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Implement dtgba_sat_minimize().

Browse source 
Joint work with Soheib Baarir.

* src/tgbaalgos/dtgbasat.cc, src/tgbaalgos/dtgbasat.hh: New files.
* src/tgbaalgos/Makefile.am: Add them.
* src/tgbaalgos/postproc.cc, src/tgbaalgos/postproc.hh: Add
a dtgba-sat-minimize option.
* src/tgbatest/ltl2tgba.cc: Add option -RG.
* src/tgbatest/satmin.test: Add more tests.
This commit is contained in:
Alexandre Duret-Lutz 2013-07-17 10:14:00 +02:00
parent 260ab53cb5
commit 679df4eee1
7 changed files with 1035 additions and 4 deletions
Download patch file Download diff file Expand all files Collapse all files

2
src/tgbaalgos/Makefile.am
View file

@ -38,6 +38,7 @@ tgbaalgos_HEADERS = \
dottydec.hh \
dotty.hh \
dtbasat.hh \
dtgbasat.hh \
dupexp.hh \
eltl2tgba_lacim.hh \
emptiness.hh \
@ -86,6 +87,7 @@ libtgbaalgos_la_SOURCES = \
dotty.cc \
dottydec.cc \
dtbasat.cc \
dtgbasat.cc \
dupexp.cc \
eltl2tgba_lacim.cc \
emptiness.cc \

944
src/tgbaalgos/dtgbasat.cc Normal file
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@ -0,0 +1,944 @@
// -*- coding: utf-8 -*-
// Copyright (C) 2013 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 <iostream>
#include <fstream>
#include <sstream>
#include "dtgbasat.hh"
#include "reachiter.hh"
#include <map>
#include <utility>
#include "scc.hh"
#include "tgba/bddprint.hh"
#include "ltlast/constant.hh"
#include "stats.hh"
#include "ltlenv/defaultenv.hh"
#include "misc/tmpfile.hh"
// If the following DEBUG macro is set to 1, the temporary files used
// to communicate with the SAT-solver will be left in the current
// directory. (The files dtgba-sat.cnf and dtgba-sat.out contain the
// input and output for the last successful minimization attempted, or
// for the only failed attempt if the minimization failed.)
//
// Additionally, the CNF file will be output with a comment before
// each clause, and an additional output file (dtgba-sat.dbg) will be
// created with a list of all positive variables in the result and
// their meaning.
//
// Note that the code use unique temporary filenames, so it is safe to
// run several such minimizations in parallel. It only when DEBUG=1
// that some of these files will be renamed to the above hard-coded
// names, possibly causing confusion if multiple minimizations are
// debugged in parallel and in the same directory.
#define DEBUG 0
#if DEBUG
#define dout out << "c "
#else
#define dout while (0) out
#endif
namespace spot
{
namespace
{
static bdd_dict* debug_dict = 0;
struct transition
{
int src;
bdd cond;
int dst;
transition(int src, bdd cond, int dst)
: src(src), cond(cond), dst(dst)
{
}
bool operator<(const transition& other) const
{
if (this->src < other.src)
return true;
if (this->src > other.src)
return false;
if (this->dst < other.dst)
return true;
if (this->dst > other.dst)
return false;
return this->cond.id() < other.cond.id();
}
bool operator==(const transition& other) const
{
return (this->src == other.src
&& this->dst == other.dst
&& this->cond.id() == other.cond.id());
}
};
struct transition_acc
{
int src;
bdd cond;
bdd acc;
int dst;
transition_acc(int src, bdd cond, bdd acc, int dst)
: src(src), cond(cond), acc(acc), dst(dst)
{
}
bool operator<(const transition_acc& other) const
{
if (this->src < other.src)
return true;
if (this->src > other.src)
return false;
if (this->dst < other.dst)
return true;
if (this->dst > other.dst)
return false;
if (this->cond.id() < other.cond.id())
return true;
if (this->cond.id() > other.cond.id())
return false;
return this->acc.id() < other.acc.id();
}
bool operator==(const transition_acc& other) const
{
return (this->src == other.src
&& this->dst == other.dst
&& this->cond.id() == other.cond.id()
&& this->acc.id() == other.acc.id());
}
};
struct state_pair
{
int a;
int b;
state_pair(int a, int b)
: a(a), b(b)
{
}
bool operator<(const state_pair& other) const
{
if (this->a < other.a)
return true;
if (this->a > other.a)
return false;
if (this->b < other.b)
return true;
if (this->b > other.b)
return false;
return false;
}
};
struct path
{
int src_cand;
int src_ref;
int dst_cand;
int dst_ref;
bdd acc_cand;
bdd acc_ref;
path(int src_cand, int src_ref,
int dst_cand, int dst_ref,
bdd acc_cand, bdd acc_ref)
: src_cand(src_cand), src_ref(src_ref),
dst_cand(dst_cand), dst_ref(dst_ref),
acc_cand(acc_cand), acc_ref(acc_ref)
{
}
bool operator<(const path& other) const
{
if (this->src_cand < other.src_cand)
return true;
if (this->src_cand > other.src_cand)
return false;
if (this->src_ref < other.src_ref)
return true;
if (this->src_ref > other.src_ref)
return false;
if (this->dst_cand < other.dst_cand)
return true;
if (this->dst_cand > other.dst_cand)
return false;
if (this->dst_ref < other.dst_ref)
return true;
if (this->dst_ref > other.dst_ref)
return false;
if (this->acc_ref.id() < other.acc_ref.id())
return true;
if (this->acc_ref.id() > other.acc_ref.id())
return false;
if (this->acc_cand.id() < other.acc_cand.id())
return true;
if (this->acc_cand.id() > other.acc_cand.id())
return false;
return false;
}
};
std::ostream& operator<<(std::ostream& os, const state_pair& p)
{
os << "<" << p.a << "," << p.b << ">";
return os;
}
std::ostream& operator<<(std::ostream& os, const transition& t)
{
os << "<" << t.src << ","
<< bdd_format_formula(debug_dict, t.cond)
<< "," << t.dst << ">";
return os;
}
std::ostream& operator<<(std::ostream& os, const transition_acc& t)
{
os << "<" << t.src << ","
<< bdd_format_formula(debug_dict, t.cond) << ","
<< bdd_format_accset(debug_dict, t.acc)
<< "," << t.dst << ">";
return os;
}
std::ostream& operator<<(std::ostream& os, const path& p)
{
os << "<"
<< p.src_cand << ","
<< p.src_ref << ","
<< p.dst_cand << ","
<< p.dst_ref << ", "
<< bdd_format_accset(debug_dict, p.acc_cand) << ", "
<< bdd_format_accset(debug_dict, p.acc_ref) << ">";
return os;
}
struct dict
{
dict(const tgba* a)
: aut(a)
{
}
const tgba* aut;
typedef std::map<transition, int> trans_map;
typedef std::map<transition_acc, int> trans_acc_map;
trans_map transid;
trans_acc_map transaccid;
typedef std::map<int, transition> rev_map;
typedef std::map<int, transition_acc> rev_acc_map;
rev_map revtransid;
rev_acc_map revtransaccid;
std::map<state_pair, int> prodid;
std::map<path, int> pathid;
int nvars;
typedef Sgi::hash_map<const state*, int,
state_ptr_hash, state_ptr_equal> state_map;
typedef Sgi::hash_map<int, const state*> int_map;
state_map state_to_int;
int_map int_to_state;
int cand_size;
unsigned int cand_nacc;
std::vector<bdd> cand_acc; // size cand_nacc
std::vector<bdd> all_cand_acc;
std::vector<bdd> all_ref_acc;
bdd cand_all_acc;
bdd ref_all_acc;
~dict()
{
state_map::const_iterator s = state_to_int.begin();
while (s != state_to_int.end())
// Always advance the iterator before deleting the key.
s++->first->destroy();
aut->get_dict()->unregister_all_my_variables(this);
}
};
class filler_dfs: public tgba_reachable_iterator_depth_first
{
protected:
dict& d;
int size_;
bdd ap_;
public:
filler_dfs(const tgba* aut, dict& d, bdd ap)
:tgba_reachable_iterator_depth_first(aut), d(d), ap_(ap)
{
d.nvars = 0;
bdd_dict* bd = aut->get_dict();
ltl::default_environment& env = ltl::default_environment::instance();
d.cand_acc.resize(d.cand_nacc);
d.all_cand_acc.push_back(bddfalse);
bdd allneg = bddtrue;
for (unsigned n = 0; n < d.cand_nacc; ++n)
{
std::ostringstream s;
s << n;
const ltl::formula* af = env.require(s.str());
int v = bd->register_acceptance_variable(af, &d);
af->destroy();
d.cand_acc[n] = bdd_ithvar(v);
allneg &= bdd_nithvar(v);
}
for (unsigned n = 0; n < d.cand_nacc; ++n)
{
bdd c = bdd_exist(allneg, d.cand_acc[n]) & d.cand_acc[n];
d.cand_acc[n] = c;
size_t s = d.all_cand_acc.size();
for (size_t i = 0; i < s; ++i)
d.all_cand_acc.push_back(d.all_cand_acc[i] | c);
}
d.cand_all_acc = bdd_support(allneg);
d.ref_all_acc = bdd_support(aut->all_acceptance_conditions());
bdd refall = d.ref_all_acc;
bdd refnegall = aut->neg_acceptance_conditions();
d.all_ref_acc.push_back(bddfalse);
while (refall != bddtrue)
{
bdd v = bdd_ithvar(bdd_var(refall));
bdd c = bdd_exist(refnegall, v) & v;
size_t s = d.all_ref_acc.size();
for (size_t i = 0; i < s; ++i)
d.all_ref_acc.push_back(d.all_ref_acc[i] | c);
refall = bdd_high(refall);
}
}
int size()
{
return size_;
}
void end()
{
size_ = seen.size();
if (d.cand_size == -1)
d.cand_size = size_ - 1;
int seen_size = seen.size();
for (int i = 1; i <= seen_size; ++i)
{
for (int j = 1; j <= d.cand_size; ++j)
{
d.prodid[state_pair(j, i)] = ++d.nvars;
for (int k = 1; k <= seen_size; ++k)
for (int l = 1; l <= d.cand_size; ++l)
{
size_t sf = d.all_cand_acc.size();
for (size_t f = 0; f < sf; ++f)
{
size_t sfp = d.all_ref_acc.size();
for (size_t fp = 0; fp < sfp; ++fp)
{
path p(j, i, l, k,
d.all_cand_acc[f],
d.all_ref_acc[fp]);
d.pathid[p] = ++d.nvars;
}
}
}
}
}
for (dict::state_map::const_iterator i = seen.begin();
i != seen.end(); ++i)
d.int_to_state[i->second] = i->first;
std::swap(d.state_to_int, seen);
for (int i = 1; i <= d.cand_size; ++i)
for (int j = 1; j <= d.cand_size; ++j)
{
bdd all = bddtrue;
while (all != bddfalse)
{
bdd one = bdd_satoneset(all, ap_, bddfalse);
all -= one;
transition t(i, one, j);
d.transid[t] = ++d.nvars;
d.revtransid.insert(dict::rev_map::value_type(d.nvars, t));
// Create the variable for the accepting transition
// immediately afterwards. It helps parsing the
// result.
for (unsigned n = 0; n < d.cand_nacc; ++n)
{
transition_acc ta(i, one, d.cand_acc[n], j);
d.transaccid[ta] = ++d.nvars;
d.revtransaccid.insert(dict::rev_acc_map::
value_type(d.nvars, ta));
}
}
}
}
};
static
void dtgba_to_sat(std::ostream& out, const tgba* ref, dict& d)
{
int nclauses = 0;
int ref_size = 0;
scc_map sm(ref);
sm.build_map();
bdd ap = sm.aprec_set_of(sm.initial());
#if DEBUG
debug_dict = ref->get_dict();
#endif
// Number all the SAT variable we may need.
{
filler_dfs f(ref, d, ap);
f.run();
ref_size = f.size();
}
// empty automaton is impossible
if (d.cand_size == 0)
{
out << "p cnf 1 2\n-1 0\n1 0\n";
return;
}
// An empty line for the header
out << " \n";
dout << "(8) the candidate automaton is complete\n";
for (int q1 = 1; q1 <= d.cand_size; ++q1)
{
bdd all = bddtrue;
while (all != bddfalse)
{
bdd s = bdd_satoneset(all, ap, bddfalse);
all -= s;
#if DEBUG
dout;
for (int q2 = 1; q2 <= d.cand_size; q2++)
{
transition t(q1, s, q2);
out << t << "δ";
if (q2 != d.cand_size)
out << " ";
}
out << "\n";
#endif
for (int q2 = 1; q2 <= d.cand_size; q2++)
{
transition t(q1, s, q2);
int ti = d.transid[t];
out << ti << " ";
}
out << "0\n";
++nclauses;
}
}
dout << "(9) the initial state is reachable\n";
dout << state_pair(1, 1) << "\n";
out << d.prodid[state_pair(1, 1)] << " 0\n";
++nclauses;
for (std::map<state_pair, int>::const_iterator pit = d.prodid.begin();
pit != d.prodid.end(); ++pit)
{
int q1 = pit->first.a;
int q1p = pit->first.b;
dout << "(9) states Cand[" << q1 << "] and Ref[" << q1p
<< "] are 0-length paths\n";
path p(q1, q1p, q1, q1p, bddfalse, bddfalse);
dout << pit->first << "" << p << "\n";
out << -pit->second << " " << d.pathid[p] <<" 0\n";
++nclauses;
dout << "(10) augmenting paths based on Cand[" << q1
<< "] and Ref[" << q1p << "]\n";
tgba_succ_iterator* it = ref->succ_iter(d.int_to_state[q1p]);
for (it->first(); !it->done(); it->next())
{
const state* dps = it->current_state();
int dp = d.state_to_int[dps];
dps->destroy();
bdd all = it->current_condition();
while (all != bddfalse)
{
bdd s = bdd_satoneset(all, ap, bddfalse);
all -= s;
for (int q2 = 1; q2 <= d.cand_size; q2++)
{
transition t(q1, s, q2);
int ti = d.transid[t];
state_pair p2(q2, dp);
int succ = d.prodid[p2];
dout << pit->first << "" << t << "δ → " << p2 << "\n";
out << -pit->second << " " << -ti << " "
<< succ << " 0\n";
++nclauses;
}
}
}
delete it;
}
bdd all_acc = ref->all_acceptance_conditions();
// construction of constraints (11,12,13)
for (int q1 = 1; q1 <= d.cand_size; ++q1)
for (int q1p = 1; q1p <= ref_size; ++q1p)
for (int q2 = 1; q2 <= d.cand_size; ++q2)
for (int q2p = 1; q2p <= ref_size; ++q2p)
{
size_t sf = d.all_cand_acc.size();
size_t sfp = d.all_ref_acc.size();
for (size_t f = 0; f < sf; ++f)
for (size_t fp = 0; fp < sfp; ++fp)
{
path p(q1, q1p, q2, q2p,
d.all_cand_acc[f], d.all_ref_acc[fp]);
dout << "(11&12&13) paths from " << p << "\n";
int pid = d.pathid[p];
tgba_succ_iterator* it =
ref->succ_iter(d.int_to_state[q2p]);
for (it->first(); !it->done(); it->next())
{
const state* dps = it->current_state();
int dp = d.state_to_int[dps];
dps->destroy();
for (int q3 = 1; q3 <= d.cand_size; ++q3)
{
bdd all = it->current_condition();
bdd curacc = it->current_acceptance_conditions();
while (all != bddfalse)
{
bdd l = bdd_satoneset(all, ap, bddfalse);
all -= l;
transition t(q2, l, q3);
int ti = d.transid[t];
if (dp == q1p && q3 == q1) // (11,12) loop
{
bdd unio = curacc | d.all_ref_acc[fp];
if (unio != all_acc)
{
#if DEBUG
dout << "(11) " << p << ""
<< t << "δ → ¬(";
bdd all_ = d.all_cand_acc.back();
all_ -= d.all_cand_acc[f];
bool notfirst = false;
while (all_ != bddfalse)
{
bdd one = bdd_satone(all_);
all_ -= one;
transition_acc ta(q2, l,
one, q1);
if (notfirst)
out << "";
else
notfirst = true;
out << ta << "FC";
}
out << ")\n";
#endif // DEBUG
out << -pid << " " << -ti;
// 11
bdd all_f = d.all_cand_acc.back();
all_f -= d.all_cand_acc[f];
while (all_f != bddfalse)
{
bdd one = bdd_satone(all_f);
all_f -= one;
transition_acc ta(q2, l, one, q1);
int tai = d.transaccid[ta];
assert(tai != 0);
out << " " << -tai;
}
out << " 0\n";
++nclauses;
}
else
{
#if DEBUG
dout << "(12) " << p << ""
<< t << "δ → (";
bdd all_ = d.all_cand_acc.back();
all_ -= d.all_cand_acc[f];
bool notfirst = false;
while (all_ != bddfalse)
{
bdd one = bdd_satone(all_);
all_ -= one;
transition_acc ta(q2, l, one, q1);
if (notfirst)
out << "";
else
notfirst = true;
out << ta << "FC";
}
out << ")\n";
#endif // DEBUG
// 12
bdd all_f = d.all_cand_acc.back();
all_f -= d.all_cand_acc[f];
while (all_f != bddfalse)
{
bdd one = bdd_satone(all_f);
all_f -= one;
transition_acc ta(q2, l, one, q1);
int tai = d.transaccid[ta];
assert(tai != 0);
out << -pid << " " << -ti
<< " " << tai << " 0\n";
++nclauses;
}
// out << -pid << " " << -ti
// << " " << pcompid << " 0\n";
// ++nclauses;
}
}
// (13) augmenting paths (always).
{
size_t sf = d.all_cand_acc.size();
for (size_t f = 0; f < sf; ++f)
{
bdd f2 = p.acc_cand |
d.all_cand_acc[f];
bdd f2p = p.acc_ref | curacc;
path p2(p.src_cand, p.src_ref,
q3, dp, f2, f2p);
#if DEBUG
dout << "(13) " << p << ""
<< t << "δ ";
bdd biga_ = d.all_cand_acc[f];
while (biga_ != bddfalse)
{
bdd a = bdd_satone(biga_);
biga_ -= a;
transition_acc ta(q2, l, a, q3);
out << "" << ta << "FC";
}
biga_ = d.all_cand_acc.back()
- d.all_cand_acc[f];
while (biga_ != bddfalse)
{
bdd a = bdd_satone(biga_);
biga_ -= a;
transition_acc ta(q2, l, a, q3);
out << " ∧ ¬" << ta << "FC";
}
out << "" << p2 << "\n";
#endif
out << -pid << " " << -ti << " ";
bdd biga = d.all_cand_acc[f];
while (biga != bddfalse)
{
bdd a = bdd_satone(biga);
biga -= a;
transition_acc ta(q2, l, a, q3);
int tai = d.transaccid[ta];
out << -tai << " ";
}
biga = d.all_cand_acc.back()
- d.all_cand_acc[f];
while (biga != bddfalse)
{
bdd a = bdd_satone(biga);
biga -= a;
transition_acc ta(q2, l, a, q3);
int tai = d.transaccid[ta];
out << tai << " ";
}
int p2id = d.pathid[p2];
out << p2id << " 0\n";
++nclauses;
}
}
}
}
}
delete it;
}
}
out.seekp(0);
out << "p cnf " << d.nvars << " " << nclauses;
}
static std::string
get_solution(const char* filename)
{
std::fstream in(filename, std::ios_base::in);
std::string line;
while (std::getline(in, line))
{
if (line.empty() || line[0] == 'c')
continue;
if (line[0] == 'v')
break;
}
if (line[0] == 'v')
return line.c_str() + 1;
return "";
}
static tgba_explicit_number*
sat_build(const std::string& solution, dict& satdict, const tgba* aut)
{
bdd_dict* autdict = aut->get_dict();
tgba_explicit_number* a = new tgba_explicit_number(autdict);
autdict->register_all_variables_of(aut, a);
autdict->unregister_all_typed_variables(bdd_dict::acc, aut);
a->set_acceptance_conditions(satdict.all_cand_acc.back());
for (int s = 1; s < satdict.cand_size; ++s)
a->add_state(s);
std::stringstream sol(solution);
state_explicit_number::transition* last_aut_trans = 0;
const transition* last_sat_trans = 0;
#if DEBUG
std::fstream out("dtgba-sat.dbg",
std::ios_base::trunc | std::ios_base::out);
std::set<int> positive;
#else
// "out" is not used, but it has to exist for the dout() macro to
// compile.
std::ostream& out(std::cout);
#endif
dout << "--- transition variables ---\n";
for (;;)
{
int v;
sol >> v;
if (!sol)
break;
if (v < 0) // FIXME: maybe we can have (v < NNN)?
continue;
#if DEBUG
positive.insert(v);
#endif
dict::rev_map::const_iterator t = satdict.revtransid.find(v);
if (t != satdict.revtransid.end())
{
last_aut_trans = a->create_transition(t->second.src,
t->second.dst);
last_aut_trans->condition = t->second.cond;
last_sat_trans = &t->second;
dout << v << "\t" << t->second << "δ\n";
}
else
{
dict::rev_acc_map::const_iterator ta;
ta = satdict.revtransaccid.find(v);
// This assumes that the sat solvers output variables in
// increasing order.
if (ta != satdict.revtransaccid.end())
{
dout << v << "\t" << ta->second << "F\n";
if (last_sat_trans &&
ta->second.src == last_sat_trans->src &&
ta->second.cond == last_sat_trans->cond &&
ta->second.dst == last_sat_trans->dst)
last_aut_trans->acceptance_conditions |= ta->second.acc;
}
}
}
#if DEBUG
dout << "--- state_pair variables ---\n";
for (std::map<state_pair, int>::const_iterator pit =
satdict.prodid.begin(); pit != satdict.prodid.end(); ++pit)
if (positive.find(pit->second) != positive.end())
dout << pit->second << "\t" << pit->first << "\n";
dout << "--- pathit variables ---\n";
for (std::map<path, int>::const_iterator pit =
satdict.pathid.begin();
pit != satdict.pathid.end(); ++pit)
if (positive.find(pit->second) != positive.end())
dout << pit->second << "\t" << pit->first << "C\n";
#endif
a->merge_transitions();
return a;
}
static bool
xrename(const char* from, const char* to)
{
if (!rename(from, to))
return false;
std::ostringstream msg;
msg << "cannot rename " << from << " to " << to;
perror(msg.str().c_str());
return true;
}
}
tgba_explicit_number*
dtgba_sat_minimize(const tgba* a, unsigned cand_nacc)
{
int ref_states = stats_reachable(a).states;
std::string current_solution;
std::string last_solution;
dict* last = 0;
dict* current = 0;
temporary_file* cnf = 0;
temporary_file* out = 0;
do
{
if (DEBUG && current)
{
xrename(out->name(), "dtgba-sat.out");
xrename(cnf->name(), "dtgba-sat.cnf");
}
delete out;
delete cnf;
std::swap(current_solution, last_solution);
delete last;
last = current;
current = new dict(a);
current->cand_size = --ref_states;
current->cand_nacc = cand_nacc;
cnf = create_tmpfile("dtgba-sat-", ".cnf");
std::fstream cnfs(cnf->name(),
std::ios_base::trunc | std::ios_base::out);
dtgba_to_sat(cnfs, a, *current);
cnfs.close();
out = create_tmpfile("dtba-sat-", ".out");
const char* satsolver = getenv("SATSOLVER");
if (!satsolver)
satsolver = "glucose";
std::string s(satsolver);
s += " ";
s += cnf->name();
s += " > ";
s += out->name();
system(s.c_str());
current_solution = get_solution(out->name());
}
while (!current_solution.empty());
delete current;
tgba_explicit_number* res;
if (last == 0)
{
res = 0;
if (DEBUG)
{
xrename(out->name(), "dtgba-sat.out");
xrename(cnf->name(), "dtgba-sat.cnf");
}
}
else
{
res = sat_build(last_solution, *last, a);
delete last;
}
delete out;
delete cnf;
return res;
}
}

43
src/tgbaalgos/dtgbasat.hh Normal file
View file

@ -0,0 +1,43 @@
// -*- coding: utf-8 -*-
// Copyright (C) 2013 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_TGBAALGOS_DTGBASAT_HH
# define SPOT_TGBAALGOS_DTGBASAT_HH
#include <iosfwd>
#include "tgba/tgba.hh"
#include "tgba/tgbaexplicit.hh"
namespace spot
{
/// \brief Attempt to reduce a deterministic TGBA with a SAT solver.
///
/// \param a the TGBA to reduce. It should have only one acceptance
/// set and be deterministic. I.e., it should be a deterministic TBA.
///
/// \param cand_nacc is the number of acceptance sets in the result.
///
/// This functions attempts to find the smallest TGBA with \a
/// cand_nacc acceptance sets that is equivalent to \a a. If no
/// smaller TGBA is found, a null pointer is returned.
SPOT_API tgba_explicit_number*
dtgba_sat_minimize(const tgba* a, unsigned cand_nacc);
}
#endif // SPOT_TGBAALGOS_DTGBASAT_HH

20
src/tgbaalgos/postproc.cc
View file

@ -30,6 +30,7 @@
#include "isdet.hh"
#include "tgba/tgbatba.hh"
#include "dtbasat.hh"
#include "dtgbasat.hh"
#include "complete.hh"
namespace spot
@ -51,6 +52,7 @@ namespace spot
ba_simul_ = opt->get("ba-simul", -1);
tba_determinisation_ = opt->get("tba-det", 0);
sat_minimize_ = opt->get("sat-minimize", 0);
dtgba_sat_minimize_ = opt->get("dtgba-sat-minimize", -1);
}
}
@ -300,6 +302,24 @@ namespace spot
delete res;
}
}
else if (dtgba_sat_minimize_ >= 0 && dba && !dba_is_wdba)
{
const tgba* cmp = tgba_complete(dba);
const tgba* res =
dtgba_sat_minimize(cmp,
dtgba_sat_minimize_
? dtgba_sat_minimize_
: dba->number_of_acceptance_conditions());
delete cmp;
if (res != 0)
{
delete dba;
dba = scc_filter(res, true);
delete res;
}
}
// Degeneralize the dba resulting from tba-determinization
// or sat-minimization (which is a TBA) if requested.
if (dba && !dba_is_wdba && type_ == BA)

1
src/tgbaalgos/postproc.hh
View file

@ -107,6 +107,7 @@ namespace spot
int ba_simul_;
bool tba_determinisation_;
bool sat_minimize_;
int dtgba_sat_minimize_;
};
/// @}
}

20
src/tgbatest/ltl2tgba.cc
View file

@ -73,6 +73,7 @@
#include "tgbaalgos/dbacomp.hh"
#include "tgbaalgos/complete.hh"
#include "tgbaalgos/dtbasat.hh"
#include "tgbaalgos/dtgbasat.hh"
#include "taalgos/tgba2ta.hh"
#include "taalgos/dotty.hh"
@ -432,6 +433,7 @@ main(int argc, char** argv)
bool cs_oblig = false;
bool opt_complete = false;
int opt_dtbasat = -1;
int opt_dtgbasat = -1;
for (;;)
{
@ -798,6 +800,14 @@ main(int argc, char** argv)
redopt.reduce_basics = true;
redopt.reduce_size_strictly = true;
}
else if (!strncmp(argv[formula_index], "-RG", 3))
{
if (argv[formula_index][3] != 0)
opt_dtgbasat = to_int(argv[formula_index] + 3);
else
opt_dtgbasat = 0;
//output = -1;
}
else if (!strcmp(argv[formula_index], "-Rm"))
{
opt_minimize = true;
@ -818,7 +828,7 @@ main(int argc, char** argv)
if (argv[formula_index][3] != 0)
opt_dtbasat = to_int(argv[formula_index] + 3);
else
opt_dtbasat = -1;
opt_dtbasat = 0;
//output = -1;
}
else if (!strcmp(argv[formula_index], "-RT"))
@ -1523,6 +1533,14 @@ main(int argc, char** argv)
if (satminimized)
a = satminimized;
}
else if (opt_dtgbasat >= 0)
{
tm.start("dtgbasat");
satminimized = dtgba_sat_minimize(a, opt_dtgbasat);
tm.stop("dtgbasat");
if (satminimized)
a = satminimized;
}
spot::tgba* complemented = 0;
if (opt_dbacomp)

9
src/tgbatest/satmin.test
View file

@ -86,8 +86,11 @@ G(G!a | F!c | G!b)
EOF
$ltlcross -F formulas \
--timeout=300 \
--timeout=60 \
"$ltl2tgba --det --lbtt %f >%T" \
"$ltl2tgba --det --lbtt -x tba-det --lbtt %f >%T" \
"$ltl2tgba --det --lbtt -x tba-det,sat-minimize --lbtt %f >%T" \
"$ltl2tgba --det --lbtt -x tba-det %f >%T" \
"$ltl2tgba --det --lbtt -x tba-det,sat-minimize %f >%T" \
"$ltl2tgba --det --lbtt -x tba-det,dtgba-sat-minimize=0 %f >%T" \
"$ltl2tgba --det --lbtt -x dtgba-sat-minimize=0 %f >%T" \
"$ltl2tgba --det --lbtt -x tba-det,dtgba-sat-minimize=3 %f >%T" \
--json=det.json