Exemple #1
0
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 BinnedMap::save(QTextStream& ts, const QString& indent) {
  QString l2 = indent + "  ";
  ts << indent << "<plugin name=\"Binned Map\">" << 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 (KstMatrixMap::Iterator i = _outputMatrices.begin(); i != _outputMatrices.end(); ++i) {
    ts << l2 << "<omatrix name=\"" << QStyleSheet::escape(i.key());
    ts << "\">" << QStyleSheet::escape(i.data()->tagName())
        << "</omatrix>" << endl;
  }
  ts << 12 << "<minX>" << xMin() << "</minX>" << endl;
  ts << 12 << "<maxX>" << xMax() << "</maxX>" << endl;
  ts << 12 << "<minY>" << yMin() << "</minY>" << endl;
  ts << 12 << "<maxY>" << yMax() << "</maxY>" << endl;
  ts << 12 << "<nX>" << nX() << "</nX>" << endl;
  ts << 12 << "<nY>" << nY() << "</nY>" << endl;
  if (autoBin()) {
    ts << 12 << "<autoBin/>" << endl;
  }

  ts << indent << "</plugin>" << endl;
}
Exemple #3
0
void KstEquation::replaceDependency(KstDataObjectPtr oldObject, KstDataObjectPtr newObject) {
  
  QString newExp = _equation;
  
  // replace all occurences of outputVectors, outputScalars from oldObject
  for (KstVectorMap::Iterator j = oldObject->outputVectors().begin(); j != oldObject->outputVectors().end(); ++j) {
    QString oldTag = j.data()->tagName();
    QString newTag = ((newObject->outputVectors())[j.key()])->tagName();
    newExp = newExp.replace("[" + oldTag + "]", "[" + newTag + "]");
  }
  
  for (KstScalarMap::Iterator j = oldObject->outputScalars().begin(); j != oldObject->outputScalars().end(); ++j) {
    QString oldTag = j.data()->tagName();
    QString newTag = ((newObject->outputScalars())[j.key()])->tagName();
    newExp = newExp.replace("[" + oldTag + "]", "[" + newTag + "]");
  }
  
  // and dependencies on matrix stats (there won't be matrices themselves in the expression)
  for (KstMatrixMap::Iterator j = oldObject->outputMatrices().begin(); j != oldObject->outputMatrices().end(); ++j) {
    QDictIterator<KstScalar> scalarDictIter(j.data()->scalars());
    for (; scalarDictIter.current(); ++scalarDictIter) {
      QString oldTag = scalarDictIter.current()->tagName();
      QString newTag = ((((newObject->outputMatrices())[j.key()])->scalars())[scalarDictIter.currentKey()])->tagName();
      newExp = newExp.replace("[" + oldTag + "]", "[" + newTag + "]"); 
    }
  }
  
  // only replace _inputVectors
  for (KstVectorMap::Iterator j = oldObject->outputVectors().begin(); j != oldObject->outputVectors().end(); ++j) {
    for (KstVectorMap::Iterator k = _inputVectors.begin(); k != _inputVectors.end(); ++k) {
      if (j.data().data() == k.data().data()) {
        // replace input with the output from newObject
        _inputVectors[k.key()] = (newObject->outputVectors())[j.key()]; 
      }
    }
    // and dependencies on vector stats
    QDictIterator<KstScalar> scalarDictIter(j.data()->scalars());
    for (; scalarDictIter.current(); ++scalarDictIter) {
      QString oldTag = scalarDictIter.current()->tagName();
      QString newTag = ((((newObject->outputVectors())[j.key()])->scalars())[scalarDictIter.currentKey()])->tagName();
      newExp = newExp.replace("[" + oldTag + "]", "[" + newTag + "]"); 
    }
  }
  
  setEquation(newExp);
}
Exemple #4
0
void KstDataObject::replaceDependency(KstMatrixPtr oldMatrix, KstMatrixPtr newMatrix) {
  KstMatrixMap::Iterator j;

  for (j = _inputMatrices.begin(); j != _inputMatrices.end(); ++j) {
    if (*j == oldMatrix) {
      _inputMatrices[j.key()] = newMatrix;
    }
  }

  ScalarCollection::const_iterator it;
  
  for (KstScalarMap::Iterator j = _inputScalars.begin(); j != _inputScalars.end(); ++j) {
    for (it =oldMatrix->scalars().begin(); it != oldMatrix->scalars().end(); ++it) {
      if ((*it) == (*j)) {
        _inputScalars[j.key()] = (newMatrix->scalars())[it.key()];
      }
    }
  }
}