// -*- coding: utf-8 -*- // Copyright (C) 2009, 2011, 2012, 2013, 2014, 2015 Laboratoire de // Recherche et Développement de l'Epita (LRDE). // Copyright (C) 2004, 2005 Laboratoire d'Informatique de Paris 6 (LIP6), // département Systèmes Répartis Coopératifs (SRC), Université Pierre // et Marie Curie. // // This file is part of Spot, a model checking library. // // Spot is free software; you can redistribute it and/or modify it // under the terms of the GNU General Public License as published by // the Free Software Foundation; either version 3 of the License, or // (at your option) any later version. // // Spot is distributed in the hope that it will be useful, but WITHOUT // ANY WARRANTY; without even the implied warranty of MERCHANTABILITY // or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public // License for more details. // // You should have received a copy of the GNU General Public License // along with this program. If not, see . #include #include "emptiness.hh" #include "twa/twa.hh" #include "twa/bddprint.hh" #include "twaalgos/gtec/gtec.hh" #include "twaalgos/gv04.hh" #include "twaalgos/magic.hh" #include "twaalgos/se05.hh" #include "twaalgos/tau03.hh" #include "twaalgos/tau03opt.hh" namespace spot { // twa_run ////////////////////////////////////////////////////////////////////// twa_run::~twa_run() { for (auto i : prefix) i.s->destroy(); for (auto i : cycle) i.s->destroy(); } twa_run::twa_run(const twa_run& run) { for (steps::const_iterator i = run.prefix.begin(); i != run.prefix.end(); ++i) { step s = { i->s->clone(), i->label, i->acc }; prefix.push_back(s); } for (steps::const_iterator i = run.cycle.begin(); i != run.cycle.end(); ++i) { step s = { i->s->clone(), i->label, i->acc }; cycle.push_back(s); } } twa_run& twa_run::operator=(const twa_run& run) { if (&run != this) { this->~twa_run(); new(this) twa_run(run); } return *this; } // print_twa_run ////////////////////////////////////////////////////////////////////// std::ostream& print_twa_run(std::ostream& os, const const_twa_ptr& a, const const_twa_run_ptr& run) { bdd_dict_ptr d = a->get_dict(); os << "Prefix:" << std::endl; for (twa_run::steps::const_iterator i = run->prefix.begin(); i != run->prefix.end(); ++i) { os << " " << a->format_state(i->s) << std::endl; os << " | "; bdd_print_formula(os, d, i->label); os << '\t'; os << a->acc().format(i->acc); os << std::endl; } os << "Cycle:" << std::endl; for (twa_run::steps::const_iterator i = run->cycle.begin(); i != run->cycle.end(); ++i) { os << " " << a->format_state(i->s) << std::endl; os << " | "; bdd_print_formula(os, d, i->label); os << '\t'; os << a->acc().format(i->acc); os << '\n'; } return os; } // emptiness_check_result ////////////////////////////////////////////////////////////////////// twa_run_ptr emptiness_check_result::accepting_run() { return nullptr; } const unsigned_statistics* emptiness_check_result::statistics() const { return dynamic_cast(this); } const char* emptiness_check_result::parse_options(char* options) { option_map old(o_); const char* s = o_.parse_options(options); options_updated(old); return s; } void emptiness_check_result::options_updated(const option_map&) { } // emptiness_check ////////////////////////////////////////////////////////////////////// emptiness_check::~emptiness_check() { } const unsigned_statistics* emptiness_check::statistics() const { return dynamic_cast(this); } const ec_statistics* emptiness_check::emptiness_check_statistics() const { return dynamic_cast(this); } const char* emptiness_check::parse_options(char* options) { option_map old(o_); const char* s = o_.parse_options(options); options_updated(old); return s; } void emptiness_check::options_updated(const option_map&) { } bool emptiness_check::safe() const { return true; } std::ostream& emptiness_check::print_stats(std::ostream& os) const { return os; } // emptiness_check_instantiator ////////////////////////////////////////////////////////////////////// namespace { struct ec_algo { const char* name; emptiness_check_ptr(*construct)(const const_twa_ptr&, spot::option_map); unsigned int min_acc; unsigned int max_acc; }; ec_algo ec_algos[] = { { "Cou99", couvreur99, 0, -1U }, { "CVWY90", magic_search, 0, 1 }, { "GV04", explicit_gv04_check, 0, 1 }, { "SE05", se05, 0, 1 }, { "Tau03", explicit_tau03_search, 1, -1U }, { "Tau03_opt", explicit_tau03_opt_search, 0, -1U }, }; } emptiness_check_instantiator::emptiness_check_instantiator(option_map o, void* i) : o_(o), info_(i) { } unsigned int emptiness_check_instantiator::min_acceptance_conditions() const { return static_cast(info_)->min_acc; } unsigned int emptiness_check_instantiator::max_acceptance_conditions() const { return static_cast(info_)->max_acc; } emptiness_check_ptr emptiness_check_instantiator::instantiate(const const_twa_ptr& a) const { return static_cast(info_)->construct(a, o_); } emptiness_check_instantiator_ptr make_emptiness_check_instantiator(const char* name, const char** err) { // Skip spaces. while (*name && strchr(" \t\n", *name)) ++name; const char* opt_str = strchr(name, '('); option_map o; if (opt_str) { const char* opt_start = opt_str + 1; const char* opt_end = strchr(opt_start, ')'); if (!opt_end) { *err = opt_start; return nullptr; } std::string opt(opt_start, opt_end); const char* res = o.parse_options(opt.c_str()); if (res) { *err = opt.c_str() - res + opt_start; return nullptr; } } if (!opt_str) opt_str = name + strlen(name); // Ignore spaces before `(' (or trailing spaces). while (opt_str > name && strchr(" \t\n", *--opt_str)) continue; std::string n(name, opt_str + 1); ec_algo* info = ec_algos; for (unsigned i = 0; i < sizeof(ec_algos)/sizeof(*ec_algos); ++i, ++info) if (n == info->name) { *err = nullptr; struct emptiness_check_instantiator_aux: public emptiness_check_instantiator { emptiness_check_instantiator_aux(option_map o, void* i): emptiness_check_instantiator(o, i) { } }; return std::make_shared(o, info); } *err = name; return nullptr; } // twa_run_to_tgba ////////////////////////////////////////////////////////////////////// twa_graph_ptr twa_run_to_tgba(const const_twa_ptr& a, const const_twa_run_ptr& run) { auto d = a->get_dict(); auto res = make_twa_graph(d); res->copy_ap_of(a); res->copy_acceptance_of(a); const state* s = a->get_init_state(); unsigned src; unsigned dst; const twa_run::steps* l; acc_cond::mark_t seen_acc = 0U; typedef std::unordered_map state_map; state_map seen; if (run->prefix.empty()) l = &run->cycle; else l = &run->prefix; twa_run::steps::const_iterator i = l->begin(); assert(s->compare(i->s) == 0); src = res->new_state(); seen.emplace(i->s, src); for (; i != l->end();) { // expected outgoing transition bdd label = i->label; acc_cond::mark_t acc = i->acc; // compute the next expected state const state* next; ++i; if (i != l->end()) { next = i->s; } else { if (l == &run->prefix) { l = &run->cycle; i = l->begin(); } next = l->begin()->s; } // browse the actual outgoing transitions and // look for next; const state* the_next = nullptr; for (auto j: a->succ(s)) { if (j->current_condition() != label || j->current_acceptance_conditions() != acc) continue; const state* s2 = j->current_state(); if (s2->compare(next) == 0) { the_next = s2; break; } s2->destroy(); } assert(res); s->destroy(); s = the_next; auto p = seen.emplace(next, 0); if (p.second) p.first->second = res->new_state(); dst = p.first->second; res->new_edge(src, dst, label, acc); src = dst; // Sum acceptance conditions. if (l == &run->cycle && i != l->begin()) seen_acc |= acc; } s->destroy(); assert(a->acc().accepting(seen_acc)); return res; } }