bool KstDataObject::recursion(KstDataObjectDataObjectMap& objectsInUse) {
bool recurses = false;
objectsInUse.insert(KstDataObjectPtr(this), KstDataObjectPtr(this));
for (KstDataObjectList::Iterator it = KST::dataObjectList.begin(); it != KST::dataObjectList.end(); ++it) {
if ((*it)->uses(KstDataObjectPtr(this))) {
if (objectsInUse.find(*it) == objectsInUse.end()) {
if ((*it)->recursion(objectsInUse)) {
recurses = true;
break;
}
} else {
recurses = true;
break;
}
}
}
objectsInUse.remove(KstDataObjectPtr(this));
return recurses;
}
KstDataObjectPtr KstCPlugin::makeDuplicate(KstDataObjectDataObjectMap& duplicatedMap) {
KstCPluginPtr plugin = new KstCPlugin;
// use same inputs
for (KstVectorMap::ConstIterator iter = _inputVectors.begin(); iter != _inputVectors.end(); ++iter) {
plugin->inputVectors().insert(iter.key(), iter.data());
}
for (KstScalarMap::ConstIterator iter = _inputScalars.begin(); iter != _inputScalars.end(); ++iter) {
plugin->inputScalars().insert(iter.key(), iter.data());
}
for (KstStringMap::ConstIterator iter = _inputStrings.begin(); iter != _inputStrings.end(); ++iter) {
plugin->inputStrings().insert(iter.key(), iter.data());
}
// create new outputs
for (KstVectorMap::ConstIterator iter = outputVectors().begin(); iter != outputVectors().end(); ++iter) {
KstWriteLocker blockVectorUpdates(&KST::vectorList.lock());
KstVectorPtr v = new KstVector(KstObjectTag(iter.data()->tag().tag() + "'", iter.data()->tag().context()), 0, plugin.data()); // FIXME: unique tag generation
plugin->outputVectors().insert(iter.key(), v);
}
for (KstScalarMap::ConstIterator iter = outputScalars().begin(); iter != outputScalars().end(); ++iter) {
KstScalarPtr s = new KstScalar(KstObjectTag(iter.data()->tag().tag() + "'", iter.data()->tag().context()), plugin.data()); // FIXME: unique tag generation
plugin->outputScalars().insert(iter.key(), s);
}
for (KstStringMap::ConstIterator iter = outputStrings().begin(); iter != outputStrings().end(); ++iter) {
KstStringPtr s = new KstString(KstObjectTag(iter.data()->tag().tag() + "'", iter.data()->tag().context()), plugin.data()); // FIXME: unique tag generation
plugin->outputStrings().insert(iter.key(), s);
}
// set the same plugin
plugin->setPlugin(_plugin);
plugin->setTagName(KstObjectTag(tag().tag() + "'", tag().context())); // FIXME: unique tag generation method
duplicatedMap.insert(this, KstDataObjectPtr(plugin));
return KstDataObjectPtr(plugin);
}
KstDataObjectPtr KstPlugin::makeDuplicate(KstDataObjectDataObjectMap& duplicatedMap) {
KstPluginPtr plugin = new KstPlugin;
// use same inputs
for (KstVectorMap::ConstIterator iter = _inputVectors.begin(); iter != _inputVectors.end(); ++iter) {
plugin->inputVectors().insert(iter.key(), iter.data());
}
for (KstScalarMap::ConstIterator iter = _inputScalars.begin(); iter != _inputScalars.end(); ++iter) {
plugin->inputScalars().insert(iter.key(), iter.data());
}
for (KstStringMap::ConstIterator iter = _inputStrings.begin(); iter != _inputStrings.end(); ++iter) {
plugin->inputStrings().insert(iter.key(), iter.data());
}
// create new outputs
for (KstVectorMap::ConstIterator iter = outputVectors().begin(); iter != outputVectors().end(); ++iter) {
KstVectorPtr v = new KstVector(iter.data()->tagName() + "'", 0, plugin.data());
plugin->outputVectors().insert(iter.key(), v);
KST::addVectorToList(v);
}
for (KstScalarMap::ConstIterator iter = outputScalars().begin(); iter != outputScalars().end(); ++iter) {
KstScalarPtr s = new KstScalar(iter.data()->tagName() + "'", plugin.data());
plugin->outputScalars().insert(iter.key(), s);
}
for (KstStringMap::ConstIterator iter = outputStrings().begin(); iter != outputStrings().end(); ++iter) {
KstStringPtr s = new KstString(iter.data()->tagName() + "'", plugin.data());
plugin->outputStrings().insert(iter.key(), s);
}
// set the same plugin
plugin->setPlugin(_plugin);
plugin->setTagName(tagName() + "'");
duplicatedMap.insert(this, KstDataObjectPtr(plugin));
return KstDataObjectPtr(plugin);
}
bool KST::duplicateDependents(KstVectorPtr vectorFor, KstDataObjectDataObjectMap& duplicatedMap, QMap<KstVectorPtr, KstVectorPtr> &duplicatedVectors) {
// work with a copy of the data object list
KST::dataObjectList.lock().readLock();
KstDataObjectList dol = QDeepCopy<KstDataObjectList>(KST::dataObjectList);
KST::dataObjectList.lock().readUnlock();
for (KstDataObjectList::Iterator i = dol.begin(); i != dol.end(); ++i) {
if ((*i)->uses(vectorFor)) {
if (duplicatedMap.contains(*i)) {
(duplicatedMap[*i])->replaceDependency(vectorFor, duplicatedVectors[vectorFor]);
} else {
KstDataObjectPtr newObject = (*i)->makeDuplicate(duplicatedMap);
newObject->replaceDependency(vectorFor, duplicatedVectors[vectorFor]);
if (newObject) {
KST::dataObjectList.lock().writeLock();
KST::dataObjectList.append(newObject.data());
KST::dataObjectList.lock().writeUnlock();
(*i)->duplicateDependents(duplicatedMap);
}
}
}
}
return true;
}
KstDataObjectPtr KstEquation::makeDuplicate(KstDataObjectDataObjectMap& duplicatedMap) {
QString name(tagName() + '\'');
while (KstData::self()->dataTagNameNotUnique(name, false)) {
name += '\'';
}
KstEquationPtr eq = new KstEquation(name, _equation, _inputVectors[XINVECTOR], _doInterp);
duplicatedMap.insert(this, KstDataObjectPtr(eq));
return KstDataObjectPtr(eq);
}
KstDataObjectPtr KstCSD::makeDuplicate(KstDataObjectDataObjectMap& duplicatedMap) {
QString name(tagName() + '\'');
while (KstData::self()->dataTagNameNotUnique(name, false)) {
name += '\'';
}
KstCSDPtr csd = new KstCSD(name, _inputVectors[INVECTOR], _frequency, _average, _removeMean,
_apodize, _apodizeFxn, _windowSize, _length, _gaussianSigma, _vectorUnits, _rateUnits);
duplicatedMap.insert(this, KstDataObjectPtr(csd));
return KstDataObjectPtr(csd);
}
KstDataObjectPtr KstHistogram::makeDuplicate(KstDataObjectDataObjectMap& duplicatedMap) {
QString name(tagName() + '\'');
while (KstData::self()->dataTagNameNotUnique(name, false)) {
name += '\'';
}
KstHistogramPtr histogram = new KstHistogram(name, _inputVectors[RAWVECTOR],
_MinX, _MaxX, _NBins, _NormMode);
duplicatedMap.insert(this, KstDataObjectPtr(histogram));
return KstDataObjectPtr(histogram);
}
KstDataObjectPtr KstPSD::makeDuplicate(KstDataObjectDataObjectMap& duplicatedMap) {
QString name(tagName() + '\'');
while (KstData::self()->dataTagNameNotUnique(name, false)) {
name += '\'';
}
KstPSDPtr psd = new KstPSD(name, _inputVectors[INVECTOR], _Freq,
_Average, _averageLen, _Apodize, _RemoveMean, _vUnits, _rUnits,
_apodizeFxn, _gaussianSigma, _Output);
duplicatedMap.insert(this, KstDataObjectPtr(psd));
return KstDataObjectPtr(psd);
}
KstDataObjectPtr EventMonitorEntry::makeDuplicate(KstDataObjectDataObjectMap& duplicatedMap) {
QString name(tagName() + '\'');
while (KstData::self()->dataTagNameNotUnique(name, false)) {
name += '\'';
}
EventMonitorEntryPtr event = new EventMonitorEntry(name);
event->setEvent(_event);
event->setDescription(_description);
event->setLevel(_level);
event->setLogKstDebug(_logKstDebug);
event->setLogEMail(_logEMail);
event->setLogELOG(_logELOG);
event->setEMailRecipients(_eMailRecipients);
duplicatedMap.insert(this, KstDataObjectPtr(event));
return KstDataObjectPtr(event);
}
bool KstChangeFileDialog::applyFileChange() {
KstDataSourcePtr file;
KST::dataSourceList.lock().writeLock();
KstDataSourceList::Iterator it = KST::dataSourceList.findReusableFileName(_dataFile->url());
QString invalidSources;
int invalid = 0;
if (it == KST::dataSourceList.end()) {
file = KstDataSource::loadSource(_dataFile->url());
if (!file || !file->isValid()) {
KST::dataSourceList.lock().unlock();
QMessageBox::warning(this, tr("Kst"), tr("The file could not be loaded."));
return false;
}
if (file->isEmpty()) {
KST::dataSourceList.lock().unlock();
QMessageBox::warning(this, tr("Kst"), tr("The file does not contain data."));
return false;
}
KST::dataSourceList.append(file);
} else {
file = *it;
}
KST::dataSourceList.lock().unlock();
KstApp *app = KstApp::inst();
KstRVectorList rvl = kstObjectSubList<KstVector,KstRVector>(KST::vectorList);
KstRMatrixList rml = kstObjectSubList<KstMatrix,KstRMatrix>(KST::matrixList);
int selected = 0;
int handled = 0;
int count = (int)ChangeFileCurveList->count();
for (int i = 0; i < count; i++) {
if (ChangeFileCurveList->isSelected(i)) {
++selected;
}
}
// a map to keep track of which objects have been duplicated, and mapping
// old object -> new object
KstDataObjectDataObjectMap duplicatedMap;
QMap<KstVectorPtr, KstVectorPtr> duplicatedVectors;
QMap<KstMatrixPtr, KstMatrixPtr> duplicatedMatrices;
KstDataSourceList oldSources;
// go through the vectors
for (int i = 0; i < (int)rvl.count(); i++) {
if (ChangeFileCurveList->isSelected(i)) {
KstRVectorPtr vector = rvl[i];
vector->writeLock();
file->readLock();
bool valid = file->isValidField(vector->field());
file->unlock();
if (!valid) {
if (invalid > 0) {
invalidSources = tr("%1, %2").arg(invalidSources).arg(vector->field());
} else {
invalidSources = vector->field();
}
++invalid;
} else {
if (_duplicateSelected->isChecked()) {
// block vector updates until vector is setup properly
KST::vectorList.lock().writeLock();
// create a new vector
KstRVectorPtr newVector = vector->makeDuplicate();
if (!oldSources.contains(newVector->dataSource())) {
oldSources << newVector->dataSource();
}
newVector->changeFile(file);
KST::vectorList.lock().unlock();
// duplicate dependents
if (_duplicateDependents->isChecked()) {
duplicatedVectors.insert(KstVectorPtr(vector), KstVectorPtr(newVector));
KST::duplicateDependents(KstVectorPtr(vector), duplicatedMap, duplicatedVectors);
}
} else {
if (!oldSources.contains(vector->dataSource())) {
oldSources << vector->dataSource();
}
vector->changeFile(file);
}
}
vector->unlock();
app->slotUpdateProgress(selected, ++handled, tr("Updating vectors..."));
}
}
// go through the matrices
for (int i = (int)rvl.count(); i < (int)ChangeFileCurveList->count(); i++) {
if (ChangeFileCurveList->isSelected(i)) {
KstRMatrixPtr matrix = rml[i-rvl.count()];
matrix->writeLock();
file->readLock();
bool valid = file->isValidMatrix(matrix->field());
file->unlock();
if (!valid) {
if (invalid > 0) {
invalidSources = tr("%1, %2").arg(invalidSources).arg(matrix->field());
} else {
invalidSources = matrix->field();
}
++invalid;
} else {
if (_duplicateSelected->isChecked()) {
// block matrix updates until matrix is setup properly
KST::matrixList.lock().writeLock();
// create a new matrix
KstRMatrixPtr newMatrix = matrix->makeDuplicate();
if (!oldSources.contains(newMatrix->dataSource())) {
oldSources << newMatrix->dataSource();
}
newMatrix->changeFile(file);
KST::matrixList.lock().unlock();
// duplicate dependents
if (_duplicateDependents->isChecked()) {
duplicatedMatrices.insert(KstMatrixPtr(matrix), KstMatrixPtr(newMatrix));
KST::duplicateDependents(KstMatrixPtr(matrix), duplicatedMap, duplicatedMatrices);
}
} else {
if (!oldSources.contains(matrix->dataSource())) {
oldSources << matrix->dataSource();
}
matrix->changeFile(file);
}
}
matrix->unlock();
app->slotUpdateProgress(selected, ++handled, tr("Updating matrices..."));
}
}
app->slotUpdateProgress(0, 0, QString::null);
file = 0L;
// now add any curves and images to plots if they were duplicated
if (_duplicateSelected->isChecked() && _duplicateDependents->isChecked()) {
KstApp *app = KstApp::inst();
QList<QMdiSubWindow*> windows;
QList<QMdiSubWindow*>::const_iterator i;
windows = app->subWindowList( CreationOrder );
for (i = windows.constBegin(); i != windows.constEnd(); ++i)
KstViewWindow *viewWindow = dynamic_cast<KstViewWindow*>(*i);
if (viewWindow) {
KstTopLevelViewPtr view = kst_cast<KstTopLevelView>(viewWindow->view());
if (view) {
Kst2DPlotList plots = view->findChildrenType<Kst2DPlot>(true);
for (Kst2DPlotList::Iterator plotIter = plots.begin(); plotIter != plots.end(); ++plotIter) {
for (KstDataObjectDataObjectMap::ConstIterator iter = duplicatedMap.begin(); iter != duplicatedMap.end(); ++iter) {
if (KstBaseCurvePtr curve = kst_cast<KstBaseCurve>(iter.data())) {
if ((*plotIter)->Curves.contains(kst_cast<KstBaseCurve>(iter.key())) && !(*plotIter)->Curves.contains(kst_cast<KstBaseCurve>(curve))) {
(*plotIter)->addCurve(curve);
}
}
}
}
}
}
}
}
bool KstChangeFileDialogI::applyFileChange() {
KstDataSourcePtr file;
KST::dataSourceList.lock().writeLock();
KstDataSourceList::Iterator it = KST::dataSourceList.findReusableFileName(_dataFile->url());
QString invalidSources;
int invalid = 0;
if (it == KST::dataSourceList.end()) {
file = KstDataSource::loadSource(_dataFile->url());
if (!file || !file->isValid()) {
KST::dataSourceList.lock().unlock();
KMessageBox::sorry(this, i18n("The file could not be loaded."));
return false;
}
if (file->isEmpty()) {
KST::dataSourceList.lock().unlock();
KMessageBox::sorry(this, i18n("The file does not contain data."));
return false;
}
KST::dataSourceList.append(file);
} else {
file = *it;
}
KST::dataSourceList.lock().unlock();
KstApp *app = KstApp::inst();
KstRVectorList rvl = kstObjectSubList<KstVector,KstRVector>(KST::vectorList);
KstRMatrixList rml = kstObjectSubList<KstMatrix,KstRMatrix>(KST::matrixList);
int selected = 0;
int handled = 0;
int count = (int)ChangeFileCurveList->count();
for (int i = 0; i < count; i++) {
if (ChangeFileCurveList->isSelected(i)) {
++selected;
}
}
// a map to keep track of which objects have been duplicated, and mapping
// old object -> new object
KstDataObjectDataObjectMap duplicatedMap;
QMap<KstVectorPtr, KstVectorPtr> duplicatedVectors;
QMap<KstMatrixPtr, KstMatrixPtr> duplicatedMatrices;
KstDataSourceList oldSources;
// go through the vectors
for (int i = 0; i < (int)rvl.count(); i++) {
if (ChangeFileCurveList->isSelected(i)) {
KstRVectorPtr vector = rvl[i];
vector->writeLock();
file->readLock();
bool valid = file->isValidField(vector->field());
file->unlock();
if (!valid) {
if (invalid > 0) {
// FIXME: invalid list construction for i18n
invalidSources = i18n("%1, %2").arg(invalidSources).arg(vector->field());
} else {
invalidSources = vector->field();
}
++invalid;
} else {
if (_duplicateSelected->isChecked()) {
// block vector updates until vector is setup properly
KST::vectorList.lock().writeLock();
// create a new vector
KstRVectorPtr newVector = vector->makeDuplicate();
if (!oldSources.contains(newVector->dataSource())) {
oldSources << newVector->dataSource();
}
newVector->changeFile(file);
KST::vectorList.lock().unlock();
// duplicate dependents
if (_duplicateDependents->isChecked()) {
duplicatedVectors.insert(KstVectorPtr(vector), KstVectorPtr(newVector));
KST::duplicateDependents(KstVectorPtr(vector), duplicatedMap, duplicatedVectors);
}
} else {
if (!oldSources.contains(vector->dataSource())) {
oldSources << vector->dataSource();
}
vector->changeFile(file);
}
}
vector->unlock();
app->slotUpdateProgress(selected, ++handled, i18n("Updating vectors..."));
}
}
// go through the matrices
for (int i = (int)rvl.count(); i < (int)ChangeFileCurveList->count(); i++) {
if (ChangeFileCurveList->isSelected(i)) {
KstRMatrixPtr matrix = rml[i-rvl.count()];
matrix->writeLock();
file->readLock();
bool valid = file->isValidMatrix(matrix->field());
file->unlock();
if (!valid) {
if (invalid > 0) {
// FIXME: invalid list construction for i18n
invalidSources = i18n("%1, %2").arg(invalidSources).arg(matrix->field());
} else {
invalidSources = matrix->field();
}
++invalid;
} else {
if (_duplicateSelected->isChecked()) {
// block matrix updates until matrix is setup properly
KST::matrixList.lock().writeLock();
// create a new matrix
KstRMatrixPtr newMatrix = matrix->makeDuplicate();
if (!oldSources.contains(newMatrix->dataSource())) {
oldSources << newMatrix->dataSource();
}
newMatrix->changeFile(file);
KST::matrixList.lock().unlock();
// duplicate dependents
if (_duplicateDependents->isChecked()) {
duplicatedMatrices.insert(KstMatrixPtr(matrix), KstMatrixPtr(newMatrix));
KST::duplicateDependents(KstMatrixPtr(matrix), duplicatedMap, duplicatedMatrices);
}
} else {
if (!oldSources.contains(matrix->dataSource())) {
oldSources << matrix->dataSource();
}
matrix->changeFile(file);
}
}
matrix->unlock();
app->slotUpdateProgress(selected, ++handled, i18n("Updating matrices..."));
}
}
app->slotUpdateProgress(0, 0, QString::null);
file = 0L;
// now add any curves and images to plots if they were duplicated
if (_duplicateSelected->isChecked() && _duplicateDependents->isChecked()) {
KstApp *app = KstApp::inst();
KMdiIterator<KMdiChildView*> *it = app->createIterator();
while (it->currentItem()) {
KstViewWindow *w = dynamic_cast<KstViewWindow*>(it->currentItem());
if (w) {
KstTopLevelViewPtr view = kst_cast<KstTopLevelView>(w->view());
if (view) {
Kst2DPlotList plots = view->findChildrenType<Kst2DPlot>(true);
for (Kst2DPlotList::Iterator plotIter = plots.begin(); plotIter != plots.end(); ++plotIter) {
for (KstDataObjectDataObjectMap::ConstIterator iter = duplicatedMap.begin(); iter != duplicatedMap.end(); ++iter) {
if (KstBaseCurvePtr curve = kst_cast<KstBaseCurve>(iter.data())) {
if ((*plotIter)->Curves.contains(kst_cast<KstBaseCurve>(iter.key())) && !(*plotIter)->Curves.contains(kst_cast<KstBaseCurve>(curve))) {
(*plotIter)->addCurve(curve);
}
}
}
}
}
}
it->next();
}
app->deleteIterator(it);
}
// clean up unused data sources
// kstdDebug() << "cleaning up data sources" << endl;
KST::dataSourceList.lock().writeLock();
for (KstDataSourceList::Iterator it = oldSources.begin(); it != oldSources.end(); ++it) {
// kstdDebug() << "DATA SOURCE: " << (*it)->tag().displayString() << " (" << (void*)(*it) << ") USAGE: " << (*it)->getUsage() << endl;
if ((*it)->getUsage() == 1) {
// kstdDebug() << " -> REMOVED" << endl;
KST::dataSourceList.remove((*it).data());
}
}
KST::dataSourceList.lock().unlock();
if (!invalidSources.isEmpty()) {
if (invalid == 1) {
KMessageBox::sorry(this, i18n("The following field is not defined for the requested file:\n%1").arg(invalidSources));
} else {
KMessageBox::sorry(this, i18n("The following fields are not defined for the requested file:\n%1").arg(invalidSources));
}
}
emit docChanged();
// force an update in case we're in paused mode
KstApp::inst()->forceUpdate();
return true;
}
