diff options
Diffstat (limited to 'lib/Expr')
-rw-r--r-- | lib/Expr/ArrayExprOptimizer.cpp | 5 | ||||
-rw-r--r-- | lib/Expr/ArrayExprVisitor.cpp | 12 | ||||
-rw-r--r-- | lib/Expr/Expr.cpp | 5 | ||||
-rw-r--r-- | lib/Expr/ExprBuilder.cpp | 4 | ||||
-rw-r--r-- | lib/Expr/ExprEvaluator.cpp | 2 | ||||
-rw-r--r-- | lib/Expr/ExprPPrinter.cpp | 23 | ||||
-rw-r--r-- | lib/Expr/ExprSMTLIBPrinter.cpp | 8 | ||||
-rw-r--r-- | lib/Expr/ExprUtil.cpp | 9 | ||||
-rw-r--r-- | lib/Expr/Updates.cpp | 120 |
9 files changed, 47 insertions, 141 deletions
diff --git a/lib/Expr/ArrayExprOptimizer.cpp b/lib/Expr/ArrayExprOptimizer.cpp index 60f2ca6e..d80cc3bc 100644 --- a/lib/Expr/ArrayExprOptimizer.cpp +++ b/lib/Expr/ArrayExprOptimizer.cpp @@ -284,7 +284,8 @@ ref<Expr> ExprOptimizer::getSelectOptExpr( // reverse the list std::vector<const UpdateNode *> us; us.reserve(read->updates.getSize()); - for (const UpdateNode *un = read->updates.head; un; un = un->next) + for (const UpdateNode *un = read->updates.head.get(); un; + un = un->next.get()) us.push_back(un); auto arrayConstValues = read->updates.root->constantValues; @@ -366,7 +367,7 @@ ref<Expr> ExprOptimizer::getSelectOptExpr( // reverse the list std::vector<const UpdateNode *> us; us.reserve(read->updates.getSize()); - for (const UpdateNode *un = read->updates.head; un; un = un->next) + for (const UpdateNode *un = read->updates.head.get(); un; un = un->next.get()) us.push_back(un); for (auto it = us.rbegin(); it != us.rend(); it++) { diff --git a/lib/Expr/ArrayExprVisitor.cpp b/lib/Expr/ArrayExprVisitor.cpp index cada7867..986360f7 100644 --- a/lib/Expr/ArrayExprVisitor.cpp +++ b/lib/Expr/ArrayExprVisitor.cpp @@ -63,7 +63,7 @@ ConstantArrayExprVisitor::visitConcat(const ConcatExpr &ce) { // that is read at a symbolic index if (base->updates.root->isConstantArray() && !isa<ConstantExpr>(base->index)) { - for (const UpdateNode *un = base->updates.head; un; un = un->next) { + for (const auto *un = base->updates.head.get(); un; un = un->next.get()) { if (!isa<ConstantExpr>(un->index) || !isa<ConstantExpr>(un->value)) { incompatible = true; return Action::skipChildren(); @@ -97,7 +97,7 @@ ExprVisitor::Action ConstantArrayExprVisitor::visitRead(const ReadExpr &re) { // It is an interesting ReadExpr if it contains a concrete array // that is read at a symbolic index if (re.updates.root->isConstantArray() && !isa<ConstantExpr>(re.index)) { - for (const UpdateNode *un = re.updates.head; un; un = un->next) { + for (const auto *un = re.updates.head.get(); un; un = un->next.get()) { if (!isa<ConstantExpr>(un->index) || !isa<ConstantExpr>(un->value)) { incompatible = true; return Action::skipChildren(); @@ -132,7 +132,7 @@ ExprVisitor::Action ConstantArrayExprVisitor::visitRead(const ReadExpr &re) { ExprVisitor::Action IndexCompatibilityExprVisitor::visitRead(const ReadExpr &re) { - if (re.updates.head) { + if (!re.updates.head.isNull()) { compatible = false; return Action::skipChildren(); } else if (re.updates.root->isConstantArray() && @@ -198,13 +198,13 @@ ExprVisitor::Action ArrayReadExprVisitor::inspectRead(ref<Expr> hash, // pre(*): index is symbolic if (!isa<ConstantExpr>(re.index)) { if (readInfo.find(&re) == readInfo.end()) { - if (re.updates.root->isSymbolicArray() && !re.updates.head) { + if (re.updates.root->isSymbolicArray() && re.updates.head.isNull()) { return Action::doChildren(); } - if (re.updates.head) { + if (!re.updates.head.isNull()) { // Check preconditions on UpdateList nodes bool hasConcreteValues = false; - for (const UpdateNode *un = re.updates.head; un; un = un->next) { + for (const auto *un = re.updates.head.get(); un; un = un->next.get()) { // Symbolic case - \inv(update): index is concrete if (!isa<ConstantExpr>(un->index)) { incompatible = true; diff --git a/lib/Expr/Expr.cpp b/lib/Expr/Expr.cpp index 6b8dc95f..b798bc37 100644 --- a/lib/Expr/Expr.cpp +++ b/lib/Expr/Expr.cpp @@ -537,10 +537,9 @@ ref<Expr> ReadExpr::create(const UpdateList &ul, ref<Expr> index) { // least recent to find a potential written value for a concrete index; // stop if an update with symbolic has been found as we don't know which // array element has been updated - const UpdateNode *un = ul.head; + auto un = ul.head.get(); bool updateListHasSymbolicWrites = false; - for (; un; un=un->next) { - // Check if we have an equivalent concrete index + for (; un; un = un->next.get()) { ref<Expr> cond = EqExpr::create(index, un->index); if (ConstantExpr *CE = dyn_cast<ConstantExpr>(cond)) { if (CE->isTrue()) diff --git a/lib/Expr/ExprBuilder.cpp b/lib/Expr/ExprBuilder.cpp index e1cfa2d2..f8f57d35 100644 --- a/lib/Expr/ExprBuilder.cpp +++ b/lib/Expr/ExprBuilder.cpp @@ -326,8 +326,8 @@ namespace { virtual ref<Expr> Read(const UpdateList &Updates, const ref<Expr> &Index) { // Roll back through writes when possible. - const UpdateNode *UN = Updates.head; - while (UN && Eq(Index, UN->index)->isFalse()) + auto UN = Updates.head; + while (!UN.isNull() && Eq(Index, UN->index)->isFalse()) UN = UN->next; if (ConstantExpr *CE = dyn_cast<ConstantExpr>(Index)) diff --git a/lib/Expr/ExprEvaluator.cpp b/lib/Expr/ExprEvaluator.cpp index f03d7669..afd5d641 100644 --- a/lib/Expr/ExprEvaluator.cpp +++ b/lib/Expr/ExprEvaluator.cpp @@ -13,7 +13,7 @@ using namespace klee; ExprVisitor::Action ExprEvaluator::evalRead(const UpdateList &ul, unsigned index) { - for (const UpdateNode *un=ul.head; un; un=un->next) { + for (auto un = ul.head; !un.isNull(); un = un->next) { ref<Expr> ui = visit(un->index); if (ConstantExpr *CE = dyn_cast<ConstantExpr>(ui)) { diff --git a/lib/Expr/ExprPPrinter.cpp b/lib/Expr/ExprPPrinter.cpp index 2ccd7262..9d34e356 100644 --- a/lib/Expr/ExprPPrinter.cpp +++ b/lib/Expr/ExprPPrinter.cpp @@ -92,7 +92,8 @@ private: if (isVerySimple(e)) { return true; } else if (const ReadExpr *re = dyn_cast<ReadExpr>(e)) { - return isVerySimple(re->index) && isVerySimpleUpdate(re->updates.head); + return isVerySimple(re->index) && + isVerySimpleUpdate(re->updates.head.get()); } else { Expr *ep = e.get(); for (unsigned i=0; i<ep->getNumKids(); i++) @@ -113,7 +114,7 @@ private: // FIXME: This needs to be non-recursive. if (un) { if (couldPrintUpdates.insert(un).second) { - scanUpdate(un->next); + scanUpdate(un->next.get()); scan1(un->index); scan1(un->value); } else { @@ -130,7 +131,7 @@ private: scan1(ep->getKid(i)); if (const ReadExpr *re = dyn_cast<ReadExpr>(e)) { usedArrays.insert(re->updates.root); - scanUpdate(re->updates.head); + scanUpdate(re->updates.head.get()); } } else { shouldPrint.insert(e); @@ -139,10 +140,10 @@ private: } void printUpdateList(const UpdateList &updates, PrintContext &PC) { - const UpdateNode *head = updates.head; + auto head = updates.head; // Special case empty list. - if (!head) { + if (head.isNull()) { // FIXME: We need to do something (assert, mangle, etc.) so that printing // distinct arrays with the same name doesn't fail. PC << updates.root->name; @@ -153,22 +154,22 @@ private: bool openedList = false, nextShouldBreak = false; unsigned outerIndent = PC.pos; unsigned middleIndent = 0; - for (const UpdateNode *un = head; un; un = un->next) { + for (auto un = head; !un.isNull(); un = un->next) { // We are done if we hit the cache. - std::map<const UpdateNode*, unsigned>::iterator it = - updateBindings.find(un); + std::map<const UpdateNode *, unsigned>::iterator it = + updateBindings.find(un.get()); if (it!=updateBindings.end()) { if (openedList) PC << "] @ "; PC << "U" << it->second; return; - } else if (!hasScan || shouldPrintUpdates.count(un)) { + } else if (!hasScan || shouldPrintUpdates.count(un.get())) { if (openedList) PC << "] @"; if (un != head) PC.breakLine(outerIndent); - PC << "U" << updateCounter << ":"; - updateBindings.insert(std::make_pair(un, updateCounter++)); + PC << "U" << updateCounter << ":"; + updateBindings.insert(std::make_pair(un.get(), updateCounter++)); openedList = nextShouldBreak = false; } diff --git a/lib/Expr/ExprSMTLIBPrinter.cpp b/lib/Expr/ExprSMTLIBPrinter.cpp index b83a6af4..069eb32f 100644 --- a/lib/Expr/ExprSMTLIBPrinter.cpp +++ b/lib/Expr/ExprSMTLIBPrinter.cpp @@ -279,7 +279,7 @@ void ExprSMTLIBPrinter::printReadExpr(const ref<ReadExpr> &e) { printSeperator(); // print array with updates recursively - printUpdatesAndArray(e->updates.head, e->updates.root); + printUpdatesAndArray(e->updates.head.get(), e->updates.root); // print index printSeperator(); @@ -483,7 +483,7 @@ void ExprSMTLIBPrinter::printUpdatesAndArray(const UpdateNode *un, printSeperator(); // recurse to get the array or update that this store operations applies to - printUpdatesAndArray(un->next, root); + printUpdatesAndArray(un->next.get(), root); printSeperator(); @@ -713,7 +713,7 @@ void ExprSMTLIBPrinter::scan(const ref<Expr> &e) { haveConstantArray = true; // scan the update list - scanUpdates(re->updates.head); + scanUpdates(re->updates.head.get()); } } @@ -824,7 +824,7 @@ void ExprSMTLIBPrinter::scanUpdates(const UpdateNode *un) { while (un != NULL) { scan(un->index); scan(un->value); - un = un->next; + un = un->next.get(); } } diff --git a/lib/Expr/ExprUtil.cpp b/lib/Expr/ExprUtil.cpp index 911366f3..3819e3a2 100644 --- a/lib/Expr/ExprUtil.cpp +++ b/lib/Expr/ExprUtil.cpp @@ -49,8 +49,9 @@ void klee::findReads(ref<Expr> e, // especially since we memoize all the expr results anyway. So // we take a simple approach of memoizing the results for the // head, which often will be shared among multiple nodes. - if (updates.insert(re->updates.head).second) { - for (const UpdateNode *un=re->updates.head; un; un=un->next) { + if (updates.insert(re->updates.head.get()).second) { + for (const auto *un = re->updates.head.get(); un; + un = un->next.get()) { if (!isa<ConstantExpr>(un->index) && visited.insert(un->index).second) stack.push_back(un->index); @@ -82,7 +83,7 @@ protected: const UpdateList &ul = re.updates; // XXX should we memo better than what ExprVisitor is doing for us? - for (const UpdateNode *un=ul.head; un; un=un->next) { + for (const auto *un = ul.head.get(); un; un = un->next.get()) { visit(un->index); visit(un->value); } @@ -106,7 +107,7 @@ ExprVisitor::Action ConstantArrayFinder::visitRead(const ReadExpr &re) { const UpdateList &ul = re.updates; // FIXME should we memo better than what ExprVisitor is doing for us? - for (const UpdateNode *un = ul.head; un; un = un->next) { + for (const auto *un = ul.head.get(); un; un = un->next.get()) { visit(un->index); visit(un->value); } diff --git a/lib/Expr/Updates.cpp b/lib/Expr/Updates.cpp index 7264ca89..4734f592 100644 --- a/lib/Expr/Updates.cpp +++ b/lib/Expr/Updates.cpp @@ -13,13 +13,11 @@ using namespace klee; -UpdateNode::UpdateNode(const UpdateNode *_next, - const ref<Expr> &_index, - const ref<Expr> &_value) - : refCount(0), - next(_next), - index(_index), - value(_value) { +/// + +UpdateNode::UpdateNode(const ref<UpdateNode> &_next, const ref<Expr> &_index, + const ref<Expr> &_value) + : next(_next), index(_index), value(_value) { // FIXME: What we need to check here instead is that _value is of the same width // as the range of the array that the update node is part of. /* @@ -27,23 +25,11 @@ UpdateNode::UpdateNode(const UpdateNode *_next, "Update value should be 8-bit wide."); */ computeHash(); - if (next) { - ++next->refCount; - size = 1 + next->size; - } - else size = 1; + size = next.isNull() ? 1 : 1 + next->size; } extern "C" void vc_DeleteExpr(void*); -// This is deliberately empty to avoid recursively deleting UpdateNodes -// (i.e. ``if (--next->refCount==0) delete next;``). -// UpdateList manages the correct destruction of a chain UpdateNodes -// non-recursively. -UpdateNode::~UpdateNode() { - assert(refCount == 0 && "Deleted UpdateNode when a reference is still held"); -} - int UpdateNode::compare(const UpdateNode &b) const { if (int i = index.compare(b.index)) return i; @@ -52,95 +38,15 @@ int UpdateNode::compare(const UpdateNode &b) const { unsigned UpdateNode::computeHash() { hashValue = index->hash() ^ value->hash(); - if (next) + if (!next.isNull()) hashValue ^= next->hash(); return hashValue; } /// -UpdateList::UpdateList(const Array *_root, const UpdateNode *_head) - : root(_root), - head(_head) { - if (head) ++head->refCount; -} - -UpdateList::UpdateList(const UpdateList &b) - : root(b.root), - head(b.head) { - if (head) ++head->refCount; -} - -UpdateList::~UpdateList() { - tryFreeNodes(); -} - -void UpdateList::tryFreeNodes() { - // We need to be careful and avoid having the UpdateNodes recursively deleting - // themselves. This is done in cooperation with the private dtor of UpdateNode - // which does nothing. - // - // This method will free UpdateNodes that only this instance has references - // to, i.e. it will delete a continguous chain of UpdateNodes that all have - // a ``refCount`` of 1 starting at the head. - // - // In the following examples the Head0 is the head of this UpdateList instance - // and Head1 is the head of some other instance of UpdateList. - // - // [x] represents an UpdateNode where the reference count for that node is x. - // - // Example: Simple chain. - // - // [1] -> [1] -> [1] -> nullptr - // ^Head0 - // - // Result: The entire chain is freed - // - // nullptr - // ^Head0 - // - // Example: A chain where two UpdateLists share some nodes - // - // [1] -> [1] -> [2] -> [1] -> nullptr - // ^Head0 ^Head1 - // - // Result: Part of the chain is freed and the UpdateList with head Head1 - // is now the exclusive owner of the UpdateNodes. - // - // nullptr [1] -> [1] -> nullptr - // ^Head0 ^Head1 - // - // Example: A chain where two UpdateLists point at the same head - // - // [2] -> [1] -> [1] -> [1] -> nullptr - // ^Head0 - // Head1 - // - // Result: No UpdateNodes are freed but now the UpdateList with head Head1 - // is now the exclusive owner of the UpdateNodes. - // - // [1] -> [1] -> [1] -> [1] -> nullptr - // ^Head1 - // - // nullptr - // ^Head0 - // - while (head && --head->refCount==0) { - const UpdateNode *n = head->next; - delete head; - head = n; - } -} - -UpdateList &UpdateList::operator=(const UpdateList &b) { - if (b.head) ++b.head->refCount; - // Drop reference to the current head and free a chain of nodes - // if we are the only UpdateList referencing them - tryFreeNodes(); - root = b.root; - head = b.head; - return *this; -} +UpdateList::UpdateList(const Array *_root, const ref<UpdateNode> &_head) + : root(_root), head(_head) {} void UpdateList::extend(const ref<Expr> &index, const ref<Expr> &value) { @@ -149,9 +55,7 @@ void UpdateList::extend(const ref<Expr> &index, const ref<Expr> &value) { assert(root->getRange() == value->getWidth()); } - if (head) --head->refCount; head = new UpdateNode(head, index, value); - ++head->refCount; } int UpdateList::compare(const UpdateList &b) const { @@ -167,8 +71,8 @@ int UpdateList::compare(const UpdateList &b) const { else if (getSize() > b.getSize()) return 1; // XXX build comparison into update, make fast - const UpdateNode *an=head, *bn=b.head; - for (; an && bn; an=an->next,bn=bn->next) { + const auto *an = head.get(), *bn = b.head.get(); + for (; an && bn; an = an->next.get(), bn = bn->next.get()) { if (an==bn) { // exploit shared list structure return 0; } else { @@ -184,7 +88,7 @@ unsigned UpdateList::hash() const { unsigned res = 0; for (unsigned i = 0, e = root->name.size(); i != e; ++i) res = (res * Expr::MAGIC_HASH_CONSTANT) + root->name[i]; - if (head) + if (head.get()) res ^= head->hash(); return res; } |