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 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); }
void EventMonitorEntry::replaceDependency(KstDataObjectPtr oldObject, KstDataObjectPtr newObject) { QString newExp = _event; // replace all occurences of outputVectors, outputScalars from oldObject for (KstVectorMap::ConstIterator j = oldObject->outputVectors().begin(); j != oldObject->outputVectors().end(); ++j) { const QString oldTag = j.value()->tagName(); const QString newTag = newObject->outputVectors()[j.key()]->tagName(); newExp = newExp.replace("[" + oldTag + "]", "[" + newTag + "]"); } for (KstScalarMap::ConstIterator j = oldObject->outputScalars().begin(); j != oldObject->outputScalars().end(); ++j) { const QString oldTag = j.value()->tagName(); const QString newTag = newObject->outputScalars()[j.key()]->tagName(); newExp = newExp.replace("[" + oldTag + "]", "[" + newTag + "]"); } // and dependencies on vector stats for (KstVectorMap::ConstIterator j = oldObject->outputVectors().begin(); j != oldObject->outputVectors().end(); ++j) { const QHash<QString, KstScalar*>& scalarMap(newObject->outputVectors()[j.key()]->scalars()); QHashIterator<QString, KstScalar*> scalarDictIter(j.value()->scalars()); while (scalarDictIter.hasNext()) { const QString oldTag = scalarDictIter.next().value()->tagName(); const QString newTag = scalarMap[scalarDictIter.key()]->tagName(); newExp = newExp.replace("[" + oldTag + "]", "[" + newTag + "]"); } } // and dependencies on matrix stats for (KstMatrixMap::ConstIterator j = oldObject->outputMatrices().begin(); j != oldObject->outputMatrices().end(); ++j) { const QHash<QString, KstScalar*>& scalarMap(newObject->outputMatrices()[j.key()]->scalars()); QHashIterator<QString, KstScalar*> scalarDictIter(j.value()->scalars()); while (scalarDictIter.hasNext()) { const QString oldTag = scalarDictIter.next().value()->tagName(); const QString newTag = scalarMap[scalarDictIter.key()]->tagName(); newExp = newExp.replace("[" + oldTag + "]", "[" + newTag + "]"); } } setEvent(newExp); setDirty(); // events have no _inputVectors }
KstObjectItem::KstObjectItem(QListView *parent, KstDataObjectPtr x, KstDataManagerI *dm, int localUseCount) : QObject(), QListViewItem(parent), _rtti(RTTI_OBJ_OBJECT), _tag(x->tag()), _dm(dm) { assert(x); _inUse = false; setText(0, x->tag().tag()); for (KstVectorMap::Iterator i = x->outputVectors().begin(); i != x->outputVectors().end(); ++i) { KstObjectItem *item = new KstObjectItem(this, i.data(), _dm); connect(item, SIGNAL(updated()), this, SIGNAL(updated())); } for (KstMatrixMap::Iterator i = x->outputMatrices().begin(); i != x->outputMatrices().end(); ++i) { KstObjectItem *item = new KstObjectItem(this, i.data(), _dm); connect(item, SIGNAL(updated()), this, SIGNAL(updated())); } x = 0L; // keep the counts in sync update(false, localUseCount); }
void KstObjectItem::update(bool recursive, int localUseCount) { switch (_rtti) { case RTTI_OBJ_DATA_VECTOR: { KST::vectorList.lock().readLock(); KstRVectorPtr x = kst_cast<KstRVector>(*KST::vectorList.findTag(_tag)); KST::vectorList.lock().unlock(); if (x) { x->readLock(); // getUsage: subtract 1 for KstRVectorPtr x bool inUse = (x->getUsage() - 1 - localUseCount) > 0; if (inUse != _inUse) { _inUse = inUse; setPixmap(2, inUse ? _dm->yesPixmap() : QPixmap()); } QString field; if (inUse) { field = QString::number(x->length()); } else { field = "-"; } if (text(3) != field) { setText(3, field); } field = i18n("%3: %4 [%1..%2]").arg(x->reqStartFrame()) .arg(x->reqStartFrame() + x->reqNumFrames()) .arg(x->filename()) .arg(x->field()); if (text(4) != field) { setText(4, field); } _removable = x->getUsage() == 2; x->unlock(); } // Hmmm what happens if this if() fails?? We become inconsistent? break; } case RTTI_OBJ_STATIC_VECTOR: { KST::vectorList.lock().readLock(); KstSVectorPtr x = kst_cast<KstSVector>(*KST::vectorList.findTag(_tag)); KST::vectorList.lock().unlock(); if (x) { x->readLock(); // getUsage: subtract 1 for KstRVectorPtr x bool inUse = (x->getUsage() - 1 - localUseCount) > 0; if (inUse != _inUse) { _inUse = inUse; setPixmap(2, inUse ? _dm->yesPixmap() : QPixmap()); } QString field; if (inUse) { field = QString::number(x->length()); } else { field = "-"; } if (text(3) != field) { setText(3, field); } field = i18n("%1 to %2").arg(x->min()).arg(x->max()); if (text(4) != field) { setText(4, field); } _removable = x->getUsage() == 2; x->unlock(); } // Hmmm what happens if this if() fails?? We become inconsistent? break; } case RTTI_OBJ_VECTOR: { KST::vectorList.lock().readLock(); KstVectorPtr x = *KST::vectorList.findTag(_tag); KST::vectorList.lock().unlock(); if (x) { x->readLock(); // getUsage: // subtract 1 for KstVectorPtr x bool inUse = (x->getUsage() - 1 - localUseCount) > 0; if (inUse != _inUse) { _inUse = inUse; setPixmap(2, inUse ? _dm->yesPixmap() : QPixmap()); } QString field = QString::number(x->length()); if (text(3) != field) { setText(3, field); } field = i18n("[%1..%2]").arg(x->min()).arg(x->max()); if (text(4) != field) { setText(4, field); } x->unlock(); _removable = false; } break; } case RTTI_OBJ_OBJECT: { KST::dataObjectList.lock().readLock(); KstDataObjectPtr x = *KST::dataObjectList.findTag(_tag.tag()); KST::dataObjectList.lock().unlock(); if (x) { x->readLock(); QString field = x->typeString(); if (text(1) != field) { setText(1, field); } // getUsage: // subtract 1 for KstDataObjectPtr x bool inUse = (x->getUsage() - 1 - localUseCount) > 0; if (inUse != _inUse) { _inUse = inUse; setPixmap(2, inUse ? _dm->yesPixmap() : QPixmap()); } if (x->sampleCount() > 0) { field = QString::number(x->sampleCount()); if (text(3) != field) { setText(3, field); } } else { if (text(3) != "-") { setText(3, "-"); } } field = x->propertyString(); if (text(4) != field) { setText(4, field); } if (recursive) { QPtrStack<QListViewItem> trash; KstVectorMap vl = x->outputVectors(); KstVectorMap::Iterator vlEnd = vl.end(); for (QListViewItem *i = firstChild(); i; i = i->nextSibling()) { KstObjectItem *oi = static_cast<KstObjectItem*>(i); if (vl.findTag(oi->tag().tag()) == vlEnd) { trash.push(i); } } trash.setAutoDelete(true); trash.clear(); // get the output vectors for (KstVectorMap::Iterator p = vl.begin(); p != vlEnd; ++p) { bool found = false; QString tn = p.data()->tag().tag(); for (QListViewItem *i = firstChild(); i; i = i->nextSibling()) { KstObjectItem *oi = static_cast<KstObjectItem*>(i); if (oi->tag().tag() == tn) { oi->update(); found = true; break; } } if (!found) { KstObjectItem *item = new KstObjectItem(this, p.data(), _dm); connect(item, SIGNAL(updated()), this, SIGNAL(updated())); } } KstMatrixMap ml = x->outputMatrices(); KstMatrixMap::Iterator mlEnd = ml.end(); // also get the output matrices for (KstMatrixMap::Iterator p = ml.begin(); p != mlEnd; ++p) { bool found = false; QString tn = p.data()->tag().tag(); for (QListViewItem *i = firstChild(); i; i = i->nextSibling()) { KstObjectItem *oi = static_cast<KstObjectItem*>(i); if (oi->tag().tag() == tn) { oi->update(); found = true; break; } } if (!found) { KstObjectItem *item = new KstObjectItem(this, p.data(), _dm); connect(item, SIGNAL(updated()), this, SIGNAL(updated())); } } } _removable = x->getUsage() == 1; x->unlock(); } break; } case RTTI_OBJ_DATA_MATRIX: { KST::matrixList.lock().readLock(); KstRMatrixPtr x = kst_cast<KstRMatrix>(*KST::matrixList.findTag(_tag)); KST::matrixList.lock().unlock(); if (x) { x->readLock(); // getUsage: subtract 1 for KstRMatrixPtr x bool inUse = (x->getUsage() - 1 - localUseCount) > 0; if (inUse != _inUse) { _inUse = inUse; setPixmap(2, inUse ? _dm->yesPixmap() : QPixmap()); } QString field = QString::number(x->sampleCount()); if (text(3) != field) { setText(3, field); } field = i18n("%1: %2 (%3 by %4)").arg(x->filename()).arg(x->field()) .arg(x->xNumSteps()) .arg(x->yNumSteps()); if (text(4) != field) { setText(4, field); } _removable = x->getUsage() == 2; x->unlock(); } break; } case RTTI_OBJ_STATIC_MATRIX: { KST::matrixList.lock().readLock(); KstSMatrixPtr x = kst_cast<KstSMatrix>(*KST::matrixList.findTag(_tag)); KST::matrixList.lock().unlock(); if (x) { x->readLock(); // getUsage: subtract 1 for KstRMatrixPtr x bool inUse = (x->getUsage() - 1 - localUseCount) > 0; if (inUse != _inUse) { _inUse = inUse; setPixmap(2, inUse ? _dm->yesPixmap() : QPixmap()); } QString field = QString::number(x->sampleCount()); if (text(3) != field) { setText(3, field); } field = i18n("%1 to %2").arg(x->gradZMin()).arg(x->gradZMax()); if (text(4) != field) { setText(4, field); } _removable = x->getUsage() == 2; x->unlock(); } break; } case RTTI_OBJ_MATRIX: { KST::matrixList.lock().readLock(); KstMatrixPtr x = *KST::matrixList.findTag(_tag); KST::matrixList.lock().unlock(); if (x) { x->readLock(); // getUsage: // subtract 1 for KstVectorPtr x bool inUse = (x->getUsage() - 1 - localUseCount) > 0; if (inUse != _inUse) { _inUse = inUse; setPixmap(2, inUse ? _dm->yesPixmap() : QPixmap()); } QString field = QString::number(x->sampleCount()); if (text(3) != field) { setText(3, field); } field = i18n("[%1..%2]").arg(x->minValue()).arg(x->maxValue()); if (text(4) != field) { setText(4, field); } x->unlock(); _removable = false; } break; } default: assert(0); } }