void AMDetectorInitializeAction::startImplementation(){
// If you still don't have a detector, check the exposed detectors one last time.
if(!detector_)
detector_ = AMBeamline::bl()->exposedDetectorByInfo(*(detectorInitializeInfo()->detectorInfo()));
if(!detector_) {
AMErrorMon::alert(this,
AMDETECTORINITIALIZEACTION_NO_VALID_DETECTOR,
QString("There was an error initializing the detector '%1', because the detector was not found. Please report this problem to the Acquaman developers.").arg(detectorInitializeInfo()->name()));
setFailed();
return;
}
if(detector_->initializationState() == AMDetector::InitializationRequired){
// connect to detector initialization signals
connect(detector_, SIGNAL(initializing()), this, SLOT(onInitializeStarted()));
connect(detector_, SIGNAL(initialized()), this, SLOT(onInitializeFinished()));
detector_->initialize();
}
else{
setStarted();
setSucceeded();
}
}
void InputManager::init()
{
if(initialized())
deinit();
SDL_SetHint(SDL_HINT_JOYSTICK_ALLOW_BACKGROUND_EVENTS,
Settings::getInstance()->getBool("BackgroundJoystickInput") ? "1" : "0");
SDL_InitSubSystem(SDL_INIT_JOYSTICK);
SDL_JoystickEventState(SDL_ENABLE);
// first, open all currently present joysticks
int numJoysticks = SDL_NumJoysticks();
for(int i = 0; i < numJoysticks; i++)
{
addJoystickByDeviceIndex(i);
}
mKeyboardInputConfig = new InputConfig(DEVICE_KEYBOARD, "Keyboard", KEYBOARD_GUID_STRING);
loadInputConfig(mKeyboardInputConfig);
SDL_USER_CECBUTTONDOWN = SDL_RegisterEvents(2);
SDL_USER_CECBUTTONUP = SDL_USER_CECBUTTONDOWN + 1;
CECInput::init();
mCECInputConfig = new InputConfig(DEVICE_CEC, "CEC", CEC_GUID_STRING);
loadInputConfig(mCECInputConfig);
}
AMReadOnlyPVControl::AMReadOnlyPVControl(const QString& name, const QString& readPVname, QObject* parent, const QString description)
: AMControl(name, "?", parent, description) {
wasConnected_ = false;
readPV_ = new AMProcessVariable(readPVname, true, this);
lowLimitPV_ = 0;
highLimitPV_ = 0;
allowLowLimitValuePVUpdates_ = true;
allowHighLimitValuePVUpdates_ = true;
lowLimitValue_ = -1;
highLimitValue_ = -1;
connect(readPV_, SIGNAL(valueChanged(double)), this, SIGNAL(valueChanged(double)));
connect(readPV_, SIGNAL(alarmChanged(int,int)), this, SIGNAL(alarmChanged(int,int)));
connect(readPV_, SIGNAL(readReadyChanged(bool)), this, SLOT(onPVConnected(bool)));
connect(readPV_, SIGNAL(connectionTimeout()), this, SIGNAL(readConnectionTimeoutOccurred()));
connect(readPV_, SIGNAL(error(int)), this, SLOT(onReadPVError(int)));
connect(readPV_, SIGNAL(connectionTimeout()), this, SLOT(onConnectionTimeout()));
connect(readPV_, SIGNAL(initialized()), this, SLOT(onReadPVInitialized()));
// If the readPV_ is already initialized as soon as we create it [possible if it's sharing an existing connection], we'll never get the inialized() signal, do it here now:
wasConnected_ = readPV_->readReady(); // same as isConnected(), but we cannot call virtual functions from a constructor, potentially breaks subclasses.
if(readPV_->isInitialized())
onReadPVInitialized();
}
void LoggingManager::assertInitialized() const
{
if (!initialized())
{
assert(0);
}
}
bool PTU::initialize()
{
ser_->write("ft "); // terse feedback
ser_->write("ed "); // disable echo
ser_->write("ci "); // position mode
ser_->read(20);
// get pan tilt encoder res
tr = getRes(PTU_TILT);
pr = getRes(PTU_PAN);
PMin = getLimit(PTU_PAN, PTU_MIN);
PMax = getLimit(PTU_PAN, PTU_MAX);
TMin = getLimit(PTU_TILT, PTU_MIN);
TMax = getLimit(PTU_TILT, PTU_MAX);
PSMin = getLimit(PTU_PAN, PTU_MIN_SPEED);
PSMax = getLimit(PTU_PAN, PTU_MAX_SPEED);
TSMin = getLimit(PTU_TILT, PTU_MIN_SPEED);
TSMax = getLimit(PTU_TILT, PTU_MAX_SPEED);
if (tr <= 0 || pr <= 0 || PMin == -1 || PMax == -1 || TMin == -1 || TMax == -1)
{
initialized_ = false;
}
else
{
initialized_ = true;
}
return initialized();
}
/* The first of our put operators sends a simple string object to the
peer. */
Client &
Client::operator<< (ACE_SString &str)
{
/* We have to be able to allow: server << foo << bar << stuff;
To accomplish that, every << operator must check that the object
is in a valid state before doing work. */
if (initialized () && !error ())
{
/* Get the actual data held in the string object */
const char *cp = str.fast_rep ();
/* Send that data to the peer using send_n() as before. If we
have a problem, we'll set error_ so that subsequent <<
operations won't try to use a broken stream. */
if (this->send_n (cp,
ACE_OS::strlen (cp)) == -1)
error_ = 1;
}
else
/* Be sure that error_ is set if somebody tries to use us when
we're not initialized. */
error_ = 1;
/* We have to return a reference to ourselves to allow chaining of
put operations (eg -- "server << foo << bar"). Without the
reference, you would have to do each put operation as a statement.
That's OK but doesn't have the same feel as standard C++
iostreams. */
return *this ;
}
DeviceManager::~DeviceManager()
{
if (initialized())
uninitialize();
if (_watcher)
delete _watcher;
}
// set position in radians
bool PTU::setPosition(char type, float pos, bool block)
{
if (!initialized()) return false;
// get raw encoder count to move
int count = static_cast<int>(pos / getResolution(type));
// Check limits
if (count < (type == PTU_TILT ? TMin : PMin) || count > (type == PTU_TILT ? TMax : PMax))
{
ROS_ERROR("Pan Tilt Value out of Range: %c %f(%d) (%d-%d)\n",
type, pos, count, (type == PTU_TILT ? TMin : PMin), (type == PTU_TILT ? TMax : PMax));
return false;
}
std::string buffer = sendCommand(std::string() + type + "p" +
lexical_cast<std::string>(count) + " ");
if (buffer.empty() || buffer[0] != '*')
{
ROS_ERROR("Error setting pan-tilt pos");
return false;
}
if (block)
while (getPosition(type) != pos) {};
return true;
}
/*!
Creates thread
*/
RemoteFileInfoGatherer::RemoteFileInfoGatherer(QObject *parent)
: AbstractFileInfoGatherer(parent), abort(false)
#ifndef QT_NO_FILESYSTEMWATCHER
, watcher(0)
#endif
{
qDebug() << "new RemoteFileInfoGatherer";
#ifndef QT_NO_FILESYSTEMWATCHER
watcher = new QFileSystemWatcher(this);
connect(watcher, SIGNAL(directoryChanged(QString)), this, SLOT(list(QString)));
connect(watcher, SIGNAL(fileChanged(QString)), this, SLOT(updateFile(QString)));
# if defined(Q_OS_WIN) && !defined(Q_OS_WINRT)
const QVariant listener = watcher->property("_q_driveListener");
if (listener.canConvert<QObject *>()) {
if (QObject *driveListener = listener.value<QObject *>()) {
connect(driveListener, SIGNAL(driveAdded()), this, SLOT(driveAdded()));
connect(driveListener, SIGNAL(driveRemoved()), this, SLOT(driveRemoved()));
}
}
# endif // Q_OS_WIN && !Q_OS_WINRT
#endif
start(LowPriority);
emit initialized();
}
byte RTSS_Share::share_id() const
{
if(!initialized())
throw Invalid_State("RTSS_Share::share_id not initialized");
return m_contents[20];
}
/*!
Update the state of initialized() to \a value and emit the initializedChanged() signal.
\sa initialized(), initializedChanged()
*/
void QNetworkRegistrationServer::updateInitialized( bool value )
{
if ( value != initialized() ) {
setValue( "initialized", value );
emit initializedChanged();
}
}
void
IsoMonitor_c::close()
{
isoaglib_assert (initialized());
isoaglib_assert( m_arrClientC1.empty() );
isoaglib_assert( mvec_saClaimHandler.empty() );
getSchedulerInstance().deregisterTask( *this );
// We can clear the list of remote nodes.
/// NOTE: We do currently NOT call "internalIsoItemErase",
/// because the list of SaClaimHandlers is empty anyway.
/// But if the erase does some more stuff, it may be needed
/// to call "internalIsoItemErase" for each item instead
/// of just clearing the container of isoMembers.
mvec_isoMember.clear();
getIsoRequestPgnInstance4Comm().unregisterPGN (mt_handler, ADDRESS_CLAIM_PGN);
#ifdef USE_WORKING_SET
getIsoRequestPgnInstance4Comm().unregisterPGN (mt_handler, WORKING_SET_MASTER_PGN);
getIsoRequestPgnInstance4Comm().unregisterPGN (mt_handler, WORKING_SET_MEMBER_PGN);
#endif
getIsoBusInstance4Comm().deleteFilter( mt_customer, IsoAgLib::iMaskFilter_c( 0x3FFFF00UL, ((ADDRESS_CLAIM_PGN+0xFF) << 8) ) );
#ifdef USE_WORKING_SET
getIsoBusInstance4Comm().deleteFilter( mt_customer, IsoAgLib::iMaskFilter_c( 0x3FFFF00UL, ((WORKING_SET_MASTER_PGN) << 8) ) );
getIsoBusInstance4Comm().deleteFilter( mt_customer, IsoAgLib::iMaskFilter_c( 0x3FFFF00UL, ((WORKING_SET_MEMBER_PGN) << 8) ) );
#endif
setClosed();
}
MainWindow::MainWindow(QWidget *_parent) :
QMainWindow{_parent, Qt::Widget},
ui{new Ui::MainWindow}
{
ui->setupUi(this);
connect(ui->mRenderWindow, SIGNAL(initialized()), this, SLOT(onGLInitialized()));
}
cv::Rect PinholeCameraModel::rawRoi() const
{
assert( initialized() );
return cv::Rect(cam_info_.roi.x_offset, cam_info_.roi.y_offset,
cam_info_.roi.width, cam_info_.roi.height);
}
CGImageRef ImageSource::createFrameAtIndex(size_t index, SubsamplingLevel subsamplingLevel)
{
if (!initialized())
return 0;
RetainPtr<CGImageRef> image = adoptCF(CGImageSourceCreateImageAtIndex(m_decoder, index, imageSourceOptions(SkipMetadata, subsamplingLevel)));
#if PLATFORM(IOS)
// <rdar://problem/7371198> - CoreGraphics changed the default caching behaviour in iOS 4.0 to kCGImageCachingTransient
// which caused a performance regression for us since the images had to be resampled/recreated every time we called
// CGContextDrawImage. We now tell CG to cache the drawn images. See also <rdar://problem/14366755> -
// CoreGraphics needs to un-deprecate kCGImageCachingTemporary since it's still not the default.
#if COMPILER(CLANG)
#pragma clang diagnostic push
#pragma clang diagnostic ignored "-Wdeprecated-declarations"
#endif
CGImageSetCachingFlags(image.get(), kCGImageCachingTemporary);
#if COMPILER(CLANG)
#pragma clang diagnostic pop
#endif
#endif // !PLATFORM(IOS)
CFStringRef imageUTI = CGImageSourceGetType(m_decoder);
static const CFStringRef xbmUTI = CFSTR("public.xbitmap-image");
if (!imageUTI || !CFEqual(imageUTI, xbmUTI))
return image.leakRef();
// If it is an xbm image, mask out all the white areas to render them transparent.
const CGFloat maskingColors[6] = {255, 255, 255, 255, 255, 255};
RetainPtr<CGImageRef> maskedImage = adoptCF(CGImageCreateWithMaskingColors(image.get(), maskingColors));
if (!maskedImage)
return image.leakRef();
return maskedImage.leakRef();
}
void Audio_Queue::cleanup()
{
if (!initialized()) {
AQ_TRACE("%s: warning: attempt to cleanup an uninitialized audio queue. return.\n", __PRETTY_FUNCTION__);
return;
}
Stream_Configuration *config = Stream_Configuration::configuration();
if (m_state != IDLE) {
AQ_TRACE("%s: attemping to cleanup the audio queue when it is still playing, force stopping\n",
__PRETTY_FUNCTION__);
AudioQueueRemovePropertyListener(m_outAQ,
kAudioQueueProperty_IsRunning,
audioQueueIsRunningCallback,
this);
AudioQueueStop(m_outAQ, true);
setState(IDLE);
}
if (AudioQueueDispose(m_outAQ, true) != 0) {
AQ_TRACE("%s: AudioQueueDispose failed!\n", __PRETTY_FUNCTION__);
}
m_outAQ = 0;
m_fillBufferIndex = m_bytesFilled = m_packetsFilled = m_buffersUsed = 0;
for (size_t i=0; i < config->bufferCount; i++) {
m_bufferInUse[i] = false;
}
m_lastError = noErr;
}
bool RGS_Service::recv_msg( BasicProtocol* pro)
{
USE_PROTOCOL_NAMESPACE;
//MODULE_LOG_DEBUG((MODULE_TEMP, "receive protocol id:%d", protocol->iid_));
ACE_Auto_Ptr<BasicProtocol> a_ps( pro);
if( !initialized()) return false;
if( pro->iid_ == SVR_REGIST_ACK)
{
//注册回复
Pro_SvrRegist_ack* pack =dynamic_cast<Pro_SvrRegist_ack*>(pro);
if( pack->result_ == 1)
{
this->close_service();
}
else
{
SystemCommand<RGS_Service>* pcmd =
TASKCMD_NEW SystemCommand<RGS_Service>( boost::bind( &BasicModule::fin_registservice, CTSMODULE, this));
CTSMODULE->regist_syscmd( pcmd);
}
}
else
assort_protocol( a_ps.release());
return true;
}
// set speed in radians/sec
bool PTU::setSpeed(char type, float pos)
{
if (!initialized()) return false;
// get raw encoder speed to move
int count = static_cast<int>(pos / getResolution(type));
// Check limits
if (abs(count) < (type == PTU_TILT ? TSMin : PSMin) || abs(count) > (type == PTU_TILT ? TSMax : PSMax))
{
ROS_ERROR("Pan Tilt Speed Value out of Range: %c %f(%d) (%d-%d)\n",
type, pos, count, (type == PTU_TILT ? TSMin : PSMin), (type == PTU_TILT ? TSMax : PSMax));
return false;
}
std::string buffer = sendCommand(std::string() + type + "s" +
lexical_cast<std::string>(count) + " ");
if (buffer.empty() || buffer[0] != '*')
{
ROS_ERROR("Error setting pan-tilt speed\n");
return false;
}
return true;
}
void CSpaceRestriction::remove_border ()
{
if (!initialized())
return;
VERIFY (m_applied);
m_applied = false;
if (m_out_space_restriction) {
ai().level_graph().clear_mask (border());
return;
}
#ifdef USE_FREE_IN_RESTRICTIONS
FREE_IN_RESTRICTIONS::iterator I = m_free_in_restrictions.begin();
FREE_IN_RESTRICTIONS::iterator E = m_free_in_restrictions.end();
for ( ; I != E; ++I)
if ((*I).m_enabled) {
VERIFY ((*I).m_restriction);
(*I).m_enabled = false;
ai().level_graph().clear_mask ((*I).m_restriction->border());
}
#else
ai().level_graph().clear_mask (m_in_space_restriction->border());
#endif
}
float ImageSource::frameDurationAtIndex(size_t index)
{
if (!initialized())
return 0;
float duration = 0;
RetainPtr<CFDictionaryRef> properties = adoptCF(CGImageSourceCopyPropertiesAtIndex(m_decoder, index, imageSourceOptions(SkipMetadata)));
if (properties) {
CFDictionaryRef typeProperties = (CFDictionaryRef)CFDictionaryGetValue(properties.get(), kCGImagePropertyGIFDictionary);
if (typeProperties) {
if (CFNumberRef num = (CFNumberRef)CFDictionaryGetValue(typeProperties, WebCoreCGImagePropertyGIFUnclampedDelayTime)) {
// Use the unclamped frame delay if it exists.
CFNumberGetValue(num, kCFNumberFloatType, &duration);
} else if (CFNumberRef num = (CFNumberRef)CFDictionaryGetValue(typeProperties, kCGImagePropertyGIFDelayTime)) {
// Fall back to the clamped frame delay if the unclamped frame delay does not exist.
CFNumberGetValue(num, kCFNumberFloatType, &duration);
}
}
}
// Many annoying ads specify a 0 duration to make an image flash as quickly as possible.
// We follow Firefox's behavior and use a duration of 100 ms for any frames that specify
// a duration of <= 10 ms. See <rdar://problem/7689300> and <http://webkit.org/b/36082>
// for more information.
if (duration < 0.011f)
return 0.100f;
return duration;
}
const char *LH_DataViewerConnector::userInit(){
LH_QtInstance::userInit();
hide();
setup_feedback_ = new LH_Qt_QString(this, "Feedback", "", LH_FLAG_READONLY | LH_FLAG_NOSAVE | LH_FLAG_NOSINK | LH_FLAG_NOSOURCE);
QStringList langs = listLanguages();
qDebug() << "languages: " << langs.count() << ": " << langs.join(",");
setup_language_ = new LH_Qt_QStringList(this,"Language",langs, LH_FLAG_AUTORENDER | LH_FLAG_NOSINK | LH_FLAG_NOSOURCE);
setup_language_->setHelp("To add a new language copy the \"[List:<name>]\" blocks from the data map into a new file called lists.XX.txt (where XX is the language code, e.g. Spanish lists would go in a file called lists.ES.txt, French in lists.FR.txt) and translate the text values into the desired language.");
setup_language_->setFlag(LH_FLAG_HIDDEN, langs.length()<=1);
connect( setup_language_, SIGNAL(changed()), this, SLOT(languageFileChanged()) );
setup_map_file_ = new LH_Qt_QFileInfo(this,"Data Map",QFileInfo(), LH_FLAG_AUTORENDER | LH_FLAG_NOSINK | LH_FLAG_NOSOURCE );
setup_map_file_->setHelp("The data map file contains information needed to understand and parse the data source.<br><br>"
"(Unlike text files, XML data sources do not require a map file, although they do support them if advanced data parsing or data-expiriation is required.)");
connect( setup_map_file_, SIGNAL(changed()), this, SLOT(mapFileChanged()) );
setup_data_file_ = new LH_Qt_QFileInfo(this,"Data Source",QFileInfo(), LH_FLAG_AUTORENDER | LH_FLAG_NOSINK | LH_FLAG_NOSOURCE );
setup_data_file_ ->setHelp("The data source. Only XML data sources can be understood without a data map. If the datamap specifies \"MEM\" as the type then no source file is required.");
connect( setup_data_file_, SIGNAL(changed()), this, SLOT(sourceFileChanged()) );
sourceWatcher_ = new QFileSystemWatcher(this);
connect( sourceWatcher_, SIGNAL(fileChanged(const QString)), this, SLOT(sourceFileUpdated(const QString)) );
rootNode = new dataNode();
sharedData = new sharedCollection();
connect( this, SIGNAL(initialized()), this, SLOT(sourceFileUpdated()) );
return NULL;
}
void InputManager::deinit()
{
if(!initialized())
return;
for(auto iter = mJoysticks.begin(); iter != mJoysticks.end(); iter++)
{
SDL_JoystickClose(iter->second);
}
mJoysticks.clear();
for(auto iter = mInputConfigs.begin(); iter != mInputConfigs.end(); iter++)
{
delete iter->second;
}
mInputConfigs.clear();
for(auto iter = mPrevAxisValues.begin(); iter != mPrevAxisValues.end(); iter++)
{
delete[] iter->second;
}
mPrevAxisValues.clear();
if(mKeyboardInputConfig != NULL)
{
delete mKeyboardInputConfig;
mKeyboardInputConfig = NULL;
}
SDL_JoystickEventState(SDL_DISABLE);
SDL_QuitSubSystem(SDL_INIT_JOYSTICK);
}
void StereoCameraModel::projectDisparityImageTo3d(const cv::Mat& disparity, cv::Mat& point_cloud,
bool handleMissingValues) const
{
assert( initialized() );
cv::reprojectImageTo3D(disparity, point_cloud, Q_, handleMissingValues);
}
int64_t decode(void *buffer, size_t size, int64_t sum)
{
unsigned int i;
C(table_t) foobarcontainer;
FooBar(vec_t) list;
FooBar(table_t) foobar;
Bar(struct_t) bar;
Foo(struct_t) foo;
foobarcontainer = C(as_root(buffer));
sum += C(initialized(foobarcontainer));
sum += StringLen(C(location(foobarcontainer)));
sum += C(fruit(foobarcontainer));
list = C(list(foobarcontainer));
for (i = 0; i < FooBar(vec_len(list)); ++i) {
foobar = FooBar(vec_at(list, i));
sum += StringLen(FooBar(name(foobar)));
sum += FooBar(postfix(foobar));
sum += (int64_t)FooBar(rating(foobar));
bar = FooBar(sibling(foobar));
sum += (int64_t)Bar(ratio(bar));
sum += Bar(size(bar));
sum += Bar(time(bar));
foo = Bar(parent(bar));
sum += Foo(count(foo));
sum += Foo(id(foo));
sum += Foo(length(foo));
sum += Foo(prefix(foo));
}
return sum + 2 * sum;
}
void testMultipleTransitions() {
QSignalSpy init1(transition, SIGNAL(initialized(QString,QVariant,QString,QVariant)));
QSignalSpy init2(transition2, SIGNAL(initialized(QString,QVariant,QString,QVariant)));
QSignalSpy final1(transition, SIGNAL(finalized(QuickGlobalStateTransition*)));
QSignalSpy final2(transition2, SIGNAL(finalized(QuickGlobalStateTransition*)));
machine->registerTransition("initial", "next", transition);
machine->registerTransition("initial", "next", transition2);
machine->push("next");
QCOMPARE(init1.count(), 1);
QCOMPARE(init2.count(), 1);
transition->finalize();
transition2->finalize();
QCOMPARE(final1.count(), 1);
QCOMPARE(final2.count(), 1);
}
cv::Size PinholeCameraModel::reducedResolution() const
{
assert( initialized() );
cv::Rect roi = rectifiedRoi();
return cv::Size(roi.width / binningX(), roi.height / binningY());
}
void QDesigner::initialize()
{
// initialize the sub components
QStringList files;
QString resourceDir = QLibraryInfo::location(QLibraryInfo::TranslationsPath);
parseCommandLineArgs(files, resourceDir);
QTranslator *translator = new QTranslator(this);
QTranslator *qtTranslator = new QTranslator(this);
const QString localSysName = QLocale::system().name();
QString translatorFileName = QStringLiteral("designer_");
translatorFileName += localSysName;
translator->load(translatorFileName, resourceDir);
translatorFileName = QStringLiteral("qt_");
translatorFileName += localSysName;
qtTranslator->load(translatorFileName, resourceDir);
installTranslator(translator);
installTranslator(qtTranslator);
if (QLibraryInfo::licensedProducts() == QStringLiteral("Console")) {
QMessageBox::information(0, tr("Qt Designer"),
tr("This application cannot be used for the Console edition of Qt"));
QMetaObject::invokeMethod(this, "quit", Qt::QueuedConnection);
return;
}
m_workbench = new QDesignerWorkbench();
emit initialized();
previousMessageHandler = qInstallMessageHandler(designerMessageHandler); // Warn when loading faulty forms
Q_ASSERT(previousMessageHandler);
m_suppressNewFormShow = m_workbench->readInBackup();
if (!files.empty()) {
const QStringList::const_iterator cend = files.constEnd();
for (QStringList::const_iterator it = files.constBegin(); it != cend; ++it) {
// Ensure absolute paths for recent file list to be unique
QString fileName = *it;
const QFileInfo fi(fileName);
if (fi.exists() && fi.isRelative())
fileName = fi.absoluteFilePath();
m_workbench->readInForm(fileName);
}
}
if ( m_workbench->formWindowCount())
m_suppressNewFormShow = true;
// Show up error box with parent now if something went wrong
if (m_initializationErrors.isEmpty()) {
if (!m_suppressNewFormShow && QDesignerSettings(m_workbench->core()).showNewFormOnStartup())
QTimer::singleShot(100, this, SLOT(callCreateForm())); // won't show anything if suppressed
} else {
showErrorMessageBox(m_initializationErrors);
m_initializationErrors.clear();
}
}
void QuickGlobalStateTransition::initialize(const QString & from, const QVariant & fromParameters,
const QString & to, const QVariant & toParameters)
{
Q_ASSERT(m_finalized == true);
m_finalized = false;
emit finalizedChanged();
emit initialized(from, fromParameters, to, toParameters);
}
void Communicator::Bcast(Data data,int root){
#if defined(__PLUMED_MPI)
if(initialized()) MPI_Bcast(data.pointer,data.size,data.type,root,communicator);
#else
(void) data;
(void) root;
#endif
}
environment(int& argc, char**& argv, bool abort_on_exception=true)
: initialized_(false), abort_on_exception_(abort_on_exception)
{
if (!initialized()) {
MPI_Init(&argc, &argv);
initialized_=true;
}
}