diff options
Diffstat (limited to 'src/uscxml/transform/ChartToFSM.cpp')
-rw-r--r-- | src/uscxml/transform/ChartToFSM.cpp | 397 |
1 files changed, 221 insertions, 176 deletions
diff --git a/src/uscxml/transform/ChartToFSM.cpp b/src/uscxml/transform/ChartToFSM.cpp index d962481..8b1725c 100644 --- a/src/uscxml/transform/ChartToFSM.cpp +++ b/src/uscxml/transform/ChartToFSM.cpp @@ -19,6 +19,8 @@ #include "uscxml/transform/ChartToFSM.h" #include <DOM/io/Stream.hpp> +#include <glog/logging.h> + #include <iostream> #include "uscxml/UUID.h" #include <math.h> @@ -34,7 +36,9 @@ using namespace Arabica::XPath; #define CREATE_TRANSIENT_STATE_WITH_CHILDS \ if (childs.size() > 0) { \ - Element<std::string> transientState = _flatDoc.createElementNS(xmlNs, "state"); \ + Element<std::string> transientState = _flatDoc.createElementNS(_nsInfo.nsURL, "state"); \ + _nsInfo.setPrefix(transientState);\ + transientState.setAttribute("transient", "true"); \ for (int i = 0; i < childs.size(); i++) { \ Node<std::string> imported = _flatDoc.importNode(childs[i], true); \ transientState.appendChild(imported); \ @@ -43,19 +47,24 @@ if (childs.size() > 0) { \ } \ childs = NodeSet<std::string>(); -Document<std::string> ChartToFSM::flatten(const Document<std::string>& doc, const std::map<std::string, std::string>& nameSpaceInfo) { - boost::shared_ptr<InterpreterImpl> flatInterpreter = boost::shared_ptr<InterpreterImpl>(new FlatteningInterpreter(doc)); - flatInterpreter->setNameSpaceInfo(nameSpaceInfo); - flatInterpreter->interpret(); - return flatInterpreter->getDocument(); +Interpreter ChartToFSM::flatten(const Interpreter& other) { + + // instantiate a new InterpreterImpl to do the flattening + boost::shared_ptr<InterpreterImpl> flattener = boost::shared_ptr<InterpreterImpl>(new FlatteningInterpreter(other.getDocument())); + flattener->setNameSpaceInfo(other.getNameSpaceInfo()); + flattener->interpret(); + + // clone the flattener implementation to a new interpreter + Interpreter flat = Interpreter::fromClone(flattener); + return flat; } FlatteningInterpreter::FlatteningInterpreter(const Document<std::string>& doc) { - + _currGlobalTransition = NULL; - - // kust copy given doc into _document an create _flatDoc for the FSM + + // just copy given doc into _document an create _flatDoc for the FSM DOMImplementation<std::string> domFactory = Arabica::SimpleDOM::DOMImplementation<std::string>::getDOMImplementation(); _document = domFactory.createDocument(doc.getNamespaceURI(), "", 0); _flatDoc = domFactory.createDocument(doc.getNamespaceURI(), "", 0); @@ -70,10 +79,24 @@ FlatteningInterpreter::FlatteningInterpreter(const Document<std::string>& doc) { addMonitor(this); } -Document<std::string>& FlatteningInterpreter::getDocument() { - std::cout << "######################" << std::endl; - std::cout << _flatDoc << std::endl; - std::cout << "######################" << std::endl; +FlatteningInterpreter::~FlatteningInterpreter() { + std::map<std::string, GlobalState*>::iterator confIter = _globalConf.begin(); + while(confIter != _globalConf.end()) { + std::map<std::string, GlobalTransition*>::iterator transIter = confIter->second->outgoing.begin(); + while (transIter != confIter->second->outgoing.end()) { + delete transIter->second; + transIter++; + } + delete confIter->second; + confIter++; + } + +} + +Document<std::string> FlatteningInterpreter::getDocument() const { +// std::cout << "######################" << std::endl; +// std::cout << _flatDoc << std::endl; +// std::cout << "######################" << std::endl; return _flatDoc; } @@ -81,7 +104,7 @@ void FlatteningInterpreter::interpret() { init(); setupIOProcessors(); - + // initialize the datamodel std::string datamodelName; if (datamodelName.length() == 0 && HAS_ATTR(_scxml, "datamodel")) @@ -99,20 +122,19 @@ void FlatteningInterpreter::interpret() { _dataModel = _factory->createDataModel("null", this); } if(datamodelName.length() > 0 && !_dataModel) { - std::cout << "No datamodel for " << datamodelName << " registered"; - } - - if (_dataModel) { - _dataModel.assign("_x.args", _cmdLineOptions); + LOG(ERROR) << "No datamodel for " << datamodelName << " registered"; } - + _binding = (HAS_ATTR(_scxml, "binding") && iequals(ATTR(_scxml, "binding"), "late") ? LATE : EARLY); - + // reset + _globalConf.clear(); + _currGlobalTransition = NULL; + // very first state _start = new GlobalState(_configuration, _alreadyEntered, _historyValue); _globalConf[_start->stateId] = _start; - + NodeSet<std::string> initialTransitions; // enter initial configuration @@ -120,9 +142,11 @@ void FlatteningInterpreter::interpret() { initialStates = getInitialStates(); assert(initialStates.size() > 0); for (int i = 0; i < initialStates.size(); i++) { - Element<std::string> initialElem = _document.createElementNS(_nsURL, "initial"); + Element<std::string> initialElem = _document.createElementNS(_nsInfo.nsURL, "initial"); + _nsInfo.setPrefix(initialElem); initialElem.setAttribute("generated", "true"); - Element<std::string> transitionElem = _document.createElementNS(_nsURL, "transition"); + Element<std::string> transitionElem = _document.createElementNS(_nsInfo.nsURL, "transition"); + _nsInfo.setPrefix(transitionElem); transitionElem.setAttribute("target", ATTR(initialStates[i], "id")); initialElem.appendChild(transitionElem); _scxml.appendChild(initialElem); @@ -130,8 +154,8 @@ void FlatteningInterpreter::interpret() { } labelTransitions(); weightTransitions(); - - std::cout << _scxml << std::endl; + +// std::cout << _scxml << std::endl; GlobalTransition* globalTransition = new GlobalTransition(initialTransitions, _dataModel); _start->outgoing[globalTransition->transitionId] = globalTransition; @@ -140,22 +164,22 @@ void FlatteningInterpreter::interpret() { enterStates(initialTransitions); explode(); - + #if 0 // print set of global configurations for(std::map<std::string, GlobalState*>::iterator globalConfIter = _globalConf.begin(); - globalConfIter != _globalConf.end(); - globalConfIter++) { + globalConfIter != _globalConf.end(); + globalConfIter++) { std::cout << globalConfIter->first << std::endl; } std::cout << _globalConf.size() << std::endl; #endif - + createDocument(); } void FlatteningInterpreter::executeContent(const Arabica::DOM::Node<std::string>& content, bool rethrow) { - std::cout << content << std::endl; +// std::cout << content << std::endl; GlobalTransition::Action action; if (false) { @@ -199,51 +223,55 @@ void FlatteningInterpreter::cancelInvoke(const Arabica::DOM::Node<std::string>& } void FlatteningInterpreter::internalDoneSend(const Arabica::DOM::Node<std::string>& state) { - + if (!isState(state)) return; Arabica::DOM::Element<std::string> stateElem = (Arabica::DOM::Element<std::string>)state; // if (parentIsScxmlState(state)) // return; - + // std::cout << "internalDoneSend: " << state << std::endl; - + // create onentry with a raise element - Element<std::string> onentry = _flatDoc.createElement("onentry"); - Element<std::string> raise = _flatDoc.createElement("raise"); + Element<std::string> onentry = _flatDoc.createElementNS(_nsInfo.nsURL, "onentry"); + _nsInfo.setPrefix(onentry); + + Element<std::string> raise = _flatDoc.createElementNS(_nsInfo.nsURL, "raise"); + _nsInfo.setPrefix(raise); + onentry.appendChild(raise); - Arabica::XPath::NodeSet<std::string> doneDatas = filterChildElements(_xmlNSPrefix + "donedata", stateElem); + Arabica::XPath::NodeSet<std::string> doneDatas = filterChildElements(_nsInfo.xmlNSPrefix + "donedata", stateElem); if (doneDatas.size() > 0) { Arabica::DOM::Node<std::string> doneData = doneDatas[0]; - Arabica::XPath::NodeSet<std::string> contents = filterChildElements(_xmlNSPrefix + "content", doneDatas[0]); + Arabica::XPath::NodeSet<std::string> contents = filterChildElements(_nsInfo.xmlNSPrefix + "content", doneDatas[0]); if (contents.size() > 0) { Node<std::string> imported = _flatDoc.importNode(contents[0], true); raise.appendChild(imported); } - Arabica::XPath::NodeSet<std::string> params = filterChildElements(_xmlNSPrefix + "param", doneDatas[0]); + Arabica::XPath::NodeSet<std::string> params = filterChildElements(_nsInfo.xmlNSPrefix + "param", doneDatas[0]); if (params.size() > 0) { Node<std::string> imported = _flatDoc.importNode(params[0], true); raise.appendChild(imported); } } - + raise.setAttribute("event", "done.state." + ATTR(stateElem.getParentNode(), "id")); // parent?! - + GlobalTransition::Action action; action.onEntry = onentry; - + _currGlobalTransition->actions.push_back(action); - + } static bool isSuperset(const GlobalTransition* t1, const GlobalTransition* t2) { bool isSuperset = true; - + if (t1->transitions.size() >= t2->transitions.size()) return false; - + for (int i = 0; i < t1->transitions.size(); i++) { if (!InterpreterImpl::isMember(t1->transitions[i], t2->transitions)) { isSuperset = false; @@ -251,7 +279,7 @@ static bool isSuperset(const GlobalTransition* t1, const GlobalTransition* t2) { } return isSuperset; } - + static NodeSet<std::string> filterChildEnabled(const NodeSet<std::string>& transitions) { // drop any transition that is already enabled by a child NodeSet<std::string> filteredTransitions; @@ -269,7 +297,7 @@ static NodeSet<std::string> filterChildEnabled(const NodeSet<std::string>& trans std::string eventDesc1 = ATTR(t1, "event"); std::string eventDesc2 = ATTR(t2, "event"); if (InterpreterImpl::nameMatch(eventDesc1, eventDesc2)) { - std::cout << "Dropping " << t1 << std::endl << "for " << t2 << std::endl; +// std::cout << "Dropping " << t1 << std::endl << "for " << t2 << std::endl; goto SKIP_TRANSITION; } } @@ -277,7 +305,8 @@ static NodeSet<std::string> filterChildEnabled(const NodeSet<std::string>& trans } } filteredTransitions.push_back(t1); - SKIP_TRANSITION:; +SKIP_TRANSITION: + ; } return filteredTransitions; } @@ -286,14 +315,14 @@ static std::list<GlobalTransition*> sortTransitions(std::list<GlobalTransition*> bool stable = false; while(!stable) { for (std::list<GlobalTransition*>::iterator outerIter = list.begin(); - outerIter != list.end(); - outerIter++) { + outerIter != list.end(); + outerIter++) { for (std::list<GlobalTransition*>::iterator innerIter = outerIter; - innerIter != list.end(); - innerIter++) { + innerIter != list.end(); + innerIter++) { GlobalTransition* t1 = *outerIter; GlobalTransition* t2 = *innerIter; - + if (isSuperset(t1, t2)) { // std::cout << "swapping " << t1->transitionId << " / " << t2->transitionId << std::endl; std::swap(*innerIter, *outerIter); @@ -313,7 +342,8 @@ static std::list<GlobalTransition*> sortTransitions(std::list<GlobalTransition*> } } stable = true; - NEXT_ITER:; +NEXT_ITER: + ; } return list; } @@ -321,7 +351,7 @@ static std::list<GlobalTransition*> sortTransitions(std::list<GlobalTransition*> void FlatteningInterpreter::explode() { - + // save global configuration elements to restore after recursive explode Arabica::XPath::NodeSet<std::string> configuration = _configuration; Arabica::XPath::NodeSet<std::string> alreadyEntered = _alreadyEntered; @@ -334,19 +364,19 @@ void FlatteningInterpreter::explode() { if (_currGlobalTransition) { _currGlobalTransition->destination = globalState->stateId; globalState->incoming[_currGlobalTransition->transitionId] = _currGlobalTransition; - + // if (!_currGlobalTransition->isEventless) { - // if it was an eventful transition, add all invokers - for (unsigned int i = 0; i < _statesToInvoke.size(); i++) { - NodeSet<std::string> invokes = filterChildElements(_xmlNSPrefix + "invoke", _statesToInvoke[i]); - for (unsigned int j = 0; j < invokes.size(); j++) { - invoke(invokes[j]); - } + // if it was an eventful transition, add all invokers + for (unsigned int i = 0; i < _statesToInvoke.size(); i++) { + NodeSet<std::string> invokes = filterChildElements(_nsInfo.xmlNSPrefix + "invoke", _statesToInvoke[i]); + for (unsigned int j = 0; j < invokes.size(); j++) { + invoke(invokes[j]); } - _statesToInvoke = NodeSet<std::string>(); + } + _statesToInvoke = NodeSet<std::string>(); // } } - + if (_globalConf.find(globalState->stateId) != _globalConf.end()) { delete globalState; return; // we have already been here @@ -354,8 +384,8 @@ void FlatteningInterpreter::explode() { _globalConf[globalState->stateId] = globalState; // get all transition elements from states in the current configuration - NodeSet<std::string> allTransitions = filterChildElements(_xmlNSPrefix + "transition", configuration); - + NodeSet<std::string> allTransitions = filterChildElements(_nsInfo.xmlNSPrefix + "transition", configuration); + /** * From http://www.w3.org/TR/scxml/#SelectingTransitions * @@ -365,8 +395,8 @@ void FlatteningInterpreter::explode() { * c) T lacks a 'cond' attribute or its 'cond' attribute evaluates to "true" * * A transition is enabled by NULL in atomic state S if - * a) T lacks an 'event' attribute - * b) T's source state is S or an ancestor of S + * a) T lacks an 'event' attribute + * b) T's source state is S or an ancestor of S * c) T lacks an 'cond' attribute or its 'cond' attribute evaluates to "true" * * The _source state_ of a transition is the <state> or <parallel> element that it occurs in. @@ -380,14 +410,14 @@ void FlatteningInterpreter::explode() { * * Two transitions T1 and T2 conflict in state configuration C if their exit sets in C have a non-null intersection. * let transitions T1 and T2 conflict: - * T1 is optimally enabled in atomic state S1 + * T1 is optimally enabled in atomic state S1 * T2 is optimally enabled in atomic state S2 * S1 and S2 are both active * T1 has a higher priority than T2 if: * a) T1's source state is a descendant of T2's source state, or * b) S1 precedes S2 in document order * - * The _optimal transition set_ enabled by event E in state configuration C is + * The _optimal transition set_ enabled by event E in state configuration C is * the largest set of transitions such that: * a) each transition in the set is optimally enabled by E in an atomic state in C * b) no transition conflicts with another transition in the set @@ -395,14 +425,14 @@ void FlatteningInterpreter::explode() { * * A _microstep_ consists of the execution of the transitions in an optimal enabled transition set * - * A _macrostep_ is a series of one or more microsteps ending in a configuration + * A _macrostep_ is a series of one or more microsteps ending in a configuration * where the internal event queue is empty and no transitions are enabled by NULL */ - - + + if (allTransitions.size() == 0) return; // no transitions - + int nrElements = allTransitions.size(); int k = 0; int* stack = (int*)malloc((nrElements + 1) * sizeof(int)); @@ -414,17 +444,17 @@ void FlatteningInterpreter::explode() { while(1) { // create the power set of all potential transitions // see: http://www.programminglogic.com/powerset-algorithm-in-c/ - - if (stack[k] < nrElements){ + + if (stack[k] < nrElements) { stack[k+1] = stack[k] + 1; k++; } - + else { stack[k-1]++; k--; } - + if (k==0) break; @@ -438,10 +468,10 @@ void FlatteningInterpreter::explode() { // reduce to conflict-free subset transitions = filterPreempted(transitions); - + // algorithm can never reduce to empty set assert(transitions.size() > 0); - + // create a GlobalTransition object from the set GlobalTransition* transition = new GlobalTransition(transitions, _dataModel); if (!transition->isValid) { @@ -452,7 +482,7 @@ void FlatteningInterpreter::explode() { // two combinations might have projected onto the same conflict-free set if (transitionSets.find(transition->transitionId) != transitionSets.end()) { - std::cout << "skipping as projected onto existing conflict-free subset" << std::endl; +// std::cout << "skipping as projected onto existing conflict-free subset" << std::endl; delete transition; continue; } @@ -475,7 +505,7 @@ void FlatteningInterpreter::explode() { transition->firstElemPerLevel.push_back(lowestOrder); transition->prioPerLevel.push_back(prioPerLevel); } - + #if 0 // calculate priority transition->priority = 0; @@ -495,25 +525,26 @@ void FlatteningInterpreter::explode() { goto NEXT_DEPTH; } } - NEXT_DEPTH:; +NEXT_DEPTH: + ; } #endif // remember this conflict-free set - std::cout << "New conflict-free subset: " << transition->transitionId << ":" << transition->eventDesc << std::endl; +// std::cout << "New conflict-free subset: " << transition->transitionId << ":" << transition->eventDesc << std::endl; transitionSets[transition->transitionId] = transition; } // TODO: reduce and sort transition sets std::list<GlobalTransition*> transitionList; for(std::map<std::string, GlobalTransition*>::iterator transSetIter = transitionSets.begin(); - transSetIter != transitionSets.end(); - transSetIter++) { + transSetIter != transitionSets.end(); + transSetIter++) { transitionList.push_back(transSetIter->second); } - + for(std::list<GlobalTransition*>::iterator transListIter = transitionList.begin(); - transListIter != transitionList.end(); - transListIter++) { + transListIter != transitionList.end(); + transListIter++) { // add transition set to current global state globalState->outgoing[(*transListIter)->transitionId] = *transListIter; @@ -522,7 +553,7 @@ void FlatteningInterpreter::explode() { _currGlobalTransition = *transListIter; microstep((*transListIter)->transitions); explode(); - + // reset state for next transition set _configuration = configuration; _alreadyEntered = alreadyEntered; @@ -530,12 +561,13 @@ void FlatteningInterpreter::explode() { } } - + void FlatteningInterpreter::createDocument() { - std::string xmlNs = _nsURL; Node<std::string> _origSCXML = _scxml; - - _scxml = _flatDoc.createElementNS(xmlNs, "scxml"); + + _scxml = _flatDoc.createElementNS(_nsInfo.nsURL, "scxml"); + _nsInfo.setPrefix(_scxml); + _scxml.setAttribute("flat", "true"); _flatDoc.appendChild(_scxml); @@ -546,16 +578,16 @@ void FlatteningInterpreter::createDocument() { if (HAS_ATTR(_origSCXML, "binding")) { _scxml.setAttribute("binding", ATTR(_origSCXML, "binding")); } - + _scxml.setAttribute("initial", _start->stateId); NodeSet<std::string> datas; if (_binding == InterpreterImpl::LATE) { // with late binding, just copy direct datamodel childs - datas = filterChildElements(_xmlNSPrefix + "datamodel", _origSCXML); + datas = filterChildElements(_nsInfo.xmlNSPrefix + "datamodel", _origSCXML); } else { // with early binding, copy all datamodel elements into scxml element - datas = _xpath.evaluate("//" + _xpathPrefix + "datamodel", _origSCXML).asNodeSet(); + datas = _xpath.evaluate("//" + _nsInfo.xpathPrefix + "datamodel", _origSCXML).asNodeSet(); } for (int i = 0; i < datas.size(); i++) { if (isInEmbeddedDocument(datas[i])) @@ -564,25 +596,33 @@ void FlatteningInterpreter::createDocument() { _scxml.appendChild(imported); } - - NodeSet<std::string> scripts = filterChildElements(_xmlNSPrefix + "script", _origSCXML); + + NodeSet<std::string> scripts = filterChildElements(_nsInfo.xmlNSPrefix + "script", _origSCXML); for (int i = 0; i < scripts.size(); i++) { Node<std::string> imported = _flatDoc.importNode(scripts[i], true); _scxml.appendChild(imported); } + NodeSet<std::string> comments = filterChildType(Node_base::COMMENT_NODE, _origSCXML); + for (int i = 0; i < comments.size(); i++) { + Node<std::string> imported = _flatDoc.importNode(comments[i], true); + _scxml.appendChild(imported); + } + for (std::map<std::string, GlobalState*>::iterator confIter = _globalConf.begin(); - confIter != _globalConf.end(); - confIter++) { - Node<std::string> state = globalStateToNode(confIter->second, xmlNs); + confIter != _globalConf.end(); + confIter++) { + Node<std::string> state = globalStateToNode(confIter->second); _scxml.appendChild(state); } // exit(0); } -Node<std::string> FlatteningInterpreter::globalStateToNode(GlobalState* globalState, const std::string& xmlNs) { - Element<std::string> state = _flatDoc.createElementNS(xmlNs, "state"); +Node<std::string> FlatteningInterpreter::globalStateToNode(GlobalState* globalState) { + Element<std::string> state = _flatDoc.createElementNS(_nsInfo.nsURL, "state"); + _nsInfo.setPrefix(state); + state.setAttribute("id", globalState->stateId); if (globalState->isFinal) @@ -590,20 +630,20 @@ Node<std::string> FlatteningInterpreter::globalStateToNode(GlobalState* globalSt std::list<GlobalTransition*> transitionList; for (std::map<std::string, GlobalTransition*>::iterator outIter = globalState->outgoing.begin(); - outIter != globalState->outgoing.end(); - outIter++) { + outIter != globalState->outgoing.end(); + outIter++) { transitionList.push_back(outIter->second); } transitionList = sortTransitions(transitionList); - - std::cout << "/////////////////" << std::endl; + +// std::cout << "/////////////////" << std::endl; for (std::list<GlobalTransition*>::iterator outIter = transitionList.begin(); - outIter != transitionList.end(); - outIter++) { - state.appendChild(globalTransitionToNode(*outIter, xmlNs)); + outIter != transitionList.end(); + outIter++) { + state.appendChild(globalTransitionToNode(*outIter)); } - std::cout << "/////////////////" << std::endl; +// std::cout << "/////////////////" << std::endl; return state; } @@ -611,8 +651,9 @@ Node<std::string> FlatteningInterpreter::globalStateToNode(GlobalState* globalSt /** * Creates transient states for executable content as a side-effect */ -Node<std::string> FlatteningInterpreter::globalTransitionToNode(GlobalTransition* globalTransition, const std::string& xmlNs) { - Element<std::string> transition = _flatDoc.createElementNS(xmlNs, "transition"); +Node<std::string> FlatteningInterpreter::globalTransitionToNode(GlobalTransition* globalTransition) { + Element<std::string> transition = _flatDoc.createElementNS(_nsInfo.nsURL, "transition"); + _nsInfo.setPrefix(transition); if (!globalTransition->isEventless) { transition.setAttribute("event", globalTransition->eventDesc); @@ -649,25 +690,26 @@ Node<std::string> FlatteningInterpreter::globalTransitionToNode(GlobalTransition } transition.setAttribute("prioPerLevel", nrSS.str()); #endif - + transition.setAttribute("id", globalTransition->transitionId); - + // std::cout << " firstPerLevel:" << feSS.str() << " " << globalTransition->transitionId << std::endl; // std::cout << "event: " << globalTransition->eventDesc << " firstPerLevel:" << feSS.str() << " numberPerLevel:" << nrSS.str() << " prioPerLevel:" << prSS.str() << " " << globalTransition->transitionId << std::endl; // std::cout << globalTransition->transitionId << std::endl; - + NodeSet<std::string> transientStateChain; // gather content for new transient state NodeSet<std::string> childs; - + // iterate all actions taken during the transition for (std::list<GlobalTransition::Action>::iterator actionIter = globalTransition->actions.begin(); - actionIter != globalTransition->actions.end(); - actionIter++) { - + actionIter != globalTransition->actions.end(); + actionIter++) { + if (actionIter->transition) { - Element<std::string> onexit = _flatDoc.createElementNS(xmlNs, "onexit"); + Element<std::string> onexit = _flatDoc.createElementNS(_nsInfo.nsURL, "onexit"); + _nsInfo.setPrefix(onexit); Node<std::string> child = actionIter->transition.getFirstChild(); while(child) { Node<std::string> imported = _flatDoc.importNode(child, true); @@ -700,7 +742,9 @@ Node<std::string> FlatteningInterpreter::globalTransitionToNode(GlobalTransition } if (actionIter->uninvoke) { - Element<std::string> uninvokeElem = _flatDoc.createElementNS(xmlNs, "uninvoke"); + Element<std::string> uninvokeElem = _flatDoc.createElementNS(_nsInfo.nsURL, "uninvoke"); + _nsInfo.setPrefix(uninvokeElem); + if (HAS_ATTR(actionIter->uninvoke, "type")) { uninvokeElem.setAttribute("type", ATTR(actionIter->uninvoke, "type")); } @@ -720,7 +764,7 @@ Node<std::string> FlatteningInterpreter::globalTransitionToNode(GlobalTransition if (actionIter->entered) { // we entered a new child - check if it has a datamodel and we entered for the first time if (_binding == InterpreterImpl::LATE) { - NodeSet<std::string> datamodel = filterChildElements(_xmlNSPrefix + "datamodel", actionIter->entered); + NodeSet<std::string> datamodel = filterChildElements(_nsInfo.xmlNSPrefix + "datamodel", actionIter->entered); if (datamodel.size() > 0 && !isMember(actionIter->entered, _globalConf[globalTransition->source]->alreadyEnteredStates)) { childs.push_back(datamodel); } @@ -740,43 +784,44 @@ Node<std::string> FlatteningInterpreter::globalTransitionToNode(GlobalTransition } CREATE_TRANSIENT_STATE_WITH_CHILDS - + if (transientStateChain.size() > 0) { for (int i = 0; i < transientStateChain.size(); i++) { Element<std::string> transientStateElem = Element<std::string>(transientStateChain[i]); transientStateElem.setAttribute("id", "transient-" + globalTransition->transitionId + "-" + globalTransition->source + "-" + toStr(i)); - Element<std::string> exitTransition = _flatDoc.createElementNS(xmlNs, "transition"); - + Element<std::string> exitTransition = _flatDoc.createElementNS(_nsInfo.nsURL, "transition"); + _nsInfo.setPrefix(exitTransition); + if (i == transientStateChain.size() - 1) { exitTransition.setAttribute("target", globalTransition->destination); } else { exitTransition.setAttribute("target", "transient-" + globalTransition->transitionId + "-" + globalTransition->source + "-" + toStr(i + 1)); } transientStateElem.appendChild(exitTransition); - + if (i == 0) transition.setAttribute("target", transientStateElem.getAttribute("id")); - + _scxml.appendChild(transientStateElem); } } else { transition.setAttribute("target", globalTransition->destination); } - + return transition; } void FlatteningInterpreter::weightTransitions() { maxDepth = 0; maxOrder = 0; - + int depth = 0; Arabica::XPath::NodeSet<std::string> states = getChildStates(_scxml); while(states.size() > 0) { - NodeSet<std::string> transitions = filterChildElements(_xmlNSPrefix + "transition", states); - NodeSet<std::string> initials = filterChildElements(_xmlNSPrefix + "initial", states); - transitions.push_back(filterChildElements(_xmlNSPrefix + "transition", initials)); + NodeSet<std::string> transitions = filterChildElements(_nsInfo.xmlNSPrefix + "transition", states); + NodeSet<std::string> initials = filterChildElements(_nsInfo.xmlNSPrefix + "initial", states); + transitions.push_back(filterChildElements(_nsInfo.xmlNSPrefix + "transition", initials)); for (int j = 0; j < transitions.size(); j++) { if (depth > maxDepth) @@ -791,24 +836,24 @@ void FlatteningInterpreter::weightTransitions() { states = getChildStates(states); } } - + void FlatteningInterpreter::labelTransitions() { // put a unique id on each transition Arabica::XPath::NodeSet<std::string> states = getAllStates(); states.push_back(_scxml); for (int i = 0; i < states.size(); i++) { std::string stateId = ATTR(states[i], "id"); - NodeSet<std::string> transitions = filterChildElements(_xmlNSPrefix + "transition", states[i]); + NodeSet<std::string> transitions = filterChildElements(_nsInfo.xmlNSPrefix + "transition", states[i]); // some transitions are in the inital elements - NodeSet<std::string> initials = filterChildElements(_xmlNSPrefix + "initial", states[i]); - transitions.push_back(filterChildElements(_xmlNSPrefix + "transition", initials)); + NodeSet<std::string> initials = filterChildElements(_nsInfo.xmlNSPrefix + "initial", states[i]); + transitions.push_back(filterChildElements(_nsInfo.xmlNSPrefix + "transition", initials)); for (int j = 0; j < transitions.size(); j++) { Element<std::string> transition = Element<std::string>(transitions[j]); transition.setAttribute("id", stateId + ":"+ toStr(j + 1)); } } } - + void FlatteningInterpreter::beforeMicroStep(Interpreter interpreter) { } void FlatteningInterpreter::onStableConfiguration(Interpreter interpreter) { @@ -828,31 +873,31 @@ void FlatteningInterpreter::beforeEnteringState(Interpreter interpreter, const A void FlatteningInterpreter::beforeTakingTransition(Interpreter interpreter, const Arabica::DOM::Element<std::string>& transition, bool moreComing) { } - + GlobalState::GlobalState(const Arabica::XPath::NodeSet<std::string>& activeStates_, - const Arabica::XPath::NodeSet<std::string>& alreadyEnteredStates_, // we need to remember for binding=late - const std::map<std::string, Arabica::XPath::NodeSet<std::string> >& historyStates_) { - + const Arabica::XPath::NodeSet<std::string>& alreadyEnteredStates_, // we need to remember for binding=late + const std::map<std::string, Arabica::XPath::NodeSet<std::string> >& historyStates_) { + // make copies and sort activeStates = activeStates_; alreadyEnteredStates = alreadyEnteredStates_; historyStates = historyStates_; isFinal = true; // is set to false if we contain a non-final state - + // start state is not final if (activeStates.size() == 0) { isFinal = false; } - + // sort configuration activeStates.to_document_order(); alreadyEnteredStates.to_document_order(); for(std::map<std::string, Arabica::XPath::NodeSet<std::string> >::iterator historyIter = historyStates.begin(); - historyIter != historyStates.end(); - historyIter++) { + historyIter != historyStates.end(); + historyIter++) { historyIter->second.to_document_order(); } - + // create a unique identifier for a global configuration std::ostringstream idSS; idSS << "active-"; @@ -867,10 +912,10 @@ GlobalState::GlobalState(const Arabica::XPath::NodeSet<std::string>& activeState idSS << ATTR(alreadyEnteredStates[i], "id") << "-"; } idSS << ";"; - + for(std::map<std::string, Arabica::XPath::NodeSet<std::string> >::const_iterator histIter = historyStates.begin(); - histIter != historyStates.end(); - histIter++) { + histIter != historyStates.end(); + histIter++) { const Arabica::XPath::NodeSet<std::string>& histStates = histIter->second; idSS << "history-"; idSS << histIter->first << "-"; @@ -878,7 +923,7 @@ GlobalState::GlobalState(const Arabica::XPath::NodeSet<std::string>& activeState idSS << ATTR(histStates[i], "id") << "-"; } } - + stateId = idSS.str(); } @@ -886,7 +931,7 @@ GlobalTransition::GlobalTransition(const Arabica::XPath::NodeSet<std::string>& t transitions = transitionSet; isValid = true; isEventless = true; - + #if 0 std::cout << "################" << std::endl; for (int i = 0; i < transitions.size(); i++) { @@ -894,14 +939,14 @@ GlobalTransition::GlobalTransition(const Arabica::XPath::NodeSet<std::string>& t } std::cout << "################" << std::endl; #endif - + std::list<std::string> conditions; std::ostringstream setId; // also build id for subset for (int i = 0; i < transitions.size(); i++) { // get a unique string for the transition - we assume it is sorted assert(HAS_ATTR(transitions[i], "id")); setId << ATTR(transitions[i], "id") << "-"; - + // gather conditions while we are iterating anyway if (HAS_ATTR(transitions[i], "cond")) { conditions.push_back(ATTR(transitions[i], "cond")); @@ -920,7 +965,7 @@ GlobalTransition::GlobalTransition(const Arabica::XPath::NodeSet<std::string>& t bool foundEventLess = false; bool foundWithTarget = false; bool foundTargetLess = false; - + for (int i = 0; i < transitions.size(); i++) { if (HAS_ATTR(transitions[i], "eventexpr")) { Event e("error.execution", Event::PLATFORM); @@ -947,7 +992,7 @@ GlobalTransition::GlobalTransition(const Arabica::XPath::NodeSet<std::string>& t } } - + // do not mix eventless and event transitions if (foundEventLess && foundWithEvent) { isValid = false; @@ -962,20 +1007,20 @@ GlobalTransition::GlobalTransition(const Arabica::XPath::NodeSet<std::string>& t isEventless = foundEventLess; isTargetless = !foundWithTarget; - + // is there a set of event names that would enable this conflict-free transition set? if (foundWithEvent) { // get the set of longest event descriptors that will enable this transition set eventNames = getCommonEvents(transitions); if (eventNames.size() == 0) { - std::cout << "No event will activate this conflict-free subset" << std::endl; +// LOG(INFO) << "No event will activate this conflict-free subset" << std::endl; isValid = false; return; } else { std::string seperator = ""; for (std::list<std::string>::iterator eventIter = eventNames.begin(); - eventIter != eventNames.end(); - eventIter++) { + eventIter != eventNames.end(); + eventIter++) { eventDesc += seperator + *eventIter; seperator = " "; } @@ -983,35 +1028,35 @@ GlobalTransition::GlobalTransition(const Arabica::XPath::NodeSet<std::string>& t if (eventDesc.size() == 0) eventDesc = "*"; } - + if (conditions.size() > 0) { condition = dataModel.andExpressions(conditions); if (condition.size() == 0) { - std::cout << "Datamodel does not support to conjungate expressions!" << std::endl; + LOG(ERROR) << "Datamodel does not support to conjungate expressions!" << std::endl; } } } - + std::list<std::string> GlobalTransition::getCommonEvents(const NodeSet<std::string>& transitions) { std::list<std::string> prefixes; std::list<std::string> longestPrefixes; - + for (int i = 0; i < transitions.size(); i++) { // for every transition std::list<std::string> eventNames = Interpreter::tokenizeIdRefs(ATTR(transitions[i], "event")); - + for (std::list<std::string>::iterator eventNameIter = eventNames.begin(); - eventNameIter != eventNames.end(); - eventNameIter++) { + eventNameIter != eventNames.end(); + eventNameIter++) { // for every event descriptor std::string eventName = *eventNameIter; - + // remove trailing .* if (eventName.find("*", eventName.size() - 1) != std::string::npos) eventName = eventName.substr(0, eventName.size() - 1); if (eventName.find(".", eventName.size() - 1) != std::string::npos) eventName = eventName.substr(0, eventName.size() - 1); - + bool isMatching = true; for (int j = 0; j < transitions.size(); j++) { // check if token would activate all other transitions @@ -1027,20 +1072,20 @@ std::list<std::string> GlobalTransition::getCommonEvents(const NodeSet<std::stri } } } - + // from the set of event names, remove those that are prefixes for (std::list<std::string>::iterator outerEventNameIter = prefixes.begin(); - outerEventNameIter != prefixes.end(); - outerEventNameIter++) { + outerEventNameIter != prefixes.end(); + outerEventNameIter++) { for (std::list<std::string>::iterator innerEventNameIter = prefixes.begin(); - innerEventNameIter != prefixes.end(); - innerEventNameIter++) { + innerEventNameIter != prefixes.end(); + innerEventNameIter++) { if (!iequals(*outerEventNameIter, *innerEventNameIter) && Interpreter::nameMatch(*outerEventNameIter, *innerEventNameIter)) { goto IS_PREFIX; } } longestPrefixes.push_back(*outerEventNameIter); - IS_PREFIX: +IS_PREFIX: ; } return longestPrefixes; |