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//===-- ExprSMTLIBLetPrinter.cpp ------------------------------------------*-
//C++ -*-===//
//
// The KLEE Symbolic Virtual Machine
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
#include "llvm/Support/raw_ostream.h"
#include "llvm/Support/CommandLine.h"
#include "klee/util/ExprSMTLIBLetPrinter.h"
using namespace std;
namespace ExprSMTLIBOptions {
llvm::cl::opt<bool>
useLetExpressions("smtlib-use-let-expressions",
llvm::cl::desc("Enables generated SMT-LIBv2 files to use "
"(let) expressions (default=on)"),
llvm::cl::init(true));
}
namespace klee {
const char ExprSMTLIBLetPrinter::BINDING_PREFIX[] = "?B";
ExprSMTLIBLetPrinter::ExprSMTLIBLetPrinter()
: bindings(), firstEO(), twoOrMoreEO(), disablePrintedAbbreviations(false) {
}
void ExprSMTLIBLetPrinter::generateOutput() {
if (p == NULL || query == NULL || o == NULL) {
llvm::errs() << "Can't print SMTLIBv2. Output or query bad!\n";
return;
}
generateBindings();
if (isHumanReadable())
printNotice();
printOptions();
printSetLogic();
printArrayDeclarations();
printLetExpression();
printAction();
printExit();
}
void ExprSMTLIBLetPrinter::scan(const ref<Expr> &e) {
if (isa<ConstantExpr>(e))
return; // we don't need to scan simple constants
if (firstEO.insert(e).second) {
// We've not seen this expression before
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));
} else {
/* We must of seen the expression before. Add it to
* the set of twoOrMoreOccurances. We don't need to
* check if the insertion fails.
*/
twoOrMoreEO.insert(e);
}
}
void ExprSMTLIBLetPrinter::generateBindings() {
// Assign a number to each binding that will be used
unsigned int counter = 0;
for (set<ref<Expr> >::const_iterator i = twoOrMoreEO.begin();
i != twoOrMoreEO.end(); ++i) {
bindings.insert(std::make_pair(*i, counter));
++counter;
}
}
void ExprSMTLIBLetPrinter::printExpression(
const ref<Expr> &e, ExprSMTLIBPrinter::SMTLIB_SORT expectedSort) {
map<const ref<Expr>, unsigned int>::const_iterator i = bindings.find(e);
if (disablePrintedAbbreviations || i == bindings.end()) {
/*There is no abbreviation for this expression so print it normally.
* Do this by using the parent method.
*/
ExprSMTLIBPrinter::printExpression(e, expectedSort);
} else {
// Use binding name e.g. "?B1"
/* Handle the corner case where the expectedSort
* doesn't match the sort of the abbreviation. Not really very efficient
* (calls bindings.find() twice),
* we'll cast and call ourself again but with the correct expectedSort.
*/
if (getSort(e) != expectedSort) {
printCastToSort(e, expectedSort);
return;
}
// No casting is needed in this depth of recursion, just print the
// abbreviation
*p << BINDING_PREFIX << i->second;
}
}
void ExprSMTLIBLetPrinter::reset() {
// Let parent clean up first
ExprSMTLIBPrinter::reset();
firstEO.clear();
twoOrMoreEO.clear();
bindings.clear();
}
void ExprSMTLIBLetPrinter::printLetExpression() {
*p << "(assert";
p->pushIndent();
printSeperator();
if (bindings.size() != 0) {
// Only print let expression if we have bindings to use.
*p << "(let";
p->pushIndent();
printSeperator();
*p << "( ";
p->pushIndent();
// Print each binding
for (map<const ref<Expr>, unsigned int>::const_iterator i =
bindings.begin();
i != bindings.end(); ++i) {
printSeperator();
*p << "(" << BINDING_PREFIX << i->second << " ";
p->pushIndent();
// Disable abbreviations so none are used here.
disablePrintedAbbreviations = true;
// We can abbreviate SORT_BOOL or SORT_BITVECTOR in let expressions
printExpression(i->first, getSort(i->first));
p->popIndent();
printSeperator();
*p << ")";
}
p->popIndent();
printSeperator();
*p << ")";
printSeperator();
// Re-enable printing abbreviations.
disablePrintedAbbreviations = false;
}
// print out Expressions with abbreviations.
unsigned int numberOfItems = query->constraints.size() + 1; //+1 for query
unsigned int itemsLeft = numberOfItems;
vector<ref<Expr> >::const_iterator constraint = query->constraints.begin();
/* Produce nested (and () () statements. If the constraint set
* is empty then we will only print the "queryAssert".
*/
for (; itemsLeft != 0; --itemsLeft) {
if (itemsLeft >= 2) {
*p << "(and";
p->pushIndent();
printSeperator();
printExpression(*constraint,
SORT_BOOL); // We must and together bool expressions
printSeperator();
++constraint;
continue;
} else {
// must have 1 item left (i.e. the "queryAssert")
if (isHumanReadable()) {
*p << "; query";
p->breakLineI();
}
printExpression(queryAssert,
SORT_BOOL); // The query must be a bool expression
}
}
/* Produce closing brackets for nested "and statements".
* Number of "nested ands" = numberOfItems -1
*/
itemsLeft = numberOfItems - 1;
for (; itemsLeft != 0; --itemsLeft) {
p->popIndent();
printSeperator();
*p << ")";
}
if (bindings.size() != 0) {
// end let expression
p->popIndent();
printSeperator();
*p << ")";
printSeperator();
}
// end assert
p->popIndent();
printSeperator();
*p << ")";
p->breakLineI();
}
ExprSMTLIBPrinter *createSMTLIBPrinter() {
if (ExprSMTLIBOptions::useLetExpressions)
return new ExprSMTLIBLetPrinter();
else
return new ExprSMTLIBPrinter();
}
}
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