Commit 359e0c6f authored by Alexandre Duret-Lutz's avatar Alexandre Duret-Lutz
Browse files

remove wdbacomp.cc and wdbacomp.hh

The weak complementation is now implemented by dtgba_complement(), with
dispatch based on the automaton property.

* src/tgba/wdbacomp.cc, src/tgba/wdbacomp.hh: Remove.
* src/tgba/Makefile.am: Adjust.
* src/tgbaalgos/dtgbacomp.cc: Implement the weak version.
* src/tgbaalgos/dtgbacomp.hh: Document it.
* src/tgbaalgos/minimize.cc: Use dtgba_complement() instead.
parent c8b399c0
......@@ -38,8 +38,7 @@ tgba_HEADERS = \
tgbaproxy.hh \
tgbaproduct.hh \
tgbasgba.hh \
tgbasafracomplement.hh \
wdbacomp.hh
tgbasafracomplement.hh
noinst_LTLIBRARIES = libtgba.la
libtgba_la_SOURCES = \
......@@ -54,5 +53,4 @@ libtgba_la_SOURCES = \
tgbamask.cc \
tgbaproxy.cc \
tgbasafracomplement.cc \
tgbasgba.cc \
wdbacomp.cc
tgbasgba.cc
// -*- coding: utf-8 -*-
// Copyright (C) 2011, 2012, 2013, 2014 Laboratoire de Recherche et
// Développement de l'Epita.
//
// 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 <http://www.gnu.org/licenses/>.
#include "wdbacomp.hh"
#include "ltlast/constant.hh"
namespace spot
{
namespace
{
class state_wdba_comp_proxy : public state
{
public:
state_wdba_comp_proxy(state* s) : s_(s)
{
}
/// Copy constructor
state_wdba_comp_proxy(const state_wdba_comp_proxy& o)
: state(),
s_(o.real_state())
{
if (s_)
s_ = s_->clone();
}
virtual
~state_wdba_comp_proxy()
{
if (s_)
s_->destroy();
}
state*
real_state() const
{
return s_;
}
virtual int
compare(const state* other) const
{
const state_wdba_comp_proxy* o =
down_cast<const state_wdba_comp_proxy*>(other);
assert(o);
const state* oo = o->real_state();
if (s_ == 0)
return oo ? 1 : 0;
if (oo == 0)
return -1;
return s_->compare(oo);
}
virtual size_t
hash() const
{
if (s_)
return s_->hash();
return 0;
}
virtual
state_wdba_comp_proxy* clone() const
{
return new state_wdba_comp_proxy(*this);
}
private:
state* s_; // 0 if sink-state.
};
class tgba_wdba_comp_proxy_succ_iterator: public tgba_succ_iterator
{
public:
tgba_wdba_comp_proxy_succ_iterator(tgba_succ_iterator* it,
bdd the_acceptance_cond)
: it_(it), the_acceptance_cond_(the_acceptance_cond), left_(bddtrue)
{
}
void recycle(const const_tgba_ptr& a, tgba_succ_iterator* it)
{
a->release_iter(it_);
it_ = it;
}
virtual
~tgba_wdba_comp_proxy_succ_iterator()
{
delete it_;
}
// iteration
bool
first()
{
left_ = bddtrue;
if (it_)
it_->first();
// Return true even if it_ is done, because
// we have to build a sink state.
return true;
}
bool
next()
{
if (!it_ || it_->done())
{
left_ = bddfalse;
return false;
}
left_ -= it_->current_condition();
if (left_ == bddfalse)
return false;
it_->next();
// Return true even if it_ is done, because
// we have to build a sink state.
return true;
}
bool
done() const
{
return left_ == bddfalse;
}
// inspection
state_wdba_comp_proxy*
current_state() const
{
if (!it_ || it_->done())
return new state_wdba_comp_proxy(0);
return new state_wdba_comp_proxy(it_->current_state());
}
bdd
current_condition() const
{
if (!it_ || it_->done())
return left_;
return it_->current_condition();
}
bdd
current_acceptance_conditions() const
{
if (!it_ || it_->done())
// The sink state is accepting in the negated automaton.
return the_acceptance_cond_;
if (it_->current_acceptance_conditions() == bddfalse)
return the_acceptance_cond_;
else
return bddfalse;
}
protected:
tgba_succ_iterator* it_;
const bdd the_acceptance_cond_;
bdd left_;
};
class tgba_wdba_comp_proxy: public tgba
{
public:
tgba_wdba_comp_proxy(const const_tgba_ptr& a)
: a_(a), the_acceptance_cond_(a->all_acceptance_conditions())
{
if (the_acceptance_cond_ == bddfalse)
{
int v = get_dict()
->register_acceptance_variable(ltl::constant::true_instance(),
this);
the_acceptance_cond_ = bdd_ithvar(v);
}
}
virtual ~tgba_wdba_comp_proxy()
{
get_dict()->unregister_all_my_variables(this);
}
virtual state* get_init_state() const
{
return new state_wdba_comp_proxy(a_->get_init_state());
}
virtual tgba_succ_iterator*
succ_iter(const state* st) const
{
const state_wdba_comp_proxy* s =
down_cast<const state_wdba_comp_proxy*>(st);
assert(s);
const state* o = s->real_state();
tgba_succ_iterator* it = nullptr;
if (o)
it = a_->succ_iter(s->real_state());
if (iter_cache_)
{
tgba_wdba_comp_proxy_succ_iterator* res =
down_cast<tgba_wdba_comp_proxy_succ_iterator*>(iter_cache_);
res->recycle(a_, it);
iter_cache_ = nullptr;
return res;
}
return new tgba_wdba_comp_proxy_succ_iterator(it, the_acceptance_cond_);
}
virtual bdd_dict_ptr
get_dict() const
{
return a_->get_dict();
}
virtual std::string
format_state(const state* ostate) const
{
const state_wdba_comp_proxy* s =
down_cast<const state_wdba_comp_proxy*>(ostate);
assert(s);
const state* rs = s->real_state();
if (rs)
return a_->format_state(s->real_state());
else
return "(*)"; // sink state
}
virtual state*
project_state(const state* s, const const_tgba_ptr& t) const
{
const state_wdba_comp_proxy* s2 =
down_cast<const state_wdba_comp_proxy*>(s);
assert(s2);
if (t.get() == this)
return s2->clone();
return a_->project_state(s2->real_state(), t);
}
virtual bdd
all_acceptance_conditions() const
{
return the_acceptance_cond_;
}
virtual bdd
neg_acceptance_conditions() const
{
return !the_acceptance_cond_;
}
protected:
virtual bdd
compute_support_conditions(const state*) const
{
// The automaton is complete, so we always support all variables.
return bddtrue;
}
const_tgba_ptr a_;
private:
bdd the_acceptance_cond_;
// Disallow copy.
tgba_wdba_comp_proxy(const tgba_wdba_comp_proxy&) SPOT_DELETED;
tgba_wdba_comp_proxy& operator=(const tgba_wdba_comp_proxy&) SPOT_DELETED;
};
}
const_tgba_ptr
wdba_complement(const const_tgba_ptr& aut)
{
return std::make_shared<tgba_wdba_comp_proxy>(aut);
}
}
// -*- coding: utf-8 -*-
// Copyright (C) 2011, 2013, 2014 Laboratoire de Recherche et Développement
// de l'Epita.
//
// 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 <http://www.gnu.org/licenses/>.
#ifndef SPOT_TGBA_WDBACOMP_HH
# define SPOT_TGBA_WDBACOMP_HH
#include "tgba.hh"
namespace spot
{
/// \ingroup tgba_on_the_fly_algorithms
/// \brief Complement a weak deterministic Büchi automaton
/// \param aut a weak deterministic Büchi automaton to complement
/// \return a new automaton that recognizes the complement language
SPOT_API const_tgba_ptr
wdba_complement(const const_tgba_ptr& aut);
}
#endif
......@@ -19,10 +19,11 @@
#include "dtgbacomp.hh"
#include "dupexp.hh"
#include "sccinfo.hh"
namespace spot
{
tgba_digraph_ptr dtgba_complement(const const_tgba_ptr& aut)
tgba_digraph_ptr dtgba_complement_nonweak(const const_tgba_ptr& aut)
{
// Clone the original automaton.
tgba_digraph_ptr res = tgba_dupexp_dfs(aut);
......@@ -50,7 +51,7 @@ namespace spot
bdd missingcond = bddtrue;
for (auto& t: res->out(src))
{
if (t.dst >= n) // Ignore transition we added.
if (t.dst >= n) // Ignore transitions we added.
break;
missingcond -= t.cond;
bdd curacc = t.acc;
......@@ -121,4 +122,65 @@ namespace spot
// FIXME: Remove unreachable states.
return res;
}
tgba_digraph_ptr dtgba_complement_weak(const const_tgba_ptr& aut)
{
// Clone the original automaton.
tgba_digraph_ptr res = tgba_dupexp_dfs(aut);
res->prop_copy(aut,
true, // state based
true, // single acc
true, // inherently_weak
true); // deterministic
bdd oldaccs = aut->all_acceptance_conditions();
bdd oldnegs = aut->neg_acceptance_conditions();
scc_info si(res);
// We will modify res in place, and the resulting
// automaton will only have one acceptance set.
bdd all_acc = res->set_single_acceptance_set();
res->prop_state_based_acc();
unsigned sink = res->num_states();
for (unsigned src = 0; src < sink; ++src)
{
bdd acc = bddfalse;
unsigned scc = si.scc_of(src);
if (!si.is_accepting_scc(scc) && !si.is_trivial(scc))
acc = all_acc;
// Keep track of all conditions on transition leaving state
// SRC, so we can complete it.
bdd missingcond = bddtrue;
for (auto& t: res->out(src))
{
missingcond -= t.cond;
t.acc = acc;
}
// Complete the original automaton.
if (missingcond != bddfalse)
{
if (res->num_states() == sink)
{
res->new_state();
res->new_acc_transition(sink, sink, bddtrue);
}
res->new_transition(src, sink, missingcond);
}
}
//res->merge_transitions();
return res;
}
tgba_digraph_ptr dtgba_complement(const const_tgba_ptr& aut)
{
if (aut->is_inherently_weak())
return dtgba_complement_weak(aut);
else
return dtgba_complement_nonweak(aut);
}
}
// -*- coding: utf-8 -*-
// Copyright (C) 2013 Laboratoire de Recherche et Développement
// Copyright (C) 2013, 2014 Laboratoire de Recherche et Développement
// de l'Epita.
//
// This file is part of Spot, a model checking library.
......@@ -28,8 +28,9 @@ namespace spot
///
/// The automaton \a aut should be deterministic. It does no need
/// to be complete. Acceptance can be transition-based, or
/// state-based. The resulting automaton is very unlikely to be
/// deterministic.
/// state-based. Unless the input automaton is marked as weak (in
/// which case the output will also be weak and deterministic) the
/// resulting automaton is very unlikely to be deterministic.
SPOT_API tgba_digraph_ptr
dtgba_complement(const const_tgba_ptr& aut);
}
......
......@@ -37,7 +37,6 @@
#include "misc/hash.hh"
#include "misc/bddlt.hh"
#include "tgba/tgbaproduct.hh"
#include "tgba/wdbacomp.hh"
#include "tgbaalgos/powerset.hh"
#include "tgbaalgos/gtec/gtec.hh"
#include "tgbaalgos/safety.hh"
......@@ -671,7 +670,8 @@ namespace spot
if (product(min_aut_f, aut_neg_f)->is_empty())
{
// Complement the minimized WDBA.
auto neg_min_aut_f = wdba_complement(min_aut_f);
assert(min_aut_f->is_inherently_weak());
auto neg_min_aut_f = dtgba_complement(min_aut_f);
if (product(aut_f, neg_min_aut_f)->is_empty())
// Finally, we are now sure that it was safe
// to minimize the automaton.
......
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