3 import java.io.FileOutputStream;
4 import java.io.InputStream;
5 import java.io.PrintStream;
7 import java.io.BufferedReader;
8 import java.io.FileReader;
9 import java.io.FileInputStream;
10 import java.util.Iterator;
11 import java.util.Vector;
13 import IR.Tree.ParseNode;
14 import IR.Tree.BuildIR;
15 import IR.Tree.SemanticCheck;
16 import IR.Flat.BuildFlat;
17 import IR.Flat.BuildCode;
18 import IR.ClassDescriptor;
20 import IR.TaskDescriptor;
22 import Analysis.Scheduling.Schedule;
23 import Analysis.Scheduling.ScheduleAnalysis;
24 import Analysis.Scheduling.ScheduleEdge;
25 import Analysis.Scheduling.ScheduleNode;
26 import Analysis.Scheduling.ScheduleSimulator;
27 import Analysis.TaskStateAnalysis.TaskAnalysis;
28 import Analysis.TaskStateAnalysis.TaskTagAnalysis;
29 import Analysis.TaskStateAnalysis.TaskGraph;
30 import Analysis.CallGraph.CallGraph;
31 import Analysis.TaskStateAnalysis.FEdge;
32 import Analysis.TaskStateAnalysis.FlagState;
33 import Analysis.TaskStateAnalysis.TagAnalysis;
34 import Analysis.TaskStateAnalysis.GarbageAnalysis;
35 import Analysis.TaskStateAnalysis.ExecutionGraph;
36 import Analysis.TaskStateAnalysis.SafetyAnalysis;
37 import Analysis.Locality.LocalityAnalysis;
38 import Analysis.Locality.GenerateConversions;
39 import Analysis.Prefetch.PrefetchAnalysis;
40 import Analysis.FlatIRGraph.FlatIRGraph;
41 import Analysis.OwnershipAnalysis.OwnershipAnalysis;
46 /** Main method for the compiler. */
48 public static void main(String args[]) throws Exception {
49 String ClassLibraryPrefix="./ClassLibrary/";
50 State state=new State();
52 for(int i=0;i<args.length;i++) {
53 String option=args[i];
54 if (option.equals("-precise"))
55 IR.Flat.BuildCode.GENERATEPRECISEGC=true;
56 else if (option.equals("-prefetch"))
58 else if (option.equals("-dir"))
59 IR.Flat.BuildCode.PREFIX=args[++i]+"/";
60 else if (option.equals("-selfloop"))
61 state.selfloops.add(args[++i]);
62 else if (option.equals("-excprefetch"))
63 state.excprefetch.add(args[++i]);
64 else if (option.equals("-classlibrary"))
65 ClassLibraryPrefix=args[++i]+"/";
66 else if (option.equals("-mainclass"))
68 else if (option.equals("-struct"))
69 state.structfile=args[++i];
70 else if (option.equals("-conscheck"))
72 else if (option.equals("-task"))
74 else if (option.equals("-taskstate"))
76 else if (option.equals("-tagstate"))
78 else if (option.equals("-flatirtasks")) {
79 state.FLATIRGRAPH=true;
80 state.FLATIRGRAPHTASKS=true;
82 else if (option.equals("-flatirusermethods")) {
83 state.FLATIRGRAPH=true;
84 state.FLATIRGRAPHUSERMETHODS=true;
86 else if (option.equals("-flatirlibmethods")) {
87 state.FLATIRGRAPH=true;
88 state.FLATIRGRAPHLIBMETHODS=true;
90 else if (option.equals("-ownership"))
92 else if (option.equals("-optional"))
94 else if (option.equals("-scheduling"))
95 state.SCHEDULING=true;
96 else if (option.equals("-thread"))
98 else if (option.equals("-dsm"))
100 else if (option.equals("-webinterface"))
101 state.WEBINTERFACE=true;
102 else if (option.equals("-instructionfailures"))
103 state.INSTRUCTIONFAILURE=true;
104 else if (option.equals("-help")) {
105 System.out.println("-classlibrary classlibrarydirectory -- directory where classlibrary is located");
106 System.out.println("-selfloop task -- this task doesn't self loop its parameters forever");
107 System.out.println("-dir outputdirectory -- output code in outputdirectory");
108 System.out.println("-struct structfile -- output structure declarations for repair tool");
109 System.out.println("-mainclass -- main function to call");
110 System.out.println("-dsm -- distributed shared memory support");
111 System.out.println("-precise -- use precise garbage collection");
112 System.out.println("-conscheck -- turn on consistency checking");
113 System.out.println("-task -- compiler for tasks");
114 System.out.println("-thread -- threads");
115 System.out.println("-instructionfailures -- insert code for instruction level failures");
116 System.out.println("-taskstate -- do task state analysis");
117 System.out.println("-flatirtasks -- create dot files for flat IR graphs of tasks");
118 System.out.println("-flatirusermethods -- create dot files for flat IR graphs of user methods");
119 System.out.println("-flatirlibmethods -- create dot files for flat IR graphs of library class methods");
120 System.out.println(" note: -flatirusermethods or -flatirlibmethods currently generate all class method flat IR graphs");
121 System.out.println("-ownership -- do ownership analysis");
122 System.out.println("-optional -- enable optional arguments");
123 System.out.println("-webinterface -- enable web interface");
124 System.out.println("-help -- print out help");
127 readSourceFile(state, args[i]);
132 readSourceFile(state, ClassLibraryPrefix+"System.java");
133 readSourceFile(state, ClassLibraryPrefix+"String.java");
134 readSourceFile(state, ClassLibraryPrefix+"HashSet.java");
135 readSourceFile(state, ClassLibraryPrefix+"HashMap.java");
136 readSourceFile(state, ClassLibraryPrefix+"HashMapIterator.java");
137 readSourceFile(state, ClassLibraryPrefix+"HashEntry.java");
138 readSourceFile(state, ClassLibraryPrefix+"Integer.java");
139 readSourceFile(state, ClassLibraryPrefix+"StringBuffer.java");
140 readSourceFile(state, ClassLibraryPrefix+"FileInputStream.java");
141 readSourceFile(state, ClassLibraryPrefix+"InputStream.java");
142 readSourceFile(state, ClassLibraryPrefix+"OutputStream.java");
143 readSourceFile(state, ClassLibraryPrefix+"FileOutputStream.java");
144 readSourceFile(state, ClassLibraryPrefix+"File.java");
145 readSourceFile(state, ClassLibraryPrefix+"Math.java");
146 readSourceFile(state, ClassLibraryPrefix+"InetAddress.java");
147 readSourceFile(state, ClassLibraryPrefix+"SocketInputStream.java");
148 readSourceFile(state, ClassLibraryPrefix+"SocketOutputStream.java");
149 readSourceFile(state, ClassLibraryPrefix+"gnu/Random.java");
150 readSourceFile(state, ClassLibraryPrefix+"Vector.java");
151 readSourceFile(state, ClassLibraryPrefix+"Enumeration.java");
155 readSourceFile(state, ClassLibraryPrefix+"Object.java");
156 readSourceFile(state, ClassLibraryPrefix+"TagDescriptor.java");
157 } else if (state.DSM) {
158 readSourceFile(state, ClassLibraryPrefix+"ThreadDSM.java");
159 readSourceFile(state, ClassLibraryPrefix+"ObjectJavaDSM.java");
162 readSourceFile(state, ClassLibraryPrefix+"Thread.java");
163 readSourceFile(state, ClassLibraryPrefix+"ObjectJava.java");
165 readSourceFile(state, ClassLibraryPrefix+"ObjectJavaNT.java");
169 readSourceFile(state, ClassLibraryPrefix+"StartupObject.java");
170 readSourceFile(state, ClassLibraryPrefix+"Socket.java");
171 readSourceFile(state, ClassLibraryPrefix+"ServerSocket.java");
173 readSourceFile(state, ClassLibraryPrefix+"SocketJava.java");
174 readSourceFile(state, ClassLibraryPrefix+"ServerSocketJava.java");
177 BuildIR bir=new BuildIR(state);
180 TypeUtil tu=new TypeUtil(state);
182 SemanticCheck sc=new SemanticCheck(state,tu);
184 tu.createFullTable();
186 BuildFlat bf=new BuildFlat(state,tu);
188 SafetyAnalysis sa=null;
190 if (state.TAGSTATE) {
191 CallGraph callgraph=new CallGraph(state);
192 TagAnalysis taganalysis=new TagAnalysis(state, callgraph);
193 TaskTagAnalysis tta=new TaskTagAnalysis(state, taganalysis);
196 if (state.TASKSTATE) {
197 CallGraph callgraph=new CallGraph(state);
198 TagAnalysis taganalysis=new TagAnalysis(state, callgraph);
199 TaskAnalysis ta=new TaskAnalysis(state, taganalysis);
201 TaskGraph tg=new TaskGraph(state, ta);
204 if (state.OPTIONAL) {
205 ExecutionGraph et=new ExecutionGraph(state, ta);
206 et.createExecutionGraph();
207 sa = new SafetyAnalysis(et.getExecutionGraph(), state, ta);
209 state.storeAnalysisResult(sa.getResult());
210 state.storeOptionalTaskDescriptors(sa.getOptionalTaskDescriptors());
213 if (state.WEBINTERFACE) {
214 GarbageAnalysis ga=new GarbageAnalysis(state, ta);
215 WebInterface wi=new WebInterface(state, ta, tg, ga, taganalysis);
216 JhttpServer serve=new JhttpServer(8000,wi);
220 if (state.SCHEDULING) {
221 // Save the current standard input, output, and error streams
222 // for later restoration.
223 PrintStream origOut = System.out;
225 // Create a new output stream for the standard output.
226 PrintStream stdout = null;
228 stdout = new PrintStream (new FileOutputStream("SimulatorResult.out"));
229 } catch (Exception e) {
230 // Sigh. Couldn't open the file.
231 System.out.println ("Redirect: Unable to open output file!");
235 // Print stuff to the original output and error streams.
236 // On most systems all of this will end up on your console when you
237 // run this application.
238 origOut.println ("\nRedirect: Round #1");
239 System.out.println ("Test output via 'System.out'.");
240 origOut.println ("Test output via 'origOut' reference.");
242 // Set the System out and err streams to use our replacements.
243 System.setOut(stdout);
245 // Print stuff to the original output and error streams.
246 // The stuff printed through the 'origOut' and 'origErr' references
247 // should go to the console on most systems while the messages
248 // printed through the 'System.out' and 'System.err' will end up in
249 // the files we created for them.
250 origOut.println ("\nRedirect: Round #2");
251 System.out.println ("Test output via 'SimulatorResult.out'.");
252 origOut.println ("Test output via 'origOut' reference.");
255 // Randomly set the newRate and probability of FEdges
256 java.util.Random r=new java.util.Random();
258 for(Iterator it_classes=state.getClassSymbolTable().getDescriptorsIterator();it_classes.hasNext();) {
259 ClassDescriptor cd=(ClassDescriptor) it_classes.next();
261 Vector rootnodes=ta.getRootNodes(cd);
263 for(Iterator it_rootnodes=rootnodes.iterator();it_rootnodes.hasNext();){
264 FlagState root=(FlagState)it_rootnodes.next();
265 Vector allocatingTasks = root.getAllocatingTasks();
266 if(allocatingTasks != null) {
267 for(int k = 0; k < allocatingTasks.size(); k++) {
268 TaskDescriptor td = (TaskDescriptor)allocatingTasks.elementAt(k);
269 Vector<FEdge> fev = (Vector<FEdge>)ta.getFEdgesFromTD(td);
270 int numEdges = fev.size();
272 for(int j = 0; j < numEdges; j++) {
273 FEdge pfe = fev.elementAt(j);
274 if(numEdges - j == 1) {
275 pfe.setProbability(total);
279 tint = r.nextInt()%total;
282 pfe.setProbability(tint);
286 tint = r.nextInt()%10;
288 //int newRate = tint;
289 int newRate = (j+1)%2+1;
291 tint = r.nextInt()%100;
293 int probability = tint;*/
294 int probability = 100;
295 pfe.addNewObjInfo(cd, newRate, probability);
301 Iterator it_flags = ta.getFlagStates(cd).iterator();
302 while(it_flags.hasNext()) {
303 FlagState fs = (FlagState)it_flags.next();
304 Iterator it_edges = fs.edges();
305 while(it_edges.hasNext()) {
307 tint = r.nextInt()%10;
309 ((FEdge)it_edges.next()).setExeTime(tint);
315 // generate multiple schedulings
316 ScheduleAnalysis scheduleAnalysis = new ScheduleAnalysis(state, ta);
317 scheduleAnalysis.preSchedule();
318 scheduleAnalysis.scheduleAnalysis();
319 scheduleAnalysis.setCoreNum(scheduleAnalysis.getSEdges4Test().size());
320 scheduleAnalysis.schedule();
322 //simulate these schedulings
323 ScheduleSimulator scheduleSimulator = new ScheduleSimulator(scheduleAnalysis.getCoreNum(), state, ta);
324 Iterator it_scheduling = scheduleAnalysis.getSchedulingsIter();
326 Vector<Integer> selectedScheduling = new Vector<Integer>();
327 int processTime = Integer.MAX_VALUE;
328 while(it_scheduling.hasNext()) {
329 Vector<Schedule> scheduling = (Vector<Schedule>)it_scheduling.next();
330 scheduleSimulator.setScheduling(scheduling);
331 int tmpTime = scheduleSimulator.process();
332 if(tmpTime < processTime) {
333 selectedScheduling.clear();
334 selectedScheduling.add(index);
335 processTime = tmpTime;
336 } else if(tmpTime == processTime) {
337 selectedScheduling.add(index);
341 System.out.print("Selected schedulings with least exectution time " + processTime + ": \n\t");
342 for(int i = 0; i < selectedScheduling.size(); i++) {
343 System.out.print(selectedScheduling.elementAt(i) + ", ");
345 System.out.println();
347 /*ScheduleSimulator scheduleSimulator = new ScheduleSimulator(4, state, ta);
348 Vector<Schedule> scheduling = new Vector<Schedule>();
349 for(int i = 0; i < 4; i++) {
350 Schedule schedule = new Schedule(i);
351 scheduling.add(schedule);
353 Iterator it_tasks = state.getTaskSymbolTable().getAllDescriptorsIterator();
354 while(it_tasks.hasNext()) {
355 TaskDescriptor td = (TaskDescriptor)it_tasks.next();
356 if(td.getSymbol().equals("t10")) {
357 scheduling.elementAt(1).addTask(td);
359 scheduling.elementAt(0).addTask(td);
362 ClassDescriptor cd = (ClassDescriptor)state.getClassSymbolTable().get("E");
363 scheduling.elementAt(0).addTargetCore(cd, 1);
364 scheduleSimulator.setScheduling(scheduling);
365 scheduleSimulator.process();
367 Vector<Schedule> scheduling1 = new Vector<Schedule>();
368 for(int i = 0; i < 4; i++) {
369 Schedule schedule = new Schedule(i);
370 scheduling1.add(schedule);
372 Iterator it_tasks1 = state.getTaskSymbolTable().getAllDescriptorsIterator();
373 while(it_tasks1.hasNext()) {
374 TaskDescriptor td = (TaskDescriptor)it_tasks1.next();
375 scheduling1.elementAt(0).addTask(td);
377 scheduleSimulator.setScheduling(scheduling1);
378 scheduleSimulator.process();*/
380 // Close the streams.
383 System.setOut(origOut);
384 } catch (Exception e) {
385 origOut.println ("Redirect: Unable to close files!");
392 CallGraph callgraph=new CallGraph(state);
393 if (state.PREFETCH) {
394 PrefetchAnalysis pa=new PrefetchAnalysis(state, callgraph, tu);
396 LocalityAnalysis la=new LocalityAnalysis(state, callgraph, tu);
397 GenerateConversions gc=new GenerateConversions(la, state);
398 BuildCode bc=new BuildCode(state, bf.getMap(), tu, la);
401 BuildCode bc=new BuildCode(state, bf.getMap(), tu, sa);
405 if (state.FLATIRGRAPH) {
406 FlatIRGraph firg = new FlatIRGraph(state,
407 state.FLATIRGRAPHTASKS,
408 state.FLATIRGRAPHUSERMETHODS,
409 state.FLATIRGRAPHLIBMETHODS);
412 if (state.OWNERSHIP) {
413 CallGraph callGraph = new CallGraph( state );
414 int allocationDepth = 3;
415 OwnershipAnalysis oa =
416 new OwnershipAnalysis( state, callGraph, allocationDepth );
422 /** Reads in a source file and adds the parse tree to the state object. */
424 private static void readSourceFile(State state, String sourcefile) throws Exception {
425 Reader fr = new BufferedReader(new FileReader(sourcefile));
426 Lex.Lexer l = new Lex.Lexer(fr);
427 java_cup.runtime.lr_parser g;
428 g = new Parse.Parser(l);
431 p=(ParseNode) g./*debug_*/parse().value;
432 } catch (Exception e) {
433 System.err.println("Error parsing file:"+sourcefile);
437 state.addParseNode(p);
438 if (l.numErrors()!=0) {
439 System.out.println("Error parsing "+sourcefile);
440 System.exit(l.numErrors());