public static File[] getDirectoryListing(File dir) { SortedSet<File> dirSet = new TreeSet<File>(); SortedSet<File> fileSet = new TreeSet<File>(); File[] files = dir.listFiles(); for (int i = 0; i < files.length; i++) { if (files[i].isDirectory()) dirSet.add(files[i]); else fileSet.add(files[i]); } List<File> fileList = new LinkedList<File>(); fileList.addAll(dirSet); fileList.addAll(fileSet); return fileList.toArray(new File[] {}); }
public static void main(String[] args) throws Exception { // TODO Auto-generated method stub Date startTime = new Date(); String fname = "p079_keylog.txt"; FileReader fr = new FileReader(fname); BufferedReader br = new BufferedReader(fr); SortedSet<String> slines = new TreeSet<String>(); String line = ""; while ((line = br.readLine()) != null) { slines.add(line); } String start = slines.first().split("")[0]; String ans = ""; for (String l : slines) { // System.out.println(l); for (String l2 : slines) { if (l2.contains(start) && l2.indexOf(start) > 0) start = l2.split("")[0]; } } ans += start; // System.out.println(ans); for (int i = 0; i < 10; i++) { start = (getNext(slines, start)); if (start == null) break; ans += start; // System.out.println(ans); } Date endTime = new Date(); System.out.println(ans + " in " + (endTime.getTime() - startTime.getTime()) + " ms."); }
/** * Gets the unique read groups in the table * * @param report the GATKReport containing the table with RecalUtils.READGROUP_REPORT_TABLE_TITLE * @return the unique read groups */ private static SortedSet<String> getReadGroups(final GATKReport report) { final GATKReportTable reportTable = report.getTable(RecalUtils.READGROUP_REPORT_TABLE_TITLE); final SortedSet<String> readGroups = new TreeSet<String>(); for (int i = 0; i < reportTable.getNumRows(); i++) readGroups.add(reportTable.get(i, RecalUtils.READGROUP_COLUMN_NAME).toString()); return readGroups; }
/** * Converts the form field values in the <tt>ffValuesIter</tt> into a caps string. * * @param ffValuesIter the {@link Iterator} containing the form field values. * @param capsBldr a <tt>StringBuilder</tt> to which the caps string representing the form field * values is to be appended */ private static void formFieldValuesToCaps(Iterator<String> ffValuesIter, StringBuilder capsBldr) { SortedSet<String> fvs = new TreeSet<String>(); while (ffValuesIter.hasNext()) fvs.add(ffValuesIter.next()); for (String fv : fvs) capsBldr.append(fv).append('<'); }
/** * Returns all supported sample rates. * * @return an array of sample rates, in Hertz, never <code>null</code>. */ public Integer[] getSampleRates() { final String rawValue = this.properties.get(DEVICE_SAMPLERATES); final String[] values = rawValue.split(",\\s*"); final SortedSet<Integer> result = new TreeSet<Integer>( NumberUtils.<Integer>createNumberComparator(false /* aSortAscending */)); for (String value : values) { result.add(Integer.valueOf(value.trim())); } return result.toArray(new Integer[result.size()]); }
/** * Prints one Unicode property value per line, along with its aliases, if any, for the given * unicodeVersion. * * @param unicodeVersion The Unicode version to print property values and aliases for * @throws UnicodeProperties.UnsupportedUnicodeVersionException if unicodeVersion is not supported */ private static void printUnicodePropertyValuesAndAliases(String unicodeVersion) throws UnicodeProperties.UnsupportedUnicodeVersionException { Pattern versionPattern = Pattern.compile("(\\d+)(?:\\.(\\d+))?(?:\\.\\d+)?"); Matcher matcher = versionPattern.matcher(unicodeVersion); if (!matcher.matches()) { throw new UnicodeProperties.UnsupportedUnicodeVersionException(); } String underscoreVersion = matcher.group(1) + (null == matcher.group(2) ? "_0" : "_" + matcher.group(2)); String[] propertyValues; String[] propertyValueAliases; try { Class<?> clazz = Class.forName("jflex.unicode.data.Unicode_" + underscoreVersion); Field field = clazz.getField("propertyValues"); propertyValues = (String[]) field.get(null); field = clazz.getField("propertyValueAliases"); propertyValueAliases = (String[]) field.get(null); } catch (Exception e) { throw new UnicodeProperties.UnsupportedUnicodeVersionException(); } SortedMap<String, SortedSet<String>> propertyValuesToAliases = new TreeMap<String, SortedSet<String>>(); for (String value : propertyValues) { propertyValuesToAliases.put(value, new TreeSet<String>()); } for (int i = 0; i < propertyValueAliases.length; i += 2) { String alias = propertyValueAliases[i]; String value = propertyValueAliases[i + 1]; SortedSet<String> aliases = propertyValuesToAliases.get(value); if (null == aliases) { aliases = new TreeSet<String>(); propertyValuesToAliases.put(value, aliases); } aliases.add(alias); } for (Map.Entry<String, SortedSet<String>> entry : propertyValuesToAliases.entrySet()) { String value = entry.getKey(); SortedSet<String> aliases = entry.getValue(); Out.print(value); if (aliases.size() > 0) { for (String alias : aliases) { Out.print(", " + alias); } } Out.println(""); } }
public static String getNext(SortedSet<String> slines, String num) { String nxt = ""; SortedSet<String> candidates = new TreeSet<String>(); for (String s : slines) { if (s.contains(num) && s.indexOf(num) < s.length() - 1) { candidates.add(s.split("")[s.indexOf(num) + 1]); } } // System.out.println(candidates); if (candidates.size() == 0) return null; nxt = candidates.first(); for (String s : slines) { for (String c : candidates) { if (s.contains(c) && s.contains(nxt) && s.indexOf(c) < s.indexOf(nxt)) nxt = c; } } return nxt; }
/** disassembles program held in code store */ void disassembleProgram(String asmFileName) { try { asmOut = new FileWriter(asmFileName); } catch (IOException e) { System.out.println("Disassembler: can not create asm output file " + asmName); error = true; return; } // collect all addresses that may be the target of a jump instruction SortedSet<Integer> targets = new TreeSet<Integer>(); for (int addr = Machine.CB; addr < Machine.CT; addr++) { Instruction inst = Machine.code[addr]; Machine.Op op = Machine.intToOp[inst.op]; switch (op) { case CALL: // only consider calls (branches) within code memory (i.e. not primitives) if (inst.r == Machine.Reg.CB.ordinal()) targets.add(inst.d); break; case JUMP: // address following an unconditional branch is an implicit target targets.add(addr + 1); /* FALL THROUGH! */ case JUMPIF: // a jump of any sort creates a branch target targets.add(inst.d); } } // map branch target addresses to unique labels addrToLabel = new HashMap<Integer, String>(); int labelCounter = 10; for (Integer addr : targets) { String label = "L" + labelCounter++; addrToLabel.put(addr, label); } // disassemble each instruction for (int addr = Machine.CB; addr < Machine.CT; addr++) { // generate instruction address asmWrite(String.format("%3d ", addr)); // if this addr is a branch target, output label if (addrToLabel.containsKey(addr)) asmWrite(String.format("%-7s", addrToLabel.get(addr) + ":")); else asmWrite(" "); // instruction writeInstruction(Machine.code[addr]); // newline asmWrite("\n"); } // close output file try { asmOut.close(); } catch (IOException e) { error = true; } }
void addTimeMark(long when) { time_marks.add(when); }
/** * Translates a StatValue into a PerfStatValue with the specified filter, with the specified * operations, and the specified trim. For the latter, if start is -1, uses the beginning of the * statistic's existence, and if end is -1, goes to the end of the statistic's existence. */ protected static PerfStatValue getPerfStatValue( StatSpec statspec, TrimSpec trimspec, StatArchiveReader.StatValue sv) { long start = trimspec.getStart(); long end = trimspec.getEnd(); sv = sv.createTrimmed(start, end); if (Log.getLogWriter().finestEnabled()) { Log.getLogWriter() .finest( "PerfStatReader: Trimmed from " + trimspec.getStartStr() + " (" + start + ") to " + trimspec.getEndStr() + " (" + end + ")"); } int filter = statspec.getFilter(); double mean = -1; if (filter == StatArchiveReader.StatValue.FILTER_PERSEC && statspec.getMean()) { if (start == -1) { start = sv.getRawAbsoluteTimeStamps()[0]; } if (end == -1) { long[] rats = sv.getRawAbsoluteTimeStamps(); end = rats[rats.length - 1]; } long elapsedSec = (end - start) / 1000; sv.setFilter(StatArchiveReader.StatValue.FILTER_NONE); double del = sv.getSnapshotsMaximum() - sv.getSnapshotsMinimum(); mean = del / elapsedSec; } sv.setFilter(filter); // @todo lises see if psv really needs to hang onto specs PerfStatValue psv = new PerfStatValue(statspec, trimspec); psv.setIsLargerBetter(sv.getDescriptor().isLargerBetter()); psv.setSamples(sv.getSnapshotsSize()); if (statspec.getMin()) psv.setMin(sv.getSnapshotsMinimum()); if (statspec.getMax()) psv.setMax(sv.getSnapshotsMaximum()); if (statspec.getMaxMinusMin()) psv.setMaxMinusMin(sv.getSnapshotsMaximum() - sv.getSnapshotsMinimum()); if (statspec.getMean()) { if (filter == StatArchiveReader.StatValue.FILTER_PERSEC) { psv.setMean(mean); } else { psv.setMean(sv.getSnapshotsAverage()); } } if (statspec.getStddev()) psv.setStddev(sv.getSnapshotsStandardDeviation()); SortedSet archives = new TreeSet(); StatArchiveReader.ResourceInst[] resources = sv.getResources(); String productVersion = null; for (int i = 0; i < resources.length; i++) { String archive = resources[i].getArchive().getFile().getParentFile().getName(); if (productVersion == null) { productVersion = resources[i].getArchive().getArchiveInfo().getProductVersion(); } if (!archives.contains(archive)) { archives.add(archive); } } psv.setArchives(archives); psv.setProductVersion(productVersion); return psv; }
public static NamesQueryFilter namesFilter(ColumnFamilyStore cfs, String... names) { SortedSet<CellName> s = new TreeSet<CellName>(cfs.getComparator()); for (String str : names) s.add(cellname(str)); return new NamesQueryFilter(s); }
public static QueryFilter namesQueryFilter( ColumnFamilyStore cfs, DecoratedKey key, CellName... names) { SortedSet<CellName> s = new TreeSet<CellName>(cfs.getComparator()); for (CellName n : names) s.add(n); return QueryFilter.getNamesFilter(key, cfs.name, s, System.currentTimeMillis()); }
/** * Collects the differentially expressed segments (segment pairs with the same start and end, but * one member of the pair has the LINE type while the other does not) from a given segmentation. * * @param seg * @param c1 * @param c2 * @return */ private Collection<DifferentialKey> differentialRegions(InputSegmentation seg, int c1, int c2) { ArrayList<DifferentialKey> keys = new ArrayList<DifferentialKey>(); // Get the ground-truth data, so we can assemble the region identifiers when // we've found the differentially expressed segments. InputData data = seg.input; Integer[] locations = data.locations(); String strand = data.strand(); String chrom = data.chrom(); // Most of the setup of this method is filtering and sorting the Segment objects, // so that we *only* consider the segments from the two given channels (c1, and c2) // and so that we consider them in order, so that we're not comparing segments // different parts of the input chunk. SortedSet<Segment> c1Segs = new TreeSet<Segment>(); SortedSet<Segment> c2Segs = new TreeSet<Segment>(); for (Segment s : seg.segments) { if (s.channel == c1) { c1Segs.add(s); } else if (s.channel == c2) { c2Segs.add(s); } } // These should now be in sorted order, given that we built them using the // SortedSet objects. Segment[] c1array = c1Segs.toArray(new Segment[0]); Segment[] c2array = c2Segs.toArray(new Segment[0]); // sanity check. if (c1array.length != c2array.length) { throw new IllegalArgumentException(); } for (int i = 0; i < c1array.length; i++) { Segment s1 = c1array[i], s2 = c2array[i]; // sanity check. if (!s1.start.equals(s2.start) || !s1.end.equals(s2.end)) { throw new IllegalArgumentException( String.format("%d,%d doesn't match %d,%d", s1.start, s1.end, s2.start, s2.end)); } // There are three conditions here: // (1) Neither of the segments is 'shared' // (2) The segments don't have the same type // (3) At least one of them is a line. if (!s1.shared && !s2.shared) { if (s1.segmentType.equals(Segment.LINE) || s2.segmentType.equals(Segment.LINE)) { boolean differential = false; // Remember: for any segment 's', s.start and s.end are *indices* // into the 'locations' array of the corresponding data chunk. DifferentialKey key = new DifferentialKey( new RegionKey(chrom, locations[s1.start], locations[s1.end], strand), s1, s2); if (s1.segmentType.equals(Segment.FLAT)) { differential = key.s2Expr() > key.s1Expr(); } else if (s2.segmentType.equals(Segment.FLAT)) { differential = key.s1Expr() > key.s2Expr(); } else { differential = Math.abs(key.diffExpr()) >= 0.5; } if (differential) { // If all conditions have been satisfied, then we build // the region identifier and save it in the list to be returned. keys.add(key); } } } } return keys; }
/** * Calculates the <tt>String</tt> for a specific <tt>DiscoverInfo</tt> which is to be hashed in * order to compute the ver string for that <tt>DiscoverInfo</tt>. * * @param discoverInfo the <tt>DiscoverInfo</tt> for which the <tt>String</tt> to be hashed in * order to compute its ver string is to be calculated * @return the <tt>String</tt> for <tt>discoverInfo</tt> which is to be hashed in order to compute * its ver string */ private static String calculateEntityCapsString(DiscoverInfo discoverInfo) { StringBuilder bldr = new StringBuilder(); // Add identities { Iterator<DiscoverInfo.Identity> identities = discoverInfo.getIdentities(); SortedSet<DiscoverInfo.Identity> is = new TreeSet<DiscoverInfo.Identity>( new Comparator<DiscoverInfo.Identity>() { public int compare(DiscoverInfo.Identity i1, DiscoverInfo.Identity i2) { int category = i1.getCategory().compareTo(i2.getCategory()); if (category != 0) return category; int type = i1.getType().compareTo(i2.getType()); if (type != 0) return type; /* * TODO Sort by xml:lang. * * Since sort by xml:lang is currently missing, * use the last supported sort criterion i.e. * type. */ return type; } }); if (identities != null) while (identities.hasNext()) is.add(identities.next()); for (DiscoverInfo.Identity i : is) { bldr.append(i.getCategory()) .append('/') .append(i.getType()) .append("//") .append(i.getName()) .append('<'); } } // Add features { Iterator<DiscoverInfo.Feature> features = getDiscoverInfoFeatures(discoverInfo); SortedSet<String> fs = new TreeSet<String>(); if (features != null) while (features.hasNext()) fs.add(features.next().getVar()); for (String f : fs) bldr.append(f).append('<'); } DataForm extendedInfo = (DataForm) discoverInfo.getExtension("x", "jabber:x:data"); if (extendedInfo != null) { synchronized (extendedInfo) { SortedSet<FormField> fs = new TreeSet<FormField>( new Comparator<FormField>() { public int compare(FormField f1, FormField f2) { return f1.getVariable().compareTo(f2.getVariable()); } }); FormField formType = null; for (Iterator<FormField> fieldsIter = extendedInfo.getFields(); fieldsIter.hasNext(); ) { FormField f = fieldsIter.next(); if (!f.getVariable().equals("FORM_TYPE")) fs.add(f); else formType = f; } // Add FORM_TYPE values if (formType != null) formFieldValuesToCaps(formType.getValues(), bldr); // Add the other values for (FormField f : fs) { bldr.append(f.getVariable()).append('<'); formFieldValuesToCaps(f.getValues(), bldr); } } } return bldr.toString(); }