bool GeneticSpawnBodypartAction::execute() {
Bodypart* bp = new Bodypart(childBodypartType,parentBodypart->getGeneticCode()->copy(),parentBodypart->getParentOrganism(),parentBodypart);
if(parentBodypart->spawnBodypart(bp)) {
return true;
}
else {
bp->destroy();
delete bp;
return false;
}
};
bool GeneticSpawnParentAction::execute() {
Bodypart* parent = bp->getParentBodypart();
if(parent != 0) {
SpawnpointInformation* spawnpoint = bp->getSpawnpointInformationForBodypart(parent);
SpawnpointInformation* parentSpawnpoint = parent->getSpawnpointInformationForBodypart(bp);
parent->unregisterChildBodypart(bp);
RuntimeManager* runtime = 0;
Organism* org = bp->getParentOrganism();
if(org != 0) {
//remove storage link, but not the processor
org->unregisterBodypart(bp);
runtime = org->getRuntimeManager();
runtime->unregisterBodypart(bp);
}
Bodypart* newParent = new Bodypart(typeToSpawn,parent->getGeneticCode()->copy());
if(newParent->spawnPointAvailable(bp->getBodypartType()) && parent->spawnBodypart(newParent,parentSpawnpoint)) {
newParent->spawnBodypart(bp,0,spawnpoint); //prevent spawn from registering processor at organism, but register new storage links
return true;
}
else {
newParent->destroy();
if(runtime) {
runtime->addDelete(newParent);
}
else {
delete newParent;
}
parent->spawnBodypart(bp,parentSpawnpoint,spawnpoint); //prevent spawn from registering processor
return false;
}
}
else {
return false;
}
};
