diff options
author | Daniel Dunbar <daniel@zuster.org> | 2009-06-08 05:21:08 +0000 |
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committer | Daniel Dunbar <daniel@zuster.org> | 2009-06-08 05:21:08 +0000 |
commit | 87eb1f7629003270bd3ce3956f163daacbcc74e2 (patch) | |
tree | 554e4e9a99f4f0e8b83f0c4cc5bd88d50993d855 | |
parent | 9f1655cc26ca22d06c5d8f8d228b0b240381a6cc (diff) | |
download | klee-87eb1f7629003270bd3ce3956f163daacbcc74e2.tar.gz |
Cleanup FastCexSolver:
- Make CexObjectData members private. - Use std::vector instead of allocating memory by hand. - Factor out method which does the propogation from the various Solver routines. git-svn-id: https://llvm.org/svn/llvm-project/klee/trunk@73047 91177308-0d34-0410-b5e6-96231b3b80d8
-rw-r--r-- | lib/Solver/FastCexSolver.cpp | 335 |
1 files changed, 142 insertions, 193 deletions
diff --git a/lib/Solver/FastCexSolver.cpp b/lib/Solver/FastCexSolver.cpp index 6d9c8551..1efeb0cb 100644 --- a/lib/Solver/FastCexSolver.cpp +++ b/lib/Solver/FastCexSolver.cpp @@ -28,11 +28,6 @@ using namespace klee; /***/ -//#define LOG -#ifdef LOG -std::ostream *theLog; -#endif - // Hacker's Delight, pgs 58-63 static uint64_t minOR(uint64_t a, uint64_t b, uint64_t c, uint64_t d) { @@ -325,15 +320,38 @@ public: // XXX waste of space, rather have ByteValueRange typedef ValueRange CexValueData; +// FIXME: We should avoid copying these objects. class CexObjectData { -public: - unsigned size; - CexValueData *values; + uint64_t size; + std::vector<CexValueData> contents; public: - CexObjectData(unsigned _size) : size(_size), values(new CexValueData[size]) { - for (unsigned i=0; i<size; i++) - values[i] = ValueRange(0, 255); + CexObjectData(uint64_t _size) : size(_size), contents(_size) { + for (uint64_t i = 0; i != size; ++i) + contents[i] = ValueRange(0, 255); + } + + uint64_t getSize() const { + return size; + } + + CexValueData getPossibleValues(size_t index) { + return contents[index]; + } + const CexValueData getPossibleValues(size_t index) const { + return contents[index]; + } + void setPossibleValues(size_t index, CexValueData values) { + contents[index] = values; + } + + /// getPossibleValue - Return some possible value. + unsigned char getPossibleValue(size_t index) const { + const CexValueData &cvd = contents[index]; + return cvd.min() + (cvd.max() - cvd.min()) / 2; + } + void setPossibleValue(size_t index, unsigned char value) { + contents[index] = CexValueData(value); } }; @@ -348,27 +366,27 @@ public: } }; -class CexConstifier : public ExprEvaluator { +class CexEvaluator : public ExprEvaluator { protected: ref<Expr> getInitialValue(const Array& array, unsigned index) { std::map<unsigned, CexObjectData>::iterator it = objectValues.find(array.id); assert(it != objectValues.end() && "missing object?"); CexObjectData &cod = it->second; - - if (index >= cod.size) { + + // If the index is out of range, we cannot assign it a value, since that + // value cannot be part of the assignment. + if (index >= cod.getSize()) { return ReadExpr::create(UpdateList(&array, true, 0), ConstantExpr::alloc(index, Expr::Int32)); - } else { - CexValueData &cvd = cod.values[index]; - assert(cvd.min() == cvd.max() && "value is not fixed"); - return ConstantExpr::alloc(cvd.min(), Expr::Int8); - } + } + + return ConstantExpr::alloc(cod.getPossibleValue(index), Expr::Int8); } public: std::map<unsigned, CexObjectData> &objectValues; - CexConstifier(std::map<unsigned, CexObjectData> &_objectValues) + CexEvaluator(std::map<unsigned, CexObjectData> &_objectValues) : objectValues(_objectValues) {} }; @@ -376,28 +394,28 @@ class CexData { public: std::map<unsigned, CexObjectData> objectValues; + CexData(const CexData&); // DO NOT IMPLEMENT + void operator=(const CexData&); // DO NOT IMPLEMENT + public: + CexData() {} CexData(ObjectFinder &finder) { + initValues(finder); + } + + void initValues(ObjectFinder &finder) { for (std::map<unsigned,unsigned>::iterator it = finder.results.begin(), ie = finder.results.end(); it != ie; ++it) { objectValues.insert(std::pair<unsigned, CexObjectData>(it->first, CexObjectData(it->second))); } } - ~CexData() { - for (std::map<unsigned, CexObjectData>::iterator it = objectValues.begin(), - ie = objectValues.end(); it != ie; ++it) - delete[] it->second.values; - } void forceExprToValue(ref<Expr> e, uint64_t value) { forceExprToRange(e, CexValueData(value,value)); } void forceExprToRange(ref<Expr> e, CexValueData range) { -#ifdef LOG - // *theLog << "force: " << e << " to " << range << "\n"; -#endif switch (e->getKind()) { case Expr::Constant: { // rather a pity if the constant isn't in the range, but how can @@ -414,18 +432,20 @@ public: const Array *array = re->updates.root; CexObjectData &cod = objectValues.find(array->id)->second; - // XXX we need to respect the version here and object state chain - + // FIXME: This is imprecise, we need to look through the existing writes + // to see if this is an initial read or not. if (ConstantExpr *CE = dyn_cast<ConstantExpr>(re->index)) { if (CE->getConstantValue() < array->size) { - CexValueData &cvd = cod.values[CE->getConstantValue()]; - CexValueData tmp = cvd.set_intersection(range); - - if (tmp.isEmpty()) { - if (range.isFixed()) // ranges conflict, if new one is fixed use that - cvd = range; + // If the range is fixed, just set that; even if it conflicts with the + // previous range it should be a better guess. + if (range.isFixed()) { + cod.setPossibleValue(CE->getConstantValue(), range.min()); } else { - cvd = tmp; + CexValueData cvd = cod.getPossibleValues(CE->getConstantValue()); + CexValueData tmp = cvd.set_intersection(range); + + if (!tmp.isEmpty()) + cod.setPossibleValues(CE->getConstantValue(), tmp); } } } else { @@ -515,12 +535,11 @@ public: // Casting - // Simply intersect the output range with the range of all - // possible outputs and then truncate to the desired number of - // bits. + // Simply intersect the output range with the range of all possible + // outputs and then truncate to the desired number of bits. - // For ZExt this simplifies to just intersection with the - // possible input range. + // For ZExt this simplifies to just intersection with the possible input + // range. case Expr::ZExt: { CastExpr *ce = cast<CastExpr>(e); unsigned inBits = ce->src->getWidth(); @@ -528,15 +547,17 @@ public: forceExprToRange(ce->src, input); break; } - // For SExt instead of doing the intersection we just take the output range - // minus the impossible values. This is nicer since it is a single interval. + // For SExt instead of doing the intersection we just take the output + // range minus the impossible values. This is nicer since it is a single + // interval. case Expr::SExt: { CastExpr *ce = cast<CastExpr>(e); unsigned inBits = ce->src->getWidth(); unsigned outBits = ce->width; - ValueRange output = range.set_difference(ValueRange(1<<(inBits-1), - (bits64::maxValueOfNBits(outBits)- - bits64::maxValueOfNBits(inBits-1)-1))); + ValueRange output = + range.set_difference(ValueRange(1<<(inBits-1), + (bits64::maxValueOfNBits(outBits) - + bits64::maxValueOfNBits(inBits-1)-1))); ValueRange input = output.binaryAnd(bits64::maxValueOfNBits(inBits)); forceExprToRange(ce->src, input); break; @@ -711,28 +732,15 @@ public: } } - void fixValues() { - for (std::map<unsigned, CexObjectData>::iterator it = objectValues.begin(), - ie = objectValues.end(); it != ie; ++it) { - CexObjectData &cod = it->second; - for (unsigned i=0; i<cod.size; i++) { - CexValueData &cvd = cod.values[i]; - cvd = CexValueData(cvd.min() + (cvd.max()-cvd.min())/2); - } - } - } - ValueRange evalRangeForExpr(ref<Expr> &e) { CexRangeEvaluator ce(objectValues); return ce.evaluate(e); } - bool exprMustBeValue(ref<Expr> e, uint64_t value) { - CexConstifier cc(objectValues); - ref<Expr> v = cc.visit(e); - if (ConstantExpr *CE = dyn_cast<ConstantExpr>(v)) - return CE->getConstantValue() == value; - return false; + /// evaluate - Try to evaluate the given expression using a consistent fixed + /// value for the current set of possible ranges. + ref<Expr> evaluate(ref<Expr> e) { + return CexEvaluator(objectValues).visit(e); } }; @@ -756,137 +764,85 @@ FastCexSolver::FastCexSolver() { } FastCexSolver::~FastCexSolver() { } -IncompleteSolver::PartialValidity -FastCexSolver::computeTruth(const Query& query) { -#ifdef LOG - std::ostringstream log; - theLog = &log; - // log << "------ start FastCexSolver::mustBeTrue ------\n"; - log << "-- QUERY --\n"; - unsigned i=0; - for (ConstraintManager::const_iterator it = query.constraints.begin(), - ie = query.constraints.end(); it != ie; ++it) - log << " C" << i++ << ": " << *it << ", \n"; - log << " Q : " << query.expr << "\n"; -#endif - - ObjectFinder of; +/// propogateValues - Propogate value ranges for the given query and return the +/// propogation results. +/// +/// \param query - The query to propogate values for. +/// +/// \param cd - The initial object values resulting from the propogation. +/// +/// \param checkExpr - Include the query expression in the constraints to +/// propogate. +/// +/// \param isValid - If the propogation succeeds (returns true), whether the +/// constraints were proven valid or invalid. +/// +/// \return - True if the propogation was able to prove validity or invalidity. +static bool propogateValues(ObjectFinder &of, const Query& query, CexData &cd, + bool checkExpr, bool &isValid) { for (ConstraintManager::const_iterator it = query.constraints.begin(), ie = query.constraints.end(); it != ie; ++it) of.visit(*it); of.visit(query.expr); - CexData cd(of); + + cd.initValues(of); for (ConstraintManager::const_iterator it = query.constraints.begin(), ie = query.constraints.end(); it != ie; ++it) cd.forceExprToValue(*it, 1); - cd.forceExprToValue(query.expr, 0); + if (checkExpr) + cd.forceExprToValue(query.expr, 0); -#ifdef LOG - log << " -- ranges --\n"; - for (std::map<unsigned, CexObjectData>::iterator it = objectValues.begin(), - ie = objectValues.end(); it != ie; ++it) { - CexObjectData &cod = it->second; - log << " arr" << it->first << "[" << cod.size << "] = ["; - unsigned continueFrom=cod.size-1; - for (; continueFrom>0; continueFrom--) - if (cod.values[continueFrom-1]!=cod.values[continueFrom]) - break; - for (unsigned i=0; i<cod.size; i++) { - log << cod.values[i]; - if (i<cod.size-1) { - log << ", "; - if (i==continueFrom) { - log << "..."; - break; - } - } - } - log << "]\n"; - } -#endif - - // this could be done lazily of course - cd.fixValues(); - -#ifdef LOG - log << " -- fixed values --\n"; - for (std::map<unsigned, CexObjectData>::iterator it = objectValues.begin(), - ie = objectValues.end(); it != ie; ++it) { - CexObjectData &cod = it->second; - log << " arr" << it->first << "[" << cod.size << "] = ["; - unsigned continueFrom=cod.size-1; - for (; continueFrom>0; continueFrom--) - if (cod.values[continueFrom-1]!=cod.values[continueFrom]) - break; - for (unsigned i=0; i<cod.size; i++) { - log << cod.values[i]; - if (i<cod.size-1) { - log << ", "; - if (i==continueFrom) { - log << "..."; - break; - } - } - } - log << "]\n"; - } -#endif + // Check the result. + if (checkExpr) + if (!cd.evaluate(query.expr)->isFalse()) + return false; - // check the result + for (ConstraintManager::const_iterator it = query.constraints.begin(), + ie = query.constraints.end(); it != ie; ++it) + if (!cd.evaluate(*it)->isTrue()) + return false; - bool isGood = true; + // Currently we can only prove invalidity. + isValid = false; + return true; +} - if (!cd.exprMustBeValue(query.expr, 0)) isGood = false; +IncompleteSolver::PartialValidity +FastCexSolver::computeTruth(const Query& query) { + ObjectFinder of; + CexData cd; - for (ConstraintManager::const_iterator it = query.constraints.begin(), - ie = query.constraints.end(); it != ie; ++it) - if (!cd.exprMustBeValue(*it, 1)) - isGood = false; + bool isValid; + bool success = propogateValues(of, query, cd, true, isValid); -#ifdef LOG - log << " -- evaluating result --\n"; - - i=0; - for (ConstraintManager::const_iterator it = query.constraints.begin(), - ie = query.constraints.end(); it != ie; ++it) { - bool res = cd.exprMustBeValue(*it, 1); - log << " C" << i++ << ": " << (res?"true":"false") << "\n"; - } - log << " Q : " - << (cd.exprMustBeValue(query.expr, 0)?"true":"false") << "\n"; - - log << "\n\n"; -#endif + if (!success) + return IncompleteSolver::None; - return isGood ? IncompleteSolver::MayBeFalse : IncompleteSolver::None; + return isValid ? IncompleteSolver::MustBeTrue : IncompleteSolver::MayBeFalse; } bool FastCexSolver::computeValue(const Query& query, ref<Expr> &result) { ObjectFinder of; - for (ConstraintManager::const_iterator it = query.constraints.begin(), - ie = query.constraints.end(); it != ie; ++it) - of.visit(*it); - of.visit(query.expr); - CexData cd(of); - - for (ConstraintManager::const_iterator it = query.constraints.begin(), - ie = query.constraints.end(); it != ie; ++it) - cd.forceExprToValue(*it, 1); + CexData cd; - // this could be done lazily of course - cd.fixValues(); + bool isValid; + bool success = propogateValues(of, query, cd, false, isValid); - // check the result - for (ConstraintManager::const_iterator it = query.constraints.begin(), - ie = query.constraints.end(); it != ie; ++it) - if (!cd.exprMustBeValue(*it, 1)) - return false; + // Check if propogation wasn't able to determine anything. + if (!success) + return false; - CexConstifier cc(cd.objectValues); + // FIXME: We don't have a way to communicate valid constraints back. + if (isValid) + return false; + + // Propogation found a satisfying assignment, evaluate the expression. + CexEvaluator cc(cd.objectValues); ref<Expr> value = cc.visit(query.expr); - + if (isa<ConstantExpr>(value)) { + // FIXME: We should be able to make sure this never fails? result = value; return true; } else { @@ -902,32 +858,25 @@ FastCexSolver::computeInitialValues(const Query& query, &values, bool &hasSolution) { ObjectFinder of; - for (ConstraintManager::const_iterator it = query.constraints.begin(), - ie = query.constraints.end(); it != ie; ++it) - of.visit(*it); - of.visit(query.expr); - for (unsigned i = 0; i != objects.size(); ++i) - of.addObject(*objects[i]); - CexData cd(of); + CexData cd; - for (ConstraintManager::const_iterator it = query.constraints.begin(), - ie = query.constraints.end(); it != ie; ++it) - cd.forceExprToValue(*it, 1); - cd.forceExprToValue(query.expr, 0); + for (std::vector<const Array*>::const_iterator it = objects.begin(), + ie = objects.end(); it != ie; ++it) + of.addObject(**it); - // this could be done lazily of course - cd.fixValues(); + bool isValid; + bool success = propogateValues(of, query, cd, true, isValid); - // check the result - for (ConstraintManager::const_iterator it = query.constraints.begin(), - ie = query.constraints.end(); it != ie; ++it) - if (!cd.exprMustBeValue(*it, 1)) - return false; - if (!cd.exprMustBeValue(query.expr, 0)) + // Check if propogation wasn't able to determine anything. + if (!success) return false; - hasSolution = true; - CexConstifier cc(cd.objectValues); + hasSolution = !isValid; + if (!hasSolution) + return true; + + // Propogation found a satisfying assignment, compute the initial values. + CexEvaluator cc(cd.objectValues); for (unsigned i = 0; i != objects.size(); ++i) { const Array *array = objects[i]; std::vector<unsigned char> data; @@ -940,7 +889,7 @@ FastCexSolver::computeInitialValues(const Query& query, kMachinePointerType))); if (ConstantExpr *CE = dyn_cast<ConstantExpr>(value)) { - data.push_back(CE->getConstantValue()); + data.push_back((unsigned char) CE->getConstantValue()); } else { // FIXME: When does this happen? return false; |