/** Returns a shrunk descriptor or signature of the given method. */ private String shrinkDescriptor(Method method, String descriptor) { // All parameters of non-static methods are shifted by one in the local // variable frame. int parameterIndex = (method.getAccessFlags() & ClassConstants.INTERNAL_ACC_STATIC) != 0 ? 0 : 1; // Go over the parameters. InternalTypeEnumeration internalTypeEnumeration = new InternalTypeEnumeration(descriptor); StringBuffer newDescriptorBuffer = new StringBuffer(); newDescriptorBuffer.append(internalTypeEnumeration.formalTypeParameters()); newDescriptorBuffer.append(ClassConstants.INTERNAL_METHOD_ARGUMENTS_OPEN); while (internalTypeEnumeration.hasMoreTypes()) { String type = internalTypeEnumeration.nextType(); if (ParameterUsageMarker.isParameterUsed(method, parameterIndex)) { newDescriptorBuffer.append(type); } else if (DEBUG) { System.out.println(" Deleting parameter #" + parameterIndex + " [" + type + "]"); } parameterIndex += ClassUtil.isInternalCategory2Type(type) ? 2 : 1; } newDescriptorBuffer.append(ClassConstants.INTERNAL_METHOD_ARGUMENTS_CLOSE); newDescriptorBuffer.append(internalTypeEnumeration.returnType()); return newDescriptorBuffer.toString(); }
public void visitSignatureAttribute(Clazz clazz, SignatureAttribute signatureAttribute) { // Process the generic definitions, superclass, and implemented // interfaces. String signature = clazz.getString(signatureAttribute.u2signatureIndex); // Count the signature types. InternalTypeEnumeration internalTypeEnumeration = new InternalTypeEnumeration(signature); int count = 0; int interfacesCount = -1; while (internalTypeEnumeration.hasMoreTypes()) { String internalType = internalTypeEnumeration.nextType(); count++; if (ClassUtil.isInternalClassType(internalType)) { interfacesCount++; } } // Put the signature types in an array. internalTypeEnumeration = new InternalTypeEnumeration(signature); String[] internalTypes = new String[count]; for (int index = 0; index < count; index++) { String internalType = internalTypeEnumeration.nextType(); internalTypes[index] = internalType; } // Sort the interface types in the array. Arrays.sort(internalTypes, count - interfacesCount, count); // Recompose the signature types in a string. StringBuffer newSignatureBuffer = new StringBuffer(); for (int index = 0; index < count; index++) { // Is this not an interface type, or an interface type that isn't // a duplicate of the previous interface type? if (index < count - interfacesCount || !internalTypes[index].equals(internalTypes[index - 1])) { newSignatureBuffer.append(internalTypes[index]); } } String newSignature = newSignatureBuffer.toString(); // Did the signature change? if (!newSignature.equals(signature)) { // Update the signature. ((Utf8Constant) ((ProgramClass) clazz).constantPool[signatureAttribute.u2signatureIndex]) .setString(newSignatureBuffer.toString()); // Clear the referenced classes. // TODO: Properly update the referenced classes. signatureAttribute.referencedClasses = null; } }
/** Shrinks the array of referenced classes of the given method. */ private Clazz[] shrinkReferencedClasses( Method method, String descriptor, Clazz[] referencedClasses) { if (referencedClasses != null) { // All parameters of non-static methods are shifted by one in the local // variable frame. int parameterIndex = (method.getAccessFlags() & ClassConstants.INTERNAL_ACC_STATIC) != 0 ? 0 : 1; int referencedClassIndex = 0; int newReferencedClassIndex = 0; // Go over the parameters. InternalTypeEnumeration internalTypeEnumeration = new InternalTypeEnumeration(descriptor); // Also look at the formal type parameters. String type = internalTypeEnumeration.formalTypeParameters(); int count = new DescriptorClassEnumeration(type).classCount(); for (int counter = 0; counter < count; counter++) { referencedClasses[newReferencedClassIndex++] = referencedClasses[referencedClassIndex++]; } while (internalTypeEnumeration.hasMoreTypes()) { // Consider the classes referenced by this parameter type. type = internalTypeEnumeration.nextType(); count = new DescriptorClassEnumeration(type).classCount(); if (ParameterUsageMarker.isParameterUsed(method, parameterIndex)) { // Copy the referenced classes. for (int counter = 0; counter < count; counter++) { referencedClasses[newReferencedClassIndex++] = referencedClasses[referencedClassIndex++]; } } else { // Skip the referenced classes. referencedClassIndex += count; } parameterIndex += ClassUtil.isInternalCategory2Type(type) ? 2 : 1; } // Also look at the return value. type = internalTypeEnumeration.returnType(); count = new DescriptorClassEnumeration(type).classCount(); for (int counter = 0; counter < count; counter++) { referencedClasses[newReferencedClassIndex++] = referencedClasses[referencedClassIndex++]; } // Clear the unused entries. while (newReferencedClassIndex < referencedClassIndex) { referencedClasses[newReferencedClassIndex++] = null; } } return referencedClasses; }
public void visitAnyParameterAnnotationsAttribute( Clazz clazz, Method method, ParameterAnnotationsAttribute parameterAnnotationsAttribute) { int[] annotationsCounts = parameterAnnotationsAttribute.u2parameterAnnotationsCount; Annotation[][] annotations = parameterAnnotationsAttribute.parameterAnnotations; // All parameters of non-static methods are shifted by one in the local // variable frame. int parameterIndex = (method.getAccessFlags() & ClassConstants.INTERNAL_ACC_STATIC) != 0 ? 0 : 1; int annotationIndex = 0; int newAnnotationIndex = 0; // Go over the parameters. String descriptor = method.getDescriptor(clazz); InternalTypeEnumeration internalTypeEnumeration = new InternalTypeEnumeration(descriptor); while (internalTypeEnumeration.hasMoreTypes()) { String type = internalTypeEnumeration.nextType(); if (ParameterUsageMarker.isParameterUsed(method, parameterIndex)) { annotationsCounts[newAnnotationIndex] = annotationsCounts[annotationIndex]; annotations[newAnnotationIndex++] = annotations[annotationIndex]; } annotationIndex++; parameterIndex += ClassUtil.isInternalCategory2Type(type) ? 2 : 1; } // Update the number of parameters. parameterAnnotationsAttribute.u2parametersCount = newAnnotationIndex; // Clear the unused entries. while (newAnnotationIndex < annotationIndex) { annotationsCounts[newAnnotationIndex] = 0; annotations[newAnnotationIndex++] = null; } }