void Slice::fillTriLayer(QHash<QString, Face*> faces){
QHash<QString, Face*>::iterator i;
double zMax=0;
for(i = faces.begin(); i != faces.end(); ++i){
if(zMax<i.value()->getMaxZ()->z())
zMax=i.value()->getMaxZ()->z();
}
int layersNum=(int)ceil(zMax/layerHeight);
qDebug() << "Max z: "<< zMax << "Number of layers: "<<layersNum;
//create list
for(int j=0; j<layersNum+1; j++){
this->triLayer.append(new QList<Face*>);
this->edgeLayer.append(new QList< QList<HalfEdge*> *>);
this->pointLayer.append(new QList< QList<QVector3D> *>);
}
double tempZ;
for(i = faces.begin(); i != faces.end(); ++i){
tempZ=(int)((i.value()->getMinZ()->z()/layerHeight)+1)*layerHeight;
while(tempZ<=i.value()->getMaxZ()->z()){
this->triLayer.at((int)ceil(tempZ/layerHeight))->append(i.value());
tempZ+=this->layerHeight;
}
}
fillEdgeLayer();
fillPointLayer();
fillPolygonLayer();
}
void commit() {
// update all documents
// remove previous instances
if ( indexPresent() ) {
for ( QHash<Node, lucene::document::Document*>::iterator it = documentCache.begin();
it != documentCache.end(); ++it ) {
lucene::document::Document* doc = it.value();
if ( const TCHAR* id = doc->get( idFieldName().data() ) ) { // this check is only for testing, it should NEVER fail
lucene::index::Term* idTerm = _CLNEW lucene::index::Term( idFieldName().data(), id );
getIndexReader()->deleteDocuments( idTerm );
_CLDECDELETE( idTerm );
}
}
}
// add the updated ones
for ( QHash<Node, lucene::document::Document*>::iterator it = documentCache.begin();
it != documentCache.end(); ++it ) {
lucene::document::Document* doc = it.value();
// never add empty docs
if ( !docEmpty( doc ) ) {
getIndexWriter()->addDocument( doc );
}
_CLDELETE( doc );
}
documentCache.clear();
}
static void fill(Counter &counter, const typename Counter::Container &container, bool fragmented)
{
qint64 allocated = 0;
QHash<void *, int> allocations;
for (int i = 0; i < 100; ++i) {
for (int j = 0; j < 100; ++j) {
int amount = fragmented ? j : i;
allocated += amount;
counter.request(amount);
void *alloc = malloc(amount);
allocations.insertMulti(alloc, amount);
counter.obtain(reinterpret_cast<quintptr>(alloc));
QCOMPARE(counter.currentTotal(), allocated);
}
}
QCOMPARE(allocated, 99 * 50 * 100);
QCOMPARE(counter.currentTotal(), allocated);
QCOMPARE(sum(container), allocated);
for (auto it = allocations.begin(), end = allocations.end(); it != end; ++it) {
free(it.key());
counter.release(reinterpret_cast<quintptr>(it.key()));
allocated -= it.value();
QCOMPARE(counter.currentTotal(), allocated);
}
allocations.clear();
QCOMPARE(allocated, 0);
QCOMPARE(counter.currentTotal(), 0);
QCOMPARE(sum(container), 0);
}
void Locator::buildDocTermMat(const QHash<SymbolPath, SymbolData>& symbolWordList,
SparseMatrix& docTermMat,
Eigen::VectorXd& radiusVec)
{
int nSymbols = symbolWordList.size();
int nWords = SymbolWordAttr::totalWords();
QVector<float> wordCountPerDoc(nSymbols,0.f); // total number of words for each doc
QVector<float> docCountPerWord(nWords ,0.f); // total number of doc for each word
docTermMat = SparseMatrix(nSymbols, nWords);
radiusVec.resize(nSymbols);
QHash<SymbolPath, SymbolData>::ConstIterator pSymbol;
int ithSymbol = 0;
for (pSymbol = symbolWordList.begin();
pSymbol != symbolWordList.end(); ++pSymbol, ++ithSymbol)
{
const SymbolData& item = pSymbol.value();
wordCountPerDoc[ithSymbol] = item.getTotalWordCount();
QMap<int,float>::ConstIterator pWord;
for (pWord = item.m_wordWeightMap.begin();
pWord != item.m_wordWeightMap.end(); ++pWord)
{
int wordId = pWord.key();
float wordCount = pWord.value();
docCountPerWord[wordId] += 1;
docTermMat.insert(ithSymbol, wordId) = wordCount;
}
radiusVec(ithSymbol) = item.getRadius();
}
docTermMat.makeCompressed();
}
void TwitchApi::putRequest( const QString &urlString, QHash<QString, QString> urlParams)
{
QUrl url ( urlString );
QUrlQuery query(url);
for (QHash<QString, QString>::iterator iter = urlParams.begin(); iter != urlParams.end(); ++iter) {
query.addQueryItem(iter.key(),iter.value());
}
url.setQuery(query);
QNetworkRequest req ( url );
req.setRawHeader("Accept", "application/vnd.twitchtv.v3+json");
req.setRawHeader("Authorization", "OAuth "+this->oAuthAccessToken.toLatin1());
req.setHeader(QNetworkRequest::ContentTypeHeader, "application/x-www-form-urlencoded" );
m_nam.put( req, url.toEncoded() );
}
void VDirectoryTree::updateItemDirectChildren(QTreeWidgetItem *p_item)
{
QPointer<VDirectory> parentDir;
if (p_item) {
parentDir = getVDirectory(p_item);
} else {
parentDir = m_notebook->getRootDir();
}
const QVector<VDirectory *> &dirs = parentDir->getSubDirs();
QHash<VDirectory *, QTreeWidgetItem *> itemDirMap;
int nrChild = p_item ? p_item->childCount() : topLevelItemCount();
for (int i = 0; i < nrChild; ++i) {
QTreeWidgetItem *item = p_item ? p_item->child(i) : topLevelItem(i);
itemDirMap.insert(getVDirectory(item), item);
}
for (int i = 0; i < dirs.size(); ++i) {
VDirectory *dir = dirs[i];
QTreeWidgetItem *item = itemDirMap.value(dir, NULL);
if (item) {
if (p_item) {
p_item->removeChild(item);
p_item->insertChild(i, item);
} else {
int topIdx = indexOfTopLevelItem(item);
takeTopLevelItem(topIdx);
insertTopLevelItem(i, item);
}
itemDirMap.remove(dir);
} else {
// Insert a new item
if (p_item) {
item = new QTreeWidgetItem(p_item);
} else {
item = new QTreeWidgetItem(this);
}
fillTreeItem(item, dir);
buildSubTree(item, 1);
}
expandSubTree(item);
}
// Delete items without corresponding VDirectory
for (auto iter = itemDirMap.begin(); iter != itemDirMap.end(); ++iter) {
QTreeWidgetItem *item = iter.value();
if (p_item) {
p_item->removeChild(item);
} else {
int topIdx = indexOfTopLevelItem(item);
takeTopLevelItem(topIdx);
}
delete item;
}
}
void ExtendedDialog::saveConfig()
{
assert( currentTab() == AUDIO_TAB || currentTab() == VIDEO_TAB );
QHash<QString, QVariant> *hashConfig = &m_hashConfigs[currentTab()];
for( QHash<QString, QVariant>::iterator i = hashConfig->begin();
i != hashConfig->end(); ++i )
{
QVariant &value = i.value();
switch( static_cast<QMetaType::Type>(value.type()) )
{
case QMetaType::QString:
config_PutPsz( p_intf, qtu(i.key()), qtu(value.toString()) );
break;
case QMetaType::Int:
config_PutInt( p_intf, qtu(i.key()), value.toInt() ) ;
break;
case QMetaType::Double:
case QMetaType::Float:
config_PutFloat( p_intf, qtu(i.key()), value.toFloat() ) ;
break;
default:
vlc_assert_unreachable();
}
}
config_SaveConfigFile( p_intf );
hashConfig->clear();
m_applyButton->setEnabled( false );
}
SmartPointer<IElementReference> CommandService::RegisterElementForCommand(
const SmartPointer<ParameterizedCommand>& command,
const SmartPointer<UIElement>& element)
{
if (!command->GetCommand()->IsDefined())
{
throw NotDefinedException(
"Cannot define a callback for undefined command "
+ command->GetCommand()->GetId());
}
if (element.IsNull())
{
throw NotDefinedException("No callback defined for command "
+ command->GetCommand()->GetId());
}
QHash<QString, QString> paramMap = command->GetParameterMap();
QHash<QString, Object::Pointer> parms;
for (QHash<QString, QString>::const_iterator i = paramMap.begin();
i != paramMap.end(); ++i)
{
Object::Pointer value(new ObjectString(i.value()));
parms.insert(i.key(), value);
}
IElementReference::Pointer ref(new ElementReference(command->GetId(),
element, parms));
RegisterElement(ref);
return ref;
}
inline void serialize_vc6(Archive &ar, QHash<K,T> &t, const unsigned int)
{
typedef typename QHash<K,T>::iterator Iterator;
typedef typename QHash<K,T>::key_type Key;
typedef typename QHash<K,T>::mapped_type Value;
if (ar.isRead())
{
t.clear();
boost::uint32_t count = 0;
ar & count;
for (boost::uint32_t i=0; i<count; i++)
{
Key key;
ar & key;
Value value;
ar & value;
t.insert(key, value);
}
}
else if (ar.isWrite())
{
boost::uint32_t count = static_cast<boost::uint32_t>(t.size());
ar & count;
Iterator it = t.begin();
for (boost::uint32_t i=0; i<count; i++)
{
ar & it.key();
ar & it.value();
it++;
}
}
}
//------------------------------------------------------------------------------
// Name: showEvent
// Desc:
//------------------------------------------------------------------------------
void DialogPlugins::showEvent(QShowEvent *) {
QHash<QString, QObject *> plugins = edb::v1::plugin_list();
plugin_model_->clear();
for(auto it = plugins.begin(); it != plugins.end(); ++it) {
const QString filename = it.key();
QString plugin_name;
QString author;
QString url;
// get a QObject from the plugin
if(QObject *const p = it.value()) {
const QMetaObject *const meta = p->metaObject();
plugin_name = meta->className();
const int author_index = meta->indexOfClassInfo("author");
if(author_index != -1) {
author = meta->classInfo(author_index).value();
}
const int url_index = meta->indexOfClassInfo("url");
if(url_index != -1) {
url = meta->classInfo(url_index).value();
}
}
plugin_model_->addPlugin(filename, plugin_name, author, url);
}
ui->plugins_table->resizeColumnsToContents();
}
foreach(currentLayer, layers)
{
QJsonObject layerObject;
layerObject["properties"] = ResourcePropertiesToJSON(currentLayer);
QHash<TileCoord, Tile> tiles = currentLayer->GetAllTiles();
QHash<TileCoord, Tile>::iterator i = tiles.begin();
QJsonArray tileArray;
while(i != tiles.end())
{
QJsonObject tileObject;
tileObject["oX"] = i.value().origin.first;
tileObject["oY"] = i.value().origin.second;
tileObject["x"] = i.value().pos.first;
tileObject["y"] = i.value().pos.second;
tileArray.append(tileObject);
++i;
}
layerObject["tiles"] = tileArray;
layerArray.append(layerObject);
}
void VConfigManager::readShortcutsFromSettings()
{
const QString group("shortcuts");
m_shortcuts.clear();
m_shortcuts = readShortcutsFromSettings(defaultSettings, group);
// Update default settings according to user settings.
QHash<QString, QString> userShortcuts = readShortcutsFromSettings(userSettings,
group);
QSet<QString> matched;
matched.reserve(m_shortcuts.size());
for (auto it = userShortcuts.begin(); it != userShortcuts.end(); ++it) {
auto defaultIt = m_shortcuts.find(it.key());
if (defaultIt != m_shortcuts.end()) {
QString sequence = it.value().trimmed();
if (sequence != defaultIt.value()) {
if (isValidKeySequence(sequence)) {
matched.insert(it.key());
*defaultIt = sequence;
}
} else {
matched.insert(it.key());
}
}
}
if (matched.size() < m_shortcuts.size()) {
qDebug() << "override user shortcuts settings using default settings";
writeShortcutsToSettings(userSettings, group, m_shortcuts);
}
}
bool LocalTextRecordingEditor::save(const Media::Recording* recording)
{
Q_UNUSED(recording)
QHash<QByteArray,QByteArray> ret = static_cast<const Media::TextRecording*>(recording)->d_ptr->toJsons();
QDir dir(QStandardPaths::writableLocation(QStandardPaths::DataLocation));
//Make sure the directory exist
dir.mkdir("text/");
//Save each file
for (QHash<QByteArray,QByteArray>::const_iterator i = ret.begin(); i != ret.end(); ++i) {
QFile file(QString("%1/text/%2.json").arg(dir.path()).arg(QString(i.key())));
if ( file.open(QIODevice::WriteOnly | QIODevice::Text) ) {
QTextStream streamFileOut(&file);
streamFileOut.setCodec("UTF-8");
streamFileOut << i.value();
streamFileOut.flush();
file.close();
}
}
return true;
}
int main ()
{
QHash<int, int> myQHash;
QHash<int, int> :: iterator it;
myQHash[1] = 500;
myQHash[2] = 300;
myQHash[3] = 100;
it = myQHash.begin();
it = myQHash.find(1);
if (it.value() == 500) {
it = myQHash.erase(it);
}
it = myQHash.find(2);
if (it.value() == 300) {
it = myQHash.erase(it);
}
assert(!(myQHash.empty()));
return 0;
}
void TimeZoneWidget::mousePressEvent(QMouseEvent *event) {
if (event->button() != Qt::LeftButton)
return;
// Set nearest location
int nX = 999999, mX = event->pos().x();
int nY = 999999, mY = event->pos().y();
QHash<QString, QList<Global::Location> > hash = Global::getLocations();
QHash<QString, QList<Global::Location> >::iterator iter = hash.begin();
while (iter != hash.end()) {
QList<Global::Location> locations = iter.value();
for (int i = 0; i < locations.size(); ++i) {
Global::Location loc = locations[i];
QPoint locPos = getLocationPosition(loc.longitude, loc.latitude);
if ((abs(mX - locPos.x()) + abs(mY - locPos.y()) < abs(mX - nX) + abs(mY - nY))) {
currentLocation = loc;
nX = locPos.x();
nY = locPos.y();
}
}
++iter;
}
// Set zone image and repaint widget
setCurrentLocation(currentLocation);
// Emit signal
emit locationChanged(currentLocation);
}
void BookInfo::setCachesFromInfo(QHash<QString, BookLocation*> locations)
{
qDebug() << Q_FUNC_INFO;
QHash<QString, BookLocation*>::iterator it = m_locations.begin();
QHash<QString, BookLocation*>::iterator itEnd = m_locations.end();
while( it != itEnd )
{
if(locationsPosCache.contains(it.value()->bookmark) && it.value()->pos > 0)
locationsPosCache.insert(it.value()->bookmark, it.value()->pos);
if(locationsPageCache.contains(it.value()->bookmark) && it.value()->pos > 0)
locationsPageCache.insert(it.value()->bookmark, it.value()->page);
++it;
}
QHash<QString, BookLocation*>::iterator itLoc = locations.begin();
QHash<QString, BookLocation*>::iterator itLocEnd = locations.end();
while( itLoc != itLocEnd )
{
if(locationsPosCache.contains(itLoc.value()->bookmark) && itLoc.value()->pos > 0)
locationsPosCache.insert(itLoc.value()->bookmark, itLoc.value()->pos);
if(locationsPageCache.contains(itLoc.value()->bookmark) && itLoc.value()->pos > 0)
locationsPageCache.insert(itLoc.value()->bookmark, itLoc.value()->page);
++itLoc;
}
}
void Grid::unfixArcConsistency(QHash<Cell*, QSet<char> > diff)
{
for( auto i=diff.begin(); i!=diff.end(); ++i ){
Cell* cell = i.key();
cell->appendToDomain(i.value());
}
}
/**
* Returns a 255 by 100 QImage containing a Histogram for the given channel.
* The background is transparent (Alpha 0, RGB=255) */
QImage Histogram::getImage(Channel channel = LChannel, QBrush pen = Qt::gray)
{
// Create blank QImage and fill it with transparent background:
QImage histImage(255, 100, QImage::Format_ARGB32);
histImage.fill(0);
QPainter painter(&histImage);
painter.setBrush(Qt::transparent);
painter.setPen(Qt::transparent);
painter.drawRect(0,0,255,100);
// Calculate the aspect ratio using the maximal value of the color histograms
int maximum = (channel == LChannel ? maximumValue(LChannel) : maximumValue(RGB));
float ratio = 100.0/float(maximum);
// Preparing the painter:
painter.setBrush(pen);
painter.setPen(pen.color());
int h;
// Draw histogram
QHash<int, int>* hist = get(channel);
QHash<int, int>::const_iterator cit = hist->begin();
while (cit != hist->end())
{
h = 100 - floor(ratio*cit.value());
painter.drawLine(cit.key(), h, cit.key(), 100);
++cit;
}
return histImage;
}
bool init() {
if( m_script->action()->hadError() )
m_script->action()->clearError();
delete m_engine;
m_engine = new QScriptEngine();
// load the Qross QScriptExtensionPlugin plugin that provides
// us a bridge between Qross and QtScript. See here plugin.h
m_engine->importExtension("qross");
if( m_engine->hasUncaughtException() ) {
handleException();
delete m_engine;
m_engine = 0;
return false;
}
// the Qross QScriptExtensionPlugin exports the "Qross" property.
QScriptValue global = m_engine->globalObject();
m_qross = global.property("Qross");
Q_ASSERT( m_qross.isQObject() );
Q_ASSERT( ! m_engine->hasUncaughtException() );
// Attach our Qross::Action instance to be able to access it in
// scripts. Just like at the Kjs-backend we publish our own
// action as "self".
m_self = m_engine->newQObject( m_script->action() );
global.setProperty("self", m_self, QScriptValue::ReadOnly|QScriptValue::Undeletable);
{ // publish the global objects.
QHash< QString, QObject* > objects = Manager::self().objects();
QHash< QString, QObject* >::Iterator it(objects.begin()), end(objects.end());
for(; it != end; ++it)
global.setProperty(it.key(), m_engine->newQObject( it.value() ) );
}
{ // publish the local objects.
QHash< QString, QObject* > objects = m_script->action()->objects();
QHash< QString, QObject* >::Iterator it(objects.begin()), end(objects.end());
for(; it != end; ++it) {
copyEnumsToProperties( it.value() );
global.setProperty(it.key(), m_engine->newQObject( it.value() ) );
}
}
return ! m_engine->hasUncaughtException();
}
void EditorWidgetKate::loadSettings(KTextEditor::ConfigInterface *iface, cfg_variant cfg)
{
if(!iface)
return;
QHash<QString, QVariant> values = sConfig.get(cfg).toHash();
for(QHash<QString, QVariant>::iterator itr = values.begin(); itr != values.end(); ++itr)
iface->setConfigValue(itr.key(), *itr);
}
void Shader::setUniforms(const QHash< QString, QVariant >& uniforms)
{
QHash< QString, QVariant >::const_iterator itr;
for( itr = uniforms.begin(); itr != uniforms.end(); ++itr )
{
if( d->uniforms.contains( itr.key() ) )
d->uniforms[ itr.key() ] = itr.value();
}
}
void VUtils::decodeUrl(QString &p_url)
{
QHash<QString, QString> maps;
maps.insert("%20", " ");
for (auto it = maps.begin(); it != maps.end(); ++it) {
p_url.replace(it.key(), it.value());
}
}
KDevelop::VcsEvent BazaarUtils::parseBzrLogPart(const QString& output)
{
const QStringList outputLines = output.split('\n');
KDevelop::VcsEvent commitInfo;
bool atMessage = false;
QString message;
bool afterMessage = false;
QHash<QString, KDevelop::VcsItemEvent::Actions> fileToActionsMapping;
KDevelop::VcsItemEvent::Action currentAction;
for (const QString &line : outputLines) {
if (!atMessage) {
if (line.startsWith(QStringLiteral("revno"))) {
QString revno = line.mid(QStringLiteral("revno: ").length());
revno = revno.left(revno.indexOf(' '));
KDevelop::VcsRevision revision;
revision.setRevisionValue(revno.toLongLong(), KDevelop::VcsRevision::GlobalNumber);
commitInfo.setRevision(revision);
} else if (line.startsWith(QStringLiteral("committer: "))) {
QString commiter = line.mid(QStringLiteral("committer: ").length());
commitInfo.setAuthor(commiter); // Author goes after commiter, but only if is different
} else if (line.startsWith(QStringLiteral("author"))) {
QString author = line.mid(QStringLiteral("author: ").length());
commitInfo.setAuthor(author); // It may override commiter (In fact commiter is not supported by VcsEvent)
} else if (line.startsWith(QStringLiteral("timestamp"))) {
const QString formatString = QStringLiteral("yyyy-MM-dd hh:mm:ss");
QString timestamp = line.mid(QStringLiteral("timestamp: ddd ").length(), formatString.length());
commitInfo.setDate(QDateTime::fromString(timestamp, formatString));
} else if (line.startsWith(QStringLiteral("message"))) {
atMessage = true;
}
} else if (atMessage && !afterMessage) {
if (!line.isEmpty() && line[0].isSpace()) {
message += line.trimmed() + "\n";
} else if (!line.isEmpty()) {
afterMessage = true;
// leave atMessage = true
currentAction = BazaarUtils::parseActionDescription(line);
} // if line is empty - ignore and get next
} else if (afterMessage) {
if (!line.isEmpty() && !line[0].isSpace()) {
currentAction = BazaarUtils::parseActionDescription(line);
} else if (!line.isEmpty()) {
fileToActionsMapping[line.trimmed()] |= currentAction;
} // if line is empty - ignore and get next
}
}
if (atMessage)
commitInfo.setMessage(message.trimmed());
for (auto i = fileToActionsMapping.begin(); i != fileToActionsMapping.end(); ++i) {
KDevelop::VcsItemEvent itemEvent;
itemEvent.setRepositoryLocation(i.key());
itemEvent.setActions(i.value());
commitInfo.addItem(itemEvent);
}
return commitInfo;
}
void qsKillTimers( QSEnv *env )
{
QuickInterpreter *ip = QuickInterpreter::fromEnv(env);
QHash<int, QSObject> *timers = ip->timers();
for (QHash<int, QSObject>::ConstIterator it = timers->begin(); it != timers->end(); ++it) {
ip->killTimer(it.key());
}
timers->clear();
}
void ResourceManager::clearImageCache()
{
QHash<QString, QImage*>::Iterator iter = sSourceImageHash.begin();
while(iter != sSourceImageHash.end())
{
delete iter.value();
iter++;
}
sSourceImageHash.clear();
}
Expression::Expression(QString expression, QHash<QString, QVariant> params,
bool onlyColumn) {
for(auto i = params.begin(); i != params.end(); ++i) {
QString ikey = i.key();
expression.replace(":" + ikey.replace('.','_'),":" + this->generateParam());
this->appendParam(i.key(),i.value());
}
this->expression = expression;
this->onlyColumn = onlyColumn;
}
// Call this function when you want to clean up all animation data allocated to
// the memory.
void ResourceManager::clearAnimationCache()
{
QHash<QString, AnimationModel*>::Iterator iter = sAnimationHash.begin();
while(iter != sAnimationHash.end())
{
delete iter.value();
iter++;
}
sAnimationHash.clear();
}
void ToolManager::createActions(const QHash<QString, ToolInfo> &infoHash)
{
for (auto iter = infoHash.begin(); iter != infoHash.end(); ++iter)
{
auto action = new QAction(iter->icon, iter->text, this);
action->setCheckable(true);
action->setObjectName(iter.key());
_actionGroup->addAction(action);
_actionHash[action] = iter.key();
}
}
QVariantMap
UnitySortFilterProxyModelQML::get(int row)
{
QVariantMap res;
const QHash<int, QByteArray> roles = roleNames();
auto it = roles.begin();
for ( ; it != roles.end(); ++it) {
res[*it] = data(row, it.key());
}
return res;
}
void CSMesEmma::emmaStatisticMethods( const QHash<CSMesFunctionInfo::functionskey_t,int> &nb_tested_function_list,int &nb_tested,int &nb_untested)
{
nb_tested=0;
nb_untested=0;
for (QHash<CSMesFunctionInfo::functionskey_t,int>::const_iterator itNbTested=nb_tested_function_list.begin();itNbTested!=nb_tested_function_list.end();++itNbTested)
{
if (itNbTested.value()==0)
nb_untested++;
else
nb_tested++;
}
}