예제 #1
1
  /** {@inheritDoc} */
  protected void getNewMonitors(Map<String, Monitor> map) throws MonitorException {
    assert Thread.holdsLock(this);

    int used = prologue.getUsed();
    long modificationTime = prologue.getModificationTimeStamp();

    if ((used > lastUsed) || (lastModificationTime > modificationTime)) {

      lastUsed = used;
      lastModificationTime = modificationTime;

      Monitor monitor = getNextMonitorEntry();
      while (monitor != null) {
        String name = monitor.getName();

        // guard against duplicate entries
        if (!map.containsKey(name)) {
          map.put(name, monitor);

          /*
           * insertedMonitors is null when called from pollFor()
           * via buildMonitorMap(). Since we update insertedMonitors
           * at the end of buildMonitorMap(), it's ok to skip the
           * add here.
           */
          if (insertedMonitors != null) {
            insertedMonitors.add(monitor);
          }
        }
        monitor = getNextMonitorEntry();
      }
    }
  }
예제 #2
0
 public void drawOrbits(ArrayList alObjectsArchive) {
   //  println("SIZE:" + alObjectsArchive.size());
   //  ArrayList alObjectsArchive = timeline.getObjectStateArchive();
   ArrayList alPrevPos = new ArrayList();
   ArrayList alColors = new ArrayList();
   alColors.add(color(255, 0, 0));
   alColors.add(color(255, 255, 0));
   alColors.add(color(255, 0, 255));
   //  for (int i = timeline.getTimeIdx(); i >= 0 && i > (timeline.getTimeIdx() - 1 - 100); i--)
   for (int i = 0; i < alObjectsArchive.size(); i++) {
     ArrayList objects = (ArrayList) alObjectsArchive.get(i);
     for (int j = 0; j < objects.size(); j++) {
       CelestialObject obj = (CelestialObject) objects.get(j);
       //      CelestialObject obj = (CelestialObject)objects.get(1);
       PVector pos = obj.getPosition();
       //      stroke(0, 0, 255);
       stroke((Integer) alColors.get(j));
       if (alPrevPos.size() == objects.size()) {
         PVector prevPos = (PVector) alPrevPos.get(j);
         line(prevPos.x, prevPos.y, pos.x, pos.y);
         alPrevPos.set(j, pos);
       } else alPrevPos.add(pos);
     }
   }
 }
 public void init() {
   Scanner scan = new Scanner(System.in);
   count = scan.nextInt();
   x0 = scan.nextLong();
   y0 = scan.nextLong();
   int result = 0;
   boolean special = false;
   for (int i = 0; i < count; i++) {
     long tempx = scan.nextLong();
     long tempy = scan.nextLong();
     if (tempx == x0 && tempy == y0) {
       special = true;
       continue;
     }
     boolean isDuplicate = false;
     for (int j = 0; j < result; j++) {
       long x1 = xList.get(j);
       long y1 = yList.get(j);
       if ((x1 - x0) * (tempy - y0) == (y1 - y0) * (tempx - x0)) {
         isDuplicate = true;
         break;
       }
     }
     if (!isDuplicate) {
       xList.add(tempx);
       yList.add(tempy);
       result++;
     }
   }
   if (special && result == 0) result = 1;
   System.out.println(result);
   scan.close();
 }
예제 #4
0
  private InstanceList readFile() throws IOException {

    String NL = System.getProperty("line.separator");
    Scanner scanner = new Scanner(new FileInputStream(fileName), encoding);

    ArrayList<Pipe> pipeList = new ArrayList<Pipe>();
    pipeList.add(new CharSequence2TokenSequence(Pattern.compile("\\p{L}\\p{L}+")));
    pipeList.add(new TokenSequence2FeatureSequence());

    InstanceList testing = new InstanceList(new SerialPipes(pipeList));

    try {
      while (scanner.hasNextLine()) {

        String text = scanner.nextLine();
        text = text.replaceAll("\\x0d", "");

        Pattern patten = Pattern.compile("^(.*?),(.*?),(.*)$");
        Matcher matcher = patten.matcher(text);

        if (matcher.find()) {
          docIds.add(matcher.group(1));
          testing.addThruPipe(new Instance(matcher.group(3), null, "test instance", null));
        }
      }
    } finally {
      scanner.close();
    }

    return testing;
  }
  protected void checkRoot(SimulatedArchivalUnit sau) {
    log.debug("checkRoot()");
    CachedUrlSet set = sau.getAuCachedUrlSet();
    Iterator setIt = set.flatSetIterator();
    ArrayList childL = new ArrayList(1);
    CachedUrlSet cus = null;
    while (setIt.hasNext()) {
      cus = (CachedUrlSet) setIt.next();
      childL.add(cus.getUrl());
    }

    String urlRoot = sau.getUrlRoot();

    String[] expectedA = new String[1];
    expectedA[0] = urlRoot;
    assertIsomorphic(expectedA, childL);

    setIt = cus.flatSetIterator();
    childL = new ArrayList(7);
    while (setIt.hasNext()) {
      childL.add(((CachedUrlSetNode) setIt.next()).getUrl());
    }

    expectedA =
        new String[] {
          urlRoot + "/001file.html",
          urlRoot + "/001file.txt",
          urlRoot + "/002file.html",
          urlRoot + "/002file.txt",
          urlRoot + "/branch1",
          urlRoot + "/branch2",
          urlRoot + "/index.html"
        };
    assertIsomorphic(expectedA, childL);
  }
  public void setup() {
    size(600, 400);
    smooth();
    f = createFont("Georgia", 12, true);

    obstacles = new ArrayList();
    boids = new ArrayList();

    // A little algorithm to pick a bunch of random obstacles that don't overlap
    for (int i = 0; i < 100; i++) {
      float x = random(width);
      float y = random(height);
      float r = random(50 - i / 2, 50);
      boolean ok = true;
      for (int j = 0; j < obstacles.size(); j++) {
        Obstacle o = (Obstacle) obstacles.get(j);
        if (dist(x, y, o.loc.x, o.loc.y) < o.radius + r + 20) {
          ok = false;
        }
      }
      if (ok) obstacles.add(new Obstacle(x, y, r));
    }

    // Starting with three boids
    boids.add(new Boid(new PVector(random(width), random(height)), 3f, 0.2f));
    boids.add(new Boid(new PVector(random(width), random(height)), 3f, 0.1f));
    boids.add(new Boid(new PVector(random(width), random(height)), 2f, 0.05f));
  }
예제 #7
0
    // Used in compiling to mark out "dirty" areas of the code; ie, comments and string literals.
    // These dirty areas don't get their syntax highlighted or any special treatment.
    // @returns: pairs of integers that represent dirty boundaries.
    private ArrayList<Integer> getDirty(String code) {
      ArrayList<Integer> dirtyBounds = new ArrayList<>();

      // Handles string literals
      int j = -1;
      while (true) {
        j = code.indexOf("\"", j + 1);
        if (j < 0) break;
        // Ignore escaped characters
        if (!code.substring(j - 1, j).equals("\\")) dirtyBounds.add(j);
      }

      // End of line comments
      j = -1;
      while (true) {
        j = code.indexOf("//", j + 1);
        if (j < 0) break;
        dirtyBounds.add(j);
        // If there's no newline, then the comment lasts for the length of the code
        dirtyBounds.add(
            code.indexOf("\n", j + 1) == -1 ? code.length() : code.indexOf("\n", j + 1));
      }

      // Block comments (and javadoc comments)
      j = -1;
      while (true) {
        j = code.indexOf("/*", j + 1);
        if (j < 0) break;
        dirtyBounds.add(j);
        dirtyBounds.add(code.indexOf("*/", j + 1));
      }

      return dirtyBounds;
    }
    ProcessorState(Processor p, Log log, Source source, ProcessingEnvironment env) {
      processor = p;
      contributed = false;

      try {
        processor.init(env);

        checkSourceVersionCompatibility(source, log);

        supportedAnnotationPatterns = new ArrayList<Pattern>();
        for (String importString : processor.getSupportedAnnotationTypes()) {
          supportedAnnotationPatterns.add(importStringToPattern(importString, processor, log));
        }

        supportedOptionNames = new ArrayList<String>();
        for (String optionName : processor.getSupportedOptions()) {
          if (checkOptionName(optionName, log)) supportedOptionNames.add(optionName);
        }

      } catch (ClientCodeException e) {
        throw e;
      } catch (Throwable t) {
        throw new AnnotationProcessingError(t);
      }
    }
예제 #9
0
  void handleScanFiles(JTextField field, String[] extensions) {
    String[] dataFiles = scanDataFolderForFilesByType(extensions);
    if (dataFiles == null || dataFiles.length == 0) return;

    String[] oldFileList = field.getText().trim().split(",");
    ArrayList<String> newFileList = new ArrayList<String>();
    for (String c : oldFileList) {
      c = c.trim();
      if (!c.equals("") && newFileList.indexOf(c) == -1) // TODO check exists() here?
      {
        newFileList.add(c);
      }
    }
    for (String c : dataFiles) {
      c = c.trim();
      if (!c.equals("") && newFileList.indexOf(c) == -1) {
        newFileList.add(c);
      }
    }
    Collections.sort(newFileList);
    String finalFileList = "";
    int i = 0;
    for (String s : newFileList) {
      finalFileList += (i > 0 ? ", " : "") + s;
      i++;
    }
    field.setText(finalFileList);
  }
예제 #10
0
  public URLFinder(String text) {
    Matcher matcher = dfPattern.matcher(text);
    urls = new ArrayList<String>();
    locations = new ArrayList<Integer[]>();

    while (matcher.find()) {
      urls.add(matcher.group(1));
      locations.add(new Integer[] {matcher.start(1), matcher.end(1)});
    }
  }
예제 #11
0
  private ArrayList GetFolderTree(String s_Dir, String s_Flag, int n_Indent, int n_TreeIndex) {
    String s_List = "";
    ArrayList aSubFolders = new ArrayList();

    File file = new File(s_Dir);
    File[] filelist = file.listFiles();

    if (filelist != null && filelist.length > 0) {
      for (int i = 0; i < filelist.length; i++) {
        if (filelist[i].isDirectory()) {
          aSubFolders.add(filelist[i].getName());
        }
      }

      int n_Count = aSubFolders.size();
      String s_LastFlag = "";
      String s_Folder = "";
      for (int i = 1; i <= n_Count; i++) {
        if (i < n_Count) {
          s_LastFlag = "0";
        } else {
          s_LastFlag = "1";
        }

        s_Folder = aSubFolders.get(i - 1).toString();
        s_List =
            s_List
                + "arr"
                + s_Flag
                + "["
                + String.valueOf(n_TreeIndex)
                + "]=new Array(\""
                + s_Folder
                + "\","
                + String.valueOf(n_Indent)
                + ", "
                + s_LastFlag
                + ");\n";
        n_TreeIndex = n_TreeIndex + 1;
        ArrayList a_Temp =
            GetFolderTree(s_Dir + s_Folder + sFileSeparator, s_Flag, n_Indent + 1, n_TreeIndex);
        s_List = s_List + a_Temp.get(0).toString();
        n_TreeIndex = Integer.valueOf(a_Temp.get(1).toString()).intValue();
      }
    }

    ArrayList a_Return = new ArrayList();
    a_Return.add(s_List);
    a_Return.add(String.valueOf(n_TreeIndex));
    return a_Return;
  }
예제 #12
0
  /**
   * Get dependencies of a source file.
   *
   * @param path The canonical path of source file.
   * @return Path of dependencies.
   */
  private ArrayList<String> getDependencies(String path) {
    if (!dependenceMap.containsKey(path)) {
      ArrayList<String> dependencies = new ArrayList<String>();
      Matcher m = PATTERN_REQUIRE.matcher(read(path, charset));

      while (m.find()) {
        // Decide which root path to use.
        // Path wrapped in <> is related to root path.
        // Path wrapped in "" is related to parent folder of the source file.
        String root = null;

        if (m.group(1).equals("<")) {
          root = this.root;
        } else {
          root = new File(path).getParent();
        }

        // Get path of required file.
        String required = m.group(2);

        File f = new File(root, required);

        if (f.exists()) {
          dependencies.add(canonize(f));
        } else {
          App.exit("Cannot find required file " + required + " in " + path);
        }
      }

      dependenceMap.put(path, dependencies);
    }

    return dependenceMap.get(path);
  }
    public void trace(float x, float y) {

      println(x);

      if (frameCounter > 2 && mousePressed) {
        coords.add(new PVector(x, y));
        frameCounter = 0;
        if (coordCounter > 0) {
          PVector tempCoord = (PVector) coords.get(coordCounter - 1);
          line(x, y, tempCoord.x, tempCoord.y);
        }
        coordCounter++;
      }
      // println(coordCounter);

      for (int i = 0; i < coords.size(); i++) {
        PVector tempCoordnear = (PVector) coords.get(i);
        float coordDist = dist(x, y, tempCoordnear.x, tempCoordnear.y);
        if (coordDist < distance) {
          stroke(255, 0, 0);
          line(x, y, tempCoordnear.x, tempCoordnear.y);
        }
      }
      frameCounter++;
    }
예제 #14
0
  /**
   * Parse a method declaration. The declaration should be in the following format:
   *
   * <p>fully-qualified-method-name (args)
   *
   * <p>where the arguments are comma separated and all arguments other than primitives should have
   * fully qualified names. Arrays are indicating by trailing brackets. For example:
   *
   * <p>int int[] int[][] java.lang.String java.util.Date[]
   *
   * <p>The arguments are translated into BCEL types and a MethodDef is returned.
   */
  private MethodDef parse_method(StrTok st) {

    // Get the method name
    String method_name = st.need_word();

    // Get the opening paren
    st.need("(");

    // Read the arguments
    ArrayList<String> args = new ArrayList<String>();
    String tok = st.nextToken();
    if (tok != ")") {
      st.pushBack();
      do {
        tok = st.need_word();
        args.add(tok);
      } while (st.nextToken() == ",");
      st.pushBack();
      st.need(")");
    }

    // Convert the arguments to Type
    Type[] targs = new Type[args.size()];
    for (int ii = 0; ii < args.size(); ii++) {
      targs[ii] = BCELUtil.classname_to_type(args.get(ii));
    }

    return new MethodDef(method_name, targs);
  }
예제 #15
0
 /**
  * Returns all editors.
  *
  * @return editors
  */
 EditorArea[] editors() {
   final ArrayList<EditorArea> edits = new ArrayList<EditorArea>();
   for (final Component c : tabs.getComponents()) {
     if (c instanceof EditorArea) edits.add((EditorArea) c);
   }
   return edits.toArray(new EditorArea[edits.size()]);
 }
 protected void checkLeaf(SimulatedArchivalUnit sau) {
   log.debug("checkLeaf()");
   String parent = sau.getUrlRoot() + "/branch1";
   CachedUrlSetSpec spec = new RangeCachedUrlSetSpec(parent);
   CachedUrlSet set = sau.makeCachedUrlSet(spec);
   Iterator setIt = set.contentHashIterator();
   ArrayList childL = new ArrayList(16);
   while (setIt.hasNext()) {
     childL.add(((CachedUrlSetNode) setIt.next()).getUrl());
   }
   String[] expectedA =
       new String[] {
         parent,
         parent + "/001file.html",
         parent + "/001file.txt",
         parent + "/002file.html",
         parent + "/002file.txt",
         parent + "/branch1",
         parent + "/branch1/001file.html",
         parent + "/branch1/001file.txt",
         parent + "/branch1/002file.html",
         parent + "/branch1/002file.txt",
         parent + "/branch1/index.html",
         parent + "/branch2",
         parent + "/branch2/001file.html",
         parent + "/branch2/001file.txt",
         parent + "/branch2/002file.html",
         parent + "/branch2/002file.txt",
         parent + "/branch2/index.html",
         parent + "/index.html",
       };
   assertIsomorphic(expectedA, childL);
 }
  public static void main(String[] args) {
    /* Enter your code here. Read input from STDIN. Print output to STDOUT. Your class should be named Solution. */

    try {

      Scanner sc = new Scanner(new File("/home/santosh/Desktop/testData"));

      int testCases = sc.nextInt();
      int i = 0;
      ArrayList<ArrayList<Integer>> inputArraysList = new ArrayList<ArrayList<Integer>>();
      ArrayList<Integer> list;
      while (i++ < testCases) {

        int n = sc.nextInt();
        int k = 0;
        list = new ArrayList<Integer>();
        while (k < n) {
          list.add(sc.nextInt());
          k++;
        }
        inputArraysList.add(list);
      }

      // System.out.println(inputArraysList.size());
      for (ArrayList<Integer> arr : inputArraysList) {
        countPairs(arr.toArray(new Integer[arr.size()]));
      }

    } catch (Exception e) {

    }
  }
예제 #18
0
    public ArrayList getPastObjectStates() {
      ArrayList alPast = new ArrayList();
      for (int i = intTimeIdx; i > 0 && i > intTimeIdx - 100; i--) {
        alPast.add(this.alObjectStateArchive.get(i));
      }

      return alPast;
    }
예제 #19
0
    // Does a deepcopy of an array list
    public static ArrayList cloneArrayList(ArrayList al) {
      ArrayList alNew = new ArrayList(al.size());
      for (int i = 0; i < al.size(); i++) {
        alNew.add(((CelestialObject) al.get(i)).clone());
      }

      return alNew;
    }
예제 #20
0
    // Does a deepcopy of an array list
    public ArrayList cloneArrayList(ArrayList al) {
      ArrayList alNew = new ArrayList(al.size());
      for (int i = 0; i < al.size(); i++) {
        PVector pv = (PVector) al.get(i);
        alNew.add(new PVector(pv.x, pv.y));
      }

      return alNew;
    }
예제 #21
0
    public void valueChanged(ListSelectionEvent evt) {
      if (!evt.getValueIsAdjusting()) {
        JFileChooser chooser = getFileChooser();
        FileSystemView fsv = chooser.getFileSystemView();
        JList list = (JList) evt.getSource();

        int fsm = chooser.getFileSelectionMode();
        boolean useSetDirectory = usesSingleFilePane && (fsm == JFileChooser.FILES_ONLY);

        if (chooser.isMultiSelectionEnabled()) {
          File[] files = null;
          Object[] objects = list.getSelectedValues();
          if (objects != null) {
            if (objects.length == 1
                && ((File) objects[0]).isDirectory()
                && chooser.isTraversable(((File) objects[0]))
                && (useSetDirectory || !fsv.isFileSystem(((File) objects[0])))) {
              setDirectorySelected(true);
              setDirectory(((File) objects[0]));
            } else {
              ArrayList<File> fList = new ArrayList<File>(objects.length);
              for (Object object : objects) {
                File f = (File) object;
                boolean isDir = f.isDirectory();
                if ((chooser.isFileSelectionEnabled() && !isDir)
                    || (chooser.isDirectorySelectionEnabled() && fsv.isFileSystem(f) && isDir)) {
                  fList.add(f);
                }
              }
              if (fList.size() > 0) {
                files = fList.toArray(new File[fList.size()]);
              }
              setDirectorySelected(false);
            }
          }
          chooser.setSelectedFiles(files);
        } else {
          File file = (File) list.getSelectedValue();
          if (file != null
              && file.isDirectory()
              && chooser.isTraversable(file)
              && (useSetDirectory || !fsv.isFileSystem(file))) {

            setDirectorySelected(true);
            setDirectory(file);
            if (usesSingleFilePane) {
              chooser.setSelectedFile(null);
            }
          } else {
            setDirectorySelected(false);
            if (file != null) {
              chooser.setSelectedFile(file);
            }
          }
        }
      }
    }
예제 #22
0
  private InstanceList generateInstanceList() throws Exception {

    ArrayList<Pipe> pipeList = new ArrayList<Pipe>();
    pipeList.add(new CharSequence2TokenSequence(Pattern.compile("\\p{L}\\p{L}+")));
    pipeList.add(new TokenSequence2FeatureSequence());

    Reader fileReader = new InputStreamReader(new FileInputStream(new File(fileName)), "UTF-8");
    InstanceList instances = new InstanceList(new SerialPipes(pipeList));
    instances.addThruPipe(
        new CsvIterator(
            fileReader,
            Pattern.compile("^(\\S*)[\\s,]*(\\S*)[\\s,]*(.*)$"),
            3,
            2,
            1)); // data, label, name fields

    return instances;
  }
 private final ArrayList<String> edits(String word) {
   ArrayList<String> result = new ArrayList<String>();
   for (int i = 0; i < word.length(); ++i)
     result.add(word.substring(0, i) + word.substring(i + 1)); // deletes
   for (int i = 0; i < word.length() - 1; ++i)
     result.add(
         word.substring(0, i)
             + word.substring(i + 1, i + 2)
             + word.substring(i, i + 1)
             + word.substring(i + 2)); // swaps
   for (int i = 0; i < word.length(); ++i)
     for (char c = 'a'; c <= 'z'; ++c)
       result.add(word.substring(0, i) + String.valueOf(c) + word.substring(i + 1)); // replace
   for (int i = 0; i <= word.length(); ++i)
     for (char c = 'a'; c <= 'z'; ++c)
       result.add(word.substring(0, i) + String.valueOf(c) + word.substring(i)); // inserts
   return result;
 }
예제 #24
0
 /** The only richer format supported is the file list flavor */
 protected Object getRicherData(DataFlavor flavor) {
   if (DataFlavor.javaFileListFlavor.equals(flavor)) {
     ArrayList<Object> files = new ArrayList<Object>();
     for (Object file : this.fileData) {
       files.add(file);
     }
     return files;
   }
   return null;
 }
예제 #25
0
 private static void readCaptchaFile(String fileName) {
   try {
     BufferedReader reader = new BufferedReader(new FileReader(new File(fileName)));
     String line;
     while ((line = reader.readLine()) != null) captchaList.add(line);
     reader.close();
   } catch (Exception exception) {
     throw new RuntimeException(exception);
   }
 }
  public void setup() {
    size(800, 600);
    smooth();

    strokeWeight(1);

    skaters = new ArrayList();

    skaters.add(new Skater());
  }
예제 #27
0
    public ArrayList getFutureObjectStates() {
      ArrayList alFutureArchive = new ArrayList();
      ArrayList alFutureObjects = cloneArrayList(alStatefulObjects);

      for (int i = 0; i < 100; i++) {
        sim.calculateForces(alFutureObjects);

        alFutureArchive.add(cloneArrayList(alFutureObjects));
      }

      return alFutureArchive;
    }
 public String[] list(String regex) {
   Pattern pattern = Pattern.compile(regex);
   ArrayList<String> slist = new ArrayList<String>();
   int count = 0;
   for (String s : dirList) {
     if (pattern.matcher(s).matches()) {
       count++;
       slist.add(s);
     }
   }
   return slist.toArray(new String[count]);
 }
예제 #29
0
  public void test() throws Exception {

    ParallelTopicModel model = ParallelTopicModel.read(new File(inferencerFile));
    TopicInferencer inferencer = model.getInferencer();

    ArrayList<Pipe> pipeList = new ArrayList<Pipe>();
    pipeList.add(new CharSequence2TokenSequence(Pattern.compile("\\p{L}\\p{L}+")));
    pipeList.add(new TokenSequence2FeatureSequence());

    InstanceList instances = new InstanceList(new SerialPipes(pipeList));
    Reader fileReader = new InputStreamReader(new FileInputStream(new File(fileName)), "UTF-8");
    instances.addThruPipe(
        new CsvIterator(
            fileReader,
            Pattern.compile("^(\\S*)[\\s,]*(\\S*)[\\s,]*(.*)$"),
            3,
            2,
            1)); // data, label, name fields
    double[] testProbabilities = inferencer.getSampledDistribution(instances.get(1), 10, 1, 5);
    for (int i = 0; i < 1000; i++) System.out.println(i + ": " + testProbabilities[i]);
  }
예제 #30
0
파일: ZCM.java 프로젝트: ZeroCM/zcm
  /**
   * Subscribe to all channels whose name matches the regular expression. Note that to subscribe to
   * all channels, you must specify ".*", not "*".
   */
  public void subscribe(String regex, ZCMSubscriber sub) {
    if (this.closed) throw new IllegalStateException();
    SubscriptionRecord srec = new SubscriptionRecord();
    srec.regex = regex;
    srec.pat = Pattern.compile(regex);
    srec.lcsub = sub;

    synchronized (this) {
      zcmjni.subscribe(regex, this);
    }

    synchronized (subscriptions) {
      subscriptions.add(srec);

      for (String channel : subscriptionsMap.keySet()) {
        if (srec.pat.matcher(channel).matches()) {
          ArrayList<SubscriptionRecord> subs = subscriptionsMap.get(channel);
          subs.add(srec);
        }
      }
    }
  }