From: ajreynol Date: Wed, 21 Oct 2015 08:47:52 +0000 (+0200) Subject: Minor refactoring in strings related to length. X-Git-Tag: cvc5-1.0.0~6197 X-Git-Url: https://git.libre-soc.org/?a=commitdiff_plain;h=7e133dbb7c1adf077102d377d1f7eecae1640ee1;p=cvc5.git Minor refactoring in strings related to length. --- diff --git a/src/theory/strings/theory_strings.cpp b/src/theory/strings/theory_strings.cpp index 9899a7a48..ea48d8805 100644 --- a/src/theory/strings/theory_strings.cpp +++ b/src/theory/strings/theory_strings.cpp @@ -65,6 +65,7 @@ TheoryStrings::TheoryStrings(context::Context* c, context::UserContext* u, Outpu d_nf_pairs(c), d_loop_antec(u), d_length_intro_vars(u), + d_pregistered_terms_cache(u), d_registered_terms_cache(u), d_preproc(u), d_preproc_cache(u), @@ -172,17 +173,23 @@ bool TheoryStrings::areDisequal( Node a, Node b ){ } } -Node TheoryStrings::getLengthExp( Node t, std::vector< Node >& exp, Node te ) { +Node TheoryStrings::getLengthExp( Node t, std::vector< Node >& exp, Node te ){ Assert( areEqual( t, te ) ); - EqcInfo * ei = getOrMakeEqcInfo( t, false ); - Node length_term = ei ? ei->d_length_term : Node::null(); - if( length_term.isNull() ){ - //typically shouldnt be necessary - length_term = t; + Node lt = mkLength( te ); + if( hasTerm( lt ) ){ + // use own length if it exists, leads to shorter explanation + return lt; + }else{ + EqcInfo * ei = getOrMakeEqcInfo( t, false ); + Node length_term = ei ? ei->d_length_term : Node::null(); + if( length_term.isNull() ){ + //typically shouldnt be necessary + length_term = t; + } + Debug("strings") << "TheoryStrings::getLengthTerm " << t << " is " << length_term << std::endl; + addToExplanation( length_term, te, exp ); + return Rewriter::rewrite( NodeManager::currentNM()->mkNode( kind::STRING_LENGTH, length_term ) ); } - Debug("strings") << "TheoryStrings::getLengthTerm " << t << " is " << length_term << std::endl; - addToExplanation( length_term, te, exp ); - return Rewriter::rewrite( NodeManager::currentNM()->mkNode( kind::STRING_LENGTH, length_term ) ); } Node TheoryStrings::getLength( Node t, std::vector< Node >& exp ) { @@ -430,7 +437,8 @@ void TheoryStrings::collectModelInfo( TheoryModel* m, bool fullModel ) { void TheoryStrings::preRegisterTerm(TNode n) { - if( d_registered_terms_cache.find(n) == d_registered_terms_cache.end() ) { + if( d_pregistered_terms_cache.find(n) == d_pregistered_terms_cache.end() ) { + d_pregistered_terms_cache.insert(n); //check for logic exceptions if( !options::stringExp() ){ if( n.getKind()==kind::STRING_STRIDOF || @@ -456,9 +464,9 @@ void TheoryStrings::preRegisterTerm(TNode n) { } default: { if( n.getType().isString() ) { - registerTerm(n); + registerTerm( n, 0 ); // FMF - if( n.getKind() == kind::VARIABLE && options::stringFMF() ) { + if( n.getKind() == kind::VARIABLE && options::stringFMF() ){ d_input_vars.insert(n); } } else if (n.getType().isBoolean()) { @@ -470,7 +478,6 @@ void TheoryStrings::preRegisterTerm(TNode n) { } } } - d_registered_terms_cache.insert(n); } } @@ -718,6 +725,8 @@ void TheoryStrings::eqNotifyNewClass(TNode t){ Node r = d_equalityEngine.getRepresentative(t[0]); EqcInfo * ei = getOrMakeEqcInfo( r, true ); ei->d_length_term = t[0]; + //we care about the length of this string + registerTerm( t[0], 1 ); } } @@ -791,11 +800,9 @@ void TheoryStrings::assertPendingFact(Node atom, bool polarity, Node exp) { Assert(atom.getKind() != kind::OR, "Infer error: a split."); if( atom.getKind()==kind::EQUAL ){ Trace("strings-pending-debug") << " Register term" << std::endl; - //AJR : is this necessary? for( unsigned j=0; j<2; j++ ) { if( !d_equalityEngine.hasTerm( atom[j] ) && atom[j].getType().isString() ) { - //TODO: check!!! - registerTerm( atom[j] ); + registerTerm( atom[j], 0 ); } } Trace("strings-pending-debug") << " Now assert equality" << std::endl; @@ -892,6 +899,7 @@ void TheoryStrings::checkInit() { if( tn.isString() ){ d_strings_eqc.push_back( eqc ); } + Node var; eq::EqClassIterator eqc_i = eq::EqClassIterator( eqc, &d_equalityEngine ); while( !eqc_i.isFinished() ) { Node n = *eqc_i; @@ -988,6 +996,15 @@ void TheoryStrings::checkInit() { congruent[k]++; } } + }else{ + if( d_congruent.find( n )==d_congruent.end() ){ + if( var.isNull() ){ + var = n; + }else{ + Trace("strings-process-debug") << " congruent variable : " << n << std::endl; + d_congruent.insert( n ); + } + } } ++eqc_i; } @@ -1494,6 +1511,12 @@ void TheoryStrings::checkFlatForms() { } } } + if( !hasProcessed() ){ + // simple extended func reduction + Trace("strings-process") << "Check extended function reduction effort=1..." << std::endl; + checkExtfReduction( 1 ); + Trace("strings-process") << "Done check extended function reduction" << std::endl; + } } } @@ -1508,8 +1531,8 @@ Node TheoryStrings::checkCycles( Node eqc, std::vector< Node >& curr, std::vecto while( !eqc_i.isFinished() ) { Node n = (*eqc_i); if( d_congruent.find( n )==d_congruent.end() ){ - Trace("strings-cycle") << eqc << " check term : " << n << " in " << eqc << std::endl; - if( n.getKind() == kind::STRING_CONCAT ) { + if( n.getKind() == kind::STRING_CONCAT ){ + Trace("strings-cycle") << eqc << " check term : " << n << " in " << eqc << std::endl; if( eqc!=d_emptyString_r ){ d_eqc[eqc].push_back( n ); } @@ -1569,10 +1592,19 @@ Node TheoryStrings::checkCycles( Node eqc, std::vector< Node >& curr, std::vecto void TheoryStrings::checkNormalForms(){ - // simple extended func reduction - Trace("strings-process") << "Check extended function reduction effort=1..." << std::endl; - checkExtfReduction( 1 ); - Trace("strings-process") << "Done check extended function reduction" << std::endl; + if( !options::stringEagerLen() ){ + for( unsigned i=0; i exp; - //exp.push_back( n.eqNode( d_emptyString ) ); - //Node ant = mkExplain( exp ); - Node ant = n.eqNode( d_emptyString ); - for( unsigned i=0; i & n } bool TheoryStrings::getNormalForms( Node &eqc, std::vector< Node > & nf, - std::vector< std::vector< Node > > &normal_forms, std::vector< std::vector< Node > > &normal_forms_exp, + std::vector< std::vector< Node > > &normal_forms, std::vector< std::vector< Node > > &normal_forms_exp, std::vector< Node > &normal_form_src) { Trace("strings-process-debug") << "Get normal forms " << eqc << std::endl; eq::EqClassIterator eqc_i = eq::EqClassIterator( eqc, &d_equalityEngine ); @@ -1756,7 +1775,6 @@ bool TheoryStrings::getNormalForms( Node &eqc, std::vector< Node > & nf, } } //if not equal to self - //if( nf_n.size()!=1 || (nf_n.size()>1 && nf_n[0]!=eqc ) ){ if( nf_n.size()>1 || ( nf_n.size()==1 && nf_n[0].getKind()==kind::CONST_STRING ) ){ if( nf_n.size()>1 ) { for( unsigned i=0; i & nf, normal_forms_exp.push_back(nf_exp_n); normal_form_src.push_back(n); }else{ - //this was redundant: combination of eqc + empty string(s) + //this was redundant: combination of self + empty string(s) Node nn = nf_n.size()==0 ? d_emptyString : nf_n[0]; Assert( areEqual( nn, eqc ) ); //Assert( areEqual( nf_n[0], eqc ) ); @@ -1787,7 +1805,6 @@ bool TheoryStrings::getNormalForms( Node &eqc, std::vector< Node > & nf, } */ } - //} } } ++eqc_i; @@ -1861,8 +1878,7 @@ bool TheoryStrings::processNEqc( std::vector< std::vector< Node > > &normal_form unsigned index_i = 0; unsigned index_j = 0; bool success; - do - { + do{ //simple check if( processSimpleNEq( normal_forms, normal_form_src, curr_exp, i, j, index_i, index_j, false ) ){ //added a lemma, return @@ -2014,7 +2030,7 @@ bool TheoryStrings::processNEqc( std::vector< std::vector< Node > > &normal_form return false; } -bool TheoryStrings::processReverseNEq( std::vector< std::vector< Node > > &normal_forms, std::vector< Node > &normal_form_src, +bool TheoryStrings::processReverseNEq( std::vector< std::vector< Node > > &normal_forms, std::vector< Node > &normal_form_src, std::vector< Node > &curr_exp, unsigned i, unsigned j ) { //reverse normal form of i, j std::reverse( normal_forms[i].begin(), normal_forms[i].end() ); @@ -2155,7 +2171,7 @@ bool TheoryStrings::processSimpleNEq( std::vector< std::vector< Node > > &normal return false; } -bool TheoryStrings::detectLoop( std::vector< std::vector< Node > > &normal_forms, int i, int j, +bool TheoryStrings::detectLoop( std::vector< std::vector< Node > > &normal_forms, int i, int j, int index_i, int index_j, int &loop_in_i, int &loop_in_j) { int has_loop[2] = { -1, -1 }; if( options::stringLB() != 2 ) { @@ -2568,61 +2584,69 @@ bool TheoryStrings::isNormalFormPair2( Node n1, Node n2 ) { return false; } -bool TheoryStrings::registerTerm( Node n ) { - if(d_registered_terms_cache.find(n) == d_registered_terms_cache.end()) { - d_registered_terms_cache.insert(n); - Debug("strings-register") << "TheoryStrings::registerTerm() " << n << endl; - if(n.getType().isString()) { - //register length information: - // for variables, split on empty vs positive length - // for concat/const, introduce proxy var and state length relation - if( n.getKind()!=kind::STRING_CONCAT && n.getKind()!=kind::CONST_STRING ) { - if( d_length_intro_vars.find(n)==d_length_intro_vars.end() ) { - sendLengthLemma( n ); - ++(d_statistics.d_splits); - } - } else { - Node sk = mkSkolemS("lsym", 2); - StringsProxyVarAttribute spva; - sk.setAttribute(spva,true); - Node eq = Rewriter::rewrite( sk.eqNode(n) ); - Trace("strings-lemma") << "Strings::Lemma LENGTH Term : " << eq << std::endl; - d_proxy_var[n] = sk; - Trace("strings-assert") << "(assert " << eq << ")" << std::endl; - d_out->lemma(eq); - Node skl = NodeManager::currentNM()->mkNode( kind::STRING_LENGTH, sk ); - Node lsum; - if( n.getKind() == kind::STRING_CONCAT ) { - std::vector node_vec; - for( unsigned i=0; imkNode( kind::STRING_LENGTH, n[i] ); - node_vec.push_back(lni); +void TheoryStrings::registerTerm( Node n, int effort ) { + // 0 : upon preregistration or internal assertion + // 1 : upon occurrence in length term + // 2 : before normal form computation + // 3 : called on normal form terms + bool do_register = false; + if( options::stringEagerLen() ){ + do_register = effort==0; + }else{ + do_register = effort>0 || n.getKind()!=kind::STRING_CONCAT; + } + if( do_register ){ + if(d_registered_terms_cache.find(n) == d_registered_terms_cache.end()) { + d_registered_terms_cache.insert(n); + Debug("strings-register") << "TheoryStrings::registerTerm() " << n << ", effort = " << effort << std::endl; + if(n.getType().isString()) { + //register length information: + // for variables, split on empty vs positive length + // for concat/const, introduce proxy var and state length relation + if( n.getKind()!=kind::STRING_CONCAT && n.getKind()!=kind::CONST_STRING ) { + if( d_length_intro_vars.find(n)==d_length_intro_vars.end() ) { + sendLengthLemma( n ); + ++(d_statistics.d_splits); + } + } else { + Node sk = mkSkolemS("lsym", 2); + StringsProxyVarAttribute spva; + sk.setAttribute(spva,true); + Node eq = Rewriter::rewrite( sk.eqNode(n) ); + Trace("strings-lemma") << "Strings::Lemma LENGTH Term : " << eq << std::endl; + d_proxy_var[n] = sk; + Trace("strings-assert") << "(assert " << eq << ")" << std::endl; + d_out->lemma(eq); + Node skl = NodeManager::currentNM()->mkNode( kind::STRING_LENGTH, sk ); + Node lsum; + if( n.getKind() == kind::STRING_CONCAT ) { + std::vector node_vec; + for( unsigned i=0; imkNode( kind::STRING_LENGTH, n[i] ); + node_vec.push_back(lni); + } } + lsum = NodeManager::currentNM()->mkNode( kind::PLUS, node_vec ); + } else if( n.getKind() == kind::CONST_STRING ) { + lsum = NodeManager::currentNM()->mkConst( ::CVC4::Rational( n.getConst().size() ) ); } - lsum = NodeManager::currentNM()->mkNode( kind::PLUS, node_vec ); - } else if( n.getKind() == kind::CONST_STRING ) { - lsum = NodeManager::currentNM()->mkConst( ::CVC4::Rational( n.getConst().size() ) ); - } - lsum = Rewriter::rewrite( lsum ); - d_proxy_var_to_length[sk] = lsum; - if( options::stringEagerLen() || n.getKind()==kind::CONST_STRING ){ + lsum = Rewriter::rewrite( lsum ); + d_proxy_var_to_length[sk] = lsum; Node ceq = Rewriter::rewrite( skl.eqNode( lsum ) ); Trace("strings-lemma") << "Strings::Lemma LENGTH : " << ceq << std::endl; Trace("strings-lemma-debug") << " prerewrite : " << skl.eqNode( lsum ) << std::endl; Trace("strings-assert") << "(assert " << ceq << ")" << std::endl; d_out->lemma(ceq); } + } else { + AlwaysAssert(false, "String Terms only in registerTerm."); } - return true; - } else { - AlwaysAssert(false, "String Terms only in registerTerm."); } } - return false; } void TheoryStrings::sendLemma( Node ant, Node conc, const char * c ) { @@ -2696,7 +2720,6 @@ void TheoryStrings::sendLengthLemma( Node n ){ Node n_len = NodeManager::currentNM()->mkNode( kind::STRING_LENGTH, n); if( options::stringSplitEmp() || !options::stringLenGeqZ() ){ Node n_len_eq_z = n_len.eqNode( d_zero ); - //registerTerm( d_emptyString ); Node n_len_eq_z_2 = n.eqNode( d_emptyString ); n_len_eq_z = Rewriter::rewrite( n_len_eq_z ); n_len_eq_z_2 = Rewriter::rewrite( n_len_eq_z_2 ); @@ -2963,7 +2986,8 @@ void TheoryStrings::checkLengthsEqc() { Trace("strings-process-debug") << "No length term for eqc " << d_strings_eqc[i] << " " << d_eqc_to_len_term[d_strings_eqc[i]] << std::endl; if( !options::stringEagerLen() ){ Node c = mkConcat( d_normal_forms[d_strings_eqc[i]] ); - registerTerm( c ); + registerTerm( c, 3 ); + /* if( !c.isConst() ){ NodeNodeMap::const_iterator it = d_proxy_var.find( c ); if( it!=d_proxy_var.end() ){ @@ -2974,6 +2998,7 @@ void TheoryStrings::checkLengthsEqc() { sendLemma( d_true, ceq, "LEN-NORM-I" ); } } + */ } } //} else { diff --git a/src/theory/strings/theory_strings.h b/src/theory/strings/theory_strings.h index 125e1c1eb..40358649b 100644 --- a/src/theory/strings/theory_strings.h +++ b/src/theory/strings/theory_strings.h @@ -165,6 +165,7 @@ private: NodeSet d_loop_antec; NodeSet d_length_intro_vars; // preReg cache + NodeSet d_pregistered_terms_cache; NodeSet d_registered_terms_cache; // preprocess cache StringsPreprocess d_preproc; @@ -332,7 +333,7 @@ protected: void addToExplanation( Node lit, std::vector< Node >& exp ); //register term - bool registerTerm( Node n ); + void registerTerm( Node n, int effort ); //send lemma void sendLemma( Node ant, Node conc, const char * c ); void sendInfer( Node eq_exp, Node eq, const char * c );