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authorPeter Collingbourne <pcc@google.com>2014-03-09 01:15:38 -0800
committerPeter Collingbourne <pcc@google.com>2014-03-09 01:22:43 -0800
commit2ea7722ac9b43857358dc12493d7bd9de16e313b (patch)
tree8f11080c24b78167e6ebcb24dd662e019b450614 /lib/Expr/ExprSMTLIBPrinter.cpp
parent2f9c04b09ac8dd81c85f46d3fd89903aafed7370 (diff)
downloadklee-2ea7722ac9b43857358dc12493d7bd9de16e313b.tar.gz
Use clang-format to reformat SMT-LIB printer in LLVM style.
Diffstat (limited to 'lib/Expr/ExprSMTLIBPrinter.cpp')
-rw-r--r--lib/Expr/ExprSMTLIBPrinter.cpp1699
1 files changed, 836 insertions, 863 deletions
diff --git a/lib/Expr/ExprSMTLIBPrinter.cpp b/lib/Expr/ExprSMTLIBPrinter.cpp
index 9e97a4e0..812c1e9a 100644
--- a/lib/Expr/ExprSMTLIBPrinter.cpp
+++ b/lib/Expr/ExprSMTLIBPrinter.cpp
@@ -1,4 +1,5 @@
-//===-- ExprSMTLIBPrinter.cpp ------------------------------------------*- C++ -*-===//
+//===-- ExprSMTLIBPrinter.cpp ------------------------------------------*- C++
+//-*-===//
 //
 //                     The KLEE Symbolic Virtual Machine
 //
@@ -14,893 +15,865 @@
 
 using namespace std;
 
-namespace ExprSMTLIBOptions
-{
-	//Command line options
-	llvm::cl::opt<klee::ExprSMTLIBPrinter::ConstantDisplayMode> argConstantDisplayMode
-	("smtlib-display-constants", llvm::cl::desc("Sets how bitvector constants are written in generated SMT-LIBv2 files (default=dec)"),
-	llvm::cl::values( clEnumValN(klee::ExprSMTLIBPrinter::BINARY, "bin","Use binary form (e.g. #b00101101)"),
-					  clEnumValN(klee::ExprSMTLIBPrinter::HEX, "hex","Use Hexadecimal form (e.g. #x2D)"),
-					  clEnumValN(klee::ExprSMTLIBPrinter::DECIMAL, "dec","Use decimal form (e.g. (_ bv45 8) )"),
-					  clEnumValEnd
-					),
-					llvm::cl::init(klee::ExprSMTLIBPrinter::DECIMAL)
+namespace ExprSMTLIBOptions {
+// Command line options
+llvm::cl::opt<klee::ExprSMTLIBPrinter::ConstantDisplayMode>
+argConstantDisplayMode(
+    "smtlib-display-constants",
+    llvm::cl::desc("Sets how bitvector constants are written in generated "
+                   "SMT-LIBv2 files (default=dec)"),
+    llvm::cl::values(clEnumValN(klee::ExprSMTLIBPrinter::BINARY, "bin",
+                                "Use binary form (e.g. #b00101101)"),
+                     clEnumValN(klee::ExprSMTLIBPrinter::HEX, "hex",
+                                "Use Hexadecimal form (e.g. #x2D)"),
+                     clEnumValN(klee::ExprSMTLIBPrinter::DECIMAL, "dec",
+                                "Use decimal form (e.g. (_ bv45 8) )"),
+                     clEnumValEnd),
+    llvm::cl::init(klee::ExprSMTLIBPrinter::DECIMAL));
+
+llvm::cl::opt<bool> humanReadableSMTLIB(
+    "smtlib-human-readable",
+    llvm::cl::desc(
+        "Enables generated SMT-LIBv2 files to be human readable (default=off)"),
+    llvm::cl::init(false));
+}
+
+namespace klee {
+
+ExprSMTLIBPrinter::ExprSMTLIBPrinter()
+    : usedArrays(), o(NULL), query(NULL), p(NULL), haveConstantArray(false),
+      logicToUse(QF_AUFBV),
+      humanReadable(ExprSMTLIBOptions::humanReadableSMTLIB),
+      smtlibBoolOptions(), arraysToCallGetValueOn(NULL) {
+  setConstantDisplayMode(ExprSMTLIBOptions::argConstantDisplayMode);
+}
+
+ExprSMTLIBPrinter::~ExprSMTLIBPrinter() {
+  if (p != NULL)
+    delete p;
+}
+
+void ExprSMTLIBPrinter::setOutput(std::ostream &output) {
+  o = &output;
+  if (p != NULL)
+    delete p;
+
+  p = new PrintContext(output);
+}
+
+void ExprSMTLIBPrinter::setQuery(const Query &q) {
+  query = &q;
+  reset(); // clear the data structures
+  scanAll();
+  negateQueryExpression();
+}
+
+void ExprSMTLIBPrinter::reset() {
+  usedArrays.clear();
+  haveConstantArray = false;
+
+  /* Clear the PRODUCE_MODELS option if it was automatically set.
+   * We need to do this because the next query might not need the
+   * (get-value) SMT-LIBv2 command.
+   */
+  if (arraysToCallGetValueOn != NULL)
+    setSMTLIBboolOption(PRODUCE_MODELS, OPTION_DEFAULT);
+
+  arraysToCallGetValueOn = NULL;
+}
+
+bool ExprSMTLIBPrinter::isHumanReadable() { return humanReadable; }
+
+bool ExprSMTLIBPrinter::setConstantDisplayMode(ConstantDisplayMode cdm) {
+  if (cdm > DECIMAL)
+    return false;
+
+  this->cdm = cdm;
+  return true;
+}
+
+void ExprSMTLIBPrinter::printConstant(const ref<ConstantExpr> &e) {
+  /* Handle simple boolean constants */
+
+  if (e->isTrue()) {
+    *p << "true";
+    return;
+  }
+
+  if (e->isFalse()) {
+    *p << "false";
+    return;
+  }
+
+  /* Handle bitvector constants */
+
+  std::string value;
+
+  /* SMTLIBv2 deduces the bit-width (should be 8-bits in our case)
+   * from the length of the string (e.g. zero is #b00000000). LLVM
+   * doesn't know about this so we need to pad the printed output
+   * with the appropriate number of zeros (zeroPad)
+   */
+  unsigned int zeroPad = 0;
+
+  switch (cdm) {
+  case BINARY:
+    e->toString(value, 2);
+    *p << "#b";
+
+    zeroPad = e->getWidth() - value.length();
+
+    for (unsigned int count = 0; count < zeroPad; count++)
+      *p << "0";
+
+    *p << value;
+    break;
+
+  case HEX:
+    e->toString(value, 16);
+    *p << "#x";
+
+    zeroPad = (e->getWidth() / 4) - value.length();
+    for (unsigned int count = 0; count < zeroPad; count++)
+      *p << "0";
+
+    *p << value;
+    break;
+
+  case DECIMAL:
+    e->toString(value, 10);
+    *p << "(_ bv" << value << " " << e->getWidth() << ")";
+    break;
+
+  default:
+    std::cerr << "ExprSMTLIBPrinter::printConstant() : Unexpected Constant "
+                 "display mode" << std::endl;
+  }
+}
+
+void ExprSMTLIBPrinter::printExpression(
+    const ref<Expr> &e, ExprSMTLIBPrinter::SMTLIB_SORT expectedSort) {
+  // check if casting might be necessary
+  if (getSort(e) != expectedSort) {
+    printCastToSort(e, expectedSort);
+    return;
+  }
+
+  switch (e->getKind()) {
+  case Expr::Constant:
+    printConstant(cast<ConstantExpr>(e));
+    return; // base case
+
+  case Expr::NotOptimized:
+    // skip to child
+    printExpression(e->getKid(0), expectedSort);
+    return;
+
+  case Expr::Read:
+    printReadExpr(cast<ReadExpr>(e));
+    return;
+
+  case Expr::Extract:
+    printExtractExpr(cast<ExtractExpr>(e));
+    return;
+
+  case Expr::SExt:
+  case Expr::ZExt:
+    printCastExpr(cast<CastExpr>(e));
+    return;
+
+  case Expr::Ne:
+    printNotEqualExpr(cast<NeExpr>(e));
+    return;
+
+  case Expr::Select:
+    // the if-then-else expression.
+    printSelectExpr(cast<SelectExpr>(e), expectedSort);
+    return;
+
+  case Expr::Eq:
+    /* The "=" operator is special in that it can take any sort but we must
+     * enforce that both arguments are the same type. We do this a lazy way
+     * by enforcing the second argument is of the same type as the first.
+     */
+    printSortArgsExpr(e, getSort(e->getKid(0)));
+
+    return;
+
+  case Expr::And:
+  case Expr::Or:
+  case Expr::Xor:
+  case Expr::Not:
+    /* These operators have a bitvector version and a bool version.
+     * For these operators only (e.g. wouldn't apply to bvult) if the expected
+     * sort the
+     * expression is T then that implies the arguments are also of type T.
+     */
+    printLogicalOrBitVectorExpr(e, expectedSort);
+
+    return;
+
+  default:
+    /* The remaining operators (Add,Sub...,Ult,Ule,..)
+     * Expect SORT_BITVECTOR arguments
+     */
+    printSortArgsExpr(e, SORT_BITVECTOR);
+    return;
+  }
+}
+
+void ExprSMTLIBPrinter::printReadExpr(const ref<ReadExpr> &e) {
+  *p << "(" << getSMTLIBKeyword(e) << " ";
+  p->pushIndent();
+
+  printSeperator();
+
+  // print array with updates recursively
+  printUpdatesAndArray(e->updates.head, e->updates.root);
+
+  // print index
+  printSeperator();
+  printExpression(e->index, SORT_BITVECTOR);
+
+  p->popIndent();
+  printSeperator();
+  *p << ")";
+}
+
+void ExprSMTLIBPrinter::printExtractExpr(const ref<ExtractExpr> &e) {
+  unsigned int lowIndex = e->offset;
+  unsigned int highIndex = lowIndex + e->width - 1;
+
+  *p << "((_ " << getSMTLIBKeyword(e) << " " << highIndex << "  " << lowIndex
+     << ") ";
+
+  p->pushIndent(); // add indent for recursive call
+  printSeperator();
+
+  // recurse
+  printExpression(e->getKid(0), SORT_BITVECTOR);
+
+  p->popIndent(); // pop indent added for the recursive call
+  printSeperator();
+  *p << ")";
+}
+
+void ExprSMTLIBPrinter::printCastExpr(const ref<CastExpr> &e) {
+  /* sign_extend and zero_extend behave slightly unusually in SMTLIBv2
+   * instead of specifying of what bit-width we would like to extend to
+   * we specify how many bits to add to the child expression
+   *
+   * e.g
+   * ((_ sign_extend 64) (_ bv5 32))
+   *
+   * gives a (_ BitVec 96) instead of (_ BitVec 64)
+   *
+   * So we must work out how many bits we need to add.
+   *
+   * (e->width) is the desired number of bits
+   * (e->src->getWidth()) is the number of bits in the child
+   */
+  unsigned int numExtraBits = (e->width) - (e->src->getWidth());
+
+  *p << "((_ " << getSMTLIBKeyword(e) << " " << numExtraBits << ") ";
+
+  p->pushIndent(); // add indent for recursive call
+  printSeperator();
+
+  // recurse
+  printExpression(e->src, SORT_BITVECTOR);
+
+  p->popIndent(); // pop indent added for recursive call
+  printSeperator();
+
+  *p << ")";
+}
+
+void ExprSMTLIBPrinter::printNotEqualExpr(const ref<NeExpr> &e) {
+  *p << "(not (";
+  p->pushIndent();
+  *p << "="
+     << " ";
+  p->pushIndent();
+  printSeperator();
+
+  /* The "=" operators allows both sorts. We assume
+   * that the second argument sort should be forced to be the same sort as the
+   * first argument
+   */
+  SMTLIB_SORT s = getSort(e->getKid(0));
+
+  printExpression(e->getKid(0), s);
+  printSeperator();
+  printExpression(e->getKid(1), s);
+  p->popIndent();
+  printSeperator();
+
+  *p << ")";
+  p->popIndent();
+  printSeperator();
+  *p << ")";
+}
+
+const char *ExprSMTLIBPrinter::getSMTLIBKeyword(const ref<Expr> &e) {
+
+  switch (e->getKind()) {
+  case Expr::Read:
+    return "select";
+  case Expr::Select:
+    return "ite";
+  case Expr::Concat:
+    return "concat";
+  case Expr::Extract:
+    return "extract";
+  case Expr::ZExt:
+    return "zero_extend";
+  case Expr::SExt:
+    return "sign_extend";
+
+  case Expr::Add:
+    return "bvadd";
+  case Expr::Sub:
+    return "bvsub";
+  case Expr::Mul:
+    return "bvmul";
+  case Expr::UDiv:
+    return "bvudiv";
+  case Expr::SDiv:
+    return "bvsdiv";
+  case Expr::URem:
+    return "bvurem";
+  case Expr::SRem:
+    return "bvsrem";
+
+  /* And, Xor, Not and Or are not handled here because there different versions
+   * for different sorts. See printLogicalOrBitVectorExpr()
+   */
+
+  case Expr::Shl:
+    return "bvshl";
+  case Expr::LShr:
+    return "bvlshr";
+  case Expr::AShr:
+    return "bvashr";
+
+  case Expr::Eq:
+    return "=";
+
+  // Not Equal does not exist directly in SMTLIBv2
+
+  case Expr::Ult:
+    return "bvult";
+  case Expr::Ule:
+    return "bvule";
+  case Expr::Ugt:
+    return "bvugt";
+  case Expr::Uge:
+    return "bvuge";
+
+  case Expr::Slt:
+    return "bvslt";
+  case Expr::Sle:
+    return "bvsle";
+  case Expr::Sgt:
+    return "bvsgt";
+  case Expr::Sge:
+    return "bvsge";
+
+  default:
+    return "<error>";
+  }
+}
+
+void ExprSMTLIBPrinter::printUpdatesAndArray(const UpdateNode *un,
+                                             const Array *root) {
+  if (un != NULL) {
+    *p << "(store ";
+    p->pushIndent();
+    printSeperator();
+
+    // recurse to get the array or update that this store operations applies to
+    printUpdatesAndArray(un->next, root);
+
+    printSeperator();
+
+    // print index
+    printExpression(un->index, SORT_BITVECTOR);
+    printSeperator();
+
+    // print value that is assigned to this index of the array
+    printExpression(un->value, SORT_BITVECTOR);
+
+    p->popIndent();
+    printSeperator();
+    *p << ")";
+  } else {
+    // The base case of the recursion
+    *p << root->name;
+  }
+}
+
+void ExprSMTLIBPrinter::scanAll() {
+  // perform scan of all expressions
+  for (ConstraintManager::const_iterator i = query->constraints.begin();
+       i != query->constraints.end(); i++)
+    scan(*i);
+
+  // Scan the query too
+  scan(query->expr);
+}
+
+void ExprSMTLIBPrinter::generateOutput() {
+  if (p == NULL || query == NULL || o == NULL) {
+    std::cerr << "ExprSMTLIBPrinter::generateOutput() Can't print SMTLIBv2. "
+                 "Output or query bad!" << std::endl;
+    return;
+  }
+
+  if (humanReadable)
+    printNotice();
+  printOptions();
+  printSetLogic();
+  printArrayDeclarations();
+  printConstraints();
+  printQuery();
+  printAction();
+  printExit();
+}
+
+void ExprSMTLIBPrinter::printSetLogic() {
+  *o << "(set-logic ";
+  switch (logicToUse) {
+  case QF_ABV:
+    *o << "QF_ABV";
+    break;
+  case QF_AUFBV:
+    *o << "QF_AUFBV";
+    break;
+  }
+  *o << " )" << std::endl;
+}
+
+void ExprSMTLIBPrinter::printArrayDeclarations() {
+  // Assume scan() has been called
+  if (humanReadable)
+    *o << "; Array declarations" << endl;
+
+  // declare arrays
+  for (set<const Array *>::iterator it = usedArrays.begin();
+       it != usedArrays.end(); it++) {
+    *o << "(declare-fun " << (*it)->name << " () "
+                                            "(Array (_ BitVec "
+       << (*it)->getDomain() << ") "
+                                "(_ BitVec " << (*it)->getRange() << ") ) )"
+       << endl;
+  }
+
+  // Set array values for constant values
+  if (haveConstantArray) {
+    if (humanReadable)
+      *o << "; Constant Array Definitions" << endl;
+
+    const Array *array;
+
+    // loop over found arrays
+    for (set<const Array *>::iterator it = usedArrays.begin();
+         it != usedArrays.end(); it++) {
+      array = *it;
+      int byteIndex = 0;
+      if (array->isConstantArray()) {
+        /*loop over elements in the array and generate an assert statement
+          for each one
+         */
+        for (vector<ref<ConstantExpr> >::const_iterator
+                 ce = array->constantValues.begin();
+             ce != array->constantValues.end(); ce++, byteIndex++) {
+          *p << "(assert (";
+          p->pushIndent();
+          *p << "= ";
+          p->pushIndent();
+          printSeperator();
+
+          *p << "(select " << array->name << " (_ bv" << byteIndex << " "
+             << array->getDomain() << ") )";
+          printSeperator();
+          printConstant((*ce));
+
+          p->popIndent();
+          printSeperator();
+          *p << ")";
+          p->popIndent();
+          printSeperator();
+          *p << ")";
+
+          p->breakLineI();
+        }
+      }
+    }
+  }
+}
+
+void ExprSMTLIBPrinter::printConstraints() {
+  if (humanReadable)
+    *o << "; Constraints" << endl;
+
+  // Generate assert statements for each constraint
+  for (ConstraintManager::const_iterator i = query->constraints.begin();
+       i != query->constraints.end(); i++) {
+    *p << "(assert ";
+    p->pushIndent();
+    printSeperator();
+
+    // recurse into Expression
+    printExpression(*i, SORT_BOOL);
+
+    p->popIndent();
+    printSeperator();
+    *p << ")";
+    p->breakLineI();
+  }
+}
+
+void ExprSMTLIBPrinter::printAction() {
+  // Ask solver to check for satisfiability
+  *o << "(check-sat)" << endl;
+
+  /* If we has arrays to find the values of then we'll
+   * ask the solver for the value of each bitvector in each array
+   */
+  if (arraysToCallGetValueOn != NULL && !arraysToCallGetValueOn->empty()) {
+
+    const Array *theArray = 0;
+
+    // loop over the array names
+    for (vector<const Array *>::const_iterator it =
+             arraysToCallGetValueOn->begin();
+         it != arraysToCallGetValueOn->end(); it++) {
+      theArray = *it;
+      // Loop over the array indices
+      for (unsigned int index = 0; index < theArray->size; ++index) {
+        *o << "(get-value ( (select " << (**it).name << " (_ bv" << index << " "
+           << theArray->getDomain() << ") ) ) )" << endl;
+      }
+    }
+  }
+}
 
+void ExprSMTLIBPrinter::scan(const ref<Expr> &e) {
+  if (e.isNull()) {
+    std::cerr << "ExprSMTLIBPrinter::scan() : Found NULL expression!"
+              << std::endl;
+    return;
+  }
 
-	);
+  if (isa<ConstantExpr>(e))
+    return; // we don't need to scan simple constants
 
-	llvm::cl::opt<bool> humanReadableSMTLIB("smtlib-human-readable",
-				llvm::cl::desc("Enables generated SMT-LIBv2 files to be human readable (default=off)"),
-				llvm::cl::init(false)
+  if (const ReadExpr *re = dyn_cast<ReadExpr>(e)) {
 
+    // Attempt to insert array and if array wasn't present before do more things
+    if (usedArrays.insert(re->updates.root).second) {
 
-	);
+      // check if the array is constant
+      if (re->updates.root->isConstantArray())
+        haveConstantArray = true;
 
+      // scan the update list
+      scanUpdates(re->updates.head);
+    }
+  }
+
+  // recurse into the children
+  Expr *ep = e.get();
+  for (unsigned int i = 0; i < ep->getNumKids(); i++)
+    scan(ep->getKid(i));
 }
 
+void ExprSMTLIBPrinter::scanUpdates(const UpdateNode *un) {
+  while (un != NULL) {
+    scan(un->index);
+    scan(un->value);
+    un = un->next;
+  }
+}
 
-namespace klee
-{
+void ExprSMTLIBPrinter::printExit() { *o << "(exit)" << endl; }
 
-	ExprSMTLIBPrinter::ExprSMTLIBPrinter() :
-		usedArrays(), o(NULL), query(NULL), p(NULL), haveConstantArray(false), logicToUse(QF_AUFBV),
-		humanReadable(ExprSMTLIBOptions::humanReadableSMTLIB), smtlibBoolOptions(), arraysToCallGetValueOn(NULL)
-	{
-		setConstantDisplayMode(ExprSMTLIBOptions::argConstantDisplayMode);
-	}
+bool ExprSMTLIBPrinter::setLogic(SMTLIBv2Logic l) {
+  if (l > QF_AUFBV)
+    return false;
 
-	ExprSMTLIBPrinter::~ExprSMTLIBPrinter()
-	{
-		if(p!=NULL)
-			delete p;
-	}
+  logicToUse = l;
+  return true;
+}
 
-	void ExprSMTLIBPrinter::setOutput(std::ostream& output)
-	{
-		o = &output;
-		if(p!=NULL)
-			delete p;
+void ExprSMTLIBPrinter::printSeperator() {
+  if (humanReadable)
+    p->breakLineI();
+  else
+    p->write(" ");
+}
 
-		p = new PrintContext(output);
-	}
+void ExprSMTLIBPrinter::printNotice() {
+  *o << "; This file conforms to SMTLIBv2 and was generated by KLEE" << endl;
+}
+
+void ExprSMTLIBPrinter::setHumanReadable(bool hr) { humanReadable = hr; }
 
-	void ExprSMTLIBPrinter::setQuery(const Query& q)
-	{
-		query = &q;
-		reset(); // clear the data structures
-		scanAll();
-		negateQueryExpression();
-	}
+void ExprSMTLIBPrinter::printOptions() {
+  // Print out SMTLIBv2 boolean options
+  for (std::map<SMTLIBboolOptions, bool>::const_iterator i =
+           smtlibBoolOptions.begin();
+       i != smtlibBoolOptions.end(); i++) {
+    *o << "(set-option :" << getSMTLIBOptionString(i->first) << " "
+       << ((i->second) ? "true" : "false") << ")" << endl;
+  }
+}
 
-	void ExprSMTLIBPrinter::reset()
-	{
-		usedArrays.clear();
-		haveConstantArray=false;
+void ExprSMTLIBPrinter::printQuery() {
+  if (humanReadable) {
+    *p << "; Query from solver turned into an assert";
+    p->breakLineI();
+  }
 
-		/* Clear the PRODUCE_MODELS option if it was automatically set.
-		 * We need to do this because the next query might not need the
-		 * (get-value) SMT-LIBv2 command.
-		 */
-		if(arraysToCallGetValueOn !=NULL)
-			setSMTLIBboolOption(PRODUCE_MODELS,OPTION_DEFAULT);
+  p->pushIndent();
+  *p << "(assert";
+  p->pushIndent();
+  printSeperator();
 
-		arraysToCallGetValueOn=NULL;
+  printExpression(queryAssert, SORT_BOOL);
+
+  p->popIndent();
+  printSeperator();
+  *p << ")";
+  p->popIndent();
+  p->breakLineI();
+}
+
+ExprSMTLIBPrinter::SMTLIB_SORT ExprSMTLIBPrinter::getSort(const ref<Expr> &e) {
+  /* We could handle every operator in a large switch statement,
+   * but this seems more elegant.
+   */
+
+  if (e->getKind() == Expr::Extract) {
+    /* This is a special corner case. In most cases if a node in the expression
+     * tree
+     * is of width 1 it should be considered as SORT_BOOL. However it is
+     * possible to
+     * perform an extract operation on a SORT_BITVECTOR and produce a
+     * SORT_BITVECTOR of length 1.
+     * The ((_ extract i j) () ) operation in SMTLIBv2 always produces
+     * SORT_BITVECTOR
+     */
+    return SORT_BITVECTOR;
+  } else
+    return (e->getWidth() == Expr::Bool) ? (SORT_BOOL) : (SORT_BITVECTOR);
+}
+
+void ExprSMTLIBPrinter::printCastToSort(const ref<Expr> &e,
+                                        ExprSMTLIBPrinter::SMTLIB_SORT sort) {
+  switch (sort) {
+  case SORT_BITVECTOR:
+    if (humanReadable) {
+      p->breakLineI();
+      *p << ";Performing implicit bool to bitvector cast";
+      p->breakLine();
+    }
+    // We assume the e is a bool that we need to cast to a bitvector sort.
+    *p << "(ite";
+    p->pushIndent();
+    printSeperator();
+    printExpression(e, SORT_BOOL);
+    printSeperator();
+    *p << "(_ bv1 1)";
+    printSeperator(); // printing the "true" bitvector
+    *p << "(_ bv0 1)";
+    p->popIndent();
+    printSeperator(); // printing the "false" bitvector
+    *p << ")";
+    break;
+  case SORT_BOOL: {
+    /* We make the assumption (might be wrong) that any bitvector whos unsigned
+     *decimal value is
+     * is zero is interpreted as "false", otherwise it is true.
+     *
+     * This may not be the interpretation we actually want!
+     */
+    Expr::Width bitWidth = e->getWidth();
+    if (humanReadable) {
+      p->breakLineI();
+      *p << ";Performing implicit bitvector to bool cast";
+      p->breakLine();
+    }
+    *p << "(bvugt";
+    p->pushIndent();
+    printSeperator();
+    // We assume is e is a bitvector
+    printExpression(e, SORT_BITVECTOR);
+    printSeperator();
+    *p << "(_ bv0 " << bitWidth << ")";
+    p->popIndent();
+    printSeperator(); // Zero bitvector of required width
+    *p << ")";
+
+    if (bitWidth != Expr::Bool)
+      std::cerr << "ExprSMTLIBPrinter : Warning. Casting a bitvector (length "
+                << bitWidth << ") to bool!" << std::endl;
+
+  } break;
+  default:
+    assert(0 && "Unsupported cast!");
+  }
+}
 
+void ExprSMTLIBPrinter::printSelectExpr(const ref<SelectExpr> &e,
+                                        ExprSMTLIBPrinter::SMTLIB_SORT s) {
+  // This is the if-then-else expression
 
-	}
-
-	bool ExprSMTLIBPrinter::isHumanReadable()
-	{
-		return humanReadable;
-	}
+  *p << "(" << getSMTLIBKeyword(e) << " ";
+  p->pushIndent(); // add indent for recursive call
 
-	bool ExprSMTLIBPrinter::setConstantDisplayMode(ConstantDisplayMode cdm)
-	{
-		if(cdm > DECIMAL)
-			return false;
+  // The condition
+  printSeperator();
+  printExpression(e->getKid(0), SORT_BOOL);
 
-		this->cdm = cdm;
-		return true;
-	}
+  /* This operator is special in that the remaining children
+   * can be of any sort.
+   */
 
-	void ExprSMTLIBPrinter::printConstant(const ref<ConstantExpr>& e)
-	{
-		/* Handle simple boolean constants */
-
-		if(e->isTrue())
-		{
-			*p << "true";
-			return;
-		}
-
-		if(e->isFalse())
-		{
-			*p << "false";
-			return;
-		}
-
-		/* Handle bitvector constants */
-
-		std::string value;
-
-		/* SMTLIBv2 deduces the bit-width (should be 8-bits in our case)
-		 * from the length of the string (e.g. zero is #b00000000). LLVM
-		 * doesn't know about this so we need to pad the printed output
-		 * with the appropriate number of zeros (zeroPad)
-		 */
-		unsigned int zeroPad=0;
-
-		switch(cdm)
-		{
-			case BINARY:
-				e->toString(value,2);
-				*p << "#b";
-
-				zeroPad = e->getWidth() - value.length();
-
-				for(unsigned int count=0; count < zeroPad; count++)
-					*p << "0";
-
-				*p << value ;
-				break;
-
-			case HEX:
-				e->toString(value,16);
-				*p << "#x";
-
-				zeroPad =  (e->getWidth() / 4) - value.length();
-				for(unsigned int count=0; count < zeroPad; count++)
-					*p << "0";
-
-				*p << value ;
-				break;
-
-			case DECIMAL:
-				e->toString(value,10);
-				*p << "(_ bv" << value<< " " << e->getWidth() << ")";
-				break;
-
-			default:
-				std::cerr << "ExprSMTLIBPrinter::printConstant() : Unexpected Constant display mode" << std::endl;
-		}
-	}
-
-	void ExprSMTLIBPrinter::printExpression(const ref<Expr>& e, ExprSMTLIBPrinter::SMTLIB_SORT expectedSort)
-	{
-		//check if casting might be necessary
-		if(getSort(e) != expectedSort)
-		{
-			printCastToSort(e,expectedSort);
-			return;
-		}
-
-
-		switch(e->getKind())
-		{
-			case Expr::Constant:
-				printConstant(cast<ConstantExpr>(e));
-				return; //base case
-
-			case Expr::NotOptimized:
-				//skip to child
-				printExpression(e->getKid(0),expectedSort);
-				return;
-
-			case Expr::Read:
-				printReadExpr(cast<ReadExpr>(e));
-				return;
-
-			case Expr::Extract:
-				printExtractExpr(cast<ExtractExpr>(e));
-				return;
-
-			case Expr::SExt:
-			case Expr::ZExt:
-				printCastExpr(cast<CastExpr>(e));
-				return;
-
-			case Expr::Ne:
-				printNotEqualExpr(cast<NeExpr>(e));
-				return;
-
-			case Expr::Select:
-				//the if-then-else expression.
-				printSelectExpr(cast<SelectExpr>(e),expectedSort);
-				return;
-
-			case Expr::Eq:
-				/* The "=" operator is special in that it can take any sort but we must
-				 * enforce that both arguments are the same type. We do this a lazy way
-				 * by enforcing the second argument is of the same type as the first.
-				 */
-				printSortArgsExpr(e,getSort(e->getKid(0)));
-
-				return;
-
-			case Expr::And:
-			case Expr::Or:
-			case Expr::Xor:
-			case Expr::Not:
-				/* These operators have a bitvector version and a bool version.
-				 * For these operators only (e.g. wouldn't apply to bvult) if the expected sort the
-				 * expression is T then that implies the arguments are also of type T.
-				 */
-				printLogicalOrBitVectorExpr(e,expectedSort);
-
-				return;
-
-
-			default:
-				/* The remaining operators (Add,Sub...,Ult,Ule,..)
-				 * Expect SORT_BITVECTOR arguments
-				 */
-				printSortArgsExpr(e,SORT_BITVECTOR);
-				return;
-		}
-	}
-
-	void ExprSMTLIBPrinter::printReadExpr(const ref<ReadExpr>& e)
-	{
-		*p << "(" << getSMTLIBKeyword(e) << " ";
-		p->pushIndent();
-
-		printSeperator();
-
-		//print array with updates recursively
-		printUpdatesAndArray(e->updates.head,e->updates.root);
-
-		//print index
-		printSeperator();
-		printExpression(e->index,SORT_BITVECTOR);
-
-		p->popIndent();
-		printSeperator();
-		*p << ")";
-	}
-
-	void ExprSMTLIBPrinter::printExtractExpr(const ref<ExtractExpr>& e)
-	{
-		unsigned int lowIndex= e->offset;
-		unsigned int highIndex= lowIndex + e->width -1;
-
-		*p << "((_ " << getSMTLIBKeyword(e) << " " << highIndex << "  " << lowIndex << ") ";
-
-		p->pushIndent(); //add indent for recursive call
-		printSeperator();
-
-		//recurse
-		printExpression(e->getKid(0),SORT_BITVECTOR);
-
-		p->popIndent(); //pop indent added for the recursive call
-		printSeperator();
-		*p << ")";
-	}
-
-	void ExprSMTLIBPrinter::printCastExpr(const ref<CastExpr>& e)
-	{
-		/* sign_extend and zero_extend behave slightly unusually in SMTLIBv2
-		 * instead of specifying of what bit-width we would like to extend to
-		 * we specify how many bits to add to the child expression
-		 *
-		 * e.g
-		 * ((_ sign_extend 64) (_ bv5 32))
-		 *
-		 * gives a (_ BitVec 96) instead of (_ BitVec 64)
-		 *
-		 * So we must work out how many bits we need to add.
-		 *
-		 * (e->width) is the desired number of bits
-		 * (e->src->getWidth()) is the number of bits in the child
-		 */
-		unsigned int numExtraBits= (e->width) - (e->src->getWidth());
-
-		*p << "((_ " << getSMTLIBKeyword(e) << " " <<
-				numExtraBits << ") ";
-
-		p->pushIndent(); //add indent for recursive call
-		printSeperator();
-
-		//recurse
-		printExpression(e->src,SORT_BITVECTOR);
-
-		p->popIndent(); //pop indent added for recursive call
-		printSeperator();
-
-		*p << ")";
-	}
-
-	void ExprSMTLIBPrinter::printNotEqualExpr(const ref<NeExpr>& e)
-	{
-		*p << "(not (";
-		p->pushIndent();
-		*p << "=" << " ";
-		p->pushIndent();
-		printSeperator();
-
-		/* The "=" operators allows both sorts. We assume
-		 * that the second argument sort should be forced to be the same sort as the
-		 * first argument
-		 */
-		SMTLIB_SORT s = getSort(e->getKid(0));
-
-		printExpression(e->getKid(0),s);
-		printSeperator();
-		printExpression(e->getKid(1),s);
-		p->popIndent();
-		printSeperator();
-
-		*p << ")";
-		p->popIndent();
-		printSeperator();
-		*p << ")";
-	}
-
-
-	const char* ExprSMTLIBPrinter::getSMTLIBKeyword(const ref<Expr>& e)
-	{
-
-		switch(e->getKind())
-		{
-			case Expr::Read: return "select";
-			case Expr::Select: return "ite";
-			case Expr::Concat: return "concat";
-			case Expr::Extract: return "extract";
-			case Expr::ZExt: return "zero_extend";
-			case Expr::SExt: return "sign_extend";
-
-			case Expr::Add: return "bvadd";
-			case Expr::Sub: return "bvsub";
-			case Expr::Mul: return "bvmul";
-			case Expr::UDiv: return "bvudiv";
-			case Expr::SDiv: return "bvsdiv";
-			case Expr::URem: return "bvurem";
-			case Expr::SRem: return "bvsrem";
-
-
-			/* And, Xor, Not and Or are not handled here because there different versions
-			 * for different sorts. See printLogicalOrBitVectorExpr()
-			 */
-
-
-			case Expr::Shl: return "bvshl";
-			case Expr::LShr: return "bvlshr";
-			case Expr::AShr: return "bvashr";
-
-			case Expr::Eq: return "=";
-
-			//Not Equal does not exist directly in SMTLIBv2
-
-			case Expr::Ult: return "bvult";
-			case Expr::Ule: return "bvule";
-			case Expr::Ugt: return "bvugt";
-			case Expr::Uge: return "bvuge";
-
-			case Expr::Slt: return "bvslt";
-			case Expr::Sle: return "bvsle";
-			case Expr::Sgt: return "bvsgt";
-			case Expr::Sge: return "bvsge";
-
-			default:
-				return "<error>";
-
-		}
-	}
-
-	void ExprSMTLIBPrinter::printUpdatesAndArray(const UpdateNode* un, const Array* root)
-	{
-		if(un!=NULL)
-		{
-			*p << "(store ";
-			p->pushIndent();
-			printSeperator();
-
-			//recurse to get the array or update that this store operations applies to
-			printUpdatesAndArray(un->next,root);
-
-			printSeperator();
-
-			//print index
-			printExpression(un->index,SORT_BITVECTOR);
-			printSeperator();
-
-			//print value that is assigned to this index of the array
-			printExpression(un->value,SORT_BITVECTOR);
-
-			p->popIndent();
-			printSeperator();
-			*p << ")";
-		}
-		else
-		{
-			//The base case of the recursion
-			*p << root->name;
-		}
-
-	}
-
-	void ExprSMTLIBPrinter::scanAll()
-	{
-		//perform scan of all expressions
-		for(ConstraintManager::const_iterator i= query->constraints.begin(); i != query->constraints.end(); i++)
-			scan(*i);
-
-		//Scan the query too
-		scan(query->expr);
-	}
-
-	void ExprSMTLIBPrinter::generateOutput()
-	{
-		if(p==NULL || query == NULL || o ==NULL)
-		{
-			std::cerr << "ExprSMTLIBPrinter::generateOutput() Can't print SMTLIBv2. Output or query bad!" << std::endl;
-			return;
-		}
-
-		if(humanReadable) printNotice();
-		printOptions();
-		printSetLogic();
-		printArrayDeclarations();
-		printConstraints();
-		printQuery();
-		printAction();
-		printExit();
-	}
-
-	void ExprSMTLIBPrinter::printSetLogic()
-	{
-		*o << "(set-logic ";
-		switch(logicToUse)
-		{
-		case QF_ABV: *o << "QF_ABV"; break;
-		case QF_AUFBV: *o << "QF_AUFBV" ; break;
-		}
-		*o << " )" << std::endl;
-	}
-
-
-	void ExprSMTLIBPrinter::printArrayDeclarations()
-	{
-		//Assume scan() has been called
-		if(humanReadable)
-			*o << "; Array declarations" << endl;
-
-		//declare arrays
-		for(set<const Array*>::iterator it = usedArrays.begin(); it != usedArrays.end(); it++)
-		{
-			*o << "(declare-fun " << (*it)->name << " () "
-				 "(Array (_ BitVec " << (*it)->getDomain() << ") "
-				 "(_ BitVec " << (*it)->getRange() << ") ) )" << endl;
-		}
-
-		//Set array values for constant values
-		if(haveConstantArray)
-		{
-			if(humanReadable)
-				*o << "; Constant Array Definitions" << endl;
-
-			const Array* array;
-
-			//loop over found arrays
-			for(set<const Array*>::iterator it = usedArrays.begin(); it != usedArrays.end(); it++)
-			{
-				array= *it;
-				int byteIndex=0;
-				if(array->isConstantArray())
-				{
-					/*loop over elements in the array and generate an assert statement
-					  for each one
-					 */
-					for(vector< ref<ConstantExpr> >::const_iterator ce= array->constantValues.begin();
-							ce != array->constantValues.end(); ce++, byteIndex++)
-					{
-						*p << "(assert (";
-						p->pushIndent();
-						*p <<           "= ";
-						p->pushIndent();
-						printSeperator();
-
-						*p << "(select " << array->name << " (_ bv" << byteIndex << " " << array->getDomain() << ") )";
-						printSeperator();
-						printConstant((*ce));
-
-						p->popIndent();
-						printSeperator();
-						*p << ")";
-						p->popIndent();
-						printSeperator();
-						*p << ")";
-
-						p->breakLineI();
-
-					}
-				}
-			}
-		}
-	}
-
-	void ExprSMTLIBPrinter::printConstraints()
-	{
-		if(humanReadable)
-			*o << "; Constraints" << endl;
-
-		//Generate assert statements for each constraint
-		for(ConstraintManager::const_iterator i= query->constraints.begin(); i != query->constraints.end(); i++)
-		{
-			*p << "(assert ";
-			p->pushIndent();
-			printSeperator();
-
-			//recurse into Expression
-			printExpression(*i,SORT_BOOL);
-
-			p->popIndent();
-			printSeperator();
-			*p << ")"; p->breakLineI();
-		}
-
-	}
-
-	void ExprSMTLIBPrinter::printAction()
-	{
-		//Ask solver to check for satisfiability
-		*o << "(check-sat)" << endl;
-
-		/* If we has arrays to find the values of then we'll
-		 * ask the solver for the value of each bitvector in each array
-		 */
-		if(arraysToCallGetValueOn!=NULL && !arraysToCallGetValueOn->empty())
-		{
-
-			const Array* theArray=0;
-
-			//loop over the array names
-			for(vector<const Array*>::const_iterator it = arraysToCallGetValueOn->begin(); it != arraysToCallGetValueOn->end(); it++)
-			{
-				theArray=*it;
-				//Loop over the array indices
-				for(unsigned int index=0; index < theArray->size; ++index)
-				{
-					*o << "(get-value ( (select " << (**it).name <<
-					     " (_ bv" << index << " " << theArray->getDomain() << ") ) ) )" << endl;
-				}
-
-			}
-
-
-		}
-	}
-
-	void ExprSMTLIBPrinter::scan(const ref<Expr>& e)
-	{
-		if(e.isNull())
-		{
-			std::cerr << "ExprSMTLIBPrinter::scan() : Found NULL expression!" << std::endl;
-			return;
-		}
-
-		if(isa<ConstantExpr>(e))
-			return; //we don't need to scan simple constants
-
-		if(const ReadExpr* re = dyn_cast<ReadExpr>(e))
-		{
-
-			//Attempt to insert array and if array wasn't present before do more things
-			if(usedArrays.insert(re->updates.root).second)
-			{
-
-				//check if the array is constant
-				if( re->updates.root->isConstantArray())
-					haveConstantArray=true;
-
-				//scan the update list
-				scanUpdates(re->updates.head);
-
-			}
-
-		}
-
-		//recurse into the children
-		Expr* ep = e.get();
-		for(unsigned int i=0; i < ep->getNumKids(); i++)
-			scan(ep->getKid(i));
-	}
-
-
-	void ExprSMTLIBPrinter::scanUpdates(const UpdateNode* un)
-	{
-		while(un != NULL)
-		{
-			scan(un->index);
-			scan(un->value);
-			un= un->next;
-		}
-	}
-
-
-	void ExprSMTLIBPrinter::printExit()
-	{
-		*o << "(exit)" << endl;
-	}
-
-	bool ExprSMTLIBPrinter::setLogic(SMTLIBv2Logic l)
-	{
-		if(l > QF_AUFBV)
-			return false;
-
-		logicToUse=l;
-		return true;
-	}
-
-	void ExprSMTLIBPrinter::printSeperator()
-	{
-		if(humanReadable)
-			p->breakLineI();
-		else
-			p->write(" ");
-	}
-
-	void ExprSMTLIBPrinter::printNotice()
-	{
-		*o << "; This file conforms to SMTLIBv2 and was generated by KLEE" << endl;
-	}
-
-	void ExprSMTLIBPrinter::setHumanReadable(bool hr)
-	{
-		humanReadable=hr;
-	}
-
-	void ExprSMTLIBPrinter::printOptions()
-	{
-		//Print out SMTLIBv2 boolean options
-		for(std::map<SMTLIBboolOptions,bool>::const_iterator i= smtlibBoolOptions.begin(); i!= smtlibBoolOptions.end(); i++)
-		{
-			*o << "(set-option :" << getSMTLIBOptionString(i->first) <<
-			" " << ((i->second)?"true":"false") << ")" << endl;
-		}
-	}
-
-	void ExprSMTLIBPrinter::printQuery()
-	{
-		if(humanReadable)
-		{
-			*p << "; Query from solver turned into an assert";
-			p->breakLineI();
-		}
-
-		p->pushIndent();
-		*p << "(assert";
-		p->pushIndent();
-		printSeperator();
-
-		printExpression(queryAssert,SORT_BOOL);
-
-		p->popIndent();
-		printSeperator();
-		*p << ")";
-		p->popIndent();
-		p->breakLineI();
-	}
-
-	ExprSMTLIBPrinter::SMTLIB_SORT ExprSMTLIBPrinter::getSort(const ref<Expr>& e)
-	{
-		/* We could handle every operator in a large switch statement,
-		 * but this seems more elegant.
-		 */
-
-		if(e->getKind() == Expr::Extract)
-		{
-			/* This is a special corner case. In most cases if a node in the expression tree
-			 * is of width 1 it should be considered as SORT_BOOL. However it is possible to
-			 * perform an extract operation on a SORT_BITVECTOR and produce a SORT_BITVECTOR of length 1.
-			 * The ((_ extract i j) () ) operation in SMTLIBv2 always produces SORT_BITVECTOR
-			 */
-			return SORT_BITVECTOR;
-		}
-		else
-			return (e->getWidth() == Expr::Bool)?(SORT_BOOL):(SORT_BITVECTOR);
-	}
-
-	void ExprSMTLIBPrinter::printCastToSort(const ref<Expr>& e, ExprSMTLIBPrinter::SMTLIB_SORT sort)
-	{
-		switch(sort)
-		{
-			case SORT_BITVECTOR:
-				if(humanReadable)
-				{
-					p->breakLineI(); *p << ";Performing implicit bool to bitvector cast"; p->breakLine();
-				}
-				//We assume the e is a bool that we need to cast to a bitvector sort.
-				*p << "(ite"; p->pushIndent(); printSeperator();
-				printExpression(e,SORT_BOOL); printSeperator();
-				*p << "(_ bv1 1)" ; printSeperator(); //printing the "true" bitvector
-				*p << "(_ bv0 1)" ; p->popIndent(); printSeperator(); //printing the "false" bitvector
-				*p << ")";
-				break;
-			case SORT_BOOL:
-			{
-				/* We make the assumption (might be wrong) that any bitvector whos unsigned decimal value is
-				 * is zero is interpreted as "false", otherwise it is true.
-				 *
-				 * This may not be the interpretation we actually want!
-				 */
-				Expr::Width bitWidth=e->getWidth();
-				if(humanReadable)
-				{
-					p->breakLineI(); *p << ";Performing implicit bitvector to bool cast"; p->breakLine();
-				}
-				*p << "(bvugt"; p->pushIndent(); printSeperator();
-				// We assume is e is a bitvector
-				printExpression(e,SORT_BITVECTOR); printSeperator();
-				*p << "(_ bv0 " << bitWidth << ")"; p->popIndent(); printSeperator(); //Zero bitvector of required width
-				*p << ")";
-
-				if(bitWidth!=Expr::Bool)
-					std::cerr << "ExprSMTLIBPrinter : Warning. Casting a bitvector (length " << bitWidth << ") to bool!" << std::endl;
-
-			}
-				break;
-			default:
-				assert(0 && "Unsupported cast!");
-		}
-	}
-
-	void ExprSMTLIBPrinter::printSelectExpr(const ref<SelectExpr>& e, ExprSMTLIBPrinter::SMTLIB_SORT s)
-	{
-		//This is the if-then-else expression
-
-		*p << "(" << getSMTLIBKeyword(e) << " ";
-		p->pushIndent(); //add indent for recursive call
-
-			//The condition
-			printSeperator();
-			printExpression(e->getKid(0),SORT_BOOL);
-
-			/* This operator is special in that the remaining children
-			 * can be of any sort.
-			 */
-
-			//if true
-			printSeperator();
-			printExpression(e->getKid(1),s);
-
-			//if false
-			printSeperator();
-			printExpression(e->getKid(2),s);
-
-
-		p->popIndent(); //pop indent added for recursive call
-		printSeperator();
-		*p << ")";
-	}
-
-	void ExprSMTLIBPrinter::printSortArgsExpr(const ref<Expr>& e, ExprSMTLIBPrinter::SMTLIB_SORT s)
-	{
-		*p << "(" << getSMTLIBKeyword(e) << " ";
-		p->pushIndent(); //add indent for recursive call
-
-		//loop over children and recurse into each expecting they are of sort "s"
-		for(unsigned int i=0; i < e->getNumKids(); i++)
-		{
-			printSeperator();
-			printExpression(e->getKid(i),s);
-		}
-
-		p->popIndent(); //pop indent added for recursive call
-		printSeperator();
-		*p << ")";
-	}
-
-	void ExprSMTLIBPrinter::printLogicalOrBitVectorExpr(const ref<Expr>& e, ExprSMTLIBPrinter::SMTLIB_SORT s)
-	{
-		/* For these operators it is the case that the expected sort is the same as the sorts
-		 * of the arguments.
-		 */
-
-		*p << "(";
-		switch(e->getKind())
-		{
-			case Expr::And:
-				*p << ((s==SORT_BITVECTOR)?"bvand":"and");
-				break;
-			case Expr::Not:
-				*p << ((s==SORT_BITVECTOR)?"bvnot":"not");
-				break;
-			case Expr::Or:
-				*p << ((s==SORT_BITVECTOR)?"bvor":"or");
-				break;
-
-			case Expr::Xor:
-				*p << ((s==SORT_BITVECTOR)?"bvxor":"xor");
-				break;
-			default:
-				*p << "ERROR"; // this shouldn't happen
-		}
-		*p << " ";
-
-		p->pushIndent(); //add indent for recursive call
-
-		//loop over children and recurse into each expecting they are of sort "s"
-		for(unsigned int i=0; i < e->getNumKids(); i++)
-		{
-			printSeperator();
-			printExpression(e->getKid(i),s);
-		}
-
-		p->popIndent(); //pop indent added for recursive call
-		printSeperator();
-		*p << ")";
-	}
-
-	void ExprSMTLIBPrinter::negateQueryExpression()
-	{
-		//Negating the query
-		queryAssert = Expr::createIsZero(query->expr);
-	}
-
-	bool ExprSMTLIBPrinter::setSMTLIBboolOption(SMTLIBboolOptions option, SMTLIBboolValues value)
-	{
-		std::pair< std::map<SMTLIBboolOptions,bool>::iterator, bool> thePair;
-		bool theValue=  (value==OPTION_TRUE)?true:false;
-
-		switch(option)
-		{
-			case PRINT_SUCCESS:
-			case PRODUCE_MODELS:
-			case INTERACTIVE_MODE:
-				thePair=smtlibBoolOptions.insert(std::pair<SMTLIBboolOptions,bool>(option,theValue));
-
-				if(value== OPTION_DEFAULT)
-				{
-					//we should unset (by removing from map) this option so the solver uses its default
-					smtlibBoolOptions.erase(thePair.first);
-					return true;
-				}
-
-				if(!thePair.second)
-				{
-					//option was already present so modify instead.
-					thePair.first->second=value;
-				}
-				return true;
-			default:
-				return false;
-
-		}
-	}
-
-	void ExprSMTLIBPrinter::setArrayValuesToGet(const std::vector<const Array*>& a)
-	{
-		arraysToCallGetValueOn = &a;
-
-		//This option must be set in order to use the SMTLIBv2 command (get-value () )
-		if(!a.empty())
-			setSMTLIBboolOption(PRODUCE_MODELS,OPTION_TRUE);
-
-		/* There is a risk that users will ask about array values that aren't
-		 * even in the query. We should add them to the usedArrays list and hope
-		 * that the solver knows what to do when we ask for the values of arrays
-		 * that don't feature in our query!
-		 */
-		for(vector<const Array*>::const_iterator i = a.begin(); i!= a.end() ; ++i)
-		{
-			usedArrays.insert(*i);
-		}
-
-	}
-
-const char* ExprSMTLIBPrinter::getSMTLIBOptionString(ExprSMTLIBPrinter::SMTLIBboolOptions option)
-{
-	switch(option)
-	{
-		case PRINT_SUCCESS: return "print-success";
-		case PRODUCE_MODELS: return "produce-models";
-		case INTERACTIVE_MODE: return "interactive-mode";
-		default:
-			return "unknown-option";
-	}
+  // if true
+  printSeperator();
+  printExpression(e->getKid(1), s);
+
+  // if false
+  printSeperator();
+  printExpression(e->getKid(2), s);
+
+  p->popIndent(); // pop indent added for recursive call
+  printSeperator();
+  *p << ")";
+}
+
+void ExprSMTLIBPrinter::printSortArgsExpr(const ref<Expr> &e,
+                                          ExprSMTLIBPrinter::SMTLIB_SORT s) {
+  *p << "(" << getSMTLIBKeyword(e) << " ";
+  p->pushIndent(); // add indent for recursive call
+
+  // loop over children and recurse into each expecting they are of sort "s"
+  for (unsigned int i = 0; i < e->getNumKids(); i++) {
+    printSeperator();
+    printExpression(e->getKid(i), s);
+  }
+
+  p->popIndent(); // pop indent added for recursive call
+  printSeperator();
+  *p << ")";
 }
 
+void ExprSMTLIBPrinter::printLogicalOrBitVectorExpr(
+    const ref<Expr> &e, ExprSMTLIBPrinter::SMTLIB_SORT s) {
+  /* For these operators it is the case that the expected sort is the same as
+   * the sorts
+   * of the arguments.
+   */
+
+  *p << "(";
+  switch (e->getKind()) {
+  case Expr::And:
+    *p << ((s == SORT_BITVECTOR) ? "bvand" : "and");
+    break;
+  case Expr::Not:
+    *p << ((s == SORT_BITVECTOR) ? "bvnot" : "not");
+    break;
+  case Expr::Or:
+    *p << ((s == SORT_BITVECTOR) ? "bvor" : "or");
+    break;
+
+  case Expr::Xor:
+    *p << ((s == SORT_BITVECTOR) ? "bvxor" : "xor");
+    break;
+  default:
+    *p << "ERROR"; // this shouldn't happen
+  }
+  *p << " ";
+
+  p->pushIndent(); // add indent for recursive call
+
+  // loop over children and recurse into each expecting they are of sort "s"
+  for (unsigned int i = 0; i < e->getNumKids(); i++) {
+    printSeperator();
+    printExpression(e->getKid(i), s);
+  }
+
+  p->popIndent(); // pop indent added for recursive call
+  printSeperator();
+  *p << ")";
 }
 
+void ExprSMTLIBPrinter::negateQueryExpression() {
+  // Negating the query
+  queryAssert = Expr::createIsZero(query->expr);
+}
+
+bool ExprSMTLIBPrinter::setSMTLIBboolOption(SMTLIBboolOptions option,
+                                            SMTLIBboolValues value) {
+  std::pair<std::map<SMTLIBboolOptions, bool>::iterator, bool> thePair;
+  bool theValue = (value == OPTION_TRUE) ? true : false;
+
+  switch (option) {
+  case PRINT_SUCCESS:
+  case PRODUCE_MODELS:
+  case INTERACTIVE_MODE:
+    thePair = smtlibBoolOptions.insert(
+        std::pair<SMTLIBboolOptions, bool>(option, theValue));
+
+    if (value == OPTION_DEFAULT) {
+      // we should unset (by removing from map) this option so the solver uses
+      // its default
+      smtlibBoolOptions.erase(thePair.first);
+      return true;
+    }
+
+    if (!thePair.second) {
+      // option was already present so modify instead.
+      thePair.first->second = value;
+    }
+    return true;
+  default:
+    return false;
+  }
+}
 
+void
+ExprSMTLIBPrinter::setArrayValuesToGet(const std::vector<const Array *> &a) {
+  arraysToCallGetValueOn = &a;
+
+  // This option must be set in order to use the SMTLIBv2 command (get-value ()
+  // )
+  if (!a.empty())
+    setSMTLIBboolOption(PRODUCE_MODELS, OPTION_TRUE);
+
+  /* There is a risk that users will ask about array values that aren't
+   * even in the query. We should add them to the usedArrays list and hope
+   * that the solver knows what to do when we ask for the values of arrays
+   * that don't feature in our query!
+   */
+  for (vector<const Array *>::const_iterator i = a.begin(); i != a.end(); ++i) {
+    usedArrays.insert(*i);
+  }
+}
 
+const char *ExprSMTLIBPrinter::getSMTLIBOptionString(
+    ExprSMTLIBPrinter::SMTLIBboolOptions option) {
+  switch (option) {
+  case PRINT_SUCCESS:
+    return "print-success";
+  case PRODUCE_MODELS:
+    return "produce-models";
+  case INTERACTIVE_MODE:
+    return "interactive-mode";
+  default:
+    return "unknown-option";
+  }
+}
+}