#include "cyclegraph.h"
#include "action.h"
#include "common.h"
+#include "promise.h"
+#include "model.h"
/** Initializes a CycleGraph object. */
CycleGraph::CycleGraph() :
+ discovered(new HashTable<CycleNode *, CycleNode *, uintptr_t, 4, model_malloc, model_calloc, model_free>(16)),
hasCycles(false),
oldCycles(false),
hasRMWViolation(false),
if (node==NULL) {
node=new CycleNode(action);
actionToNode.put(action, node);
+#if SUPPORT_MOD_ORDER_DUMP
+ nodeList.push_back(node);
+#endif
}
return node;
}
CycleNode *fromnode=getNode(from);
CycleNode *tonode=getNode(to);
+ if (!hasCycles) {
+ // Reflexive edges are cycles
+ hasCycles = (from == to);
+ }
if (!hasCycles) {
// Check for Cycles
hasCycles=checkReachable(tonode, fromnode);
}
- rollbackvector.push_back(fromnode);
- fromnode->addEdge(tonode);
+ if (fromnode->addEdge(tonode))
+ rollbackvector.push_back(fromnode);
+
CycleNode * rmwnode=fromnode->getRMW();
//If the fromnode has a rmwnode that is not the tonode, we
//should add an edge between its rmwnode and the tonode
- if (rmwnode!=NULL&&rmwnode!=tonode) {
+ //If tonode is also a rmw, don't do this check as the execution is
+ //doomed and we'll catch the problem elsewhere, but we want to allow
+ //for the possibility of sending to's write value to rmwnode
+
+ if (rmwnode!=NULL&&!to->is_rmw()) {
if (!hasCycles) {
// Check for Cycles
hasCycles=checkReachable(tonode, rmwnode);
}
- rollbackvector.push_back(rmwnode);
- rmwnode->addEdge(tonode);
+
+ if (rmwnode->addEdge(tonode))
+ rollbackvector.push_back(rmwnode);
}
}
}
/* Transfer all outgoing edges from the from node to the rmw node */
- /* This process cannot add a cycle because rmw should not have any
- incoming edges yet.*/
+ /* This process should not add a cycle because either:
+ * (1) The rmw should not have any incoming edges yet if it is the
+ * new node or
+ * (2) the fromnode is the new node and therefore it should not
+ * have any outgoing edges.
+ */
std::vector<CycleNode *> * edges=fromnode->getEdges();
for(unsigned int i=0;i<edges->size();i++) {
CycleNode * tonode=(*edges)[i];
- rollbackvector.push_back(rmwnode);
- rmwnode->addEdge(tonode);
+ if (tonode!=rmwnode) {
+ if (rmwnode->addEdge(tonode))
+ rollbackvector.push_back(rmwnode);
+ }
+ }
+
+
+ if (!hasCycles) {
+ // Reflexive edges are cycles
+ hasCycles = (from == rmw);
}
- rollbackvector.push_back(fromnode);
- fromnode->addEdge(rmwnode);
+ if (!hasCycles) {
+ // With promises we could be setting up a cycle here if we aren't
+ // careful...avoid it..
+ hasCycles=checkReachable(rmwnode, fromnode);
+ }
+ if (fromnode->addEdge(rmwnode))
+ rollbackvector.push_back(fromnode);
+}
+
+#if SUPPORT_MOD_ORDER_DUMP
+void CycleGraph::dumpNodes(FILE *file) {
+ for (unsigned int i=0;i<nodeList.size();i++) {
+ CycleNode *cn=nodeList[i];
+ std::vector<CycleNode *> * edges=cn->getEdges();
+ const ModelAction *action=cn->getAction();
+ fprintf(file, "N%u [label=\"%u, T%u\"];\n",action->get_seq_number(),action->get_seq_number(), action->get_tid());
+ if (cn->getRMW()!=NULL) {
+ fprintf(file, "N%u -> N%u[style=dotted];\n", action->get_seq_number(), cn->getRMW()->getAction()->get_seq_number());
+ }
+ for (unsigned int j=0;j<edges->size();j++) {
+ CycleNode *dst=(*edges)[j];
+ const ModelAction *dstaction=dst->getAction();
+ fprintf(file, "N%u -> N%u;\n", action->get_seq_number(), dstaction->get_seq_number());
+ }
+ }
+}
+
+void CycleGraph::dumpGraphToFile(const char *filename) {
+ char buffer[200];
+ sprintf(buffer, "%s.dot",filename);
+ FILE *file=fopen(buffer, "w");
+ fprintf(file, "digraph %s {\n",filename);
+ dumpNodes(file);
+ fprintf(file,"}\n");
+ fclose(file);
}
+#endif
/**
* Checks whether one ModelAction can reach another.
* @return True, @a from can reach @a to; otherwise, false
*/
bool CycleGraph::checkReachable(CycleNode *from, CycleNode *to) {
- std::vector<CycleNode *> queue;
- HashTable<CycleNode *, CycleNode *, uintptr_t, 4> discovered;
+ std::vector<CycleNode *, ModelAlloc<CycleNode *> > queue;
+ discovered->reset();
queue.push_back(from);
- discovered.put(from, from);
+ discovered->put(from, from);
while(!queue.empty()) {
CycleNode * node=queue.back();
queue.pop_back();
for(unsigned int i=0;i<node->getEdges()->size();i++) {
CycleNode *next=(*node->getEdges())[i];
- if (!discovered.contains(next)) {
- discovered.put(next,next);
+ if (!discovered->contains(next)) {
+ discovered->put(next,next);
+ queue.push_back(next);
+ }
+ }
+ }
+ return false;
+}
+
+bool CycleGraph::checkPromise(const ModelAction *fromact, Promise *promise) {
+ std::vector<CycleNode *, ModelAlloc<CycleNode *> > queue;
+ discovered->reset();
+ CycleNode *from = actionToNode.get(fromact);
+
+
+ queue.push_back(from);
+ discovered->put(from, from);
+ while(!queue.empty()) {
+ CycleNode * node=queue.back();
+ queue.pop_back();
+
+ if (promise->increment_threads(node->getAction()->get_tid())) {
+ return true;
+ }
+
+ for(unsigned int i=0;i<node->getEdges()->size();i++) {
+ CycleNode *next=(*node->getEdges())[i];
+ if (!discovered->contains(next)) {
+ discovered->put(next,next);
queue.push_back(next);
}
}
* Adds an edge from this CycleNode to another CycleNode.
* @param node The node to which we add a directed edge
*/
-void CycleNode::addEdge(CycleNode *node) {
+bool CycleNode::addEdge(CycleNode *node) {
+ for(unsigned int i=0;i<edges.size();i++)
+ if (edges[i]==node)
+ return false;
edges.push_back(node);
+ return true;
}
/** @returns the RMW CycleNode that reads from the current CycleNode */