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Refactoring DFT elements

tempestpy_adaptions
Matthias Volk 6 years ago
parent
c91033ebb1
commit
10c29d936b
12 changed files with 330 additions and 194 deletions
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  1. 10
      src/storm-dft/builder/DFTBuilder.cpp
  2. 1
      src/storm-dft/storage/dft/DFT.cpp
  3. 3
      src/storm-dft/storage/dft/elements/BEConst.h
  4. 2
      src/storm-dft/storage/dft/elements/BEExponential.h
  5. 45
      src/storm-dft/storage/dft/elements/DFTAnd.h
  6. 16
      src/storm-dft/storage/dft/elements/DFTBE.h
  7. 147
      src/storm-dft/storage/dft/elements/DFTDependency.h
  8. 4
      src/storm-dft/storage/dft/elements/DFTGate.h
  9. 46
      src/storm-dft/storage/dft/elements/DFTOr.h
  10. 77
      src/storm-dft/storage/dft/elements/DFTPand.h
  11. 81
      src/storm-dft/storage/dft/elements/DFTPor.h
  12. 92
      src/storm-dft/storage/dft/elements/DFTVot.h

10
src/storm-dft/builder/DFTBuilder.cpp
View File

@ -74,12 +74,10 @@ namespace storm {
childElement->addOutgoingDependency(elem.first);
}
}
if (binaryDependencies) {
STORM_LOG_ASSERT(dependencies.size() == 1, "Dependency '" << elem.first->name() << "' should only have one dependent element.");
}
elem.first->setDependentEvents(dependencies);
for (auto& dependency : dependencies) {
dependency->addIngoingDependency(elem.first);
STORM_LOG_ASSERT(!binaryDependencies || dependencies.size() == 1, "Dependency '" << elem.first->name() << "' should only have one dependent element.");
for (auto& be : dependencies) {
elem.first->addDependentEvent(be);
be->addIngoingDependency(elem.first);
}
}

1
src/storm-dft/storage/dft/DFT.cpp
View File

@ -621,6 +621,7 @@ namespace storm {
}
}
}
// TODO check VOT gates
return wellformed;
}

3
src/storm-dft/storage/dft/elements/BEConst.h
View File

@ -7,6 +7,7 @@ namespace storm {
/*!
* BE which is either constant failed or constant failsafe.
* The BE is either always failed (from the beginning) or can never fail (failsafe).
*/
template<typename ValueType>
class BEConst : public DFTBE<ValueType> {
@ -38,7 +39,7 @@ namespace storm {
return this->failed();
}
bool isTypeEqualTo(DFTElement <ValueType> const& other) const override {
bool isTypeEqualTo(DFTElement<ValueType> const& other) const override {
if (!DFTElement<ValueType>::isTypeEqualTo(other)) {
return false;
}

2
src/storm-dft/storage/dft/elements/BEExponential.h
View File

@ -78,7 +78,7 @@ namespace storm {
return storm::utility::isZero(this->passiveFailureRate());
}
bool isTypeEqualTo(DFTElement <ValueType> const& other) const override {
bool isTypeEqualTo(DFTElement<ValueType> const& other) const override {
if (!DFTElement<ValueType>::isTypeEqualTo(other)) {
return false;
}

45
src/storm-dft/storage/dft/elements/DFTAnd.h
View File

@ -1,44 +1,53 @@
#pragma once
#pragma once
#include "DFTGate.h"
namespace storm {
namespace storage {
/*!
* AND gate.
* Fails if all children have failed.
*/
template<typename ValueType>
class DFTAnd : public DFTGate<ValueType> {
public:
DFTAnd(size_t id, std::string const& name, std::vector<std::shared_ptr<DFTElement<ValueType>>> const& children = {}) :
DFTGate<ValueType>(id, name, children)
{}
/*!
* Constructor.
* @param id Id.
* @param name Name.
* @param children Children.
*/
DFTAnd(size_t id, std::string const& name, std::vector<std::shared_ptr<DFTElement<ValueType>>> const& children = {}) : DFTGate<ValueType>(id, name, children) {
// Intentionally empty
}
DFTElementType type() const override {
return DFTElementType::AND;
}
void checkFails(storm::storage::DFTState<ValueType>& state, DFTStateSpaceGenerationQueues<ValueType>& queues) const override {
if(state.isOperational(this->mId)) {
for(auto const& child : this->mChildren)
{
if(!state.hasFailed(child->id())) {
if (state.isOperational(this->mId)) {
for (auto const& child : this->mChildren) {
if (!state.hasFailed(child->id())) {
return;
}
}
// All children have failed
this->fail(state, queues);
}
}
void checkFailsafe(storm::storage::DFTState<ValueType>& state, DFTStateSpaceGenerationQueues<ValueType>& queues) const override {
STORM_LOG_ASSERT(this->hasFailsafeChild(state), "No failsafe child.");
if(state.isOperational(this->mId)) {
if (state.isOperational(this->mId)) {
this->failsafe(state, queues);
this->childrenDontCare(state, queues);
}
}
virtual DFTElementType type() const override {
return DFTElementType::AND;
}
std::string typestring() const override {
return "AND";
}
};
}
}

16
src/storm-dft/storage/dft/elements/DFTBE.h
View File

@ -6,7 +6,8 @@ namespace storm {
namespace storage {
/*!
* Abstract base class for basic elements (BEs) in DFTs.
* Abstract base class for basic events (BEs) in DFTs.
* BEs are atomic and not further subdivided.
*/
template<typename ValueType>
class DFTBE : public DFTElement<ValueType> {
@ -36,8 +37,7 @@ namespace storm {
* @param dependency Ingoing dependency.
*/
void addIngoingDependency(std::shared_ptr<DFTDependency<ValueType>> const& dependency) {
// TODO write this assertion for n-ary dependencies, probably by adding a method to the dependencies to support this.
//STORM_LOG_ASSERT(e->dependentEvent()->id() == this->id(), "Ids do not match.");
STORM_LOG_ASSERT(dependency->containsDependentEvent(this->id()), "Dependency " << *dependency << " has no dependent BE " << *this << ".");
STORM_LOG_ASSERT(std::find(mIngoingDependencies.begin(), mIngoingDependencies.end(), dependency) == mIngoingDependencies.end(),
"Ingoing Dependency " << dependency << " already present.");
mIngoingDependencies.push_back(dependency);
@ -69,19 +69,19 @@ namespace storm {
}
DFTElement<ValueType>::extendSubDft(elemsInSubtree, parentsOfSubRoot, blockParents, sparesAsLeaves);
if (elemsInSubtree.empty()) {
// Parent in the subdft, ie it is *not* a subdft
// Parent in the subDFT, i.e., it is *not* a subDFT
return;
}
for (auto const& incDep : ingoingDependencies()) {
incDep->extendSubDft(elemsInSubtree, parentsOfSubRoot, blockParents, sparesAsLeaves);
for (auto const& inDep : ingoingDependencies()) {
inDep->extendSubDft(elemsInSubtree, parentsOfSubRoot, blockParents, sparesAsLeaves);
if (elemsInSubtree.empty()) {
// Parent in the subdft, ie it is *not* a subdft
// Parent in the subDFT, i.e., it is *not* a subDFT
return;
}
}
}
bool checkDontCareAnymore(storm::storage::DFTState<ValueType>& state, DFTStateSpaceGenerationQueues <ValueType>& queues) const override {
bool checkDontCareAnymore(storm::storage::DFTState<ValueType>& state, DFTStateSpaceGenerationQueues<ValueType>& queues) const override {
if (DFTElement<ValueType>::checkDontCareAnymore(state, queues)) {
state.beNoLongerFailable(this->id());
return true;

147
src/storm-dft/storage/dft/elements/DFTDependency.h
View File

@ -1,120 +1,175 @@
#pragma once
#include "DFTElement.h"
namespace storm {
namespace storage {
/*!
* Dependency gate with probability p.
* If p=1 the gate is a functional dependency (FDEP), otherwise it is a probabilistic dependency (PDEP).
*
* If the trigger event (i.e., the first child) fails, a coin is flipped.
* With probability p the failure is forwarded to all other children.
* With probability 1-p the failure is not forwarded and the dependency has no effect.
*
* The failure forwarding to the children happens in a strict (non-deterministically chosen) order.
*/
template<typename ValueType>
class DFTDependency : public DFTElement<ValueType> {
using DFTGatePointer = std::shared_ptr<DFTGate<ValueType>>;
using DFTBEPointer = std::shared_ptr<DFTBE<ValueType>>;
protected:
ValueType mProbability;
DFTGatePointer mTriggerEvent;
std::vector<DFTBEPointer> mDependentEvents;
public:
DFTDependency(size_t id, std::string const& name, ValueType probability) :
DFTElement<ValueType>(id, name), mProbability(probability)
{
/*!
* Constructor.
* @param id Id.
* @param name Name.
* @param probability Probability p of failure forwarding.
*/
DFTDependency(size_t id, std::string const& name, ValueType probability) : DFTElement<ValueType>(id, name), mProbability(probability) {
// We cannot assert 0<=p<=1 in general, because ValueType might be RationalFunction.
}
virtual ~DFTDependency() {}
void setTriggerElement(DFTGatePointer const& triggerEvent) {
mTriggerEvent = triggerEvent;
}
void setDependentEvents(std::vector<DFTBEPointer> const& dependentEvents) {
mDependentEvents = dependentEvents;
DFTElementType type() const override {
return DFTElementType::PDEP;
}
/*!
* Get probability of forwarding the failure.
* @return Probability.
*/
ValueType const& probability() const {
return mProbability;
}
/*!
* Get trigger event, i.e., the first child.
* @return Trigger event.
*/
DFTGatePointer const& triggerEvent() const {
STORM_LOG_ASSERT(mTriggerEvent, "Trigger does not exist.");
return mTriggerEvent;
}
/*!
* Set the trigger event, i.e., the first child.
* @param triggerEvent Trigger event.
*/
void setTriggerElement(DFTGatePointer const& triggerEvent) {
mTriggerEvent = triggerEvent;
}
/*!
* Get dependent events.
* @return Dependent events.
*/
std::vector<DFTBEPointer> const& dependentEvents() const {
STORM_LOG_ASSERT(mDependentEvents.size() > 0, "Dependent element does not exists.");
STORM_LOG_ASSERT(mDependentEvents.size() > 0, "Dependent event does not exists.");
return mDependentEvents;
}
DFTElementType type() const override {
return DFTElementType::PDEP;
/*!
* Add dependent event.
* @param dependentEvent Dependent event.
*/
void addDependentEvent(DFTBEPointer const& dependentEvent) {
mDependentEvents.push_back(dependentEvent);
}
/*!
* Check whether the given element is a dependent event.
* @param id Id of element to search for.
* @return True iff element was found in dependent events.
*/
bool containsDependentEvent(size_t id) {
auto it = std::find_if(this->mDependentEvents.begin(), this->mDependentEvents.end(), [&id](DFTBEPointer be) -> bool {
return be->id() == id;
});
return it != this->mDependentEvents.end();
}
virtual size_t nrChildren() const override {
return 1;
}
virtual bool isDependency() const override {
bool isDependency() const override {
return true;
}
virtual bool isTypeEqualTo(DFTElement<ValueType> const& other) const override {
if(!DFTElement<ValueType>::isTypeEqualTo(other)) return false;
DFTDependency<ValueType> const& otherDEP= static_cast<DFTDependency<ValueType> const&>(other);
return (mProbability == otherDEP.mProbability);
/*!
* Check whether the dependency is an FDEP, i.e., p=1.
* @return True iff p=1.
*/
bool isFDEP() const {
return storm::utility::isOne(this->probability());
}
bool isTypeEqualTo(DFTElement<ValueType> const& other) const override {
if (!DFTElement<ValueType>::isTypeEqualTo(other)) {
return false;
}
auto& otherDEP = static_cast<DFTDependency<ValueType> const&>(other);
return this->probability() == otherDEP.probability();
}
virtual void extendSpareModule(std::set<size_t>& elementsInSpareModule) const override {
void extendSpareModule(std::set<size_t>& elementsInSpareModule) const override {
// Do nothing
}
virtual std::vector<size_t> independentUnit() const override {
std::vector<size_t> independentUnit() const override {
std::set<size_t> unit = {this->mId};
for(auto const& depEv : mDependentEvents) {
for (auto const& depEv : mDependentEvents) {
depEv->extendUnit(unit);
if(unit.count(mTriggerEvent->id()) != 0) {
if (unit.count(mTriggerEvent->id()) != 0) {
return {};
}
}
return std::vector<size_t>(unit.begin(), unit.end());
}
virtual void extendSubDft(std::set<size_t>& elemsInSubtree, std::vector<size_t> const& parentsOfSubRoot, bool blockParents, bool sparesAsLeaves) const override {
if(elemsInSubtree.count(this->id())) return;
void extendSubDft(std::set<size_t>& elemsInSubtree, std::vector<size_t> const& parentsOfSubRoot, bool blockParents, bool sparesAsLeaves) const override {
if (elemsInSubtree.count(this->id())) {
return;
}
DFTElement<ValueType>::extendSubDft(elemsInSubtree, parentsOfSubRoot, blockParents, sparesAsLeaves);
if(elemsInSubtree.empty()) {
if (elemsInSubtree.empty()) {
// Parent in the subdft, ie it is *not* a subdft
return;
}
for (auto const& depEv : mDependentEvents) {
depEv->extendSubDft(elemsInSubtree, parentsOfSubRoot, blockParents, sparesAsLeaves);
if (elemsInSubtree.empty()) return;
if (elemsInSubtree.empty()) {
return;
}
}
if(elemsInSubtree.empty()) {
if (elemsInSubtree.empty()) {
// Parent in the subdft, ie it is *not* a subdft
return;
}
mTriggerEvent->extendSubDft(elemsInSubtree, parentsOfSubRoot, blockParents, sparesAsLeaves);
}
virtual std::string toString() const override {
std::string toString() const override {
std::stringstream stream;
bool isFDEP = storm::utility::isOne(this->probability());
stream << "{" << this->name() << "} " << (isFDEP ? "FDEP" : "PDEP") << "(" << this->triggerEvent()->name() << " => { ";
for(auto const& depEv : this->dependentEvents()) {
stream << "{" << this->name() << "} " << (this->isFDEP() ? "FDEP" : "PDEP") << "(" << this->triggerEvent()->name() << " => { ";
for (auto const& depEv : this->dependentEvents()) {
stream << depEv->name() << " ";
}
stream << "}";
if (!isFDEP) {
if (!this->isFDEP()) {
stream << " with probability " << this->probability();
}
return stream.str();
}
protected:
private:
ValueType mProbability;
DFTGatePointer mTriggerEvent;
std::vector<DFTBEPointer> mDependentEvents;
};

4
src/storm-dft/storage/dft/elements/DFTGate.h
View File

@ -40,7 +40,9 @@ namespace storm {
}
virtual std::string typestring() const = 0;
virtual std::string typestring() const {
return storm::storage::toString(this->type());
}
virtual void checkFails(storm::storage::DFTState<ValueType>& state, DFTStateSpaceGenerationQueues<ValueType>& queues) const = 0;

46
src/storm-dft/storage/dft/elements/DFTOr.h
View File

@ -1,39 +1,49 @@
#pragma once
#pragma once
#include "DFTGate.h"
namespace storm {
namespace storage {
/*!
* OR gate.
* Fails if at least one child has failed.
*/
template<typename ValueType>
class DFTOr : public DFTGate<ValueType> {
public:
DFTOr(size_t id, std::string const& name, std::vector<std::shared_ptr<DFTElement<ValueType>>> const& children = {}) :
DFTGate<ValueType>(id, name, children)
{}
/*!
* Constructor.
* @param id Id.
* @param name Name.
* @param children Children.
*/
DFTOr(size_t id, std::string const& name, std::vector<std::shared_ptr<DFTElement<ValueType>>> const& children = {}) : DFTGate<ValueType>(id, name, children) {
// Intentionally empty
}
DFTElementType type() const override {
return DFTElementType::OR;
}
void checkFails(storm::storage::DFTState<ValueType>& state, DFTStateSpaceGenerationQueues<ValueType>& queues) const override {
STORM_LOG_ASSERT(this->hasFailedChild(state), "No failed child.");
if(state.isOperational(this->mId)) {
if (state.isOperational(this->mId)) {
this->fail(state, queues);
}
}
void checkFailsafe(storm::storage::DFTState<ValueType>& state, DFTStateSpaceGenerationQueues<ValueType>& queues) const override {
for(auto const& child : this->mChildren) {
if(!state.isFailsafe(child->id())) {
return;
}
}
this->failsafe(state, queues);
for (auto const& child : this->mChildren) {
if (!state.isFailsafe(child->id())) {
return;
}
}
// All chidren are failsafe
this->failsafe(state, queues);
}
virtual DFTElementType type() const override {
return DFTElementType::OR;
}
std::string typestring() const override {
return "OR";
}
};
}

77
src/storm-dft/storage/dft/elements/DFTPand.h
View File

@ -1,57 +1,78 @@
#pragma once
#pragma once
#include "DFTGate.h"
namespace storm {
namespace storage {
template<typename ValueType>
/*!
* Priority AND (PAND) gate.
* Fails if all children fail in order from first to last child.
* If a child fails before its left sibling, the PAND becomes failsafe.
* For inclusive PAND<= gates, simultaneous failures are allowed.
* For exclusive PAND< gates, simultaneous failure make the gate failsafe.
*/
template<typename ValueType>
class DFTPand : public DFTGate<ValueType> {
public:
DFTPand(size_t id, std::string const& name, bool inclusive, std::vector<std::shared_ptr<DFTElement<ValueType>>> const& children = {}) :
DFTGate<ValueType>(id, name, children),
inclusive(inclusive)
{}
void checkFails(storm::storage::DFTState<ValueType>& state, DFTStateSpaceGenerationQueues<ValueType>& queues) const override {
assert(inclusive);
if(state.isOperational(this->mId)) {
/*!
* Constructor.
* @param id Id.
* @param name Name.
* @param inclusive If true, simultaneous failures are allowed.
* parame children Children.
*/
DFTPand(size_t id, std::string const& name, bool inclusive, std::vector<std::shared_ptr<DFTElement<ValueType>>> const& children = {}) : DFTGate<ValueType>(id, name, children), inclusive(inclusive) {
// Intentionally left empty.
}
DFTElementType type() const override {
return DFTElementType::PAND;
}
std::string typestring() const override {
return isInclusive() ? "PAND (incl)" : "PAND (excl)";
}
/*!
* Return whether the PAND is inclusive.
* @return True iff PAND is inclusive.
*/
bool isInclusive() const {
return inclusive;
}
void checkFails(storm::storage::DFTState<ValueType>& state, DFTStateSpaceGenerationQueues<ValueType>& queues) const override {
STORM_LOG_ASSERT(isInclusive(), "Exclusive PAND not supported.");
if (state.isOperational(this->mId)) {
bool childOperationalBefore = false;
for(auto const& child : this->mChildren)
{
if(!state.hasFailed(child->id())) {
for (auto const& child : this->mChildren) {
if (!state.hasFailed(child->id())) {
childOperationalBefore = true;
} else if(childOperationalBefore && state.hasFailed(child->id())){
} else if (childOperationalBefore && state.hasFailed(child->id())) {
// Child failed before sibling -> failsafe
this->failsafe(state, queues);
this->childrenDontCare(state, queues);
return;
}
}
if(!childOperationalBefore) {
if (!childOperationalBefore) {
// All children have failed
this->fail(state, queues);
}
}
}
void checkFailsafe(storm::storage::DFTState<ValueType>& state, DFTStateSpaceGenerationQueues<ValueType>& queues) const override {
assert(inclusive);
STORM_LOG_ASSERT(isInclusive(), "Exclusive PAND not supported.");
STORM_LOG_ASSERT(this->hasFailsafeChild(state), "No failsafe child.");
if(state.isOperational(this->mId)) {
if (state.isOperational(this->mId)) {
this->failsafe(state, queues);
this->childrenDontCare(state, queues);
}
}
virtual DFTElementType type() const override {
return DFTElementType::PAND;
}
bool isInclusive() const {
return inclusive;
}
std::string typestring() const override {
return inclusive ? "PAND-inc" : "PAND-ex";
}
protected:
bool inclusive;
};

81
src/storm-dft/storage/dft/elements/DFTPor.h
View File

@ -1,53 +1,76 @@
#pragma once
#pragma once
#include "DFTGate.h"
namespace storm {
namespace storage {
/*!
* Priority OR (POR) gate.
* Fails if the leftmost child fails before all other children.
* If a child fails before the leftmost child, the POR becomes failsafe.
* For inclusive POR<= gates, simultaneous failures are allowed.
* For exclusive POR< gates, simultaneous failures make the gate failsafe.
*/
template<typename ValueType>
class DFTPor : public DFTGate<ValueType> {
public:
DFTPor(size_t id, std::string const& name, bool inclusive, std::vector<std::shared_ptr<DFTElement<ValueType>>> const& children = {}) :
DFTGate<ValueType>(id, name, children),
inclusive(inclusive)
{}
void checkFails(storm::storage::DFTState<ValueType>& state, DFTStateSpaceGenerationQueues<ValueType>& queues) const override {
assert(inclusive);
if(state.isOperational(this->mId)) {
if (state.hasFailed(this->mChildren.front()->id())) {
/*!
* Constructor.
* @param id Id.
* @param name Name.
* @param inclusive If true, simultaneous failures are allowed.
* parame children Children.
*/
DFTPor(size_t id, std::string const& name, bool inclusive, std::vector<std::shared_ptr<DFTElement<ValueType>>> const& children = {}) : DFTGate<ValueType>(id, name, children), inclusive(inclusive) {
// Intentionally left empty.
}
DFTElementType type() const override {
return DFTElementType::POR;
}
std::string typestring() const override {
return isInclusive() ? "POR (incl)" : "POR (excl)";
}
/*!
* Return whether the PAND is inclusive.
* @return True iff PAND is inclusive.
*/
bool isInclusive() const {
return inclusive;
}
void checkFails(storm::storage::DFTState<ValueType>& state, DFTStateSpaceGenerationQueues <ValueType>& queues) const override {
STORM_LOG_ASSERT(isInclusive(), "Exclusive POR not supported.");
if (state.isOperational(this->mId)) {
auto childIter = this->mChildren.begin();
if (state.hasFailed((*childIter)->id())) {
// First child has failed before others
this->fail(state, queues);
} else {
for (size_t i = 1; i < this->nrChildren(); ++i) {
if (state.hasFailed(this->mChildren[i]->id())) {
// Child has failed before first child
this->failsafe(state, queues);
this->childrenDontCare(state, queues);
}
return;
}
// Iterate over other children
for (; childIter != this->mChildren.end(); ++childIter) {
if (state.hasFailed((*childIter)->id())) {
// Child has failed before first child
this->failsafe(state, queues);
this->childrenDontCare(state, queues);
}
}
}
}
void checkFailsafe(storm::storage::DFTState<ValueType>& state, DFTStateSpaceGenerationQueues<ValueType>& queues) const override {
assert(inclusive);
STORM_LOG_ASSERT(isInclusive(), "Exclusive POR not supported.");
// If first child is not failsafe, it could still fail.
if (state.isFailsafe(this->mChildren.front()->id())) {
this->failsafe(state, queues);
this->childrenDontCare(state, queues);
}
}
virtual DFTElementType type() const override {
return DFTElementType::POR;
}
std::string typestring() const override {
return inclusive ? "POR-inc" : "POR-ex";
}
bool isInclusive() const {
return inclusive;
}
protected:
bool inclusive;
};

92
src/storm-dft/storage/dft/elements/DFTVot.h
View File

@ -1,48 +1,70 @@
#pragma once
#pragma once
#include "DFTGate.h"
namespace storm {
namespace storage {
/*!
* VOT gate with threshold k.
* Fails if k children have failed.
*/
template<typename ValueType>
class DFTVot : public DFTGate<ValueType> {
private:
unsigned mThreshold;
public:
DFTVot(size_t id, std::string const& name, unsigned threshold, std::vector<std::shared_ptr<DFTElement<ValueType>>> const& children = {}) :
DFTGate<ValueType>(id, name, children), mThreshold(threshold)
{}
/*!
* Constructor.
* @param id Id.
* @param name Name.
* @param threshold Threshold k, nr of failed children needed for failure.
* @param children Children.
*/
DFTVot(size_t id, std::string const& name, unsigned threshold, std::vector<std::shared_ptr<DFTElement<ValueType>>> const& children = {}) : DFTGate<ValueType>(id, name, children), mThreshold(threshold) {
STORM_LOG_ASSERT(mThreshold > 1, "Should use OR gate instead of VOT1");
// k=n cannot be checked as children might be added later
}
/*!
* Get the threshold k.
* @return Threshold.
*/
unsigned threshold() const {
return mThreshold;
}
DFTElementType type() const override {
return DFTElementType::VOT;
}
std::string typestring() const override {
return storm::storage::toString(this->type()) + " (" + std::to_string(mThreshold) + ")";
}
void checkFails(storm::storage::DFTState<ValueType>& state, DFTStateSpaceGenerationQueues<ValueType>& queues) const override {
if(state.isOperational(this->mId)) {
if (state.isOperational(this->mId)) {
unsigned nrFailedChildren = 0;
for(auto const& child : this->mChildren)
{
if(state.hasFailed(child->id())) {
for (auto const& child : this->mChildren) {
if (state.hasFailed(child->id())) {
++nrFailedChildren;
if(nrFailedChildren >= mThreshold)
{
if (nrFailedChildren >= mThreshold) {
this->fail(state, queues);
return;
}
}
}
}
}
}
void checkFailsafe(storm::storage::DFTState<ValueType>& state, DFTStateSpaceGenerationQueues<ValueType>& queues) const override {
STORM_LOG_ASSERT(this->hasFailsafeChild(state), "No failsafe child.");
if(state.isOperational(this->mId)) {
if (state.isOperational(this->mId)) {
unsigned nrFailsafeChildren = 0;
for(auto const& child : this->mChildren)
{
if(state.isFailsafe(child->id())) {
for (auto const& child : this->mChildren) {
if (state.isFailsafe(child->id())) {
++nrFailsafeChildren;
if(nrFailsafeChildren > this->nrChildren() - mThreshold)
{
if (nrFailsafeChildren > this->nrChildren() - mThreshold) {
this->failsafe(state, queues);
this->childrenDontCare(state, queues);
return;
@ -51,24 +73,18 @@ namespace storm {
}
}
}
unsigned threshold() const {
return mThreshold;
}
virtual DFTElementType type() const override {
return DFTElementType::VOT;
}
std::string typestring() const override{
return "VOT (" + std::to_string(mThreshold) + ")";
}
virtual bool isTypeEqualTo(DFTElement<ValueType> const& other) const override {
if(!DFTElement<ValueType>::isTypeEqualTo(other)) return false;
DFTVot<ValueType> const& otherVOT = static_cast<DFTVot<ValueType> const&>(other);
return (mThreshold == otherVOT.mThreshold);
bool isTypeEqualTo(DFTElement<ValueType> const& other) const override {
if (!DFTElement<ValueType>::isTypeEqualTo(other)) {
return false;
}
auto& otherVOT = static_cast<DFTVot<ValueType> const&>(other);
return this->threshold() == otherVOT.threshold();
}
private:
unsigned mThreshold;
};
}

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