void KstDataObject::replaceDependency(KstDataObjectPtr oldObject, KstDataObjectPtr newObject) {
//
// find all connections from this object to old object
//
for (KstVectorMap::Iterator j = oldObject->outputVectors().begin(); j != oldObject->outputVectors().end(); ++j) {
for (KstVectorMap::Iterator k = _inputVectors.begin(); k != _inputVectors.end(); ++k) {
if (*j == *k) {
// replace input with the output from newObject
_inputVectors[k.key()] = (newObject->outputVectors())[j.key()];
}
}
// also replace dependencies on vector stats
for (KstScalarMap::Iterator k = _inputScalars.begin(); k != _inputScalars.end(); ++k) {
for (ScalarCollection::const_iterator l = (*j)->scalars().begin(); l != (*j)->scalars().end(); ++l) {
if (*l == *k) {
_inputScalars[k.key()] = (((newObject->outputVectors())[j.key()])->scalars())[l.key()];
}
}
}
}
for (KstMatrixMap::Iterator j = oldObject->outputMatrices().begin(); j != oldObject->outputMatrices().end(); ++j) {
for (KstMatrixMap::Iterator k = _inputMatrices.begin(); k != _inputMatrices.end(); ++k) {
if (*j == *k) {
// replace input with the output from newObject
_inputMatrices[k.key()] = (newObject->outputMatrices())[j.key()];
}
}
// also replace dependencies on matrix stats
for (KstScalarMap::Iterator k = _inputScalars.begin(); k != _inputScalars.end(); ++k) {
for (ScalarCollection::const_iterator l=(*j)->scalars().begin(); l != (*j)->scalars().end(); ++l) {
if (*l == *k) {
_inputScalars[k.key()] = (((newObject->outputMatrices())[j.key()])->scalars())[l.key()];
}
}
}
}
for (KstScalarMap::Iterator j = oldObject->outputScalars().begin(); j != oldObject->outputScalars().end(); ++j) {
for (KstScalarMap::Iterator k = _inputScalars.begin(); k != _inputScalars.end(); ++k) {
if (*j == *k) {
// replace input with the output from newObject
_inputScalars[k.key()] = (newObject->outputScalars())[j.key()];
}
}
}
for (KstStringMap::Iterator j = oldObject->outputStrings().begin(); j != oldObject->outputStrings().end(); ++j) {
for (KstStringMap::Iterator k = _inputStrings.begin(); k != _inputStrings.end(); ++k) {
if (*j == *k) {
// replace input with the output from newObject
_inputStrings[k.key()] = (newObject->outputStrings())[j.key()];
}
}
}
}
void KstCPlugin::save(QTextStream &ts, const QString& indent) {
if (!_plugin) {
return;
}
QString l2 = indent + " ";
ts << indent << "<plugin>" << endl;
ts << l2 << "<tag>" << QStyleSheet::escape(tagName()) << "</tag>" << endl;
ts << l2 << "<name>" << QStyleSheet::escape(_plugin->data()._name) << "</name>" << endl;
for (KstVectorMap::Iterator i = _inputVectors.begin(); i != _inputVectors.end(); ++i) {
ts << l2 << "<ivector name=\"" << QStyleSheet::escape(i.key()) << "\">"
<< QStyleSheet::escape(i.data()->tag().tagString())
<< "</ivector>" << endl;
}
for (KstScalarMap::Iterator i = _inputScalars.begin(); i != _inputScalars.end(); ++i) {
ts << l2 << "<iscalar name=\"" << QStyleSheet::escape(i.key()) << "\">"
<< QStyleSheet::escape(i.data()->tag().tagString())
<< "</iscalar>" << endl;
}
for (KstStringMap::Iterator i = _inputStrings.begin(); i != _inputStrings.end(); ++i) {
ts << l2 << "<istring name=\"" << QStyleSheet::escape(i.key()) << "\">"
<< QStyleSheet::escape(i.data()->tag().tagString())
<< "</istring>" << endl;
}
for (KstVectorMap::Iterator i = _outputVectors.begin(); i != _outputVectors.end(); ++i) {
ts << l2 << "<ovector name=\"" << QStyleSheet::escape(i.key());
if (i.data()->isScalarList()) {
ts << "\" scalarList=\"1";
}
ts << "\">" << QStyleSheet::escape(i.data()->tag().tag())
<< "</ovector>" << endl;
}
for (KstScalarMap::Iterator i = _outputScalars.begin(); i != _outputScalars.end(); ++i) {
ts << l2 << "<oscalar name=\"" << QStyleSheet::escape(i.key()) << "\">"
<< QStyleSheet::escape(i.data()->tag().tag())
<< "</oscalar>" << endl;
}
for (KstStringMap::Iterator i = _outputStrings.begin(); i != _outputStrings.end(); ++i) {
ts << l2 << "<ostring name=\"" << QStyleSheet::escape(i.key()) << "\">"
<< QStyleSheet::escape(i.data()->tag().tag())
<< "</ostring>" << endl;
}
ts << indent << "</plugin>" << endl;
}
void CrossPowerSpectrum::save(QTextStream& ts, const QString& indent) {
QString l2 = indent + " ";
ts << indent << "<plugin name=\"Cross Power Spectrum\">" << endl;
ts << l2 << "<tag>" << QStyleSheet::escape(tagName()) << "</tag>" << endl;
for (KstVectorMap::Iterator i = _inputVectors.begin(); i != _inputVectors.end(); ++i) {
ts << l2 << "<ivector name=\"" << QStyleSheet::escape(i.key()) << "\">"
<< QStyleSheet::escape(i.data()->tagName())
<< "</ivector>" << endl;
}
for (KstScalarMap::Iterator i = _inputScalars.begin(); i != _inputScalars.end(); ++i) {
ts << l2 << "<iscalar name=\"" << QStyleSheet::escape(i.key()) << "\">"
<< QStyleSheet::escape(i.data()->tagName())
<< "</iscalar>" << endl;
}
for (KstStringMap::Iterator i = _inputStrings.begin(); i != _inputStrings.end(); ++i) {
ts << l2 << "<istring name=\"" << QStyleSheet::escape(i.key()) << "\">"
<< QStyleSheet::escape(i.data()->tagName())
<< "</istring>" << endl;
}
for (KstVectorMap::Iterator i = _outputVectors.begin(); i != _outputVectors.end(); ++i) {
ts << l2 << "<ovector name=\"" << QStyleSheet::escape(i.key());
if (i.data()->isScalarList()) {
ts << "\" scalarList=\"1";
}
ts << "\">" << QStyleSheet::escape(i.data()->tagName())
<< "</ovector>" << endl;
}
for (KstScalarMap::Iterator i = _outputScalars.begin(); i != _outputScalars.end(); ++i) {
ts << l2 << "<oscalar name=\"" << QStyleSheet::escape(i.key()) << "\">"
<< QStyleSheet::escape(i.data()->tagName())
<< "</oscalar>" << endl;
}
for (KstStringMap::Iterator i = _outputStrings.begin(); i != _outputStrings.end(); ++i) {
ts << l2 << "<ostring name=\"" << QStyleSheet::escape(i.key()) << "\">"
<< QStyleSheet::escape(i.data()->tagName())
<< "</ostring>" << endl;
}
ts << indent << "</plugin>" << endl;
}