// -*- coding: utf-8 -*- // Copyright (C) 2010, 2011, 2012, 2013, 2014 Laboratoire de Recherche // et Développement de l'Epita. // Copyright (C) 2003, 2004, 2006 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 . #ifndef SPOT_TGBA_TGBATBA_HH # define SPOT_TGBA_TGBATBA_HH #include #include "tgba.hh" #include "misc/bddlt.hh" #include "misc/hash.hh" namespace spot { /// \ingroup tgba_on_the_fly_algorithms /// \brief Degeneralize a spot::tgba on the fly, producing a TBA. /// /// This class acts as a proxy in front of a spot::tgba, that should /// be degeneralized on the fly. The result is still a spot::tgba, /// but it will always have exactly one acceptance condition so /// it could be called TBA (without the G). /// /// The degeneralization is done by synchronizing the input /// automaton with a "counter" automaton such as the one shown in /// "On-the-fly Verification of Linear Temporal Logic" (Jean-Michel /// Couveur, FME99). /// /// If the input automaton uses N acceptance conditions, the output /// automaton can have at most max(N,1) times more states and /// transitions. class SPOT_API tgba_tba_proxy : public tgba { public: tgba_tba_proxy(const tgba* a); virtual ~tgba_tba_proxy(); virtual state* get_init_state() const; virtual tgba_succ_iterator* succ_iter(const state* state) const; virtual bdd_dict* get_dict() const; virtual std::string format_state(const state* state) const; virtual state* project_state(const state* s, const tgba* t) const; virtual bdd all_acceptance_conditions() const; virtual bdd neg_acceptance_conditions() const; typedef std::list cycle_list; /// \brief Return the acceptance conditions common to all outgoing /// transitions of state \a ostate in the original automaton. /// /// This internal function is only meant to be used to implement /// the iterator returned by succ_iter. /// /// The result of this function is computed the first time, and /// then cached. bdd common_acceptance_conditions_of_original_state(const state* ostate) const; /// \brief Return the union of acceptance conditions of all outgoing /// transitions of state \a ostate in the original automaton. /// /// This internal function is only meant to be used to implement /// the iterator returned by succ_iter. /// /// The result of this function is computed the first time, and /// then cached. bdd union_acceptance_conditions_of_original_state(const state* s) const; /// \brief Create a degeneralized state using the unicity table. /// /// This is an internal function. \a s should be a fresh state /// from the source automaton. state* create_state(state* s, cycle_list::const_iterator acc) const; protected: virtual bdd compute_support_conditions(const state* state) const; cycle_list acc_cycle_; const tgba* a_; private: bdd the_acceptance_cond_; typedef std::unordered_map accmap_t; mutable accmap_t accmap_; mutable accmap_t accmapu_; /// Unicity table for degeneralized states. See create_state() mutable void* uniq_map_; // Disallow copy. tgba_tba_proxy(const tgba_tba_proxy&) SPOT_DELETED; tgba_tba_proxy& operator=(const tgba_tba_proxy&) SPOT_DELETED; }; } #endif // SPOT_TGBA_TGBATBA_HH