static void toStreamRational(std::ostream& out,

  bool neg = r.sgn() < 0;

  if (r.isIntegral())

    if (neg)

      out << "(- " << -r;

      out << r;

    if (decimal)

      out << ".0";

    if (neg)

      out << ")";

    out << "(/ ";

    if (neg)

      Rational abs_r = (-r);

      out << "(- " << abs_r.getNumerator();

      out << ") " << abs_r.getDenominator();

      out << r.getNumerator();

      out << ' ' << r.getDenominator();

    out << ')';

}

void Smt2Printer::toStream(std::ostream& out,

  if(dag != 0) {

    LetBinding lbind(dag + 1);

    toStreamWithLetify(out, n, toDepth, &lbind);

    toStream(out, n, toDepth);

}

void Smt2Printer::toStreamWithLetify(std::ostream& out,

  if (lbind == nullptr)

  std::stringstream cparen;

  std::vector<Node> letList;

  lbind->letify(n, letList);

  if (!letList.empty())

    std::map<Node, uint32_t>::const_iterator it;

    for (size_t i = 0, nlets = letList.size(); i < nlets; i++)

      Node nl = letList[i];

      out << "(let ((";

      uint32_t id = lbind->getId(nl);

      out << "_let_" << id << " ";

      Node nlc = lbind->convert(nl, "_let_", false);

      toStream(out, nlc, toDepth, lbind);

      out << ")) ";

      cparen << ")";

  Node nc = lbind->convert(n, "_let_");

  toStream(out, nc, toDepth, lbind);

  out << cparen.str();

  lbind->popScope();

void Smt2Printer::toStream(std::ostream& out,

  if(n.getKind() == kind::NULL_EXPR) {

    return;

  NodeManager* nm = NodeManager::currentNM();

  if(n.getMetaKind() == kind::metakind::CONSTANT) {

    switch(n.getKind()) {

    case kind::TYPE_CONSTANT:

      switch(n.getConst<TypeConstant>()) {

      case BOOLEAN_TYPE: out << "Bool"; break;

      case REAL_TYPE: out << "Real"; break;

      case INTEGER_TYPE: out << "Int"; break;

      case STRING_TYPE: out << "String"; break;

      case REGEXP_TYPE: out << "RegLan"; break;

      case ROUNDINGMODE_TYPE: out << "RoundingMode"; break;

      break;

    case kind::BITVECTOR_TYPE:

      out << "(_ BitVec " << n.getConst<BitVectorSize>().d_size << ")";

      break;

    case kind::FLOATINGPOINT_TYPE:

      out << "(_ FloatingPoint "

          << n.getConst<FloatingPointSize>().exponentWidth() << " "

          << n.getConst<FloatingPointSize>().significandWidth() << ")";

      break;

    case kind::CONST_BITVECTOR:

      const BitVector& bv = n.getConst<BitVector>();

      if (options::bvPrintConstsAsIndexedSymbols())

        out << "(_ bv" << bv.getValue() << " " << bv.getSize() << ")";

        out << "#b" << bv.toString();

      break;

    case kind::CONST_FLOATINGPOINT:

      out << n.getConst<FloatingPoint>().toString(

          options::bvPrintConstsAsIndexedSymbols());

      break;

    case kind::CONST_ROUNDINGMODE:

      switch (n.getConst<RoundingMode>()) {

        case RoundingMode::ROUND_NEAREST_TIES_TO_AWAY:

          out << "roundNearestTiesToAway";

          break;

      break;

    case kind::CONST_BOOLEAN:

      out << (n.getConst<bool>() ? "true" : "false");

      break;

    case kind::CONST_RATIONAL: {

      const Rational& r = n.getConst<Rational>();

      toStreamRational(out, r, false, d_variant);

      break;

    case kind::CONST_STRING: {

      std::string s = n.getConst<String>().toString();

      out << '"';

      for(size_t i = 0; i < s.size(); ++i) {

        char c = s[i];

        if(c == '"') {

          out << "\"\"";

          out << c;

      out << '"';

      break;

    case kind::CONST_SEQUENCE:

      const Sequence& sn = n.getConst<Sequence>();

      const std::vector<Node>& snvec = sn.getVec();

      if (snvec.empty())

        out << "(as seq.empty ";

        toStreamType(out, n.getType());

        out << ")";

      break;

    case kind::STORE_ALL: {

      ArrayStoreAll asa = n.getConst<ArrayStoreAll>();

      out << "((as const ";

      toStreamType(out, asa.getType());

      out << ") " << asa.getValue() << ")";

      break;

    case kind::DATATYPE_TYPE:

          n.getConst<DatatypeIndexConstant>().getIndex()));

      if (dt.isTuple())

        unsigned int nargs = dt[0].getNumArgs();

        if (nargs == 0)

          out << "(Tuple";

          for (unsigned int i = 0; i < nargs; i++)

            out << " ";

            toStreamType(out, dt[0][i].getRangeType());

          out << ")";

        out << cvc5::quoteSymbol(dt.getName());

      break;

    case kind::UNINTERPRETED_CONSTANT: {

      const UninterpretedConstant& uc = n.getConst<UninterpretedConstant>();

      std::stringstream ss;

      ss << "(as @" << uc << " " << n.getType() << ")";

      out << ss.str();

      break;

    case kind::EMPTYSET:

      out << "(as emptyset ";

      toStreamType(out, n.getConst<EmptySet>().getType());

      out << ")";

      break;

    case kind::BITVECTOR_EXTRACT_OP:

      BitVectorExtract p = n.getConst<BitVectorExtract>();

      out << "(_ extract " << p.d_high << ' ' << p.d_low << ")";

      break;

    case kind::BITVECTOR_REPEAT_OP:

      out << "(_ repeat " << n.getConst<BitVectorRepeat>().d_repeatAmount

          << ")";

      break;

    case kind::BITVECTOR_ZERO_EXTEND_OP:

      out << "(_ zero_extend "

          << n.getConst<BitVectorZeroExtend>().d_zeroExtendAmount << ")";

      break;

    case kind::FLOATINGPOINT_TO_FP_GENERIC_OP:

      out << "(_ to_fp "

          << n.getConst<FloatingPointToFPGeneric>().getSize().exponentWidth()

          << ' '

          << n.getConst<FloatingPointToFPGeneric>().getSize().significandWidth()

          << ")";

      break;

    case kind::REGEXP_REPEAT_OP:

      out << "(_ re.^ " << n.getConst<RegExpRepeat>().d_repeatAmount << ")";

      break;

    case kind::REGEXP_LOOP_OP:

      out << "(_ re.loop " << n.getConst<RegExpLoop>().d_loopMinOcc << " "

          << n.getConst<RegExpLoop>().d_loopMaxOcc << ")";

      break;

    default:

      kind::metakind::NodeValueConstPrinter::toStream(out, n);

    return;

  if(n.getKind() == kind::SORT_TYPE) {

    string name;

    if(n.getNumChildren() != 0) {

      out << '(';

    if(n.getAttribute(expr::VarNameAttr(), name)) {

      out << cvc5::quoteSymbol(name);

    if(n.getNumChildren() != 0) {

      for(unsigned i = 0; i < n.getNumChildren(); ++i) {

	      out << ' ';

              toStream(out, n[i], toDepth);

      out << ')';

    return;

  Kind k = n.getKind();

  Node type_asc_arg;

  TypeNode force_nt;

  if (k == kind::APPLY_TYPE_ASCRIPTION)

    force_nt = n.getOperator().getConst<AscriptionType>().getType();

    type_asc_arg = n[0];

  else if (k == kind::CAST_TO_REAL)

    force_nt = nm->realType();

    type_asc_arg = n[0];

  if (!type_asc_arg.isNull())

    if (force_nt.isReal())

      bool is_int = force_nt.isInteger();

      if (type_asc_arg.getKind() == kind::CONST_RATIONAL)

        const Rational& r = type_asc_arg.getConst<Rational>();

        toStreamRational(out, r, !is_int, d_variant);

      out << "(as ";

      toStream(out, type_asc_arg, toDepth < 0 ? toDepth : toDepth - 1, lbind);

      out << " " << force_nt << ")";

    return;

  if (n.isVar())

    string s;

    if (n.getAttribute(expr::VarNameAttr(), s))

      out << cvc5::quoteSymbol(s);

      if (n.getKind() == kind::VARIABLE)

        out << n.getKind() << '_';

      out << n.getId();

    return;

  bool stillNeedToPrintParams = true;

  bool forceBinary = false; // force N-ary to binary when outputing children

  if (n.getNumChildren() != 0 && k != kind::CONSTRUCTOR_TYPE)

    out << '(';

  switch(k) {

    case kind::FUNCTION_TYPE:

      out << "->";

      for (Node nc : n)

        out << " ";

        toStream(out, nc, toDepth);

      }

      out << ")";

      return;

    case kind::SEXPR: break;

    case kind::APPLY_UF: break;

    case kind::IAND:

      out << "(_ iand " << n.getOperator().getConst<IntAnd>().d_size << ") ";

      stillNeedToPrintParams = false;

      break;

  case kind::REGEXP_REPEAT:

    out << n.getOperator() << ' ';

    stillNeedToPrintParams = false;

    break;

  case kind::BITVECTOR_CONCAT:

    out << smtKindString(k, d_variant) << " ";

    forceBinary = true;

  break;

  case kind::BITVECTOR_EXTRACT:

    toStream(out, n.getOperator(), toDepth, nullptr);

    out << ' ';

    stillNeedToPrintParams = false;

    break;

  case kind::SINGLETON:

    out << smtKindString(k, d_variant) << " ";

    TypeNode elemType = n.getType().getSetElementType();

    toStreamCastToType(

    out << ")";

    return;

  case kind::MK_BAG:

    out << smtKindString(k, d_variant) << " ";

    TypeNode elemType = n.getType().getBagElementType();

    toStreamCastToType(

    out << " " << n[1] << ")";

    return;

  case kind::FLOATINGPOINT_TO_FP_IEEE_BITVECTOR:

    out << n.getOperator() << ' ';

    stillNeedToPrintParams = false;

    break;

  case kind::APPLY_CONSTRUCTOR:

    const DType& dt = DType::datatypeOf(n.getOperator());

    if (dt.isTuple())

      stillNeedToPrintParams = false;

      out << "mkTuple" << ( dt[0].getNumArgs()==0 ? "" : " ");

    break;

  case kind::TUPLE_PROJECT:

    TupleProjectOp op = n.getOperator().getConst<TupleProjectOp>();

    if (op.getIndices().empty())

      out << "(_ tuple_project" << op << ") " << n[0] << ")";

    return;

  case kind::CONSTRUCTOR_TYPE:

    out << n[n.getNumChildren()-1];

    return;

  case kind::APPLY_SELECTOR_TOTAL:

  case kind::PARAMETRIC_DATATYPE: break;

  case kind::SEP_NIL:

    out << "(as sep.nil " << n.getType() << ")";

    break;

  case kind::FORALL:

    out << smtKindString(k, d_variant) << " ";

    toStream(out, n[0], toDepth, nullptr);

    out << " ";

    std::stringstream annot;

    if (n.getNumChildren() == 3)

      annot << " ";

      for (const Node& nc : n[2])

        if (nc.getKind() == kind::INST_PATTERN)

        else if (nc.getKind() == kind::INST_NO_PATTERN)

    size_t dag = lbind == nullptr ? 0 : lbind->getThreshold()-1;

    toStream(out, n[1], toDepth - 1, dag);

    out << annot.str() << ")";

    return;

  case kind::BOUND_VAR_LIST:

    for (TNode::iterator i = n.begin(), iend = n.end(); i != iend;)

      out << '(';

      toStream(out, *i, toDepth < 0 ? toDepth : toDepth - 1);

      out << ' ';

      out << (*i).getType();

      out << ')';

      if (++i != iend)

        out << ' ';

    out << ')';

    return;

  default:

    out << smtKindString(k, d_variant) << " ";

    break;

  if( n.getMetaKind() == kind::metakind::PARAMETERIZED &&

    if(toDepth != 0) {

      toStream(

          out, n.getOperator(), toDepth < 0 ? toDepth : toDepth - 1, lbind);

    if(n.getNumChildren() > 0) {

      out << ' ';

  stringstream parens;

  for(size_t i = 0, c = 1; i < n.getNumChildren(); ) {

    if(toDepth != 0) {

      toStream(out, n[i], toDepth < 0 ? toDepth : toDepth - c, lbind);

    if(++i < n.getNumChildren()) {

      if(forceBinary && i < n.getNumChildren() - 1) {

        out << ' ';

  if (n.getNumChildren() != 0)

    out << parens.str() << ')';

void Smt2Printer::toStreamCastToType(std::ostream& out,

  Node nasc;

  if (n.getType().isInteger() && !tn.isInteger())

    Assert(tn.isReal());

    nasc = NodeManager::currentNM()->mkNode(kind::CAST_TO_REAL, n);

    nasc = n;

  toStream(out, nasc, toDepth);

}

std::string Smt2Printer::smtKindString(Kind k, Variant v)

  switch(k) {

  case kind::EQUAL: return "=";

  case kind::DISTINCT: return "distinct";

  case kind::NOT: return "not";

  case kind::AND: return "and";

  case kind::IMPLIES: return "=>";

  case kind::OR: return "or";

  case kind::XOR: return "xor";

  case kind::ITE: return "ite";

  case kind::LAMBDA: return "lambda";

  case kind::WITNESS: return "witness";

  case kind::PLUS: return "+";

  case kind::MULT:

  case kind::NONLINEAR_MULT: return "*";

  case kind::POW2: return "POW2";

  case kind::EXPONENTIAL: return "exp";

  case kind::SINE: return "sin";

  case kind::PI: return "real.pi";

  case kind::MINUS: return "-";

  case kind::UMINUS: return "-";

  case kind::LT: return "<";

  case kind::LEQ: return "<=";

  case kind::GT: return ">";

  case kind::GEQ: return ">=";

  case kind::DIVISION:

  case kind::DIVISION_TOTAL: return "/";

  case kind::INTS_DIVISION_TOTAL:

  case kind::INTS_DIVISION: return "div";

  case kind::INTS_MODULUS_TOTAL:

  case kind::INTS_MODULUS: return "mod";

  case kind::SELECT: return "select";

  case kind::ARRAY_TYPE: return "Array";

  case kind::BITVECTOR_AND: return "bvand";

  case kind::BITVECTOR_OR: return "bvor";

  case kind::BITVECTOR_NOT: return "bvnot";

  case kind::BITVECTOR_MULT: return "bvmul";

  case kind::BITVECTOR_ADD: return "bvadd";

  case kind::BITVECTOR_NEG: return "bvneg";

  case kind::BITVECTOR_SHL: return "bvshl";

  case kind::BITVECTOR_LSHR: return "bvlshr";

  case kind::BITVECTOR_ULT: return "bvult";

  case kind::SET_TYPE: return "Set";

  case kind::SINGLETON: return "singleton";

  case kind::CARD: return "card";

  case kind::BAG_TYPE: return "Bag";

  case kind::BAG_COUNT: return "bag.count";

  case kind::DUPLICATE_REMOVAL: return "duplicate_removal";

  case kind::MK_BAG: return "bag";

  case kind::FLOATINGPOINT_ABS: return "fp.abs";

  case kind::FLOATINGPOINT_NEG: return "fp.neg";

  case kind::FLOATINGPOINT_ADD: return "fp.add";

  case kind::FLOATINGPOINT_SUB: return "fp.sub";

  case kind::FLOATINGPOINT_MULT: return "fp.mul";

  case kind::FLOATINGPOINT_DIV: return "fp.div";

  case kind::FLOATINGPOINT_SQRT: return "fp.sqrt";

  case kind::FLOATINGPOINT_REM: return "fp.rem";

  case kind::FLOATINGPOINT_ISN: return "fp.isNormal";

  case kind::FLOATINGPOINT_ISSN: return "fp.isSubnormal";

  case kind::FLOATINGPOINT_ISZ: return "fp.isZero";

  case kind::FLOATINGPOINT_ISNAN: return "fp.isNaN";

  case kind::FLOATINGPOINT_ISNEG: return "fp.isNegative";

  case kind::FLOATINGPOINT_ISPOS: return "fp.isPositive";