private HashMap<Integer, ReadWriteSet> readWriteFieldsMap; // Record fields that are accessed
private HashMap<Integer, RestorableVMState> restorableStateMap; // Maps state IDs to the restorable state object
private HashMap<Integer, Integer> stateToChoiceCounterMap; // Maps state IDs to the choice counter
- private HashMap<Integer, ReachabilityGraph> stateToRGraph; // Maps state IDs to a ReachabilityGraph
+ private HashMap<Integer, ArrayList<ReachableTrace>> rGraph; // Create a reachability graph
// Boolean states
private boolean isBooleanCGFlipped;
}
// This class stores a compact representation of a reachability graph for past executions
- private class ReachabilityGraph {
+ private class ReachableTrace {
private ArrayList<BacktrackPoint> pastBacktrackPointList;
private HashMap<Integer, ReadWriteSet> pastReadWriteFieldsMap;
- public ReachabilityGraph(ArrayList<BacktrackPoint> btrackPointList,
+ public ReachableTrace(ArrayList<BacktrackPoint> btrackPointList,
HashMap<Integer, ReadWriteSet> rwFieldsMap) {
pastBacktrackPointList = btrackPointList;
pastReadWriteFieldsMap = rwFieldsMap;
doneBacktrackSet = new HashSet<>();
readWriteFieldsMap = new HashMap<>();
stateToChoiceCounterMap = new HashMap<>();
- stateToRGraph = new HashMap<>();
+ rGraph = new HashMap<>();
// Booleans
isEndOfExecution = false;
}
HashSet<Integer> eventSet = new HashSet<>();
stateToEventMap.put(stateId, eventSet);
}
- // Save execution state into the map
- if (!prevVisitedStates.contains(stateId)) {
- ReachabilityGraph reachabilityGraph = new
- ReachabilityGraph(backtrackPointList, readWriteFieldsMap);
- stateToRGraph.put(stateId, reachabilityGraph);
+ // Save execution state into the Reachability only if
+ // (1) It is not a revisited state from a past execution, or
+ // (2) It is just a new backtracking point
+ if (!prevVisitedStates.contains(stateId) ||
+ choiceCounter <= 1) {
+ ReachableTrace reachableTrace= new
+ ReachableTrace(backtrackPointList, readWriteFieldsMap);
+ ArrayList<ReachableTrace> rTrace;
+ if (!prevVisitedStates.contains(stateId)) {
+ rTrace = new ArrayList<>();
+ rGraph.put(stateId, rTrace);
+ } else {
+ rTrace = rGraph.get(stateId);
+ }
+ rTrace.add(reachableTrace);
}
stateToChoiceCounterMap.put(stateId, choiceCounter);
analyzeReachabilityAndCreateBacktrackPoints(search.getVM(), stateId);
return pastConfChoice;
}
- // Save the information from this execution for future reachability analysis
-// private void saveExecutionInfo() {
-// Set<Integer> states = stateToChoiceCounterMap.keySet();
-// // Map all the states visited in this execution to the same ReachabilityGraph object for fast access
-// for(Integer state : states) {
-// if (!prevVisitedStates.contains(state)) {
-// ReachabilityGraph reachabilityGraph = new
-// ReachabilityGraph(backtrackPointList, readWriteFieldsMap);
-// stateToRGraph.put(state, reachabilityGraph);
-// }
-// }
-// }
+ // Get a sorted list of reachable state IDs starting from the input stateId
+ private ArrayList<Integer> getReachableStateIds(Set<Integer> stateIds, int stateId) {
+ // Only include state IDs equal or greater than the input stateId: these are reachable states
+ ArrayList<Integer> sortedStateIds = new ArrayList<>();
+ for(Integer stId : stateIds) {
+ if (stId >= stateId) {
+ sortedStateIds.add(stId);
+ }
+ }
+ Collections.sort(sortedStateIds);
+ return sortedStateIds;
+ }
// Update the backtrack sets in the cycle
private void updateBacktrackSetsInCycle(int stateId) {
}
}
+ // TODO: OPTIMIZATION!
+ // Check and make sure that state ID and choice haven't been explored for this trace
+ private boolean isNotChecked(HashMap<Integer, HashSet<Integer>> checkedStateIdAndChoice,
+ BacktrackPoint backtrackPoint) {
+ int stateId = backtrackPoint.getStateId();
+ int choice = backtrackPoint.getChoice();
+ HashSet<Integer> choiceSet;
+ if (checkedStateIdAndChoice.containsKey(stateId)) {
+ choiceSet = checkedStateIdAndChoice.get(stateId);
+ if (choiceSet.contains(choice)) {
+ // State ID and choice found. It has been checked!
+ return false;
+ }
+ } else {
+ choiceSet = new HashSet<>();
+ checkedStateIdAndChoice.put(stateId, choiceSet);
+ }
+ choiceSet.add(choice);
+
+ return true;
+ }
+
// Update the backtrack sets in a previous execution
private void updateBacktrackSetsInPreviousExecution(int stateId) {
- // Find the right ReachabilityGraph object that contains the stateId
- ReachabilityGraph rGraph = stateToRGraph.get(stateId);
- // Find the choice/event that marks the start of the subtrace from the previous execution
- ArrayList<BacktrackPoint> pastBacktrackPointList = rGraph.getPastBacktrackPointList();
- HashMap<Integer, ReadWriteSet> pastReadWriteFieldsMap = rGraph.getPastReadWriteFieldsMap();
- int pastConfChoice = getPastConflictChoice(stateId, pastBacktrackPointList);
- int conflictChoice = choiceCounter;
- // Iterate from the starting point until the end of the past execution trace
- while (pastConfChoice < pastBacktrackPointList.size() - 1) { // BacktrackPoint list always has a surplus of 1
- // Get the info of the event from the past execution trace
- BacktrackPoint confBtrackPoint = pastBacktrackPointList.get(pastConfChoice);
- ReadWriteSet rwSet = pastReadWriteFieldsMap.get(pastConfChoice);
- // Append this event to the current list and map
- backtrackPointList.add(confBtrackPoint);
- readWriteFieldsMap.put(choiceCounter, rwSet);
- for (int eventCounter = conflictChoice - 1; eventCounter >= 0; eventCounter--) {
- if (isConflictFound(eventCounter, conflictChoice, true) && isNewConflict(conflictChoice, eventCounter)) {
- createBacktrackingPoint(conflictChoice, eventCounter, true);
+ // Don't check a past trace twice!
+ HashSet<ReachableTrace> checkedTrace = new HashSet<>();
+ // Don't check the same event twice for a revisited state
+ HashMap<Integer, HashSet<Integer>> checkedStateIdAndChoice = new HashMap<>();
+ // Get sorted reachable state IDs
+ ArrayList<Integer> reachableStateIds = getReachableStateIds(rGraph.keySet(), stateId);
+ // Iterate from this state ID until the biggest state ID
+ for(Integer stId : reachableStateIds) {
+ // Find the right reachability graph object that contains the stateId
+ ArrayList<ReachableTrace> rTraces = rGraph.get(stId);
+ for (ReachableTrace rTrace : rTraces) {
+ if (!checkedTrace.contains(rTrace)) {
+ // Find the choice/event that marks the start of the subtrace from the previous execution
+ ArrayList<BacktrackPoint> pastBacktrackPointList = rTrace.getPastBacktrackPointList();
+ HashMap<Integer, ReadWriteSet> pastReadWriteFieldsMap = rTrace.getPastReadWriteFieldsMap();
+ int pastConfChoice = getPastConflictChoice(stId, pastBacktrackPointList);
+ int conflictChoice = choiceCounter;
+ // Iterate from the starting point until the end of the past execution trace
+ while (pastConfChoice < pastBacktrackPointList.size() - 1) { // BacktrackPoint list always has a surplus of 1
+ // Get the info of the event from the past execution trace
+ BacktrackPoint confBtrackPoint = pastBacktrackPointList.get(pastConfChoice);
+ if (isNotChecked(checkedStateIdAndChoice, confBtrackPoint)) {
+ ReadWriteSet rwSet = pastReadWriteFieldsMap.get(pastConfChoice);
+ // Append this event to the current list and map
+ backtrackPointList.add(confBtrackPoint);
+ readWriteFieldsMap.put(choiceCounter, rwSet);
+ for (int eventCounter = conflictChoice - 1; eventCounter >= 0; eventCounter--) {
+ if (isConflictFound(eventCounter, conflictChoice, true) && isNewConflict(conflictChoice, eventCounter)) {
+ createBacktrackingPoint(conflictChoice, eventCounter, true);
+ }
+ }
+ // Remove this event to replace it with a new one
+ backtrackPointList.remove(backtrackPointList.size() - 1);
+ readWriteFieldsMap.remove(choiceCounter);
+ }
+ pastConfChoice++;
+ }
+ checkedTrace.add(rTrace);
}
}
- // Remove this event to replace it with a new one
- backtrackPointList.remove(backtrackPointList.size() - 1);
- readWriteFieldsMap.remove(choiceCounter);
- pastConfChoice++;
}
}
}
projects / jpf-core.git / commitdiff