Beispiel #1
0
 @SuppressWarnings("unchecked")
 @Test
 public void sortAfter() throws RuleBaseException {
   final Node comp1 = content.query().single("/id('comp1')").node();
   final Node comp2 = content.query().single("/id('comp2')").node();
   final Node cname = content.query().single("/id('cname')").node();
   SortBySiblingBlock block = define("<sort after='sibling'>uml:name</sort>");
   SortBySiblingBlock.SortBySiblingSeg seg1 =
       (SortBySiblingBlock.SortBySiblingSeg) block.createSeg(mod);
   SortBySiblingBlock.SortBySiblingSeg seg2 =
       (SortBySiblingBlock.SortBySiblingSeg) block.createSeg(mod);
   seg1.siblingsByTarget =
       Arrays.<Pair<Node, List<Node>>>asList(
           new Pair[] {
             Pair.of(comp1, Arrays.asList(cname, comp2)), Pair.of(comp2, Arrays.asList(cname))
           });
   seg2.siblingsByTarget =
       Arrays.<Pair<Node, List<Node>>>asList(new Pair[] {Pair.of(cname, Arrays.asList(comp2))});
   final OrderGraph graph = mockery.mock(OrderGraph.class);
   mockery.checking(
       new Expectations() {
         {
           one(graph).order(cname, comp1, 0);
           one(graph).order(comp2, comp1, 0);
           one(graph).order(cname, comp2, 0);
           one(graph).order(comp2, cname, 0);
         }
       });
   block.sort(Arrays.asList(seg1, seg2), graph);
 }
  private boolean tryToReloadApplication() {
    try {
      final Application app = ApplicationManager.getApplication();

      if (app.isDisposed()) return false;
      final HashSet<Pair<VirtualFile, StateStorage>> causes =
          new HashSet<Pair<VirtualFile, StateStorage>>(myChangedApplicationFiles);
      if (causes.isEmpty()) return true;

      final boolean[] reloadOk = {false};
      final LinkedHashSet<String> components = new LinkedHashSet<String>();

      ApplicationManager.getApplication()
          .runWriteAction(
              new Runnable() {
                @Override
                public void run() {
                  try {
                    reloadOk[0] =
                        ((ApplicationImpl) app).getStateStore().reload(causes, components);
                  } catch (StateStorageException e) {
                    Messages.showWarningDialog(
                        ProjectBundle.message("project.reload.failed", e.getMessage()),
                        ProjectBundle.message("project.reload.failed.title"));
                  } catch (IOException e) {
                    Messages.showWarningDialog(
                        ProjectBundle.message("project.reload.failed", e.getMessage()),
                        ProjectBundle.message("project.reload.failed.title"));
                  }
                }
              });

      if (!reloadOk[0] && !components.isEmpty()) {
        String message = "Application components were changed externally and cannot be reloaded:\n";
        for (String component : components) {
          message += component + "\n";
        }

        final boolean canRestart = ApplicationManager.getApplication().isRestartCapable();
        message += "Would you like to " + (canRestart ? "restart " : "shutdown ");
        message += ApplicationNamesInfo.getInstance().getProductName() + "?";

        if (Messages.showYesNoDialog(
                message, "Application Configuration Reload", Messages.getQuestionIcon())
            == Messages.YES) {
          for (Pair<VirtualFile, StateStorage> cause : causes) {
            StateStorage stateStorage = cause.getSecond();
            if (stateStorage instanceof XmlElementStorage) {
              ((XmlElementStorage) stateStorage).disableSaving();
            }
          }
          ApplicationManagerEx.getApplicationEx().restart(true);
        }
      }

      return reloadOk[0];
    } finally {
      myChangedApplicationFiles.clear();
    }
  }
Beispiel #3
0
 @Test
 public void restore() throws RuleBaseException, TransformException {
   Node comp1 = content.query().single("/id('comp1')").node();
   Node comp2 = content.query().single("/id('comp2')").node();
   Node cname = content.query().single("/id('cname')").node();
   setModNearestAncestorImplementing(
       NodeTarget.class,
       new NodeTarget() {
         public ItemList targets() throws TransformException {
           return content.query().all("/id('comp1 comp2')");
         }
       });
   setModData("(<sort-siblings run-length='2'/>, <sort-siblings run-length='1'/>)");
   setModReferences(cname, comp2, cname);
   SortBySiblingBlock block = define("<sort before='sibling'>uml:name</sort>");
   SortBySiblingBlock.SortBySiblingSeg seg =
       (SortBySiblingBlock.SortBySiblingSeg) block.createSeg(mod);
   seg.restore();
   assertEquals(
       Arrays.asList(
           new Pair[] {
             Pair.of(comp1, Arrays.asList(cname, comp2)), Pair.of(comp2, Arrays.asList(cname))
           }),
       seg.siblingsByTarget);
 }
  public boolean addRoots(final String name, final Collection<AbstractTreeNode> nodes) {
    final Collection<TreeItem<Pair<AbstractUrl, String>>> list = getFavoritesListRootUrls(name);

    final HashSet<AbstractUrl> set =
        new HashSet<AbstractUrl>(
            ObjectsConvertor.convert(
                list,
                new Convertor<TreeItem<Pair<AbstractUrl, String>>, AbstractUrl>() {
                  @Override
                  public AbstractUrl convert(TreeItem<Pair<AbstractUrl, String>> o) {
                    return o.getData().getFirst();
                  }
                }));
    for (AbstractTreeNode node : nodes) {
      final Pair<AbstractUrl, String> pair = createPairForNode(node);
      if (pair != null) {
        if (set.contains(pair.getFirst())) continue;
        final TreeItem<Pair<AbstractUrl, String>> treeItem =
            new TreeItem<Pair<AbstractUrl, String>>(pair);
        list.add(treeItem);
        set.add(pair.getFirst());
        appendChildNodes(node, treeItem);
      }
    }
    fireListeners.rootsChanged(name);
    return true;
  }
Beispiel #5
0
 @Test
 public void totalOrder() throws RuleBaseException {
   SortBlock block = define("<sort by='ascending' priority='5'>@foo</sort>");
   final OrderGraph graph = mockery.mock(OrderGraph.class);
   mockery.checking(
       new Expectations() {
         {
           one(graph).order("x2", "x1", 5);
           one(graph).order("x2", "x3", 5);
           one(graph).order("x2", "x4", 5);
           one(graph).order("x1", "x4", 5);
           one(graph).order("x3", "x4", 5);
         }
       });
   List<Pair<String, Integer>> list = new ArrayList<Pair<String, Integer>>();
   list.add(Pair.of("x1", 23));
   list.add(Pair.of("x2", 18));
   list.add(Pair.of("x3", 23));
   list.add(Pair.of("x4", 35));
   Comparator<Pair<String, Integer>> comparator =
       new Comparator<Pair<String, Integer>>() {
         public int compare(Pair<String, Integer> o1, Pair<String, Integer> o2) {
           return o1.second.compareTo(o2.second);
         }
       };
   block.totalOrder(list, comparator, graph);
 }
Beispiel #6
0
  public void swap(int i1, int i2, int j1, int j2) {

    int ilength = i2 - i1 + 1;
    int jlength = j2 - j1 + 1;
    int diff = jlength - ilength;

    Set<Pair<Integer, Integer>> newAlignments = new HashSet<Pair<Integer, Integer>>();

    for (Pair<Integer, Integer> alignment : sureAlignments) {
      int pos = alignment.getFirst();

      if (pos < i1 || pos > j2) {
        newAlignments.add(alignment);
      } else if (pos >= i1 && pos <= i2) {
        newAlignments.add(new Pair<Integer, Integer>(pos + j2 - i2, alignment.getSecond()));
      } else if (pos > i2 && pos < j1) {
        newAlignments.add(new Pair<Integer, Integer>(pos + diff, alignment.getSecond()));
      } else if (pos >= j1 && pos <= j2) {
        newAlignments.add(new Pair<Integer, Integer>(pos - j1 + i1, alignment.getSecond()));
      } else {
        System.err.println("Error in Alignment.swap()");
        System.exit(1);
      }
    }

    sureAlignments = newAlignments;
  }
Beispiel #7
0
 Pair Calculate(int u) {
   BigInteger ans;
   Pair temp;
   temp = new Pair();
   if (g[u].size() == 0) {
     temp.x = BigInteger.ONE;
     temp.n = 1;
     return temp;
   }
   if (g[u].size() == 1) {
     temp = Calculate((int) g[u].get(0));
     temp.n++;
     return temp;
   }
   int p, q;
   temp = Calculate((int) g[u].get(0));
   ans = temp.x;
   p = temp.n;
   temp = Calculate((int) g[u].get(1));
   ans = ans.multiply(temp.x);
   q = temp.n;
   ans = ans.multiply(C[p + q][p]);
   temp.x = ans;
   temp.n = p + q + 1;
   return temp;
 }
Beispiel #8
0
 /** Get the names of parameters - one ocurrence */
 public List<String> names() {
   List<String> names = new ArrayList<>();
   for (Pair pair : paramList) {
     String s = pair.getName();
     if (names.contains(s)) continue;
     names.add(s);
   }
   return names;
 }
Beispiel #9
0
 public void remove(String name) {
   // Absolute record
   for (Iterator<Pair> iter = paramList.iterator(); iter.hasNext(); ) {
     Pair p = iter.next();
     if (p.getName().equals(name)) iter.remove();
   }
   // Map
   params.remove(name);
 }
Beispiel #10
0
 public int getAlignedTarget(int sourcePosition) {
   for (Pair<Integer, Integer> alignment : sureAlignments) {
     if (alignment.getSecond() == sourcePosition) {
       return alignment.getFirst();
     }
   }
   System.err.println("nothing aligned with " + sourcePosition);
   return -999;
 }
Beispiel #11
0
 public Set<Integer> getAlignedSources(int targetPosition) {
   Set<Integer> sources = new HashSet<Integer>();
   for (Pair<Integer, Integer> alignment : sureAlignments) {
     if (alignment.getFirst() == targetPosition) {
       sources.add(alignment.getSecond());
     }
   }
   return sources;
 }
Beispiel #12
0
 public Pair decode() {
   Pair ret;
   if (cursor < output.size()) {
     ret = (Pair) output.get(cursor++);
     ret.setValid(true);
   } else {
     ret = new Pair(0, 'a', false);
   }
   return ret;
 }
Beispiel #13
0
 @Test(expected = TransformException.class)
 public void verifyBad() throws RuleBaseException, TransformException {
   SortByValueBlock block = define("<sort by='ascending'>@name</sort>");
   SortByValueBlock.SortByValueSeg seg = (SortByValueBlock.SortByValueSeg) block.createSeg(mod);
   setModData(
       "(<sort-value refid='m1'>start</sort-value>, <sort-value refid='m2'>foo</sort-value>)");
   seg.values = new ArrayList<Pair<String, Item>>();
   seg.values.add(Pair.of("m1", content.query().single("/id('m1')/@name").toAtomicItem()));
   seg.values.add(Pair.of("m2", content.query().single("/id('m2')/@name").toAtomicItem()));
   seg.verify();
 }
Beispiel #14
0
  public static void main(String[] args) {
    GregorianCalendar[] birthdays = {
      new GregorianCalendar(1906, Calendar.DECEMBER, 9), // G.Hopper
      new GregorianCalendar(1815, Calendar.DECEMBER, 10), // A.Lovelace
      new GregorianCalendar(1903, Calendar.DECEMBER, 3), // J.von Neumann
      new GregorianCalendar(1910, Calendar.JUNE, 22), // K.Zuse
    };
    Pair<GregorianCalendar> mm = ArrayAlg.minmax(birthdays);

    System.out.println("min = " + mm.getFirst().getTime());
    System.out.println("max = " + mm.getSecond().getTime());
  }
  @NotNull
  private static <T extends PsiMember> List<T> getAllByMap(
      @NotNull PsiClass aClass, @NotNull MemberType type) {
    List<Pair<T, PsiSubstitutor>> pairs = getAllWithSubstitutorsByMap(aClass, type);

    final List<T> ret = new ArrayList<T>(pairs.size());
    //noinspection ForLoopReplaceableByForEach
    for (int i = 0; i < pairs.size(); i++) {
      Pair<T, PsiSubstitutor> pair = pairs.get(i);
      T t = pair.getFirst();
      LOG.assertTrue(t != null, aClass);
      ret.add(t);
    }
    return ret;
  }
  private boolean handleBackspace(String filter) {
    boolean clicked = false;
    final Iterator<Pair<String, JCheckBox>> iterator = myTriggeredCheckboxes.iterator();
    while (iterator.hasNext()) {
      final Pair<String, JCheckBox> next = iterator.next();
      if (next.getFirst().length() < filter.length()) break;

      if (next.getFirst().length() >= filter.length()) {
        iterator.remove();
        next.getSecond().doClick();
        clicked = true;
      }
    }
    return clicked;
  }
 private Pair<AbstractUrl, String> createPairForNode(AbstractTreeNode node) {
   final String className = node.getClass().getName();
   final Object value = node.getValue();
   final AbstractUrl url = createUrlByElement(value, myProject);
   if (url == null) return null;
   return Pair.create(url, className);
 }
Beispiel #18
0
  /**
   * Get Result String
   *
   * @return result string
   */
  public String printComparableResults(boolean newline) {
    if (!(resultVector != null)) log.error("Attempted to access null vector.");
    String outString = "";
    int i = 0;
    for (TypeQ question : sortedQuestions) {
      Double tempResult = resultVector.get(i);
      //			if(tempResult.intValue() == 0)
      //				continue;

      if (groundTruthVector != null) {
        Double evalInd = groundTruthVector.getSecond().get(i);
        if (evalInd.intValue() == 0) {
          ++i;
          continue;
        }
      }
      ++i;

      if (!newline) outString += "\n";

      outString += question + " " + tempResult.intValue();
      newline = false;
    }
    if (log.isDebugEnabled()) {
      log.debug(outString);
    }
    return outString;
  }
  @NotNull
  private VirtualFilePointer create(
      @Nullable("null means the pointer will be created from the (not null) url") VirtualFile file,
      @Nullable("null means url has to be computed from the (not-null) file path") String url,
      @NotNull Disposable parentDisposable,
      @Nullable VirtualFilePointerListener listener) {
    VirtualFileSystem fileSystem;
    String protocol;
    String path;
    if (file == null) {
      int protocolEnd = url.indexOf(URLUtil.SCHEME_SEPARATOR);
      if (protocolEnd == -1) {
        protocol = null;
        fileSystem = null;
      } else {
        protocol = url.substring(0, protocolEnd);
        fileSystem = myVirtualFileManager.getFileSystem(protocol);
      }
      path = url.substring(protocolEnd + URLUtil.SCHEME_SEPARATOR.length());
    } else {
      fileSystem = file.getFileSystem();
      protocol = fileSystem.getProtocol();
      path = file.getPath();
      url = VirtualFileManager.constructUrl(protocol, path);
    }

    if (fileSystem == TEMP_FILE_SYSTEM) {
      // for tests, recreate always
      VirtualFile found = file == null ? VirtualFileManager.getInstance().findFileByUrl(url) : file;
      return new IdentityVirtualFilePointer(found, url);
    }

    boolean isJar = fileSystem == JAR_FILE_SYSTEM;
    if (fileSystem != LOCAL_FILE_SYSTEM && !isJar) {
      // we are unable to track alien file systems for now
      VirtualFile found =
          fileSystem == null
              ? null
              : file != null ? file : VirtualFileManager.getInstance().findFileByUrl(url);
      // if file is null, this pointer will never be alive
      return getOrCreateIdentity(url, found);
    }

    if (file == null) {
      String cleanPath = cleanupPath(path, isJar);
      // if newly created path is the same as substringed from url one then the url did not change,
      // we can reuse it
      //noinspection StringEquality
      if (cleanPath != path) {
        url = VirtualFileManager.constructUrl(protocol, cleanPath);
        path = cleanPath;
      }
    }
    // else url has come from VirtualFile.getPath() and is good enough

    VirtualFilePointerImpl pointer =
        getOrCreate(parentDisposable, listener, path, Pair.create(file, url));
    DelegatingDisposable.registerDisposable(parentDisposable, pointer);
    return pointer;
  }
 private static void addScopesToList(
     final List<Pair<NamedScope, NamedScopesHolder>> scopeList, final NamedScopesHolder holder) {
   NamedScope[] scopes = holder.getScopes();
   for (NamedScope scope : scopes) {
     scopeList.add(Pair.create(scope, holder));
   }
 }
 @NotNull
 private static Map<String, List<Pair<PsiMember, PsiSubstitutor>>> generateMapByList(
     @NotNull final List<Pair<PsiMember, PsiSubstitutor>> list) {
   Map<String, List<Pair<PsiMember, PsiSubstitutor>>> map =
       new THashMap<String, List<Pair<PsiMember, PsiSubstitutor>>>();
   map.put(ALL, list);
   for (final Pair<PsiMember, PsiSubstitutor> info : list) {
     PsiMember element = info.getFirst();
     String currentName = element.getName();
     List<Pair<PsiMember, PsiSubstitutor>> listByName = map.get(currentName);
     if (listByName == null) {
       listByName = new ArrayList<Pair<PsiMember, PsiSubstitutor>>(1);
       map.put(currentName, listByName);
     }
     listByName.add(info);
   }
   return map;
 }
Beispiel #22
0
 @Override
 public void restore() throws TransformException {
   List<Node> references = mod.references();
   ItemList targets = mod.nearest(NodeTarget.class).targets();
   proxies = new ArrayList<Pair<String, Node>>(references.size());
   for (int i = 0; i < references.size(); i++) {
     proxies.add(Pair.of(targets.get(i).query().single("@xml:id").value(), references.get(i)));
   }
 }
Beispiel #23
0
 @Test
 public void sortDescending() throws RuleBaseException {
   SortByValueBlock block = define("<sort by='descending'>@name</sort>");
   SortByValueBlock.SortByValueSeg seg1 = (SortByValueBlock.SortByValueSeg) block.createSeg(mod);
   SortByValueBlock.SortByValueSeg seg2 = (SortByValueBlock.SortByValueSeg) block.createSeg(mod);
   seg1.values = new ArrayList<Pair<String, Item>>();
   seg1.values.add(Pair.of("m1", content.query().single("/id('m1')/@name").toAtomicItem()));
   seg2.values = new ArrayList<Pair<String, Item>>();
   seg2.values.add(Pair.of("m2", content.query().single("/id('m2')/@name").toAtomicItem()));
   final OrderGraph graph = mockery.mock(OrderGraph.class);
   mockery.checking(
       new Expectations() {
         {
           one(graph).order("m1", "m2", 0);
         }
       });
   block.sort(Arrays.asList(seg1, seg2), graph);
 }
Beispiel #24
0
 @SuppressWarnings("unchecked")
 @Test(expected = TransformException.class)
 public void verifyMismatch() throws RuleBaseException, TransformException {
   Node uc1 = content.query().single("/id('uc1')").node();
   Node comp1 = content.query().single("/id('comp1')").node();
   Node comp2 = content.query().single("/id('comp2')").node();
   Node cname = content.query().single("/id('cname')").node();
   setModScope(uc1.query());
   SortBySiblingBlock block = define("<sort before='sibling'>uml:name</sort>");
   SortBySiblingBlock.SortBySiblingSeg seg =
       (SortBySiblingBlock.SortBySiblingSeg) block.createSeg(mod);
   seg.siblingsByTarget =
       Arrays.<Pair<Node, List<Node>>>asList(
           new Pair[] {
             Pair.of(comp1, Arrays.asList(comp2)), Pair.of(comp2, Arrays.asList(cname))
           });
   seg.verify();
 }
  static String isitpossible(int a, int b, int c, int d) {
    Pair source = new Pair(a, b);
    Pair dest = new Pair(c, d);
    list.add(source);
    while (!list.isEmpty()) {
      Pair pair = list.poll();
      if (pair.getX() == dest.getX() && pair.getY() == dest.getY()) return "Yes";
      else {
        int sum = pair.getX() + pair.getY();
        if (sum <= Math.max(c, d)) {
          list.add(new Pair(sum, pair.getY()));
          list.add(new Pair(pair.getX(), sum));
        }
      }
    }

    return "No";
  }
 @NotNull
 private Pair<Boolean, GroovyResolveResult[]> resolveByShape(
     final boolean allVariants, @Nullable final GrExpression upToArgument) {
   LOG.assertTrue(allVariants || upToArgument == null);
   final Trinity key =
       Trinity.create(
           TypeInferenceHelper.getCurrentContext(), this, Pair.create(allVariants, upToArgument));
   final Pair<Boolean, GroovyResolveResult[]> result =
       RecursionManager.doPreventingRecursion(
           key,
           true,
           new Computable<Pair<Boolean, GroovyResolveResult[]>>() {
             @Override
             public Pair<Boolean, GroovyResolveResult[]> compute() {
               return doResolveByShape(allVariants, upToArgument);
             }
           });
   return result == null ? Pair.create(false, GroovyResolveResult.EMPTY_ARRAY) : result;
 }
Beispiel #27
0
  /*
   * This is somewhat of a hack, to change the position of the goal we
   * first save all of the non-empty nodes on the map, clear the map, move the
   * goal and add re-add all of the non-empty cells. Since most of these cells
   * are not between the start and goal this does not seem to hurt performance
   * too much. Also, it frees up a good deal of memory we are probably not
   * going to use.
   */
  public void updateGoal(int x, int y) {
    List<Pair<ipoint2, Double>> toAdd = new ArrayList<Pair<ipoint2, Double>>();
    Pair<ipoint2, Double> tempPoint;

    for (Map.Entry<State, CellInfo> entry : cellHash.entrySet()) {
      if (!close(entry.getValue().cost, C1)) {
        tempPoint =
            new Pair(new ipoint2(entry.getKey().x, entry.getKey().y), entry.getValue().cost);
        toAdd.add(tempPoint);
      }
    }

    cellHash.clear();
    openHash.clear();

    while (!openList.isEmpty()) openList.poll();

    k_m = 0;

    s_goal.x = x;
    s_goal.y = y;

    CellInfo tmp = new CellInfo();
    tmp.g = tmp.rhs = 0;
    tmp.cost = C1;

    cellHash.put(s_goal, tmp);

    tmp = new CellInfo();
    tmp.g = tmp.rhs = heuristic(s_start, s_goal);
    tmp.cost = C1;
    cellHash.put(s_start, tmp);
    s_start = calculateKey(s_start);

    s_last = s_start;

    Iterator<Pair<ipoint2, Double>> iterator = toAdd.iterator();
    while (iterator.hasNext()) {
      tempPoint = iterator.next();
      updateCell(tempPoint.first().x, tempPoint.first().y, tempPoint.second());
    }
  }
 @Override
 public void setConf(org.apache.hadoop.conf.Configuration conf) {
   if (conf == null) return; // you first get a null configuration - ignore that
   String mos = conf.get(AvroJob.MAP_OUTPUT_SCHEMA);
   Schema schema = Schema.parse(mos);
   pair = new Pair<Object, Object>(schema);
   Schema keySchema = Pair.getKeySchema(schema);
   final List<Field> fields = keySchema.getFields();
   final GenericRecord key = new GenericData.Record(keySchema);
   projector = new Projector(key, fields);
 }
 private List<Object> getList(List<Pair<String, Object>> values, String tag) {
   for (Pair<String, Object> value : values) {
     if (value.left.equals(tag)) {
       //noinspection unchecked
       return (List<Object>) value.right;
     }
   }
   final List<Object> list = new ArrayList<Object>();
   values.add(Pair.of(tag, (Object) list));
   return list;
 }
  /**
   * Resolves the component name in each of the couplings in the given set to its devs component,
   * and returns a new list of resolved such couplings.
   *
   * @param couplings The set of couplings, each containing an unresolved component name.
   * @param modelToSimMap A mapping of (names of) components to their simulators.
   * @param rootSim The root simulator (or coordinator) of the simulator making this call (if any).
   * @return A new list of couplings, corresponding to the given one, except each coupling contains
   *     the actual destination component, rather than just that component's name.
   */
  protected static List resolveCouplings(
      Set couplings, Function modelToSimMap, atomicSimulator rootSim) {
    // for each of the couplings to the source port
    List resolvedCouplings = new ArrayList();
    Iterator i = couplings.iterator();
    while (i.hasNext()) {
      Pair coupling = (Pair) i.next();

      // resolve the destination component name to its actual component
      EntityInterface component =
          getComponentWithName((String) coupling.getKey(), modelToSimMap, rootSim);

      // package the destination component with the destination
      // port-name, and add the result to our list of resolved
      // couplings
      resolvedCouplings.add(new Pair(component, coupling.getValue()));
    }

    return resolvedCouplings;
  }