import Analysis.Prefetch.PrefetchAnalysis;
import Analysis.FlatIRGraph.FlatIRGraph;
import Analysis.OwnershipAnalysis.OwnershipAnalysis;
+import Analysis.Disjoint.DisjointAnalysis;
import Analysis.MLP.MLPAnalysis;
import Analysis.Loops.*;
+import Analysis.Liveness;
+import Analysis.ArrayReferencees;
import IR.MethodDescriptor;
import IR.Flat.FlatMethod;
import Interface.*;
} else if(option.equals("-numcore")) {
++i;
state.CORENUM = Integer.parseInt(args[i]);
+ } else if(option.equals("-numcore4gc")) {
+ ++i;
+ state.CORENUM4GC = Integer.parseInt(args[i]);
} else if (option.equals("-mainclass"))
state.main=args[++i];
else if (option.equals("-trueprob")) {
state.TASK=true;
else if (option.equals("-abortreaders"))
state.ABORTREADERS=true;
+ else if (option.equals("-sandbox"))
+ state.SANDBOX=true;
else if (option.equals("-taskstate"))
state.TASKSTATE=true;
else if (option.equals("-tagstate"))
state.TAGSTATE=true;
+ else if (option.equals("-stmarray"))
+ state.STMARRAY=true;
+ else if (option.equals("-eventmonitor"))
+ state.EVENTMONITOR=true;
+ else if (option.equals("-dualview"))
+ state.DUALVIEW=true;
+ else if (option.equals("-hybrid"))
+ state.HYBRID=true;
else if (option.equals("-flatirtasks")) {
state.FLATIRGRAPH=true;
state.FLATIRGRAPHTASKS=true;
if (args[++i].equals("all")) {
state.OWNERSHIPWRITEALL=true;
}
- } else if (option.equals("-ownaliasfile"))
+ } else if (option.equals("-ownaliasfile")) {
state.OWNERSHIPALIASFILE=args[++i];
+ } else if (option.equals("-ownaliasfiletab")) {
+ state.OWNERSHIPALIASFILE=args[++i];
+ state.OWNERSHIPALIASTAB=true;
+ } else if (option.equals("-owndebugcallee")) {
+ state.OWNERSHIPDEBUGCALLEE=args[++i];
+ } else if (option.equals("-owndebugcaller")) {
+ state.OWNERSHIPDEBUGCALLER=args[++i];
+ } else if (option.equals("-owndebugcallcount")) {
+ state.OWNERSHIPDEBUGCALLCOUNT=Integer.parseInt(args[++i]);
+ }
+ else if (option.equals("-disjoint"))
+ state.DISJOINT=true;
+ else if (option.equals("-disjoint-k")) {
+ state.DISJOINTALLOCDEPTH=Integer.parseInt(args[++i]);
+ } else if (option.equals("-disjoint-write-dots")) {
+ state.DISJOINTWRITEDOTS = true;
+ String arg = args[++i];
+ if( arg.equals("all") ) {
+ state.DISJOINTWRITEALL = true;
+ } else if( arg.equals("final") ) {
+ state.DISJOINTWRITEALL = false;
+ } else {
+ throw new Error("disjoint-write-dots requires argument <all/final>");
+ }
+ } else if (option.equals("-disjoint-alias-file")) {
+ state.DISJOINTALIASFILE = args[++i];
+ String arg = args[++i];
+ if( arg.equals("normal") ) {
+ state.DISJOINTALIASTAB = false;
+ } else if( arg.equals("tabbed") ) {
+ state.DISJOINTALIASTAB = true;
+ } else {
+ throw new Error("disjoint-alias-file requires arguments <filename> <normal/tabbed>");
+ }
+ } else if (option.equals("-disjoint-debug-callsite")) {
+ state.DISJOINTDEBUGCALLEE=args[++i];
+ state.DISJOINTDEBUGCALLER=args[++i];
+ state.DISJOINTDEBUGCALLCOUNT=Integer.parseInt(args[++i]);
+ }
else if (option.equals("-optional"))
state.OPTIONAL=true;
else if (option.equals("-optimize"))
state.THREAD=true;
else if (option.equals("-dsm"))
state.DSM=true;
+ else if (option.equals("-recoverystats"))
+ state.DSMRECOVERYSTATS=true;
+ else if (option.equals("-dsmtask"))
+ state.DSMTASK=true;
else if (option.equals("-singleTM"))
state.SINGLETM=true;
else if (option.equals("-readset"))
} else if (option.equals("-mlpdebug")) {
state.MLPDEBUG=true;
- } else if (option.equals("-help")) {
+ } else if (option.equals("-methodeffects")) {
+ state.METHODEFFECTS=true;
+ }else if (option.equals("-help")) {
System.out.println("-classlibrary classlibrarydirectory -- directory where classlibrary is located");
System.out.println("-selfloop task -- this task doesn't self loop its parameters forever");
System.out.println("-dir outputdirectory -- output code in outputdirectory");
sourcefiles.add(args[i]);
}
}
-
+
//add default classpath
if (state.classpath.size()==1)
state.classpath.add(ClassLibraryPrefix);
}
}
}
-
+
if (state.FLATIRGRAPH) {
FlatIRGraph firg = new FlatIRGraph(state,
state.FLATIRGRAPHTASKS,
state.FLATIRGRAPHUSERMETHODS,
state.FLATIRGRAPHLIBMETHODS);
}
-
+
if (state.OWNERSHIP && !state.MLP) {
CallGraph callGraph = new CallGraph(state);
+ Liveness liveness = new Liveness();
+ ArrayReferencees ar = new ArrayReferencees(state);
OwnershipAnalysis oa = new OwnershipAnalysis(state,
tu,
callGraph,
+ liveness,
+ ar,
state.OWNERSHIPALLOCDEPTH,
state.OWNERSHIPWRITEDOTS,
state.OWNERSHIPWRITEALL,
- state.OWNERSHIPALIASFILE);
+ state.OWNERSHIPALIASFILE,
+ state.METHODEFFECTS);
}
if (state.MLP) {
CallGraph callGraph = new CallGraph(state);
+ Liveness liveness = new Liveness();
+ ArrayReferencees ar = new ArrayReferencees(state);
OwnershipAnalysis oa = new OwnershipAnalysis(state,
tu,
callGraph,
+ liveness,
+ ar,
state.OWNERSHIPALLOCDEPTH,
state.OWNERSHIPWRITEDOTS,
state.OWNERSHIPWRITEALL,
- state.OWNERSHIPALIASFILE);
+ state.OWNERSHIPALIASFILE,
+ state.METHODEFFECTS);
mlpa = new MLPAnalysis(state,
tu,
callGraph,
oa);
}
+ if (state.DISJOINT) {
+ CallGraph cg = new CallGraph(state);
+ Liveness l = new Liveness();
+ ArrayReferencees ar = new ArrayReferencees(state);
+ DisjointAnalysis oa = new DisjointAnalysis(state, tu, cg, l, ar);
+ }
+
if (state.TAGSTATE) {
CallGraph callgraph=new CallGraph(state);
TagAnalysis taganalysis=new TagAnalysis(state, callgraph);
if (state.SCHEDULING) {
// Use ownership analysis to get alias information
CallGraph callGraph = new CallGraph(state);
+ Liveness liveness = new Liveness();
+ ArrayReferencees ar = new ArrayReferencees(state);
OwnershipAnalysis oa = new OwnershipAnalysis(state,
tu,
callGraph,
+ liveness,
+ ar,
state.OWNERSHIPALLOCDEPTH,
state.OWNERSHIPWRITEDOTS,
state.OWNERSHIPWRITEALL,
if(isDistributeInfo) {
mcImplSynthesis.distribution(isDisAll, startnum);
} else {
- double timeStartAnalysis = (double) System.nanoTime();
+ //double timeStartAnalysis = (double) System.nanoTime();
mcImplSynthesis.setScheduleThreshold(20);
mcImplSynthesis.setProbThreshold(0);
mcImplSynthesis.setGenerateThreshold(30);
Vector<Schedule> scheduling = mcImplSynthesis.synthesis();
- double timeEndAnalysis = (double) System.nanoTime();
- double dt = (timeEndAnalysis - timeStartAnalysis)/(Math.pow( 10.0, 9.0 ) );
- System.err.println("The analysis took" + dt + "sec.");
- System.exit(0);
+ //double timeEndAnalysis = (double) System.nanoTime();
+ //double dt = (timeEndAnalysis - timeStartAnalysis)/(Math.pow( 10.0, 9.0 ) );
+ //System.err.println("The analysis took" + dt + "sec.");
+ //System.exit(0);
// generate multicore codes
if(state.MULTICORE) {
sa,
scheduling,
mcImplSynthesis.getCoreNum(),
+ state.CORENUM4GC,
pa);
bcm.setOwnershipAnalysis(oa);
bcm.buildCode();
}
public static void loadClass(State state, BuildIR bir, String sourcefile) {
- ParseNode pn=readSourceFile(state, sourcefile);
- bir.buildtree(pn, null);
+ try {
+ ParseNode pn=readSourceFile(state, sourcefile);
+ bir.buildtree(pn, null);
+ } catch (Exception e) {
+ System.out.println("Error in sourcefile:"+sourcefile);
+ e.printStackTrace();
+ System.exit(-1);
+ } catch (Error e) {
+ System.out.println("Error in sourcefile:"+sourcefile);
+ e.printStackTrace();
+ System.exit(-1);
+ }
}
/** Reads in a source file and adds the parse tree to the state object. */