Foam::Map<Foam::label> Foam::refinementIterator::setRefinement ( const List<refineCell>& refCells ) { Map<label> addedCells(2*refCells.size()); Time& runTime = const_cast<Time&>(mesh_.time()); label nRefCells = refCells.size(); label oldRefCells = -1; // Operate on copy. List<refineCell> currentRefCells(refCells); bool stop = false; do { if (writeMesh_) { // Need different times to write meshes. runTime++; } polyTopoChange meshMod(mesh_); if (debug) { Pout<< "refinementIterator : refining " << currentRefCells.size() << " cells." << endl; } // Determine cut pattern. cellCuts cuts(mesh_, cellWalker_, currentRefCells); label nCuts = cuts.nLoops(); reduce(nCuts, sumOp<label>()); if (nCuts == 0) { if (debug) { Pout<< "refinementIterator : exiting iteration since no valid" << " loops found for " << currentRefCells.size() << " cells" << endl; fileName cutsFile("failedCuts_" + runTime.timeName() + ".obj"); Pout<< "Writing cuts for time " << runTime.timeName() << " to " << cutsFile << endl; OFstream cutsStream(cutsFile); labelList refCells(currentRefCells.size()); forAll(currentRefCells, i) { refCells[i] = currentRefCells[i].cellNo(); } meshTools::writeOBJ ( cutsStream, mesh().cells(), mesh().faces(), mesh().points(), refCells ); } break; } if (debug) { fileName cutsFile("cuts_" + runTime.timeName() + ".obj"); Pout<< "Writing cuts for time " << runTime.timeName() << " to " << cutsFile << endl; OFstream cutsStream(cutsFile); cuts.writeOBJ(cutsStream); } // Insert mesh refinement into polyTopoChange. meshRefiner_.setRefinement(cuts, meshMod); // // Do all changes // autoPtr<mapPolyMesh> morphMap = meshMod.changeMesh ( mesh_, false ); // Move mesh (since morphing does not do this) if (morphMap().hasMotionPoints()) { mesh_.movePoints(morphMap().preMotionPoints()); } // Update stored refinement pattern meshRefiner_.updateMesh(morphMap()); // Write resulting mesh if (writeMesh_) { if (debug) { Pout<< "Writing refined polyMesh to time " << runTime.timeName() << endl; } mesh_.write(); } // Update currentRefCells for new cell numbers. Use helper function // in meshCutter class. updateLabels ( morphMap->reverseCellMap(), currentRefCells ); // Update addedCells for new cell numbers updateLabels ( morphMap->reverseCellMap(), addedCells ); // Get all added cells from cellCutter (already in new numbering // from meshRefiner.updateMesh call) and add to global list of added const Map<label>& addedNow = meshRefiner_.addedCells(); for ( Map<label>::const_iterator iter = addedNow.begin(); iter != addedNow.end(); ++iter ) { if (!addedCells.insert(iter.key(), iter())) { FatalErrorIn("refinementIterator") << "Master cell " << iter.key() << " already has been refined" << endl << "Added cell:" << iter() << abort(FatalError); } } // Get failed refinement in new cell numbering and reconstruct input // to the meshRefiner. Is done by removing all refined cells from // current list of cells to refine. // Update refCells for new cell numbers. updateLabels ( morphMap->reverseCellMap(), currentRefCells ); // Pack refCells acc. to refined status nRefCells = 0; forAll(currentRefCells, refI) { const refineCell& refCell = currentRefCells[refI]; if (!addedNow.found(refCell.cellNo())) { if (nRefCells != refI) { currentRefCells[nRefCells++] = refineCell ( refCell.cellNo(), refCell.direction() ); } } } oldRefCells = currentRefCells.size(); currentRefCells.setSize(nRefCells); if (debug) { Pout<< endl; } // Stop only if all finished or all can't refine any further. stop = (nRefCells == 0) || (nRefCells == oldRefCells); reduce(stop, andOp<bool>()); } while (!stop); if (nRefCells == oldRefCells) { WarningIn("refinementIterator") << "stopped refining." << "Did not manage to refine a single cell" << endl << "Wanted :" << oldRefCells << endl; } return addedCells; }
Client::Client(QWidget *parent) : QDialog(parent), networkSession(0) { // find out which IP to connect to QList<QHostAddress> ipAddressesList = QNetworkInterface::allAddresses(); // use the first non-localhost IPv4 address for (int i = 0; i < ipAddressesList.size(); ++i) { if (ipAddressesList.at(i) != QHostAddress::LocalHost && ipAddressesList.at(i).toIPv4Address()) { ipAddress = ipAddressesList.at(i).toString(); break; } } // if we did not find one, use IPv4 localhost if (ipAddress.isEmpty()) ipAddress = QHostAddress(QHostAddress::LocalHost).toString(); userLabel = new QLabel("Username: "******"Password: "******"Register"); loginButton = new QPushButton("Login"); cancelButton = new QPushButton("Cancel"); buttonBox = new QDialogButtonBox(); buttonBox->addButton(registerButton, QDialogButtonBox::ActionRole); buttonBox->addButton(loginButton, QDialogButtonBox::ActionRole); buttonBox->addButton(cancelButton, QDialogButtonBox::RejectRole); mainLayout = new QGridLayout; mainLayout->addWidget(userLabel, 0, 0, 1, 2); mainLayout->addWidget(userLineEdit, 1, 0, 1, 5); mainLayout->addWidget(passLabel, 2, 0, 1, 2); mainLayout->addWidget(passLineEdit, 3, 0, 1, 5); mainLayout->addWidget(statusLabel, 4, 0, 3, 4); mainLayout->addWidget(buttonBox, 7, 1, 1, 2); setLayout(mainLayout); tcpSocket = new QTcpSocket(this); connect(registerButton, SIGNAL(clicked()), this, SLOT(registerWithServer())); connect(cancelButton, SIGNAL(clicked()), this, SLOT(close())); connect(loginButton, SIGNAL(clicked()), this, SLOT(requestNewConnection())); connect(tcpSocket, SIGNAL(connected()), this, SLOT(sendLoginInfo())); connect(tcpSocket, SIGNAL(readyRead()), this, SLOT(updateLabels())); //connect(tcpSocket, SIGNAL(disconnected()), this, SLOT(connectionClosedByServer())); QNetworkConfigurationManager manager; if (manager.capabilities() & QNetworkConfigurationManager::NetworkSessionRequired) { // Get saved network configuration QSettings settings(QSettings::UserScope, QLatin1String("Trolltech")); settings.beginGroup(QLatin1String("QtNetwork")); const QString id = settings.value(QLatin1String("DefaultNetworkConfiguration")).toString(); settings.endGroup(); // If the saved network configuration is not currently discovered use the system default QNetworkConfiguration config = manager.configurationFromIdentifier(id); if ((config.state() & QNetworkConfiguration::Discovered) != QNetworkConfiguration::Discovered) { config = manager.defaultConfiguration(); } networkSession = new QNetworkSession(config, this); connect(networkSession, SIGNAL(opened()), this, SLOT(sessionOpened())); statusLabel->setText(tr("Opening network session.")); networkSession->open(); } }
void ThreeDMolDialog::moleculeDestroyed() { m_molecule = nullptr; updateLabels(); }
void MainWindow::changedSlot() { changed = true; saveSlot(); updateLabels(); }
bool CGroupChar::updateFromXML(QDomNode node) { bool updated; updated = false; if (node.nodeName() != "playerData") { qDebug( "Called updateFromXML with wrong node. The name does not fit."); return false; } QString s; QByteArray str; int newval; QDomElement e = node.toElement(); unsigned int newpos = e.attribute("room").toInt(); if (newpos != pos) { updated = true; pos = newpos; } str = e.attribute("name").toLatin1(); if (str != name) { updated = true; name = str; } str = e.attribute("lastMovement").toLatin1(); if (str != lastMovement) { updated = true; lastMovement = str; } str = e.attribute("color").toLatin1(); if (str != color.name().toLatin1()) { updated = true; color = QColor(QString(str) ); } // printf(" 6.\r\n"); str = e.attribute("textHP").toLatin1(); if (s != textHP) { updated = true; textHP = str; } str = e.attribute("textMana").toLatin1(); if (s != textMana) { updated = true; textMana = str; } str = e.attribute("textMoves").toLatin1(); if (s != textMoves) { updated = true; textMoves = str; } newval = e.attribute("hp").toInt(); if (newval != hp) { updated = true; hp = newval; } newval = e.attribute("maxhp").toInt(); if (newval != maxhp) { updated = true; maxhp = newval; } newval = e.attribute("mana").toInt(); if (newval != mana) { updated = true; mana = newval; } newval = e.attribute("maxmana").toInt(); if (newval != maxmana) { updated = true; maxmana = newval; } newval = e.attribute("moves").toInt(); if (newval != moves) { updated = true; moves = newval; } newval = e.attribute("maxmoves").toInt(); if (newval != maxmoves) { updated = true; maxmoves = newval; } newval = e.attribute("state").toInt(); if (newval != state) { updated = true; state = newval; } // printf("Tut 6.\r\n"); if (updated == true) updateLabels(); // printf("Tut 7.\r\n"); return updated; // hrmpf! }
void TradeWindow::onMaxSaleButtonClicked(MyGUI::Widget* _sender) { mCurrentBalance = getMerchantGold(); updateLabels(); }
void TradeWindow::onDecreaseButtonTriggered() { if (mCurrentBalance < 0) mCurrentBalance += 1; else mCurrentBalance -= 1; updateLabels(); }
void EnchantingDialog::onTypeButtonClicked(MyGUI::Widget* sender) { mEnchanting.nextCastStyle(); updateLabels(); }
void EnchantingDialog::notifyEffectsChanged () { mEffectList.mList = mEffects; mEnchanting.setEffect(mEffectList); updateLabels(); }
void TradeWindow::onIncreaseButtonTriggered() { if(mCurrentBalance<=-1) mCurrentBalance -= 1; if(mCurrentBalance>=1) mCurrentBalance += 1; updateLabels(); }
void MosaicTrackTool::mouseMove(QPointF p) { updateLabels(p); }
MainWindow::MainWindow(QWidget *parent) : QMainWindow(parent), ui(new Ui::MainWindow) { ui->setupUi(this); // Create an instance of a ScoreKeeper that will keep track of correct/incorrect answers and provide statistics on them score_keeper = new ScoreKeeper(this); // Upon retrieving the two sound file URLs, send a request to Playback to open them and assign them to the Players connect(this, SIGNAL(loadSoundsRequest(QUrl,QUrl)), ui->playbackWidget, SLOT(loadSounds(QUrl,QUrl))); // When a guess is made by the user, send whether it was correct or incorrect to ScoreKeeper connect(this, SIGNAL(guessMade(ScoreKeeper::Guesses)), score_keeper, SLOT(guessMade(ScoreKeeper::Guesses))); // When the user makes a guess, Playback starts a new trial connect(this, SIGNAL(startNewTrialRequest()), ui->playbackWidget, SLOT(startNewTrial())); // When ScoreKeeper has updated its scores, it notifies this window to update their display connect(score_keeper, SIGNAL(scoreUpdated(ScoreKeeper::Score,ScoreKeeper::Score)), this, SLOT(updateLabels(ScoreKeeper::Score,ScoreKeeper::Score))); }