From: Tianyi Liang Date: Mon, 23 Sep 2013 21:54:32 +0000 (-0500) Subject: adds model generation for strings, and a hacked way in arith engine for models X-Git-Tag: cvc5-1.0.0~7287^2~2^2~7 X-Git-Url: https://git.libre-soc.org/?a=commitdiff_plain;h=4612dd66cee87b7d4b735b416785d539083757fa;p=cvc5.git adds model generation for strings, and a hacked way in arith engine for models --- diff --git a/src/theory/arith/theory_arith.cpp b/src/theory/arith/theory_arith.cpp index 120ac0154..6c7f622ec 100644 --- a/src/theory/arith/theory_arith.cpp +++ b/src/theory/arith/theory_arith.cpp @@ -87,6 +87,10 @@ EqualityStatus TheoryArith::getEqualityStatus(TNode a, TNode b) { return d_internal->getEqualityStatus(a,b); } +Node TheoryArith::getModelValue(TNode var) { + return d_internal->getModelValue( var ); +} + }/* CVC4::theory::arith namespace */ }/* CVC4::theory namespace */ }/* CVC4 namespace */ diff --git a/src/theory/arith/theory_arith.h b/src/theory/arith/theory_arith.h index 6b9fd5515..451f1e8ff 100644 --- a/src/theory/arith/theory_arith.h +++ b/src/theory/arith/theory_arith.h @@ -74,6 +74,8 @@ public: EqualityStatus getEqualityStatus(TNode a, TNode b); void addSharedTerm(TNode n); + + Node getModelValue(TNode var); };/* class TheoryArith */ }/* CVC4::theory::arith namespace */ diff --git a/src/theory/arith/theory_arith_private.cpp b/src/theory/arith/theory_arith_private.cpp index f5b1d20ce..7e5c01291 100644 --- a/src/theory/arith/theory_arith_private.cpp +++ b/src/theory/arith/theory_arith_private.cpp @@ -737,6 +737,35 @@ void TheoryArithPrivate::addSharedTerm(TNode n){ } } +Node TheoryArithPrivate::getModelValue(TNode var) { + //if( d_partialModel.hasNode( var ) ){ + if( var.getKind()==kind::STRING_LENGTH ){ + Trace("strings-temp") << "Get model value of " << var << std::endl; + /* + ArithVar v; + bool foundV = false; + ArithVariables& avnm = d_partialModel; + ArithVariables::var_iterator vi, vend; + for(vi = avnm.var_begin(), vend = avnm.var_end(); vi != vend; ++vi ){ + if( avnm.asNode(*vi)==var ){ + v = *vi; + foundV = true; + break; + } + } + if( foundV ){ + */ + ArithVar v = d_partialModel.asArithVar( var ); + DeltaRational drv = d_partialModel.getAssignment( v ); + const Rational& delta = d_partialModel.getDelta(); + Rational qmodel = drv.substituteDelta( delta ); + Trace("strings-temp") << "Value is " << drv << ", after subs : " << qmodel << std::endl; + return mkRationalNode( qmodel ); + } + //} + return var; +} + namespace attr { struct ToIntegerTag { }; struct LinearIntDivTag { }; diff --git a/src/theory/arith/theory_arith_private.h b/src/theory/arith/theory_arith_private.h index 7370cfc15..22fc8d4a7 100644 --- a/src/theory/arith/theory_arith_private.h +++ b/src/theory/arith/theory_arith_private.h @@ -383,6 +383,8 @@ public: void addSharedTerm(TNode n); + Node getModelValue(TNode var); + private: /** The constant zero. */ diff --git a/src/theory/strings/theory_strings.cpp b/src/theory/strings/theory_strings.cpp index 33bee4135..ee413b13a 100644 --- a/src/theory/strings/theory_strings.cpp +++ b/src/theory/strings/theory_strings.cpp @@ -23,6 +23,7 @@ #include "theory/model.h" #include "smt/logic_exception.h" #include "theory/strings/options.h" +#include "theory/strings/type_enumerator.h" #include using namespace std; @@ -108,7 +109,7 @@ Node TheoryStrings::explain( TNode literal ){ std::vector< TNode > assumptions; explain( literal, assumptions ); if( assumptions.empty() ){ - return NodeManager::currentNM()->mkConst( true ); + return d_true; }else if( assumptions.size()==1 ){ return assumptions[0]; }else{ @@ -122,13 +123,18 @@ Node TheoryStrings::explain( TNode literal ){ void TheoryStrings::collectModelInfo( TheoryModel* m, bool fullModel ) { - /* + Trace("strings-model") << "TheoryStrings : Collect model info, fullModel = " << fullModel << std::endl; + Trace("strings-model") << "TheoryStrings : assertEqualityEngine." << std::endl; + m->assertEqualityEngine( &d_equalityEngine ); // Generate model + std::vector< Node > nodes; + std::map< Node, Node > processed; eq::EqClassesIterator eqcs_i = eq::EqClassesIterator( &d_equalityEngine ); while( !eqcs_i.isFinished() ) { Node eqc = (*eqcs_i); //if eqc.getType is string if (eqc.getType().isString()) { + /* EqcInfo* ei = getOrMakeEqcInfo( eqc ); Node cst = ei ? ei->d_const_term : Node::null(); if( !cst.isNull() ){ @@ -140,15 +146,104 @@ void TheoryStrings::collectModelInfo( TheoryModel* m, bool fullModel ) { // otherwise: error //otherwise: assign a new unique length, then assign a constant via enumerator } + */ + nodes.push_back( eqc ); }else{ //should be length eqc //if no constant, error } - ++eqcs_i; } -*/ - //TODO: not done + std::vector< std::vector< Node > > col; + std::vector< Node > lts; + seperateIntoCollections( nodes, col, lts ); + //step 1 : get all values for known lengths + std::vector< Node > lts_values; + //std::map< Node, bool > values_used; + for( unsigned i=0; igetValue(lts[i]); + Trace("strings-model") << "Model value for " << lts[i] << " is " << v << std::endl; + lts_values.push_back( v ); + //values_used[ v ] = true; + }else{ + Trace("strings-model-warn") << "No length for eqc " << col[i][0] << std::endl; + Assert( false ); + lts_values.push_back( Node::null() ); + } + } + } + ////step 2 : assign arbitrary values for unknown lengths? + //for( unsigned i=0; i pure_eq; + Trace("strings-model") << "The equivalence classes "; + for( unsigned j=0; jd_const_term : Node::null(); + if( cst.isNull() ){ + Assert( d_normal_forms.find( col[i][j] )!=d_normal_forms.end() ); + if( d_normal_forms[col[i][j]].size()==1 && d_normal_forms[col[i][j]][0]==col[i][j] ){ + pure_eq.push_back( col[i][j] ); + } + }else{ + processed[col[i][j]] = cst; + } + } + Trace("strings-model") << "have length " << lts_values[i] << std::endl; + + Trace("strings-model") << "*** Need to assign values of length " << lts_values[i] << " to equivalence classes "; + for( unsigned j=0; j().getNumerator().toUnsignedInt()); + for( unsigned j=0; jassertEquality( pure_eq[j], c, true ); + } + } + Trace("strings-model") << "String Model : Finished." << std::endl; + //step 4 : assign constants to all other equivalence classes + for( unsigned i=0; i nc; + for( unsigned j=0; jassertEquality( nodes[i], cc, true ); + } + } } ///////////////////////////////////////////////////////////////////////////// @@ -168,8 +263,7 @@ void TheoryStrings::preRegisterTerm(TNode n) { default: if(n.getKind() == kind::VARIABLE || n.getKind()==kind::SKOLEM) { Node n_len = NodeManager::currentNM()->mkNode( kind::STRING_LENGTH, n); - Node zero = NodeManager::currentNM()->mkConst( ::CVC4::Rational( 0 ) ); - Node n_len_geq_zero = NodeManager::currentNM()->mkNode( kind::GEQ, n_len, zero); + Node n_len_geq_zero = NodeManager::currentNM()->mkNode( kind::GEQ, n_len, d_zero); Trace("strings-lemma") << "Strings: Add lemma " << n_len_geq_zero << std::endl; d_out->lemma(n_len_geq_zero); } @@ -528,6 +622,8 @@ void TheoryStrings::normalizeEquivalenceClass( Node eqc, std::vector< Node > & v } else if (d_equalityEngine.hasTerm(d_emptyString) && d_equalityEngine.areEqual( eqc, d_emptyString )){ //do nothing Trace("strings-process") << "Return process equivalence class " << eqc << " : empty." << std::endl; + d_normal_forms[eqc].clear(); + d_normal_forms_exp[eqc].clear(); } else { visited.push_back( eqc ); if(d_normal_forms.find(eqc)==d_normal_forms.end() ){ @@ -585,7 +681,7 @@ void TheoryStrings::normalizeEquivalenceClass( Node eqc, std::vector< Node > & v //can infer that this string must be empty Node eq_exp; if( curr_exp.empty() ) { - eq_exp = NodeManager::currentNM()->mkConst(true); + eq_exp = d_true; } else if( curr_exp.size() == 1 ) { eq_exp = curr_exp[0]; } else { @@ -637,7 +733,7 @@ void TheoryStrings::normalizeEquivalenceClass( Node eqc, std::vector< Node > & v std::vector< Node > temp_exp; temp_exp.insert(temp_exp.end(), curr_exp.begin(), curr_exp.end() ); temp_exp.push_back(NodeManager::currentNM()->mkNode( kind::EQUAL, length_term_i, length_term_j )); - Node eq_exp = temp_exp.empty() ? NodeManager::currentNM()->mkConst(true) : + Node eq_exp = temp_exp.empty() ? d_true : temp_exp.size() == 1 ? temp_exp[0] : NodeManager::currentNM()->mkNode( kind::AND, temp_exp ); Trace("strings-lemma") << "Strings : Infer " << eq << " from " << eq_exp << std::endl; //d_equalityEngine.assertEquality( eq, true, eq_exp ); @@ -656,7 +752,7 @@ void TheoryStrings::normalizeEquivalenceClass( Node eqc, std::vector< Node > & v std::vector< Node > antec; std::vector< Node > antec_new_lits; //check for loops - Trace("strings-loop") << "Check for loops i,j = " << (index_i+1) << "/" << normal_forms[i].size() << " " << (index_j+1) << "/" << normal_forms[j].size() << std::endl; + //Trace("strings-loop") << "Check for loops i,j = " << (index_i+1) << "/" << normal_forms[i].size() << " " << (index_j+1) << "/" << normal_forms[j].size() << std::endl; int has_loop[2] = { -1, -1 }; for( unsigned r=0; r<2; r++ ){ int index = (r==0 ? index_i : index_j); @@ -672,6 +768,8 @@ void TheoryStrings::normalizeEquivalenceClass( Node eqc, std::vector< Node > & v } } } + Node term_t; + Node term_s; if( has_loop[0]!=-1 || has_loop[1]!=-1 ){ int loop_n_index = has_loop[0]!=-1 ? i : j; int other_n_index = has_loop[0]!=-1 ? j : i; @@ -680,40 +778,60 @@ void TheoryStrings::normalizeEquivalenceClass( Node eqc, std::vector< Node > & v int other_index = has_loop[0]!=-1 ? index_j : index_i; Trace("strings-loop") << "Detected possible loop for " << normal_forms[loop_n_index][loop_index]; Trace("strings-loop") << " ... " << normal_forms[other_n_index][other_index] << std::endl; + int found_size_y = -1; //we have x * s1 * .... * sm = t1 * ... * tn * x * r1 * ... * rp //check if - //t1 * ... * tn = n[loop_n_index][index]....n[loop_n_index][loop_lindex-1] = y * z + //t1 * ... * tn = n[loop_n_index][index]....n[loop_n_index][loop_index-1] = y * z // and //s1 * ... * sk = n[other_n_index][other_index+1].....n[other_n_index][k+1] = z * y // for some y,z,k - int found_size_y = -1; - for( int size_y = 0; size_y<(loop_index-index); size_y++ ){ - int size_z = (loop_index-index)-size_y; - bool success = true; - //check for z - for( int r = 0; r= (int)normal_forms[other_n_index].size() || - normal_forms[other_n_index][other_index+1+r]!=normal_forms[loop_n_index][index+size_y+r] ) { - success = false; - break; - } - } - //check for y - if( success ){ - for( int r=0; r= (int)normal_forms[other_n_index].size() || - normal_forms[other_n_index][other_index+1+size_y+r]!=normal_forms[loop_n_index][index+r] ) { - success = false; - break; - } - } - if( success ){ - found_size_y = size_y; - break; - } - } - } + std::vector< Node > tc; + for( int r=index; r sc; + for( int r=other_index+1; r<(int)normal_forms[other_n_index].size(); r++ ){ + sc.push_back( normal_forms[other_n_index][r] ); + } + term_s = mkConcat( sc ); + Trace("strings-loop") << "Find y,z from t,s = " << term_t << ", " << term_s << std::endl; + /*TODO:incomplete*/ + if( term_t==term_s ){ + found_size_y = -2; + }else if( term_t.getKind()==kind::STRING_CONCAT && term_s.getKind()==kind::STRING_CONCAT ){ + for( int size_y = 0; size_y<(int)term_t.getNumChildren(); size_y++ ){ + int size_z = term_t.getNumChildren()-size_y; + bool success = true; + //check for z + for( int r = 0; r= (int)term_s.getNumChildren() || + term_s[r]!=term_t[size_y+r] ) { + Trace("strings-loop") << "Failed z for size_y = " << size_y << " at index " << r << std::endl; + success = false; + break; + } + } + //check for y + if( success ){ + for( int r=0; r= (int)term_s.getNumChildren() || + term_s[size_y+r]!=term_t[r] ) { + success = false; + Trace("strings-loop") << "Failed y for size_y = " << size_y << " at index " << r << std::endl; + break; + } + } + if( success ){ + found_size_y = size_y; + break; + } + } + } + } + /*TODO: incomplete*/ if( found_size_y==-1 ){ + Trace("strings-loop") << "Must add lemma." << std::endl; //need to break Node sk_y= NodeManager::currentNM()->mkSkolem( "ldssym_$$", normal_forms[i][index_i].getType(), "created for loop detection split" ); Node sk_z= NodeManager::currentNM()->mkSkolem( "ldssym_$$", normal_forms[i][index_i].getType(), "created for loop detection split" ); @@ -726,8 +844,7 @@ void TheoryStrings::normalizeEquivalenceClass( Node eqc, std::vector< Node > & v for( int r=index; r<=loop_index-1; r++ ) { c1c.push_back( normal_forms[loop_n_index][r] ); } - Node conc1 = c1c.size()>1 ? NodeManager::currentNM()->mkNode( kind::STRING_CONCAT, c1c ) : - c1c.size()==1 ? c1c[0] : d_emptyString; + Node conc1 = mkConcat( c1c ); conc1 = NodeManager::currentNM()->mkNode( kind::EQUAL, conc1, NodeManager::currentNM()->mkNode( kind::STRING_CONCAT, sk_y, sk_z ) ); std::vector< Node > c2c; @@ -735,8 +852,7 @@ void TheoryStrings::normalizeEquivalenceClass( Node eqc, std::vector< Node > & v for( int r=other_index+1; r < (int)normal_forms[other_n_index].size(); r++ ) { c2c.push_back( normal_forms[other_n_index][r] ); } - Node left2 = c2c.size()>1 ? NodeManager::currentNM()->mkNode( kind::STRING_CONCAT, c2c ) : - c2c.size()==1 ? c2c[0] : d_emptyString; + Node left2 = mkConcat( c2c ); std::vector< Node > c3c; c3c.push_back( sk_z ); c3c.push_back( sk_y ); @@ -745,45 +861,54 @@ void TheoryStrings::normalizeEquivalenceClass( Node eqc, std::vector< Node > & v c3c.push_back( normal_forms[loop_n_index][r] ); } Node conc2 = NodeManager::currentNM()->mkNode( kind::EQUAL, left2, - NodeManager::currentNM()->mkNode( kind::STRING_CONCAT, c3c ) ); + mkConcat( c3c ) ); Node sk_y_len = NodeManager::currentNM()->mkNode( kind::STRING_LENGTH, sk_y ); Node sk_z_len = NodeManager::currentNM()->mkNode( kind::STRING_LENGTH, sk_z ); - Node zero = NodeManager::currentNM()->mkConst( ::CVC4::Rational( 0 ) ); - //Node sk_y_len_geq_zero = NodeManager::currentNM()->mkNode( kind::GEQ, sk_y_len, zero); - //Node sk_z_len_geq_zero = NodeManager::currentNM()->mkNode( kind::GEQ, sk_z_len, zero); - conc = NodeManager::currentNM()->mkNode( kind::AND, conc1, conc2 );//, sk_y_len_geq_zero, sk_z_len_geq_zero ); + //Node sk_z_len_gt_zero = NodeManager::currentNM()->mkNode( kind::GT, sk_z_len, d_zero); + Node len_y_eq_zero = NodeManager::currentNM()->mkNode( kind::EQUAL, sk_y_len, d_zero); + Node len_z_eq_zero = NodeManager::currentNM()->mkNode( kind::EQUAL, sk_z_len, d_zero); + Node yz_imp_zz = NodeManager::currentNM()->mkNode( kind::IMPLIES, len_z_eq_zero, len_y_eq_zero); + + conc = NodeManager::currentNM()->mkNode( kind::AND, conc1, conc2, yz_imp_zz );//sk_z_len_gt_zero, yz_imp_zz loop_x = normal_forms[other_n_index][other_index]; loop_y = sk_y; loop_z = sk_z; //we will be done addNormalFormPair( normal_form_src[i], normal_form_src[j] ); } else { - // x = (yz)*y - Trace("strings-loop") << "We have that " << normal_forms[loop_n_index][loop_index] << " = ("; - loop_eqs_x.push_back( normal_forms[loop_n_index][loop_index] ); - for( unsigned r=0; r<2; r++ ){ - //print y - std::vector< Node > yc; - for( int rr = 0; rr0 ) Trace("strings-loop") << "."; - Trace("strings-loop") << normal_forms[loop_n_index][index+rr]; - yc.push_back( normal_forms[loop_n_index][index+rr] ); - } - if( r==0 ){ - loop_eqs_y.push_back( mkConcat( yc ) ); - Trace("strings-loop") <<".."; - //print z - int found_size_z = (loop_index-index)-found_size_y; - std::vector< Node > zc; - for( int rr = 0; rr0 ) Trace("strings-loop") << "."; - Trace("strings-loop") << normal_forms[loop_n_index][index+found_size_y+rr]; - zc.push_back( normal_forms[loop_n_index][index+found_size_y+rr] ); - } - Trace("strings-loop") << ")*"; - loop_eqs_z.push_back( mkConcat( zc ) ); - } - } + // x = (yz)*y + Trace("strings-loop") << "We have that " << normal_forms[loop_n_index][loop_index] << " = ("; + loop_eqs_x.push_back( normal_forms[loop_n_index][loop_index] ); + if( found_size_y==-2 ){ + //TODO: incomplete for cases like aa.x=x.aa => x=(aa)* | (aa)*a + Trace("strings-loop") << " " << term_t << " ) * " << std::endl; + loop_eqs_y.push_back( d_emptyString ); + loop_eqs_z.push_back( term_t ); + }else{ + for( unsigned r=0; r<2; r++ ){ + //print y + std::vector< Node > yc; + for( int rr = 0; rr0 ) Trace("strings-loop") << "."; + Trace("strings-loop") << term_t[rr]; + yc.push_back( term_t[rr] ); + } + if( r==0 ){ + loop_eqs_y.push_back( mkConcat( yc ) ); + Trace("strings-loop") <<".."; + //print z + int found_size_z = term_t.getNumChildren()-found_size_y; + std::vector< Node > zc; + for( int rr = 0; rr0 ) Trace("strings-loop") << "."; + Trace("strings-loop") << term_t[found_size_y+rr]; + zc.push_back( term_t[found_size_y+rr] ); + } + Trace("strings-loop") << ")*"; + loop_eqs_z.push_back( mkConcat( zc ) ); + } + } + } Trace("strings-loop") << std::endl; if( loop_n_index==(int)i ){ index_j += (loop_index+1)-index_i; @@ -794,10 +919,10 @@ void TheoryStrings::normalizeEquivalenceClass( Node eqc, std::vector< Node > & v } success = true; std::vector< Node > empty_vec; - loop_exps.push_back( mkExplain( antec, empty_vec ) ); + loop_exps.push_back( mkExplain( curr_exp, empty_vec ) ); } }else{ - Trace("strings-loop") << "No loops detected." << std::endl; + Trace("strings-solve-debug") << "No loops detected." << std::endl; if( normal_forms[i][index_i].getKind() == kind::CONST_STRING || normal_forms[j][index_j].getKind() == kind::CONST_STRING) { Node const_str = normal_forms[i][index_i].getKind() == kind::CONST_STRING ? normal_forms[i][index_i] : normal_forms[j][index_j]; @@ -811,8 +936,8 @@ void TheoryStrings::normalizeEquivalenceClass( Node eqc, std::vector< Node > & v int index_k = const_str.getConst().size()().size() ? index_i : index_j; int l = const_str.getConst().size()().size() ? j : i; int index_l = const_str.getConst().size()().size() ? index_j : index_i; - Node remainderStr = NodeManager::currentNM()->mkConst( const_str.getConst().substr(len_short) ); - Trace("strings-solve-debug") << "Break normal form of " << normal_forms[l][index_l] << " into " << normal_forms[k][index_k] << ", " << remainderStr << std::endl; + Node remainderStr = NodeManager::currentNM()->mkConst( normal_forms[l][index_l].getConst().substr(len_short) ); + Trace("strings-solve-debug-test") << "Break normal form of " << normal_forms[l][index_l] << " into " << normal_forms[k][index_k] << ", " << remainderStr << std::endl; normal_forms[l].insert( normal_forms[l].begin()+index_l + 1, remainderStr ); normal_forms[l][index_l] = normal_forms[k][index_k]; success = true; @@ -829,9 +954,8 @@ void TheoryStrings::normalizeEquivalenceClass( Node eqc, std::vector< Node > & v //split the string Node sk = NodeManager::currentNM()->mkSkolem( "ssym_$$", normal_forms[i][index_i].getType(), "created for split" ); // |sk| >= 0 - Node sk_len = NodeManager::currentNM()->mkNode( kind::STRING_LENGTH, sk ); - Node zero = NodeManager::currentNM()->mkConst( ::CVC4::Rational( 0 ) ); - //Node sk_len_geq_zero = NodeManager::currentNM()->mkNode( kind::GEQ, sk_len, zero); + //Node sk_len = NodeManager::currentNM()->mkNode( kind::STRING_LENGTH, sk ); + //Node sk_len_geq_zero = NodeManager::currentNM()->mkNode( kind::GEQ, sk_len, d_zero); Node eq1 = NodeManager::currentNM()->mkNode( kind::EQUAL, other_str, d_emptyString ); Node eq2_m = NodeManager::currentNM()->mkNode( kind::EQUAL, other_str, @@ -858,8 +982,7 @@ void TheoryStrings::normalizeEquivalenceClass( Node eqc, std::vector< Node > & v sendLemma = true; // |sk| > 0 Node sk_len = NodeManager::currentNM()->mkNode( kind::STRING_LENGTH, sk ); - Node zero = NodeManager::currentNM()->mkConst( ::CVC4::Rational( 0 ) ); - Node sk_gt_zero = NodeManager::currentNM()->mkNode( kind::GT, sk_len, zero); + Node sk_gt_zero = NodeManager::currentNM()->mkNode( kind::GT, sk_len, d_zero); Trace("strings-lemma") << "Strings lemma : " << sk_gt_zero << std::endl; //d_out->lemma(sk_gt_zero); d_lemma_cache.push_back( sk_gt_zero ); @@ -870,7 +993,7 @@ void TheoryStrings::normalizeEquivalenceClass( Node eqc, std::vector< Node > & v Node ant = mkExplain( antec, antec_new_lits ); if( conc.isNull() ){ d_out->conflict(ant); - Trace("strings-conflict") << "Strings conflict : " << ant << std::endl; + Trace("strings-conflict") << "CONFLICT : Strings conflict : " << ant << std::endl; d_conflict = true; }else{ Node lem = NodeManager::currentNM()->mkNode( kind::IMPLIES, ant, conc ); @@ -933,7 +1056,6 @@ bool TheoryStrings::areEqual( Node a, Node b ){ } void TheoryStrings::addNormalFormPair( Node n1, Node n2 ) { - //Trace("strings-debug") << "add normal form pair. " << n1 << " " << n2 << std::endl; if( !isNormalFormPair( n1, n2 ) ){ NodeList* lst; NodeListMap::iterator nf_i = d_nf_pairs.find( n1 ); @@ -945,11 +1067,17 @@ void TheoryStrings::addNormalFormPair( Node n1, Node n2 ) { lst = new(getSatContext()->getCMM()) NodeList( true, getSatContext(), false, ContextMemoryAllocator(getSatContext()->getCMM()) ); d_nf_pairs.insertDataFromContextMemory( n1, lst ); + Trace("strings-nf") << "Create cache for " << n1 << std::endl; }else{ lst = (*nf_i).second; } + Trace("strings-nf") << "Add normal form pair : " << n1 << " " << n2 << std::endl; lst->push_back( n2 ); - } + Assert( isNormalFormPair( n1, n2 ) ); + }else{ + Trace("strings-nf-debug") << "Already a normal form pair " << n1 << " " << n2 << std::endl; + } + } bool TheoryStrings::isNormalFormPair( Node n1, Node n2 ) { //TODO: modulo equality? @@ -1011,7 +1139,8 @@ void TheoryStrings::addInductiveEquation( Node x, Node y, Node z, Node exp ) { } Node TheoryStrings::mkConcat( std::vector< Node >& c ) { - return c.size()>1 ? NodeManager::currentNM()->mkNode( kind::STRING_CONCAT, c ) : ( c.size()==1 ? c[0] : d_emptyString ); + Node cc = c.size()>1 ? NodeManager::currentNM()->mkNode( kind::STRING_CONCAT, c ) : ( c.size()==1 ? c[0] : d_emptyString ); + return Rewriter::rewrite( cc ); } Node TheoryStrings::mkExplain( std::vector< Node >& a, std::vector< Node >& an ) { @@ -1028,39 +1157,65 @@ Node TheoryStrings::mkExplain( std::vector< Node >& a, std::vector< Node >& an ) Assert( hasTerm(a[i][0][1]) ); Assert( d_equalityEngine.areDisequal(a[i][0][0], a[i][0][1], true) ); } + unsigned ps = antec_exp.size(); explain(a[i], antec_exp); - Trace("strings-solve-debug") << "Done." << std::endl; + Trace("strings-solve-debug") << "Done, explanation was : " << std::endl; + for( unsigned j=ps; jmkConst(true); + ant = d_true; } else if( antec_exp.size()==1 ) { ant = antec_exp[0]; } else { ant = NodeManager::currentNM()->mkNode( kind::AND, antec_exp ); } + ant = Rewriter::rewrite( ant ); return ant; } bool TheoryStrings::checkNormalForms() { Trace("strings-process") << "Normalize equivalence classes...." << std::endl; - eq::EqClassesIterator eqcs2_i = eq::EqClassesIterator( &d_equalityEngine ); - while( !eqcs2_i.isFinished() ){ - Node eqc = (*eqcs2_i); - //if (eqc.getType().isString()) { - eq::EqClassIterator eqc2_i = eq::EqClassIterator( eqc, &d_equalityEngine ); - Trace("strings-eqc") << "Eqc( " << eqc << " ) : "; - while( !eqc2_i.isFinished() ) { - Trace("strings-eqc") << (*eqc2_i) << " "; - ++eqc2_i; - } - Trace("strings-eqc") << std::endl; - //} - ++eqcs2_i; - } + eq::EqClassesIterator eqcs2_i = eq::EqClassesIterator( &d_equalityEngine ); + for( unsigned t=0; t<2; t++ ){ + Trace("strings-eqc") << (t==0 ? "STRINGS:" : "OTHER:") << std::endl; + while( !eqcs2_i.isFinished() ){ + Node eqc = (*eqcs2_i); + bool print = (t==0 && eqc.getType().isString() ) || (t==1 && !eqc.getType().isString() ); + if (print) { + eq::EqClassIterator eqc2_i = eq::EqClassIterator( eqc, &d_equalityEngine ); + Trace("strings-eqc") << "Eqc( " << eqc << " ) : "; + while( !eqc2_i.isFinished() ) { + if( (*eqc2_i)!=eqc ){ + Trace("strings-eqc") << (*eqc2_i) << " "; + } + ++eqc2_i; + } + Trace("strings-eqc") << std::endl; + } + ++eqcs2_i; + } + Trace("strings-eqc") << std::endl; + } + Trace("strings-eqc") << std::endl; + for( NodeListMap::const_iterator it = d_nf_pairs.begin(); it != d_nf_pairs.end(); ++it ){ + NodeList* lst = (*it).second; + NodeList::const_iterator it2 = lst->begin(); + Trace("strings-nf") << (*it).first << " has been unified with "; + while( it2!=lst->end() ){ + Trace("strings-nf") << (*it2); + ++it2; + } + Trace("strings-nf") << std::endl; + } + Trace("strings-nf") << std::endl; bool addedFact = false; do { @@ -1093,7 +1248,7 @@ bool TheoryStrings::checkNormalForms() { } nf_term = Rewriter::rewrite( nf_term ); Trace("strings-debug") << "Make nf_term_exp..." << std::endl; - Node nf_term_exp = nf_exp.empty() ? NodeManager::currentNM()->mkConst(true) : + Node nf_term_exp = nf_exp.empty() ? d_true : nf_exp.size()==1 ? nf_exp[0] : NodeManager::currentNM()->mkNode( kind::AND, nf_exp ); if( nf_to_eqc.find(nf_term)!=nf_to_eqc.end() ){ //Trace("strings-debug") << "Merge because of normal form : " << eqc << " and " << nf_to_eqc[nf_term] << " both have normal form " << nf_term << std::endl; @@ -1136,46 +1291,33 @@ bool TheoryStrings::checkCardinality() { Trace("strings-solve-debug2") << "get cardinality: " << cardinality << endl; eq::EqClassesIterator eqcs_i = eq::EqClassesIterator( &d_equalityEngine ); - unsigned leqc_counter = 0; - std::map< Node, unsigned > eqc_to_leqc; - std::map< unsigned, Node > leqc_to_eqc; - std::map< unsigned, std::vector< Node > > eqc_to_strings; + std::vector< Node > eqcs; while( !eqcs_i.isFinished() ){ Node eqc = (*eqcs_i); //if eqc.getType is string if (eqc.getType().isString()) { - EqcInfo* ei = getOrMakeEqcInfo( eqc, true ); - Node lt = ei->d_length_term; - if( !lt.isNull() ){ - lt = NodeManager::currentNM()->mkNode( kind::STRING_LENGTH, lt ); - Node r = d_equalityEngine.getRepresentative( lt ); - if( eqc_to_leqc.find( r )==eqc_to_leqc.end() ){ - eqc_to_leqc[r] = leqc_counter; - leqc_to_eqc[leqc_counter] = r; - leqc_counter++; - } - eqc_to_strings[ eqc_to_leqc[r] ].push_back( eqc ); - }else{ - eqc_to_strings[leqc_counter].push_back( eqc ); - leqc_counter++; - } - } - ++eqcs_i; + eqcs.push_back( eqc ); + } + ++eqcs_i; } - for( std::map< unsigned, std::vector< Node > >::iterator it = eqc_to_strings.begin(); it != eqc_to_strings.end(); ++it ){ - Node lr = leqc_to_eqc[it->first]; - Trace("string-cardinality") << "Number of strings with length equal to " << lr << " is " << it->second.size() << std::endl; + std::vector< std::vector< Node > > cols; + std::vector< Node > lts; + seperateIntoCollections( eqcs, cols, lts ); + + for( unsigned i = 0; i c^k - double k = std::log( it->second.size() ) / log((double) cardinality); + double k = std::log( cols[i].size() ) / log((double) cardinality); unsigned int int_k = (unsigned int)k; Node k_node = NodeManager::currentNM()->mkConst( ::CVC4::Rational( int_k ) ); //double c_k = pow ( (double)cardinality, (double)lr ); - if( it->second.size() > 1 ) { + if( cols[i].size() > 1 ) { bool allDisequal = true; - for( std::vector< Node >::iterator itr1 = it->second.begin(); - itr1 != it->second.end(); ++itr1) { + for( std::vector< Node >::iterator itr1 = cols[i].begin(); + itr1 != cols[i].end(); ++itr1) { for( std::vector< Node >::iterator itr2 = itr1 + 1; - itr2 != it->second.end(); ++itr2) { + itr2 != cols[i].end(); ++itr2) { if(!d_equalityEngine.areDisequal( *itr1, *itr2, false )) { allDisequal = false; // add split lemma @@ -1190,14 +1332,14 @@ bool TheoryStrings::checkCardinality() { } if(allDisequal) { EqcInfo* ei = getOrMakeEqcInfo( lr, true ); - Trace("string-cardinality") << "Previous cardinality used for " << lr << " is " << ei->d_cardinality_lem_k << std::endl; - if( int_k > ei->d_cardinality_lem_k.get() ){ + Trace("string-cardinality") << "Previous cardinality used for " << lr << " is " << ((int)ei->d_cardinality_lem_k.get()-1) << std::endl; + if( int_k+1 > ei->d_cardinality_lem_k.get() ){ //add cardinality lemma - Node dist = NodeManager::currentNM()->mkNode( kind::DISTINCT, it->second ); + Node dist = NodeManager::currentNM()->mkNode( kind::DISTINCT, cols[i] ); std::vector< Node > vec_node; vec_node.push_back( dist ); - for( std::vector< Node >::iterator itr1 = it->second.begin(); - itr1 != it->second.end(); ++itr1) { + for( std::vector< Node >::iterator itr1 = cols[i].begin(); + itr1 != cols[i].end(); ++itr1) { Node len = NodeManager::currentNM()->mkNode( kind::STRING_LENGTH, *itr1 ); if( len!=lr ){ Node len_eq_lr = NodeManager::currentNM()->mkNode( kind::EQUAL, lr, len ); @@ -1205,12 +1347,12 @@ bool TheoryStrings::checkCardinality() { } } Node antc = NodeManager::currentNM()->mkNode( kind::AND, vec_node ); - Node len = NodeManager::currentNM()->mkNode( kind::STRING_LENGTH, it->second[0] ); + Node len = NodeManager::currentNM()->mkNode( kind::STRING_LENGTH, cols[i][0] ); Node cons = NodeManager::currentNM()->mkNode( kind::GT, len, k_node ); Node lemma = NodeManager::currentNM()->mkNode( kind::IMPLIES, antc, cons ); Trace("strings-lemma") << "Strings cardinaliry lemma : " << lemma << std::endl; d_out->lemma(lemma); - ei->d_cardinality_lem_k.set( k ); + ei->d_cardinality_lem_k.set( int_k+1 ); return true; } } @@ -1219,7 +1361,17 @@ bool TheoryStrings::checkCardinality() { return false; } +int TheoryStrings::gcd ( int a, int b ) { + int c; + while ( a != 0 ) { + c = a; a = b%a; b = c; + } + return b; +} + bool TheoryStrings::checkInductiveEquations() { + if(d_ind_map1.size() == 0) return false; + bool hasEq = false; Trace("strings-ind") << "We are sat, with these inductive equations : " << std::endl; for( NodeListMap::const_iterator it = d_ind_map1.begin(); it != d_ind_map1.end(); ++it ){ @@ -1235,35 +1387,83 @@ bool TheoryStrings::checkInductiveEquations() { while( i1!=lst1->end() ){ Node y = *i1; Node z = *i2; - Node exp = *ie; - Trace("strings-ind") << "Inductive equation : " << x << " = ( " << y << "..." << z << " )* " << y << std::endl; if( il==lstl->end() ) { + + std::vector< Node > nf_y, nf_z, exp_y, exp_z; + + getFinalNormalForm( y, nf_y, exp_y); + getFinalNormalForm( z, nf_z, exp_z); + std::vector< Node > vec_empty; + Node nexp_y = mkExplain( exp_y, vec_empty ); + Node nexp_z = mkExplain( exp_z, vec_empty ); + + Node exp = *ie; + + exp = NodeManager::currentNM()->mkNode( kind::AND, exp, nexp_y, nexp_z ); + exp = Rewriter::rewrite( exp ); + + Trace("strings-ind") << "Inductive equation : " << x << " = ( "; + for( std::vector< Node >::const_iterator itr = nf_y.begin(); itr != nf_y.end(); ++itr) { + Trace("strings-ind") << (*itr) << " "; + } + Trace("strings-ind") << " ++ "; + for( std::vector< Node >::const_iterator itr = nf_z.begin(); itr != nf_z.end(); ++itr) { + Trace("strings-ind") << (*itr) << " "; + } + Trace("strings-ind") << " )* "; + for( std::vector< Node >::const_iterator itr = nf_y.begin(); itr != nf_y.end(); ++itr) { + Trace("strings-ind") << (*itr) << " "; + } + Trace("strings-ind") << std::endl; + Trace("strings-ind") << "Explanation is : " << exp << std::endl; + std::vector< Node > nf_yz; + nf_yz.insert( nf_yz.end(), nf_y.begin(), nf_y.end() ); + nf_yz.insert( nf_yz.end(), nf_z.begin(), nf_z.end() ); + std::vector< std::vector< Node > > cols; + std::vector< Node > lts; + seperateIntoCollections( nf_yz, cols, lts ); + Trace("strings-ind") << "This can be grouped into collections : " << std::endl; + for( unsigned j=0; j co; + co.push_back(0); + for(unsigned int k=0; k().getNumerator().toUnsignedInt(); + co[0] += cols[k].size() * len; + } else { + co.push_back( cols[k].size() ); + } + } + int g_co = co[0]; + for(unsigned k=1; kmkNode( kind::STRING_LENGTH, x ); - Node len_y = NodeManager::currentNM()->mkNode( kind::STRING_LENGTH, y ); - lemma_len = NodeManager::currentNM()->mkNode( kind::GEQ, len_x, len_y ); - } else { - // both constants - Node len_x = NodeManager::currentNM()->mkNode( kind::STRING_LENGTH, x ); - Node sk = NodeManager::currentNM()->mkSkolem( "argsym_$$", NodeManager::currentNM()->integerType(), "created for length inductive lemma" ); - Node len_y = NodeManager::currentNM()->mkNode( kind::STRING_LENGTH, y ); - Node len_z = NodeManager::currentNM()->mkNode( kind::STRING_LENGTH, z ); - Node len_y_plus_len_z = NodeManager::currentNM()->mkNode( kind::PLUS, len_y, len_z ); - Node y_p_z_t_a = NodeManager::currentNM()->mkNode( kind::MULT, len_y_plus_len_z, sk ); - Node y_p_z_t_a_p_y = NodeManager::currentNM()->mkNode( kind::PLUS, y_p_z_t_a, len_y ); - lemma_len = NodeManager::currentNM()->mkNode( kind::EQUAL, y_p_z_t_a_p_y, len_x ); - Node sk_geq_zero = NodeManager::currentNM()->mkNode( kind::GEQ, sk, d_zero ); - lemma_len = NodeManager::currentNM()->mkNode( kind::AND, lemma_len, sk_geq_zero ); - } + // both constants + Node len_x = NodeManager::currentNM()->mkNode( kind::STRING_LENGTH, x ); + Node sk = NodeManager::currentNM()->mkSkolem( "argsym_$$", NodeManager::currentNM()->integerType(), "created for length inductive lemma" ); + Node g_co_node = NodeManager::currentNM()->mkConst( CVC4::Rational(g_co) ); + Node sk_m_gcd = NodeManager::currentNM()->mkNode( kind::MULT, g_co_node, sk ); + Node len_y = NodeManager::currentNM()->mkNode( kind::STRING_LENGTH, y ); + Node sk_m_g_p_y = NodeManager::currentNM()->mkNode( kind::PLUS, sk_m_gcd, len_y ); + lemma_len = NodeManager::currentNM()->mkNode( kind::EQUAL, sk_m_g_p_y, len_x ); + //Node sk_geq_zero = NodeManager::currentNM()->mkNode( kind::GEQ, sk, d_zero ); + //lemma_len = NodeManager::currentNM()->mkNode( kind::AND, lemma_len, sk_geq_zero ); lemma_len = NodeManager::currentNM()->mkNode( kind::IMPLIES, exp, lemma_len ); Trace("strings-lemma") << "Strings: Add lemma " << lemma_len << std::endl; d_out->lemma(lemma_len); lstl->push_back( d_true ); return true; } - ++i1; ++i2; ++ie; @@ -1277,7 +1477,77 @@ bool TheoryStrings::checkInductiveEquations() { return false; } +void TheoryStrings::getFinalNormalForm( Node n, std::vector< Node >& nf, std::vector< Node >& exp ) { + if( n!=d_emptyString ){ + if( n.getKind()==kind::STRING_CONCAT ){ + for( unsigned i=0; id_const_term.get() : Node::null(); + if( !nc.isNull() ){ + nf.push_back( nc ); + if( n!=nc ){ + exp.push_back( NodeManager::currentNM()->mkNode( kind::EQUAL, n, nc ) ); + } + }else{ + Assert( d_normal_forms.find( nr )!=d_normal_forms.end() ); + if( d_normal_forms[nr][0]==nr ){ + Assert( d_normal_forms[nr].size()==1 ); + nf.push_back( nr ); + if( n!=nr ){ + exp.push_back( NodeManager::currentNM()->mkNode( kind::EQUAL, n, nr ) ); + } + }else{ + for( unsigned i=0; i& n, std::vector< std::vector< Node > >& cols, + std::vector< Node >& lts ) { + unsigned leqc_counter = 0; + std::map< Node, unsigned > eqc_to_leqc; + std::map< unsigned, Node > leqc_to_eqc; + std::map< unsigned, std::vector< Node > > eqc_to_strings; + for( unsigned i=0; id_length_term : Node::null(); + if( !lt.isNull() ){ + lt = NodeManager::currentNM()->mkNode( kind::STRING_LENGTH, lt ); + Node r = d_equalityEngine.getRepresentative( lt ); + if( eqc_to_leqc.find( r )==eqc_to_leqc.end() ){ + eqc_to_leqc[r] = leqc_counter; + leqc_to_eqc[leqc_counter] = r; + leqc_counter++; + } + eqc_to_strings[ eqc_to_leqc[r] ].push_back( eqc ); + }else{ + eqc_to_strings[leqc_counter].push_back( eqc ); + leqc_counter++; + } + } + for( std::map< unsigned, std::vector< Node > >::iterator it = eqc_to_strings.begin(); it != eqc_to_strings.end(); ++it ){ + std::vector< Node > vec; + vec.insert( vec.end(), it->second.begin(), it->second.end() ); + + lts.push_back( leqc_to_eqc[it->first] ); + cols.push_back( vec ); + } +} }/* CVC4::theory::strings namespace */ diff --git a/src/theory/strings/theory_strings.h b/src/theory/strings/theory_strings.h index a6644b8bb..a566c944f 100644 --- a/src/theory/strings/theory_strings.h +++ b/src/theory/strings/theory_strings.h @@ -188,6 +188,7 @@ class TheoryStrings : public Theory { bool checkNormalForms(); bool checkCardinality(); bool checkInductiveEquations(); + int gcd(int a, int b); public: void preRegisterTerm(TNode n); void check(Effort e); @@ -213,6 +214,12 @@ protected: Node mkConcat( std::vector< Node >& c ); /** mkExplain **/ Node mkExplain( std::vector< Node >& a, std::vector< Node >& an ); + + //get final normal form + void getFinalNormalForm( Node n, std::vector< Node >& nf, std::vector< Node >& exp ); + + //seperate into collections with equal length + void seperateIntoCollections( std::vector< Node >& n, std::vector< std::vector< Node > >& col, std::vector< Node >& lts ); };/* class TheoryStrings */ }/* CVC4::theory::strings namespace */ diff --git a/src/theory/strings/type_enumerator.h b/src/theory/strings/type_enumerator.h index 3ab9df0cd..3dc12009b 100644 --- a/src/theory/strings/type_enumerator.h +++ b/src/theory/strings/type_enumerator.h @@ -31,34 +31,98 @@ namespace theory { namespace strings { class StringEnumerator : public TypeEnumeratorBase { - unsigned d_int; - + std::vector< unsigned > d_data; + unsigned d_cardinality; + Node d_curr; + void mkCurr() { + //make constant from d_data + d_curr = NodeManager::currentNM()->mkConst( ::CVC4::String( d_data ) ); + } public: StringEnumerator(TypeNode type) throw(AssertionException) : - TypeEnumeratorBase(type), - d_int(0) { + TypeEnumeratorBase(type) { Assert(type.getKind() == kind::TYPE_CONSTANT && type.getConst() == STRING_TYPE); + d_cardinality = 256; + mkCurr(); } - Node operator*() throw() { - std::stringstream ss; - ss << d_int; - return NodeManager::currentNM()->mkConst( ::CVC4::String( ss.str() ) ); + return d_curr; } - StringEnumerator& operator++() throw() { - d_int++; + bool changed = false; + do{ + for(unsigned i=0; i d_data; + Node d_curr; + void mkCurr() { + //make constant from d_data + d_curr = NodeManager::currentNM()->mkConst( ::CVC4::String( d_data ) ); + } +public: + StringEnumeratorLength(unsigned length, unsigned card = 256) : d_cardinality(card) { + for( unsigned i=0; icheck(Theory::EFFORT_LAST_CALL); if(d_logicInfo.isQuantified()) { // quantifiers engine must pass effort last call check d_quantEngine->check(Theory::EFFORT_LAST_CALL); diff --git a/src/util/regexp.h b/src/util/regexp.h index debb57e4c..58f58a40f 100644 --- a/src/util/regexp.h +++ b/src/util/regexp.h @@ -122,13 +122,13 @@ public: String(const std::string &s) { for(unsigned int i=0; i=256 ? ii-256 : ii); + } + static bool isPrintable( unsigned int i ){ + char c = convertUnsignedIntToChar( i ); + return isprint( (int)c ); + } + };/* class String */ namespace strings { diff --git a/test/regress/regress0/strings/Makefile.am b/test/regress/regress0/strings/Makefile.am index 269ec49ed..699a7ff3c 100644 --- a/test/regress/regress0/strings/Makefile.am +++ b/test/regress/regress0/strings/Makefile.am @@ -25,6 +25,7 @@ TESTS = \ str003.smt2 \ str004.smt2 \ str005.smt2 \ + model001.smt2 \ loop001.smt2 # loop002.smt2 \ # loop003.smt2 \ diff --git a/test/regress/regress0/strings/model001.smt2 b/test/regress/regress0/strings/model001.smt2 new file mode 100644 index 000000000..e4e35f40d --- /dev/null +++ b/test/regress/regress0/strings/model001.smt2 @@ -0,0 +1,12 @@ +(set-logic ALL_SUPPORTED) +(set-info :status sat) +(set-option :produce-models true) + +(declare-fun x () String) +(declare-fun y () String) + +(assert (not (= x y))) +(assert (= (str.len x) (str.len y))) + +(check-sat) +;(get-model)