QString KstIfaceImpl::loadMatrix(const QString& name, const QString& file, const QString& field,
int xStart, int yStart, int xNumSteps, int yNumSteps,
int skipFrames, bool boxcarFilter) {
KstDataSourcePtr src;
/* generate or find the kstfile */
KST::dataSourceList.lock().writeLock();
KstDataSourceList::Iterator it = KST::dataSourceList.findReusableFileName(file);
if (it == KST::dataSourceList.end()) {
src = KstDataSource::loadSource(file);
if (!src || !src->isValid()) {
KST::dataSourceList.lock().unlock();
return QString::null;
}
if (src->isEmpty()) {
KST::dataSourceList.lock().unlock();
return QString::null;
}
KST::dataSourceList.append(src);
} else {
src = *it;
}
src->writeLock();
KST::dataSourceList.lock().unlock();
// make sure field is valid
if (!src->isValidMatrix(field)) {
src->unlock();
return QString::null;
}
// make sure name is unique, else generate a unique one
KST::matrixList.lock().readLock();
QString matrixName;
if (name.isEmpty()) {
matrixName = "M" + QString::number(KST::matrixList.count() + 1);
} else {
matrixName = name;
}
while (KstData::self()->matrixTagNameNotUnique(matrixName, false)) {
matrixName = "M" + QString::number(KST::matrixList.count() + 1);
}
KST::matrixList.lock().unlock();
KstMatrixPtr p = new KstRMatrix(src, field, matrixName, xStart, yStart, xNumSteps, yNumSteps,
boxcarFilter, skipFrames > 0, skipFrames);
KST::addMatrixToList(p);
src->unlock();
if (p) {
_doc->forceUpdate();
_doc->setModified();
return p->tagName();
}
return QString::null;
}
KJS::Value KstBindDataSource::empty(KJS::ExecState *exec) const {
Q_UNUSED(exec)
KstDataSourcePtr s = makeSource(_d);
if (s) {
KstReadLocker rl(s);
return KJS::Boolean(s->isEmpty());
}
return KJS::Boolean(false);
}
bool KstIfaceImpl::changeDataFile(const QString& vector, const QString& fileName, bool update) {
KST::vectorList.lock().readLock();
KstRVectorPtr rvp = kst_cast<KstRVector>(*KST::vectorList.findTag(vector));
KST::vectorList.lock().unlock();
if (!rvp) {
return false;
}
KST::dataSourceList.lock().writeLock();
KstDataSourceList::Iterator it = KST::dataSourceList.findReusableFileName(fileName);
KstDataSourcePtr file;
QString invalidSources;
if (it == KST::dataSourceList.end()) {
file = KstDataSource::loadSource(fileName);
if (!file || !file->isValid() || file->isEmpty()) {
KST::dataSourceList.lock().unlock();
return false;
}
KST::dataSourceList.append(file);
} else {
file = *it;
}
KST::dataSourceList.lock().unlock();
rvp->writeLock();
file->writeLock();
if (!file->isValidField(vector)) {
file->unlock();
rvp->unlock();
return false;
}
rvp->changeFile(file);
file->unlock();
bool rc = rvp->isValid();
rvp->unlock();
if (update) {
KstApp::inst()->forceUpdate();
}
return rc;
}
const QString& KstIfaceImpl::loadVector(const QString& file, const QString& field) {
KstDataSourcePtr src;
/* generate or find the kstfile */
KST::dataSourceList.lock().writeLock();
KstDataSourceList::Iterator it = KST::dataSourceList.findReusableFileName(file);
if (it == KST::dataSourceList.end()) {
src = KstDataSource::loadSource(file);
if (!src || !src->isValid()) {
KST::dataSourceList.lock().unlock();
return QString::null;
}
if (src->isEmpty()) {
KST::dataSourceList.lock().unlock();
return QString::null;
}
KST::dataSourceList.append(src);
} else {
src = *it;
}
src->writeLock();
KST::dataSourceList.lock().unlock();
KST::vectorList.lock().readLock();
QString vname = "V" + QString::number(KST::vectorList.count() + 1);
while (KstData::self()->vectorTagNameNotUnique(vname, false)) {
vname = "V" + QString::number(KST::vectorList.count() + 1);
}
KST::vectorList.lock().unlock();
KstVectorPtr p = new KstRVector(src, field, vname, 0, -1, 0, false, false);
KST::addVectorToList(p);
src->unlock();
if (p) {
_doc->forceUpdate();
_doc->setModified();
return p->tagName();
}
return QString::null;
}
bool KstMatrixDialog::editSingleRMatrix(KstRMatrixPtr rmp) {
KstDataSourcePtr file;
QString pField;
bool doSkip, doAve;
int xStart;
int yStart;
int xNumSteps;
int yNumSteps;
int skip;
if (_fileNameDirty) {
KstDataSourceList::iterator it;
//
// if there is not an active KstFile, create one...
//
KST::dataSourceList.lock().writeLock();
// xxx it = KST::dataSourceList.findReusableFileName(_w->_fileName->url());
if (it == KST::dataSourceList.end()) {
// xxx file = KstDataSource::loadSource(_w->_fileName->url());
if (!file || !file->isValid()) {
KST::dataSourceList.lock().unlock();
QMessageBox::warning(this, QObject::tr("Kst"), QObject::tr("The file could not be opened."));
return false;
}
if (file->isEmpty()) {
KST::dataSourceList.lock().unlock();
QMessageBox::warning(this, QObject::tr("Kst"), QObject::tr("The file does not contain data."));
return false;
}
KST::dataSourceList.append(file);
} else {
file = *it;
}
KST::dataSourceList.lock().unlock();
pField = _w->_field->currentText();
if (!file->isValidMatrix(pField)) {
QMessageBox::warning(this, QObject::tr("Kst"), QObject::tr("The requested field is not defined for the requested file."));
file->unlock();
return false;
}
} else {
rmp->readLock();
file = rmp->dataSource();
pField = rmp->field();
rmp->unlock();
}
rmp->readLock();
if (_xStartDirty || _xStartCountFromEndDirty) {
xStart = _w->_xStartCountFromEnd->isChecked() ? -1 : _w->_xStart->value();
} else {
xStart = rmp->reqXStart();
}
if (_yStartDirty || _yStartCountFromEndDirty) {
yStart = _w->_yStartCountFromEnd->isChecked() ? -1 : _w->_yStart->value();
} else {
yStart = rmp->reqYStart();
}
if (_xNumStepsDirty || _xNumStepsReadToEndDirty) {
xNumSteps = _w->_xNumStepsReadToEnd->isChecked() ? -1 : _w->_xNumSteps->value();
} else {
xNumSteps = rmp->reqXNumSteps();
}
if (_yNumStepsDirty || _yNumStepsReadToEndDirty) {
yNumSteps = _w->_yNumStepsReadToEnd->isChecked() ? -1 : _w->_yNumSteps->value();
} else {
yNumSteps = rmp->reqYNumSteps();
}
if (_doSkipDirty) {
doSkip = _w->_doSkip->isChecked();
} else {
doSkip = rmp->doSkip();
}
if (_doAveDirty) {
doAve = _w->_doAve->isChecked();
} else {
doAve = rmp->doAverage();
}
if (_skipDirty) {
skip = _w->_skip->value();
} else {
skip = rmp->skip();
}
rmp->unlock();
rmp->writeLock();
rmp->change(file, pField, KstObjectTag(rmp->tag().tag(), rmp->tag().context()), xStart, yStart, xNumSteps, yNumSteps, doAve, doSkip, skip);
rmp->unlock();
return true;
}
bool KstMatrixDialog::new_IRMatrix() {
KstDataSourcePtr file;
KstRMatrixPtr matrix;
KstDataSourceList::iterator it;
QString pField;
QString tagName;
bool doSkip;
bool doAve;
int xStart = _w->_xStartCountFromEnd->isChecked() ? -1 : _w->_xStart->value();
int yStart = _w->_yStartCountFromEnd->isChecked() ? -1 : _w->_yStart->value();
int xNumSteps = _w->_xNumStepsReadToEnd->isChecked() ? -1 : _w->_xNumSteps->value();
int yNumSteps = _w->_yNumStepsReadToEnd->isChecked() ? -1 : _w->_yNumSteps->value();
int skip;
//
// create a unique name...
//
tagName = (_tagName->text() == "<New_Matrix>") ? KST::suggestMatrixName(_w->_field->currentText()) : _tagName->text();
if (KstData::self()->matrixTagNameNotUnique(tagName)) {
_tagName->setFocus();
return false;
}
//
// if there is not an active KstFile, create one...
//
KST::dataSourceList.lock().writeLock();
// xxx it = KST::dataSourceList.findReusableFileName(_w->_fileName->url());
if (it == KST::dataSourceList.end()) {
// xxx file = KstDataSource::loadSource(_w->_fileName->url());
if (!file || !file->isValid()) {
KST::dataSourceList.lock().unlock();
QMessageBox::warning(this, QObject::tr("Kst"), QObject::tr("The file could not be opened."));
return false;
}
if (file->isEmpty()) {
KST::dataSourceList.lock().unlock();
QMessageBox::warning(this, QObject::tr("Kst"), QObject::tr("The file does not contain data."));
return false;
}
KST::dataSourceList.append(file);
} else {
file = *it;
}
KST::dataSourceList.lock().unlock();
pField = _w->_field->currentText();
if (!file->isValidMatrix(pField)) {
QMessageBox::warning(this, QObject::tr("Kst"), QObject::tr("The requested matrix is not defined for the requested file."));
file->unlock();
return false;
}
doSkip = _w->_doSkip->isChecked();
doAve = _w->_doAve->isChecked();
skip = _w->_skip->value();
matrix = new KstRMatrix(file, pField, KstObjectTag(tagName, file->tag(), false),
xStart, yStart, xNumSteps, yNumSteps, doAve, doSkip, skip);
emit matrixCreated(KstMatrixPtr(matrix));
matrix = 0L; // drop the reference
emit modified();
return true;
}
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;
}
bool KstVectorDialogI::editSingleObjectRV(KstVectorPtr vcPtr) {
KstRVectorPtr rvp = kst_cast<KstRVector>(vcPtr);
KstDataSourcePtr file;
if (_fileNameDirty) {
// if there is not an active KstFile, create one
KST::dataSourceList.lock().writeLock();
KstDataSourceList::Iterator it = KST::dataSourceList.findReusableFileName(_w->FileName->url());
if (it == KST::dataSourceList.end()) {
file = KstDataSource::loadSource(_w->FileName->url());
if (!file || !file->isValid()) {
KST::dataSourceList.lock().unlock();
KMessageBox::sorry(this, i18n("The file could not be opened."));
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();
} else {
KstRVectorList vcList = kstObjectSubList<KstVector,KstRVector>(KST::vectorList);
for (uint i = 0; i < _editMultipleWidget->_objectList->count(); i++) {
if (_editMultipleWidget->_objectList->isSelected(i)) {
// get the pointer to the object
KstRVectorList::Iterator vcIter = vcList.findTag(_editMultipleWidget->_objectList->text(i));
if (vcIter == vcList.end()) {
return false;
}
KstRVectorPtr rvp = *vcIter;
rvp->readLock();
file = rvp->dataSource();
rvp->unlock();
}
}
}
file->writeLock();
if (rvp) {
QString pField;
if (_fileNameDirty) {
pField = _w->Field->currentText();
if (!file->isValidField(pField)) {
KMessageBox::sorry(this, i18n("The requested field is not defined for the requested file."));
file->unlock();
return false;
}
} else {
pField = rvp->field();
}
int f0 = 0, n = 0;
if (_f0Dirty) {
if (_w->_kstDataRange->isStartRelativeTime()) {
f0 = file->sampleForTime(_w->_kstDataRange->f0Value());
} else if (_w->_kstDataRange->isStartAbsoluteTime()) {
bool ok = false;
f0 = file->sampleForTime(_w->_kstDataRange->f0DateTimeValue(), &ok);
if (!ok) {
file->unlock();
KMessageBox::sorry(this, i18n("The requested field or file could not use the specified date."));
return false;
}
} else {
f0 = int(_w->_kstDataRange->f0Value());
}
}
if (_nDirty) {
if (_w->_kstDataRange->isRangeRelativeTime()) {
double nValStored = _w->_kstDataRange->nValue();
if (_w->_kstDataRange->CountFromEnd->isChecked()) {
int frameCount = file->frameCount(_w->Field->currentText());
double msCount = file->relativeTimeForSample(frameCount - 1);
n = frameCount - 1 - file->sampleForTime(msCount - nValStored);
} else {
double fTime = file->relativeTimeForSample(f0);
n = file->sampleForTime(fTime + nValStored) - file->sampleForTime(fTime);
}
} else {
n = int(_w->_kstDataRange->nValue());
}
}
// use existing requested start and number of frames if not dirty
rvp->readLock();
if (!_f0Dirty) {
f0 = rvp->reqStartFrame();
}
if (!_nDirty) {
n = rvp->reqNumFrames();
}
// other parameters for multiple edit
bool pCountFromEnd, pReadToEnd, pDoSkip, pDoFilter;
int pSkip;
if (_countFromEndDirty) {
pCountFromEnd = _w->_kstDataRange->CountFromEnd->isChecked();
} else {
pCountFromEnd = rvp->countFromEOF();
}
if (_readToEndDirty) {
pReadToEnd = _w->_kstDataRange->ReadToEnd->isChecked();
} else {
pReadToEnd = rvp->readToEOF();
}
if (_skipDirty) {
pSkip = _w->_kstDataRange->Skip->value();
} else {
pSkip = rvp->skip();
}
if (_doSkipDirty) {
pDoSkip = _w->_kstDataRange->DoSkip->isChecked();
} else {
pDoSkip = rvp->doSkip();
}
if (_doFilterDirty) {
pDoFilter = _w->_kstDataRange->DoFilter->isChecked();
} else {
pDoFilter = rvp->doAve();
}
rvp->unlock();
// change the vector
rvp->writeLock();
rvp->change(file, pField, rvp->tag(), pCountFromEnd ? -1 : f0, pReadToEnd ? -1 : n, pSkip, pDoSkip, pDoFilter);
rvp->unlock();
} else {
KstSVectorPtr svp = kst_cast<KstSVector>(_dp);
if (!svp) {
file->unlock();
return true; // shouldn't be needed
}
double x0 = _w->_xMin->text().toDouble();
double x1 = _w->_xMax->text().toDouble();
int n = _w->_N->value();
svp->writeLock();
svp->changeRange(x0, x1, n);
svp->setTagName(KstObjectTag(_tagName->text(), svp->tag().context())); // FIXME: doesn't verify uniqueness, doesn't allow changing tag context
svp->unlock();
}
file->unlock();
return true;
}
bool KstVectorDialogI::newObject() {
KstDataSourcePtr file;
QString tag_name = _tagName->text();
if (_w->_readFromSource->isChecked()) {
tag_name.replace(defaultTag, _w->Field->currentText());
tag_name = KST::suggestVectorName(tag_name);
// if there is not an active DataSource, create one
{
KST::dataSourceList.lock().writeLock();
KstDataSourceList::Iterator it = KST::dataSourceList.findReusableFileName(_w->FileName->url());
if (it == KST::dataSourceList.end()) {
file = KstDataSource::loadSource(_w->FileName->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();
}
file->readLock();
if (!file->isValidField(_w->Field->currentText())) {
file->unlock();
KMessageBox::sorry(this, i18n("The requested field is not defined for the requested file."));
return false;
}
int f0, n;
if (_w->_kstDataRange->isStartRelativeTime()) {
f0 = file->sampleForTime(_w->_kstDataRange->f0Value());
} else if (_w->_kstDataRange->isStartAbsoluteTime()) {
bool ok = false;
f0 = file->sampleForTime(_w->_kstDataRange->f0DateTimeValue(), &ok);
if (!ok) {
file->unlock();
KMessageBox::sorry(this, i18n("The requested field or file could not use the specified date."));
return false;
}
} else {
f0 = int(_w->_kstDataRange->f0Value());
}
if (_w->_kstDataRange->isRangeRelativeTime()) {
double nValStored = _w->_kstDataRange->nValue();
if (_w->_kstDataRange->CountFromEnd->isChecked()) {
int frameCount = file->frameCount(_w->Field->currentText());
double msCount = file->relativeTimeForSample(frameCount - 1);
n = frameCount - 1 - file->sampleForTime(msCount - nValStored);
} else {
double fTime = file->relativeTimeForSample(f0);
n = file->sampleForTime(fTime + nValStored) - file->sampleForTime(fTime);
}
} else {
n = int(_w->_kstDataRange->nValue());
}
file->unlock();
// create the vector
KstRVectorPtr vector = new KstRVector(
file, _w->Field->currentText(),
KstObjectTag(tag_name, file->tag(), false),
_w->_kstDataRange->CountFromEnd->isChecked() ? -1 : f0,
_w->_kstDataRange->ReadToEnd->isChecked() ? -1 : n,
_w->_kstDataRange->Skip->value(),
_w->_kstDataRange->DoSkip->isChecked(),
_w->_kstDataRange->DoFilter->isChecked());
emit vectorCreated(KstVectorPtr(vector));
vector = 0L;
emit modified();
} else {
double x0 = _w->_xMin->text().toDouble();
double x1 = _w->_xMax->text().toDouble();
int n = _w->_N->value();
QString tagname = _tagName->text();
if (tagname == defaultTag) {
tagname = KST::suggestVectorName(QString("(%1..%2)").arg(x0).arg(x1));
}
KstSVectorPtr svector = new KstSVector(x0, x1, n, KstObjectTag(tagname, KstObjectTag::globalTagContext));
emit vectorCreated(KstVectorPtr(svector));
svector = 0L;
emit modified();
}
return true;
}
int main(int argc, char *argv[]) {
atexit(exitHelper);
KInstance inst("d2asc");
KstDataSourcePtr file;
KConfig *kConfigObject = new KConfig("kstdatarc", false, false);
KstDataSource::setupOnStartup(kConfigObject);
fieldEntry field;
QValueList<fieldEntry> fieldList;
char *filename;
bool do_ave = false, do_skip = false;
int start_frame=0, n_frames=2000000;
int n_skip = 0;
int NS=0, i_S;
int i;
if (argc < 3 || argv[1][0] == '-') {
Usage();
return -1;
}
filename = argv[1];
for (i = 2; i < argc; i++) {
if (argv[i][0] == '-') {
if (argv[i][1] == 'f') {
i++;
start_frame = atoi(argv[i]);
} else if (argv[i][1] == 'n') {
i++;
n_frames = atoi(argv[i]);
} else if (argv[i][1] == 's') {
i++;
n_skip = atoi(argv[i]);
if (n_skip>0) do_skip = true;
} else if (argv[i][1] == 'a') {
do_ave = true;
} else if (argv[i][1] == 'x') {
i++;
field.field = argv[i];
field.doHex = true;
fieldList.append(field);
} else {
Usage();
}
} else {
field.field = argv[i];
field.doHex = false;
fieldList.append(field);
}
}
if (!do_skip) {
do_ave = false;
}
file = KstDataSource::loadSource(filename);
if (!file || !file->isValid() || file->isEmpty()) {
fprintf(stderr, "d2asc error: file %s has no data\n", filename);
return -2;
}
/** make vectors and fill the list **/
QPtrList<KstRVector> vlist;
for (i=0; i<int(fieldList.size()); i++) {
if (!file->isValidField(fieldList[i].field)) {
fprintf(stderr, "d2asc error: field %s in file %s is not valid\n",
fieldList[i].field.latin1(), filename);
return -3;
}
KstRVectorPtr v = new KstRVector(file, fieldList[i].field, KstObjectTag("tag", KstObjectTag::globalTagContext), start_frame, n_frames, n_skip, n_skip>0, do_ave);
vlist.append(v);
}
/* find NS */
for (i = 0; i < int(fieldList.size()); i++) {
while (vlist.at(i)->update(-1) != KstObject::NO_CHANGE)
; // read vector
if (vlist.at(i)->length() > NS) {
NS = vlist.at(i)->length();
}
}
for (i_S = 0; i_S < NS; i_S++) {
for (i = 0; i < int(fieldList.size()); i++) {
if (fieldList[i].doHex) {
printf("%4x ", (int)vlist.at(i)->interpolate(i_S, NS));
} else {
printf("%.16g ", vlist.at(i)->interpolate(i_S, NS));
}
}
printf("\n");
}
}
bool KstMatrixDialogI::new_IRMatrix() {
//check the parameters
int xStart = _w->_xStartCountFromEnd->isChecked() ? -1 : _w->_xStart->value();
int yStart = _w->_yStartCountFromEnd->isChecked() ? -1 : _w->_yStart->value();
int xNumSteps = _w->_xNumStepsReadToEnd->isChecked() ? -1 : _w->_xNumSteps->value();
int yNumSteps = _w->_yNumStepsReadToEnd->isChecked() ? -1 : _w->_yNumSteps->value();
//create a unique name
QString tag_name = (_tagName->text() == "<New_Matrix>") ? KST::suggestMatrixName(_w->_field->currentText()) : _tagName->text();
if (KstData::self()->matrixTagNameNotUnique(tag_name)) {
_tagName->setFocus();
return false;
}
// get the data source and matrix field from datasource
KstDataSourcePtr file;
QString pField;
/* if there is not an active KstFile, create one */
KST::dataSourceList.lock().writeLock();
KstDataSourceList::Iterator it = KST::dataSourceList.findReusableFileName(_w->_fileName->url());
if (it == KST::dataSourceList.end()) {
file = KstDataSource::loadSource(_w->_fileName->url());
if (!file || !file->isValid()) {
KST::dataSourceList.lock().unlock();
KMessageBox::sorry(this, i18n("The file could not be opened."));
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();
pField = _w->_field->currentText();
if (!file->isValidMatrix(pField)) {
KMessageBox::sorry(this, i18n("The requested matrix is not defined for the requested file."));
file->unlock();
return false;
}
// skipping parameters
bool doSkip = _w->_doSkip->isChecked();
bool doAve = _w->_doAve->isChecked();
int skip = _w->_skip->value();
KstRMatrixPtr matrix = new KstRMatrix(file, pField, tag_name,
xStart, yStart, xNumSteps, yNumSteps,
doAve, doSkip, skip);
KST::addMatrixToList(KstMatrixPtr(matrix));
emit matrixCreated(KstMatrixPtr(matrix));
matrix = 0L; // drop the reference
emit modified();
return true;
}
bool KstVectorDialogI::edit_I() {
KstDataSourcePtr file;
KstRVectorList vectorList = kstObjectSubList<KstVector,KstRVector>(KST::vectorList);
/* verify that the vector name is unique */
DP->readLock();
if (_tagName->text() != DP->tagName() && KST::vectorTagNameNotUnique(_tagName->text())) {
DP->readUnlock();
return false;
}
DP->readUnlock();
/* if there is not an active KstFile, create one */
{
KST::dataSourceList.lock().writeLock();
KstDataSourceList::Iterator it =
KST::dataSourceList.findFileName(FileName->url());
if (it == KST::dataSourceList.end()) {
file = KstDataSource::loadSource(FileName->url());
if (!file || !file->isValid()) {
KST::dataSourceList.lock().writeUnlock();
KMessageBox::sorry(this, i18n("The file could not be opened."));
return false;
}
if (file->isEmpty()) {
KST::dataSourceList.lock().writeUnlock();
KMessageBox::sorry(this, i18n("The file does not contain data."));
return false;
}
KST::dataSourceList.append(file);
} else {
file = *it;
}
KST::dataSourceList.lock().writeUnlock();
}
file->readLock();
if (!file->isValidField(Field->currentText())) {
file->readUnlock();
KMessageBox::sorry(this, i18n("The requested field is not defined for "
"the requested file\n"));
return false;
}
file->readUnlock();
int f0, n;
if (_kstDataRange->isTime()) {
file->readLock();
f0 = file->sampleForTime(_kstDataRange->f0Value());
n = file->sampleForTime(_kstDataRange->nValue());
file->readUnlock();
} else {
f0 = _kstDataRange->f0Value();
n = _kstDataRange->nValue();
}
/* change the vector */
DP->writeLock();
DP->change(file, Field->currentText(),
_tagName->text(),
(_kstDataRange->CountFromEnd->isChecked() ? -1 : f0),
(_kstDataRange->ReadToEnd->isChecked() ? -1 : n),
_kstDataRange->Skip->value(),
_kstDataRange->DoSkip->isChecked(),
_kstDataRange->DoFilter->isChecked());
DP->writeUnlock();
vectorList.clear();
emit modified();
return true;
}
bool KstVectorDialogI::new_I() {
KstDataSourcePtr file;
KstRVectorList vectorList = kstObjectSubList<KstVector,KstRVector>(KST::vectorList);
QString tag_name = _tagName->text();
tag_name.replace("<New_Vector>", Field->currentText());
KST::vectorList.lock().readLock();
int i_c = KST::vectorList.count() + 1;
KST::vectorList.lock().readUnlock();
while (KST::vectorTagNameNotUnique(tag_name, false)) {
tag_name.sprintf("V%d-", i_c);
tag_name += Field->currentText();
i_c++;
}
vectorList.clear();
/* if there is not an active DataSource, create one */
{
KST::dataSourceList.lock().writeLock();
KstDataSourceList::Iterator it = KST::dataSourceList.findFileName(FileName->url());
if (it == KST::dataSourceList.end()) {
file = KstDataSource::loadSource(FileName->url());
if (!file || !file->isValid()) {
KST::dataSourceList.lock().writeUnlock();
KMessageBox::sorry(this, i18n("The file could not be loaded."));
return false;
}
if (file->isEmpty()) {
KST::dataSourceList.lock().writeUnlock();
KMessageBox::sorry(this, i18n("The file does not contain data."));
return false;
}
KST::dataSourceList.append(file);
} else {
file = *it;
}
KST::dataSourceList.lock().writeUnlock();
}
file->readLock();
if (!file->isValidField(Field->currentText())) {
file->readUnlock();
KMessageBox::sorry(this, i18n("The requested field is not defined for the requested file."));
return false;
}
file->readUnlock();
int f0, n;
if (_kstDataRange->isTime()) {
file->readLock();
f0 = file->sampleForTime(_kstDataRange->f0Value());
n = file->sampleForTime(_kstDataRange->nValue());
file->readUnlock();
} else {
f0 = _kstDataRange->f0Value();
n = _kstDataRange->nValue();
}
/* create the vector */
KstRVectorPtr vector = new KstRVector(
file, Field->currentText(),
tag_name,
(_kstDataRange->CountFromEnd->isChecked() ? -1 : f0),
(_kstDataRange->ReadToEnd->isChecked() ? -1 : n),
_kstDataRange->Skip->value(),
_kstDataRange->DoSkip->isChecked(),
_kstDataRange->DoFilter->isChecked());
KST::addVectorToList(KstVectorPtr(vector));
emit vectorCreated(KstVectorPtr(vector));
vector = 0L;
emit modified();
return true;
}
int main(int argc, char *argv[]) {
int i_file, i_v, i_curve;
int i_plot;
QString fullPath;
KAboutData aboutData("kst", I18N_NOOP("Kst"),
KSTVERSION, description, KAboutData::License_GPL,
I18N_NOOP("(c) 2000-2007 Barth Netterfield"),
0,
"http://kst.kde.org/");
aboutData.addAuthor("Barth Netterfield",
I18N_NOOP("Original author and maintainer."),
"*****@*****.**",
"http://omega.astro.utoronto.ca/");
aboutData.addAuthor("Staikos Computing Services Inc.",
I18N_NOOP("Developed for the University of Toronto."),
"*****@*****.**",
"http://www.staikos.net/");
aboutData.addAuthor("Sumus Technology Limited",
I18N_NOOP("Developed for the University of British Columbia"),
"*****@*****.**",
"http://www.sumusltd.com/");
aboutData.addAuthor("Rick Chern",
I18N_NOOP("University of British Columbia"),
"",
"");
aboutData.addAuthor("Duncan Hanson",
I18N_NOOP("University of British Columbia"),
"",
"");
aboutData.addAuthor("Nicolas Brisset",
"",
"",
"");
aboutData.addAuthor("Matthew Truch",
"",
"http://matt.truch.net/",
"*****@*****.**");
aboutData.addAuthor("Theodore Kisner",
"",
"*****@*****.**",
"");
aboutData.setTranslator(I18N_NOOP("_: NAME OF TRANSLATORS\nYour names"),
I18N_NOOP("_: EMAIL OF TRANSLATORS\nYour emails"));
KCmdLineArgs::init( argc, argv, &aboutData );
KCmdLineArgs::addCmdLineOptions( options ); // Add our own options.
KApplication app;
KImageIO::registerFormats();
KstDialogs::replaceSelf(new KstGuiDialogs);
KstData::replaceSelf(new KstGuiData);
KstApp::initialize();
atexit(exitHelper);
if (app.isRestored()) {
RESTORE(KstApp)
} else {
KstApp *kst = new KstApp;
InType in;
QColor color;
QCStringList ycolList;
QCStringList matrixList;
QCStringList yEqList;
QCStringList psdList;
QCStringList hsList;
QCStringList errorList;
unsigned int i_ycol;
QCStringList::Iterator hs_string;
QCStringList::Iterator eq_i;
QCStringList::Iterator mat_i;
bool showQuickStart = false;
bool showDataWizard = false;
bool nOK;
int n_y = 0;
KCmdLineArgs *args = KCmdLineArgs::parsedArgs();
CheckForCMDErrors(args);
QString wizardfile = args->getOption("w");
QString printfile = args->getOption("print");
QString pngfile = args->getOption("png");
bool print_and_exit = false;
if (printfile != "<none>") {
print_and_exit = true;
}
if (pngfile != "<none>") {
print_and_exit = true;
}
if (!print_and_exit) {
app.setMainWidget(kst);
QRect rect = KGlobalSettings::desktopGeometry(kst);
kst->resize(5 * rect.width() / 6, 5 * rect.height() / 6);
kst->show();
}
// get Y axis columns
ycolList = args->getOptionList("y");
matrixList = args->getOptionList("z");
yEqList = args->getOptionList("ye");
psdList = args->getOptionList("p");
hsList = args->getOptionList("h");
errorList = args->getOptionList("e");
// y axis or PSD specified, so the files are data files, not kst files.
n_y = ycolList.count() + psdList.count() + hsList.count() + yEqList.count() + matrixList.count();
if (n_y > 0) {
QString creatingEquations = i18n("Creating equations");
QString creatingCurves = i18n("Creating curves");
QString creatingPlots = i18n("Creating plots");
int count;
int handled;
kst->slotUpdateProgress( 0, 0, QString::null );
SetCMDOptions(args, in, n_y);
KstTopLevelViewPtr tlv = kst->activeView();
if (!tlv) {
// if there was no active view then we create one...
kst->newWindow(false);
tlv = kst->activeView();
}
if (!tlv) {
kstdError() << i18n("Can't create a view.") << endl;
return 0;
}
CreatePlots(in, tlv);
Kst2DPlotList plist = kstObjectSubList<KstViewObject, Kst2DPlot>(tlv->children());
i_plot = 0;
Kst2DPlotPtr plot = *plist.at(i_plot);
KstVCurveList vcurves = kstObjectSubList<KstBaseCurve,KstVCurve>(plot->Curves);
// make stand alone equations if there are no files
if (args->count() < 1) {
if (!yEqList.isEmpty()) {
QString eqS;
double max, min;
int n;
bool xeq;
SetEqXRanges(args->getOption("xe"), &min, &max, &n, &xeq);
if (xeq) {
count = yEqList.size();
handled = 0;
kst->slotUpdateProgress( count, handled, creatingEquations );
for (eq_i = yEqList.begin(); eq_i != yEqList.end(); ++eq_i) {
eqS = *eq_i;
if (NoVectorEq(eqS)) {
KstEquationPtr eq = new KstEquation(KST::suggestEQName(eqS), eqS, min, max, n);
KstVCurvePtr vc = new KstVCurve(KST::suggestCurveName(eq->tag(), true),
eq->vX(), eq->vY(), 0L, 0L, 0L, 0L,
KstColorSequence::next(vcurves,plot->backgroundColor()));
KST::dataObjectList.lock().writeLock();
KST::dataObjectList.append(eq.data());
KST::dataObjectList.append(vc.data());
KST::dataObjectList.lock().unlock();
plot->addCurve(vc.data());
if (in.sep_plots) {
i_plot++;
if (i_plot < in.n_plots) {
plot = *plist.at(i_plot);
}
}
}
handled++;
kst->slotUpdateProgress( count, handled, creatingEquations );
}
}
}
}
// make the requested curves for each data file
count = args->count();
handled = 0;
kst->slotUpdateProgress( count, handled, creatingCurves );
for (i_curve = i_v = 0, i_file = 0; i_file < args->count(); i_file++) {
// make the file
if (QFile::exists(args->arg(i_file))) {
fullPath = QFileInfo(args->arg(i_file)).absFilePath();
} else {
fullPath = args->arg(i_file);
}
KstDataSourcePtr file = KstDataSource::loadSource(fullPath);
if (file) {
if (!file->isValid() || file->isEmpty()) {
kstdError() << i18n("No data in file %1. Trying to continue...").arg(args->arg(i_file)) << endl;
// The file might get data later!
}
KST::dataObjectList.lock().writeLock();
KST::dataSourceList.append(file);
KST::dataObjectList.lock().unlock();
KstRVectorPtr yvector;
KstRVectorPtr evector;
KstVCurvePtr curve;
KstPSDPtr psd;
KstHistogramPtr hs;
KstRVectorPtr xvector;
if (!ycolList.isEmpty()) { // if there are some xy plots
// make the x axis vector
xvector = GetOrCreateVector(args->getOption("x"), file, in);
if (xvector) {
// make the y axis vectors
for (i_ycol = 0; i_ycol < ycolList.count(); ++i_ycol ) {
yvector = GetOrCreateVector(*(ycolList.at(i_ycol)), file, in);
if (yvector) {
// make the curves
color = KstColorSequence::next(vcurves,plot->backgroundColor());
curve = new KstVCurve(KST::suggestCurveName(yvector->tag(), false),
KstVectorPtr(xvector), KstVectorPtr(yvector),
0L, 0L, 0L, 0L, color);
if (in.has_points) {
curve->setHasPoints(true);
curve->setHasLines(false);
}
if (i_ycol<errorList.count()) {
evector = GetOrCreateVector(*(errorList.at(i_ycol)), file, in);
if (evector) {
curve->setYError(KstVectorPtr(evector));
curve->setYMinusError(KstVectorPtr(evector));
}
}
KST::dataObjectList.lock().writeLock();
KST::dataObjectList.append(curve.data());
KST::dataObjectList.lock().unlock();
plot->addCurve(curve.data());
if (in.sep_plots) {
plot->setTagName(curve->tag());
i_plot++;
if (i_plot < in.n_plots) {
plot = *plist.at(i_plot);
}
} // end (if they are separate plots)
}
} // next y col
}
} // end (if there are some xy plots)
if (!yEqList.isEmpty()) {
QString eqS;
double max, min;
int n;
bool xeq, eq_ok;
SetEqXRanges(args->getOption("xe"), &min, &max, &n, &xeq);
for (eq_i = yEqList.begin(); eq_i != yEqList.end(); ++eq_i) {
KstEquationPtr eq;
eqS = *eq_i;
ProcessEq(eqS, file, in, &eq_ok);
if (xeq) {
eq = new KstEquation(KST::suggestEQName(eqS), eqS, min,max,n);
} else {
if (!xvector) {
xvector = GetOrCreateVector(args->getOption("x"), file, in);
}
if (xvector) {
eq = new KstEquation(KST::suggestEQName(eqS), eqS, KstVectorPtr(xvector), true);
}
}
if (eq) {
KstVCurvePtr vc = new KstVCurve(KST::suggestCurveName(eq->tag(), true),
eq->vX(), eq->vY(), 0L, 0L, 0L, 0L,
KstColorSequence::next(vcurves,plot->backgroundColor()));
KST::dataObjectList.lock().writeLock();
KST::dataObjectList.append(eq.data());
KST::dataObjectList.append(vc.data());
KST::dataObjectList.lock().unlock();
plot->addCurve(vc.data());
if (in.sep_plots) {
plot->setTagName(eq->tag());
i_plot++;
if (i_plot <in.n_plots) {
plot = *plist.at(i_plot);
}
}
}
}
}
if (psdList.count() > 0) { // if there are some psd plots
KstRVectorList rvl = kstObjectSubList<KstVector,KstRVector>(KST::vectorList);
for (QCStringList::ConstIterator it = psdList.begin(); it != psdList.end(); ++it) {
yvector = GetOrCreateVector(*it, file, in);
if (yvector) {
color = KstColorSequence::next(vcurves,plot->backgroundColor());
psd = new KstPSD( KST::suggestPSDName(yvector->tag()), // FIXME: this was yvector->field(), is this right?
KstVectorPtr(yvector), in.rate, true, in.len,
true, true, in.VUnits, in.RUnits, WindowOriginal);
KstVCurvePtr vc = new KstVCurve(KST::suggestCurveName(psd->tag(), true),
psd->vX(), psd->vY(), 0L, 0L, 0L, 0L, color);
if (in.has_points) {
vc->setHasPoints(true);
vc->setHasLines(false);
}
KST::dataObjectList.lock().writeLock();
KST::dataObjectList.append(psd.data());
KST::dataObjectList.append(vc.data());
KST::dataObjectList.lock().unlock();
plot->addCurve(vc.data());
if (in.sep_plots) {
plot->setTagName(psd->tag());
i_plot++;
if (i_plot <in.n_plots) {
plot = *plist.at(i_plot);
}
}
}
} // next psd
} // end (if there are some psds)
if (hsList.count() > 0) { // if there are some histograms
double max, min;
int N;
KstRVectorList rvl = kstObjectSubList<KstVector,KstRVector>(KST::vectorList);
for (hs_string = hsList.begin(); hs_string != hsList.end(); ++hs_string) {
yvector = GetOrCreateVector(*hs_string, file, in);
if (yvector) {
color = KstColorSequence::next(vcurves,plot->backgroundColor());
KstHistogram::AutoBin(KstVectorPtr(yvector), &N, &max, &min);
hs = new KstHistogram(KST::suggestHistogramName(yvector->tag()),
KstVectorPtr(yvector), min, max, N, KST_HS_NUMBER);
KstVCurvePtr vc = new KstVCurve(KST::suggestCurveName(hs->tag(), true),
hs->vX(), hs->vY(),
0L, 0L, 0L, 0L, color);
vc->setHasPoints(false);
vc->setHasLines(false);
vc->setHasBars(true);
vc->setBarStyle(1);
KST::dataObjectList.lock().writeLock();
KST::dataObjectList.append(hs.data());
KST::dataObjectList.append(vc.data());
KST::dataObjectList.lock().unlock();
plot->addCurve(vc.data());
if (in.sep_plots) {
plot->setTagName(hs->tag());
i_plot++;
if (i_plot < in.n_plots) {
plot = *plist.at(i_plot);
}
}
}
} // next histogram
} // end (if there are some histograms)
if (matrixList.count() > 0) { // if there are some matrixes
for (mat_i = matrixList.begin(); mat_i != matrixList.end(); ++mat_i) {
QString tag_name = KST::suggestMatrixName(*mat_i);
if (!file->isValidMatrix(*mat_i)) {
startupErrors.append(i18n("Failed to create matrix '%1' from file '%2'.").arg(*mat_i).arg(file->fileName()));
}
KstRMatrixPtr matrix = new KstRMatrix(file, *mat_i,
KstObjectTag(tag_name, file->tag()),
0,0,-1,-1,false,false,0);
// xStart, yStart, xNumSteps, yNumSteps,
//doAve, doSkip, skip);
// Time to create the image from the matrix
tag_name = KST::suggestImageName(matrix->tag());
QStringList palList = KPalette::getPaletteList();
QString pal;
if (palList.contains("IDL 13 RAINBOW")) {
pal = QString("IDL 13 RAINBOW");
} else {
pal = QString(*palList.at(0));
}
KPalette* newPal = new KPalette(pal);
KstImagePtr image = new KstImage(tag_name, KstMatrixPtr(matrix), 0.0, 1.0,
true, newPal);
plot->addCurve(KstBaseCurvePtr(image));
KST::dataObjectList.lock().writeLock();
KST::dataObjectList.append(image.data());
KST::dataObjectList.lock().unlock();
image = 0L; // drop the reference
if (in.sep_plots) {
plot->setTagName(matrix->tag());
i_plot++;
if (i_plot < in.n_plots) {
plot = *plist.at(i_plot);
}
}
}
}
} else {
startupErrors.append(i18n("Failed to load file '%1'.").arg(args->arg(i_file)));
}
handled++;
kst->slotUpdateProgress( count, handled, creatingCurves );
} // next data file
count = in.n_plots;
handled = 0;
kst->slotUpdateProgress( count, handled, creatingPlots );
for (i_plot = 0; i_plot < in.n_plots; i_plot++) {
plot = *plist.at(i_plot);
plot->generateDefaultLabels();
// if we have only images in a plot then set the scale mode to AUTO (instead of AUTOBORDER)
KstImageList images = kstObjectSubList<KstBaseCurve,KstImage>(plot->Curves);
if (images.count() == plot->Curves.count()) {
plot->setXScaleMode(AUTO);
plot->setYScaleMode(AUTO);
}
if (plot->Curves.count() > 3 || in.dolegend) {
KstViewLegendPtr vl = plot->getOrCreateLegend();
vl->resizeFromAspect(0.1, 0.1, 0.2, 0.1);
vl->setBorderWidth(2);
}
handled++;
kst->slotUpdateProgress( count, handled, creatingPlots );
}
kst->slotUpdateProgress( 0, 0, QString::null );
} else if (args->count() > 0) { // open a kst file
// some of the options can be overridden
kst->openDocumentFile(args->arg(0),
args->getOption("F"), // override FileName
args->getOption("n").toInt(&nOK), // override number of frames
args->getOption("f").toInt(&nOK), // override starting frame
args->getOption("s").toInt(&nOK), // override skip
args->isSet("a"), // add averaging
!print_and_exit); // delayed
} else {
//kst->openDocumentFile();
showQuickStart = true;
}
if (args->isSet("nq")) {
showQuickStart = false;
}
if (args->isSet("w")) {
showDataWizard = true;
showQuickStart = false;
}
if (printfile != "<none>") {
kst->forceUpdate();
kst->immediatePrintToFile(printfile, false);
}
if (pngfile != "<none>") {
kst->forceUpdate();
kst->immediatePrintToPng(pngfile);
}
kst->document()->setModified(false);
if (print_and_exit) {
delete kst;
return 0;
} else {
kst->updateDialogs();
if (showQuickStart) {
kst->showQuickStartDialog();
}
if (showDataWizard) {
kst->showDataWizardWithFile(wizardfile);
}
for (size_t i = 0; i < startupErrors.size(); ++i) {
KstDebug::self()->log(startupErrors[i], KstDebug::Error);
}
startupErrors.clear();
}
// LEAVE THIS HERE - causes crashes otherwise!
int rc = app.exec();
delete kst;
return rc;
}
return app.exec();
}