Esempio n. 1
0
box naive_icp::solve(box b, contractor & ctc,
                     scoped_vec<shared_ptr<constraint>> const & ctrs,
                     SMTConfig & config, BranchHeuristic& brancher) {
    thread_local static unordered_set<shared_ptr<constraint>> used_constraints;
    used_constraints.clear();
    thread_local static vector<box> solns;
    thread_local static vector<box> box_stack;
    solns.clear();
    box_stack.clear();
    box_stack.push_back(b);
    do {
        DREAL_LOG_INFO << "naive_icp::solve - loop"
                       << "\t" << "box stack Size = " << box_stack.size();
        b = box_stack.back();
        box_stack.pop_back();
        prune(b, ctc, config, used_constraints);
        if (!b.is_empty()) {
            if (config.nra_use_stat) { config.nra_stat.increase_branch(); }
            vector<int> sorted_dims = brancher.sort_branches(b, ctrs, config);
            if (sorted_dims.size() > 0) {
                int const i = sorted_dims[0];
                tuple<int, box, box> splits = b.bisect_at(sorted_dims[0]);
                box const & first  = get<1>(splits);
                box const & second = get<2>(splits);
                assert(first.get_idx_last_branched() == i);
                assert(second.get_idx_last_branched() == i);
                if (second.is_bisectable()) {
                    box_stack.push_back(second);
                    box_stack.push_back(first);
                } else {
                    box_stack.push_back(first);
                    box_stack.push_back(second);
                }
                if (config.nra_proof) {
                    config.nra_proof_out << "[branched on "
                                         << b.get_name(i)
                                         << "]" << endl;
                }
            } else {
                config.nra_found_soln++;
                if (config.nra_multiple_soln > 1) {
                    // If --multiple_soln is used
                    output_solution(b, config, config.nra_found_soln);
                }
                if (config.nra_found_soln >= config.nra_multiple_soln) {
                    break;
                }
                solns.push_back(b);
            }
        }
    } while (box_stack.size() > 0);
    ctc.set_used_constraints(used_constraints);
    if (config.nra_multiple_soln > 1 && solns.size() > 0) {
        return solns.back();
    } else {
        assert(!b.is_empty() || box_stack.size() == 0);
        return b;
    }
}
Esempio n. 2
0
box multiprune_icp::solve(box b, contractor & ctc,
                          scoped_vec<shared_ptr<constraint>> const & ctrs,
                          SMTConfig & config, BranchHeuristic& brancher, unsigned num_try) {
#define PRUNEBOX(x) prune((x), ctc, config, used_constraints)
    thread_local static unordered_set<shared_ptr<constraint>> used_constraints;
    used_constraints.clear();
    thread_local static vector<box> solns;
    thread_local static vector<box> box_stack;
    solns.clear();
    box_stack.clear();
    PRUNEBOX(b);
    box_stack.push_back(b);
    do {
        DREAL_LOG_INFO << "multiprune_icp::solve - loop"
                       << "\t" << "box stack Size = " << box_stack.size();
        b = box_stack.back();
        box_stack.pop_back();
        if (!b.is_empty()) {
            vector<int> sorted_dims = brancher.sort_branches(b, ctrs, config);
            if (sorted_dims.size() > num_try) {
                sorted_dims = vector<int>(sorted_dims.begin(), sorted_dims.begin()+num_try);
            }

            if (config.nra_use_stat) { config.nra_stat.increase_branch(); }
            if (sorted_dims.size() > 0) {
                int bisectdim = -1;
                box first = b;
                box second = b;
                double score = -INFINITY;
                for (int dim : sorted_dims) {
                    tuple<int, box, box> splits = b.bisect_at(dim);
                    box a1 = get<1>(splits);
                    box a2 = get<2>(splits);
                    PRUNEBOX(a1);
                    PRUNEBOX(a2);
                    double cscore = -a1.volume() * a2.volume();
                    if (cscore > score || bisectdim == -1) {
                        first.hull(second);
                        a1.intersect(first);
                        a2.intersect(first);
                        first = a1;
                        second = a2;
                        bisectdim = dim;
                        score = cscore;
                    } else {
                        a1.hull(a2);
                        first.intersect(a1);
                        second.intersect(a1);
                    }
                }
                assert(bisectdim != -1);
                assert(first.get_idx_last_branched() == bisectdim);
                assert(second.get_idx_last_branched() == bisectdim);
                if (second.is_bisectable()) {
                    box_stack.push_back(second);
                    box_stack.push_back(first);
                } else {
                    box_stack.push_back(first);
                    box_stack.push_back(second);
                }
                if (config.nra_proof) {
                    config.nra_proof_out << "[branched on "
                                         << b.get_name(bisectdim)
                                         << "]" << endl;
                }
            } else {
                config.nra_found_soln++;
                if (config.nra_multiple_soln > 1) {
                    // If --multiple_soln is used
                    output_solution(b, config, config.nra_found_soln);
                }
                if (config.nra_found_soln >= config.nra_multiple_soln) {
                    break;
                }
                solns.push_back(b);
            }
        }
    } while (box_stack.size() > 0);
    ctc.set_used_constraints(used_constraints);
    if (config.nra_multiple_soln > 1 && solns.size() > 0) {
        return solns.back();
    } else {
        assert(!b.is_empty() || box_stack.size() == 0);
        return b;
    }
#undef PRUNEBOX
}