/**
* overrides the visitor to find abstract methods that override concrete ones
*
* @param obj the context object of the currently parsed method
*/
@Override
public void visitMethod(Method obj) {
if (!obj.isAbstract()) return;
String methodName = obj.getName();
String methodSig = obj.getSignature();
outer:
for (JavaClass cls : superClasses) {
Method[] methods = cls.getMethods();
for (Method m : methods) {
if (m.isPrivate() || m.isAbstract()) continue;
if (methodName.equals(m.getName()) && methodSig.equals(m.getSignature())) {
BugInstance bug =
new BugInstance(this, BugType.AOM_ABSTRACT_OVERRIDDEN_METHOD.name(), NORMAL_PRIORITY)
.addClass(this)
.addMethod(this);
Code code = obj.getCode();
if (code != null) bug.addSourceLineRange(clsContext, this, 0, code.getLength() - 1);
bugReporter.reportBug(bug);
break outer;
}
}
}
}
public static @CheckForNull LocalVariableAnnotation findUniqueBestMatchingParameter(
ClassContext classContext, Method method, String name, String signature) {
LocalVariableAnnotation match = null;
int localsThatAreParameters = PreorderVisitor.getNumberArguments(method.getSignature());
int startIndex = 0;
if (!method.isStatic()) startIndex = 1;
SignatureParser parser = new SignatureParser(method.getSignature());
Iterator<String> signatureIterator = parser.parameterSignatureIterator();
int lowestCost = Integer.MAX_VALUE;
for (int i = startIndex; i < localsThatAreParameters + startIndex; i++) {
String sig = signatureIterator.next();
if (signature.equals(sig)) {
LocalVariableAnnotation potentialMatch =
LocalVariableAnnotation.getLocalVariableAnnotation(method, i, 0, 0);
if (!potentialMatch.isNamed()) continue;
int distance = EditDistance.editDistance(name, potentialMatch.getName());
if (distance < lowestCost) {
match = potentialMatch;
match.setDescription(DID_YOU_MEAN_ROLE);
lowestCost = distance;
} else if (distance == lowestCost) {
// not unique best match
match = null;
}
// signatures match
}
}
if (lowestCost < 5) return match;
return null;
}
private boolean hasTestMethods(JavaClass jClass) {
boolean foundTest = false;
Method[] methods = jClass.getMethods();
for (Method m : methods) {
if (m.isPublic() && m.getName().startsWith("test") && m.getSignature().equals("()V")) {
return true;
}
if (m.getName().startsWith("runTest") && m.getSignature().endsWith("()V")) {
return true;
}
}
if (hasSuite(methods)) {
return true;
}
try {
JavaClass sClass = jClass.getSuperClass();
if (sClass != null) {
return hasTestMethods(sClass);
}
} catch (ClassNotFoundException e) {
AnalysisContext.reportMissingClass(e);
}
return false;
}
@Override
public void visit(Method obj) {
if (getMethodName().equals("suite") && !obj.isStatic()) {
bugReporter.reportBug(
new BugInstance(this, "IJU_SUITE_NOT_STATIC", NORMAL_PRIORITY).addClassAndMethod(this));
}
if (getMethodName().equals("suite") && obj.getSignature().startsWith("()") && obj.isStatic()) {
if ((!obj.getSignature().equals("()Ljunit/framework/Test;")
&& !obj.getSignature().equals("()Ljunit/framework/TestSuite;"))
|| !obj.isPublic()) {
bugReporter.reportBug(
new BugInstance(this, "IJU_BAD_SUITE_METHOD", NORMAL_PRIORITY).addClassAndMethod(this));
}
}
}
/* (non-Javadoc)
* @see edu.umd.cs.findbugs.classfile.IAnalysisEngine#analyze(edu.umd.cs.findbugs.classfile.IAnalysisCache, java.lang.Object)
*/
public Method analyze(IAnalysisCache analysisCache, MethodDescriptor descriptor)
throws CheckedAnalysisException {
JavaClass jclass =
analysisCache.getClassAnalysis(JavaClass.class, descriptor.getClassDescriptor());
Method[] methodList = jclass.getMethods();
Method result = null;
// As a side-effect, cache all of the Methods for this JavaClass
for (Method method : methodList) {
MethodDescriptor methodDescriptor =
DescriptorFactory.instance()
.getMethodDescriptor(
descriptor.getSlashedClassName(),
method.getName(),
method.getSignature(),
method.isStatic());
// Put in cache eagerly
analysisCache.eagerlyPutMethodAnalysis(Method.class, methodDescriptor, method);
if (methodDescriptor.equals(descriptor)) {
result = method;
}
}
return result;
}
/**
* implements the visitor to reset the stack and proceed for private methods
*
* @param obj the context object of the currently parsed code block
*/
@Override
public void visitCode(Code obj) {
Method m = getMethod();
int aFlags = m.getAccessFlags();
if ((((aFlags & Constants.ACC_PRIVATE) != 0) || ((aFlags & Constants.ACC_STATIC) != 0))
&& ((aFlags & Constants.ACC_SYNTHETIC) == 0)
&& (!m.getSignature().endsWith(")Z"))) {
stack.resetForMethodEntry(this);
returnRegister = -1;
returnConstant = null;
registerConstants.clear();
methodSuspect = true;
returnPC = -1;
super.visitCode(obj);
if (methodSuspect && (returnConstant != null)) {
BugInstance bi =
new BugInstance(
this,
BugType.MRC_METHOD_RETURNS_CONSTANT.name(),
((aFlags & Constants.ACC_PRIVATE) != 0) ? NORMAL_PRIORITY : LOW_PRIORITY)
.addClass(this)
.addMethod(this);
if (returnPC >= 0) {
bi.addSourceLine(this, returnPC);
}
bi.addString(returnConstant.toString());
bugReporter.reportBug(bi);
}
}
}
/**
* Construct a MethodDescriptor from JavaClass and method.
*
* @param jclass a JavaClass
* @param method a Method belonging to the JavaClass
* @return a MethodDescriptor identifying the method
*/
public static MethodDescriptor getMethodDescriptor(JavaClass jclass, Method method) {
return DescriptorFactory.instance()
.getMethodDescriptor(
jclass.getClassName().replace('.', '/'),
method.getName(),
method.getSignature(),
method.isStatic());
}
public static @CheckForNull LocalVariableAnnotation findMatchingIgnoredParameter(
ClassContext classContext, Method method, String name, String signature) {
try {
Dataflow<BitSet, LiveLocalStoreAnalysis> llsaDataflow =
classContext.getLiveLocalStoreDataflow(method);
CFG cfg;
cfg = classContext.getCFG(method);
LocalVariableAnnotation match = null;
int lowestCost = Integer.MAX_VALUE;
BitSet liveStoreSetAtEntry = llsaDataflow.getAnalysis().getResultFact(cfg.getEntry());
int localsThatAreParameters = PreorderVisitor.getNumberArguments(method.getSignature());
int startIndex = 0;
if (!method.isStatic()) startIndex = 1;
SignatureParser parser = new SignatureParser(method.getSignature());
Iterator<String> signatureIterator = parser.parameterSignatureIterator();
for (int i = startIndex; i < localsThatAreParameters + startIndex; i++) {
String sig = signatureIterator.next();
if (!liveStoreSetAtEntry.get(i) && signature.equals(sig)) {
// parameter isn't live and signatures match
LocalVariableAnnotation potentialMatch =
LocalVariableAnnotation.getLocalVariableAnnotation(method, i, 0, 0);
potentialMatch.setDescription(DID_YOU_MEAN_ROLE);
if (!potentialMatch.isNamed()) return potentialMatch;
int distance = EditDistance.editDistance(name, potentialMatch.getName());
if (distance < lowestCost) {
match = potentialMatch;
match.setDescription(DID_YOU_MEAN_ROLE);
lowestCost = distance;
} else if (distance == lowestCost) {
// not unique best match
match = null;
}
}
}
return match;
} catch (DataflowAnalysisException e) {
AnalysisContext.logError("", e);
} catch (CFGBuilderException e) {
AnalysisContext.logError("", e);
}
return null;
}
/**
* Constructor.
*
* @param method an XMethod specifying a specific method in a specific class
* @throws ClassNotFoundException
*/
public JavaClassAndMethod(XMethod method) throws ClassNotFoundException {
this.javaClass = Repository.lookupClass(method.getClassName());
for (Method m : javaClass.getMethods())
if (m.getName().equals(method.getName())
&& m.getSignature().equals(method.getSignature())
&& m.isStatic() == method.isStatic()) {
this.method = m;
return;
}
throw new IllegalArgumentException("Can't find " + method);
}
public void visitMethod(Method method) {
super.visitMethod(method);
// now get the MethodInfo back from the ClassInfo for
// additional work.
String methodId = method.getName() + method.getSignature();
OldMethodInfo mi = getITMethodInfo(methodId);
if (JOPizer.dumpMgci) {
// GCRT
new GCRTMethodInfo(mi, method);
}
}
/** is there a JUnit3TestSuite */
private boolean hasSuite(Method[] methods) {
for (Method m : methods) {
if (m.getName().equals("suite")
&& m.isPublic()
&& m.isStatic()
// && m.getReturnType().equals(junit.framework.Test.class)
// && m.getArgumentTypes().length == 0
&& m.getSignature().equals("()Ljunit/framework/Test;")) {
return true;
}
}
return false;
}
/** Main entry for this transformer. */
public void doTransformInterface(ClassEnhancer ce, ClassGen cg) {
String class_name = cg.getClassName();
ConstantPoolGen cpg = cg.getConstantPool();
checkReadClassAttributes(ce, cg, class_name, cpg);
generateFieldAccessForCallout(ce, cg, class_name, cpg);
generateSuperAccessors(ce, cg, class_name, cpg);
HashSet<String> calloutBindings = CallinBindingManager.getCalloutBindings(class_name);
if (calloutBindings == null) {
if (logging) printLogMessage("\nClass " + class_name + " requires no callout adjustment.");
return;
}
if (logging) printLogMessage("\nCallout bindings might be changing class " + class_name + ":");
HashSet<String> oldStyleBinding = new HashSet<String>();
// try new style decapsulation first (since 1.2.8):
for (String calloutBinding : calloutBindings) {
DecapsulationDescriptor desc = new DecapsulationDescriptor();
if (!desc.decode(calloutBinding, cg))
oldStyleBinding.add(calloutBinding); // old style attribute
else if (!desc.existsAlready) ce.addMethod(desc.generate(class_name, cpg), cg);
}
if (oldStyleBinding.isEmpty()) return;
// --> follows: old style decapsulation for remaining bindings:
int pos = class_name.lastIndexOf('.');
String package_name = "NO_PACKAGE";
if (pos != -1) package_name = class_name.substring(0, pos);
Method[] methods = cg.getMethods();
for (int i = 0; i < methods.length; i++) {
Method m = methods[i];
String method_name = m.getName();
boolean requiresAdjustment =
CallinBindingManager.requiresCalloutAdjustment(
oldStyleBinding, method_name, m.getSignature());
if (requiresAdjustment) {
ce.decapsulateMethod(m, cg, package_name, cpg);
}
}
}
public void visitClassContext(ClassContext classContext) {
JavaClass javaClass = classContext.getJavaClass();
Method[] methodList = javaClass.getMethods();
for (Method method : methodList) {
if (method.getCode() == null) continue;
try {
analyzeMethod(classContext, method);
} catch (MethodUnprofitableException e) {
assert true; // move along; nothing to see
} catch (CFGBuilderException e) {
String msg =
"Detector "
+ this.getClass().getName()
+ " caught exception while analyzing "
+ javaClass.getClassName()
+ "."
+ method.getName()
+ " : "
+ method.getSignature();
bugReporter.logError(msg, e);
} catch (DataflowAnalysisException e) {
String msg =
"Detector "
+ this.getClass().getName()
+ " caught exception while analyzing "
+ javaClass.getClassName()
+ "."
+ method.getName()
+ " : "
+ method.getSignature();
bugReporter.logError(msg, e);
}
}
}
/** Creates a new method info. */
protected MethodInfo(Method m, ClassInfo c) {
name = m.getName();
signature = m.getSignature();
ci = c;
code = loadCode(m);
exceptions = loadExceptions(m);
thrownExceptionClassNames = loadThrownExceptionClassNames(m);
lineNumbers = loadLineNumbers(m);
maxLocals = getMaxLocals(m);
maxStack = getMaxStack(m);
localVariableNames = loadLocalVariableNames(m);
localVariableTypes = loadLocalVariableTypes(m);
modifiers = m.getModifiers();
// clinits are automatically synchronized on the class object,
// and they don't let unhandled exceptions through
if (name.equals("<clinit>")) {
modifiers |= Modifier.SYNCHRONIZED;
attrs |= IS_CLINIT | FIREWALL;
}
if (name.equals("<init>")) {
attrs |= IS_INIT;
}
if (c.isInterface()) { // all interface methods are public
modifiers |= Modifier.PUBLIC;
}
// since that's used to store the method in the ClassInfo, and to
// identify it in tne InvokeInstruction, we can set it here
uniqueName = getUniqueName(name, signature);
globalId = mthTable.size();
mthTable.add(this);
loadAnnotations(m.getAnnotationEntries());
loadParameterAnnotations(m);
}
/**
* Find a method in given class.
*
* @param javaClass the class
* @param methodName the name of the method
* @param methodSig the signature of the method
* @return the JavaClassAndMethod, or null if no such method exists in the class
*/
@Deprecated
public static @CheckForNull JavaClassAndMethod findConcreteMethod(
JavaClass javaClass, String methodName, String methodSig) {
if (DEBUG_METHOD_LOOKUP) {
System.out.println("Check " + javaClass.getClassName());
}
Method[] methodList = javaClass.getMethods();
for (Method method : methodList)
if (method.getName().equals(methodName)
&& method.getSignature().equals(methodSig)
&& accessFlagsAreConcrete(method.getAccessFlags())) {
JavaClassAndMethod m = new JavaClassAndMethod(javaClass, method);
return m;
}
if (DEBUG_METHOD_LOOKUP) {
System.out.println("\t==> NOT FOUND");
}
return null;
}
public static @CheckForNull JavaClassAndMethod findMethod(
JavaClass javaClass, String methodName, String methodSig, JavaClassAndMethodChooser chooser) {
if (DEBUG_METHOD_LOOKUP) {
System.out.println("Check " + javaClass.getClassName());
}
Method[] methodList = javaClass.getMethods();
for (Method method : methodList)
if (method.getName().equals(methodName) && method.getSignature().equals(methodSig)) {
JavaClassAndMethod m = new JavaClassAndMethod(javaClass, method);
if (chooser.choose(m)) {
if (DEBUG_METHOD_LOOKUP) {
System.out.println("\t==> FOUND: " + method);
}
return m;
}
}
if (DEBUG_METHOD_LOOKUP) {
System.out.println("\t==> NOT FOUND");
}
return null;
}
/**
* overrides the visitor to reset the stack for the new method, then checks if the immutability
* field is set to immutable and if so reports it
*
* @param obj the context object of the currently parsed method
*/
@Override
public void visitCode(Code obj) {
try {
String signature = Type.getReturnType(getMethod().getSignature()).getSignature();
if (signature.startsWith("L")
&& CollectionUtils.isListSetMap(signature.substring(1, signature.length() - 1))) {
stack.resetForMethodEntry(this);
imType = ImmutabilityType.UNKNOWN;
super.visitCode(obj);
if ((imType == ImmutabilityType.IMMUTABLE)
|| (imType == ImmutabilityType.POSSIBLY_IMMUTABLE)) {
Method m = getMethod();
Statistics.getStatistics()
.addImmutabilityStatus(clsName, m.getName(), m.getSignature(), imType);
}
}
} catch (ClassNotFoundException cnfe) {
bugReporter.reportMissingClass(cnfe);
}
}
@Override
public void visit(JavaClass obj) {
String superClassname = obj.getSuperclassName();
// System.out.println("superclass of " + getClassName() + " is " + superClassname);
isEnum = superClassname.equals("java.lang.Enum");
if (isEnum) return;
int flags = obj.getAccessFlags();
isAbstract = (flags & ACC_ABSTRACT) != 0 || (flags & ACC_INTERFACE) != 0;
isAnonymousInnerClass = anonymousInnerClassNamePattern.matcher(getClassName()).matches();
innerClassHasOuterInstance = false;
for (Field f : obj.getFields()) {
if (f.getName().equals("this$0")) {
innerClassHasOuterInstance = true;
break;
}
}
sawSerialVersionUID = false;
isSerializable = implementsSerializableDirectly = false;
isExternalizable = false;
directlyImplementsExternalizable = false;
isGUIClass = false;
isEjbImplClass = false;
seenTransientField = false;
// boolean isEnum = obj.getSuperclassName().equals("java.lang.Enum");
fieldsThatMightBeAProblem.clear();
transientFieldsUpdates.clear();
transientFieldsSetInConstructor.clear();
transientFieldsSetToDefaultValueInConstructor.clear();
// isRemote = false;
// Does this class directly implement Serializable?
String[] interface_names = obj.getInterfaceNames();
for (String interface_name : interface_names) {
if (interface_name.equals("java.io.Externalizable")) {
directlyImplementsExternalizable = true;
isExternalizable = true;
if (DEBUG) {
System.out.println("Directly implements Externalizable: " + getClassName());
}
} else if (interface_name.equals("java.io.Serializable")) {
implementsSerializableDirectly = true;
isSerializable = true;
if (DEBUG) {
System.out.println("Directly implements Serializable: " + getClassName());
}
break;
}
}
// Does this class indirectly implement Serializable?
if (!isSerializable) {
if (Subtypes2.instanceOf(obj, "java.io.Externalizable")) {
isExternalizable = true;
if (DEBUG) {
System.out.println("Indirectly implements Externalizable: " + getClassName());
}
}
if (Subtypes2.instanceOf(obj, "java.io.Serializable")) {
isSerializable = true;
if (DEBUG) {
System.out.println("Indirectly implements Serializable: " + getClassName());
}
}
}
hasPublicVoidConstructor = false;
superClassHasVoidConstructor = true;
superClassHasReadObject = false;
superClassImplementsSerializable = isSerializable && !implementsSerializableDirectly;
ClassDescriptor superclassDescriptor = getXClass().getSuperclassDescriptor();
if (superclassDescriptor != null)
try {
XClass superXClass =
Global.getAnalysisCache().getClassAnalysis(XClass.class, superclassDescriptor);
if (superXClass != null) {
superClassImplementsSerializable =
AnalysisContext.currentAnalysisContext()
.getSubtypes2()
.isSubtype(
superXClass.getClassDescriptor(),
DescriptorFactory.createClassDescriptor(java.io.Serializable.class));
superClassHasVoidConstructor = false;
for (XMethod m : superXClass.getXMethods()) {
if (m.getName().equals("<init>") && m.getSignature().equals("()V") && !m.isPrivate()) {
superClassHasVoidConstructor = true;
}
if (m.getName().equals("readObject")
&& m.getSignature().equals("(Ljava/io/ObjectInputStream;)V")
&& m.isPrivate()) superClassHasReadObject = true;
}
}
} catch (ClassNotFoundException e) {
bugReporter.reportMissingClass(e);
} catch (CheckedAnalysisException e) {
bugReporter.logError("huh", e);
}
// Is this a GUI or other class that is rarely serialized?
isGUIClass = false;
isEjbImplClass = false;
if (true || !directlyImplementsExternalizable && !implementsSerializableDirectly) {
isEjbImplClass = Subtypes2.instanceOf(obj, "javax.ejb.SessionBean");
isGUIClass =
(Subtypes2.instanceOf(obj, "java.lang.Throwable")
|| Subtypes2.instanceOf(obj, "java.awt.Component")
|| Subtypes2.instanceOf(obj, "java.awt.Component$AccessibleAWTComponent")
|| Subtypes2.instanceOf(obj, "java.awt.event.ActionListener")
|| Subtypes2.instanceOf(obj, "java.util.EventListener"));
if (!isGUIClass) {
JavaClass o = obj;
while (o != null) {
if (o.getClassName().startsWith("java.awt")
|| o.getClassName().startsWith("javax.swing")) {
isGUIClass = true;
break;
}
try {
o = o.getSuperClass();
} catch (ClassNotFoundException e) {
break;
}
}
}
}
foundSynthetic = false;
foundSynchronizedMethods = false;
writeObjectIsSynchronized = false;
sawReadExternal = sawWriteExternal = sawReadObject = sawReadResolve = sawWriteObject = false;
if (isSerializable) {
for (Method m : obj.getMethods()) {
if (m.getName().equals("readObject")
&& m.getSignature().equals("(Ljava/io/ObjectInputStream;)V")) sawReadObject = true;
else if (m.getName().equals("readResolve") && m.getSignature().startsWith("()"))
sawReadResolve = true;
else if (m.getName().equals("readObjectNoData") && m.getSignature().equals("()V"))
sawReadObject = true;
else if (m.getName().equals("writeObject")
&& m.getSignature().equals("(Ljava/io/ObjectOutputStream;)V")) sawWriteObject = true;
}
for (Field f : obj.getFields()) {
if (f.isTransient()) seenTransientField = true;
}
}
}
/**
* Get the MethodDescriptor that (hopefully) uniqely names this method.
*
* @return the MethodDescriptor uniquely naming this method
*/
public MethodDescriptor toMethodDescriptor() {
return DescriptorFactory.instance()
.getMethodDescriptor(
getSlashedClassName(), method.getName(), method.getSignature(), method.isStatic());
}
private void setup() throws Exception {
// populate BT
BT.addAll(manifest.getBaseTypes());
// populate BLM
BLM.addAll(manifest.getBaseMethods());
// populate BLS
LS.addAll(manifest.getTransformations());
// populate ELM
for (Method blm : BLM)
for (Annotation an : AnnotationReader.getAnnotations(blm.getAttributes())) {
if (an instanceof Equivalents) {
Set<Method> lms = new HashSet<Method>();
ELM.put(blm, lms);
for (String lm_name : ((Equivalents) an).value().split(",")) lms.add(rlm(lm_name));
}
}
// populate ET, ETinv
for (JavaClass bt : BT)
for (Annotation an : AnnotationReader.getAnnotations(bt.getAttributes()))
if (an instanceof Equivalents) {
Set<JavaClass> tset = new HashSet<JavaClass>();
ET.put(bt, tset);
for (String t_name : ((Equivalents) an).value().split(",")) tset.add(rlk(t_name));
for (JavaClass t : tset) {
if (ETinv.containsKey(t))
throw new InvalidLibraryException(
"Bad type " + t + ": already equivalent to base method " + ETinv.get(t) + ".");
ETinv.put(t, bt);
}
}
// populate VLM
for (Method blm : BLM) {
VLM.put(blm, new HashMap<String, Method>());
for (Method lm : ELM.get(blm)) {
String vsig = lm.getSignature();
VLM.get(blm).put(vsig, lm);
}
}
// VLM type check
for (Method blm : BLM) {
Map<Integer, JavaClass> bv = method2v(blm);
for (Method lm : ELM.get(blm)) {
Map<Integer, JavaClass> v = method2v(lm);
if (!v.keySet().equals(bv.keySet()))
throw new InvalidLibraryException(
"Bad method " + lm + ": number of parameters differ from base method.");
for (int i : v.keySet())
if (!ETinv.get(v.get(i)).equals(bv.get(i)))
throw new InvalidLibraryException(
"Bad method " + lm + ": argument " + i + " is incompatible with base method.");
}
}
// populate FLS
for (JavaClass t : ETinv.keySet()) FLS.put(t, new HashMap<JavaClass, Method>());
for (Method ls : LS) {
Map<Integer, JavaClass> v = method2v(ls);
if (!v.containsKey(-1))
throw new InvalidLibraryException("Bad transform " + ls + ": must return an object.");
if (v.size() != 2)
throw new InvalidLibraryException(
"Bad transform " + ls + ": must take exactly one argument.");
JavaClass tu = v.get(-1);
JavaClass tv = v.get(0);
if (!ETinv.containsKey(tu))
throw new InvalidLibraryException(
"Bad transform " + ls + ": invalid source type " + tu + ".");
if (!ETinv.containsKey(tv))
throw new InvalidLibraryException(
"Bad transform " + ls + ": invalid dest type " + tu + ".");
if (!ETinv.get(tu).equals(ETinv.get(tv)))
throw new InvalidLibraryException(
"Bad transform " + ls + ": source and dest types not compatible.");
FLS.get(tu).put(tv, ls);
}
// populate CLM
for (Set<Method> lms : ELM.values())
for (Method lm : lms)
for (Annotation an : AnnotationReader.getAnnotations(lm.getAttributes()))
/*
if (an instanceof Cost)
czm.put(zm, ((Cost)an).value());
*/
if (an instanceof CostFn) {
String zc_name = ((CostFn) an).value();
Method zc = rlm(zc_name);
CLM.put(lm, zc);
}
// populate CLS
for (Method ls : LS) // TODO check that types are equivalent?
for (Annotation an : AnnotationReader.getAnnotations(ls.getAttributes()))
/*
if (an instanceof Cost)
czs.put(zs, ((Cost)an).value());
*/
if (an instanceof CostFn) {
String zc_name = ((CostFn) an).value();
Method zc = rlm(zc_name);
CLS.put(ls, zc);
}
}
