void Place::produceTokens(unsigned int nbOfTokens, unsigned int colorLabel, int tokensTime)
{
unsigned int oldNumberOfTokens = getNbOfTokens(colorLabel);
for (unsigned int i = 0; i < nbOfTokens; ++i) {
Token token(tokensTime);
m_tokenByColor[colorLabel - 1].push_back(token);
}
// if(tokensTime < 0){tokensTime = 0;} // CB incompatible with deactivation (tokenTime = -1)
if ((oldNumberOfTokens < NB_OF_TOKEN_TO_ACTIVE_ARC) && (getNbOfTokens(colorLabel) >= NB_OF_TOKEN_TO_ACTIVE_ARC)) { // CB WTF : Si un token et deux arcs sortant, bug ?
arcList outGoingArcs = outGoingArcsOf(colorLabel);
for (unsigned int i = 0 ; i < outGoingArcs.size() ; ++i) {
PetriNetArc* arc = outGoingArcs[i];
// if (!arc->getCondition()) { // CB check if the arc can be activated
// continue;
// }
Transition* transitionTo = dynamic_cast<Transition*>(arc->getTo());
if (!transitionTo) {
throw IncoherentStateException();
}
transitionTo->setArcAsActive(arc, tokensTime, true);
if (transitionTo->isStatic()) {
if(arc->getRelativeMinValue().getValue() < (int) tokensTime) {
getPetriNet()->pushTransitionToCrossWhenAcceleration(transitionTo);
}
} else {
if(arc->getRelativeMaxValue().getValue() < (int) tokensTime) {
getPetriNet()->pushTransitionToCrossWhenAcceleration(transitionTo);
}
}
}
}
}
void Place::produceTokens(unsigned int nbOfTokens, unsigned int colorLabel, unsigned int tokensTime) {
unsigned int oldNumberOfTokens = getNbOfTokens(colorLabel);
for (unsigned int i = 0; i < nbOfTokens; ++i) {
Token token;
token.setRemainingTime(tokensTime);
m_tokenByColor[colorLabel - 1].push_back(token);
}
if ((oldNumberOfTokens < NB_OF_TOKEN_TO_ACTIVE_ARC) && (getNbOfTokens(colorLabel) >= NB_OF_TOKEN_TO_ACTIVE_ARC)) {
arcList outGoingArcs = outGoingArcsOf(colorLabel);
for (unsigned int i = 0 ; i < outGoingArcs.size() ; ++i) {
Arc* arc = outGoingArcs[i];
if (!(dynamic_cast<Transition*>(arc->getTo()))) {
throw IncoherentStateException();
}
Transition* transitionTo = ((Transition*) arc->getTo());
transitionTo->setArcAsActive(arc, tokensTime, true);
if (transitionTo->isStatic()) {
if(arc->getRelativeMinValue().getValue() < (int) tokensTime) {
getPetriNet()->pushTransitionToCrossWhenAcceleration(transitionTo);
}
} else {
if(arc->getRelativeMaxValue().getValue() < (int) tokensTime) {
getPetriNet()->pushTransitionToCrossWhenAcceleration(transitionTo);
}
}
}
}
}
