore) { if (in.verbosity > -1) { System.err.printf("\nbest facet value -- %.6f (%s)", facetScore, conf); } return am.printOutput(alignmentInstance, in.bestOutputFileIncludePreRealignment); } else { if (in.verbosity > 0 && facetScore > -1) { System.err.printf("\npre-realignment facet score: %.6f", preRealignmentFacetScore); } return am.printOutput( preRealignmentAlignmentInstance, in.bestOutputFileIncludePreRealignment, false); } }
public boolean printBest() { if (facetScore != -1 && in.verbosity > -1) { System.err.printf("\nbest facet value -- %.6f (%s)", facetScore, conf); } return am.printOutput(alignmentInstance, in.bestOutputFile); }
public boolean printBestPreRealignment() { if (in.verbosity > -1) { System.err.printf( "\nbest pre-realignment facet value -- %.6f (%s)", preRealignmentFacetScore, conf); } return am.printOutput(preRealignmentAlignmentInstance, in.bestPreRealignmentOutputFile, false); }
public boolean printPreRealignment() { if (in.verbosity > 0 && facetScore > -1) { System.err.printf("\npre-realignment facet score: %.6f", preRealignmentFacetScore); } if (in.preRealignmentOutputFile != null) { String fname = in.preRealignmentOutputFile.replace("__CONFIG__", conf.toString()); if (conf.repetition >= 0) fname = fname.replace("__ITTERATION__", Integer.toString(conf.repetition)); if (facetScore >= 0) fname = fname.replace( "__FACETSCORE__", "facetScore" + Double.toString(preRealignmentFacetScore)); return am.printOutput(preRealignmentAlignmentInstance, fname, false); } else { return am.printOutput(preRealignmentAlignmentInstance, null, false); } }
public boolean print() { // if(facetScore==-1){ // am = null; // } if (in.verbosity > 0 && facetScore > -1) { System.err.printf("\nfacet score: %.6f", facetScore); } if (in.configOutputFile != null) { String fname = in.configOutputFile.replace("__CONFIG__", conf.toString()); if (conf.repetition >= 0) fname = fname.replace("__ITTERATION__", Integer.toString(conf.repetition)); if (facetScore >= 0) fname = fname.replace("__FACETSCORE__", "facetScore" + Double.toString(facetScore)); return am.printOutput(alignmentInstance, fname); } else return am.printOutput(alignmentInstance, null); }
public void run() { if (in.verbosity > 1) System.err.println("Config : " + conf); try { if (AlignmentMaker_SingleSequences.consistency) { int increase = AlignmentMaker_SingleSequences.consistency_subs_increase; conf.cost.increaseCosts( increase); // arbitrary number ... just trying to make w-w identities non-zero cost, and // high enough to avoid rounding effects conf.cost.multiplyCosts(2); conf.increaseGapCosts(increase / 2); conf.multiplyGapCosts(2); } if (Tree.treeType == Tree.TreeType.entered) { Tree.iterations = 1; } FacetAlignment fa = null; if (in.justDoSubOpt) { am = new AlignmentMaker_SuboptimalityTester(); // am.initialize(in.fileA, in.structFileA); am.initialize(conf, in); alignmentInstance = am.buildAlignment(); if (in.structFileA != null) { fa = new FacetAlignment( conf.sc.convertIntsToSeqs(alignmentInstance), in.structure.structure); } } else if (in.justDoConvert) { am = new AlignmentMaker_Converter(); // am.initialize(in.fileA, in.structFileA); am.initialize(conf, in); alignmentInstance = am.buildAlignment(); if (in.structFileA != null) { fa = new FacetAlignment( conf.sc.convertIntsToSeqs(alignmentInstance), in.structure.structure); } } else if (in.fileB != null) { // alignalign call am = new AlignmentMaker_TwoAlignments(); // am.initialize(in.fileA, in.fileB); // Aligner.useStructure = false; am.initialize(conf, in); alignmentInstance = am.buildAlignment(); if (in.structFileA != null) { fa = new FacetAlignment( ((AlignmentMaker_TwoAlignments) am).result, in.structure.structure); } } else if (in.justTree || Tree.justPWDists) { // am = new AlignmentMaker_SingleSequences(); // am.initialize(in.fileA, in.structFileA); am.initialize(conf, in); ((AlignmentMaker_SingleSequences) am).buildTree(conf, in); } else { // multiple alignment call am = new AlignmentMaker_SingleSequences(); // am.initialize(in.fileA, in.structFileA); am.initialize(conf, in); // final Timer queueRunner = new Timer(); // ShutdownHandler sh = new ShutdownHandler(queueRunner, // (AlignmentMaker_SingleSequences)am); // Runtime.getRuntime().addShutdownHook(sh); // Thread.setDefaultUncaughtExceptionHandler(sh); // this should be available for all calls // ... but this is the one I use a lot, so it's all I've implemented it for alignmentInstance = am.buildAlignment(); if (in.structFileA != null) { if (realignmentConfigList != null) { Configuration newRealignmentConfigList[] = new Configuration[realignmentConfigList.length]; for (int rNum = 0; rNum < realignmentConfigList.length; rNum++) { newRealignmentConfigList[rNum] = new Configuration(realignmentConfigList[rNum]); } preRealignmentAlignmentInstance = alignmentInstance.clone(); preRealignmentFacetScore = Facet.defaultValue( new FacetAlignment( conf.sc.convertIntsToSeqs(preRealignmentAlignmentInstance), in.structure.structure), conf.useLegacyFacetFunction); if (conf.useTCSforAdvising) preRealignmentFacetScore = TCS.TCSValue(preRealignmentAlignmentInstance, am, conf); realignmentDriver realigner = new realignmentDriver( conf.sc.convertIntsToSeqs(preRealignmentAlignmentInstance), in.structure.structure, newRealignmentConfigList, conf, (float) preRealignmentFacetScore, am); if (conf.realignment_window_type == Configuration.WINDOW_SIZE.VALUE) realigner.simpleRealignment((int) conf.realignment_window_value); else if (conf.realignment_window_type == Configuration.WINDOW_SIZE.PERCENTAGE) { int window_size = (int) (conf.realignment_window_value * (float) preRealignmentAlignmentInstance[0].length); if (window_size > conf.maximum_realignment_window_value) window_size = (int) conf.maximum_realignment_window_value; if (window_size < conf.minimum_realignment_window_value) window_size = (int) conf.minimum_realignment_window_value; realigner.simpleRealignment(window_size); } alignmentInstance = realigner.newAlignment(); newRealignmentConfigList = null; } fa = new FacetAlignment( conf.sc.convertIntsToSeqs(alignmentInstance), in.structure.structure); } } if (fa != null) { if (in.featureOutputFile != null) { String fname = in.featureOutputFile.replace("__CONFIG__", conf.toString()); if (conf.repetition >= 0) fname = fname.replace("__ITTERATION__", Integer.toString(conf.repetition)); Facet.outputDefaultFeatures(fname, fa); } facetScore = Facet.defaultValue(fa, conf.useLegacyFacetFunction); if (conf.useTCSforAdvising) facetScore = TCS.TCSValue(alignmentInstance, am, conf); } // in.structFileA = ""; // System.err.println("File: " + in.structFileA); // System.err.printf("facet value -- %.6f\n\n",facetScore); } catch (GenericOpalException e) { System.exit(1); } /*catch (FileNotFoundException e){ System.err.println("File Error:" + e.toString()); System.exit(15); }*/ }