int main(int argc, char *argv[]) { struct rlimit core_limits; core_limits.rlim_cur = 0; core_limits.rlim_max = 0; setrlimit( RLIMIT_CORE, &core_limits ); ECArgs args( argc, argv ); Feat::Usage = ISCALE; ECString path( args.arg( 1 ) ); Term::init(path); conditionedType = args.arg(0); cerr << "start iScale: " << conditionedType << endl; //Pst pst(path); Feature::init(path, conditionedType); whichInt = Feature::whichInt; ECString fHp(path); fHp += conditionedType; fHp += ".f"; ifstream fHps(fHp.c_str()); if(!fHps) { cerr << "Could not find " << fHp << endl; assert(fHps); } features = new FeatureTree(fHps); //features->subtree; initFeatVals(); ECString gt(path); gt += conditionedType; gt += ".g"; ofstream gtstream(gt.c_str()); assert(gtstream); gtstream.precision(3); FTreeMap::iterator ftmi = features->subtree.begin(); for( ; ftmi != features->subtree.end() ; ftmi++) { int afv = (*ftmi).first; (*ftmi).second->printFTree(afv, gtstream); } return 1; }
int main(int argc, char *argv[]) { struct rlimit core_limits; core_limits.rlim_cur = 0; core_limits.rlim_max = 0; setrlimit( RLIMIT_CORE, &core_limits ); ECArgs args( argc, argv ); assert(args.nargs() == 3); ECString conditionedType = args.arg(0); Feat::Usage = SEL; percentDesiredFeatures = (float)atoi(args.arg(1).c_str())/100.0; cerr << "start selFeats: " << conditionedType << " " << percentDesiredFeatures << endl; ECString path( args.arg( 2 ) ); ECString fHp(path); fHp += conditionedType; fHp += ".ff"; Feature::init(path, conditionedType); ifstream fHps(fHp.c_str()); new FeatureTree(fHps); whichInt = Feature::whichInt; cerr << "Before doRanking" << endl; doRanking(); totDesiredFeatures = (int) (percentDesiredFeatures * totStates); cerr << "Before markFeats" << endl; markFeats(); ECString resS(path); resS += conditionedType; resS += ".f"; ofstream res(resS.c_str()); FeatureTree* root = FeatureTree::roots(whichInt); FTreeMap::iterator ftmIter = root->subtree.begin(); cerr << "About to print featuretree" << endl; for( ; ftmIter != root->subtree.end() ; ftmIter++) { int asVal = (*ftmIter).first; FeatureTree* subRoot = root->subtree[asVal]; subRoot->printFTree(asVal, res); } res << "\n\nSelected " << totSelectedStates << " of " << totStates << endl; return 0; }