C++ (Cpp) CoordinateComponent::isSetBoundaryMin примеры использования

Пример #1

/*
 * Copy constructor.
 */
CoordinateComponent::CoordinateComponent(const CoordinateComponent& source) 
  : SBase(source)
  , mBoundaryMin(NULL)
  , mBoundaryMax(NULL)
{
  this->mSpatialId=source.mSpatialId;
  this->mComponentType=source.mComponentType;
  this->mSbmlUnit=source.mSbmlUnit;
  this->mIndex=source.mIndex;
  this->mIsSetIndex=source.mIsSetIndex;

  if (source.isSetBoundaryMin())
  this->mBoundaryMin = source.mBoundaryMin->clone();
  if (source.isSetBoundaryMax())
  this->mBoundaryMax = source.mBoundaryMax->clone();

  connectToChild();
}

Пример #2

Файл: example1.cpp Проект: kirichoi/roadrunner

void readSpatialSBML() {
	SBMLDocument *document2 = readSBML("spatial_example2.xml");
  
	Model *model2 = document2->getModel();
	Compartment *comp;
	SpatialCompartmentPlugin* cplugin;
	for (unsigned int i = 0; i < model2->getNumCompartments(); i++) {
		comp = model2->getCompartment(i);
		cout << "Compartment" << i << ": "  << comp->getId() << endl;
		cplugin = static_cast<SpatialCompartmentPlugin*>(comp->getPlugin("spatial"));
		if (cplugin->getCompartmentMapping()->isSetId()) {
			cout << "Comp" << i << "  CMSpId: "  << cplugin->getCompartmentMapping()->getId() << endl;
			cout << "Comp" << i << "  CM_DType: "  << cplugin->getCompartmentMapping()->getDomainType() << endl;
			cout << "Comp" << i << "  CM_UnitSz: "  << cplugin->getCompartmentMapping()->getUnitSize() << endl;
		}
	}

	Species *sp;
	SpatialSpeciesPlugin* srplugin;
	for (unsigned int i = 0; i < model2->getNumSpecies(); i++) {
		sp = model2->getSpecies(i);
		cout << "Species" << i << ": "      << sp->getId()      << endl;
		srplugin = static_cast<SpatialSpeciesPlugin*>(sp->getPlugin("spatial"));
		if (srplugin->getIsSpatial()) {
			cout << "species" << i << "  isSpatial: "  << srplugin->getIsSpatial() << endl;
		}
	}

	Parameter *param;
	SpatialParameterPlugin* pplugin;
	for (unsigned int i = 0; i < model2->getNumParameters(); i++) {
		param = model2->getParameter(i);
		cout << "Parameter" << i << ": "  << param->getId() << endl;
		pplugin = static_cast<SpatialParameterPlugin*>(param->getPlugin("spatial"));
		if (pplugin->isSetSpatialSymbolReference()) {
			cout << "Parameter" << i << "  SpRefId: "  << pplugin->getSpatialSymbolReference()->getSpatialRef() << endl;
		}
		if (pplugin->isSetDiffusionCoefficient()) {
			cout << "Diff_" << i << "  SpeciesVarId: "  << pplugin->getDiffusionCoefficient()->getVariable() << endl;
			cout << "Diff_" << i << "  Type: "  << DiffusionKind_toString(pplugin->getDiffusionCoefficient()->getType()) << endl;
      for (unsigned int j = 0; j < pplugin->getDiffusionCoefficient()->getNumCoordinateReferences(); ++j)
        cout << "Diff_" << i << "  SpCoordIndex  " << j << " : " << CoordinateKind_toString(pplugin->getDiffusionCoefficient()->getCoordinateReference(j) ->getCoordinate()) << endl;
		}
		if (pplugin->isSetAdvectionCoefficient()) {
			cout << "Adv_" << i << "  SpeciesVarId: "  << pplugin->getAdvectionCoefficient()->getVariable() << endl;
			cout << "Adv_" << i << "  SpCoordIndex: "  << CoordinateKind_toString(pplugin->getAdvectionCoefficient()->getCoordinate()) << endl;
		}
		if (pplugin->isSetBoundaryCondition()) {
			cout << "BC_" << i << "  SpeciesVarId: "  << pplugin->getBoundaryCondition()->getVariable() << endl;
			cout << "BC_" << i << "  SpCoordBoundary: "  << pplugin->getBoundaryCondition()->getCoordinateBoundary() << endl;
			cout << "BC_" << i << "  SpBoundaryType: "  << pplugin->getBoundaryCondition()->getType() << endl;
		}
	}

	Reaction *rxn;
	SpatialReactionPlugin* rplugin;
	for (unsigned int i = 0; i < model2->getNumReactions(); i++) {
		rxn = model2->getReaction(i);
		cout << "Reaction" << i << ": "      << rxn->getId()      << endl;
		rplugin = static_cast<SpatialReactionPlugin*>(rxn->getPlugin("spatial"));
		if (rplugin->getIsLocal()) {
			cout << "rxn" << i << "  isLocal: "  << rplugin->getIsLocal() << endl;
		}
	}

	Rule *rule;
	for (unsigned int i = 0; i < model2->getNumRules(); i++) {
		rule = model2->getRule(i);
		cout << "Rule" << i << ": "      << rule->getVariable()      << endl;
	}

	//
	// Get a SpatialModelPlugin object plugged in the model object.
	//
	// The type of the returned value of SBase::getPlugin() function is 
	// SBasePlugin*, and thus the value needs to be cast for the 
	// corresponding derived class.
	//
	SpatialModelPlugin* mplugin2;
	mplugin2 = static_cast<SpatialModelPlugin*>(model2->getPlugin("spatial"));
	cout << "URI: "      << mplugin2->getURI()      << endl;
	cout << "prefix: "      << mplugin2->getPrefix()      << endl;

	// get a Geometry object via SpatialModelPlugin object.
	Geometry* geometry2 = mplugin2->getGeometry();
	cout << "Geometry coordSystem: "      << geometry2->getCoordinateSystem()      << endl;
    
	// get a CoordComponent object via the Geometry object.	
	CoordinateComponent* coordComp = geometry2->getCoordinateComponent(0);
	std::cout << "CoordComponent Id: " << coordComp->getId() << std::endl;
  std::cout << "CoordComponent type: " << CoordinateKind_toString( coordComp->getType()) << std::endl;
	std::cout << "CoordComponent sbmlUnit: " << coordComp->getUnit() << std::endl;
  if (coordComp->isSetBoundaryMin())
  {
  Boundary* minX = coordComp->getBoundaryMin();
	std::cout << "minX name: " << minX->getId() << std::endl;
	std::cout << "minX value: " << minX->getValue() << std::endl;
  }
  if (coordComp->isSetBoundaryMax())
  {
	Boundary* maxX = coordComp->getBoundaryMax();
	std::cout << "maxX name: " << maxX->getId() << std::endl;
	std::cout << "maxX value: " << maxX->getValue() << std::endl;
  }

	// get a DomainType object via the Geometry object.	
	DomainType* domainType2 = geometry2->getDomainType(0);
	std::cout << "DomainType Id: " << domainType2->getId() << std::endl;
	std::cout << "DomainType spatialDim: " << domainType2->getSpatialDimension() << std::endl;

	// get a Domain object via the Geometry object.	
	Domain* domain = geometry2->getDomain(0);
	std::cout << "Domain1 Id: " << domain->getId() << std::endl;
	std::cout << "Domain1 domainType: " << domain->getDomainType() << std::endl;
	// get an internal point via the domain object
	InteriorPoint* internalPt = domain->getInteriorPoint(0);
	std::cout << "InternalPt_1 coord1: " << internalPt->getCoord1() << std::endl;

	// get a Domain object via the Geometry object.	
	domain = geometry2->getDomain(1);
	std::cout << "Domain2 Id: " << domain->getId() << std::endl;
	std::cout << "Domain2 domainType: " << domain->getDomainType() << std::endl;
	// get an internal point via the domain object
	internalPt = domain->getInteriorPoint(0);
	std::cout << "InternalPt_2 coord1: " << internalPt->getCoord1() << std::endl;

	// get an AdjacentDomains object via the Geometry object.	
	AdjacentDomains* adjDomain = geometry2->getAdjacentDomains(0);
	std::cout << "AdjDomain Id: " << adjDomain->getId() << std::endl;
	std::cout << "AdjDomain domain1: " << adjDomain->getDomain1() << std::endl;
	std::cout << "AdjDomain domain2: " << adjDomain->getDomain2() << std::endl;

	// get an AnalyticGeometry object via the Geometry object.
	GeometryDefinition* gd;
	for (unsigned int i = 0; i < geometry2->getNumGeometryDefinitions(); i++) {
		gd = geometry2->getGeometryDefinition(i);
		if (gd->isAnalyticGeometry()) {
			AnalyticGeometry* analyticalGeom = static_cast<AnalyticGeometry*>(gd);
			std::cout << "AnalGeom Id: " << analyticalGeom->getId() << std::endl;

			// analVol from analGeom.
			AnalyticVolume* av = analyticalGeom->getAnalyticVolume(0);
			std::cout << "AnalVol Id: " << av->getId() << std::endl;
			std::cout << "AnalVol domainType: " << av->getDomainType() << std::endl;
			std::cout << "AnalVol funcType: " << av->getFunctionType() << std::endl;
			std::cout << "AnalVol ordinal: " << av->getOrdinal() << std::endl;
			const ASTNode* mathNode = av->getMath();
			char* mathStr = writeMathMLToString(mathNode);
			std::cout << "AnalVol math: " << mathStr << std::endl;
		}
		if (gd->isSampledFieldGeometry()) {
			SampledFieldGeometry* sfGeom = static_cast<SampledFieldGeometry*>(gd);
			std::cout << "SampledFieldGeom Id: " << sfGeom->getId() << std::endl;
			
			// sampledField from sfGeom
			SampledField* sf = sfGeom->getSampledField();
			std::cout << "SampledField Id: " << sf->getId() << std::endl;
			std::cout << "SampledField dataType: " << sf->getDataType() << std::endl;
			std::cout << "SampledField interpolation: " << sf->getInterpolationType() << std::endl;
			std::cout << "SampledField encoding: " << sf->getEncoding() << std::endl;
			std::cout << "SampledField numSamples1: " << sf->getNumSamples1() << std::endl;
			std::cout << "SampledField numSamples2: " << sf->getNumSamples2() << std::endl;
			std::cout << "SampledField numSamples3: " << sf->getNumSamples3() << std::endl;
			const ImageData* id = sf->getImageData();
			int* samples = new int[id->getSamplesLength()];
			id->getSamples(samples);
			std::cout << "ImageData samples[0]: " << samples[0] << std::endl;
			std::cout << "ImageData dtype: " << id->getDataType() << std::endl;
			std::cout << "ImageData samplesLen: " << id->getSamplesLength() << std::endl;
      
			// sampledVolVol from sfGeom.
			SampledVolume* sv = sfGeom->getSampledVolume(0);
			std::cout << "SampledVol Id: " << sv->getId() << std::endl;
			std::cout << "SampledVol domainType: " << sv->getDomainType() << std::endl;
			std::cout << "SampledVol sampledVal: " << sv->getSampledValue() << std::endl;
			std::cout << "SampledVol min: " << sv->getMinValue() << std::endl;
			std::cout << "SampledVol max: " << sv->getMaxValue() << std::endl;
		}
	}

	delete document2;
}