Example #1
0
  private void removeReceiveStream(ReceiveStreamDesc receiveStream, boolean emptyJB) {
    if (receiveStream.format instanceof VideoFormat) {
      rtpConnector.packetBuffer.disable(receiveStream.ssrc);
      emptyPacketBuffer(receiveStream.ssrc);
    }

    if (receiveStream.dataSink != null) {
      try {
        receiveStream.dataSink.stop();
      } catch (IOException e) {
        logger.error("Failed to stop DataSink " + e);
      }

      receiveStream.dataSink.close();
    }

    if (receiveStream.processor != null) {
      receiveStream.processor.stop();
      receiveStream.processor.close();
    }

    DataSource dataSource = receiveStream.receiveStream.getDataSource();
    if (dataSource != null) {
      try {
        dataSource.stop();
      } catch (IOException ioe) {
        logger.warn("Failed to stop DataSource");
      }
      dataSource.disconnect();
    }

    synchronized (receiveStreams) {
      receiveStreams.remove(receiveStream);
    }
  }
  public static void main(String[] args) throws IOException {
    br = new BufferedReader(new InputStreamReader(System.in));
    out = new PrintWriter(new OutputStreamWriter(System.out));
    // br = new BufferedReader(new FileReader("in.txt"));
    // out = new PrintWriter(new FileWriter("out.txt"));

    TreeMap<Character, TreeSet<Integer>> tm = new TreeMap<Character, TreeSet<Integer>>();

    N = readInt();
    HashSet<Character> open = new HashSet<Character>();

    for (int i = 0; i < N; i++) {
      String next = readLine();
      if (next.charAt(0) == '^') {
        open.add(next.charAt(1));
        if (tm.get(next.charAt(1)) == null) tm.put(next.charAt(1), new TreeSet<Integer>());
      } else if (next.charAt(0) == '/') {
        open.remove(next.charAt(1));
      } else {
        int val = Integer.parseInt(next);
        for (Character c : open) {
          tm.get(c).add(val);
        }
      }
    }

    for (Map.Entry<Character, TreeSet<Integer>> e : tm.entrySet()) {
      out.print(e.getKey() + " ");
      for (Integer i : e.getValue()) out.print(i + " ");
      out.println();
    }
    out.close();
  }
  public void deregisterListener(int id, MessageListener m) {
    HashSet listenerSet = (HashSet) idTable.get(new Integer(id));

    if (listenerSet == null) {
      throw new IllegalArgumentException("No listeners registered for message type " + id);
    }
    listenerSet.remove(m);
  }
Example #4
0
  /**
   * Removes a player from the friend list
   *
   * @param friend The player
   */
  public static void removeFriend(final Player friend) {
    synchronized (monitor) {
      if (friends.contains(friend) == false) return;

      friends.remove(friend);
      saveFriends();
    }
  }
 public void setAttributeEnabled(AttributeKey key, boolean b) {
   if (forbiddenAttributes == null) {
     forbiddenAttributes = new HashSet<AttributeKey>();
   }
   if (b) {
     forbiddenAttributes.remove(key);
   } else {
     forbiddenAttributes.add(key);
   }
 }
Example #6
0
 public boolean hashSetContainsSameOperations(HashSet set1, HashSet set2) {
   boolean result = false;
   HashSet s1 = (HashSet) set1.clone();
   HashSet s2 = (HashSet) set2.clone();
   // first part, are all elements of s1 also in s2?
   boolean one = false;
   Iterator it = set1.iterator();
   while (it.hasNext()) {
     PDMOperation d = (PDMOperation) it.next();
     if (s2.contains(d)) {
       s1.remove(d);
     }
   }
   if (s1.isEmpty()) {
     one = true;
   }
   // second part, are all elements of s21 also in s1?
   boolean two = false;
   HashSet s3 = (HashSet) set1.clone();
   HashSet s4 = (HashSet) set2.clone();
   Iterator it2 = set2.iterator();
   while (it2.hasNext()) {
     PDMOperation d = (PDMOperation) it2.next();
     if (s3.contains(d)) {
       s4.remove(d);
     }
   }
   if (s4.isEmpty()) {
     two = true;
   }
   // administrative stuff
   s1.clear();
   s2.clear();
   s3.clear();
   s4.clear();
   result = one && two;
   return result;
 }
Example #7
0
  public void libraryReturn(String[] arguments) {
    String subject, object;
    HashSet<String> objects;

    if (arguments.length != 2) {
      return;
    }

    subject = arguments[1];
    object = arguments[0];
    objects = this.subjectObjects.get(subject);

    objects.remove(object);

    this.subjectObjects.put(subject, objects);
  }
Example #8
0
  public void bibaRemoveCat(String[] arguments) {
    String object, category;
    HashSet<String> objectCategories;

    if (arguments.length != 2) {
      return;
    }

    object = arguments[0];
    category = arguments[1];

    if (!this.objectCategories.containsKey(object)) {
      return;
    }

    objectCategories = this.objectCategories.get(object);
    objectCategories.remove(category);
    this.objectCategories.put(object, objectCategories);
    System.out.println("Removed category '" + category + "' from object '" + object + "'.");
  }
Example #9
0
  /** Creates a patch from the two passed in files, writing the result to <code>os</code>. */
  public static void createPatch(String oldPath, String newPath, OutputStream os, boolean minimal)
      throws IOException {
    JarFile2 oldJar = new JarFile2(oldPath);
    JarFile2 newJar = new JarFile2(newPath);

    try {
      Iterator entries;
      HashMap moved = new HashMap();
      HashSet visited = new HashSet();
      HashSet implicit = new HashSet();
      HashSet moveSrc = new HashSet();
      HashSet newEntries = new HashSet();

      // FIRST PASS
      // Go through the entries in new jar and
      // determine which files are candidates for implicit moves
      // ( files that has the same filename and same content in old.jar
      // and new.jar )
      // and for files that cannot be implicitly moved, we will either
      // find out whether it is moved or new (modified)
      entries = newJar.getJarEntries();
      if (entries != null) {
        while (entries.hasNext()) {
          JarEntry newEntry = (JarEntry) entries.next();
          String newname = newEntry.getName();

          // Return best match of contents, will return a name match if possible
          String oldname = oldJar.getBestMatch(newJar, newEntry);
          if (oldname == null) {
            // New or modified entry
            if (_debug) {
              System.out.println("NEW: " + newname);
            }
            newEntries.add(newname);
          } else {
            // Content already exist - need to do a move

            // Should do implicit move? Yes, if names are the same, and
            // no move command already exist from oldJar
            if (oldname.equals(newname) && !moveSrc.contains(oldname)) {
              if (_debug) {
                System.out.println(newname + " added to implicit set!");
              }
              implicit.add(newname);
            } else {
              // The 1.0.1/1.0 JarDiffPatcher cannot handle
              // multiple MOVE command with same src.
              // The work around here is if we are going to generate
              // a MOVE command with duplicate src, we will
              // instead add the target as a new file.  This way
              // the jardiff can be applied by 1.0.1/1.0
              // JarDiffPatcher also.
              if (!minimal && (implicit.contains(oldname) || moveSrc.contains(oldname))) {

                // generate non-minimal jardiff
                // for backward compatibility

                if (_debug) {

                  System.out.println("NEW: " + newname);
                }
                newEntries.add(newname);
              } else {
                // Use newname as key, since they are unique
                if (_debug) {
                  System.err.println("moved.put " + newname + " " + oldname);
                }
                moved.put(newname, oldname);
                moveSrc.add(oldname);
              }
              // Check if this disables an implicit 'move <oldname> <oldname>'
              if (implicit.contains(oldname) && minimal) {

                if (_debug) {
                  System.err.println("implicit.remove " + oldname);

                  System.err.println("moved.put " + oldname + " " + oldname);
                }
                implicit.remove(oldname);
                moved.put(oldname, oldname);
                moveSrc.add(oldname);
              }
            }
          }
        }
      } // if (entries != null)

      // SECOND PASS: <deleted files> = <oldjarnames> - <implicitmoves> -
      // <source of move commands> - <new or modified entries>
      ArrayList deleted = new ArrayList();
      entries = oldJar.getJarEntries();
      if (entries != null) {
        while (entries.hasNext()) {
          JarEntry oldEntry = (JarEntry) entries.next();
          String oldName = oldEntry.getName();
          if (!implicit.contains(oldName)
              && !moveSrc.contains(oldName)
              && !newEntries.contains(oldName)) {
            if (_debug) {
              System.err.println("deleted.add " + oldName);
            }
            deleted.add(oldName);
          }
        }
      }

      // DEBUG
      if (_debug) {
        // DEBUG:  print out moved map
        entries = moved.keySet().iterator();
        if (entries != null) {
          System.out.println("MOVED MAP!!!");
          while (entries.hasNext()) {
            String newName = (String) entries.next();
            String oldName = (String) moved.get(newName);
            System.out.println("key is " + newName + " value is " + oldName);
          }
        }

        // DEBUG:  print out IMOVE map
        entries = implicit.iterator();
        if (entries != null) {
          System.out.println("IMOVE MAP!!!");
          while (entries.hasNext()) {
            String newName = (String) entries.next();
            System.out.println("key is " + newName);
          }
        }
      }

      JarOutputStream jos = new JarOutputStream(os);

      // Write out all the MOVEs and REMOVEs
      createIndex(jos, deleted, moved);

      // Put in New and Modified entries
      entries = newEntries.iterator();
      if (entries != null) {

        while (entries.hasNext()) {
          String newName = (String) entries.next();
          if (_debug) {
            System.out.println("New File: " + newName);
          }
          writeEntry(jos, newJar.getEntryByName(newName), newJar);
        }
      }

      jos.finish();
      jos.close();

    } catch (IOException ioE) {
      throw ioE;
    } finally {
      try {
        oldJar.getJarFile().close();
      } catch (IOException e1) {
        // ignore
      }
      try {
        newJar.getJarFile().close();
      } catch (IOException e1) {
        // ignore
      }
    } // finally
  }
Example #10
0
    private void add(PptTopLevel ppt, ValueTuple vt) {
      // Add the sample to any splitters
      if (ppt.has_splitters()) {
        for (PptSplitter ppt_split : ppt.splitters) {
          PptConditional ppt_cond = ppt_split.choose_conditional(vt);
          if (ppt_cond != null) add(ppt_cond, vt);
          else debug.fine(": sample doesn't pick conditional");
        }
      }

      // if this is a numbered exit, apply to the combined exit as well
      if (!(ppt instanceof PptConditional) && ppt.ppt_name.isNumberedExitPoint()) {
        PptTopLevel parent = all_ppts.get(ppt.ppt_name.makeExit());
        if (parent != null) {
          parent.get_missingOutOfBounds(ppt, vt);
          add(parent, vt);
        }
      }

      // If the point has no variables, skip it
      if (ppt.var_infos.length == 0) return;

      // We should have received sample here before, or there is nothing
      // to check.
      // Yoav added: It can be that the different dtrace and inv files have different program points
      if (false && ppt.num_samples() <= 0)
        Assert.assertTrue(
            ppt.num_samples() > 0,
            "ppt " + ppt.name + " has 0 samples and " + ppt.var_infos.length + " variables");

      // Loop through each slice
      slice_loop:
      for (Iterator<PptSlice> i = ppt.views_iterator(); i.hasNext(); ) {
        PptSlice slice = i.next();
        if (debug_detail.isLoggable(Level.FINE))
          debug_detail.fine(
              ": processing slice " + slice + "vars: " + Debug.toString(slice.var_infos, vt));

        // If any variables are missing, skip this slice
        for (int j = 0; j < slice.var_infos.length; j++) {
          VarInfo v = slice.var_infos[j];
          int mod = vt.getModified(v);
          if (v.isMissing(vt)) {
            if (debug_detail.isLoggable(Level.FINE))
              debug_detail.fine(": : Skipping slice, " + v.name() + " missing");
            continue slice_loop;
          }
          if (v.missingOutOfBounds()) {
            if (debug_detail.isLoggable(Level.FINE))
              debug.fine(": : Skipping slice, " + v.name() + " out of bounds");
            continue slice_loop;
          }
        }

        // Loop through each invariant
        for (Invariant inv : slice.invs) {
          if (debug_detail.isLoggable(Level.FINE))
            debug_detail.fine(": : Processing invariant: " + inv);
          if (!inv.isActive()) {
            if (debug_detail.isLoggable(Level.FINE))
              debug_detail.fine(": : skipped non-active " + inv);
            continue;
          }

          // Yoav added
          if (!activeInvariants.contains(inv)) {
            // System.out.printf ("skipping invariant %s:%s\n", inv.ppt.name(),
            //                   inv.format());
            continue;
          }

          // String invRep = invariant2str(ppt, inv);
          testedInvariants.add(inv);

          InvariantStatus status = inv.add_sample(vt, 1);
          sample_cnt++;
          if (status != InvariantStatus.NO_CHANGE) {
            LineNumberReader lnr = FileIO.data_trace_state.reader;
            String line = (lnr == null) ? "?" : String.valueOf(lnr.getLineNumber());
            if (!quiet) {
              output_stream.println(
                  "At ppt "
                      + ppt.name
                      + ", Invariant '"
                      + inv.format()
                      + "' invalidated by sample "
                      + Debug.toString(slice.var_infos, vt)
                      + "at line "
                      + line
                      + " in file "
                      + FileIO.data_trace_state.filename);
            }
            failedInvariants.add(inv);
            activeInvariants.remove(inv);
            error_cnt++;
          }
        }
      }
    }
Example #11
0
    private void unpackSegment(InputStream in, JarOutputStream out) throws IOException {
      _props.setProperty(java.util.jar.Pack200.Unpacker.PROGRESS, "0");
      // Process the output directory or jar output.
      new PackageReader(pkg, in).read();

      if (_props.getBoolean("unpack.strip.debug")) pkg.stripAttributeKind("Debug");
      if (_props.getBoolean("unpack.strip.compile")) pkg.stripAttributeKind("Compile");
      _props.setProperty(java.util.jar.Pack200.Unpacker.PROGRESS, "50");
      pkg.ensureAllClassFiles();
      // Now write out the files.
      HashSet classesToWrite = new HashSet(pkg.getClasses());
      for (Iterator i = pkg.getFiles().iterator(); i.hasNext(); ) {
        Package.File file = (Package.File) i.next();
        String name = file.nameString;
        JarEntry je = new JarEntry(Utils.getJarEntryName(name));
        boolean deflate;

        deflate =
            (keepDeflateHint)
                ? (((file.options & Constants.FO_DEFLATE_HINT) != 0)
                    || ((pkg.default_options & Constants.AO_DEFLATE_HINT) != 0))
                : deflateHint;

        boolean needCRC = !deflate; // STORE mode requires CRC

        if (needCRC) crc.reset();
        bufOut.reset();
        if (file.isClassStub()) {
          Package.Class cls = file.getStubClass();
          assert (cls != null);
          new ClassWriter(cls, needCRC ? crcOut : bufOut).write();
          classesToWrite.remove(cls); // for an error check
        } else {
          // collect data & maybe CRC
          file.writeTo(needCRC ? crcOut : bufOut);
        }
        je.setMethod(deflate ? JarEntry.DEFLATED : JarEntry.STORED);
        if (needCRC) {
          if (verbose > 0)
            Utils.log.info("stored size=" + bufOut.size() + " and crc=" + crc.getValue());

          je.setMethod(JarEntry.STORED);
          je.setSize(bufOut.size());
          je.setCrc(crc.getValue());
        }
        if (keepModtime) {
          je.setTime(file.modtime);
          // Convert back to milliseconds
          je.setTime((long) file.modtime * 1000);
        } else {
          je.setTime((long) modtime * 1000);
        }
        out.putNextEntry(je);
        bufOut.writeTo(out);
        out.closeEntry();
        if (verbose > 0) Utils.log.info("Writing " + Utils.zeString((ZipEntry) je));
      }
      assert (classesToWrite.isEmpty());
      _props.setProperty(java.util.jar.Pack200.Unpacker.PROGRESS, "100");
      pkg.reset(); // reset for the next segment, if any
    }
Example #12
0
  public PDMStateSpace calculateSimpleStateSpace(
      boolean root, boolean failure, boolean input, boolean colored, int numStates, int breadth) {
    PDMStateSpace result = new PDMStateSpace(this, colored);
    HashSet states = new HashSet();
    int j = (operations.size() + 1);

    if (!input) {
      HashSet empty = new HashSet();
      PDMState st = new PDMState(result, "state" + i, empty, empty, empty);
      result.addState(st);
      states.add(st);
      i++;
    } else {
      // Start with the complete set of input data elements available
      HashSet empty = new HashSet();
      String name = new String("state" + i);
      HashSet ins = new HashSet(); // this hashSet contains the input
      // elements to the process (input
      // elements of PDM)
      HashSet execOps = new HashSet();
      // Fill the hashSet with the leaf elements
      HashMap leafs = getLeafElements();
      Object[] leafElts = leafs.values().toArray();
      for (int i = 0; i < leafElts.length; i++) {
        PDMDataElement d = (PDMDataElement) leafElts[i];
        ins.add(d);
      }
      HashSet leafOps = getLeafOperations();
      Iterator it = leafOps.iterator();
      while (it.hasNext()) {
        PDMOperation op = (PDMOperation) it.next();
        execOps.add(op);
      }

      PDMState start = new PDMState(result, name, ins, execOps, empty); // start
      // state
      // of
      // the
      // statespace
      result.addState(start);
      i++;
      states.add(start);
    }
    while (!states.isEmpty()) {
      HashSet states2 = (HashSet) states.clone();
      Iterator it = states2.iterator();
      while (it.hasNext()) {
        PDMState state = (PDMState) it.next();
        HashSet nextStates = calculateNextStates(state, result, root, failure, numStates, breadth);
        Iterator it2 = nextStates.iterator();
        // Add the new states to iterator
        while (it2.hasNext()) {
          PDMState st = (PDMState) it2.next();
          states.add(st);
        }
        states.remove(state);
      }
    }
    i = 0;
    j = 0;
    Message.add("<PDMMDPStateSpace>", Message.TEST);
    Message.add("<NumberOfStates = " + result.getNumberOfStates() + " >", Message.TEST);
    Message.add("</PDMMDPStateSpace>", Message.TEST);
    return result;
  }
Example #13
0
  public HashSet calculateExecutableOperations(
      HashSet dataElts, HashSet executed, HashSet failed, boolean root) {
    HashSet result = new HashSet();
    HashSet enabledOperations = new HashSet();

    if (root) {
      // Calculate the enabled operations (i.e. those operation of which
      // all input elements are in the set of available elements)
      Object[] ops = operations.values().toArray();
      for (int i = 0; i < ops.length; i++) {
        PDMOperation op = (PDMOperation) ops[i];
        HashMap inputs = op.getInputElements();
        Object[] ins = inputs.values().toArray();
        boolean enabled = true;
        int k = 0;
        while (enabled && k < ins.length) {
          PDMDataElement d = (PDMDataElement) ins[k];
          if (!(dataElts.contains(d))) {
            enabled = false;
          }
          k++;
        }
        if (enabled) {
          enabledOperations.add(op);
          // System.out.println("Enabled operation: "+ op.getID());
        }
      }
    } else if (!(dataElts.contains(this.getRootElement()))) {
      // Calculate the enabled operations (i.e. those operation of which
      // all input elements are in the set of available elements)
      Object[] ops = operations.values().toArray();
      for (int i = 0; i < ops.length; i++) {
        PDMOperation op = (PDMOperation) ops[i];
        HashMap inputs = op.getInputElements();
        Object[] ins = inputs.values().toArray();
        boolean enabled = true;
        int k = 0;
        while (enabled && k < ins.length) {
          PDMDataElement d = (PDMDataElement) ins[k];
          if (!(dataElts.contains(d))) {
            enabled = false;
          }
          k++;
        }
        if (enabled) {
          enabledOperations.add(op);
        }
      }
    }
    // remove already executed operations
    Iterator exIt = executed.iterator();
    while (exIt.hasNext()) {
      PDMOperation op = (PDMOperation) exIt.next();
      enabledOperations.remove(op);
    }
    // remove already failed operations
    Iterator fIt = failed.iterator();
    while (fIt.hasNext()) {
      PDMOperation op = (PDMOperation) fIt.next();
      enabledOperations.remove(op);
    }
    result = enabledOperations;
    return result;
  }
Example #14
0
 static synchronized void pushConnectionBackToPool(ConnectionWrapper con) {
   boolean exist = m_usedUsedConnection.remove(con);
   if (exist) {
     m_notUsedConnection.addLast(con);
   }
 }