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spot/tests/core/ikwiad.cc
Maximilien Colange 3f5470898d Rework the 'down_cast' macro, closing #196. 
* spot/misc/casts.hh: New inline functions and compile-time checks.
* spot/kripke/kripkegraph.hh, spot/ta/taexplicit.cc,
  spot/ta/taproduct.cc, spot/ta/tgtaproduct.cc, spot/taalgos/tgba2ta.cc,
  spot/twa/taatgba.hh, spot/twa/taatgba.cc, spot/twa/twagraph.hh,
  spot/twa/twaproduct.cc, spot/twaalgos/emptiness.cc,
  spot/twaalgos/stutter.cc, spot/ltsmin/ltsmin.cc, tests/core/ikwiad.cc,
  tests/core/ngraph.cc: Remove downcast checks from code.
2017-02-02 17:01:40 +01:00

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// -*- coding: utf-8 -*-
// Copyright (C) 2007-2017 Laboratoire de Recherche et Développement
// de l'Epita (LRDE).
// Copyright (C) 2003-2007 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 <http://www.gnu.org/licenses/>.
#include <iostream>
#include <iomanip>
#include <cassert>
#include <fstream>
#include <string>
#include <cstdlib>
#include <spot/tl/print.hh>
#include <spot/tl/apcollect.hh>
#include <spot/tl/formula.hh>
#include <spot/tl/parse.hh>
#include <spot/twaalgos/ltl2tgba_fm.hh>
#include <spot/twaalgos/ltl2taa.hh>
#include <spot/twa/bddprint.hh>
#include <spot/twaalgos/dot.hh>
#include <spot/twaalgos/lbtt.hh>
#include <spot/twaalgos/hoa.hh>
#include <spot/twaalgos/degen.hh>
#include <spot/twa/twaproduct.hh>
#include <spot/parseaut/public.hh>
#include <spot/twaalgos/copy.hh>
#include <spot/twaalgos/minimize.hh>
#include <spot/taalgos/minimize.hh>
#include <spot/twaalgos/neverclaim.hh>
#include <spot/twaalgos/sccfilter.hh>
#include <spot/twaalgos/strength.hh>
#include <spot/twaalgos/gtec/gtec.hh>
#include <spot/misc/timer.hh>
#include <spot/twaalgos/stats.hh>
#include <spot/twaalgos/sccinfo.hh>
#include <spot/twaalgos/emptiness_stats.hh>
#include <spot/twaalgos/sccinfo.hh>
#include <spot/twaalgos/isdet.hh>
#include <spot/twaalgos/cycles.hh>
#include <spot/twaalgos/isweakscc.hh>
#include <spot/twaalgos/simulation.hh>
#include <spot/twaalgos/compsusp.hh>
#include <spot/twaalgos/powerset.hh>
#include <spot/twaalgos/complement.hh>
#include <spot/twaalgos/remfin.hh>
#include <spot/twaalgos/complete.hh>
#include <spot/twaalgos/dtbasat.hh>
#include <spot/twaalgos/dtwasat.hh>
#include <spot/twaalgos/stutter.hh>
#include <spot/twaalgos/totgba.hh>
#include <spot/taalgos/tgba2ta.hh>
#include <spot/taalgos/dot.hh>
#include <spot/taalgos/stats.hh>
static void
syntax(char* prog)
{
// Display the supplied name unless it appears to be a libtool wrapper.
char* slash = strrchr(prog, '/');
if (slash && (strncmp(slash + 1, "lt-", 3) == 0))
prog = slash + 4;
std::cerr <<
"Usage: " << prog << " [-f|-l|-taa] [OPTIONS...] formula\n"
" " << prog << " [-f|-l|-taa] -F [OPTIONS...] file\n"
" " << prog << " -XH [OPTIONS...] file\n"
"\n"
"Translate an LTL formula into an automaton, or read the automaton from "
"a file.\n"
"Optionally multiply this automaton by another automaton read "
"from a file.\n"
"Output the result in various formats, or perform an emptiness check."
"\n\n"
"Input options:\n"
" -F read the formula from a file, not from the command line\n"
" -XD do not compute an automaton, read it from an ltl2dstar file\n"
" -XDB like -XD, and convert it to TGBA\n"
" -XH do not compute an automaton, read it from a HOA file\n"
" -XL do not compute an automaton, read it from an LBTT file\n"
" -XN do not compute an automaton, read it from a neverclaim file\n"
" -Pfile multiply the formula automaton with the TGBA read"
" from `file'\n"
" -KPfile multiply the formula automaton with the Kripke"
" structure from `file'\n"
"\n"
"Translation algorithm:\n"
" -f use Couvreur's FM algorithm for LTL (default)\n"
" -taa use Tauriainen's TAA-based algorithm for LTL\n"
" -u use Compositional translation\n"
"\n"
"Options for Couvreur's FM algorithm (-f):\n"
" -fr reduce formula at each step of FM\n"
" as specified with the -r{1..7} options\n"
" -fu build unambiguous automata\n"
" -L fair-loop approximation (implies -f)\n"
" -p branching postponement (implies -f)\n"
" -U[PROPS] consider atomic properties of the formula as "
"exclusive events, and\n"
" PROPS as unobservables events (implies -f)\n"
" -x try to produce a more deterministic automaton "
"(implies -f)\n"
" -y do not merge states with same symbolic representation "
"(implies -f)\n"
"\n"
"Options for Tauriainen's TAA-based algorithm (-taa):\n"
" -c enable language containment checks (implies -taa)\n"
"\n"
"Formula simplification (before translation):\n"
" -r1 reduce formula using basic rewriting\n"
" -r2 reduce formula using class of eventuality and universality\n"
" -r3 reduce formula using implication between sub-formulae\n"
" -r4 reduce formula using all above rules\n"
" -r5 reduce formula using tau03\n"
" -r6 reduce formula using tau03+\n"
" -r7 reduce formula using tau03+ and -r4\n"
" -rd display the reduced formula\n"
" -rD dump statistics about the simplifier cache\n"
" -rL disable basic rewritings producing larger formulas\n"
" -ru lift formulae that are eventual and universal\n"
"\n"
"Automaton degeneralization (after translation):\n"
" -DT degeneralize the automaton as a TBA\n"
" -DS degeneralize the automaton as an SBA\n"
" (append z/Z, o/O, l/L: to turn on/off options "
"(default: zol)\n "
" z: level resetting, o: adaptive order, "
"l: level cache)\n"
"\n"
"Automaton simplifications (after translation):\n"
" -R3 use SCCs to remove useless states and acceptance sets\n"
" -R3f clean more acceptance sets than -R3\n"
" "
"(prefer -R3 over -R3f if you degeneralize with -D, -DS, or -N)\n"
" -RDS reduce the automaton with direct simulation\n"
" -RRS reduce the automaton with reverse simulation\n"
" -RIS iterate both direct and reverse simulations\n"
" -Rm attempt to WDBA-minimize the automaton\n"
" -RM attempt to WDBA-minimize the automaton unless the "
"result is bigger\n"
" -RQ determinize a TGBA (assuming it's legal!)\n"
"\n"
"Automaton conversion:\n"
" -M convert into a det. minimal monitor (implies -R3 or R3b)\n"
" -s convert to explicit automaton, and number states in DFS order\n"
" -S convert to explicit automaton, and number states in BFS order\n"
"\n"
"Conversion to Testing Automaton:\n"
" -TA output a Generalized Testing Automaton (GTA),\n"
" or a Testing Automaton (TA) with -DS\n"
" -lv add an artificial livelock state to obtain a Single-pass (G)TA\n"
" -sp convert into a single-pass (G)TA without artificial "
"livelock state\n"
" -in do not use an artificial initial state\n"
" -TGTA output a Transition-based Generalized TA\n"
" -RT reduce the (G)TA/TGTA using bisimulation.\n"
"\n"
"Options for performing emptiness checks (on TGBA):\n"
" -e[ALGO] run emptiness check, expect and compute an "
"accepting run\n"
" -E[ALGO] run emptiness check, expect no accepting run\n"
" -C compute an accepting run (Counterexample) if it exists\n"
" -CR compute and replay an accepting run (implies -C)\n"
" -G graph the accepting run seen as an automaton (requires -e)\n"
" -m try to reduce accepting runs, in a second pass\n"
"Where ALGO should be one of:\n"
" Cou99(OPTIONS) (the default)\n"
" CVWY90(OPTIONS)\n"
" GV04(OPTIONS)\n"
" SE05(OPTIONS)\n"
" Tau03(OPTIONS)\n"
" Tau03_opt(OPTIONS)\n"
"\n"
"If no emptiness check is run, the automaton will be output "
"in dot format\nby default. This can be "
"changed with the following options.\n"
"\n"
"Output options (if no emptiness check):\n"
" -ks display statistics on the automaton (size only)\n"
" -kt display statistics on the automaton (size + subtransitions)\n"
" -K dump the graph of SCCs in dot format\n"
" -KC list cycles in automaton\n"
" -KW list weak SCCs\n"
" -N output the never clain for Spin (implies -DS)\n"
" -NN output the never clain for Spin, with commented states"
" (implies -DS)\n"
" -O tell if a formula represents a safety, guarantee, "
"or obligation property\n"
" -t output automaton in LBTT's format\n"
"\n"
"Miscellaneous options:\n"
" -0 produce minimal output dedicated to the paper\n"
" -8 output UTF-8 formulae\n"
" -d turn on traces during parsing\n"
" -T time the different phases of the translation\n"
" -v display the BDD variables used by the automaton\n";
exit(2);
}
static int
to_int(const char* s)
{
char* endptr;
int res = strtol(s, &endptr, 10);
if (*endptr)
{
std::cerr << "Failed to parse `" << s << "' as an integer.\n";
exit(1);
}
return res;
}
static spot::twa_graph_ptr
ensure_digraph(const spot::twa_ptr& a)
{
auto aa = std::dynamic_pointer_cast<spot::twa_graph>(a);
if (aa)
return aa;
return spot::make_twa_graph(a, spot::twa::prop_set::all());
}
static int
checked_main(int argc, char** argv)
{
int exit_code = 0;
bool debug_opt = false;
bool paper_opt = false;
bool utf8_opt = false;
enum { NoDegen, DegenTBA, DegenSBA } degeneralize_opt = NoDegen;
enum { TransFM, TransTAA, TransCompo } translation = TransFM;
bool fm_red = false;
bool fm_exprop_opt = false;
bool fm_symb_merge_opt = true;
bool fm_unambiguous = false;
bool file_opt = false;
bool degen_reset = true;
bool degen_order = false;
bool degen_cache = true;
int output = 0;
int formula_index = 0;
const char* echeck_algo = nullptr;
spot::emptiness_check_instantiator_ptr echeck_inst = nullptr;
bool dupexp = false;
bool expect_counter_example = false;
bool accepting_run = false;
bool accepting_run_replay = false;
bool from_file = false;
bool nra2nba = false;
bool scc_filter = false;
bool simpltl = false;
spot::tl_simplifier_options redopt(false, false, false, false,
false, false, false);
bool simpcache_stats = false;
bool scc_filter_all = false;
bool display_reduced_form = false;
bool post_branching = false;
bool fair_loop_approx = false;
bool graph_run_tgba_opt = false;
bool opt_reduce = false;
bool opt_minimize = false;
bool opt_determinize = false;
unsigned opt_determinize_threshold = 0;
unsigned opt_o_threshold = 0;
bool opt_dtwacomp = false;
bool reject_bigger = false;
bool opt_monitor = false;
bool containment = false;
bool opt_closure = false;
bool opt_stutterize = false;
const char* opt_never = nullptr;
const char* hoa_opt = nullptr;
auto& env = spot::default_environment::instance();
spot::atomic_prop_set* unobservables = nullptr;
spot::twa_ptr system_aut = nullptr;
auto dict = spot::make_bdd_dict();
spot::timer_map tm;
bool use_timer = false;
bool reduction_dir_sim = false;
bool reduction_rev_sim = false;
bool reduction_iterated_sim = false;
bool opt_bisim_ta = false;
bool ta_opt = false;
bool tgta_opt = false;
bool opt_with_artificial_initial_state = true;
bool opt_single_pass_emptiness_check = false;
bool opt_with_artificial_livelock = false;
bool cs_nowdba = true;
bool cs_wdba_smaller = false;
bool cs_nosimul = true;
bool cs_early_start = false;
bool cs_oblig = false;
bool opt_complete = false;
int opt_dtbasat = -1;
int opt_dtwasat = -1;
for (;;)
{
if (argc < formula_index + 2)
syntax(argv[0]);
++formula_index;
if (!strcmp(argv[formula_index], "-0"))
{
paper_opt = true;
}
else if (!strcmp(argv[formula_index], "-8"))
{
utf8_opt = true;
spot::enable_utf8();
}
else if (!strcmp(argv[formula_index], "-c"))
{
containment = true;
translation = TransTAA;
}
else if (!strcmp(argv[formula_index], "-C"))
{
accepting_run = true;
}
else if (!strcmp(argv[formula_index], "-CR"))
{
accepting_run = true;
accepting_run_replay = true;
}
else if (!strcmp(argv[formula_index], "-d"))
{
debug_opt = true;
}
else if (!strcmp(argv[formula_index], "-D"))
{
std::cerr << "-D was renamed to -DT\n";
abort();
}
else if (!strcmp(argv[formula_index], "-DC"))
{
opt_dtwacomp = true;
}
else if (!strncmp(argv[formula_index], "-DS", 3)
|| !strncmp(argv[formula_index], "-DT", 3))
{
degeneralize_opt =
argv[formula_index][2] == 'S' ? DegenSBA : DegenTBA;
const char* p = argv[formula_index] + 3;
while (*p)
{
switch (*p++)
{
case 'o':
degen_order = true;
break;
case 'O':
degen_order = false;
break;
case 'z':
degen_reset = true;
break;
case 'Z':
degen_reset = false;
break;
case 'l':
degen_cache = true;
break;
case 'L':
degen_cache = false;
break;
}
}
}
else if (!strncmp(argv[formula_index], "-e", 2))
{
echeck_algo = 2 + argv[formula_index];
if (!*echeck_algo)
echeck_algo = "Cou99";
const char* err;
echeck_inst =
spot::make_emptiness_check_instantiator(echeck_algo, &err);
if (!echeck_inst)
{
std::cerr << "Failed to parse argument of -e near `"
<< err << '\'' << std::endl;
exit(2);
}
expect_counter_example = true;
output = -1;
}
else if (!strncmp(argv[formula_index], "-E", 2))
{
const char* echeck_algo = 2 + argv[formula_index];
if (!*echeck_algo)
echeck_algo = "Cou99";
const char* err;
echeck_inst =
spot::make_emptiness_check_instantiator(echeck_algo, &err);
if (!echeck_inst)
{
std::cerr << "Failed to parse argument of -e near `"
<< err << '\'' << std::endl;
exit(2);
}
expect_counter_example = false;
output = -1;
}
else if (!strcmp(argv[formula_index], "-f"))
{
translation = TransFM;
}
else if (!strcmp(argv[formula_index], "-fr"))
{
fm_red = true;
translation = TransFM;
}
else if (!strcmp(argv[formula_index], "-fu"))
{
fm_unambiguous = true;
fm_exprop_opt = true;
translation = TransFM;
}
else if (!strcmp(argv[formula_index], "-F"))
{
file_opt = true;
}
else if (!strcmp(argv[formula_index], "-G"))
{
accepting_run = true;
graph_run_tgba_opt = true;
}
else if (!strncmp(argv[formula_index], "-H", 2))
{
output = 17;
hoa_opt = argv[formula_index] + 2;
}
else if (!strcmp(argv[formula_index], "-ks"))
{
output = 12;
}
else if (!strcmp(argv[formula_index], "-kt"))
{
output = 13;
}
else if (!strcmp(argv[formula_index], "-K"))
{
output = 10;
}
else if (!strncmp(argv[formula_index], "-KP", 3))
{
tm.start("reading -KP's argument");
spot::automaton_parser_options opts;
opts.debug = debug_opt;
opts.want_kripke = true;
auto paut = spot::parse_aut(argv[formula_index] + 3, dict, env, opts);
if (paut->format_errors(std::cerr))
return 2;
system_aut = paut->ks;
tm.stop("reading -KP's argument");
}
else if (!strcmp(argv[formula_index], "-KC"))
{
output = 15;
}
else if (!strcmp(argv[formula_index], "-KW"))
{
output = 16;
}
else if (!strcmp(argv[formula_index], "-L"))
{
fair_loop_approx = true;
translation = TransFM;
}
else if (!strcmp(argv[formula_index], "-m"))
{
opt_reduce = true;
}
else if (!strcmp(argv[formula_index], "-N"))
{
degeneralize_opt = DegenSBA;
output = 8;
opt_never = nullptr;
}
else if (!strcmp(argv[formula_index], "-NN"))
{
degeneralize_opt = DegenSBA;
output = 8;
opt_never = "c";
}
else if (!strncmp(argv[formula_index], "-O", 2))
{
output = 14;
opt_minimize = true;
if (argv[formula_index][2] != 0)
opt_o_threshold = to_int(argv[formula_index] + 2);
}
else if (!strcmp(argv[formula_index], "-p"))
{
post_branching = true;
translation = TransFM;
}
else if (!strncmp(argv[formula_index], "-P", 2))
{
tm.start("reading -P's argument");
spot::automaton_parser_options opts;
opts.debug = debug_opt;
auto daut = spot::parse_aut(argv[formula_index] + 2, dict, env, opts);
if (daut->format_errors(std::cerr))
return 2;
daut->aut->merge_edges();
system_aut = daut->aut;
tm.stop("reading -P's argument");
}
else if (!strcmp(argv[formula_index], "-r1"))
{
simpltl = true;
redopt.reduce_basics = true;
}
else if (!strcmp(argv[formula_index], "-r2"))
{
simpltl = true;
redopt.event_univ = true;
}
else if (!strcmp(argv[formula_index], "-r3"))
{
simpltl = true;
redopt.synt_impl = true;
}
else if (!strcmp(argv[formula_index], "-r4"))
{
simpltl = true;
redopt.reduce_basics = true;
redopt.event_univ = true;
redopt.synt_impl = true;
}
else if (!strcmp(argv[formula_index], "-r5"))
{
simpltl = true;
redopt.containment_checks = true;
}
else if (!strcmp(argv[formula_index], "-r6"))
{
simpltl = true;
redopt.containment_checks = true;
redopt.containment_checks_stronger = true;
}
else if (!strcmp(argv[formula_index], "-r7"))
{
simpltl = true;
redopt.reduce_basics = true;
redopt.event_univ = true;
redopt.synt_impl = true;
redopt.containment_checks = true;
redopt.containment_checks_stronger = true;
}
else if (!strcmp(argv[formula_index], "-R1q")
|| !strcmp(argv[formula_index], "-R1t")
|| !strcmp(argv[formula_index], "-R2q")
|| !strcmp(argv[formula_index], "-R2t"))
{
// For backward compatibility, make all these options
// equal to -RDS.
reduction_dir_sim = true;
}
else if (!strcmp(argv[formula_index], "-RRS"))
{
reduction_rev_sim = true;
}
else if (!strcmp(argv[formula_index], "-R3"))
{
scc_filter = true;
}
else if (!strcmp(argv[formula_index], "-R3f"))
{
scc_filter = true;
scc_filter_all = true;
}
else if (!strcmp(argv[formula_index], "-rd"))
{
display_reduced_form = true;
}
else if (!strcmp(argv[formula_index], "-rD"))
{
simpcache_stats = true;
}
else if (!strcmp(argv[formula_index], "-RC"))
{
opt_complete = true;
}
else if (!strcmp(argv[formula_index], "-RDS"))
{
reduction_dir_sim = true;
}
else if (!strcmp(argv[formula_index], "-RIS"))
{
reduction_iterated_sim = true;
}
else if (!strcmp(argv[formula_index], "-rL"))
{
simpltl = true;
redopt.reduce_basics = true;
redopt.reduce_size_strictly = true;
}
else if (!strncmp(argv[formula_index], "-RG", 3))
{
if (argv[formula_index][3] != 0)
opt_dtwasat = to_int(argv[formula_index] + 3);
else
opt_dtwasat = 0;
//output = -1;
}
else if (!strcmp(argv[formula_index], "-Rm"))
{
opt_minimize = true;
}
else if (!strcmp(argv[formula_index], "-RM"))
{
opt_minimize = true;
reject_bigger = true;
}
else if (!strncmp(argv[formula_index], "-RQ", 3))
{
opt_determinize = true;
if (argv[formula_index][3] != 0)
opt_determinize_threshold = to_int(argv[formula_index] + 3);
}
else if (!strncmp(argv[formula_index], "-RS", 3))
{
if (argv[formula_index][3] != 0)
opt_dtbasat = to_int(argv[formula_index] + 3);
else
opt_dtbasat = 0;
//output = -1;
}
else if (!strcmp(argv[formula_index], "-RT"))
{
opt_bisim_ta = true;
}
else if (!strcmp(argv[formula_index], "-ru"))
{
simpltl = true;
redopt.event_univ = true;
redopt.favor_event_univ = true;
}
else if (!strcmp(argv[formula_index], "-M"))
{
opt_monitor = true;
}
else if (!strcmp(argv[formula_index], "-S"))
{
dupexp = true;
}
else if (!strcmp(argv[formula_index], "-CL"))
{
opt_closure = true;
}
else if (!strcmp(argv[formula_index], "-ST"))
{
opt_stutterize = true;
}
else if (!strcmp(argv[formula_index], "-t"))
{
output = 6;
}
else if (!strcmp(argv[formula_index], "-T"))
{
use_timer = true;
}
else if (!strcmp(argv[formula_index], "-TA"))
{
ta_opt = true;
}
else if (!strcmp(argv[formula_index], "-TGTA"))
{
tgta_opt = true;
}
else if (!strcmp(argv[formula_index], "-lv"))
{
opt_with_artificial_livelock = true;
}
else if (!strcmp(argv[formula_index], "-sp"))
{
opt_single_pass_emptiness_check = true;
}
else if (!strcmp(argv[formula_index], "-in"))
{
opt_with_artificial_initial_state = false;
}
else if (!strcmp(argv[formula_index], "-taa"))
{
translation = TransTAA;
}
else if (!strncmp(argv[formula_index], "-U", 2))
{
unobservables = new spot::atomic_prop_set;
translation = TransFM;
// Parse -U's argument.
const char* tok = strtok(argv[formula_index] + 2, ", \t;");
while (tok)
{
unobservables->insert(env.require(tok));
tok = strtok(nullptr, ", \t;");
}
}
else if (!strncmp(argv[formula_index], "-u", 2))
{
translation = TransCompo;
const char* c = argv[formula_index] + 2;
while (*c != 0)
{
switch (*c)
{
case '2':
cs_nowdba = false;
cs_wdba_smaller = true;
break;
case 'w':
cs_nowdba = false;
cs_wdba_smaller = false;
break;
case 's':
cs_nosimul = false;
break;
case 'e':
cs_early_start = true;
break;
case 'W':
cs_nowdba = true;
break;
case 'S':
cs_nosimul = true;
break;
case 'E':
cs_early_start = false;
break;
case 'o':
cs_oblig = true;
break;
case 'O':
cs_oblig = false;
break;
default:
std::cerr << "Unknown suboption `" << *c
<< "' for option -u\n";
}
++c;
}
}
else if (!strcmp(argv[formula_index], "-v"))
{
output = 5;
}
else if (!strcmp(argv[formula_index], "-x"))
{
translation = TransFM;
fm_exprop_opt = true;
}
else if (!strcmp(argv[formula_index], "-XD"))
{
from_file = true;
}
else if (!strcmp(argv[formula_index], "-XDB"))
{
from_file = true;
nra2nba = true;
}
else if (!strcmp(argv[formula_index], "-XH"))
{
from_file = true;
}
else if (!strcmp(argv[formula_index], "-XL"))
{
from_file = true;
}
else if (!strcmp(argv[formula_index], "-XN")) // now synonym for -XH
{
from_file = true;
}
else if (!strcmp(argv[formula_index], "-y"))
{
translation = TransFM;
fm_symb_merge_opt = false;
}
else
{
break;
}
}
if ((graph_run_tgba_opt)
&& (!echeck_inst || !expect_counter_example))
{
std::cerr << argv[0] << ": error: -G requires -e.\n";
exit(1);
}
std::string input;
if (file_opt)
{
tm.start("reading formula");
if (strcmp(argv[formula_index], "-"))
{
std::ifstream fin(argv[formula_index]);
if (!fin)
{
std::cerr << "Cannot open " << argv[formula_index] << std::endl;
exit(2);
}
if (!std::getline(fin, input, '\0'))
{
std::cerr << "Cannot read " << argv[formula_index] << std::endl;
exit(2);
}
}
else
{
std::getline(std::cin, input, '\0');
}
tm.stop("reading formula");
}
else
{
input = argv[formula_index];
}
spot::formula f = nullptr;
if (!from_file) // Reading a formula, not reading an automaton from a file.
{
switch (translation)
{
case TransFM:
case TransTAA:
case TransCompo:
{
tm.start("parsing formula");
auto pf = spot::parse_infix_psl(input, env, debug_opt);
tm.stop("parsing formula");
exit_code = pf.format_errors(std::cerr);
f = pf.f;
}
break;
}
}
if (f || from_file)
{
spot::twa_ptr a = nullptr;
bool assume_sba = false;
if (from_file)
{
tm.start("parsing hoa");
spot::automaton_parser_options opts;
opts.debug = debug_opt;
auto daut = spot::parse_aut(input, dict, env, opts);
tm.stop("parsing hoa");
if (daut->format_errors(std::cerr))
return 2;
daut->aut->merge_edges();
a = daut->aut;
if (nra2nba)
a = spot::to_generalized_buchi(daut->aut);
assume_sba = a->is_sba().is_true();
}
else
{
spot::tl_simplifier* simp = nullptr;
if (simpltl)
simp = new spot::tl_simplifier(redopt, dict);
if (simp)
{
tm.start("reducing formula");
spot::formula t = simp->simplify(f);
tm.stop("reducing formula");
f = t;
if (display_reduced_form)
{
if (utf8_opt)
print_utf8_psl(std::cout, f) << '\n';
else
print_psl(std::cout, f) << '\n';
}
// This helps ltl_to_tgba_fm() to order BDD variables in
// a more natural way.
simp->clear_as_bdd_cache();
}
if (f.is_psl_formula()
&& !f.is_ltl_formula()
&& (translation != TransFM && translation != TransCompo))
{
std::cerr << "Only the FM algorithm can translate PSL formulae;"
<< " I'm using it for this formula.\n";
translation = TransFM;
}
tm.start("translating formula");
switch (translation)
{
case TransFM:
a = spot::ltl_to_tgba_fm(f, dict, fm_exprop_opt,
fm_symb_merge_opt,
post_branching,
fair_loop_approx,
unobservables,
fm_red ? simp : nullptr,
fm_unambiguous);
break;
case TransCompo:
{
a = spot::compsusp(f, dict,
cs_nowdba, cs_nosimul, cs_early_start,
false, cs_wdba_smaller, cs_oblig);
break;
}
case TransTAA:
a = spot::ltl_to_taa(f, dict, containment);
break;
}
tm.stop("translating formula");
if (simp && simpcache_stats)
{
simp->print_stats(std::cerr);
bddStat s;
bdd_stats(&s);
std::cerr << "BDD produced: " << s.produced
<< "\n nodenum: " << s.nodenum
<< "\n maxnodenum: " << s.maxnodenum
<< "\n freenodes: " << s.freenodes
<< "\n minfreenodes: " << s.minfreenodes
<< "\n varnum: " << s.varnum
<< "\n cachesize: " << s.cachesize
<< "\n gbcnum: " << s.gbcnum
<< std::endl;
bdd_fprintstat(stderr);
dict->dump(std::cerr);
}
delete simp;
}
if (opt_monitor && !scc_filter)
scc_filter = true;
// Remove dead SCCs and useless acceptance conditions before
// degeneralization.
if (scc_filter)
{
tm.start("SCC-filter");
if (a->prop_state_acc().is_true() & !scc_filter_all)
a = spot::scc_filter_states(ensure_digraph(a));
else
a = spot::scc_filter(ensure_digraph(a), scc_filter_all);
tm.stop("SCC-filter");
assume_sba = false;
}
bool wdba_minimization_is_success = false;
if (opt_minimize)
{
auto aa = ensure_digraph(a);
tm.start("obligation minimization");
auto minimized = minimize_obligation(aa, f, nullptr, reject_bigger);
tm.stop("obligation minimization");
if (!minimized)
{
// if (!f)
{
std::cerr << "Error: Without a formula I cannot make "
<< "sure that the automaton built with -Rm\n"
<< " is correct.\n";
exit(2);
}
}
else if (minimized == aa)
{
minimized = nullptr;
}
else
{
a = minimized;
wdba_minimization_is_success = true;
// When the minimization succeed, simulation is useless.
reduction_dir_sim = false;
reduction_rev_sim = false;
reduction_iterated_sim = false;
assume_sba = true;
}
}
if (reduction_dir_sim && !reduction_iterated_sim)
{
tm.start("direct simulation");
a = spot::simulation(ensure_digraph(a));
tm.stop("direct simulation");
assume_sba = false;
}
if (reduction_rev_sim && !reduction_iterated_sim)
{
tm.start("reverse simulation");
a = spot::cosimulation(ensure_digraph(a));
tm.stop("reverse simulation");
assume_sba = false;
}
if (reduction_iterated_sim)
{
tm.start("Reduction w/ iterated simulations");
a = spot::iterated_simulations(ensure_digraph(a));
tm.stop("Reduction w/ iterated simulations");
assume_sba = false;
}
if (scc_filter && (reduction_dir_sim || reduction_rev_sim))
{
tm.start("SCC-filter post-sim");
a = spot::scc_filter(ensure_digraph(a), scc_filter_all);
tm.stop("SCC-filter post-sim");
}
unsigned int n_acc = a->acc().num_sets();
if (echeck_inst
&& degeneralize_opt == NoDegen
&& n_acc > 1
&& echeck_inst->max_sets() < n_acc)
{
degeneralize_opt = DegenTBA;
assume_sba = false;
}
if (!assume_sba && !opt_monitor)
{
if (degeneralize_opt == DegenTBA)
{
a = spot::degeneralize_tba(ensure_digraph(a),
degen_reset, degen_order, degen_cache);
}
else if (degeneralize_opt == DegenSBA)
{
tm.start("degeneralization");
a = spot::degeneralize(ensure_digraph(a),
degen_reset, degen_order, degen_cache);
tm.stop("degeneralization");
assume_sba = true;
}
}
if (opt_determinize && a->acc().num_sets() <= 1
&& (!f || f.is_syntactic_recurrence()))
{
tm.start("determinization 2");
auto determinized = tba_determinize(ensure_digraph(a), 0,
opt_determinize_threshold);
tm.stop("determinization 2");
if (determinized)
a = determinized;
}
if (opt_monitor)
{
tm.start("Monitor minimization");
a = minimize_monitor(ensure_digraph(a));
tm.stop("Monitor minimization");
assume_sba = false; // All states are accepting, so double
// circles in the dot output are
// pointless.
}
if (degeneralize_opt != NoDegen || opt_determinize)
{
if (reduction_dir_sim && !reduction_iterated_sim)
{
tm.start("direct simulation 2");
a = spot::simulation(ensure_digraph(a));
tm.stop("direct simulation 2");
assume_sba = false;
}
if (reduction_rev_sim && !reduction_iterated_sim)
{
tm.start("reverse simulation 2");
a = spot::cosimulation(ensure_digraph(a));
tm.stop("reverse simulation 2");
assume_sba = false;
}
if (reduction_iterated_sim)
{
tm.start("Reduction w/ iterated simulations");
a = spot::iterated_simulations(ensure_digraph(a));
tm.stop("Reduction w/ iterated simulations");
assume_sba = false;
}
}
if (opt_complete)
{
tm.start("completion");
a = complete(a);
tm.stop("completion");
}
if (opt_dtbasat >= 0)
{
tm.start("dtbasat");
auto satminimized =
dtba_sat_synthetize(ensure_digraph(a), opt_dtbasat);
tm.stop("dtbasat");
if (satminimized)
a = satminimized;
}
else if (opt_dtwasat >= 0)
{
tm.start("dtwasat");
auto satminimized = dtwa_sat_minimize
(ensure_digraph(a), opt_dtwasat,
spot::acc_cond::acc_code::generalized_buchi(opt_dtwasat));
tm.stop("dtwasat");
if (satminimized)
a = satminimized;
}
if (opt_dtwacomp)
{
tm.start("DTωA complement");
a = remove_fin(dtwa_complement(ensure_digraph(a)));
tm.stop("DTωA complement");
}
if (opt_determinize || opt_dtwacomp || opt_dtbasat >= 0
|| opt_dtwasat >= 0)
{
if (scc_filter && (reduction_dir_sim || reduction_rev_sim))
{
tm.start("SCC-filter post-sim");
auto aa = down_cast<spot::const_twa_graph_ptr>(a);
// Do not filter_all for SBA
a = spot::scc_filter(aa, assume_sba ?
false : scc_filter_all);
tm.stop("SCC-filter post-sim");
}
}
if (opt_closure)
{
a = closure(ensure_digraph(a));
}
if (opt_stutterize)
{
a = sl(ensure_digraph(a));
}
if (opt_monitor)
{
tm.start("Monitor minimization");
a = minimize_monitor(ensure_digraph(a));
tm.stop("Monitor minimization");
assume_sba = false; // All states are accepting, so double
// circles in the dot output are
// pointless.
}
if (dupexp)
a = copy(a, spot::twa::prop_set::all());
//TA, STA, GTA, SGTA and TGTA
if (ta_opt || tgta_opt)
{
bdd atomic_props_set_bdd = atomic_prop_collect_as_bdd(f, a);
if (ta_opt)
{
tm.start("conversion to TA");
auto testing_automaton
= tgba_to_ta(a, atomic_props_set_bdd, degeneralize_opt
== DegenSBA, opt_with_artificial_initial_state,
opt_single_pass_emptiness_check,
opt_with_artificial_livelock);
tm.stop("conversion to TA");
if (opt_bisim_ta)
{
tm.start("TA bisimulation");
testing_automaton = minimize_ta(testing_automaton);
tm.stop("TA bisimulation");
}
if (output != -1)
{
tm.start("producing output");
switch (output)
{
case 0:
spot::print_dot(std::cout, testing_automaton);
break;
case 12:
stats_reachable(testing_automaton).dump(std::cout);
break;
default:
std::cerr << "unsupported output option\n";
exit(1);
}
tm.stop("producing output");
}
a = nullptr;
output = -1;
}
if (tgta_opt)
{
auto tgta = tgba_to_tgta(a, atomic_props_set_bdd);
if (opt_bisim_ta)
{
tm.start("TA bisimulation");
a = minimize_tgta(tgta);
tm.stop("TA bisimulation");
}
else
{
a = tgta;
}
if (output != -1)
{
tm.start("producing output");
switch (output)
{
case 0:
spot::print_dot(std::cout, std::dynamic_pointer_cast
<spot::tgta_explicit>(a)->get_ta());
break;
case 12:
stats_reachable(a).dump(std::cout);
break;
default:
std::cerr << "unsupported output option\n";
exit(1);
}
tm.stop("producing output");
}
output = -1;
}
}
if (system_aut)
{
a = spot::otf_product(system_aut, a);
assume_sba = false;
unsigned int n_acc = a->acc().num_sets();
if (echeck_inst
&& degeneralize_opt == NoDegen
&& n_acc > 1
&& echeck_inst->max_sets() < n_acc)
degeneralize_opt = DegenTBA;
if (degeneralize_opt == DegenTBA)
{
tm.start("degeneralize product");
a = spot::degeneralize_tba(ensure_digraph(a),
degen_reset,
degen_order,
degen_cache);
tm.stop("degeneralize product");
}
else if (degeneralize_opt == DegenSBA)
{
tm.start("degeneralize product");
a = spot::degeneralize(ensure_digraph(a),
degen_reset,
degen_order,
degen_cache);
tm.stop("degeneralize product");
assume_sba = true;
}
}
if (echeck_inst
&& (a->acc().num_sets() < echeck_inst->min_sets()))
{
if (!paper_opt)
{
std::cerr << echeck_algo << " requires at least "
<< echeck_inst->min_sets()
<< " acceptance sets.\n";
exit(1);
}
else
{
std::cout << std::endl;
exit(0);
}
}
if (f)
a->set_named_prop("automaton-name", new std::string(str_psl(f)));
if (output != -1)
{
tm.start("producing output");
switch (output)
{
case 0:
spot::print_dot(std::cout, a);
break;
case 5:
a->get_dict()->dump(std::cout);
break;
case 6:
spot::print_lbtt(std::cout, a);
break;
case 8:
{
assert(degeneralize_opt == DegenSBA);
if (assume_sba)
spot::print_never_claim(std::cout, a, opt_never);
else
{
// It is possible that we have applied other
// operations to the automaton since its initial
// degeneralization. Let's degeneralize again!
auto s = spot::degeneralize(ensure_digraph(a), degen_reset,
degen_order, degen_cache);
spot::print_never_claim(std::cout, s, opt_never);
}
break;
}
case 10:
dump_scc_info_dot(std::cout, ensure_digraph(a));
break;
case 12:
stats_reachable(a).dump(std::cout);
break;
case 13:
sub_stats_reachable(a).dump(std::cout);
std::cout << "nondeterministic states: "
<< count_nondet_states(ensure_digraph(a)) << std::endl;
break;
case 14:
if (!wdba_minimization_is_success)
{
std::cout << "this is not an obligation property";
auto tmp = tba_determinize_check(ensure_digraph(a),
0, opt_o_threshold,
f, nullptr);
if (tmp && tmp != a)
std::cout << ", but it is a recurrence property";
}
else
{
bool g = is_terminal_automaton(ensure_digraph(a),
nullptr, true);
bool s = is_safety_automaton(ensure_digraph(a));
if (g && !s)
{
std::cout << "this is a guarantee property (hence, "
<< "an obligation property)";
}
else if (s && !g)
{
std::cout << "this is a safety property (hence, "
<< "an obligation property)";
}
else if (s && g)
{
std::cout << "this is a guarantee and a safety property"
<< " (and of course an obligation property)";
}
else
{
std::cout << "this is an obligation property that is "
<< "neither a safety nor a guarantee";
}
}
std::cout << std::endl;
break;
case 15:
{
spot::scc_info m(ensure_digraph(a));
spot::enumerate_cycles c(m);
unsigned max = m.scc_count();
for (unsigned n = 0; n < max; ++n)
{
std::cout << "Cycles in SCC #" << n << std::endl;
c.run(n);
}
break;
}
case 16:
{
spot::scc_info m(ensure_digraph(a));
unsigned max = m.scc_count();
for (unsigned n = 0; n < max; ++n)
{
bool w = spot::is_weak_scc(m, n);
std::cout << "SCC #" << n
<< (w ? " is weak" : " is not weak")
<< std::endl;
}
break;
}
case 17:
{
print_hoa(std::cout, a, hoa_opt) << '\n';
break;
}
default:
SPOT_UNREACHABLE();
}
tm.stop("producing output");
}
if (echeck_inst)
{
auto ec = echeck_inst->instantiate(a);
bool search_many = echeck_inst->options().get("repeated");
assert(ec);
do
{
tm.start("running emptiness check");
auto res = ec->check();
tm.stop("running emptiness check");
if (paper_opt)
{
std::ios::fmtflags old = std::cout.flags();
std::cout << std::left << std::setw(25)
<< echeck_algo << ", ";
spot::twa_statistics a_size =
spot::stats_reachable(ec->automaton());
std::cout << std::right << std::setw(10)
<< a_size.states << ", "
<< std::right << std::setw(10)
<< a_size.edges << ", ";
std::cout << ec->automaton()->acc().num_sets()
<< ", ";
auto ecs = ec->emptiness_check_statistics();
if (ecs)
std::cout << std::right << std::setw(10)
<< ecs->states() << ", "
<< std::right << std::setw(10)
<< ecs->transitions() << ", "
<< std::right << std::setw(10)
<< ecs->max_depth();
else
std::cout << "no stats, , ";
if (res)
std::cout << ", accepting run found";
else
std::cout << ", no accepting run found";
std::cout << std::endl;
std::cout << std::setiosflags(old);
}
else
{
if (!graph_run_tgba_opt)
ec->print_stats(std::cout);
if (expect_counter_example != !!res &&
(!expect_counter_example || ec->safe()))
exit_code = 1;
if (!res)
{
std::cout << "no accepting run found";
if (!ec->safe() && expect_counter_example)
{
std::cout << " even if expected\n";
std::cout << "this may be due to the use of the bit"
<< " state hashing technique\n";
std::cout << "you can try to increase the heap size "
<< "or use an explicit storage"
<< std::endl;
}
std::cout << std::endl;
break;
}
else if (accepting_run)
{
tm.start("computing accepting run");
auto run = res->accepting_run();
tm.stop("computing accepting run");
if (!run)
{
std::cout << "an accepting run exists\n";
}
else
{
if (opt_reduce)
{
tm.start("reducing accepting run");
run = run->reduce();
tm.stop("reducing accepting run");
}
if (accepting_run_replay)
{
tm.start("replaying acc. run");
if (!run->replay(std::cout, true))
exit_code = 1;
tm.stop("replaying acc. run");
}
else
{
tm.start("printing accepting run");
if (graph_run_tgba_opt)
spot::print_dot(std::cout, run->as_twa());
else
std::cout << run;
tm.stop("printing accepting run");
}
}
}
else
{
std::cout << "an accepting run exists "
<< "(use -C to print it)\n";
}
}
}
while (search_many);
}
}
else
{
exit_code = 1;
}
if (use_timer)
tm.print(std::cout);
delete unobservables;
return exit_code;
}
int
main(int argc, char** argv)
{
int exit_code = checked_main(argc, argv);
assert(spot::fnode::instances_check());
return exit_code;
}
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