bf62d439c9
The distinction makes no sense since Spot 0.5, where we switched from mutable furmulae to immutable formulae. The difference between const_visitor and visitor made no sense either. They have been merged into one: visitor. * iface/dve2/dve2check.cc, iface/gspn/ltlgspn.cc, src/eltlparse/eltlparse.yy, src/eltlparse/public.hh, src/evtgbatest/ltl2evtgba.cc, src/kripkeparse/kripkeparse.yy, src/ltlast/atomic_prop.cc, src/ltlast/atomic_prop.hh, src/ltlast/automatop.cc, src/ltlast/automatop.hh, src/ltlast/binop.cc, src/ltlast/binop.hh, src/ltlast/bunop.cc, src/ltlast/bunop.hh, src/ltlast/constant.cc, src/ltlast/constant.hh, src/ltlast/formula.cc, src/ltlast/formula.hh, src/ltlast/formula_tree.cc, src/ltlast/formula_tree.hh, src/ltlast/multop.cc, src/ltlast/multop.hh, src/ltlast/predecl.hh, src/ltlast/refformula.cc, src/ltlast/refformula.hh, src/ltlast/unop.cc, src/ltlast/unop.hh, src/ltlast/visitor.hh, src/ltlenv/declenv.cc, src/ltlenv/declenv.hh, src/ltlenv/defaultenv.cc, src/ltlenv/defaultenv.hh, src/ltlenv/environment.hh, src/ltlparse/ltlfile.cc, src/ltlparse/ltlfile.hh, src/ltlparse/ltlparse.yy, src/ltlparse/public.hh, src/ltltest/consterm.cc, src/ltltest/equals.cc, src/ltltest/genltl.cc, src/ltltest/kind.cc, src/ltltest/length.cc, src/ltltest/randltl.cc, src/ltltest/readltl.cc, src/ltltest/reduc.cc, src/ltltest/syntimpl.cc, src/ltltest/tostring.cc, src/ltlvisit/apcollect.cc, src/ltlvisit/apcollect.hh, src/ltlvisit/clone.cc, src/ltlvisit/clone.hh, src/ltlvisit/contain.cc, src/ltlvisit/contain.hh, src/ltlvisit/dotty.cc, src/ltlvisit/length.cc, src/ltlvisit/lunabbrev.cc, src/ltlvisit/lunabbrev.hh, src/ltlvisit/mark.cc, src/ltlvisit/mark.hh, src/ltlvisit/nenoform.cc, src/ltlvisit/nenoform.hh, src/ltlvisit/postfix.cc, src/ltlvisit/postfix.hh, src/ltlvisit/randomltl.cc, src/ltlvisit/randomltl.hh, src/ltlvisit/reduce.cc, src/ltlvisit/reduce.hh, src/ltlvisit/simpfg.cc, src/ltlvisit/simpfg.hh, src/ltlvisit/simplify.cc, src/ltlvisit/simplify.hh, src/ltlvisit/snf.cc, src/ltlvisit/snf.hh, src/ltlvisit/tostring.cc, src/ltlvisit/tunabbrev.cc, src/ltlvisit/tunabbrev.hh, src/ltlvisit/wmunabbrev.cc, src/ltlvisit/wmunabbrev.hh, src/neverparse/neverclaimparse.yy, src/sabatest/sabacomplementtgba.cc, src/tgba/bdddict.cc, src/tgba/formula2bdd.cc, src/tgba/taatgba.cc, src/tgba/taatgba.hh, src/tgbaalgos/eltl2tgba_lacim.cc, src/tgbaalgos/ltl2taa.cc, src/tgbaalgos/ltl2tgba_fm.cc, src/tgbaalgos/ltl2tgba_lacim.cc, src/tgbaalgos/minimize.cc, src/tgbaalgos/randomgraph.cc, src/tgbaparse/tgbaparse.yy, src/tgbatest/complementation.cc, src/tgbatest/ltl2tgba.cc, src/tgbatest/ltlprod.cc, src/tgbatest/mixprod.cc, src/tgbatest/randtgba.cc: Massive adjustment! * src/tgbatest/reductgba.cc: Delete.
370 lines
10 KiB
C++
370 lines
10 KiB
C++
// -*- coding: utf-8 -*-
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// Copyright (C) 2008, 2009, 2010, 2011, 2012 Laboratoire de Recherche
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// et Développement de l'Epita (LRDE).
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// Copyright (C) 2005 Laboratoire d'Informatique de Paris 6
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// (LIP6), département Systèmes Répartis Coopératifs (SRC), Université
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// Pierre et Marie Curie.
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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 Spot; see the file COPYING. If not, write to the Free
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// Software Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA
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// 02111-1307, USA.
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#include <cassert>
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#include <algorithm>
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#include "randomltl.hh"
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#include "ltlast/allnodes.hh"
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#include "misc/random.hh"
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#include <iostream>
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#include <cstring>
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namespace spot
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{
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namespace ltl
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{
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namespace
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{
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static const formula*
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ap_builder(const random_formula* rl, int n)
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{
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assert(n == 1);
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(void) n;
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atomic_prop_set::const_iterator i = rl->ap()->begin();
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std::advance(i, mrand(rl->ap()->size()));
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return (*i)->clone();
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}
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static const formula*
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true_builder(const random_formula*, int n)
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{
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assert(n == 1);
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(void) n;
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return constant::true_instance();
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}
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static const formula*
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boolform_builder(const random_formula* rl, int n)
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{
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assert(n >= 1);
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const random_sere* rs = static_cast<const random_sere*>(rl);
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return rs->rb.generate(n);
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}
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static const formula*
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false_builder(const random_formula*, int n)
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{
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assert(n == 1);
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(void) n;
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return constant::false_instance();
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}
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static const formula*
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eword_builder(const random_formula*, int n)
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{
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assert(n == 1);
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(void) n;
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return constant::empty_word_instance();
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}
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template <unop::type Op>
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static const formula*
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unop_builder(const random_formula* rl, int n)
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{
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assert(n >= 2);
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return unop::instance(Op, rl->generate(n - 1));
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}
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static const formula*
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closure_builder(const random_formula* rl, int n)
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{
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assert(n >= 2);
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const random_psl* rp = static_cast<const random_psl*>(rl);
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return unop::instance(unop::Closure, rp->rs.generate(n - 1));
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}
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template <binop::type Op>
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static const formula*
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binop_builder(const random_formula* rl, int n)
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{
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assert(n >= 3);
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--n;
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int l = rrand(1, n - 1);
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return binop::instance(Op, rl->generate(l), rl->generate(n - l));
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}
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template <binop::type Op>
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static const formula*
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binop_SERELTL_builder(const random_formula* rl, int n)
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{
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assert(n >= 3);
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--n;
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const random_psl* rp = static_cast<const random_psl*>(rl);
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int l = rrand(1, n - 1);
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return binop::instance(Op, rp->rs.generate(l), rl->generate(n - l));
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}
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template <bunop::type Op>
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static const formula*
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bunop_unbounded_builder(const random_formula* rl, int n)
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{
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assert(n >= 2);
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return bunop::instance(Op, rl->generate(n - 1));
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}
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template <bunop::type Op>
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static const formula*
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bunop_bounded_builder(const random_formula* rl, int n)
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{
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assert(n >= 2);
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int min = rrand(0, 2);
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int max = rrand(min, 3);
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return bunop::instance(Op, rl->generate(n - 1), min, max);
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}
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template <bunop::type Op>
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static const formula*
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bunop_bool_bounded_builder(const random_formula* rl, int n)
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{
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assert(n >= 2);
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int min = rrand(0, 2);
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int max = rrand(min, 3);
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const random_sere* rp = static_cast<const random_sere*>(rl);
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return bunop::instance(Op, rp->rb.generate(n - 1), min, max);
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}
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template <multop::type Op>
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static const formula*
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multop_builder(const random_formula* rl, int n)
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{
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assert(n >= 3);
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--n;
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int l = rrand(1, n - 1);
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return multop::instance(Op, rl->generate(l), rl->generate(n - l));
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}
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} // anonymous
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void
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random_formula::op_proba::setup(const char* name, int min_n, builder build)
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{
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this->name = name;
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this->min_n = min_n;
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this->proba = 1.0;
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this->build = build;
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}
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void
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random_formula::update_sums()
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{
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total_1_ = 0.0;
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total_2_ = 0.0;
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total_2_and_more_ = 0.0;
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for (unsigned i = 0; i < proba_size_; ++i)
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{
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if (proba_[i].min_n == 1)
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{
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total_1_ += proba_[i].proba;
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if (proba_ + i >= proba_2_)
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total_2_ += proba_[i].proba;
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if (proba_ + i >= proba_2_or_more_)
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total_2_and_more_ += proba_[i].proba;
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}
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else if (proba_[i].min_n == 2)
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{
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total_2_ += proba_[i].proba;
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if (proba_ + i >= proba_2_or_more_)
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total_2_and_more_ += proba_[i].proba;
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}
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else if (proba_[i].min_n > 2)
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total_2_and_more_ += proba_[i].proba;
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else
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assert(!"unexpected max_n");
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}
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assert(total_1_ != 0.0);
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assert(total_2_ != 0.0);
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assert(total_2_and_more_ != 0.0);
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}
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const formula*
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random_formula::generate(int n) const
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{
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assert(n > 0);
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double r = drand();
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op_proba* p;
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if (n == 1)
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{
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r *= total_1_;
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p = proba_;
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}
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else if (n == 2)
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{
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r *= total_2_;
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p = proba_2_;
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}
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else
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{
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r *= total_2_and_more_;
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p = proba_2_or_more_;
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}
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double s = p->proba;
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while (s < r)
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{
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++p;
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s += p->proba;
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}
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return p->build(this, n);
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}
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const char*
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random_formula::parse_options(char* options)
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{
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char* key = strtok(options, "=\t, :;");
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while (key)
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{
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char* value = strtok(0, "=\t, :;");
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if (value == 0)
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return key;
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char* endptr;
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double res = strtod(value, &endptr);
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if (*endptr)
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return value;
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unsigned i;
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for (i = 0; i < proba_size_; ++i)
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{
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if (('a' <= *proba_[i].name && *proba_[i].name <= 'z'
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&& !strcasecmp(proba_[i].name, key))
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|| !strcmp(proba_[i].name, key))
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{
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proba_[i].proba = res;
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break;
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}
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}
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if (i == proba_size_)
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return key;
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key = strtok(0, "=\t, :;");
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}
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update_sums();
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return 0;
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}
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std::ostream&
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random_formula::dump_priorities(std::ostream& os) const
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{
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for (unsigned i = 0; i < proba_size_; ++i)
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os << proba_[i].name << "\t" << proba_[i].proba << std::endl;
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return os;
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}
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// SEREs
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random_sere::random_sere(const atomic_prop_set* ap)
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: random_formula(9, ap), rb(ap)
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{
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proba_[0].setup("eword", 1, eword_builder);
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proba_2_ = proba_ + 1;
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proba_2_or_more_ = proba_ + 1;
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proba_[1].setup("boolform", 1, boolform_builder);
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proba_[2].setup("star", 2, bunop_unbounded_builder<bunop::Star>);
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proba_[3].setup("star_b", 2, bunop_bounded_builder<bunop::Star>);
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proba_[4].setup("and", 3, multop_builder<multop::And>);
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proba_[5].setup("andNLM", 3, multop_builder<multop::AndNLM>);
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proba_[6].setup("or", 3, multop_builder<multop::Or>);
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proba_[7].setup("concat", 3, multop_builder<multop::Concat>);
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proba_[8].setup("fusion", 3, multop_builder<multop::Fusion>);
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update_sums();
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}
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// Boolean formulae
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random_boolean::random_boolean(const atomic_prop_set* ap)
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: random_formula(9, ap)
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{
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proba_[0].setup("ap", 1, ap_builder);
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proba_[0].proba = ap_->size();
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proba_[1].setup("false", 1, false_builder);
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proba_[2].setup("true", 1, true_builder);
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proba_2_or_more_ = proba_2_ = proba_ + 3;
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proba_[3].setup("not", 2, unop_builder<unop::Not>);
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proba_[4].setup("equiv", 3, binop_builder<binop::Equiv>);
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proba_[5].setup("implies", 3, binop_builder<binop::Implies>);
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proba_[6].setup("xor", 3, binop_builder<binop::Xor>);
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proba_[7].setup("and", 3, multop_builder<multop::And>);
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proba_[8].setup("or", 3, multop_builder<multop::Or>);
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update_sums();
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}
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// LTL formulae
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void
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random_ltl::setup_proba_()
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{
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proba_[0].setup("ap", 1, ap_builder);
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proba_[0].proba = ap_->size();
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proba_[1].setup("false", 1, false_builder);
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proba_[2].setup("true", 1, true_builder);
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proba_2_or_more_ = proba_2_ = proba_ + 3;
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proba_[3].setup("not", 2, unop_builder<unop::Not>);
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proba_[4].setup("F", 2, unop_builder<unop::F>);
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proba_[5].setup("G", 2, unop_builder<unop::G>);
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proba_[6].setup("X", 2, unop_builder<unop::X>);
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proba_[7].setup("equiv", 3, binop_builder<binop::Equiv>);
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proba_[8].setup("implies", 3, binop_builder<binop::Implies>);
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proba_[9].setup("xor", 3, binop_builder<binop::Xor>);
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proba_[10].setup("R", 3, binop_builder<binop::R>);
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proba_[11].setup("U", 3, binop_builder<binop::U>);
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proba_[12].setup("W", 3, binop_builder<binop::W>);
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proba_[13].setup("M", 3, binop_builder<binop::M>);
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proba_[14].setup("and", 3, multop_builder<multop::And>);
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proba_[15].setup("or", 3, multop_builder<multop::Or>);
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}
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random_ltl::random_ltl(const atomic_prop_set* ap)
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: random_formula(16, ap)
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{
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setup_proba_();
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update_sums();
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}
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random_ltl::random_ltl(int size, const atomic_prop_set* ap)
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: random_formula(size, ap)
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{
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setup_proba_();
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// No call to update_sums(), this functions is always
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// called by the random_psl constructor.
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}
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// PSL
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random_psl::random_psl(const atomic_prop_set* ap)
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: random_ltl(19, ap), rs(ap)
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{
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// FIXME: This looks very fragile.
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memmove(proba_ + 8, proba_ + 7,
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((proba_ + 16) - (proba_ + 7)) * sizeof(*proba_));
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proba_[7].setup("Closure", 2, closure_builder);
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proba_[17].setup("EConcat", 3, binop_SERELTL_builder<binop::EConcat>);
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proba_[18].setup("UConcat", 3, binop_SERELTL_builder<binop::UConcat>);
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update_sums();
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}
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} // ltl
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} // spot
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