import java.util.*;
import Analysis.CallGraph.CallGraph;
+import Analysis.Locality.LocalityAnalysis;
import Analysis.Prefetch.PrefetchPair;
+import Analysis.Prefetch.PairMap;
import Analysis.Prefetch.IndexDescriptor;
import IR.SymbolTable;
import IR.State;
State state;
CallGraph callgraph;
TypeUtil typeutil;
+ LoopExit loop;
+
Set<FlatNode> tovisit;
- Hashtable<FlatNode, Hashtable<PrefetchPair, Float>> prefetch_hash;
- Hashtable<PrefetchPair, Float> branch_prefetch_set;
- public static final int ROUNDED_MODE = 30;
- public static final float THRESHOLD_PROB = (float)0.2;
- public static final float BRANCH_TRUE_EDGE_PROB = (float)0.5;
- public static final float BRANCH_FALSE_EDGE_PROB = (float)0.5;
-
- /** This function finds if a tempdescriptor object is found in a given prefetch pair
- * It returns true if found else returns false*/
- private boolean isTempDescFound(PrefetchPair pp, TempDescriptor td) {
- ArrayList<Descriptor> desc = (ArrayList<Descriptor>) pp.getDesc();
- ListIterator it = desc.listIterator();
- for(;it.hasNext();) {
- Object o = it.next();
- if(o instanceof IndexDescriptor) {
- ArrayList<TempDescriptor> tdarray = (ArrayList<TempDescriptor>)((IndexDescriptor)o).tddesc;
- if(tdarray.contains(td)) {
- return true;
- }
- }
- }
- return false;
- }
-
- /** This function creates a new Arraylist of Descriptors by replacing old tempdescriptors with new
- * tempdescriptors when there is a match for FlatOpNodes or FlatLiteralNodes */
- private ArrayList<Descriptor> getNewDesc(PrefetchPair pp, TempDescriptor td, TempDescriptor newtd) {
- ArrayList<Descriptor> desc = (ArrayList<Descriptor>) pp.getDesc();
- ListIterator it = desc.listIterator();
- for(;it.hasNext();) {
- Object currdesc = it.next();
- if(currdesc instanceof IndexDescriptor) {
- ArrayList<TempDescriptor> tdarray = (ArrayList<TempDescriptor>)((IndexDescriptor)currdesc).tddesc;
- if(tdarray.contains(td)) {
- int index = tdarray.indexOf(td);
- tdarray.set(index, newtd);
- }
- }
- }
- return desc;
- }
-
- /** This function creates a new Arraylist of Descriptors by replacing old tempdescriptors with new
- * tempdescriptors when there is a match for FlatOpNodes i= i+j then replace i with i+j */
- private ArrayList<Descriptor> getNewDesc(PrefetchPair pp, TempDescriptor td, TempDescriptor left, TempDescriptor right) {
- ArrayList<Descriptor> desc = (ArrayList<Descriptor>) pp.getDesc();
- ListIterator it = desc.listIterator();
- for(;it.hasNext();) {
- Object currdesc = it.next();
- if(currdesc instanceof IndexDescriptor) {
- ArrayList<TempDescriptor> tdarray = (ArrayList<TempDescriptor>)((IndexDescriptor)currdesc).tddesc;
- if(tdarray.contains(td)) {
- int index = tdarray.indexOf(td);
- tdarray.set(index, left);
- tdarray.add(right);
- }
- }
- }
- return desc;
- }
-
- public PrefetchAnalysis(State state, CallGraph callgraph, TypeUtil typeutil) {
- this.typeutil=typeutil;
- this.state=state;
- this.callgraph=callgraph;
- prefetch_hash = new Hashtable<FlatNode, Hashtable<PrefetchPair,Float>>();
- DoPrefetch();
+ public Hashtable<FlatNode, Hashtable<PrefetchPair, Double>> prefetch_hash;//holds all flatnodes and corresponding prefetch set
+ public Hashtable<FlatNode, Hashtable<FlatNode, PairMap>> pmap_hash;//holds all flatnodes and mappings between child prefetch pair and parent prefetch pair
+ public static final double PROB_DIFF = 0.05; //threshold for difference in probabilities during first phase of analysis
+ public static final double ANALYSIS_THRESHOLD_PROB = 0.10; //threshold for prefetches to stop propagating during first phase of analysis
+ public static final double PREFETCH_THRESHOLD_PROB = 0.30;//threshold for prefetches to stop propagating while applying prefetch rules during second phase of analysis
+ public static int prefetchsiteid = 1; //initialized to one because there is a prefetch siteid 0 for starting remote thread
+ LocalityAnalysis locality;
+
+ public PrefetchAnalysis(State state, CallGraph callgraph, TypeUtil typeutil, LocalityAnalysis locality) {
+ this.typeutil=typeutil;
+ this.state=state;
+ this.callgraph=callgraph;
+ this.locality=locality;
+ prefetch_hash = new Hashtable<FlatNode, Hashtable<PrefetchPair,Double>>();
+ pmap_hash = new Hashtable<FlatNode, Hashtable<FlatNode, PairMap>>();
+ this.loop=new LoopExit(state);
+ DoPrefetch();
}
-
+
+
/** This function starts the prefetch analysis */
private void DoPrefetch() {
- Iterator classit=state.getClassSymbolTable().getDescriptorsIterator();
- while(classit.hasNext()) {
- ClassDescriptor cn=(ClassDescriptor)classit.next();
- doMethodAnalysis(cn);
- }
- }
-
- /** This function calls analysis for every method in a class */
- private void doMethodAnalysis(ClassDescriptor cn) {
- Iterator methodit=cn.getMethods();
- while(methodit.hasNext()) {
- /* Classify parameters */
- MethodDescriptor md=(MethodDescriptor)methodit.next();
- FlatMethod fm=state.getMethodFlat(md);
- doFlatNodeAnalysis(fm);
- }
+ for (Iterator methodit=locality.getMethods().iterator();methodit.hasNext();) {
+ MethodDescriptor md=(MethodDescriptor)methodit.next();
+ if (state.excprefetch.contains(md.getClassMethodName()))
+ continue; //Skip this method
+ Hashtable<FlatNode, HashSet<PrefetchPair>> newprefetchset = new Hashtable<FlatNode, HashSet<PrefetchPair>>();
+ FlatMethod fm=state.getMethodFlat(md);
+ doFlatNodeAnalysis(fm);
+ doInsPrefetchAnalysis(fm, newprefetchset);
+ if(newprefetchset.size() > 0) {
+ addFlatPrefetchNode(newprefetchset);
+ }
+ newprefetchset = null;
+ }
}
-
+
/** This function calls analysis for every node in a method */
private void doFlatNodeAnalysis(FlatMethod fm) {
- tovisit = fm.getNodeSet();
- Hashtable<PrefetchPair, Float> nodehash = new Hashtable<PrefetchPair, Float>();
- /* Create Empty Prefetch Sets for all flat nodes in the global hashtable */
- while(!tovisit.isEmpty()) {
- FlatNode fn = (FlatNode)tovisit.iterator().next();
- prefetch_hash.put(fn, nodehash);
- tovisit.remove(fn);
- }
- /* Visit and process nodes */
- tovisit = fm.getNodeSet();
- while(!tovisit.isEmpty()) {
- FlatNode fn = (FlatNode)tovisit.iterator().next();
- /* Generate prefetch pairs after the child node analysis */
- doChildNodeAnalysis(fn);
- tovisit.remove(fn);
- }
- }
+ tovisit = fm.getNodeSet();
+ Hashtable<PrefetchPair, Double> nodehash = new Hashtable<PrefetchPair, Double>();
+ /* Create Empty Prefetch Sets for all flat nodes in the global hashtable */
+ while(!tovisit.isEmpty()) {
+ FlatNode fn = (FlatNode)tovisit.iterator().next();
+ prefetch_hash.put(fn, nodehash);
+ tovisit.remove(fn);
+ }
+ /* Visit and process nodes */
+ tovisit = fm.getNodeSet();
+ while(!tovisit.isEmpty()) {
+ FlatNode fn = (FlatNode)tovisit.iterator().next();
+ doChildNodeAnalysis(fm.getMethod(),fn);
+ tovisit.remove(fn);
+ }
+ }
+
/**
* This function generates the prefetch sets for a given Flatnode considering the kind of node
* It calls severals functions based on the kind of the node and
* returns true: if the prefetch set has changed since last time the node was analysed
* returns false : otherwise
*/
- private void doChildNodeAnalysis(FlatNode curr) {
- Hashtable<PrefetchPair, Float> child_prefetch_set_copy = new Hashtable<PrefetchPair, Float>();
- FlatNode child_node = null;
+ private void doChildNodeAnalysis(MethodDescriptor md, FlatNode curr) {
+ if (curr.kind()==FKind.FlatCondBranch) {
+ processFlatCondBranch((FlatCondBranch)curr, md);
+ } else {
+ Hashtable<PrefetchPair, Double> child_prefetch_set_copy = new Hashtable<PrefetchPair, Double>();
if(curr.numNext() != 0) {
- child_node = curr.getNext(0);
- if(prefetch_hash.containsKey(child_node)) {
- child_prefetch_set_copy = (Hashtable<PrefetchPair,Float>) prefetch_hash.get(child_node).clone();
- }
+ FlatNode child_node = curr.getNext(0);
+ if(prefetch_hash.containsKey(child_node)) {
+ child_prefetch_set_copy = (Hashtable<PrefetchPair,Double>) prefetch_hash.get(child_node).clone();
+ }
+
}
switch(curr.kind()) {
- case FKind.FlatBackEdge:
- processDefaultCase(curr,child_prefetch_set_copy);
- break;
- case FKind.FlatCall:
- //TODO change it to take care of FlatMethod, Flatcalls
- //processDefaultCase(curr,child_prefetch_set_copy);
- processFlatCall(curr, child_prefetch_set_copy);
- break;
- case FKind.FlatCheckNode:
- processDefaultCase(curr,child_prefetch_set_copy);
- break;
- case FKind.FlatMethod:
- //TODO change it to take care of FlatMethod, Flatcalls
- processFlatMethod(curr, child_prefetch_set_copy);
- break;
- case FKind.FlatNew:
- processFlatNewNode(curr, child_prefetch_set_copy);
- break;
- case FKind.FlatReturnNode:
- //TODO change it to take care of FlatMethod, Flatcalls
- processDefaultCase(curr,child_prefetch_set_copy);
- break;
- case FKind.FlatFieldNode:
- processFlatFieldNode(curr, child_prefetch_set_copy);
- break;
- case FKind.FlatElementNode:
- processFlatElementNode(curr, child_prefetch_set_copy);
- break;
- case FKind.FlatCondBranch:
- branch_prefetch_set = new Hashtable<PrefetchPair,Float>();
- for (int i = 0; i < curr.numNext(); i++) {
- child_node = curr.getNext(i);
- if (prefetch_hash.containsKey(child_node)) {
- child_prefetch_set_copy = (Hashtable<PrefetchPair,Float>) prefetch_hash.get(child_node).clone();
- }
- processFlatCondBranch(curr, child_prefetch_set_copy, i, branch_prefetch_set);
- }
- break;
- case FKind.FlatOpNode:
- processFlatOpNode(curr, child_prefetch_set_copy);
- break;
- case FKind.FlatLiteralNode:
- processFlatLiteralNode(curr, child_prefetch_set_copy);
- break;
- case FKind.FlatSetElementNode:
- processFlatSetElementNode(curr, child_prefetch_set_copy);
- break;
- case FKind.FlatSetFieldNode:
- processFlatSetFieldNode(curr, child_prefetch_set_copy);
- break;
- case FKind.FlatAtomicEnterNode:
- processDefaultCase(curr,child_prefetch_set_copy);
- break;
- case FKind.FlatAtomicExitNode:
- processDefaultCase(curr,child_prefetch_set_copy);
- break;
- case FKind.FlatCastNode:
- processDefaultCase(curr,child_prefetch_set_copy);
- break;
- case FKind.FlatFlagActionNode:
- processDefaultCase(curr,child_prefetch_set_copy);
- break;
- case FKind.FlatGlobalConvNode:
- processDefaultCase(curr,child_prefetch_set_copy);
- break;
- case FKind.FlatNop:
- processDefaultCase(curr,child_prefetch_set_copy);
- break;
- case FKind.FlatTagDeclaration:
- processDefaultCase(curr,child_prefetch_set_copy);
- break;
- default:
- System.out.println("NO SUCH FLATNODE");
- break;
+ case FKind.FlatCall:
+ processCall((FlatCall)curr,child_prefetch_set_copy);
+ break;
+
+ case FKind.FlatBackEdge:
+ case FKind.FlatCheckNode:
+ case FKind.FlatReturnNode:
+ case FKind.FlatAtomicEnterNode:
+ case FKind.FlatAtomicExitNode:
+ case FKind.FlatFlagActionNode:
+ case FKind.FlatGlobalConvNode:
+ case FKind.FlatNop:
+ case FKind.FlatNew:
+ case FKind.FlatCastNode:
+ case FKind.FlatTagDeclaration:
+ processDefaultCase(curr,child_prefetch_set_copy);
+ break;
+ case FKind.FlatMethod:
+ //TODO change it to take care of FlatMethod, Flatcalls
+ processFlatMethod(curr, child_prefetch_set_copy);
+ break;
+ case FKind.FlatFieldNode:
+ processFlatFieldNode(curr, child_prefetch_set_copy);
+ break;
+ case FKind.FlatElementNode:
+ processFlatElementNode(curr, child_prefetch_set_copy);
+ break;
+ case FKind.FlatOpNode:
+ processFlatOpNode(curr, child_prefetch_set_copy);
+ break;
+ case FKind.FlatLiteralNode:
+ processFlatLiteralNode(curr, child_prefetch_set_copy);
+ break;
+ case FKind.FlatSetElementNode:
+ processFlatSetElementNode(curr, child_prefetch_set_copy);
+ break;
+ case FKind.FlatSetFieldNode:
+ processFlatSetFieldNode(curr, child_prefetch_set_copy);
+ break;
+ default:
+ throw new Error("No such Flatnode kind");
}
-}
-
-/**This function compares all the prefetch pairs in a Prefetch set hashtable and
- * returns: true if something has changed in the new Prefetch set else
- * returns: false
- */
-private boolean comparePrefetchSets(Hashtable<PrefetchPair, Float> oldPrefetchSet, Hashtable<PrefetchPair, Float>
- newPrefetchSet) {
- boolean hasChanged = false;
- PrefetchPair oldpp = null;
- PrefetchPair newpp = null;
-
- if(oldPrefetchSet.size() != newPrefetchSet.size()) {
- if(newPrefetchSet.size() == 0) {
- return false;
- }
- return true;
- } else {
- Enumeration e = newPrefetchSet.keys();
- while(e.hasMoreElements()) {
- newpp = (PrefetchPair) e.nextElement();
- float newprob = newPrefetchSet.get(newpp);
- for(Enumeration elem = oldPrefetchSet.keys(); elem.hasMoreElements();) {
- oldpp = (PrefetchPair) elem.nextElement();
- if(oldpp.equals(newpp)) {
- /*Compare the difference in their probabilities */
- float oldprob = oldPrefetchSet.get(oldpp);
- int diff = (int) ((newprob - oldprob)/oldprob)*100;
- if(diff >= ROUNDED_MODE) {
- return true;
- }
- break;
- }
- }
- }
}
- return hasChanged;
-}
-
-/** This function processes the prefetch set of FlatFieldNode
- * It generates a new prefetch set after comparision with its children
- * Then compares it with its old prefetch set
- * If old prefetch set is not same as new prefetch set then enqueue the parents
- * of the current FlatFieldNode
- * */
-private void processFlatFieldNode(FlatNode curr, Hashtable<PrefetchPair, Float> child_prefetch_set_copy) {
- boolean pSetHasChanged = false;
- Hashtable<PrefetchPair, Float> currcopy = new Hashtable<PrefetchPair, Float>();
- Hashtable<PrefetchPair, Float> tocompare = new Hashtable<PrefetchPair, Float>();
- FlatFieldNode currffn = (FlatFieldNode) curr;
-
- /* Do Self analysis of the current node*/
- FieldDescriptor currffn_field = currffn.getField();
- TempDescriptor currffn_src = currffn.getSrc();
- if (currffn_field.getType().isPtr()) {
- PrefetchPair pp = new PrefetchPair(currffn_src, (Descriptor) currffn_field);
- Float prob = new Float((float)1.0);
- currcopy.put(pp, prob);
+ }
+
+ /**This function compares all the prefetch pairs in a Prefetch set hashtable and
+ * returns: true if something has changed in the new Prefetch set else
+ * returns: false
+ */
+ private boolean comparePrefetchSets(Hashtable<PrefetchPair, Double> oldPrefetchSet, Hashtable<PrefetchPair, Double> newPrefetchSet) {
+ if (oldPrefetchSet.size()!=newPrefetchSet.size())
+ return true;
+
+ for(Enumeration e = newPrefetchSet.keys();e.hasMoreElements();) {
+ PrefetchPair pp = (PrefetchPair) e.nextElement();
+ double newprob = newPrefetchSet.get(pp).doubleValue();
+ if (!oldPrefetchSet.containsKey(pp))
+ return true;
+ double oldprob = oldPrefetchSet.get(pp).doubleValue();
+
+ if((newprob - oldprob) > PROB_DIFF) {
+ return true;
}
-
- /* Get each prefetch pair of the child and match it with the destination temp descriptor of curr FlatFieldNode */
- Enumeration ecld = child_prefetch_set_copy.keys();
- PrefetchPair currpp = null;
- PrefetchPair childpp = null;
- while (ecld.hasMoreElements()) {
- childpp = (PrefetchPair) ecld.nextElement();
- if (childpp.base == currffn.getDst() && (childpp.getDesc()!= null)) {
- if (currffn.getField().getType().isPtr()) {
- /* Create a new Prefetch set*/
- ArrayList<Descriptor> newdesc = new ArrayList<Descriptor>();
- newdesc.add(currffn.getField());
- newdesc.addAll(childpp.desc);
- PrefetchPair newpp = new PrefetchPair(currffn.getSrc(), newdesc);
- Float newprob = child_prefetch_set_copy.get(childpp).floatValue();
- tocompare.put(newpp, newprob);
- child_prefetch_set_copy.remove(childpp);
- /* Check for independence of prefetch pairs if any in the child prefetch set
- * to compute new probability */
- if(child_prefetch_set_copy.containsKey(newpp)) {
- newprob = (float)(1.0 - ((1.0 - child_prefetch_set_copy.get(newpp).floatValue()) * (1.0 - tocompare.get(newpp).floatValue())));
- if(newprob < THRESHOLD_PROB) {
- tocompare.remove(newpp);
- } else {
- tocompare.put(newpp, newprob);
- }
- child_prefetch_set_copy.remove(newpp);
- }
- }
- } else if(childpp.base == currffn.getDst() && (childpp.getDesc() == null)) {
- child_prefetch_set_copy.remove(childpp);
- } else {
- continue;
- }
+ if (newprob >= PREFETCH_THRESHOLD_PROB && oldprob < PREFETCH_THRESHOLD_PROB) {
+ return true;
}
- /* Check if curr prefetch set and the child prefetch set have same prefetch pairs
- * if so calculate the new probability and then remove the common one from the child prefetch set */
- ecld = child_prefetch_set_copy.keys();
- Enumeration e = null;
- while(ecld.hasMoreElements()) {
- childpp = (PrefetchPair) ecld.nextElement();
- for(e = currcopy.keys(); e.hasMoreElements();) {
- currpp = (PrefetchPair) e.nextElement();
- if(currpp.equals(childpp)) {
- /* Probability of the incoming edge for a FlatFieldNode is always 100% */
- Float prob = currcopy.get(currpp).floatValue();
- currcopy.put(currpp, prob);
- child_prefetch_set_copy.remove(childpp);
- break;
- }
- }
+ if (oldprob>newprob) {
+ System.out.println("ERROR:" + pp);
+ System.out.println(oldprob + " -> "+ newprob);
}
+ }
+ return false;
+ }
- /* Merge child prefetch pairs */
- ecld = child_prefetch_set_copy.keys();
- while(ecld.hasMoreElements()) {
- childpp = (PrefetchPair) ecld.nextElement();
- tocompare.put(childpp, child_prefetch_set_copy.get(childpp));
- child_prefetch_set_copy.remove(childpp);
- }
+ private void updatePairMap(FlatNode curr, PairMap pm, int index) {
+ if (index>=curr.numNext())
+ return;
+ if (!pmap_hash.containsKey(curr.getNext(index))) {
+ pmap_hash.put(curr.getNext(index), new Hashtable<FlatNode, PairMap>());
+ }
+ pmap_hash.get(curr.getNext(index)).put(curr, pm);
+ }
- /* Merge curr prefetch pairs */
- e = currcopy.keys();
- while(e.hasMoreElements()) {
- currpp = (PrefetchPair) e.nextElement();
- tocompare.put(currpp, currcopy.get(currpp));
- currcopy.remove(currpp);
+ private void updatePrefetchSet(FlatNode curr, Hashtable<PrefetchPair, Double> newset) {
+ Hashtable<PrefetchPair, Double>oldset=prefetch_hash.get(curr);
+ if (comparePrefetchSets(oldset, newset)) {
+ for(int i=0;i<curr.numPrev();i++) {
+ tovisit.add(curr.getPrev(i));
}
+ prefetch_hash.put(curr, newset);
+ }
+ }
- /* Compare with the orginal prefetch pairs */
- pSetHasChanged = comparePrefetchSets(prefetch_hash.get(curr), tocompare);
- /* Enqueue parent nodes */
- if(pSetHasChanged) {
- for(int i=0; i<curr.numPrev(); i++) {
- tovisit.add(curr.getPrev(i));
+
+ /** This function processes the prefetch set of FlatFieldNode
+ * It generates a new prefetch set after comparision with its children
+ * Then compares it with its old prefetch set
+ * If old prefetch set is not same as new prefetch set then enqueue the parents
+ * of the current FlatFieldNode
+ * */
+ private void processFlatFieldNode(FlatNode curr, Hashtable<PrefetchPair, Double> child_prefetch_set_copy) {
+ Hashtable<PrefetchPair, Double> currcopy = new Hashtable<PrefetchPair, Double>();
+ Hashtable<PrefetchPair, Double> tocompare = new Hashtable<PrefetchPair, Double>();
+ FlatFieldNode currffn = (FlatFieldNode) curr;
+ PairMap pm = new PairMap();
+
+ /* Do Self analysis of the current node*/
+ FieldDescriptor currffn_field = currffn.getField();
+ TempDescriptor currffn_src = currffn.getSrc();
+ if (currffn_field.getType().isPtr()) {
+ PrefetchPair pp = new PrefetchPair(currffn_src, (Descriptor) currffn_field);
+ Double prob = new Double(1.0);
+ tocompare.put(pp, prob);
+ }
+
+ /* Get each prefetch pair of the child and match it with the destination temp descriptor of curr FlatFieldNode */
+
+ for (Enumeration ecld = child_prefetch_set_copy.keys();ecld.hasMoreElements();) {
+ PrefetchPair childpp = (PrefetchPair) ecld.nextElement();
+ if (childpp.base == currffn.getDst() && (childpp.getDesc()!= null)) {
+ if (currffn.getField().getType().isPtr()) {
+ ArrayList<Descriptor> newdesc = new ArrayList<Descriptor>();
+ newdesc.add(currffn.getField());
+ newdesc.addAll(childpp.desc);
+ PrefetchPair newpp = new PrefetchPair(currffn.getSrc(), newdesc);
+ Double newprob = child_prefetch_set_copy.get(childpp).doubleValue();
+ if (tocompare.containsKey(newpp)) {
+ Double oldprob=tocompare.get(newpp);
+ newprob=1.0-(1.0-oldprob)*(1.0-newprob);
}
- /* Overwrite the new prefetch set to the global hash table */
- prefetch_hash.put(curr,tocompare);
- }
- }
+ tocompare.put(newpp, newprob);
+ pm.addPair(childpp, newpp);
+ }
+ //drop if not ptr
+ } else if(childpp.base == currffn.getDst() && (childpp.getDesc() == null)) {
+ //covered by current prefetch
+ child_prefetch_set_copy.remove(childpp);
+ } else if(childpp.containsTemp(currffn.getDst())) {
+ child_prefetch_set_copy.remove(childpp);
+ } else {
+ Double newprob = child_prefetch_set_copy.get(childpp).doubleValue();
+ if (tocompare.containsKey(childpp)) {
+ Double oldprob=tocompare.get(childpp);
+ newprob=1.0-(1.0-oldprob)*(1.0-newprob);
+ }
+ tocompare.put(childpp, newprob);
+ pm.addPair(childpp, childpp);
+ }
+ }
+ for(Iterator<PrefetchPair> it=tocompare.keySet().iterator();it.hasNext();) {
+ PrefetchPair pp=it.next();
+ if (tocompare.get(pp)<ANALYSIS_THRESHOLD_PROB)
+ it.remove();
+
+ }
+
+ updatePairMap(curr, pm, 0);
+ updatePrefetchSet(curr, tocompare);
+ }
+
/** This function processes the prefetch set of a FlatElementNode
* It generates a new prefetch set after comparision with its children
* It compares the old prefetch set with this new prefetch set and enqueues the parents
* of the current node if change occurs and updates the global flatnode hash table
* */
- private void processFlatElementNode(FlatNode curr, Hashtable<PrefetchPair, Float> child_prefetch_set_copy) {
-
- boolean pSetHasChanged = false;
- Hashtable<PrefetchPair, Float> currcopy = new Hashtable<PrefetchPair, Float>();
- Hashtable<PrefetchPair, Float> tocompare = new Hashtable<PrefetchPair, Float>();
- FlatElementNode currfen = (FlatElementNode) curr;
-
- /* Do Self analysis of the current node*/
- TempDescriptor currfen_index = currfen.getIndex();
- IndexDescriptor idesc = new IndexDescriptor(currfen_index, 0);
- TempDescriptor currfen_src = currfen.getSrc();
- if(currfen.getDst().getType().isPtr()) {
- PrefetchPair pp = new PrefetchPair(currfen_src, (Descriptor) idesc);
- Float prob = new Float((float)1.0);
- currcopy.put(pp, prob);
- }
-
- /* Get each prefetch pair of the child and match it with the destination temp descriptor of curr FlatFieldNode */
- Enumeration ecld = child_prefetch_set_copy.keys();
- PrefetchPair currpp = null;
- PrefetchPair childpp = null;
- while (ecld.hasMoreElements()) {
- childpp = (PrefetchPair) ecld.nextElement();
- if (childpp.base == currfen.getDst() && (childpp.getDesc()!= null)) {
- if (currfen.getDst().getType().isPtr()) {
- //if match exists then create a new Prefetch set with the new prefetch pair in a new hash table
- ArrayList<Descriptor> newdesc = new ArrayList<Descriptor>();
- newdesc.add((Descriptor)idesc);
- newdesc.addAll(childpp.desc);
- PrefetchPair newpp = new PrefetchPair(currfen.getSrc(), newdesc);
- Float newprob = child_prefetch_set_copy.get(childpp).floatValue();
- tocompare.put(newpp, newprob);
- child_prefetch_set_copy.remove(childpp);
- /* Check for independence of prefetch pairs if any in the child prefetch set
- * to compute new probability */
- if(child_prefetch_set_copy.containsKey(newpp)) {
- newprob = (float)(1.0 - ((1.0 - child_prefetch_set_copy.get(newpp).floatValue()) * (1.0 - tocompare.get(newpp).floatValue())));
- if(newprob < THRESHOLD_PROB) {
- tocompare.remove(newpp);
- } else {
- tocompare.put(newpp, newprob);
- }
- child_prefetch_set_copy.remove(newpp);
- }
- }
- } else if(childpp.base == currfen.getDst() && (childpp.getDesc() == null)) {
- child_prefetch_set_copy.remove(childpp);
- }
- }
- /* Check if curr prefetch set and the child prefetch set have same prefetch pairs
- * if so calculate the new probability and then remove the common one from the child prefetch set */
- ecld = child_prefetch_set_copy.keys();
- Enumeration e = null;
- while(ecld.hasMoreElements()) {
- childpp = (PrefetchPair) ecld.nextElement();
- for(e = currcopy.keys(); e.hasMoreElements();) {
- currpp = (PrefetchPair) e.nextElement();
- if(currpp.equals(childpp)) {
- /* Probability of the incoming edge for a FlatElementNode is always 100% */
- Float prob = currcopy.get(currpp).floatValue();
- currcopy.put(currpp, prob);
- child_prefetch_set_copy.remove(childpp);
- break;
- }
+ private void processFlatElementNode(FlatNode curr, Hashtable<PrefetchPair, Double> child_prefetch_set_copy) {
+
+ Hashtable<PrefetchPair, Double> currcopy = new Hashtable<PrefetchPair, Double>();
+ Hashtable<PrefetchPair, Double> tocompare = new Hashtable<PrefetchPair, Double>();
+ FlatElementNode currfen = (FlatElementNode) curr;
+ PairMap pm = new PairMap();
+
+
+ /* Do Self analysis of the current node*/
+ TempDescriptor currfen_index = currfen.getIndex();
+ IndexDescriptor idesc = new IndexDescriptor(currfen_index, 0);
+ TempDescriptor currfen_src = currfen.getSrc();
+ if(currfen.getDst().getType().isPtr()) {
+ PrefetchPair pp = new PrefetchPair(currfen_src, (Descriptor) idesc);
+ Double prob = new Double(1.0);
+ currcopy.put(pp, prob);
+ }
+
+ /* Get each prefetch pair of the child and match it with the destination temp descriptor of curr FlatFieldNode */
+ PrefetchPair currpp = null;
+ for (Enumeration ecld = child_prefetch_set_copy.keys();ecld.hasMoreElements();) {
+ PrefetchPair childpp = (PrefetchPair) ecld.nextElement();
+ if (childpp.base == currfen.getDst() && (childpp.getDesc()!= null)) {
+ if (currfen.getDst().getType().isPtr()) {
+ ArrayList<Descriptor> newdesc = new ArrayList<Descriptor>();
+ newdesc.add((Descriptor)idesc);
+ newdesc.addAll(childpp.desc);
+ PrefetchPair newpp = new PrefetchPair(currfen.getSrc(), newdesc);
+ Double newprob = child_prefetch_set_copy.get(childpp).doubleValue();
+ tocompare.put(newpp, newprob);
+ pm.addPair(childpp, newpp);
+ child_prefetch_set_copy.remove(childpp);
+ /* Check for independence of prefetch pairs to compute new probability */
+ if(child_prefetch_set_copy.containsKey(newpp)) {
+ newprob = (1.0 - ((1.0 - child_prefetch_set_copy.get(newpp).doubleValue()) * (1.0 - tocompare.get(newpp).doubleValue())));
+ if(newprob < ANALYSIS_THRESHOLD_PROB) {
+ tocompare.remove(newpp);
+ } else {
+ tocompare.put(newpp, newprob);
+ pm.addPair(newpp, newpp);
+ }
+ child_prefetch_set_copy.remove(newpp);
}
+ }
+ } else if(childpp.base == currfen.getDst() && (childpp.getDesc() == null)) {
+ child_prefetch_set_copy.remove(childpp);
+ } else if(childpp.containsTemp(currfen.getDst())) {
+ child_prefetch_set_copy.remove(childpp);
+ } else {
+ continue;
}
-
- /* Merge child prefetch pairs */
- ecld = child_prefetch_set_copy.keys();
- while(ecld.hasMoreElements()) {
- childpp = (PrefetchPair) ecld.nextElement();
- tocompare.put(childpp, child_prefetch_set_copy.get(childpp));
+ }
+ /* Check if curr prefetch set and the child prefetch set have same prefetch pairs
+ * if so calculate the new probability */
+ for(Enumeration ecld = child_prefetch_set_copy.keys();ecld.hasMoreElements();) {
+ PrefetchPair childpp = (PrefetchPair) ecld.nextElement();
+ for(Enumeration e = currcopy.keys(); e.hasMoreElements();) {
+ currpp = (PrefetchPair) e.nextElement();
+ if(currpp.equals(childpp)) {
+ pm.addPair(childpp, currpp);
child_prefetch_set_copy.remove(childpp);
+ break;
+ }
}
-
- /* Merge curr prefetch pairs */
- e = currcopy.keys();
- while(e.hasMoreElements()) {
- currpp = (PrefetchPair) e.nextElement();
- tocompare.put(currpp, currcopy.get(currpp));
- currcopy.remove(currpp);
- }
-
- /* Compare with the orginal prefetch pairs */
- pSetHasChanged = comparePrefetchSets(prefetch_hash.get(curr), tocompare);
- /* Enqueue parent nodes */
- if(pSetHasChanged) {
- for(int i=0; i<curr.numPrev(); i++) {
- tovisit.add(curr.getPrev(i));
- }
- /* Overwrite the new prefetch set to the global hash table */
- prefetch_hash.put(curr,tocompare);
- }
+ }
+
+ /* Merge child prefetch pairs */
+ for (Enumeration ecld = child_prefetch_set_copy.keys();ecld.hasMoreElements();) {
+ PrefetchPair childpp = (PrefetchPair) ecld.nextElement();
+ tocompare.put(childpp, child_prefetch_set_copy.get(childpp).doubleValue());
+ pm.addPair(childpp, childpp);
+ child_prefetch_set_copy.remove(childpp);
+ }
+
+ /* Merge curr prefetch pairs */
+ for (Enumeration e = currcopy.keys();e.hasMoreElements();) {
+ currpp = (PrefetchPair) e.nextElement();
+ tocompare.put(currpp, currcopy.get(currpp).doubleValue());
+ currcopy.remove(currpp);
+ }
+
+ updatePairMap(curr, pm, 0);
+ updatePrefetchSet(curr, tocompare);
}
-
+
/** This function processes the prefetch set of a FlatSetFieldNode
* It generates a new prefetch set after comparision with its children
* It compares the old prefetch set with this new prefetch set and enqueues the parents
* of the current node if change occurs and then updates the global flatnode hash table
* */
- private void processFlatSetFieldNode(FlatNode curr, Hashtable<PrefetchPair, Float> child_prefetch_set_copy) {
- boolean pSetHasChanged = false;
- Hashtable<PrefetchPair, Float> tocompare = new Hashtable<PrefetchPair, Float>();
- FlatSetFieldNode currfsfn = (FlatSetFieldNode) curr;
- PrefetchPair childpp = null;
-
- /* Get each prefetch pair of the child and match it with the destination temp descriptor of curr FlatFieldNode */
- Enumeration ecld = child_prefetch_set_copy.keys();
- while (ecld.hasMoreElements()) {
- childpp = (PrefetchPair) ecld.nextElement();
- if(childpp.base == currfsfn.getDst()) {
- int size = childpp.desc.size();
- if(size >=2) {
- if((childpp.getDescAt(0) instanceof FieldDescriptor) && (childpp.getDescAt(0) == currfsfn.getField())) {
- ArrayList<Descriptor> newdesc = new ArrayList<Descriptor>();
- for(int i = 0;i<(childpp.desc.size()-1); i++) {
- newdesc.add(i,childpp.desc.get(i+1));
- }
- PrefetchPair newpp = new PrefetchPair(currfsfn.getSrc(), newdesc);
- Float newprob = child_prefetch_set_copy.get(childpp).floatValue();
- tocompare.put(newpp, newprob);
- child_prefetch_set_copy.remove(childpp);
- /* Check for independence of prefetch pairs in newly generated and child_prefetch_set_copy prefetch pairs
- * to compute new probability */
- if(child_prefetch_set_copy.containsKey(newpp)) {
- newprob = (float)(1.0 - ((1.0 - child_prefetch_set_copy.get(newpp).floatValue()) * (1.0 - tocompare.get(newpp).floatValue())));
- if(newprob < THRESHOLD_PROB) {
- tocompare.remove(newpp);
- } else {
- tocompare.put(newpp, newprob);
- }
- child_prefetch_set_copy.remove(newpp);
- }
- }
- } else if(size==1) {
- if((childpp.getDescAt(0) instanceof FieldDescriptor) && (childpp.getDescAt(0) == currfsfn.getField())) {
- child_prefetch_set_copy.remove(childpp);
- }
+ private void processFlatSetFieldNode(FlatNode curr, Hashtable<PrefetchPair, Double> child_prefetch_set_copy) {
+ Hashtable<PrefetchPair, Double> tocompare = new Hashtable<PrefetchPair, Double>();
+ FlatSetFieldNode currfsfn = (FlatSetFieldNode) curr;
+ PairMap pm = new PairMap();
+
+ for (Enumeration ecld = child_prefetch_set_copy.keys();ecld.hasMoreElements();) {
+ PrefetchPair childpp = (PrefetchPair) ecld.nextElement();
+ if(childpp.base == currfsfn.getDst()) {
+ int size = childpp.desc.size();
+ if(size >=2) { /*e.g. x.f = g (with child prefetches x.f.g, x.f[0].j) */
+ if((childpp.getDescAt(0) instanceof FieldDescriptor) && (childpp.getDescAt(0) == currfsfn.getField())) {
+ ArrayList<Descriptor> newdesc = new ArrayList<Descriptor>();
+ for(int i = 0;i<(childpp.desc.size()-1); i++) {
+ newdesc.add(i,childpp.desc.get(i+1));
+ }
+ PrefetchPair newpp = new PrefetchPair(currfsfn.getSrc(), newdesc);
+ Double newprob = child_prefetch_set_copy.get(childpp).doubleValue();
+ tocompare.put(newpp, newprob);
+ pm.addPair(childpp, newpp);
+ child_prefetch_set_copy.remove(childpp);
+ /* Check for independence of prefetch pairs in newly generated prefetch pair
+ * to compute new probability */
+ if(child_prefetch_set_copy.containsKey(newpp)) {
+ newprob = (1.0 - ((1.0 - child_prefetch_set_copy.get(newpp).doubleValue()) * (1.0 - tocompare.get(newpp).doubleValue())));
+ if(newprob < ANALYSIS_THRESHOLD_PROB) {
+ tocompare.remove(newpp);
} else {
- continue;
+ tocompare.put(newpp, newprob);
+ pm.addPair(newpp, newpp);
}
+ child_prefetch_set_copy.remove(newpp);
+ }
}
- }
-
- /* Merge child prefetch pairs */
- ecld = child_prefetch_set_copy.keys();
- while(ecld.hasMoreElements()) {
- childpp = (PrefetchPair) ecld.nextElement();
- tocompare.put(childpp, child_prefetch_set_copy.get(childpp));
- child_prefetch_set_copy.remove(childpp);
- }
-
- /* Compare with the orginal prefetch pairs */
- pSetHasChanged = comparePrefetchSets(prefetch_hash.get(curr), tocompare);
- /* Enqueue parent nodes */
- if(pSetHasChanged) {
- for(int i=0; i<curr.numPrev(); i++) {
- tovisit.add(curr.getPrev(i));
+ } else if(size==1) { /* e.g x.f = g (with child prefetch x.f) */
+ if((childpp.getDescAt(0) instanceof FieldDescriptor) && (childpp.getDescAt(0) == currfsfn.getField())) {
+ child_prefetch_set_copy.remove(childpp);
}
- /* Overwrite the new prefetch set to the global hash table */
- prefetch_hash.put(curr,tocompare);
- }
+ } else {
+ continue;
+ }
+ }
+ }
+
+ /* Merge child prefetch pairs */
+ for (Enumeration ecld = child_prefetch_set_copy.keys();ecld.hasMoreElements();) {
+ PrefetchPair childpp = (PrefetchPair) ecld.nextElement();
+ tocompare.put(childpp, child_prefetch_set_copy.get(childpp).doubleValue());
+ pm.addPair(childpp, childpp);
+ child_prefetch_set_copy.remove(childpp);
+ }
+
+ updatePairMap(curr, pm, 0);
+ updatePrefetchSet(curr, tocompare);
}
-
- /** This function processes the prefetch set of a FlatSeElementNode
+
+ /** This function processes the prefetch set of a FlatSetElementNode
* It generates a new prefetch set after comparision with its children
* It compares the old prefetch set with this new prefetch set and enqueues the parents
* of the current node if change occurs and then updates the global flatnode hash table
* */
- private void processFlatSetElementNode(FlatNode curr, Hashtable<PrefetchPair, Float> child_prefetch_set_copy) {
- boolean pSetHasChanged = false;
- Hashtable<PrefetchPair, Float> tocompare = new Hashtable<PrefetchPair, Float>();
- PrefetchPair childpp = null;
- FlatSetElementNode currfsen = (FlatSetElementNode) curr;
-
- /* Get each prefetch pair of the child and match it with the destination temp descriptor of curr FlatFieldNode */
- Enumeration ecld = child_prefetch_set_copy.keys();
- while (ecld.hasMoreElements()) {
- childpp = (PrefetchPair) ecld.nextElement();
- if (childpp.base == currfsen.getDst()){
- int sizedesc = childpp.desc.size();
- if((childpp.getDescAt(0) instanceof IndexDescriptor)) {
- int sizetempdesc = ((IndexDescriptor)(childpp.getDescAt(0))).tddesc.size();
- if(sizetempdesc == 1) {
- if((((IndexDescriptor)childpp.getDescAt(0)).tddesc.get(0) == currfsen.getIndex()) && (sizedesc>=2)) {
- //if match exists then create a new Prefetch set with the new prefetch pair in a new hash table
- ArrayList<Descriptor> newdesc = new ArrayList<Descriptor>();
- for(int i = 0;i<(childpp.desc.size()-1); i++) {
- newdesc.add(i,childpp.desc.get(i+1));
- }
- PrefetchPair newpp = new PrefetchPair(currfsen.getSrc(), newdesc);
- Float newprob = child_prefetch_set_copy.get(childpp).floatValue();
- tocompare.put(newpp, newprob);
- child_prefetch_set_copy.remove(childpp);
- /* Check for independence of prefetch pairs if any in the child prefetch set
- * to compute new probability */
- if(child_prefetch_set_copy.containsKey(newpp)) {
- newprob = (float)(1.0 - ((1.0 - child_prefetch_set_copy.get(newpp).floatValue()) * (1.0 - tocompare.get(newpp).floatValue())));
- if(newprob < THRESHOLD_PROB) {
- tocompare.remove(newpp);
- } else {
- tocompare.put(newpp, newprob);
- }
- child_prefetch_set_copy.remove(newpp);
- }
- } else if((((IndexDescriptor)childpp.getDescAt(0)).tddesc.get(0) == currfsen.getIndex()) && (sizedesc==1))
- child_prefetch_set_copy.remove(childpp);
- } else {
- continue;
- }
- }
- }
- }
- /* Merge child prefetch pairs */
- ecld = child_prefetch_set_copy.keys();
- while(ecld.hasMoreElements()) {
- childpp = (PrefetchPair) ecld.nextElement();
- tocompare.put(childpp, child_prefetch_set_copy.get(childpp));
- child_prefetch_set_copy.remove(childpp);
- }
- /* Compare with the orginal prefetch pairs */
- pSetHasChanged = comparePrefetchSets(prefetch_hash.get(curr), tocompare);
- /* Enqueue parent nodes */
- if(pSetHasChanged) {
- for(int i=0; i<curr.numPrev(); i++) {
- tovisit.add(curr.getPrev(i));
- }
- /* Overwrite the new prefetch set to the global hash table */
- prefetch_hash.put(curr,tocompare);
- }
- }
-
- /** This function applies rules and does analysis for a FlatOpNode
- * And updates the global prefetch hashtable
- * */
- private void processFlatOpNode(FlatNode curr, Hashtable<PrefetchPair, Float> child_prefetch_set_copy) {
- boolean pSetHasChanged = false;
- int index;
- Hashtable<PrefetchPair, Float> tocompare = new Hashtable<PrefetchPair, Float>();
- FlatOpNode currfopn = (FlatOpNode) curr;
- Enumeration ecld = null;
- PrefetchPair childpp = null;
-
- /* Check the Operation type of flatOpNode */
- if(currfopn.getOp().getOp()== Operation.ASSIGN) {
- ecld = child_prefetch_set_copy.keys();
- while (ecld.hasMoreElements()) {
- childpp = (PrefetchPair) ecld.nextElement();
- PrefetchPair copyofchildpp = (PrefetchPair) childpp.clone();
-
- /* Base of child prefetch pair same as destination of the current FlatOpNode
- * For cases like x=y followed by childnode t=x[i].z or t=x.g*/
- if(childpp.base == currfopn.getDest()) {
- ArrayList<Descriptor> newdesc = new ArrayList<Descriptor>();
- newdesc.addAll(childpp.desc);
- PrefetchPair newpp = new PrefetchPair(currfopn.getLeft(), newdesc);
- Float newprob = child_prefetch_set_copy.get(childpp).floatValue();
- tocompare.put(newpp, newprob);
- child_prefetch_set_copy.remove(childpp);
- /* Check for independence of prefetch pairs if any in the child prefetch set
- * to compute new probability */
- if(child_prefetch_set_copy.containsKey(newpp)) {
- newprob = (float)(1.0 - ((1.0 - child_prefetch_set_copy.get(newpp).floatValue()) * (1.0 - tocompare.get(newpp).floatValue())));
- if(newprob < THRESHOLD_PROB) {
- tocompare.remove(newpp);
- } else {
- tocompare.put(newpp, newprob);
- }
- child_prefetch_set_copy.remove(newpp);
- }
- /* Any member of the desc of child prefetch pair is same as destination of the current FlatOpNode
- * For cases like x=y followed by t = r[i].x or t =r[x].p or t = r[p+x].q*/
- } else if(isTempDescFound(copyofchildpp, currfopn.getDest())) {
- ArrayList<Descriptor> newdesc = new ArrayList<Descriptor>();
- newdesc.addAll((ArrayList<Descriptor>)getNewDesc(copyofchildpp, currfopn.getDest(), currfopn.getLeft()));
- PrefetchPair newpp = new PrefetchPair(childpp.base, newdesc);
- Float newprob = child_prefetch_set_copy.get(childpp).floatValue();
- tocompare.put(newpp, newprob);
- child_prefetch_set_copy.remove(childpp);
- /* Check for independence of prefetch pairs if any in the child prefetch set
- * to compute new probability*/
- if(child_prefetch_set_copy.containsKey(newpp)) {
- newprob = (float)(1.0 - ((1.0 - child_prefetch_set_copy.get(newpp).floatValue()) * (1.0 - tocompare.get(newpp).floatValue())));
- if(newprob < THRESHOLD_PROB) {
- tocompare.remove(newpp);
- } else {
- tocompare.put(newpp, newprob);
- }
- child_prefetch_set_copy.remove(newpp);
- }
- }else {
- continue;
+ private void processFlatSetElementNode(FlatNode curr, Hashtable<PrefetchPair, Double> child_prefetch_set_copy) {
+ Hashtable<PrefetchPair, Double> tocompare = new Hashtable<PrefetchPair, Double>();
+ FlatSetElementNode currfsen = (FlatSetElementNode) curr;
+ PairMap pm = new PairMap();
+
+ for (Enumeration ecld = child_prefetch_set_copy.keys();ecld.hasMoreElements();) {
+ PrefetchPair childpp = (PrefetchPair) ecld.nextElement();
+ if (childpp.base == currfsen.getDst()){
+ int sizedesc = childpp.desc.size();
+ if((childpp.getDescAt(0) instanceof IndexDescriptor)) {
+ int sizetempdesc = ((IndexDescriptor)(childpp.getDescAt(0))).tddesc.size();
+ if(sizetempdesc == 1) {
+ if((((IndexDescriptor)childpp.getDescAt(0)).tddesc.get(0) == currfsen.getIndex()) && (sizedesc>=2)) {
+ /* For e.g. a[i] = g with child prefetch set a[i].r or a[i].r.f */
+ ArrayList<Descriptor> newdesc = new ArrayList<Descriptor>();
+ for(int i = 0;i<(childpp.desc.size()-1); i++) {
+ newdesc.add(i,childpp.desc.get(i+1));
}
- }
- } else if(currfopn.getRight()!=null && (currfopn.getOp().getOp() == Operation.ADD)) {
- //case i = i+z followed by a[i].x
- ecld = child_prefetch_set_copy.keys();
- while (ecld.hasMoreElements()) {
- childpp = (PrefetchPair) ecld.nextElement();
- PrefetchPair copyofchildpp = (PrefetchPair) childpp.clone();
-
- if(isTempDescFound(copyofchildpp, currfopn.getDest())) {
- ArrayList<Descriptor> newdesc = new ArrayList<Descriptor>();
- newdesc.addAll((ArrayList<Descriptor>)getNewDesc(copyofchildpp, currfopn.getDest(), currfopn.getLeft(), currfopn.getRight()));
- PrefetchPair newpp = new PrefetchPair(childpp.base, newdesc);
- Float newprob = child_prefetch_set_copy.get(childpp).floatValue();
+ PrefetchPair newpp = new PrefetchPair(currfsen.getSrc(), newdesc);
+ Double newprob = child_prefetch_set_copy.get(childpp).doubleValue();
+ tocompare.put(newpp, newprob);
+ pm.addPair(childpp, newpp);
+ child_prefetch_set_copy.remove(childpp);
+ /* Check for independence of prefetch pairs to compute new probability */
+ if(child_prefetch_set_copy.containsKey(newpp)) {
+ newprob = (1.0 - ((1.0 - child_prefetch_set_copy.get(newpp).doubleValue()) * (1.0 - tocompare.get(newpp).doubleValue())));
+ if(newprob < ANALYSIS_THRESHOLD_PROB) {
+ tocompare.remove(newpp);
+ } else {
tocompare.put(newpp, newprob);
- child_prefetch_set_copy.remove(childpp);
- /* Check for independence of prefetch pairs if any in the child prefetch set
- * to compute new probability*/
- if(child_prefetch_set_copy.containsKey(newpp)) {
- newprob = (float)(1.0 - ((1.0 - child_prefetch_set_copy.get(newpp).floatValue()) * (1.0 - tocompare.get(newpp).floatValue())));
- if(newprob < THRESHOLD_PROB) {
- tocompare.remove(newpp);
- } else {
- tocompare.put(newpp, newprob);
- }
- child_prefetch_set_copy.remove(newpp);
- }
- }else {
- continue;
+ pm.addPair(newpp, newpp);
+ }
+ child_prefetch_set_copy.remove(newpp);
}
+ } else if((((IndexDescriptor)childpp.getDescAt(0)).tddesc.get(0) == currfsen.getIndex()) && (sizedesc==1))
+ /* For e.g. a[i] = g with child prefetch set a[i] */
+ child_prefetch_set_copy.remove(childpp);
+ } else {
+ continue;
}
- } else {
- //FIXME Is not taken care of for cases like x = -y followed by a[x].i
+ }
}
+ }
+ /* Merge child prefetch pairs */
+ for (Enumeration ecld = child_prefetch_set_copy.keys();ecld.hasMoreElements();) {
+ PrefetchPair childpp = (PrefetchPair) ecld.nextElement();
+ tocompare.put(childpp, child_prefetch_set_copy.get(childpp).doubleValue());
+ pm.addPair(childpp, childpp);
+ child_prefetch_set_copy.remove(childpp);
+ }
+
+ updatePairMap(curr, pm, 0);
+ updatePrefetchSet(curr, tocompare);
+ }
- /* Merge child prefetch pairs */
- ecld = child_prefetch_set_copy.keys();
- while(ecld.hasMoreElements()) {
- childpp = (PrefetchPair) ecld.nextElement();
- tocompare.put(childpp, child_prefetch_set_copy.get(childpp));
+ /** This function applies rules and does analysis for a FlatOpNode
+ * And updates the global prefetch hashtable
+ * */
+ private void processFlatOpNode(FlatNode curr, Hashtable<PrefetchPair, Double> child_prefetch_set_copy) {
+ int index;
+ Hashtable<PrefetchPair, Double> tocompare = new Hashtable<PrefetchPair, Double>();
+ FlatOpNode currfopn = (FlatOpNode) curr;
+ PairMap pm = new PairMap();
+
+ if(currfopn.getOp().getOp() == Operation.ASSIGN) {
+ for (Enumeration ecld = child_prefetch_set_copy.keys();ecld.hasMoreElements();) {
+ PrefetchPair childpp = (PrefetchPair) ecld.nextElement();
+ PrefetchPair copyofchildpp = (PrefetchPair) childpp.clone();
+
+ /* For cases like x=y with child prefetch set x[i].z,x.g*/
+ if(childpp.base == currfopn.getDest()) {
+ ArrayList<Descriptor> newdesc = new ArrayList<Descriptor>();
+ newdesc.addAll(childpp.desc);
+ PrefetchPair newpp = new PrefetchPair(currfopn.getLeft(), newdesc);
+ Double newprob = child_prefetch_set_copy.get(childpp).doubleValue();
+ tocompare.put(newpp, newprob);
+ pm.addPair(childpp, newpp);
child_prefetch_set_copy.remove(childpp);
+ /* Check for independence of prefetch pairs to compute new probability */
+ if(child_prefetch_set_copy.containsKey(newpp)) {
+ newprob = (1.0 - ((1.0 - child_prefetch_set_copy.get(newpp).doubleValue()) * (1.0 - tocompare.get(newpp).doubleValue())));
+ if(newprob < ANALYSIS_THRESHOLD_PROB) {
+ tocompare.remove(newpp);
+ } else {
+ tocompare.put(newpp, newprob);
+ pm.addPair(newpp, newpp);
+ }
+ child_prefetch_set_copy.remove(newpp);
+ }
+ /* For cases like x=y with child prefetch set r[x].p, r[p+x].q where x is a tempdescriptor*/
+ } else if(copyofchildpp.containsTemp(currfopn.getDest())) {
+ PrefetchPair newpp=copyofchildpp.replaceTemp(currfopn.getDest(), new TempDescriptor[] {currfopn.getLeft()});
+ Double newprob = child_prefetch_set_copy.get(childpp).doubleValue();
+ tocompare.put(newpp, newprob);
+ pm.addPair(childpp, newpp);
+ child_prefetch_set_copy.remove(childpp);
+ /* Check for independence of prefetch pairs to compute new probability*/
+ if(child_prefetch_set_copy.containsKey(newpp)) {
+ newprob = (1.0 - ((1.0 - child_prefetch_set_copy.get(newpp).doubleValue()) * (1.0 - tocompare.get(newpp).doubleValue())));
+ if(newprob < ANALYSIS_THRESHOLD_PROB) {
+ tocompare.remove(newpp);
+ } else {
+ tocompare.put(newpp, newprob);
+ pm.addPair(newpp, newpp);
+ }
+ child_prefetch_set_copy.remove(newpp);
+ }
+ newpp = null;
+ } else {
+ continue;
+ }
}
-
- /* Compare with the orginal prefetch pairs */
- pSetHasChanged = comparePrefetchSets(prefetch_hash.get(curr), tocompare);
- /* Enqueue parent nodes */
- if(pSetHasChanged) {
- for(int i=0; i<curr.numPrev(); i++) {
- tovisit.add(curr.getPrev(i));
+ //case i = i+z with child prefetch set a[i].x
+ } else if(currfopn.getRight()!=null && (currfopn.getOp().getOp() == Operation.ADD)) {
+ for (Enumeration ecld = child_prefetch_set_copy.keys();ecld.hasMoreElements();) {
+ PrefetchPair childpp = (PrefetchPair) ecld.nextElement();
+ PrefetchPair copyofchildpp = (PrefetchPair) childpp.clone();
+
+ if(copyofchildpp.containsTemp(currfopn.getDest())) {
+ PrefetchPair newpp=copyofchildpp.replaceTemp(currfopn.getDest(), new TempDescriptor[] {currfopn.getLeft(), currfopn.getRight()});
+ Double newprob = child_prefetch_set_copy.get(childpp).doubleValue();
+ tocompare.put(newpp, newprob);
+ pm.addPair(childpp, newpp);
+ child_prefetch_set_copy.remove(childpp);
+ /* Check for independence of prefetch pairs to compute new probability*/
+ if(child_prefetch_set_copy.containsKey(newpp)) {
+ newprob = (1.0 - ((1.0 - child_prefetch_set_copy.get(newpp).doubleValue()) * (1.0 - tocompare.get(newpp).doubleValue())));
+ if(newprob < ANALYSIS_THRESHOLD_PROB) {
+ tocompare.remove(newpp);
+ } else {
+ tocompare.put(newpp, newprob);
+ pm.addPair(newpp, newpp);
+ }
+ child_prefetch_set_copy.remove(newpp);
}
- /* Overwrite the new prefetch set to the global hash table */
- prefetch_hash.put(curr,tocompare);
- }
+ } else {
+ continue;
+ }
+ }
+ } else if(currfopn.getRight()!=null && (currfopn.getOp().getOp() == Operation.SUB)) {
+ for(Enumeration ecld = child_prefetch_set_copy.keys();ecld.hasMoreElements();) {
+ PrefetchPair childpp = (PrefetchPair) ecld.nextElement();
+ if(childpp.containsTemp(currfopn.getDest())) {
+ child_prefetch_set_copy.remove(childpp);
+ }
+ }
+ } else {
+ //FIXME Is not taken care of for cases like x = -y followed by a[x].i
+ }
+
+ /* Merge child prefetch pairs */
+ for (Enumeration ecld = child_prefetch_set_copy.keys();ecld.hasMoreElements();) {
+ PrefetchPair childpp = (PrefetchPair) ecld.nextElement();
+ tocompare.put(childpp, child_prefetch_set_copy.get(childpp).doubleValue());
+ pm.addPair(childpp, childpp);
+ child_prefetch_set_copy.remove(childpp);
+ }
+
+ updatePairMap(curr, pm, 0);
+ updatePrefetchSet(curr, tocompare);
}
- /** This function processes a FlatLiteralNode where cases such as
- * for cases like i = 0 followed by t = a[i].r or t = a[j+i].r or t = a[j].b[i].r
+ /** This function processes a FlatLiteralNode where cases such as
+ * for e.g. i = 0 with child prefetch sets a[i].r, a[j+i].r or a[j].b[i].r
* are handled */
- private void processFlatLiteralNode(FlatNode curr, Hashtable<PrefetchPair, Float> child_prefetch_set_copy) {
- boolean pSetHasChanged = false;
- Hashtable<PrefetchPair, Float> tocompare = new Hashtable<PrefetchPair, Float>();
- FlatLiteralNode currfln = (FlatLiteralNode) curr;
- Enumeration ecld = null;
- PrefetchPair childpp = null;
-
- if(currfln.getType().isIntegerType()) {
- ecld = child_prefetch_set_copy.keys();
- while (ecld.hasMoreElements()) {
- childpp = (PrefetchPair) ecld.nextElement();
- PrefetchPair copyofchildpp = (PrefetchPair) childpp.clone();
- /* Check for same index in child prefetch pairs
- * for cases like i = 0 followed by t = a[i].r or t = a[j+i].r or t = a[j].b[i].r*/
- if(isTempDescFound(copyofchildpp,currfln.getDst())) {
- ArrayList<Descriptor> copychilddesc = (ArrayList<Descriptor>) copyofchildpp.getDesc();
- int sizetempdesc = copychilddesc.size();
- ListIterator it = copychilddesc.listIterator();
- for(;it.hasNext();) {
- Object o = it.next();
- if(o instanceof IndexDescriptor) {
- ArrayList<TempDescriptor> td = (ArrayList<TempDescriptor>)((IndexDescriptor)o).tddesc;
- int sizetddesc = td.size();
- if(td.contains(currfln.getDst())) {
- int index = td.indexOf(currfln.getDst());
- td.remove(index);
- if((Integer)(currfln.getValue()) != 0) {
- ((IndexDescriptor)o).offset = (Integer)currfln.getValue();
- }
- }
- }
- }
- ArrayList<Descriptor> newdesc = new ArrayList<Descriptor>();
- newdesc.addAll(copychilddesc);
- PrefetchPair newpp = new PrefetchPair(childpp.base, newdesc);
- Float newprob = (child_prefetch_set_copy.get(childpp)).floatValue();
- tocompare.put(newpp, newprob);
- child_prefetch_set_copy.remove(childpp);
- /* Check for independence of prefetch pairs if any in the child prefetch set
- * to compute new probability */
- if(child_prefetch_set_copy.containsKey(newpp)) {
- newprob = (float)(1.0 - ((1.0 - child_prefetch_set_copy.get(newpp).floatValue()) * (1.0 - tocompare.get(newpp).floatValue())));
- if(newprob < THRESHOLD_PROB) {
- tocompare.remove(newpp);
- } else {
- tocompare.put(newpp, newprob);
- }
- child_prefetch_set_copy.remove(newpp);
- }
+ private void processFlatLiteralNode(FlatNode curr, Hashtable<PrefetchPair, Double> child_prefetch_set_copy) {
+ Hashtable<PrefetchPair, Double> tocompare = new Hashtable<PrefetchPair, Double>();
+ FlatLiteralNode currfln = (FlatLiteralNode) curr;
+ PairMap pm = new PairMap();
+
+ if(currfln.getType().isIntegerType()) {
+ for (Enumeration ecld = child_prefetch_set_copy.keys();ecld.hasMoreElements();) {
+ PrefetchPair childpp = (PrefetchPair) ecld.nextElement();
+ PrefetchPair copyofchildpp = (PrefetchPair) childpp.clone();
+ if(copyofchildpp.containsTemp(currfln.getDst())) {
+ ArrayList<Descriptor> copychilddesc = (ArrayList<Descriptor>) copyofchildpp.getDesc();
+ int sizetempdesc = copychilddesc.size();
+ for(ListIterator it = copychilddesc.listIterator();it.hasNext();) {
+ Object o = it.next();
+ if(o instanceof IndexDescriptor) {
+ ArrayList<TempDescriptor> td = (ArrayList<TempDescriptor>)((IndexDescriptor)o).tddesc;
+ int sizetddesc = td.size();
+ if(td.contains(currfln.getDst())) {
+ int index = td.indexOf(currfln.getDst());
+ td.remove(index);
+ ((IndexDescriptor)o).offset += (Integer)currfln.getValue();
}
+ }
}
- }
-
- /* Merge child prefetch pairs */
- ecld = child_prefetch_set_copy.keys();
- while(ecld.hasMoreElements()) {
- childpp = (PrefetchPair) ecld.nextElement();
- tocompare.put(childpp, child_prefetch_set_copy.get(childpp));
+ ArrayList<Descriptor> newdesc = new ArrayList<Descriptor>();
+ newdesc.addAll(copychilddesc);
+ PrefetchPair newpp = new PrefetchPair(childpp.base, newdesc);
+ Double newprob = (child_prefetch_set_copy.get(childpp)).doubleValue();
+ tocompare.put(newpp, newprob);
+ pm.addPair(childpp, newpp);
child_prefetch_set_copy.remove(childpp);
- }
-
- /* Compare with the orginal prefetch pairs */
- pSetHasChanged = comparePrefetchSets(prefetch_hash.get(curr), tocompare);
- /* Enqueue parent nodes */
- if(pSetHasChanged) {
- for(int i=0; i<curr.numPrev(); i++) {
- tovisit.add(curr.getPrev(i));
+ /* Check for independence of prefetch pairs to compute new probability */
+ if(child_prefetch_set_copy.containsKey(newpp)) {
+ newprob = (1.0 - ((1.0 - child_prefetch_set_copy.get(newpp).doubleValue()) * (1.0 - tocompare.get(newpp).doubleValue())));
+ if(newprob < ANALYSIS_THRESHOLD_PROB) {
+ tocompare.remove(newpp);
+ } else {
+ tocompare.put(newpp, newprob);
+ pm.addPair(newpp, newpp);
+ }
+ child_prefetch_set_copy.remove(newpp);
}
- /* Overwrite the new prefetch set to the global hash table */
- prefetch_hash.put(curr,tocompare);
- }
-
+ }
+ }
+ }
+
+ /* Merge child prefetch pairs */
+ for (Enumeration ecld = child_prefetch_set_copy.keys();ecld.hasMoreElements();) {
+ PrefetchPair childpp = (PrefetchPair) ecld.nextElement();
+ tocompare.put(childpp, child_prefetch_set_copy.get(childpp).doubleValue());
+ pm.addPair(childpp, childpp);
+ child_prefetch_set_copy.remove(childpp);
+ }
+
+ updatePairMap(curr, pm, 0);
+ updatePrefetchSet(curr, tocompare);
}
-
+
/** This function processes a FlatMethod where the method propagates
* the entire prefetch set of its child node */
- private void processFlatMethod(FlatNode curr, Hashtable<PrefetchPair, Float> child_prefetch_set_copy) {
- boolean pSetHasChanged = false;
- Hashtable<PrefetchPair, Float> tocompare = new Hashtable<PrefetchPair, Float>();
- FlatMethod currfm = (FlatMethod) curr;
- Enumeration ecld = null;
- PrefetchPair childpp = null;
-
- /* Merge child prefetch pairs */
- ecld = child_prefetch_set_copy.keys();
- while(ecld.hasMoreElements()) {
- childpp = (PrefetchPair) ecld.nextElement();
- tocompare.put(childpp, child_prefetch_set_copy.get(childpp));
- child_prefetch_set_copy.remove(childpp);
- }
-
- /* Compare with the orginal prefetch pairs */
- pSetHasChanged = comparePrefetchSets(prefetch_hash.get(curr), tocompare);
- /* Enqueue parent nodes */
- if(pSetHasChanged) {
- /* Overwrite the new prefetch set to the global hash table */
- prefetch_hash.put(curr,tocompare);
- }
- }
-
- /** This Function processes the FlatCalls
- * It currently drops the propagation of those prefetchpairs that are passed as
- * arguments in the FlatCall
- */
- private void processFlatCall(FlatNode curr, Hashtable<PrefetchPair, Float> child_prefetch_set_copy) {
- boolean pSetHasChanged = false;
- Hashtable<PrefetchPair, Float> tocompare = new Hashtable<PrefetchPair, Float>();
- FlatCall currfcn = (FlatCall) curr;
- Enumeration ecld = null;
- PrefetchPair childpp = null;
- boolean isSameArg = false;
-
- ecld = child_prefetch_set_copy.keys();
- while(ecld.hasMoreElements()) {
- childpp = (PrefetchPair) ecld.nextElement();
- PrefetchPair copyofchildpp = (PrefetchPair) childpp.clone();
- if(currfcn.getReturnTemp() != childpp.base) {
- tocompare.put(childpp, child_prefetch_set_copy.get(childpp));
- child_prefetch_set_copy.remove(childpp);
- } else {
- child_prefetch_set_copy.remove(childpp);
- }
- }
-
- /* Compare with the orginal prefetch pairs */
- pSetHasChanged = comparePrefetchSets(prefetch_hash.get(curr), tocompare);
- /* Enqueue parent nodes */
- if(pSetHasChanged) {
- for(int i=0; i<curr.numPrev(); i++) {
- tovisit.add(curr.getPrev(i));
- }
- /* Overwrite the new prefetch set to the global hash table */
- prefetch_hash.put(curr,tocompare);
- }
+ private void processFlatMethod(FlatNode curr, Hashtable<PrefetchPair, Double> child_prefetch_set_copy) {
+ Hashtable<PrefetchPair, Double> tocompare = new Hashtable<PrefetchPair, Double>();
+ FlatMethod currfm = (FlatMethod) curr;
+ PairMap pm = new PairMap();
+
+ /* Merge child prefetch pairs */
+ for (Enumeration ecld = child_prefetch_set_copy.keys();ecld.hasMoreElements();) {
+ PrefetchPair childpp = (PrefetchPair) ecld.nextElement();
+ tocompare.put(childpp, child_prefetch_set_copy.get(childpp).doubleValue());
+ pm.addPair(childpp, childpp);
+ }
+
+ updatePairMap(curr, pm, 0);
+ updatePrefetchSet(curr, tocompare);
}
-
+
/** This function handles the processes the FlatNode of type FlatCondBranch
* It combines prefetches of both child elements and create a new hash table called
* branch_prefetch_set to contains the entries of both its children
*/
- private void processFlatCondBranch(FlatNode curr, Hashtable<PrefetchPair, Float> child_prefetch_set_copy, int index,
- Hashtable<PrefetchPair,Float> branch_prefetch_set) {
- boolean pSetHasChanged = false;
- Hashtable<PrefetchPair, Float> tocompare = new Hashtable<PrefetchPair, Float>();//temporary hash table
- FlatCondBranch currfcb = (FlatCondBranch) curr;
- Float newprob = new Float((float)0.0);
- PrefetchPair childpp = null;
- PrefetchPair pp = null;
- Enumeration ecld = null;
-
- ecld = child_prefetch_set_copy.keys();
- while (ecld.hasMoreElements()) {
- childpp = (PrefetchPair) ecld.nextElement();
- /* True Edge */
- if(index == 0) {
- newprob = child_prefetch_set_copy.get(childpp).floatValue() * BRANCH_TRUE_EDGE_PROB;
- if(newprob >= THRESHOLD_PROB) {
- tocompare.put(childpp, newprob);
- }
- child_prefetch_set_copy.remove(childpp);
- } else if(index == 1) { /* False Edge */
- newprob = child_prefetch_set_copy.get(childpp).floatValue() * BRANCH_FALSE_EDGE_PROB;
- if(newprob >= THRESHOLD_PROB) {
- tocompare.put(childpp, newprob);
- }
- child_prefetch_set_copy.remove(childpp);
- } else {
- System.out.println("DEBUG-> No more children of the FlatCondBranchNode present");
- }
+ private void processFlatCondBranch(FlatCondBranch fcb, MethodDescriptor md) {
+ Hashtable<PrefetchPair, Double> tocompare = new Hashtable<PrefetchPair, Double>();//temporary hash table
+ PairMap truepm = new PairMap();
+ PairMap falsepm = new PairMap();
+ Hashtable<PrefetchPair, Double> truechild=prefetch_hash.get(fcb.getNext(0));
+ Hashtable<PrefetchPair, Double> falsechild=prefetch_hash.get(fcb.getNext(1));
+
+ HashSet<PrefetchPair> allpp=new HashSet<PrefetchPair>();
+ allpp.addAll(truechild.keySet());
+ allpp.addAll(falsechild.keySet());
+
+ for(Iterator<PrefetchPair> ppit=allpp.iterator();ppit.hasNext();) {
+ PrefetchPair pp=ppit.next();
+ double trueprob=0,falseprob=0;
+ if (truechild.containsKey(pp))
+ trueprob=truechild.get(pp).doubleValue();
+ if (falsechild.containsKey(pp))
+ falseprob=falsechild.get(pp).doubleValue();
+
+ double newprob=trueprob*fcb.getTrueProb()+falseprob*fcb.getFalseProb();
+ if (loop.isLoopingBranch(md,fcb)&&
+ newprob<falseprob) {
+ newprob=falseprob;
}
+
+ if(newprob < ANALYSIS_THRESHOLD_PROB) //Skip pp that are below threshold
+ continue;
- /* Update branch_prefetch_set (global hash table) to combine all prefetch pairs from childnodes of the
- * cond branch that is currently stored in the tocompare hash table */
- if(!tocompare.isEmpty()) {
- if(index == 0) {
- branch_prefetch_set.putAll(tocompare);
- }else if(index == 1) {
- if(branch_prefetch_set.isEmpty()) {
- branch_prefetch_set.putAll(tocompare);
- } else {
- Enumeration e = tocompare.keys();
- while(e.hasMoreElements()) {
- pp = (PrefetchPair) e.nextElement();
- if(branch_prefetch_set.containsKey(pp)) {
- newprob = (float)(branch_prefetch_set.get(pp).floatValue() + tocompare.get(pp).floatValue());
- if(newprob < THRESHOLD_PROB) {
- branch_prefetch_set.remove(pp);
- } else {
- branch_prefetch_set.put(pp, newprob);
- }
- tocompare.remove(pp);
- }
- }
- e = tocompare.keys();
- while(e.hasMoreElements()) {
- pp = (PrefetchPair) e.nextElement();
- branch_prefetch_set.put(pp,tocompare.get(pp));
- tocompare.remove(pp);
- }
- }
- } else {
- System.out.println("DEBUG-> No more children of the FlatCondBranchNode present");
- }
- }
+ tocompare.put(pp, newprob);
+ if (truechild.containsKey(pp))
+ truepm.addPair(pp, pp);
- /* Enqueue parent nodes only after the prefetch sets of both child node have been evaluated
- * and the branch_prefetch_set (hashtable) has been built containing the prefetch pairs for the
- * incoming edge of the current node */
- if(index == 1) {
- pSetHasChanged = comparePrefetchSets(prefetch_hash.get(curr), branch_prefetch_set);
- if(pSetHasChanged) {
- for(int i=0; i<curr.numPrev(); i++) {
- tovisit.add(curr.getPrev(i));
- }
- /* Overwrite the new prefetch set to the global hash table */
- prefetch_hash.put(curr,branch_prefetch_set);
- }
- }
+ if (falsechild.containsKey(pp))
+ falsepm.addPair(pp, pp);
+
+ }
+
+ updatePairMap(fcb, truepm, 0);
+ updatePairMap(fcb, falsepm, 1);
+ updatePrefetchSet(fcb, tocompare);
+ }
+
+ /** If FlatNode is not concerned with the prefetch set of its Child then propagate
+ * prefetches up the FlatNode*/
+ private void processDefaultCase(FlatNode curr, Hashtable<PrefetchPair, Double> child_prefetch_set_copy) {
+ PairMap pm = new PairMap();
+ Hashtable<PrefetchPair, Double> tocompare = new Hashtable<PrefetchPair, Double>();
+
+ /* Propagate all child nodes */
+ nexttemp:
+ for(Enumeration e = child_prefetch_set_copy.keys(); e.hasMoreElements();) {
+ PrefetchPair childpp = (PrefetchPair) e.nextElement();
+ TempDescriptor[] writearray=curr.writesTemps();
+ for(int i=0;i<writearray.length;i++) {
+ TempDescriptor wtd=writearray[i];
+ if(childpp.base == wtd||
+ childpp.containsTemp(wtd))
+ continue nexttemp;
+ }
+ tocompare.put(childpp, child_prefetch_set_copy.get(childpp));
+ pm.addPair(childpp, childpp);
+ }
+
+ updatePairMap(curr, pm, 0);
+ updatePrefetchSet(curr, tocompare);
}
/** If FlatNode is not concerned with the prefetch set of its Child then propagate
* prefetches up the FlatNode*/
- private void processDefaultCase(FlatNode curr, Hashtable<PrefetchPair, Float> child_prefetch_set_copy) {
- boolean pSetHasChanged = false;
- Enumeration e = null;
- Hashtable<PrefetchPair, Float> tocompare = new Hashtable<PrefetchPair, Float>();
+ private void processCall(FlatCall curr, Hashtable<PrefetchPair, Double> child_prefetch_set_copy) {
+ PairMap pm = new PairMap();
+ Hashtable<PrefetchPair, Double> tocompare = new Hashtable<PrefetchPair, Double>();
+
+ /* Don't propagate prefetches across cache clear */
+ if (!(curr.getMethod().getClassMethodName().equals("System.clearPrefetchCache")||
+ curr.getMethod().getClassMethodName().equals("Barrier.enterBarrier"))) {
+ /* Propagate all child nodes */
+ nexttemp:
+ for(Enumeration e = child_prefetch_set_copy.keys(); e.hasMoreElements();) {
+ PrefetchPair childpp = (PrefetchPair) e.nextElement();
+ TempDescriptor[] writearray=curr.writesTemps();
+ for(int i=0;i<writearray.length;i++) {
+ TempDescriptor wtd=writearray[i];
+ if(childpp.base == wtd||
+ childpp.containsTemp(wtd))
+ continue nexttemp;
+ }
+ tocompare.put(childpp, child_prefetch_set_copy.get(childpp));
+ pm.addPair(childpp, childpp);
+ }
+
+ }
+ updatePairMap(curr, pm, 0);
+ updatePrefetchSet(curr, tocompare);
+ }
+
+ /** This function prints the Prefetch pairs of a given flatnode */
+ private void printPrefetchPairs(FlatNode fn) {
+ System.out.println(fn);
+ if(prefetch_hash.containsKey(fn)) {
+ System.out.print("Prefetch" + "(");
+ Hashtable<PrefetchPair, Double> currhash = (Hashtable) prefetch_hash.get(fn);
+ for(Enumeration pphash= currhash.keys(); pphash.hasMoreElements();) {
+ PrefetchPair pp = (PrefetchPair) pphash.nextElement();
+ System.out.print(pp.toString() + ", ");
+ }
+ System.out.println(")");
+ } else {
+ System.out.println("Flatnode is currently not present in the global hash: Prefetch Set is Empty");
+ }
+ }
- for(e = child_prefetch_set_copy.keys(); e.hasMoreElements();) {
- PrefetchPair newpp = (PrefetchPair) e.nextElement();
- tocompare.put(newpp, child_prefetch_set_copy.get(newpp));
+ private void doInsPrefetchAnalysis(FlatMethod fm, Hashtable<FlatNode, HashSet<PrefetchPair>> newprefetchset) {
+ Hashtable<FlatNode, HashSet<PrefetchPair>> pset1_hash = new Hashtable<FlatNode, HashSet<PrefetchPair>>();
+ HashSet<PrefetchPair> pset1_init = new HashSet<PrefetchPair>();
+ LinkedList<FlatNode> newtovisit = new LinkedList<FlatNode>();
+ LinkedList<FlatNode> newvisited = new LinkedList<FlatNode>();
+
+ newtovisit.addLast((FlatNode)fm);
+ while(!newtovisit.isEmpty()) {
+ FlatNode fn = (FlatNode) newtovisit.iterator().next();
+ newtovisit.remove(0);
+ pset1_hash.put(fn, pset1_init); //Initialize pset1_hash
+ newvisited.addLast(fn);
+ for(int i=0; i<fn.numNext(); i++) {
+ FlatNode nn = fn.getNext(i);
+ if(!newtovisit.contains(nn) && !newvisited.contains(nn)){
+ newtovisit.addLast(nn);
+ }
}
-
- /* Compare with old Prefetch sets */
- pSetHasChanged = comparePrefetchSets(prefetch_hash.get(curr), tocompare);
- if(pSetHasChanged){
- for(int i=0; i<curr.numPrev(); i++) {
- tovisit.add(curr.getPrev(i));
- }
- /* Overwrite the new prefetch set to the global hash table */
- prefetch_hash.put(curr,tocompare);
+ }
+
+ /* Start with a top down sorted order of nodes */
+ while(!newvisited.isEmpty()) {
+ applyPrefetchInsertRules((FlatNode) newvisited.getFirst(), newvisited, pset1_hash, newprefetchset);
+ newvisited.remove(0);
+ }
+ delSubsetPPairs(newprefetchset);
+ }
+
+ /** This function deletes the smaller prefetch pair subset from a list of prefetch pairs
+ * for e.g. if there are 2 prefetch pairs a.b.c.d and a.b.c for a given flatnode
+ * then this function drops a.b.c from the prefetch set of the flatnode */
+ private void delSubsetPPairs(Hashtable<FlatNode, HashSet<PrefetchPair>> newprefetchset) {
+ for (Enumeration e = newprefetchset.keys();e.hasMoreElements();) {
+ FlatNode fn = (FlatNode) e.nextElement();
+ Set<PrefetchPair> ppairs = newprefetchset.get(fn);
+ Set<PrefetchPair> toremove=new HashSet<PrefetchPair>();
+
+ for(Iterator<PrefetchPair> it1=ppairs.iterator();it1.hasNext();) {
+ PrefetchPair pp1=it1.next();
+ if (toremove.contains(pp1))
+ continue;
+ int l1=pp1.desc.size()+1;
+ for(Iterator<PrefetchPair> it2=ppairs.iterator();it2.hasNext();) {
+ PrefetchPair pp2=it2.next();
+ int l2=pp2.desc.size()+1;
+
+ if (l1<l2&&isSubSet(pp1,pp2))
+ toremove.add(pp1);
+ else
+ if (l2>l1&&isSubSet(pp2,pp1))
+ toremove.add(pp2);
+ }
}
+
+ ppairs.removeAll(toremove);
+ }
}
-
- /** This function processes for FlatNewNode
- * for e.g x = NEW(foo) followed by childnode with prefetch set x.f
- * then drop the prefetches beyond this FlatNewNode */
- private void processFlatNewNode(FlatNode curr, Hashtable<PrefetchPair, Float> child_prefetch_set_copy) {
- boolean pSetHasChanged = false;
- Hashtable<PrefetchPair, Float> tocompare = new Hashtable<PrefetchPair, Float>();
- FlatNew currfnn = (FlatNew) curr;
- Float newprob = new Float((float)0.0);
- PrefetchPair childpp = null;
- Enumeration ecld = null;
-
- ecld = child_prefetch_set_copy.keys();
- while (ecld.hasMoreElements()) {
- childpp = (PrefetchPair) ecld.nextElement();
- if(childpp.base == currfnn.getDst()){
- child_prefetch_set_copy.remove(childpp);
+
+ /** This function returns: true if the shorter prefetch pair is a subset of the longer prefetch
+ * pair else it returns: false */
+ private boolean isSubSet(PrefetchPair shrt, PrefetchPair lng) {
+ if (shrt.base != lng.base) {
+ return false;
+ }
+ for (int j = 0; j < shrt.desc.size(); j++) {
+ if(shrt.getDescAt(j) instanceof IndexDescriptor) {
+ IndexDescriptor shrtid = (IndexDescriptor) shrt.getDescAt(j);
+ if(lng.getDescAt(j) instanceof IndexDescriptor){
+ IndexDescriptor lngid = (IndexDescriptor) lng.getDescAt(j);
+ if(shrtid.equals(lngid)) {
+ continue;
} else {
- tocompare.put(childpp, child_prefetch_set_copy.get(childpp));
- child_prefetch_set_copy.remove(childpp);
+ return false;
}
+ } else {
+ return false;
+ }
+ } else {
+ if ((Descriptor)shrt.getDescAt(j) != (Descriptor)lng.getDescAt(j)){
+ return false;
+ }
}
-
- /* Compare with the orginal prefetch pairs */
- pSetHasChanged = comparePrefetchSets(prefetch_hash.get(curr), tocompare);
- /* Enqueue parent nodes */
- if(pSetHasChanged) {
- for(int i=0; i<curr.numPrev(); i++) {
- tovisit.add(curr.getPrev(i));
- }
- /* Overwrite the new prefetch set to the global hash table */
- prefetch_hash.put(curr,tocompare);
- }
+ }
+ return true;
}
- /** This function prints the Prefetch pairs of a given flatnode */
- private void printPrefetchPairs(FlatNode fn) {
- if(prefetch_hash.containsKey(fn)) {
- System.out.print("Prefetch" + "(");
- Hashtable<PrefetchPair, Float> currhash = (Hashtable) prefetch_hash.get(fn);
- for(Enumeration pphash= currhash.keys(); pphash.hasMoreElements();) {
- PrefetchPair pp = (PrefetchPair) pphash.nextElement();
- System.out.print(pp.toString() + ", ");
- }
- System.out.println(")");
- } else {
- System.out.println("Flatnode is currently not present in the global hash: Prefetch Set is Empty");
+ /**This function compares all the prefetch pairs in a Prefetch set hashtable and
+ * returns: true if something has changed in the new Prefetch set else
+ * returns: false
+ */
+ private boolean comparePSet1(HashSet<PrefetchPair> oldPSet, HashSet<PrefetchPair>newPSet) {
+ if(oldPSet.size() != newPSet.size()) {
+ return true;
+ } else {
+ for(Iterator it = newPSet.iterator();it.hasNext();) {
+ if(!oldPSet.contains((PrefetchPair)it.next())) {
+ return true;
+ }
}
+ }
+ return false;
}
-
- private void doAnalysis() {
- Iterator classit=state.getClassSymbolTable().getDescriptorsIterator();
- while(classit.hasNext()) {
- ClassDescriptor cn=(ClassDescriptor)classit.next();
- Iterator methodit=cn.getMethods();
- while(methodit.hasNext()) {
- /* Classify parameters */
- MethodDescriptor md=(MethodDescriptor)methodit.next();
- FlatMethod fm=state.getMethodFlat(md);
- printMethod(fm);
+
+ /** This function creates a set called pset1 that contains prefetch pairs that have already
+ * been prefetched. While traversing the graph of a flat representation in a top down fashion,
+ * this function creates pset1 such that it contains prefetch pairs that have been prefetched at
+ * the previous nodes */
+
+ private void applyPrefetchInsertRules(FlatNode fn, LinkedList<FlatNode> newvisited, Hashtable<FlatNode, HashSet<PrefetchPair>> pset1_hash, Hashtable<FlatNode, HashSet<PrefetchPair>> newprefetchset) {
+ if(fn.kind() == FKind.FlatMethod) {
+ HashSet<PrefetchPair> pset1 = new HashSet<PrefetchPair>();
+ Hashtable<PrefetchPair, Double> prefetchset = prefetch_hash.get(fn);
+ for(Enumeration e = prefetchset.keys();e.hasMoreElements();) {
+ PrefetchPair pp = (PrefetchPair) e.nextElement();
+ /* Apply initial rule */
+ if(prefetchset.get(pp).doubleValue() >= PREFETCH_THRESHOLD_PROB) {
+ pset1.add(pp);
+ }
+ }
+ /* Enqueue child node if Pset1 has changed */
+ if (comparePSet1(pset1_hash.get(fn), pset1)) {
+ for(int j=0; j<fn.numNext(); j++) {
+ FlatNode nn = fn.getNext(j);
+ newvisited.addLast((FlatNode)nn);
+ }
+ pset1_hash.put(fn, pset1);
+ }
+ newprefetchset.put(fn, pset1);
+ } else { /* Nodes other than Flat Method Node */
+ HashSet<PrefetchPair> pset2 = new HashSet<PrefetchPair>();
+ HashSet<PrefetchPair> newpset = new HashSet<PrefetchPair>();
+ Hashtable<PrefetchPair, Double> prefetchset = prefetch_hash.get(fn);
+ Hashtable<FlatNode, PairMap> ppairmaphash = pmap_hash.get(fn);
+ for(Enumeration epset = prefetchset.keys(); epset.hasMoreElements();) {
+ PrefetchPair pp = (PrefetchPair) epset.nextElement();
+ boolean pprobIsGreater = (prefetchset.get(pp).doubleValue() >= PREFETCH_THRESHOLD_PROB);
+ boolean mapprobIsLess=false;
+ boolean mapIsPresent=true;
+ for(int i=0;i<fn.numPrev();i++) {
+ FlatNode parentnode=fn.getPrev(i);
+ PairMap pm = (PairMap) ppairmaphash.get(parentnode);
+ //Find if probability is less for previous node
+ if(pm!=null&&pm.getPair(pp) != null) {
+ PrefetchPair mappedpp = pm.getPair(pp);
+ if(prefetch_hash.get(parentnode).containsKey(mappedpp)) {
+ double prob = prefetch_hash.get(parentnode).get(mappedpp).doubleValue();
+ if(prob < PREFETCH_THRESHOLD_PROB)
+ mapprobIsLess = true;
+ } else
+ mapprobIsLess = true;
+ } else {
+ mapprobIsLess = true;
+ }
+ /* Build pset2 */
+ if(pm !=null) {
+ HashSet pset = pset1_hash.get(parentnode);
+ if(pset.isEmpty()||!pset.contains((PrefetchPair) pm.getPair(pp)))
+ mapIsPresent = false;
+ } else
+ mapIsPresent=false;
+ }
+
+ if(mapIsPresent)
+ pset2.add(pp);
+
+ if(pprobIsGreater && mapprobIsLess)
+ newpset.add(pp);
+ }
+
+ HashSet<PrefetchPair> pset1 = new HashSet<PrefetchPair>();
+ pset1.addAll(pset2);
+ pset1.addAll(newpset);
+ /* Enqueue child node if Pset1 has changed */
+ if (comparePSet1(pset1_hash.get(fn), pset1)) {
+ for(int i=0; i<fn.numNext(); i++) {
+ FlatNode nn = fn.getNext(i);
+ newvisited.addLast((FlatNode)nn);
+ }
+ pset1_hash.put(fn, pset1);
}
+
+ /* To insert prefetch, apply rule: if the newpset minus pset2 is nonempty
+ * then insert a new prefetch node here*/
+
+ HashSet<PrefetchPair> s = new HashSet<PrefetchPair>();
+ s.addAll(newpset);
+ s.removeAll(pset2);
+ newprefetchset.put(fn, s);
}
}
- private void printMethod(FlatMethod fm) {
- System.out.println(fm.getMethod()+" {");
- HashSet tovisit=new HashSet();
- HashSet visited=new HashSet();
- int labelindex=0;
- Hashtable nodetolabel=new Hashtable();
- tovisit.add(fm);
- FlatNode current_node=null;
- //Assign labels 1st
- //Node needs a label if it is
- while(!tovisit.isEmpty()) {
- FlatNode fn=(FlatNode)tovisit.iterator().next();
- tovisit.remove(fn);
- visited.add(fn);
-
- for(int i=0;i<fn.numNext();i++) {
- FlatNode nn=fn.getNext(i);
- if(i>0) {
- //1) Edge >1 of node
- nodetolabel.put(nn,new Integer(labelindex++));
- }
- if (!visited.contains(nn)&&!tovisit.contains(nn)) {
- tovisit.add(nn);
- } else {
- //2) Join point
- nodetolabel.put(nn,new Integer(labelindex++));
- }
+ private void addFlatPrefetchNode(Hashtable<FlatNode, HashSet<PrefetchPair>> newprefetchset) {
+ boolean isFNPresent = false; /* Detects presence of FlatNew node */
+ /* This modifies the Flat representation graph */
+ for(Enumeration e = newprefetchset.keys();e.hasMoreElements();) {
+ FlatNode fn = (FlatNode) e.nextElement();
+ FlatPrefetchNode fpn = new FlatPrefetchNode();
+ if(newprefetchset.get(fn).size() > 0) {
+ fpn.insAllpp((HashSet)newprefetchset.get(fn));
+ if(fn.kind() == FKind.FlatMethod) {
+ FlatNode nn = fn.getNext(0);
+ fn.setNext(0, fpn);
+ fpn.addNext(nn);
+ fpn.siteid = prefetchsiteid++;
+ } else {
+ /* Check if previous node of this FlatNode is a NEW node
+ * If yes, delete this flatnode and its prefetch set from hash table
+ * This eliminates prefetches for NULL ptrs*/
+ for(int i = 0; i< fn.numPrev(); i++) {
+ FlatNode nn = fn.getPrev(i);
+ if(nn.kind() == FKind.FlatNew) {
+ isFNPresent = true;
+ }
}
- }
- //Do the actual printing
- tovisit=new HashSet();
- visited=new HashSet();
- tovisit.add(fm);
- while(current_node!=null||!tovisit.isEmpty()) {
- if (current_node==null) {
- current_node=(FlatNode)tovisit.iterator().next();
- tovisit.remove(current_node);
+ if(!isFNPresent) {
+ while(fn.numPrev() > 0) {
+ FlatNode nn = fn.getPrev(0);
+ for(int j = 0; j<nn.numNext(); j++) {
+ if(nn.getNext(j) == fn) {
+ nn.setNext(j, fpn);
+ }
+ }
+ }
+ fpn.addNext(fn);
+ fpn.siteid = prefetchsiteid++;
}
- visited.add(current_node);
- if (nodetolabel.containsKey(current_node))
- System.out.println("L"+nodetolabel.get(current_node)+":");
- if (current_node.numNext()==0) {
- System.out.println(" "+current_node.toString());
- current_node=null;
- } else if(current_node.numNext()==1) {
- System.out.println(" "+current_node.toString());
- FlatNode nextnode=current_node.getNext(0);
- if (visited.contains(nextnode)) {
- System.out.println("goto L"+nodetolabel.get(nextnode));
- current_node=null;
- } else
- current_node=nextnode;
- } else if (current_node.numNext()==2) {
- /* Branch */
- System.out.println(" "+((FlatCondBranch)current_node).toString("L"+nodetolabel.get(current_node.getNext(1))));
- if (!visited.contains(current_node.getNext(1)))
- tovisit.add(current_node.getNext(1));
- if (visited.contains(current_node.getNext(0))) {
- System.out.println("goto L"+nodetolabel.get(current_node.getNext(0)));
- current_node=null;
- } else
- current_node=current_node.getNext(0);
- } else throw new Error();
- }
- System.out.println("}");
+ } //end of else
+ } //End of if
+ } //end of for
}
-
}