diff options
-rw-r--r-- | lib/Solver/IndependentSolver.cpp | 61 |
1 files changed, 17 insertions, 44 deletions
diff --git a/lib/Solver/IndependentSolver.cpp b/lib/Solver/IndependentSolver.cpp index 84e7adb6..3594fecf 100644 --- a/lib/Solver/IndependentSolver.cpp +++ b/lib/Solver/IndependentSolver.cpp @@ -438,65 +438,38 @@ bool IndependentSolver::computeValue(const Query& query, ref<Expr> &result) { return solver->impl->computeValue(Query(tmp, query.expr), result); } -bool canPerformConcreteAssignment(const std::vector<const Array*> &objects, const ref<Expr> e) { - // Get the arrays used in the constraint. If an array isn't in objects we - // don't have an assignment for it so skip it because can't evaluate to a - // constant. This means we might not be checking every constraint which is - // not ideal but the alternative would require getting an assignment for - // all arrays which is wasteful given that the client didn't ask for them - IndependentElementSet ieSet(e); - for (std::vector<const Array *>::const_iterator ai = objects.begin(), - ae = objects.end(); - ai != ae; ++ai) { - ieSet.wholeObjects.erase(*ai); - ieSet.elements.erase(*ai); - } - - if (ieSet.wholeObjects.size() > 0 || ieSet.elements.size() > 0) { - // There are arrays used in ``e`` that aren't in objects, - // therefore we can't perform a complete assignment - return false; - } - return true; -} - // Helper function used only for assertions to make sure point created -// during computeInitialValues is in fact correct. This function is -// a "best effort" check because if the query uses an Array that an -// assignment is not given for then that Query cannot be fully evaluated so -// this function only checks that all expressions that can be fully -// assigned to evaluate to true. +// during computeInitialValues is in fact correct. The ``retMap`` is used +// in the case ``objects`` doesn't contain all the assignments needed. bool assertCreatedPointEvaluatesToTrue(const Query &query, const std::vector<const Array*> &objects, - std::vector< std::vector<unsigned char> > &values){ + std::vector< std::vector<unsigned char> > &values, + std::map<const Array*, std::vector<unsigned char> > &retMap){ // _allowFreeValues is set to true so that if there are missing bytes in the assigment // we will end up with a non ConstantExpr after evaluating the assignment and fail Assignment assign = Assignment(objects, values, /*_allowFreeValues=*/true); - for(ConstraintManager::constraint_iterator it = query.constraints.begin(); - it != query.constraints.end(); ++it){ - ref<Expr> constraint = *it; - if (!canPerformConcreteAssignment(objects, constraint)) { - // We have to skip checking assigning to this constraint - continue; - } + // Add any additional bindings. + // The semantics of std::map should be to not insert a (key, value) + // pair if it already exists so we should continue to use the assignment + // from ``objects`` and ``values``. + if (retMap.size() > 0) + assign.bindings.insert(retMap.begin(), retMap.end()); + for(ConstraintManager::constraint_iterator it = query.constraints.begin(); + it != query.constraints.end(); ++it){ ref<Expr> ret = assign.evaluate(*it); - assert(isa<ConstantExpr>(ret) && "Could not use assignment to evaluate constraint"); + assert(isa<ConstantExpr>(ret) && "assignment evaluation did not result in constant"); ref<ConstantExpr> evaluatedConstraint = dyn_cast<ConstantExpr>(ret); if(evaluatedConstraint->isFalse()){ return false; } } ref<Expr> neg = Expr::createIsZero(query.expr); - if (canPerformConcreteAssignment(objects, neg)) { - ref<Expr> q = assign.evaluate(neg); - assert(isa<ConstantExpr>(q) && "assignment evaluation did not result in constant"); - return cast<ConstantExpr>(q)->isTrue(); - } - // Can't assign to query expression - return true; + ref<Expr> q = assign.evaluate(neg); + assert(isa<ConstantExpr>(q) && "assignment evaluation did not result in constant"); + return cast<ConstantExpr>(q)->isTrue(); } bool IndependentSolver::computeInitialValues(const Query& query, @@ -569,7 +542,7 @@ bool IndependentSolver::computeInitialValues(const Query& query, values.push_back(retMap[arr]); } } - assert(assertCreatedPointEvaluatesToTrue(query, objects, values) && "should satisfy the equation"); + assert(assertCreatedPointEvaluatesToTrue(query, objects, values, retMap) && "should satisfy the equation"); delete factors; return true; } |