1 package Analysis.Locality;
4 import Analysis.CallGraph.CallGraph;
8 import IR.MethodDescriptor;
10 import IR.ClassDescriptor;
12 public class LocalityAnalysis {
15 Hashtable<LocalityBinding,LocalityBinding> discovered;
16 Hashtable<LocalityBinding, Set<LocalityBinding>> dependence;
17 Hashtable<LocalityBinding, Set<LocalityBinding>> calldep;
18 Hashtable<LocalityBinding, Hashtable<FlatNode,Hashtable<TempDescriptor, Integer>>> temptab;
19 Hashtable<LocalityBinding, Hashtable<FlatNode, Integer>> atomictab;
20 Hashtable<LocalityBinding, Hashtable<FlatAtomicEnterNode, Set<TempDescriptor>>> tempstosave;
21 Hashtable<ClassDescriptor, Set<LocalityBinding>> classtolb;
22 Hashtable<MethodDescriptor, Set<LocalityBinding>> methodtolb;
23 private LocalityBinding lbmain;
24 private LocalityBinding lbrun;
28 public static final Integer LOCAL=new Integer(0);
29 public static final Integer GLOBAL=new Integer(1);
30 public static final Integer EITHER=new Integer(2);
31 public static final Integer CONFLICT=new Integer(3);
33 public LocalityAnalysis(State state, CallGraph callgraph, TypeUtil typeutil) {
34 this.typeutil=typeutil;
36 this.discovered=new Hashtable<LocalityBinding,LocalityBinding>();
37 this.dependence=new Hashtable<LocalityBinding, Set<LocalityBinding>>();
38 this.calldep=new Hashtable<LocalityBinding, Set<LocalityBinding>>();
39 this.temptab=new Hashtable<LocalityBinding, Hashtable<FlatNode,Hashtable<TempDescriptor, Integer>>>();
40 this.atomictab=new Hashtable<LocalityBinding, Hashtable<FlatNode, Integer>>();
41 this.lbtovisit=new Stack();
42 this.callgraph=callgraph;
43 this.tempstosave=new Hashtable<LocalityBinding, Hashtable<FlatAtomicEnterNode, Set<TempDescriptor>>>();
44 this.classtolb=new Hashtable<ClassDescriptor, Set<LocalityBinding>>();
45 this.methodtolb=new Hashtable<MethodDescriptor, Set<LocalityBinding>>();
49 public LocalityBinding getMain() {
53 /** This method returns the set of LocalityBindings that a given
54 * flatcall could invoke */
56 public LocalityBinding getBinding(LocalityBinding currlb, FlatCall fc) {
57 boolean isatomic=getAtomic(currlb).get(fc).intValue()>0;
58 Hashtable<TempDescriptor, Integer> currtable=getNodePreTempInfo(currlb,fc);
59 MethodDescriptor md=fc.getMethod();
61 boolean isnative=md.getModifiers().isNative();
63 LocalityBinding lb=new LocalityBinding(md, isatomic);
65 for(int i=0; i<fc.numArgs(); i++) {
66 TempDescriptor arg=fc.getArg(i);
67 lb.setGlobal(i,currtable.get(arg));
69 if (fc.getThis()!=null) {
70 Integer thistype=currtable.get(fc.getThis());
73 lb.setGlobalThis(thistype);
75 // lb.setGlobalThis(EITHER);//default value
76 if (discovered.containsKey(lb))
77 lb=discovered.get(lb);
78 else throw new Error();
83 /** This method returns a set of LocalityBindings for the parameter class. */
84 public Set<LocalityBinding> getClassBindings(ClassDescriptor cd) {
85 return classtolb.get(cd);
88 /** This method returns a set of LocalityBindings for the parameter method. */
90 public Set<LocalityBinding> getMethodBindings(MethodDescriptor md) {
91 return methodtolb.get(md);
94 public Set<MethodDescriptor> getMethods() {
95 return methodtolb.keySet();
98 /** This method returns a set of LocalityBindings. A
99 * LocalityBinding specifies a context a method can be invoked in.
100 * It specifies whether the method is in a transaction and whether
101 * its parameter objects are locals or globals. */
103 public Set<LocalityBinding> getLocalityBindings() {
104 return discovered.keySet();
107 /** This method returns a hashtable for a given LocalityBinding
108 * that tells the current local/global status of temps at the each
109 * node in the flat representation. */
111 public Hashtable<FlatNode, Hashtable<TempDescriptor, Integer>> getNodeTempInfo(LocalityBinding lb) {
112 return temptab.get(lb);
115 /** This method returns a hashtable for a given LocalityBinding
116 * that tells the current local/global status of temps at the
117 * beginning of each node in the flat representation. */
119 public Hashtable<TempDescriptor, Integer> getNodePreTempInfo(LocalityBinding lb, FlatNode fn) {
120 Hashtable<TempDescriptor, Integer> currtable=new Hashtable<TempDescriptor, Integer>();
121 Hashtable<FlatNode, Hashtable<TempDescriptor, Integer>> temptable=getNodeTempInfo(lb);
123 for(int i=0; i<fn.numPrev(); i++) {
124 FlatNode prevnode=fn.getPrev(i);
125 Hashtable<TempDescriptor, Integer> prevtable=temptable.get(prevnode);
126 for(Iterator<TempDescriptor> tempit=prevtable.keySet().iterator(); tempit.hasNext();) {
127 TempDescriptor temp=tempit.next();
128 Integer tmpint=prevtable.get(temp);
129 Integer oldint=currtable.containsKey(temp) ? currtable.get(temp) : EITHER;
130 Integer newint=merge(tmpint, oldint);
131 currtable.put(temp, newint);
137 /** This method returns an hashtable for a given LocalitBinding
138 * that tells whether a node in the flat represenation is in a
139 * transaction or not. Integer values greater than 0 indicate
140 * that the node is in a transaction and give the nesting depth.
141 * The outermost AtomicEnterNode will have a value of 1 and the
142 * outermost AtomicExitNode will have a value of 0. */
144 public Hashtable<FlatNode, Integer> getAtomic(LocalityBinding lb) {
145 return atomictab.get(lb);
148 /** This methods returns a hashtable for a given LocalityBinding
149 * that tells which temps needs to be saved for each
150 * AtomicEnterNode. */
152 public Hashtable<FlatAtomicEnterNode, Set<TempDescriptor>> getTemps(LocalityBinding lb) {
153 return tempstosave.get(lb);
156 public Set<TempDescriptor> getTempSet(LocalityBinding lb) {
157 HashSet<TempDescriptor> set=new HashSet<TempDescriptor>();
158 Hashtable<FlatAtomicEnterNode, Set<TempDescriptor>> table=getTemps(lb);
160 for(Iterator<FlatAtomicEnterNode> faenit=table.keySet().iterator(); faenit.hasNext();) {
161 FlatAtomicEnterNode faen=faenit.next();
162 set.addAll(table.get(faen));
167 private void doAnalysis() {
168 computeLocalityBindings();
169 computeTempstoSave();
173 private void cleanSets() {
174 HashSet<LocalityBinding> lbset=new HashSet<LocalityBinding>();
175 Stack<LocalityBinding> lbstack=new Stack<LocalityBinding>();
180 while(!lbstack.isEmpty()) {
181 LocalityBinding lb=lbstack.pop();
182 if (calldep.containsKey(lb)) {
183 Set<LocalityBinding> set=new HashSet<LocalityBinding>();
184 set.addAll(calldep.get(lb));
185 set.removeAll(lbset);
190 for(Iterator<LocalityBinding> lbit=discovered.keySet().iterator(); lbit.hasNext();) {
191 LocalityBinding lb=lbit.next();
192 if (!lbset.contains(lb)) {
194 classtolb.get(lb.getMethod().getClassDesc()).remove(lb);
195 methodtolb.get(lb.getMethod()).remove(lb);
200 private void computeLocalityBindings() {
201 lbmain=new LocalityBinding(typeutil.getMain(), false);
202 lbmain.setGlobalReturn(EITHER);
203 lbmain.setGlobal(0, LOCAL);
204 lbtovisit.add(lbmain);
205 discovered.put(lbmain, lbmain);
206 if (!classtolb.containsKey(lbmain.getMethod().getClassDesc()))
207 classtolb.put(lbmain.getMethod().getClassDesc(), new HashSet<LocalityBinding>());
208 classtolb.get(lbmain.getMethod().getClassDesc()).add(lbmain);
210 if (!methodtolb.containsKey(lbmain.getMethod()))
211 methodtolb.put(lbmain.getMethod(), new HashSet<LocalityBinding>());
212 methodtolb.get(lbmain.getMethod()).add(lbmain);
214 //Do this to force a virtual table number for the run method
215 lbrun=new LocalityBinding(typeutil.getRun(), false);
216 lbrun.setGlobalReturn(EITHER);
217 lbrun.setGlobalThis(GLOBAL);
218 lbtovisit.add(lbrun);
219 discovered.put(lbrun, lbrun);
220 if (!classtolb.containsKey(lbrun.getMethod().getClassDesc()))
221 classtolb.put(lbrun.getMethod().getClassDesc(), new HashSet<LocalityBinding>());
222 classtolb.get(lbrun.getMethod().getClassDesc()).add(lbrun);
224 if (!methodtolb.containsKey(lbrun.getMethod()))
225 methodtolb.put(lbrun.getMethod(), new HashSet<LocalityBinding>());
226 methodtolb.get(lbrun.getMethod()).add(lbrun);
228 while(!lbtovisit.empty()) {
229 LocalityBinding lb=(LocalityBinding) lbtovisit.pop();
230 Integer returnglobal=lb.getGlobalReturn();
231 MethodDescriptor md=lb.getMethod();
232 Hashtable<FlatNode,Hashtable<TempDescriptor, Integer>> temptable=new Hashtable<FlatNode,Hashtable<TempDescriptor, Integer>>();
233 Hashtable<FlatNode, Integer> atomictable=new Hashtable<FlatNode, Integer>();
236 computeCallsFlags(md, lb, temptable, atomictable);
238 System.out.println("Error in "+md+" context "+lb);
242 atomictab.put(lb, atomictable);
243 temptab.put(lb, temptable);
245 if (md.getReturnType()!=null&&!returnglobal.equals(lb.getGlobalReturn())) {
246 //return type is more precise now
247 //rerun everything that call us
248 lbtovisit.addAll(dependence.get(lb));
253 public void computeCallsFlags(MethodDescriptor md, LocalityBinding lb, Hashtable<FlatNode, Hashtable<TempDescriptor, Integer>> temptable, Hashtable<FlatNode, Integer> atomictable) {
254 FlatMethod fm=state.getMethodFlat(md);
255 HashSet<FlatNode> tovisit=new HashSet<FlatNode>();
256 tovisit.add(fm.getNext(0));
258 // Build table for initial node
259 Hashtable<TempDescriptor,Integer> table=new Hashtable<TempDescriptor,Integer>();
260 temptable.put(fm, table);
261 atomictable.put(fm, lb.isAtomic() ? 1 : 0);
262 int offset=md.isStatic() ? 0 : 1;
263 if (!md.isStatic()) {
264 table.put(fm.getParameter(0), lb.getGlobalThis());
266 for(int i=offset; i<fm.numParameters(); i++) {
267 TempDescriptor temp=fm.getParameter(i);
268 Integer b=lb.isGlobal(i-offset);
273 while(!tovisit.isEmpty()) {
274 FlatNode fn=tovisit.iterator().next();
276 Hashtable<TempDescriptor, Integer> currtable=new Hashtable<TempDescriptor, Integer>();
278 for(int i=0; i<fn.numPrev(); i++) {
279 FlatNode prevnode=fn.getPrev(i);
280 if (atomictable.containsKey(prevnode)) {
281 atomicstate=atomictable.get(prevnode).intValue();
283 if (!temptable.containsKey(prevnode))
285 Hashtable<TempDescriptor, Integer> prevtable=temptable.get(prevnode);
286 for(Iterator<TempDescriptor> tempit=prevtable.keySet().iterator(); tempit.hasNext();) {
287 TempDescriptor temp=tempit.next();
288 Integer tmpint=prevtable.get(temp);
289 Integer oldint=currtable.containsKey(temp) ? currtable.get(temp) : EITHER;
290 Integer newint=merge(tmpint, oldint);
291 currtable.put(temp, newint);
294 atomictable.put(fn, atomicstate);
297 case FKind.FlatAtomicEnterNode:
298 processAtomicEnterNode((FlatAtomicEnterNode)fn, atomictable);
303 case FKind.FlatAtomicExitNode:
304 processAtomicExitNode((FlatAtomicExitNode)fn, atomictable);
308 processCallNode(lb, (FlatCall)fn, currtable, isAtomic(atomictable, fn));
311 case FKind.FlatFieldNode:
312 processFieldNode(lb, (FlatFieldNode)fn, isAtomic(atomictable, fn), currtable);
315 case FKind.FlatSetFieldNode:
316 processSetFieldNode(lb, (FlatSetFieldNode)fn, isAtomic(atomictable,fn), currtable);
320 processNew(lb, (FlatNew)fn, isAtomic(atomictable, fn), currtable);
323 case FKind.FlatOpNode:
324 processOpNode((FlatOpNode)fn, currtable);
327 case FKind.FlatCastNode:
328 processCastNode((FlatCastNode)fn, currtable);
331 case FKind.FlatLiteralNode:
332 processLiteralNode((FlatLiteralNode)fn, currtable);
335 case FKind.FlatReturnNode:
336 processReturnNode(lb, (FlatReturnNode)fn, currtable);
339 case FKind.FlatSetElementNode:
340 processSetElementNode(lb, (FlatSetElementNode)fn, currtable, isAtomic(atomictable, fn));
343 case FKind.FlatElementNode:
344 processElementNode(lb, (FlatElementNode)fn, currtable, isAtomic(atomictable, fn));
347 case FKind.FlatCondBranch:
348 case FKind.FlatBackEdge:
350 case FKind.FlatPrefetchNode:
351 //No action needed for these
354 case FKind.FlatFlagActionNode:
355 case FKind.FlatCheckNode:
356 case FKind.FlatTagDeclaration:
357 throw new Error("Incompatible with tasks!");
359 case FKind.FlatMethod:
363 Hashtable<TempDescriptor,Integer> oldtable=temptable.get(fn);
364 if (oldtable==null||!oldtable.equals(currtable)) {
365 // Update table for this node
366 temptable.put(fn, currtable);
367 for(int i=0; i<fn.numNext(); i++) {
368 tovisit.add(fn.getNext(i));
374 private static boolean isAtomic(Hashtable<FlatNode, Integer> atomictable, FlatNode fn) {
375 return atomictable.get(fn).intValue()>0;
378 private static Integer merge(Integer a, Integer b) {
379 if (a==null||a.equals(EITHER))
381 if (b==null||b.equals(EITHER))
388 void processCallNode(LocalityBinding currlb, FlatCall fc, Hashtable<TempDescriptor, Integer> currtable, boolean isatomic) {
389 MethodDescriptor nodemd=fc.getMethod();
391 Set runmethodset=null;
393 if (nodemd.isStatic()||nodemd.getReturnType()==null) {
394 methodset=new HashSet();
395 methodset.add(nodemd);
397 methodset=callgraph.getMethods(nodemd, fc.getThis().getType());
398 // Build start -> run link
399 if (nodemd.getClassDesc().getSymbol().equals(TypeUtil.ThreadClass)&&
400 nodemd.getSymbol().equals("start")&&!nodemd.getModifiers().isStatic()&&
401 nodemd.numParameters()==1&&nodemd.getParamType(0).isInt()) {
402 assert(nodemd.getModifiers().isNative());
404 MethodDescriptor runmd=null;
405 for(Iterator methodit=nodemd.getClassDesc().getMethodTable().getSet("run").iterator(); methodit.hasNext();) {
406 MethodDescriptor md=(MethodDescriptor) methodit.next();
407 if (md.numParameters()!=0||md.getModifiers().isStatic())
413 runmethodset=callgraph.getMethods(runmd,fc.getThis().getType());
414 methodset.addAll(runmethodset);
415 } else throw new Error("Can't find run method");
419 Integer currreturnval=EITHER; //Start off with the either value
420 for(Iterator methodit=methodset.iterator(); methodit.hasNext();) {
421 MethodDescriptor md=(MethodDescriptor) methodit.next();
423 boolean isnative=md.getModifiers().isNative();
424 boolean isjoin = md.getClassDesc().getSymbol().equals(TypeUtil.ThreadClass)&&!nodemd.getModifiers().isStatic()&&nodemd.numParameters()==0&&md.getSymbol().equals("join");
426 LocalityBinding lb=new LocalityBinding(md, isatomic);
427 if (isnative&&isatomic) {
428 System.out.println("Don't call native methods in atomic blocks!"+currlb.getMethod());
430 if (runmethodset==null||!runmethodset.contains(md)) {
431 //Skip this part if it is a run method
432 for(int i=0; i<fc.numArgs(); i++) {
433 TempDescriptor arg=fc.getArg(i);
434 if(isnative&&(currtable.get(arg).equals(GLOBAL)||
435 currtable.get(arg).equals(CONFLICT)))
436 throw new Error("Potential call to native method "+md+" with global parameter:\n"+currlb.getExplanation());
437 lb.setGlobal(i,currtable.get(arg));
441 if (fc.getThis()!=null) {
442 Integer thistype=currtable.get(fc.getThis());
446 if(runmethodset!=null&&runmethodset.contains(md)&&thistype.equals(LOCAL))
447 throw new Error("Starting thread on local object not allowed in context:\n"+currlb.getExplanation());
448 if(isjoin&&thistype.equals(LOCAL))
449 throw new Error("Joining thread on local object not allowed in context:\n"+currlb.getExplanation());
450 if(thistype.equals(CONFLICT))
451 throw new Error("Using type that can be either local or global in context:\n"+currlb.getExplanation());
452 if(runmethodset==null&&thistype.equals(GLOBAL)&&!isatomic && !isjoin)
453 throw new Error("Using global object outside of transaction in context:\n"+currlb.getExplanation());
454 if (runmethodset==null&&isnative&&thistype.equals(GLOBAL) && !isjoin)
455 throw new Error("Potential call to native method "+md+" on global objects:\n"+currlb.getExplanation());
456 lb.setGlobalThis(thistype);
459 if (!discovered.containsKey(lb)) {
461 lb.setGlobalReturn(LOCAL);
463 lb.setGlobalReturn(EITHER);
464 lb.setParent(currlb);
466 discovered.put(lb, lb);
467 if (!classtolb.containsKey(lb.getMethod().getClassDesc()))
468 classtolb.put(lb.getMethod().getClassDesc(), new HashSet<LocalityBinding>());
469 classtolb.get(lb.getMethod().getClassDesc()).add(lb);
470 if (!methodtolb.containsKey(lb.getMethod()))
471 methodtolb.put(lb.getMethod(), new HashSet<LocalityBinding>());
472 methodtolb.get(lb.getMethod()).add(lb);
474 lb=discovered.get(lb);
475 Integer returnval=lb.getGlobalReturn();
476 currreturnval=merge(returnval, currreturnval);
477 if (!dependence.containsKey(lb))
478 dependence.put(lb, new HashSet<LocalityBinding>());
479 dependence.get(lb).add(currlb);
481 if (!calldep.containsKey(currlb))
482 calldep.put(currlb, new HashSet<LocalityBinding>());
483 calldep.get(currlb).add(lb);
485 if (fc.getReturnTemp()!=null) {
486 currtable.put(fc.getReturnTemp(), currreturnval);
490 void processFieldNode(LocalityBinding lb, FlatFieldNode ffn, boolean transaction, Hashtable<TempDescriptor, Integer> currtable) {
491 Integer type=currtable.get(ffn.getSrc());
492 TempDescriptor dst=ffn.getDst();
493 if (type.equals(LOCAL)) {
494 if (ffn.getField().isGlobal())
495 currtable.put(dst,GLOBAL);
497 currtable.put(dst,LOCAL);
498 } else if (type.equals(GLOBAL)) {
500 throw new Error("Global access outside of a transaction in context:\n"+lb.getExplanation());
501 if (ffn.getField().getType().isPrimitive()&&!ffn.getField().getType().isArray())
502 currtable.put(dst, LOCAL); // primitives are local
504 currtable.put(dst, GLOBAL);
505 } else if (type.equals(EITHER)) {
506 if (ffn.getField().getType().isPrimitive()&&!ffn.getField().getType().isArray())
507 currtable.put(dst, LOCAL); // primitives are local
508 else if (ffn.getField().isGlobal())
509 currtable.put(dst, GLOBAL);
511 currtable.put(dst, EITHER);
512 } else if (type.equals(CONFLICT)) {
513 throw new Error("Access to object that could be either global or local in context:\n"+lb.getExplanation());
517 //need to handle primitives
518 void processSetFieldNode(LocalityBinding lb, FlatSetFieldNode fsfn, boolean transaction, Hashtable<TempDescriptor, Integer> currtable) {
519 Integer srctype=currtable.get(fsfn.getSrc());
520 Integer dsttype=currtable.get(fsfn.getDst());
522 if (dsttype.equals(LOCAL)) {
523 if (fsfn.getField().isGlobal()) {
524 if (!(srctype.equals(GLOBAL)||srctype.equals(EITHER)))
525 throw new Error("Writing possible local reference to global field in context: \n"+lb.getExplanation());
527 if (!(srctype.equals(LOCAL)||srctype.equals(EITHER)))
528 throw new Error("Writing possible global reference to local object in context: \n"+lb.getExplanation());
530 } else if (dsttype.equals(GLOBAL)) {
532 throw new Error("Global access outside of a transaction in context:\n"+lb.getExplanation());
533 //okay to store primitives in global object
534 if (srctype.equals(LOCAL) && fsfn.getField().getType().isPrimitive() && !fsfn.getField().getType().isArray())
536 if (!(srctype.equals(GLOBAL)||srctype.equals(EITHER)))
537 throw new Error("Writing possible local reference to global object in context:\n"+lb.getExplanation()+" for FlatFieldNode "+fsfn);
538 } else if (dsttype.equals(EITHER)) {
539 if (srctype.equals(CONFLICT))
540 throw new Error("Using reference that could be local or global in context:\n"+lb.getExplanation());
541 } else if (dsttype.equals(CONFLICT)) {
542 throw new Error("Access to object that could be either global or local in context:\n"+lb.getExplanation());
546 void processNew(LocalityBinding lb, FlatNew fn, boolean transaction, Hashtable<TempDescriptor, Integer> currtable) {
547 if (fn.isGlobal()&&!transaction) {
548 throw new Error("Allocating global object outside of transaction in context:"+lb.getExplanation());
551 currtable.put(fn.getDst(), GLOBAL);
553 currtable.put(fn.getDst(), LOCAL);
556 void processOpNode(FlatOpNode fon, Hashtable<TempDescriptor, Integer> currtable) {
557 /* Just propagate value */
558 Integer srcvalue=currtable.get(fon.getLeft());
560 if (srcvalue==null) {
561 if (!fon.getLeft().getType().isPtr()) {
564 throw new Error(fon.getLeft()+" is undefined!");
566 currtable.put(fon.getDest(), srcvalue);
569 void processCastNode(FlatCastNode fcn, Hashtable<TempDescriptor, Integer> currtable) {
570 currtable.put(fcn.getDst(), currtable.get(fcn.getSrc()));
573 void processLiteralNode(FlatLiteralNode fln, Hashtable<TempDescriptor, Integer> currtable) {
575 if (fln.getValue()==null)
576 currtable.put(fln.getDst(), EITHER);
578 currtable.put(fln.getDst(), LOCAL);
581 void processReturnNode(LocalityBinding lb, FlatReturnNode frn, Hashtable<TempDescriptor, Integer> currtable) {
582 if(frn.getReturnTemp()!=null) {
583 Integer returntype=currtable.get(frn.getReturnTemp());
584 lb.setGlobalReturn(merge(returntype, lb.getGlobalReturn()));
588 void processSetElementNode(LocalityBinding lb, FlatSetElementNode fsen, Hashtable<TempDescriptor, Integer> currtable, boolean isatomic) {
589 Integer srctype=currtable.get(fsen.getSrc());
590 Integer dsttype=currtable.get(fsen.getDst());
592 if (dsttype.equals(LOCAL)) {
593 if (!(srctype.equals(LOCAL)||srctype.equals(EITHER)))
594 throw new Error("Writing possible global reference to local object in context:\n"+lb.getExplanation()+fsen);
595 } else if (dsttype.equals(GLOBAL)) {
596 if (srctype.equals(LOCAL) && fsen.getDst().getType().dereference().isPrimitive() && !fsen.getDst().getType().dereference().isArray())
598 if (!(srctype.equals(GLOBAL)||srctype.equals(EITHER)))
599 throw new Error("Writing possible local reference to global object in context:\n"+lb.getExplanation());
601 throw new Error("Global access outside of a transaction in context:\n"+lb.getExplanation());
602 } else if (dsttype.equals(EITHER)) {
603 if (srctype.equals(CONFLICT))
604 throw new Error("Using reference that could be local or global in context:\n"+lb.getExplanation());
605 } else if (dsttype.equals(CONFLICT)) {
606 throw new Error("Access to object that could be either global or local in context:\n"+lb.getExplanation());
610 void processElementNode(LocalityBinding lb, FlatElementNode fen, Hashtable<TempDescriptor, Integer> currtable, boolean isatomic) {
611 Integer type=currtable.get(fen.getSrc());
612 TempDescriptor dst=fen.getDst();
613 if (type.equals(LOCAL)) {
614 currtable.put(dst,LOCAL);
615 } else if (type.equals(GLOBAL)) {
617 throw new Error("Global access outside of a transaction in context:\n"+lb.getExplanation());
618 if(fen.getSrc().getType().dereference().isPrimitive()&&
619 !fen.getSrc().getType().dereference().isArray())
620 currtable.put(dst, LOCAL);
622 currtable.put(dst, GLOBAL);
623 } else if (type.equals(EITHER)) {
624 if(fen.getSrc().getType().dereference().isPrimitive()&&
625 !fen.getSrc().getType().dereference().isArray())
626 currtable.put(dst, LOCAL);
628 currtable.put(dst, EITHER);
629 } else if (type.equals(CONFLICT)) {
630 throw new Error("Access to object that could be either global or local in context:\n"+lb.getExplanation());
634 void processAtomicEnterNode(FlatAtomicEnterNode fen, Hashtable<FlatNode, Integer> atomictable) {
635 int atomic=atomictable.get(fen).intValue();
636 atomictable.put(fen, new Integer(atomic+1));
639 void processAtomicExitNode(FlatAtomicExitNode fen, Hashtable<FlatNode, Integer> atomictable) {
640 int atomic=atomictable.get(fen).intValue();
641 atomictable.put(fen, new Integer(atomic-1));
644 private Hashtable<FlatNode, Set<TempDescriptor>> computeLiveTemps(FlatMethod fm) {
645 Hashtable<FlatNode, Set<TempDescriptor>> nodetotemps=new Hashtable<FlatNode, Set<TempDescriptor>>();
647 Set<FlatNode> toprocess=fm.getNodeSet();
649 while(!toprocess.isEmpty()) {
650 FlatNode fn=toprocess.iterator().next();
651 toprocess.remove(fn);
653 List<TempDescriptor> reads=Arrays.asList(fn.readsTemps());
654 List<TempDescriptor> writes=Arrays.asList(fn.writesTemps());
656 HashSet<TempDescriptor> tempset=new HashSet<TempDescriptor>();
657 for(int i=0; i<fn.numNext(); i++) {
658 FlatNode fnnext=fn.getNext(i);
659 if (nodetotemps.containsKey(fnnext))
660 tempset.addAll(nodetotemps.get(fnnext));
662 tempset.removeAll(writes);
663 tempset.addAll(reads);
664 if (!nodetotemps.containsKey(fn)||
665 !nodetotemps.get(fn).equals(tempset)) {
666 nodetotemps.put(fn, tempset);
667 for(int i=0; i<fn.numPrev(); i++)
668 toprocess.add(fn.getPrev(i));
674 private void computeTempstoSave() {
675 for(Iterator<LocalityBinding> lbit=getLocalityBindings().iterator(); lbit.hasNext();) {
676 LocalityBinding lb=lbit.next();
677 computeTempstoSave(lb);
681 /* Need to checkpoint all temps that could be read from along any
682 * path that are either:
683 1) Written to by any assignment inside the transaction
684 2) Read from a global temp.
686 Generate tempstosave map from
687 localitybinding->flatatomicenternode->Set<TempDescriptors>
690 private void computeTempstoSave(LocalityBinding lb) {
693 Hashtable<FlatNode, Integer> atomictab=getAtomic(lb);
694 Hashtable<FlatNode, Hashtable<TempDescriptor, Integer>> temptab=getNodeTempInfo(lb);
695 MethodDescriptor md=lb.getMethod();
696 FlatMethod fm=state.getMethodFlat(md);
697 Hashtable<FlatNode, Set<TempDescriptor>> nodetotemps=computeLiveTemps(fm);
698 Hashtable<FlatAtomicEnterNode, Set<TempDescriptor>> nodetosavetemps=new Hashtable<FlatAtomicEnterNode, Set<TempDescriptor>>();
699 tempstosave.put(lb, nodetosavetemps);
700 Hashtable<FlatNode, FlatAtomicEnterNode> nodemap=new Hashtable<FlatNode, FlatAtomicEnterNode>();
701 HashSet<FlatNode> toprocess=new HashSet<FlatNode>();
702 HashSet<FlatNode> discovered=new HashSet<FlatNode>();
705 while(!toprocess.isEmpty()) {
706 FlatNode fn=toprocess.iterator().next();
707 toprocess.remove(fn);
708 boolean isatomic=atomictab.get(fn).intValue()>0;
710 atomictab.get(fn.getPrev(0)).intValue()==0) {
711 assert(fn.getPrev(0).kind()==FKind.FlatAtomicEnterNode);
712 nodemap.put(fn, (FlatAtomicEnterNode)fn);
713 nodetosavetemps.put((FlatAtomicEnterNode)fn, new HashSet<TempDescriptor>());
714 } else if (isatomic) {
715 FlatAtomicEnterNode atomicnode=nodemap.get(fn);
716 Set<TempDescriptor> livetemps=nodetotemps.get(fn);
717 List<TempDescriptor> reads=Arrays.asList(fn.readsTemps());
718 List<TempDescriptor> writes=Arrays.asList(fn.readsTemps());
720 for(Iterator<TempDescriptor> tempit=livetemps.iterator(); tempit.hasNext();) {
721 TempDescriptor tmp=tempit.next();
722 if (writes.contains(tmp)) {
723 nodetosavetemps.get(atomicnode).add(tmp);
724 } else if (reads.contains(tmp)&&temptab.get(fn).get(tmp)==GLOBAL) {
725 nodetosavetemps.get(atomicnode).add(tmp);
729 for(int i=0; i<fn.numNext(); i++) {
730 FlatNode fnnext=fn.getNext(i);
731 if (!discovered.contains(fnnext)) {
732 discovered.add(fnnext);
733 toprocess.add(fnnext);
735 nodemap.put(fnnext, nodemap.get(fn));