#include "storm/storage/sparse/StateValuations.h"
#include "storm/storage/BitVector.h"
#include "storm/utility/vector.h"
#include "storm/utility/macros.h"
#include "storm/exceptions/InvalidTypeException.h"
namespace storm {
namespace storage {
namespace sparse {
StateValuations::StateValuation::StateValuation(std::vector<bool>&& booleanValues, std::vector<int64_t>&& integerValues, std::vector<storm::RationalNumber>&& rationalValues) : booleanValues(std::move(booleanValues)), integerValues(std::move(integerValues)), rationalValues(std::move(rationalValues)) {
// Intentionally left empty
}
typename StateValuations::StateValuation const& StateValuations::getValuation(storm::storage::sparse::state_type const& stateIndex) const {
STORM_LOG_ASSERT(stateIndex < valuations.size(), "Invalid state index.");
STORM_LOG_ASSERT(assertValuation(valuations[stateIndex]), "Invalid state valuations");
return valuations[stateIndex];
}
StateValuations::StateValueIterator::StateValueIterator(typename std::map<storm::expressions::Variable, uint64_t>::const_iterator variableIt, StateValuation const* valuation) : variableIt(variableIt), valuation(valuation) {
// Intentionally left empty.
}
storm::expressions::Variable const& StateValuations::StateValueIterator::getVariable() const { return variableIt->first; }
bool StateValuations::StateValueIterator::isBoolean() const { return getVariable().hasBooleanType(); }
bool StateValuations::StateValueIterator::isInteger() const { return getVariable().hasIntegerType(); }
bool StateValuations::StateValueIterator::isRational() const { return getVariable().hasRationalType(); }
bool StateValuations::StateValueIterator::getBooleanValue() const {
STORM_LOG_ASSERT(isBoolean(), "Variable has no boolean type.");
return valuation->booleanValues[variableIt->second];
}
int64_t StateValuations::StateValueIterator::getIntegerValue() const {
STORM_LOG_ASSERT(isInteger(), "Variable has no integer type.");
return valuation->integerValues[variableIt->second];
}
storm::RationalNumber StateValuations::StateValueIterator::getRationalValue() const {
STORM_LOG_ASSERT(isRational(), "Variable has no rational type.");
return valuation->rationalValues[variableIt->second];
}
bool StateValuations::StateValueIterator::operator==(StateValueIterator const& other) {
STORM_LOG_ASSERT(valuation == valuation, "Comparing iterators for different states");
return variableIt == other.variableIt;
}
bool StateValuations::StateValueIterator::operator!=(StateValueIterator const& other) {
STORM_LOG_ASSERT(valuation == valuation, "Comparing iterators for different states");
return variableIt != other.variableIt;
}
typename StateValuations::StateValueIterator& StateValuations::StateValueIterator::operator++() {
++variableIt;
return *this;
}
typename StateValuations::StateValueIterator& StateValuations::StateValueIterator::operator--() {
--variableIt;
return *this;
}
StateValuations::StateValueIteratorRange::StateValueIteratorRange(std::map<storm::expressions::Variable, uint64_t> const& variableMap, StateValuation const* valuation) : variableMap(variableMap), valuation(valuation) {
// Intentionally left empty.
}
StateValuations::StateValueIterator StateValuations::StateValueIteratorRange::begin() const {
return StateValueIterator(variableMap.cbegin(), valuation);
}
StateValuations::StateValueIterator StateValuations::StateValueIteratorRange::end() const {
return StateValueIterator(variableMap.cend(), valuation);
}
bool StateValuations::getBooleanValue(storm::storage::sparse::state_type const& stateIndex, storm::expressions::Variable const& booleanVariable) const {
auto const& valuation = getValuation(stateIndex);
STORM_LOG_ASSERT(variableToIndexMap.count(booleanVariable) > 0, "Variable " << booleanVariable.getName() << " is not part of this valuation.");
return valuation.booleanValues[variableToIndexMap.at(booleanVariable)];
}
int64_t const& StateValuations::getIntegerValue(storm::storage::sparse::state_type const& stateIndex, storm::expressions::Variable const& integerVariable) const {
auto const& valuation = getValuation(stateIndex);
STORM_LOG_ASSERT(variableToIndexMap.count(integerVariable) > 0, "Variable " << integerVariable.getName() << " is not part of this valuation.");
return valuation.integerValues[variableToIndexMap.at(integerVariable)];
}
storm::RationalNumber const& StateValuations::getRationalValue(storm::storage::sparse::state_type const& stateIndex, storm::expressions::Variable const& rationalVariable) const {
auto const& valuation = getValuation(stateIndex);
STORM_LOG_ASSERT(variableToIndexMap.count(rationalVariable) > 0, "Variable " << rationalVariable.getName() << " is not part of this valuation.");
return valuation.rationalValues[variableToIndexMap.at(rationalVariable)];
}
bool StateValuations::isEmpty(storm::storage::sparse::state_type const& stateIndex) const {
auto const& valuation = getValuation(stateIndex);
return valuation.booleanValues.empty() && valuation.integerValues.empty() && valuation.rationalValues.empty();
}
std::string StateValuations::toString(storm::storage::sparse::state_type const& stateIndex, bool pretty, boost::optional<std::set<storm::expressions::Variable>> const& selectedVariables) const {
auto const& valueAssignment = at(stateIndex);
typename std::set<storm::expressions::Variable>::const_iterator setIt;
if (selectedVariables) {
setIt = selectedVariables->begin();
}
std::vector<std::string> assignments;
for (auto valIt = valueAssignment.begin(); valIt != valueAssignment.end(); ++valIt) {
if (selectedVariables && (*setIt != valIt.getVariable())) {
continue;
}
std::stringstream stream;
if (pretty) {
if (valIt.isBoolean() && !valIt.getBooleanValue()) {
stream << "!";
}
stream << valIt.getVariable().getName();
if (valIt.isInteger()) {
stream << "=" << valIt.getIntegerValue();
} else if (valIt.isRational()) {
stream << "=" << valIt.getRationalValue();
} else {
STORM_LOG_THROW(valIt.isBoolean(), storm::exceptions::InvalidTypeException, "Unexpected variable type.");
}
} else {
if (valIt.isBoolean()) {
stream << std::boolalpha << valIt.getBooleanValue() << std::noboolalpha;
} else if (valIt.isInteger()) {
stream << valIt.getIntegerValue();
} else if (valIt.isRational()) {
stream << valIt.getRationalValue();
}
}
assignments.push_back(stream.str());
if (selectedVariables) {
// Go to next selected position
++setIt;
}
}
STORM_LOG_ASSERT(!selectedVariables || setIt == selectedVariables->end(), "Valuation does not consider selected variable " << setIt->getName() << ".");
if (pretty) {
return "[" + boost::join(assignments, "\t& ") + "]";
} else {
return "[" + boost::join(assignments, "\t") + "]";
}
}
typename StateValuations::Json StateValuations::toJson(storm::storage::sparse::state_type const& stateIndex, boost::optional<std::set<storm::expressions::Variable>> const& selectedVariables) const {
auto const& valueAssignment = at(stateIndex);
typename std::set<storm::expressions::Variable>::const_iterator setIt;
if (selectedVariables) {
setIt = selectedVariables->begin();
}
Json result;
for (auto valIt = valueAssignment.begin(); valIt != valueAssignment.end(); ++valIt) {
if (selectedVariables && (*setIt != valIt.getVariable())) {
continue;
}
if (valIt.isBoolean()) {
result[valIt.getVariable().getName()] = valIt.getBooleanValue();
} else if (valIt.isInteger()) {
result[valIt.getVariable().getName()] = valIt.getIntegerValue();
} else {
STORM_LOG_ASSERT(valIt.isRational(), "Unexpected variable type.");
result[valIt.getVariable().getName()] = valIt.getRationalValue();
}
if (selectedVariables) {
// Go to next selected position
++setIt;
}
}
return result;
}
bool StateValuations::assertValuation(StateValuation const& valuation) const {
storm::storage::BitVector foundBooleanValues(valuation.booleanValues.size(), false);
storm::storage::BitVector foundIntegerValues(valuation.integerValues.size(), false);
storm::storage::BitVector foundRationalValues(valuation.rationalValues.size(), false);
for (auto const& varIndex : variableToIndexMap) {
storm::storage::BitVector* bv;
if (varIndex.first.hasBooleanType()) {
bv = &foundBooleanValues;
} else if (varIndex.first.hasIntegerType()) {
bv = &foundIntegerValues;
} else if (varIndex.first.hasRationalType()) {
bv = &foundRationalValues;
} else {
STORM_LOG_THROW(false, storm::exceptions::InvalidTypeException, "Unexpected variable type.");
}
if (varIndex.second < bv->size()) {
if (bv->get(varIndex.second)) {
STORM_LOG_ERROR("Multiple variables refer to the same value index");
return false;
}
bv->set(varIndex.second, true);
} else {
STORM_LOG_ERROR("Valuation does not provide a value for all variables");
return false;
}
}
if (!(foundBooleanValues.full() && foundIntegerValues.full() && foundRationalValues.full())) {
STORM_LOG_ERROR("Valuation has too many entries.");
}
return true;
}
StateValuations::StateValuations(std::map<storm::expressions::Variable, uint64_t> const& variableToIndexMap, std::vector<StateValuation>&& valuations) : variableToIndexMap(variableToIndexMap), valuations(valuations) {
// Intentionally left empty
}
std::string StateValuations::getStateInfo(state_type const& state) const {
STORM_LOG_ASSERT(state < getNumberOfStates(), "Invalid state index.");
return this->toString(state);
}
typename StateValuations::StateValueIteratorRange StateValuations::at(state_type const& state) const {
STORM_LOG_ASSERT(state < getNumberOfStates(), "Invalid state index.");
return StateValueIteratorRange({variableToIndexMap, &(valuations[state])});
}
uint_fast64_t StateValuations::getNumberOfStates() const {
return valuations.size();
}
std::size_t StateValuations::hash() const {
return 0;
}
StateValuations StateValuations::selectStates(storm::storage::BitVector const& selectedStates) const {
return StateValuations(variableToIndexMap, storm::utility::vector::filterVector(valuations, selectedStates));
}
StateValuations StateValuations::selectStates(std::vector<storm::storage::sparse::state_type> const& selectedStates) const {
std::vector<StateValuation> selectedValuations;
selectedValuations.reserve(selectedStates.size());
for (auto const& selectedState : selectedStates){
if (selectedState < valuations.size()) {
selectedValuations.push_back(valuations[selectedState]);
} else {
selectedValuations.emplace_back();
}
}
return StateValuations(variableToIndexMap, std::move(selectedValuations));
}
StateValuations StateValuations::blowup(const std::vector<uint64_t> &mapNewToOld) const {
std::vector<StateValuation> newValuations;
for( auto const& oldState : mapNewToOld) {
newValuations.push_back(valuations[oldState]);
}
return StateValuations(variableToIndexMap, std::move(newValuations));
}
StateValuationsBuilder::StateValuationsBuilder() : booleanVarCount(0), integerVarCount(0), rationalVarCount(0) {
// Intentionally left empty.
}
void StateValuationsBuilder::addVariable(storm::expressions::Variable const& variable) {
STORM_LOG_ASSERT(currentStateValuations.valuations.empty(), "Tried to add a variable, although a state has already been added before.");
STORM_LOG_ASSERT(currentStateValuations.variableToIndexMap.count(variable) == 0, "Variable " << variable.getName() << " already added.");
if (variable.hasBooleanType()) {
currentStateValuations.variableToIndexMap[variable] = booleanVarCount++;
}
if (variable.hasIntegerType()) {
currentStateValuations.variableToIndexMap[variable] = integerVarCount++;
}
if (variable.hasRationalType()) {
currentStateValuations.variableToIndexMap[variable] = rationalVarCount++;
}
}
void StateValuationsBuilder::addState(storm::storage::sparse::state_type const& state, std::vector<bool>&& booleanValues, std::vector<int64_t>&& integerValues, std::vector<storm::RationalNumber>&& rationalValues) {
if (state > currentStateValuations.valuations.size()) {
currentStateValuations.valuations.resize(state);
}
if (state == currentStateValuations.valuations.size()) {
currentStateValuations.valuations.emplace_back(std::move(booleanValues), std::move(integerValues), std::move(rationalValues));
} else {
STORM_LOG_ASSERT(currentStateValuations.isEmpty(state), "Adding a valuation to the same state multiple times.");
currentStateValuations.valuations[state] = typename StateValuations::StateValuation(std::move(booleanValues), std::move(integerValues), std::move(rationalValues));
}
}
StateValuations StateValuationsBuilder::build(std::size_t totalStateCount) {
return std::move(currentStateValuations);
booleanVarCount = 0;
integerVarCount = 0;
rationalVarCount = 0;
}
}
}
}