From: Andrew Reynolds Date: Fri, 22 Mar 2019 21:24:05 +0000 (-0500) Subject: Revisit strings extended function decomposition (#2892) X-Git-Tag: cvc5-1.0.0~4221 X-Git-Url: https://git.libre-soc.org/?a=commitdiff_plain;h=821d4b1c6c3ce3c711e9a24216758febf0937cf0;p=cvc5.git Revisit strings extended function decomposition (#2892) --- diff --git a/src/theory/strings/theory_strings.cpp b/src/theory/strings/theory_strings.cpp index c84ae404a..18f1f801a 100644 --- a/src/theory/strings/theory_strings.cpp +++ b/src/theory/strings/theory_strings.cpp @@ -1656,25 +1656,37 @@ void TheoryStrings::checkExtfEval( int effort ) { einfo.d_model_active = false; } } - //if it reduces to a conjunction, infer each and reduce } - else if ((nrck == OR && einfo.d_const == d_false) - || (nrck == AND && einfo.d_const == d_true)) + else { - Assert( effort<3 ); - getExtTheory()->markReduced( n ); - einfo.d_exp.push_back(einfo.d_const == d_false ? n.negate() : n); - Trace("strings-extf-debug") << " decomposable..." << std::endl; - Trace("strings-extf") << " resolve extf : " << sn << " -> " << nrc - << ", const = " << einfo.d_const << std::endl; - for (const Node& nrcc : nrc) + bool reduced = false; + if (!einfo.d_const.isNull() && nrc.getType().isBoolean()) + { + bool pol = einfo.d_const == d_true; + Node nrcAssert = pol ? nrc : nrc.negate(); + Node nAssert = pol ? n : n.negate(); + Assert(effort < 3); + einfo.d_exp.push_back(nAssert); + Trace("strings-extf-debug") << " decomposable..." << std::endl; + Trace("strings-extf") << " resolve extf : " << sn << " -> " << nrc + << ", const = " << einfo.d_const << std::endl; + reduced = sendInternalInference( + einfo.d_exp, nrcAssert, effort == 0 ? "EXTF_d" : "EXTF_d-N"); + if (!reduced) + { + Trace("strings-extf") << "EXT: could not fully reduce "; + Trace("strings-extf") + << nAssert << " via " << nrcAssert << std::endl; + } + } + if (reduced) { - sendInternalInference(einfo.d_exp, - einfo.d_const == d_false ? nrcc.negate() : nrcc, - effort == 0 ? "EXTF_d" : "EXTF_d-N"); + getExtTheory()->markReduced(n); + } + else + { + to_reduce = nrc; } - }else{ - to_reduce = nrc; } }else{ to_reduce = sterms[i]; @@ -3935,17 +3947,22 @@ void TheoryStrings::registerTerm( Node n, int effort ) { } } -void TheoryStrings::sendInternalInference(std::vector& exp, +bool TheoryStrings::sendInternalInference(std::vector& exp, Node conc, const char* c) { - if (conc.getKind() == AND) + if (conc.getKind() == AND + || (conc.getKind() == NOT && conc[0].getKind() == OR)) { - for (const Node& cc : conc) + Node conj = conc.getKind() == AND ? conc : conc[0]; + bool pol = conc.getKind() == AND; + bool ret = true; + for (const Node& cc : conj) { - sendInternalInference(exp, cc, c); + bool retc = sendInternalInference(exp, pol ? cc : cc.negate(), c); + ret = ret && retc; } - return; + return ret; } bool pol = conc.getKind() != NOT; Node lit = pol ? conc : conc[0]; @@ -3956,13 +3973,13 @@ void TheoryStrings::sendInternalInference(std::vector& exp, if (!lit[i].isConst() && !hasTerm(lit[i])) { // introduces a new non-constant term, do not infer - return; + return false; } } // does it already hold? if (pol ? areEqual(lit[0], lit[1]) : areDisequal(lit[0], lit[1])) { - return; + return true; } } else if (lit.isConst()) @@ -3971,20 +3988,21 @@ void TheoryStrings::sendInternalInference(std::vector& exp, { Assert(pol); // trivially holds - return; + return true; } } else if (!hasTerm(lit)) { // introduces a new non-constant term, do not infer - return; + return false; } else if (areEqual(lit, pol ? d_true : d_false)) { // already holds - return; + return true; } sendInference(exp, conc, c); + return true; } void TheoryStrings::sendInference( std::vector< Node >& exp, std::vector< Node >& exp_n, Node eq, const char * c, bool asLemma ) { diff --git a/src/theory/strings/theory_strings.h b/src/theory/strings/theory_strings.h index 70e75db54..6eb1f38b4 100644 --- a/src/theory/strings/theory_strings.h +++ b/src/theory/strings/theory_strings.h @@ -654,8 +654,13 @@ private: * * The argument c is a string identifying the reason for the interference. * This string is used for debugging purposes. + * + * Return true if the inference is complete, in the sense that we infer + * inferences that are equivalent to conc. This returns false e.g. if conc + * (or one of its conjuncts if it is a conjunction) was not inferred due + * to the criteria mentioned above. */ - void sendInternalInference(std::vector& exp, Node conc, const char* c); + bool sendInternalInference(std::vector& exp, Node conc, const char* c); // send lemma void sendInference(std::vector& exp, std::vector& exp_n,