df326e032b
* doc/tl/tl.bib: Move ... * doc/spot.bib: ... here, and augment it with all references that appeared verbatim in Doxygen comments. * doc/Makefile.am, doc/tl/Makefile.am doc/tl/tl.tex: Adjust for the move. * doc/Doxyfile.in: Point to spot.bib. * spot/gen/automata.hh, spot/gen/formulas.hh, spot/misc/game.hh, spot/misc/minato.hh spot/taalgos/emptinessta.hh, spot/taalgos/minimize.hh, spot/taalgos/tgba2ta.hh, spot/tl/formula.hh, spot/tl/remove_x.hh, spot/tl/simplify.hh, spot/tl/snf.hh, spot/twaalgos/cobuchi.hh, spot/twaalgos/cycles.hh, spot/twaalgos/dualize.hh, spot/twaalgos/gtec/gtec.hh, spot/twaalgos/gv04.hh, spot/twaalgos/ltl2taa.hh, spot/twaalgos/ltl2tgba_fm.hh, spot/twaalgos/magic.hh, spot/twaalgos/minimize.hh, spot/twaalgos/parity.hh, spot/twaalgos/powerset.hh, spot/twaalgos/randomgraph.hh, spot/twaalgos/se05.hh, spot/twaalgos/simulation.hh, spot/twaalgos/strength.hh, spot/twaalgos/stutter.hh, spot/twaalgos/tau03.hh, spot/twaalgos/totgba.hh, spot/twaalgos/toweak.hh: Use \cite instead of a verbatim bibtex entry.
91 lines
4 KiB
C++
91 lines
4 KiB
C++
// -*- coding: utf-8 -*-
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// Copyright (C) 2010, 2012-2015, 2017, 2019 Laboratoire de Recherche
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// et Développement de l'Epita (LRDE).
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//
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// This file is part of Spot, a model checking library.
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//
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// Spot is free software; you can redistribute it and/or modify it
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// under the terms of the GNU General Public License as published by
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// the Free Software Foundation; either version 3 of the License, or
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// (at your option) any later version.
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//
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// Spot is distributed in the hope that it will be useful, but WITHOUT
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// ANY WARRANTY; without even the implied warranty of MERCHANTABILITY
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// or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public
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// License for more details.
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//
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// You should have received a copy of the GNU General Public License
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// along with this program. If not, see <http://www.gnu.org/licenses/>.
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#pragma once
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#include <spot/twa/twa.hh>
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#include <spot/ta/taexplicit.hh>
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#include <spot/ta/tgtaexplicit.hh>
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namespace spot
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{
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/// \ingroup tgba_ta
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/// \brief Build a spot::ta_explicit* (TA) from an LTL formula.
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///
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/// This is based on \cite geldenhuys.06.spin .
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///
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/// \param tgba_to_convert The TGBA automaton to convert into a TA automaton
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///
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/// \param atomic_propositions_set The set of atomic propositions used in the
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/// input TGBA \a tgba_to_convert
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///
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/// \param degeneralized When false, the returned automaton is a generalized
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/// form of TA, called GTA (Generalized Testing Automaton).
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/// Like TGBA, GTA use Generalized Büchi acceptance
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/// conditions intead of Buchi-accepting states: there are several acceptance
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/// sets (of transitions), and a path is accepted if it traverses
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/// at least one transition of each set infinitely often or if it contains a
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/// livelock-accepting cycle (like a TA). The spot emptiness check algorithm
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/// for TA (spot::ta_check::check) can also be used to check GTA.
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///
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/// \param artificial_initial_state_mode When set, the algorithm will build
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/// a TA automaton with a unique initial state. This
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/// artificial initial state have one transition to each real initial state,
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/// and this transition is labeled by the corresponding initial condition.
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/// (see spot::ta::get_artificial_initial_state())
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///
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/// \param single_pass_emptiness_check When set, the product between the
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/// returned automaton and a kripke structure requires only the fist pass of
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/// the emptiness check algorithm (see the parameter \c disable_second_pass
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/// of the method spot::ta_check::check)
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///
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///
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/// \param artificial_livelock_state_mode When set, the returned TA automaton
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/// is a STA (Single-pass Testing Automata): a STA automaton is a TA
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/// where: for every livelock-accepting state s, if s is not also a
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/// Buchi-accepting state, then s has no successors. A STA product requires
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/// only one-pass emptiness check algorithm (see spot::ta_check::check)
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///
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/// \param no_livelock when set, this disable the replacement of
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/// stuttering components by livelock states. Use this flag to
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/// demonstrate an intermediate step of the construction.
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///
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/// \return A spot::ta_explicit that recognizes the same language as the
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/// TGBA \a tgba_to_convert.
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SPOT_API ta_explicit_ptr
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tgba_to_ta(const const_twa_ptr& tgba_to_convert, bdd atomic_propositions_set,
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bool degeneralized = true,
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bool artificial_initial_state_mode = true,
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bool single_pass_emptiness_check = false,
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bool artificial_livelock_state_mode = false,
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bool no_livelock = false);
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/// \ingroup tgba_ta
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/// \brief Build a spot::tgta_explicit* (TGTA) from an LTL formula.
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///
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/// \param tgba_to_convert The TGBA automaton to convert into a TGTA automaton
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/// \param atomic_propositions_set The set of atomic propositions used in the
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/// input TGBA \a tgba_to_convert
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///
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/// \return A spot::tgta_explicit (spot::tgta) that recognizes the same
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/// language as the TGBA \a tgba_to_convert.
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SPOT_API tgta_explicit_ptr
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tgba_to_tgta(const const_twa_ptr& tgba_to_convert,
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bdd atomic_propositions_set);
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}
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