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; }
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(); } }
/** * 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; }
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; }
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; }
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()); }
private void shiftAlignments(int targetPosition, boolean up, int changeto) { Set<Pair<Integer, Integer>> newAlignments = new HashSet<Pair<Integer, Integer>>(); for (Pair<Integer, Integer> alignment : sureAlignments) { int pos = alignment.getFirst(); // System.out.println("shift: "+pos); if (pos < targetPosition) { newAlignments.add(alignment); } else if (pos == targetPosition) { newAlignments.add( new Pair<Integer, Integer>((up ? pos + 1 : changeto), alignment.getSecond())); } else if (pos > targetPosition) { newAlignments.add( new Pair<Integer, Integer>((up ? pos + 1 : pos - 1), alignment.getSecond())); } } sureAlignments = newAlignments; }
private void highlightTodo(boolean left, List<Pair<TextRange, TextAttributes>> todoRanges) { FragmentedDiffPanelState panelState = (FragmentedDiffPanelState) ((DiffPanelImpl) myHorizontal).getDiffPanelState(); FragmentedDiffPanelState panelState2 = (FragmentedDiffPanelState) ((DiffPanelImpl) myVertical).getDiffPanelState(); for (Pair<TextRange, TextAttributes> range : todoRanges) { TextAttributes second = range.getSecond().clone(); panelState.addRangeHighlighter( left, range.getFirst().getStartOffset(), range.getFirst().getEndOffset(), second); panelState2.addRangeHighlighter( left, range.getFirst().getStartOffset(), range.getFirst().getEndOffset(), second); } }
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; }
@Override public boolean process(Pair<HighlightInfo, ProgressIndicator> pair) { ApplicationManager.getApplication().assertIsDispatchThread(); ProgressIndicator indicator = pair.getSecond(); if (indicator.isCanceled()) { return false; } HighlightInfo info = pair.getFirst(); final EditorColorsScheme colorsScheme = getColorsScheme(); UpdateHighlightersUtil.addHighlighterToEditorIncrementally( myProject, myDocument, myFile, myStartOffset, myEndOffset, info, colorsScheme, Pass.UPDATE_ALL, ranges2markersCache); return true; }
private static boolean processCachedMembersByName( @NotNull PsiClass aClass, @NotNull PsiScopeProcessor processor, @NotNull ResolveState state, @Nullable Set<PsiClass> visited, PsiElement last, @NotNull PsiElement place, boolean isRaw, @NotNull PsiSubstitutor substitutor, @NotNull MembersMap value, String name, @NotNull LanguageLevel languageLevel) { final ElementClassHint classHint = processor.getHint(ElementClassHint.KEY); PsiElementFactory factory = JavaPsiFacade.getInstance(aClass.getProject()).getElementFactory(); if (classHint == null || classHint.shouldProcess(ElementClassHint.DeclarationKind.FIELD)) { final PsiField fieldByName = aClass.findFieldByName(name, false); if (fieldByName != null) { processor.handleEvent(PsiScopeProcessor.Event.SET_DECLARATION_HOLDER, aClass); if (!processor.execute(fieldByName, state)) return false; } else { final Map<String, List<Pair<PsiMember, PsiSubstitutor>>> allFieldsMap = value.get(MemberType.FIELD); final List<Pair<PsiMember, PsiSubstitutor>> list = allFieldsMap.get(name); if (list != null) { for (final Pair<PsiMember, PsiSubstitutor> candidate : list) { PsiMember candidateField = candidate.getFirst(); PsiSubstitutor finalSubstitutor = obtainFinalSubstitutor( candidateField.getContainingClass(), candidate.getSecond(), aClass, substitutor, factory, languageLevel); processor.handleEvent( PsiScopeProcessor.Event.SET_DECLARATION_HOLDER, candidateField.getContainingClass()); if (!processor.execute(candidateField, state.put(PsiSubstitutor.KEY, finalSubstitutor))) return false; } } } } if (classHint == null || classHint.shouldProcess(ElementClassHint.DeclarationKind.CLASS)) { if (last != null && last.getParent() == aClass) { if (last instanceof PsiClass) { if (!processor.execute(last, state)) return false; } // Parameters final PsiTypeParameterList list = aClass.getTypeParameterList(); if (list != null && !list.processDeclarations(processor, state, last, place)) return false; } if (!(last instanceof PsiReferenceList)) { final PsiClass classByName = aClass.findInnerClassByName(name, false); if (classByName != null) { processor.handleEvent(PsiScopeProcessor.Event.SET_DECLARATION_HOLDER, aClass); if (!processor.execute(classByName, state)) return false; } else { Map<String, List<Pair<PsiMember, PsiSubstitutor>>> allClassesMap = value.get(MemberType.CLASS); List<Pair<PsiMember, PsiSubstitutor>> list = allClassesMap.get(name); if (list != null) { for (final Pair<PsiMember, PsiSubstitutor> candidate : list) { PsiMember inner = candidate.getFirst(); PsiClass containingClass = inner.getContainingClass(); if (containingClass != null) { PsiSubstitutor finalSubstitutor = obtainFinalSubstitutor( containingClass, candidate.getSecond(), aClass, substitutor, factory, languageLevel); processor.handleEvent( PsiScopeProcessor.Event.SET_DECLARATION_HOLDER, containingClass); if (!processor.execute(inner, state.put(PsiSubstitutor.KEY, finalSubstitutor))) return false; } } } } } } if (classHint == null || classHint.shouldProcess(ElementClassHint.DeclarationKind.METHOD)) { if (processor instanceof MethodResolverProcessor) { final MethodResolverProcessor methodResolverProcessor = (MethodResolverProcessor) processor; if (methodResolverProcessor.isConstructor()) { final PsiMethod[] constructors = aClass.getConstructors(); methodResolverProcessor.handleEvent( PsiScopeProcessor.Event.SET_DECLARATION_HOLDER, aClass); for (PsiMethod constructor : constructors) { if (!methodResolverProcessor.execute(constructor, state)) return false; } return true; } } Map<String, List<Pair<PsiMember, PsiSubstitutor>>> allMethodsMap = value.get(MemberType.METHOD); List<Pair<PsiMember, PsiSubstitutor>> list = allMethodsMap.get(name); if (list != null) { for (final Pair<PsiMember, PsiSubstitutor> candidate : list) { ProgressIndicatorProvider.checkCanceled(); PsiMethod candidateMethod = (PsiMethod) candidate.getFirst(); if (processor instanceof MethodResolverProcessor) { if (candidateMethod.isConstructor() != ((MethodResolverProcessor) processor).isConstructor()) continue; } final PsiClass containingClass = candidateMethod.getContainingClass(); if (visited != null && visited.contains(candidateMethod.getContainingClass())) { continue; } PsiSubstitutor finalSubstitutor = obtainFinalSubstitutor( containingClass, candidate.getSecond(), aClass, substitutor, factory, languageLevel); finalSubstitutor = checkRaw(isRaw, factory, candidateMethod, finalSubstitutor); processor.handleEvent(PsiScopeProcessor.Event.SET_DECLARATION_HOLDER, containingClass); if (!processor.execute(candidateMethod, state.put(PsiSubstitutor.KEY, finalSubstitutor))) return false; } if (visited != null) { for (Pair<PsiMember, PsiSubstitutor> aList : list) { visited.add(aList.getFirst().getContainingClass()); } } } } return true; }
/** * Generates list of questions and stores it in the current instance of MemoryStudy We handle two * kinds of questions namely, person names tests and non-person name tests. Non-person name test * is a fill in the blank kind where the blank is to be filled with the correct non-person entity * to complete the sentence person name test is to guess the person in correspondent list based on * some distinctive sentences in the mail * * @param maxInt - max. number of questions from a interval * @throws IOException */ public void generateQuestions( Archive archive, NERModel nerModel, Collection<EmailDocument> allDocs, Lexicon lex, int maxInt, boolean personTest) throws IOException, GeneralSecurityException, ClassNotFoundException, ReadContentsException, ParseException { this.archive = archive; if (allDocs == null) allDocs = (Collection) archive.getAllDocs(); questions = new ArrayList<>(); ArchiveCluer cluer = new ArchiveCluer(null, archive, nerModel, null, lex); Short[] itypes = new Short[] { FeatureDictionary.BUILDING, FeatureDictionary.PLACE, FeatureDictionary.RIVER, FeatureDictionary.ROAD, FeatureDictionary.UNIVERSITY, FeatureDictionary.MOUNTAIN, FeatureDictionary.AIRPORT, FeatureDictionary.ISLAND, FeatureDictionary.MUSEUM, FeatureDictionary.BRIDGE, FeatureDictionary.AIRLINE, FeatureDictionary.THEATRE, FeatureDictionary.LIBRARY, FeatureDictionary.LAWFIRM, FeatureDictionary.GOVAGENCY }; double CUTOFF = 0.001; tabooCluesSet = new LinkedHashSet<>(); archive.assignThreadIds(); List<Document> docs = archive.getAllDocs(); Map<String, Date> entityToLastDate = new LinkedHashMap<>(); Multimap<String, EmailDocument> entityToMessages = LinkedHashMultimap.create(); Multimap<String, Long> entityToThreads = LinkedHashMultimap.create(); Multimap<String, String> ceToDisplayEntity = LinkedHashMultimap.create(); int di = 0; // sort by date Collections.sort(docs); Set<String> ownerNames = archive.ownerNames; Date earliestDate = null, latestDate = null; Set<String> allEntities = new LinkedHashSet<>(); for (Document doc : docs) { EmailDocument ed = (EmailDocument) doc; if (earliestDate == null || ed.date.before(earliestDate)) earliestDate = ed.date; if (latestDate == null || ed.date.after(latestDate)) latestDate = ed.date; List<String> entities = new ArrayList<>(); if (!personTest) { entities.addAll( Arrays.asList(archive.getAllNamesInDoc(doc, true)) .stream() .filter(n -> n.typeScore > CUTOFF) .map(n -> n.text) .collect(Collectors.toList())); } else { // do not consider mailing lists if (ed.sentToMailingLists != null && ed.sentToMailingLists.length > 0) continue; // discard doc if it is not a sent mail if ((ed.sentOrReceived(archive.addressBook) & EmailDocument.SENT_MASK) == 0) continue; List<Address> addrs = new ArrayList<>(); if (ed.to != null) for (Address addr : ed.to) addrs.add(addr); List<String> names = new ArrayList<>(); for (Address addr : addrs) { Contact c = archive.addressBook.lookupByAddress(addr); names.add(c.pickBestName()); } for (String name : names) { if (!ownerNames.contains(name) && !DictUtils.hasDictionaryWord(name)) { entities.add(name); } } } allEntities.addAll(entities); // get entities for (String e : entities) { if (Util.nullOrEmpty(e)) continue; e = e.replaceAll("^\\W+|\\W+$", ""); if (e.length() > 10 && e.toUpperCase().equals(e)) continue; // all upper case, more than 10 letters, you're out. String ce = DictUtils.canonicalize(e); // canonicalize if (ce == null) { JSPHelper.log.info("Dropping entity: " + e); continue; } ceToDisplayEntity.put(ce, e); entityToLastDate.put(ce, ed.date); entityToMessages.put(ce, ed); entityToThreads.put(ce, ed.threadID); } if ((++di) % 1000 == 0) log.info(di + " of " + docs.size() + " messages processed...<br/>"); } log.info( "Considered #" + allEntities.size() + " unique entities and #" + ceToDisplayEntity.size() + " good ones in #" + docs.size() + " docs<br>"); log.info("Owner Names: " + ownerNames); JSPHelper.log.info( "Considered #" + allEntities.size() + " unique entities and #" + ceToDisplayEntity.size() + " good ones in #" + docs.size() + "docs"); JSPHelper.log.info( "earliest date = " + edu.stanford.muse.email.CalendarUtil.formatDateForDisplay(earliestDate)); JSPHelper.log.info( "latest date = " + edu.stanford.muse.email.CalendarUtil.formatDateForDisplay(latestDate)); Multimap<String, String> tokenToCE = LinkedHashMultimap.create(); for (String ce : ceToDisplayEntity.keySet()) { List<String> tokens = Util.tokenize(ce); for (String t : tokens) tokenToCE.put(t, ce); } // Compute date intervals int DAYS_PER_INTERVAL = 30; List<Pair<Date, Date>> intervals = new ArrayList<Pair<Date, Date>>(); { JSPHelper.log.info("computing time intervals"); Date closingDate = latestDate; JSPHelper.log.info( "closing = " + edu.stanford.muse.email.CalendarUtil.formatDateForDisplay(closingDate)); while (earliestDate.before(closingDate)) { Calendar cal = new GregorianCalendar(); cal.setTime(closingDate); // this is the time of the last sighting of the term // scroll to the beginning of this month cal.set(Calendar.HOUR_OF_DAY, 23); cal.set(Calendar.MINUTE, 59); cal.set(Calendar.SECOND, 59); Date endDate = cal.getTime(); cal.add( Calendar.DATE, (1 - DAYS_PER_INTERVAL)); // 1- because we want from 0:00 of first date to 23:59 of // last date cal.set(Calendar.HOUR_OF_DAY, 0); cal.set(Calendar.MINUTE, 0); cal.set(Calendar.SECOND, 0); Date startDate = cal.getTime(); intervals.add(new Pair<Date, Date>(startDate, endDate)); // ok we got an interval // closing date for the next interval is 1 day before endDate cal.add(Calendar.DATE, -1); closingDate = cal.getTime(); } JSPHelper.log.info("done computing intervals, #time intervals: " + intervals.size()); for (Pair<Date, Date> p : intervals) JSPHelper.log.info( "Interval: " + edu.stanford.muse.email.CalendarUtil.formatDateForDisplay(p.getFirst()) + " - " + edu.stanford.muse.email.CalendarUtil.formatDateForDisplay(p.getSecond())); } // initialize clueInfos to empty lists List<ClueInfo> clueInfos[] = new ArrayList[intervals.size()]; for (int i = 0; i < intervals.size(); i++) { clueInfos[i] = new ArrayList<ClueInfo>(); } Map<Integer, Integer> intervalCount = new LinkedHashMap<>(); // nSent is the number of sentences allowed in a clue text int nvalidclues = 0, nSent = 2; // generate clueInfos for each entity for (String ce : entityToLastDate.keySet()) { Date lastSeenDate = entityToLastDate.get(ce); // compute displayEntity (which has red for core words) and fullAnswer, which is a simple // string String fullAnswer = ""; { List<String> tokens = Util.tokenize(ceToDisplayEntity.get(ce).iterator().next()); for (String t : tokens) { if (EnglishDictionary.stopWords.contains(t.toLowerCase())) continue; fullAnswer += t + " "; } fullAnswer = fullAnswer.trim(); } // dont want the answer to be scored low just because it has extra non-word chars in the begin // or end fullAnswer = fullAnswer.replaceAll("^\\W+|\\W+$", ""); // which interval does this date belong to? int interval = -1; Date intervalStart = null, intervalEnd = null; { int i = 0; for (Pair<Date, Date> p : intervals) { intervalStart = p.getFirst(); intervalEnd = p.getSecond(); if ((intervalStart.before(lastSeenDate) && intervalEnd.after(lastSeenDate)) || intervalStart.equals(lastSeenDate) || intervalEnd.equals(lastSeenDate)) { interval = i; break; } i++; } } if (interval < 0 || interval == intervals.size()) JSPHelper.log.info( "What, no interval!? for " + edu.stanford.muse.email.CalendarUtil.formatDateForDisplay(lastSeenDate)); if (!intervalCount.containsKey(interval)) intervalCount.put(interval, 0); if (intervalCount.get(interval) > maxInt) continue; intervalCount.put(interval, intervalCount.get(interval) + 1); List<Integer> lengthList = Crossword.convertToWord(fullAnswer).getSecond(); String lengthDescr = ""; if (lengthList.size() > 1) lengthDescr += Integer.toString(lengthList.size()) + " words: "; for (Integer i : lengthList) { lengthDescr += Util.pluralize(i, "letter") + ", "; } lengthDescr = lengthDescr.substring(0, lengthDescr.length() - 2); // subtract the extra comma. ClueInfo ci = new ClueInfo(); ci.link = "../browse?term=\"" + fullAnswer + "\"&sort_by=recent&searchType=original"; ci.lastSeenDate = lastSeenDate; ci.nMessages = entityToMessages.get(ce).size(); ci.nThreads = entityToThreads.get(ce).size(); // TODO: we are doing default initialisation of evaluators by setting it to null below, it is // more appropriate to consider it as an argument for this method Clue clue = cluer.createClue( fullAnswer, (personTest ? ArchiveCluer.QuestionType.GUESS_CORRESPONDENT : ArchiveCluer.QuestionType.FILL_IN_THE_BLANK), null, tabooCluesSet, null, intervalStart, intervalEnd, nSent, archive); if (clue != null) ci.clues = new Clue[] {clue}; if (ci.clues == null || ci.clues.length == 0 || clue == null) { JSPHelper.log.warn("Did not find any clue for: " + fullAnswer); } else { // is the times value of the clue important? questions.add(new MemoryQuestion(this, fullAnswer, clue, 1, lengthDescr)); nvalidclues++; // makes sure that the clue with the same statement is not generated again tabooCluesSet.add(clue.clue); } clueInfos[interval].add(ci); } log.info("Found valid clues for " + nvalidclues + " answers"); JSPHelper.log.info("Found valid clues for " + nvalidclues + " answers"); log.info("Top candidates are:"); for (MemoryQuestion mq : questions) log.info(mq.correctAnswer + " times=" + mq.stats.nMessagesWithAnswer); // sort q's by clue score Collections.sort(questions); // log.info("Based on clue score, top answers:"); // for (MemoryQuestion mq: questions) // log.info (mq.correctAnswer + " times= clue=" + mq.clue.clue); // now we have up to 2*N questions, sorted by cluescore. // drop ones that are prefix/suffix of another, and cap to N int prev_size = questions.size(); int new_size = questions.size(); // log.info ("#questions before prefix-suffix elim: " + prev_size + " after: " + new_size); int count = 0; for (MemoryQuestion mq : questions) { mq.setQuestionNum(count++); } // log the questions as well, just in case we don't get to the final point due to user fatigue // or crashes logStats("questions.final", false); }
/** * Create a new triangulation from the face-vertex incidence relations It takes linear space and * linear time. */ public TriangulationDS_2(X[] points, int[][] neighbors) { if (points == null || neighbors == null || points[0] == null) throw new Error("error: null vertices or null faces"); System.out.print("Creating triangulated 3D mesh... "); this.faces = new ArrayList<TriangulationDSFace_2<X>>(); this.vertices = new ArrayList<TriangulationDSVertex_2<X>>(); for (int i = 0; i < points.length; i++) { if (points[i] == null) throw new Error("null vertex error"); TriangulationDSVertex_2<X> v = new TriangulationDSVertex_2<X>(points[i]); this.vertices.add(v); } // first pair (the key) represents the edges of the triangulation // second pair (the associated value) represents the two neighboring faces (sharing an edge) HashMap<Pair<Integer>, Pair<Integer>> edges = new HashMap<Pair<Integer>, Pair<Integer>>(); for (int i = 0; i < neighbors.length; i++) { int i0 = neighbors[i][0], i1 = neighbors[i][1], i2 = neighbors[i][2]; createFace(this.vertices.get(i0), vertices.get(i1), vertices.get(i2), null, null, null); for (int j = 0; j < 3; j++) { int index1 = neighbors[i][(j + 1) % 3]; int index2 = neighbors[i][(j + 2) % 3]; Pair<Integer> edge; if (index1 <= index2) edge = new Pair<Integer>(index1, index2); else edge = new Pair<Integer>(index2, index1); if (edges.containsKey(edge) == false) { Pair<Integer> face; if (index1 <= index2) face = new Pair<Integer>(i, -1); else face = new Pair<Integer>(-1, i); edges.put(edge, face); } else { Pair<Integer> face = edges.get(edge); if (face.getFirst() == -1) face.setFirst(i); else face.setSecond(i); } } } // System.out.println("setting neighboring faces"); for (int i = 0; i < neighbors.length; i++) { TriangulationDSFace_2<X> currentFace = this.faces.get(i); for (int j = 0; j < 3; j++) { // setting vertex adjacent face TriangulationDSVertex_2<X> v = this.vertices.get(neighbors[i][j]); v.setFace(this.faces.get(i)); int index1 = neighbors[i][(j + 1) % 3]; int index2 = neighbors[i][(j + 2) % 3]; Pair<Integer> edge; if (index1 <= index2) edge = new Pair<Integer>(index1, index2); else edge = new Pair<Integer>(index2, index1); if (edges.containsKey(edge) == false) throw new Error("error: edge not found"); else { Pair<Integer> face = edges.get(edge); if (face.getFirst() == -1 && face.getSecond() == -1) throw new Error("error: wrong adjacent faces"); if (face.getFirst() == -1 || face.getSecond() == -1) ; // boundary edge else { int neighborFace; if (index1 <= index2) neighborFace = face.getSecond(); else neighborFace = face.getFirst(); if (neighborFace < 0 || neighborFace >= this.faces.size()) throw new Error("error neighbor face index"); currentFace.setNeighbor(j, this.faces.get(neighborFace)); } } } } System.out.println("done"); }
@Override public int compare(Pair<Integer, Double> o1, Pair<Integer, Double> o2) { if (o1.getSecond() > o2.getSecond()) return -1; else if (o1.getSecond() < o2.getSecond()) return 1; else return 0; }
/** writes out csv stats as an encrypted file in RESULTS_DIR/<userid>/filename */ public void logStats(String filename, boolean nullClues) { Indexer.IndexStats stats = archive.getIndexStats(); StringBuilder statsLog = new StringBuilder(); Pair<String, String> indexStats = Util.fieldsToCSV(stats, true); Pair<String, String> addressBookStats = Util.fieldsToCSV(archive.addressBook.getStats(), true); Pair<String, String> studyStats = Util.fieldsToCSV(stats, true); Pair<String, String> archiveStats = Util.fieldsToCSV(archive.stats, true); statsLog.append( "STUDYSTATS-1: " + studyStats.getFirst() + indexStats.getFirst() + addressBookStats.getFirst() + archiveStats.getFirst() + "\n"); statsLog.append( "STUDYSTATS-2: " + studyStats.getSecond() + indexStats.getSecond() + addressBookStats.getSecond() + archiveStats.getSecond() + "\n"); int idx = 1; for (MemoryQuestion mq : this.getQuestions()) { if (nullClues) mq.clue.clue = null; Pair<String, String> p = Util.fieldsToCSV(mq.clue.clueStats, true); Pair<String, String> p1 = Util.fieldsToCSV(mq.stats, true); if (idx == 1) statsLog.append( "QUESTIONSTATS-header: " + p.getFirst() + ',' + p1.getFirst() + "correct answer, user answer, user answer before hint, clue" + "\n"); // statsLog.append("QUESTIONSTATS-2: " + p.getSecond() + ',' + p1.getSecond() + // mq.correctAnswer + "," + mq.userAnswer + "," + mq.userAnswerBeforeHint + "," + // mq.clue.clue.replaceAll(",", " ") + "\n"); statsLog.append( "QUESTIONSTATS-2: " + p.getSecond() + ',' + p1.getSecond() + mq.correctAnswer + "," + mq.userAnswer + "," + mq.userAnswerBeforeHint + "\n"); idx = idx + 1; } String RESULTS_DIR = System.getProperty("user.home") + File.separator + "results" + File.separator + this.stats.userid; new File(RESULTS_DIR).mkdirs(); String file = RESULTS_DIR + File.separator + filename; try { CryptoUtils.writeEncryptedBytes(statsLog.toString().getBytes("UTF-8"), file); } catch (UnsupportedEncodingException e) { Util.print_exception(e, log); } catch (Exception e) { Util.print_exception("NOC ERROR: encryption failed!", e, log); } log.info(statsLog); }
private static void addPatchedInfos( @NotNull HighlightInfo info, @NotNull PsiFile injectedPsi, @NotNull DocumentWindow documentWindow, @NotNull InjectedLanguageManager injectedLanguageManager, @Nullable TextRange fixedTextRange, @NotNull Collection<HighlightInfo> out) { ProperTextRange textRange = new ProperTextRange(info.startOffset, info.endOffset); List<TextRange> editables = injectedLanguageManager.intersectWithAllEditableFragments(injectedPsi, textRange); for (TextRange editable : editables) { TextRange hostRange = fixedTextRange == null ? documentWindow.injectedToHost(editable) : fixedTextRange; boolean isAfterEndOfLine = info.isAfterEndOfLine(); if (isAfterEndOfLine) { // convert injected afterEndOfLine to either host' afterEndOfLine or not-afterEndOfLine // highlight of the injected fragment boundary int hostEndOffset = hostRange.getEndOffset(); int lineNumber = documentWindow.getDelegate().getLineNumber(hostEndOffset); int hostLineEndOffset = documentWindow.getDelegate().getLineEndOffset(lineNumber); if (hostEndOffset < hostLineEndOffset) { // convert to non-afterEndOfLine isAfterEndOfLine = false; hostRange = new ProperTextRange(hostRange.getStartOffset(), hostEndOffset + 1); } } HighlightInfo patched = new HighlightInfo( info.forcedTextAttributes, info.forcedTextAttributesKey, info.type, hostRange.getStartOffset(), hostRange.getEndOffset(), info.getDescription(), info.getToolTip(), info.type.getSeverity(null), isAfterEndOfLine, null, false, 0, info.getProblemGroup(), info.getGutterIconRenderer()); patched.setHint(info.hasHint()); if (info.quickFixActionRanges != null) { for (Pair<HighlightInfo.IntentionActionDescriptor, TextRange> pair : info.quickFixActionRanges) { TextRange quickfixTextRange = pair.getSecond(); List<TextRange> editableQF = injectedLanguageManager.intersectWithAllEditableFragments( injectedPsi, quickfixTextRange); for (TextRange editableRange : editableQF) { HighlightInfo.IntentionActionDescriptor descriptor = pair.getFirst(); if (patched.quickFixActionRanges == null) patched.quickFixActionRanges = new ArrayList<Pair<HighlightInfo.IntentionActionDescriptor, TextRange>>(); TextRange hostEditableRange = documentWindow.injectedToHost(editableRange); patched.quickFixActionRanges.add(Pair.create(descriptor, hostEditableRange)); } } } patched.setFromInjection(true); out.add(patched); } }
private void updateOutputItemsList( final String outputDir, final VirtualFile srcFile, VirtualFile sourceRoot, final String packagePrefix, final List<File> filesToRefresh, Map<String, Collection<TranslatingCompiler.OutputItem>> results, final GlobalSearchScope srcRootScope) throws CacheCorruptedException { CompositeDependencyCache dependencyCache = myCompileContext.getDependencyCache(); JavaDependencyCache child = dependencyCache.findChild(JavaDependencyCache.class); final Cache newCache = child.getNewClassesCache(); final Set<CompiledClass> paths = myFileNameToSourceMap.get(srcFile.getName()); if (paths == null || paths.isEmpty()) { return; } final String filePath = "/" + calcPackagePath(srcFile, sourceRoot, packagePrefix); for (final CompiledClass cc : paths) { myCompileContext.getProgressIndicator().checkCanceled(); if (LOG.isDebugEnabled()) { LOG.debug("Checking [pathToClass; relPathToSource] = " + cc); } boolean pathsEquals = FileUtil.pathsEqual(filePath, cc.relativePathToSource); if (!pathsEquals) { final String qName = child.resolve(cc.qName); if (qName != null) { pathsEquals = ApplicationManager.getApplication() .runReadAction( new Computable<Boolean>() { public Boolean compute() { final JavaPsiFacade facade = JavaPsiFacade.getInstance(myProject); PsiClass psiClass = facade.findClass(qName, srcRootScope); if (psiClass == null) { final int dollarIndex = qName.indexOf("$"); if (dollarIndex >= 0) { final String topLevelClassName = qName.substring(0, dollarIndex); psiClass = facade.findClass(topLevelClassName, srcRootScope); } } if (psiClass != null) { final VirtualFile vFile = psiClass.getContainingFile().getVirtualFile(); return vFile != null && vFile.equals(srcFile); } return false; } }); } } if (pathsEquals) { final String outputPath = cc.pathToClass.replace(File.separatorChar, '/'); final Pair<String, String> realLocation = moveToRealLocation(outputDir, outputPath, srcFile, filesToRefresh); if (realLocation != null) { Collection<TranslatingCompiler.OutputItem> outputs = results.get(realLocation.getFirst()); if (outputs == null) { outputs = new ArrayList<TranslatingCompiler.OutputItem>(); results.put(realLocation.getFirst(), outputs); } outputs.add(new OutputItemImpl(realLocation.getSecond(), srcFile)); if (PACKAGE_ANNOTATION_FILE_NAME.equals(srcFile.getName())) { myProcessedPackageInfos.add(srcFile); } if (CompilerManager.MAKE_ENABLED) { newCache.setPath(cc.qName, realLocation.getSecond()); } if (LOG.isDebugEnabled()) { LOG.debug( "Added output item: [outputDir; outputPath; sourceFile] = [" + realLocation.getFirst() + "; " + realLocation.getSecond() + "; " + srcFile.getPresentableUrl() + "]"); } } else { myCompileContext.addMessage( CompilerMessageCategory.ERROR, "Failed to copy from temporary location to output directory: " + outputPath + " (see idea.log for details)", null, -1, -1); if (LOG.isDebugEnabled()) { LOG.debug("Failed to move to real location: " + outputPath + "; from " + outputDir); } } } } }
/** Generates person names tests from the given archive. @throws IOException */ public void generatePersonNameQuestions( Archive archive, NERModel nerModel, Collection<EmailDocument> allDocs, Lexicon lex, int numClues) throws IOException, GeneralSecurityException, ClassNotFoundException, ReadContentsException, ParseException { this.archive = archive; questions = new ArrayList<>(); ArchiveCluer cluer = new ArchiveCluer(null, archive, nerModel, null, lex); tabooCluesSet = new LinkedHashSet<>(); archive.assignThreadIds(); List<ClueEvaluator> evaluators = getDefaultEvals(); List<Document> docs = archive.getAllDocs(); Multimap<Contact, EmailDocument> contactToMessages = LinkedHashMultimap.create(); Multimap<Contact, Long> contactToThreadIds = LinkedHashMultimap.create(); // sort by date Collections.sort(docs); Date earliestDate = null, latestDate = null; Map<Contact, Date> contactToLatestDate = new LinkedHashMap<>(); // compute earliest and latest date across all messages in corpus for (Document doc : docs) { EmailDocument ed = (EmailDocument) doc; if (earliestDate == null || ed.date.before(earliestDate)) earliestDate = ed.date; if (latestDate == null || ed.date.after(latestDate)) latestDate = ed.date; } JSPHelper.log.info( "===================\nStarting to generate person names memory questions from " + docs.size() + " messages with " + numClues + " questions" + ", earliest date = " + edu.stanford.muse.email.CalendarUtil.formatDateForDisplay(earliestDate) + " latest date = " + edu.stanford.muse.email.CalendarUtil.formatDateForDisplay(latestDate)); Set<Integer> tabooSentenceHashes = new LinkedHashSet<>(); // create hashes of all sentences seen at least twice (case insensitive, lower cased) { Set<Integer> hashesSeen = new LinkedHashSet<>(); for (Document d : docs) { String contents = archive.getContents(d, true); String cleanedContents = EmailUtils.cleanupEmailMessage(contents); SentenceTokenizer st = new SentenceTokenizer(cleanedContents); while (st.hasMoreSentences()) { String sentence = st.nextSentence(); sentence = canonicalizeSentence(sentence); int hashCode = sentence.hashCode(); if (hashesSeen.contains(hashCode)) { tabooSentenceHashes.add(hashCode); log.info("Marking sentence as taboo: " + sentence); } else hashesSeen.add(hashCode); } } } // compute contactToLatestDate that contact has been seen on for (Document doc : docs) { EmailDocument ed = (EmailDocument) doc; // discard doc if it is not a sent mail if ((ed.sentOrReceived(archive.addressBook) & EmailDocument.SENT_MASK) == 0) continue; for (Contact c : ed.getParticipatingContactsExceptOwn(archive.addressBook)) { Date currentLatestDate = contactToLatestDate.get(c); if (currentLatestDate == null || currentLatestDate.before(ed.date)) contactToLatestDate.put(c, ed.date); contactToMessages.put(c, ed); contactToThreadIds.put(c, ed.threadID); } } log.info("We are considering " + contactToLatestDate.size() + " contacts"); Date currentDate = new Date(); List<Pair<Date, Date>> intervals = computeDateIntervals(earliestDate, currentDate); // go back from current date // intervals[0] is the most recent. JSPHelper.log.info("done computing " + intervals.size() + " intervals"); for (Pair<Date, Date> p : intervals) JSPHelper.log.info( "Interval: " + edu.stanford.muse.email.CalendarUtil.formatDateForDisplay(p.getFirst()) + " - " + edu.stanford.muse.email.CalendarUtil.formatDateForDisplay(p.getSecond())); int cluesPerInterval = (numClues > 0 && intervals.size() > 0) ? (numClues + intervals.size() - 1) / intervals.size() : 0; JSPHelper.log.info( "Will try to generate " + Util.pluralize(cluesPerInterval, "questions") + " per interval"); Multimap<Integer, Contact> intervalToContacts = LinkedHashMultimap.create(); // nSent is the number of sentences allowed in a clue text int nSent = 2; for (Contact c : contactToLatestDate.keySet()) { Date lastSeenDate = contactToLatestDate.get(c); // which interval does this date belong to? we'll assign this contact in that interval in the // intervalToContacts map int interval = -1; Date intervalStart = null, intervalEnd = null; { int i = 0; for (Pair<Date, Date> p : intervals) { intervalStart = p.getFirst(); intervalEnd = p.getSecond(); if ((intervalStart.before(lastSeenDate) && intervalEnd.after(lastSeenDate)) || intervalStart.equals(lastSeenDate) || intervalEnd.equals(lastSeenDate)) { interval = i; break; } i++; } } if (interval < 0 || interval == intervals.size()) { JSPHelper.log.info( "What, no interval!? for " + edu.stanford.muse.email.CalendarUtil.formatDateForDisplay(lastSeenDate)); continue; } intervalToContacts.put(interval, c); } log.info("Interval information (interval 0 is the most recent):"); for (int interval = 0; interval < intervals.size(); interval++) { Collection<Contact> contacts = intervalToContacts.get(interval); int nContactsForThisInterval = (contacts == null) ? 0 : contacts.size(); log.info( "In interval " + interval + " there are " + Util.pluralize(nContactsForThisInterval, "candidate contact") + " who were last seen in this interval"); } for (int interval = 0; interval < intervals.size(); interval++) { Date intervalStart = intervals.get(interval).getFirst(); Date intervalEnd = intervals.get(interval).getSecond(); Collection<Contact> candidateContactsForThisInterval = intervalToContacts.get(interval); if (candidateContactsForThisInterval == null) { log.info("Skipping interval " + interval + " because there are no contacts"); continue; } Map<Clue, Contact> clueToContact = new LinkedHashMap<>(); log.info("=======\nGenerating questions for interval " + interval); outer: for (Contact c : candidateContactsForThisInterval) { String name = c.pickBestName(); if (name.length() < 2) // could also check if alphanumberic only continue outer; // ignore contact if name does not contain all alphabets. Even a period is not allowed. only // space is allowed. for (char ch : name.toCharArray()) { if (!Character.isAlphabetic(ch) && !Character.isSpaceChar(ch)) continue outer; } Clue clue = cluer.createPersonNameClue( c, evaluators, nerModel, intervalStart, intervalEnd, nSent, archive, tabooSentenceHashes); if (clue != null) clueToContact.put(clue, c); } List<Clue> clueList = new ArrayList(clueToContact.keySet()); Collections.sort(clueList); List<Clue> selectedClues = new ArrayList<>(); for (int i = 0; i < cluesPerInterval && i < clueList.size(); i++) { selectedClues.add(clueList.get(i)); } log.info( "For interval " + interval + " selected " + selectedClues.size() + " contacts out of " + clueList.size() + " possible candidates."); // for (Clue c: clueList) // log.info ("Clue candidate for " + clueToContact.get(c).pickBestName() + " // score = " + c.clueStats.finalScore+ " clue is " + c ); // for (Clue c: selectedClues) // log.info ("Selected clue: " + clueToContact.get(c).pickBestName() + " score = " // + c.clueStats.finalScore+ " clue is " + c); for (Clue selectedClue : selectedClues) { Contact c = clueToContact.get(selectedClue); String name = c.pickBestName(); List<Integer> lengthList = Crossword.convertToWord(name).getSecond(); String lengthDescr = ""; if (lengthList.size() > 1) lengthDescr += Integer.toString(lengthList.size()) + " words: "; for (Integer i : lengthList) { lengthDescr += Util.pluralize(i, "letter") + ", "; } lengthDescr = lengthDescr.substring(0, lengthDescr.length() - 2); // subtract the extra comma. ClueInfo ci = new ClueInfo(); ci.lastSeenDate = contactToLatestDate.get(c); ci.nMessages = contactToThreadIds.get(c).size(); ci.nThreads = contactToThreadIds.get(c).size(); questions.add(new MemoryQuestion(this, name, selectedClue, 1, lengthDescr)); } } log.info(questions.size() + " questions generated"); log.info("Top candidates are:"); // sort q's by clue score Collections.sort(questions); // log.info("Based on clue score, top answers:"); // for (MemoryQuestion mq: questions) // log.info (mq.correctAnswer + " times= clue=" + mq.clue.clue); int count = 0; for (MemoryQuestion mq : questions) { mq.setQuestionNum(count++); } // log the questions as well, just in case we don't get to the final point due to user fatigue // or crashes logStats("questions.final", false); }
// copied from DebuggerTree private void buildVariablesThreadAction( DebuggerContextImpl debuggerContext, XValueChildrenList children, XCompositeNode node) { try { final EvaluationContextImpl evaluationContext = debuggerContext.createEvaluationContext(); if (evaluationContext == null) { return; } if (!debuggerContext.isEvaluationPossible()) { node.setErrorMessage(MessageDescriptor.EVALUATION_NOT_POSSIBLE.getLabel()); // myChildren.add(myNodeManager.createNode(MessageDescriptor.EVALUATION_NOT_POSSIBLE, // evaluationContext)); } final Location location = myDescriptor.getLocation(); final ObjectReference thisObjectReference = myDescriptor.getThisObject(); if (thisObjectReference != null) { ValueDescriptorImpl thisDescriptor = myNodeManager.getThisDescriptor(null, thisObjectReference); children.add(JavaValue.create(thisDescriptor, evaluationContext, myNodeManager)); } else if (location != null) { StaticDescriptorImpl staticDecriptor = myNodeManager.getStaticDescriptor(myDescriptor, location.declaringType()); if (staticDecriptor.isExpandable()) { children.addTopGroup( new JavaStaticGroup(staticDecriptor, evaluationContext, myNodeManager)); } } DebugProcessImpl debugProcess = debuggerContext.getDebugProcess(); if (debugProcess == null) { return; } // add last method return value if any final Pair<Method, Value> methodValuePair = debugProcess.getLastExecutedMethod(); if (methodValuePair != null) { ValueDescriptorImpl returnValueDescriptor = myNodeManager.getMethodReturnValueDescriptor( myDescriptor, methodValuePair.getFirst(), methodValuePair.getSecond()); children.add(JavaValue.create(returnValueDescriptor, evaluationContext, myNodeManager)); } // add context exceptions for (Pair<Breakpoint, Event> pair : DebuggerUtilsEx.getEventDescriptors(debuggerContext.getSuspendContext())) { final Event debugEvent = pair.getSecond(); if (debugEvent instanceof ExceptionEvent) { final ObjectReference exception = ((ExceptionEvent) debugEvent).exception(); if (exception != null) { final ValueDescriptorImpl exceptionDescriptor = myNodeManager.getThrownExceptionObjectDescriptor(myDescriptor, exception); children.add(JavaValue.create(exceptionDescriptor, evaluationContext, myNodeManager)); } } } try { buildVariables( debuggerContext, evaluationContext, debugProcess, children, thisObjectReference, location); // if (classRenderer.SORT_ASCENDING) { // Collections.sort(myChildren, NodeManagerImpl.getNodeComparator()); // } } catch (EvaluateException e) { node.setErrorMessage(e.getMessage()); // myChildren.add(myNodeManager.createMessageNode(new MessageDescriptor(e.getMessage()))); } } catch (InvalidStackFrameException e) { LOG.info(e); // myChildren.clear(); // notifyCancelled(); } catch (InternalException e) { if (e.errorCode() == 35) { node.setErrorMessage(DebuggerBundle.message("error.corrupt.debug.info", e.getMessage())); // myChildren.add( // myNodeManager.createMessageNode(new // MessageDescriptor(DebuggerBundle.message("error.corrupt.debug.info", e.getMessage())))); } else { throw e; } } }