2 * Copyright (C) 2014, United States Government, as represented by the
3 * Administrator of the National Aeronautics and Space Administration.
6 * The Java Pathfinder core (jpf-core) platform is licensed under the
7 * Apache License, Version 2.0 (the "License"); you may not use this file except
8 * in compliance with the License. You may obtain a copy of the License at
10 * http://www.apache.org/licenses/LICENSE-2.0.
12 * Unless required by applicable law or agreed to in writing, software
13 * distributed under the License is distributed on an "AS IS" BASIS,
14 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
15 * See the License for the specific language governing permissions and
16 * limitations under the License.
18 package gov.nasa.jpf.vm;
20 import gov.nasa.jpf.Config;
21 import gov.nasa.jpf.JPF;
22 import gov.nasa.jpf.JPFException;
23 import gov.nasa.jpf.util.JPFLogger;
24 import gov.nasa.jpf.util.LocationSpec;
25 import gov.nasa.jpf.vm.bytecode.ReturnInstruction;
26 import java.lang.reflect.Modifier;
27 import java.util.ArrayList;
28 import java.util.Collections;
29 import java.util.List;
33 * information associated with a method. Each method in JPF
34 * is represented by a MethodInfo object
36 public class MethodInfo extends InfoObject implements GenericSignatureHolder {
38 static JPFLogger logger = JPF.getLogger("gov.nasa.jpf.vm.MethodInfo");
40 static final int INIT_MTH_SIZE = 4096;
41 protected static final ArrayList<MethodInfo> mthTable = new ArrayList<MethodInfo>(INIT_MTH_SIZE);
44 static final int DIRECT_CALL = -1;
46 static final LocalVarInfo[] EMPTY = new LocalVarInfo[0];
48 static final int[] EMPTY_INT = new int[0];
51 * Used to warn about local variable information.
53 protected static boolean warnedLocalInfo = false;
55 //--- various JPF method attributes
56 static final int EXEC_ATOMIC = 0x10000; // method executed atomically
57 static final int EXEC_HIDDEN = 0x20000; // method hidden from path
58 static final int FIREWALL = 0x40000; // firewall any unhandled exceptionHandlers
59 // (turn into UnhandledException throws)
60 static final int IS_CLINIT = 0x80000;
61 static final int IS_INIT = 0x100000;
63 static final int IS_REFLECTION = 0x200000; // this is a reflection direct call
64 static final int IS_DIRECT_CALL = 0x400000;
66 /** a unique int assigned to this method */
67 protected int globalId = -1;
70 * this is a lazy evaluated mangled name consisting of the name and
73 protected String uniqueName;
75 /** Name of the method */
76 protected String name;
78 /** Signature of the method */
79 protected String signature;
81 /** Generic signature of the method */
82 protected String genericSignature;
84 /** Class the method belongs to */
85 protected ClassInfo ci;
87 /** Instructions associated with the method */
88 protected Instruction[] code;
90 /** JPFConfigException handlers */
91 protected ExceptionHandler[] exceptionHandlers;
93 /** classnames of checked exception thrown by the method */
94 protected String[] thrownExceptionClassNames;
96 /** Table used for line numbers
97 * this assigns a line number to every instruction index, instead of
98 * using an array of ranges. Assuming we have 2-3 insns per line on average,
99 * this should still require less memory than a reference array with associated
100 * range objects, and allows faster access of instruction line numbers, which
101 * we might need for location specs
103 protected int[] lineNumbers;
105 /** Local variable information */
106 protected LocalVarInfo localVars[] = null;
108 /** Maximum number of local variables */
109 protected int maxLocals;
111 /** Maximum number of elements on the stack */
112 protected int maxStack;
114 /** null if we don't have any */
115 AnnotationInfo[][] parameterAnnotations;
117 //--- a batch of attributes
119 /** the standard Java modifier attributes */
120 protected int modifiers;
122 /** a batch of execution related JPF attributes */
123 protected int attributes;
126 //--- all the stuff we need for native methods
127 // <2do> pcm - turn this into a derived class
129 /** the number of stack slots for the arguments (incl. 'this'), lazy eval */
130 protected int argSize = -1;
132 /** number of arguments (excl. 'this'), lazy eval */
133 protected int nArgs = -1;
135 /** what return type do we have (again, lazy evaluated) */
136 protected byte returnType = -1;
138 /** number of stack slots for return value */
139 protected int retSize = -1;
141 /** used for native method parameter conversion (lazy evaluated) */
142 protected byte[] argTypes = null;
144 static boolean init (Config config) {
149 public static MethodInfo getMethodInfo (int globalId){
150 if (globalId >=0 && globalId <mthTable.size()){
151 return mthTable.get(globalId);
157 public static MethodInfo create (String name, String signature, int modifiers){
158 return new MethodInfo( name, signature, modifiers);
161 public static MethodInfo create (ClassInfo ci, String name, String signature, int modifiers){
162 return new MethodInfo( ci, name, signature, modifiers);
165 static MethodInfo create (ClassInfo ci, String name, String signature, int modifiers, int maxLocals, int maxStack){
166 return new MethodInfo( ci, name, signature, modifiers, maxLocals, maxStack);
170 * for direct call construction
171 * Note: this is only a partial initialization, the code still has to be created/installed by the caller
173 public MethodInfo (MethodInfo callee, int nLocals, int nOperands) {
174 globalId = DIRECT_CALL;
175 // we don't want direct call methods in the mthTable (would be a memory leak) so don't register
178 name = "[" + callee.name + ']'; // it doesn't allocate anything, so we don't have to be unique
180 genericSignature = "";
182 maxStack = nOperands; // <2do> cache for optimization
185 exceptionHandlers = null;
186 thrownExceptionClassNames = null;
189 // we need to preserve the ClassInfo so that class resolution for static method calls works
192 attributes |= IS_DIRECT_CALL;
193 modifiers = Modifier.STATIC; // always treated as static
195 // code still has to be installed by caller
199 * This is used to create synthetic methods of function object types
201 public MethodInfo(String name, String signature, int modifiers, int nLocals, int nOperands) {
202 this( name, signature, modifiers);
204 maxStack = nOperands;
209 * for NativeMethodInfo creation
211 public MethodInfo (MethodInfo mi) {
212 globalId = mi.globalId;
213 uniqueName = mi.uniqueName;
215 signature = mi.signature;
216 genericSignature = mi.genericSignature;
218 modifiers = mi.modifiers;
219 attributes = mi.attributes;
220 thrownExceptionClassNames = mi.thrownExceptionClassNames;
221 parameterAnnotations = mi.parameterAnnotations;
223 annotations = mi.annotations;
225 localVars = null; // there are no StackFrame localVarInfos, this is native
226 // code still has to be installed by caller
229 // <2do> this is going away
230 public MethodInfo (ClassInfo ci, String name, String signature, int modifiers, int maxLocals, int maxStack){
233 this.signature = signature;
234 this.uniqueName = getUniqueName(name, signature);
235 this.genericSignature = "";
236 this.maxLocals = maxLocals;
237 this.maxStack = maxStack;
238 this.modifiers = modifiers;
240 this.lineNumbers = null;
241 this.exceptionHandlers = null;
242 this.thrownExceptionClassNames = null;
244 // set attributes we can deduce from the name and the ClassInfo
246 if (name.equals("<init>")) {
247 attributes |= IS_INIT;
248 } else if (name.equals("<clinit>")) {
249 this.modifiers |= Modifier.SYNCHRONIZED;
250 attributes |= IS_CLINIT | FIREWALL;
252 if (ci.isInterface()) { // all interface methods are public
253 this.modifiers |= Modifier.PUBLIC;
257 this.globalId = mthTable.size();
262 public MethodInfo (String name, String signature, int modifiers){
264 this.signature = signature;
265 this.modifiers = modifiers;
266 this.uniqueName = getUniqueName(name, signature);
267 this.genericSignature = "";
269 if (name.equals("<init>")) {
270 attributes |= IS_INIT;
271 } else if (name.equals("<clinit>")) {
272 // for some reason clinits don't have the synchronized modifier, but they are synchronized
273 // we keep it consistent so that we don't have to implement special lock acquisition/release for clinits
274 this.modifiers |= Modifier.SYNCHRONIZED;
275 attributes |= IS_CLINIT | FIREWALL;
278 this.globalId = mthTable.size();
282 public MethodInfo (ClassInfo ci, String name, String signature, int modifiers){
283 this(name, signature, modifiers);
288 //--- setters used during construction
290 public void linkToClass (ClassInfo ci){
293 if (ci.isInterface()) { // all interface methods are public
294 this.modifiers |= Modifier.PUBLIC;
298 public void setMaxLocals(int maxLocals){
299 this.maxLocals = maxLocals;
302 public void setMaxStack(int maxStack){
303 this.maxStack = maxStack;
306 public void setCode (Instruction[] code){
307 for (int i=0; i<code.length; i++){
308 code[i].setMethodInfo(this);
314 public boolean hasParameterAnnotations() {
315 return (parameterAnnotations != null);
318 // since some listeners might call this on every method invocation, we should do a little optimization
319 static AnnotationInfo[][] NO_PARAMETER_ANNOTATIONS_0 = new AnnotationInfo[0][];
320 static AnnotationInfo[][] NO_PARAMETER_ANNOTATIONS_1 = { new AnnotationInfo[0] };
321 static AnnotationInfo[][] NO_PARAMETER_ANNOTATIONS_2 = { new AnnotationInfo[0], new AnnotationInfo[0] };
322 static AnnotationInfo[][] NO_PARAMETER_ANNOTATIONS_3 = { new AnnotationInfo[0], new AnnotationInfo[0], new AnnotationInfo[0] };
324 public AnnotationInfo[][] getParameterAnnotations() {
325 if (parameterAnnotations == null){ // keep this similar to getAnnotations()
326 int n = getNumberOfArguments();
328 case 0: return NO_PARAMETER_ANNOTATIONS_0;
329 case 1: return NO_PARAMETER_ANNOTATIONS_1;
330 case 2: return NO_PARAMETER_ANNOTATIONS_2;
331 case 3: return NO_PARAMETER_ANNOTATIONS_3;
333 AnnotationInfo[][] pai = new AnnotationInfo[n][];
334 for (int i=0; i<n; i++){
335 pai[i] = new AnnotationInfo[0];
341 return parameterAnnotations;
346 * return annotations for parameterIndex
348 public AnnotationInfo[] getParameterAnnotations(int parameterIndex){
349 if (parameterAnnotations == null){
352 if (parameterIndex >= getNumberOfArguments()){
355 return parameterAnnotations[parameterIndex];
362 public static int getNumberOfLoadedMethods () {
363 return mthTable.size();
366 void setAtomic (boolean isAtomic) {
368 attributes |= EXEC_ATOMIC;
370 attributes &= ~EXEC_ATOMIC;
373 public boolean isAtomic () {
374 return ((attributes & EXEC_ATOMIC) != 0);
377 void setHidden (boolean isHidden) {
379 attributes |= EXEC_HIDDEN;
381 attributes &= ~EXEC_HIDDEN;
384 public boolean isHidden () {
385 return ((attributes & EXEC_HIDDEN) != 0);
389 * turn unhandled exceptionHandlers at the JPF execution level
390 * into UnhandledException throws at the host VM level
391 * this is useful to implement firewalls for direct calls
392 * which should not let exceptionHandlers permeate into bytecode/
395 public void setFirewall (boolean isFirewalled) {
397 attributes |= FIREWALL;
399 attributes &= ~FIREWALL;
402 public boolean isFirewall () {
403 return ((attributes & FIREWALL) != 0);
409 public Object clone() {
411 return super.clone();
412 } catch (CloneNotSupportedException cnx) {
417 public int getGlobalId() {
421 public DirectCallStackFrame createRunStartStackFrame (ThreadInfo ti){
422 return ci.createRunStartStackFrame( ti, this);
425 public DirectCallStackFrame createDirectCallStackFrame (ThreadInfo ti, int nLocals){
426 return ci.createDirectCallStackFrame(ti, this, nLocals);
429 public boolean isSyncRelevant () {
430 return (name.charAt(0) != '<');
433 public boolean isInitOrClinit (){
434 return ((attributes & (IS_CLINIT | IS_INIT)) != 0);
437 public boolean isClinit () {
438 return ((attributes & IS_CLINIT) != 0);
441 public boolean isClinit (ClassInfo ci) {
442 return (((attributes & IS_CLINIT) != 0) && (this.ci == ci));
445 public boolean isInit() {
446 return ((attributes & IS_INIT) != 0);
449 public boolean isDirectCallStub(){
450 return ((attributes & IS_DIRECT_CALL) != 0);
454 * yet another name - this time with a non-mangled, but abbreviated signature
455 * and without return type (e.g. like "main(String[])"
457 public String getLongName () {
458 StringBuilder sb = new StringBuilder();
462 String[] argTypeNames = getArgumentTypeNames();
463 for (int i=0; i<argTypeNames.length; i++) {
464 String a = argTypeNames[i];
465 int idx = a.lastIndexOf('.');
467 a = a.substring(idx+1);
476 return sb.toString();
480 * return the minimal name that has to be unique for overloading
481 * used as a lookup key
482 * NOTE: with the silent introduction of covariant return types
483 * in Java 5.0, we have to use the full signature to be unique
485 public static String getUniqueName (String mname, String signature) {
486 return (mname + signature);
489 public String getStackTraceSource() {
490 return getSourceFileName();
493 public byte[] getArgumentTypes () {
494 if (argTypes == null) {
495 argTypes = Types.getArgumentTypes(signature);
496 nArgs = argTypes.length;
502 public String[] getArgumentTypeNames () {
503 return Types.getArgumentTypeNames(signature);
506 // TODO: Fix for Groovy's model-checking
507 public String[] getArgumentGenericTypeNames () {
508 if (genericSignature == null || genericSignature.equals(""))
509 return getArgumentTypeNames();
510 // We need to first find the start of the method parameters in the signature
511 String methodParameters = genericSignature.substring(genericSignature.indexOf('('));
512 return Types.getArgumentTypeNames(methodParameters);
515 public int getArgumentsSize () {
517 argSize = Types.getArgumentsSize(signature);
528 * return only the LocalVarInfos for arguments, in order of definition
529 * or null if there are no localVarInfos.
530 * throw a JPFException if there are more immediately in scope vars than args
532 * NOTE - it is perfectly legal for a method to have arguments but no LocalVarInfos,
533 * which are code attributes, clients have to check for a non-null return value
534 * even if the method has arguments.
535 * Note also that abstract / interface methods don't have code and hence no
538 public LocalVarInfo[] getArgumentLocalVars(){
539 if (localVars == null){ // shortcut in case we don't have args or localVars;
543 int nArgs = getNumberOfStackArguments(); // we want 'this'
545 return new LocalVarInfo[0]; // rare enough so that we don't use a static
548 LocalVarInfo[] argLvis = new LocalVarInfo[nArgs];
549 int n = 0; // how many args we've got so far
551 for (LocalVarInfo lvi : localVars){
552 // arguments are the only ones that are immediately in scope
553 if (lvi.getStartPC() == 0){
554 if (n == nArgs){ // ARGH - more in-scope vars than args
555 throw new JPFException("inconsistent localVar table for method " + getFullName());
558 // order with respect to slot index - since this might get called
559 // frequently, we don't use java.util.Arrays.sort() but sort in
560 // on-the-fly. Note that we can have several localVar entries for the
561 // same name, but only one can be immediately in scope
562 int slotIdx = lvi.getSlotIndex();
565 for (i = 0; i < n; i++) {
566 if (slotIdx < argLvis[i].getSlotIndex()) {
567 for (int j=n; j>i; j--){
568 argLvis[j] = argLvis[j-1];
575 if (i == n) { // append
584 public String getReturnType () {
585 return Types.getReturnTypeSignature(signature);
588 public String getReturnTypeName () {
589 return Types.getReturnTypeName(signature);
592 public String getGenericReturnTypeName () {
593 if (genericSignature == null || genericSignature.equals(""))
594 return Types.getReturnTypeName(signature);
595 return Types.getGenericReturnTypeName(genericSignature);
598 public String getSourceFileName () {
600 return ci.getSourceFileName();
606 public String getClassName () {
615 * Returns the class the method belongs to.
617 public ClassInfo getClassInfo () {
622 * @deprecated - use getFullName
625 public String getCompleteName () {
626 return getFullName();
630 * return classname.name (but w/o signature)
632 public String getBaseName() {
633 return getClassName() + '.' + name;
636 public boolean isCtor () {
637 return (name.equals("<init>"));
640 public boolean isInternalMethod () {
641 // <2do> pcm - should turn this into an attribute for efficiency reasons
642 return (name.equals("<clinit>") || uniqueName.equals("finalize()V"));
645 public boolean isThreadEntry (ThreadInfo ti) {
646 return (uniqueName.equals("run()V") && (ti.countStackFrames() == 1));
650 * Returns the full classname (if any) + name + signature.
652 public String getFullName () {
654 return ci.getName() + '.' + getUniqueName();
656 return getUniqueName();
661 * returns stack trace name: classname (if any) + name
663 public String getStackTraceName(){
665 return ci.getName() + '.' + name;
672 * return number of instructions
674 public int getNumberOfInstructions() {
683 * Returns a specific instruction.
685 public Instruction getInstruction (int i) {
690 if ((i < 0) || (i >= code.length)) {
698 * Returns the instruction at a certain position.
700 public Instruction getInstructionAt (int position) {
705 for (int i = 0, l = code.length; i < l; i++) {
706 if ((code[i] != null) && (code[i].getPosition() == position)) {
711 throw new JPFException("instruction not found");
715 * Returns the instructions of the method.
717 public Instruction[] getInstructions () {
721 public boolean includesLine (int line){
722 int len = code.length;
723 return (code[0].getLineNumber() <= line) && (code[len].getLineNumber() >= line);
726 public Instruction[] getInstructionsForLine (int line){
727 return getInstructionsForLineInterval(line,line);
730 public Instruction[] getInstructionsForLineInterval (int l1, int l2){
731 Instruction[] c = code;
733 // instruction line numbers don't have to be monotonic (they can decrease for loops)
734 // hence we cannot easily check for overlapping ranges
737 ArrayList<Instruction> matchingInsns = null;
739 for (int i = 0; i < c.length; i++) {
740 Instruction insn = c[i];
741 int line = insn.getLineNumber();
742 if (line == l1 || line == l2 || (line > l1 && line < l2)) {
743 if (matchingInsns == null) {
744 matchingInsns = new ArrayList<Instruction>();
746 matchingInsns.add(insn);
750 if (matchingInsns == null) {
753 return matchingInsns.toArray(new Instruction[matchingInsns.size()]);
761 public Instruction[] getMatchingInstructions (LocationSpec lspec){
762 return getInstructionsForLineInterval(lspec.getFromLine(), lspec.getToLine());
767 * Returns the line number for a given position.
769 public int getLineNumber (Instruction pc) {
770 if (lineNumbers == null) {
774 return pc.getPosition();
778 int idx = pc.getInstructionIndex();
779 if (idx < 0) idx = 0;
780 return lineNumbers[idx];
787 * Returns a table to translate positions into line numbers.
789 public int[] getLineNumbers () {
793 public boolean containsLineNumber (int n){
794 if (lineNumbers != null){
795 return (lineNumbers[0] <= n) && (lineNumbers[lineNumbers.length-1] <= n);
801 public boolean intersectsLineNumbers( int first, int last){
802 if (lineNumbers != null){
803 if ((last < lineNumbers[0]) || (first > lineNumbers[lineNumbers.length-1])){
812 public ExceptionHandler getHandlerFor (ClassInfo ciException, Instruction insn){
813 if (exceptionHandlers != null){
814 int position = insn.getPosition();
815 for (int i=0; i<exceptionHandlers.length; i++){
816 ExceptionHandler handler = exceptionHandlers[i];
817 if ((position >= handler.getBegin()) && (position < handler.getEnd())) {
818 // checks if this type of exception is caught here (null means 'any')
819 String handledType = handler.getName();
820 if ((handledType == null) // a catch-all handler
821 || ciException.isInstanceOf(handledType)) {
831 public boolean isMJI () {
835 public int getMaxLocals () {
839 public int getMaxStack () {
843 public ExceptionHandler[] getExceptions () {
844 return exceptionHandlers;
847 public String[] getThrownExceptionClassNames () {
848 return thrownExceptionClassNames;
852 public LocalVarInfo getLocalVar(String name, int pc){
853 LocalVarInfo[] vars = localVars;
855 for (int i = 0; i < vars.length; i++) {
856 LocalVarInfo lv = vars[i];
857 if (lv.matches(name, pc)) {
867 public LocalVarInfo getLocalVar (int slotIdx, int pc){
868 LocalVarInfo[] vars = localVars;
871 for (int i = 0; i < vars.length; i++) {
872 LocalVarInfo lv = vars[i];
873 if (lv.matches(slotIdx, pc)) {
882 public LocalVarInfo[] getLocalVars() {
888 * note that this might contain duplicates for variables with multiple
891 public String[] getLocalVariableNames() {
892 String[] names = new String[localVars.length];
894 for (int i=0; i<localVars.length; i++){
895 names[i] = localVars[i].getName();
902 public MethodInfo getOverriddenMethodInfo(){
903 MethodInfo smi = null;
906 ClassInfo sci = ci.getSuperClass();
908 smi = sci.getMethod(getUniqueName(), true);
916 * Returns the name of the method.
918 public String getName () {
922 public String getJNIName () {
923 return Types.getJNIMangledMethodName(null, name, signature);
926 public int getModifiers () {
931 * Returns true if the method is native
933 public boolean isNative () {
934 return ((modifiers & Modifier.NATIVE) != 0);
937 public boolean isAbstract () {
938 return ((modifiers & Modifier.ABSTRACT) != 0);
941 // overridden by NativeMethodInfo
942 public boolean isUnresolvedNativeMethod(){
943 return ((modifiers & Modifier.NATIVE) != 0);
946 // overridden by NativeMethodInfo
947 public boolean isJPFExecutable (){
948 return !hasAttr(NoJPFExec.class);
951 public int getNumberOfArguments () {
953 nArgs = Types.getNumberOfArguments(signature);
960 * Returns the size of the arguments.
961 * This returns the number of parameters passed on the stack, incl. 'this'
963 public int getNumberOfStackArguments () {
964 int n = getNumberOfArguments();
966 return isStatic() ? n : n + 1;
969 public int getNumberOfCallerStackSlots () {
970 return Types.getNumberOfStackSlots(signature, isStatic()); // includes return type
973 public Instruction getFirstInsn(){
980 public Instruction getLastInsn() {
982 return code[code.length-1];
988 * do we return Object references?
990 public boolean isReferenceReturnType () {
991 int r = getReturnTypeCode();
993 return ((r == Types.T_REFERENCE) || (r == Types.T_ARRAY));
996 public byte getReturnTypeCode () {
997 if (returnType < 0) {
998 returnType = Types.getReturnBuiltinType(signature);
1005 * what is the slot size of the return value
1007 public int getReturnSize() {
1009 switch (getReturnTypeCode()) {
1015 case Types.T_DOUBLE:
1028 public Class<? extends ChoiceGenerator<?>> getReturnChoiceGeneratorType (){
1029 switch (getReturnTypeCode()){
1030 case Types.T_BOOLEAN:
1031 return BooleanChoiceGenerator.class;
1037 return IntChoiceGenerator.class;
1040 return LongChoiceGenerator.class;
1043 return FloatChoiceGenerator.class;
1045 case Types.T_DOUBLE:
1046 return DoubleChoiceGenerator.class;
1049 case Types.T_REFERENCE:
1051 return ReferenceChoiceGenerator.class;
1058 * Returns the signature of the method.
1060 public String getSignature () {
1065 public String getGenericSignature() {
1066 return genericSignature;
1070 public void setGenericSignature(String sig){
1071 genericSignature = sig;
1075 * Returns true if the method is static.
1077 public boolean isStatic () {
1078 return ((modifiers & Modifier.STATIC) != 0);
1082 * is this a public method
1084 public boolean isPublic() {
1085 return ((modifiers & Modifier.PUBLIC) != 0);
1088 public boolean isPrivate() {
1089 return ((modifiers & Modifier.PRIVATE) != 0);
1092 public boolean isProtected() {
1093 return ((modifiers & Modifier.PROTECTED) != 0);
1097 * Returns true if the method is synchronized.
1099 public boolean isSynchronized () {
1100 return ((modifiers & Modifier.SYNCHRONIZED) != 0);
1103 // <2do> these modifiers are still java.lang.reflect internal and not
1104 // supported by public Modifier methods, but since we want to keep this
1105 // similar to the Method reflection and we get the modifiers from the
1106 // classfile we implement this with explicit values
1108 public boolean isSynthetic(){
1109 return ((modifiers & 0x00001000) != 0);
1111 public boolean isVarargs(){
1112 return ((modifiers & 0x00000080) != 0);
1116 * is this from a classfile or was it created by JPF (and hence should not
1117 * be visible in stacktraces etc)
1119 public boolean isJPFInternal(){
1120 // note this has a different meaning than Method.isSynthetic(), which
1121 // is defined in VM spec 4.7.8. What we mean here is that this MethodInfo
1122 // is not associated with any class (such as direct call MethodInfos), but
1123 // there might be more in the future
1124 return (ci == null);
1127 public String getUniqueName () {
1131 public boolean hasCode(){
1132 return (code != null);
1135 public boolean hasEmptyBody (){
1136 // only instruction is a return
1137 return (code.length == 1 && (code[0] instanceof ReturnInstruction));
1141 //--- parameter annotations
1142 //<2do> these are going away
1143 protected void startParameterAnnotations(int annotationCount){
1144 parameterAnnotations = new AnnotationInfo[annotationCount][];
1146 protected void setParameterAnnotations(int index, AnnotationInfo[] ai){
1147 parameterAnnotations[index] = ai;
1149 protected void finishParameterAnnotations(){
1153 public void setParameterAnnotations (AnnotationInfo[][] parameterAnnotations){
1154 this.parameterAnnotations = parameterAnnotations;
1157 //--- thrown exceptions
1158 //<2do> these are going away
1159 protected void startTrownExceptions (int exceptionCount){
1160 thrownExceptionClassNames = new String[exceptionCount];
1162 protected void setException (int index, String exceptionType){
1163 thrownExceptionClassNames[index] = Types.getClassNameFromTypeName(exceptionType);
1165 protected void finishThrownExceptions(){
1169 public void setThrownExceptions (String[] exceptions){
1170 thrownExceptionClassNames = exceptions;
1174 //--- exception handler table initialization
1175 //<2do> these are going away
1176 protected void startExceptionHandlerTable (int handlerCount){
1177 exceptionHandlers = new ExceptionHandler[handlerCount];
1179 protected void setExceptionHandler (int index, int startPc, int endPc, int handlerPc, String catchType){
1180 exceptionHandlers[index] = new ExceptionHandler(catchType, startPc, endPc, handlerPc);
1182 protected void finishExceptionHandlerTable(){
1186 public void setExceptionHandlers (ExceptionHandler[] handlers){
1187 exceptionHandlers = handlers;
1190 //--- local var table initialization
1191 // <2do> these are going away
1192 protected void startLocalVarTable (int localVarCount){
1193 localVars = new LocalVarInfo[localVarCount];
1195 protected void setLocalVar(int index, String varName, String descriptor, int scopeStartPc, int scopeEndPc, int slotIndex){
1196 localVars[index] = new LocalVarInfo(varName, descriptor, "", scopeStartPc, scopeEndPc, slotIndex);
1198 protected void finishLocalVarTable(){
1202 public void setLocalVarTable (LocalVarInfo[] locals){
1206 public void setLocalVarAnnotations (){
1207 if (localVars != null){
1208 for (VariableAnnotationInfo ai : getTargetTypeAnnotations(VariableAnnotationInfo.class)){
1209 for (int i = 0; i < ai.getNumberOfScopeEntries(); i++) {
1210 for (LocalVarInfo lv : localVars) {
1211 if (lv.getStartPC() == ai.getStartPC(i) && lv.getSlotIndex() == ai.getSlotIndex(i)) {
1212 lv.addTypeAnnotation(ai);
1220 public boolean hasTypeAnnotatedLocalVars (){
1221 if (localVars != null){
1222 for (LocalVarInfo lv : localVars){
1223 if (lv.hasTypeAnnotations()){
1232 public List<LocalVarInfo> getTypeAnnotatedLocalVars (){
1233 List<LocalVarInfo> list = null;
1235 if (localVars != null){
1236 for (LocalVarInfo lv : localVars){
1237 if (lv.hasTypeAnnotations()){
1239 list = new ArrayList<LocalVarInfo>();
1247 list = Collections.emptyList();
1253 public List<LocalVarInfo> getTypeAnnotatedLocalVars (String annotationClsName){
1254 List<LocalVarInfo> list = null;
1256 if (localVars != null){
1257 for (LocalVarInfo lv : localVars){
1258 AbstractTypeAnnotationInfo tai = lv.getTypeAnnotation(annotationClsName);
1261 list = new ArrayList<LocalVarInfo>();
1269 list = Collections.emptyList();
1276 //--- line number table initialization
1277 // <2do> these are going away
1278 protected void startLineNumberTable(int lineNumberCount){
1279 int len = code.length;
1280 int[] ln = new int[len];
1284 protected void setLineNumber(int index, int lineNumber, int startPc){
1285 int len = code.length;
1286 int[] ln = lineNumbers;
1288 for (int i=0; i<len; i++){
1289 Instruction insn = code[i];
1290 int pc = insn.getPosition();
1292 if (pc == startPc){ // this is the first insn with this line number
1298 protected void finishLineNumberTable (){
1299 int len = code.length;
1300 int[] ln = lineNumbers;
1301 int lastLine = ln[0];
1303 for (int i=1; i<len; i++){
1313 * note - this depends on that we already have a code array
1314 * and that the lines/startPcs are sorted (monotonic increasing)
1316 public void setLineNumbers (int[] lines, int[] startPcs){
1320 int len = code.length;
1321 int[] ln = new int[len];
1323 for (int i=0; i<len; i++){
1324 Instruction insn = code[i];
1325 int pc = insn.getPosition();
1327 if ((j < startPcs.length) && pc == startPcs[j]){
1328 lastLine = lines[j];
1339 * this version takes an already expanded line number array which has to be of
1340 * the same size as the code array
1342 public void setLineNumbers (int[] lines){
1343 if (lines.length != code.length){
1344 throw new JPFException("inconsitent code/line number size");
1346 lineNumbers = lines;
1350 public String toString() {
1351 return "MethodInfo[" + getFullName() + ']';
1354 // for debugging purposes
1356 System.out.println("--- " + this);
1357 for (int i = 0; i < code.length; i++) {
1358 System.out.printf("%2d [%d]: %s\n", i, code[i].getPosition(), code[i].toString());
1363 * Creates a method for a given class, by cloning this MethodInfo
1364 * and all the instructions belong to the method
1366 public MethodInfo getInstanceFor(ClassInfo ci) {
1370 clone = (MethodInfo)super.clone();
1373 clone.globalId = mthTable.size();
1379 clone.code = new Instruction[code.length];
1381 for(int i=0; i<code.length; i++) {
1382 clone.code[i] = code[i].typeSafeClone(clone);
1386 } catch (CloneNotSupportedException cnsx){
1387 cnsx.printStackTrace();