Esempio n. 1
0
bool ode_solver::inner_loop_backward(ITaylor & solver, interval prevTime, vector<pair<interval, IVector>> & bucket) {
    interval const stepMade = solver.getStep();
    const ITaylor::CurveType& curve = solver.getCurve();
    interval domain = interval(0, 1) * stepMade;
    list<interval> intvs;
    if (prevTime.rightBound() < m_T.leftBound()) {
        interval pre_T = interval(0, m_T.leftBound() - prevTime.rightBound());
        domain.setLeftBound(m_T.leftBound() - prevTime.rightBound());
        intvs = split(domain, m_config.nra_ODE_grid_size);
        intvs.push_front(pre_T);
    } else {
        intvs = split(domain, m_config.nra_ODE_grid_size);
    }

    for (interval subsetOfDomain : intvs) {
        interval dt = prevTime + subsetOfDomain;
        IVector v = curve(subsetOfDomain);
        if (!check_invariant(v, m_inv)) {
            // TODO(soonhok): invariant
            return true;
        }
        DREAL_LOG_INFO << dt << "\t" << v;
        if (prevTime + subsetOfDomain.rightBound() > m_T.leftBound()) {
            bucket.emplace_back(dt, v);
        }
        // TODO(soonhok): visualization
        // if (m_config.nra_json) {
        //     m_trajectory.emplace_back(m_T.rightBound() - (prevTime + subsetOfDomain), v);
        // }
    }
    return false;
}
Esempio n. 2
0
list<interval> split(interval const & i, unsigned n) {
    list<interval> ret;
    double lb = i.leftBound();
    double const rb = i.rightBound();
    double const width = rb - lb;
    double const step = width / n;
    for (unsigned i = 0; i < n - 1; i++) {
        ret.emplace_back(lb, lb + step);
        lb += step;
    }
    ret.emplace_back(lb, rb);
    return ret;
}
Esempio n. 3
0
void ode_solver::prune_trajectory(interval& time, IVector& e) {
    // Remove datapoints after time interval.
    auto ite = find_if (m_trajectory.begin(),
                        m_trajectory.end(),
                        [&time](pair<interval, IVector>& item) {
                            return item.first.leftBound() > time.rightBound();
                        });
    m_trajectory.erase(ite, m_trajectory.end());

    // Update the datapoints in the time interval
    ite = find_if (m_trajectory.begin(), m_trajectory.end(), [&time](pair<interval, IVector>& item) {
            return item.first.leftBound()>= time.leftBound();
        });
    for_each(ite, m_trajectory.end(), [&e](pair<interval, IVector>& item) {
            intersection(item.second, e, item.second);
        });
}