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addded post scheduler json export

removed workaround in pre scheduler json
tempestpy_adaptions
Thomas Knoll 1 year ago
parent
commit
de2243b095
  1. 124
      src/storm/storage/PostScheduler.cpp
  2. 78
      src/storm/storage/PreScheduler.cpp

124
src/storm/storage/PostScheduler.cpp

@ -130,74 +130,62 @@ namespace storm {
template <typename ValueType> template <typename ValueType>
void PostScheduler<ValueType>::printJsonToStream(std::ostream& out, std::shared_ptr<storm::models::sparse::Model<ValueType>> model, bool skipUniqueChoices) const { void PostScheduler<ValueType>::printJsonToStream(std::ostream& out, std::shared_ptr<storm::models::sparse::Model<ValueType>> model, bool skipUniqueChoices) const {
// STORM_LOG_THROW(model == nullptr || model->getNumberOfStates() == schedulerChoices.front().size(), storm::exceptions::InvalidOperationException, "The given model is not compatible with this scheduler.");
// STORM_LOG_WARN_COND(!(skipUniqueChoices && model == nullptr), "Can not skip unique choices if the model is not given.");
// storm::json<storm::RationalNumber> output;
// for (uint64_t state = 0; state < schedulerChoices.front().size(); ++state) {
// // Check whether the state is skipped
// if (skipUniqueChoices && model != nullptr && model->getTransitionMatrix().getRowGroupSize(state) == 1) {
// continue;
// }
// for (uint_fast64_t memoryState = 0; memoryState < getNumberOfMemoryStates(); ++memoryState) {
// storm::json<storm::RationalNumber> stateChoicesJson;
// if (model && model->hasStateValuations()) {
// stateChoicesJson["s"] = model->getStateValuations().template toJson<storm::RationalNumber>(state);
// } else {
// stateChoicesJson["s"] = state;
// }
// if (!isMemorylessScheduler()) {
// stateChoicesJson["m"] = memoryState;
// }
// auto const &choice = schedulerChoices[memoryState][state];
// storm::json<storm::RationalNumber> choicesJson;
// for (auto const &choiceProbPair : choice.getChoiceMap()) {
// uint64_t globalChoiceIndex = model->getTransitionMatrix().getRowGroupIndices()[state] ;//+ choiceProbPair.first;
// storm::json<storm::RationalNumber> choiceJson;
// if (model && model->hasChoiceOrigins() &&
// model->getChoiceOrigins()->getIdentifier(globalChoiceIndex) !=
// model->getChoiceOrigins()->getIdentifierForChoicesWithNoOrigin()) {
// choiceJson["origin"] = model->getChoiceOrigins()->getChoiceAsJson(globalChoiceIndex);
// }
// if (model && model->hasChoiceLabeling()) {
// auto choiceLabels = model->getChoiceLabeling().getLabelsOfChoice(globalChoiceIndex);
// choiceJson["labels"] = std::vector<std::string>(choiceLabels.begin(),
// choiceLabels.end());
// }
// choiceJson["index"] = globalChoiceIndex;
// choiceJson["prob"] = storm::utility::convertNumber<storm::RationalNumber>(
// std::get<1>(choiceProbPair));
// // Memory updates
// if(!isMemorylessScheduler()) {
// choiceJson["memory-updates"] = std::vector<storm::json<storm::RationalNumber>>();
// uint64_t row = model->getTransitionMatrix().getRowGroupIndices()[state]; //+ std::get<0>(choiceProbPair);
// for (auto entryIt = model->getTransitionMatrix().getRow(row).begin(); entryIt < model->getTransitionMatrix().getRow(row).end(); ++entryIt) {
// storm::json<storm::RationalNumber> updateJson;
// // next model state
// if (model && model->hasStateValuations()) {
// updateJson["s'"] = model->getStateValuations().template toJson<storm::RationalNumber>(entryIt->getColumn());
// } else {
// updateJson["s'"] = entryIt->getColumn();
// }
// // next memory state
// updateJson["m'"] = this->memoryStructure->getSuccessorMemoryState(memoryState, entryIt - model->getTransitionMatrix().begin());
// choiceJson["memory-updates"].push_back(std::move(updateJson));
// }
// }
// choicesJson.push_back(std::move(choiceJson));
// }
// if (!choicesJson.is_null()) {
// stateChoicesJson["c"] = std::move(choicesJson);
// output.push_back(std::move(stateChoicesJson));
// }
// }
// }
// out << output.dump(4);
STORM_LOG_THROW(model == nullptr || model->getNumberOfStates() == schedulerChoiceMapping.front().size(), storm::exceptions::InvalidOperationException, "The given model is not compatible with this scheduler.");
STORM_LOG_WARN_COND(!(skipUniqueChoices && model == nullptr), "Can not skip unique choices if the model is not given.");
storm::json<storm::RationalNumber> output;
for (uint64_t state = 0; state < schedulerChoiceMapping.front().size(); ++state) {
// Check whether the state is skipped
if (skipUniqueChoices && model != nullptr && model->getTransitionMatrix().getRowGroupSize(state) == 1) {
continue;
}
storm::json<storm::RationalNumber> stateChoicesJson;
if (model && model->hasStateValuations()) {
stateChoicesJson["s"] = model->getStateValuations().template toJson<storm::RationalNumber>(state);
} else {
stateChoicesJson["s"] = state;
}
auto const &choice = schedulerChoiceMapping[0][state];
storm::json<storm::RationalNumber> choicesJson;
if (!choice.getChoiceMap().empty()) {
for (auto const &choiceProbPair : choice.getChoiceMap()) {
uint64_t globalChoiceIndex = model->getTransitionMatrix().getRowGroupIndices()[state] + std::get<0>(choiceProbPair);
uint64_t globalChoiceCorrectionIndex = model->getTransitionMatrix().getRowGroupIndices()[state] + std::get<1>(choiceProbPair);
storm::json<storm::RationalNumber> choiceJson;
if (model && model->hasChoiceOrigins() &&
model->getChoiceOrigins()->getIdentifier(globalChoiceIndex) !=
model->getChoiceOrigins()->getIdentifierForChoicesWithNoOrigin()) {
auto choiceOriginJson = model->getChoiceOrigins()->getChoiceAsJson(globalChoiceIndex);
auto choiceOriginCorrectionJson = model->getChoiceOrigins()->getChoiceAsJson(globalChoiceCorrectionIndex);
std::string choiceActionLabel = choiceOriginJson["action-label"];
std::string choiceCorrectionActionLabel = choiceOriginCorrectionJson["action-label"];
choiceOriginJson["action-label"] = choiceActionLabel.append(": ").append(choiceCorrectionActionLabel);
choiceJson["origin"] = choiceOriginJson;
}
if (model && model->hasChoiceLabeling()) {
auto choiceLabels = model->getChoiceLabeling().getLabelsOfChoice(globalChoiceIndex);
choiceJson["labels"] = std::vector<std::string>(choiceLabels.begin(),
choiceLabels.end());
}
choiceJson["index"] = globalChoiceIndex;
choiceJson["prob"] = storm::utility::convertNumber<storm::RationalNumber>(
std::get<1>(choiceProbPair));
choicesJson.push_back(std::move(choiceJson));
}
} else {
choicesJson = "undefined";
}
stateChoicesJson["c"] = std::move(choicesJson);
output.push_back(std::move(stateChoicesJson));
}
out << output.dump(4);
} }

78
src/storm/storage/PreScheduler.cpp

@ -165,48 +165,50 @@ namespace storm {
auto const &choice = schedulerChoices[memoryState][state]; auto const &choice = schedulerChoices[memoryState][state];
storm::json<storm::RationalNumber> choicesJson; storm::json<storm::RationalNumber> choicesJson;
for (auto const &choiceProbPair : choice.getChoiceMap()) {
uint64_t globalChoiceIndex = model->getTransitionMatrix().getRowGroupIndices()[state] + std::get<uint_fast64_t>(choiceProbPair);
storm::json<storm::RationalNumber> choiceJson;
if (model && model->hasChoiceOrigins() &&
model->getChoiceOrigins()->getIdentifier(globalChoiceIndex) !=
model->getChoiceOrigins()->getIdentifierForChoicesWithNoOrigin()) {
choiceJson["origin"] = model->getChoiceOrigins()->getChoiceAsJson(globalChoiceIndex);
}
if (model && model->hasChoiceLabeling()) {
auto choiceLabels = model->getChoiceLabeling().getLabelsOfChoice(globalChoiceIndex);
choiceJson["labels"] = std::vector<std::string>(choiceLabels.begin(),
choiceLabels.end());
}
choiceJson["index"] = globalChoiceIndex;
choiceJson["prob"] = storm::utility::convertNumber<storm::RationalNumber>(
std::get<ValueType>(choiceProbPair));
// Memory updates
if(!isMemorylessScheduler()) {
choiceJson["memory-updates"] = std::vector<storm::json<storm::RationalNumber>>();
uint64_t row = model->getTransitionMatrix().getRowGroupIndices()[state] + std::get<uint_fast64_t>(choiceProbPair);
for (auto entryIt = model->getTransitionMatrix().getRow(row).begin(); entryIt < model->getTransitionMatrix().getRow(row).end(); ++entryIt) {
storm::json<storm::RationalNumber> updateJson;
// next model state
if (model && model->hasStateValuations()) {
updateJson["s'"] = model->getStateValuations().template toJson<storm::RationalNumber>(entryIt->getColumn());
} else {
updateJson["s'"] = entryIt->getColumn();
if (!choice.getChoiceMap().empty()) {
for (auto const &choiceProbPair : choice.getChoiceMap()) {
uint64_t globalChoiceIndex = model->getTransitionMatrix().getRowGroupIndices()[state] + std::get<uint_fast64_t>(choiceProbPair);
storm::json<storm::RationalNumber> choiceJson;
if (model && model->hasChoiceOrigins() &&
model->getChoiceOrigins()->getIdentifier(globalChoiceIndex) !=
model->getChoiceOrigins()->getIdentifierForChoicesWithNoOrigin()) {
choiceJson["origin"] = model->getChoiceOrigins()->getChoiceAsJson(globalChoiceIndex);
}
if (model && model->hasChoiceLabeling()) {
auto choiceLabels = model->getChoiceLabeling().getLabelsOfChoice(globalChoiceIndex);
choiceJson["labels"] = std::vector<std::string>(choiceLabels.begin(),
choiceLabels.end());
}
choiceJson["index"] = globalChoiceIndex;
choiceJson["prob"] = storm::utility::convertNumber<storm::RationalNumber>(
std::get<ValueType>(choiceProbPair));
// Memory updates
if(!isMemorylessScheduler()) {
choiceJson["memory-updates"] = std::vector<storm::json<storm::RationalNumber>>();
uint64_t row = model->getTransitionMatrix().getRowGroupIndices()[state] + std::get<uint_fast64_t>(choiceProbPair);
for (auto entryIt = model->getTransitionMatrix().getRow(row).begin(); entryIt < model->getTransitionMatrix().getRow(row).end(); ++entryIt) {
storm::json<storm::RationalNumber> updateJson;
// next model state
if (model && model->hasStateValuations()) {
updateJson["s'"] = model->getStateValuations().template toJson<storm::RationalNumber>(entryIt->getColumn());
} else {
updateJson["s'"] = entryIt->getColumn();
}
// next memory state
updateJson["m'"] = this->memoryStructure->getSuccessorMemoryState(memoryState, entryIt - model->getTransitionMatrix().begin());
choiceJson["memory-updates"].push_back(std::move(updateJson));
} }
// next memory state
updateJson["m'"] = this->memoryStructure->getSuccessorMemoryState(memoryState, entryIt - model->getTransitionMatrix().begin());
choiceJson["memory-updates"].push_back(std::move(updateJson));
} }
}
choicesJson.push_back(std::move(choiceJson));
}
if (!choicesJson.is_null()) {
stateChoicesJson["c"] = std::move(choicesJson);
output.push_back(std::move(stateChoicesJson));
choicesJson.push_back(std::move(choiceJson));
}
} else {
choicesJson = "undefined";
} }
stateChoicesJson["c"] = std::move(choicesJson);
output.push_back(std::move(stateChoicesJson));
} }
} }
out << output.dump(4); out << output.dump(4);

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