6 import Analysis.TaskStateAnalysis.*;
12 this.classes=new SymbolTable();
13 this.tasks=new SymbolTable();
14 this.treemethodmap=new Hashtable();
15 this.flatmethodmap=new Hashtable();
16 this.parsetrees=new HashSet();
17 this.arraytypes=new HashSet();
18 this.arraytonumber=new Hashtable();
19 this.tagmap=new Hashtable();
20 this.selfloops=new HashSet();
21 this.excprefetch=new HashSet();
22 this.classpath=new Vector();
26 public void addParseNode(ParseNode parsetree) {
27 parsetrees.add(parsetree);
30 public void storeAnalysisResult(Hashtable<ClassDescriptor, Hashtable<FlagState, Set<OptionalTaskDescriptor>>> analysisresults) {
31 this.analysisresults=analysisresults;
34 public Hashtable<ClassDescriptor, Hashtable<FlagState, Set<OptionalTaskDescriptor>>> getAnalysisResult() {
35 return analysisresults;
39 public void storeOptionalTaskDescriptors(Hashtable<ClassDescriptor, Hashtable<OptionalTaskDescriptor, OptionalTaskDescriptor>> optionaltaskdescriptors) {
40 this.optionaltaskdescriptors=optionaltaskdescriptors;
43 public Hashtable<ClassDescriptor, Hashtable<OptionalTaskDescriptor, OptionalTaskDescriptor>> getOptionalTaskDescriptors() {
44 return optionaltaskdescriptors;
48 /** Boolean flag which indicates whether compiler is compiling a task-based
50 public boolean WEBINTERFACE=false;
51 public boolean MINIMIZE=false;
52 public boolean TASK=false;
53 public boolean FASTCHECK=false;
54 public boolean PREFETCH=false;
55 public boolean TASKSTATE=false;
56 public boolean TAGSTATE=false;
57 public boolean FLATIRGRAPH=false;
58 public boolean FLATIRGRAPHTASKS=false;
59 public boolean FLATIRGRAPHUSERMETHODS=false;
60 public boolean FLATIRGRAPHLIBMETHODS=false;
61 public boolean OWNERSHIP=false;
62 public int OWNERSHIPALLOCDEPTH=3;
63 public boolean OWNERSHIPWRITEDOTS=false;
64 public boolean OWNERSHIPWRITEALL=false;
65 public String OWNERSHIPALIASFILE=null;
66 public boolean OWNERSHIPALIASTAB=false;
67 public int OWNERSHIPDEBUGCALLCOUNT=0;
68 public String OWNERSHIPDEBUGCALLEE=null;
69 public String OWNERSHIPDEBUGCALLER=null;
71 public boolean DISJOINT=false;
72 public boolean DISJOINTRELEASEMODE=false;
73 public boolean DISJOINTDETERMINISM=false;
74 public int DISJOINTALLOCDEPTH=3;
75 public boolean DISJOINTWRITEDOTS=false;
76 public boolean DISJOINTWRITEALL=false;
77 public boolean DISJOINTWRITEIHMS=false;
78 public String DISJOINTALIASFILE=null;
79 public boolean DISJOINTALIASTAB=false;
81 public String DISJOINTDEBUGCALLEE=null;
82 public String DISJOINTDEBUGCALLER=null;
83 public int DISJOINTDEBUGCALLVISITTOSTART=0;
84 public int DISJOINTDEBUGCALLNUMVISITS=0;
85 public boolean DISJOINTDEBUGCALLSTOPAFTER=false;
87 public String DISJOINTSNAPSYMBOL=null;
88 public int DISJOINTSNAPVISITTOSTART=0;
89 public int DISJOINTSNAPNUMVISITS=0;
90 public boolean DISJOINTSNAPSTOPAFTER=false;
92 public boolean DISJOINTDVISITSTACK=true;
93 public boolean DISJOINTDVISITPQUE=false;
94 public boolean DISJOINTDVISITSTACKEESONTOP=false;
96 public boolean DISJOINTDEBUGSCHEDULING=false;
98 public boolean OPTIONAL=false;
99 public boolean ARRAYPAD=false;
100 public boolean THREAD=false;
101 public boolean CONSCHECK=false;
102 public boolean INSTRUCTIONFAILURE=false;
103 public boolean MLP=false;
104 public boolean MLPDEBUG=false;
105 public int MLP_NUMCORES=0;
106 public int MLP_MAXSESEAGE=0;
107 public boolean METHODEFFECTS=false;
108 public static double TRUEPROB=0.8;
109 public static boolean PRINTFLAT=false;
112 public boolean DSM=false;
113 public boolean DSMTASK=false;
114 public static boolean ABORTREADERS=false;
116 // Recovery Stats Options
117 public boolean DSMRECOVERYSTATS=false;
119 public boolean EVENTMONITOR=false;
120 public static boolean STMARRAY=false;
121 public static boolean SINGLETM=false;
122 public static boolean READSET=false;
123 public boolean SANDBOX=false;
124 public boolean DCOPTS=false;
125 public boolean DELAYCOMP=false;
126 public boolean DUALVIEW=false;
127 public boolean HYBRID=false;
130 public boolean MULTICORE=false;
131 public boolean MULTICOREGC=false;
132 public boolean BAMBOOCOMPILETIME = false;
133 public boolean ARRAYBOUNDARYCHECK=true;
134 public boolean RAW=false;
135 public boolean SCHEDULING=false;
136 public boolean USEPROFILE=false;
137 public static boolean PRINTSCHEDULING=false;
138 public static boolean PRINTSCHEDULESIM=false;
139 public static boolean PRINTCRITICALPATH=false;
140 public int CORENUM = 1;
141 public int CORENUM4GC = 0;
142 public String profilename = null;
143 public String outputdir = "/scratch/";
145 public String structfile;
147 public boolean INLINEATOMIC=false;
148 public int inlineatomicdepth;
149 public HashSet selfloops;
150 public HashSet excprefetch;
151 public Vector classpath;
152 public SymbolTable classes;
153 public SymbolTable tasks;
154 public Set parsetrees;
155 public Hashtable treemethodmap;
156 public Hashtable flatmethodmap;
157 private HashSet arraytypes;
158 public Hashtable arraytonumber;
159 private int numclasses=1; // start from 1 instead of 0 for multicore gc
160 private int numtasks=0;
161 private int arraycount=0;
162 public boolean OPTIMIZE=false;
164 private Hashtable<ClassDescriptor, Hashtable<OptionalTaskDescriptor, OptionalTaskDescriptor>> optionaltaskdescriptors;
165 private Hashtable<ClassDescriptor, Hashtable<FlagState, Set<OptionalTaskDescriptor>>> analysisresults;
167 private Hashtable tagmap;
168 private int numtags=0;
170 public void addArrayType(TypeDescriptor td) {
171 if (!arraytypes.contains(td)) {
173 arraytonumber.put(td,new Integer(arraycount++));
177 public Iterator getArrayIterator() {
178 return arraytypes.iterator();
181 public int getTagId(TagDescriptor tag) {
182 if (tagmap.containsKey(tag)) {
183 return ((Integer) tagmap.get(tag)).intValue();
185 tagmap.put(tag, new Integer(numtags));
190 public int getArrayNumber(TypeDescriptor td) {
191 if (arraytonumber.containsKey(td))
192 return ((Integer)arraytonumber.get(td)).intValue();
196 public int numArrays() {
197 return arraytypes.size();
200 public static TypeDescriptor getTypeDescriptor(int t) {
201 TypeDescriptor td=new TypeDescriptor(t);
205 public static TypeDescriptor getTypeDescriptor(NameDescriptor n) {
206 TypeDescriptor td=new TypeDescriptor(n);
210 public void addClass(ClassDescriptor tdn) {
211 if (classes.contains(tdn.getSymbol()))
212 throw new Error("Class "+tdn.getSymbol()+" defined twice");
217 public int numClasses() {
221 public BlockNode getMethodBody(MethodDescriptor md) {
222 return (BlockNode)treemethodmap.get(md);
225 public BlockNode getMethodBody(TaskDescriptor td) {
226 return (BlockNode)treemethodmap.get(td);
229 public SymbolTable getClassSymbolTable() {
233 public SymbolTable getTaskSymbolTable() {
237 /** Returns Flat IR representation of MethodDescriptor md. */
239 public FlatMethod getMethodFlat(MethodDescriptor md) {
240 return (FlatMethod)flatmethodmap.get(md);
243 /** Returns Flat IR representation of TaskDescriptor td. */
245 public FlatMethod getMethodFlat(TaskDescriptor td) {
246 return (FlatMethod)flatmethodmap.get(td);
249 // The descriptor is either a method or task desc
250 // and should call one of the above methods
251 public FlatMethod getMethodFlat(Descriptor d) {
253 if( d instanceof MethodDescriptor ) {
254 fm = getMethodFlat( (MethodDescriptor) d);
256 assert d instanceof TaskDescriptor;
257 fm = getMethodFlat( (TaskDescriptor) d);
262 public void addTreeCode(MethodDescriptor md, BlockNode bn) {
263 treemethodmap.put(md,bn);
266 public void addTreeCode(TaskDescriptor td, BlockNode bn) {
267 treemethodmap.put(td,bn);
270 public void addFlatCode(MethodDescriptor md, FlatMethod bn) {
271 flatmethodmap.put(md,bn);
274 public void addFlatCode(TaskDescriptor td, FlatMethod bn) {
275 flatmethodmap.put(td,bn);
278 public void addTask(TaskDescriptor td) {
279 if (tasks.contains(td.getSymbol()))
280 throw new Error("Task "+td.getSymbol()+" defined twice");